NLTuan/starcoderdata · Datasets at Hugging Face

max_stars_repo_path stringlengths 4 261	max_stars_repo_name stringlengths 6 106	max_stars_count int64 0 38.8k	id stringlengths 1 6	text stringlengths 7 1.05M
audio/music/meetrival.asm	adhi-thirumala/EvoYellow	16	83023	Music_MeetRival_branch_b119:: tempo 100 loopchannel 0, Music_MeetRival_branch_b123 Music_MeetRival_Ch1:: tempo 112 Music_MeetRival_branch_b123:: volume 7, 7 duty 3 vibrato 6, 3, 4 toggleperfectpitch notetype 12, 11, 3 octave 4 D_ 1 C# 1 C_ 1 octave 3 B_ 1 A# 2 A_ 1 G# 1 G_ 1 F# 1 F_ 6 D_ 1 rest 3 D_ 1 rest 5 A_ 2 G_ 2 A_ 2 Music_MeetRival_branch_b140:: B_ 4 A# 2 A_ 4 G_ 2 octave 4 C_ 4 D_ 2 rest 4 D_ 4 C# 2 C_ 2 octave 3 B_ 2 octave 4 C_ 4 E_ 2 D_ 4 C_ 2 octave 3 B_ 4 octave 4 C_ 2 rest 4 G_ 4 G_ 2 F# 2 E_ 2 D_ 2 F# 2 octave 3 A_ 2 octave 4 D_ 2 F# 2 octave 3 A_ 2 octave 4 D_ 2 octave 3 D_ 2 octave 4 D_ 2 rest 2 octave 3 D_ 2 octave 4 C_ 4 octave 3 B_ 2 A# 2 B_ 2 octave 4 C_ 2 F_ 2 octave 3 G_ 2 octave 4 C_ 2 F_ 2 D# 2 C_ 2 octave 3 A# 2 G_ 2 rest 4 A# 4 octave 4 C_ 2 octave 3 A# 2 octave 4 C_ 2 notetype 12, 11, 7 octave 3 G_ 4 D_ 2 F_ 6 F# 4 D_ 2 rest 4 D_ 4 notetype 12, 11, 3 A_ 2 G_ 2 A_ 2 loopchannel 0, Music_MeetRival_branch_b140 Music_MeetRival_branch_b19b:: tempo 100 loopchannel 0, Music_MeetRival_branch_b1a5 Music_MeetRival_branch_b1a2:: tempo 112 Music_MeetRival_branch_b1a5:: volume 7, 7 duty 3 vibrato 6, 3, 4 toggleperfectpitch notetype 12, 11, 3 octave 3 D_ 1 rest 3 D_ 1 rest 5 A_ 2 G_ 2 A_ 2 loopchannel 0, Music_MeetRival_branch_b140 Music_MeetRival_Ch2:: duty 3 vibrato 10, 2, 6 notetype 12, 12, 7 octave 4 B_ 1 A# 1 A_ 1 G# 1 G_ 2 F# 1 F_ 1 E_ 1 D# 1 D_ 6 octave 3 G_ 1 rest 3 G_ 1 rest 3 D_ 1 rest 1 octave 4 D_ 2 F_ 2 F# 2 Music_MeetRival_branch_b1d8:: notetype 12, 12, 7 G_ 4 D_ 2 F_ 6 F# 4 G_ 2 rest 4 G_ 4 G_ 2 A# 2 B_ 2 octave 5 C_ 4 octave 4 G_ 2 A# 6 B_ 4 octave 5 C_ 2 rest 4 C_ 4 C_ 2 octave 4 B_ 2 octave 5 C_ 2 notetype 12, 11, 0 D_ 16 notetype 12, 11, 5 D_ 6 notetype 12, 12, 7 F_ 4 D_ 2 C_ 2 D_ 2 notetype 12, 11, 0 C_ 8 notetype 12, 12, 7 C_ 8 octave 4 C_ 2 rest 4 A# 4 G_ 2 F_ 2 notetype 12, 11, 0 G_ 16 notetype 12, 11, 3 G_ 2 octave 3 G_ 2 rest 4 G_ 4 octave 4 D_ 2 F_ 2 F# 2 loopchannel 0, Music_MeetRival_branch_b1d8 Music_MeetRival_branch_b21d:: duty 3 vibrato 10, 2, 6 notetype 12, 12, 7 octave 3 G_ 1 rest 3 G_ 1 rest 3 D_ 1 rest 1 octave 4 D_ 2 F_ 2 F# 2 loopchannel 0, Music_MeetRival_branch_b1d8 Music_MeetRival_Ch3:: notetype 12, 1, 4 octave 5 D_ 2 rest 2 C# 2 rest 2 C_ 2 rest 2 octave 4 B_ 2 rest 2 G_ 1 rest 3 G_ 1 rest 3 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 Music_MeetRival_branch_b24b:: G_ 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 octave 4 G_ 2 rest 4 octave 5 D_ 4 octave 4 G_ 2 A# 2 B_ 2 G_ 2 octave 5 C_ 2 octave 4 G_ 2 rest 2 octave 5 C_ 2 octave 4 G_ 2 rest 2 B_ 2 octave 5 C_ 2 rest 4 C_ 4 C_ 2 octave 4 B_ 2 A_ 2 F# 2 A_ 2 rest 2 F# 2 A_ 2 F# 2 rest 2 A_ 2 F# 2 A_ 2 rest 2 F# 2 A_ 2 F# 2 octave 5 D_ 2 octave 4 A_ 2 E_ 2 octave 5 C_ 2 rest 2 octave 4 E_ 2 octave 5 C_ 2 octave 4 E_ 2 F_ 2 G_ 2 E_ 2 rest 4 E_ 2 octave 5 C_ 2 octave 4 B_ 2 A# 2 A_ 2 G_ 2 A# 2 rest 2 G_ 2 A# 2 G_ 2 rest 2 A# 2 G_ 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 loopchannel 0, Music_MeetRival_branch_b24b Music_MeetRival_branch_b2b5:: notetype 12, 1, 4 octave 4 G_ 1 rest 3 G_ 1 rest 3 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 loopchannel 0, Music_MeetRival_branch_b24b
zxn_rom3call.asm	imneme/specnext-p3call-z88dk	0	168549	<gh_stars>0 SECTION code_compiler GLOBAL _zxn_rom3call zxn_rom3call_adjstack: ;; stack: retaddr, af, bc, de, hl, ix exx ld hl, 10 add hl, sp ld sp, hl exx ;; stack: retaddr ret ;; on entry, the we have pushed ;; continuation, romaddr, hl', af, bc, de, hl, ix, retaddr _zxn_rom3call: ;; stack: continuation, romaddr, hl', af, bc, de, hl, ix, retaddr pop af ; return address ex af,af' ;; stack: continuation, romaddr, hl', af, bc, de, hl, ix pop de ; stash value for ix in de' ;; stack: continuation, romaddr, hl', af, bc, de, hl exx pop hl ; load main registers for call: hl, de, bc, af ;; stack: continuation, romaddr, hl', af, bc, de pop de ;; stack: continuation, romaddr, hl', af, bc pop bc ;; stack: continuation, romaddr, hl', af pop af ;; stack: continuation, romaddr, hl' exx pop hl ; also load hl' for call (because we can?) ;; stack: continuation, romaddr pop bc ; bc = subroutine to call ;; stack: continuation ex af,af' push af ; stash retaddr on the stack ex af,af' ;; stack: continuation, retaddr push ix ; stash ix (used by zsdcc, must be preserved) ;; stack: continuation, retaddr, ix push iy ; also stash iy (may be messed with by newlib) ;; stack: continuation, retaddr, ix, iy ld iy, $5c3a ; set back to the proper value, ERR_NR ld ixh, d ; load ix for the call ld ixl, e ; ld de, afterwards ; put our own return address on the stack push de ; by hand ;; stack: continuation, retaddr, ix, (our return addr) push bc ;; stack: continuation, retaddr, ix, afterwards, romaddr exx ; move primary registers into place ret ; indirect jump to rom address via return afterwards: ;; stack: continuation, retaddr, ix, iy pop iy ; recover iy ;; stack: continuation, retaddr, ix exx ld d,ixh ; stash ix into de ld e,ixl pop ix ; recover ix (to make zsdcc happy) ;; stack: continuation, retaddr pop bc ; recover retaddr into a spare register ;; stack: continuation pop hl ; recover continuation into hl to jump later ;; stack: (empty) push bc ; start with the return address, underneath all ;; stack: retaddr exx push af ; push main register values for continuation fn ;; stack: retaddr, af push bc ;; stack: retaddr, af, bc push de ;; stack: retaddr, af, bc, de push hl ;; stack: retaddr, af, bc, de, hl exx push de ; ix value, stashed earlier ;; stack: retaddr, af, bc, de, hl, ix ; we return not to our caller, but to the ; stack adjuster ld de, zxn_rom3call_adjstack push de ; push adjstack ;; stack: retaddr, af, bc, de, hl, ix, zxn_rom3call_adjstack jp (hl) ; continue with continuation
src/libav/libavcodec/x86/dsputil_yasm.asm	fillest/rtmp_load	10	246783	;****************************************************************************** ;* MMX optimized DSP utils ;* Copyright (c) 2008 <NAME> ;* ;* This file is part of Libav. ;* ;* Libav is free software; you can redistribute it and/or ;* modify it under the terms of the GNU Lesser General Public ;* License as published by the Free Software Foundation; either ;* version 2.1 of the License, or (at your option) any later version. ;* ;* Libav is distributed in the hope that it will be useful, ;* but WITHOUT ANY WARRANTY; without even the implied warranty of ;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;* Lesser General Public License for more details. ;* ;* You should have received a copy of the GNU Lesser General Public ;* License along with Libav; if not, write to the Free Software ;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ;****************************************************************************** %include "x86inc.asm" %include "x86util.asm" SECTION_RODATA pb_f: times 16 db 15 pb_zzzzzzzz77777777: times 8 db -1 pb_7: times 8 db 7 pb_zzzz3333zzzzbbbb: db -1,-1,-1,-1,3,3,3,3,-1,-1,-1,-1,11,11,11,11 pb_zz11zz55zz99zzdd: db -1,-1,1,1,-1,-1,5,5,-1,-1,9,9,-1,-1,13,13 pb_revwords: db 14, 15, 12, 13, 10, 11, 8, 9, 6, 7, 4, 5, 2, 3, 0, 1 pd_16384: times 4 dd 16384 SECTION_TEXT %macro SCALARPRODUCT 1 ; int scalarproduct_int16(int16_t v1, int16_t v2, int order, int shift) cglobal scalarproduct_int16_%1, 3,3,4, v1, v2, order, shift shl orderq, 1 add v1q, orderq add v2q, orderq neg orderq movd m3, shiftm pxor m2, m2 .loop: movu m0, [v1q + orderq] movu m1, [v1q + orderq + mmsize] pmaddwd m0, [v2q + orderq] pmaddwd m1, [v2q + orderq + mmsize] paddd m2, m0 paddd m2, m1 add orderq, mmsize2 jl .loop %if mmsize == 16 movhlps m0, m2 paddd m2, m0 psrad m2, m3 pshuflw m0, m2, 0x4e %else psrad m2, m3 pshufw m0, m2, 0x4e %endif paddd m2, m0 movd eax, m2 RET ; int scalarproduct_and_madd_int16(int16_t v1, int16_t v2, int16_t v3, int order, int mul) cglobal scalarproduct_and_madd_int16_%1, 4,4,8, v1, v2, v3, order, mul shl orderq, 1 movd m7, mulm %if mmsize == 16 pshuflw m7, m7, 0 punpcklqdq m7, m7 %else pshufw m7, m7, 0 %endif pxor m6, m6 add v1q, orderq add v2q, orderq add v3q, orderq neg orderq .loop: movu m0, [v2q + orderq] movu m1, [v2q + orderq + mmsize] mova m4, [v1q + orderq] mova m5, [v1q + orderq + mmsize] movu m2, [v3q + orderq] movu m3, [v3q + orderq + mmsize] pmaddwd m0, m4 pmaddwd m1, m5 pmullw m2, m7 pmullw m3, m7 paddd m6, m0 paddd m6, m1 paddw m2, m4 paddw m3, m5 mova [v1q + orderq], m2 mova [v1q + orderq + mmsize], m3 add orderq, mmsize2 jl .loop %if mmsize == 16 movhlps m0, m6 paddd m6, m0 pshuflw m0, m6, 0x4e %else pshufw m0, m6, 0x4e %endif paddd m6, m0 movd eax, m6 RET %endmacro INIT_MMX SCALARPRODUCT mmx2 INIT_XMM SCALARPRODUCT sse2 %macro SCALARPRODUCT_LOOP 1 align 16 .loop%1: sub orderq, mmsize2 %if %1 mova m1, m4 mova m4, [v2q + orderq] mova m0, [v2q + orderq + mmsize] palignr m1, m0, %1 palignr m0, m4, %1 mova m3, m5 mova m5, [v3q + orderq] mova m2, [v3q + orderq + mmsize] palignr m3, m2, %1 palignr m2, m5, %1 %else mova m0, [v2q + orderq] mova m1, [v2q + orderq + mmsize] mova m2, [v3q + orderq] mova m3, [v3q + orderq + mmsize] %endif %define t0 [v1q + orderq] %define t1 [v1q + orderq + mmsize] %ifdef ARCH_X86_64 mova m8, t0 mova m9, t1 %define t0 m8 %define t1 m9 %endif pmaddwd m0, t0 pmaddwd m1, t1 pmullw m2, m7 pmullw m3, m7 paddw m2, t0 paddw m3, t1 paddd m6, m0 paddd m6, m1 mova [v1q + orderq], m2 mova [v1q + orderq + mmsize], m3 jg .loop%1 %if %1 jmp .end %endif %endmacro ; int scalarproduct_and_madd_int16(int16_t v1, int16_t v2, int16_t v3, int order, int mul) cglobal scalarproduct_and_madd_int16_ssse3, 4,5,10, v1, v2, v3, order, mul shl orderq, 1 movd m7, mulm pshuflw m7, m7, 0 punpcklqdq m7, m7 pxor m6, m6 mov r4d, v2d and r4d, 15 and v2q, ~15 and v3q, ~15 mova m4, [v2q + orderq] mova m5, [v3q + orderq] ; linear is faster than branch tree or jump table, because the branches taken are cyclic (i.e. predictable) cmp r4d, 0 je .loop0 cmp r4d, 2 je .loop2 cmp r4d, 4 je .loop4 cmp r4d, 6 je .loop6 cmp r4d, 8 je .loop8 cmp r4d, 10 je .loop10 cmp r4d, 12 je .loop12 SCALARPRODUCT_LOOP 14 SCALARPRODUCT_LOOP 12 SCALARPRODUCT_LOOP 10 SCALARPRODUCT_LOOP 8 SCALARPRODUCT_LOOP 6 SCALARPRODUCT_LOOP 4 SCALARPRODUCT_LOOP 2 SCALARPRODUCT_LOOP 0 .end: movhlps m0, m6 paddd m6, m0 pshuflw m0, m6, 0x4e paddd m6, m0 movd eax, m6 RET ;----------------------------------------------------------------------------- ; void ff_apply_window_int16(int16_t output, const int16_t input, ; const int16_t window, unsigned int len) ;----------------------------------------------------------------------------- %macro REVERSE_WORDS_MMXEXT 1-2 pshufw %1, %1, 0x1B %endmacro %macro REVERSE_WORDS_SSE2 1-2 pshuflw %1, %1, 0x1B pshufhw %1, %1, 0x1B pshufd %1, %1, 0x4E %endmacro %macro REVERSE_WORDS_SSSE3 2 pshufb %1, %2 %endmacro ; dst = (dst * src) >> 15 ; pmulhw cuts off the bottom bit, so we have to lshift by 1 and add it back ; in from the pmullw result. %macro MUL16FIXED_MMXEXT 3 ; dst, src, temp mova %3, %1 pmulhw %1, %2 pmullw %3, %2 psrlw %3, 15 psllw %1, 1 por %1, %3 %endmacro ; dst = ((dst * src) + (1<<14)) >> 15 %macro MUL16FIXED_SSSE3 3 ; dst, src, unused pmulhrsw %1, %2 %endmacro %macro APPLY_WINDOW_INT16 3 ; %1=instruction set, %2=mmxext/sse2 bit exact version, %3=has_ssse3 cglobal apply_window_int16_%1, 4,5,6, output, input, window, offset, offset2 lea offset2q, [offsetq-mmsize] %if %2 mova m5, [pd_16384] %elifidn %1, ssse3 mova m5, [pb_revwords] ALIGN 16 %endif .loop: %if %2 ; This version expands 16-bit to 32-bit, multiplies by the window, ; adds 16384 for rounding, right shifts 15, then repacks back to words to ; save to the output. The window is reversed for the second half. mova m3, [windowq+offset2q] mova m4, [ inputq+offset2q] pxor m0, m0 punpcklwd m0, m3 punpcklwd m1, m4 pmaddwd m0, m1 paddd m0, m5 psrad m0, 15 pxor m2, m2 punpckhwd m2, m3 punpckhwd m1, m4 pmaddwd m2, m1 paddd m2, m5 psrad m2, 15 packssdw m0, m2 mova [outputq+offset2q], m0 REVERSE_WORDS m3 mova m4, [ inputq+offsetq] pxor m0, m0 punpcklwd m0, m3 punpcklwd m1, m4 pmaddwd m0, m1 paddd m0, m5 psrad m0, 15 pxor m2, m2 punpckhwd m2, m3 punpckhwd m1, m4 pmaddwd m2, m1 paddd m2, m5 psrad m2, 15 packssdw m0, m2 mova [outputq+offsetq], m0 %elif %3 ; This version does the 16x16->16 multiplication in-place without expanding ; to 32-bit. The ssse3 version is bit-identical. mova m0, [windowq+offset2q] mova m1, [ inputq+offset2q] pmulhrsw m1, m0 REVERSE_WORDS m0, m5 pmulhrsw m0, [ inputq+offsetq ] mova [outputq+offset2q], m1 mova [outputq+offsetq ], m0 %else ; This version does the 16x16->16 multiplication in-place without expanding ; to 32-bit. The mmxext and sse2 versions do not use rounding, and ; therefore are not bit-identical to the C version. mova m0, [windowq+offset2q] mova m1, [ inputq+offset2q] mova m2, [ inputq+offsetq ] MUL16FIXED m1, m0, m3 REVERSE_WORDS m0 MUL16FIXED m2, m0, m3 mova [outputq+offset2q], m1 mova [outputq+offsetq ], m2 %endif add offsetd, mmsize sub offset2d, mmsize jae .loop REP_RET %endmacro INIT_MMX %define REVERSE_WORDS REVERSE_WORDS_MMXEXT %define MUL16FIXED MUL16FIXED_MMXEXT APPLY_WINDOW_INT16 mmxext, 0, 0 APPLY_WINDOW_INT16 mmxext_ba, 1, 0 INIT_XMM %define REVERSE_WORDS REVERSE_WORDS_SSE2 APPLY_WINDOW_INT16 sse2, 0, 0 APPLY_WINDOW_INT16 sse2_ba, 1, 0 APPLY_WINDOW_INT16 ssse3_atom, 0, 1 %define REVERSE_WORDS REVERSE_WORDS_SSSE3 APPLY_WINDOW_INT16 ssse3, 0, 1 ; void add_hfyu_median_prediction_mmx2(uint8_t dst, const uint8_t top, const uint8_t diff, int w, int left, int left_top) cglobal add_hfyu_median_prediction_mmx2, 6,6,0, dst, top, diff, w, left, left_top movq mm0, [topq] movq mm2, mm0 movd mm4, [left_topq] psllq mm2, 8 movq mm1, mm0 por mm4, mm2 movd mm3, [leftq] psubb mm0, mm4 ; t-tl add dstq, wq add topq, wq add diffq, wq neg wq jmp .skip .loop: movq mm4, [topq+wq] movq mm0, mm4 psllq mm4, 8 por mm4, mm1 movq mm1, mm0 ; t psubb mm0, mm4 ; t-tl .skip: movq mm2, [diffq+wq] %assign i 0 %rep 8 movq mm4, mm0 paddb mm4, mm3 ; t-tl+l movq mm5, mm3 pmaxub mm3, mm1 pminub mm5, mm1 pminub mm3, mm4 pmaxub mm3, mm5 ; median paddb mm3, mm2 ; +residual %if i==0 movq mm7, mm3 psllq mm7, 56 %else movq mm6, mm3 psrlq mm7, 8 psllq mm6, 56 por mm7, mm6 %endif %if i<7 psrlq mm0, 8 psrlq mm1, 8 psrlq mm2, 8 %endif %assign i i+1 %endrep movq [dstq+wq], mm7 add wq, 8 jl .loop movzx r2d, byte [dstq-1] mov [leftq], r2d movzx r2d, byte [topq-1] mov [left_topq], r2d RET %macro ADD_HFYU_LEFT_LOOP 1 ; %1 = is_aligned add srcq, wq add dstq, wq neg wq %%.loop: mova m1, [srcq+wq] mova m2, m1 psllw m1, 8 paddb m1, m2 mova m2, m1 pshufb m1, m3 paddb m1, m2 pshufb m0, m5 mova m2, m1 pshufb m1, m4 paddb m1, m2 %if mmsize == 16 mova m2, m1 pshufb m1, m6 paddb m1, m2 %endif paddb m0, m1 %if %1 mova [dstq+wq], m0 %else movq [dstq+wq], m0 movhps [dstq+wq+8], m0 %endif add wq, mmsize jl %%.loop mov eax, mmsize-1 sub eax, wd movd m1, eax pshufb m0, m1 movd eax, m0 RET %endmacro ; int add_hfyu_left_prediction(uint8_t dst, const uint8_t src, int w, int left) INIT_MMX cglobal add_hfyu_left_prediction_ssse3, 3,3,7, dst, src, w, left .skip_prologue: mova m5, [pb_7] mova m4, [pb_zzzz3333zzzzbbbb] mova m3, [pb_zz11zz55zz99zzdd] movd m0, leftm psllq m0, 56 ADD_HFYU_LEFT_LOOP 1 INIT_XMM cglobal add_hfyu_left_prediction_sse4, 3,3,7, dst, src, w, left mova m5, [pb_f] mova m6, [pb_zzzzzzzz77777777] mova m4, [pb_zzzz3333zzzzbbbb] mova m3, [pb_zz11zz55zz99zzdd] movd m0, leftm pslldq m0, 15 test srcq, 15 jnz add_hfyu_left_prediction_ssse3.skip_prologue test dstq, 15 jnz .unaligned ADD_HFYU_LEFT_LOOP 1 .unaligned: ADD_HFYU_LEFT_LOOP 0 ; float scalarproduct_float_sse(const float v1, const float v2, int len) cglobal scalarproduct_float_sse, 3,3,2, v1, v2, offset neg offsetq shl offsetq, 2 sub v1q, offsetq sub v2q, offsetq xorps xmm0, xmm0 .loop: movaps xmm1, [v1q+offsetq] mulps xmm1, [v2q+offsetq] addps xmm0, xmm1 add offsetq, 16 js .loop movhlps xmm1, xmm0 addps xmm0, xmm1 movss xmm1, xmm0 shufps xmm0, xmm0, 1 addss xmm0, xmm1 %ifndef ARCH_X86_64 movd r0m, xmm0 fld dword r0m %endif RET ; extern void ff_emu_edge_core(uint8_t buf, const uint8_t src, x86_reg linesize, ; x86_reg start_y, x86_reg end_y, x86_reg block_h, ; x86_reg start_x, x86_reg end_x, x86_reg block_w); ; ; The actual function itself is below. It basically wraps a very simple ; w = end_x - start_x ; if (w) { ; if (w > 22) { ; jump to the slow loop functions ; } else { ; jump to the fast loop functions ; } ; } ; ; ... and then the same for left/right extend also. See below for loop ; function implementations. Fast are fixed-width, slow is variable-width %macro EMU_EDGE_FUNC 0 %ifdef ARCH_X86_64 %define w_reg r10 cglobal emu_edge_core, 6, 7, 1 mov r11, r5 ; save block_h %else %define w_reg r6 cglobal emu_edge_core, 2, 7, 0 mov r4, r4m ; end_y mov r5, r5m ; block_h %endif ; start with vertical extend (top/bottom) and body pixel copy mov w_reg, r7m sub w_reg, r6m ; w = start_x - end_x sub r5, r4 %ifdef ARCH_X86_64 sub r4, r3 %else sub r4, dword r3m %endif cmp w_reg, 22 jg .slow_v_extend_loop %ifdef ARCH_X86_32 mov r2, r2m ; linesize %endif sal w_reg, 7 ; w 128 %ifdef PIC lea rax, [.emuedge_v_extend_1 - (.emuedge_v_extend_2 - .emuedge_v_extend_1)] add w_reg, rax %else lea w_reg, [.emuedge_v_extend_1 - (.emuedge_v_extend_2 - .emuedge_v_extend_1)+w_reg] %endif call w_reg ; fast top extend, body copy and bottom extend .v_extend_end: ; horizontal extend (left/right) mov w_reg, r6m ; start_x sub r0, w_reg %ifdef ARCH_X86_64 mov r3, r0 ; backup of buf+block_hlinesize mov r5, r11 %else mov r0m, r0 ; backup of buf+block_hlinesize mov r5, r5m %endif test w_reg, w_reg jz .right_extend cmp w_reg, 22 jg .slow_left_extend_loop mov r1, w_reg dec w_reg ; FIXME we can do a if size == 1 here if that makes any speed difference, test me sar w_reg, 1 sal w_reg, 6 ; r0=buf+block_hlinesize,r10(64)/r6(32)=start_x offset for funcs ; r6(rax)/r3(ebx)=val,r2=linesize,r1=start_x,r5=block_h %ifdef PIC lea rax, [.emuedge_extend_left_2] add w_reg, rax %else lea w_reg, [.emuedge_extend_left_2+w_reg] %endif call w_reg ; now r3(64)/r0(32)=buf,r2=linesize,r11/r5=block_h,r6/r3=val, r10/r6=end_x, r1=block_w .right_extend: %ifdef ARCH_X86_32 mov r0, r0m mov r5, r5m %endif mov w_reg, r7m ; end_x mov r1, r8m ; block_w mov r4, r1 sub r1, w_reg jz .h_extend_end ; if (end_x == block_w) goto h_extend_end cmp r1, 22 jg .slow_right_extend_loop dec r1 ; FIXME we can do a if size == 1 here if that makes any speed difference, test me sar r1, 1 sal r1, 6 %ifdef PIC lea rax, [.emuedge_extend_right_2] add r1, rax %else lea r1, [.emuedge_extend_right_2+r1] %endif call r1 .h_extend_end: RET %ifdef ARCH_X86_64 %define vall al %define valh ah %define valw ax %define valw2 r10w %define valw3 r3w %ifdef WIN64 %define valw4 r4w %else ; unix64 %define valw4 r3w %endif %define vald eax %else %define vall bl %define valh bh %define valw bx %define valw2 r6w %define valw3 valw2 %define valw4 valw3 %define vald ebx %define stack_offset 0x14 %endif %endmacro ; macro to read/write a horizontal number of pixels (%2) to/from registers ; on x86-64, - fills xmm0-15 for consecutive sets of 16 pixels ; - if (%2 & 15 == 8) fills the last 8 bytes into rax ; - else if (%2 & 8) fills 8 bytes into mm0 ; - if (%2 & 7 == 4) fills the last 4 bytes into rax ; - else if (%2 & 4) fills 4 bytes into mm0-1 ; - if (%2 & 3 == 3) fills 2 bytes into r10/r3, and 1 into eax ; (note that we're using r3 for body/bottom because it's a shorter ; opcode, and then the loop fits in 128 bytes) ; - else fills remaining bytes into rax ; on x86-32, - fills mm0-7 for consecutive sets of 8 pixels ; - if (%2 & 7 == 4) fills 4 bytes into ebx ; - else if (%2 & 4) fills 4 bytes into mm0-7 ; - if (%2 & 3 == 3) fills 2 bytes into r6, and 1 into ebx ; - else fills remaining bytes into ebx ; writing data out is in the same way %macro READ_NUM_BYTES 2 %assign %%src_off 0 ; offset in source buffer %assign %%smidx 0 ; mmx register idx %assign %%sxidx 0 ; xmm register idx %if cpuflag(sse) %rep %2/16 movups xmm %+ %%sxidx, [r1+%%src_off] %assign %%src_off %%src_off+16 %assign %%sxidx %%sxidx+1 %endrep ; %2/16 %endif %ifdef ARCH_X86_64 %if (%2-%%src_off) == 8 mov rax, [r1+%%src_off] %assign %%src_off %%src_off+8 %endif ; (%2-%%src_off) == 8 %endif ; x86-64 %rep (%2-%%src_off)/8 movq mm %+ %%smidx, [r1+%%src_off] %assign %%src_off %%src_off+8 %assign %%smidx %%smidx+1 %endrep ; (%2-%%dst_off)/8 %if (%2-%%src_off) == 4 mov vald, [r1+%%src_off] %elif (%2-%%src_off) & 4 movd mm %+ %%smidx, [r1+%%src_off] %assign %%src_off %%src_off+4 %endif ; (%2-%%src_off) ==/& 4 %if (%2-%%src_off) == 1 mov vall, [r1+%%src_off] %elif (%2-%%src_off) == 2 mov valw, [r1+%%src_off] %elif (%2-%%src_off) == 3 %ifidn %1, top mov valw2, [r1+%%src_off] %elifidn %1, body mov valw3, [r1+%%src_off] %elifidn %1, bottom mov valw4, [r1+%%src_off] %endif ; %1 ==/!= top mov vall, [r1+%%src_off+2] %endif ; (%2-%%src_off) == 1/2/3 %endmacro ; READ_NUM_BYTES %macro WRITE_NUM_BYTES 2 %assign %%dst_off 0 ; offset in destination buffer %assign %%dmidx 0 ; mmx register idx %assign %%dxidx 0 ; xmm register idx %if cpuflag(sse) %rep %2/16 movups [r0+%%dst_off], xmm %+ %%dxidx %assign %%dst_off %%dst_off+16 %assign %%dxidx %%dxidx+1 %endrep ; %2/16 %endif %ifdef ARCH_X86_64 %if (%2-%%dst_off) == 8 mov [r0+%%dst_off], rax %assign %%dst_off %%dst_off+8 %endif ; (%2-%%dst_off) == 8 %endif ; x86-64 %rep (%2-%%dst_off)/8 movq [r0+%%dst_off], mm %+ %%dmidx %assign %%dst_off %%dst_off+8 %assign %%dmidx %%dmidx+1 %endrep ; (%2-%%dst_off)/8 %if (%2-%%dst_off) == 4 mov [r0+%%dst_off], vald %elif (%2-%%dst_off) & 4 movd [r0+%%dst_off], mm %+ %%dmidx %assign %%dst_off %%dst_off+4 %endif ; (%2-%%dst_off) ==/& 4 %if (%2-%%dst_off) == 1 mov [r0+%%dst_off], vall %elif (%2-%%dst_off) == 2 mov [r0+%%dst_off], valw %elif (%2-%%dst_off) == 3 %ifidn %1, top mov [r0+%%dst_off], valw2 %elifidn %1, body mov [r0+%%dst_off], valw3 %elifidn %1, bottom mov [r0+%%dst_off], valw4 %endif ; %1 ==/!= top mov [r0+%%dst_off+2], vall %endif ; (%2-%%dst_off) == 1/2/3 %endmacro ; WRITE_NUM_BYTES ; vertical top/bottom extend and body copy fast loops ; these are function pointers to set-width line copy functions, i.e. ; they read a fixed number of pixels into set registers, and write ; those out into the destination buffer ; r0=buf,r1=src,r2=linesize,r3(64)/r3m(32)=start_x,r4=end_y,r5=block_h ; r6(eax/64)/r3(ebx/32)=val_reg %macro VERTICAL_EXTEND 0 %assign %%n 1 %rep 22 ALIGN 128 .emuedge_v_extend_ %+ %%n: ; extend pixels above body %ifdef ARCH_X86_64 test r3 , r3 ; if (!start_y) jz .emuedge_copy_body_ %+ %%n %+ _loop ; goto body %else ; ARCH_X86_32 cmp dword r3m, 0 je .emuedge_copy_body_ %+ %%n %+ _loop %endif ; ARCH_X86_64/32 READ_NUM_BYTES top, %%n ; read bytes .emuedge_extend_top_ %+ %%n %+ _loop: ; do { WRITE_NUM_BYTES top, %%n ; write bytes add r0 , r2 ; dst += linesize %ifdef ARCH_X86_64 dec r3d %else ; ARCH_X86_32 dec dword r3m %endif ; ARCH_X86_64/32 jnz .emuedge_extend_top_ %+ %%n %+ _loop ; } while (--start_y) ; copy body pixels .emuedge_copy_body_ %+ %%n %+ _loop: ; do { READ_NUM_BYTES body, %%n ; read bytes WRITE_NUM_BYTES body, %%n ; write bytes add r0 , r2 ; dst += linesize add r1 , r2 ; src += linesize dec r4d jnz .emuedge_copy_body_ %+ %%n %+ _loop ; } while (--end_y) ; copy bottom pixels test r5 , r5 ; if (!block_h) jz .emuedge_v_extend_end_ %+ %%n ; goto end sub r1 , r2 ; src -= linesize READ_NUM_BYTES bottom, %%n ; read bytes .emuedge_extend_bottom_ %+ %%n %+ _loop: ; do { WRITE_NUM_BYTES bottom, %%n ; write bytes add r0 , r2 ; dst += linesize dec r5d jnz .emuedge_extend_bottom_ %+ %%n %+ _loop ; } while (--block_h) .emuedge_v_extend_end_ %+ %%n: %ifdef ARCH_X86_64 ret %else ; ARCH_X86_32 rep ret %endif ; ARCH_X86_64/32 %assign %%n %%n+1 %endrep %endmacro VERTICAL_EXTEND ; left/right (horizontal) fast extend functions ; these are essentially identical to the vertical extend ones above, ; just left/right separated because number of pixels to extend is ; obviously not the same on both sides. ; for reading, pixels are placed in eax (x86-64) or ebx (x86-64) in the ; lowest two bytes of the register (so val0x0101), and are splatted ; into each byte of mm0 as well if n_pixels >= 8 %macro READ_V_PIXEL 2 mov vall, %2 mov valh, vall %if %1 >= 8 movd mm0, vald %if cpuflag(mmx2) pshufw mm0, mm0, 0 %else ; mmx punpcklwd mm0, mm0 punpckldq mm0, mm0 %endif ; sse %endif ; %1 >= 8 %endmacro %macro WRITE_V_PIXEL 2 %assign %%dst_off 0 %rep %1/8 movq [%2+%%dst_off], mm0 %assign %%dst_off %%dst_off+8 %endrep %if %1 & 4 %if %1 >= 8 movd [%2+%%dst_off], mm0 %else ; %1 < 8 mov [%2+%%dst_off] , valw mov [%2+%%dst_off+2], valw %endif ; %1 >=/< 8 %assign %%dst_off %%dst_off+4 %endif ; %1 & 4 %if %1&2 mov [%2+%%dst_off], valw %endif ; %1 & 2 %endmacro ; r0=buf+block_hlinesize, r1=start_x, r2=linesize, r5=block_h, r6/r3=val %macro LEFT_EXTEND 0 %assign %%n 2 %rep 11 ALIGN 64 .emuedge_extend_left_ %+ %%n: ; do { sub r0, r2 ; dst -= linesize READ_V_PIXEL %%n, [r0+r1] ; read pixels WRITE_V_PIXEL %%n, r0 ; write pixels dec r5 jnz .emuedge_extend_left_ %+ %%n ; } while (--block_h) %ifdef ARCH_X86_64 ret %else ; ARCH_X86_32 rep ret %endif ; ARCH_X86_64/32 %assign %%n %%n+2 %endrep %endmacro ; LEFT_EXTEND ; r3/r0=buf+block_hlinesize, r2=linesize, r11/r5=block_h, r0/r6=end_x, r6/r3=val %macro RIGHT_EXTEND 0 %assign %%n 2 %rep 11 ALIGN 64 .emuedge_extend_right_ %+ %%n: ; do { %ifdef ARCH_X86_64 sub r3, r2 ; dst -= linesize READ_V_PIXEL %%n, [r3+w_reg-1] ; read pixels WRITE_V_PIXEL %%n, r3+r4-%%n ; write pixels dec r11 %else ; ARCH_X86_32 sub r0, r2 ; dst -= linesize READ_V_PIXEL %%n, [r0+w_reg-1] ; read pixels WRITE_V_PIXEL %%n, r0+r4-%%n ; write pixels dec r5 %endif ; ARCH_X86_64/32 jnz .emuedge_extend_right_ %+ %%n ; } while (--block_h) %ifdef ARCH_X86_64 ret %else ; ARCH_X86_32 rep ret %endif ; ARCH_X86_64/32 %assign %%n %%n+2 %endrep %ifdef ARCH_X86_32 %define stack_offset 0x10 %endif %endmacro ; RIGHT_EXTEND ; below follow the "slow" copy/extend functions, these act on a non-fixed ; width specified in a register, and run a loop to copy the full amount ; of bytes. They are optimized for copying of large amounts of pixels per ; line, so they unconditionally splat data into mm registers to copy 8 ; bytes per loop iteration. It could be considered to use xmm for x86-64 ; also, but I haven't optimized this as much (i.e. FIXME) %macro V_COPY_NPX 4-5 %if %0 == 4 test w_reg, %4 jz .%1_skip_%4_px %else ; %0 == 5 .%1_%4_px_loop: %endif %3 %2, [r1+cnt_reg] %3 [r0+cnt_reg], %2 add cnt_reg, %4 %if %0 == 5 sub w_reg, %4 test w_reg, %5 jnz .%1_%4_px_loop %endif .%1_skip_%4_px: %endmacro %macro V_COPY_ROW 2 %ifidn %1, bottom sub r1, linesize %endif .%1_copy_loop: xor cnt_reg, cnt_reg %if notcpuflag(sse) %define linesize r2m V_COPY_NPX %1, mm0, movq, 8, 0xFFFFFFF8 %else ; sse V_COPY_NPX %1, xmm0, movups, 16, 0xFFFFFFF0 %ifdef ARCH_X86_64 %define linesize r2 V_COPY_NPX %1, rax , mov, 8 %else ; ARCH_X86_32 %define linesize r2m V_COPY_NPX %1, mm0, movq, 8 %endif ; ARCH_X86_64/32 %endif ; sse V_COPY_NPX %1, vald, mov, 4 V_COPY_NPX %1, valw, mov, 2 V_COPY_NPX %1, vall, mov, 1 mov w_reg, cnt_reg %ifidn %1, body add r1, linesize %endif add r0, linesize dec %2 jnz .%1_copy_loop %endmacro %macro SLOW_V_EXTEND 0 .slow_v_extend_loop: ; r0=buf,r1=src,r2(64)/r2m(32)=linesize,r3(64)/r3m(32)=start_x,r4=end_y,r5=block_h ; r11(64)/r3(later-64)/r2(32)=cnt_reg,r6(64)/r3(32)=val_reg,r10(64)/r6(32)=w=end_x-start_x %ifdef ARCH_X86_64 push r11 ; save old value of block_h test r3, r3 %define cnt_reg r11 jz .do_body_copy ; if (!start_y) goto do_body_copy V_COPY_ROW top, r3 %else cmp dword r3m, 0 %define cnt_reg r2 je .do_body_copy ; if (!start_y) goto do_body_copy V_COPY_ROW top, dword r3m %endif .do_body_copy: V_COPY_ROW body, r4 %ifdef ARCH_X86_64 pop r11 ; restore old value of block_h %define cnt_reg r3 %endif test r5, r5 %ifdef ARCH_X86_64 jz .v_extend_end %else jz .skip_bottom_extend %endif V_COPY_ROW bottom, r5 %ifdef ARCH_X86_32 .skip_bottom_extend: mov r2, r2m %endif jmp .v_extend_end %endmacro %macro SLOW_LEFT_EXTEND 0 .slow_left_extend_loop: ; r0=buf+block_hlinesize,r2=linesize,r6(64)/r3(32)=val,r5=block_h,r4=cntr,r10/r6=start_x mov r4, 8 sub r0, linesize READ_V_PIXEL 8, [r0+w_reg] .left_extend_8px_loop: movq [r0+r4-8], mm0 add r4, 8 cmp r4, w_reg jle .left_extend_8px_loop sub r4, 8 cmp r4, w_reg jge .left_extend_loop_end .left_extend_2px_loop: mov [r0+r4], valw add r4, 2 cmp r4, w_reg jl .left_extend_2px_loop .left_extend_loop_end: dec r5 jnz .slow_left_extend_loop %ifdef ARCH_X86_32 mov r2, r2m %endif jmp .right_extend %endmacro %macro SLOW_RIGHT_EXTEND 0 .slow_right_extend_loop: ; r3(64)/r0(32)=buf+block_hlinesize,r2=linesize,r4=block_w,r11(64)/r5(32)=block_h, ; r10(64)/r6(32)=end_x,r6/r3=val,r1=cntr %ifdef ARCH_X86_64 %define buf_reg r3 %define bh_reg r11 %else %define buf_reg r0 %define bh_reg r5 %endif lea r1, [r4-8] sub buf_reg, linesize READ_V_PIXEL 8, [buf_reg+w_reg-1] .right_extend_8px_loop: movq [buf_reg+r1], mm0 sub r1, 8 cmp r1, w_reg jge .right_extend_8px_loop add r1, 8 cmp r1, w_reg je .right_extend_loop_end .right_extend_2px_loop: sub r1, 2 mov [buf_reg+r1], valw cmp r1, w_reg jg .right_extend_2px_loop .right_extend_loop_end: dec bh_reg jnz .slow_right_extend_loop jmp .h_extend_end %endmacro %macro emu_edge 1 INIT_XMM %1 EMU_EDGE_FUNC VERTICAL_EXTEND LEFT_EXTEND RIGHT_EXTEND SLOW_V_EXTEND SLOW_LEFT_EXTEND SLOW_RIGHT_EXTEND %endmacro emu_edge sse %ifdef ARCH_X86_32 emu_edge mmx %endif ;----------------------------------------------------------------------------- ; void ff_vector_clip_int32(int32_t dst, const int32_t src, int32_t min, ; int32_t max, unsigned int len) ;----------------------------------------------------------------------------- ; %1 = number of xmm registers used ; %2 = number of inline load/process/store loops per asm loop ; %3 = process 4mmsize (%3=0) or 8mmsize (%3=1) bytes per loop ; %4 = CLIPD function takes min/max as float instead of int (CLIPD_SSE2) ; %5 = suffix %macro VECTOR_CLIP_INT32 4-5 cglobal vector_clip_int32%5, 5,5,%2, dst, src, min, max, len %if %4 cvtsi2ss m4, minm cvtsi2ss m5, maxm %else movd m4, minm movd m5, maxm %endif SPLATD m4 SPLATD m5 .loop: %assign %%i 1 %rep %2 mova m0, [srcq+mmsize0%%i] mova m1, [srcq+mmsize1%%i] mova m2, [srcq+mmsize2%%i] mova m3, [srcq+mmsize3%%i] %if %3 mova m7, [srcq+mmsize4%%i] mova m8, [srcq+mmsize5%%i] mova m9, [srcq+mmsize6%%i] mova m10, [srcq+mmsize7%%i] %endif CLIPD m0, m4, m5, m6 CLIPD m1, m4, m5, m6 CLIPD m2, m4, m5, m6 CLIPD m3, m4, m5, m6 %if %3 CLIPD m7, m4, m5, m6 CLIPD m8, m4, m5, m6 CLIPD m9, m4, m5, m6 CLIPD m10, m4, m5, m6 %endif mova [dstq+mmsize0%%i], m0 mova [dstq+mmsize1%%i], m1 mova [dstq+mmsize2%%i], m2 mova [dstq+mmsize3%%i], m3 %if %3 mova [dstq+mmsize4%%i], m7 mova [dstq+mmsize5%%i], m8 mova [dstq+mmsize6%%i], m9 mova [dstq+mmsize7%%i], m10 %endif %assign %%i %%i+1 %endrep add srcq, mmsize4(%2+%3) add dstq, mmsize4(%2+%3) sub lend, mmsize(%2+%3) jg .loop REP_RET %endmacro INIT_MMX mmx %define SPLATD SPLATD_MMX %define CLIPD CLIPD_MMX VECTOR_CLIP_INT32 0, 1, 0, 0 INIT_XMM sse2 %define SPLATD SPLATD_SSE2 VECTOR_CLIP_INT32 6, 1, 0, 0, _int %define CLIPD CLIPD_SSE2 VECTOR_CLIP_INT32 6, 2, 0, 1 INIT_XMM sse4 %define CLIPD CLIPD_SSE41 %ifdef m8 VECTOR_CLIP_INT32 11, 1, 1, 0 %else VECTOR_CLIP_INT32 6, 1, 0, 0 %endif ;----------------------------------------------------------------------------- ; void ff_butterflies_float_interleave(float dst, const float src0, ; const float src1, int len); ;----------------------------------------------------------------------------- %macro BUTTERFLIES_FLOAT_INTERLEAVE 0 cglobal butterflies_float_interleave, 4,4,3, dst, src0, src1, len %ifdef ARCH_X86_64 movsxd lenq, lend %endif test lenq, lenq jz .end shl lenq, 2 lea src0q, [src0q + lenq] lea src1q, [src1q + lenq] lea dstq, [ dstq + 2lenq] neg lenq .loop: mova m0, [src0q + lenq] mova m1, [src1q + lenq] subps m2, m0, m1 addps m0, m0, m1 unpcklps m1, m0, m2 unpckhps m0, m0, m2 %if cpuflag(avx) vextractf128 [dstq + 2lenq ], m1, 0 vextractf128 [dstq + 2lenq + 16], m0, 0 vextractf128 [dstq + 2lenq + 32], m1, 1 vextractf128 [dstq + 2lenq + 48], m0, 1 %else mova [dstq + 2lenq ], m1 mova [dstq + 2*lenq + mmsize], m0 %endif add lenq, mmsize jl .loop %if mmsize == 32 vzeroupper RET %endif .end: REP_RET %endmacro INIT_XMM sse BUTTERFLIES_FLOAT_INTERLEAVE INIT_YMM avx BUTTERFLIES_FLOAT_INTERLEAVE
Chapter1/#7.agda	CodaFi/HoTT-Exercises	0	16685	<reponame>CodaFi/HoTT-Exercises module #7 where {- Exercise 1.7. Give an alternative derivation of ind′=A from ind=A which avoids the use of universes. (This is easiest using concepts from later chapters.) -} open import Relation.Binary.PropositionalEquality ind'₌A : ∀{a}{A : Set a} → (C : (x y : A) → (x ≡ y) → Set) → ((x : A) → C x x refl) → (x y : A) → (p : x ≡ y) → C x y p ind'₌A = {!!}
tools/SPARK2005/packages/polypaver/pp_lf_rounded.ads	michalkonecny/polypaver	1	20195	<reponame>michalkonecny/polypaver<filename>tools/SPARK2005/packages/polypaver/pp_lf_rounded.ads<gh_stars>1-10 package PP_LF_Rounded is -- Operations whose semantics is the same as the corresponding -- operations on type Long_Float. These operations can appear both in -- Ada expressions and in SPARK assertions. -- -- The intention is that programmers do not enter these operations -- directly into the Ada code. Instead the provided pre-processor -- replaces each ordinary operator or call of an Long_Elementary_Functions -- function with a corresponding function from this package. -- -- The Prec parameter is used only by PolyPaver to work -- out the rounding precision. The value for Prec is supplied -- by the pre-processor. function Plus (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Plus(Prec,X,Y) in Long_Float; function Minus (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Minus(Prec,X,Y) in Long_Float; function Multiply (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Multiply(Prec,X,Y) in Long_Float; function Divide (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Y /= 0.0 and --# Divide(Prec,X,Y) in Long_Float; function Pi(Prec : Integer) return Long_Float; function Exp (Prec : Integer; X : Long_Float) return Long_Float; --# pre Exp(Prec,X) in Long_Float; function Sqrt (Prec : Integer; X : Long_Float) return Long_Float; --# pre X >= 0.0 and --# Sqrt(Prec,X) in Long_Float; end PP_LF_Rounded;
src/lexer/antlr/com/arakelian/graphql/parser/GraphqlLexer.g4	arakelian/graphql-parser	0	792	lexer grammar GraphqlLexer; @header { // @formatter:off package com.arakelian.graphql.parser; } channels { WHITESPACE_CHANNEL } // // Token // BooleanValue: 'true' \| 'false'; FRAGMENT : 'fragment'; QUERY : 'query'; MUTATION : 'mutation'; SCHEMA : 'schema'; SCALAR : 'scalar'; TYPE : 'type'; INTERFACE : 'interface'; IMPLEMENTS : 'implements'; ENUM : 'enum'; UNION : 'union'; INPUT : 'input'; EXTEND : 'extend'; DIRECTIVE : 'directive'; ON : 'on'; // must come before NAME NAME : [_A-Za-z][_0-9A-Za-z]; IntValue : Sign? IntegerPart; FloatValue : Sign? IntegerPart ('.' Digit)? ExponentPart?; Sign : '-'; IntegerPart : '0' \| NonZeroDigit \| NonZeroDigit Digit+; NonZeroDigit: '1'.. '9'; ExponentPart : ('e'\|'E') Sign? Digit+; Digit : '0'..'9'; StringValue: '"' (~(["\\\n\r\u2028\u2029])\|EscapedChar)* '"'; fragment EscapedChar : '\\' (["\\/bfnrt] \| Unicode) ; fragment Unicode : 'u' Hex Hex Hex Hex; fragment Hex : [0-9a-fA-F]; Ignored: (Whitespace\|Comma\|LineTerminator) -> channel(WHITESPACE_CHANNEL); fragment LineTerminator: [\n\r\u2028\u2029]; fragment Whitespace : [\t\u000b\f\u0020\u00a0]; fragment Comma : ','; LPAREN : '('; RPAREN : ')'; COLON : ':'; DOLLAR : '$'; EQUALS : '='; LBRACE : '{'; RBRACE : '}'; SPREAD : '...'; LBRACKET : '['; RBRACKET : ']'; AT : '@'; VERTICAL_BAR : '\|'; EXCLAMATION : '!'; // lowest priority Comments: Comment -> channel(WHITESPACE_CHANNEL); fragment Comment: '#' ~[\n\r\u2028\u2029]*;
Math/NumberTheory/Summation/Nat/Properties.agda	rei1024/agda-misc	3	13003	<filename>Math/NumberTheory/Summation/Nat/Properties.agda {-# OPTIONS --without-K --safe #-} module Math.NumberTheory.Summation.Nat.Properties where -- agda-stdlib open import Algebra import Algebra.Operations.CommutativeMonoid as CommutativeMonoidOperations open import Data.Nat open import Data.Nat.Properties open import Data.Nat.Solver open import Relation.Binary.PropositionalEquality open import Function.Base -- agda-misc open import Math.NumberTheory.Summation.Generic open import Math.NumberTheory.Summation.Generic.Properties import Math.NumberTheory.Summation.Nat.Properties.Lemma as Lemma -- DO NOT change this line open MonoidSummation (Semiring.+-monoid -+-semiring) open CommutativeMonoidOperations (Semiring.+-commutativeMonoid -+-semiring) -- TODO? rename _≈_ to _≡_ this is tedious open SemiringSummationProperties -+-semiring public renaming ( Σ<-const to Σ<-const-× ; Σ≤-const to Σ≤-const-× ; Σ<range-const to Σ<range-const-× ; Σ≤range-const to Σ≤range-const-× ) -- TODO move somewhere private m×n≡mn : ∀ m n → m × n ≡ m * n m×n≡mn zero n = refl m×n≡mn (suc m) n = cong (n +_) $ m×n≡mn m n Σ<-const : ∀ m n → Σ< m (λ _ → n) ≡ m n Σ<-const m n = begin-equality Σ< m (λ _ → n) ≡⟨ Σ<-const-× m n ⟩ m × n ≡⟨ m×n≡mn m n ⟩ m n ∎ where open ≤-Reasoning Σ≤-const : ∀ m n → Σ≤ m (λ _ → n) ≡ suc m * n Σ≤-const m n = Σ<-const (suc m) n Σ<range-const : ∀ m n x → Σ<range m n (const x) ≡ (n ∸ m) * x Σ<range-const m n x = trans (Σ<range-const-× m n x) (m×n≡mn (n ∸ m) x) Σ≤range-const : ∀ m n x → Σ≤range m n (const x) ≡ (suc n ∸ m) x Σ≤range-const m n x = Σ<range-const m (suc n) x 2Σ≤[n,id]≡n[1+n] : ∀ n → 2 * Σ≤ n id ≡ n * (suc n) 2Σ≤[n,id]≡n[1+n] zero = refl 2Σ≤[n,id]≡n[1+n] (suc n) = begin-equality 2 * Σ≤ (suc n) id ≡⟨⟩ 2 * (Σ≤ n id + suc n) ≡⟨ -distribˡ-+ 2 (Σ≤ n id) (suc n) ⟩ 2 Σ≤ n id + 2 * suc n ≡⟨ cong (_+ 2 * suc n) $ 2Σ≤[n,id]≡n[1+n] n ⟩ n * suc n + 2 * suc n ≡⟨ sym $ -distribʳ-+ (suc n) n 2 ⟩ (n + 2) suc n ≡⟨ -comm (n + 2) (suc n) ⟩ suc n (n + 2) ≡⟨ cong (suc n _) $ +-comm n 2 ⟩ suc n suc (suc n) ∎ where open ≤-Reasoning 6Σ≤[n,^2]≡n[1+n][1+2n] : ∀ n → 6 * Σ≤ n (_^ 2) ≡ n * (1 + n) * (1 + 2 * n) 6Σ≤[n,^2]≡n[1+n][1+2n] 0 = refl 6Σ≤[n,^2]≡n[1+n][1+2n] (suc n) = begin-equality 6 * Σ≤ (suc n) (_^ 2) ≡⟨⟩ 6 * (Σ≤ n (_^ 2) + suc n ^ 2) ≡⟨ -distribˡ-+ 6 (Σ≤ n (_^ 2)) (suc n ^ 2) ⟩ 6 Σ≤ n (_^ 2) + 6 * (suc n ^ 2) ≡⟨ cong (_+ 6 * (suc n ^ 2)) $ 6Σ≤[n,^2]≡n[1+n][1+2n] n ⟩ n * (1 + n) * (1 + 2 * n) + 6 * ((1 + n) ^ 2) ≡⟨ Lemma.lemma₁ n ⟩ (1 + n) * (2 + n) * (1 + 2 * (1 + n)) ∎ where open ≤-Reasoning -- Arithmetic sequence {- 2Σ<[n,i→d+ai]≡??? : ∀ n d a → 2 * Σ< n (λ i → d + a * i) ≡ n * (2 * d + a * suc n) 2Σ<[n,i→d+ai]≡??? n d a = begin-equality 2 * Σ< n (λ i → d + a * i) ≡⟨ {! !} ⟩ 2 * (Σ< n (λ _ → d) + Σ< n (λ i → a * i)) 2 * (n * d + a * Σ< n id) 2 * (n * d) + 2 * (a * Σ< n id) 2 * n * d + a * (2 * Σ< n id) 2 * n * d + a * (n * suc n) n * (2 * d + a * suc n) ∎ where oepn ≤-Reasoning -}
alloy4fun_models/trashltl/models/11/QDgDtZbouQb5uoRSw.als	Kaixi26/org.alloytools.alloy	0	2464	<reponame>Kaixi26/org.alloytools.alloy open main pred idQDgDtZbouQb5uoRSw_prop12 { } pred __repair { idQDgDtZbouQb5uoRSw_prop12 } check __repair { idQDgDtZbouQb5uoRSw_prop12 <=> prop12o }
libc/setjmp/longjmp.asm	greck2908/LudOS	44	17722	<reponame>greck2908/LudOS global _longjmp global longjmp _longjmp: longjmp: mov edx, [esp+4] mov eax, [esp+8] test eax,eax jnz lbl inc eax lbl: mov ebx, [edx] mov esi, [edx+4] mov edi, [edx+8] mov ebp, [edx+12] mov ecx, [edx+16] mov esp, ecx mov ecx, [edx+20] jmp ecx
unit_tests.asm	lmartorella/z80-sample-program	14	173613	;======================================================== ; unit_tests.asm ; ; Collects and executes all unit tests. ;======================================================== include "unit_tests.inc" ; Initialization routine called before all unit tests are ; started. UNITTEST_INITIALIZE ; Do your initialization here ... ; ... ; ... ; For this simple example we don't need any special initialization. ; So we simply return. ; Please note: the stack pointer does not need to be setup explicitly ; for the unit tests. ret MODULE TestSuite_ClearScreen ; A unit testcase needs to start with "UT_" (upper case letters). ; DeZog will collect all these labels and offer them for execution. ; Tests that the screen is cleared/filled with 0's. UT_clear_screen: ; Write some bytes to the screen area ld a,0xFF ld (SCREEN),a ld (SCREEN+SCREEN_SIZE/2),a ld (SCREEN+SCREEN_SIZE-1),a ld (SCREEN+SCREEN_SIZE),a ; Now clear the screen call clear_screen ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE SCREEN, 0 TEST_MEMORY_BYTE SCREEN+SCREEN_SIZE/2, 0 TEST_MEMORY_BYTE SCREEN+SCREEN_SIZE-1, 0 TEST_MEMORY_BYTE SCREEN+SCREEN_SIZE, 0xFF nop TC_END ; Tests filling the background. UT_fill_backg: ; Write some bytes to the screen area ld a,0xFF ld (COLOR_SCREEN),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE/2),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE-1),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE),a ; Now fill the background with 128 ld a,128 call fill_backg ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE COLOR_SCREEN, 128 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE/2, 128 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE-1, 128 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE, 0xFF TC_END ; Tests clearing the background. UT_clear_backg: ; Write some bytes to the screen area ld a,0xFF ld (COLOR_SCREEN),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE/2),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE-1),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE),a ; Now clear the background call clear_backg ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE COLOR_SCREEN, 0 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE/2, 0 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE-1, 0 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE, 0xFF TC_END ENDMODULE MODULE TestSuite_Fill ; Tests filling a memory area UT_fill_memory: ; Write some bytes ld a,0xFF ld (fill_memory_data-1),a ld (fill_memory_data),a ld (fill_memory_data+FILL_MEMORY_SIZE/2),a ld (fill_memory_data+FILL_MEMORY_SIZE-1),a ld (fill_memory_data+FILL_MEMORY_SIZE),a ; Now fill the memory area ld a,22 ld hl,fill_memory_data ld bc,FILL_MEMORY_SIZE call fill_memory ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE fill_memory_data-1, 0xFF TEST_MEMORY_BYTE fill_memory_data, 22 TEST_MEMORY_BYTE fill_memory_data+FILL_MEMORY_SIZE/2, 22 TEST_MEMORY_BYTE fill_memory_data+FILL_MEMORY_SIZE-1, 22 TEST_MEMORY_BYTE fill_memory_data+FILL_MEMORY_SIZE, 0xFF TC_END FILL_MEMORY_SIZE: equ 10 defb 0 fill_memory_data: defs 10 defb 0 ; Tests filling a line in the background color screen. UT_fill_bckg_line_normal: ; Initialize background call clear_backg ; Fill line with color ld a,MAGENTA ld de,COLOR_SCREEN call fill_bckg_line ; Test that line is filled TEST_MEMORY_BYTE COLOR_SCREEN, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+16, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+31, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+32, 0 ; Test that de points to the next line nop ; ASSERTION DE == COLOR_SCREEN+32 TC_END ; Test wrap around. UT_fill_bckg_line_wrap_around: ; Initialize background call clear_backg ; Fill line with color ld a,MAGENTA ld de,COLOR_SCREEN+2332 call fill_bckg_line ; Test that line is filled TEST_MEMORY_BYTE COLOR_SCREEN+2332, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+2332+16, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+2332+31, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+23*32-1, 0 ; Test that de points to the first line (wrap around) nop ; ASSERTION DE == COLOR_SCREEN TC_END ; Test wrap around. UT_fill_colors_ptr: ; Start value ld hl,fill_colors ld (fill_colors_ptr),hl ; Test increment call inc_fill_colors_ptr ; Test that pointer is moved to next line TEST_MEMORY_WORD fill_colors_ptr, fill_colors+1 ; Test increment call inc_fill_colors_ptr ; Test that pointer is moved to next line TEST_MEMORY_WORD fill_colors_ptr, fill_colors+2 ; Last value ld hl,fill_colors_end-1 ld (fill_colors_ptr),hl ; Test increment call inc_fill_colors_ptr ; Test that pointer wraps around and points to first line TEST_MEMORY_WORD fill_colors_ptr, fill_colors TC_END ENDMODULE
projects/06/symbols/Variables.asm	chapnitsky/Nand2Tetris	0	98003	<reponame>chapnitsky/Nand2Tetris // Copyright <NAME>, January 2018. // Free for educational use. // Tests the use of variables, or user-defined symbols, // through this somewhat creative infinite counting loop. @foo M=-1 @bar M=1 @count M=1 @count M=M+1 @foo D=M+1 D=D+1 @bar D=D-M @6 D;JEQ
packages/luis/src/parser/lufile/LUFileLexer.g4	Fortschritt69/botframework-cli	0	3983	<reponame>Fortschritt69/botframework-cli<gh_stars>0 lexer grammar LUFileLexer; @lexer::members { this.ignoreWS = true; // usually we ignore whitespace, but inside template, whitespace is significant } fragment LETTER: 'a'..'z' \| 'A'..'Z'; fragment NUMBER: '0'..'9'; fragment WHITESPACE : ' '\|'\t'\|'\ufeff'\|'\u00a0' ; fragment UTTERANCE_MARK: '-' \| '' \| '+'; MODEL_INFO : '>' WHITESPACE '!#' ~('\r'\|'\n')+ ; COMMENT : '>' ~('\r'\|'\n')+ -> skip ; WS : WHITESPACE+ -> skip ; NEWLINE : '\r'? '\n' -> skip ; QNA : '#'+ WHITESPACE+ '?' {this.ignoreWS = false;} -> pushMode(QNA_MODE) ; HASH : '#'+ {this.ignoreWS = true;} -> pushMode(INTENT_NAME_MODE) ; DASH : UTTERANCE_MARK {this.ignoreWS = true;} -> pushMode(LIST_BODY_MODE) ; DOLLAR : '$' {this.ignoreWS = true;} -> pushMode(ENTITY_MODE) ; AT : '@' {this.ignoreWS = true;} -> pushMode(NEW_ENTITY_MODE) ; IMPORT_DESC : '[' .? ']' ; IMPORT_PATH : '(' .? ')' ; FILTER_MARK : 'Filters:' ; MULTI_LINE_TEXT : '```markdown' .? '```' ; INVALID_TOKEN_DEFAULT_MODE : . ; mode NEW_ENTITY_MODE; WS_IN_NEW_ENTITY_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_NEW_ENTITY : WHITESPACE+ -> type(WS) ; NEWLINE_IN_NEW_ENTITY : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; COMMA : ',' ; NEW_EQUAL : '=' ; HAS_ROLES_LABEL : 'hasRole' 's'? ; HAS_FEATURES_LABEL : 'usesFeature' 's'? ; NEW_ENTITY_TYPE_IDENTIFIER : 'simple'\|'list'\|'regex'\|'prebuilt'\|'composite'\|'machine-learned'\|'patternany'\|'phraselist' ; NEW_ENTITY_IDENTIFIER : (LETTER \| NUMBER \| '_' \| '-' \| '\|' \| '.' \| '(' \| ')')+ ; NEW_ENTITY_IDENTIFIER_WITH_WS : ('\'' \| '"') (LETTER \| NUMBER \| '_' \| '-' \| '\|' \| '.' \| WS)+ ('\'' \| '"') ; NEW_COMPOSITE_ENTITY : '[' (~[\r\n{}[()]) ']' ; NEW_REGEX_ENTITY : '/' (~[\r\n])* '/' ; NEW_TEXT : ~[ \t\r\n.,;]+ ; mode INTENT_NAME_MODE; WS_IN_NAME_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_NAME : WHITESPACE+ -> type(WS) ; NEWLINE_IN_NAME : '\r'? '\n' -> type(NEWLINE), popMode ; IDENTIFIER : (LETTER \| NUMBER \| '_') (LETTER \| NUMBER \| '-' \| '_')* { this.ignoreWS = false;} ; DOT : '.' ; mode LIST_BODY_MODE; // a little tedious on the rules, a big improvement on portability WS_IN_LIST_BODY_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_LIST_BODY : WHITESPACE+ -> type(WS) ; NEWLINE_IN_LIST_BODY : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; ESCAPE_CHARACTER : '\\{' \| '\\[' \| '\\\\' \| '\\'[rtn\]}] { this.ignoreWS = false;} ; EXPRESSION : '{' (~[\r\n{}] \| ('{' ~[\r\n]* '}'))* '}' { this.ignoreWS = false;} ; TEXT : ~[ \t\r\n{}]+ { this.ignoreWS = false;} ; mode ENTITY_MODE; WS_IN_ENTITY_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_ENTITY : WHITESPACE+ -> type(WS) ; NEWLINE_IN_ENTITY : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; ENTITY_IDENTIFIER : (LETTER \| NUMBER \| '_' \| '-' \| '\|' \| '.')+ { this.ignoreWS = false;} ; COMPOSITE_ENTITY : '[' (~[\r\n{}[()])* ; REGEX_ENTITY : '/' (~[\r\n])* ; COLON_MARK : ':' ; SPECIAL_CHAR_MARK : '=' \| ',' \| '!' ; mode QNA_MODE; WS_IN_QNA_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_QNA : WHITESPACE+ -> type(WS) ; NEWLINE_IN_QNA : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; QNA_TEXT : ~[ \t\r\n{}]+ { this.ignoreWS = false;} ;
libsrc/_DEVELOPMENT/arch/zxn/esxdos/z80/asm_esx_f_chmod.asm	jpoikela/z88dk	640	173341	; unsigned char esx_f_chmod(unsigned char filename, uint8_t attr_mask, uint8_t attr) INCLUDE "config_private.inc" SECTION code_esxdos PUBLIC asm_esx_f_chmod EXTERN error_znc EXTERN __esxdos_error_mc asm_esx_f_chmod: ; enter : hl = char filename ; c = attr bits to change ; b = attr ; ; exit : success ; ; hl = 0 ; carry reset ; ; fail ; ; hl = -1 ; carry set, errno set ; ; uses : af, bc, de, hl, ix ld a,'' IF __SDCC_IY push hl pop iy ELSE push hl pop ix ENDIF rst __ESX_RST_SYS defb __ESX_F_CHMOD jp nc, error_znc jp __esxdos_error_mc ; ************************************************************************** ; * F_CHMOD ($af) * ; *************************************************************************** ; Modify file attributes. ; Entry: ; A=drive specifier (overridden if filespec includes a drive) ; IX=filespec, null-terminated ; B=attribute values bitmap ; C=bitmap of attributes to change (1=change, 0=do not change) ; ; Bitmasks for B and C are any combination of: ; A_WRITE %00000001 ; A_READ %10000000 ; A_RDWR %10000001 ; A_HIDDEN %00000010 ; A_SYSTEM %00000100 ; A_ARCH %00100000 ; ; Exit (success): ; Fc=0 ; Exit (failure): ; Fc=1 ; A=error code
programs/oeis/053/A053193.asm	jmorken/loda	1	173947	; A053193: Cototient of odd numbers. ; 1,1,1,3,1,1,7,1,1,9,1,5,9,1,1,13,11,1,15,1,1,21,1,7,19,1,15,21,1,1,27,17,1,25,1,1,35,17,1,27,1,21,31,1,19,33,23,1,39,1,1,57,1,1,39,1,27,45,23,11,43,25,1,45,1,25,63,1,1,49,23,33,63,1,1,57,35,1,55,29,1,85,1,13,63,1,55,61,1,1,63,41,27,81,1,1,99,1,1,69,35,45,75,29,1,73,47,37,75,29,1,105,1,1,111,1,51,81,1,1,81,77,31,85,1,33,127,1,43,93,1,57,91,1,1,129,75,1,99,1,1,141,47,17,99,1,63,117,35,49,103,65,1,105,1,1,171,1,39,109,35,85,111,53,1,117,71,1,115,41,49,169,1,1,135,1,75,165,1,19,143,77,1,129,59,1,175,41,1,129,1,145,135,1,39,133,83,1,183,1,43,189,47,1,139,65,87,141,1,1,147,105,67,189,1,1,211,41,1,189,1,93,151,1,51,153,167,1,171,1,1,225,1,73,159,53,115,165,1,49,219,101,1,165,1,45,255,77,1,169 add $0,1 mul $0,2 mov $2,$0 cal $0,10 ; Euler totient function phi(n): count numbers <= n and prime to n. sub $0,$2 mov $1,2 sub $1,$0 sub $1,2 div $1,2 mul $1,2 add $1,1
oeis/246/A246607.asm	neoneye/loda-programs	11	178362	<filename>oeis/246/A246607.asm<gh_stars>10-100 ; A246607: E.g.f.: exp(x - x^3). ; Submitted by <NAME> ; 1,1,1,-5,-23,-59,241,2311,9745,-30743,-529919,-3161069,6984121,216832045,1696212337,-2117117729,-138721306079,-1359994188719,367573878145,127713732858667,1523067770484361,1104033549399061,-159815269852521359,-2270787199743845705,-3946710127731620303,260707376748043750201,4348124336286966019201,12044209085363625610051,-537005526346016512313255,-10398551521044855443861123,-39738244852990647429945359,1361846178910112449707650191,30373804922625259138080183361,148634821605125425889597571745 mov $2,1 lpb $0 sub $0,1 mov $1,$4 mul $1,$0 mov $4,$2 sub $2,$3 mov $3,$1 mul $3,3 mul $4,$0 lpe mov $0,$2
test/Succeed/Issue874.agda	shlevy/agda	1,989	3321	<gh_stars>1000+ -- Andreas, 2013-06-22, bug reported by evancavallo {-# OPTIONS --allow-unsolved-metas #-} -- {-# OPTIONS -v tc.conv:20 -v impossible:100 #-} module Issue874 where record Σ (A : Set) (B : A → Set) : Set where constructor _,_ field fst : A snd : B fst module _ {A : Set} where postulate P : A → Set foo : A → Set foo _ = Σ (A → A) (λ _ → (∀ _ → A)) -- the unsolved meta here is essential to trigger the bug bar : (x : A) → foo x → Set bar x (g , _) = P (g x) postulate pos : {x : A} → Σ (foo x) (bar x) test : {x : A} → Σ (foo x) (bar x) test = pos -- this raised an internal error in Conversion.compareElims -- when projecting at unsolved record type
src/coolc/src/coolc/Grammar/Cool.g4	matcom-compilers-2019/cool-compiler-mf	0	1017	grammar Cool; import CoolLexerRules; // includes all rules from CommonLexerRules.g4 @actionName { auto-parse-tree=off; //this isn't doing anything } @header { #pragma warning disable CS1591 // Missing XML comment for publicly visible type or member #pragma warning disable CS3021 // Type or member does not need a CLSCompliant attribute because the assembly does not have a CLSCompliant attribute #pragma warning disable CS0105 //The using directive for 'System.Collections.Generic' appeared previously in this namespace [D:\Desktop\projects\coolc\coolc\src\coolc\coolc.csproj } @members{ } program : (classdef SEMICOLON)+ EOF ; classdef : CLASS t=TYPE (INHERITS it=TYPE)? LBRACE (feature SEMICOLON)* RBRACE ; feature : id=ID LPAREN (formal (COMMA formal))? RPAREN COLON t=TYPE LBRACE e=expresion RBRACE #methodFeature \| id=ID COLON t=TYPE (ASSIGN e=expresion)? #attribFeature ; formal : id=ID COLON t=TYPE ; expresion : expresion (ATSYM t=TYPE)? DOT id=ID LPAREN(expresion (COMMA expresion))?RPAREN #atsimExp \| id=ID LPAREN (expresion (COMMA expresion)* )? RPAREN { } #methodCallExp \| IF expresion THEN expresion ELSE expresion FI #ifExp \| WHILE le=expresion LOOP re=expresion POOL #whileExp \| LBRACE (expresion SEMICOLON)+ RBRACE #bracedExp \| LET newvar (COMMA newvar)* IN body=expresion #letExp \| CASE expresion OF (ID COLON t=TYPE DARROW expresion SEMICOLON)+ ESAC #caseExp \| NEW t=TYPE #newTypeExp \| ISVOID e=expresion #isvoidExp \| le=expresion op=(STAR\|SLASH) re=expresion #infixExp \| le=expresion op=(PLUS\|MINUS) re=expresion #infixExp \| TILDE e=expresion #tildeExp \| le=expresion LT re=expresion #lessExp \| le=expresion LE re=expresion #lessEqualExp \| le=expresion EQUALS re=expresion #equalsExp \| NOT e=expresion #notExp \| LPAREN e=expresion RPAREN #parentExp \| s=STRING #stringExp \| i=INT #intExp \| BOOL #boolExp \| id=ID #identifierExp \| id=ID ASSIGN e=expresion #assignExp ; newvar : id=ID COLON t=TYPE (ASSIGN e=expresion)? ; //\| (ID \| BOOL \| INT \| STRING ) #constantExp
test/Fail/Issue2679a.agda	shlevy/agda	1,989	3846	<filename>test/Fail/Issue2679a.agda postulate A : Set data B (a : A) : Set where conB : B a → B a → B a data C (a : A) : B a → Set where conC : {bl br : B a} → C a bl → C a br → C a (conB bl br) -- First bug. {- a !=< "An internal error has occurred. Please report this as a bug.\nLocation of the error: src/full/Agda/TypeChecking/Telescope.hs:68\n" of type A when checking that the type (a : A) (b : B a) (tl : C a (_16 a b)) → C a (_16 a b) → (tr : C a (_17 a b)) → Set of the generated with function is well-formed -- Is there a contained error printing bug? -} goo : (a : A) (b : B a) (c : C a _) → Set -- giving b for _ resolves the error goo a b (conC tl tr) with tl ... \| _ = _
Driver/Power/Common/powerCode.asm	steakknife/pcgeos	504	4439	COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) GeoWorks 1992 -- All Rights Reserved PROJECT: PC GEOS MODULE: Common power management code FILE: powerCode.asm AUTHOR: <NAME> ROUTINES: Name Description ---- ----------- REVISION HISTORY: Name Date Description ---- ---- ----------- Tony 4/22/93 Initial revision DESCRIPTION: This is common battery code $Id: powerCode.asm,v 1.1 97/04/18 11:48:15 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ Resident segment resource COMMENT @---------------------------------------------------------------------- FUNCTION: PowerInit DESCRIPTION: Common initialization CALLED BY: INTERNAL PASS: ds, es - dgroup RETURN: none DESTROYED: ax, bx, cx, dx, si, di, bp, ds, es REGISTER/STACK USAGE: PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/CAVEATS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- Tony 4/22/93 Initial version ------------------------------------------------------------------------------@ PowerInit proc near if POLL_BATTERY ; Install a timer so that we can poll some battery related stuff... mov al, TIMER_ROUTINE_CONTINUAL mov bx, cs mov si, offset BatteryPoll mov cx, BATTERY_POLL_INITIAL_WAIT mov di, BATTERY_POLL_INTERVAL call TimerStart mov ds:[timerHandle], bx mov ds:[timerID], ax endif if PCMCIA_SUPPORT ; ; Attempt to load the pcmcia library. ; call FilePushDir mov ax, SP_SYSTEM call FileSetStandardPath mov ax, high pcmcia mov bx, low pcmcia mov si, offset pcmciaLibName push ds segmov ds, cs call GeodeUseLibrary pop ds call FilePopDir jc pcmciaDone mov ds:[pcmciaLib], bx pcmciaDone: endif mov cx, vseg PowerDeviceNotification mov dx, offset PowerDeviceNotification mov si, SST_DEVICE_POWER call SysHookNotification ret PowerInit endp if PCMCIA_SUPPORT EC <pcmciaLibName TCHAR 'PCMCIAEC.GEO', 0> NEC<pcmciaLibName TCHAR 'PCMCIA.GEO', 0> endif ; PCMCIA_SUPPORT COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% PowerDeviceNotification %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Call the power driver's strategy routine to turn power on or off for a device. CALLED BY: (GLOBAL) SysSendNotification PASS: ax, bx, cx, dx = for DR_POWER_DEVICE_ON_OFF call RETURN: nothing DESTROYED: ax, bx, cx, dx, si, di SIDE EFFECTS: none here PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 2/21/95 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ PowerDeviceNotification proc far .enter mov di, DR_POWER_DEVICE_ON_OFF call PowerStrategy .leave ret PowerDeviceNotification endp COMMENT @---------------------------------------------------------------------- FUNCTION: PowerExit DESCRIPTION: Common exit code CALLED BY: INTERNAL PASS: ds, es - dgroup RETURN: none DESTROYED: ax, bx, cx, dx, si, di, bp, ds, es REGISTER/STACK USAGE: PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/CAVEATS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- Tony 4/22/93 Initial version ------------------------------------------------------------------------------@ PowerExit proc near if POLL_BATTERY mov bx, ds:[timerHandle] mov ax, ds:[timerID] call TimerStop endif if PCMCIA_SUPPORT clr bx xchg bx, ds:[pcmciaLib] tst bx jz pcmciaDone mov ax, enum PCMCIADetach push bx call ProcGetLibraryEntry call ProcCallFixedOrMovable pop bx ;;; Do not attempt to free the library, as this will cause a call to GLoad ;;; (NotifyNewLibraries) in the kernel, which we're not allowed to do here. ;;; call GeodeFreeLibrary pcmciaDone: endif ; PCMCIA_SUPPORT ; ; we never unhook the SST_DEVICE_POWER notification because ; the requisite routine is in movable memory and cannot be called ; from the exit routine of a system driver. It does no harm to ; leave ourselves connected to it, in any case, as no one will call ; ret PowerExit endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% PowerDeviceOnOff %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Common code for fielding device on/off calls CALLED BY: (EXTERNAL) PASS: ax = PowerDeviceType bx = unit number cx = non-zero if turning on device, zero if turning off dx = device-specific data ds = dgroup RETURN: nothing DESTROYED: nothing SIDE EFFECTS: PCMCIA library called if loaded and type is PDT_PCMCIA_SOCKET PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 2/21/95 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ PowerDeviceOnOff proc near .enter if PCMCIA_SUPPORT cmp ax, PDT_PCMCIA_SOCKET jne done ; ; Is for pcmcia socket. Call the library if we loaded it. ; push bx, bp mov bx, ds:[pcmciaLib] tst bx jz noLib ; ; Fetch device on/off routine address from the library. ; mov ax, enum PCMCIADeviceOnOff call ProcGetLibraryEntry ; ; Store it on the stack for PCFOM_P and call the thing. ; mov bp, sp xchg bx, ss:[bp+2] pop bp push ax call PROCCALLFIXEDORMOVABLE_PASCAL ; ; Restore AX for caller... ; mov ax, PDT_PCMCIA_SOCKET jmp done noLib: pop bx, bp done: endif .leave ret PowerDeviceOnOff endp Resident ends
Transynther/x86/_processed/AVXALIGN/_ht_zr_un_/i7-7700_9_0x48_notsx.log_21829_1943.asm	ljhsiun2/medusa	9	85257	.global s_prepare_buffers s_prepare_buffers: push %r12 push %r15 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi lea addresses_WC_ht+0x14b37, %rsi cmp %rdx, %rdx mov (%rsi), %r12d nop nop nop dec %rdx lea addresses_D_ht+0x191f7, %r9 nop nop nop nop nop sub $11846, %r15 mov (%r9), %di nop nop nop nop nop xor %r12, %r12 lea addresses_WC_ht+0xf4f3, %r12 nop nop nop nop nop cmp %rax, %rax movb $0x61, (%r12) nop add $50463, %r12 lea addresses_A_ht+0x98b7, %rsi lea addresses_A_ht+0x181f7, %rdi clflush (%rdi) nop nop nop nop nop xor $5196, %rax mov $13, %rcx rep movsw inc %r15 lea addresses_normal_ht+0x144f7, %r15 inc %r12 vmovups (%r15), %ymm1 vextracti128 $0, %ymm1, %xmm1 vpextrq $0, %xmm1, %rcx nop nop nop nop cmp $775, %rdi lea addresses_UC_ht+0x12ff7, %r15 nop and $22274, %r9 movb $0x61, (%r15) cmp $64088, %rdi lea addresses_D_ht+0xf2f7, %rsi lea addresses_UC_ht+0x15bf7, %rdi nop nop nop nop nop add $59698, %rdx mov $30, %rcx rep movsl nop nop nop xor %r12, %r12 lea addresses_WC_ht+0x1b5af, %rsi lea addresses_D_ht+0x125f7, %rdi clflush (%rsi) cmp $46487, %rax mov $41, %rcx rep movsb nop xor %rax, %rax lea addresses_A_ht+0x1276f, %r12 nop nop nop add $58320, %r15 movb $0x61, (%r12) nop nop and %r15, %r15 lea addresses_D_ht+0x17597, %r15 nop nop nop nop nop xor $49313, %r12 mov $0x6162636465666768, %rcx movq %rcx, (%r15) nop nop nop add %rdi, %rdi lea addresses_D_ht+0x8def, %rsi lea addresses_WT_ht+0x1bad7, %rdi nop nop nop sub %rdx, %rdx mov $33, %rcx rep movsq nop nop nop nop dec %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r15 pop %r12 ret .global s_faulty_load s_faulty_load: push %r13 push %r14 push %rax push %rbx push %rcx // Faulty Load lea addresses_RW+0xc1f7, %r14 clflush (%r14) nop nop dec %rax movaps (%r14), %xmm0 vpextrq $1, %xmm0, %r13 lea oracles, %rax and $0xff, %r13 shlq $12, %r13 mov (%rax,%r13,1), %r13 pop %rcx pop %rbx pop %rax pop %r14 pop %r13 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_RW', 'congruent': 0}} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'NT': False, 'AVXalign': True, 'size': 16, 'type': 'addresses_RW', 'congruent': 0}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': True, 'size': 4, 'type': 'addresses_WC_ht', 'congruent': 4}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': True, 'size': 2, 'type': 'addresses_D_ht', 'congruent': 11}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_WC_ht', 'congruent': 2}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 11, 'type': 'addresses_A_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 6, 'type': 'addresses_A_ht'}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_normal_ht', 'congruent': 8}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_UC_ht', 'congruent': 9}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 8, 'type': 'addresses_UC_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 4, 'type': 'addresses_D_ht'}} {'dst': {'same': True, 'congruent': 5, 'type': 'addresses_D_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 3, 'type': 'addresses_WC_ht'}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_A_ht', 'congruent': 2}, 'OP': 'STOR'} {'dst': {'same': True, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_D_ht', 'congruent': 5}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 4, 'type': 'addresses_WT_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 2, 'type': 'addresses_D_ht'}} {'48': 1811, 'ff': 1, '46': 6252, '00': 8674, '45': 5051, '44': 40} 00 46 46 46 00 00 00 00 46 48 00 46 00 00 46 00 00 46 48 46 46 00 00 45 45 00 45 00 00 46 48 00 00 00 45 00 00 00 00 46 45 00 46 48 46 46 46 48 46 46 00 00 46 48 46 46 48 46 00 00 46 00 46 00 00 46 48 00 46 00 00 00 00 45 48 00 00 00 00 46 48 00 00 00 00 00 00 00 45 46 48 00 45 48 00 00 46 46 48 00 46 46 46 46 46 46 00 48 45 00 00 46 46 00 00 46 48 46 00 00 48 46 46 48 46 46 46 00 00 00 46 00 46 45 00 00 46 48 00 46 00 00 45 00 00 45 45 00 45 46 00 45 46 00 45 46 46 48 46 46 00 00 46 48 46 46 00 00 46 48 46 46 00 46 46 46 45 46 45 00 46 00 00 00 45 00 00 00 45 45 00 46 00 48 00 00 00 00 46 46 46 48 46 46 46 00 46 46 00 48 00 44 48 00 45 48 00 45 48 00 45 00 48 46 00 46 46 48 45 45 45 00 45 45 00 45 45 00 45 45 00 00 00 00 00 00 00 45 45 00 45 45 00 00 00 45 00 00 00 00 45 45 00 45 46 46 00 46 00 46 00 00 45 45 00 46 48 45 48 00 46 48 45 46 48 45 45 45 00 46 48 46 45 46 45 00 00 45 45 00 00 45 48 00 45 48 00 46 46 00 46 46 00 48 00 46 46 00 46 48 00 46 46 00 45 00 46 48 46 45 48 45 46 46 00 45 45 00 46 46 00 46 00 46 46 00 46 46 00 46 46 48 46 46 48 45 45 00 00 45 45 00 45 45 00 45 45 00 45 45 00 45 46 46 00 45 48 00 46 46 46 00 00 46 46 46 00 45 46 00 48 45 45 00 45 46 46 45 00 45 46 00 00 00 00 45 00 00 46 45 00 45 00 00 46 45 48 45 45 00 46 48 46 46 00 00 46 00 00 00 00 46 00 00 00 00 00 00 00 00 00 00 00 00 00 48 45 46 00 46 48 00 00 48 45 48 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 46 46 00 46 46 00 00 46 46 46 48 45 48 46 46 00 46 00 00 46 48 46 00 45 46 46 00 00 00 46 48 46 46 00 00 46 46 46 46 46 46 00 48 00 00 00 00 00 00 00 00 00 00 00 45 45 00 46 45 46 48 45 00 46 46 46 48 45 45 46 46 46 00 00 46 48 45 48 45 45 00 00 46 00 00 00 00 45 00 00 00 00 00 00 00 00 00 00 00 00 45 48 46 46 46 00 00 00 00 00 00 00 00 46 00 00 00 45 00 00 46 48 00 46 46 00 46 00 00 45 45 00 00 00 46 45 00 00 00 00 00 45 00 00 00 00 45 46 46 00 00 00 00 46 45 00 46 48 45 46 46 45 46 00 00 00 00 45 00 00 00 00 45 00 00 00 00 45 00 45 45 00 00 00 00 45 45 46 00 00 46 46 48 46 46 48 00 46 48 00 46 00 00 00 00 00 00 00 00 00 45 45 00 00 00 45 45 00 45 45 00 45 45 00 45 45 00 00 00 00 00 00 00 00 00 45 45 00 45 45 00 00 00 45 45 00 46 45 00 00 45 48 00 45 00 46 46 00 00 45 45 00 45 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 46 00 00 00 00 00 00 00 00 00 45 45 00 00 00 00 00 00 00 00 00 00 00 00 00 45 45 00 00 00 00 00 46 46 48 00 00 00 46 46 48 00 00 00 00 45 45 45 48 45 46 00 00 46 46 46 00 46 46 00 46 46 45 00 00 00 00 00 00 00 00 00 00 46 46 00 46 00 46 48 45 46 00 00 45 45 00 45 45 00 45 45 00 46 48 00 46 48 45 46 45 00 45 46 00 45 00 00 00 46 46 00 46 00 00 00 00 00 45 48 00 45 00 00 00 00 00 00 00 46 00 00 46 48 00 00 00 00 00 00 46 48 46 46 46 00 46 46 00 46 45 00 00 45 45 00 00 00 00 00 00 00 45 45 00 00 00 45 45 00 00 00 46 48 45 46 45 00 00 00 46 48 45 45 00 45 46 48 46 45 00 00 46 48 45 45 00 00 00 00 00 00 45 00 00 45 45 00 45 45 00 00 00 45 45 00 00 00 45 45 00 00 00 00 00 00 00 00 46 00 46 00 00 46 00 00 46 48 46 45 45 00 45 45 00 46 48 46 46 */
programs/oeis/195/A195172.asm	neoneye/loda	22	163561	; A195172: a(n) = 4n - floor(2n*r), where r=(1+sqrt(5))/2 (the golden ratio). ; 0,1,2,3,4,4,5,6,7,7,8,9,10,10,11,12,13,13,14,15,16,17,17,18,19,20,20,21,22,23,23,24,25,26,26,27,28,29,30,30,31,32,33,33,34,35,36,36,37,38,39,39,40,41,42,43,43,44,45,46,46,47,48,49,49,50,51,52,52,53,54,55,56,56,57,58,59,59,60,61,62,62,63,64,65,65,66,67,68,68,69,70,71,72,72,73,74,75,75,76 mul $0,2 mov $1,$0 seq $1,60143 ; a(n) = floor(n/tau), where tau = (1 + sqrt(5))/2. sub $0,$1
oeis/048/A048481.asm	neoneye/loda-programs	11	92140	; A048481: a(n) = T(0,n)+T(1,n-1)+...+T(n,0), array T given by A048472. ; 1,3,9,27,77,207,529,1299,3093,7191,16409,36891,81949,180255,393249,852003,1835045,3932199,8388649,17825835,37748781,79691823,167772209,352321587,738197557,1543503927,3221225529,6710886459,13958643773,28991029311,60129542209,124554051651,257698037829,532575944775,1099511627849,2267742732363,4672924418125,9620726743119,19791209300049,40681930227795,83562883711061,171523813933143,351843720888409,721279627821147,1477743627731037,3025855999639647,6192449487634529,12666373951979619,25895697857380453 mov $1,$0 lpb $1 mul $0,2 sub $1,1 add $2,1 sub $0,$2 lpe mul $0,2 add $0,1
utils/dump_photo_info.applescript	scanner/osxphotos	656	3150	-- Dumps UUID and other info about every photo in Photos.app to a tet file (see theFile below) -- Use output of this script with check_uuid.py to help with debugging differences in Photos and osxphoto tell application "Photos" activate set theDelimiter to ";" set theBackup to AppleScript's text item delimiters -- Set the new delimiter set AppleScript's text item delimiters to theDelimiter set theFile to (((path to desktop folder) as string) & "photoslib1.txt") set theOpenedFile to open for access file theFile with write permission set results to selection repeat with _item in results set _keywords to keywords of _item if _keywords is not {} then _keywords = (_keywords as text) else _keywords = "none" end if set _str to (((((id of _item) as text) & ", " & (filename of _item) as text) & ", " & _keywords & ", " & (name of _item) as text) & ", " & (description of _item) as text) & " " -- display dialog _str write _str to theOpenedFile starting at eof -- writeTextToFile(_str, theFile, false) end repeat -- Restore the original delimiter set AppleScript's text item delimiters to theBackup close access theOpenedFile end tell
CLICK_DRUMS/noise/noise.asm	bushy555/ZX-Spectrum-1-Bit-Routines	59	20079	;;; zx beeper noise generator click drum ;;; by utz 09'2019 * irrlichtproject.de ;;; based on el cheapo PRNG with improvements by Shiru ;;; ;;; USAGE: 1) Define DRUM_RETURN_ADDRESS ;;; 2) Set up the stack: SP+0 - 0, SP+1 - volume ((1..7)<<4) ;;; SP+2 - pitch (1..0xff, 1 is highest) ;;; SP+4 - length ;;; 3) JP noise_init ;;; ;;; TIMING: length * 112 + (length - 1) * 13 + 8 cycles ;;; ;;; REGISTER USAGE: F destroyed, SP += 4 noise_init ld (_oldHL),hl ; 16 ld (_oldDE),de ; 20 ld (_oldBC),bc ; 20 ld (_oldIX),ix ; 20 ld (_oldA),a ; 13 pop af ; 10 volume ld (_volume),a ; 13 pop bc ; 10 pitch\|length<<8 ld ixl,c ; 8 ld de,#2157 ; 10 initial PRNG seed xor a ; 4 ld h,a ; 4 ld l,a ; 4 ld ixh,#fe ; 11 -- init: 163 adjust timer lo _loop out (#fe),a ; 11__33 dec c ; 4 jr nz,_no_update ; 12/7 ld c,ixl ; 8 restore pitch add hl,de ; 11 el cheapo PRNG rlc h ; 8 inc d ; 4 -- 48 _wait_return ld a,h ; 4 _volume equ $+1 and #30 ; 7 out (#fe),a ; 11__64 rrca ; 4 out (#fe),a ; 11__15 rrca ; 4 dec ixh ; 4 jp nz,_loop ; 10 --- 112 djnz _loop _oldHL equ $+1 ld hl,0 ; 10 _oldDE equ $+1 ld de,0 ; 10 _oldBC equ $+1 ld bc,0 ; 10 _oldIX equ $+2 ld ix,0 ; 10 _oldA equ $+1 ld a,0 ; 7 jp DRUM_RETURN_ADDRESS ; 14 -- exit 61, init+exit 224 _no_update ;+12 ds 6 ; 24 jr _wait_return ; 12 -- 48
UNIT_TESTS/efx_001.adb	io7m/coreland-openal-ada	1	6957	<reponame>io7m/coreland-openal-ada with OpenAL.Context.Error; with OpenAL.Context; with OpenAL.Extension.EFX; with Test; procedure efx_001 is package ALC renames OpenAL.Context; package ALC_Error renames OpenAL.Context.Error; package AL_EFX renames OpenAL.Extension.EFX; Device : ALC.Device_t; Context : ALC.Context_t; OK : Boolean; Loaded : Boolean; EFX : AL_EFX.Extension_t; TC : Test.Context_t; use type ALC.Device_t; use type ALC.Context_t; use type ALC_Error.Error_t; procedure Finish is begin ALC.Destroy_Context (Context); ALC.Close_Device (Device); end Finish; procedure Init is begin Device := ALC.Open_Default_Device; pragma Assert (Device /= ALC.Invalid_Device); Context := ALC.Create_Context (Device); pragma Assert (Context /= ALC.Invalid_Context); OK := ALC.Make_Context_Current (Context); pragma Assert (OK); end Init; begin Test.Initialize (Test_Context => TC, Program => "efx_001", Test_DB => "TEST_DB", Test_Results => "TEST_RESULTS"); Init; Loaded := True; if AL_EFX.Is_Present (Device) then begin EFX := AL_EFX.Load_Extension; pragma Assert (EFX'Size > 0); exception when others => Loaded := False; end; Test.Check (TC, 55, Loaded, "Loaded"); else Test.Satisfy (TC, 55, Test.Unsupported); end if; Finish; end efx_001;
orka_transforms/src/orka-integrators.adb	onox/orka	52	8741	<filename>orka_transforms/src/orka-integrators.adb -- SPDX-License-Identifier: Apache-2.0 -- -- Copyright (c) 2021 onox <<EMAIL>> -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. package body Orka.Integrators is function RK4 (Y : Element_Type; DT : Duration_Type; F : not null access function (Y : Element_Type; DT : Duration_Type) return Element_Type) return Element_Type is A, B, C, D : Element_Type; begin A := DT * F (Y, DT * 0.0); B := DT * F (Y + 0.5 * A, DT * 0.5); C := DT * F (Y + 0.5 * B, DT * 0.5); D := DT * F (Y + C, DT * 1.0); return (1.0 / 6.0) * (A + 2.0 * (B + C) + D); end RK4; end Orka.Integrators;
non_regression/p2align_x86_linux.att.s.asm	LRGH/plasmasm	1	160295	.file "a02.c" .text .p2align 4,,15 # ---------------------- .globl toto .type toto, @function toto: .cfi_startproc movl 4(%esp), %eax addl $1, (%eax) ret .cfi_endproc .size toto, .-toto # ---------------------- .p2align 4,,15 # ---------------------- .globl tata .type tata, @function tata: .cfi_startproc movl 4(%esp), %eax subl $1, (%eax) ret .cfi_endproc .size tata, .-tata # ---------------------- .section .text.startup,"ax",@progbits .p2align 4,,15 # ---------------------- .globl main .type main, @function main: .cfi_startproc subl $20, %esp leal 16(%esp), %eax movl %eax, (%esp) movl $0, 16(%esp) call toto movl 16(%esp), %eax addl $20, %esp ret .cfi_endproc .size main, .-main # ---------------------- .ident "GCC: (Ubuntu/Linaro 4.6.3-1ubuntu5) 4.6.3" .section .note.GNU-stack,"",@progbits
old/Homotopy/PathTruncation.agda	timjb/HoTT-Agda	294	11007	<gh_stars>100-1000 {-# OPTIONS --without-K #-} {- Now it only has specialized constructs and lemmas for π₀ (x ≡ y) Should be rewritten with something like Algebra.Groupoids -} open import Base module Homotopy.PathTruncation where open import HLevel open import HLevelBis open import Homotopy.Truncation _≡₀_ : ∀ {i} {A : Set i} → A → A → Set i _≡₀_ x y = π₀ (x ≡ y) infix 8 _∘₀_ -- \o\0 _∘₀_ : ∀ {i} {A : Set i} {x y z : A} → x ≡₀ y → y ≡₀ z → x ≡₀ z _∘₀_ = π₀-extend-nondep ⦃ →-is-set $ π₀-is-set _ ⦄ (λ p → π₀-extend-nondep ⦃ π₀-is-set _ ⦄ (λ q → proj $ p ∘ q)) !₀ : ∀ {i} {A : Set i} {x y : A} → x ≡₀ y → y ≡₀ x !₀ = π₀-extend-nondep ⦃ π₀-is-set _ ⦄ (proj ◯ !) refl₀ : ∀ {i} {A : Set i} {a : A} → a ≡₀ a refl₀ = proj refl ap₀ : ∀ {i j} {A : Set i} {B : Set j} {x y : A} (f : A → B) → x ≡₀ y → f x ≡₀ f y ap₀ f = π₀-extend-nondep ⦃ π₀-is-set _ ⦄ (proj ◯ ap f) module _ {i} {A : Set i} where refl₀-right-unit : ∀ {x y : A} (q : x ≡₀ y) → (q ∘₀ refl₀) ≡ q refl₀-right-unit {x = x} {y} = π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set (x ≡ y) ⦄ (λ x → ap proj $ refl-right-unit x) refl₀-left-unit : ∀ {x y : A} (q : x ≡₀ y) → (refl₀ ∘₀ q) ≡ q refl₀-left-unit {x = x} {y} = π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set (x ≡ y) ⦄ (λ _ → refl) concat₀-assoc : {x y z t : A} (p : x ≡₀ y) (q : y ≡₀ z) (r : z ≡₀ t) → (p ∘₀ q) ∘₀ r ≡ p ∘₀ (q ∘₀ r) concat₀-assoc = π₀-extend ⦃ λ _ → Π-is-set λ _ → Π-is-set λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ p → π₀-extend ⦃ λ _ → Π-is-set λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ q → π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ r → ap proj $ concat-assoc p q r))) concat₀-ap₀ : ∀ {j} {B : Set j} (f : A → B) {x y z : A} (p : x ≡₀ y) (q : y ≡₀ z) → ap₀ f p ∘₀ ap₀ f q ≡ ap₀ f (p ∘₀ q) concat₀-ap₀ f = π₀-extend ⦃ λ _ → Π-is-set λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ p → π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ q → ap proj $ concat-ap f p q)) ap₀-compose : ∀ {j k} {B : Set j} {C : Set k} (g : B → C) (f : A → B) {x y : A} (p : x ≡₀ y) → ap₀ (g ◯ f) p ≡ ap₀ g (ap₀ f p) ap₀-compose f g = π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ p → ap proj $ ap-compose f g p) module _ {i} {A : Set i} where trans-id≡₀cst : {a b c : A} (p : b ≡ c) (q : b ≡₀ a) → transport (λ x → x ≡₀ a) p q ≡ proj (! p) ∘₀ q trans-id≡₀cst refl q = ! $ refl₀-left-unit q trans-cst≡₀id : {a b c : A} (p : b ≡ c) (q : a ≡₀ b) → transport (λ x → a ≡₀ x) p q ≡ q ∘₀ proj p trans-cst≡₀id refl q = ! $ refl₀-right-unit q module _ {i} {A : Set i} where homotopy₀-naturality : ∀ {j} {B : Set j} (f g : A → B) (p : (x : A) → f x ≡₀ g x) {x y : A} (q : x ≡₀ y) → ap₀ f q ∘₀ p y ≡ p x ∘₀ ap₀ g q homotopy₀-naturality f g p {x} {y} q = π₀-extend ⦃ λ q → ≡-is-set {x = ap₀ f q ∘₀ p y} {y = p x ∘₀ ap₀ g q} $ π₀-is-set (f x ≡ g y) ⦄ (lemma {x} {y}) q where lemma : ∀ {x y : A} (q : x ≡ y) → ap₀ f (proj q) ∘₀ p y ≡ p x ∘₀ ap₀ g (proj q) lemma refl = refl₀ ∘₀ p _ ≡⟨ refl₀-left-unit (p _) ⟩ p _ ≡⟨ ! $ refl₀-right-unit _ ⟩∎ p _ ∘₀ refl₀ ∎ -- Loop space commutes with truncation in the sense that -- τ n (Ω X) = Ω (τ (S n) X) -- (actually, this is true more generally for paths spaces and we need this -- level of generality to prove it) module _ {i} {n : ℕ₋₂} {A : Set i} where private to : (x y : A) → (τ n (x ≡ y)) → ((proj {n = S n} x) ≡ (proj y)) to x y = τ-extend-nondep ⦃ τ-is-truncated (S n) A _ _ ⦄ (ap proj) -- [truncated-path-space (proj x) (proj y)] is [τ n (x ≡ y)] truncated-path-space : (u v : τ (S n) A) → Type≤ n i truncated-path-space = τ-extend-nondep ⦃ →-is-truncated (S n) (Type≤-is-truncated n _) ⦄ (λ x → τ-extend-nondep ⦃ Type≤-is-truncated n _ ⦄ (λ y → τ n (x ≡ y) , τ-is-truncated n _)) -- We now extend [to] to the truncation of [A], and this is why we needed to -- first extend the return type of [to] to' : (u v : τ (S n) A) → (π₁ (truncated-path-space u v) → u ≡ v) to' = τ-extend ⦃ λ x → Π-is-truncated (S n) (λ a → Π-is-truncated (S n) (λ b → ≡-is-truncated (S n) (τ-is-truncated (S n) A)))⦄ (λ x → τ-extend ⦃ λ t → Π-is-truncated (S n) (λ a → ≡-is-truncated (S n) (τ-is-truncated (S n) A))⦄ (λ y → to x y)) from'-refl : (u : τ (S n) A) → (π₁ (truncated-path-space u u)) from'-refl = τ-extend ⦃ λ x → truncated-is-truncated-S n (π₂ (truncated-path-space x x))⦄ (λ x → proj refl) from' : (u v : τ (S n) A) → (u ≡ v → π₁ (truncated-path-space u v)) from' u .u refl = from'-refl u from : (x y : A) → (proj {n = S n} x ≡ proj y → τ n (x ≡ y)) from x y p = from' (proj x) (proj y) p from-to : (x y : A) (p : τ n (x ≡ y)) → from x y (to x y p) ≡ p from-to x y = τ-extend ⦃ λ _ → ≡-is-truncated n (τ-is-truncated n _)⦄ (from-to' x y) where from-to' : (x y : A) (p : x ≡ y) → from x y (to x y (proj p)) ≡ proj p from-to' x .x refl = refl to'-from' : (u v : τ (S n) A) (p : u ≡ v) → to' u v (from' u v p) ≡ p to'-from' x .x refl = to'-from'-refl x where to'-from'-refl : (u : τ (S n) A) → to' u u (from' u u refl) ≡ refl to'-from'-refl = τ-extend ⦃ λ _ → ≡-is-truncated (S n) (≡-is-truncated (S n) (τ-is-truncated (S n) A))⦄ (λ _ → refl) to-from : (x y : A) (p : proj {n = S n} x ≡ proj y) → to x y (from x y p) ≡ p to-from x y p = to'-from' (proj x) (proj y) p τ-path-equiv-path-τ-S : {x y : A} → τ n (x ≡ y) ≃ (proj {n = S n} x ≡ proj y) τ-path-equiv-path-τ-S {x} {y} = (to x y , iso-is-eq _ (from x y) (to-from x y) (from-to x y)) module _ where open import Homotopy.Connected abstract connected-has-connected-paths : is-connected (S n) A → (p q : A) → is-connected n (p ≡ q) connected-has-connected-paths conn p q = equiv-types-truncated ⟨-2⟩ (τ-path-equiv-path-τ-S ⁻¹) (contr-is-prop conn (proj p) (proj q)) connected-has-all-τ-paths : is-connected (S n) A → (p q : A) → τ n (p ≡ q) connected-has-all-τ-paths conn p q = π₁ $ connected-has-connected-paths conn p q
src/jsa-debugged.adb	sparre/JSA	1	3688	------------------------------------------------------------------------------ -- -- package Debugged (body) -- ------------------------------------------------------------------------------ -- Update information: -- -- 1996.07.26 (<NAME>) -- Copied from Debugging (1996.07.26). -- -- (Insert additional update information above this line.) ------------------------------------------------------------------------------ with Ada.Command_Line; with Ada.Text_IO; package body JSA.Debugged is --------------------------------------------------------------------------- -- procedure Message: -- -- Writes a message to Current_Error if debugging is activated. procedure Message (Item : in String) is use Ada.Text_IO; begin -- Message if Debug then Put (Current_Error, Item); -- Flush (Current_Error); end if; end Message; --------------------------------------------------------------------------- -- procedure Message_Line: -- -- Writes a message and a new line to Current_Error if debugging is -- activated. procedure Message_Line (Item : in String) is use Ada.Text_IO; begin -- Message_Line if Debug then Put_Line (Current_Error, Item); -- Flush (Current_Error); end if; end Message_Line; --------------------------------------------------------------------------- use Ada.Command_Line; use Ada.Text_IO; Error_Log : File_Type; Log_To_Current_Error : Boolean := True; Log_File_Argument_Index : Positive; begin -- Debugged for Index in 1 .. Argument_Count - 1 loop if Argument (Index) = "-errorlog" then Log_To_Current_Error := False; Log_File_Argument_Index := Index + 1; exit; end if; end loop; if not Log_To_Current_Error then if Argument (Log_File_Argument_Index) = "-" then Set_Error (Standard_Output); else Create (File => Error_Log, Name => Argument (Log_File_Argument_Index)); Set_Error (Error_Log); end if; end if; end JSA.Debugged;
books_and_notes/professional_courses/Assembly_language_and_programming/sources/汇编语言程序设计教程第四版/codes/5_4.asm	gxw1/review_the_national_post-graduate_entrance_examination	640	177910	DATA SEGMENT X1 DB 63H X2 DB 31H X3 DB 91H X4 DB 78H Y DB ? DATA ENDS CODE SEGMENT ASSUME CS:CODE,DS:DATA START: MOV AX,DATA MOV DS,AX MOV AL,X1 ADD AL,X2 MOV BL,X3 ADD BL,X4 SUB AL,BL MOV Y,AL MOV AH,4CH INT 21H CODE ENDS END START
programs/oeis/144/A144600.asm	neoneye/loda	22	174758	; A144600: Christoffel word of slope 2/11. ; 0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0 add $0,1 mul $0,2 mod $0,13 div $0,2 cmp $0,0
oeis/100/A100859.asm	neoneye/loda-programs	11	98862	<reponame>neoneye/loda-programs ; A100859: Beginning with 3, increasing primes such that no two adjacent terms are congruent mod 4. ; Submitted by <NAME> ; 3,5,7,13,19,29,31,37,43,53,59,61,67,73,79,89,103,109,127,137,139,149,151,157,163,173,179,181,191,193,199,229,239,241,251,257,263,269,271,277,283,293,307,313,331,337,347,349,359,373,379,389,419,421,431,433 mov $1,1 mov $2,1 lpb $0 mov $3,$2 lpb $3 add $2,4 mov $4,$1 gcd $4,$2 cmp $4,1 cmp $4,0 sub $3,$4 lpe sub $0,1 add $2,2 mul $1,$2 lpe mov $0,$2 add $0,2
src/asis/a4g-span_beginning.ads	My-Colaborations/dynamo	15	20049	<reponame>My-Colaborations/dynamo<gh_stars>10-100 ------------------------------------------------------------------------------ -- -- -- ASIS-for-GNAT IMPLEMENTATION COMPONENTS -- -- -- -- A 4 G . S P A N _ B E G I N N I N G -- -- -- -- S p e c -- -- -- -- Copyright (C) 1995-2012, Free Software Foundation, Inc. -- -- -- -- ASIS-for-GNAT is free software; you can redistribute it and/or modify it -- -- under terms of the GNU General Public License as published by the Free -- -- Software Foundation; either version 2, or (at your option) any later -- -- version. ASIS-for-GNAT is distributed in the hope that it will be use- -- -- ful, but WITHOUT ANY WARRANTY; without even the implied warranty of MER- -- -- CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General -- -- Public License for more details. You should have received a copy of the -- -- GNU General Public License distributed with ASIS-for-GNAT; see file -- -- COPYING. If not, write to the Free Software Foundation, 51 Franklin -- -- Street, Fifth Floor, Boston, MA 02110-1301, USA. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ASIS-for-GNAT was originally developed by the ASIS-for-GNAT team at the -- -- Software Engineering Laboratory of the Swiss Federal Institute of -- -- Technology (LGL-EPFL) in Lausanne, Switzerland, in cooperation with the -- -- Scientific Research Computer Center of Moscow State University (SRCC -- -- MSU), Russia, with funding partially provided by grants from the Swiss -- -- National Science Foundation and the Swiss Academy of Engineering -- -- Sciences. ASIS-for-GNAT is now maintained by AdaCore -- -- (http://www.adacore.com). -- -- -- ------------------------------------------------------------------------------ with Asis; with A4G.Int_Knds; use A4G.Int_Knds; with Types; use Types; package A4G.Span_Beginning is function Set_Image_Beginning (E : Asis.Element) return Source_Ptr; -- The driver function for computing the beginning of the element image -- in the GNAT source text buffer. In case if the argument is a labeled -- statement returns the baginning of the first attachecd label. Otherwise -- calls the element-kind-specific function for computing the image -- beginning -- The functions below compute the beginning of the text image for some -- specific set of ELement kinds/ function Subunit_Beginning (E : Asis.Element) return Source_Ptr; function Private_Unit_Beginning (E : Asis.Element) return Source_Ptr; -- Assuming that E is an element representing the top Unit element of a -- subunit or of a library item representing a private unit, returns the -- source pointer to the beginning of the keyword SEPARATE or PRIVATE -- accordingly. function No_Search (E : Asis.Element) return Source_Ptr; -- That is, we can just use Sloc from the node the Element is based upon. function Search_Identifier_Beginning (E : Asis.Element) return Source_Ptr; -- A special processing is needed for an identifier representing the -- attribute designator in pseudo-attribute-reference in an attribute -- definition clause and for 'Class attribute in aspect indication function Search_Subtype_Indication_Beginning (E : Asis.Element) return Source_Ptr; -- If the subtype mark is an expanded name, we have to look for its prefix function Defining_Identifier_Beginning (E : Asis.Element) return Source_Ptr; -- Returns the beginning of A_Defining_Identifier elements. In case of -- labels we have to get rid of '<<' function Short_Circuit_Beginning (E : Asis.Element) return Source_Ptr; -- Returns the beginning of short circuit expression function Membership_Test_Beginning (E : Asis.Element) return Source_Ptr; -- Returns the beginning of membership test expression function Null_Component_Beginning (E : Asis.Element) return Source_Ptr; -- In case of A_Nil_Component element Sloc of its Node points to -- "record" (it's easy) or to variant (it's a pain) function Search_Prefix_Beginning (E : Asis.Element) return Source_Ptr; -- Is needed when the Argument has a "prefix" in its structure, but Sloc -- points somewhere inside the elemen structure -- --\|A2005 start function Possible_Null_Exclusion_Beginning (E : Asis.Element) return Source_Ptr; -- Should be used for constructs that can contain null_exclusion function Possible_Overriding_Indicator_Beginning (E : Asis.Element) return Source_Ptr; -- Is supposed to be used for some of the constructs that can contain -- overriding_indicator -- --\|A2005 end function Component_And_Parameter_Declaration_Beginning (E : Asis.Element) return Source_Ptr; function Exception_Declaration_Beginning (E : Asis.Element) return Source_Ptr; function Derived_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Type_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Interface_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Tagged_Type_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Simple_Expression_Range_Beginning (E : Asis.Element) return Source_Ptr; function Component_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Search_Left_Parenthesis_After (E : Asis.Element) return Source_Ptr; -- Is needed when the Element does not have its "own" node (in particular, -- for A_Known_Discriminant_Part Element) function Private_Extension_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Private_Type_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Explicit_Dereference_Beginning (E : Asis.Element) return Source_Ptr; function Function_Call_Beginning (E : Asis.Element) return Source_Ptr; function Indexed_Component_Beginning (E : Asis.Element) return Source_Ptr; function Component_Association_Beginning (E : Asis.Element) return Source_Ptr; function Association_Beginning (E : Asis.Element) return Source_Ptr; function Parenthesized_Expression_Beginning (E : Asis.Element) return Source_Ptr; function Assignment_Statement_Beginning (E : Asis.Element) return Source_Ptr; function Named_Statement_Beginning (E : Asis.Element) return Source_Ptr; -- Takes care of loop and block names function Call_Statement_Beginning (E : Asis.Element) return Source_Ptr; function While_Loop_Statement_Beginning (E : Asis.Element) return Source_Ptr; function For_Loop_Statement_Beginning (E : Asis.Element) return Source_Ptr; function Else_Path_Beginning (E : Asis.Element) return Source_Ptr; function With_Clause_Beginning (E : Asis.Element) return Source_Ptr; function Component_Clause_Beginning (E : Asis.Element) return Source_Ptr; function Subprogram_Spec_Beginning (E : Asis.Element) return Source_Ptr; function Formal_Object_Declaration_Beginning (E : Asis.Element) return Source_Ptr; function A_Then_Abort_Path_Beginning (E : Asis.Element) return Source_Ptr; function Select_Alternative_Beginning (E : Asis.Element) return Source_Ptr; -- --\|A2015 start function Case_Expression_Path_Beginning (E : Asis.Element) return Source_Ptr; function If_Expression_Beginning (E : Asis.Element) return Source_Ptr; function Conditional_Expression_Path_Beginning (E : Asis.Element) return Source_Ptr; function An_Else_Expression_Path_Beginning (E : Asis.Element) return Source_Ptr; -- --\|A2015 end -- The look-up table below defines the mapping from Element kinds onto -- specific routines for computing the Element image beginning type Set_Source_Location_type is access function (E : Asis.Element) return Source_Ptr; Switch : array (Internal_Element_Kinds) of Set_Source_Location_type := ( An_All_Calls_Remote_Pragma .. -- An_Asynchronous_Pragma -- An_Atomic_Pragma -- An_Atomic_Components_Pragma -- An_Attach_Handler_Pragma -- A_Controlled_Pragma -- A_Convention_Pragma -- An_Elaborate_All_Pragma -- An_Elaborate_Body_Pragma -- An_Export_Pragma -- An_Import_Pragma -- An_Inline_Pragma -- An_Inspection_Point_Pragma -- An_Interrupt_Handler_Pragma -- An_Interrupt_Priority_Pragma -- A_List_Pragma -- A_Locking_Policy_Pragma -- A_Normalize_Scalars_Pragma -- An_Optimize_Pragma -- A_Pack_Pragma -- A_Page_Pragma -- A_Preelaborate_Pragma -- A_Priority_Pragma -- A_Pure_Pragma -- A_Queuing_Policy_Pragma -- A_Remote_Call_Interface_Pragma -- A_Remote_Types_Pragma -- A_Restrictions_Pragma -- A_Reviewable_Pragma -- A_Shared_Passive_Pragma -- A_Suppress_Pragma -- A_Task_Dispatching_Policy_Pragma -- A_Volatile_Pragma -- A_Volatile_Components_Pragma -- An_Implementation_Defined_Pragma An_Unknown_Pragma => No_Search'Access, A_Defining_Identifier => Defining_Identifier_Beginning'Access, A_Defining_Character_Literal .. -- A_Defining_Enumeration_Literal -- A_Defining_Or_Operator -- A_Defining_Xor_Operator -- A_Defining_Equal_Operator -- A_Defining_Not_Equal_Operator -- A_Defining_Less_Than_Operator -- A_Defining_Less_Than_Or_Equal_Operator -- A_Defining_Greater_Than_Operator -- A_Defining_Greater_Than_Or_Equal_Operator -- A_Defining_Plus_Operator -- A_Defining_Minus_Operator -- A_Defining_Concatenate_Operator -- A_Defining_Unary_Plus_Operator -- A_Defining_Unary_Minus_Operator -- A_Defining_Multiply_Operator -- A_Defining_Divide_Operator -- A_Defining_Mod_Operator -- A_Defining_Rem_Operator -- A_Defining_Exponentiate_Operator -- A_Defining_Abs_Operator A_Defining_Not_Operator => No_Search'Access, A_Defining_Expanded_Name => Search_Prefix_Beginning'Access, An_Ordinary_Type_Declaration .. -- A_Task_Type_Declaration -- A_Protected_Type_Declaration -- An_Incomplete_Type_Declaration -- A_Private_Type_Declaration -- A_Private_Extension_Declaration -- A_Subtype_Declaration -- A_Variable_Declaration -- A_Constant_Declaration -- A_Deferred_Constant_Declaration -- A_Single_Task_Declaration -- A_Single_Protected_Declaration -- An_Integer_Number_Decl -- A_Real_Number_Declaration -- An_Enumeration_Literal_Specification A_Discriminant_Specification => No_Search'Access, A_Component_Declaration => Component_And_Parameter_Declaration_Beginning'Access, A_Loop_Parameter_Specification => No_Search'Access, -- --\|A2012 start A_Generalized_Iterator_Specification => No_Search'Access, -- ??? An_Element_Iterator_Specification => No_Search'Access, -- ??? -- --\|A2012 end A_Procedure_Declaration .. A_Function_Declaration => Subprogram_Spec_Beginning'Access, -- --\|A2005 start A_Null_Procedure_Declaration => Subprogram_Spec_Beginning'Access, -- --\|A2005 end -- --\|A2012 start An_Expression_Function_Declaration => Subprogram_Spec_Beginning'Access, -- --\|A2012 end A_Parameter_Specification => Component_And_Parameter_Declaration_Beginning'Access, A_Procedure_Body_Declaration .. A_Function_Body_Declaration => Subprogram_Spec_Beginning'Access, A_Package_Declaration .. -- A_Package_Body_Declaration -- An_Object_Renaming_Declaration -- An_Exception_Renaming_Declaration A_Package_Renaming_Declaration => No_Search'Access, A_Procedure_Renaming_Declaration => Subprogram_Spec_Beginning'Access, A_Function_Renaming_Declaration => Subprogram_Spec_Beginning'Access, A_Generic_Package_Renaming_Declaration .. -- A_Generic_Procedure_Renaming_Declaration -- A_Generic_Function_Renaming_Declaration -- A_Task_Body_Declaration A_Protected_Body_Declaration => No_Search'Access, An_Entry_Declaration => Possible_Overriding_Indicator_Beginning'Access, An_Entry_Body_Declaration .. An_Entry_Index_Specification => No_Search'Access, A_Procedure_Body_Stub .. A_Function_Body_Stub => Subprogram_Spec_Beginning'Access, A_Package_Body_Stub .. -- A_Task_Body_Stub A_Protected_Body_Stub => No_Search'Access, An_Exception_Declaration => Exception_Declaration_Beginning'Access, A_Choice_Parameter_Specification .. -- A_Generic_Procedure_Declaration -- A_Generic_Function_Declaration -- A_Generic_Package_Declaration A_Package_Instantiation => No_Search'Access, A_Procedure_Instantiation .. A_Function_Instantiation => Possible_Overriding_Indicator_Beginning'Access, A_Formal_Object_Declaration => Formal_Object_Declaration_Beginning'Access, A_Formal_Type_Declaration .. -- A_Formal_Procedure_Declaration -- A_Formal_Function_Declaration -- A_Formal_Package_Declaration A_Formal_Package_Declaration_With_Box => No_Search'Access, A_Derived_Type_Definition => Derived_Definition_Beginning'Access, A_Derived_Record_Extension_Definition => Derived_Definition_Beginning'Access, An_Enumeration_Type_Definition .. -- A_Signed_Integer_Type_Definition -- A_Modular_Type_Definition --------------------------------------------------------- -- !!! They all are implicit and cannot have image -- \| -- \|-> A_Root_Integer_Definition -- \|-> A_Root_Real_Definition -- \|-> A_Root_Fixed_Definition -- \|-> A_Universal_Integer_Definition -- \|-> A_Universal_Real_Definition -- +-> A_Universal_Fixed_Definition --------------------------------------------------------- -- A_Floating_Point_Definition -- An_Ordinary_Fixed_Point_Definition -- A_Decimal_Fixed_Point_Definition -- An_Unconstrained_Array_Definition A_Constrained_Array_Definition => No_Search'Access, A_Record_Type_Definition => Type_Definition_Beginning'Access, A_Tagged_Record_Type_Definition => Tagged_Type_Definition_Beginning'Access, -- --\|A2005 start An_Ordinary_Interface .. -- A_Limited_Interface, -- A_Task_Interface, -- A_Protected_Interface, A_Synchronized_Interface => Interface_Definition_Beginning'Access, -- --\|A2005 end A_Pool_Specific_Access_To_Variable .. -- An_Access_To_Variable -- An_Access_To_Constant -- An_Access_To_Procedure -- An_Access_To_Protected_Procedure -- An_Access_To_Function An_Access_To_Protected_Function => No_Search'Access, A_Subtype_Indication => Search_Subtype_Indication_Beginning'Access, A_Range_Attribute_Reference => Search_Prefix_Beginning'Access, A_Simple_Expression_Range => Simple_Expression_Range_Beginning'Access, A_Digits_Constraint .. -- A_Delta_Constraint -- An_Index_Constraint A_Discriminant_Constraint => No_Search'Access, A_Component_Definition => Component_Definition_Beginning'Access, A_Discrete_Subtype_Indication_As_Subtype_Definition => Search_Subtype_Indication_Beginning'Access, A_Discrete_Range_Attribute_Reference_As_Subtype_Definition => Search_Prefix_Beginning'Access, A_Discrete_Simple_Expression_Range_As_Subtype_Definition => Simple_Expression_Range_Beginning'Access, A_Discrete_Subtype_Indication => Search_Subtype_Indication_Beginning'Access, A_Discrete_Range_Attribute_Reference => Search_Prefix_Beginning'Access, A_Discrete_Simple_Expression_Range => Simple_Expression_Range_Beginning'Access, An_Unknown_Discriminant_Part .. A_Known_Discriminant_Part => Search_Left_Parenthesis_After'Access, A_Record_Definition .. A_Null_Record_Definition => No_Search'Access, A_Null_Component => Null_Component_Beginning'Access, A_Variant_Part .. -- A_Variant An_Others_Choice => No_Search'Access, -- --\|A2005 start An_Anonymous_Access_To_Variable .. -- An_Anonymous_Access_To_Constant, -- An_Anonymous_Access_To_Procedure, -- An_Anonymous_Access_To_Protected_Procedure, -- An_Anonymous_Access_To_Function, An_Anonymous_Access_To_Protected_Function => Possible_Null_Exclusion_Beginning'Access, -- --\|A2005 end A_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Tagged_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Private_Extension_Definition => Private_Extension_Definition_Beginning'Access, A_Task_Definition => No_Search'Access, A_Protected_Definition => No_Search'Access, A_Formal_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Formal_Tagged_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Formal_Derived_Type_Definition => Derived_Definition_Beginning'Access, A_Formal_Discrete_Type_Definition => No_Search'Access, A_Formal_Signed_Integer_Type_Definition .. -- A_Formal_Modular_Type_Definition -- A_Formal_Floating_Point_Definition -- A_Formal_Ordinary_Fixed_Point_Definition A_Formal_Decimal_Fixed_Point_Definition => No_Search'Access, A_Formal_Ordinary_Interface .. -- A_Formal_Limited_Interface -- A_Formal_Task_Interface -- A_Formal_Protected_Interface A_Formal_Synchronized_Interface => Interface_Definition_Beginning'Access, A_Formal_Unconstrained_Array_Definition .. -- A_Formal_Constrained_Array_Definition -- A_Formal_Pool_Specific_Access_To_Variable -- A_Formal_Access_To_Variable -- A_Formal_Access_To_Constant -- A_Formal_Access_To_Procedure -- A_Formal_Access_To_Protected_Procedure -- A_Formal_Access_To_Function A_Formal_Access_To_Protected_Function => No_Search'Access, An_Aspect_Specification => No_Search'Access, An_Integer_Literal .. -- A_Real_Literal A_String_Literal => No_Search'Access, An_Identifier => Search_Identifier_Beginning'Access, An_And_Operator .. -- An_Or_Operator -- An_Xor_Operator -- An_Equal_Operator -- A_Not_Equal_Operator -- A_Less_Than_Operator -- A_Less_Than_Or_Equal_Operator -- A_Greater_Than_Operator -- A_Greater_Than_Or_Equal_Operator -- A_Plus_Operator -- A_Minus_Operator -- A_Concatenate_Operator -- A_Unary_Plus_Operator -- A_Unary_Minus_Operator -- A_Multiply_Operator -- A_Divide_Operator -- A_Mod_Operator -- A_Rem_Operator -- An_Exponentiate_Operator -- An_Abs_Operator -- A_Not_Operator -- A_Character_Literal An_Enumeration_Literal => No_Search'Access, An_Explicit_Dereference => Explicit_Dereference_Beginning'Access, A_Function_Call => Function_Call_Beginning'Access, An_Indexed_Component => Indexed_Component_Beginning'Access, A_Slice => Indexed_Component_Beginning'Access, A_Selected_Component .. -- An_Access_Attribute -- An_Address_Attribute -- An_Adjacent_Attribute -- An_Aft_Attribute -- An_Alignment_Attribute -- A_Base_Attribute -- A_Bit_Order_Attribute -- A_Body_Version_Attribute -- A_Callable_Attribute -- A_Caller_Attribute -- A_Ceiling_Attribute -- A_Class_Attribute -- A_Component_Size_Attribute -- A_Compose_Attribute -- A_Constrained_Attribute -- A_Copy_Sign_Attribute -- A_Count_Attribute -- A_Definite_Attribute -- A_Delta_Attribute -- A_Denorm_Attribute -- A_Digits_Attribute -- An_Exponent_Attribute -- An_External_Tag_Attribute -- A_First_Attribute -- A_First_Bit_Attribute -- A_Floor_Attribute -- A_Fore_Attribute -- A_Fraction_Attribute -- An_Identity_Attribute -- An_Image_Attribute -- An_Input_Attribute -- A_Last_Attribute -- A_Last_Bit_Attribute -- A_Leading_Part_Attribute -- A_Length_Attribute -- A_Machine_Attribute -- A_Machine_Emax_Attribute -- A_Machine_Emin_Attribute -- A_Machine_Mantissa_Attribute -- A_Machine_Overflows_Attribute -- A_Machine_Radix_Attribute -- A_Machine_Rounds_Attribute -- A_Max_Attribute -- A_Max_Size_In_Storage_Elements_Attribute -- A_Min_Attribute -- A_Model_Attribute -- A_Model_Emin_Attribute -- A_Model_Epsilon_Attribute -- A_Model_Mantissa_Attribute -- A_Model_Small_Attribute -- A_Modulus_Attribute -- An_Output_Attribute -- A_Partition_ID_Attribute -- A_Pos_Attribute -- A_Position_Attribute -- A_Pred_Attribute -- A_Range_Attribute -- A_Read_Attribute -- A_Remainder_Attribute -- A_Round_Attribute -- A_Rounding_Attribute -- A_Safe_First_Attribute -- A_Safe_Last_Attribute -- A_Scale_Attribute -- A_Scaling_Attribute -- A_Signed_Zeros_Attribute -- A_Size_Attribute -- A_Small_Attribute -- A_Storage_Pool_Attribute -- A_Storage_Size_Attribute -- A_Succ_Attribute -- A_Tag_Attribute -- A_Terminated_Attribute -- A_Truncation_Attribute -- An_Unbiased_Rounding_Attribute -- An_Unchecked_Access_Attribute -- A_Val_Attribute -- A_Valid_Attribute -- A_Value_Attribute -- A_Version_Attribute -- A_Wide_Image_Attribute -- A_Wide_Value_Attribute -- A_Wide_Width_Attribute -- A_Width_Attribute -- A_Write_Attribute -- An_Implementation_Defined_Attribute An_Unknown_Attribute => Search_Prefix_Beginning'Access, A_Record_Aggregate .. -- An_Extension_Aggregate -- An_Positional_Array_Aggregate A_Named_Array_Aggregate => No_Search'Access, An_And_Then_Short_Circuit .. An_Or_Else_Short_Circuit => Short_Circuit_Beginning'Access, An_In_Membership_Test .. A_Not_In_Membership_Test => Membership_Test_Beginning'Access, A_Null_Literal => No_Search'Access, A_Parenthesized_Expression => Parenthesized_Expression_Beginning'Access, A_Type_Conversion => Search_Prefix_Beginning'Access, A_Qualified_Expression => Search_Prefix_Beginning'Access, An_Allocation_From_Subtype => No_Search'Access, An_Allocation_From_Qualified_Expression => No_Search'Access, -- --\|A2012 start A_Case_Expression => No_Search'Access, An_If_Expression => If_Expression_Beginning'Access, -- --\|A2012 end A_Pragma_Argument_Association => Association_Beginning'Access, A_Discriminant_Association => Association_Beginning'Access, A_Record_Component_Association => Component_Association_Beginning'Access, An_Array_Component_Association => Component_Association_Beginning'Access, A_Parameter_Association => Association_Beginning'Access, A_Generic_Association => No_Search'Access, A_Null_Statement => No_Search'Access, An_Assignment_Statement => Assignment_Statement_Beginning'Access, An_If_Statement => No_Search'Access, A_Case_Statement => No_Search'Access, A_Loop_Statement => Named_Statement_Beginning'Access, A_While_Loop_Statement => While_Loop_Statement_Beginning'Access, A_For_Loop_Statement => For_Loop_Statement_Beginning'Access, A_Block_Statement => Named_Statement_Beginning'Access, An_Exit_Statement => No_Search'Access, A_Goto_Statement => No_Search'Access, A_Procedure_Call_Statement => Call_Statement_Beginning'Access, A_Return_Statement => No_Search'Access, An_Accept_Statement => No_Search'Access, An_Entry_Call_Statement => Call_Statement_Beginning'Access, A_Requeue_Statement .. -- A_Requeue_Statement_With_Abort -- A_Delay_Until_Statement -- A_Delay_Relative_Statement -- A_Terminate_Alternative_Statement -- A_Selective_Accept_Statement -- A_Timed_Entry_Call_Statement -- A_Conditional_Entry_Call_Statement -- An_Asynchronous_Select_Statement -- An_Abort_Statement -- A_Raise_Statement -- A_Code_Statement -- An_If_Path -- NOTE: There is no explicit node in GNAT AST tree corresponding to -- this Internal_Element_Kind's. It's supposed that corresponding -- Element's record field contains Source_Ptr type value that points to -- word IF. -- If it isn't so, we should change this part. -- I believe it's more correct to have A_Then_Path in spite of -- An_If_Path which should point to the word THEN. An_Elsif_Path => No_Search'Access, An_Else_Path => Else_Path_Beginning'Access, A_Case_Path => No_Search'Access, A_Select_Path .. -- NOTE: There is no explicit node in GNAT AST tree corresponding to -- this Internal_Element_Kind's. It's supposed that corresponding -- Element's record field contains Source_Ptr type value that -- points to word SELECT. -- If it isn't so, we should change this part. An_Or_Path => Select_Alternative_Beginning'Access, -- NOTE: There is no explicit node in GNAT AST tree corresponding to -- this Internal_Element_Kind's. It's supposed that corresponding -- Element's record field contains Source_Ptr type value that points to -- word OR. If it isn't so, we should change this part. A_Then_Abort_Path => A_Then_Abort_Path_Beginning'Access, -- --\|A2015 start A_Case_Expression_Path => Case_Expression_Path_Beginning'Access, An_If_Expression_Path .. An_Elsif_Expression_Path => Conditional_Expression_Path_Beginning'Access, An_Else_Expression_Path => An_Else_Expression_Path_Beginning'Access, -- --\|A2015 end A_Use_Package_Clause .. -- A_Use_Type_Clause A_Use_All_Type_Clause => No_Search'Access, -- Ada 2012 A_With_Clause => With_Clause_Beginning'Access, An_Attribute_Definition_Clause .. -- An_Enumeration_Representation_Clause -- A_Record_Representation_Clause An_At_Clause => No_Search'Access, A_Component_Clause => Component_Clause_Beginning'Access, An_Exception_Handler => No_Search'Access, others => No_Search'Access); end A4G.Span_Beginning;
programs/oeis/078/A078881.asm	jmorken/loda	1	24656	; A078881: Size of the largest subset S of {1,2,3,...,n} with the property that if i and j are distinct elements of S then i XOR j is not in S, where XOR is the bitwise exclusive-OR operator. ; 1,2,2,3,4,4,4,5,6,7,8,8,8,8,8,9,10,11,12,13,14,15,16,16,16,16,16,16,16,16,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,33,34,35,36,37,38,39,40,41,42,43,44 mov $1,1 mov $2,$0 mov $3,1 lpb $2 lpb $3 mov $3,$0 lpe add $3,$1 trn $0,$3 mov $1,$3 sub $2,1 lpe
libsrc/gfx/narrow/draw_callee.asm	ahjelm/z88dk	640	168005	<reponame>ahjelm/z88dk<filename>libsrc/gfx/narrow/draw_callee.asm ; ----- void __CALLEE__ draw(int x, int y, int x2, int y2) IF !__CPU_INTEL__ & !__CPU_GBZ80__ SECTION code_graphics PUBLIC draw_callee PUBLIC _draw_callee PUBLIC asm_draw EXTERN swapgfxbk EXTERN __graphics_end EXTERN Line EXTERN plotpixel INCLUDE "graphics/grafix.inc" .draw_callee ._draw_callee pop af ; ret addr pop de ; y2 pop hl ld d,l ; x2 pop hl ; y pop bc ld h,c ; x push af ; ret addr .asm_draw push ix IF NEED_swapgfxbk = 1 call swapgfxbk ENDIF push hl push de call plotpixel pop de pop hl ld ix,plotpixel call Line IF NEED_swapgfxbk jp __graphics_end ELSE IF !__CPU_INTEL__ & !__CPU_GBZ80__ pop ix ENDIF ret ENDIF ENDIF
alloy4fun_models/trashltl/models/9/MeB5vT3eAZEfxzNWe.als	Kaixi26/org.alloytools.alloy	0	4055	open main pred idMeB5vT3eAZEfxzNWe_prop10 { always (all f:File \| always f in Protected) } pred __repair { idMeB5vT3eAZEfxzNWe_prop10 } check __repair { idMeB5vT3eAZEfxzNWe_prop10 <=> prop10o }
textformats/Base64Decode.asm	FloydZ/Crypto-Hash	11	18653	<gh_stars>10-100 .data align 4 b64table label byte db 0,42 dup (-1) db 62; + ; [02Bh] db 3 dup(-1) db 63; / ; [02Fh] db 52,53,54,55,56,57,58,59,60,61; 0..9 ;30-39 db 3 dup(-1) db 0 ; = ; [03Dh] db 3 dup(-1) db 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25; A..Z db 6 dup(-1) db 26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51; a..z db 133 dup (-1) .code OPTION PROLOGUE:NONE OPTION EPILOGUE:NONE Base64Decode proc pInputStr:DWORD,pOutputData:DWORD push ebp push esi push edi push ebx mov edi,[esp+14][44];pInputStr xor eax,eax mov esi,edi .repeat; strlen mov al,[edi] add edi,4 test al,al .until zero? lea ebp,[edi-4] mov eax,'=' sub ebp,esi; 4parts jz @F cmp al,[esi+ebp-1]; padd? sete dl .if zero?;equal? mov [esi+ebp-1],ah .endif cmp al,[esi+ebp-2] sete al .if zero?;equal? mov [esi+ebp-2],ah .endif add al,dl mov edi,[esp+24][44];pOutputData shr ebp,2 lea edx,[ebp2+ebp] sub edx,eax push edx; result = length .repeat ; CCDDDDDD BBBBCCCC AAAAAABB mov ecx,[esi] movzx edx,cl movzx ebx,ch mov al,[edx+b64table]; ..AAAAAA mov ah,[ebx+b64table]; ..BBBBBB shr ecx,16 add esi,4 movzx edx,cl movzx ecx,ch mov bl,[edx+b64table]; ..CCCCCC mov bh,[ecx+b64table]; ..DDDDDD mov dl,ah mov dh,bl shl al,2;AAAAAA.. shr bl,2;....CCCC shl dh,6;CC...... shl ah,4;BBBB.... shr dl,4;......BB or bh,dh or al,dl or ah,bl mov [edi+0],al mov [edi+2],bh mov [edi+1],ah dec ebp lea edi,[edi+3] .until zero? pop eax @@: pop ebx pop edi pop esi pop ebp ret 24 Base64Decode endp OPTION PROLOGUE:PROLOGUEDEF OPTION EPILOGUE:EPILOGUEDEF
tests/data_unsized/7.asm	NullMember/customasm	414	24327	#d 0x12, 0x345, 0x6, 0x789a ; = 0x123456789a
oeis/235/A235118.asm	neoneye/loda-programs	11	25384	; A235118: Number of independent vertex subsets of the graph obtained by attaching two pendant edges to each vertex of the ladder graph L_n (L_n is the 2 X n grid graph; see A235117). ; Submitted by <NAME> ; 1,24,544,12416,283136,6457344,147267584,3358621696,76597559296,1746902974464,39840303284224,908607856050176,20721936531193856,472589633411088384,10777996606218174464,245805668662673145856,5605905156051426082816,127849665915439602991104,2915771248296083329122304,66497803584509801173876736,1516565431581145356541362176,34587168061031534405955354624,788803548841823990937754271744,17989649732742498020736228130816,410276421780726695834740836007936,9356866018510053790021935320530944 mov $1,1 mov $3,1 lpb $0 sub $0,1 mov $2,$3 mul $2,16 mul $3,5 add $3,$1 mov $1,$2 mul $3,4 lpe mov $0,$3
asm/krusader.test.asm	rhoem1/65co2	0	105009	<gh_stars>0 N ECHO .= $FFEF PRHEX .= $FFDC RNG .= $D01F I .= $03 MAIN .M $300 LDX #$60 .LOOP LDA RNG PHA STX I TXA LSR LSR LSR CLC ASL ASL ASL CMP I BNE .SPACE LDA #$0D JSR ECHO JMP .TELL .SPACE LDA #$20 JSR ECHO .TELL PLA JSR PRHEX LDX I DEX BNE .LOOP RTS
script/filler.applescript	Kymer/Filler	1	4637	<reponame>Kymer/Filler // The goal of this script is to automate setting a certain value in the commit field of Applications such as Tower or SourceTree. // This script will extract a ticket name from the currently active branch and insert it in the commit field. // Current supported applications const applications = { Tower: { process: getProcess('Tower'), get commitField() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].textFields[1] }, get branchName() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].buttons[0].title() } }, SourceTree: { process: getProcess('SourceTree'), get commitField() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].splitterGroups[0].scrollAreas[0].textAreas[0] }, get branchName() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].splitterGroups[0].checkboxes[0].title() } } } // Configurable properties const selectedApplication = applications.Tower // The application for which the script should run const debugMode = false // When enabled, error messages will be shown in a dialog message const refreshInterval = 0.5 // Number of seconds between each refresh interval const ticketProperties = { // Various properties which describe a ticket name (e.g. TMA-1952) prefix: 'TMA', delimiter: '-', numberOfDigits: 4 } // Handlers function run() { tryPrefillingCommitMessage() } function idle() { tryPrefillingCommitMessage() return refreshInterval } // Script starting point function tryPrefillingCommitMessage() { try { const ticketName = getTicketNameFromBranchName(selectedApplication.branchName, ticketProperties) insertValueInCommitField(ticketName, selectedApplication.commitField) } catch (error) { handleError(error) } } // Helper functions function insertValueInCommitField(message, commitField) { if (!message \|\| !commitField.exists()) { return } if (commitField.value().length == 0 \|\| commitField.value().includes(message)) { return } commitField.value = `${message}: ` + commitField.value() } function getTicketNameFromBranchName(branchName, ticketProperties) { const regEx = `${ticketProperties.prefix}${ticketProperties.delimiter}[0-9]{${ticketProperties.numberOfDigits}}` const matches = branchName.match(regEx) return (matches && matches.length > 0 ? matches[0] : null) } function getProcess(name) { return Application('System Events').processes.byName(name) } // Error handling function handleError(error) { if (!debugMode) { return } // If not in debug mode: fail silently displayDialogWithMessage(`Oh no, something went wrong 😦\n\n⚠️ ERROR\n${error.message}\n\n${error.stack}`) } function displayDialogWithMessage(messageToDisplay) { const app = Application.currentApplication() app.includeStandardAdditions = true app.displayDialog(messageToDisplay, { buttons: ["Ok"] }) }
test/Fail/Issue1408a.agda	KDr2/agda	0	4806	{-# OPTIONS --cubical-compatible #-} -- {-# OPTIONS -v tc.lhs.unify:15 #-} open import Common.Equality open import Common.Prelude data Fin : (n : Nat) → Set where zero : {n : Nat} → Fin (suc n) suc : {n : Nat} (i : Fin n) → Fin (suc n) data _≅_ {A : Set} (a : A) : {B : Set} (b : B) → Set1 where refl : a ≅ a OffDiag : ∀ {n m} → Fin n → Fin m → Set OffDiag zero zero = ⊥ OffDiag (suc _) (suc _) = ⊥ OffDiag _ _ = ⊤ inj-Fin-≅ : ∀ {n m} {i : Fin n} {j : Fin m} → i ≅ j → OffDiag i j → ⊥ inj-Fin-≅ {i = zero} {zero} eq () inj-Fin-≅ {i = zero} {suc j} () inj-Fin-≅ {i = suc i} {zero} () inj-Fin-≅ {i = suc i} {suc j} p ()
boot/gdt.asm	TehcJS/KettleKernel	0	243318	; GDT gdt_start: dd 0x0 dd 0x0 gdt_code: dw 0xffff dw 0x0 db 0x0 db 10011010b db 11001111b db 0x0 gdt_data: dw 0xffff dw 0x0 db 0x0 db 10010010b db 11001111b db 0x0 gdt_end: gdt_descriptor: dw gdt_end - gdt_start - 1 dd gdt_start CODE_SEG equ gdt_code - gdt_start DATA_SEG equ gdt_data - gdt_start [bits 16] switch_pm: mov bx, SWITCHING_PM call print cli lgdt [gdt_descriptor] mov eax, cr0 or eax, 0x1 mov cr0, eax jmp CODE_SEG:init_pm [bits 32] init_pm: mov ax, DATA_SEG mov ds, ax mov ss, ax mov es, ax mov fs, ax mov gs, ax mov ebp, 0x90000 mov esp, ebp call BEGIN_PM
g-dynhta.adb	ytomino/gnat4drake	0	17844	package body GNAT.Dynamic_HTables is package body Simple_HTable is function R (Position : Maps.Cursor) return Element; function R (Position : Maps.Cursor) return Element is begin if Maps.Has_Element (Position) then return Maps.Element (Position); else return No_Element; end if; end R; procedure Set (T : in out Instance; K : Key; E : Element) is begin Maps.Include (T.Map, K, E); end Set; procedure Reset (T : in out Instance) is begin Maps.Clear (T.Map); end Reset; function Get (T : Instance; K : Key) return Element is begin return R (Maps.Find (T.Map, K)); end Get; function Get_First (T : in out Instance) return Element is begin T.Position := Maps.First (T.Map); return R (T.Position); end Get_First; function Get_Next (T : in out Instance) return Element is begin if Maps.Has_Element (T.Position) then T.Position := Maps.Next (T.Position); end if; return R (T.Position); end Get_Next; function Hash (Item : Key) return Ada.Containers.Hash_Type is begin return Ada.Containers.Hash_Type'Mod (Header_Num'(Hash (Item))); end Hash; end Simple_HTable; end GNAT.Dynamic_HTables;
agda/Bound/Lower/Order/Properties.agda	bgbianchi/sorting	6	6166	open import Relation.Binary.Core module Bound.Lower.Order.Properties {A : Set} (_≤_ : A → A → Set) (trans≤ : Transitive _≤_) where open import Bound.Lower A open import Bound.Lower.Order _≤_ transLeB : {a b c : Bound} → LeB a b → LeB b c → LeB a c transLeB lebx _ = lebx transLeB (lexy x≤y) (lexy y≤z) = lexy (trans≤ x≤y y≤z)
FormalAnalyzer/models/apps/DoorOpenWarningLight.als	Mohannadcse/IoTCOM_BehavioralRuleExtractor	0	4872	<reponame>Mohannadcse/IoTCOM_BehavioralRuleExtractor module app_DoorOpenWarningLight open IoTBottomUp as base open cap_motionSensor open cap_switch open cap_contactSensor one sig app_DoorOpenWarningLight extends IoTApp { sensors : some cap_motionSensor, switch1 : one cap_switch, state : one cap_state, contacts : some cap_contactSensor, } { rules = r } one sig cap_state extends Capability {} { attributes = cap_state_attr } abstract sig cap_state_attr extends Attribute {} one sig cap_state_attr_runIn extends cap_state_attr {} { values = cap_state_attr_runIn_val } abstract sig cap_state_attr_runIn_val extends AttrValue {} one sig cap_state_attr_runIn_val_on extends cap_state_attr_runIn_val {} one sig cap_state_attr_runIn_val_off extends cap_state_attr_runIn_val {} one sig cap_state_attr_scheduledLightOn extends cap_state_attr {} { values = cap_state_attr_scheduledLightOn_val } abstract sig cap_state_attr_scheduledLightOn_val extends AttrValue {} one sig cap_state_attr_scheduledLightOn_val_true extends cap_state_attr_scheduledLightOn_val {} one sig cap_state_attr_scheduledLightOn_val_false extends cap_state_attr_scheduledLightOn_val {} // application rules base class abstract sig r extends Rule {} one sig r0 extends r {}{ no triggers conditions = r0_cond commands = r0_comm } abstract sig r0_cond extends Condition {} one sig r0_cond0 extends r0_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } abstract sig r0_comm extends Command {} one sig r0_comm0 extends r0_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_false } one sig r1 extends r {}{ triggers = r1_trig conditions = r1_cond commands = r1_comm } abstract sig r1_trig extends Trigger {} one sig r1_trig0 extends r1_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r1_cond extends Condition {} one sig r1_cond0 extends r1_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r1_comm extends Command {} one sig r1_comm0 extends r1_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } one sig r2 extends r {}{ triggers = r2_trig conditions = r2_cond commands = r2_comm } abstract sig r2_trig extends Trigger {} one sig r2_trig0 extends r2_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r2_cond extends Condition {} one sig r2_cond0 extends r2_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r2_comm extends Command {} one sig r2_comm0 extends r2_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } one sig r3 extends r {}{ triggers = r3_trig conditions = r3_cond commands = r3_comm } abstract sig r3_trig extends Trigger {} one sig r3_trig0 extends r3_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r3_cond extends Condition {} one sig r3_cond0 extends r3_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } one sig r3_cond1 extends r3_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val } abstract sig r3_comm extends Command {} one sig r3_comm0 extends r3_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_false } one sig r4 extends r {}{ triggers = r4_trig conditions = r4_cond commands = r4_comm } abstract sig r4_trig extends Trigger {} one sig r4_trig0 extends r4_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r4_cond extends Condition {} one sig r4_cond0 extends r4_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } abstract sig r4_comm extends Command {} one sig r4_comm0 extends r4_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_off } one sig r5 extends r {}{ triggers = r5_trig conditions = r5_cond commands = r5_comm } abstract sig r5_trig extends Trigger {} one sig r5_trig0 extends r5_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r5_cond extends Condition {} one sig r5_cond0 extends r5_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } abstract sig r5_comm extends Command {} one sig r5_comm0 extends r5_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_off } one sig r6 extends r {}{ triggers = r6_trig conditions = r6_cond commands = r6_comm } abstract sig r6_trig extends Trigger {} one sig r6_trig0 extends r6_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r6_cond extends Condition {} one sig r6_cond0 extends r6_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r6_comm extends Command {} one sig r6_comm0 extends r6_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } one sig r6_comm1 extends r6_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_true } one sig r7 extends r {}{ triggers = r7_trig conditions = r7_cond commands = r7_comm } abstract sig r7_trig extends Trigger {} one sig r7_trig0 extends r7_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r7_cond extends Condition {} one sig r7_cond0 extends r7_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } one sig r7_cond1 extends r7_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val } abstract sig r7_comm extends Command {} one sig r7_comm0 extends r7_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_false } one sig r8 extends r {}{ no triggers conditions = r8_cond commands = r8_comm } abstract sig r8_cond extends Condition {} one sig r8_cond0 extends r8_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } abstract sig r8_comm extends Command {} one sig r8_comm0 extends r8_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } one sig r9 extends r {}{ triggers = r9_trig conditions = r9_cond commands = r9_comm } abstract sig r9_trig extends Trigger {} one sig r9_trig0 extends r9_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r9_cond extends Condition {} one sig r9_cond0 extends r9_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r9_comm extends Command {} one sig r9_comm0 extends r9_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } one sig r9_comm1 extends r9_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_true }
Cubical/HITs/Sn.agda	dan-iel-lee/cubical	0	2023	<filename>Cubical/HITs/Sn.agda {-# OPTIONS --cubical --no-import-sorts --safe #-} module Cubical.HITs.Sn where open import Cubical.HITs.Sn.Base public open import Cubical.HITs.Sn.Properties public
compiler/src/grammar/Spice.g4	chillibits/spice	13	6566	grammar Spice; // Control structures entry: (mainFunctionDef \| functionDef \| procedureDef \| structDef \| globalVarDef \| importStmt \| extDecl); mainFunctionDef: F LESS TYPE_INT GREATER MAIN LPAREN paramLstDef? RPAREN LBRACE stmtLst RBRACE; functionDef: F LESS dataType GREATER (IDENTIFIER DOT)? IDENTIFIER LPAREN paramLstDef? RPAREN LBRACE stmtLst RBRACE; procedureDef: P (IDENTIFIER DOT)? IDENTIFIER LPAREN paramLstDef? RPAREN LBRACE stmtLst RBRACE; extDecl: EXT (LESS dataType GREATER)? IDENTIFIER LPAREN typeLst? RPAREN DLL? SEMICOLON; structDef: TYPE IDENTIFIER STRUCT LBRACE fieldLst RBRACE; globalVarDef: CONST? dataType IDENTIFIER (ASSIGN_OP value)? SEMICOLON; forLoop: FOR assignExpr SEMICOLON assignExpr SEMICOLON assignExpr LBRACE stmtLst RBRACE; foreachLoop: FOREACH (foreachHead \| LPAREN foreachHead RPAREN) LBRACE stmtLst RBRACE; foreachHead: ((declStmt \| assignExpr) COMMA)? declStmt COLON assignExpr; whileLoop: WHILE assignExpr LBRACE stmtLst RBRACE; ifStmt: IF assignExpr LBRACE stmtLst RBRACE elseStmt?; elseStmt: ELSE ifStmt \| ELSE LBRACE stmtLst RBRACE; // Statements, declarations, definitions and lists stmtLst: (stmt \| forLoop \| foreachLoop \| whileLoop \| ifStmt); fieldLst: declStmt; typeLst: dataType (COMMA dataType) ELLIPSIS?; paramLstDef: (declStmt \| assignExpr) (COMMA (declStmt \| assignExpr)); paramLst: assignExpr (COMMA assignExpr); stmt: (declStmt \| assignExpr \| newStmt \| arrayInitStmt \| idenValue \| builtinCall \| returnStmt \| breakStmt \| continueStmt) SEMICOLON; declStmt: CONST? dataType IDENTIFIER; functionCall: IDENTIFIER LPAREN paramLst? RPAREN; newStmt: CONST? dataType IDENTIFIER ASSIGN_OP NEW IDENTIFIER (DOT IDENTIFIER)* LBRACE paramLst? RBRACE; arrayInitStmt: CONST? dataType IDENTIFIER (ASSIGN_OP LBRACE paramLst? RBRACE)?; importStmt: IMPORT STRING AS IDENTIFIER SEMICOLON; returnStmt: RETURN assignExpr?; breakStmt: BREAK INTEGER?; continueStmt: CONTINUE INTEGER?; // Builtin functions builtinCall: printfCall \| sizeOfCall; printfCall: PRINTF LPAREN STRING (COMMA assignExpr)* RPAREN; sizeOfCall: SIZEOF LPAREN assignExpr RPAREN; // Expression loop assignExpr: ((declStmt \| idenValue) (ASSIGN_OP \| PLUS_EQUAL \| MINUS_EQUAL \| MUL_EQUAL \| DIV_EQUAL \| SHL_EQUAL \| SHR_EQUAL))? ternaryExpr; ternaryExpr: logicalOrExpr (QUESTION_MARK logicalOrExpr COLON logicalOrExpr)?; logicalOrExpr: logicalAndExpr (LOGICAL_OR logicalAndExpr); logicalAndExpr: bitwiseOrExpr (LOGICAL_AND bitwiseOrExpr); bitwiseOrExpr: bitwiseAndExpr (BITWISE_OR bitwiseAndExpr); bitwiseAndExpr: equalityExpr (BITWISE_AND equalityExpr); equalityExpr: relationalExpr ((EQUAL \| NOT_EQUAL) relationalExpr)?; relationalExpr: shiftExpr ((LESS \| GREATER \| LESS_EQUAL \| GREATER_EQUAL) shiftExpr)?; shiftExpr: additiveExpr ((SHL \| SHR) additiveExpr)?; additiveExpr: multiplicativeExpr ((PLUS \| MINUS) multiplicativeExpr); multiplicativeExpr: prefixUnaryExpr ((MUL \| DIV \| REM) prefixUnaryExpr); prefixUnaryExpr: (NOT \| PLUS_PLUS \| MINUS_MINUS)? postfixUnaryExpr; postfixUnaryExpr: castExpr (PLUS_PLUS \| MINUS_MINUS)?; castExpr: (LPAREN dataType RPAREN)? atomicExpr; atomicExpr: value \| idenValue \| builtinCall \| LPAREN assignExpr RPAREN; // Values and types idenValue: (BITWISE_AND \| MUL)* (functionCall \| IDENTIFIER) (LBRACKET assignExpr RBRACKET)? (DOT (functionCall \| IDENTIFIER) (LBRACKET assignExpr RBRACKET)?); value: DOUBLE \| INTEGER \| CHAR \| STRING \| TRUE \| FALSE \| NIL LESS dataType GREATER; dataType: (TYPE_DOUBLE \| TYPE_INT \| TYPE_SHORT \| TYPE_LONG \| TYPE_BYTE \| TYPE_CHAR \| TYPE_STRING \| TYPE_BOOL \| TYPE_DYN \| IDENTIFIER (DOT IDENTIFIER)) (MUL \| LBRACKET INTEGER? RBRACKET); // Terminal tokens TYPE_DOUBLE: 'double'; TYPE_INT: 'int'; TYPE_SHORT: 'short'; TYPE_LONG: 'long'; TYPE_BYTE: 'byte'; TYPE_CHAR: 'char'; TYPE_STRING: 'string'; TYPE_BOOL: 'bool'; TYPE_DYN: 'dyn'; F: 'f'; P: 'p'; IF: 'if'; ELSE: 'else'; FOR: 'for'; FOREACH: 'foreach'; WHILE: 'while'; CONST: 'const'; IMPORT: 'import'; BREAK: 'break'; CONTINUE: 'continue'; RETURN: 'return'; AS: 'as'; STRUCT: 'struct'; TYPE: 'type'; NEW: 'new'; NIL: 'nil'; MAIN: 'main'; PRINTF: 'printf'; SIZEOF: 'sizeof'; EXT: 'ext'; DLL: 'dll'; ELLIPSIS: '...'; TRUE: 'true'; FALSE: 'false'; CHAR: '\'' (~['\\\r\n] \| '\\' (. \| EOF)) '\''; STRING: '"' (~["\\\r\n] \| '\\' (. \| EOF)) '"'; INTEGER: '-'? [1-9]+[0-9]* \| '0'; DOUBLE: '-'? [0-9]+.[0-9]+; IDENTIFIER: [_a-zA-Z][_a-zA-Z0-9]; LBRACE: '{'; RBRACE: '}'; LPAREN: '('; RPAREN: ')'; LBRACKET: '['; RBRACKET: ']'; LOGICAL_OR: '\|\|'; LOGICAL_AND: '&&'; BITWISE_OR: '\|'; BITWISE_AND: '&'; NOT: '!'; PLUS_PLUS: '++'; MINUS_MINUS: '--'; PLUS_EQUAL: '+='; MINUS_EQUAL: '-='; MUL_EQUAL: '='; DIV_EQUAL: '/='; SHL_EQUAL: '<<='; SHR_EQUAL: '>>='; SHL: '<<'; SHR: '>>'; PLUS: '+'; MINUS: '-'; MUL: ''; DIV: '/'; REM: '%'; GREATER: '>'; LESS: '<'; GREATER_EQUAL: '>='; LESS_EQUAL: '<='; EQUAL: '=='; NOT_EQUAL: '!='; ASSIGN_OP: '='; QUESTION_MARK: '?'; SEMICOLON: ';'; COLON: ':'; COMMA: ','; DOT: '.'; BLOCK_COMMENT: '/' .? '/' -> skip; LINE_COMMENT: '//' ~[\r\n]* -> skip; WS: [ \t\r\n]+ -> channel(HIDDEN);
src/aco-drivers.ads	jonashaggstrom/ada-canopen	6	12440	<reponame>jonashaggstrom/ada-canopen with ACO.Messages; with Ada.Real_Time; package ACO.Drivers is type Driver is abstract tagged limited null record; type Driver_Access is access all Driver'Class; procedure Receive_Message_Blocking (This : in out Driver; Msg : out ACO.Messages.Message) is abstract; procedure Send_Message (This : in out Driver; Msg : in ACO.Messages.Message) is abstract; procedure Initialize (This : in out Driver) is abstract; procedure Finalize (This : in out Driver) is abstract; function Is_Message_Pending (This : Driver) return Boolean is abstract; function Current_Time (This : Driver) return Ada.Real_Time.Time is abstract; end ACO.Drivers;
src/main/antlr/RSQL.g4	ettoreleandrotognoli/py-storage	0	3881	grammar RSQL; options { language = Python37; } statement : left=statement op=AND_OPERATOR right=statement \| left=statement op=OR_OPERATOR right=statement \| '(' wrapped=statement ')' \| node=comparison ; comparison : left=expression cmp=comparator right=expression ; expression : value \| IDENTIFIER ; TRUE: 'true' \| 'True' \| 't' \| 'T' ; FALSE: 'false' \| 'False' \| 'f' \| 'F' ; AND_OPERATOR: ';' \| '&'; OR_OPERATOR: ',' \| '\|'; EQ: '=='; NE: '!='; IDENTIFIER : [a-zA-Z_] [a-zA-Z_0-9]* ; comparator : '=' IDENTIFIER '=' \| EQ \| NE ; value : boolean=boolean_literal \| string=string_literal \| number=numeric_literal \| array=array_value ; array_value : '(' value ( ',' value ) * ')' \| '[' value ( ',' value ) * ']' ; boolean_literal : TRUE \| FALSE ; numeric_literal : INT_LITERAL \| DECIMAL_LITERAL ; string_literal : STRING_LITERAL ; INT_LITERAL : [-+]? DIGIT+ ; DECIMAL_LITERAL : [-+]? DIGIT+ ( '.' DIGIT) ; STRING_LITERAL : '\'' ( STRING_ESCAPE_SEQ \| ~[\\\r\n'] ) '\'' \| '"' ( STRING_ESCAPE_SEQ \| ~[\\\r\n"] )* '"' ; STRING_ESCAPE_SEQ : '\\' . ; fragment DIGIT : [0-9];
programs/oeis/109/A109065.asm	neoneye/loda	22	90726	<gh_stars>10-100 ; A109065: Numerator of the fraction due in month n of the total interest for a one-year installment loan based on the Rule of 78s (each denominator is 78). ; 12,11,10,9,8,7,6,5,4,3,2,1 mov $1,12 sub $1,$0 mov $0,$1
Transynther/x86/_processed/P/_ht_/i9-9900K_12_0xa0.log_289_554.asm	ljhsiun2/medusa	9	94694	<filename>Transynther/x86/_processed/P/_ht_/i9-9900K_12_0xa0.log_289_554.asm .global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r13 push %r15 push %r8 push %rbx push %rcx push %rdi push %rdx push %rsi lea addresses_UC_ht+0x15832, %rdx nop nop nop nop sub $62717, %r10 movb (%rdx), %r13b nop nop dec %rbx lea addresses_WC_ht+0x3532, %r11 nop and $42219, %r10 mov (%r11), %r15d nop add $39387, %r13 lea addresses_normal_ht+0x4232, %r10 nop nop nop nop add %r11, %r11 mov (%r10), %r13w nop sub %r13, %r13 lea addresses_UC_ht+0x10aca, %r13 nop nop mfence movb (%r13), %dl nop nop nop nop cmp $38678, %r13 lea addresses_normal_ht+0x146f2, %rsi lea addresses_A_ht+0x110b2, %rdi nop nop and $22287, %rdx mov $38, %rcx rep movsl nop nop and $41019, %r15 lea addresses_UC_ht+0x12903, %rdi nop nop nop nop inc %rbx movl $0x61626364, (%rdi) nop nop dec %rcx lea addresses_D_ht+0x93b6, %rcx nop nop add $3445, %r13 movups (%rcx), %xmm1 vpextrq $0, %xmm1, %rdx and %rcx, %rcx lea addresses_D_ht+0x12b32, %rcx nop nop nop nop nop inc %r10 movw $0x6162, (%rcx) add %rcx, %rcx lea addresses_WT_ht+0x125e2, %r11 clflush (%r11) nop nop sub $45729, %rdi mov (%r11), %dx nop nop nop nop dec %r10 lea addresses_UC_ht+0x1d732, %rbx dec %r8 mov (%rbx), %r11d nop nop nop nop nop xor %r13, %r13 lea addresses_normal_ht+0x17b2, %r13 nop nop nop nop and %r10, %r10 mov $0x6162636465666768, %r8 movq %r8, (%r13) nop nop nop nop nop inc %r15 lea addresses_WC_ht+0x1e692, %r10 nop xor $29133, %rdi movb $0x61, (%r10) nop nop nop nop nop cmp $46113, %rdx pop %rsi pop %rdx pop %rdi pop %rcx pop %rbx pop %r8 pop %r15 pop %r13 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r12 push %r13 push %rbp push %rbx push %rcx push %rdx // Store lea addresses_normal+0x6f2, %rbp nop nop nop cmp %r13, %r13 movb $0x51, (%rbp) nop nop nop nop nop inc %rbx // Faulty Load mov $0x332, %r12 nop nop cmp %rcx, %rcx movups (%r12), %xmm5 vpextrq $1, %xmm5, %rdx lea oracles, %r13 and $0xff, %rdx shlq $12, %rdx mov (%r13,%rdx,1), %rdx pop %rdx pop %rcx pop %rbx pop %rbp pop %r13 pop %r12 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'NT': False, 'same': False, 'congruent': 0, 'type': 'addresses_P', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 5, 'type': 'addresses_normal', 'AVXalign': False, 'size': 1}} [Faulty Load] {'src': {'NT': False, 'same': True, 'congruent': 0, 'type': 'addresses_P', 'AVXalign': False, 'size': 16}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'NT': False, 'same': False, 'congruent': 8, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'src': {'NT': True, 'same': False, 'congruent': 9, 'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 4}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 8, 'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 2}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'src': {'same': True, 'congruent': 6, 'type': 'addresses_normal_ht'}, 'OP': 'REPM', 'dst': {'same': False, 'congruent': 5, 'type': 'addresses_A_ht'}} {'OP': 'STOR', 'dst': {'NT': True, 'same': True, 'congruent': 0, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 4}} {'src': {'NT': False, 'same': False, 'congruent': 0, 'type': 'addresses_D_ht', 'AVXalign': False, 'size': 16}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 9, 'type': 'addresses_D_ht', 'AVXalign': False, 'size': 2}} {'src': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 2}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 10, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 4}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 7, 'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 8}} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 1}} {'46': 289} 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 */
tools-src/gnu/gcc/gcc/ada/i-c.ads	enfoTek/tomato.linksys.e2000.nvram-mod	80	25836	----------------------------------------------------------------------------- -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- I N T E R F A C E S . C -- -- -- -- S p e c -- -- -- -- $Revision$ -- -- -- This specification is adapted from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ with System.Parameters; package Interfaces.C is pragma Pure (C); -- Declaration's based on C's <limits.h> CHAR_BIT : constant := 8; SCHAR_MIN : constant := -128; SCHAR_MAX : constant := 127; UCHAR_MAX : constant := 255; -- Signed and Unsigned Integers. Note that in GNAT, we have ensured that -- the standard predefined Ada types correspond to the standard C types type int is new Integer; type short is new Short_Integer; type long is range -(2 (System.Parameters.long_bits - 1)) .. +(2 (System.Parameters.long_bits - 1)) - 1; type signed_char is range SCHAR_MIN .. SCHAR_MAX; for signed_char'Size use CHAR_BIT; type unsigned is mod 2 int'Size; type unsigned_short is mod 2 short'Size; type unsigned_long is mod 2 long'Size; type unsigned_char is mod (UCHAR_MAX + 1); for unsigned_char'Size use CHAR_BIT; subtype plain_char is unsigned_char; -- ??? should be parametrized type ptrdiff_t is range -(2 (Standard'Address_Size - 1)) .. +(2 (Standard'Address_Size - 1) - 1); type size_t is mod 2 Standard'Address_Size; -- Floating-Point type C_float is new Float; type double is new Standard.Long_Float; type long_double is new Standard.Long_Long_Float; ---------------------------- -- Characters and Strings -- ---------------------------- type char is new Character; nul : constant char := char'First; function To_C (Item : Character) return char; function To_Ada (Item : char) return Character; type char_array is array (size_t range <>) of aliased char; for char_array'Component_Size use CHAR_BIT; function Is_Nul_Terminated (Item : in char_array) return Boolean; function To_C (Item : in String; Append_Nul : in Boolean := True) return char_array; function To_Ada (Item : in char_array; Trim_Nul : in Boolean := True) return String; procedure To_C (Item : in String; Target : out char_array; Count : out size_t; Append_Nul : in Boolean := True); procedure To_Ada (Item : in char_array; Target : out String; Count : out Natural; Trim_Nul : in Boolean := True); ------------------------------------ -- Wide Character and Wide String -- ------------------------------------ type wchar_t is new Wide_Character; for wchar_t'Size use Standard'Wchar_T_Size; wide_nul : constant wchar_t := wchar_t'First; function To_C (Item : in Wide_Character) return wchar_t; function To_Ada (Item : in wchar_t) return Wide_Character; type wchar_array is array (size_t range <>) of aliased wchar_t; function Is_Nul_Terminated (Item : in wchar_array) return Boolean; function To_C (Item : in Wide_String; Append_Nul : in Boolean := True) return wchar_array; function To_Ada (Item : in wchar_array; Trim_Nul : in Boolean := True) return Wide_String; procedure To_C (Item : in Wide_String; Target : out wchar_array; Count : out size_t; Append_Nul : in Boolean := True); procedure To_Ada (Item : in wchar_array; Target : out Wide_String; Count : out Natural; Trim_Nul : in Boolean := True); Terminator_Error : exception; end Interfaces.C;
examples/3rd-party/JiveTurkey/J.asm	brickpool/hp35s	3	86392	<filename>examples/3rd-party/JiveTurkey/J.asm ; Jive Turkey for the HP-35s ; This program is from <NAME> and is used here by permission. ; http://ftp.whtech.com/hexbus_cc40_ti74/a-collection-of-information-on-the-ti-cc40-computer.pdf MODEL P35S SEGMENT JiveTurkey CODE LBL J ;100 DISPLAY AT(6)"* JIVE TURKEY GAME ":PAUSE 2 SF 10 eqn 'JIVE TURKEY' PSE CF 10 @110: ;110 SCORE=0:FIB=0:RANDOMIZE:SECRET=INTRND(100) CLx STO S ; SCORE STO F ; FIB SEED 100 XEQ INTRND STO X ; SECRET @120: ;120 DISPLAY ERASE ALL"PROBABILITY OF TRUTH? 0-100"; SF 10 eqn 'PROB 0-100' PSE CF 10 @130: ;130 ACCEPT AT(29)BEEP VALIDATE(DIGIT);PROB INPUT P ; PROB x<0? GTO @120 100 x<y? GTO @120 @140: ;140 ROLL=INTRND(100):SCORE=SCORE+1:DISPLAY"YOUR GUES? 0-100"; 100 XEQ INTRND STO R ; ROLL 1 STO+ S ; SCORE @142: SF 10 eqn 'GUESS 0-100' PSE CF 10 ;150 ACCEPT AT(20)BEEP VALIDATE(DIGIT);GUESS:IF GUESS=SECRET THEN 190 INPUT G ; GUESS x<0? GTO @142 100 x<y? GTO @142 RCL X x=y? GTO @190 ;160 IF PROB>ROLL THEN FLAG=1 ELSE FLAG=0:IF FLAG=0 THEN FIB=FIB+1 RCL R RCL P CF 1 x>y? SF 1 1 FS? 1 CLx STO+ F ;170 IF GUESS<SECRET THEN IF FLAG=1 THEN 240 ELSE 230 RCL X RCL G x>=y? GTO @180 FS? 1 GTO @240 GTO @230 @180: ;180 IF GUESS>SECRET THEN IF FLAG=1 THEN 230 ELSE 240 x<=y? GTO @190 FS? 1 GTO @230 GTO @240 @190: ;190 PRINT"CONGRATULATIONS! YOU DID IT!":PAUSE 3 SF 10 eqn 'YOU DID IT!' PSE ;200 DISPLAY AT (3)"SCORE=";SCORE,"# OF FIBS=";FIB:PAUSE eqn 'SCORE=' PSE VIEW S eqn 'FIBS=' PSE VIEW F ;210 DISPLAY"SAME GAME AGAIN? Y/N";:ACCEPT AT(22)BEEP VALIDATE("YNyn"),ANSWERS CLx eqn 'AGAIN Y=2 N=1' CF 10 ;220 IF ANSWERS="Y" OR ANSWERS="y" THEN 110 ELSE 250 2 x=y? GTO @110 GTO @250 @230: ;230 PRINT"GUESS TOO HIGH":PAUSE 1:G0T0 140 SF 10 eqn 'GUESS TOO HIGH' PSE CF 10 GTO @140 @240: ;240 PRINT"GUESS TOO LOW":PAUSE 1:G0T0 140 SF 10 eqn 'GUESS TOO LOW' PSE CF 10 GTO @140 @250: ;250 DISPLAY AT(5)ERASE ALL"BYE, HAVE A NICE DAY!":PAUSE 3:END SF 10 eqn 'BYE, HAND' PSE CF 10 CF 1 RTN INTRND: eqn 'IP(RANDIP(REGX+1/2))+1' RTN ENDS JiveTurkey END
tools/ayacc/src/ayacc_file_names.adb	svn2github/matreshka	24	30892	with Ada.Characters.Handling; with Ada.Directories; with Ada.Strings.Unbounded; with String_Pkg; package body Ayacc_File_Names is use Ada.Characters.Handling; use Ada.Strings.Unbounded; function "+" (Item : String) return Unbounded_String renames To_Unbounded_String; function "+" (Item : Unbounded_String) return String renames To_String; Source_File_Name : Unbounded_String; Out_File_Name : Unbounded_String; Verbose_File_Name : Unbounded_String; Template_File_Name : Unbounded_String; Actions_File_Name : Unbounded_String; Shift_Reduce_File_Name : Unbounded_String; Goto_File_Name : Unbounded_String; Tokens_File_Name : Unbounded_String; -- UMASS CODES : Error_Report_File_Name : Unbounded_String; Listing_File_Name : Unbounded_String; -- END OF UMASS CODES. C_Lex_File_Name : Unbounded_String; Include_File_Name : Unbounded_String; --RJS ========================================== function End_of_Unit_Name (Name : in String) return Natural is Dot_Position : Natural := Name'Last; begin while Dot_Position >= Name'First and then Name (Dot_Position) /= '.' loop Dot_Position := Dot_Position - 1; end loop; return Dot_Position - 1; end End_of_Unit_Name; function Get_Unit_Name (Filename : in String) return String is -- modified to check for valid Ada identifiers. 11/28/88 kn Filename_Without_Extension : String := Filename (Filename'First .. End_of_Unit_Name (Filename)); End_of_Directory : Natural := Filename_Without_Extension'Last + 1; function Is_Alphabetic (Ch : in Character) return Boolean is begin return Ch in 'A' .. 'Z' or else Ch in 'a' .. 'z'; end Is_Alphabetic; function Is_AlphaNum_or_Underscore (Ch : in Character) return Boolean is begin return Is_Alphabetic(Ch) or else Ch in '0' .. '9' or else Ch = '_' or else Ch = '-'; end Is_AlphaNum_or_Underscore; use String_Pkg; begin -- find end of directory for Pos in reverse Filename_Without_Extension'FIRST.. Filename_Without_Extension'LAST loop exit when Filename_Without_Extension(Pos) = '/'; End_Of_Directory := Pos; end loop; if End_Of_Directory <= Filename_Without_Extension'LAST and then Is_Alphabetic (Filename_Without_Extension (End_of_Directory)) then Check_Remaining_Characters : for i in End_Of_Directory + 1 .. Filename_Without_Extension'LAST loop if not Is_AlphaNum_or_Underscore (Filename_Without_Extension(i)) then return ""; elsif Filename_Without_Extension(i) = '-' then Filename_Without_Extension(i) := '.'; end if; end loop Check_Remaining_Characters; return Value (Mixed (Filename_Without_Extension (End_of_Directory .. Filename_Without_Extension'Last))); else return ""; end if; end Get_Unit_Name; --------------------- -- C_Lex_Unit_Name -- --------------------- function C_Lex_Unit_Name return String is Filename : constant String := To_Upper (+C_Lex_File_Name); begin return Get_Unit_Name (Filename); end C_Lex_Unit_Name; --------------------------- -- Goto_Tables_Unit_Name -- --------------------------- function Goto_Tables_Unit_Name return String is Filename : constant String := To_Upper (+Goto_File_Name); begin return Get_Unit_Name (Filename); end Goto_Tables_Unit_Name; ----------------------------------- -- Shift_Reduce_Tables_Unit_Name -- ----------------------------------- function Shift_Reduce_Tables_Unit_Name return String is Filename : constant String := To_Upper (+Shift_Reduce_File_Name); begin return Get_Unit_Name (Filename); end Shift_Reduce_Tables_Unit_Name; ---------------------- -- Tokens_Unit_Name -- ---------------------- function Tokens_Unit_Name return String is Filename : constant String := To_Upper (+Tokens_File_Name); begin return Get_Unit_Name (Filename); end Tokens_Unit_Name; -------------------- -- Main_Unit_Name -- -------------------- function Main_Unit_Name return String is Filename : constant String := To_Upper (+Out_File_Name); begin return Get_Unit_Name (Filename); end Main_Unit_Name; -- UMASS CODES : ---------------------------- -- Error_Report_Unit_Name -- ---------------------------- function Error_Report_Unit_Name return String is Filename : constant String := To_Upper (+Error_Report_File_Name); begin return Get_Unit_Name (Filename); end Error_Report_Unit_Name; -- END OF UMASS CODES. --RJS ========================================== -------------------------- -- Get_Source_File_Name -- -------------------------- function Get_Source_File_Name return String is begin return +Source_File_Name; end; ----------------------- -- Get_Out_File_Name -- ----------------------- function Get_Out_File_Name return String is begin return +Out_File_Name; end; --------------------------- -- Get_Verbose_File_Name -- --------------------------- function Get_Verbose_File_Name return String is begin return +Verbose_File_Name; end; ---------------------------- -- Get_Template_File_Name -- ---------------------------- function Get_Template_File_Name return String is begin return +Template_File_Name; end; --------------------------- -- Get_Actions_File_Name -- --------------------------- function Get_Actions_File_Name return String is begin return +Actions_File_Name; end; -------------------------------- -- Get_Shift_Reduce_File_Name -- -------------------------------- function Get_Shift_Reduce_File_Name return String is begin return +Shift_Reduce_File_Name; end; ------------------------ -- Get_Goto_File_Name -- ------------------------ function Get_Goto_File_Name return String is begin return +Goto_File_Name; end; -------------------------- -- Get_Tokens_File_Name -- -------------------------- function Get_Tokens_File_Name return String is begin return +Tokens_File_Name; end; -- UMASS CODES : -------------------------------- -- Get_Error_Report_File_Name -- -------------------------------- function Get_Error_Report_File_Name return String is begin return +Error_Report_File_Name; end Get_Error_Report_File_Name; --------------------------- -- Get_Listing_File_Name -- --------------------------- function Get_Listing_File_Name return String is begin return +Listing_File_Name; end; -- END OF UMASS CODES. ------------------------- -- Get_C_Lex_File_Name -- ------------------------- function Get_C_Lex_File_Name return String is begin return +C_Lex_File_Name; end; --------------------------- -- Get_Include_File_Name -- --------------------------- function Get_Include_File_Name return String is begin return +Include_File_Name; end; -------------------- -- Set_File_Names -- -------------------- procedure Set_File_Names(Input_File, Extension: in String) is Base_Name : constant String := Ada.Directories.Base_Name (Input_File); begin if Input_File'Length < 3 or else (Input_File(Input_File'Last) /= 'y' and then Input_File(Input_File'Last) /= 'Y') or else Input_File(Input_File'Last - 1) /= '.' then raise Illegal_File_Name; end if; Source_File_Name := +Input_File; Out_File_Name := +Base_Name; Append (Out_File_Name, Extension); Verbose_File_Name := +Base_Name; Append (Verbose_File_Name, ".verbose"); Tokens_File_Name := +Base_Name; Append (Tokens_File_Name, "_tokens" & Extension & "ds"); -- UMASS CODES : Error_Report_File_Name := +Base_Name; Append (Error_Report_File_Name, "-error_report" & Extension); Listing_File_Name := +Base_Name; Append (Listing_File_Name, ".lis"); -- END OF UMASS CODES. Template_File_Name := +"yyparse.template"; Actions_File_Name := +Base_Name; Append (Actions_File_Name, ".accs"); Shift_Reduce_File_Name := +Base_Name; Append (Shift_Reduce_File_Name, "-shift_reduce" & Extension & "ds"); Goto_File_Name := +Base_Name; Append (Goto_File_Name, "-goto_table" & Extension & "ds"); C_Lex_File_Name := +Base_Name; Append (C_Lex_File_Name, "-c_lex" & Extension); Include_File_Name := +Base_Name; Append (Include_File_Name, ".h"); end Set_File_Names; end Ayacc_File_Names;
libsrc/stdlib/wpoke.asm	jpoikela/z88dk	38	166162	; CALLER linkage for function pointers SECTION code_clib PUBLIC wpoke PUBLIC _wpoke EXTERN wpoke_callee EXTERN ASMDISP_WPOKE_CALLEE .wpoke ._wpoke pop af pop de pop hl push hl push de push af jp wpoke_callee + ASMDISP_WPOKE_CALLEE
docs/build/Pygments/tests/examplefiles/output/test.adb	mjtamlyn/django-braces	1	5413	(lp1 (ccopy_reg _reconstructor p2 (cpygments.token _TokenType p3 c__builtin__ tuple p4 (S'Comment' p5 S'Single' p6 ttRp7 (dp8 S'subtypes' p9 c__builtin__ set p10 ((ltRp11 sS'parent' p12 g2 (g3 g4 (g5 ttRp13 (dp14 g12 g2 (g3 g4 (ttRp15 (dp16 g5 g13 sS'Name' p17 g2 (g3 g4 (g17 ttRp18 (dp19 S'Function' p20 g2 (g3 g4 (g17 g20 ttRp21 (dp22 g9 g10 ((ltRp23 sg12 g18 sbsS'Exception' p24 g2 (g3 g4 (g17 g24 ttRp25 (dp26 g9 g10 ((ltRp27 sg12 g18 sbsS'Tag' p28 g2 (g3 g4 (g17 g28 ttRp29 (dp30 g9 g10 ((ltRp31 sg12 g18 sbsS'Constant' p32 g2 (g3 g4 (g17 g32 ttRp33 (dp34 g9 g10 ((ltRp35 sg12 g18 sbsg12 g15 sS'Pseudo' p36 g2 (g3 g4 (g17 g36 ttRp37 (dp38 g9 g10 ((ltRp39 sg12 g18 sbsS'Attribute' p40 g2 (g3 g4 (g17 g40 ttRp41 (dp42 g9 g10 ((ltRp43 sg12 g18 sbsS'Label' p44 g2 (g3 g4 (g17 g44 ttRp45 (dp46 g9 g10 ((ltRp47 sg12 g18 sbsS'Blubb' p48 g2 (g3 g4 (g17 g48 ttRp49 (dp50 g9 g10 ((ltRp51 sg12 g18 sbsS'Entity' p52 g2 (g3 g4 (g17 g52 ttRp53 (dp54 g9 g10 ((ltRp55 sg12 g18 sbsS'Builtin' p56 g2 (g3 g4 (g17 g56 ttRp57 (dp58 g9 g10 ((lp59 g2 (g3 g4 (g17 g56 g36 ttRp60 (dp61 g9 g10 ((ltRp62 sg12 g57 sbatRp63 sg36 g60 sg12 g18 sbsS'Other' p64 g2 (g3 g4 (g17 g64 ttRp65 (dp66 g9 g10 ((ltRp67 sg12 g18 sbsS'Identifier' p68 g2 (g3 g4 (g17 g68 ttRp69 (dp70 g9 g10 ((ltRp71 sg12 g18 sbsS'Variable' p72 g2 (g3 g4 (g17 g72 ttRp73 (dp74 g12 g18 sS'Global' p75 g2 (g3 g4 (g17 g72 g75 ttRp76 (dp77 g9 g10 ((ltRp78 sg12 g73 sbsS'Instance' p79 g2 (g3 g4 (g17 g72 g79 ttRp80 (dp81 g9 g10 ((ltRp82 sg12 g73 sbsS'Anonymous' p83 g2 (g3 g4 (g17 g72 g83 ttRp84 (dp85 g9 g10 ((ltRp86 sg12 g73 sbsg9 g10 ((lp87 g84 ag80 ag76 ag2 (g3 g4 (g17 g72 S'Class' p88 ttRp89 (dp90 g9 g10 ((ltRp91 sg12 g73 sbatRp92 sg88 g89 sbsg9 g10 ((lp93 g2 (g3 g4 (g17 S'Decorator' p94 ttRp95 (dp96 g9 g10 ((ltRp97 sg12 g18 sbag41 ag33 ag37 ag2 (g3 g4 (g17 S'Namespace' p98 ttRp99 (dp100 g9 g10 ((ltRp101 sg12 g18 sbag69 ag57 ag73 ag65 ag49 ag53 ag21 ag2 (g3 g4 (g17 S'Property' p102 ttRp103 (dp104 g9 g10 ((ltRp105 sg12 g18 sbag45 ag29 ag25 ag2 (g3 g4 (g17 g88 ttRp106 (dp107 g9 g10 ((ltRp108 sg12 g18 sbatRp109 sg102 g103 sg88 g106 sg94 g95 sg98 g99 sbsS'Keyword' p110 g2 (g3 g4 (g110 ttRp111 (dp112 g32 g2 (g3 g4 (g110 g32 ttRp113 (dp114 g9 g10 ((ltRp115 sg12 g111 sbsg12 g15 sg98 g2 (g3 g4 (g110 g98 ttRp116 (dp117 g9 g10 ((ltRp118 sg12 g111 sbsg36 g2 (g3 g4 (g110 g36 ttRp119 (dp120 g9 g10 ((ltRp121 sg12 g111 sbsS'Reserved' p122 g2 (g3 g4 (g110 g122 ttRp123 (dp124 g9 g10 ((ltRp125 sg12 g111 sbsS'Declaration' p126 g2 (g3 g4 (g110 g126 ttRp127 (dp128 g9 g10 ((ltRp129 sg12 g111 sbsg72 g2 (g3 g4 (g110 g72 ttRp130 (dp131 g9 g10 ((ltRp132 sg12 g111 sbsg9 g10 ((lp133 g113 ag123 ag2 (g3 g4 (g110 S'Type' p134 ttRp135 (dp136 g9 g10 ((ltRp137 sg12 g111 sbag127 ag130 ag116 ag119 atRp138 sg134 g135 sbsS'Generic' p139 g2 (g3 g4 (g139 ttRp140 (dp141 S'Prompt' p142 g2 (g3 g4 (g139 g142 ttRp143 (dp144 g9 g10 ((ltRp145 sg12 g140 sbsg12 g15 sS'Deleted' p146 g2 (g3 g4 (g139 g146 ttRp147 (dp148 g9 g10 ((ltRp149 sg12 g140 sbsS'Traceback' p150 g2 (g3 g4 (g139 g150 ttRp151 (dp152 g9 g10 ((ltRp153 sg12 g140 sbsS'Emph' p154 g2 (g3 g4 (g139 g154 ttRp155 (dp156 g9 g10 ((ltRp157 sg12 g140 sbsS'Output' p158 g2 (g3 g4 (g139 g158 ttRp159 (dp160 g9 g10 ((ltRp161 sg12 g140 sbsS'Subheading' p162 g2 (g3 g4 (g139 g162 ttRp163 (dp164 g9 g10 ((ltRp165 sg12 g140 sbsS'Error' p166 g2 (g3 g4 (g139 g166 ttRp167 (dp168 g9 g10 ((ltRp169 sg12 g140 sbsg9 g10 ((lp170 g159 ag155 ag167 ag163 ag151 ag147 ag2 (g3 g4 (g139 S'Heading' p171 ttRp172 (dp173 g9 g10 ((ltRp174 sg12 g140 sbag2 (g3 g4 (g139 S'Inserted' p175 ttRp176 (dp177 g9 g10 ((ltRp178 sg12 g140 sbag2 (g3 g4 (g139 S'Strong' p179 ttRp180 (dp181 g9 g10 ((ltRp182 sg12 g140 sbag143 atRp183 sg179 g180 sg175 g176 sg171 g172 sbsS'Text' p184 g2 (g3 g4 (g184 ttRp185 (dp186 g9 g10 ((lp187 g2 (g3 g4 (g184 S'Symbol' p188 ttRp189 (dp190 g9 g10 ((ltRp191 sg12 g185 sbag2 (g3 g4 (g184 S'Whitespace' p192 ttRp193 (dp194 g9 g10 ((ltRp195 sg12 g185 sbatRp196 sg188 g189 sg192 g193 sg12 g15 sbsS'Punctuation' p197 g2 (g3 g4 (g197 ttRp198 (dp199 g9 g10 ((lp200 g2 (g3 g4 (g197 S'Indicator' p201 ttRp202 (dp203 g9 g10 ((ltRp204 sg12 g198 sbatRp205 sg201 g202 sg12 g15 sbsS'Token' p206 g15 sS'Number' p207 g2 (g3 g4 (S'Literal' p208 g207 ttRp209 (dp210 S'Bin' p211 g2 (g3 g4 (g208 g207 g211 ttRp212 (dp213 g9 g10 ((ltRp214 sg12 g209 sbsS'Binary' p215 g2 (g3 g4 (g208 g207 g215 ttRp216 (dp217 g9 g10 ((ltRp218 sg12 g209 sbsg12 g2 (g3 g4 (g208 ttRp219 (dp220 S'String' p221 g2 (g3 g4 (g208 g221 ttRp222 (dp223 S'Regex' p224 g2 (g3 g4 (g208 g221 g224 ttRp225 (dp226 g9 g10 ((ltRp227 sg12 g222 sbsS'Interpol' p228 g2 (g3 g4 (g208 g221 g228 ttRp229 (dp230 g9 g10 ((ltRp231 sg12 g222 sbsS'Regexp' p232 g2 (g3 g4 (g208 g221 g232 ttRp233 (dp234 g9 g10 ((ltRp235 sg12 g222 sbsg12 g219 sS'Heredoc' p236 g2 (g3 g4 (g208 g221 g236 ttRp237 (dp238 g9 g10 ((ltRp239 sg12 g222 sbsS'Double' p240 g2 (g3 g4 (g208 g221 g240 ttRp241 (dp242 g9 g10 ((ltRp243 sg12 g222 sbsg188 g2 (g3 g4 (g208 g221 g188 ttRp244 (dp245 g9 g10 ((ltRp246 sg12 g222 sbsS'Escape' p247 g2 (g3 g4 (g208 g221 g247 ttRp248 (dp249 g9 g10 ((ltRp250 sg12 g222 sbsS'Character' p251 g2 (g3 g4 (g208 g221 g251 ttRp252 (dp253 g9 g10 ((ltRp254 sg12 g222 sbsS'Interp' p255 g2 (g3 g4 (g208 g221 g255 ttRp256 (dp257 g9 g10 ((ltRp258 sg12 g222 sbsS'Backtick' p259 g2 (g3 g4 (g208 g221 g259 ttRp260 (dp261 g9 g10 ((ltRp262 sg12 g222 sbsS'Char' p263 g2 (g3 g4 (g208 g221 g263 ttRp264 (dp265 g9 g10 ((ltRp266 sg12 g222 sbsg6 g2 (g3 g4 (g208 g221 g6 ttRp267 (dp268 g9 g10 ((ltRp269 sg12 g222 sbsg64 g2 (g3 g4 (g208 g221 g64 ttRp270 (dp271 g9 g10 ((ltRp272 sg12 g222 sbsS'Doc' p273 g2 (g3 g4 (g208 g221 g273 ttRp274 (dp275 g9 g10 ((ltRp276 sg12 g222 sbsg9 g10 ((lp277 g270 ag2 (g3 g4 (g208 g221 S'Atom' p278 ttRp279 (dp280 g9 g10 ((ltRp281 sg12 g222 sbag241 ag264 ag256 ag274 ag237 ag260 ag229 ag244 ag233 ag225 ag267 ag252 ag248 atRp282 sg278 g279 sbsg12 g15 sg207 g209 sS'Scalar' p283 g2 (g3 g4 (g208 g283 ttRp284 (dp285 g9 g10 ((lp286 g2 (g3 g4 (g208 g283 S'Plain' p287 ttRp288 (dp289 g9 g10 ((ltRp290 sg12 g284 sbatRp291 sg12 g219 sg287 g288 sbsg64 g2 (g3 g4 (g208 g64 ttRp292 (dp293 g9 g10 ((ltRp294 sg12 g219 sbsS'Date' p295 g2 (g3 g4 (g208 g295 ttRp296 (dp297 g9 g10 ((ltRp298 sg12 g219 sbsg9 g10 ((lp299 g296 ag222 ag292 ag209 ag284 atRp300 sbsS'Decimal' p301 g2 (g3 g4 (g208 g207 g301 ttRp302 (dp303 g9 g10 ((ltRp304 sg12 g209 sbsS'Float' p305 g2 (g3 g4 (g208 g207 g305 ttRp306 (dp307 g9 g10 ((ltRp308 sg12 g209 sbsS'Hex' p309 g2 (g3 g4 (g208 g207 g309 ttRp310 (dp311 g9 g10 ((ltRp312 sg12 g209 sbsS'Integer' p313 g2 (g3 g4 (g208 g207 g313 ttRp314 (dp315 g9 g10 ((lp316 g2 (g3 g4 (g208 g207 g313 S'Long' p317 ttRp318 (dp319 g9 g10 ((ltRp320 sg12 g314 sbatRp321 sg317 g318 sg12 g209 sbsS'Octal' p322 g2 (g3 g4 (g208 g207 g322 ttRp323 (dp324 g9 g10 ((ltRp325 sg12 g209 sbsg9 g10 ((lp326 g212 ag216 ag323 ag302 ag2 (g3 g4 (g208 g207 S'Oct' p327 ttRp328 (dp329 g9 g10 ((ltRp330 sg12 g209 sbag314 ag306 ag310 atRp331 sg327 g328 sbsg208 g219 sg64 g2 (g3 g4 (g64 ttRp332 (dp333 g9 g10 ((ltRp334 sg12 g15 sbsg166 g2 (g3 g4 (g166 ttRp335 (dp336 g9 g10 ((ltRp337 sg12 g15 sbsS'Operator' p338 g2 (g3 g4 (g338 ttRp339 (dp340 g9 g10 ((lp341 g2 (g3 g4 (g338 S'Word' p342 ttRp343 (dp344 g9 g10 ((ltRp345 sg12 g339 sbatRp346 sg342 g343 sg12 g15 sbsg9 g10 ((lp347 g13 ag335 ag140 ag185 ag18 ag198 ag111 ag219 ag339 ag332 atRp348 sg221 g222 sbsS'Preproc' p349 g2 (g3 g4 (g5 g349 ttRp350 (dp351 g9 g10 ((ltRp352 sg12 g13 sbsg6 g7 sS'Multiline' p353 g2 (g3 g4 (g5 g353 ttRp354 (dp355 g9 g10 ((ltRp356 sg12 g13 sbsg9 g10 ((lp357 g2 (g3 g4 (g5 S'Special' p358 ttRp359 (dp360 g9 g10 ((ltRp361 sg12 g13 sbag350 ag7 ag354 atRp362 sg358 g359 sbsbV-- Model IED Simulator\u000a p363 tp364 a(g7 V-- COL <NAME>, 1 December 2007\u000a p365 tp366 a(g116 Vwith p367 tp368 a(g185 V tp369 a(g99 VAda.Text_IO p370 tp371 a(g198 V; tp372 a(g185 V\u000a\u000a p373 tp374 a(g116 Vwith p375 tp376 a(g185 V tp377 a(g99 VAda.Characters.Latin_1 p378 tp379 a(g198 V; tp380 a(g185 V\u000a tp381 a(g116 Vuse p382 tp383 a(g185 V p384 tp385 a(g99 VAda.Characters.Latin_1 p386 tp387 a(g198 V; tp388 a(g185 V\u000a\u000a p389 tp390 a(g116 Vwith p391 tp392 a(g185 V tp393 a(g99 VAda.Strings.Fixed p394 tp395 a(g198 V; tp396 a(g185 V\u000a tp397 a(g116 Vuse p398 tp399 a(g185 V p400 tp401 a(g99 VAda.Strings.Fixed p402 tp403 a(g198 V; tp404 a(g185 V\u000a\u000a p405 tp406 a(g116 Vwith p407 tp408 a(g185 V tp409 a(g99 VAda.Strings p410 tp411 a(g198 V; tp412 a(g185 V\u000a tp413 a(g116 Vwith p414 tp415 a(g185 V tp416 a(g99 VAda.Strings.Bounded p417 tp418 a(g198 V; tp419 a(g185 V\u000a\u000a p420 tp421 a(g116 Vwith p422 tp423 a(g185 V tp424 a(g99 VBinary_Search p425 tp426 a(g198 V; tp427 a(g185 V\u000a\u000a p428 tp429 a(g116 Vwith p430 tp431 a(g185 V tp432 a(g99 VAda.Containers.Generic_Array_Sort p433 tp434 a(g198 V; tp435 a(g185 V\u000a\u000a p436 tp437 a(g127 Vpackage p438 tp439 a(g185 V tp440 a(g127 Vbody p441 tp442 a(g185 V tp443 a(g106 VScanner p444 tp445 a(g185 V tp446 a(g123 Vis p447 tp448 a(g185 V\u000a tp449 a(g185 V p450 tp451 a(g185 V\u000a tp452 a(g185 V p453 tp454 a(g33 VConstant_123 p455 tp456 a(g185 V p457 tp458 a(g198 V: tp459 a(g185 V tp460 a(g123 Vconstant p461 tp462 a(g185 V tp463 a(g135 VCharacter p464 tp465 a(g185 V tp466 a(g198 V:= p467 tp468 a(g185 V tp469 a(g135 VCharacter p470 tp471 a(g198 V' tp472 a(g41 VVal p473 tp474 a(g185 V tp475 a(g198 V( tp476 a(g310 V16#00# p477 tp478 a(g198 V) tp479 a(g198 V; tp480 a(g185 V\u000a tp481 a(g185 V p482 tp483 a(g33 VMAX_KEYWORD_LENGTH_C p484 tp485 a(g185 V tp486 a(g198 V: tp487 a(g185 V tp488 a(g123 Vconstant p489 tp490 a(g185 V tp491 a(g135 VNatural p492 tp493 a(g185 V tp494 a(g198 V:= p495 tp496 a(g185 V tp497 a(g314 V24 p498 tp499 a(g198 V; tp500 a(g185 V\u000a tp501 a(g185 V p502 tp503 a(g185 V\u000a tp504 a(g185 V p505 tp506 a(g33 VNew_Constant p507 tp508 a(g185 V tp509 a(g198 V: tp510 a(g185 V tp511 a(g123 Vconstant p512 tp513 a(g185 V tp514 a(g18 VNew_Type p515 tp516 a(g185 V\u000a tp517 a(g185 V p518 tp519 a(g198 V:= p520 tp521 a(g185 V tp522 a(g314 V2 tp523 a(g198 V; tp524 a(g185 V\u000a tp525 a(g185 V p526 tp527 a(g185 V\u000a tp528 a(g185 V p529 tp530 a(g33 VKEYWORDS_C p531 tp532 a(g185 V tp533 a(g198 V: tp534 a(g185 V tp535 a(g123 Vconstant p536 tp537 a(g185 V tp538 a(g18 VKeyword_Array_T p539 tp540 a(g185 V tp541 a(g198 V:= p542 tp543 a(g185 V\u000a tp544 a(g185 V p545 tp546 a(g198 V( tp547 a(g18 VTo_BS p548 tp549 a(g198 V( tp550 a(g222 V"description" p551 tp552 a(g198 V) tp553 a(g198 V, tp554 a(g185 V\u000a tp555 a(g185 V p556 tp557 a(g18 VTo_BS p558 tp559 a(g198 V( tp560 a(g222 V"with" p561 tp562 a(g198 V) tp563 a(g198 V) tp564 a(g198 V; tp565 a(g185 V\u000a tp566 a(g185 V p567 tp568 a(g185 V\u000a tp569 a(g185 V p570 tp571 a(g127 Vprocedure p572 tp573 a(g185 V tp574 a(g21 VBlah p575 tp576 a(g198 V; tp577 a(g185 V\u000a tp578 a(g185 V p579 tp580 a(g185 V\u000a tp581 a(g185 V p582 tp583 a(g127 Vprocedure p584 tp585 a(g185 V tp586 a(g21 Vblah p587 tp588 a(g185 V tp589 a(g123 Vis p590 tp591 a(g185 V\u000a tp592 a(g185 V p593 tp594 a(g123 Vbegin p595 tp596 a(g185 V\u000a tp597 a(g185 V p598 tp599 a(g185 V\u000a tp600 a(g185 V p601 tp602 a(g45 VDeclaration p603 tp604 a(g198 V: tp605 a(g185 V\u000a p606 tp607 a(g123 Vdeclare p608 tp609 a(g185 V\u000a tp610 a(g185 V p611 tp612 a(g18 VJoe p613 tp614 a(g185 V tp615 a(g198 V: tp616 a(g185 V tp617 a(g18 VType_Type p618 tp619 a(g185 V tp620 a(g198 V:= p621 tp622 a(g185 V tp623 a(g18 VRandom p624 tp625 a(g198 V; tp626 a(g185 V\u000a tp627 a(g185 V p628 tp629 a(g123 Vbegin p630 tp631 a(g185 V\u000a tp632 a(g185 V p633 tp634 a(g18 VDo_Something p635 tp636 a(g198 V; tp637 a(g185 V\u000a tp638 a(g185 V p639 tp640 a(g123 Vend p641 tp642 a(g185 V tp643 a(g21 VDeclaration p644 tp645 a(g198 V; tp646 a(g185 V\u000a tp647 a(g185 V p648 tp649 a(g45 VLoop_ID p650 tp651 a(g198 V: tp652 a(g185 V\u000a p653 tp654 a(g123 Vloop p655 tp656 a(g185 V\u000a tp657 a(g185 V p658 tp659 a(g18 VLoop_Do p660 tp661 a(g198 V; tp662 a(g185 V\u000a tp663 a(g185 V p664 tp665 a(g123 Vexit p666 tp667 a(g185 V tp668 a(g123 Vwhen p669 tp670 a(g185 V tp671 a(g314 V1 tp672 a(g339 V= tp673 a(g314 V2 tp674 a(g198 V; tp675 a(g185 V\u000a tp676 a(g185 V p677 tp678 a(g123 Vend p679 tp680 a(g185 V tp681 a(g123 Vloop p682 tp683 a(g185 V tp684 a(g123 VLoop p685 tp686 a(g21 V_ID p687 tp688 a(g198 V; tp689 a(g185 V\u000a tp690 a(g185 V p691 tp692 a(g123 Vif p693 tp694 a(g185 V tp695 a(g113 VTrue p696 tp697 a(g185 V tp698 a(g343 Vor else p699 tp700 a(g185 V tp701 a(g113 VFalse p702 tp703 a(g185 V tp704 a(g123 Vthen p705 tp706 a(g185 V\u000a tp707 a(g185 V p708 tp709 a(g18 VDo_This p710 tp711 a(g198 V( tp712 a(g198 V) tp713 a(g198 V; tp714 a(g185 V\u000a tp715 a(g185 V p716 tp717 a(g123 Velsif p718 tp719 a(g185 V tp720 a(g343 Vnot p721 tp722 a(g185 V tp723 a(g113 VFalse p724 tp725 a(g185 V tp726 a(g343 Vand then p727 tp728 a(g185 V tp729 a(g113 VTrue p730 tp731 a(g185 V tp732 a(g123 Vthen p733 tp734 a(g185 V\u000a tp735 a(g185 V p736 tp737 a(g18 VDo_That p738 tp739 a(g198 V; tp740 a(g185 V\u000a tp741 a(g185 V p742 tp743 a(g123 Velse p744 tp745 a(g185 V\u000a tp746 a(g185 V p747 tp748 a(g18 VPanic p749 tp750 a(g198 V; tp751 a(g185 V\u000a tp752 a(g185 V p753 tp754 a(g123 Vend p755 tp756 a(g185 V tp757 a(g123 Vif p758 tp759 a(g198 V; tp760 a(g185 V\u000a tp761 a(g185 V p762 tp763 a(g123 Vend p764 tp765 a(g185 V tp766 a(g21 Vblah p767 tp768 a(g198 V; tp769 a(g185 V\u000a tp770 a(g185 V p771 tp772 a(g185 V\u000a tp773 a(g185 V p774 tp775 a(g127 Vfunction p776 tp777 a(g185 V tp778 a(g21 V"" p779 tp780 a(g185 V tp781 a(g198 V( tp782 a(g73 VLeft p783 tp784 a(g198 V, tp785 a(g185 V tp786 a(g73 VRight p787 tp788 a(g185 V tp789 a(g198 V: p790 tp791 a(g123 Vin p792 tp793 a(g185 V tp794 a(g135 VInteger p795 tp796 a(g198 V) tp797 a(g185 V tp798 a(g123 Vreturn p799 tp800 a(g185 V tp801 a(g135 VInteger p802 tp803 a(g185 V tp804 a(g123 Vis p805 tp806 a(g185 V\u000a tp807 a(g185 V p808 tp809 a(g123 Vbegin p810 tp811 a(g185 V\u000a tp812 a(g185 V p813 tp814 a(g45 V<<Goto_Label>> p815 tp816 a(g185 V\u000a tp817 a(g185 V p818 tp819 a(g123 Vgoto p820 tp821 a(g185 V tp822 a(g18 VGoto_Label p823 tp824 a(g198 V; tp825 a(g185 V\u000a tp826 a(g185 V p827 tp828 a(g123 Vreturn p829 tp830 a(g185 V tp831 a(g18 VLeft p832 tp833 a(g185 V tp834 a(g339 V+ tp835 a(g185 V tp836 a(g18 VRight p837 tp838 a(g198 V; tp839 a(g185 V\u000a tp840 a(g185 V p841 tp842 a(g123 Vend p843 tp844 a(g185 V tp845 a(g21 V"" p846 tp847 a(g198 V; tp848 a(g185 V\u000a tp849 a(g185 V p850 tp851 a(g185 V\u000a tp852 a(g185 V p853 tp854 a(g127 Vfunction p855 tp856 a(g185 V tp857 a(g21 VFunction_Specification p858 tp859 a(g185 V\u000a tp860 a(g185 V p861 tp862 a(g198 V( tp863 a(g73 VParam_1 p864 tp865 a(g185 V p866 tp867 a(g198 V: p868 tp869 a(g123 Vin p870 tp871 a(g185 V tp872 a(g18 VBlah p873 tp874 a(g198 V; tp875 a(g185 V tp876 a(g185 V\u000a tp877 a(g185 V p878 tp879 a(g73 VParam2 p880 tp881 a(g198 V, tp882 a(g185 V tp883 a(g73 Vparam3 p884 tp885 a(g185 V tp886 a(g198 V: p887 tp888 a(g123 Vin p889 tp890 a(g185 V tp891 a(g123 Vaccess p892 tp893 a(g185 V tp894 a(g18 VBlah_Type p895 tp896 a(g185 V tp897 a(g198 V:= p898 tp899 a(g185 V tp900 a(g314 V0 tp901 a(g198 V) tp902 a(g185 V\u000a tp903 a(g185 V p904 tp905 a(g123 Vreturn p906 tp907 a(g185 V tp908 a(g18 VIt_Type p909 tp910 a(g198 V; tp911 a(g185 V\u000a tp912 a(g185 V p913 tp914 a(g185 V\u000a tp915 a(g185 V p916 tp917 a(g127 Vpackage p918 tp919 a(g185 V tp920 a(g106 VRename_Check p921 tp922 a(g185 V tp923 a(g123 Vrenames p924 tp925 a(g185 V tp926 a(g106 VAda.Text_IO p927 tp928 a(g198 V; tp929 a(g185 V\u000a\u000a p930 tp931 a(g185 V p932 tp933 a(g127 Vtype p934 tp935 a(g185 V tp936 a(g135 VNew_Float p937 tp938 a(g185 V tp939 a(g123 Vis p940 tp941 a(g185 V tp942 a(g123 Vdelta p943 tp944 a(g185 V tp945 a(g306 V0.001 p946 tp947 a(g185 V tp948 a(g123 Vdigits p949 tp950 a(g185 V tp951 a(g314 V12 p952 tp953 a(g198 V; tp954 a(g185 V\u000a tp955 a(g185 V p956 tp957 a(g185 V\u000a tp958 a(g185 V p959 tp960 a(g127 Vpackage p961 tp962 a(g185 V tp963 a(g106 VPackage_Inst p964 tp965 a(g185 V tp966 a(g123 Vis new p967 tp968 a(g185 V tp969 a(g106 VAda.Strings.Bounded.Generic_Bounded_Length p970 tp971 a(g185 V\u000a tp972 a(g185 V p973 tp974 a(g198 V( tp975 a(g73 VMax p976 tp977 a(g185 V tp978 a(g198 V=> p979 tp980 a(g185 V tp981 a(g185 VM tp982 a(g185 VA tp983 a(g185 VX tp984 a(g185 V_ tp985 a(g185 VK tp986 a(g185 VE tp987 a(g185 VY tp988 a(g185 VW tp989 a(g185 VO tp990 a(g185 VR tp991 a(g185 VD tp992 a(g185 V_ tp993 a(g185 VL tp994 a(g185 VE tp995 a(g185 VN tp996 a(g185 VG tp997 a(g185 VT tp998 a(g185 VH tp999 a(g185 V_ tp1000 a(g185 VC tp1001 a(g198 V) tp1002 a(g198 V; tp1003 a(g185 V\u000a\u000a p1004 tp1005 a(g185 V p1006 tp1007 a(g127 Vtype p1008 tp1009 a(g185 V tp1010 a(g135 VArray_Decl12 p1011 tp1012 a(g185 V tp1013 a(g123 Vis p1014 tp1015 a(g185 V tp1016 a(g123 Varray p1017 tp1018 a(g185 V tp1019 a(g198 V( tp1020 a(g135 VPositive p1021 tp1022 a(g185 V tp1023 a(g123 Vrange p1024 tp1025 a(g185 V tp1026 a(g198 V<> p1027 tp1028 a(g198 V) tp1029 a(g185 V tp1030 a(g123 Vof p1031 tp1032 a(g185 V tp1033 a(g18 VSB p1034 tp1035 a(g198 V. tp1036 a(g18 VBounded_String p1037 tp1038 a(g198 V; tp1039 a(g185 V\u000a tp1040 a(g185 V p1041 tp1042 a(g127 Vtype p1043 tp1044 a(g185 V tp1045 a(g135 VArray_Decl3 p1046 tp1047 a(g185 V tp1048 a(g123 Vis p1049 tp1050 a(g185 V tp1051 a(g123 Varray p1052 tp1053 a(g185 V tp1054 a(g198 V( tp1055 a(g135 VNew_Type p1056 tp1057 a(g185 V tp1058 a(g123 Vrange p1059 tp1060 a(g185 V tp1061 a(g18 VThing_1 p1062 tp1063 a(g185 V tp1064 a(g198 V. tp1065 a(g198 V. tp1066 a(g185 V tp1067 a(g18 VThing_2 p1068 tp1069 a(g198 V) tp1070 a(g185 V tp1071 a(g123 Vof p1072 tp1073 a(g185 V tp1074 a(g18 VSB p1075 tp1076 a(g198 V. tp1077 a(g18 VBounded_String p1078 tp1079 a(g198 V; tp1080 a(g185 V\u000a\u000a p1081 tp1082 a(g185 V p1083 tp1084 a(g127 Vtype p1085 tp1086 a(g185 V tp1087 a(g135 VBoring_Type p1088 tp1089 a(g185 V tp1090 a(g123 Vis p1091 tp1092 a(g185 V\u000a tp1093 a(g185 V p1094 tp1095 a(g198 V( tp1096 a(g73 VStart p1097 tp1098 a(g198 V, tp1099 a(g185 V\u000a tp1100 a(g185 V p1101 tp1102 a(g18 VEnd_Error p1103 tp1104 a(g198 V) tp1105 a(g198 V; tp1106 a(g185 V\u000a\u000a p1107 tp1108 a(g185 V p1109 tp1110 a(g127 Vsubtype p1111 tp1112 a(g185 V tp1113 a(g135 VSub_Type_check p1114 tp1115 a(g185 V tp1116 a(g123 Vis p1117 tp1118 a(g185 V tp1119 a(g135 VCharacter p1120 tp1121 a(g185 V tp1122 a(g123 Vrange p1123 tp1124 a(g185 V tp1125 a(g198 V' tp1126 a(g41 V0 tp1127 a(g198 V' tp1128 a(g185 V tp1129 a(g198 V. tp1130 a(g198 V. tp1131 a(g185 V tp1132 a(g198 V' tp1133 a(g41 V9 tp1134 a(g198 V' tp1135 a(g198 V; tp1136 a(g185 V\u000a tp1137 a(g185 V p1138 tp1139 a(g185 V\u000a tp1140 a(g185 V p1141 tp1142 a(g33 VInitialized_Array p1143 tp1144 a(g185 V tp1145 a(g198 V: tp1146 a(g185 V tp1147 a(g123 Vconstant p1148 tp1149 a(g185 V tp1150 a(g18 VTransistion_Array_T p1151 tp1152 a(g185 V tp1153 a(g198 V:= p1154 tp1155 a(g185 V\u000a tp1156 a(g185 V p1157 tp1158 a(g198 V( tp1159 a(g18 VStart p1160 tp1161 a(g185 V tp1162 a(g198 V=> p1163 tp1164 a(g185 V\u000a tp1165 a(g185 V p1166 tp1167 a(g198 V( tp1168 a(g18 VLetter_Lower p1169 tp1170 a(g185 V tp1171 a(g198 V\| tp1172 a(g185 V tp1173 a(g18 VLetter_Upper p1174 tp1175 a(g185 V tp1176 a(g198 V=> p1177 tp1178 a(g185 V tp1179 a(g18 VSaw_Alpha p1180 tp1181 a(g198 V, tp1182 a(g185 V\u000a tp1183 a(g185 V p1184 tp1185 a(g252 V' ' p1186 tp1187 a(g185 V tp1188 a(g198 V\| tp1189 a(g185 V tp1190 a(g18 VHT p1191 tp1192 a(g185 V tp1193 a(g198 V\| tp1194 a(g185 V tp1195 a(g18 VCR p1196 tp1197 a(g185 V tp1198 a(g198 V\| tp1199 a(g185 V tp1200 a(g18 VLF p1201 tp1202 a(g185 V p1203 tp1204 a(g198 V=> p1205 tp1206 a(g185 V tp1207 a(g18 VStart p1208 tp1209 a(g198 V, tp1210 a(g185 V\u000a tp1211 a(g185 V p1212 tp1213 a(g123 Vothers p1214 tp1215 a(g185 V tp1216 a(g198 V=> p1217 tp1218 a(g185 V tp1219 a(g18 VBegin_Error p1220 tp1221 a(g198 V) tp1222 a(g198 V, tp1223 a(g185 V\u000a\u000a p1224 tp1225 a(g185 V p1226 tp1227 a(g18 VEnd_Error p1228 tp1229 a(g185 V tp1230 a(g198 V=> p1231 tp1232 a(g185 V tp1233 a(g198 V( tp1234 a(g123 Vothers p1235 tp1236 a(g185 V tp1237 a(g198 V=> p1238 tp1239 a(g185 V tp1240 a(g18 VStart p1241 tp1242 a(g198 V) tp1243 a(g185 V\u000a\u000a p1244 tp1245 a(g185 V p1246 tp1247 a(g198 V) tp1248 a(g198 V; tp1249 a(g185 V\u000a\u000a p1250 tp1251 a(g185 V p1252 tp1253 a(g127 Vtype p1254 tp1255 a(g185 V tp1256 a(g135 VRecorder p1257 tp1258 a(g185 V tp1259 a(g123 Vis p1260 tp1261 a(g185 V tp1262 a(g123 Vrecord p1263 tp1264 a(g185 V\u000a tp1265 a(g185 V p1266 tp1267 a(g73 VAdvance p1268 tp1269 a(g185 V p1270 tp1271 a(g198 V: p1272 tp1273 a(g18 VBoolean p1274 tp1275 a(g198 V; tp1276 a(g185 V\u000a tp1277 a(g185 V p1278 tp1279 a(g73 VReturn_Token p1280 tp1281 a(g185 V tp1282 a(g198 V: p1283 tp1284 a(g18 VToken_T p1285 tp1286 a(g198 V; tp1287 a(g185 V\u000a tp1288 a(g185 V p1289 tp1290 a(g123 Vend p1291 tp1292 a(g185 V tp1293 a(g123 Vrecord p1294 tp1295 a(g198 V; tp1296 a(g185 V\u000a tp1297 a(g185 V p1298 tp1299 a(g185 V\u000a tp1300 a(g185 V p1301 tp1302 a(g123 Vfor p1303 tp1304 a(g185 V tp1305 a(g18 VRecorder p1306 tp1307 a(g185 V tp1308 a(g116 Vuse p1309 tp1310 a(g185 V tp1311 a(g99 V8 tp1312 a(g198 V; tp1313 a(g185 V\u000a tp1314 a(g185 V p1315 tp1316 a(g185 V\u000a tp1317 a(g185 V p1318 tp1319 a(g127 Vtype p1320 tp1321 a(g185 V tp1322 a(g135 VNull_Record p1323 tp1324 a(g185 V tp1325 a(g123 Vis p1326 tp1327 a(g185 V tp1328 a(g113 Vnull p1329 tp1330 a(g185 V tp1331 a(g123 Vrecord p1332 tp1333 a(g198 V; tp1334 a(g185 V\u000a tp1335 a(g185 V p1336 tp1337 a(g185 V\u000a tp1338 a(g185 V p1339 tp1340 a(g127 Vtype p1341 tp1342 a(g185 V tp1343 a(g135 VDiscriminated_Record p1344 tp1345 a(g185 V tp1346 a(g198 V( tp1347 a(g73 VSize p1348 tp1349 a(g185 V tp1350 a(g198 V: p1351 tp1352 a(g135 VNatural p1353 tp1354 a(g198 V) tp1355 a(g185 V tp1356 a(g123 Vis p1357 tp1358 a(g185 V tp1359 a(g185 V\u000a tp1360 a(g185 V p1361 tp1362 a(g123 Vrecord p1363 tp1364 a(g185 V\u000a tp1365 a(g185 V p1366 tp1367 a(g73 VA tp1368 a(g185 V tp1369 a(g198 V: p1370 tp1371 a(g135 VString p1372 tp1373 a(g185 V tp1374 a(g198 V( tp1375 a(g314 V1 tp1376 a(g185 V tp1377 a(g198 V. tp1378 a(g198 V. tp1379 a(g185 V tp1380 a(g18 VSize p1381 tp1382 a(g198 V) tp1383 a(g198 V; tp1384 a(g185 V\u000a tp1385 a(g185 V p1386 tp1387 a(g123 Vend p1388 tp1389 a(g185 V tp1390 a(g123 Vrecord p1391 tp1392 a(g198 V; tp1393 a(g185 V\u000a tp1394 a(g185 V p1395 tp1396 a(g185 V\u000a tp1397 a(g185 V p1398 tp1399 a(g123 Vpragma p1400 tp1401 a(g185 V tp1402 a(g350 VUnchecked_Union p1403 tp1404 a(g185 V tp1405 a(g198 V( tp1406 a(g18 VUnion p1407 tp1408 a(g198 V) tp1409 a(g198 V; tp1410 a(g185 V\u000a tp1411 a(g185 V p1412 tp1413 a(g123 Vpragma p1414 tp1415 a(g185 V tp1416 a(g350 VConvention p1417 tp1418 a(g185 V tp1419 a(g198 V( tp1420 a(g73 VC tp1421 a(g198 V, tp1422 a(g185 V tp1423 a(g18 VUnion p1424 tp1425 a(g198 V) tp1426 a(g198 V; tp1427 a(g185 V\u000a tp1428 a(g185 V p1429 tp1430 a(g185 V\u000a tp1431 a(g185 V p1432 tp1433 a(g127 Vtype p1434 tp1435 a(g185 V tp1436 a(g135 VPerson p1437 tp1438 a(g185 V tp1439 a(g123 Vis p1440 tp1441 a(g185 V tp1442 a(g123 Vtagged p1443 tp1444 a(g185 V tp1445 a(g185 V\u000a tp1446 a(g185 V p1447 tp1448 a(g123 Vrecord p1449 tp1450 a(g185 V\u000a tp1451 a(g185 V p1452 tp1453 a(g73 VName p1454 tp1455 a(g185 V p1456 tp1457 a(g198 V: p1458 tp1459 a(g135 VString p1460 tp1461 a(g185 V tp1462 a(g198 V( tp1463 a(g314 V1 tp1464 a(g185 V tp1465 a(g198 V. tp1466 a(g198 V. tp1467 a(g185 V tp1468 a(g314 V10 p1469 tp1470 a(g198 V) tp1471 a(g198 V; tp1472 a(g185 V\u000a tp1473 a(g185 V p1474 tp1475 a(g18 VGender p1476 tp1477 a(g185 V tp1478 a(g198 V: tp1479 a(g185 V tp1480 a(g18 VGender_Type p1481 tp1482 a(g198 V; tp1483 a(g185 V\u000a tp1484 a(g185 V p1485 tp1486 a(g123 Vend p1487 tp1488 a(g185 V tp1489 a(g123 Vrecord p1490 tp1491 a(g198 V; tp1492 a(g185 V\u000a tp1493 a(g185 V p1494 tp1495 a(g185 V\u000a tp1496 a(g185 V p1497 tp1498 a(g127 Vtype p1499 tp1500 a(g185 V tp1501 a(g135 VProgrammer p1502 tp1503 a(g185 V tp1504 a(g123 Vis p1505 tp1506 a(g185 V tp1507 a(g123 Vnew p1508 tp1509 a(g185 V tp1510 a(g18 VPerson p1511 tp1512 a(g185 V tp1513 a(g123 Vwith p1514 tp1515 a(g185 V\u000a tp1516 a(g185 V p1517 tp1518 a(g123 Vrecord p1519 tp1520 a(g185 V\u000a tp1521 a(g185 V p1522 tp1523 a(g73 VSkilled_In p1524 tp1525 a(g185 V tp1526 a(g198 V: p1527 tp1528 a(g18 VLanguage_List p1529 tp1530 a(g198 V; tp1531 a(g185 V\u000a tp1532 a(g185 V p1533 tp1534 a(g73 VFavorite_Langauge p1535 tp1536 a(g185 V tp1537 a(g198 V: p1538 tp1539 a(g18 VPython_Type p1540 tp1541 a(g198 V; tp1542 a(g185 V\u000a tp1543 a(g185 V p1544 tp1545 a(g123 Vend p1546 tp1547 a(g185 V tp1548 a(g123 Vrecord p1549 tp1550 a(g198 V; tp1551 a(g185 V\u000a tp1552 a(g185 V p1553 tp1554 a(g185 V\u000a tp1555 a(g185 V p1556 tp1557 a(g127 Vtype p1558 tp1559 a(g185 V tp1560 a(g135 VProgrammer p1561 tp1562 a(g185 V tp1563 a(g123 Vis p1564 tp1565 a(g185 V tp1566 a(g123 Vnew p1567 tp1568 a(g185 V tp1569 a(g18 VPerson p1570 tp1571 a(g185 V tp1572 a(g185 V\u000a tp1573 a(g185 V p1574 tp1575 a(g123 Vand p1576 tp1577 a(g185 V tp1578 a(g18 VPrintable p1579 tp1580 a(g185 V tp1581 a(g185 V\u000a tp1582 a(g185 V p1583 tp1584 a(g123 Vwith p1585 tp1586 a(g185 V tp1587 a(g185 V\u000a tp1588 a(g185 V p1589 tp1590 a(g123 Vrecord p1591 tp1592 a(g185 V\u000a tp1593 a(g185 V p1594 tp1595 a(g73 VSkilled_In p1596 tp1597 a(g185 V tp1598 a(g198 V: p1599 tp1600 a(g18 VLanguage_List p1601 tp1602 a(g198 V; tp1603 a(g185 V\u000a tp1604 a(g185 V p1605 tp1606 a(g73 VBlah p1607 tp1608 a(g185 V tp1609 a(g198 V: p1610 tp1611 a(g123 Valiased p1612 tp1613 a(g185 V tp1614 a(g135 VInteger p1615 tp1616 a(g198 V; tp1617 a(g185 V\u000a tp1618 a(g185 V p1619 tp1620 a(g123 Vend p1621 tp1622 a(g185 V tp1623 a(g123 Vrecord p1624 tp1625 a(g198 V; tp1626 a(g185 V\u000a tp1627 a(g185 V p1628 tp1629 a(g185 V\u000a tp1630 a(g185 V p1631 tp1632 a(g7 V---------------------\u000a p1633 tp1634 a(g185 V p1635 tp1636 a(g7 V-- Scan_Next_Token --\u000a p1637 tp1638 a(g185 V p1639 tp1640 a(g7 V---------------------\u000a p1641 tp1642 a(g185 V p1643 tp1644 a(g185 V\u000a tp1645 a(g185 V p1646 tp1647 a(g127 Vtask p1648 tp1649 a(g185 V tp1650 a(g18 VCyclic_Buffer_Task_Type p1651 tp1652 a(g185 V tp1653 a(g123 Vis p1654 tp1655 a(g185 V\u000a tp1656 a(g185 V p1657 tp1658 a(g127 Ventry p1659 tp1660 a(g185 V tp1661 a(g21 VInsert p1662 tp1663 a(g185 V tp1664 a(g198 V( tp1665 a(g73 VAn_Item p1666 tp1667 a(g185 V tp1668 a(g198 V: p1669 tp1670 a(g123 Vin p1671 tp1672 a(g185 V p1673 tp1674 a(g18 VItem p1675 tp1676 a(g198 V) tp1677 a(g198 V; tp1678 a(g185 V\u000a tp1679 a(g185 V p1680 tp1681 a(g127 Ventry p1682 tp1683 a(g185 V tp1684 a(g21 VRemove p1685 tp1686 a(g185 V tp1687 a(g198 V( tp1688 a(g73 VAn_Item p1689 tp1690 a(g185 V tp1691 a(g198 V: p1692 tp1693 a(g123 Vout p1694 tp1695 a(g185 V tp1696 a(g18 VItem p1697 tp1698 a(g198 V) tp1699 a(g198 V; tp1700 a(g185 V\u000a tp1701 a(g185 V p1702 tp1703 a(g123 Vend p1704 tp1705 a(g185 V tp1706 a(g21 VCyclic_Buffer_Task_Type p1707 tp1708 a(g198 V; tp1709 a(g185 V\u000a tp1710 a(g185 V p1711 tp1712 a(g185 V\u000a tp1713 a(g185 V p1714 tp1715 a(g127 Vtask p1716 tp1717 a(g185 V tp1718 a(g123 Vbody p1719 tp1720 a(g185 V tp1721 a(g18 VCyclic_Buffer_Task_Type p1722 tp1723 a(g185 V tp1724 a(g123 Vis p1725 tp1726 a(g185 V\u000a tp1727 a(g185 V p1728 tp1729 a(g73 VQ_Size p1730 tp1731 a(g185 V tp1732 a(g198 V: p1733 tp1734 a(g123 Vconstant p1735 tp1736 a(g185 V tp1737 a(g198 V:= p1738 tp1739 a(g185 V tp1740 a(g314 V100 p1741 tp1742 a(g198 V; tp1743 a(g185 V\u000a tp1744 a(g185 V p1745 tp1746 a(g127 Vsubtype p1747 tp1748 a(g185 V tp1749 a(g135 VQ_Range p1750 tp1751 a(g185 V tp1752 a(g123 Vis p1753 tp1754 a(g185 V tp1755 a(g135 VPositive p1756 tp1757 a(g185 V tp1758 a(g123 Vrange p1759 tp1760 a(g185 V tp1761 a(g314 V1 tp1762 a(g185 V tp1763 a(g198 V. tp1764 a(g198 V. tp1765 a(g185 V tp1766 a(g18 VQ_Size p1767 tp1768 a(g198 V; tp1769 a(g185 V\u000a tp1770 a(g185 V p1771 tp1772 a(g73 VLength p1773 tp1774 a(g185 V tp1775 a(g198 V: p1776 tp1777 a(g135 VNatural p1778 tp1779 a(g185 V tp1780 a(g123 Vrange p1781 tp1782 a(g185 V tp1783 a(g314 V0 tp1784 a(g185 V tp1785 a(g198 V. tp1786 a(g198 V. tp1787 a(g185 V tp1788 a(g18 VQ_Size p1789 tp1790 a(g185 V tp1791 a(g198 V:= p1792 tp1793 a(g185 V tp1794 a(g314 V0 tp1795 a(g198 V; tp1796 a(g185 V\u000a tp1797 a(g185 V p1798 tp1799 a(g73 VHead p1800 tp1801 a(g198 V, tp1802 a(g185 V tp1803 a(g73 VTail p1804 tp1805 a(g185 V tp1806 a(g198 V: p1807 tp1808 a(g18 VQ_Range p1809 tp1810 a(g185 V tp1811 a(g198 V:= p1812 tp1813 a(g185 V tp1814 a(g314 V1 tp1815 a(g198 V; tp1816 a(g185 V\u000a tp1817 a(g185 V p1818 tp1819 a(g73 VData p1820 tp1821 a(g185 V tp1822 a(g198 V: p1823 tp1824 a(g123 Varray p1825 tp1826 a(g185 V tp1827 a(g198 V( tp1828 a(g18 VQ_Range p1829 tp1830 a(g198 V) tp1831 a(g185 V tp1832 a(g123 Vof p1833 tp1834 a(g185 V tp1835 a(g18 VItem p1836 tp1837 a(g198 V; tp1838 a(g185 V\u000a tp1839 a(g185 V p1840 tp1841 a(g123 Vbegin p1842 tp1843 a(g185 V\u000a tp1844 a(g185 V p1845 tp1846 a(g123 Vloop p1847 tp1848 a(g185 V\u000a tp1849 a(g185 V p1850 tp1851 a(g123 Vselect p1852 tp1853 a(g185 V\u000a tp1854 a(g185 V p1855 tp1856 a(g123 Vwhen p1857 tp1858 a(g185 V tp1859 a(g18 VLength p1860 tp1861 a(g185 V tp1862 a(g339 V< tp1863 a(g185 V tp1864 a(g18 VQ_Size p1865 tp1866 a(g185 V tp1867 a(g198 V=> p1868 tp1869 a(g185 V\u000a tp1870 a(g185 V p1871 tp1872 a(g123 Vaccept p1873 tp1874 a(g185 V tp1875 a(g18 VInsert p1876 tp1877 a(g185 V tp1878 a(g198 V( tp1879 a(g73 VAn_Item p1880 tp1881 a(g185 V tp1882 a(g198 V: p1883 tp1884 a(g123 Vin p1885 tp1886 a(g185 V p1887 tp1888 a(g18 VItem p1889 tp1890 a(g198 V) tp1891 a(g185 V tp1892 a(g123 Vdo p1893 tp1894 a(g185 V\u000a tp1895 a(g185 V p1896 tp1897 a(g18 VData p1898 tp1899 a(g198 V( tp1900 a(g18 VTail p1901 tp1902 a(g198 V) tp1903 a(g185 V tp1904 a(g198 V:= p1905 tp1906 a(g185 V tp1907 a(g18 VAn_Item p1908 tp1909 a(g198 V; tp1910 a(g185 V\u000a tp1911 a(g185 V p1912 tp1913 a(g123 Vend p1914 tp1915 a(g185 V tp1916 a(g21 VInsert p1917 tp1918 a(g198 V; tp1919 a(g185 V\u000a tp1920 a(g185 V p1921 tp1922 a(g18 VTail p1923 tp1924 a(g185 V tp1925 a(g198 V:= p1926 tp1927 a(g185 V tp1928 a(g18 VTail p1929 tp1930 a(g185 V tp1931 a(g343 Vmod p1932 tp1933 a(g185 V tp1934 a(g18 VQ_Size p1935 tp1936 a(g185 V tp1937 a(g339 V+ tp1938 a(g185 V tp1939 a(g314 V1 tp1940 a(g198 V; tp1941 a(g185 V\u000a tp1942 a(g185 V p1943 tp1944 a(g18 VLength p1945 tp1946 a(g185 V tp1947 a(g198 V:= p1948 tp1949 a(g185 V tp1950 a(g18 VLength p1951 tp1952 a(g185 V tp1953 a(g339 V+ tp1954 a(g185 V tp1955 a(g314 V1 tp1956 a(g198 V; tp1957 a(g185 V\u000a tp1958 a(g185 V p1959 tp1960 a(g123 Vor p1961 tp1962 a(g185 V\u000a tp1963 a(g185 V p1964 tp1965 a(g123 Vwhen p1966 tp1967 a(g185 V tp1968 a(g18 VLength p1969 tp1970 a(g185 V tp1971 a(g339 V> tp1972 a(g185 V tp1973 a(g314 V0 tp1974 a(g185 V tp1975 a(g198 V=> p1976 tp1977 a(g185 V\u000a tp1978 a(g185 V p1979 tp1980 a(g123 Vaccept p1981 tp1982 a(g185 V tp1983 a(g18 VRemove p1984 tp1985 a(g185 V tp1986 a(g198 V( tp1987 a(g73 VAn_Item p1988 tp1989 a(g185 V tp1990 a(g198 V: p1991 tp1992 a(g123 Vout p1993 tp1994 a(g185 V tp1995 a(g18 VItem p1996 tp1997 a(g198 V) tp1998 a(g185 V tp1999 a(g123 Vdo p2000 tp2001 a(g185 V\u000a tp2002 a(g185 V p2003 tp2004 a(g18 VAn_Item p2005 tp2006 a(g185 V tp2007 a(g198 V:= p2008 tp2009 a(g185 V tp2010 a(g18 VData p2011 tp2012 a(g198 V( tp2013 a(g18 VHead p2014 tp2015 a(g198 V) tp2016 a(g198 V; tp2017 a(g185 V\u000a tp2018 a(g185 V p2019 tp2020 a(g123 Vend p2021 tp2022 a(g185 V tp2023 a(g21 VRemove p2024 tp2025 a(g198 V; tp2026 a(g185 V\u000a tp2027 a(g185 V p2028 tp2029 a(g18 VHead p2030 tp2031 a(g185 V tp2032 a(g198 V:= p2033 tp2034 a(g185 V tp2035 a(g18 VHead p2036 tp2037 a(g185 V tp2038 a(g343 Vmod p2039 tp2040 a(g185 V tp2041 a(g18 VQ_Size p2042 tp2043 a(g185 V tp2044 a(g339 V+ tp2045 a(g185 V tp2046 a(g314 V1 tp2047 a(g198 V; tp2048 a(g185 V\u000a tp2049 a(g185 V p2050 tp2051 a(g18 VLength p2052 tp2053 a(g185 V tp2054 a(g198 V:= p2055 tp2056 a(g185 V tp2057 a(g18 VLength p2058 tp2059 a(g185 V tp2060 a(g339 V- tp2061 a(g185 V tp2062 a(g314 V1 tp2063 a(g198 V; tp2064 a(g185 V\u000a tp2065 a(g185 V p2066 tp2067 a(g123 Vend p2068 tp2069 a(g185 V tp2070 a(g123 Vselect p2071 tp2072 a(g198 V; tp2073 a(g185 V\u000a tp2074 a(g185 V p2075 tp2076 a(g123 Vend p2077 tp2078 a(g185 V tp2079 a(g123 Vloop p2080 tp2081 a(g198 V; tp2082 a(g185 V\u000a tp2083 a(g185 V p2084 tp2085 a(g123 Vend p2086 tp2087 a(g185 V tp2088 a(g21 VCyclic_Buffer_Task_Type p2089 tp2090 a(g198 V; tp2091 a(g185 V\u000a tp2092 a(g185 V p2093 tp2094 a(g185 V\u000a tp2095 a(g185 V p2096 tp2097 a(g185 V\u000a tp2098 a(g185 V p2099 tp2100 a(g185 V\u000a tp2101 a(g185 V p2102 tp2103 a(g127 Vprocedure p2104 tp2105 a(g185 V tp2106 a(g21 VScan_Next_Token p2107 tp2108 a(g185 V\u000a tp2109 a(g185 V p2110 tp2111 a(g198 V( tp2112 a(g73 VS tp2113 a(g185 V p2114 tp2115 a(g198 V: p2116 tp2117 a(g123 Vin p2118 tp2119 a(g185 V p2120 tp2121 a(g135 VString p2122 tp2123 a(g198 V; tp2124 a(g185 V\u000a tp2125 a(g185 V p2126 tp2127 a(g73 VStart_Index p2128 tp2129 a(g185 V tp2130 a(g198 V: p2131 tp2132 a(g185 V p2133 tp2134 a(g123 Vout p2135 tp2136 a(g185 V tp2137 a(g135 VPositive p2138 tp2139 a(g198 V; tp2140 a(g185 V\u000a tp2141 a(g185 V p2142 tp2143 a(g73 VEnd_Index p2144 tp2145 a(g185 V p2146 tp2147 a(g198 V: p2148 tp2149 a(g123 Vin p2150 tp2151 a(g185 V tp2152 a(g123 Vout p2153 tp2154 a(g185 V tp2155 a(g135 VNatural p2156 tp2157 a(g198 V; tp2158 a(g185 V p2159 tp2160 a(g7 V-- Tricky comment\u000a p2161 tp2162 a(g185 V p2163 tp2164 a(g73 VLine_Number p2165 tp2166 a(g185 V tp2167 a(g198 V: p2168 tp2169 a(g123 Vin p2170 tp2171 a(g185 V tp2172 a(g123 Vout p2173 tp2174 a(g185 V tp2175 a(g135 VPositive p2176 tp2177 a(g198 V; tp2178 a(g185 V\u000a tp2179 a(g185 V p2180 tp2181 a(g73 VToken p2182 tp2183 a(g185 V p2184 tp2185 a(g198 V: p2186 tp2187 a(g185 V p2188 tp2189 a(g123 Vout p2190 tp2191 a(g185 V tp2192 a(g18 VToken_T p2193 tp2194 a(g198 V) tp2195 a(g198 V; tp2196 a(g185 V\u000a tp2197 a(g185 V p2198 tp2199 a(g185 V\u000a tp2200 a(g185 V p2201 tp2202 a(g127 Vprocedure p2203 tp2204 a(g185 V tp2205 a(g21 VScan_Next_Token p2206 tp2207 a(g185 V\u000a tp2208 a(g185 V p2209 tp2210 a(g198 V( tp2211 a(g73 VS tp2212 a(g185 V p2213 tp2214 a(g198 V: p2215 tp2216 a(g123 Vin p2217 tp2218 a(g185 V p2219 tp2220 a(g135 VString p2221 tp2222 a(g198 V; tp2223 a(g185 V\u000a tp2224 a(g185 V p2225 tp2226 a(g73 VStart_Index p2227 tp2228 a(g185 V tp2229 a(g198 V: p2230 tp2231 a(g185 V p2232 tp2233 a(g123 Vout p2234 tp2235 a(g185 V tp2236 a(g135 VPositive p2237 tp2238 a(g198 V; tp2239 a(g185 V\u000a tp2240 a(g185 V p2241 tp2242 a(g73 VEnd_Index p2243 tp2244 a(g185 V p2245 tp2246 a(g198 V: p2247 tp2248 a(g123 Vin p2249 tp2250 a(g185 V tp2251 a(g123 Vout p2252 tp2253 a(g185 V tp2254 a(g135 VNatural p2255 tp2256 a(g198 V; tp2257 a(g185 V p2258 tp2259 a(g7 V-- Another comment\u000a p2260 tp2261 a(g185 V p2262 tp2263 a(g73 VLine_Number p2264 tp2265 a(g185 V tp2266 a(g198 V: p2267 tp2268 a(g123 Vin p2269 tp2270 a(g185 V tp2271 a(g123 Vout p2272 tp2273 a(g185 V tp2274 a(g135 VPositive p2275 tp2276 a(g198 V; tp2277 a(g185 V\u000a tp2278 a(g185 V p2279 tp2280 a(g73 VToken p2281 tp2282 a(g185 V p2283 tp2284 a(g198 V: p2285 tp2286 a(g185 V p2287 tp2288 a(g123 Vout p2289 tp2290 a(g185 V tp2291 a(g18 VToken_T p2292 tp2293 a(g198 V) tp2294 a(g185 V\u000a tp2295 a(g185 V p2296 tp2297 a(g123 Vis p2298 tp2299 a(g185 V\u000a tp2300 a(g185 V p2301 tp2302 a(g123 Vbegin p2303 tp2304 a(g185 V\u000a tp2305 a(g185 V p2306 tp2307 a(g45 VScanner_Loop p2308 tp2309 a(g198 V: tp2310 a(g185 V\u000a p2311 tp2312 a(g123 Vloop p2313 tp2314 a(g185 V\u000a tp2315 a(g185 V p2316 tp2317 a(g123 Vif p2318 tp2319 a(g185 V tp2320 a(g18 VNew_State p2321 tp2322 a(g185 V tp2323 a(g339 V= tp2324 a(g185 V tp2325 a(g18 VEnd_Error p2326 tp2327 a(g185 V tp2328 a(g123 Vthen p2329 tp2330 a(g185 V\u000a tp2331 a(g185 V p2332 tp2333 a(g123 Vexit p2334 tp2335 a(g185 V tp2336 a(g18 VScanner_Loop p2337 tp2338 a(g198 V; tp2339 a(g185 V\u000a tp2340 a(g185 V p2341 tp2342 a(g123 Vend p2343 tp2344 a(g185 V tp2345 a(g123 Vif p2346 tp2347 a(g198 V; tp2348 a(g185 V\u000a\u000a p2349 tp2350 a(g185 V p2351 tp2352 a(g123 Vif p2353 tp2354 a(g185 V tp2355 a(g18 VState p2356 tp2357 a(g185 V tp2358 a(g339 V= tp2359 a(g185 V tp2360 a(g18 VStart p2361 tp2362 a(g185 V tp2363 a(g343 Vand p2364 tp2365 a(g185 V tp2366 a(g18 VNew_State p2367 tp2368 a(g185 V tp2369 a(g339 V/ tp2370 a(g339 V= tp2371 a(g185 V tp2372 a(g18 VStart p2373 tp2374 a(g185 V tp2375 a(g123 Vthen p2376 tp2377 a(g185 V\u000a tp2378 a(g185 V p2379 tp2380 a(g18 VStart_Index p2381 tp2382 a(g185 V tp2383 a(g198 V:= p2384 tp2385 a(g185 V tp2386 a(g18 VPeek_Index p2387 tp2388 a(g198 V; tp2389 a(g185 V\u000a tp2390 a(g185 V p2391 tp2392 a(g123 Vend p2393 tp2394 a(g185 V tp2395 a(g123 Vif p2396 tp2397 a(g198 V; tp2398 a(g185 V\u000a tp2399 a(g185 V p2400 tp2401 a(g123 Vend p2402 tp2403 a(g185 V tp2404 a(g123 Vloop p2405 tp2406 a(g185 V tp2407 a(g21 VScanner_Loop p2408 tp2409 a(g198 V; tp2410 a(g185 V\u000a tp2411 a(g185 V p2412 tp2413 a(g123 Vend p2414 tp2415 a(g185 V tp2416 a(g21 VScan_Next_Token p2417 tp2418 a(g198 V; tp2419 a(g185 V\u000a tp2420 a(g185 V p2421 tp2422 a(g185 V\u000a tp2423 a(g185 V p2424 tp2425 a(g127 Vprocedure p2426 tp2427 a(g185 V tp2428 a(g21 VAdvance p2429 tp2430 a(g185 V tp2431 a(g123 Vis p2432 tp2433 a(g185 V\u000a tp2434 a(g185 V p2435 tp2436 a(g123 Vbegin p2437 tp2438 a(g185 V\u000a tp2439 a(g185 V p2440 tp2441 a(g18 VPeek_Index p2442 tp2443 a(g185 V tp2444 a(g198 V:= p2445 tp2446 a(g185 V tp2447 a(g18 VPeek_Index p2448 tp2449 a(g185 V tp2450 a(g339 V+ tp2451 a(g185 V tp2452 a(g314 V1 tp2453 a(g198 V; tp2454 a(g185 V\u000a tp2455 a(g185 V p2456 tp2457 a(g123 Vend p2458 tp2459 a(g185 V tp2460 a(g21 VAdvance p2461 tp2462 a(g198 V; tp2463 a(g185 V\u000a tp2464 a(g185 V p2465 tp2466 a(g185 V\u000a\u000a p2467 tp2468 a(g185 V p2469 tp2470 a(g7 V-- Eliminate the leading space that Ada puts in front of positive\u000a p2471 tp2472 a(g185 V p2473 tp2474 a(g7 V-- integer images.\u000a p2475 tp2476 a(g185 V p2477 tp2478 a(g127 Vfunction p2479 tp2480 a(g185 V tp2481 a(g21 VImage p2482 tp2483 a(g198 V( tp2484 a(g73 VN tp2485 a(g185 V tp2486 a(g198 V: p2487 tp2488 a(g123 Vin p2489 tp2490 a(g185 V tp2491 a(g135 VInteger p2492 tp2493 a(g198 V) tp2494 a(g185 V tp2495 a(g123 Vreturn p2496 tp2497 a(g185 V tp2498 a(g135 VString p2499 tp2500 a(g185 V tp2501 a(g123 Vis p2502 tp2503 a(g185 V\u000a tp2504 a(g185 V p2505 tp2506 a(g18 VS tp2507 a(g185 V tp2508 a(g198 V: tp2509 a(g185 V tp2510 a(g135 VString p2511 tp2512 a(g185 V tp2513 a(g198 V:= p2514 tp2515 a(g185 V tp2516 a(g135 VInteger p2517 tp2518 a(g198 V' tp2519 a(g41 VImage p2520 tp2521 a(g198 V( tp2522 a(g18 VN tp2523 a(g198 V) tp2524 a(g198 V; tp2525 a(g185 V\u000a tp2526 a(g185 V p2527 tp2528 a(g123 Vbegin p2529 tp2530 a(g185 V\u000a tp2531 a(g185 V p2532 tp2533 a(g123 Vif p2534 tp2535 a(g185 V tp2536 a(g18 VS tp2537 a(g198 V( tp2538 a(g314 V1 tp2539 a(g198 V) tp2540 a(g185 V tp2541 a(g339 V= tp2542 a(g185 V tp2543 a(g252 V' ' p2544 tp2545 a(g185 V tp2546 a(g123 Vthen p2547 tp2548 a(g185 V\u000a tp2549 a(g185 V p2550 tp2551 a(g123 Vreturn p2552 tp2553 a(g185 V tp2554 a(g18 VS tp2555 a(g198 V( tp2556 a(g314 V2 tp2557 a(g185 V tp2558 a(g198 V. tp2559 a(g198 V. tp2560 a(g185 V tp2561 a(g18 VS tp2562 a(g198 V' tp2563 a(g41 VLast p2564 tp2565 a(g198 V) tp2566 a(g198 V; tp2567 a(g185 V\u000a tp2568 a(g185 V p2569 tp2570 a(g123 Vend p2571 tp2572 a(g185 V tp2573 a(g123 Vif p2574 tp2575 a(g198 V; tp2576 a(g185 V\u000a tp2577 a(g185 V p2578 tp2579 a(g123 Vreturn p2580 tp2581 a(g185 V tp2582 a(g18 VS tp2583 a(g198 V; tp2584 a(g185 V\u000a tp2585 a(g185 V p2586 tp2587 a(g123 Vend p2588 tp2589 a(g185 V tp2590 a(g21 VImage p2591 tp2592 a(g198 V; tp2593 a(g185 V\u000a\u000a p2594 tp2595 a(g123 Vend p2596 tp2597 a(g185 V tp2598 a(g21 VScanner p2599 tp2600 a(g198 V; tp2601 a(g185 V\u000a tp2602 a.
Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_573_1020.asm	ljhsiun2/medusa	9	84762	.global s_prepare_buffers s_prepare_buffers: push %r10 push %r13 push %r9 push %rbp push %rbx push %rcx push %rdi push %rdx push %rsi lea addresses_normal_ht+0x1edb6, %rdx nop nop nop nop nop add $27210, %r13 movw $0x6162, (%rdx) nop cmp $53378, %rbx lea addresses_A_ht+0xa176, %rbp nop nop nop nop and $60089, %r10 mov $0x6162636465666768, %rdi movq %rdi, %xmm6 movups %xmm6, (%rbp) nop nop sub %r13, %r13 lea addresses_A_ht+0x95f6, %rbx nop nop and $2156, %rdx movb $0x61, (%rbx) nop nop nop nop xor %r13, %r13 lea addresses_A_ht+0xffa6, %r13 nop nop nop nop add %r10, %r10 mov (%r13), %rbp nop nop dec %rbp lea addresses_WC_ht+0x149f6, %r10 sub %rdi, %rdi movl $0x61626364, (%r10) nop nop nop nop xor $17575, %rbx lea addresses_UC_ht+0x14c76, %r13 nop nop nop and %r9, %r9 movw $0x6162, (%r13) nop nop nop nop sub $43629, %rbx lea addresses_UC_ht+0x1e8f6, %rdx nop cmp %rdi, %rdi mov $0x6162636465666768, %r9 movq %r9, (%rdx) add %rdx, %rdx lea addresses_A_ht+0x19c75, %r10 nop nop nop and %r13, %r13 movups (%r10), %xmm5 vpextrq $1, %xmm5, %rdi nop nop dec %r13 lea addresses_UC_ht+0xd616, %rdx nop nop nop xor %r13, %r13 movw $0x6162, (%rdx) nop nop nop add $61288, %rbp lea addresses_A_ht+0x1a8b6, %rdx nop add %rbx, %rbx movb $0x61, (%rdx) nop nop nop nop nop inc %rbx lea addresses_normal_ht+0x181f6, %r13 nop cmp $27527, %rbp movups (%r13), %xmm1 vpextrq $0, %xmm1, %r10 nop nop nop nop nop xor $11850, %rbp lea addresses_WC_ht+0x1129a, %rsi lea addresses_A_ht+0x16596, %rdi sub %r9, %r9 mov $57, %rcx rep movsb nop nop xor $62920, %rdi pop %rsi pop %rdx pop %rdi pop %rcx pop %rbx pop %rbp pop %r9 pop %r13 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r8 push %r9 push %rax push %rbx push %rcx push %rsi // Store lea addresses_PSE+0x123c6, %rcx nop xor $28166, %r8 mov $0x5152535455565758, %rsi movq %rsi, (%rcx) nop nop nop nop add %r11, %r11 // Faulty Load lea addresses_D+0xb1f6, %rcx nop nop inc %rax vmovups (%rcx), %ymm2 vextracti128 $1, %ymm2, %xmm2 vpextrq $1, %xmm2, %rsi lea oracles, %r9 and $0xff, %rsi shlq $12, %rsi mov (%r9,%rsi,1), %rsi pop %rsi pop %rcx pop %rbx pop %rax pop %r9 pop %r8 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 2, 'AVXalign': False, 'NT': True, 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 6, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 8, 'AVXalign': True, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 6, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 2, 'AVXalign': False, 'NT': True, 'congruent': 5, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WC_ht', 'congruent': 2, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 5, 'same': True}} {'36': 573} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 */
src/FormulaCS.Parser/Formula.g4	floradu88/FormulaCS	0	1471	grammar Formula; /* Parser rules / main : '=' expr EOF; expr : expr ':' expr #Range \| sign=('+'\|'-') expr #Unary \| expr '%' #Percentage \| expr '^' expr #Pow \| expr op=(''\|'/') expr #MulDiv \| expr op=('+'\|'-') expr #AddSub \| expr '&' expr #Concatenate \| expr op=('='\|'<>') expr #Equality \| expr op=('<'\|'>'\|'<='\|'>=') expr #Relational \| '(' expr ')' #Parenthesis \| name=NAME '(' (expr (',' expr))? ')' #Function \| STRING #String \| CELLREF #CellRef \| BOOLEAN #Boolean \| NUMBER #Number \| NAME #Name \| ERROR #Error ; / Lexer rules / STRING : '"' ~["] '"' ; CELLREF : SHEET? '$'? COL '$'? DIGIT+ ; BOOLEAN : TRUE\|FALSE ; NUMBER : FLOAT\|DIGIT+ ; NAME : [a-zA-Z_\\] ([0-9a-zA-Z_.\\])* ; ERROR : '#NULL!' \| '#DIV/0!' \| '#VALUE!' \| '#NAME?' \| '#NUM!' \| '#N/A' \| '#REF!' ; S : (' '\|'\t'\|'\r'\|'\n'\|'\u000C') -> skip ; INVALID : . ; /* Lexer fragments / fragment COL : [a-zA-Z]? [a-zA-Z]? [a-zA-Z] ; // Max col is XFD fragment DIGIT : [0-9] ; fragment TRUE : [Tt][Rr][Uu][Ee] ; fragment FALSE : [Ff][Aa][Ll][Ss][Ee] ; fragment FLOAT : DIGIT+ '.' DIGIT+ E? \| DIGIT+ E ; fragment E : [Ee] ('+'?\|'-') DIGIT+ ; fragment SHEET : FILE? SHEET_C+ '!' \| FILE? SHEET_C+ ':' + SHEET_C+ '!' \| '\'' WIN_PATH? FILE? Q_SHEET_C+ '\'!' \| '\'' WIN_PATH? FILE? Q_SHEET_C+ ':' Q_SHEET_C+ '\'!' ; fragment FILE : '[' DIGIT+ ']' \| '[' FILENAME_C+ ']' ; fragment WIN_PATH : [A-Z] ':\\' (FILENAME_C+ '\\') ; fragment FILENAME_C : ~["[\]\\:/?<>\|] ; fragment SHEET_C : ~['[\]\\:/?<>();{}#"=&+^%,!\u2229\u222A \-] ; fragment Q_SHEET_C : ~['*[\]\\:/?] ;
programs/oeis/187/A187468.asm	karttu/loda	1	19505	<filename>programs/oeis/187/A187468.asm ; A187468: Sum of the squares modulo 2^n of the odd numbers less than 2^n. ; 1,2,4,40,208,928,3904,16000,64768,260608,1045504,4188160,16764928,67084288,268386304,1073643520,4294770688,17179475968,68718690304,274876334080,1099508482048,4398040219648,17592173461504,70368719011840,281474926379008 mov $1,2 pow $1,$0 sub $1,1 mov $2,1 add $2,$1 trn $1,3 add $1,1 mul $1,$2
host/stm32gd-gpio-irq.adb	ekoeppen/STM32_Generic_Ada_Drivers	1	18834	<filename>host/stm32gd-gpio-irq.adb with STM32_SVD.GPIO; use STM32_SVD.GPIO; with STM32_SVD.SYSCFG; use STM32_SVD.SYSCFG; with STM32GD.GPIO.Port; package body STM32GD.GPIO.IRQ is Index : constant Natural := GPIO_Pin'Pos (Pin.Pin); Pin_Mask : constant UInt16 := GPIO_Pin'Enum_Rep (Pin.Pin); procedure Connect_External_Interrupt is Port_Id : constant UInt4 := STM32GD.GPIO.Port.GPIO_Port_Representation (Pin.Port); begin case Index is when 0 .. 3 => SYSCFG_Periph.EXTICR1.EXTI.Arr (Index) := Port_Id; when 4 .. 7 => SYSCFG_Periph.EXTICR2.EXTI.Arr (Index) := Port_Id; when 8 .. 11 => SYSCFG_Periph.EXTICR3.EXTI.Arr (Index) := Port_Id; when 12 .. 15 => SYSCFG_Periph.EXTICR4.EXTI.Arr (Index) := Port_Id; when others => raise Program_Error; end case; end Connect_External_Interrupt; function Interrupt_Line_Number return STM32GD.EXTI.External_Line_Number is begin return STM32GD.EXTI.External_Line_Number'Val (Index); end Interrupt_Line_Number; procedure Wait_For_Trigger is begin STM32GD.EXTI.IRQ_Handler.Wait; end Wait_For_Trigger; procedure Clear_Trigger is begin STM32GD.EXTI.IRQ_Handler.Reset_Status (Interrupt_Line_Number); end Clear_Trigger; function Triggered return Boolean is begin return STM32GD.EXTI.IRQ_Handler.Status (Interrupt_Line_Number); end Triggered; procedure Cancel_Wait is begin STM32GD.EXTI.IRQ_Handler.Cancel; end Cancel_Wait; procedure Configure_Trigger (Trigger : EXTI.External_Triggers) is use STM32GD.EXTI; Line : constant External_Line_Number := External_Line_Number'Val (Index); begin Connect_External_Interrupt; if Trigger in Interrupt_Triggers then Enable_External_Interrupt (Line, Trigger); else Enable_External_Event (Line, Trigger); end if; end Configure_Trigger; end STM32GD.GPIO.IRQ;
antlr/arms--newline.g4	ARMS/arms.github.io	1	3336	<reponame>ARMS/arms.github.io grammar arms; // templates first? program : modelBlock NEWLINE (declaration NEWLINE)+; modelBlock : NAME '=' 'Model' '{' 'units' '=' UNITS NEWLINE '}'; declaration : block \| assignment \| template; block : '{' declaration NEWLINE '}'; assignment : NAME '=' expression; expression : math \| primitive \| templateCall; math: NUMBER # Number \| NAME # Name \| '(' inner = expression ')' # Parentheses \| left = math operator = '^' right = math # Power \| left = math operator = '' right = math # Multiplication \| left = math operator = '/' right = math # Division \| left = math operator = '+' right = math # Addition \| left = math operator = '-' right = math # Subtraction; primitive : cuboid \| ellipsoid \| cylinder \| mesh; cuboid: 'Cuboid' '{' 'size' '=' vec3 NEWLINE commonAttributes NEWLINE '}'; ellipsoid: 'Ellipsoid' '{' 'radii' '=' vec3 NEWLINE commonAttributes NEWLINE '}'; cylinder: 'Cylinder' '{' 'radius1' '=' NUMBER NEWLINE 'radius2' '=' NUMBER NEWLINE 'height' '=' NUMBER 'axis' '=' ('x' \| 'y') commonAttributes NEWLINE '}'; mesh: 'Mesh' '{' 'uri' '=' STRING NEWLINE commonAttributes NEWLINE '}'; commonAttributes: 'position' '=' vec3 NEWLINE 'quaternion' '=' vec4 NEWLINE 'color' '=' COLOR NEWLINE 'parent' '=' NAME NEWLINE 'positioning' '=' ('relative' \| 'absolute') NEWLINE; template : 'Template' NAME '(' parameters ')' block; templateCall : NAME '(' arguments ')' updates; parameters : (NAME (',' NAME))?; arguments : (arg (',' arg))?; updates : ('&' NAME '=' arg); arg : math \| STRING \| vec3 \| vec4; vec4 : NUMBER NUMBER NUMBER NUMBER; vec3 : NUMBER NUMBER NUMBER; UNITS : 'mm' \| 'cm' \| 'm' \| 'in' \| 'ft'; NAME : [a-zA-Z_]+ [a-zA-Z0-9_]; QNAME : '"' NAME '"'; STRING : '"' (~'"' \| '\\"')* '"'; NUMBER : '-'? DIGITS ('.' ZERO* DIGITS EXP? \| EXP); fragment EXP : [Ee] [+\-]? DIGITS; fragment DIGITS : ZERO \| [1-9] [0-9]; fragment ZERO : '0'; BLOCK_COMMENT : '[-' .? '-]' -> skip; LINE_COMMENT : '--' ~[\r\n]* -> skip; NEWLINE : [\r\n]+; WHITESPACE : [ \t]+ -> skip;
examples/getopt.adb	ytomino/drake	33	22787	-- Demonstration of the extended units: Ada.Command_Line.Generic_Parsing -- Use Ada.Command_Line.Parsing for actual command line. with Ada.Command_Line.Generic_Parsing; with Ada.Containers.Indefinite_Doubly_Linked_Lists; with Ada.Strings.Unbounded; procedure getopt is use type Ada.Containers.Count_Type; use type Ada.Strings.Unbounded.Unbounded_String; package Lists is new Ada.Containers.Indefinite_Doubly_Linked_Lists (String); type Option_Type is record a, b : Natural := 0; o : Ada.Strings.Unbounded.Unbounded_String := Ada.Strings.Unbounded.Null_Unbounded_String; long : Natural := 0; prefix : Ada.Strings.Unbounded.Unbounded_String := Ada.Strings.Unbounded.Null_Unbounded_String; to : Ada.Strings.Unbounded.Unbounded_String := Ada.Strings.Unbounded.Null_Unbounded_String; verbose : Natural := 0; Unknown : Lists.List := Lists.Empty_List; Arguments : Lists.List := Lists.Empty_List; end record; -- parse arguments procedure Test_Parsing (Arguments : aliased Lists.List; Option : out Option_Type) is package Parsing is new Ada.Command_Line.Generic_Parsing ( Input_Cursor => Lists.Cursor, Has_Element => Lists.Has_Element, Input_Iterator_Interfaces => Lists.List_Iterator_Interfaces, Input_Iterator => Lists.Iterate (Arguments), Argument => Lists.Element); begin for I in Parsing.Iterate loop if Parsing.Is_Option (I, 'a') then pragma Assert (Parsing.Name (I) = "-a"); pragma Assert (Parsing.Short_Name (I) = 'a'); pragma Assert (Parsing.Value (I) = ""); Option.a := Option.a + 1; elsif Parsing.Is_Option (I, 'b') then pragma Assert (Parsing.Name (I) = "-b"); pragma Assert (Parsing.Short_Name (I) = 'b'); pragma Assert (Parsing.Value (I) = ""); Option.b := Option.b + 1; elsif Parsing.Is_Option (I, 'o', ':') then pragma Assert (Parsing.Name (I) = "-o"); pragma Assert (Parsing.Short_Name (I) = 'o'); Option.o := +Parsing.Value (I); elsif Parsing.Is_Option (I, "long") then pragma Assert (Parsing.Name (I) = "--long"); pragma Assert (Parsing.Long_Name (I) = "long"); pragma Assert (Parsing.Value (I) = ""); Option.long := Option.long + 1; elsif Parsing.Is_Option (I, "prefix", '?') then pragma Assert (Parsing.Name (I) = "--prefix"); Option.prefix := +Parsing.Value (I); elsif Parsing.Is_Option (I, "to", ':') then pragma Assert (Parsing.Name (I) = "--to"); Option.to := +Parsing.Value (I); elsif Parsing.Is_Option (I, 'v', "verbose") then pragma Assert (Parsing.Name (I) = "-v" or else Parsing.Name (I) = "--verbose"); pragma Assert (Parsing.Short_Name (I) = 'v' or else Parsing.Long_Name (I) = "verbose"); pragma Assert (Parsing.Value (I) = ""); Option.verbose := Option.verbose + 1; elsif Parsing.Is_Unknown_Option (I) then pragma Assert (Parsing.Long_Name (I) /= "long" or else Parsing.Value (I) = "value"); -- A Lists.Append (Option.Unknown, Parsing.Name (I)); else Lists.Append (Option.Arguments, Parsing.Argument (I)); end if; end loop; end Test_Parsing; begin -- empty declare Arguments : aliased Lists.List := Lists.Empty_List; begin declare Option : Option_Type; begin Test_Parsing (Arguments, Option); end; end; -- arguments declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "a.txt"); Lists.Append (Arguments, "b.txt"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.Arguments.Length = 2); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "a.txt"); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.Last) = "b.txt"); end; end; -- double hyphen at first declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "--"); Lists.Append (Arguments, "-a.txt"); Lists.Append (Arguments, "--b.txt"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.Arguments.Length = 2); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "-a.txt"); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.Last) = "--b.txt"); end; end; -- parameterless options declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-ab"); Lists.Append (Arguments, "--long"); Lists.Append (Arguments, "-v"); Lists.Append (Arguments, "--verbose"); Lists.Append (Arguments, "a.txt"); Lists.Append (Arguments, "--"); Lists.Append (Arguments, "-b.txt"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.a = 1); pragma Assert (Option.b = 1); pragma Assert (Option.long = 1); pragma Assert (Option.verbose = 2); pragma Assert (Option.Arguments.Length = 2); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "a.txt"); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.Last) = "-b.txt"); end; end; -- values without space declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-oa.out"); Lists.Append (Arguments, "--prefix=/usr/local"); Lists.Append (Arguments, "--to=utf-8"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.o = "a.out"); pragma Assert (Option.prefix = "/usr/local"); pragma Assert (Option.to = "utf-8"); pragma Assert (Option.Arguments.Length = 0); end; end; -- values with space declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-o"); Lists.Append (Arguments, "a.out"); Lists.Append (Arguments, "--prefix"); Lists.Append (Arguments, "/usr/local"); Lists.Append (Arguments, "--to"); Lists.Append (Arguments, "utf-8"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.o = "a.out"); pragma Assert (Option.to = "utf-8"); pragma Assert (Option.prefix = ""); pragma Assert (Option.Arguments.Length = 1); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "/usr/local"); end; end; -- missing values by end-of-arguments (short) declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-t"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.to = ""); pragma Assert (Option.Arguments.Length = 0); end; end; -- missing values by end-of-arguments (long) declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "--to"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.to = ""); pragma Assert (Option.Arguments.Length = 0); end; end; -- unknown options declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-u"); Lists.Append (Arguments, "--long=value"); -- A Lists.Append (Arguments, "--unknown"); Lists.Append (Arguments, "--unknown=xyz"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.to = ""); pragma Assert (Option.Unknown.Length = 4); pragma Assert (Option.Unknown.Constant_Reference (Option.Unknown.First) = "-u"); pragma Assert (Option.Unknown.Constant_Reference (Lists.Next (Option.Unknown.First)) = "--long"); pragma Assert (Option.Unknown.Constant_Reference (Lists.Next (Lists.Next (Option.Unknown.First))) = "--unknown"); pragma Assert (Option.Unknown.Constant_Reference (Option.Unknown.Last) = "--unknown"); pragma Assert (Option.Arguments.Length = 0); end; end; pragma Debug (Ada.Debug.Put ("OK")); end getopt;
src/002/my_pack.ads	xeenta/learning-ada	0	23620	<filename>src/002/my_pack.ads package My_Pack is function Get return Integer; function Get_Count return Integer; procedure Set (V : in Integer); end My_Pack;
source/asis/asis-compilation_units.adb	faelys/gela-asis	4	24620	------------------------------------------------------------------------------ -- <NAME> A A S I S -- -- ASIS implementation for Gela project, a portable Ada compiler -- -- http://gela.ada-ru.org -- -- - - - - - - - - - - - - - - - -- -- Read copyright and license at the end of this file -- ------------------------------------------------------------------------------ -- $Revision: 209 $ $Date: 2013-11-30 21:03:24 +0200 (Сб., 30 нояб. 2013) $ -- Purpose: -- Procedural wrapper over Object-Oriented ASIS implementation package body Asis.Compilation_Units is ------------------------------- -- Attribute_Value_Delimiter -- ------------------------------- function Attribute_Value_Delimiter return Wide_String is begin return ","; end Attribute_Value_Delimiter; ---------------------- -- Attribute_Values -- ---------------------- function Attribute_Values (Compilation_Unit : in Asis.Compilation_Unit; Attribute : in Wide_String) return Wide_String is begin if Assigned (Compilation_Unit) then return ""; -- return Attribute_Values (Compilation_Unit.all, Attribute); else return ""; end if; end Attribute_Values; ------------------------- -- Can_Be_Main_Program -- ------------------------- function Can_Be_Main_Program (Compilation_Unit : in Asis.Compilation_Unit) return Boolean is begin if Assigned (Compilation_Unit) then return Can_Be_Main_Program (Compilation_Unit.all); else return False; end if; end Can_Be_Main_Program; -------------------------------------- -- Compilation_Command_Line_Options -- -------------------------------------- function Compilation_Command_Line_Options (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Compilation_Command_Line_Options (Compilation_Unit.all); else return ""; end if; end Compilation_Command_Line_Options; ----------------------------- -- Compilation_Unit_Bodies -- ----------------------------- function Compilation_Unit_Bodies (The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Compilation_Unit_Bodies (The_Context.all); else return Nil_Compilation_Unit_List; end if; end Compilation_Unit_Bodies; --------------------------- -- Compilation_Unit_Body -- --------------------------- function Compilation_Unit_Body (Name : in Wide_String; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Compilation_Unit_Body (Name, The_Context.all); else return Nil_Compilation_Unit; end if; end Compilation_Unit_Body; ----------------------- -- Compilation_Units -- ----------------------- function Compilation_Units (The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Context_Compilation_Units (The_Context.all); else return Nil_Compilation_Unit_List; end if; end Compilation_Units; ------------------------ -- Corresponding_Body -- ------------------------ function Corresponding_Body (Library_Item : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Library_Item, "Corresponding_Body"); return Corresponding_Body (Library_Item.all); end Corresponding_Body; ------------------------ -- Corresponding_Body -- ------------------------ function Corresponding_Body (Library_Item : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Body (Library_Item, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Body; ---------------------------- -- Corresponding_Children -- ---------------------------- function Corresponding_Children (Library_Unit : in Asis.Compilation_Unit) return Asis.Compilation_Unit_List is begin Check_Nil_Unit (Library_Unit, "Corresponding_Children"); return Corresponding_Children (Library_Unit.all); end Corresponding_Children; ---------------------------- -- Corresponding_Children -- ---------------------------- function Corresponding_Children (Library_Unit : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Corresponding_Children (Library_Unit, The_Context.all); else return Nil_Compilation_Unit_List; end if; end Corresponding_Children; ------------------------------- -- Corresponding_Declaration -- ------------------------------- function Corresponding_Declaration (Library_Item : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Library_Item, "Corresponding_Declaration"); return Corresponding_Declaration (Library_Item.all); end Corresponding_Declaration; ------------------------------- -- Corresponding_Declaration -- ------------------------------- function Corresponding_Declaration (Library_Item : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Declaration (Library_Item, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Declaration; -------------------------------------- -- Corresponding_Parent_Declaration -- -------------------------------------- function Corresponding_Parent_Declaration (Library_Unit : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Library_Unit, "Corresponding_Parent_Declaration"); return Corresponding_Parent_Declaration (Library_Unit.all); end Corresponding_Parent_Declaration; -------------------------------------- -- Corresponding_Parent_Declaration -- -------------------------------------- function Corresponding_Parent_Declaration (Library_Unit : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Parent_Declaration (Library_Unit, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Parent_Declaration; --------------------------------------- -- Corresponding_Subunit_Parent_Body -- --------------------------------------- function Corresponding_Subunit_Parent_Body (Subunit : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Subunit, "Corresponding_Subunit_Parent_Body"); return Corresponding_Subunit_Parent_Body (Subunit.all); end Corresponding_Subunit_Parent_Body; --------------------------------------- -- Corresponding_Subunit_Parent_Body -- --------------------------------------- function Corresponding_Subunit_Parent_Body (Subunit : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Subunit_Parent_Body (Subunit, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Subunit_Parent_Body; ----------------- -- Debug_Image -- ----------------- function Debug_Image (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return "Debug_Image"; else return "[null]"; end if; end Debug_Image; ------------------------- -- Enclosing_Container -- ------------------------- function Enclosing_Container (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Ada_Environments.Containers.Container is use Asis.Ada_Environments.Containers; List : constant Container_List := Defining_Containers (Enclosing_Context (Compilation_Unit)); begin return List (List'First); end Enclosing_Container; ----------------------- -- Enclosing_Context -- ----------------------- function Enclosing_Context (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Context is begin Check_Nil_Unit (Compilation_Unit, "Enclosing_Context"); return Enclosing_Context (Compilation_Unit.all); end Enclosing_Context; ------------ -- Exists -- ------------ function Exists (Compilation_Unit : in Asis.Compilation_Unit) return Boolean is Kind : constant Asis.Unit_Kinds := Unit_Kind (Compilation_Unit); begin if Kind = Not_A_Unit or Kind = A_Nonexistent_Declaration or Kind = A_Nonexistent_Body then return False; else return True; end if; end Exists; ------------------- -- Has_Attribute -- ------------------- function Has_Attribute (Compilation_Unit : in Asis.Compilation_Unit; Attribute : in Wide_String) return Boolean is begin if Assigned (Compilation_Unit) then return False; -- return Has_Attribute (Compilation_Unit.all, Attribute); else return False; end if; end Has_Attribute; ---------------------- -- Is_Body_Required -- ---------------------- function Is_Body_Required (Compilation_Unit : in Asis.Compilation_Unit) return Boolean is begin if Assigned (Compilation_Unit) then return Is_Body_Required (Compilation_Unit.all); else return False; end if; end Is_Body_Required; -------------- -- Is_Equal -- -------------- function Is_Equal (Left : in Asis.Compilation_Unit; Right : in Asis.Compilation_Unit) return Boolean is begin return Unique_Name (Left) = Unique_Name (Right); end Is_Equal; ------------------ -- Is_Identical -- ------------------ function Is_Identical (Left : in Asis.Compilation_Unit; Right : in Asis.Compilation_Unit) return Boolean is type Comp_Unit_Node_Ptr is access all Compilation_Unit_Node'Class; begin return Comp_Unit_Node_Ptr (Left) = Comp_Unit_Node_Ptr (Right); end Is_Identical; ------------ -- Is_Nil -- ------------ function Is_Nil (Right : in Asis.Compilation_Unit) return Boolean is begin return not Assigned (Right); end Is_Nil; ------------ -- Is_Nil -- ------------ function Is_Nil (Right : in Asis.Compilation_Unit_List) return Boolean is begin return Right'Length = 0; end Is_Nil; ------------------------------ -- Library_Unit_Declaration -- ------------------------------ function Library_Unit_Declaration (Name : in Wide_String; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Library_Unit_Declaration (Name, The_Context.all); else return Nil_Compilation_Unit; end if; end Library_Unit_Declaration; ------------------------------- -- Library_Unit_Declarations -- ------------------------------- function Library_Unit_Declarations (The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Library_Unit_Declarations (The_Context.all); else return Nil_Compilation_Unit_List; end if; end Library_Unit_Declarations; ----------------- -- Object_Form -- ----------------- function Object_Form (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Object_Form (Compilation_Unit.all); else return ""; end if; end Object_Form; ----------------- -- Object_Name -- ----------------- function Object_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Object_Name (Compilation_Unit.all); else return ""; end if; end Object_Name; -------------- -- Subunits -- -------------- function Subunits (Parent_Body : in Asis.Compilation_Unit) return Asis.Compilation_Unit_List is begin Check_Nil_Unit (Parent_Body, "Subunits"); return Subunits (Parent_Body.all); end Subunits; -------------- -- Subunits -- -------------- function Subunits (Parent_Body : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Subunits (Parent_Body, The_Context.all); else return Nil_Compilation_Unit_List; end if; end Subunits; --------------- -- Text_Form -- --------------- function Text_Form (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Text_Form (Compilation_Unit.all); else return ""; end if; end Text_Form; --------------- -- Text_Name -- --------------- function Text_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Text_Name (Compilation_Unit.all); else return ""; end if; end Text_Name; ----------------- -- Unique_Name -- ----------------- function Unique_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Unique_Name (Compilation_Unit.all); else return ""; end if; end Unique_Name; ---------------- -- Unit_Class -- ---------------- function Unit_Class (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Unit_Classes is begin if Assigned (Compilation_Unit) then return Unit_Class (Compilation_Unit.all); else return Not_A_Class; end if; end Unit_Class; -------------------- -- Unit_Full_Name -- -------------------- function Unit_Full_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Unit_Full_Name (Compilation_Unit.all); else return ""; end if; end Unit_Full_Name; --------------- -- Unit_Kind -- --------------- function Unit_Kind (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Unit_Kinds is begin if Assigned (Compilation_Unit) then return Unit_Kind (Compilation_Unit.all); else return Not_A_Unit; end if; end Unit_Kind; ----------------- -- Unit_Origin -- ----------------- function Unit_Origin (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Unit_Origins is begin if Assigned (Compilation_Unit) then return Unit_Origin (Compilation_Unit.all); else return Not_An_Origin; end if; end Unit_Origin; end Asis.Compilation_Units; ------------------------------------------------------------------------------ -- Copyright (c) 2006-2013, <NAME> -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions are met: -- -- * Redistributions of source code must retain the above copyright notice, -- this list of conditions and the following disclaimer. -- * Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- * Neither the name of the <NAME>, IE nor the names of its -- contributors may be used to endorse or promote products derived from -- this software without specific prior written permission. -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" -- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE -- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE -- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE -- LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR -- CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF -- SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS -- INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN -- CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. ------------------------------------------------------------------------------
ga_ref_impl/test_left_contraction/src/lc_test.adb	rogermc2/GA_Ada	3	22841	<gh_stars>1-10 with Ada.Strings.Unbounded; with Ada.Text_IO; use Ada.Text_IO; with Blade; with Blade_Types; with GA_Maths; with GA_Utilities; with Metric; use Metric; with Multivectors; use Multivectors; with Multivector_Type; procedure LC_Test is use Blade_Types; BV_Names : Basis_Vector_Names; no_bv : Multivector := Basis_Vector (Blade_Types.C3_no); e1_bv : Multivector := Basis_Vector (Blade_Types.C3_e1); e2_bv : Multivector := Basis_Vector (Blade_Types.C3_e2); e3_bv : Multivector := Basis_Vector (Blade_Types.C3_e3); ni_bv : Multivector := Basis_Vector (Blade_Types.C3_ni); Met : Metric_Record := C3_Metric; MV_A1 : Multivector; MV_A2 : Multivector; MV_A : Multivector; MV_A_Inv : Multivector; NP_1 : constant Normalized_Point := New_Normalized_Point (1.0, 0.0, 0.0); NP_2 : constant Normalized_Point := New_Normalized_Point (0.0, 1.0, 0.0); NP_123 : constant Normalized_Point := New_Normalized_Point (-1.0, 2.0, -2.0); C1 : constant Normalized_Point := New_Normalized_Point (0.707, 0.707, 0.0); C2 : constant Normalized_Point := New_Normalized_Point (0.0, 1.0, 0.0); C3 : constant Normalized_Point := New_Normalized_Point (-0.356756, -0.881980, 0.0); Circle : constant Multivector := Outer_Product (C1, Outer_Product (C2, C3)); NP_1_OP : Multivector; NP_1_IP : Multivector; NP_1_LC : Multivector; NP_1_GP_Met : Multivector; NP_1_IP_Met : Multivector; NP_1_Inv : Multivector; NP_1_GP : Multivector; begin Multivectors.Set_Geometry (C3_Geometry); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("no")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("e1")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("e2")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("e3")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("ni")); MV_A1 := Left_Contraction (e2_bv, e3_bv, Met); MV_A2 := Left_Contraction (e2_bv, ni_bv, Met); -- MV_A := e1_bv + Outer_Product (Outer_Product (e2_bv, e3_bv), e1_bv); GA_Utilities.Print_Multivector_String ("LC_Test LC (e2, e3)", MV_A1, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("LC_Test LC (e2, ni)", MV_A2, Basis_Names_C3GA); -- GA_Utilities.Print_Multivector_String ("LC_Test MV_A", MV_A, Basis_Names_C3GA); MV_A1 := Left_Contraction (e3_bv, e2_bv, Met); GA_Utilities.Print_Multivector_String ("LC_Test LC (e3, e2)", MV_A1, Basis_Names_C3GA); New_Line; MV_A2 := Left_Contraction (ni_bv, e2_bv, Met); GA_Utilities.Print_Multivector_String ("LC_Test LC (ni, e2)", MV_A2, Basis_Names_C3GA); MV_A1 := Left_Contraction (e3_bv, Geometric_Product (e2_bv, e3_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test LC (e3, GP (e2, e3))", MV_A1, Basis_Names_C3GA); MV_A2 := Left_Contraction (ni_bv, Geometric_Product (e2_bv, ni_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test (ni, GP (e2, ni))", MV_A2, Basis_Names_C3GA); MV_A1 := Left_Contraction (e3_bv, Geometric_Product (e3_bv, e2_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test (e3, GP (e3, e2))", MV_A1, Basis_Names_C3GA); MV_A2 := Left_Contraction (ni_bv, Geometric_Product (ni_bv, e2_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test (ni, GP (ni, e2))", MV_A2, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("LC_Test Circle", Circle, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("LC_Tests NP_1", NP_1, Basis_Names_C3GA); NP_1_IP := Inner_Product (NP_1, NP_1, Met); NP_1_OP := Outer_Product (NP_1, NP_1); NP_1_GP := Geometric_Product (NP_1, NP_1, Met); GA_Utilities.Print_Multivector_String ("Inner Product (NP_1, NP_1)", NP_1_IP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Outer Product (NP_1, NP_1)", NP_1_OP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Geometric Product (NP_1, NP_1)", NP_1_GP, Basis_Names_C3GA); New_Line; NP_1_IP := Inner_Product (NP_123, NP_123, Met); NP_1_OP := Outer_Product (NP_123, NP_123); NP_1_GP := Geometric_Product (NP_123, NP_123, Met); GA_Utilities.Print_Multivector_String ("Inner Product (NP_123, NP_123)", NP_1_IP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Outer Product (NP_123, NP_123)", NP_1_OP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Geometric Product (NP_123, NP_123)", NP_1_GP, Basis_Names_C3GA); New_Line; NP_1_IP := Inner_Product (NP_1, NP_2, Met); NP_1_OP := Outer_Product (NP_1, NP_2); NP_1_GP := Geometric_Product (NP_1, NP_2, Met); GA_Utilities.Print_Multivector_String ("Inner Product (NP_1, NP_2)", NP_1_IP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Outer Product (NP_1, NP_2)", NP_1_OP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Geometric Product (NP_1, NP_2)", NP_1_GP, Basis_Names_C3GA); New_Line; NP_1_IP := Left_Contraction (NP_1, NP_2, Met); GA_Utilities.Print_Multivector_String ("Left Contraction (NP_1, NP_2)", NP_1_IP, Basis_Names_C3GA); NP_1_IP := Left_Contraction (NP_1, NP_123, Met); GA_Utilities.Print_Multivector_String ("Left Contraction (NP_1, NP_123)", NP_1_IP, Basis_Names_C3GA); exception when anError : others => Put_Line ("An exception occurred in LC_Test."); raise; end LC_Test;
school2/8B/3Alab.asm	momomeomo/School	0	81217	INCLUDE asmlib.inc .data .code main PROC cls endl mov eax, 171 call writeint endl mov eax, 32 call writehex endl mov eax, 20o call writeint endl main ENDP END main
tests/testapp.adb	skordal/databases	0	25110	-- Databases - A simple database library for Ada applications -- (c) <NAME> 2019 <<EMAIL>> -- Report bugs and issues on <https://github.com/skordal/databases/issues> -- vim:ts=3:sw=3:et:si:sta with Databases; with Databases.Sqlite; with Ada.Numerics.Discrete_Random; with Ada.Text_IO; procedure Testapp is use type Databases.Statement_Execution_Status; Database : Databases.Database_Access := null; package Sql is Create_Table : constant String := "CREATE TABLE test" & "(" & " id INTEGER PRIMARY KEY," & " item VARYING CHARACTER (127)," & " count INTEGER" & ");"; Insert_Data : constant String := "INSERT INTO test VALUES (:id, :name, :count);"; Select_Data : constant String := "SELECT * FROM test;"; end Sql; package Random_Number_Generators is new Ada.Numerics.Discrete_Random (Result_Subtype => Natural); RNG : Random_Number_Generators.Generator; begin Database := Databases.Sqlite.Open ("test.db", Create => True); -- Create database tables: declare Statement : Databases.Prepared_Statement_Access := Database.Prepare (Sql.Create_Table); Status : constant Databases.Statement_Execution_Status := Statement.Execute; begin if Status /= Databases.Success then Ada.Text_IO.Put_Line ("Error: failed to create database tables!"); end if; Databases.Free (Statement); end; -- Insert database values: declare Insert_Statement : Databases.Prepared_Statement_Access := Database.Prepare (Sql.Insert_Data); Status : Databases.Statement_Execution_Status; begin for Counter in 1..10 loop Insert_Statement.Clear; Insert_Statement.Bind (1, Databases.Sql_Integer (Counter)); Insert_Statement.Bind (2, "Item number " & Integer'Image (Counter)); Insert_Statement.Bind (3, Databases.Sql_Integer (Random_Number_Generators.Random (RNG) mod 1000)); Status := Insert_Statement.Execute; if Status /= Databases.Success then Ada.Text_IO.Put_Line ("Warning: failed to insert item number " & Integer'Image (Counter) & " into the database"); end if; Insert_Statement.Reset; end loop; Databases.Free (Insert_Statement); end; -- Print database values: declare Select_Statement : Databases.Prepared_Statement_Access := Database.Prepare (Sql.Select_Data); Result : Databases.Statement_Result_Access := Select_Statement.Execute; begin Ada.Text_IO.Put_Line ("Got " & Integer'Image (Result.Get_Returned_Row_Count) & " results"); if Result.Get_Returned_Row_Count > 0 then for I in 1 .. Result.Get_Returned_Row_Count loop Ada.Text_IO.Put_Line ("ID" & Databases.Sql_Integer'Image (Result.Get_Row (I).Get_Column (1).Get_Value)); Ada.Text_IO.Put_Line (" Item name: " & Result.Get_Row (I).Get_Column (2).Get_Value); Ada.Text_IO.Put_Line (" Item count: " & Databases.Sql_Integer'Image (Result.Get_Row (I).Get_Column (3).Get_Value)); end loop; end if; Databases.Free (Result); Databases.Free (Select_Statement); end; Database.Close; Databases.Free (Database); exception when Databases.File_Error => Ada.Text_IO.Put_Line ("Error: Could not open the test database file!"); when Databases.IO_Error => Ada.Text_IO.Put_Line ("Error: An I/O error occurred!"); when Databases.Unspecified_Error => Ada.Text_IO.Put_Line ("Error: An unspecified error occurred!"); end Testapp;
Transynther/x86/_processed/NONE/_zr_/i7-8650U_0xd2.log_111_1792.asm	ljhsiun2/medusa	9	23958	.global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r12 push %rcx push %rdi push %rsi lea addresses_WT_ht+0x175c7, %rsi nop nop nop nop nop sub %rcx, %rcx movb (%rsi), %r11b nop nop add $51407, %rdi lea addresses_WT_ht+0x169fb, %rsi lea addresses_normal_ht+0x122cb, %rdi nop nop sub %r12, %r12 mov $23, %rcx rep movsb nop nop nop xor %rsi, %rsi lea addresses_WC_ht+0x759e, %r10 nop nop nop dec %r11 mov (%r10), %rcx nop nop nop nop sub $14267, %rcx pop %rsi pop %rdi pop %rcx pop %r12 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r9 push %rax push %rcx push %rdi push %rsi // Store lea addresses_normal+0x1f7db, %r9 nop nop cmp %rcx, %rcx mov $0x5152535455565758, %r11 movq %r11, %xmm4 movntdq %xmm4, (%r9) // Exception!!! nop nop mov (0), %r14 nop nop xor $20446, %r11 // Store lea addresses_A+0x1b5fb, %rdi nop nop nop nop nop xor %rax, %rax movw $0x5152, (%rdi) nop nop nop nop nop inc %r14 // Faulty Load lea addresses_A+0x86db, %rax nop nop nop and %rdi, %rdi movb (%rax), %cl lea oracles, %rsi and $0xff, %rcx shlq $12, %rcx mov (%rsi,%rcx,1), %rcx pop %rsi pop %rdi pop %rcx pop %rax pop %r9 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WT_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 4, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 3, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'00': 111} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
Kernel/src/video.asm	royprocell/GoldOS16	4	242400	;============================== ;GoldElfOS: Mk II ; ;<NAME> ;21 April 2015 ; ;Updated 7/14/2015 for GoldOS Mk IV ; ;Video System Calls ;Video.asm ; ;Features: ;Video: ;os_set_video_mode (done!) ;os_move_cursor (done!) ;os_get_cursor (done!) ;os_set_cursor_visible (done!) ;os_set_cursor_invisible (done!) ;os_clear_screen (done!) ;os_set_background (done!) ;os_print_string (done!) ;os_print_char (done!) ;os_print_new_line (done!) ;os_draw_pixel (done!) ;os_get_pixel (done!) ;os_draw_border (done!) ;os_draw_bar (done!) ;os_get_video_mode (done!) ;os_draw_box (done!) ;os_set_cursor_full (done!) ;os_set_cursor_bar (done!) ; ;os_disable_blinking (done!) ;os_enable_blinking (done!) ; ;os_set_vga_font ;os_draw_icon (done!) ; ;os_draw_box_gfx (done!) ;os_clear_screen_gfx (done!) ; ;os_draw_rect_gfx (done!) ;os_draw_triangle_gfx (done!) ;os_draw_line_gfx (done!) ;============================== ;================== ;os_set_video_mode ;Sets the current video mode ;IN: AL=video mode ;OUT: Nothing ;================== os_set_video_mode: pusha mov ah, 0 int 10h popa ret ;================== ;os_move_cursor ;Sets the location of the cursor ;IN: DH: row, DL: column ;OUT: Nothing ;================== os_move_cursor: pusha mov ah, 02h mov bh, 0 int 10h popa ret ;================== ;os_get_cursor ;Gets the cursor position ;IN: Nothing ;OUT: DH: row, DL: column ;================== os_get_cursor: pusha mov ah, 03h mov bh, 0 int 10h popa ret ;================== ;os_set_cursor_visible ;Sets the cursor type to visible ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_visible: pusha mov ch, 6 mov cl, 7 mov ah, 1 mov al, 3 int 10h popa ret ;================== ;os_set_cursor_invisible ;Sets the cursor type to invisible ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_invisible: pusha mov ch, 32 mov ah, 1 mov al, 3 int 10h popa ret ;================== ;os_clear_screen ;Clears the screen of text ;IN: BL: color IGNORE:(BH: background color) ;OUT: Nothing ;================== os_clear_screen: pusha ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl;h .interrupt: mov dh, 0 mov cx, 25 .loop: call os_draw_border inc dh loop .loop ;mov ah, 06h ;mov ch, 0 ;mov cl, 0 ;mov dh, 24 ;mov dl, 79 ;int 10h popa ret ;================== ;os_set_background ;Sets the background color ;IN: BL: background color ;OUT: Nothing ;================== os_set_background: pusha ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl .interrupt: mov ah, 0Bh mov bh, 0 int 10h popa ret ;================== ;os_print_string ;Prints strings ;IN: SI: string address, DS: string segment ;OUT: Nothing. Resets DS to 2000h. ;================== os_print_string: pusha ;mov ds, ax mov ah, 0Eh .repeat: lodsb cmp al, 0 je .done int 10h jmp .repeat .done: mov ax, 2000h mov ds, ax popa ret ;================== ;os_print_char ;Prints a single char ;IN: AL: desired char ;OUT: Nothing ;================== os_print_char: pusha mov ah, 0Eh mov bh, 0 int 10h popa ret ;================== ;os_print_new_line ;Prints a new line char and moves the cursor down. ;IN: Nothing ;OUT: Nothing ;================== os_print_new_line: pusha mov ah, 0Eh mov al, 13 int 10h mov al, 10 int 10h popa ret ;================== ;os_draw_pixel ;For use in graphics modes only! ;IN: AX: pixel row, BX: pixel column, CL: pixel color ;OUT: Nothing ;================== os_draw_pixel: pusha mov dx, 0xA000 mov es, dx mov di, 0 xchg ax, bx mov dx, 320 mul dx add di, ax add di, bx mov byte [es:di], cl mov ax, 2000h mov es, ax popa ret ;================== ;os_get_pixel ;Gets pixel data at a certain x and y. For use in graphics modes only! ;IN: AX: pixel row, BX: pixel column ;OUT: CL: pixel color ;================== os_get_pixel: pusha mov dx, 0xA000 mov es, dx mov di, 0 xchg ax, bx mov dx, 320 mul dx add di, ax add di, bx mov cl, byte [es:di] mov byte [.tmp], cl mov ax, 2000h mov es, ax popa mov cl, byte [.tmp] ret .tmp db 0 ;================== ;os_draw_border ;Draws a border at the cursor's row ;IN: BL: color, DH: cursor's row ;OUT: Nothing ;================== os_draw_border: pusha mov dl, 0 call os_move_cursor ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl .interrupt: mov ah, 09h mov al, ' ' mov bh, 0 mov cx, 80 int 10h popa ret ;================== ;os_draw_bar ;Draws a bar at the cursor's row and column ;IN: BL: color, DH: cursor's row, DL: cursor's column, CX: number of columns ;OUT: Nothing ;================== os_draw_bar: pusha mov word [.tmp], cx call os_move_cursor mov cx, word [.tmp] ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl .interrupt: mov ah, 09h mov al, ' ' mov bh, 0 int 10h popa ret .tmp dw 0 ;================== ;os_get_video_mode ;Gets the current video mode. ;IN: Nothing ;OUT: AL: video mode, AH: character columns, BH: active page ;================== os_get_video_mode: mov ah, 0Fh int 10h ret ;================== ;os_draw_box ;Draws a box ;IN: BL: color, DH: cursor's row, DL: cursor's column, CX: number of columns, AX: number of rows ;OUT: Nothing ;================== os_draw_box: mov word [.tmp], ax sub dh, 1 .loop: cmp word [.tmp], 0 je .done inc dh call os_draw_bar dec word [.tmp] jmp .loop .done: ret .tmp dw 0 ;================== ;os_set_cursor_full ;Sets the cursor to a full box ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_full: pusha mov cx, 0007h call os_get_video_mode mov ah, 1 int 10h popa ret ;================== ;os_set_cursor_bar ;Sets the cursor to the default bar ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_bar: pusha mov cx, 0607h call os_get_video_mode mov ah, 1 int 10h popa ret ;================== ;os_draw_box_gfx ;Draws a box in graphics mode. ;IN: BX: starting column, CX: starting row, DX: number of columns, SI: number of rows, AL: color ;OUT: Nothing ;================== os_draw_box_gfx: pusha mov byte [.color], al mov word [.x_coord], bx mov word [.y_coord], cx mov word [.dx_coord], dx mov word [.dy_coord], si mov ax, 0xA000 mov es, ax mov ax, word [.y_coord] mov bx, 320 mul bx add ax, word [.x_coord] mov word [.first_pixel], ax mov di, ax mov cx, word [.dx_coord] mov al, byte [.color] .x_loop: cmp cx, 0 je .post_x_loop ;cmp di, 0x7FFF ;jge .done mov byte [es:di], al inc di dec cx jmp .x_loop .post_x_loop: dec word [.dy_coord] cmp word [.dy_coord], 0 je .done add word [.first_pixel], 320 mov di, word [.first_pixel] mov cx, word [.dx_coord] jmp .x_loop .done: mov ax, 2000h mov es, ax popa ret .color db 0 .x_coord dw 0 .y_coord dw 0 .dx_coord dw 0 .dy_coord dw 0 .first_pixel dw 0 ;================== ;os_clear_screen_gfx ;Clears the screen in graphics mode 13h. ;IN: BL: color ;OUT: Nothing ;================== os_clear_screen_gfx: pusha mov cx, 64000 mov ax, 0xA000 mov es, ax mov di, 0 .loop: cmp cx, 0 je .done mov byte [es:di], bl inc di dec cx jmp .loop .done: mov ax, 2000h mov ds, ax popa ret ;================== ;os_draw_icon ;Draws an icon at the specified coordinates ;IN: AX: x, BX: y, GS: icon segment, SI: icon address ;OUT: Nothing ;================== os_draw_icon: mov word [.ax], ax mov al, byte [gs:si] mov byte [.counter], al mov byte [.counter_backup], al inc si mov al, byte [gs:si] dec al mov byte [.post_counter], al inc si mov ax, word [.ax] dec ax .loop: cmp byte [.counter], 0 je .post_loop mov cl, byte [gs:si] inc ax call os_draw_pixel inc si dec byte [.counter] jmp .loop .post_loop: cmp byte [.post_counter], 0 je .done inc bx dec byte [.post_counter] mov al, byte [.counter_backup] mov byte [.counter], al mov ax, word [.ax] dec ax jmp .loop .done: ret .counter db 0 .counter_backup db 0 .post_counter db 0 .ax dw 0 ;================== ;os_disable_blinking ;Disables blinking text. ;IN: Nothing ;OUT: Nothing ;================== os_disable_blinking: pusha mov ax, 1003h mov bx, 0 int 10h popa ret ;================== ;os_enable_blinking ;Enables blinking text. ;IN: Nothing ;OUT: Nothing ;================== os_enable_blinking: pusha mov ax, 1003h mov bl, 1 mov bh, 0 int 10h popa ret ;================== ;os_draw_line_gfx ;Draws a line in graphics mode. ;IN: AX: x1, BX: y1, SI: x2, DX: y2, CL: color ;OUT: Nothing ;================== os_draw_line_gfx: mov word [.x1], ax mov word [.y1], bx mov word [.x2], si mov word [.y2], dx mov byte [.color], cl ;calculate dx and dy sub si, ax mov word [.dx], si sub dx, bx mov word [.dy], dx ;calculate b mov ax, word [.dy] mov bx, [.x1] imul bx mov bx, word [.dx] ;before we div by bx, make sure it isn't zero! cmp bx, 0 je .zero_draw_loop idiv bx mov word [.m1], ax mov ax, word [.y1] mov bx, word [.m1] sub ax, bx mov word [.b], ax ;if dy is bigger than dx, ;it is better to draw with (y-b)/m = x mov dx, word [.dy] mov si, word [.dx] cmp dx, 0 jl .dx_neg cmp si, 0 jl .si_neg jmp .neg_cont .dx_neg: neg dx cmp si, 0 jl .si_neg jmp .neg_cont .si_neg: neg si jmp .neg_cont .neg_cont: cmp dx, si jge .x_calc_choose mov cx, word [.dx] cmp word [.dx], 0 jl .backward_draw_loop .forward_draw_loop: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.x1] call .calc_y loop .forward_draw_loop jmp .done .backward_draw_loop: neg cx .backward_draw_loop_run: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.x1] call .calc_y loop .backward_draw_loop_run jmp .done .zero_draw_loop: mov cx, word [.dy] mov ax, word [.x1] cmp word [.dy], 0 jl .zero_draw_loop_run_neg_pre .zero_draw_loop_run_pos: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.y1] loop .zero_draw_loop_run_pos jmp .done .zero_draw_loop_run_neg_pre: neg cx .zero_draw_loop_run_neg: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.y1] loop .zero_draw_loop_run_neg jmp .done .done: ret .x_calc_choose: mov bx, word [.dy] ;before we div by bx, make sure it isn't zero! cmp bx, 0 je .zero_draw_loop_x mov cx, word [.dy] cmp word [.dy], 0 jl .backward_draw_loop_x .forward_draw_loop_x: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.y1] call .calc_x loop .forward_draw_loop_x jmp .done .zero_draw_loop_x: mov cx, word [.dx] mov bx, word [.y1] cmp word [.dx], 0 jl .zero_draw_loop_run_neg_x_pre .zero_draw_loop_run_pos_x: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.y1] loop .zero_draw_loop_run_pos_x jmp .done .zero_draw_loop_run_neg_x_pre: neg cx .zero_draw_loop_run_neg_x: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.y1] loop .zero_draw_loop_run_neg_x jmp .done .backward_draw_loop_x: neg cx .backward_draw_loop_run_x: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.y1] call .calc_x loop .backward_draw_loop_run_x jmp .done .calc_y: mov ax, word [.dy] mov bx, [.x1] imul bx mov bx, word [.dx] idiv bx add ax, word [.b] mov word [.y1], ax ret .calc_x: mov ax, word [.y1] sub ax, word [.b] mov bx, word [.dx] imul bx mov bx, word [.dy] idiv bx mov word [.x1], ax ret .cx_tmp dw 0 .m1 dw 0 .b dw 0 .d dw 0 .dx dw 0 .dy dw 0 .x1 dw 0 .y1 dw 0 .x2 dw 0 .y2 dw 0 .color db 0 ;================== ;os_draw_triangle_gfx ;Draws a triangle in graphics mode. ;Data format: ;2 bytes: x1 ;2 bytes: y1 ;2 bytes: x2 ;2 bytes: y2 ;2 bytes: x3 ;2 bytes: y3 ;TOTAL: 12 byte packet ;IN: AX: segment to point data, BX: location of point data, CL: color ;OUT: Nothing ;================== os_draw_triangle_gfx: pusha mov es, ax mov si, bx mov byte [.cl], cl mov ax, word [es:si] mov word [.x1], ax inc si inc si mov ax, word [es:si] mov word [.y1], ax inc si inc si mov ax, word [es:si] mov word [.x2], ax inc si inc si mov ax, word [es:si] mov word [.y2], ax inc si inc si mov ax, word [es:si] mov word [.x3], ax inc si inc si mov ax, word [es:si] mov word [.y3], ax mov ax, word [.x1] mov bx, word [.y1] mov si, word [.x2] mov dx, word [.y2] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x2] mov bx, word [.y2] mov si, word [.x3] mov dx, word [.y3] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x3] mov bx, word [.y3] mov si, word [.x1] mov dx, word [.y1] mov cl, byte [.cl] call os_draw_line_gfx mov ax, 2000h mov es, ax popa ret .cl db 0 .x1 dw 0 .y1 dw 0 .x2 dw 0 .y2 dw 0 .x3 dw 0 .y3 dw 0 ;================== ;os_draw_rect_gfx ;Draws a rectangle in graphics mode. ;Data format: ;2 bytes: x1 ;2 bytes: y1 ;2 bytes: x2 ;2 bytes: y2 ;2 bytes: x3 ;2 bytes: y3 ;2 bytes: x4 ;2 bytes: y4 ;TOTAL: 16 byte packet ;IN: AX: segment to point data, BX: location of point data, CL: color ;OUT: Nothing ;================== os_draw_rect_gfx: pusha mov es, ax mov si, bx mov byte [.cl], cl mov ax, word [es:si] mov word [.x1], ax inc si inc si mov ax, word [es:si] mov word [.y1], ax inc si inc si mov ax, word [es:si] mov word [.x2], ax inc si inc si mov ax, word [es:si] mov word [.y2], ax inc si inc si mov ax, word [es:si] mov word [.x3], ax inc si inc si mov ax, word [es:si] mov word [.y3], ax inc si inc si mov ax, word [es:si] mov word [.x4], ax inc si inc si mov ax, word [es:si] mov word [.y4], ax mov ax, word [.x1] mov bx, word [.y1] mov si, word [.x2] mov dx, word [.y2] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x2] mov bx, word [.y2] mov si, word [.x3] mov dx, word [.y3] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x3] mov bx, word [.y3] mov si, word [.x1] mov dx, word [.y1] mov cl, byte [.cl] call os_draw_line_gfx mov ax, 2000h mov es, ax popa ret .cl db 0 .x1 dw 0 .y1 dw 0 .x2 dw 0 .y2 dw 0 .x3 dw 0 .y3 dw 0 .x4 dw 0 .y4 dw 0
agda-stdlib-0.9/src/Relation/Nullary/Core.agda	qwe2/try-agda	1	17402	<reponame>qwe2/try-agda<filename>agda-stdlib-0.9/src/Relation/Nullary/Core.agda ------------------------------------------------------------------------ -- The Agda standard library -- -- Nullary relations (some core definitions) ------------------------------------------------------------------------ -- The definitions in this file are reexported by Relation.Nullary. module Relation.Nullary.Core where open import Data.Empty open import Level -- Negation. infix 3 ¬_ ¬_ : ∀ {ℓ} → Set ℓ → Set ℓ ¬ P = P → ⊥ -- Decidable relations. data Dec {p} (P : Set p) : Set p where yes : ( p : P) → Dec P no : (¬p : ¬ P) → Dec P
programs/oeis/131/A131649.asm	jmorken/loda	1	104179	; A131649: Number of distinct improper 2-coloring of edges for odd-order cyclic graphs. ; 4,8,16,32,54,82,116,156,202,254,312,376,446,522,604,692,786,886,992,1104,1222,1346,1476,1612,1754,1902,2056,2216,2382,2554,2732,2916,3106,3302,3504,3712,3926,4146,4372,4604,4842,5086,5336,5592,5854 mul $0,3 mov $2,$0 pow $0,2 sub $1,$2 add $1,$0 add $1,4 mov $3,$0 lpb $3 div $1,2 add $1,$2 mod $3,12 lpe sub $1,4 div $1,3 mul $1,2 add $1,4
oeis/111/A111575.asm	neoneye/loda-programs	11	176544	; A111575: Powers of 3 repeated four times. ; 1,1,1,1,3,3,3,3,9,9,9,9,27,27,27,27,81,81,81,81,243,243,243,243,729,729,729,729,2187,2187,2187,2187,6561,6561,6561,6561,19683,19683,19683,19683,59049,59049,59049,59049,177147,177147,177147,177147,531441,531441,531441,531441,1594323,1594323,1594323,1594323,4782969,4782969,4782969,4782969,14348907,14348907,14348907,14348907,43046721,43046721,43046721,43046721,129140163,129140163,129140163,129140163,387420489,387420489,387420489,387420489,1162261467,1162261467,1162261467,1162261467,3486784401 div $0,4 mov $1,3 pow $1,$0 mov $0,$1
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/support/lencheck.ada	best08618/asylo	7	22415	-- THIS GENERIC PROCEDURE IS INTENDED FOR USE IN CONJUNCTION WITH THE -- ACVC CHAPTER 13 C TESTS. IT IS INSTANTIATED FOR A TYPE WHOSE -- REPRESENTATION IS TO BE CHECKED, AND THEN THE PROCEDURE REP_CHECK -- IS CALLED WITH TWO ARGUMENTS, THE FIRST IS A VALUE OF THE TYPE TO -- BE CHECKED, AND THE SECOND IS A STRING DESCRIBING OR NAMING THE -- TYPE (FOR USE IN A CALL TO FAILED IF THE REPRESENTATION CHECK FAILS) -- THE CHECK IS TO CONVERT THE VALUE TO A PACKED BOOLEAN ARRAY WITH A -- LENGTH CORRESPONDING TO THE 'SIZE OF THE TYPE, AND THEN CONVERT IT -- BACK AGAIN AND CHECK THAT THE SAME VALUE IS OBTAINED. THE -- CONVERSIONS ARE PERFORMED USING APPROPRIATE INSTANTIATIONS OF -- UNCHECKED_CONVERSION. -- AUTHOR: <NAME>, UNCOPYRIGHTED, PUBLIC DOMAIN USE -- AUTHORIZED -- DHH 03/27/89 CHANGED REP_CHECK TO LENGTH_CHECK BY ADDING A THIRD -- PARAMETER TO GIVE LENGTH EXPECTED AND BY DOING A BIT TO -- BIT COPY OF THE UNCHECKED CONVERSION BOOLEAN ARRAY SO -- A STRAIGHT COMPARE OF THE TWO VALUES CAN BE DONE. GENERIC TYPE TEST_TYPE IS PRIVATE; PROCEDURE LENGTH_CHECK (TEST_VALUE : TEST_TYPE; EXPECTED_LENGTH : INTEGER; TYPE_ID : STRING); WITH UNCHECKED_CONVERSION; WITH REPORT; USE REPORT; PROCEDURE LENGTH_CHECK (TEST_VALUE : TEST_TYPE; EXPECTED_LENGTH : INTEGER; TYPE_ID : STRING) IS LEN : CONSTANT INTEGER := EXPECTED_LENGTH; TYPE BIT_ARRAY_TYPE IS ARRAY (1 .. LEN) OF BOOLEAN; PRAGMA PACK (BIT_ARRAY_TYPE); TYPE NEW_BIT_ARRAY_TYPE IS ARRAY (1 .. 3) OF BIT_ARRAY_TYPE; FUNCTION TO_BITS IS NEW UNCHECKED_CONVERSION (TEST_TYPE, BIT_ARRAY_TYPE); FUNCTION FROM_BITS IS NEW UNCHECKED_CONVERSION (BIT_ARRAY_TYPE, TEST_TYPE); BIT_ARRAY : BIT_ARRAY_TYPE := (OTHERS => FALSE); BIT_ARRAY_NEW : NEW_BIT_ARRAY_TYPE := (OTHERS => (OTHERS => FALSE)); BEGIN BIT_ARRAY := TO_BITS (TEST_VALUE); FOR I IN 1 .. LEN LOOP BIT_ARRAY_NEW(IDENT_INT(1)) (IDENT_INT(I)) := BIT_ARRAY(I); END LOOP; IF TEST_VALUE /= FROM_BITS (BIT_ARRAY_NEW(1)) THEN FAILED ("CHECK ON REPRESENTATION FOR " & TYPE_ID & " FAILED."); END IF; END LENGTH_CHECK;
gcc-gcc-7_3_0-release/gcc/testsuite/gnat.dg/self_aggregate_with_pointer.adb	best08618/asylo	7	14164	-- { dg-do run } procedure self_aggregate_with_pointer is type Arr is array (Natural range <>) of Integer; type Rec (N : Natural) is record A : Arr (1..N); end record; type Acc_Rec is access all Rec; type SRec is record A : Acc_Rec; I1, I2, I3, I4, I5, I6, I7: Integer; end record; R : aliased Rec (1); S : Srec := (A => R'Access, others => 0); begin S := (A => S.A, others => 0); if S.A /= R'Access then raise Program_Error; end if; end;
Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48.log_21829_2879.asm	ljhsiun2/medusa	9	29490	.global s_prepare_buffers s_prepare_buffers: ret .global s_faulty_load s_faulty_load: push %r14 push %r9 push %rax push %rbp push %rbx push %rdi push %rdx // Store mov $0xe74, %r14 add %rbx, %rbx mov $0x5152535455565758, %rdi movq %rdi, %xmm1 vmovups %ymm1, (%r14) nop nop add %r9, %r9 // Faulty Load lea addresses_RW+0x7734, %r14 nop nop nop nop add $16290, %rbp mov (%r14), %r9d lea oracles, %rdi and $0xff, %r9 shlq $12, %r9 mov (%rdi,%r9,1), %r9 pop %rdx pop %rdi pop %rbx pop %rbp pop %rax pop %r9 pop %r14 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'congruent': 6, 'size': 32, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 4, 'same': True, 'NT': False}} <gen_prepare_buffer> {'32': 21829} 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 */
compiler/out/production/src/com/company/Mx_Lex.g4	TimerChen/MxCompiler	2	4189	lexer grammar Mx_Lex; Type : 'void' \| 'int' \| 'string' \| 'bool' ; Auto : 'auto'; Break : 'break'; Case : 'case'; Char : 'char'; Constant : 'const'; Continue : 'continue'; Default : 'default'; Do : 'do'; Double : 'double'; Else : 'else'; Enum : 'enum'; Extern : 'extern'; Float : 'float'; For : 'for'; Goto : 'goto'; If : 'if'; Inline : 'inline'; Int : 'int'; Long : 'long'; Register : 'register'; Restrict : 'restrict'; Return : 'return'; Short : 'short'; Signed : 'signed'; Sizeof : 'sizeof'; Static : 'static'; Struct : 'struct'; Switch : 'switch'; Typedef : 'typedef'; Union : 'union'; Unsigned : 'unsigned'; Void : 'void'; Volatile : 'volatile'; While : 'while'; Alignas : '_Alignas'; Alignof : '_Alignof'; Atomic : '_Atomic'; Bool : '_Bool'; Complex : '_Complex'; Generic : '_Generic'; Imaginary : '_Imaginary'; Noreturn : '_Noreturn'; StaticAssert : '_Static_assert'; ThreadLocal : '_Thread_local'; LeftParen : '('; RightParen : ')'; LeftBracket : '['; RightBracket : ']'; LeftBrace : '{'; RightBrace : '}'; Less : '<'; LessEqual : '<='; Greater : '>'; GreaterEqual : '>='; LeftShift : '<<'; RightShift : '>>'; Plus : '+'; PlusPlus : '++'; Minus : '-'; MinusMinus : '--'; Star : ''; Div : '/'; Mod : '%'; And : '&'; Or : '\|'; AndAnd : '&&'; OrOr : '\|\|'; Caret : '^'; Not : '!'; Tilde : '~'; Question : '?'; Colon : ':'; Semi : ';'; Comma : ','; Assign : '='; // '=' \| '/=' \| '%=' \| '+=' \| '-=' \| '<<=' \| '>>=' \| '&=' \| '^=' \| '\|=' StarAssign : '='; DivAssign : '/='; ModAssign : '%='; PlusAssign : '+='; MinusAssign : '-='; LeftShiftAssign : '<<='; RightShiftAssign : '>>='; AndAssign : '&='; XorAssign : '^='; OrAssign : '\|='; Equal : '=='; NotEqual : '!='; Arrow : '->'; Dot : '.'; Ellipsis : '...'; Identifier: Nondigit (Digit\|Nondigit) ; Const : IntConst ; fragment IntConst : Sign? NonzeroDigit Digit* ; fragment Nondigit : [a-zA-Z_] ; fragment Digit : [0-9] ; fragment NonzeroDigit : [1-9] ; fragment Sign : '+' \| '-' ; fragment SChar : ~["\\\r\n] \| EscapeSequence \| '\\\n' // Added line \| '\\\r\n' // Added line ; Whitespace : [ \t]+ -> skip ; Newline : ( '\r' '\n'? \| '\n' ) -> skip ; BlockComment : '/' .? '/' -> skip ; LineComment : '//' ~[\r\n] -> skip ;
src/compiling/ANTLR/grammar/SpecifyBlockTerminals.g4	jecassis/VSCode-SystemVerilog	75	5082	<reponame>jecassis/VSCode-SystemVerilog<filename>src/compiling/ANTLR/grammar/SpecifyBlockTerminals.g4 grammar SpecifyBlockTerminals; import SpecifyPathDelays; specify_input_terminal_descriptor : input_identifier ( '[' constant_range_expression ']' )? ; specify_output_terminal_descriptor : output_identifier ( '[' constant_range_expression ']' )? ; input_identifier : input_port_identifier \| inout_port_identifier \| interface_identifier '.' port_identifier ; output_identifier : output_port_identifier \| inout_port_identifier \| interface_identifier '.' port_identifier ;
programs/oeis/275/A275015.asm	jmorken/loda	1	9365	<gh_stars>1-10 ; A275015: Number of neighbors of each new term in an isosceles triangle read by rows. ; 0,1,2,1,3,2,1,3,3,2,1,3,3,3,2,1,3,3,3,3,2,1,3,3,3,3,3,2,1,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,3,3,3,2 lpb $0 add $0,4 mov $1,3 trn $2,2 add $2,3 trn $0,$2 sub $1,$0 trn $0,2 lpe
oeis/208/A208633.asm	neoneye/loda-programs	11	162353	; A208633: Number of n X 4 0..1 arrays with new values 0..1 introduced in row major order and no element equal to more than one of its immediate leftward or upward or right-upward antidiagonal neighbors. ; Submitted by <NAME> ; 8,23,71,225,722,2331,7548,24476,79423,257807,836973,2717446,8823199,28648292,93019712,302032007,980690055,3184277945,10339281402,33571429395,109005736508,353939387572,1149233948207,3731539152111,12116231458885,39341156329966,127739932048631,414768953722244,1346746332649400,4372857872962167,14198580322636679,46102500708059793,149693879477441058,486052973461483211,1578204091150829500,5124396494462689292,16638810898869952671,54025879618724457103,175420929194865258781,569588179160849503958 add $0,1 mov $3,1 lpb $0 sub $0,1 add $1,$4 add $4,$3 sub $4,$2 add $2,$3 add $3,4 add $4,2 add $4,$1 add $4,1 add $3,$4 lpe mov $0,$4 add $0,4
ex8.asm	robjpar/nasm-sasm	0	100754	<reponame>robjpar/nasm-sasm ; nasm -f elf32 ex8.asm -o ex8.o ; gcc -m32 ex8.o -o ex8.out ; ./ex8.out ; echo $? global main section .text main: mov ebp, esp; for correct debugging call func ; jump to func mov eax, 1 ; exit call mov ebx, 0 ; exit status int 0x80 ; system call func: push ebp ; save ebp on the stack mov ebp, esp ; save esp (stack pointer) in ebp sub esp, 2 ; esp (stack pointer) -= 2 mov [esp], byte 'H' ; 'H' mov [esp+1], byte 'i'; "Hi" mov eax, 4 ; write call mov ebx, 1 ; stdout mov ecx, esp ; ['H'] mov edx, 2 ; 2 bytes int 0x80 ; system call mov esp, ebp ; restore esp (stack pointer) from ebp pop ebp ; restore ebp from the stack ret ; return to the next line after the call
oeis/014/A014897.asm	neoneye/loda-programs	11	27961	<filename>oeis/014/A014897.asm ; A014897: a(1)=1, a(n) = 14*a(n-1) + n. ; 1,16,227,3182,44553,623748,8732479,122254714,1711566005,23961924080,335466937131,4696537119846,65751519677857,920521275490012,12887297856860183,180422169996042578,2525910379944596109,35362745319224345544,495078434469140837635,6931098082567971726910,97035373155951604176761,1358495224183322458474676,19018933138566514418645487,266265063939931201861036842,3727710895159036826054515813,52187952532226515564763221408,730631335451171217906685099739,10228838696316397050693591396374 add $0,1 lpb $0 sub $0,1 add $2,1 mul $2,14 add $1,$2 lpe div $1,14 mov $0,$1
projects/batfish/src/main/antlr4/org/batfish/grammar/flatjuniper/FlatJuniper_switch_options.g4	jeffkala/batfish	0	4446	parser grammar FlatJuniper_switch_options; import FlatJuniper_common; options { tokenVocab = FlatJuniperLexer; } s_switch_options : SWITCH_OPTIONS ( so_vtep_source_interface \| so_route_distinguisher \| so_vrf_target \| so_vrf_export \| so_vrf_import ) ; so_vtep_source_interface : VTEP_SOURCE_INTERFACE iface = interface_id ; so_route_distinguisher : ROUTE_DISTINGUISHER route_distinguisher ; so_vrf_target : VRF_TARGET null_filler ; so_vrf_export : VRF_EXPORT null_filler ; so_vrf_import : VRF_IMPORT null_filler ;
x265/source/common/x86/h-ipfilter8.asm	xu5343/ffmpegtoolkit_CentOS7	14	86519	;***************************************************************************** ;* Copyright (C) 2013-2017 MulticoreWare, Inc ;* ;* Authors: <NAME> <<EMAIL>> ;* <NAME> <<EMAIL>> ;* <NAME> <<EMAIL>> ;* ;* This program is free software; you can redistribute it and/or modify ;* it under the terms of the GNU General Public License as published by ;* the Free Software Foundation; either version 2 of the License, or ;* (at your option) any later version. ;* ;* This program is distributed in the hope that it will be useful, ;* but WITHOUT ANY WARRANTY; without even the implied warranty of ;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;* GNU General Public License for more details. ;* ;* You should have received a copy of the GNU General Public License ;* along with this program; if not, write to the Free Software ;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. ;* ;* This program is also available under a commercial proprietary license. ;* For more information, contact us at license @ x265.com. ;****************************************************************************/ %include "x86inc.asm" %include "x86util.asm" SECTION_RODATA 32 const h_tabw_LumaCoeff, dw 0, 0, 0, 64, 0, 0, 0, 0 dw -1, 4, -10, 58, 17, -5, 1, 0 dw -1, 4, -11, 40, 40, -11, 4, -1 dw 0, 1, -5, 17, 58, -10, 4, -1 const h_tabw_ChromaCoeff, dw 0, 64, 0, 0 dw -2, 58, 10, -2 dw -4, 54, 16, -2 dw -6, 46, 28, -4 dw -4, 36, 36, -4 dw -4, 28, 46, -6 dw -2, 16, 54, -4 dw -2, 10, 58, -2 const h_tab_ChromaCoeff, db 0, 64, 0, 0 db -2, 58, 10, -2 db -4, 54, 16, -2 db -6, 46, 28, -4 db -4, 36, 36, -4 db -4, 28, 46, -6 db -2, 16, 54, -4 db -2, 10, 58, -2 const h_tab_LumaCoeff, db 0, 0, 0, 64, 0, 0, 0, 0 db -1, 4, -10, 58, 17, -5, 1, 0 db -1, 4, -11, 40, 40, -11, 4, -1 db 0, 1, -5, 17, 58, -10, 4, -1 const h_tab_Tm, db 0, 1, 2, 3, 1, 2, 3, 4, 2, 3, 4, 5, 3, 4, 5, 6 db 4, 5, 6, 7, 5, 6, 7, 8, 6, 7, 8, 9, 7, 8, 9, 10 db 8, 9,10,11, 9,10,11,12,10,11,12,13,11,12,13, 14 const h_tab_Lm, db 0, 1, 2, 3, 4, 5, 6, 7, 1, 2, 3, 4, 5, 6, 7, 8 db 2, 3, 4, 5, 6, 7, 8, 9, 3, 4, 5, 6, 7, 8, 9, 10 db 4, 5, 6, 7, 8, 9, 10, 11, 5, 6, 7, 8, 9, 10, 11, 12 db 6, 7, 8, 9, 10, 11, 12, 13, 7, 8, 9, 10, 11, 12, 13, 14 const interp4_shuf, times 2 db 0, 1, 8, 9, 4, 5, 12, 13, 2, 3, 10, 11, 6, 7, 14, 15 const h_interp8_hps_shuf, dd 0, 4, 1, 5, 2, 6, 3, 7 const interp4_hpp_shuf, times 2 db 0, 1, 2, 3, 1, 2, 3, 4, 8, 9, 10, 11, 9, 10, 11, 12 const interp4_horiz_shuf1, db 0, 1, 2, 3, 1, 2, 3, 4, 2, 3, 4, 5, 3, 4, 5, 6 db 8, 9, 10, 11, 9, 10, 11, 12, 10, 11, 12, 13, 11, 12, 13, 14 const h_pd_526336, times 8 dd 819264+2048 const pb_LumaCoeffVer, times 16 db 0, 0 times 16 db 0, 64 times 16 db 0, 0 times 16 db 0, 0 times 16 db -1, 4 times 16 db -10, 58 times 16 db 17, -5 times 16 db 1, 0 times 16 db -1, 4 times 16 db -11, 40 times 16 db 40, -11 times 16 db 4, -1 times 16 db 0, 1 times 16 db -5, 17 times 16 db 58, -10 times 16 db 4, -1 const h_pw_LumaCoeffVer, times 8 dw 0, 0 times 8 dw 0, 64 times 8 dw 0, 0 times 8 dw 0, 0 times 8 dw -1, 4 times 8 dw -10, 58 times 8 dw 17, -5 times 8 dw 1, 0 times 8 dw -1, 4 times 8 dw -11, 40 times 8 dw 40, -11 times 8 dw 4, -1 times 8 dw 0, 1 times 8 dw -5, 17 times 8 dw 58, -10 times 8 dw 4, -1 const pb_8tap_hps_0, times 2 db 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8 times 2 db 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9,10 times 2 db 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9,10,10,11,11,12 times 2 db 6, 7, 7, 8, 8, 9, 9,10,10,11,11,12,12,13,13,14 ALIGN 32 interp4_hps_shuf: times 2 db 0, 1, 2, 3, 1, 2, 3, 4, 8, 9, 10, 11, 9, 10, 11, 12 SECTION .text cextern pw_1 cextern pw_32 cextern pw_2000 cextern pw_512 %macro PROCESS_LUMA_AVX2_W8_16R 1 movu xm0, [r0] ; m0 = row 0 movu xm1, [r0 + r1] ; m1 = row 1 punpckhwd xm2, xm0, xm1 punpcklwd xm0, xm1 vinserti128 m0, m0, xm2, 1 pmaddwd m0, [r5] movu xm2, [r0 + r1 * 2] ; m2 = row 2 punpckhwd xm3, xm1, xm2 punpcklwd xm1, xm2 vinserti128 m1, m1, xm3, 1 pmaddwd m1, [r5] movu xm3, [r0 + r4] ; m3 = row 3 punpckhwd xm4, xm2, xm3 punpcklwd xm2, xm3 vinserti128 m2, m2, xm4, 1 pmaddwd m4, m2, [r5 + 1 * mmsize] paddd m0, m4 pmaddwd m2, [r5] lea r7, [r0 + r1 * 4] movu xm4, [r7] ; m4 = row 4 punpckhwd xm5, xm3, xm4 punpcklwd xm3, xm4 vinserti128 m3, m3, xm5, 1 pmaddwd m5, m3, [r5 + 1 * mmsize] paddd m1, m5 pmaddwd m3, [r5] movu xm5, [r7 + r1] ; m5 = row 5 punpckhwd xm6, xm4, xm5 punpcklwd xm4, xm5 vinserti128 m4, m4, xm6, 1 pmaddwd m6, m4, [r5 + 2 * mmsize] paddd m0, m6 pmaddwd m6, m4, [r5 + 1 * mmsize] paddd m2, m6 pmaddwd m4, [r5] movu xm6, [r7 + r1 * 2] ; m6 = row 6 punpckhwd xm7, xm5, xm6 punpcklwd xm5, xm6 vinserti128 m5, m5, xm7, 1 pmaddwd m7, m5, [r5 + 2 * mmsize] paddd m1, m7 pmaddwd m7, m5, [r5 + 1 * mmsize] paddd m3, m7 pmaddwd m5, [r5] movu xm7, [r7 + r4] ; m7 = row 7 punpckhwd xm8, xm6, xm7 punpcklwd xm6, xm7 vinserti128 m6, m6, xm8, 1 pmaddwd m8, m6, [r5 + 3 * mmsize] paddd m0, m8 pmaddwd m8, m6, [r5 + 2 * mmsize] paddd m2, m8 pmaddwd m8, m6, [r5 + 1 * mmsize] paddd m4, m8 pmaddwd m6, [r5] lea r7, [r7 + r1 * 4] movu xm8, [r7] ; m8 = row 8 punpckhwd xm9, xm7, xm8 punpcklwd xm7, xm8 vinserti128 m7, m7, xm9, 1 pmaddwd m9, m7, [r5 + 3 * mmsize] paddd m1, m9 pmaddwd m9, m7, [r5 + 2 * mmsize] paddd m3, m9 pmaddwd m9, m7, [r5 + 1 * mmsize] paddd m5, m9 pmaddwd m7, [r5] movu xm9, [r7 + r1] ; m9 = row 9 punpckhwd xm10, xm8, xm9 punpcklwd xm8, xm9 vinserti128 m8, m8, xm10, 1 pmaddwd m10, m8, [r5 + 3 * mmsize] paddd m2, m10 pmaddwd m10, m8, [r5 + 2 * mmsize] paddd m4, m10 pmaddwd m10, m8, [r5 + 1 * mmsize] paddd m6, m10 pmaddwd m8, [r5] movu xm10, [r7 + r1 * 2] ; m10 = row 10 punpckhwd xm11, xm9, xm10 punpcklwd xm9, xm10 vinserti128 m9, m9, xm11, 1 pmaddwd m11, m9, [r5 + 3 * mmsize] paddd m3, m11 pmaddwd m11, m9, [r5 + 2 * mmsize] paddd m5, m11 pmaddwd m11, m9, [r5 + 1 * mmsize] paddd m7, m11 pmaddwd m9, [r5] movu xm11, [r7 + r4] ; m11 = row 11 punpckhwd xm12, xm10, xm11 punpcklwd xm10, xm11 vinserti128 m10, m10, xm12, 1 pmaddwd m12, m10, [r5 + 3 * mmsize] paddd m4, m12 pmaddwd m12, m10, [r5 + 2 * mmsize] paddd m6, m12 pmaddwd m12, m10, [r5 + 1 * mmsize] paddd m8, m12 pmaddwd m10, [r5] lea r7, [r7 + r1 * 4] movu xm12, [r7] ; m12 = row 12 punpckhwd xm13, xm11, xm12 punpcklwd xm11, xm12 vinserti128 m11, m11, xm13, 1 pmaddwd m13, m11, [r5 + 3 * mmsize] paddd m5, m13 pmaddwd m13, m11, [r5 + 2 * mmsize] paddd m7, m13 pmaddwd m13, m11, [r5 + 1 * mmsize] paddd m9, m13 pmaddwd m11, [r5] %ifidn %1,sp paddd m0, m14 paddd m1, m14 paddd m2, m14 paddd m3, m14 paddd m4, m14 paddd m5, m14 psrad m0, 12 psrad m1, 12 psrad m2, 12 psrad m3, 12 psrad m4, 12 psrad m5, 12 %else psrad m0, 6 psrad m1, 6 psrad m2, 6 psrad m3, 6 psrad m4, 6 psrad m5, 6 %endif packssdw m0, m1 packssdw m2, m3 packssdw m4, m5 %ifidn %1,sp packuswb m0, m2 mova m5, [h_interp8_hps_shuf] vpermd m0, m5, m0 vextracti128 xm2, m0, 1 movq [r2], xm0 movhps [r2 + r3], xm0 movq [r2 + r3 * 2], xm2 movhps [r2 + r6], xm2 %else vpermq m0, m0, 11011000b vpermq m2, m2, 11011000b vextracti128 xm1, m0, 1 vextracti128 xm3, m2, 1 movu [r2], xm0 movu [r2 + r3], xm1 movu [r2 + r3 * 2], xm2 movu [r2 + r6], xm3 %endif movu xm13, [r7 + r1] ; m13 = row 13 punpckhwd xm0, xm12, xm13 punpcklwd xm12, xm13 vinserti128 m12, m12, xm0, 1 pmaddwd m0, m12, [r5 + 3 * mmsize] paddd m6, m0 pmaddwd m0, m12, [r5 + 2 * mmsize] paddd m8, m0 pmaddwd m0, m12, [r5 + 1 * mmsize] paddd m10, m0 pmaddwd m12, [r5] movu xm0, [r7 + r1 * 2] ; m0 = row 14 punpckhwd xm1, xm13, xm0 punpcklwd xm13, xm0 vinserti128 m13, m13, xm1, 1 pmaddwd m1, m13, [r5 + 3 * mmsize] paddd m7, m1 pmaddwd m1, m13, [r5 + 2 * mmsize] paddd m9, m1 pmaddwd m1, m13, [r5 + 1 * mmsize] paddd m11, m1 pmaddwd m13, [r5] %ifidn %1,sp paddd m6, m14 paddd m7, m14 psrad m6, 12 psrad m7, 12 %else psrad m6, 6 psrad m7, 6 %endif packssdw m6, m7 lea r8, [r2 + r3 * 4] %ifidn %1,sp packuswb m4, m6 vpermd m4, m5, m4 vextracti128 xm6, m4, 1 movq [r8], xm4 movhps [r8 + r3], xm4 movq [r8 + r3 * 2], xm6 movhps [r8 + r6], xm6 %else vpermq m4, m4, 11011000b vpermq m6, m6, 11011000b vextracti128 xm1, m4, 1 vextracti128 xm7, m6, 1 movu [r8], xm4 movu [r8 + r3], xm1 movu [r8 + r3 * 2], xm6 movu [r8 + r6], xm7 %endif movu xm1, [r7 + r4] ; m1 = row 15 punpckhwd xm2, xm0, xm1 punpcklwd xm0, xm1 vinserti128 m0, m0, xm2, 1 pmaddwd m2, m0, [r5 + 3 * mmsize] paddd m8, m2 pmaddwd m2, m0, [r5 + 2 * mmsize] paddd m10, m2 pmaddwd m2, m0, [r5 + 1 * mmsize] paddd m12, m2 pmaddwd m0, [r5] lea r7, [r7 + r1 * 4] movu xm2, [r7] ; m2 = row 16 punpckhwd xm3, xm1, xm2 punpcklwd xm1, xm2 vinserti128 m1, m1, xm3, 1 pmaddwd m3, m1, [r5 + 3 * mmsize] paddd m9, m3 pmaddwd m3, m1, [r5 + 2 * mmsize] paddd m11, m3 pmaddwd m3, m1, [r5 + 1 * mmsize] paddd m13, m3 pmaddwd m1, [r5] movu xm3, [r7 + r1] ; m3 = row 17 punpckhwd xm4, xm2, xm3 punpcklwd xm2, xm3 vinserti128 m2, m2, xm4, 1 pmaddwd m4, m2, [r5 + 3 * mmsize] paddd m10, m4 pmaddwd m4, m2, [r5 + 2 * mmsize] paddd m12, m4 pmaddwd m2, [r5 + 1 * mmsize] paddd m0, m2 movu xm4, [r7 + r1 * 2] ; m4 = row 18 punpckhwd xm2, xm3, xm4 punpcklwd xm3, xm4 vinserti128 m3, m3, xm2, 1 pmaddwd m2, m3, [r5 + 3 * mmsize] paddd m11, m2 pmaddwd m2, m3, [r5 + 2 * mmsize] paddd m13, m2 pmaddwd m3, [r5 + 1 * mmsize] paddd m1, m3 movu xm2, [r7 + r4] ; m2 = row 19 punpckhwd xm6, xm4, xm2 punpcklwd xm4, xm2 vinserti128 m4, m4, xm6, 1 pmaddwd m6, m4, [r5 + 3 * mmsize] paddd m12, m6 pmaddwd m4, [r5 + 2 * mmsize] paddd m0, m4 lea r7, [r7 + r1 * 4] movu xm6, [r7] ; m6 = row 20 punpckhwd xm7, xm2, xm6 punpcklwd xm2, xm6 vinserti128 m2, m2, xm7, 1 pmaddwd m7, m2, [r5 + 3 * mmsize] paddd m13, m7 pmaddwd m2, [r5 + 2 * mmsize] paddd m1, m2 movu xm7, [r7 + r1] ; m7 = row 21 punpckhwd xm2, xm6, xm7 punpcklwd xm6, xm7 vinserti128 m6, m6, xm2, 1 pmaddwd m6, [r5 + 3 * mmsize] paddd m0, m6 movu xm2, [r7 + r1 * 2] ; m2 = row 22 punpckhwd xm3, xm7, xm2 punpcklwd xm7, xm2 vinserti128 m7, m7, xm3, 1 pmaddwd m7, [r5 + 3 * mmsize] paddd m1, m7 %ifidn %1,sp paddd m8, m14 paddd m9, m14 paddd m10, m14 paddd m11, m14 paddd m12, m14 paddd m13, m14 paddd m0, m14 paddd m1, m14 psrad m8, 12 psrad m9, 12 psrad m10, 12 psrad m11, 12 psrad m12, 12 psrad m13, 12 psrad m0, 12 psrad m1, 12 %else psrad m8, 6 psrad m9, 6 psrad m10, 6 psrad m11, 6 psrad m12, 6 psrad m13, 6 psrad m0, 6 psrad m1, 6 %endif packssdw m8, m9 packssdw m10, m11 packssdw m12, m13 packssdw m0, m1 lea r8, [r8 + r3 * 4] %ifidn %1,sp packuswb m8, m10 packuswb m12, m0 vpermd m8, m5, m8 vpermd m12, m5, m12 vextracti128 xm10, m8, 1 vextracti128 xm0, m12, 1 movq [r8], xm8 movhps [r8 + r3], xm8 movq [r8 + r3 * 2], xm10 movhps [r8 + r6], xm10 lea r8, [r8 + r3 * 4] movq [r8], xm12 movhps [r8 + r3], xm12 movq [r8 + r3 * 2], xm0 movhps [r8 + r6], xm0 %else vpermq m8, m8, 11011000b vpermq m10, m10, 11011000b vpermq m12, m12, 11011000b vpermq m0, m0, 11011000b vextracti128 xm9, m8, 1 vextracti128 xm11, m10, 1 vextracti128 xm13, m12, 1 vextracti128 xm1, m0, 1 movu [r8], xm8 movu [r8 + r3], xm9 movu [r8 + r3 * 2], xm10 movu [r8 + r6], xm11 lea r8, [r8 + r3 * 4] movu [r8], xm12 movu [r8 + r3], xm13 movu [r8 + r3 * 2], xm0 movu [r8 + r6], xm1 %endif %endmacro %macro FILTER_H8_W8_sse2 0 movh m1, [r0 + x - 3] movh m4, [r0 + x - 2] punpcklbw m1, m6 punpcklbw m4, m6 movh m5, [r0 + x - 1] movh m0, [r0 + x] punpcklbw m5, m6 punpcklbw m0, m6 pmaddwd m1, m3 pmaddwd m4, m3 pmaddwd m5, m3 pmaddwd m0, m3 packssdw m1, m4 packssdw m5, m0 pshuflw m4, m1, q2301 pshufhw m4, m4, q2301 pshuflw m0, m5, q2301 pshufhw m0, m0, q2301 paddw m1, m4 paddw m5, m0 psrldq m1, 2 psrldq m5, 2 pshufd m1, m1, q3120 pshufd m5, m5, q3120 punpcklqdq m1, m5 movh m7, [r0 + x + 1] movh m4, [r0 + x + 2] punpcklbw m7, m6 punpcklbw m4, m6 movh m5, [r0 + x + 3] movh m0, [r0 + x + 4] punpcklbw m5, m6 punpcklbw m0, m6 pmaddwd m7, m3 pmaddwd m4, m3 pmaddwd m5, m3 pmaddwd m0, m3 packssdw m7, m4 packssdw m5, m0 pshuflw m4, m7, q2301 pshufhw m4, m4, q2301 pshuflw m0, m5, q2301 pshufhw m0, m0, q2301 paddw m7, m4 paddw m5, m0 psrldq m7, 2 psrldq m5, 2 pshufd m7, m7, q3120 pshufd m5, m5, q3120 punpcklqdq m7, m5 pshuflw m4, m1, q2301 pshufhw m4, m4, q2301 pshuflw m0, m7, q2301 pshufhw m0, m0, q2301 paddw m1, m4 paddw m7, m0 psrldq m1, 2 psrldq m7, 2 pshufd m1, m1, q3120 pshufd m7, m7, q3120 punpcklqdq m1, m7 %endmacro %macro FILTER_H8_W4_sse2 0 movh m1, [r0 + x - 3] movh m0, [r0 + x - 2] punpcklbw m1, m6 punpcklbw m0, m6 movh m4, [r0 + x - 1] movh m5, [r0 + x] punpcklbw m4, m6 punpcklbw m5, m6 pmaddwd m1, m3 pmaddwd m0, m3 pmaddwd m4, m3 pmaddwd m5, m3 packssdw m1, m0 packssdw m4, m5 pshuflw m0, m1, q2301 pshufhw m0, m0, q2301 pshuflw m5, m4, q2301 pshufhw m5, m5, q2301 paddw m1, m0 paddw m4, m5 psrldq m1, 2 psrldq m4, 2 pshufd m1, m1, q3120 pshufd m4, m4, q3120 punpcklqdq m1, m4 pshuflw m0, m1, q2301 pshufhw m0, m0, q2301 paddw m1, m0 psrldq m1, 2 pshufd m1, m1, q3120 %endmacro ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_%3_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA_sse2 3 INIT_XMM sse2 cglobal interp_8tap_horiz_%3_%1x%2, 4,6,8 mov r4d, r4m add r4d, r4d pxor m6, m6 %ifidn %3, ps add r3d, r3d cmp r5m, byte 0 %endif %ifdef PIC lea r5, [h_tabw_LumaCoeff] movu m3, [r5 + r4 * 8] %else movu m3, [h_tabw_LumaCoeff + r4 * 8] %endif mov r4d, %2 %ifidn %3, pp mova m2, [pw_32] %else mova m2, [pw_2000] je .loopH lea r5, [r1 + 2 * r1] sub r0, r5 add r4d, 7 %endif .loopH: %assign x 0 %rep %1 / 8 FILTER_H8_W8_sse2 %ifidn %3, pp paddw m1, m2 psraw m1, 6 packuswb m1, m1 movh [r2 + x], m1 %else psubw m1, m2 movu [r2 + 2 * x], m1 %endif %assign x x+8 %endrep %rep (%1 % 8) / 4 FILTER_H8_W4_sse2 %ifidn %3, pp paddw m1, m2 psraw m1, 6 packuswb m1, m1 movd [r2 + x], m1 %else psubw m1, m2 movh [r2 + 2 * x], m1 %endif %endrep add r0, r1 add r2, r3 dec r4d jnz .loopH RET %endmacro ;-------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_pp_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;-------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA_sse2 4, 4, pp IPFILTER_LUMA_sse2 4, 8, pp IPFILTER_LUMA_sse2 8, 4, pp IPFILTER_LUMA_sse2 8, 8, pp IPFILTER_LUMA_sse2 16, 16, pp IPFILTER_LUMA_sse2 16, 8, pp IPFILTER_LUMA_sse2 8, 16, pp IPFILTER_LUMA_sse2 16, 12, pp IPFILTER_LUMA_sse2 12, 16, pp IPFILTER_LUMA_sse2 16, 4, pp IPFILTER_LUMA_sse2 4, 16, pp IPFILTER_LUMA_sse2 32, 32, pp IPFILTER_LUMA_sse2 32, 16, pp IPFILTER_LUMA_sse2 16, 32, pp IPFILTER_LUMA_sse2 32, 24, pp IPFILTER_LUMA_sse2 24, 32, pp IPFILTER_LUMA_sse2 32, 8, pp IPFILTER_LUMA_sse2 8, 32, pp IPFILTER_LUMA_sse2 64, 64, pp IPFILTER_LUMA_sse2 64, 32, pp IPFILTER_LUMA_sse2 32, 64, pp IPFILTER_LUMA_sse2 64, 48, pp IPFILTER_LUMA_sse2 48, 64, pp IPFILTER_LUMA_sse2 64, 16, pp IPFILTER_LUMA_sse2 16, 64, pp ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_ps_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA_sse2 4, 4, ps IPFILTER_LUMA_sse2 8, 8, ps IPFILTER_LUMA_sse2 8, 4, ps IPFILTER_LUMA_sse2 4, 8, ps IPFILTER_LUMA_sse2 16, 16, ps IPFILTER_LUMA_sse2 16, 8, ps IPFILTER_LUMA_sse2 8, 16, ps IPFILTER_LUMA_sse2 16, 12, ps IPFILTER_LUMA_sse2 12, 16, ps IPFILTER_LUMA_sse2 16, 4, ps IPFILTER_LUMA_sse2 4, 16, ps IPFILTER_LUMA_sse2 32, 32, ps IPFILTER_LUMA_sse2 32, 16, ps IPFILTER_LUMA_sse2 16, 32, ps IPFILTER_LUMA_sse2 32, 24, ps IPFILTER_LUMA_sse2 24, 32, ps IPFILTER_LUMA_sse2 32, 8, ps IPFILTER_LUMA_sse2 8, 32, ps IPFILTER_LUMA_sse2 64, 64, ps IPFILTER_LUMA_sse2 64, 32, ps IPFILTER_LUMA_sse2 32, 64, ps IPFILTER_LUMA_sse2 64, 48, ps IPFILTER_LUMA_sse2 48, 64, ps IPFILTER_LUMA_sse2 64, 16, ps IPFILTER_LUMA_sse2 16, 64, ps %macro FILTER_H4_w2_2_sse2 0 pxor m3, m3 movd m0, [srcq - 1] movd m2, [srcq] punpckldq m0, m2 punpcklbw m0, m3 movd m1, [srcq + srcstrideq - 1] movd m2, [srcq + srcstrideq] punpckldq m1, m2 punpcklbw m1, m3 pmaddwd m0, m4 pmaddwd m1, m4 packssdw m0, m1 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 paddw m0, m1 psrld m0, 16 packssdw m0, m0 paddw m0, m5 psraw m0, 6 packuswb m0, m0 movd r4d, m0 mov [dstq], r4w shr r4, 16 mov [dstq + dststrideq], r4w %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2xN(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro FILTER_H4_W2xN_sse3 1 INIT_XMM sse3 cglobal interp_4tap_horiz_pp_2x%1, 4, 6, 6, src, srcstride, dst, dststride mov r4d, r4m mova m5, [pw_32] %ifdef PIC lea r5, [h_tabw_ChromaCoeff] movddup m4, [r5 + r4 * 8] %else movddup m4, [h_tabw_ChromaCoeff + r4 * 8] %endif %assign x 1 %rep %1/2 FILTER_H4_w2_2_sse2 %if x < %1/2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endif %assign x x+1 %endrep RET %endmacro FILTER_H4_W2xN_sse3 4 FILTER_H4_W2xN_sse3 8 FILTER_H4_W2xN_sse3 16 %macro FILTER_H4_w4_2_sse2 0 pxor m5, m5 movd m0, [srcq - 1] movd m6, [srcq] punpckldq m0, m6 punpcklbw m0, m5 movd m1, [srcq + 1] movd m6, [srcq + 2] punpckldq m1, m6 punpcklbw m1, m5 movd m2, [srcq + srcstrideq - 1] movd m6, [srcq + srcstrideq] punpckldq m2, m6 punpcklbw m2, m5 movd m3, [srcq + srcstrideq + 1] movd m6, [srcq + srcstrideq + 2] punpckldq m3, m6 punpcklbw m3, m5 pmaddwd m0, m4 pmaddwd m1, m4 pmaddwd m2, m4 pmaddwd m3, m4 packssdw m0, m1 packssdw m2, m3 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 pshuflw m3, m2, q2301 pshufhw m3, m3, q2301 paddw m0, m1 paddw m2, m3 psrld m0, 16 psrld m2, 16 packssdw m0, m2 paddw m0, m7 psraw m0, 6 packuswb m0, m2 movd [dstq], m0 psrldq m0, 4 movd [dstq + dststrideq], m0 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x32(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro FILTER_H4_W4xN_sse3 1 INIT_XMM sse3 cglobal interp_4tap_horiz_pp_4x%1, 4, 6, 8, src, srcstride, dst, dststride mov r4d, r4m mova m7, [pw_32] %ifdef PIC lea r5, [h_tabw_ChromaCoeff] movddup m4, [r5 + r4 * 8] %else movddup m4, [h_tabw_ChromaCoeff + r4 * 8] %endif %assign x 1 %rep %1/2 FILTER_H4_w4_2_sse2 %if x < %1/2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endif %assign x x+1 %endrep RET %endmacro FILTER_H4_W4xN_sse3 2 FILTER_H4_W4xN_sse3 4 FILTER_H4_W4xN_sse3 8 FILTER_H4_W4xN_sse3 16 FILTER_H4_W4xN_sse3 32 %macro FILTER_H4_w6_sse2 0 pxor m4, m4 movh m0, [srcq - 1] movh m5, [srcq] punpckldq m0, m5 movhlps m2, m0 punpcklbw m0, m4 punpcklbw m2, m4 movd m1, [srcq + 1] movd m5, [srcq + 2] punpckldq m1, m5 punpcklbw m1, m4 pmaddwd m0, m6 pmaddwd m1, m6 pmaddwd m2, m6 packssdw m0, m1 packssdw m2, m2 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 pshuflw m3, m2, q2301 paddw m0, m1 paddw m2, m3 psrld m0, 16 psrld m2, 16 packssdw m0, m2 paddw m0, m7 psraw m0, 6 packuswb m0, m0 movd [dstq], m0 pextrw r4d, m0, 2 mov [dstq + 4], r4w %endmacro %macro FILH4W8_sse2 1 movh m0, [srcq - 1 + %1] movh m5, [srcq + %1] punpckldq m0, m5 movhlps m2, m0 punpcklbw m0, m4 punpcklbw m2, m4 movh m1, [srcq + 1 + %1] movh m5, [srcq + 2 + %1] punpckldq m1, m5 movhlps m3, m1 punpcklbw m1, m4 punpcklbw m3, m4 pmaddwd m0, m6 pmaddwd m1, m6 pmaddwd m2, m6 pmaddwd m3, m6 packssdw m0, m1 packssdw m2, m3 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 pshuflw m3, m2, q2301 pshufhw m3, m3, q2301 paddw m0, m1 paddw m2, m3 psrld m0, 16 psrld m2, 16 packssdw m0, m2 paddw m0, m7 psraw m0, 6 packuswb m0, m0 movh [dstq + %1], m0 %endmacro %macro FILTER_H4_w8_sse2 0 FILH4W8_sse2 0 %endmacro %macro FILTER_H4_w12_sse2 0 FILH4W8_sse2 0 movd m1, [srcq - 1 + 8] movd m3, [srcq + 8] punpckldq m1, m3 punpcklbw m1, m4 movd m2, [srcq + 1 + 8] movd m3, [srcq + 2 + 8] punpckldq m2, m3 punpcklbw m2, m4 pmaddwd m1, m6 pmaddwd m2, m6 packssdw m1, m2 pshuflw m2, m1, q2301 pshufhw m2, m2, q2301 paddw m1, m2 psrld m1, 16 packssdw m1, m1 paddw m1, m7 psraw m1, 6 packuswb m1, m1 movd [dstq + 8], m1 %endmacro %macro FILTER_H4_w16_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 %endmacro %macro FILTER_H4_w24_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 %endmacro %macro FILTER_H4_w32_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 FILH4W8_sse2 24 %endmacro %macro FILTER_H4_w48_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 FILH4W8_sse2 24 FILH4W8_sse2 32 FILH4W8_sse2 40 %endmacro %macro FILTER_H4_w64_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 FILH4W8_sse2 24 FILH4W8_sse2 32 FILH4W8_sse2 40 FILH4W8_sse2 48 FILH4W8_sse2 56 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro IPFILTER_CHROMA_sse3 2 INIT_XMM sse3 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 8, src, srcstride, dst, dststride mov r4d, r4m mova m7, [pw_32] pxor m4, m4 %ifdef PIC lea r5, [h_tabw_ChromaCoeff] movddup m6, [r5 + r4 * 8] %else movddup m6, [h_tabw_ChromaCoeff + r4 * 8] %endif %assign x 1 %rep %2 FILTER_H4_w%1_sse2 %if x < %2 add srcq, srcstrideq add dstq, dststrideq %endif %assign x x+1 %endrep RET %endmacro IPFILTER_CHROMA_sse3 6, 8 IPFILTER_CHROMA_sse3 8, 2 IPFILTER_CHROMA_sse3 8, 4 IPFILTER_CHROMA_sse3 8, 6 IPFILTER_CHROMA_sse3 8, 8 IPFILTER_CHROMA_sse3 8, 16 IPFILTER_CHROMA_sse3 8, 32 IPFILTER_CHROMA_sse3 12, 16 IPFILTER_CHROMA_sse3 6, 16 IPFILTER_CHROMA_sse3 8, 12 IPFILTER_CHROMA_sse3 8, 64 IPFILTER_CHROMA_sse3 12, 32 IPFILTER_CHROMA_sse3 16, 4 IPFILTER_CHROMA_sse3 16, 8 IPFILTER_CHROMA_sse3 16, 12 IPFILTER_CHROMA_sse3 16, 16 IPFILTER_CHROMA_sse3 16, 32 IPFILTER_CHROMA_sse3 32, 8 IPFILTER_CHROMA_sse3 32, 16 IPFILTER_CHROMA_sse3 32, 24 IPFILTER_CHROMA_sse3 24, 32 IPFILTER_CHROMA_sse3 32, 32 IPFILTER_CHROMA_sse3 16, 24 IPFILTER_CHROMA_sse3 16, 64 IPFILTER_CHROMA_sse3 32, 48 IPFILTER_CHROMA_sse3 24, 64 IPFILTER_CHROMA_sse3 32, 64 IPFILTER_CHROMA_sse3 64, 64 IPFILTER_CHROMA_sse3 64, 32 IPFILTER_CHROMA_sse3 64, 48 IPFILTER_CHROMA_sse3 48, 64 IPFILTER_CHROMA_sse3 64, 16 %macro FILTER_2 2 movd m3, [srcq + %1] movd m4, [srcq + 1 + %1] punpckldq m3, m4 punpcklbw m3, m0 pmaddwd m3, m1 packssdw m3, m3 pshuflw m4, m3, q2301 paddw m3, m4 psrldq m3, 2 psubw m3, m2 movd [dstq + %2], m3 %endmacro %macro FILTER_4 2 movd m3, [srcq + %1] movd m4, [srcq + 1 + %1] punpckldq m3, m4 punpcklbw m3, m0 pmaddwd m3, m1 movd m4, [srcq + 2 + %1] movd m5, [srcq + 3 + %1] punpckldq m4, m5 punpcklbw m4, m0 pmaddwd m4, m1 packssdw m3, m4 pshuflw m4, m3, q2301 pshufhw m4, m4, q2301 paddw m3, m4 psrldq m3, 2 pshufd m3, m3, q3120 psubw m3, m2 movh [dstq + %2], m3 %endmacro %macro FILTER_4TAP_HPS_sse3 2 INIT_XMM sse3 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 6, src, srcstride, dst, dststride mov r4d, r4m add dststrided, dststrided mova m2, [pw_2000] pxor m0, m0 %ifdef PIC lea r6, [h_tabw_ChromaCoeff] movddup m1, [r6 + r4 * 8] %else movddup m1, [h_tabw_ChromaCoeff + r4 * 8] %endif mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: %assign x -1 %assign y 0 %rep %1/4 FILTER_4 x,y %assign x x+4 %assign y y+8 %endrep %rep (%1 % 4)/2 FILTER_2 x,y %endrep add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_4TAP_HPS_sse3 2, 4 FILTER_4TAP_HPS_sse3 2, 8 FILTER_4TAP_HPS_sse3 2, 16 FILTER_4TAP_HPS_sse3 4, 2 FILTER_4TAP_HPS_sse3 4, 4 FILTER_4TAP_HPS_sse3 4, 8 FILTER_4TAP_HPS_sse3 4, 16 FILTER_4TAP_HPS_sse3 4, 32 FILTER_4TAP_HPS_sse3 6, 8 FILTER_4TAP_HPS_sse3 6, 16 FILTER_4TAP_HPS_sse3 8, 2 FILTER_4TAP_HPS_sse3 8, 4 FILTER_4TAP_HPS_sse3 8, 6 FILTER_4TAP_HPS_sse3 8, 8 FILTER_4TAP_HPS_sse3 8, 12 FILTER_4TAP_HPS_sse3 8, 16 FILTER_4TAP_HPS_sse3 8, 32 FILTER_4TAP_HPS_sse3 8, 64 FILTER_4TAP_HPS_sse3 12, 16 FILTER_4TAP_HPS_sse3 12, 32 FILTER_4TAP_HPS_sse3 16, 4 FILTER_4TAP_HPS_sse3 16, 8 FILTER_4TAP_HPS_sse3 16, 12 FILTER_4TAP_HPS_sse3 16, 16 FILTER_4TAP_HPS_sse3 16, 24 FILTER_4TAP_HPS_sse3 16, 32 FILTER_4TAP_HPS_sse3 16, 64 FILTER_4TAP_HPS_sse3 24, 32 FILTER_4TAP_HPS_sse3 24, 64 FILTER_4TAP_HPS_sse3 32, 8 FILTER_4TAP_HPS_sse3 32, 16 FILTER_4TAP_HPS_sse3 32, 24 FILTER_4TAP_HPS_sse3 32, 32 FILTER_4TAP_HPS_sse3 32, 48 FILTER_4TAP_HPS_sse3 32, 64 FILTER_4TAP_HPS_sse3 48, 64 FILTER_4TAP_HPS_sse3 64, 16 FILTER_4TAP_HPS_sse3 64, 32 FILTER_4TAP_HPS_sse3 64, 48 FILTER_4TAP_HPS_sse3 64, 64 %macro FILTER_H4_w2_2 3 movh %2, [srcq - 1] pshufb %2, %2, Tm0 movh %1, [srcq + srcstrideq - 1] pshufb %1, %1, Tm0 punpcklqdq %2, %1 pmaddubsw %2, coef2 phaddw %2, %2 pmulhrsw %2, %3 packuswb %2, %2 movd r4d, %2 mov [dstq], r4w shr r4, 16 mov [dstq + dststrideq], r4w %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2x4(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_2x4, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 2 FILTER_H4_w2_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2x8(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_2x8, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 4 FILTER_H4_w2_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2x16(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_2x16, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mov r5d, 16/2 .loop: FILTER_H4_w2_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] dec r5d jnz .loop RET %macro FILTER_H4_w4_2 3 movh %2, [srcq - 1] pshufb %2, %2, Tm0 pmaddubsw %2, coef2 movh %1, [srcq + srcstrideq - 1] pshufb %1, %1, Tm0 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movd [dstq], %2 palignr %2, %2, 4 movd [dstq + dststrideq], %2 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x2, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] FILTER_H4_w4_2 t0, t1, t2 RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x4(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x4, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 2 FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x8(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x8, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 4 FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x16(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x16, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 8 FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x32(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x32, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mov r5d, 32/2 .loop: FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] dec r5d jnz .loop RET ALIGN 32 const interp_4tap_8x8_horiz_shuf, dd 0, 4, 1, 5, 2, 6, 3, 7 %macro FILTER_H4_w6 3 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movd [dstq], %2 pextrw [dstq + 4], %2, 2 %endmacro %macro FILTER_H4_w8 3 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movh [dstq], %2 %endmacro %macro FILTER_H4_w12 3 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 movu %1, [srcq - 1 + 8] pshufb %1, %1, Tm0 pmaddubsw %1, coef2 phaddw %1, %1 pmulhrsw %1, %3 packuswb %2, %1 movh [dstq], %2 pextrd [dstq + 8], %2, 2 %endmacro %macro FILTER_H4_w16 4 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq], %2 %endmacro %macro FILTER_H4_w24 4 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq], %2 movu %1, [srcq - 1 + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movh [dstq + 16], %2 %endmacro %macro FILTER_H4_w32 4 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq], %2 movu %1, [srcq - 1 + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 24] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq + 16], %2 %endmacro %macro FILTER_H4_w16o 5 movu %1, [srcq + %5 - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + %5 - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq + %5], %2 %endmacro %macro FILTER_H4_w48 4 FILTER_H4_w16o %1, %2, %3, %4, 0 FILTER_H4_w16o %1, %2, %3, %4, 16 FILTER_H4_w16o %1, %2, %3, %4, 32 %endmacro %macro FILTER_H4_w64 4 FILTER_H4_w16o %1, %2, %3, %4, 0 FILTER_H4_w16o %1, %2, %3, %4, 16 FILTER_H4_w16o %1, %2, %3, %4, 32 FILTER_H4_w16o %1, %2, %3, %4, 48 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro IPFILTER_CHROMA 2 INIT_XMM sse4 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 6, src, srcstride, dst, dststride %define coef2 m5 %define Tm0 m4 %define Tm1 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif mov r5d, %2 pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] .loop: FILTER_H4_w%1 t0, t1, t2 add srcq, srcstrideq add dstq, dststrideq dec r5d jnz .loop RET %endmacro IPFILTER_CHROMA 6, 8 IPFILTER_CHROMA 8, 2 IPFILTER_CHROMA 8, 4 IPFILTER_CHROMA 8, 6 IPFILTER_CHROMA 8, 8 IPFILTER_CHROMA 8, 16 IPFILTER_CHROMA 8, 32 IPFILTER_CHROMA 12, 16 IPFILTER_CHROMA 6, 16 IPFILTER_CHROMA 8, 12 IPFILTER_CHROMA 8, 64 IPFILTER_CHROMA 12, 32 ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro IPFILTER_CHROMA_W 2 INIT_XMM sse4 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 7, src, srcstride, dst, dststride %define coef2 m6 %define Tm0 m5 %define Tm1 m4 %define t3 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif mov r5d, %2 pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] .loop: FILTER_H4_w%1 t0, t1, t2, t3 add srcq, srcstrideq add dstq, dststrideq dec r5d jnz .loop RET %endmacro IPFILTER_CHROMA_W 16, 4 IPFILTER_CHROMA_W 16, 8 IPFILTER_CHROMA_W 16, 12 IPFILTER_CHROMA_W 16, 16 IPFILTER_CHROMA_W 16, 32 IPFILTER_CHROMA_W 32, 8 IPFILTER_CHROMA_W 32, 16 IPFILTER_CHROMA_W 32, 24 IPFILTER_CHROMA_W 24, 32 IPFILTER_CHROMA_W 32, 32 IPFILTER_CHROMA_W 16, 24 IPFILTER_CHROMA_W 16, 64 IPFILTER_CHROMA_W 32, 48 IPFILTER_CHROMA_W 24, 64 IPFILTER_CHROMA_W 32, 64 IPFILTER_CHROMA_W 64, 64 IPFILTER_CHROMA_W 64, 32 IPFILTER_CHROMA_W 64, 48 IPFILTER_CHROMA_W 48, 64 IPFILTER_CHROMA_W 64, 16 %macro FILTER_H8_W8 7-8 ; t0, t1, t2, t3, coef, c512, src, dst movu %1, %7 pshufb %2, %1, [h_tab_Lm + 0] pmaddubsw %2, %5 pshufb %3, %1, [h_tab_Lm + 16] pmaddubsw %3, %5 phaddw %2, %3 pshufb %4, %1, [h_tab_Lm + 32] pmaddubsw %4, %5 pshufb %1, %1, [h_tab_Lm + 48] pmaddubsw %1, %5 phaddw %4, %1 phaddw %2, %4 %if %0 == 8 pmulhrsw %2, %6 packuswb %2, %2 movh %8, %2 %endif %endmacro %macro FILTER_H8_W4 2 movu %1, [r0 - 3 + r5] pshufb %2, %1, [h_tab_Lm] pmaddubsw %2, m3 pshufb m7, %1, [h_tab_Lm + 16] pmaddubsw m7, m3 phaddw %2, m7 phaddw %2, %2 %endmacro ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_%3_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA 3 INIT_XMM sse4 cglobal interp_8tap_horiz_%3_%1x%2, 4,7,8 mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] movh m3, [r6 + r4 * 8] %else movh m3, [h_tab_LumaCoeff + r4 * 8] %endif punpcklqdq m3, m3 %ifidn %3, pp mova m2, [pw_512] %else mova m2, [pw_2000] %endif mov r4d, %2 %ifidn %3, ps add r3, r3 cmp r5m, byte 0 je .loopH lea r6, [r1 + 2 * r1] sub r0, r6 add r4d, 7 %endif .loopH: xor r5, r5 %rep %1 / 8 %ifidn %3, pp FILTER_H8_W8 m0, m1, m4, m5, m3, m2, [r0 - 3 + r5], [r2 + r5] %else FILTER_H8_W8 m0, m1, m4, m5, m3, UNUSED, [r0 - 3 + r5] psubw m1, m2 movu [r2 + 2 * r5], m1 %endif add r5, 8 %endrep %rep (%1 % 8) / 4 FILTER_H8_W4 m0, m1 %ifidn %3, pp pmulhrsw m1, m2 packuswb m1, m1 movd [r2 + r5], m1 %else psubw m1, m2 movh [r2 + 2 * r5], m1 %endif %endrep add r0, r1 add r2, r3 dec r4d jnz .loopH RET %endmacro INIT_YMM avx2 cglobal interp_8tap_horiz_pp_4x4, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 sub r0, 3 ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 phaddd m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 2-3 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 phaddd m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] packssdw m3, m4 ; WORD [R3D R3C R2D R2C R1D R1C R0D R0C R3B R3A R2B R2A R1B R1A R0B R0A] pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 ; BYTE [R3D R3C R2D R2C R1D R1C R0D R0C R3B R3A R2B R2A R1B R1A R0B R0A] pshufb xm3, [interp4_shuf] ; [row3 row1 row2 row0] lea r0, [r3 * 3] movd [r2], xm3 pextrd [r2+r3], xm3, 2 pextrd [r2+r32], xm3, 1 pextrd [r2+r0], xm3, 3 RET %macro FILTER_HORIZ_LUMA_AVX2_4xN 1 INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_horiz_pp_4x%1, 4, 6, 9 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] mova m2, [pw_1] mova m7, [h_interp8_hps_shuf] mova m8, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 lea r4, [r1 * 3] lea r5, [r3 * 3] sub r0, 3 %rep %1 / 8 ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 phaddd m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 2-3 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 phaddd m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] packssdw m3, m4 ; WORD [R3D R3C R2D R2C R1D R1C R0D R0C R3B R3A R2B R2A R1B R1A R0B R0A] lea r0, [r0 + r1 * 4] ; Row 4-5 vbroadcasti128 m5, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 phaddd m5, m4 ; DWORD [R5D R5C R4D R4C R5B R5A R4B R4A] ; Row 6-7 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m6, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m6, m1 pmaddubsw m6, m0 pmaddwd m6, m2 phaddd m4, m6 ; DWORD [R7D R7C R6D R6C R7B R7A R6B R6A] packssdw m5, m4 ; WORD [R7D R7C R6D R6C R5D R5C R4D R4C R7B R7A R6B R6A R5B R5A R4B R4A] vpermd m3, m7, m3 vpermd m5, m7, m5 pmulhrsw m3, m8 pmulhrsw m5, m8 packuswb m3, m5 vextracti128 xm5, m3, 1 movd [r2], xm3 pextrd [r2 + r3], xm3, 1 movd [r2 + r3 * 2], xm5 pextrd [r2 + r5], xm5, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm3, 2 pextrd [r2 + r3], xm3, 3 pextrd [r2 + r3 * 2], xm5, 2 pextrd [r2 + r5], xm5, 3 lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] %endrep RET %endif %endmacro FILTER_HORIZ_LUMA_AVX2_4xN 8 FILTER_HORIZ_LUMA_AVX2_4xN 16 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_8x4, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] mova m2, [h_tab_Lm + 32] ; register map ; m0 - interpolate coeff ; m1, m2 - shuffle order table sub r0, 3 lea r5, [r1 * 3] lea r4, [r3 * 3] ; Row 0 vbroadcasti128 m3, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m2 pshufb m3, m1 pmaddubsw m3, m0 pmaddubsw m4, m0 phaddw m3, m4 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 phaddw m3, m4 ; WORD [R1H R1G R1D R1C R0H R0G R0D R0C R1F R1E R1B R1A R0F R0E R0B R0A] pmulhrsw m3, [pw_512] ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 ; Row 3 vbroadcasti128 m5, [r0 + r5] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m6, m5, m2 pshufb m5, m1 pmaddubsw m5, m0 pmaddubsw m6, m0 phaddw m5, m6 phaddw m4, m5 ; WORD [R3H R3G R3D R3C R2H R2G R2D R2C R3F R3E R3B R3A R2F R2E R2B R2A] pmulhrsw m4, [pw_512] packuswb m3, m4 vextracti128 xm4, m3, 1 punpcklwd xm5, xm3, xm4 movq [r2], xm5 movhps [r2 + r3], xm5 punpckhwd xm5, xm3, xm4 movq [r2 + r3 * 2], xm5 movhps [r2 + r4], xm5 RET %macro IPFILTER_LUMA_AVX2_8xN 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4, 7, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] mova m2, [h_tab_Lm + 32] ; register map ; m0 - interpolate coeff ; m1, m2 - shuffle order table sub r0, 3 lea r5, [r1 * 3] lea r6, [r3 * 3] mov r4d, %2 / 4 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m2 pshufb m3, m1 pmaddubsw m3, m0 pmaddubsw m4, m0 phaddw m3, m4 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 phaddw m3, m4 ; WORD [R1H R1G R1D R1C R0H R0G R0D R0C R1F R1E R1B R1A R0F R0E R0B R0A] pmulhrsw m3, [pw_512] ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 ; Row 3 vbroadcasti128 m5, [r0 + r5] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m6, m5, m2 pshufb m5, m1 pmaddubsw m5, m0 pmaddubsw m6, m0 phaddw m5, m6 phaddw m4, m5 ; WORD [R3H R3G R3D R3C R2H R2G R2D R2C R3F R3E R3B R3A R2F R2E R2B R2A] pmulhrsw m4, [pw_512] packuswb m3, m4 vextracti128 xm4, m3, 1 punpcklwd xm5, xm3, xm4 movq [r2], xm5 movhps [r2 + r3], xm5 punpckhwd xm5, xm3, xm4 movq [r2 + r3 * 2], xm5 movhps [r2 + r6], xm5 lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] dec r4d jnz .loop RET %endmacro IPFILTER_LUMA_AVX2_8xN 8, 8 IPFILTER_LUMA_AVX2_8xN 8, 16 IPFILTER_LUMA_AVX2_8xN 8, 32 %macro IPFILTER_LUMA_AVX2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, %2/2 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] ; second 8 elements in Row0 pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + r1] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + r1 + 8] ; second 8 elements in Row0 pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2+r3], xm5 lea r0, [r0 + r1 * 2] lea r2, [r2 + r3 * 2] dec r4d jnz .loop RET %endmacro %macro IPFILTER_LUMA_32x_avx2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, %2 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 24] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2 + 16], xm5 lea r0, [r0 + r1] lea r2, [r2 + r3] dec r4d jnz .loop RET %endmacro %macro IPFILTER_LUMA_64x_avx2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, %2 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 24] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2 + 16], xm5 vbroadcasti128 m4, [r0 + 32] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 40] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 48] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 56] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2 +32], xm4 movu [r2 + 48], xm5 lea r0, [r0 + r1] lea r2, [r2 + r3] dec r4d jnz .loop RET %endmacro INIT_YMM avx2 cglobal interp_8tap_horiz_pp_48x64, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, 64 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 24] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2 + 16], xm5 vbroadcasti128 m4, [r0 + 32] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 40] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 pmulhrsw m4, [pw_512] packuswb m4, m4 vpermq m4, m4, 11011000b pshufd xm4, xm4, 11011000b movu [r2 + 32], xm4 lea r0, [r0 + r1] lea r2, [r2 + r3] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_4x4, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vpbroadcastd m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 lea r0, [r3 * 3] movd [r2], xm3 pextrd [r2+r3], xm3, 2 pextrd [r2+r32], xm3, 1 pextrd [r2+r0], xm3, 3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_2x4, 4, 6, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif dec r0 lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 pshufb m1, [interp4_hpp_shuf] pmaddubsw m1, m0 pmaddwd m1, [pw_1] vextracti128 xm2, m1, 1 packssdw xm1, xm2 pmulhrsw xm1, [pw_512] packuswb xm1, xm1 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 2 pextrw [r2 + r4], xm1, 3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_2x8, 4, 6, 6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m4, [interp4_hpp_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 pmulhrsw m1, [pw_512] vextracti128 xm2, m1, 1 packuswb xm1, xm2 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 4 pextrw [r2 + r4], xm1, 5 lea r2, [r2 + r3 * 4] pextrw [r2], xm1, 2 pextrw [r2 + r3], xm1, 3 pextrw [r2 + r3 * 2], xm1, 6 pextrw [r2 + r4], xm1, 7 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_32x32, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 32 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2], m3 lea r2, [r2 + r3] lea r0, [r0 + r1] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_16x16, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 8 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET ;-------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_pp_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;-------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA 4, 4, pp IPFILTER_LUMA 4, 8, pp IPFILTER_LUMA 12, 16, pp IPFILTER_LUMA 4, 16, pp INIT_YMM avx2 cglobal interp_4tap_horiz_pp_8x8, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif movu m1, [h_tab_Tm] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 sub r0, 1 mov r4d, 2 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] lea r0, [r0 + r1 * 2] ; Row 2 vbroadcasti128 m4, [r0 ] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, [pw_512] packuswb m3, m4 mova m5, [interp_4tap_8x8_horiz_shuf] vpermd m3, m5, m3 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 lea r2, [r2 + r3 * 2] movq [r2], xm4 movhps [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r12] dec r4d jnz .loop RET IPFILTER_LUMA_AVX2 16, 4 IPFILTER_LUMA_AVX2 16, 8 IPFILTER_LUMA_AVX2 16, 12 IPFILTER_LUMA_AVX2 16, 16 IPFILTER_LUMA_AVX2 16, 32 IPFILTER_LUMA_AVX2 16, 64 IPFILTER_LUMA_32x_avx2 32 , 8 IPFILTER_LUMA_32x_avx2 32 , 16 IPFILTER_LUMA_32x_avx2 32 , 24 IPFILTER_LUMA_32x_avx2 32 , 32 IPFILTER_LUMA_32x_avx2 32 , 64 IPFILTER_LUMA_64x_avx2 64 , 64 IPFILTER_LUMA_64x_avx2 64 , 48 IPFILTER_LUMA_64x_avx2 64 , 32 IPFILTER_LUMA_64x_avx2 64 , 16 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_8x2, 4, 6, 5 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 pshufd xm3, xm3, 11011000b movq [r2], xm3 movhps [r2 + r3], xm3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_8x6, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] mova m6, [pw_512] lea r4, [r1 * 3] lea r5, [r3 * 3] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 movq [r2 + r3 * 2], xm4 movhps [r2 + r5], xm4 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] ; Row 4 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 5 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vextracti128 xm4, m3, 1 packuswb xm3, xm4 pshufd xm3, xm3, 11011000b movq [r2], xm3 movhps [r2 + r3], xm3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_6x8, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] mova m6, [pw_512] lea r4, [r1 * 3] lea r5, [r3 * 3] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 %rep 2 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vextracti128 xm4, m3, 1 movd [r2], xm3 pextrw [r2 + 4], xm4, 0 pextrd [r2 + r3], xm3, 1 pextrw [r2 + r3 + 4], xm4, 2 pextrd [r2 + r3 * 2], xm3, 2 pextrw [r2 + r3 * 2 + 4], xm4, 4 pextrd [r2 + r5], xm3, 3 pextrw [r2 + r5 + 4], xm4, 6 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] %endrep RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_64xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; %macro IPFILTER_CHROMA_HPS_64xN 1 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_64x%1, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %1 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 24] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 32], m3 vbroadcasti128 m3, [r0 + 32] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 40] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 64], m3 vbroadcasti128 m3, [r0 + 48] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 56] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 96], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET %endmacro IPFILTER_CHROMA_HPS_64xN 64 IPFILTER_CHROMA_HPS_64xN 32 IPFILTER_CHROMA_HPS_64xN 48 IPFILTER_CHROMA_HPS_64xN 16 ;----------------------------------------------------------------------------------------------------------------------------- ;void interp_horiz_ps_c(const pixel* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA_PS_4xN_AVX2 1 INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_horiz_ps_4x%1, 6,7,6 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] add r3d, r3d vbroadcasti128 m2, [pw_2000] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d mov r5d, %1 ; loop count variable - height jz .preloop lea r6, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src) - 3 * srcStride add r5d, 7 ; need extra 7 rows, just set a specially flag here, blkheight += N - 1 (7 - 3 = 4 ; since the last three rows not in loop) .preloop: lea r6, [r3 * 3] .loop: ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 ; shuffled based on the col order tab_Lm pmaddubsw m3, m0 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 phaddw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 2-3 lea r0, [r0 + r1 * 2] ;3rd row(i.e 2nd row) vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 phaddw m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] phaddw m3, m4 ; all rows and col completed. mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 psubw m3, m2 vextracti128 xm4, m3, 1 movq [r2], xm3 ;row 0 movhps [r2 + r3], xm3 ;row 1 movq [r2 + r3 * 2], xm4 ;row 2 movhps [r2 + r6], xm4 ;row 3 lea r0, [r0 + r1 * 2] ; first loop src ->5th row(i.e 4) lea r2, [r2 + r3 * 4] ; first loop dst ->5th row(i.e 4) sub r5d, 4 jz .end cmp r5d, 4 jge .loop ; Row 8-9 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 phaddw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 10 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 phaddw m4, m4 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] phaddw m3, m4 vpermd m3, m5, m3 ; m5 don't broken in above psubw m3, m2 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 movq [r2 + r3 * 2], xm4 .end: RET %endif %endmacro IPFILTER_LUMA_PS_4xN_AVX2 4 IPFILTER_LUMA_PS_4xN_AVX2 8 IPFILTER_LUMA_PS_4xN_AVX2 16 %macro IPFILTER_LUMA_PS_8xN_AVX2 1 ; TODO: verify and enable on X86 mode %if ARCH_X86_64 == 1 ; void filter_hps(const pixel* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx, int isRowExt) INIT_YMM avx2 cglobal interp_8tap_horiz_ps_8x%1, 4,7,6 mov r5d, r5m mov r4d, r4m shl r4d, 7 %ifdef PIC lea r6, [pb_LumaCoeffVer] add r6, r4 %else lea r6, [pb_LumaCoeffVer + r4] %endif add r3d, r3d vpbroadcastd m0, [pw_2000] sub r0, 3 lea r4, [pb_8tap_hps_0] vbroadcasti128 m5, [r4 + 0 * mmsize] ; check row count extend for interpolateHV test r5d, r5d; mov r5d, %1 jz .enter_loop lea r4, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r4 ; r0(src)-r8 add r5d, 8-1-2 ; blkheight += N - 1 (7 - 3 = 4 ; since the last three rows not in loop) .enter_loop: lea r4, [pb_8tap_hps_0] ; *** register map *** ; m0 - pw_2000 ; r4 - base pointer of shuffle order table ; r5 - count of loop ; r6 - point to LumaCoeff .loop: ; Row 0-1 movu xm1, [r0] movu xm2, [r0 + r1] vinserti128 m1, m1, xm2, 1 pshufb m2, m1, m5 ; [0 1 1 2 2 3 3 4 ...] pshufb m3, m1, [r4 + 1 * mmsize] ; [2 3 3 4 4 5 5 6 ...] pshufb m4, m1, [r4 + 2 * mmsize] ; [4 5 5 6 6 7 7 8 ...] pshufb m1, m1, [r4 + 3 * mmsize] ; [6 7 7 8 8 9 9 A ...] pmaddubsw m2, [r6 + 0 * mmsize] pmaddubsw m3, [r6 + 1 * mmsize] pmaddubsw m4, [r6 + 2 * mmsize] pmaddubsw m1, [r6 + 3 * mmsize] paddw m2, m3 paddw m1, m4 paddw m1, m2 psubw m1, m0 vextracti128 xm2, m1, 1 movu [r2], xm1 ; row 0 movu [r2 + r3], xm2 ; row 1 lea r0, [r0 + r1 * 2] ; first loop src ->5th row(i.e 4) lea r2, [r2 + r3 * 2] ; first loop dst ->5th row(i.e 4) sub r5d, 2 jg .loop jz .end ; last row movu xm1, [r0] pshufb xm2, xm1, xm5 ; [0 1 1 2 2 3 3 4 ...] pshufb xm3, xm1, [r4 + 1 * mmsize] ; [2 3 3 4 4 5 5 6 ...] pshufb xm4, xm1, [r4 + 2 * mmsize] ; [4 5 5 6 6 7 7 8 ...] pshufb xm1, xm1, [r4 + 3 * mmsize] ; [6 7 7 8 8 9 9 A ...] pmaddubsw xm2, [r6 + 0 * mmsize] pmaddubsw xm3, [r6 + 1 * mmsize] pmaddubsw xm4, [r6 + 2 * mmsize] pmaddubsw xm1, [r6 + 3 * mmsize] paddw xm2, xm3 paddw xm1, xm4 paddw xm1, xm2 psubw xm1, xm0 movu [r2], xm1 ;row 0 .end: RET %endif %endmacro ; IPFILTER_LUMA_PS_8xN_AVX2 IPFILTER_LUMA_PS_8xN_AVX2 4 IPFILTER_LUMA_PS_8xN_AVX2 8 IPFILTER_LUMA_PS_8xN_AVX2 16 IPFILTER_LUMA_PS_8xN_AVX2 32 %macro IPFILTER_LUMA_PS_16x_AVX2 2 INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_horiz_ps_%1x%2, 6, 10, 7 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r9, %2 ;height add r3d, r3d vbroadcasti128 m2, [pw_2000] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 xor r7, r7 ; loop count variable sub r0, 3 test r5d, r5d jz .label lea r8, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r8 ; r0(src)-r8 add r9, 7 ; blkheight += N - 1 (7 - 1 = 6 ; since the last one row not in loop) .label: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 phaddw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m6 ;row 1 (col 4 to 7) pshufb m4, m1 ;row 1 (col 0 to 3) pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] phaddw m3, m4 ; all rows and col completed. mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 psubw m3, m2 movu [r2], m3 ;row 0 lea r0, [r0 + r1] ; first loop src ->5th row(i.e 4) lea r2, [r2 + r3] ; first loop dst ->5th row(i.e 4) dec r9d jnz .label RET %endif %endmacro IPFILTER_LUMA_PS_16x_AVX2 16 , 16 IPFILTER_LUMA_PS_16x_AVX2 16 , 8 IPFILTER_LUMA_PS_16x_AVX2 16 , 12 IPFILTER_LUMA_PS_16x_AVX2 16 , 4 IPFILTER_LUMA_PS_16x_AVX2 16 , 32 IPFILTER_LUMA_PS_16x_AVX2 16 , 64 ;-------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_pp_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx) ;-------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA_PP_W8 2 INIT_XMM sse4 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] movh m3, [r5 + r4 * 8] %else movh m3, [h_tab_LumaCoeff + r4 * 8] %endif pshufd m0, m3, 0 ; m0 = coeff-L pshufd m1, m3, 0x55 ; m1 = coeff-H lea r5, [h_tab_Tm] ; r5 = shuffle mova m2, [pw_512] ; m2 = 512 mov r4d, %2 .loopH: %assign x 0 %rep %1 / 8 movu m3, [r0 - 3 + x] ; m3 = [F E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, [r5 + 016] ; m4 = [6 5 4 3 5 4 3 2 4 3 2 1 3 2 1 0] pshufb m5, m3, [r5 + 116] ; m5 = [A 9 8 7 9 8 7 6 8 7 6 5 7 6 5 4] pshufb m3, [r5 + 216] ; m3 = [E D C B D C B A C B A 9 B A 9 8] pmaddubsw m4, m0 pmaddubsw m6, m5, m1 pmaddubsw m5, m0 pmaddubsw m3, m1 paddw m4, m6 paddw m5, m3 phaddw m4, m5 pmulhrsw m4, m2 packuswb m4, m4 movh [r2 + x], m4 %assign x x+8 %endrep add r0, r1 add r2, r3 dec r4d jnz .loopH RET %endmacro IPFILTER_LUMA_PP_W8 8, 4 IPFILTER_LUMA_PP_W8 8, 8 IPFILTER_LUMA_PP_W8 8, 16 IPFILTER_LUMA_PP_W8 8, 32 IPFILTER_LUMA_PP_W8 16, 4 IPFILTER_LUMA_PP_W8 16, 8 IPFILTER_LUMA_PP_W8 16, 12 IPFILTER_LUMA_PP_W8 16, 16 IPFILTER_LUMA_PP_W8 16, 32 IPFILTER_LUMA_PP_W8 16, 64 IPFILTER_LUMA_PP_W8 24, 32 IPFILTER_LUMA_PP_W8 32, 8 IPFILTER_LUMA_PP_W8 32, 16 IPFILTER_LUMA_PP_W8 32, 24 IPFILTER_LUMA_PP_W8 32, 32 IPFILTER_LUMA_PP_W8 32, 64 IPFILTER_LUMA_PP_W8 48, 64 IPFILTER_LUMA_PP_W8 64, 16 IPFILTER_LUMA_PP_W8 64, 32 IPFILTER_LUMA_PP_W8 64, 48 IPFILTER_LUMA_PP_W8 64, 64 ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_ps_%1x%2(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA 4, 4, ps IPFILTER_LUMA 8, 8, ps IPFILTER_LUMA 8, 4, ps IPFILTER_LUMA 4, 8, ps IPFILTER_LUMA 16, 16, ps IPFILTER_LUMA 16, 8, ps IPFILTER_LUMA 8, 16, ps IPFILTER_LUMA 16, 12, ps IPFILTER_LUMA 12, 16, ps IPFILTER_LUMA 16, 4, ps IPFILTER_LUMA 4, 16, ps IPFILTER_LUMA 32, 32, ps IPFILTER_LUMA 32, 16, ps IPFILTER_LUMA 16, 32, ps IPFILTER_LUMA 32, 24, ps IPFILTER_LUMA 24, 32, ps IPFILTER_LUMA 32, 8, ps IPFILTER_LUMA 8, 32, ps IPFILTER_LUMA 64, 64, ps IPFILTER_LUMA 64, 32, ps IPFILTER_LUMA 32, 64, ps IPFILTER_LUMA 64, 48, ps IPFILTER_LUMA 48, 64, ps IPFILTER_LUMA 64, 16, ps IPFILTER_LUMA 16, 64, ps ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_2x%2(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA_2xN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 4, src, srcstride, dst, dststride %define coef2 m3 %define Tm0 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t1, [pw_2000] mova Tm0, [h_tab_Tm] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: movh t0, [srcq] pshufb t0, t0, Tm0 pmaddubsw t0, coef2 phaddw t0, t0 psubw t0, t1 movd [dstq], t0 lea srcq, [srcq + srcstrideq] lea dstq, [dstq + dststrideq] dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_2xN 2, 4 FILTER_HORIZ_CHROMA_2xN 2, 8 FILTER_HORIZ_CHROMA_2xN 2, 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_4x%2(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA_4xN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 4, src, srcstride, dst, dststride %define coef2 m3 %define Tm0 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t1, [pw_2000] mova Tm0, [h_tab_Tm] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: movh t0, [srcq] pshufb t0, t0, Tm0 pmaddubsw t0, coef2 phaddw t0, t0 psubw t0, t1 movlps [dstq], t0 lea srcq, [srcq + srcstrideq] lea dstq, [dstq + dststrideq] dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_4xN 4, 2 FILTER_HORIZ_CHROMA_4xN 4, 4 FILTER_HORIZ_CHROMA_4xN 4, 8 FILTER_HORIZ_CHROMA_4xN 4, 16 FILTER_HORIZ_CHROMA_4xN 4, 32 %macro PROCESS_CHROMA_W6 3 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movh [dstq], %2 pshufd %2, %2, 2 movd [dstq + 8], %2 %endmacro %macro PROCESS_CHROMA_W12 3 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movu [dstq], %2 movu %1, [srcq + 8] pshufb %1, %1, Tm0 pmaddubsw %1, coef2 phaddw %1, %1 psubw %1, %3 movh [dstq + 16], %1 %endmacro ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_6x%2(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 6, src, srcstride, dst, dststride %define coef2 m5 %define Tm0 m4 %define Tm1 m3 %define t2 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_2000] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: PROCESS_CHROMA_W%1 t0, t1, t2 add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA 6, 8 FILTER_HORIZ_CHROMA 12, 16 FILTER_HORIZ_CHROMA 6, 16 FILTER_HORIZ_CHROMA 12, 32 %macro PROCESS_CHROMA_W8 3 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movu [dstq], %2 %endmacro ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_8x%2(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA_8xN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 6, src, srcstride, dst, dststride %define coef2 m5 %define Tm0 m4 %define Tm1 m3 %define t2 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_2000] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: PROCESS_CHROMA_W8 t0, t1, t2 add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_8xN 8, 2 FILTER_HORIZ_CHROMA_8xN 8, 4 FILTER_HORIZ_CHROMA_8xN 8, 6 FILTER_HORIZ_CHROMA_8xN 8, 8 FILTER_HORIZ_CHROMA_8xN 8, 16 FILTER_HORIZ_CHROMA_8xN 8, 32 FILTER_HORIZ_CHROMA_8xN 8, 12 FILTER_HORIZ_CHROMA_8xN 8, 64 %macro PROCESS_CHROMA_W16 4 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq], %2 movu [dstq + 16], %4 %endmacro %macro PROCESS_CHROMA_W24 4 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq], %2 movu [dstq + 16], %4 movu %1, [srcq + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movu [dstq + 32], %2 %endmacro %macro PROCESS_CHROMA_W32 4 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq], %2 movu [dstq + 16], %4 movu %1, [srcq + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 24] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq + 32], %2 movu [dstq + 48], %4 %endmacro %macro PROCESS_CHROMA_W16o 5 movu %1, [srcq + %5] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + %5 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq + %5 * 2], %2 movu [dstq + %5 * 2 + 16], %4 %endmacro %macro PROCESS_CHROMA_W48 4 PROCESS_CHROMA_W16o %1, %2, %3, %4, 0 PROCESS_CHROMA_W16o %1, %2, %3, %4, 16 PROCESS_CHROMA_W16o %1, %2, %3, %4, 32 %endmacro %macro PROCESS_CHROMA_W64 4 PROCESS_CHROMA_W16o %1, %2, %3, %4, 0 PROCESS_CHROMA_W16o %1, %2, %3, %4, 16 PROCESS_CHROMA_W16o %1, %2, %3, %4, 32 PROCESS_CHROMA_W16o %1, %2, %3, %4, 48 %endmacro ;------------------------------------------------------------------------------------------------------------------------------ ; void interp_4tap_horiz_ps_%1x%2(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;------------------------------------------------------------------------------------------------------------------------------ %macro FILTER_HORIZ_CHROMA_WxN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 7, src, srcstride, dst, dststride %define coef2 m6 %define Tm0 m5 %define Tm1 m4 %define t3 m3 %define t2 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_2000] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: PROCESS_CHROMA_W%1 t0, t1, t2, t3 add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_WxN 16, 4 FILTER_HORIZ_CHROMA_WxN 16, 8 FILTER_HORIZ_CHROMA_WxN 16, 12 FILTER_HORIZ_CHROMA_WxN 16, 16 FILTER_HORIZ_CHROMA_WxN 16, 32 FILTER_HORIZ_CHROMA_WxN 24, 32 FILTER_HORIZ_CHROMA_WxN 32, 8 FILTER_HORIZ_CHROMA_WxN 32, 16 FILTER_HORIZ_CHROMA_WxN 32, 24 FILTER_HORIZ_CHROMA_WxN 32, 32 FILTER_HORIZ_CHROMA_WxN 16, 24 FILTER_HORIZ_CHROMA_WxN 16, 64 FILTER_HORIZ_CHROMA_WxN 24, 64 FILTER_HORIZ_CHROMA_WxN 32, 48 FILTER_HORIZ_CHROMA_WxN 32, 64 FILTER_HORIZ_CHROMA_WxN 64, 64 FILTER_HORIZ_CHROMA_WxN 64, 32 FILTER_HORIZ_CHROMA_WxN 64, 48 FILTER_HORIZ_CHROMA_WxN 48, 64 FILTER_HORIZ_CHROMA_WxN 64, 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_32x32(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_32x32, 4,6,8 mov r4d, r4m add r3d, r3d dec r0 ; check isRowExt cmp r5m, byte 0 lea r5, [h_tab_ChromaCoeff] vpbroadcastw m0, [r5 + r4 * 4 + 0] vpbroadcastw m1, [r5 + r4 * 4 + 2] mova m7, [pw_2000] ; register map ; m0 - interpolate coeff Low ; m1 - interpolate coeff High ; m7 - constant pw_2000 mov r4d, 32 je .loop sub r0, r1 add r4d, 3 .loop: ; Row 0 movu m2, [r0] movu m3, [r0 + 1] punpckhbw m4, m2, m3 punpcklbw m2, m3 pmaddubsw m4, m0 pmaddubsw m2, m0 movu m3, [r0 + 2] movu m5, [r0 + 3] punpckhbw m6, m3, m5 punpcklbw m3, m5 pmaddubsw m6, m1 pmaddubsw m3, m1 paddw m4, m6 paddw m2, m3 psubw m4, m7 psubw m2, m7 vperm2i128 m3, m2, m4, 0x20 vperm2i128 m5, m2, m4, 0x31 movu [r2], m3 movu [r2 + mmsize], m5 add r2, r3 add r0, r1 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_16x16(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_16x16, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 16 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_16xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PS_16xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_%1x%2, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %2 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET %endmacro IPFILTER_CHROMA_PS_16xN_AVX2 16 , 32 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 12 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 8 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 4 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 24 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 64 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_32xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PS_32xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_%1x%2, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %2 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 16] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 24] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 32], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET %endmacro IPFILTER_CHROMA_PS_32xN_AVX2 32 , 16 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 24 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 8 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 64 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 48 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_4x4(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_ps_4x4, 4,7,5 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 test r5d, r5d je .label sub r0 , r1 .label: ; Row 0-1 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] movu xm4, [r0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 movhps [r2 + r3], xm4 test r5d, r5d jz .end lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] ;Row 5-6 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 7 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 .end: RET cglobal interp_4tap_horiz_ps_4x2, 4,7,5 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 test r5d, r5d je .label sub r0 , r1 .label: ; Row 0-1 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 test r5d, r5d jz .end lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] ;Row 2-3 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 5 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 .end: RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_4xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; %macro IPFILTER_CHROMA_PS_4xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_%1x%2, 4,7,5 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r4, %2 dec r0 test r5d, r5d je .loop sub r0 , r1 .loop: sub r4d, 4 ; Row 0-1 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] movu xm4, [r0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 movhps [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] test r4d, r4d jnz .loop test r5d, r5d jz .end ;Row 5-6 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 7 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 .end: RET %endmacro IPFILTER_CHROMA_PS_4xN_AVX2 4 , 8 IPFILTER_CHROMA_PS_4xN_AVX2 4 , 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_8x8(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_8x8, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 4 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 1 .loop: dec r6d ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] test r6d, r6d jnz .loop test r5d, r5d je .end ;Row 11 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], xm3 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_4x2, 4,6,4 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; Row 0-1 movu xm2, [r0 - 1] vinserti128 m2, m2, [r0 + r1 - 1], 1 pshufb m2, m1 pmaddubsw m2, m0 pmaddwd m2, [pw_1] packssdw m2, m2 pmulhrsw m2, [pw_512] vextracti128 xm3, m2, 1 packuswb xm2, xm3 movd [r2], xm2 pextrd [r2+r3], xm2, 2 RET ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_32xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_32xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, %2 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2], m3 add r2, r3 add r0, r1 dec r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_32xN_AVX2 32, 16 IPFILTER_CHROMA_PP_32xN_AVX2 32, 24 IPFILTER_CHROMA_PP_32xN_AVX2 32, 8 IPFILTER_CHROMA_PP_32xN_AVX2 32, 64 IPFILTER_CHROMA_PP_32xN_AVX2 32, 48 ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_8xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_8xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif movu m1, [h_tab_Tm] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 sub r0, 1 mov r4d, %2 .loop: sub r4d, 4 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] lea r0, [r0 + r1 * 2] ; Row 2 vbroadcasti128 m4, [r0 ] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, [pw_512] packuswb m3, m4 mova m5, [interp_4tap_8x8_horiz_shuf] vpermd m3, m5, m3 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 lea r2, [r2 + r3 * 2] movq [r2], xm4 movhps [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r12] test r4d, r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_8xN_AVX2 8 , 16 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 32 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 4 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 64 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 12 ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_4xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vpbroadcastd m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] mov r4d, %2 ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 .loop: sub r4d, 4 ; Row 0-1 movu xm3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] movu xm4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 movd [r2], xm3 pextrd [r2+r3], xm3, 2 lea r2, [r2 + r3 * 2] pextrd [r2], xm3, 1 pextrd [r2+r3], xm3, 3 lea r0, [r0 + r1 * 2] lea r2, [r2 + r3 * 2] test r4d, r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_4xN_AVX2 4 , 8 IPFILTER_CHROMA_PP_4xN_AVX2 4 , 16 %macro IPFILTER_LUMA_PS_32xN_AVX2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_ps_%1x%2, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, %2 ;height add r3d, r3d vbroadcasti128 m2, [pw_1] mova m7, [h_interp8_hps_shuf] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_1 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r6 add r4d, 7 .label: lea r6, [pw_2000] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] pshufb m5, m4, m6 ;row 0 (col 12 to 15) pshufb m4, m1 ;row 0 (col 8 to 11) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 ; row 0 (col 20 to 23) pshufb m3, m1 ; row 0 (col 16 to 19) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 24] pshufb m5, m4, m6 ;row 0 (col 28 to 31) pshufb m4, m1 ;row 0 (col 24 to 27) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 32], m3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET %endmacro IPFILTER_LUMA_PS_32xN_AVX2 32 , 32 IPFILTER_LUMA_PS_32xN_AVX2 32 , 16 IPFILTER_LUMA_PS_32xN_AVX2 32 , 24 IPFILTER_LUMA_PS_32xN_AVX2 32 , 8 IPFILTER_LUMA_PS_32xN_AVX2 32 , 64 INIT_YMM avx2 cglobal interp_8tap_horiz_ps_48x64, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, 64 ;height add r3d, r3d vbroadcasti128 m2, [pw_2000] mova m7, [pw_1] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] ; r6 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src)-r6 add r4d, 7 ; blkheight += N - 1 (7 - 1 = 6 ; since the last one row not in loop) .label: lea r6, [h_interp8_hps_shuf] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] pshufb m5, m4, m6 ;row 0 (col 12 to 15) pshufb m4, m1 ;row 0 (col 8 to 11) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 ; row 0 (col 20 to 23) pshufb m3, m1 ; row 0 (col 16 to 19) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 24] pshufb m5, m4, m6 ;row 0 (col 28 to 31) pshufb m4, m1 ;row 0 (col 24 to 27) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2 + 32], m3 ;row 0 vbroadcasti128 m3, [r0 + 32] pshufb m4, m3, m6 ; row 0 (col 36 to 39) pshufb m3, m1 ; row 0 (col 32 to 35) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 40] pshufb m5, m4, m6 ;row 0 (col 44 to 47) pshufb m4, m1 ;row 0 (col 40 to 43) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2 + 64], m3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_8tap_horiz_pp_24x32, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] lea r5, [h_tab_Tm] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, 32 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [r5] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [r5] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [r5] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 packssdw m2, m2 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movq [r2 + 16], xm5 add r0, r1 add r2, r3 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_8tap_horiz_pp_12x16, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] lea r5, [h_tab_Tm] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, 8 .loop: ; Row 0 vbroadcasti128 m4, [r0] ;first 8 element pshufb m5, m4, m3 pshufb m4, [r5] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] ; element 8 to 11 pshufb m6, m5, m3 pshufb m5, [r5] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] ;Row 1 vbroadcasti128 m2, [r0 + r1] pshufb m5, m2, m3 pshufb m2, [r5] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + r1 + 8] pshufb m6, m5, m3 pshufb m5, [r5] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movq [r2], xm4 pextrd [r2+8], xm4, 2 movq [r2 + r3], xm5 pextrd [r2+r3+8], xm5, 2 lea r0, [r0 + r1 * 2] lea r2, [r2 + r3 * 2] dec r4d jnz .loop RET ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_16xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_16xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, %2/2 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_16xN_AVX2 16 , 8 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 32 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 12 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 4 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 64 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 24 %macro IPFILTER_LUMA_PS_64xN_AVX2 1 INIT_YMM avx2 cglobal interp_8tap_horiz_ps_64x%1, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, %1 ;height add r3d, r3d vbroadcasti128 m2, [pw_1] mova m7, [h_interp8_hps_shuf] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] sub r0, r6 ; r0(src)-r6 add r4d, 7 ; blkheight += N - 1 .label: lea r6, [pw_2000] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] pshufb m5, m4, m6 ;row 0 (col 12 to 15) pshufb m4, m1 ;row 0 (col 8 to 11) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 ; row 0 (col 20 to 23) pshufb m3, m1 ; row 0 (col 16 to 19) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 24] pshufb m5, m4, m6 ;row 0 (col 28 to 31) pshufb m4, m1 ;row 0 (col 24 to 27) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 32], m3 ;row 0 vbroadcasti128 m3, [r0 + 32] pshufb m4, m3, m6 ; row 0 (col 36 to 39) pshufb m3, m1 ; row 0 (col 32 to 35) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 40] pshufb m5, m4, m6 ;row 0 (col 44 to 47) pshufb m4, m1 ;row 0 (col 40 to 43) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 64], m3 ;row 0 vbroadcasti128 m3, [r0 + 48] pshufb m4, m3, m6 ; row 0 (col 52 to 55) pshufb m3, m1 ; row 0 (col 48 to 51) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 56] pshufb m5, m4, m6 ;row 0 (col 60 to 63) pshufb m4, m1 ;row 0 (col 56 to 59) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 96], m3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET %endmacro IPFILTER_LUMA_PS_64xN_AVX2 64 IPFILTER_LUMA_PS_64xN_AVX2 48 IPFILTER_LUMA_PS_64xN_AVX2 32 IPFILTER_LUMA_PS_64xN_AVX2 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_8xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PS_8xN_AVX2 1 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_8x%1, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %1/2 dec r0 test r5d, r5d jz .loop sub r0 , r1 inc r6d .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r6d jnz .loop test r5d, r5d jz .end ;Row 11 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], xm3 .end: RET %endmacro IPFILTER_CHROMA_PS_8xN_AVX2 2 IPFILTER_CHROMA_PS_8xN_AVX2 32 IPFILTER_CHROMA_PS_8xN_AVX2 16 IPFILTER_CHROMA_PS_8xN_AVX2 6 IPFILTER_CHROMA_PS_8xN_AVX2 4 IPFILTER_CHROMA_PS_8xN_AVX2 12 IPFILTER_CHROMA_PS_8xN_AVX2 64 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_2x4, 4, 7, 3 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova xm3, [pw_2000] dec r0 test r5d, r5d jz .label sub r0, r1 .label: lea r6, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r6] vinserti128 m1, m1, xm2, 1 pshufb m1, [interp4_hpp_shuf] pmaddubsw m1, m0 pmaddwd m1, [pw_1] vextracti128 xm2, m1, 1 packssdw xm1, xm2 psubw xm1, xm3 lea r4, [r3 * 3] movd [r2], xm1 pextrd [r2 + r3], xm1, 1 pextrd [r2 + r3 * 2], xm1, 2 pextrd [r2 + r4], xm1, 3 test r5d, r5d jz .end lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] vinserti128 m1, m1, xm2, 1 pshufb m1, [interp4_hpp_shuf] pmaddubsw m1, m0 pmaddwd m1, [pw_1] vextracti128 xm2, m1, 1 packssdw xm1, xm2 psubw xm1, xm3 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 pextrd [r2 + r3 * 2], xm1, 2 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_ps_2x8, 4, 7, 7 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m6, [pw_2000] test r5d, r5d jz .label sub r0, r1 .label: mova m4, [interp4_hpp_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] ;row 0 movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 psubw m1, m6 lea r4, [r3 * 3] vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 pextrd [r2 + r4], xm2, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm1, 2 pextrd [r2 + r3], xm1, 3 pextrd [r2 + r3 * 2], xm2, 2 pextrd [r2 + r4], xm2, 3 test r5d, r5d jz .end lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] movq xm1, [r0] ;row 0 movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] vinserti128 m1, m1, xm2, 1 pshufb m1, m4 pmaddubsw m1, m0 pmaddwd m1, m5 packssdw m1, m1 psubw m1, m6 vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_12x16, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 8 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movq [r2], xm3 pextrd [r2+8], xm3, 2 movq [r2 + r3], xm4 pextrd [r2 + r3 + 8],xm4, 2 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_24x32, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 32 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movq [r2 + 16], xm4 add r2, r3 add r0, r1 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_6x8(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_6x8, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 8/2 dec r0 test r5d, r5d jz .loop sub r0 , r1 inc r6d .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movq [r2], xm3 pextrd [r2 + 8], xm3, 2 movq [r2 + r3], xm4 pextrd [r2 + r3 + 8], xm4, 2 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r6d jnz .loop test r5d, r5d jz .end ;Row 11 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vextracti128 xm4, m3, 1 movq [r2], xm3 movd [r2+8], xm4 .end: RET INIT_YMM avx2 cglobal interp_8tap_horiz_ps_12x16, 6, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] add r3d, r3d vbroadcasti128 m2, [pw_2000] mov r4d, 16 vbroadcasti128 m7, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - pw_2000 mova m5, [h_interp8_hps_shuf] sub r0, 3 test r5d, r5d jz .loop lea r6, [r1 * 3] ; r6 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src)-r6 add r4d, 7 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 pshufb m3, m1 ; shuffled based on the col order tab_Lm pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m7 packssdw m4, m4 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vpermd m3, m5, m3 psubw m3, m2 vextracti128 xm4, m3, 1 movu [r2], xm3 ;row 0 movq [r2 + 16], xm4 ;row 1 add r0, r1 add r2, r3 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_8tap_horiz_ps_24x32, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, 32 ;height add r3d, r3d vbroadcasti128 m2, [pw_2000] vbroadcasti128 m7, [pw_1] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] ; r6 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src)-r6 add r4d, 7 ; blkheight += N - 1 (7 - 1 = 6 ; since the last one row not in loop) .label: lea r6, [h_interp8_hps_shuf] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m6 ;row 1 (col 4 to 7) pshufb m4, m1 ;row 1 (col 0 to 3) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 pshufb m3, m1 pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m4, [r6] vpermd m3, m4, m3 psubw m3, m2 movu [r2 + 32], xm3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_24x32(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_ps_24x32, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 32 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 32], xm3 add r2, r3 add r0, r1 dec r6d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------- ;macro FILTER_H8_W8_16N_AVX2 ;----------------------------------------------------------------------------------------------------------------------- %macro FILTER_H8_W8_16N_AVX2 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m6 ;row 1 (col 4 to 7) pshufb m4, m1 ;row 1 (col 0 to 3) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 ; all rows and col completed. mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 psubw m3, m8 vextracti128 xm4, m3, 1 mova [r4], xm3 mova [r4 + 16], xm4 %endmacro ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_64xN(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_64xN_AVX2 1 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_64x%1, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, %1 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 32] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 36] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 48] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 52] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2 + 32], m3 add r2, r3 add r0, r1 dec r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_64xN_AVX2 64 IPFILTER_CHROMA_PP_64xN_AVX2 32 IPFILTER_CHROMA_PP_64xN_AVX2 48 IPFILTER_CHROMA_PP_64xN_AVX2 16 ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_48x64(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_pp_48x64, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 64 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, q3120 movu [r2], m3 vbroadcasti128 m3, [r0 + mmsize] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + mmsize + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + mmsize + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + mmsize + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, q3120 movu [r2 + mmsize], xm3 add r2, r3 add r0, r1 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_48x64(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_48x64, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 64 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 24] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2 + 32], m3 vbroadcasti128 m3, [r0 + 32] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 40] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2 + 64], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_24x64(pixel src, intptr_t srcStride, int16_t dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_ps_24x64, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 64 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, q3120 movu [r2 + 32], xm3 add r2, r3 add r0, r1 dec r6d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_ps_2x16, 4, 7, 7 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m6, [pw_2000] test r5d, r5d jz .label sub r0, r1 .label: mova m4, [interp4_hps_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] ;row 0 movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 psubw m1, m6 lea r4, [r3 * 3] vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 pextrd [r2 + r4], xm2, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm1, 2 pextrd [r2 + r3], xm1, 3 pextrd [r2 + r3 * 2], xm2, 2 pextrd [r2 + r4], xm2, 3 lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 psubw m1, m6 lea r4, [r3 * 3] vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 pextrd [r2 + r4], xm2, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm1, 2 pextrd [r2 + r3], xm1, 3 pextrd [r2 + r3 * 2], xm2, 2 pextrd [r2 + r4], xm2, 3 test r5d, r5d jz .end lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] vinserti128 m1, m1, xm2, 1 pshufb m1, m4 pmaddubsw m1, m0 pmaddwd m1, m5 packssdw m1, m1 psubw m1, m6 vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_6x16, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] mova m6, [pw_512] lea r4, [r1 * 3] lea r5, [r3 * 3] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 %rep 4 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vextracti128 xm4, m3, 1 movd [r2], xm3 pextrw [r2 + 4], xm4, 0 pextrd [r2 + r3], xm3, 1 pextrw [r2 + r3 + 4], xm4, 2 pextrd [r2 + r3 * 2], xm3, 2 pextrw [r2 + r3 * 2 + 4], xm4, 4 pextrd [r2 + r5], xm3, 3 pextrw [r2 + r5 + 4], xm4, 6 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] %endrep RET ;----------------------------------------------------------------------------- ; void interp_8tap_hv_pp_16x16(pixel src, intptr_t srcStride, pixel dst, intptr_t dstStride, int idxX, int idxY) ;----------------------------------------------------------------------------- INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_hv_pp_16x16, 4, 10, 15, 0-3132 %define stk_buf1 rsp mov r4d, r4m mov r5d, r5m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif xor r6, r6 mov r4, rsp mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r8, 16 ;height vbroadcasti128 m8, [pw_2000] vbroadcasti128 m2, [pw_1] sub r0, 3 lea r7, [r1 * 3] ; r7 = (N / 2 - 1) * srcStride sub r0, r7 ; r0(src)-r7 add r8, 7 .loopH: FILTER_H8_W8_16N_AVX2 add r0, r1 add r4, 32 inc r6 cmp r6, 16+7 jnz .loopH ; vertical phase xor r6, r6 xor r1, r1 .loopV: ;load necessary variables mov r4d, r5d ;coeff here for vertical is r5m shl r4d, 7 mov r1d, 16 add r1d, r1d ; load intermedia buffer mov r0, stk_buf1 ; register mapping ; r0 - src ; r5 - coeff ; r6 - loop_i ; load coeff table %ifdef PIC lea r5, [h_pw_LumaCoeffVer] add r5, r4 %else lea r5, [h_pw_LumaCoeffVer + r4] %endif lea r4, [r13] mova m14, [h_pd_526336] lea r6, [r3 3] mov r9d, 16 / 8 .loopW: PROCESS_LUMA_AVX2_W8_16R sp add r2, 8 add r0, 16 dec r9d jnz .loopW RET %endif INIT_YMM avx2 cglobal interp_4tap_horiz_pp_12x32, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 16 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movq [r2], xm3 pextrd [r2+8], xm3, 2 movq [r2 + r3], xm4 pextrd [r2 + r3 + 8],xm4, 2 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_24x64, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 64 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movq [r2 + 16], xm4 add r2, r3 add r0, r1 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_2x16, 4, 6, 6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m4, [interp4_hpp_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 pmulhrsw m1, [pw_512] vextracti128 xm2, m1, 1 packuswb xm1, xm2 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 4 pextrw [r2 + r4], xm1, 5 lea r2, [r2 + r3 * 4] pextrw [r2], xm1, 2 pextrw [r2 + r3], xm1, 3 pextrw [r2 + r3 * 2], xm1, 6 pextrw [r2 + r4], xm1, 7 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 pmulhrsw m1, [pw_512] vextracti128 xm2, m1, 1 packuswb xm1, xm2 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 4 pextrw [r2 + r4], xm1, 5 lea r2, [r2 + r3 * 4] pextrw [r2], xm1, 2 pextrw [r2 + r3], xm1, 3 pextrw [r2 + r3 * 2], xm1, 6 pextrw [r2 + r4], xm1, 7 RET
dasm/mkarg.asm	ceharris/sbz80	0	90522	<reponame>ceharris/sbz80<gh_stars>0 name mkarg include defs.asm extern flag_table extern reg_r_table extern reg_qq_table extern reg_ss_table cseg ;--------------------------------------------------------------- ; mkflag: ; ; Makes an argument structure for flag `f`. ; ; On entry: ; IX -> target argument structure ; A = flag `f` ; ; On return: ; argument structure filled in ; all registers except AF are preserved ; mkflag:: push bc push hl ld b,a ; save specified flag ; get flag symbol index from lookup table ; start by getting offset into flag lookup table ld hl,flag_table ld a,l add a,b ld l,a adc a,h sub l ld h,a ; HL -> entry for flag `f` ld a,(hl) ; get symbol index ld (ix+st_arg_flags),mask_flag ld (ix+st_arg_v),a ld (ix+st_arg_v+1),0 ld (ix+st_arg_disp),0 pop hl pop bc ret ;--------------------------------------------------------------- ; mkregr: ; ; Makes an argument structure for register `r`. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; HL -> next byte of instruction under decode ; A = register `r` ; ; On return: ; argument structure filled in ; HL is incremented if the instruction is indexed ; all registers except AF are preserved ; mkregr:: push bc ; is `r` the indirect register? cp reg_indirect jr nz,mkregr_10 ld (ix+st_arg_flags),mask_register\|mask_indirect ld a,(iy+st_dasm_preg) ; get pointer register symbol ld (ix+st_arg_v),a ; set indexed flag and displacement if indexed instruction cp reg_HL jr z,mkregr_20 set arg_indexed,(ix+st_arg_flags) ld a,(hl) inc hl ld (ix+st_arg_disp),a ; save displacement jr mkregr_20 mkregr_10: ld b,a ; save specified register ; get register symbol index from lookup table ; start by getting offset into register lookup table push hl ld hl,reg_r_table ld a,l add a,b ld l,a adc a,h sub l ld h,a ; HL -> entry for register `r` ld a,(hl) ; get symbol index pop hl ld (ix+st_arg_flags),mask_register ld (ix+st_arg_v),a mkregr_20: pop bc ret ;--------------------------------------------------------------- ; mkregqq: ; ; Makes an argument structure for register pair `qq`. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; A = register `qq` ; ; On return: ; argument structure filled in ; all registers except AF are preserved ; mkregqq:: push bc push hl ld hl,reg_qq_table jr mkregrr ;--------------------------------------------------------------- ; mkregss: ; ; Makes an argument structure for register pair `ss`. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; A = register `ss` ; ; On return: ; argument structure filled in ; all registers except AF are preserved ; mkregss:: push bc push hl ld hl,reg_ss_table mkregrr: ; is `rr` the pointer register? cp reg_pointer jr nz,mkregrr_10 ld a,(iy+st_dasm_preg) ; get pointer register symbol jr mkregrr_20 mkregrr_10: ld b,a ; save specified register ; get register symbol index from lookup table ; start by getting offset into register lookup table ld a,l add a,b ld l,a adc a,h sub l ld h,a ; HL -> entry for register `r` ld a,(hl) ; get symbol index mkregrr_20: ld (ix+st_arg_flags),mask_register ld (ix+st_arg_v),a ld (ix+st_arg_disp),0 pop hl pop bc ret ;--------------------------------------------------------------- ; mkreg: ; ; Makes an argument structure for a register argument using ; the specified register symbol. ; ; On entry: ; IX -> target argument structure ; A = register symbol ; C = displacement ; On return: ; all registers preserved ; mkreg:: ld (ix+st_arg_flags),mask_register ld (ix+st_arg_v),a ld (ix+st_arg_disp),c ret ;--------------------------------------------------------------- ; mkregi: ; ; Makes an argument structure for a register indirect argument ; using the specified register symbol. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; A = register symbol ; C = displacement ; On return: ; all registers preserved ; mkregi:: push af ld (ix+st_arg_flags),mask_register \| mask_indirect ld (ix+st_arg_v),a ld (ix+st_arg_v+1),0 ld a,(iy+st_dasm_preg) cp reg_HL jr z,mkregi_10 set arg_indexed,(ix+st_arg_flags) ld (ix+st_arg_disp),c mkregi_10: pop af ret ;--------------------------------------------------------------- ; mkaadd: ; ; Makes an argument structure for an absolute (immediate) address. ; On entry: ; BC = address ; On return: ; all registers preserved ; mkaadd:: ld (ix+st_arg_flags),mask_immediate \| mask_extended ld (ix+st_arg_v),c ld (ix+st_arg_v+1),b ret ;--------------------------------------------------------------- ; mkiadd: ; ; Makes an argument structure for an indirect address. ; ; On entry: ; BC = address ; On return: ; all registers preserved ; mkiadd:: ld (ix+st_arg_flags),mask_immediate \| mask_extended \| mask_indirect ld (ix+st_arg_v),c ld (ix+st_arg_v+1),b ret ;--------------------------------------------------------------- ; mkradd: ; ; Makes an argument structure for an relative address. ; ; On entry: ; C = displacement ; On return: ; all registers preserved ; mkradd:: ld (ix+st_arg_flags),mask_immediate \| mask_disp ld (ix+st_arg_v),c ret ;--------------------------------------------------------------- ; mkimm: ; ; Makes an argument structure for an 8-bit immediate operand ; ; On entry: ; C = operand ; On return: ; all registers preserved ; mkimm:: ld (ix+st_arg_flags),mask_immediate ld (ix+st_arg_v),c ret ;--------------------------------------------------------------- ; mkilit: ; ; Makes an argument structure for an implicit literal operand ; (e.g. for the BIT or IM instructions). ; ; On entry: ; A = operand ; On return: ; all registers preserved ; mkilit:: ld (ix+st_arg_flags),mask_implicit ld (ix+st_arg_v),a ret ;--------------------------------------------------------------- ; mkzadd: ; ; Makes an argument structure for an implicit zero-page address ; operand; e.g. for the RST instruction. ; ; On entry: ; A = operand ; On return: ; all registers preserved ; mkzadd:: ld (ix+st_arg_flags),mask_implicit \| mask_flag ld (ix+st_arg_v),a ret
Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_2382.asm	ljhsiun2/medusa	9	246431	<reponame>ljhsiun2/medusa .global s_prepare_buffers s_prepare_buffers: push %r12 push %r8 push %rax push %rbp push %rcx push %rdi push %rdx push %rsi lea addresses_A_ht+0x143b4, %r8 nop nop cmp %rbp, %rbp mov (%r8), %rax nop nop nop nop xor $18273, %rdx lea addresses_UC_ht+0x12c14, %rsi lea addresses_WC_ht+0xa1d4, %rdi nop nop nop cmp %r12, %r12 mov $91, %rcx rep movsw nop nop and %rdx, %rdx lea addresses_normal_ht+0xdd70, %rdx nop nop nop nop nop cmp $30574, %rcx movups (%rdx), %xmm4 vpextrq $0, %xmm4, %rbp inc %rcx lea addresses_WT_ht+0x196d4, %rcx nop nop dec %r12 mov $0x6162636465666768, %r8 movq %r8, %xmm2 vmovups %ymm2, (%rcx) nop nop and %rdi, %rdi lea addresses_D_ht+0x18fd4, %rax clflush (%rax) nop cmp %r8, %r8 mov (%rax), %r12d nop nop nop nop and $5365, %rax lea addresses_A_ht+0xb631, %rax nop nop nop sub %r8, %r8 movb $0x61, (%rax) nop nop nop nop xor $36875, %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rbp pop %rax pop %r8 pop %r12 ret .global s_faulty_load s_faulty_load: push %r12 push %r15 push %r9 push %rax push %rbx push %rcx // Faulty Load lea addresses_WC+0x141d4, %rbx nop nop nop add $19160, %r15 mov (%rbx), %r12w lea oracles, %r9 and $0xff, %r12 shlq $12, %r12 mov (%r9,%r12,1), %r12 pop %rcx pop %rbx pop %rax pop %r9 pop %r15 pop %r12 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 32, 'same': True, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 2, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 5, 'size': 8, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 5, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 11, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 1, 'size': 16, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'congruent': 8, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 9, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': False, 'NT': False}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48_notsx.log_21829_1433.asm	ljhsiun2/medusa	9	3313	.global s_prepare_buffers s_prepare_buffers: ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi // Store lea addresses_UC+0x12dd, %r14 nop nop xor %rcx, %rcx mov $0x5152535455565758, %r9 movq %r9, %xmm2 and $0xffffffffffffffc0, %r14 vmovaps %ymm2, (%r14) nop nop cmp $45532, %rax // Load lea addresses_WT+0xd76d, %rax add %r9, %r9 movups (%rax), %xmm3 vpextrq $1, %xmm3, %r14 nop nop sub $9621, %r9 // Store lea addresses_normal+0x24bd, %rcx nop xor $45137, %rax mov $0x5152535455565758, %r9 movq %r9, %xmm6 vmovups %ymm6, (%rcx) xor %r9, %r9 // Load lea addresses_PSE+0x1bcef, %rcx nop nop and $57560, %rdx mov (%rcx), %r11 nop dec %r11 // Store lea addresses_PSE+0xcedd, %r14 nop nop nop nop nop lfence movw $0x5152, (%r14) nop nop nop nop cmp $30200, %rsi // Store lea addresses_UC+0x69dd, %rdx nop nop sub $19596, %rcx movb $0x51, (%rdx) nop nop sub %rcx, %rcx // REPMOV lea addresses_WC+0x1edd, %rsi lea addresses_PSE+0x196dd, %rdi clflush (%rdi) xor %r11, %r11 mov $49, %rcx rep movsq nop cmp %rsi, %rsi // Store lea addresses_WT+0x16dd, %rdx nop nop nop add %r11, %r11 mov $0x5152535455565758, %rdi movq %rdi, (%rdx) nop cmp $52062, %rcx // Faulty Load lea addresses_WC+0x1edd, %r14 nop nop dec %r11 movb (%r14), %dl lea oracles, %r9 and $0xff, %rdx shlq $12, %rdx mov (%r9,%rdx,1), %rdx pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WC', 'congruent': 0}} {'dst': {'same': False, 'NT': False, 'AVXalign': True, 'size': 32, 'type': 'addresses_UC', 'congruent': 10}, 'OP': 'STOR'} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 16, 'type': 'addresses_WT', 'congruent': 3}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_normal', 'congruent': 5}, 'OP': 'STOR'} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': True, 'size': 8, 'type': 'addresses_PSE', 'congruent': 0}} {'dst': {'same': False, 'NT': False, 'AVXalign': True, 'size': 2, 'type': 'addresses_PSE', 'congruent': 9}, 'OP': 'STOR'} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_UC', 'congruent': 8}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 11, 'type': 'addresses_PSE'}, 'OP': 'REPM', 'src': {'same': True, 'congruent': 0, 'type': 'addresses_WC'}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WT', 'congruent': 10}, 'OP': 'STOR'} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_WC', 'congruent': 0}} <gen_prepare_buffer> {'38': 21829} 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 */
45/beef/drv/csd/src/update1.asm	minblock/msdos	0	244053	;* included in: ;* tandy, ibmcvt NonStandard FvmGetCur NonStandard ModeGetCur NonStandard FInitCsd NonStandard DoUpdateCsd ;******** FvmGetCur ******** ;* entry: DS:DI => driver data ;* * if first time called, identify the current screen and set fvmCur ;* * subsequent calls will return fvmCur ;* * After this call: fvmCur is initialized ;* exit: AL == fvm for current screen (0 => no supported screen found) ;* AH == monitor cProc FvmGetCur, <NEAR, PUBLIC, ATOMIC>, <DS> cBegin FvmGetCur AssertEQ di,OFF_lpwDataCsd mov ax,-1 mov [di].fvmCurAdap,al mov [di].fvmCurDisp,ah cEnd FvmGetCur ;******** ModeGetCur ******* ;* entry: n/a ;* * get current machine mode ;* exit: al = mode, ah = ayMac (or 0 if unknown) cProc ModeGetCur, <NEAR, PUBLIC, ATOMIC>, <ES> cBegin ModeGetCur push bx mov ah,0fh int 10h ;* get current state, return al = mode and al,7Fh ;* mask off clear video buffer bit. pop bx mov ah,25 ;default cEnd ModeGetCur ;******** FInitCsd ******** ;* entry: ;* pinch = near pointer to INCH structure to fill ;* * Initialize the screen to the given mode ;* exit: AX != 0 if ok cProc FInitCsd, <FAR, PUBLIC, ATOMIC>, <ds,di> parmDP pinst parmDP pinch localB modeCur cBegin FInitCsd mov di,OFF_lpwDataCsd ;* Data in data segment ;* * save old mode cCall ModeGetCur ;* al = mode, ah = ayMac mov modeCur,al ;* current mode mov bx,pinst cmp ds:[bx].ayMacInst,ah je @F ;* same resolution mov modeCur,0 ;* cause mode reset @@: ;* * set mode mov [di].pinstDrv,bx mov bx,ds:[bx].pdmInst ;* CS:BX => DM info ;* * copy mode info into driver globals mov ax,cs:[bx].vparmCursOnDm mov [di].vparmCursOn,ax mov [di].vparmCursSize,ax mov ax,cs:[bx].wExtraDm mov [di].wExtra,ax mov al,cs:[bx].modeDm cmp al,modeCur jne @F jmp finitdone ;same mode, no reset @@: xor ah,ah ;* set mode ;* REVIEW: always clear RGEN ?? mov al,cs:[bx].modeDm int 10h mov ax,40H mov es,ax mov al,cs:[bx].ayMacDm dec al ; rows - 1 mov byte ptr es:[0084H],al ;* update BIOS rows finitdone: test cs:[bx].finstDm,finstGraphics jz @F mov [di].SEG_lpbFont,segROM ;load PC ROM Font mov [di].OFF_lpbFont,0FA6Eh mov [di].ayBox,8 jmp short exitF @@: ;* * normally the INCH array would be copied (but since it is already ;* * setup in DATA just leave it alone). ;* * Do other diddling cCall DiddleBlinkBit exitF: mov ax,sp ;* success cEnd FInitCsd ;******** DoUpdateCsd ******** ;* entry: ;* parameters just like PrepUpdateCsd ;* * after primary buffer has been updated ;* * For BIOS version -- send to screen ;* * for Kanji -- parse for DBCS boundaries (OAX) ;* exit: n/a cProc DoUpdateCsd,<FAR, PUBLIC, ATOMIC>, <DS, ES, SI, DI> parmB ayLine parmB axFirst parmB dax ;* will never be 0 parmW offFirst parmW fRestoreDbcs ;* => restore DBCS 1/2 characters localB axCurs localB axCurrent localB flastattr ;check repeat attribute localB ifgd ;needed for mode A (640x200x4) localB ibkgd localB curattr localW wTemp localV LocalChar,8 ;storage of char bit map for ffont mode localB iMode cBegin DoUpdateCsd cmp dax,0 ja DoUpdateChar jmp end_update DoUpdateChar: mov di,OFF_lpwDataCsd ;* Data in data segment mov bx,[di].pinstDrv test ss:[bx].finstInst,finstGraphics ;graphics text 8x14 jnz graf_update jmp done_graf_update graf_update: mov ax,[di].posCurs ;for cursor drawing mov axCurs,-1 mov axCurrent,0 cmp byte ptr [di].fCurs,0 ;cursor on ? je NoCursUpdate cmp ah,ayLine ;check if cursor on ayLine jne NoCursUpdate cmp al,axFirst ;check if cursor outside axFirst jb NoCursUpdate mov axCurs,al ;need to update cursor mov al,axFirst mov axCurrent,al NoCursUpdate: mov si,ds:[bx].pdmInst mov dl,cs:[si].modeDm ;save video mode in dl mov iMode,dl mov ds,ds:[bx].psPrimInst ;* DS:SI => primary buffer ;* * DS:SI => start character in primary buffer ;* * SS:BX => INST info ;* * SS:DI => Driver data ;*** Graphics Text ** ;* * ;* * mov flastattr,0 ;initialize with black:black mov cx,ss:[di].ayBox shr cx,1 ;memory interleave addressing xor ax,ax ;calculate start of screen address mov al,ayLine mul cx mov cx,80 mul cx xor cx,cx mov cl,axFirst IFDEF TANDYCSD cmp iMode,0Ah jne @F shl cx,1 ;Tandy's 4-color mode, 2 bytes/char @@: ENDIF add ax,cx ;ax = ayLine x 80 x ayBox + axFirst mov di,ax ;point to video buffer xor cx,cx mov cl,dax ;no. of char to be updated mov si,offFirst ;* 640x200x2(x4) graphics out_next_char1: lodsw ;load character+attribute mov curattr,ah ;save color attribute push cx mov wTemp,di ;save di mov di,OFF_lpwDataCsd mov cx,ss:[di].ayBox ;calculate character table address push ds ;save pointer to primary buffer push si mov si,ss:[di].OFF_lpbFont ;default mov ds,ss:[di].SEG_lpbFont mov dx,ax ;save char + attribute cmp al,80h jb first128 ;use extend font (128 - 255) push cs pop ds mov si,drvOffset rgbCGAExFont8x8 ;see cga8x8.inc sub al,80h first128: xor ah,ah mul cl add si,ax ;ds:[si] -> char bit map mov ax,ss mov es,ax lea di,LocalChar ;es:[di] -> local storage rep movsb ;copy char bit map into local area mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox test ss:[bx].finstInst,finstMonochrome ;Test for mono jz @F cmp curattr,70H ;highlighting ? jne @F lea si,LocalChar loopnot: not byte ptr ss:[si] inc si loop loopnot mov cx,ss:[di].ayBox @@: mov ds,ax lea si,LocalChar cmp ss:[bx].psSecInst,0 ;is sec. buffer allocated ? je notfont8 test ss:[bx].finstInst,finstFont ;ffont mode ? jz notfont8 mov ax,dx ;save char pop di ;si -> di push di mov es,ss:[bx].psSecInst ;es:[di] => ffont buffer mov dx,es:[di-2] ;dx = ffont word or dl,dl ;normal ? jz notfont8 cmp al,' ' ;check spaces jne notspace1 test dl,ffontUnderline or ffontDoubleUnderline or ffontStrikeThrough or ffontOrCharacter jz notfont8 notspace1: cCall ChrisPFont mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox notfont8: mov al,axCurrent ;cursor position ? cmp al,axCurs jne CursOff1 mov di,OFF_lpwDataCsd push si mov cx,ss:[di].vparmCursOn xchg ch,cl xor ch,ch add si,cx mov cx,ss:[di].vparmCursOn sub cl,ch xor ch,ch ;cx = thickness of the cursor outCurs1: ;display the cursor not byte ptr [si] inc si loop outCurs1 pop si mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox CursOff1: IFDEF TANDYCSD mov dh,curattr cmp dh,flastattr ;same attr ? je @F mov flastattr,dh ;update attribute mov dl,curattr mov al,dl ;al = foreground and al,03h mov cl,4 shr dl,cl ;dl = background value and dl,03h mov ifgd,al mov ibkgd,dl mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox @@: ;* same attribute ENDIF mov ax,0B800h ;CGA video segment mov es,ax mov di,wTemp ;restore di IFDEF TANDYCSD cmp iMode,0Ah jne NotMode0Ah ;;;4-color graphics mode push bx out_1_byte: lodsb ;al=bit pattern mov bl,al ;fgd = 1 mov dl,ifgd and dl,1 jnz @F not bl @@: mov bh,bl cmp ifgd,1 jb @F cmp ifgd,2 ja @F not bh @@: mov ah,al and bx,ax ;bkgd = 00 (black) push bx ;save fgd pattern not al mov bl,al ;fgd = 1 mov dl,ibkgd and dl,1 jnz @F not bl @@: mov bh,bl cmp ibkgd,1 jb @F cmp ibkgd,2 ja @F not bh @@: mov ah,al and bx,ax ;fgd = 00 (black) pop ax ;restore fgd pattern or ax,bx ;merge fgd & bkgd stosw ;update one line add di,2000h-2 ;go to next line jns @F add di,-8000h+160 @@: loop out_1_byte pop bx mov di,wTemp inc di ;next char inc di ;2 bytes/char jmp NextChar NotMode0Ah: ENDIF ;;;mono graphics mode mov ax,1FFFh mov dx,79-2000h out_one_byte: ;output the character movsb add di,ax xchg ax,dx loop out_one_byte mov di,wTemp inc di ;next char NextChar: inc axCurrent ;bump update position pop si pop ds pop cx ;restore dax dec cx jz out_done1 jmp out_next_char1 out_done1: done_graf_update: IFDEF KANJI ;* * For the OAX, we parse what we have printed and set the attribute ;* * byte to 0 for the second byte of double byte characters. cmp fRestoreDbcs,0 jne end_update mov si,offFirst xor cx,cx mov cl,dax ;* # of bytes loop_parse_dbcs: lodsw ;* get char(al) + attribute(ah) JmpNotDbc parse_single ;* * second byte follows inc si ;* skip 2nd char mov byte ptr ds:[si],0 ;* clear attrib inc si AssertNE cx,1 ;* must be enough dec cx parse_single: loop loop_parse_dbcs ENDIF ;KANJI end_update: cEnd DoUpdateCsd include cga8x8.inc ; extend font (128 - 255) NonStandard BltArcCsd ;******** BltArcCsd ******** ;* * CSD entry point (see documentation for interface) ;* entry : axSrc, aySrc : upper left of source ;* axDest, ayDest : upper left of destination ;* dax, day : shift amount ;* * Move a rectangle from one portion of the screen to another. ;* exit : n/a cProc BltArcCsd,<FAR, PUBLIC, ATOMIC>, <SI,DI,DS> parmB axDest parmB ayDest parmB dax parmB day parmB axSrc parmB aySrc localW cRows cBegin BltArcCsd mov di,OFF_lpwDataCsd ;* Data in data segment mov bx,[di].pinstDrv ;* * SS:BX => INST info ;* * SS:DI => Driver data ;set up Src pointer si mov cx,ss:[di].ayBox shr cx,1 ;memory interleave mov al,80 ;assume 80 columns (IBM) mul cl ; mov bx,ax ;bx = 80 * charHeight mov cl,aySrc mul cx mov cl,axSrc add ax,cx ;ax = ay x 80 x Height + ax mov si,ax ;si points to starting byte Src ;set up Dest pointer di ;assume (Scroll down) Hi -> Lo memory mov ax,bx mov cl,ayDest mul cx mov cl,axDest add ax,cx mov cx,ss:[di].ayBox ;for later use mov di,ax mov al,day mul cl ;ax = ayBox * day mov cRows,ax ;total scan rows needed to be blt mov cl,ayDest cmp cl,aySrc jb fwd ja bkwd ;ayDest = aySrc mov cl,axDest cmp cl,axSrc jb fwd bkwd: ;have to blt backward (Lo -> Hi memory) ;(Scroll up) shr ax,1 dec ax mov cx,80 mul cx mov cl,dax dec cx add ax,cx ;ax = block offset add ax,2000h ;start blt from odd line add di,ax ;si, di point to end of block add si,ax std ;set direction flag fwd: mov ax,0B800h mov ds,ax ;ds,es point to video buffer mov es,ax mov cx,cRows Blt1: mov ax,si mov bx,di mov dx,cx ; push si ; push di ; push cx xor ch,ch mov cl,dax rep movsb ;load latches/store video memory ; pop cx ; pop di ; pop si mov cx,dx mov di,bx mov si,ax cmp di,si jb bf ;blt backward cmp si,2000h jb @F mov dx,-2000h jmp short Blt2 @@: mov dx,2000h - 80 jmp short Blt2 bf: ;blt forward cmp si,2000h jb @F mov dx,-2000h + 80 jmp short Blt2 @@: mov dx,2000h Blt2: add si,dx add di,dx loop Blt1 cld ;clear direction flag cEnd BltArcCsd NonStandard GetCharMapCsd ;******** GetCharMapCsd ******** ;* entry: pinft, ch, pbitmap ;* * copy character bit map into buffer cProc GetCharMapCsd, <FAR, ATOMIC, PUBLIC>, <DS,SI,DI> parmDP pinft parmB char parmDP pbitmap cBegin GetCharMapCsd mov di,pinft ;* ds:di => INFT xor ch,ch mov cl,ds:[di].dyCharInft mov al,char cmp al,128 jb @F sub al,128 mov dx,cs mov ds,dx mov si,drvOffset rgbCGAExFont8x8 ;see cga8x8.inc jmp short RetFonts @@: mov dx,0F000h mov ds,dx mov si,0FA6Eh RetFonts: mul cl add si,ax ;ds:si => character bit map mov ax,ss mov es,ax mov di,pbitmap ;es:di => destination rep movsb cEnd GetCharMapCsd
test/Succeed/Issue5434.agda	KDr2/agda	0	15150	<gh_stars>0 {-# OPTIONS --two-level --cubical-compatible #-} open import Agda.Primitive data D₁ : SSet → SSet (lsuc lzero) where c : (@0 A : SSet) → A → D₁ A data D₂ : Set → SSet (lsuc lzero) where c : (@0 A : Set) → A → D₂ A
models/hol/sygus/integer_benchmarks/max-5.als	johnwickerson/alloystar	2	4072	open max -------------------------------------------------------------------------------- -- Variables -------------------------------------------------------------------------------- one sig X, Y, Z, U, V extends IntVar {} -------------------------------------------------------------------------------- -- Commands -------------------------------------------------------------------------------- run synthIntNodeI for 13 but -1..3 Int, 0 IntLit, 0 BoolLit, 0 BoolVar, 0 BinaryIntOp, 0 UnaryIntOp, 0 GT, 0 LT, 0 Xor, 0 Nand, 0 Nor, 0 BoolInvComp run synthIntNodeI for 0 but -1..3 Int, exactly 4 ITE, exactly 4 GTE
oeis/141/A141187.asm	neoneye/loda-programs	11	99222	<reponame>neoneye/loda-programs ; A141187: Primes of the form -x^2+6xy+3y^2 (as well as of the form 8x^2+12xy+3*y^2). ; Submitted by <NAME> ; 3,11,23,47,59,71,83,107,131,167,179,191,227,239,251,263,311,347,359,383,419,431,443,467,479,491,503,563,587,599,647,659,683,719,743,827,839,863,887,911,947,971,983,1019,1031,1091,1103,1151,1163,1187,1223 mul $0,2 lpb $0 sub $0,1 mov $2,$0 mov $0,1 div $2,2 seq $2,68231 ; Primes congruent to 11 mod 12. sub $2,3 lpe mov $0,$2 add $0,3
test/Fail/TypeConstructorsWhichPreserveGuardedness1.agda	hborum/agda	3	344	-- Note that the flag --guardedness-preserving-type-constructors is -- not (should not be) enabled in this module. module TypeConstructorsWhichPreserveGuardedness1 where open import Common.Coinduction record ⊤ : Set where data _⊎_ (A B : Set) : Set where inj₁ : A → A ⊎ B inj₂ : B → A ⊎ B record ∃ {A : Set} (B : A → Set) : Set where constructor _,_ field proj₁ : A proj₂ : B proj₁ data Rec (A : ∞ Set) : Set where fold : ♭ A → Rec A module ℕ₁ where -- Without the flag, the following is non-terminating, -- hence, not reduced. {-# NON_TERMINATING #-} ℕ : Set ℕ = ⊤ ⊎ Rec (♯ ℕ) zero : ℕ zero = inj₁ _ -- yields a type error since ℕ does not reduce suc : ℕ → ℕ suc n = inj₂ (fold n) ℕ-rec : (P : ℕ → Set) → P zero → (∀ n → P n → P (suc n)) → ∀ n → P n ℕ-rec P z s (inj₁ _) = z ℕ-rec P z s (inj₂ (fold n)) = s n (ℕ-rec P z s n) module ℕ₂ where data ℕC : Set where ′zero : ℕC ′suc : ℕC mutual ℕ : Set ℕ = ∃ λ (c : ℕC) → ℕ′ c ℕ′ : ℕC → Set ℕ′ ′zero = ⊤ ℕ′ ′suc = Rec (♯ ℕ) zero : ℕ zero = (′zero , _) suc : ℕ → ℕ suc n = (′suc , fold n) ℕ-rec : (P : ℕ → Set) → P zero → (∀ n → P n → P (suc n)) → ∀ n → P n ℕ-rec P z s (′zero , _) = z ℕ-rec P z s (′suc , fold n) = s n (ℕ-rec P z s n)
T4/E4T1.asm	abphilip-vit/College3	2	22747	ORG 0000H HERE: MOV P0, #55H MOV P1, #55H MOV P2, #55H ACALL DELAY MOV P0, #0AAH MOV P1, #0AAH MOV P2, #0AAH ACALL DELAY SJMP HERE DELAY: MOV R1, #200 BACK: MOV R2, #200 AGAIN: DJNZ R2, AGAIN DJNZ R1, BACK RET END
FormalAnalyzer/models/apps/Outdoorlights.als	Mohannadcse/IoTCOM_BehavioralRuleExtractor	0	4184	module app_Outdoorlights open IoTBottomUp as base open cap_runIn open cap_now open cap_contactSensor open cap_switch open cap_illuminanceMeasurement open cap_userInput one sig app_Outdoorlights extends IoTApp { contact1 : some cap_contactSensor, switches : some cap_switch, lightSensor : one cap_illuminanceMeasurement, time : one cap_userInput, state : one cap_state, } { rules = r //capabilities = contact1 + switches + lightSensor + time + state } abstract sig cap_userInput_attr_time_val extends cap_userInput_attr_value_val {} one sig cap_userInput_attr_time_val0 extends cap_userInput_attr_time_val {} one sig cap_state extends cap_runIn {} { attributes = cap_state_attr + cap_runIn_attr } abstract sig cap_state_attr extends Attribute {} one sig cap_state_attr_lastStatus extends cap_state_attr {} { values = cap_state_attr_lastStatus_val } abstract sig cap_state_attr_lastStatus_val extends AttrValue {} one sig cap_state_attr_lastStatus_val_on extends cap_state_attr_lastStatus_val {} one sig cap_state_attr_lastStatus_val_off extends cap_state_attr_lastStatus_val {} one sig cap_state_attr_motionStopTime extends cap_state_attr {} { values = cap_state_attr_motionStopTime_val } abstract sig cap_state_attr_motionStopTime_val extends AttrValue {} //one sig cap_state_attr_lastStatus_val_on extends cap_state_attr_lastStatus_val {} abstract sig cap_user_attr_time extends cap_userInput_attr {} { values = cap_user_attr_time_val } abstract sig cap_user_attr_time_val extends cap_userInput_attr_value_val {} one sig cap_user_attr_time_val_0 extends cap_user_attr_time_val {} one sig range_0,range_1,range_2 extends cap_illuminanceMeasurement_attr_illuminance_val {} abstract sig r extends Rule {} one sig r0 extends r {}{ no triggers conditions = r0_cond commands = r0_comm } abstract sig r0_cond extends Condition {} one sig r0_cond0 extends r0_cond {} { capabilities = app_Outdoorlights.state attribute = cap_runIn_attr_runIn value = cap_runIn_attr_runIn_val_on } abstract sig r0_comm extends Command {} one sig r0_comm0 extends r0_comm {} { capability = app_Outdoorlights.switches attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_off } one sig r1 extends r {}{ triggers = r1_trig conditions = r1_cond commands = r1_comm } abstract sig r1_trig extends Trigger {} one sig r1_trig0 extends r1_trig {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance no value } abstract sig r1_cond extends Condition {} one sig r1_cond0 extends r1_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val - cap_state_attr_lastStatus_val_off } one sig r1_cond1 extends r1_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_2//cap_illuminanceMeasurement_attr_illuminance_val_Range2 } abstract sig r1_comm extends Command {} one sig r1_comm0 extends r1_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r2 extends r {}{ triggers = r2_trig conditions = r2_cond commands = r2_comm } abstract sig r2_trig extends Trigger {} /* one sig r2_trig0 extends r2_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_openening } / one sig r2_trig1 extends r2_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_open } abstract sig r2_cond extends Condition {} one sig r2_cond0 extends r2_cond {} { capabilities = app_Outdoorlights.time attribute = cap_user_attr_time value = cap_user_attr_time_val - cap_user_attr_time_val_0 } abstract sig r2_comm extends Command {} one sig r2_comm0 extends r2_comm {} { capability = app_Outdoorlights.state attribute = cap_runIn_attr_runIn value = cap_runIn_attr_runIn_val_on } one sig r3 extends r {}{ triggers = r3_trig conditions = r3_cond commands = r3_comm } abstract sig r3_trig extends Trigger {} one sig r3_trig0 extends r3_trig {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance no value } abstract sig r3_cond extends Condition {} one sig r3_cond0 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r3_cond1 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_motionStopTime value = cap_state_attr_motionStopTime_val } one sig r3_cond2 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val - cap_state_attr_lastStatus_val_off } one sig r3_cond3 extends r3_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_1 } one sig r3_cond4 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_motionStopTime value = cap_state_attr_motionStopTime_val } abstract sig r3_comm extends Command {} one sig r3_comm0 extends r3_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r4 extends r {}{ triggers = r4_trig conditions = r4_cond commands = r4_comm } abstract sig r4_trig extends Trigger {} / one sig r4_trig0 extends r4_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_openening } / one sig r4_trig1 extends r4_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_open } abstract sig r4_cond extends Condition {} abstract sig r4_comm extends Command {} one sig r4_comm0 extends r4_comm {} { capability = app_Outdoorlights.switches attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } / one sig r5 extends r {}{ no triggers conditions = r5_cond commands = r5_comm } abstract sig r5_cond extends Condition {} abstract sig r5_comm extends Command {} one sig r5_comm0 extends r5_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_riseTime value = cap_state_attr_riseTime_val } one sig r5_comm1 extends r5_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_setTime value = cap_state_attr_setTime_val } */ one sig r6 extends r {}{ triggers = r6_trig conditions = r6_cond commands = r6_comm } abstract sig r6_trig extends Trigger {} one sig r6_trig0 extends r6_trig {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance no value } abstract sig r6_cond extends Condition {} one sig r6_cond0 extends r6_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r6_cond1 extends r6_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_motionStopTime value = cap_state_attr_motionStopTime_val } one sig r6_cond2 extends r6_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_1 } one sig r6_cond3 extends r6_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val - cap_state_attr_lastStatus_val_on } one sig r6_cond4 extends r6_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_0 } abstract sig r6_comm extends Command {} one sig r6_comm0 extends r6_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_on }
puzzle_13/src/puzzle_13.adb	AdaForge/Advent_of_Code_2020	0	2936	procedure Puzzle_13 is begin null; end Puzzle_13;
programs/oeis/161/A161345.asm	neoneye/loda	22	167195	<reponame>neoneye/loda ; A161345: Numbers k whose largest divisor <= sqrt(k) is 3. ; 9,12,15,18,21,27,33,39,51,57,69,87,93,111,123,129,141,159,177,183,201,213,219,237,249,267,291,303,309,321,327,339,381,393,411,417,447,453,471,489,501,519,537,543,573,579,591,597,633,669,681,687,699,717,723 seq $0,161346 ; a(n) = A161345(n)/3. mul $0,3
test/Succeed/Issue1324.agda	redfish64/autonomic-agda	3	8925	------------------------------------------------------------------------ -- Library stuff data ⊥ : Set where record ⊤ : Set where constructor tt data Bool : Set where true false : Bool if_then_else_ : ∀ {A : Set} → Bool → A → A → A if true then t else f = t if false then t else f = f data ℕ : Set where zero : ℕ suc : ℕ → ℕ {-# BUILTIN NATURAL ℕ #-} _∸_ : ℕ → ℕ → ℕ m ∸ zero = m zero ∸ suc n = zero suc m ∸ suc n = m ∸ n _≤_ : ℕ → ℕ → Bool zero ≤ n = true suc m ≤ zero = false suc m ≤ suc n = m ≤ n data _⊎_ (A : Set) (B : Set) : Set where inj₁ : (x : A) → A ⊎ B inj₂ : (y : B) → A ⊎ B [_,_]₁ : ∀ {A : Set} {B : Set} {C : A ⊎ B → Set₁} → ((x : A) → C (inj₁ x)) → ((x : B) → C (inj₂ x)) → ((x : A ⊎ B) → C x) [ f , g ]₁ (inj₁ x) = f x [ f , g ]₁ (inj₂ y) = g y data _≡_ {A : Set}(x : A) : A → Set where refl : x ≡ x record Σ (X : Set) (Y : X → Set) : Set where constructor _,_ field proj₁ : X proj₂ : Y proj₁ _×_ : Set → Set → Set X × Y = Σ X λ _ → Y record Sig : Set₁ where constructor _◃_ field Parameter : Set Arity : Parameter → Set open Sig public ⟦_⟧ : Sig → Set → Set ⟦ P ◃ A ⟧ X = Σ P λ p → A p → X Alg : Sig → Set → Set Alg Σ X = ⟦ Σ ⟧ X → X data μ (C : Sig) : Set where sup : Alg C (μ C) const^C : Set → Sig const^C X = X ◃ λ _ → ⊥ _⊎^C_ : Sig → Sig → Sig (P₁ ◃ A₁) ⊎^C (P₂ ◃ A₂) = (P₁ ⊎ P₂) ◃ [ A₁ , A₂ ]₁ _⋆^C_ : Sig → Set → Sig C ⋆^C X = const^C X ⊎^C C _⋆_ : Sig → Set → Set C ⋆ X = μ (C ⋆^C X) do : ∀ {C X} → Alg C (C ⋆ X) do (p , k) = sup (inj₂ p , k) record Monad (T : Set → Set) : Set₁ where infixl 1 _>>=_ field return : ∀ {X} → X → T X _>>=_ : ∀ {X Y} → T X → (X → T Y) → T Y monad : ∀ {Σ} → Monad (_⋆_ Σ) monad {Σ} = record { return = λ x → sup (inj₁ x , λ ()) ; _>>=_ = _>>=_ } where _>>=_ : ∀ {X Y} → Σ ⋆ X → (X → Σ ⋆ Y) → Σ ⋆ Y sup (inj₁ x , _) >>= f = f x sup (inj₂ p , k) >>= f = do (p , λ a → k a >>= f) generic : ∀ {Σ} (p : Parameter Σ) → Σ ⋆ Arity Σ p generic p = do (p , return) where open Monad monad ------------------------------------------------------------------------ -- Example Π : (X : Set) → (X → Set) → Set Π X Y = (x : X) → (X ◃ Y) ⋆ Y x call : ∀ {X Y} → Π X Y call x = generic x dom : ∀ {X Y} → ∀ {x} → (X ◃ Y) ⋆ Y x → (X → Set) → Set dom (sup (inj₁ _ , _)) R = ⊤ dom {Y = Y} (sup (inj₂ x , k)) R = R x × ((y : Y x) → dom (k y) R) data Dom {X}{Y} (f : (x : X) → (X ◃ Y) ⋆ Y x) : X → Set where ⟨_⟩ : ∀ {x} → dom (f x) (Dom f) → Dom f x dom-map : ∀ {X Y} {R₁ R₂ : X → Set} {x} {w : (X ◃ Y) ⋆ Y x} → (∀ {x} → R₁ x → R₂ x) → dom w R₁ → dom w R₂ dom-map {w = sup (inj₁ _ , _)} f _ = tt dom-map {w = sup (inj₂ _ , _)} f (y₁ , k) = f y₁ , λ y₂ → dom-map f (k y₂) {-# TERMINATING #-} bove-capretta : ∀ {X Y} (f : Π X Y) → (x : X) → Dom f x → Y x bove-capretta {X}{Y} f x ⟨ d ⟩ = helper (f x) (dom-map (λ {x′} → bove-capretta f x′) d) where helper : ∀ {x} (w : (X ◃ Y) ⋆ Y x) → dom w Y → Y x helper (sup (inj₁ y , _)) _ = y helper (sup (inj₂ _ , k)) (d , dk) = helper (k d) (dk d) module _ where open Monad monad gcd : Π (ℕ × ℕ) (λ _ → ℕ) gcd (0 , n) = return n gcd (m , 0) = return m gcd (suc m , suc n) = if m ≤ n then call (suc m , (n ∸ m)) else call ((m ∸ n) , suc n) acc : Dom gcd (8 , 12) acc = ⟨ ⟨ ⟨ ⟨ _ ⟩ , _ ⟩ , _ ⟩ , _ ⟩ -- ⟨ ⟨ ⟨ ⟨ tt ⟩ , (λ _ → tt) ⟩ , (λ _ → tt) ⟩ , (λ _ → tt) ⟩ test-gcd′ : bove-capretta gcd (8 , 12) acc ≡ 4 test-gcd′ = refl
Sources/Interfaces/screenshots.ads	ForYouEyesOnly/Space-Convoy	1	23639	<reponame>ForYouEyesOnly/Space-Convoy -- -- Jan & <NAME>, Australia, July 2011 -- package Screenshots is procedure Take_Shot; end Screenshots;
oeis/021/A021914.asm	neoneye/loda-programs	11	172790	; A021914: Expansion of 1/((1-x)(1-4x)(1-8x)(1-10x)). ; Submitted by <NAME> ; 1,23,355,4635,55371,627243,6866155,73433195,772592491,8032358763,82776456555,847393109355,8630981813611,87566313375083,885715453576555,8937574526027115,90019110908986731,905338057186084203,9094556248256546155,91274968260234970475,915384930289721279851,9174931290260247414123,91917968824962999125355,920528935722339183363435,9216083337380365339460971,92247185216560641317012843,923162666913667116052514155,9237153187145175981596869995,92415744015615875176593098091,924511137309855981819128448363 mov $1,1 mov $2,1 mov $3,2 lpb $0 sub $0,1 mul $1,10 mul $3,8 add $3,2 add $1,$3 mul $2,4 add $2,1 sub $1,$2 lpe mov $0,$1
oeis/291/A291000.asm	neoneye/loda-programs	11	24512	; A291000: p-INVERT of (1,1,1,1,1,...), where p(S) = 1 - S - S^2 - S^3. ; Submitted by <NAME>(w2) ; 1,3,9,26,74,210,596,1692,4804,13640,38728,109960,312208,886448,2516880,7146144,20289952,57608992,163568448,464417728,1318615104,3743926400,10630080640,30181847168,85694918912,243312448256,690833811712,1961475291648,5569190816256,15812529721856,44896306205696,127473487567872,361933784892416,1027633801709568,2917747042404352,8284320532563968,23521561564057600,66784458210783232,189620227652030464,538386200893104128,1528632809385861120,4340226889275088896,12323148721343119360,34988952947043844096 add $0,1 mov $1,1 mov $2,1 lpb $0 sub $0,1 mul $3,2 add $3,$1 add $1,$2 add $2,$3 lpe mov $0,$2 div $0,2

audio/music/meetrival.asm

adhi-thirumala/EvoYellow

16

83023

Music_MeetRival_branch_b119:: tempo 100 loopchannel 0, Music_MeetRival_branch_b123 Music_MeetRival_Ch1:: tempo 112 Music_MeetRival_branch_b123:: volume 7, 7 duty 3 vibrato 6, 3, 4 toggleperfectpitch notetype 12, 11, 3 octave 4 D_ 1 C# 1 C_ 1 octave 3 B_ 1 A# 2 A_ 1 G# 1 G_ 1 F# 1 F_ 6 D_ 1 rest 3 D_ 1 rest 5 A_ 2 G_ 2 A_ 2 Music_MeetRival_branch_b140:: B_ 4 A# 2 A_ 4 G_ 2 octave 4 C_ 4 D_ 2 rest 4 D_ 4 C# 2 C_ 2 octave 3 B_ 2 octave 4 C_ 4 E_ 2 D_ 4 C_ 2 octave 3 B_ 4 octave 4 C_ 2 rest 4 G_ 4 G_ 2 F# 2 E_ 2 D_ 2 F# 2 octave 3 A_ 2 octave 4 D_ 2 F# 2 octave 3 A_ 2 octave 4 D_ 2 octave 3 D_ 2 octave 4 D_ 2 rest 2 octave 3 D_ 2 octave 4 C_ 4 octave 3 B_ 2 A# 2 B_ 2 octave 4 C_ 2 F_ 2 octave 3 G_ 2 octave 4 C_ 2 F_ 2 D# 2 C_ 2 octave 3 A# 2 G_ 2 rest 4 A# 4 octave 4 C_ 2 octave 3 A# 2 octave 4 C_ 2 notetype 12, 11, 7 octave 3 G_ 4 D_ 2 F_ 6 F# 4 D_ 2 rest 4 D_ 4 notetype 12, 11, 3 A_ 2 G_ 2 A_ 2 loopchannel 0, Music_MeetRival_branch_b140 Music_MeetRival_branch_b19b:: tempo 100 loopchannel 0, Music_MeetRival_branch_b1a5 Music_MeetRival_branch_b1a2:: tempo 112 Music_MeetRival_branch_b1a5:: volume 7, 7 duty 3 vibrato 6, 3, 4 toggleperfectpitch notetype 12, 11, 3 octave 3 D_ 1 rest 3 D_ 1 rest 5 A_ 2 G_ 2 A_ 2 loopchannel 0, Music_MeetRival_branch_b140 Music_MeetRival_Ch2:: duty 3 vibrato 10, 2, 6 notetype 12, 12, 7 octave 4 B_ 1 A# 1 A_ 1 G# 1 G_ 2 F# 1 F_ 1 E_ 1 D# 1 D_ 6 octave 3 G_ 1 rest 3 G_ 1 rest 3 D_ 1 rest 1 octave 4 D_ 2 F_ 2 F# 2 Music_MeetRival_branch_b1d8:: notetype 12, 12, 7 G_ 4 D_ 2 F_ 6 F# 4 G_ 2 rest 4 G_ 4 G_ 2 A# 2 B_ 2 octave 5 C_ 4 octave 4 G_ 2 A# 6 B_ 4 octave 5 C_ 2 rest 4 C_ 4 C_ 2 octave 4 B_ 2 octave 5 C_ 2 notetype 12, 11, 0 D_ 16 notetype 12, 11, 5 D_ 6 notetype 12, 12, 7 F_ 4 D_ 2 C_ 2 D_ 2 notetype 12, 11, 0 C_ 8 notetype 12, 12, 7 C_ 8 octave 4 C_ 2 rest 4 A# 4 G_ 2 F_ 2 notetype 12, 11, 0 G_ 16 notetype 12, 11, 3 G_ 2 octave 3 G_ 2 rest 4 G_ 4 octave 4 D_ 2 F_ 2 F# 2 loopchannel 0, Music_MeetRival_branch_b1d8 Music_MeetRival_branch_b21d:: duty 3 vibrato 10, 2, 6 notetype 12, 12, 7 octave 3 G_ 1 rest 3 G_ 1 rest 3 D_ 1 rest 1 octave 4 D_ 2 F_ 2 F# 2 loopchannel 0, Music_MeetRival_branch_b1d8 Music_MeetRival_Ch3:: notetype 12, 1, 4 octave 5 D_ 2 rest 2 C# 2 rest 2 C_ 2 rest 2 octave 4 B_ 2 rest 2 G_ 1 rest 3 G_ 1 rest 3 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 Music_MeetRival_branch_b24b:: G_ 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 octave 4 G_ 2 rest 4 octave 5 D_ 4 octave 4 G_ 2 A# 2 B_ 2 G_ 2 octave 5 C_ 2 octave 4 G_ 2 rest 2 octave 5 C_ 2 octave 4 G_ 2 rest 2 B_ 2 octave 5 C_ 2 rest 4 C_ 4 C_ 2 octave 4 B_ 2 A_ 2 F# 2 A_ 2 rest 2 F# 2 A_ 2 F# 2 rest 2 A_ 2 F# 2 A_ 2 rest 2 F# 2 A_ 2 F# 2 octave 5 D_ 2 octave 4 A_ 2 E_ 2 octave 5 C_ 2 rest 2 octave 4 E_ 2 octave 5 C_ 2 octave 4 E_ 2 F_ 2 G_ 2 E_ 2 rest 4 E_ 2 octave 5 C_ 2 octave 4 B_ 2 A# 2 A_ 2 G_ 2 A# 2 rest 2 G_ 2 A# 2 G_ 2 rest 2 A# 2 G_ 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 octave 4 G_ 2 rest 2 octave 5 D_ 2 loopchannel 0, Music_MeetRival_branch_b24b Music_MeetRival_branch_b2b5:: notetype 12, 1, 4 octave 4 G_ 1 rest 3 G_ 1 rest 3 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 G_ 1 rest 1 loopchannel 0, Music_MeetRival_branch_b24b

zxn_rom3call.asm

imneme/specnext-p3call-z88dk

0

168549

<gh_stars>0 SECTION code_compiler GLOBAL _zxn_rom3call zxn_rom3call_adjstack: ;; stack: retaddr, af, bc, de, hl, ix exx ld hl, 10 add hl, sp ld sp, hl exx ;; stack: retaddr ret ;; on entry, the we have pushed ;; continuation, romaddr, hl', af, bc, de, hl, ix, retaddr _zxn_rom3call: ;; stack: continuation, romaddr, hl', af, bc, de, hl, ix, retaddr pop af ; return address ex af,af' ;; stack: continuation, romaddr, hl', af, bc, de, hl, ix pop de ; stash value for ix in de' ;; stack: continuation, romaddr, hl', af, bc, de, hl exx pop hl ; load main registers for call: hl, de, bc, af ;; stack: continuation, romaddr, hl', af, bc, de pop de ;; stack: continuation, romaddr, hl', af, bc pop bc ;; stack: continuation, romaddr, hl', af pop af ;; stack: continuation, romaddr, hl' exx pop hl ; also load hl' for call (because we can?) ;; stack: continuation, romaddr pop bc ; bc = subroutine to call ;; stack: continuation ex af,af' push af ; stash retaddr on the stack ex af,af' ;; stack: continuation, retaddr push ix ; stash ix (used by zsdcc, must be preserved) ;; stack: continuation, retaddr, ix push iy ; also stash iy (may be messed with by newlib) ;; stack: continuation, retaddr, ix, iy ld iy, $5c3a ; set back to the proper value, ERR_NR ld ixh, d ; load ix for the call ld ixl, e ; ld de, afterwards ; put our own return address on the stack push de ; by hand ;; stack: continuation, retaddr, ix, (our return addr) push bc ;; stack: continuation, retaddr, ix, afterwards, romaddr exx ; move primary registers into place ret ; indirect jump to rom address via return afterwards: ;; stack: continuation, retaddr, ix, iy pop iy ; recover iy ;; stack: continuation, retaddr, ix exx ld d,ixh ; stash ix into de ld e,ixl pop ix ; recover ix (to make zsdcc happy) ;; stack: continuation, retaddr pop bc ; recover retaddr into a spare register ;; stack: continuation pop hl ; recover continuation into hl to jump later ;; stack: (empty) push bc ; start with the return address, underneath all ;; stack: retaddr exx push af ; push main register values for continuation fn ;; stack: retaddr, af push bc ;; stack: retaddr, af, bc push de ;; stack: retaddr, af, bc, de push hl ;; stack: retaddr, af, bc, de, hl exx push de ; ix value, stashed earlier ;; stack: retaddr, af, bc, de, hl, ix ; we return not to our caller, but to the ; stack adjuster ld de, zxn_rom3call_adjstack push de ; push adjstack ;; stack: retaddr, af, bc, de, hl, ix, zxn_rom3call_adjstack jp (hl) ; continue with continuation

src/libav/libavcodec/x86/dsputil_yasm.asm

fillest/rtmp_load

10

246783

;****************************************************************************** ;* MMX optimized DSP utils ;* Copyright (c) 2008 <NAME> ;* ;* This file is part of Libav. ;* ;* Libav is free software; you can redistribute it and/or ;* modify it under the terms of the GNU Lesser General Public ;* License as published by the Free Software Foundation; either ;* version 2.1 of the License, or (at your option) any later version. ;* ;* Libav is distributed in the hope that it will be useful, ;* but WITHOUT ANY WARRANTY; without even the implied warranty of ;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;* Lesser General Public License for more details. ;* ;* You should have received a copy of the GNU Lesser General Public ;* License along with Libav; if not, write to the Free Software ;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ;****************************************************************************** %include "x86inc.asm" %include "x86util.asm" SECTION_RODATA pb_f: times 16 db 15 pb_zzzzzzzz77777777: times 8 db -1 pb_7: times 8 db 7 pb_zzzz3333zzzzbbbb: db -1,-1,-1,-1,3,3,3,3,-1,-1,-1,-1,11,11,11,11 pb_zz11zz55zz99zzdd: db -1,-1,1,1,-1,-1,5,5,-1,-1,9,9,-1,-1,13,13 pb_revwords: db 14, 15, 12, 13, 10, 11, 8, 9, 6, 7, 4, 5, 2, 3, 0, 1 pd_16384: times 4 dd 16384 SECTION_TEXT %macro SCALARPRODUCT 1 ; int scalarproduct_int16(int16_t *v1, int16_t *v2, int order, int shift) cglobal scalarproduct_int16_%1, 3,3,4, v1, v2, order, shift shl orderq, 1 add v1q, orderq add v2q, orderq neg orderq movd m3, shiftm pxor m2, m2 .loop: movu m0, [v1q + orderq] movu m1, [v1q + orderq + mmsize] pmaddwd m0, [v2q + orderq] pmaddwd m1, [v2q + orderq + mmsize] paddd m2, m0 paddd m2, m1 add orderq, mmsize*2 jl .loop %if mmsize == 16 movhlps m0, m2 paddd m2, m0 psrad m2, m3 pshuflw m0, m2, 0x4e %else psrad m2, m3 pshufw m0, m2, 0x4e %endif paddd m2, m0 movd eax, m2 RET ; int scalarproduct_and_madd_int16(int16_t *v1, int16_t *v2, int16_t *v3, int order, int mul) cglobal scalarproduct_and_madd_int16_%1, 4,4,8, v1, v2, v3, order, mul shl orderq, 1 movd m7, mulm %if mmsize == 16 pshuflw m7, m7, 0 punpcklqdq m7, m7 %else pshufw m7, m7, 0 %endif pxor m6, m6 add v1q, orderq add v2q, orderq add v3q, orderq neg orderq .loop: movu m0, [v2q + orderq] movu m1, [v2q + orderq + mmsize] mova m4, [v1q + orderq] mova m5, [v1q + orderq + mmsize] movu m2, [v3q + orderq] movu m3, [v3q + orderq + mmsize] pmaddwd m0, m4 pmaddwd m1, m5 pmullw m2, m7 pmullw m3, m7 paddd m6, m0 paddd m6, m1 paddw m2, m4 paddw m3, m5 mova [v1q + orderq], m2 mova [v1q + orderq + mmsize], m3 add orderq, mmsize*2 jl .loop %if mmsize == 16 movhlps m0, m6 paddd m6, m0 pshuflw m0, m6, 0x4e %else pshufw m0, m6, 0x4e %endif paddd m6, m0 movd eax, m6 RET %endmacro INIT_MMX SCALARPRODUCT mmx2 INIT_XMM SCALARPRODUCT sse2 %macro SCALARPRODUCT_LOOP 1 align 16 .loop%1: sub orderq, mmsize*2 %if %1 mova m1, m4 mova m4, [v2q + orderq] mova m0, [v2q + orderq + mmsize] palignr m1, m0, %1 palignr m0, m4, %1 mova m3, m5 mova m5, [v3q + orderq] mova m2, [v3q + orderq + mmsize] palignr m3, m2, %1 palignr m2, m5, %1 %else mova m0, [v2q + orderq] mova m1, [v2q + orderq + mmsize] mova m2, [v3q + orderq] mova m3, [v3q + orderq + mmsize] %endif %define t0 [v1q + orderq] %define t1 [v1q + orderq + mmsize] %ifdef ARCH_X86_64 mova m8, t0 mova m9, t1 %define t0 m8 %define t1 m9 %endif pmaddwd m0, t0 pmaddwd m1, t1 pmullw m2, m7 pmullw m3, m7 paddw m2, t0 paddw m3, t1 paddd m6, m0 paddd m6, m1 mova [v1q + orderq], m2 mova [v1q + orderq + mmsize], m3 jg .loop%1 %if %1 jmp .end %endif %endmacro ; int scalarproduct_and_madd_int16(int16_t *v1, int16_t *v2, int16_t *v3, int order, int mul) cglobal scalarproduct_and_madd_int16_ssse3, 4,5,10, v1, v2, v3, order, mul shl orderq, 1 movd m7, mulm pshuflw m7, m7, 0 punpcklqdq m7, m7 pxor m6, m6 mov r4d, v2d and r4d, 15 and v2q, ~15 and v3q, ~15 mova m4, [v2q + orderq] mova m5, [v3q + orderq] ; linear is faster than branch tree or jump table, because the branches taken are cyclic (i.e. predictable) cmp r4d, 0 je .loop0 cmp r4d, 2 je .loop2 cmp r4d, 4 je .loop4 cmp r4d, 6 je .loop6 cmp r4d, 8 je .loop8 cmp r4d, 10 je .loop10 cmp r4d, 12 je .loop12 SCALARPRODUCT_LOOP 14 SCALARPRODUCT_LOOP 12 SCALARPRODUCT_LOOP 10 SCALARPRODUCT_LOOP 8 SCALARPRODUCT_LOOP 6 SCALARPRODUCT_LOOP 4 SCALARPRODUCT_LOOP 2 SCALARPRODUCT_LOOP 0 .end: movhlps m0, m6 paddd m6, m0 pshuflw m0, m6, 0x4e paddd m6, m0 movd eax, m6 RET ;----------------------------------------------------------------------------- ; void ff_apply_window_int16(int16_t *output, const int16_t *input, ; const int16_t *window, unsigned int len) ;----------------------------------------------------------------------------- %macro REVERSE_WORDS_MMXEXT 1-2 pshufw %1, %1, 0x1B %endmacro %macro REVERSE_WORDS_SSE2 1-2 pshuflw %1, %1, 0x1B pshufhw %1, %1, 0x1B pshufd %1, %1, 0x4E %endmacro %macro REVERSE_WORDS_SSSE3 2 pshufb %1, %2 %endmacro ; dst = (dst * src) >> 15 ; pmulhw cuts off the bottom bit, so we have to lshift by 1 and add it back ; in from the pmullw result. %macro MUL16FIXED_MMXEXT 3 ; dst, src, temp mova %3, %1 pmulhw %1, %2 pmullw %3, %2 psrlw %3, 15 psllw %1, 1 por %1, %3 %endmacro ; dst = ((dst * src) + (1<<14)) >> 15 %macro MUL16FIXED_SSSE3 3 ; dst, src, unused pmulhrsw %1, %2 %endmacro %macro APPLY_WINDOW_INT16 3 ; %1=instruction set, %2=mmxext/sse2 bit exact version, %3=has_ssse3 cglobal apply_window_int16_%1, 4,5,6, output, input, window, offset, offset2 lea offset2q, [offsetq-mmsize] %if %2 mova m5, [pd_16384] %elifidn %1, ssse3 mova m5, [pb_revwords] ALIGN 16 %endif .loop: %if %2 ; This version expands 16-bit to 32-bit, multiplies by the window, ; adds 16384 for rounding, right shifts 15, then repacks back to words to ; save to the output. The window is reversed for the second half. mova m3, [windowq+offset2q] mova m4, [ inputq+offset2q] pxor m0, m0 punpcklwd m0, m3 punpcklwd m1, m4 pmaddwd m0, m1 paddd m0, m5 psrad m0, 15 pxor m2, m2 punpckhwd m2, m3 punpckhwd m1, m4 pmaddwd m2, m1 paddd m2, m5 psrad m2, 15 packssdw m0, m2 mova [outputq+offset2q], m0 REVERSE_WORDS m3 mova m4, [ inputq+offsetq] pxor m0, m0 punpcklwd m0, m3 punpcklwd m1, m4 pmaddwd m0, m1 paddd m0, m5 psrad m0, 15 pxor m2, m2 punpckhwd m2, m3 punpckhwd m1, m4 pmaddwd m2, m1 paddd m2, m5 psrad m2, 15 packssdw m0, m2 mova [outputq+offsetq], m0 %elif %3 ; This version does the 16x16->16 multiplication in-place without expanding ; to 32-bit. The ssse3 version is bit-identical. mova m0, [windowq+offset2q] mova m1, [ inputq+offset2q] pmulhrsw m1, m0 REVERSE_WORDS m0, m5 pmulhrsw m0, [ inputq+offsetq ] mova [outputq+offset2q], m1 mova [outputq+offsetq ], m0 %else ; This version does the 16x16->16 multiplication in-place without expanding ; to 32-bit. The mmxext and sse2 versions do not use rounding, and ; therefore are not bit-identical to the C version. mova m0, [windowq+offset2q] mova m1, [ inputq+offset2q] mova m2, [ inputq+offsetq ] MUL16FIXED m1, m0, m3 REVERSE_WORDS m0 MUL16FIXED m2, m0, m3 mova [outputq+offset2q], m1 mova [outputq+offsetq ], m2 %endif add offsetd, mmsize sub offset2d, mmsize jae .loop REP_RET %endmacro INIT_MMX %define REVERSE_WORDS REVERSE_WORDS_MMXEXT %define MUL16FIXED MUL16FIXED_MMXEXT APPLY_WINDOW_INT16 mmxext, 0, 0 APPLY_WINDOW_INT16 mmxext_ba, 1, 0 INIT_XMM %define REVERSE_WORDS REVERSE_WORDS_SSE2 APPLY_WINDOW_INT16 sse2, 0, 0 APPLY_WINDOW_INT16 sse2_ba, 1, 0 APPLY_WINDOW_INT16 ssse3_atom, 0, 1 %define REVERSE_WORDS REVERSE_WORDS_SSSE3 APPLY_WINDOW_INT16 ssse3, 0, 1 ; void add_hfyu_median_prediction_mmx2(uint8_t *dst, const uint8_t *top, const uint8_t *diff, int w, int *left, int *left_top) cglobal add_hfyu_median_prediction_mmx2, 6,6,0, dst, top, diff, w, left, left_top movq mm0, [topq] movq mm2, mm0 movd mm4, [left_topq] psllq mm2, 8 movq mm1, mm0 por mm4, mm2 movd mm3, [leftq] psubb mm0, mm4 ; t-tl add dstq, wq add topq, wq add diffq, wq neg wq jmp .skip .loop: movq mm4, [topq+wq] movq mm0, mm4 psllq mm4, 8 por mm4, mm1 movq mm1, mm0 ; t psubb mm0, mm4 ; t-tl .skip: movq mm2, [diffq+wq] %assign i 0 %rep 8 movq mm4, mm0 paddb mm4, mm3 ; t-tl+l movq mm5, mm3 pmaxub mm3, mm1 pminub mm5, mm1 pminub mm3, mm4 pmaxub mm3, mm5 ; median paddb mm3, mm2 ; +residual %if i==0 movq mm7, mm3 psllq mm7, 56 %else movq mm6, mm3 psrlq mm7, 8 psllq mm6, 56 por mm7, mm6 %endif %if i<7 psrlq mm0, 8 psrlq mm1, 8 psrlq mm2, 8 %endif %assign i i+1 %endrep movq [dstq+wq], mm7 add wq, 8 jl .loop movzx r2d, byte [dstq-1] mov [leftq], r2d movzx r2d, byte [topq-1] mov [left_topq], r2d RET %macro ADD_HFYU_LEFT_LOOP 1 ; %1 = is_aligned add srcq, wq add dstq, wq neg wq %%.loop: mova m1, [srcq+wq] mova m2, m1 psllw m1, 8 paddb m1, m2 mova m2, m1 pshufb m1, m3 paddb m1, m2 pshufb m0, m5 mova m2, m1 pshufb m1, m4 paddb m1, m2 %if mmsize == 16 mova m2, m1 pshufb m1, m6 paddb m1, m2 %endif paddb m0, m1 %if %1 mova [dstq+wq], m0 %else movq [dstq+wq], m0 movhps [dstq+wq+8], m0 %endif add wq, mmsize jl %%.loop mov eax, mmsize-1 sub eax, wd movd m1, eax pshufb m0, m1 movd eax, m0 RET %endmacro ; int add_hfyu_left_prediction(uint8_t *dst, const uint8_t *src, int w, int left) INIT_MMX cglobal add_hfyu_left_prediction_ssse3, 3,3,7, dst, src, w, left .skip_prologue: mova m5, [pb_7] mova m4, [pb_zzzz3333zzzzbbbb] mova m3, [pb_zz11zz55zz99zzdd] movd m0, leftm psllq m0, 56 ADD_HFYU_LEFT_LOOP 1 INIT_XMM cglobal add_hfyu_left_prediction_sse4, 3,3,7, dst, src, w, left mova m5, [pb_f] mova m6, [pb_zzzzzzzz77777777] mova m4, [pb_zzzz3333zzzzbbbb] mova m3, [pb_zz11zz55zz99zzdd] movd m0, leftm pslldq m0, 15 test srcq, 15 jnz add_hfyu_left_prediction_ssse3.skip_prologue test dstq, 15 jnz .unaligned ADD_HFYU_LEFT_LOOP 1 .unaligned: ADD_HFYU_LEFT_LOOP 0 ; float scalarproduct_float_sse(const float *v1, const float *v2, int len) cglobal scalarproduct_float_sse, 3,3,2, v1, v2, offset neg offsetq shl offsetq, 2 sub v1q, offsetq sub v2q, offsetq xorps xmm0, xmm0 .loop: movaps xmm1, [v1q+offsetq] mulps xmm1, [v2q+offsetq] addps xmm0, xmm1 add offsetq, 16 js .loop movhlps xmm1, xmm0 addps xmm0, xmm1 movss xmm1, xmm0 shufps xmm0, xmm0, 1 addss xmm0, xmm1 %ifndef ARCH_X86_64 movd r0m, xmm0 fld dword r0m %endif RET ; extern void ff_emu_edge_core(uint8_t *buf, const uint8_t *src, x86_reg linesize, ; x86_reg start_y, x86_reg end_y, x86_reg block_h, ; x86_reg start_x, x86_reg end_x, x86_reg block_w); ; ; The actual function itself is below. It basically wraps a very simple ; w = end_x - start_x ; if (w) { ; if (w > 22) { ; jump to the slow loop functions ; } else { ; jump to the fast loop functions ; } ; } ; ; ... and then the same for left/right extend also. See below for loop ; function implementations. Fast are fixed-width, slow is variable-width %macro EMU_EDGE_FUNC 0 %ifdef ARCH_X86_64 %define w_reg r10 cglobal emu_edge_core, 6, 7, 1 mov r11, r5 ; save block_h %else %define w_reg r6 cglobal emu_edge_core, 2, 7, 0 mov r4, r4m ; end_y mov r5, r5m ; block_h %endif ; start with vertical extend (top/bottom) and body pixel copy mov w_reg, r7m sub w_reg, r6m ; w = start_x - end_x sub r5, r4 %ifdef ARCH_X86_64 sub r4, r3 %else sub r4, dword r3m %endif cmp w_reg, 22 jg .slow_v_extend_loop %ifdef ARCH_X86_32 mov r2, r2m ; linesize %endif sal w_reg, 7 ; w * 128 %ifdef PIC lea rax, [.emuedge_v_extend_1 - (.emuedge_v_extend_2 - .emuedge_v_extend_1)] add w_reg, rax %else lea w_reg, [.emuedge_v_extend_1 - (.emuedge_v_extend_2 - .emuedge_v_extend_1)+w_reg] %endif call w_reg ; fast top extend, body copy and bottom extend .v_extend_end: ; horizontal extend (left/right) mov w_reg, r6m ; start_x sub r0, w_reg %ifdef ARCH_X86_64 mov r3, r0 ; backup of buf+block_h*linesize mov r5, r11 %else mov r0m, r0 ; backup of buf+block_h*linesize mov r5, r5m %endif test w_reg, w_reg jz .right_extend cmp w_reg, 22 jg .slow_left_extend_loop mov r1, w_reg dec w_reg ; FIXME we can do a if size == 1 here if that makes any speed difference, test me sar w_reg, 1 sal w_reg, 6 ; r0=buf+block_h*linesize,r10(64)/r6(32)=start_x offset for funcs ; r6(rax)/r3(ebx)=val,r2=linesize,r1=start_x,r5=block_h %ifdef PIC lea rax, [.emuedge_extend_left_2] add w_reg, rax %else lea w_reg, [.emuedge_extend_left_2+w_reg] %endif call w_reg ; now r3(64)/r0(32)=buf,r2=linesize,r11/r5=block_h,r6/r3=val, r10/r6=end_x, r1=block_w .right_extend: %ifdef ARCH_X86_32 mov r0, r0m mov r5, r5m %endif mov w_reg, r7m ; end_x mov r1, r8m ; block_w mov r4, r1 sub r1, w_reg jz .h_extend_end ; if (end_x == block_w) goto h_extend_end cmp r1, 22 jg .slow_right_extend_loop dec r1 ; FIXME we can do a if size == 1 here if that makes any speed difference, test me sar r1, 1 sal r1, 6 %ifdef PIC lea rax, [.emuedge_extend_right_2] add r1, rax %else lea r1, [.emuedge_extend_right_2+r1] %endif call r1 .h_extend_end: RET %ifdef ARCH_X86_64 %define vall al %define valh ah %define valw ax %define valw2 r10w %define valw3 r3w %ifdef WIN64 %define valw4 r4w %else ; unix64 %define valw4 r3w %endif %define vald eax %else %define vall bl %define valh bh %define valw bx %define valw2 r6w %define valw3 valw2 %define valw4 valw3 %define vald ebx %define stack_offset 0x14 %endif %endmacro ; macro to read/write a horizontal number of pixels (%2) to/from registers ; on x86-64, - fills xmm0-15 for consecutive sets of 16 pixels ; - if (%2 & 15 == 8) fills the last 8 bytes into rax ; - else if (%2 & 8) fills 8 bytes into mm0 ; - if (%2 & 7 == 4) fills the last 4 bytes into rax ; - else if (%2 & 4) fills 4 bytes into mm0-1 ; - if (%2 & 3 == 3) fills 2 bytes into r10/r3, and 1 into eax ; (note that we're using r3 for body/bottom because it's a shorter ; opcode, and then the loop fits in 128 bytes) ; - else fills remaining bytes into rax ; on x86-32, - fills mm0-7 for consecutive sets of 8 pixels ; - if (%2 & 7 == 4) fills 4 bytes into ebx ; - else if (%2 & 4) fills 4 bytes into mm0-7 ; - if (%2 & 3 == 3) fills 2 bytes into r6, and 1 into ebx ; - else fills remaining bytes into ebx ; writing data out is in the same way %macro READ_NUM_BYTES 2 %assign %%src_off 0 ; offset in source buffer %assign %%smidx 0 ; mmx register idx %assign %%sxidx 0 ; xmm register idx %if cpuflag(sse) %rep %2/16 movups xmm %+ %%sxidx, [r1+%%src_off] %assign %%src_off %%src_off+16 %assign %%sxidx %%sxidx+1 %endrep ; %2/16 %endif %ifdef ARCH_X86_64 %if (%2-%%src_off) == 8 mov rax, [r1+%%src_off] %assign %%src_off %%src_off+8 %endif ; (%2-%%src_off) == 8 %endif ; x86-64 %rep (%2-%%src_off)/8 movq mm %+ %%smidx, [r1+%%src_off] %assign %%src_off %%src_off+8 %assign %%smidx %%smidx+1 %endrep ; (%2-%%dst_off)/8 %if (%2-%%src_off) == 4 mov vald, [r1+%%src_off] %elif (%2-%%src_off) & 4 movd mm %+ %%smidx, [r1+%%src_off] %assign %%src_off %%src_off+4 %endif ; (%2-%%src_off) ==/& 4 %if (%2-%%src_off) == 1 mov vall, [r1+%%src_off] %elif (%2-%%src_off) == 2 mov valw, [r1+%%src_off] %elif (%2-%%src_off) == 3 %ifidn %1, top mov valw2, [r1+%%src_off] %elifidn %1, body mov valw3, [r1+%%src_off] %elifidn %1, bottom mov valw4, [r1+%%src_off] %endif ; %1 ==/!= top mov vall, [r1+%%src_off+2] %endif ; (%2-%%src_off) == 1/2/3 %endmacro ; READ_NUM_BYTES %macro WRITE_NUM_BYTES 2 %assign %%dst_off 0 ; offset in destination buffer %assign %%dmidx 0 ; mmx register idx %assign %%dxidx 0 ; xmm register idx %if cpuflag(sse) %rep %2/16 movups [r0+%%dst_off], xmm %+ %%dxidx %assign %%dst_off %%dst_off+16 %assign %%dxidx %%dxidx+1 %endrep ; %2/16 %endif %ifdef ARCH_X86_64 %if (%2-%%dst_off) == 8 mov [r0+%%dst_off], rax %assign %%dst_off %%dst_off+8 %endif ; (%2-%%dst_off) == 8 %endif ; x86-64 %rep (%2-%%dst_off)/8 movq [r0+%%dst_off], mm %+ %%dmidx %assign %%dst_off %%dst_off+8 %assign %%dmidx %%dmidx+1 %endrep ; (%2-%%dst_off)/8 %if (%2-%%dst_off) == 4 mov [r0+%%dst_off], vald %elif (%2-%%dst_off) & 4 movd [r0+%%dst_off], mm %+ %%dmidx %assign %%dst_off %%dst_off+4 %endif ; (%2-%%dst_off) ==/& 4 %if (%2-%%dst_off) == 1 mov [r0+%%dst_off], vall %elif (%2-%%dst_off) == 2 mov [r0+%%dst_off], valw %elif (%2-%%dst_off) == 3 %ifidn %1, top mov [r0+%%dst_off], valw2 %elifidn %1, body mov [r0+%%dst_off], valw3 %elifidn %1, bottom mov [r0+%%dst_off], valw4 %endif ; %1 ==/!= top mov [r0+%%dst_off+2], vall %endif ; (%2-%%dst_off) == 1/2/3 %endmacro ; WRITE_NUM_BYTES ; vertical top/bottom extend and body copy fast loops ; these are function pointers to set-width line copy functions, i.e. ; they read a fixed number of pixels into set registers, and write ; those out into the destination buffer ; r0=buf,r1=src,r2=linesize,r3(64)/r3m(32)=start_x,r4=end_y,r5=block_h ; r6(eax/64)/r3(ebx/32)=val_reg %macro VERTICAL_EXTEND 0 %assign %%n 1 %rep 22 ALIGN 128 .emuedge_v_extend_ %+ %%n: ; extend pixels above body %ifdef ARCH_X86_64 test r3 , r3 ; if (!start_y) jz .emuedge_copy_body_ %+ %%n %+ _loop ; goto body %else ; ARCH_X86_32 cmp dword r3m, 0 je .emuedge_copy_body_ %+ %%n %+ _loop %endif ; ARCH_X86_64/32 READ_NUM_BYTES top, %%n ; read bytes .emuedge_extend_top_ %+ %%n %+ _loop: ; do { WRITE_NUM_BYTES top, %%n ; write bytes add r0 , r2 ; dst += linesize %ifdef ARCH_X86_64 dec r3d %else ; ARCH_X86_32 dec dword r3m %endif ; ARCH_X86_64/32 jnz .emuedge_extend_top_ %+ %%n %+ _loop ; } while (--start_y) ; copy body pixels .emuedge_copy_body_ %+ %%n %+ _loop: ; do { READ_NUM_BYTES body, %%n ; read bytes WRITE_NUM_BYTES body, %%n ; write bytes add r0 , r2 ; dst += linesize add r1 , r2 ; src += linesize dec r4d jnz .emuedge_copy_body_ %+ %%n %+ _loop ; } while (--end_y) ; copy bottom pixels test r5 , r5 ; if (!block_h) jz .emuedge_v_extend_end_ %+ %%n ; goto end sub r1 , r2 ; src -= linesize READ_NUM_BYTES bottom, %%n ; read bytes .emuedge_extend_bottom_ %+ %%n %+ _loop: ; do { WRITE_NUM_BYTES bottom, %%n ; write bytes add r0 , r2 ; dst += linesize dec r5d jnz .emuedge_extend_bottom_ %+ %%n %+ _loop ; } while (--block_h) .emuedge_v_extend_end_ %+ %%n: %ifdef ARCH_X86_64 ret %else ; ARCH_X86_32 rep ret %endif ; ARCH_X86_64/32 %assign %%n %%n+1 %endrep %endmacro VERTICAL_EXTEND ; left/right (horizontal) fast extend functions ; these are essentially identical to the vertical extend ones above, ; just left/right separated because number of pixels to extend is ; obviously not the same on both sides. ; for reading, pixels are placed in eax (x86-64) or ebx (x86-64) in the ; lowest two bytes of the register (so val*0x0101), and are splatted ; into each byte of mm0 as well if n_pixels >= 8 %macro READ_V_PIXEL 2 mov vall, %2 mov valh, vall %if %1 >= 8 movd mm0, vald %if cpuflag(mmx2) pshufw mm0, mm0, 0 %else ; mmx punpcklwd mm0, mm0 punpckldq mm0, mm0 %endif ; sse %endif ; %1 >= 8 %endmacro %macro WRITE_V_PIXEL 2 %assign %%dst_off 0 %rep %1/8 movq [%2+%%dst_off], mm0 %assign %%dst_off %%dst_off+8 %endrep %if %1 & 4 %if %1 >= 8 movd [%2+%%dst_off], mm0 %else ; %1 < 8 mov [%2+%%dst_off] , valw mov [%2+%%dst_off+2], valw %endif ; %1 >=/< 8 %assign %%dst_off %%dst_off+4 %endif ; %1 & 4 %if %1&2 mov [%2+%%dst_off], valw %endif ; %1 & 2 %endmacro ; r0=buf+block_h*linesize, r1=start_x, r2=linesize, r5=block_h, r6/r3=val %macro LEFT_EXTEND 0 %assign %%n 2 %rep 11 ALIGN 64 .emuedge_extend_left_ %+ %%n: ; do { sub r0, r2 ; dst -= linesize READ_V_PIXEL %%n, [r0+r1] ; read pixels WRITE_V_PIXEL %%n, r0 ; write pixels dec r5 jnz .emuedge_extend_left_ %+ %%n ; } while (--block_h) %ifdef ARCH_X86_64 ret %else ; ARCH_X86_32 rep ret %endif ; ARCH_X86_64/32 %assign %%n %%n+2 %endrep %endmacro ; LEFT_EXTEND ; r3/r0=buf+block_h*linesize, r2=linesize, r11/r5=block_h, r0/r6=end_x, r6/r3=val %macro RIGHT_EXTEND 0 %assign %%n 2 %rep 11 ALIGN 64 .emuedge_extend_right_ %+ %%n: ; do { %ifdef ARCH_X86_64 sub r3, r2 ; dst -= linesize READ_V_PIXEL %%n, [r3+w_reg-1] ; read pixels WRITE_V_PIXEL %%n, r3+r4-%%n ; write pixels dec r11 %else ; ARCH_X86_32 sub r0, r2 ; dst -= linesize READ_V_PIXEL %%n, [r0+w_reg-1] ; read pixels WRITE_V_PIXEL %%n, r0+r4-%%n ; write pixels dec r5 %endif ; ARCH_X86_64/32 jnz .emuedge_extend_right_ %+ %%n ; } while (--block_h) %ifdef ARCH_X86_64 ret %else ; ARCH_X86_32 rep ret %endif ; ARCH_X86_64/32 %assign %%n %%n+2 %endrep %ifdef ARCH_X86_32 %define stack_offset 0x10 %endif %endmacro ; RIGHT_EXTEND ; below follow the "slow" copy/extend functions, these act on a non-fixed ; width specified in a register, and run a loop to copy the full amount ; of bytes. They are optimized for copying of large amounts of pixels per ; line, so they unconditionally splat data into mm registers to copy 8 ; bytes per loop iteration. It could be considered to use xmm for x86-64 ; also, but I haven't optimized this as much (i.e. FIXME) %macro V_COPY_NPX 4-5 %if %0 == 4 test w_reg, %4 jz .%1_skip_%4_px %else ; %0 == 5 .%1_%4_px_loop: %endif %3 %2, [r1+cnt_reg] %3 [r0+cnt_reg], %2 add cnt_reg, %4 %if %0 == 5 sub w_reg, %4 test w_reg, %5 jnz .%1_%4_px_loop %endif .%1_skip_%4_px: %endmacro %macro V_COPY_ROW 2 %ifidn %1, bottom sub r1, linesize %endif .%1_copy_loop: xor cnt_reg, cnt_reg %if notcpuflag(sse) %define linesize r2m V_COPY_NPX %1, mm0, movq, 8, 0xFFFFFFF8 %else ; sse V_COPY_NPX %1, xmm0, movups, 16, 0xFFFFFFF0 %ifdef ARCH_X86_64 %define linesize r2 V_COPY_NPX %1, rax , mov, 8 %else ; ARCH_X86_32 %define linesize r2m V_COPY_NPX %1, mm0, movq, 8 %endif ; ARCH_X86_64/32 %endif ; sse V_COPY_NPX %1, vald, mov, 4 V_COPY_NPX %1, valw, mov, 2 V_COPY_NPX %1, vall, mov, 1 mov w_reg, cnt_reg %ifidn %1, body add r1, linesize %endif add r0, linesize dec %2 jnz .%1_copy_loop %endmacro %macro SLOW_V_EXTEND 0 .slow_v_extend_loop: ; r0=buf,r1=src,r2(64)/r2m(32)=linesize,r3(64)/r3m(32)=start_x,r4=end_y,r5=block_h ; r11(64)/r3(later-64)/r2(32)=cnt_reg,r6(64)/r3(32)=val_reg,r10(64)/r6(32)=w=end_x-start_x %ifdef ARCH_X86_64 push r11 ; save old value of block_h test r3, r3 %define cnt_reg r11 jz .do_body_copy ; if (!start_y) goto do_body_copy V_COPY_ROW top, r3 %else cmp dword r3m, 0 %define cnt_reg r2 je .do_body_copy ; if (!start_y) goto do_body_copy V_COPY_ROW top, dword r3m %endif .do_body_copy: V_COPY_ROW body, r4 %ifdef ARCH_X86_64 pop r11 ; restore old value of block_h %define cnt_reg r3 %endif test r5, r5 %ifdef ARCH_X86_64 jz .v_extend_end %else jz .skip_bottom_extend %endif V_COPY_ROW bottom, r5 %ifdef ARCH_X86_32 .skip_bottom_extend: mov r2, r2m %endif jmp .v_extend_end %endmacro %macro SLOW_LEFT_EXTEND 0 .slow_left_extend_loop: ; r0=buf+block_h*linesize,r2=linesize,r6(64)/r3(32)=val,r5=block_h,r4=cntr,r10/r6=start_x mov r4, 8 sub r0, linesize READ_V_PIXEL 8, [r0+w_reg] .left_extend_8px_loop: movq [r0+r4-8], mm0 add r4, 8 cmp r4, w_reg jle .left_extend_8px_loop sub r4, 8 cmp r4, w_reg jge .left_extend_loop_end .left_extend_2px_loop: mov [r0+r4], valw add r4, 2 cmp r4, w_reg jl .left_extend_2px_loop .left_extend_loop_end: dec r5 jnz .slow_left_extend_loop %ifdef ARCH_X86_32 mov r2, r2m %endif jmp .right_extend %endmacro %macro SLOW_RIGHT_EXTEND 0 .slow_right_extend_loop: ; r3(64)/r0(32)=buf+block_h*linesize,r2=linesize,r4=block_w,r11(64)/r5(32)=block_h, ; r10(64)/r6(32)=end_x,r6/r3=val,r1=cntr %ifdef ARCH_X86_64 %define buf_reg r3 %define bh_reg r11 %else %define buf_reg r0 %define bh_reg r5 %endif lea r1, [r4-8] sub buf_reg, linesize READ_V_PIXEL 8, [buf_reg+w_reg-1] .right_extend_8px_loop: movq [buf_reg+r1], mm0 sub r1, 8 cmp r1, w_reg jge .right_extend_8px_loop add r1, 8 cmp r1, w_reg je .right_extend_loop_end .right_extend_2px_loop: sub r1, 2 mov [buf_reg+r1], valw cmp r1, w_reg jg .right_extend_2px_loop .right_extend_loop_end: dec bh_reg jnz .slow_right_extend_loop jmp .h_extend_end %endmacro %macro emu_edge 1 INIT_XMM %1 EMU_EDGE_FUNC VERTICAL_EXTEND LEFT_EXTEND RIGHT_EXTEND SLOW_V_EXTEND SLOW_LEFT_EXTEND SLOW_RIGHT_EXTEND %endmacro emu_edge sse %ifdef ARCH_X86_32 emu_edge mmx %endif ;----------------------------------------------------------------------------- ; void ff_vector_clip_int32(int32_t *dst, const int32_t *src, int32_t min, ; int32_t max, unsigned int len) ;----------------------------------------------------------------------------- ; %1 = number of xmm registers used ; %2 = number of inline load/process/store loops per asm loop ; %3 = process 4*mmsize (%3=0) or 8*mmsize (%3=1) bytes per loop ; %4 = CLIPD function takes min/max as float instead of int (CLIPD_SSE2) ; %5 = suffix %macro VECTOR_CLIP_INT32 4-5 cglobal vector_clip_int32%5, 5,5,%2, dst, src, min, max, len %if %4 cvtsi2ss m4, minm cvtsi2ss m5, maxm %else movd m4, minm movd m5, maxm %endif SPLATD m4 SPLATD m5 .loop: %assign %%i 1 %rep %2 mova m0, [srcq+mmsize*0*%%i] mova m1, [srcq+mmsize*1*%%i] mova m2, [srcq+mmsize*2*%%i] mova m3, [srcq+mmsize*3*%%i] %if %3 mova m7, [srcq+mmsize*4*%%i] mova m8, [srcq+mmsize*5*%%i] mova m9, [srcq+mmsize*6*%%i] mova m10, [srcq+mmsize*7*%%i] %endif CLIPD m0, m4, m5, m6 CLIPD m1, m4, m5, m6 CLIPD m2, m4, m5, m6 CLIPD m3, m4, m5, m6 %if %3 CLIPD m7, m4, m5, m6 CLIPD m8, m4, m5, m6 CLIPD m9, m4, m5, m6 CLIPD m10, m4, m5, m6 %endif mova [dstq+mmsize*0*%%i], m0 mova [dstq+mmsize*1*%%i], m1 mova [dstq+mmsize*2*%%i], m2 mova [dstq+mmsize*3*%%i], m3 %if %3 mova [dstq+mmsize*4*%%i], m7 mova [dstq+mmsize*5*%%i], m8 mova [dstq+mmsize*6*%%i], m9 mova [dstq+mmsize*7*%%i], m10 %endif %assign %%i %%i+1 %endrep add srcq, mmsize*4*(%2+%3) add dstq, mmsize*4*(%2+%3) sub lend, mmsize*(%2+%3) jg .loop REP_RET %endmacro INIT_MMX mmx %define SPLATD SPLATD_MMX %define CLIPD CLIPD_MMX VECTOR_CLIP_INT32 0, 1, 0, 0 INIT_XMM sse2 %define SPLATD SPLATD_SSE2 VECTOR_CLIP_INT32 6, 1, 0, 0, _int %define CLIPD CLIPD_SSE2 VECTOR_CLIP_INT32 6, 2, 0, 1 INIT_XMM sse4 %define CLIPD CLIPD_SSE41 %ifdef m8 VECTOR_CLIP_INT32 11, 1, 1, 0 %else VECTOR_CLIP_INT32 6, 1, 0, 0 %endif ;----------------------------------------------------------------------------- ; void ff_butterflies_float_interleave(float *dst, const float *src0, ; const float *src1, int len); ;----------------------------------------------------------------------------- %macro BUTTERFLIES_FLOAT_INTERLEAVE 0 cglobal butterflies_float_interleave, 4,4,3, dst, src0, src1, len %ifdef ARCH_X86_64 movsxd lenq, lend %endif test lenq, lenq jz .end shl lenq, 2 lea src0q, [src0q + lenq] lea src1q, [src1q + lenq] lea dstq, [ dstq + 2*lenq] neg lenq .loop: mova m0, [src0q + lenq] mova m1, [src1q + lenq] subps m2, m0, m1 addps m0, m0, m1 unpcklps m1, m0, m2 unpckhps m0, m0, m2 %if cpuflag(avx) vextractf128 [dstq + 2*lenq ], m1, 0 vextractf128 [dstq + 2*lenq + 16], m0, 0 vextractf128 [dstq + 2*lenq + 32], m1, 1 vextractf128 [dstq + 2*lenq + 48], m0, 1 %else mova [dstq + 2*lenq ], m1 mova [dstq + 2*lenq + mmsize], m0 %endif add lenq, mmsize jl .loop %if mmsize == 32 vzeroupper RET %endif .end: REP_RET %endmacro INIT_XMM sse BUTTERFLIES_FLOAT_INTERLEAVE INIT_YMM avx BUTTERFLIES_FLOAT_INTERLEAVE

Chapter1/#7.agda

CodaFi/HoTT-Exercises

0

16685

<reponame>CodaFi/HoTT-Exercises module #7 where {- Exercise 1.7. Give an alternative derivation of ind′=A from ind=A which avoids the use of universes. (This is easiest using concepts from later chapters.) -} open import Relation.Binary.PropositionalEquality ind'₌A : ∀{a}{A : Set a} → (C : (x y : A) → (x ≡ y) → Set) → ((x : A) → C x x refl) → (x y : A) → (p : x ≡ y) → C x y p ind'₌A = {!!}

tools/SPARK2005/packages/polypaver/pp_lf_rounded.ads

michalkonecny/polypaver

1

20195

<reponame>michalkonecny/polypaver<filename>tools/SPARK2005/packages/polypaver/pp_lf_rounded.ads<gh_stars>1-10 package PP_LF_Rounded is -- Operations whose semantics is the same as the corresponding -- operations on type Long_Float. These operations can appear both in -- Ada expressions and in SPARK assertions. -- -- The intention is that programmers do not enter these operations -- directly into the Ada code. Instead the provided pre-processor -- replaces each ordinary operator or call of an Long_Elementary_Functions -- function with a corresponding function from this package. -- -- The Prec parameter is used only by PolyPaver to work -- out the rounding precision. The value for Prec is supplied -- by the pre-processor. function Plus (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Plus(Prec,X,Y) in Long_Float; function Minus (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Minus(Prec,X,Y) in Long_Float; function Multiply (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Multiply(Prec,X,Y) in Long_Float; function Divide (Prec : Integer; X,Y : Long_Float) return Long_Float; --# pre Y /= 0.0 and --# Divide(Prec,X,Y) in Long_Float; function Pi(Prec : Integer) return Long_Float; function Exp (Prec : Integer; X : Long_Float) return Long_Float; --# pre Exp(Prec,X) in Long_Float; function Sqrt (Prec : Integer; X : Long_Float) return Long_Float; --# pre X >= 0.0 and --# Sqrt(Prec,X) in Long_Float; end PP_LF_Rounded;

src/lexer/antlr/com/arakelian/graphql/parser/GraphqlLexer.g4

arakelian/graphql-parser

0

792

lexer grammar GraphqlLexer; @header { // @formatter:off package com.arakelian.graphql.parser; } channels { WHITESPACE_CHANNEL } // // Token // BooleanValue: 'true' | 'false'; FRAGMENT : 'fragment'; QUERY : 'query'; MUTATION : 'mutation'; SCHEMA : 'schema'; SCALAR : 'scalar'; TYPE : 'type'; INTERFACE : 'interface'; IMPLEMENTS : 'implements'; ENUM : 'enum'; UNION : 'union'; INPUT : 'input'; EXTEND : 'extend'; DIRECTIVE : 'directive'; ON : 'on'; // must come before NAME NAME : [_A-Za-z][_0-9A-Za-z]*; IntValue : Sign? IntegerPart; FloatValue : Sign? IntegerPart ('.' Digit*)? ExponentPart?; Sign : '-'; IntegerPart : '0' | NonZeroDigit | NonZeroDigit Digit+; NonZeroDigit: '1'.. '9'; ExponentPart : ('e'|'E') Sign? Digit+; Digit : '0'..'9'; StringValue: '"' (~(["\\\n\r\u2028\u2029])|EscapedChar)* '"'; fragment EscapedChar : '\\' (["\\/bfnrt] | Unicode) ; fragment Unicode : 'u' Hex Hex Hex Hex; fragment Hex : [0-9a-fA-F]; Ignored: (Whitespace|Comma|LineTerminator) -> channel(WHITESPACE_CHANNEL); fragment LineTerminator: [\n\r\u2028\u2029]; fragment Whitespace : [\t\u000b\f\u0020\u00a0]; fragment Comma : ','; LPAREN : '('; RPAREN : ')'; COLON : ':'; DOLLAR : '$'; EQUALS : '='; LBRACE : '{'; RBRACE : '}'; SPREAD : '...'; LBRACKET : '['; RBRACKET : ']'; AT : '@'; VERTICAL_BAR : '|'; EXCLAMATION : '!'; // lowest priority Comments: Comment -> channel(WHITESPACE_CHANNEL); fragment Comment: '#' ~[\n\r\u2028\u2029]*;

Math/NumberTheory/Summation/Nat/Properties.agda

rei1024/agda-misc

3

13003

<filename>Math/NumberTheory/Summation/Nat/Properties.agda {-# OPTIONS --without-K --safe #-} module Math.NumberTheory.Summation.Nat.Properties where -- agda-stdlib open import Algebra import Algebra.Operations.CommutativeMonoid as CommutativeMonoidOperations open import Data.Nat open import Data.Nat.Properties open import Data.Nat.Solver open import Relation.Binary.PropositionalEquality open import Function.Base -- agda-misc open import Math.NumberTheory.Summation.Generic open import Math.NumberTheory.Summation.Generic.Properties import Math.NumberTheory.Summation.Nat.Properties.Lemma as Lemma -- DO NOT change this line open MonoidSummation (Semiring.+-monoid *-+-semiring) open CommutativeMonoidOperations (Semiring.+-commutativeMonoid *-+-semiring) -- TODO? rename _≈_ to _≡_ this is tedious open SemiringSummationProperties *-+-semiring public renaming ( Σ<-const to Σ<-const-× ; Σ≤-const to Σ≤-const-× ; Σ<range-const to Σ<range-const-× ; Σ≤range-const to Σ≤range-const-× ) -- TODO move somewhere private m×n≡m*n : ∀ m n → m × n ≡ m * n m×n≡m*n zero n = refl m×n≡m*n (suc m) n = cong (n +_) $ m×n≡m*n m n Σ<-const : ∀ m n → Σ< m (λ _ → n) ≡ m * n Σ<-const m n = begin-equality Σ< m (λ _ → n) ≡⟨ Σ<-const-× m n ⟩ m × n ≡⟨ m×n≡m*n m n ⟩ m * n ∎ where open ≤-Reasoning Σ≤-const : ∀ m n → Σ≤ m (λ _ → n) ≡ suc m * n Σ≤-const m n = Σ<-const (suc m) n Σ<range-const : ∀ m n x → Σ<range m n (const x) ≡ (n ∸ m) * x Σ<range-const m n x = trans (Σ<range-const-× m n x) (m×n≡m*n (n ∸ m) x) Σ≤range-const : ∀ m n x → Σ≤range m n (const x) ≡ (suc n ∸ m) * x Σ≤range-const m n x = Σ<range-const m (suc n) x 2*Σ≤[n,id]≡n*[1+n] : ∀ n → 2 * Σ≤ n id ≡ n * (suc n) 2*Σ≤[n,id]≡n*[1+n] zero = refl 2*Σ≤[n,id]≡n*[1+n] (suc n) = begin-equality 2 * Σ≤ (suc n) id ≡⟨⟩ 2 * (Σ≤ n id + suc n) ≡⟨ *-distribˡ-+ 2 (Σ≤ n id) (suc n) ⟩ 2 * Σ≤ n id + 2 * suc n ≡⟨ cong (_+ 2 * suc n) $ 2*Σ≤[n,id]≡n*[1+n] n ⟩ n * suc n + 2 * suc n ≡⟨ sym $ *-distribʳ-+ (suc n) n 2 ⟩ (n + 2) * suc n ≡⟨ *-comm (n + 2) (suc n) ⟩ suc n * (n + 2) ≡⟨ cong (suc n *_) $ +-comm n 2 ⟩ suc n * suc (suc n) ∎ where open ≤-Reasoning 6*Σ≤[n,^2]≡n*[1+n]*[1+2*n] : ∀ n → 6 * Σ≤ n (_^ 2) ≡ n * (1 + n) * (1 + 2 * n) 6*Σ≤[n,^2]≡n*[1+n]*[1+2*n] 0 = refl 6*Σ≤[n,^2]≡n*[1+n]*[1+2*n] (suc n) = begin-equality 6 * Σ≤ (suc n) (_^ 2) ≡⟨⟩ 6 * (Σ≤ n (_^ 2) + suc n ^ 2) ≡⟨ *-distribˡ-+ 6 (Σ≤ n (_^ 2)) (suc n ^ 2) ⟩ 6 * Σ≤ n (_^ 2) + 6 * (suc n ^ 2) ≡⟨ cong (_+ 6 * (suc n ^ 2)) $ 6*Σ≤[n,^2]≡n*[1+n]*[1+2*n] n ⟩ n * (1 + n) * (1 + 2 * n) + 6 * ((1 + n) ^ 2) ≡⟨ Lemma.lemma₁ n ⟩ (1 + n) * (2 + n) * (1 + 2 * (1 + n)) ∎ where open ≤-Reasoning -- Arithmetic sequence {- 2*Σ<[n,i→d+a*i]≡??? : ∀ n d a → 2 * Σ< n (λ i → d + a * i) ≡ n * (2 * d + a * suc n) 2*Σ<[n,i→d+a*i]≡??? n d a = begin-equality 2 * Σ< n (λ i → d + a * i) ≡⟨ {! !} ⟩ 2 * (Σ< n (λ _ → d) + Σ< n (λ i → a * i)) 2 * (n * d + a * Σ< n id) 2 * (n * d) + 2 * (a * Σ< n id) 2 * n * d + a * (2 * Σ< n id) 2 * n * d + a * (n * suc n) n * (2 * d + a * suc n) ∎ where oepn ≤-Reasoning -}

alloy4fun_models/trashltl/models/11/QDgDtZbouQb5uoRSw.als

Kaixi26/org.alloytools.alloy

0

2464

<reponame>Kaixi26/org.alloytools.alloy open main pred idQDgDtZbouQb5uoRSw_prop12 { } pred __repair { idQDgDtZbouQb5uoRSw_prop12 } check __repair { idQDgDtZbouQb5uoRSw_prop12 <=> prop12o }

libc/setjmp/longjmp.asm

greck2908/LudOS

44

17722

<reponame>greck2908/LudOS global _longjmp global longjmp _longjmp: longjmp: mov edx, [esp+4] mov eax, [esp+8] test eax,eax jnz lbl inc eax lbl: mov ebx, [edx] mov esi, [edx+4] mov edi, [edx+8] mov ebp, [edx+12] mov ecx, [edx+16] mov esp, ecx mov ecx, [edx+20] jmp ecx

unit_tests.asm

lmartorella/z80-sample-program

14

173613

;======================================================== ; unit_tests.asm ; ; Collects and executes all unit tests. ;======================================================== include "unit_tests.inc" ; Initialization routine called before all unit tests are ; started. UNITTEST_INITIALIZE ; Do your initialization here ... ; ... ; ... ; For this simple example we don't need any special initialization. ; So we simply return. ; Please note: the stack pointer does not need to be setup explicitly ; for the unit tests. ret MODULE TestSuite_ClearScreen ; A unit testcase needs to start with "UT_" (upper case letters). ; DeZog will collect all these labels and offer them for execution. ; Tests that the screen is cleared/filled with 0's. UT_clear_screen: ; Write some bytes to the screen area ld a,0xFF ld (SCREEN),a ld (SCREEN+SCREEN_SIZE/2),a ld (SCREEN+SCREEN_SIZE-1),a ld (SCREEN+SCREEN_SIZE),a ; Now clear the screen call clear_screen ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE SCREEN, 0 TEST_MEMORY_BYTE SCREEN+SCREEN_SIZE/2, 0 TEST_MEMORY_BYTE SCREEN+SCREEN_SIZE-1, 0 TEST_MEMORY_BYTE SCREEN+SCREEN_SIZE, 0xFF nop TC_END ; Tests filling the background. UT_fill_backg: ; Write some bytes to the screen area ld a,0xFF ld (COLOR_SCREEN),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE/2),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE-1),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE),a ; Now fill the background with 128 ld a,128 call fill_backg ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE COLOR_SCREEN, 128 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE/2, 128 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE-1, 128 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE, 0xFF TC_END ; Tests clearing the background. UT_clear_backg: ; Write some bytes to the screen area ld a,0xFF ld (COLOR_SCREEN),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE/2),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE-1),a ld (COLOR_SCREEN+COLOR_SCREEN_SIZE),a ; Now clear the background call clear_backg ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE COLOR_SCREEN, 0 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE/2, 0 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE-1, 0 TEST_MEMORY_BYTE COLOR_SCREEN+COLOR_SCREEN_SIZE, 0xFF TC_END ENDMODULE MODULE TestSuite_Fill ; Tests filling a memory area UT_fill_memory: ; Write some bytes ld a,0xFF ld (fill_memory_data-1),a ld (fill_memory_data),a ld (fill_memory_data+FILL_MEMORY_SIZE/2),a ld (fill_memory_data+FILL_MEMORY_SIZE-1),a ld (fill_memory_data+FILL_MEMORY_SIZE),a ; Now fill the memory area ld a,22 ld hl,fill_memory_data ld bc,FILL_MEMORY_SIZE call fill_memory ; Test that all values inside the screen area are cleared TEST_MEMORY_BYTE fill_memory_data-1, 0xFF TEST_MEMORY_BYTE fill_memory_data, 22 TEST_MEMORY_BYTE fill_memory_data+FILL_MEMORY_SIZE/2, 22 TEST_MEMORY_BYTE fill_memory_data+FILL_MEMORY_SIZE-1, 22 TEST_MEMORY_BYTE fill_memory_data+FILL_MEMORY_SIZE, 0xFF TC_END FILL_MEMORY_SIZE: equ 10 defb 0 fill_memory_data: defs 10 defb 0 ; Tests filling a line in the background color screen. UT_fill_bckg_line_normal: ; Initialize background call clear_backg ; Fill line with color ld a,MAGENTA ld de,COLOR_SCREEN call fill_bckg_line ; Test that line is filled TEST_MEMORY_BYTE COLOR_SCREEN, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+16, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+31, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+32, 0 ; Test that de points to the next line nop ; ASSERTION DE == COLOR_SCREEN+32 TC_END ; Test wrap around. UT_fill_bckg_line_wrap_around: ; Initialize background call clear_backg ; Fill line with color ld a,MAGENTA ld de,COLOR_SCREEN+23*32 call fill_bckg_line ; Test that line is filled TEST_MEMORY_BYTE COLOR_SCREEN+23*32, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+23*32+16, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+23*32+31, MAGENTA TEST_MEMORY_BYTE COLOR_SCREEN+23*32-1, 0 ; Test that de points to the first line (wrap around) nop ; ASSERTION DE == COLOR_SCREEN TC_END ; Test wrap around. UT_fill_colors_ptr: ; Start value ld hl,fill_colors ld (fill_colors_ptr),hl ; Test increment call inc_fill_colors_ptr ; Test that pointer is moved to next line TEST_MEMORY_WORD fill_colors_ptr, fill_colors+1 ; Test increment call inc_fill_colors_ptr ; Test that pointer is moved to next line TEST_MEMORY_WORD fill_colors_ptr, fill_colors+2 ; Last value ld hl,fill_colors_end-1 ld (fill_colors_ptr),hl ; Test increment call inc_fill_colors_ptr ; Test that pointer wraps around and points to first line TEST_MEMORY_WORD fill_colors_ptr, fill_colors TC_END ENDMODULE

projects/06/symbols/Variables.asm

chapnitsky/Nand2Tetris

0

98003

<reponame>chapnitsky/Nand2Tetris // Copyright <NAME>, January 2018. // Free for educational use. // Tests the use of variables, or user-defined symbols, // through this somewhat creative infinite counting loop. @foo M=-1 @bar M=1 @count M=1 @count M=M+1 @foo D=M+1 D=D+1 @bar D=D-M @6 D;JEQ

packages/luis/src/parser/lufile/LUFileLexer.g4

Fortschritt69/botframework-cli

0

3983

<reponame>Fortschritt69/botframework-cli<gh_stars>0 lexer grammar LUFileLexer; @lexer::members { this.ignoreWS = true; // usually we ignore whitespace, but inside template, whitespace is significant } fragment LETTER: 'a'..'z' | 'A'..'Z'; fragment NUMBER: '0'..'9'; fragment WHITESPACE : ' '|'\t'|'\ufeff'|'\u00a0' ; fragment UTTERANCE_MARK: '-' | '*' | '+'; MODEL_INFO : '>' WHITESPACE* '!#' ~('\r'|'\n')+ ; COMMENT : '>' ~('\r'|'\n')+ -> skip ; WS : WHITESPACE+ -> skip ; NEWLINE : '\r'? '\n' -> skip ; QNA : '#'+ WHITESPACE+ '?' {this.ignoreWS = false;} -> pushMode(QNA_MODE) ; HASH : '#'+ {this.ignoreWS = true;} -> pushMode(INTENT_NAME_MODE) ; DASH : UTTERANCE_MARK {this.ignoreWS = true;} -> pushMode(LIST_BODY_MODE) ; DOLLAR : '$' {this.ignoreWS = true;} -> pushMode(ENTITY_MODE) ; AT : '@' {this.ignoreWS = true;} -> pushMode(NEW_ENTITY_MODE) ; IMPORT_DESC : '[' .*? ']' ; IMPORT_PATH : '(' .*? ')' ; FILTER_MARK : '**Filters:**' ; MULTI_LINE_TEXT : '```markdown' .*? '```' ; INVALID_TOKEN_DEFAULT_MODE : . ; mode NEW_ENTITY_MODE; WS_IN_NEW_ENTITY_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_NEW_ENTITY : WHITESPACE+ -> type(WS) ; NEWLINE_IN_NEW_ENTITY : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; COMMA : ',' ; NEW_EQUAL : '=' ; HAS_ROLES_LABEL : 'hasRole' 's'? ; HAS_FEATURES_LABEL : 'usesFeature' 's'? ; NEW_ENTITY_TYPE_IDENTIFIER : 'simple'|'list'|'regex'|'prebuilt'|'composite'|'machine-learned'|'patternany'|'phraselist' ; NEW_ENTITY_IDENTIFIER : (LETTER | NUMBER | '_' | '-' | '|' | '.' | '(' | ')')+ ; NEW_ENTITY_IDENTIFIER_WITH_WS : ('\'' | '"') (LETTER | NUMBER | '_' | '-' | '|' | '.' | WS)+ ('\'' | '"') ; NEW_COMPOSITE_ENTITY : '[' (~[\r\n{}[()])* ']' ; NEW_REGEX_ENTITY : '/' (~[\r\n])* '/' ; NEW_TEXT : ~[ \t\r\n.,;]+ ; mode INTENT_NAME_MODE; WS_IN_NAME_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_NAME : WHITESPACE+ -> type(WS) ; NEWLINE_IN_NAME : '\r'? '\n' -> type(NEWLINE), popMode ; IDENTIFIER : (LETTER | NUMBER | '_') (LETTER | NUMBER | '-' | '_')* { this.ignoreWS = false;} ; DOT : '.' ; mode LIST_BODY_MODE; // a little tedious on the rules, a big improvement on portability WS_IN_LIST_BODY_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_LIST_BODY : WHITESPACE+ -> type(WS) ; NEWLINE_IN_LIST_BODY : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; ESCAPE_CHARACTER : '\\{' | '\\[' | '\\\\' | '\\'[rtn\]}] { this.ignoreWS = false;} ; EXPRESSION : '{' (~[\r\n{}] | ('{' ~[\r\n]* '}'))* '}' { this.ignoreWS = false;} ; TEXT : ~[ \t\r\n{}]+ { this.ignoreWS = false;} ; mode ENTITY_MODE; WS_IN_ENTITY_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_ENTITY : WHITESPACE+ -> type(WS) ; NEWLINE_IN_ENTITY : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; ENTITY_IDENTIFIER : (LETTER | NUMBER | '_' | '-' | '|' | '.')+ { this.ignoreWS = false;} ; COMPOSITE_ENTITY : '[' (~[\r\n{}[()])* ; REGEX_ENTITY : '/' (~[\r\n])* ; COLON_MARK : ':' ; SPECIAL_CHAR_MARK : '=' | ',' | '!' ; mode QNA_MODE; WS_IN_QNA_IGNORED : WHITESPACE+ {this.ignoreWS}? -> skip ; WS_IN_QNA : WHITESPACE+ -> type(WS) ; NEWLINE_IN_QNA : '\r'? '\n' {this.ignoreWS = true;} -> type(NEWLINE), popMode ; QNA_TEXT : ~[ \t\r\n{}]+ { this.ignoreWS = false;} ;

libsrc/_DEVELOPMENT/arch/zxn/esxdos/z80/asm_esx_f_chmod.asm

jpoikela/z88dk

640

173341

; unsigned char esx_f_chmod(unsigned char *filename, uint8_t attr_mask, uint8_t attr) INCLUDE "config_private.inc" SECTION code_esxdos PUBLIC asm_esx_f_chmod EXTERN error_znc EXTERN __esxdos_error_mc asm_esx_f_chmod: ; enter : hl = char *filename ; c = attr bits to change ; b = attr ; ; exit : success ; ; hl = 0 ; carry reset ; ; fail ; ; hl = -1 ; carry set, errno set ; ; uses : af, bc, de, hl, ix ld a,'*' IF __SDCC_IY push hl pop iy ELSE push hl pop ix ENDIF rst __ESX_RST_SYS defb __ESX_F_CHMOD jp nc, error_znc jp __esxdos_error_mc ; *************************************************************************** ; * F_CHMOD ($af) * ; *************************************************************************** ; Modify file attributes. ; Entry: ; A=drive specifier (overridden if filespec includes a drive) ; IX=filespec, null-terminated ; B=attribute values bitmap ; C=bitmap of attributes to change (1=change, 0=do not change) ; ; Bitmasks for B and C are any combination of: ; A_WRITE %00000001 ; A_READ %10000000 ; A_RDWR %10000001 ; A_HIDDEN %00000010 ; A_SYSTEM %00000100 ; A_ARCH %00100000 ; ; Exit (success): ; Fc=0 ; Exit (failure): ; Fc=1 ; A=error code

programs/oeis/053/A053193.asm

jmorken/loda

1

173947

; A053193: Cototient of odd numbers. ; 1,1,1,3,1,1,7,1,1,9,1,5,9,1,1,13,11,1,15,1,1,21,1,7,19,1,15,21,1,1,27,17,1,25,1,1,35,17,1,27,1,21,31,1,19,33,23,1,39,1,1,57,1,1,39,1,27,45,23,11,43,25,1,45,1,25,63,1,1,49,23,33,63,1,1,57,35,1,55,29,1,85,1,13,63,1,55,61,1,1,63,41,27,81,1,1,99,1,1,69,35,45,75,29,1,73,47,37,75,29,1,105,1,1,111,1,51,81,1,1,81,77,31,85,1,33,127,1,43,93,1,57,91,1,1,129,75,1,99,1,1,141,47,17,99,1,63,117,35,49,103,65,1,105,1,1,171,1,39,109,35,85,111,53,1,117,71,1,115,41,49,169,1,1,135,1,75,165,1,19,143,77,1,129,59,1,175,41,1,129,1,145,135,1,39,133,83,1,183,1,43,189,47,1,139,65,87,141,1,1,147,105,67,189,1,1,211,41,1,189,1,93,151,1,51,153,167,1,171,1,1,225,1,73,159,53,115,165,1,49,219,101,1,165,1,45,255,77,1,169 add $0,1 mul $0,2 mov $2,$0 cal $0,10 ; Euler totient function phi(n): count numbers <= n and prime to n. sub $0,$2 mov $1,2 sub $1,$0 sub $1,2 div $1,2 mul $1,2 add $1,1

oeis/246/A246607.asm

neoneye/loda-programs

11

178362

<filename>oeis/246/A246607.asm<gh_stars>10-100 ; A246607: E.g.f.: exp(x - x^3). ; Submitted by <NAME> ; 1,1,1,-5,-23,-59,241,2311,9745,-30743,-529919,-3161069,6984121,216832045,1696212337,-2117117729,-138721306079,-1359994188719,367573878145,127713732858667,1523067770484361,1104033549399061,-159815269852521359,-2270787199743845705,-3946710127731620303,260707376748043750201,4348124336286966019201,12044209085363625610051,-537005526346016512313255,-10398551521044855443861123,-39738244852990647429945359,1361846178910112449707650191,30373804922625259138080183361,148634821605125425889597571745 mov $2,1 lpb $0 sub $0,1 mov $1,$4 mul $1,$0 mov $4,$2 sub $2,$3 mov $3,$1 mul $3,3 mul $4,$0 lpe mov $0,$2

test/Succeed/Issue874.agda

shlevy/agda

1,989

3321

<gh_stars>1000+ -- Andreas, 2013-06-22, bug reported by evancavallo {-# OPTIONS --allow-unsolved-metas #-} -- {-# OPTIONS -v tc.conv:20 -v impossible:100 #-} module Issue874 where record Σ (A : Set) (B : A → Set) : Set where constructor _,_ field fst : A snd : B fst module _ {A : Set} where postulate P : A → Set foo : A → Set foo _ = Σ (A → A) (λ _ → (∀ _ → A)) -- the unsolved meta here is essential to trigger the bug bar : (x : A) → foo x → Set bar x (g , _) = P (g x) postulate pos : {x : A} → Σ (foo x) (bar x) test : {x : A} → Σ (foo x) (bar x) test = pos -- this raised an internal error in Conversion.compareElims -- when projecting at unsolved record type

src/coolc/src/coolc/Grammar/Cool.g4

matcom-compilers-2019/cool-compiler-mf

0

1017

grammar Cool; import CoolLexerRules; // includes all rules from CommonLexerRules.g4 @actionName { auto-parse-tree=off; //this isn't doing anything } @header { #pragma warning disable CS1591 // Missing XML comment for publicly visible type or member #pragma warning disable CS3021 // Type or member does not need a CLSCompliant attribute because the assembly does not have a CLSCompliant attribute #pragma warning disable CS0105 //The using directive for 'System.Collections.Generic' appeared previously in this namespace [D:\Desktop\projects\coolc\coolc\src\coolc\coolc.csproj } @members{ } program : (classdef SEMICOLON)+ EOF ; classdef : CLASS t=TYPE (INHERITS it=TYPE)? LBRACE (feature SEMICOLON)* RBRACE ; feature : id=ID LPAREN (formal (COMMA formal)*)? RPAREN COLON t=TYPE LBRACE e=expresion RBRACE #methodFeature | id=ID COLON t=TYPE (ASSIGN e=expresion)? #attribFeature ; formal : id=ID COLON t=TYPE ; expresion : expresion (ATSYM t=TYPE)? DOT id=ID LPAREN(expresion (COMMA expresion)*)?RPAREN #atsimExp | id=ID LPAREN (expresion (COMMA expresion)* )? RPAREN { } #methodCallExp | IF expresion THEN expresion ELSE expresion FI #ifExp | WHILE le=expresion LOOP re=expresion POOL #whileExp | LBRACE (expresion SEMICOLON)+ RBRACE #bracedExp | LET newvar (COMMA newvar)* IN body=expresion #letExp | CASE expresion OF (ID COLON t=TYPE DARROW expresion SEMICOLON)+ ESAC #caseExp | NEW t=TYPE #newTypeExp | ISVOID e=expresion #isvoidExp | le=expresion op=(STAR|SLASH) re=expresion #infixExp | le=expresion op=(PLUS|MINUS) re=expresion #infixExp | TILDE e=expresion #tildeExp | le=expresion LT re=expresion #lessExp | le=expresion LE re=expresion #lessEqualExp | le=expresion EQUALS re=expresion #equalsExp | NOT e=expresion #notExp | LPAREN e=expresion RPAREN #parentExp | s=STRING #stringExp | i=INT #intExp | BOOL #boolExp | id=ID #identifierExp | id=ID ASSIGN e=expresion #assignExp ; newvar : id=ID COLON t=TYPE (ASSIGN e=expresion)? ; //| (ID | BOOL | INT | STRING ) #constantExp

test/Fail/Issue2679a.agda

shlevy/agda

1,989

3846

<filename>test/Fail/Issue2679a.agda postulate A : Set data B (a : A) : Set where conB : B a → B a → B a data C (a : A) : B a → Set where conC : {bl br : B a} → C a bl → C a br → C a (conB bl br) -- First bug. {- a !=< "An internal error has occurred. Please report this as a bug.\nLocation of the error: src/full/Agda/TypeChecking/Telescope.hs:68\n" of type A when checking that the type (a : A) (b : B a) (tl : C a (_16 a b)) → C a (_16 a b) → (tr : C a (_17 a b)) → Set of the generated with function is well-formed -- Is there a contained error printing bug? -} goo : (a : A) (b : B a) (c : C a _) → Set -- giving b for _ resolves the error goo a b (conC tl tr) with tl ... | _ = _

Driver/Power/Common/powerCode.asm

steakknife/pcgeos

504

4439

COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) GeoWorks 1992 -- All Rights Reserved PROJECT: PC GEOS MODULE: Common power management code FILE: powerCode.asm AUTHOR: <NAME> ROUTINES: Name Description ---- ----------- REVISION HISTORY: Name Date Description ---- ---- ----------- Tony 4/22/93 Initial revision DESCRIPTION: This is common battery code $Id: powerCode.asm,v 1.1 97/04/18 11:48:15 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ Resident segment resource COMMENT @---------------------------------------------------------------------- FUNCTION: PowerInit DESCRIPTION: Common initialization CALLED BY: INTERNAL PASS: ds, es - dgroup RETURN: none DESTROYED: ax, bx, cx, dx, si, di, bp, ds, es REGISTER/STACK USAGE: PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/CAVEATS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- Tony 4/22/93 Initial version ------------------------------------------------------------------------------@ PowerInit proc near if POLL_BATTERY ; Install a timer so that we can poll some battery related stuff... mov al, TIMER_ROUTINE_CONTINUAL mov bx, cs mov si, offset BatteryPoll mov cx, BATTERY_POLL_INITIAL_WAIT mov di, BATTERY_POLL_INTERVAL call TimerStart mov ds:[timerHandle], bx mov ds:[timerID], ax endif if PCMCIA_SUPPORT ; ; Attempt to load the pcmcia library. ; call FilePushDir mov ax, SP_SYSTEM call FileSetStandardPath mov ax, high pcmcia mov bx, low pcmcia mov si, offset pcmciaLibName push ds segmov ds, cs call GeodeUseLibrary pop ds call FilePopDir jc pcmciaDone mov ds:[pcmciaLib], bx pcmciaDone: endif mov cx, vseg PowerDeviceNotification mov dx, offset PowerDeviceNotification mov si, SST_DEVICE_POWER call SysHookNotification ret PowerInit endp if PCMCIA_SUPPORT EC <pcmciaLibName TCHAR 'PCMCIAEC.GEO', 0> NEC<pcmciaLibName TCHAR 'PCMCIA.GEO', 0> endif ; PCMCIA_SUPPORT COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% PowerDeviceNotification %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Call the power driver's strategy routine to turn power on or off for a device. CALLED BY: (GLOBAL) SysSendNotification PASS: ax, bx, cx, dx = for DR_POWER_DEVICE_ON_OFF call RETURN: nothing DESTROYED: ax, bx, cx, dx, si, di SIDE EFFECTS: none here PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 2/21/95 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ PowerDeviceNotification proc far .enter mov di, DR_POWER_DEVICE_ON_OFF call PowerStrategy .leave ret PowerDeviceNotification endp COMMENT @---------------------------------------------------------------------- FUNCTION: PowerExit DESCRIPTION: Common exit code CALLED BY: INTERNAL PASS: ds, es - dgroup RETURN: none DESTROYED: ax, bx, cx, dx, si, di, bp, ds, es REGISTER/STACK USAGE: PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/CAVEATS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- Tony 4/22/93 Initial version ------------------------------------------------------------------------------@ PowerExit proc near if POLL_BATTERY mov bx, ds:[timerHandle] mov ax, ds:[timerID] call TimerStop endif if PCMCIA_SUPPORT clr bx xchg bx, ds:[pcmciaLib] tst bx jz pcmciaDone mov ax, enum PCMCIADetach push bx call ProcGetLibraryEntry call ProcCallFixedOrMovable pop bx ;;; Do not attempt to free the library, as this will cause a call to GLoad ;;; (NotifyNewLibraries) in the kernel, which we're not allowed to do here. ;;; call GeodeFreeLibrary pcmciaDone: endif ; PCMCIA_SUPPORT ; ; we never unhook the SST_DEVICE_POWER notification because ; the requisite routine is in movable memory and cannot be called ; from the exit routine of a system driver. It does no harm to ; leave ourselves connected to it, in any case, as no one will call ; ret PowerExit endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% PowerDeviceOnOff %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Common code for fielding device on/off calls CALLED BY: (EXTERNAL) PASS: ax = PowerDeviceType bx = unit number cx = non-zero if turning on device, zero if turning off dx = device-specific data ds = dgroup RETURN: nothing DESTROYED: nothing SIDE EFFECTS: PCMCIA library called if loaded and type is PDT_PCMCIA_SOCKET PSEUDO CODE/STRATEGY: REVISION HISTORY: Name Date Description ---- ---- ----------- ardeb 2/21/95 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ PowerDeviceOnOff proc near .enter if PCMCIA_SUPPORT cmp ax, PDT_PCMCIA_SOCKET jne done ; ; Is for pcmcia socket. Call the library if we loaded it. ; push bx, bp mov bx, ds:[pcmciaLib] tst bx jz noLib ; ; Fetch device on/off routine address from the library. ; mov ax, enum PCMCIADeviceOnOff call ProcGetLibraryEntry ; ; Store it on the stack for PCFOM_P and call the thing. ; mov bp, sp xchg bx, ss:[bp+2] pop bp push ax call PROCCALLFIXEDORMOVABLE_PASCAL ; ; Restore AX for caller... ; mov ax, PDT_PCMCIA_SOCKET jmp done noLib: pop bx, bp done: endif .leave ret PowerDeviceOnOff endp Resident ends

Transynther/x86/_processed/AVXALIGN/_ht_zr_un_/i7-7700_9_0x48_notsx.log_21829_1943.asm

ljhsiun2/medusa

9

85257

.global s_prepare_buffers s_prepare_buffers: push %r12 push %r15 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi lea addresses_WC_ht+0x14b37, %rsi cmp %rdx, %rdx mov (%rsi), %r12d nop nop nop dec %rdx lea addresses_D_ht+0x191f7, %r9 nop nop nop nop nop sub $11846, %r15 mov (%r9), %di nop nop nop nop nop xor %r12, %r12 lea addresses_WC_ht+0xf4f3, %r12 nop nop nop nop nop cmp %rax, %rax movb $0x61, (%r12) nop add $50463, %r12 lea addresses_A_ht+0x98b7, %rsi lea addresses_A_ht+0x181f7, %rdi clflush (%rdi) nop nop nop nop nop xor $5196, %rax mov $13, %rcx rep movsw inc %r15 lea addresses_normal_ht+0x144f7, %r15 inc %r12 vmovups (%r15), %ymm1 vextracti128 $0, %ymm1, %xmm1 vpextrq $0, %xmm1, %rcx nop nop nop nop cmp $775, %rdi lea addresses_UC_ht+0x12ff7, %r15 nop and $22274, %r9 movb $0x61, (%r15) cmp $64088, %rdi lea addresses_D_ht+0xf2f7, %rsi lea addresses_UC_ht+0x15bf7, %rdi nop nop nop nop nop add $59698, %rdx mov $30, %rcx rep movsl nop nop nop xor %r12, %r12 lea addresses_WC_ht+0x1b5af, %rsi lea addresses_D_ht+0x125f7, %rdi clflush (%rsi) cmp $46487, %rax mov $41, %rcx rep movsb nop xor %rax, %rax lea addresses_A_ht+0x1276f, %r12 nop nop nop add $58320, %r15 movb $0x61, (%r12) nop nop and %r15, %r15 lea addresses_D_ht+0x17597, %r15 nop nop nop nop nop xor $49313, %r12 mov $0x6162636465666768, %rcx movq %rcx, (%r15) nop nop nop add %rdi, %rdi lea addresses_D_ht+0x8def, %rsi lea addresses_WT_ht+0x1bad7, %rdi nop nop nop sub %rdx, %rdx mov $33, %rcx rep movsq nop nop nop nop dec %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r15 pop %r12 ret .global s_faulty_load s_faulty_load: push %r13 push %r14 push %rax push %rbx push %rcx // Faulty Load lea addresses_RW+0xc1f7, %r14 clflush (%r14) nop nop dec %rax movaps (%r14), %xmm0 vpextrq $1, %xmm0, %r13 lea oracles, %rax and $0xff, %r13 shlq $12, %r13 mov (%rax,%r13,1), %r13 pop %rcx pop %rbx pop %rax pop %r14 pop %r13 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_RW', 'congruent': 0}} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'NT': False, 'AVXalign': True, 'size': 16, 'type': 'addresses_RW', 'congruent': 0}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': True, 'size': 4, 'type': 'addresses_WC_ht', 'congruent': 4}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': True, 'size': 2, 'type': 'addresses_D_ht', 'congruent': 11}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_WC_ht', 'congruent': 2}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 11, 'type': 'addresses_A_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 6, 'type': 'addresses_A_ht'}} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_normal_ht', 'congruent': 8}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_UC_ht', 'congruent': 9}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 8, 'type': 'addresses_UC_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 4, 'type': 'addresses_D_ht'}} {'dst': {'same': True, 'congruent': 5, 'type': 'addresses_D_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 3, 'type': 'addresses_WC_ht'}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_A_ht', 'congruent': 2}, 'OP': 'STOR'} {'dst': {'same': True, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_D_ht', 'congruent': 5}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 4, 'type': 'addresses_WT_ht'}, 'OP': 'REPM', 'src': {'same': False, 'congruent': 2, 'type': 'addresses_D_ht'}} {'48': 1811, 'ff': 1, '46': 6252, '00': 8674, '45': 5051, '44': 40} 00 46 46 46 00 00 00 00 46 48 00 46 00 00 46 00 00 46 48 46 46 00 00 45 45 00 45 00 00 46 48 00 00 00 45 00 00 00 00 46 45 00 46 48 46 46 46 48 46 46 00 00 46 48 46 46 48 46 00 00 46 00 46 00 00 46 48 00 46 00 00 00 00 45 48 00 00 00 00 46 48 00 00 00 00 00 00 00 45 46 48 00 45 48 00 00 46 46 48 00 46 46 46 46 46 46 00 48 45 00 00 46 46 00 00 46 48 46 00 00 48 46 46 48 46 46 46 00 00 00 46 00 46 45 00 00 46 48 00 46 00 00 45 00 00 45 45 00 45 46 00 45 46 00 45 46 46 48 46 46 00 00 46 48 46 46 00 00 46 48 46 46 00 46 46 46 45 46 45 00 46 00 00 00 45 00 00 00 45 45 00 46 00 48 00 00 00 00 46 46 46 48 46 46 46 00 46 46 00 48 00 44 48 00 45 48 00 45 48 00 45 00 48 46 00 46 46 48 45 45 45 00 45 45 00 45 45 00 45 45 00 00 00 00 00 00 00 45 45 00 45 45 00 00 00 45 00 00 00 00 45 45 00 45 46 46 00 46 00 46 00 00 45 45 00 46 48 45 48 00 46 48 45 46 48 45 45 45 00 46 48 46 45 46 45 00 00 45 45 00 00 45 48 00 45 48 00 46 46 00 46 46 00 48 00 46 46 00 46 48 00 46 46 00 45 00 46 48 46 45 48 45 46 46 00 45 45 00 46 46 00 46 00 46 46 00 46 46 00 46 46 48 46 46 48 45 45 00 00 45 45 00 45 45 00 45 45 00 45 45 00 45 46 46 00 45 48 00 46 46 46 00 00 46 46 46 00 45 46 00 48 45 45 00 45 46 46 45 00 45 46 00 00 00 00 45 00 00 46 45 00 45 00 00 46 45 48 45 45 00 46 48 46 46 00 00 46 00 00 00 00 46 00 00 00 00 00 00 00 00 00 00 00 00 00 48 45 46 00 46 48 00 00 48 45 48 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 46 46 00 46 46 00 00 46 46 46 48 45 48 46 46 00 46 00 00 46 48 46 00 45 46 46 00 00 00 46 48 46 46 00 00 46 46 46 46 46 46 00 48 00 00 00 00 00 00 00 00 00 00 00 45 45 00 46 45 46 48 45 00 46 46 46 48 45 45 46 46 46 00 00 46 48 45 48 45 45 00 00 46 00 00 00 00 45 00 00 00 00 00 00 00 00 00 00 00 00 45 48 46 46 46 00 00 00 00 00 00 00 00 46 00 00 00 45 00 00 46 48 00 46 46 00 46 00 00 45 45 00 00 00 46 45 00 00 00 00 00 45 00 00 00 00 45 46 46 00 00 00 00 46 45 00 46 48 45 46 46 45 46 00 00 00 00 45 00 00 00 00 45 00 00 00 00 45 00 45 45 00 00 00 00 45 45 46 00 00 46 46 48 46 46 48 00 46 48 00 46 00 00 00 00 00 00 00 00 00 45 45 00 00 00 45 45 00 45 45 00 45 45 00 45 45 00 00 00 00 00 00 00 00 00 45 45 00 45 45 00 00 00 45 45 00 46 45 00 00 45 48 00 45 00 46 46 00 00 45 45 00 45 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 46 00 00 00 00 00 00 00 00 00 45 45 00 00 00 00 00 00 00 00 00 00 00 00 00 45 45 00 00 00 00 00 46 46 48 00 00 00 46 46 48 00 00 00 00 45 45 45 48 45 46 00 00 46 46 46 00 46 46 00 46 46 45 00 00 00 00 00 00 00 00 00 00 46 46 00 46 00 46 48 45 46 00 00 45 45 00 45 45 00 45 45 00 46 48 00 46 48 45 46 45 00 45 46 00 45 00 00 00 46 46 00 46 00 00 00 00 00 45 48 00 45 00 00 00 00 00 00 00 46 00 00 46 48 00 00 00 00 00 00 46 48 46 46 46 00 46 46 00 46 45 00 00 45 45 00 00 00 00 00 00 00 45 45 00 00 00 45 45 00 00 00 46 48 45 46 45 00 00 00 46 48 45 45 00 45 46 48 46 45 00 00 46 48 45 45 00 00 00 00 00 00 45 00 00 45 45 00 45 45 00 00 00 45 45 00 00 00 45 45 00 00 00 00 00 00 00 00 46 00 46 00 00 46 00 00 46 48 46 45 45 00 45 45 00 46 48 46 46 */

programs/oeis/195/A195172.asm

neoneye/loda

22

163561

; A195172: a(n) = 4*n - floor(2*n*r), where r=(1+sqrt(5))/2 (the golden ratio). ; 0,1,2,3,4,4,5,6,7,7,8,9,10,10,11,12,13,13,14,15,16,17,17,18,19,20,20,21,22,23,23,24,25,26,26,27,28,29,30,30,31,32,33,33,34,35,36,36,37,38,39,39,40,41,42,43,43,44,45,46,46,47,48,49,49,50,51,52,52,53,54,55,56,56,57,58,59,59,60,61,62,62,63,64,65,65,66,67,68,68,69,70,71,72,72,73,74,75,75,76 mul $0,2 mov $1,$0 seq $1,60143 ; a(n) = floor(n/tau), where tau = (1 + sqrt(5))/2. sub $0,$1

oeis/048/A048481.asm

neoneye/loda-programs

11

92140

; A048481: a(n) = T(0,n)+T(1,n-1)+...+T(n,0), array T given by A048472. ; 1,3,9,27,77,207,529,1299,3093,7191,16409,36891,81949,180255,393249,852003,1835045,3932199,8388649,17825835,37748781,79691823,167772209,352321587,738197557,1543503927,3221225529,6710886459,13958643773,28991029311,60129542209,124554051651,257698037829,532575944775,1099511627849,2267742732363,4672924418125,9620726743119,19791209300049,40681930227795,83562883711061,171523813933143,351843720888409,721279627821147,1477743627731037,3025855999639647,6192449487634529,12666373951979619,25895697857380453 mov $1,$0 lpb $1 mul $0,2 sub $1,1 add $2,1 sub $0,$2 lpe mul $0,2 add $0,1

utils/dump_photo_info.applescript

scanner/osxphotos

656

3150

-- Dumps UUID and other info about every photo in Photos.app to a tet file (see theFile below) -- Use output of this script with check_uuid.py to help with debugging differences in Photos and osxphoto tell application "Photos" activate set theDelimiter to ";" set theBackup to AppleScript's text item delimiters -- Set the new delimiter set AppleScript's text item delimiters to theDelimiter set theFile to (((path to desktop folder) as string) & "photoslib1.txt") set theOpenedFile to open for access file theFile with write permission set results to selection repeat with _item in results set _keywords to keywords of _item if _keywords is not {} then _keywords = (_keywords as text) else _keywords = "none" end if set _str to (((((id of _item) as text) & ", " & (filename of _item) as text) & ", " & _keywords & ", " & (name of _item) as text) & ", " & (description of _item) as text) & " " -- display dialog _str write _str to theOpenedFile starting at eof -- writeTextToFile(_str, theFile, false) end repeat -- Restore the original delimiter set AppleScript's text item delimiters to theBackup close access theOpenedFile end tell

CLICK_DRUMS/noise/noise.asm

bushy555/ZX-Spectrum-1-Bit-Routines

59

20079

;;; zx beeper noise generator click drum ;;; by utz 09'2019 * irrlichtproject.de ;;; based on el cheapo PRNG with improvements by Shiru ;;; ;;; USAGE: 1) Define DRUM_RETURN_ADDRESS ;;; 2) Set up the stack: SP+0 - 0, SP+1 - volume ((1..7)<<4) ;;; SP+2 - pitch (1..0xff, 1 is highest) ;;; SP+4 - length ;;; 3) JP noise_init ;;; ;;; TIMING: length * 112 + (length - 1) * 13 + 8 cycles ;;; ;;; REGISTER USAGE: F destroyed, SP += 4 noise_init ld (_oldHL),hl ; 16 ld (_oldDE),de ; 20 ld (_oldBC),bc ; 20 ld (_oldIX),ix ; 20 ld (_oldA),a ; 13 pop af ; 10 volume ld (_volume),a ; 13 pop bc ; 10 pitch|length<<8 ld ixl,c ; 8 ld de,#2157 ; 10 initial PRNG seed xor a ; 4 ld h,a ; 4 ld l,a ; 4 ld ixh,#fe ; 11 -- init: 163 adjust timer lo _loop out (#fe),a ; 11__33 dec c ; 4 jr nz,_no_update ; 12/7 ld c,ixl ; 8 restore pitch add hl,de ; 11 el cheapo PRNG rlc h ; 8 inc d ; 4 -- 48 _wait_return ld a,h ; 4 _volume equ $+1 and #30 ; 7 out (#fe),a ; 11__64 rrca ; 4 out (#fe),a ; 11__15 rrca ; 4 dec ixh ; 4 jp nz,_loop ; 10 --- 112 djnz _loop _oldHL equ $+1 ld hl,0 ; 10 _oldDE equ $+1 ld de,0 ; 10 _oldBC equ $+1 ld bc,0 ; 10 _oldIX equ $+2 ld ix,0 ; 10 _oldA equ $+1 ld a,0 ; 7 jp DRUM_RETURN_ADDRESS ; 14 -- exit 61, init+exit 224 _no_update ;+12 ds 6 ; 24 jr _wait_return ; 12 -- 48

UNIT_TESTS/efx_001.adb

io7m/coreland-openal-ada

1

6957

<reponame>io7m/coreland-openal-ada with OpenAL.Context.Error; with OpenAL.Context; with OpenAL.Extension.EFX; with Test; procedure efx_001 is package ALC renames OpenAL.Context; package ALC_Error renames OpenAL.Context.Error; package AL_EFX renames OpenAL.Extension.EFX; Device : ALC.Device_t; Context : ALC.Context_t; OK : Boolean; Loaded : Boolean; EFX : AL_EFX.Extension_t; TC : Test.Context_t; use type ALC.Device_t; use type ALC.Context_t; use type ALC_Error.Error_t; procedure Finish is begin ALC.Destroy_Context (Context); ALC.Close_Device (Device); end Finish; procedure Init is begin Device := ALC.Open_Default_Device; pragma Assert (Device /= ALC.Invalid_Device); Context := ALC.Create_Context (Device); pragma Assert (Context /= ALC.Invalid_Context); OK := ALC.Make_Context_Current (Context); pragma Assert (OK); end Init; begin Test.Initialize (Test_Context => TC, Program => "efx_001", Test_DB => "TEST_DB", Test_Results => "TEST_RESULTS"); Init; Loaded := True; if AL_EFX.Is_Present (Device) then begin EFX := AL_EFX.Load_Extension; pragma Assert (EFX'Size > 0); exception when others => Loaded := False; end; Test.Check (TC, 55, Loaded, "Loaded"); else Test.Satisfy (TC, 55, Test.Unsupported); end if; Finish; end efx_001;

orka_transforms/src/orka-integrators.adb

onox/orka

52

8741

<filename>orka_transforms/src/orka-integrators.adb -- SPDX-License-Identifier: Apache-2.0 -- -- Copyright (c) 2021 onox <<EMAIL>> -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. package body Orka.Integrators is function RK4 (Y : Element_Type; DT : Duration_Type; F : not null access function (Y : Element_Type; DT : Duration_Type) return Element_Type) return Element_Type is A, B, C, D : Element_Type; begin A := DT * F (Y, DT * 0.0); B := DT * F (Y + 0.5 * A, DT * 0.5); C := DT * F (Y + 0.5 * B, DT * 0.5); D := DT * F (Y + C, DT * 1.0); return (1.0 / 6.0) * (A + 2.0 * (B + C) + D); end RK4; end Orka.Integrators;

non_regression/p2align_x86_linux.att.s.asm

LRGH/plasmasm

1

160295

.file "a02.c" .text .p2align 4,,15 # ---------------------- .globl toto .type toto, @function toto: .cfi_startproc movl 4(%esp), %eax addl $1, (%eax) ret .cfi_endproc .size toto, .-toto # ---------------------- .p2align 4,,15 # ---------------------- .globl tata .type tata, @function tata: .cfi_startproc movl 4(%esp), %eax subl $1, (%eax) ret .cfi_endproc .size tata, .-tata # ---------------------- .section .text.startup,"ax",@progbits .p2align 4,,15 # ---------------------- .globl main .type main, @function main: .cfi_startproc subl $20, %esp leal 16(%esp), %eax movl %eax, (%esp) movl $0, 16(%esp) call toto movl 16(%esp), %eax addl $20, %esp ret .cfi_endproc .size main, .-main # ---------------------- .ident "GCC: (Ubuntu/Linaro 4.6.3-1ubuntu5) 4.6.3" .section .note.GNU-stack,"",@progbits

old/Homotopy/PathTruncation.agda

timjb/HoTT-Agda

294

11007

<gh_stars>100-1000 {-# OPTIONS --without-K #-} {- Now it only has specialized constructs and lemmas for π₀ (x ≡ y) Should be rewritten with something like Algebra.Groupoids -} open import Base module Homotopy.PathTruncation where open import HLevel open import HLevelBis open import Homotopy.Truncation _≡₀_ : ∀ {i} {A : Set i} → A → A → Set i _≡₀_ x y = π₀ (x ≡ y) infix 8 _∘₀_ -- \o\0 _∘₀_ : ∀ {i} {A : Set i} {x y z : A} → x ≡₀ y → y ≡₀ z → x ≡₀ z _∘₀_ = π₀-extend-nondep ⦃ →-is-set $ π₀-is-set _ ⦄ (λ p → π₀-extend-nondep ⦃ π₀-is-set _ ⦄ (λ q → proj $ p ∘ q)) !₀ : ∀ {i} {A : Set i} {x y : A} → x ≡₀ y → y ≡₀ x !₀ = π₀-extend-nondep ⦃ π₀-is-set _ ⦄ (proj ◯ !) refl₀ : ∀ {i} {A : Set i} {a : A} → a ≡₀ a refl₀ = proj refl ap₀ : ∀ {i j} {A : Set i} {B : Set j} {x y : A} (f : A → B) → x ≡₀ y → f x ≡₀ f y ap₀ f = π₀-extend-nondep ⦃ π₀-is-set _ ⦄ (proj ◯ ap f) module _ {i} {A : Set i} where refl₀-right-unit : ∀ {x y : A} (q : x ≡₀ y) → (q ∘₀ refl₀) ≡ q refl₀-right-unit {x = x} {y} = π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set (x ≡ y) ⦄ (λ x → ap proj $ refl-right-unit x) refl₀-left-unit : ∀ {x y : A} (q : x ≡₀ y) → (refl₀ ∘₀ q) ≡ q refl₀-left-unit {x = x} {y} = π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set (x ≡ y) ⦄ (λ _ → refl) concat₀-assoc : {x y z t : A} (p : x ≡₀ y) (q : y ≡₀ z) (r : z ≡₀ t) → (p ∘₀ q) ∘₀ r ≡ p ∘₀ (q ∘₀ r) concat₀-assoc = π₀-extend ⦃ λ _ → Π-is-set λ _ → Π-is-set λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ p → π₀-extend ⦃ λ _ → Π-is-set λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ q → π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ r → ap proj $ concat-assoc p q r))) concat₀-ap₀ : ∀ {j} {B : Set j} (f : A → B) {x y z : A} (p : x ≡₀ y) (q : y ≡₀ z) → ap₀ f p ∘₀ ap₀ f q ≡ ap₀ f (p ∘₀ q) concat₀-ap₀ f = π₀-extend ⦃ λ _ → Π-is-set λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ p → π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ q → ap proj $ concat-ap f p q)) ap₀-compose : ∀ {j k} {B : Set j} {C : Set k} (g : B → C) (f : A → B) {x y : A} (p : x ≡₀ y) → ap₀ (g ◯ f) p ≡ ap₀ g (ap₀ f p) ap₀-compose f g = π₀-extend ⦃ λ _ → ≡-is-set $ π₀-is-set _ ⦄ (λ p → ap proj $ ap-compose f g p) module _ {i} {A : Set i} where trans-id≡₀cst : {a b c : A} (p : b ≡ c) (q : b ≡₀ a) → transport (λ x → x ≡₀ a) p q ≡ proj (! p) ∘₀ q trans-id≡₀cst refl q = ! $ refl₀-left-unit q trans-cst≡₀id : {a b c : A} (p : b ≡ c) (q : a ≡₀ b) → transport (λ x → a ≡₀ x) p q ≡ q ∘₀ proj p trans-cst≡₀id refl q = ! $ refl₀-right-unit q module _ {i} {A : Set i} where homotopy₀-naturality : ∀ {j} {B : Set j} (f g : A → B) (p : (x : A) → f x ≡₀ g x) {x y : A} (q : x ≡₀ y) → ap₀ f q ∘₀ p y ≡ p x ∘₀ ap₀ g q homotopy₀-naturality f g p {x} {y} q = π₀-extend ⦃ λ q → ≡-is-set {x = ap₀ f q ∘₀ p y} {y = p x ∘₀ ap₀ g q} $ π₀-is-set (f x ≡ g y) ⦄ (lemma {x} {y}) q where lemma : ∀ {x y : A} (q : x ≡ y) → ap₀ f (proj q) ∘₀ p y ≡ p x ∘₀ ap₀ g (proj q) lemma refl = refl₀ ∘₀ p _ ≡⟨ refl₀-left-unit (p _) ⟩ p _ ≡⟨ ! $ refl₀-right-unit _ ⟩∎ p _ ∘₀ refl₀ ∎ -- Loop space commutes with truncation in the sense that -- τ n (Ω X) = Ω (τ (S n) X) -- (actually, this is true more generally for paths spaces and we need this -- level of generality to prove it) module _ {i} {n : ℕ₋₂} {A : Set i} where private to : (x y : A) → (τ n (x ≡ y)) → ((proj {n = S n} x) ≡ (proj y)) to x y = τ-extend-nondep ⦃ τ-is-truncated (S n) A _ _ ⦄ (ap proj) -- [truncated-path-space (proj x) (proj y)] is [τ n (x ≡ y)] truncated-path-space : (u v : τ (S n) A) → Type≤ n i truncated-path-space = τ-extend-nondep ⦃ →-is-truncated (S n) (Type≤-is-truncated n _) ⦄ (λ x → τ-extend-nondep ⦃ Type≤-is-truncated n _ ⦄ (λ y → τ n (x ≡ y) , τ-is-truncated n _)) -- We now extend [to] to the truncation of [A], and this is why we needed to -- first extend the return type of [to] to' : (u v : τ (S n) A) → (π₁ (truncated-path-space u v) → u ≡ v) to' = τ-extend ⦃ λ x → Π-is-truncated (S n) (λ a → Π-is-truncated (S n) (λ b → ≡-is-truncated (S n) (τ-is-truncated (S n) A)))⦄ (λ x → τ-extend ⦃ λ t → Π-is-truncated (S n) (λ a → ≡-is-truncated (S n) (τ-is-truncated (S n) A))⦄ (λ y → to x y)) from'-refl : (u : τ (S n) A) → (π₁ (truncated-path-space u u)) from'-refl = τ-extend ⦃ λ x → truncated-is-truncated-S n (π₂ (truncated-path-space x x))⦄ (λ x → proj refl) from' : (u v : τ (S n) A) → (u ≡ v → π₁ (truncated-path-space u v)) from' u .u refl = from'-refl u from : (x y : A) → (proj {n = S n} x ≡ proj y → τ n (x ≡ y)) from x y p = from' (proj x) (proj y) p from-to : (x y : A) (p : τ n (x ≡ y)) → from x y (to x y p) ≡ p from-to x y = τ-extend ⦃ λ _ → ≡-is-truncated n (τ-is-truncated n _)⦄ (from-to' x y) where from-to' : (x y : A) (p : x ≡ y) → from x y (to x y (proj p)) ≡ proj p from-to' x .x refl = refl to'-from' : (u v : τ (S n) A) (p : u ≡ v) → to' u v (from' u v p) ≡ p to'-from' x .x refl = to'-from'-refl x where to'-from'-refl : (u : τ (S n) A) → to' u u (from' u u refl) ≡ refl to'-from'-refl = τ-extend ⦃ λ _ → ≡-is-truncated (S n) (≡-is-truncated (S n) (τ-is-truncated (S n) A))⦄ (λ _ → refl) to-from : (x y : A) (p : proj {n = S n} x ≡ proj y) → to x y (from x y p) ≡ p to-from x y p = to'-from' (proj x) (proj y) p τ-path-equiv-path-τ-S : {x y : A} → τ n (x ≡ y) ≃ (proj {n = S n} x ≡ proj y) τ-path-equiv-path-τ-S {x} {y} = (to x y , iso-is-eq _ (from x y) (to-from x y) (from-to x y)) module _ where open import Homotopy.Connected abstract connected-has-connected-paths : is-connected (S n) A → (p q : A) → is-connected n (p ≡ q) connected-has-connected-paths conn p q = equiv-types-truncated ⟨-2⟩ (τ-path-equiv-path-τ-S ⁻¹) (contr-is-prop conn (proj p) (proj q)) connected-has-all-τ-paths : is-connected (S n) A → (p q : A) → τ n (p ≡ q) connected-has-all-τ-paths conn p q = π₁ $ connected-has-connected-paths conn p q

src/jsa-debugged.adb

sparre/JSA

1

3688

------------------------------------------------------------------------------ -- -- package Debugged (body) -- ------------------------------------------------------------------------------ -- Update information: -- -- 1996.07.26 (<NAME>) -- Copied from Debugging (1996.07.26). -- -- (Insert additional update information above this line.) ------------------------------------------------------------------------------ with Ada.Command_Line; with Ada.Text_IO; package body JSA.Debugged is --------------------------------------------------------------------------- -- procedure Message: -- -- Writes a message to Current_Error if debugging is activated. procedure Message (Item : in String) is use Ada.Text_IO; begin -- Message if Debug then Put (Current_Error, Item); -- Flush (Current_Error); end if; end Message; --------------------------------------------------------------------------- -- procedure Message_Line: -- -- Writes a message and a new line to Current_Error if debugging is -- activated. procedure Message_Line (Item : in String) is use Ada.Text_IO; begin -- Message_Line if Debug then Put_Line (Current_Error, Item); -- Flush (Current_Error); end if; end Message_Line; --------------------------------------------------------------------------- use Ada.Command_Line; use Ada.Text_IO; Error_Log : File_Type; Log_To_Current_Error : Boolean := True; Log_File_Argument_Index : Positive; begin -- Debugged for Index in 1 .. Argument_Count - 1 loop if Argument (Index) = "-errorlog" then Log_To_Current_Error := False; Log_File_Argument_Index := Index + 1; exit; end if; end loop; if not Log_To_Current_Error then if Argument (Log_File_Argument_Index) = "-" then Set_Error (Standard_Output); else Create (File => Error_Log, Name => Argument (Log_File_Argument_Index)); Set_Error (Error_Log); end if; end if; end JSA.Debugged;

books_and_notes/professional_courses/Assembly_language_and_programming/sources/汇编语言程序设计教程第四版/codes/5_4.asm

gxw1/review_the_national_post-graduate_entrance_examination

640

177910

DATA SEGMENT X1 DB 63H X2 DB 31H X3 DB 91H X4 DB 78H Y DB ? DATA ENDS CODE SEGMENT ASSUME CS:CODE,DS:DATA START: MOV AX,DATA MOV DS,AX MOV AL,X1 ADD AL,X2 MOV BL,X3 ADD BL,X4 SUB AL,BL MOV Y,AL MOV AH,4CH INT 21H CODE ENDS END START

programs/oeis/144/A144600.asm

neoneye/loda

22

174758

; A144600: Christoffel word of slope 2/11. ; 0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0,0,0,0,1,0,0,0,0,0,0,1,0,0 add $0,1 mul $0,2 mod $0,13 div $0,2 cmp $0,0

oeis/100/A100859.asm

neoneye/loda-programs

11

98862

<reponame>neoneye/loda-programs ; A100859: Beginning with 3, increasing primes such that no two adjacent terms are congruent mod 4. ; Submitted by <NAME> ; 3,5,7,13,19,29,31,37,43,53,59,61,67,73,79,89,103,109,127,137,139,149,151,157,163,173,179,181,191,193,199,229,239,241,251,257,263,269,271,277,283,293,307,313,331,337,347,349,359,373,379,389,419,421,431,433 mov $1,1 mov $2,1 lpb $0 mov $3,$2 lpb $3 add $2,4 mov $4,$1 gcd $4,$2 cmp $4,1 cmp $4,0 sub $3,$4 lpe sub $0,1 add $2,2 mul $1,$2 lpe mov $0,$2 add $0,2

src/asis/a4g-span_beginning.ads

My-Colaborations/dynamo

15

20049

<reponame>My-Colaborations/dynamo<gh_stars>10-100 ------------------------------------------------------------------------------ -- -- -- ASIS-for-GNAT IMPLEMENTATION COMPONENTS -- -- -- -- A 4 G . S P A N _ B E G I N N I N G -- -- -- -- S p e c -- -- -- -- Copyright (C) 1995-2012, Free Software Foundation, Inc. -- -- -- -- ASIS-for-GNAT is free software; you can redistribute it and/or modify it -- -- under terms of the GNU General Public License as published by the Free -- -- Software Foundation; either version 2, or (at your option) any later -- -- version. ASIS-for-GNAT is distributed in the hope that it will be use- -- -- ful, but WITHOUT ANY WARRANTY; without even the implied warranty of MER- -- -- CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General -- -- Public License for more details. You should have received a copy of the -- -- GNU General Public License distributed with ASIS-for-GNAT; see file -- -- COPYING. If not, write to the Free Software Foundation, 51 Franklin -- -- Street, Fifth Floor, Boston, MA 02110-1301, USA. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ASIS-for-GNAT was originally developed by the ASIS-for-GNAT team at the -- -- Software Engineering Laboratory of the Swiss Federal Institute of -- -- Technology (LGL-EPFL) in Lausanne, Switzerland, in cooperation with the -- -- Scientific Research Computer Center of Moscow State University (SRCC -- -- MSU), Russia, with funding partially provided by grants from the Swiss -- -- National Science Foundation and the Swiss Academy of Engineering -- -- Sciences. ASIS-for-GNAT is now maintained by AdaCore -- -- (http://www.adacore.com). -- -- -- ------------------------------------------------------------------------------ with Asis; with A4G.Int_Knds; use A4G.Int_Knds; with Types; use Types; package A4G.Span_Beginning is function Set_Image_Beginning (E : Asis.Element) return Source_Ptr; -- The driver function for computing the beginning of the element image -- in the GNAT source text buffer. In case if the argument is a labeled -- statement returns the baginning of the first attachecd label. Otherwise -- calls the element-kind-specific function for computing the image -- beginning -- The functions below compute the beginning of the text image for some -- specific set of ELement kinds/ function Subunit_Beginning (E : Asis.Element) return Source_Ptr; function Private_Unit_Beginning (E : Asis.Element) return Source_Ptr; -- Assuming that E is an element representing the top Unit element of a -- subunit or of a library item representing a private unit, returns the -- source pointer to the beginning of the keyword SEPARATE or PRIVATE -- accordingly. function No_Search (E : Asis.Element) return Source_Ptr; -- That is, we can just use Sloc from the node the Element is based upon. function Search_Identifier_Beginning (E : Asis.Element) return Source_Ptr; -- A special processing is needed for an identifier representing the -- attribute designator in pseudo-attribute-reference in an attribute -- definition clause and for 'Class attribute in aspect indication function Search_Subtype_Indication_Beginning (E : Asis.Element) return Source_Ptr; -- If the subtype mark is an expanded name, we have to look for its prefix function Defining_Identifier_Beginning (E : Asis.Element) return Source_Ptr; -- Returns the beginning of A_Defining_Identifier elements. In case of -- labels we have to get rid of '<<' function Short_Circuit_Beginning (E : Asis.Element) return Source_Ptr; -- Returns the beginning of short circuit expression function Membership_Test_Beginning (E : Asis.Element) return Source_Ptr; -- Returns the beginning of membership test expression function Null_Component_Beginning (E : Asis.Element) return Source_Ptr; -- In case of A_Nil_Component element Sloc of its Node points to -- "record" (it's easy) or to variant (it's a pain) function Search_Prefix_Beginning (E : Asis.Element) return Source_Ptr; -- Is needed when the Argument has a "prefix" in its structure, but Sloc -- points somewhere inside the elemen structure -- --|A2005 start function Possible_Null_Exclusion_Beginning (E : Asis.Element) return Source_Ptr; -- Should be used for constructs that can contain null_exclusion function Possible_Overriding_Indicator_Beginning (E : Asis.Element) return Source_Ptr; -- Is supposed to be used for some of the constructs that can contain -- overriding_indicator -- --|A2005 end function Component_And_Parameter_Declaration_Beginning (E : Asis.Element) return Source_Ptr; function Exception_Declaration_Beginning (E : Asis.Element) return Source_Ptr; function Derived_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Type_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Interface_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Tagged_Type_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Simple_Expression_Range_Beginning (E : Asis.Element) return Source_Ptr; function Component_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Search_Left_Parenthesis_After (E : Asis.Element) return Source_Ptr; -- Is needed when the Element does not have its "own" node (in particular, -- for A_Known_Discriminant_Part Element) function Private_Extension_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Private_Type_Definition_Beginning (E : Asis.Element) return Source_Ptr; function Explicit_Dereference_Beginning (E : Asis.Element) return Source_Ptr; function Function_Call_Beginning (E : Asis.Element) return Source_Ptr; function Indexed_Component_Beginning (E : Asis.Element) return Source_Ptr; function Component_Association_Beginning (E : Asis.Element) return Source_Ptr; function Association_Beginning (E : Asis.Element) return Source_Ptr; function Parenthesized_Expression_Beginning (E : Asis.Element) return Source_Ptr; function Assignment_Statement_Beginning (E : Asis.Element) return Source_Ptr; function Named_Statement_Beginning (E : Asis.Element) return Source_Ptr; -- Takes care of loop and block names function Call_Statement_Beginning (E : Asis.Element) return Source_Ptr; function While_Loop_Statement_Beginning (E : Asis.Element) return Source_Ptr; function For_Loop_Statement_Beginning (E : Asis.Element) return Source_Ptr; function Else_Path_Beginning (E : Asis.Element) return Source_Ptr; function With_Clause_Beginning (E : Asis.Element) return Source_Ptr; function Component_Clause_Beginning (E : Asis.Element) return Source_Ptr; function Subprogram_Spec_Beginning (E : Asis.Element) return Source_Ptr; function Formal_Object_Declaration_Beginning (E : Asis.Element) return Source_Ptr; function A_Then_Abort_Path_Beginning (E : Asis.Element) return Source_Ptr; function Select_Alternative_Beginning (E : Asis.Element) return Source_Ptr; -- --|A2015 start function Case_Expression_Path_Beginning (E : Asis.Element) return Source_Ptr; function If_Expression_Beginning (E : Asis.Element) return Source_Ptr; function Conditional_Expression_Path_Beginning (E : Asis.Element) return Source_Ptr; function An_Else_Expression_Path_Beginning (E : Asis.Element) return Source_Ptr; -- --|A2015 end -- The look-up table below defines the mapping from Element kinds onto -- specific routines for computing the Element image beginning type Set_Source_Location_type is access function (E : Asis.Element) return Source_Ptr; Switch : array (Internal_Element_Kinds) of Set_Source_Location_type := ( An_All_Calls_Remote_Pragma .. -- An_Asynchronous_Pragma -- An_Atomic_Pragma -- An_Atomic_Components_Pragma -- An_Attach_Handler_Pragma -- A_Controlled_Pragma -- A_Convention_Pragma -- An_Elaborate_All_Pragma -- An_Elaborate_Body_Pragma -- An_Export_Pragma -- An_Import_Pragma -- An_Inline_Pragma -- An_Inspection_Point_Pragma -- An_Interrupt_Handler_Pragma -- An_Interrupt_Priority_Pragma -- A_List_Pragma -- A_Locking_Policy_Pragma -- A_Normalize_Scalars_Pragma -- An_Optimize_Pragma -- A_Pack_Pragma -- A_Page_Pragma -- A_Preelaborate_Pragma -- A_Priority_Pragma -- A_Pure_Pragma -- A_Queuing_Policy_Pragma -- A_Remote_Call_Interface_Pragma -- A_Remote_Types_Pragma -- A_Restrictions_Pragma -- A_Reviewable_Pragma -- A_Shared_Passive_Pragma -- A_Suppress_Pragma -- A_Task_Dispatching_Policy_Pragma -- A_Volatile_Pragma -- A_Volatile_Components_Pragma -- An_Implementation_Defined_Pragma An_Unknown_Pragma => No_Search'Access, A_Defining_Identifier => Defining_Identifier_Beginning'Access, A_Defining_Character_Literal .. -- A_Defining_Enumeration_Literal -- A_Defining_Or_Operator -- A_Defining_Xor_Operator -- A_Defining_Equal_Operator -- A_Defining_Not_Equal_Operator -- A_Defining_Less_Than_Operator -- A_Defining_Less_Than_Or_Equal_Operator -- A_Defining_Greater_Than_Operator -- A_Defining_Greater_Than_Or_Equal_Operator -- A_Defining_Plus_Operator -- A_Defining_Minus_Operator -- A_Defining_Concatenate_Operator -- A_Defining_Unary_Plus_Operator -- A_Defining_Unary_Minus_Operator -- A_Defining_Multiply_Operator -- A_Defining_Divide_Operator -- A_Defining_Mod_Operator -- A_Defining_Rem_Operator -- A_Defining_Exponentiate_Operator -- A_Defining_Abs_Operator A_Defining_Not_Operator => No_Search'Access, A_Defining_Expanded_Name => Search_Prefix_Beginning'Access, An_Ordinary_Type_Declaration .. -- A_Task_Type_Declaration -- A_Protected_Type_Declaration -- An_Incomplete_Type_Declaration -- A_Private_Type_Declaration -- A_Private_Extension_Declaration -- A_Subtype_Declaration -- A_Variable_Declaration -- A_Constant_Declaration -- A_Deferred_Constant_Declaration -- A_Single_Task_Declaration -- A_Single_Protected_Declaration -- An_Integer_Number_Decl -- A_Real_Number_Declaration -- An_Enumeration_Literal_Specification A_Discriminant_Specification => No_Search'Access, A_Component_Declaration => Component_And_Parameter_Declaration_Beginning'Access, A_Loop_Parameter_Specification => No_Search'Access, -- --|A2012 start A_Generalized_Iterator_Specification => No_Search'Access, -- ??? An_Element_Iterator_Specification => No_Search'Access, -- ??? -- --|A2012 end A_Procedure_Declaration .. A_Function_Declaration => Subprogram_Spec_Beginning'Access, -- --|A2005 start A_Null_Procedure_Declaration => Subprogram_Spec_Beginning'Access, -- --|A2005 end -- --|A2012 start An_Expression_Function_Declaration => Subprogram_Spec_Beginning'Access, -- --|A2012 end A_Parameter_Specification => Component_And_Parameter_Declaration_Beginning'Access, A_Procedure_Body_Declaration .. A_Function_Body_Declaration => Subprogram_Spec_Beginning'Access, A_Package_Declaration .. -- A_Package_Body_Declaration -- An_Object_Renaming_Declaration -- An_Exception_Renaming_Declaration A_Package_Renaming_Declaration => No_Search'Access, A_Procedure_Renaming_Declaration => Subprogram_Spec_Beginning'Access, A_Function_Renaming_Declaration => Subprogram_Spec_Beginning'Access, A_Generic_Package_Renaming_Declaration .. -- A_Generic_Procedure_Renaming_Declaration -- A_Generic_Function_Renaming_Declaration -- A_Task_Body_Declaration A_Protected_Body_Declaration => No_Search'Access, An_Entry_Declaration => Possible_Overriding_Indicator_Beginning'Access, An_Entry_Body_Declaration .. An_Entry_Index_Specification => No_Search'Access, A_Procedure_Body_Stub .. A_Function_Body_Stub => Subprogram_Spec_Beginning'Access, A_Package_Body_Stub .. -- A_Task_Body_Stub A_Protected_Body_Stub => No_Search'Access, An_Exception_Declaration => Exception_Declaration_Beginning'Access, A_Choice_Parameter_Specification .. -- A_Generic_Procedure_Declaration -- A_Generic_Function_Declaration -- A_Generic_Package_Declaration A_Package_Instantiation => No_Search'Access, A_Procedure_Instantiation .. A_Function_Instantiation => Possible_Overriding_Indicator_Beginning'Access, A_Formal_Object_Declaration => Formal_Object_Declaration_Beginning'Access, A_Formal_Type_Declaration .. -- A_Formal_Procedure_Declaration -- A_Formal_Function_Declaration -- A_Formal_Package_Declaration A_Formal_Package_Declaration_With_Box => No_Search'Access, A_Derived_Type_Definition => Derived_Definition_Beginning'Access, A_Derived_Record_Extension_Definition => Derived_Definition_Beginning'Access, An_Enumeration_Type_Definition .. -- A_Signed_Integer_Type_Definition -- A_Modular_Type_Definition --------------------------------------------------------- -- !!! They all are implicit and cannot have image -- | -- |-> A_Root_Integer_Definition -- |-> A_Root_Real_Definition -- |-> A_Root_Fixed_Definition -- |-> A_Universal_Integer_Definition -- |-> A_Universal_Real_Definition -- +-> A_Universal_Fixed_Definition --------------------------------------------------------- -- A_Floating_Point_Definition -- An_Ordinary_Fixed_Point_Definition -- A_Decimal_Fixed_Point_Definition -- An_Unconstrained_Array_Definition A_Constrained_Array_Definition => No_Search'Access, A_Record_Type_Definition => Type_Definition_Beginning'Access, A_Tagged_Record_Type_Definition => Tagged_Type_Definition_Beginning'Access, -- --|A2005 start An_Ordinary_Interface .. -- A_Limited_Interface, -- A_Task_Interface, -- A_Protected_Interface, A_Synchronized_Interface => Interface_Definition_Beginning'Access, -- --|A2005 end A_Pool_Specific_Access_To_Variable .. -- An_Access_To_Variable -- An_Access_To_Constant -- An_Access_To_Procedure -- An_Access_To_Protected_Procedure -- An_Access_To_Function An_Access_To_Protected_Function => No_Search'Access, A_Subtype_Indication => Search_Subtype_Indication_Beginning'Access, A_Range_Attribute_Reference => Search_Prefix_Beginning'Access, A_Simple_Expression_Range => Simple_Expression_Range_Beginning'Access, A_Digits_Constraint .. -- A_Delta_Constraint -- An_Index_Constraint A_Discriminant_Constraint => No_Search'Access, A_Component_Definition => Component_Definition_Beginning'Access, A_Discrete_Subtype_Indication_As_Subtype_Definition => Search_Subtype_Indication_Beginning'Access, A_Discrete_Range_Attribute_Reference_As_Subtype_Definition => Search_Prefix_Beginning'Access, A_Discrete_Simple_Expression_Range_As_Subtype_Definition => Simple_Expression_Range_Beginning'Access, A_Discrete_Subtype_Indication => Search_Subtype_Indication_Beginning'Access, A_Discrete_Range_Attribute_Reference => Search_Prefix_Beginning'Access, A_Discrete_Simple_Expression_Range => Simple_Expression_Range_Beginning'Access, An_Unknown_Discriminant_Part .. A_Known_Discriminant_Part => Search_Left_Parenthesis_After'Access, A_Record_Definition .. A_Null_Record_Definition => No_Search'Access, A_Null_Component => Null_Component_Beginning'Access, A_Variant_Part .. -- A_Variant An_Others_Choice => No_Search'Access, -- --|A2005 start An_Anonymous_Access_To_Variable .. -- An_Anonymous_Access_To_Constant, -- An_Anonymous_Access_To_Procedure, -- An_Anonymous_Access_To_Protected_Procedure, -- An_Anonymous_Access_To_Function, An_Anonymous_Access_To_Protected_Function => Possible_Null_Exclusion_Beginning'Access, -- --|A2005 end A_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Tagged_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Private_Extension_Definition => Private_Extension_Definition_Beginning'Access, A_Task_Definition => No_Search'Access, A_Protected_Definition => No_Search'Access, A_Formal_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Formal_Tagged_Private_Type_Definition => Private_Type_Definition_Beginning'Access, A_Formal_Derived_Type_Definition => Derived_Definition_Beginning'Access, A_Formal_Discrete_Type_Definition => No_Search'Access, A_Formal_Signed_Integer_Type_Definition .. -- A_Formal_Modular_Type_Definition -- A_Formal_Floating_Point_Definition -- A_Formal_Ordinary_Fixed_Point_Definition A_Formal_Decimal_Fixed_Point_Definition => No_Search'Access, A_Formal_Ordinary_Interface .. -- A_Formal_Limited_Interface -- A_Formal_Task_Interface -- A_Formal_Protected_Interface A_Formal_Synchronized_Interface => Interface_Definition_Beginning'Access, A_Formal_Unconstrained_Array_Definition .. -- A_Formal_Constrained_Array_Definition -- A_Formal_Pool_Specific_Access_To_Variable -- A_Formal_Access_To_Variable -- A_Formal_Access_To_Constant -- A_Formal_Access_To_Procedure -- A_Formal_Access_To_Protected_Procedure -- A_Formal_Access_To_Function A_Formal_Access_To_Protected_Function => No_Search'Access, An_Aspect_Specification => No_Search'Access, An_Integer_Literal .. -- A_Real_Literal A_String_Literal => No_Search'Access, An_Identifier => Search_Identifier_Beginning'Access, An_And_Operator .. -- An_Or_Operator -- An_Xor_Operator -- An_Equal_Operator -- A_Not_Equal_Operator -- A_Less_Than_Operator -- A_Less_Than_Or_Equal_Operator -- A_Greater_Than_Operator -- A_Greater_Than_Or_Equal_Operator -- A_Plus_Operator -- A_Minus_Operator -- A_Concatenate_Operator -- A_Unary_Plus_Operator -- A_Unary_Minus_Operator -- A_Multiply_Operator -- A_Divide_Operator -- A_Mod_Operator -- A_Rem_Operator -- An_Exponentiate_Operator -- An_Abs_Operator -- A_Not_Operator -- A_Character_Literal An_Enumeration_Literal => No_Search'Access, An_Explicit_Dereference => Explicit_Dereference_Beginning'Access, A_Function_Call => Function_Call_Beginning'Access, An_Indexed_Component => Indexed_Component_Beginning'Access, A_Slice => Indexed_Component_Beginning'Access, A_Selected_Component .. -- An_Access_Attribute -- An_Address_Attribute -- An_Adjacent_Attribute -- An_Aft_Attribute -- An_Alignment_Attribute -- A_Base_Attribute -- A_Bit_Order_Attribute -- A_Body_Version_Attribute -- A_Callable_Attribute -- A_Caller_Attribute -- A_Ceiling_Attribute -- A_Class_Attribute -- A_Component_Size_Attribute -- A_Compose_Attribute -- A_Constrained_Attribute -- A_Copy_Sign_Attribute -- A_Count_Attribute -- A_Definite_Attribute -- A_Delta_Attribute -- A_Denorm_Attribute -- A_Digits_Attribute -- An_Exponent_Attribute -- An_External_Tag_Attribute -- A_First_Attribute -- A_First_Bit_Attribute -- A_Floor_Attribute -- A_Fore_Attribute -- A_Fraction_Attribute -- An_Identity_Attribute -- An_Image_Attribute -- An_Input_Attribute -- A_Last_Attribute -- A_Last_Bit_Attribute -- A_Leading_Part_Attribute -- A_Length_Attribute -- A_Machine_Attribute -- A_Machine_Emax_Attribute -- A_Machine_Emin_Attribute -- A_Machine_Mantissa_Attribute -- A_Machine_Overflows_Attribute -- A_Machine_Radix_Attribute -- A_Machine_Rounds_Attribute -- A_Max_Attribute -- A_Max_Size_In_Storage_Elements_Attribute -- A_Min_Attribute -- A_Model_Attribute -- A_Model_Emin_Attribute -- A_Model_Epsilon_Attribute -- A_Model_Mantissa_Attribute -- A_Model_Small_Attribute -- A_Modulus_Attribute -- An_Output_Attribute -- A_Partition_ID_Attribute -- A_Pos_Attribute -- A_Position_Attribute -- A_Pred_Attribute -- A_Range_Attribute -- A_Read_Attribute -- A_Remainder_Attribute -- A_Round_Attribute -- A_Rounding_Attribute -- A_Safe_First_Attribute -- A_Safe_Last_Attribute -- A_Scale_Attribute -- A_Scaling_Attribute -- A_Signed_Zeros_Attribute -- A_Size_Attribute -- A_Small_Attribute -- A_Storage_Pool_Attribute -- A_Storage_Size_Attribute -- A_Succ_Attribute -- A_Tag_Attribute -- A_Terminated_Attribute -- A_Truncation_Attribute -- An_Unbiased_Rounding_Attribute -- An_Unchecked_Access_Attribute -- A_Val_Attribute -- A_Valid_Attribute -- A_Value_Attribute -- A_Version_Attribute -- A_Wide_Image_Attribute -- A_Wide_Value_Attribute -- A_Wide_Width_Attribute -- A_Width_Attribute -- A_Write_Attribute -- An_Implementation_Defined_Attribute An_Unknown_Attribute => Search_Prefix_Beginning'Access, A_Record_Aggregate .. -- An_Extension_Aggregate -- An_Positional_Array_Aggregate A_Named_Array_Aggregate => No_Search'Access, An_And_Then_Short_Circuit .. An_Or_Else_Short_Circuit => Short_Circuit_Beginning'Access, An_In_Membership_Test .. A_Not_In_Membership_Test => Membership_Test_Beginning'Access, A_Null_Literal => No_Search'Access, A_Parenthesized_Expression => Parenthesized_Expression_Beginning'Access, A_Type_Conversion => Search_Prefix_Beginning'Access, A_Qualified_Expression => Search_Prefix_Beginning'Access, An_Allocation_From_Subtype => No_Search'Access, An_Allocation_From_Qualified_Expression => No_Search'Access, -- --|A2012 start A_Case_Expression => No_Search'Access, An_If_Expression => If_Expression_Beginning'Access, -- --|A2012 end A_Pragma_Argument_Association => Association_Beginning'Access, A_Discriminant_Association => Association_Beginning'Access, A_Record_Component_Association => Component_Association_Beginning'Access, An_Array_Component_Association => Component_Association_Beginning'Access, A_Parameter_Association => Association_Beginning'Access, A_Generic_Association => No_Search'Access, A_Null_Statement => No_Search'Access, An_Assignment_Statement => Assignment_Statement_Beginning'Access, An_If_Statement => No_Search'Access, A_Case_Statement => No_Search'Access, A_Loop_Statement => Named_Statement_Beginning'Access, A_While_Loop_Statement => While_Loop_Statement_Beginning'Access, A_For_Loop_Statement => For_Loop_Statement_Beginning'Access, A_Block_Statement => Named_Statement_Beginning'Access, An_Exit_Statement => No_Search'Access, A_Goto_Statement => No_Search'Access, A_Procedure_Call_Statement => Call_Statement_Beginning'Access, A_Return_Statement => No_Search'Access, An_Accept_Statement => No_Search'Access, An_Entry_Call_Statement => Call_Statement_Beginning'Access, A_Requeue_Statement .. -- A_Requeue_Statement_With_Abort -- A_Delay_Until_Statement -- A_Delay_Relative_Statement -- A_Terminate_Alternative_Statement -- A_Selective_Accept_Statement -- A_Timed_Entry_Call_Statement -- A_Conditional_Entry_Call_Statement -- An_Asynchronous_Select_Statement -- An_Abort_Statement -- A_Raise_Statement -- A_Code_Statement -- An_If_Path -- NOTE: There is no explicit node in GNAT AST tree corresponding to -- this Internal_Element_Kind's. It's supposed that corresponding -- Element's record field contains Source_Ptr type value that points to -- word IF. -- If it isn't so, we should change this part. -- I believe it's more correct to have A_Then_Path in spite of -- An_If_Path which should point to the word THEN. An_Elsif_Path => No_Search'Access, An_Else_Path => Else_Path_Beginning'Access, A_Case_Path => No_Search'Access, A_Select_Path .. -- NOTE: There is no explicit node in GNAT AST tree corresponding to -- this Internal_Element_Kind's. It's supposed that corresponding -- Element's record field contains Source_Ptr type value that -- points to word SELECT. -- If it isn't so, we should change this part. An_Or_Path => Select_Alternative_Beginning'Access, -- NOTE: There is no explicit node in GNAT AST tree corresponding to -- this Internal_Element_Kind's. It's supposed that corresponding -- Element's record field contains Source_Ptr type value that points to -- word OR. If it isn't so, we should change this part. A_Then_Abort_Path => A_Then_Abort_Path_Beginning'Access, -- --|A2015 start A_Case_Expression_Path => Case_Expression_Path_Beginning'Access, An_If_Expression_Path .. An_Elsif_Expression_Path => Conditional_Expression_Path_Beginning'Access, An_Else_Expression_Path => An_Else_Expression_Path_Beginning'Access, -- --|A2015 end A_Use_Package_Clause .. -- A_Use_Type_Clause A_Use_All_Type_Clause => No_Search'Access, -- Ada 2012 A_With_Clause => With_Clause_Beginning'Access, An_Attribute_Definition_Clause .. -- An_Enumeration_Representation_Clause -- A_Record_Representation_Clause An_At_Clause => No_Search'Access, A_Component_Clause => Component_Clause_Beginning'Access, An_Exception_Handler => No_Search'Access, others => No_Search'Access); end A4G.Span_Beginning;

programs/oeis/078/A078881.asm

jmorken/loda

1

24656

; A078881: Size of the largest subset S of {1,2,3,...,n} with the property that if i and j are distinct elements of S then i XOR j is not in S, where XOR is the bitwise exclusive-OR operator. ; 1,2,2,3,4,4,4,5,6,7,8,8,8,8,8,9,10,11,12,13,14,15,16,16,16,16,16,16,16,16,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,33,34,35,36,37,38,39,40,41,42,43,44 mov $1,1 mov $2,$0 mov $3,1 lpb $2 lpb $3 mov $3,$0 lpe add $3,$1 trn $0,$3 mov $1,$3 sub $2,1 lpe

libsrc/gfx/narrow/draw_callee.asm

ahjelm/z88dk

640

168005

<reponame>ahjelm/z88dk<filename>libsrc/gfx/narrow/draw_callee.asm ; ----- void __CALLEE__ draw(int x, int y, int x2, int y2) IF !__CPU_INTEL__ & !__CPU_GBZ80__ SECTION code_graphics PUBLIC draw_callee PUBLIC _draw_callee PUBLIC asm_draw EXTERN swapgfxbk EXTERN __graphics_end EXTERN Line EXTERN plotpixel INCLUDE "graphics/grafix.inc" .draw_callee ._draw_callee pop af ; ret addr pop de ; y2 pop hl ld d,l ; x2 pop hl ; y pop bc ld h,c ; x push af ; ret addr .asm_draw push ix IF NEED_swapgfxbk = 1 call swapgfxbk ENDIF push hl push de call plotpixel pop de pop hl ld ix,plotpixel call Line IF NEED_swapgfxbk jp __graphics_end ELSE IF !__CPU_INTEL__ & !__CPU_GBZ80__ pop ix ENDIF ret ENDIF ENDIF

alloy4fun_models/trashltl/models/9/MeB5vT3eAZEfxzNWe.als

Kaixi26/org.alloytools.alloy

0

4055

open main pred idMeB5vT3eAZEfxzNWe_prop10 { always (all f:File | always f in Protected) } pred __repair { idMeB5vT3eAZEfxzNWe_prop10 } check __repair { idMeB5vT3eAZEfxzNWe_prop10 <=> prop10o }

textformats/Base64Decode.asm

FloydZ/Crypto-Hash

11

18653

<gh_stars>10-100 .data align 4 b64table label byte db 0,42 dup (-1) db 62; + ; [02Bh] db 3 dup(-1) db 63; / ; [02Fh] db 52,53,54,55,56,57,58,59,60,61; 0..9 ;30-39 db 3 dup(-1) db 0 ; = ; [03Dh] db 3 dup(-1) db 0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25; A..Z db 6 dup(-1) db 26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51; a..z db 133 dup (-1) .code OPTION PROLOGUE:NONE OPTION EPILOGUE:NONE Base64Decode proc pInputStr:DWORD,pOutputData:DWORD push ebp push esi push edi push ebx mov edi,[esp+1*4][4*4];pInputStr xor eax,eax mov esi,edi .repeat; strlen mov al,[edi] add edi,4 test al,al .until zero? lea ebp,[edi-4] mov eax,'=' sub ebp,esi; 4parts jz @F cmp al,[esi+ebp-1]; padd? sete dl .if zero?;equal? mov [esi+ebp-1],ah .endif cmp al,[esi+ebp-2] sete al .if zero?;equal? mov [esi+ebp-2],ah .endif add al,dl mov edi,[esp+2*4][4*4];pOutputData shr ebp,2 lea edx,[ebp*2+ebp] sub edx,eax push edx; result = length .repeat ; CCDDDDDD BBBBCCCC AAAAAABB mov ecx,[esi] movzx edx,cl movzx ebx,ch mov al,[edx+b64table]; ..AAAAAA mov ah,[ebx+b64table]; ..BBBBBB shr ecx,16 add esi,4 movzx edx,cl movzx ecx,ch mov bl,[edx+b64table]; ..CCCCCC mov bh,[ecx+b64table]; ..DDDDDD mov dl,ah mov dh,bl shl al,2;AAAAAA.. shr bl,2;....CCCC shl dh,6;CC...... shl ah,4;BBBB.... shr dl,4;......BB or bh,dh or al,dl or ah,bl mov [edi+0],al mov [edi+2],bh mov [edi+1],ah dec ebp lea edi,[edi+3] .until zero? pop eax @@: pop ebx pop edi pop esi pop ebp ret 2*4 Base64Decode endp OPTION PROLOGUE:PROLOGUEDEF OPTION EPILOGUE:EPILOGUEDEF

tests/data_unsized/7.asm

NullMember/customasm

414

24327

#d 0x12, 0x345, 0x6, 0x789a ; = 0x123456789a

oeis/235/A235118.asm

neoneye/loda-programs

11

25384

; A235118: Number of independent vertex subsets of the graph obtained by attaching two pendant edges to each vertex of the ladder graph L_n (L_n is the 2 X n grid graph; see A235117). ; Submitted by <NAME> ; 1,24,544,12416,283136,6457344,147267584,3358621696,76597559296,1746902974464,39840303284224,908607856050176,20721936531193856,472589633411088384,10777996606218174464,245805668662673145856,5605905156051426082816,127849665915439602991104,2915771248296083329122304,66497803584509801173876736,1516565431581145356541362176,34587168061031534405955354624,788803548841823990937754271744,17989649732742498020736228130816,410276421780726695834740836007936,9356866018510053790021935320530944 mov $1,1 mov $3,1 lpb $0 sub $0,1 mov $2,$3 mul $2,16 mul $3,5 add $3,$1 mov $1,$2 mul $3,4 lpe mov $0,$3

asm/krusader.test.asm

rhoem1/65co2

0

105009

<gh_stars>0 N ECHO .= $FFEF PRHEX .= $FFDC RNG .= $D01F I .= $03 MAIN .M $300 LDX #$60 .LOOP LDA RNG PHA STX I TXA LSR LSR LSR CLC ASL ASL ASL CMP I BNE .SPACE LDA #$0D JSR ECHO JMP .TELL .SPACE LDA #$20 JSR ECHO .TELL PLA JSR PRHEX LDX I DEX BNE .LOOP RTS

script/filler.applescript

Kymer/Filler

1

4637

<reponame>Kymer/Filler // The goal of this script is to automate setting a certain value in the commit field of Applications such as Tower or SourceTree. // This script will extract a ticket name from the currently active branch and insert it in the commit field. // Current supported applications const applications = { Tower: { process: getProcess('Tower'), get commitField() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].textFields[1] }, get branchName() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].buttons[0].title() } }, SourceTree: { process: getProcess('SourceTree'), get commitField() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].splitterGroups[0].scrollAreas[0].textAreas[0] }, get branchName() { return this.process.windows[0].splitterGroups[0].splitterGroups[0].splitterGroups[0].checkboxes[0].title() } } } // Configurable properties const selectedApplication = applications.Tower // The application for which the script should run const debugMode = false // When enabled, error messages will be shown in a dialog message const refreshInterval = 0.5 // Number of seconds between each refresh interval const ticketProperties = { // Various properties which describe a ticket name (e.g. TMA-1952) prefix: 'TMA', delimiter: '-', numberOfDigits: 4 } // Handlers function run() { tryPrefillingCommitMessage() } function idle() { tryPrefillingCommitMessage() return refreshInterval } // Script starting point function tryPrefillingCommitMessage() { try { const ticketName = getTicketNameFromBranchName(selectedApplication.branchName, ticketProperties) insertValueInCommitField(ticketName, selectedApplication.commitField) } catch (error) { handleError(error) } } // Helper functions function insertValueInCommitField(message, commitField) { if (!message || !commitField.exists()) { return } if (commitField.value().length == 0 || commitField.value().includes(message)) { return } commitField.value = `${message}: ` + commitField.value() } function getTicketNameFromBranchName(branchName, ticketProperties) { const regEx = `${ticketProperties.prefix}${ticketProperties.delimiter}[0-9]{${ticketProperties.numberOfDigits}}` const matches = branchName.match(regEx) return (matches && matches.length > 0 ? matches[0] : null) } function getProcess(name) { return Application('System Events').processes.byName(name) } // Error handling function handleError(error) { if (!debugMode) { return } // If not in debug mode: fail silently displayDialogWithMessage(`Oh no, something went wrong 😦\n\n⚠️ ERROR\n${error.message}\n\n${error.stack}`) } function displayDialogWithMessage(messageToDisplay) { const app = Application.currentApplication() app.includeStandardAdditions = true app.displayDialog(messageToDisplay, { buttons: ["Ok"] }) }

test/Fail/Issue1408a.agda

KDr2/agda

0

4806

{-# OPTIONS --cubical-compatible #-} -- {-# OPTIONS -v tc.lhs.unify:15 #-} open import Common.Equality open import Common.Prelude data Fin : (n : Nat) → Set where zero : {n : Nat} → Fin (suc n) suc : {n : Nat} (i : Fin n) → Fin (suc n) data _≅_ {A : Set} (a : A) : {B : Set} (b : B) → Set1 where refl : a ≅ a OffDiag : ∀ {n m} → Fin n → Fin m → Set OffDiag zero zero = ⊥ OffDiag (suc _) (suc _) = ⊥ OffDiag _ _ = ⊤ inj-Fin-≅ : ∀ {n m} {i : Fin n} {j : Fin m} → i ≅ j → OffDiag i j → ⊥ inj-Fin-≅ {i = zero} {zero} eq () inj-Fin-≅ {i = zero} {suc j} () inj-Fin-≅ {i = suc i} {zero} () inj-Fin-≅ {i = suc i} {suc j} p ()

boot/gdt.asm

TehcJS/KettleKernel

0

243318

; GDT gdt_start: dd 0x0 dd 0x0 gdt_code: dw 0xffff dw 0x0 db 0x0 db 10011010b db 11001111b db 0x0 gdt_data: dw 0xffff dw 0x0 db 0x0 db 10010010b db 11001111b db 0x0 gdt_end: gdt_descriptor: dw gdt_end - gdt_start - 1 dd gdt_start CODE_SEG equ gdt_code - gdt_start DATA_SEG equ gdt_data - gdt_start [bits 16] switch_pm: mov bx, SWITCHING_PM call print cli lgdt [gdt_descriptor] mov eax, cr0 or eax, 0x1 mov cr0, eax jmp CODE_SEG:init_pm [bits 32] init_pm: mov ax, DATA_SEG mov ds, ax mov ss, ax mov es, ax mov fs, ax mov gs, ax mov ebp, 0x90000 mov esp, ebp call BEGIN_PM

g-dynhta.adb

ytomino/gnat4drake

0

17844

package body GNAT.Dynamic_HTables is package body Simple_HTable is function R (Position : Maps.Cursor) return Element; function R (Position : Maps.Cursor) return Element is begin if Maps.Has_Element (Position) then return Maps.Element (Position); else return No_Element; end if; end R; procedure Set (T : in out Instance; K : Key; E : Element) is begin Maps.Include (T.Map, K, E); end Set; procedure Reset (T : in out Instance) is begin Maps.Clear (T.Map); end Reset; function Get (T : Instance; K : Key) return Element is begin return R (Maps.Find (T.Map, K)); end Get; function Get_First (T : in out Instance) return Element is begin T.Position := Maps.First (T.Map); return R (T.Position); end Get_First; function Get_Next (T : in out Instance) return Element is begin if Maps.Has_Element (T.Position) then T.Position := Maps.Next (T.Position); end if; return R (T.Position); end Get_Next; function Hash (Item : Key) return Ada.Containers.Hash_Type is begin return Ada.Containers.Hash_Type'Mod (Header_Num'(Hash (Item))); end Hash; end Simple_HTable; end GNAT.Dynamic_HTables;

agda/Bound/Lower/Order/Properties.agda

bgbianchi/sorting

6

6166

open import Relation.Binary.Core module Bound.Lower.Order.Properties {A : Set} (_≤_ : A → A → Set) (trans≤ : Transitive _≤_) where open import Bound.Lower A open import Bound.Lower.Order _≤_ transLeB : {a b c : Bound} → LeB a b → LeB b c → LeB a c transLeB lebx _ = lebx transLeB (lexy x≤y) (lexy y≤z) = lexy (trans≤ x≤y y≤z)

FormalAnalyzer/models/apps/DoorOpenWarningLight.als

Mohannadcse/IoTCOM_BehavioralRuleExtractor

0

4872

<reponame>Mohannadcse/IoTCOM_BehavioralRuleExtractor module app_DoorOpenWarningLight open IoTBottomUp as base open cap_motionSensor open cap_switch open cap_contactSensor one sig app_DoorOpenWarningLight extends IoTApp { sensors : some cap_motionSensor, switch1 : one cap_switch, state : one cap_state, contacts : some cap_contactSensor, } { rules = r } one sig cap_state extends Capability {} { attributes = cap_state_attr } abstract sig cap_state_attr extends Attribute {} one sig cap_state_attr_runIn extends cap_state_attr {} { values = cap_state_attr_runIn_val } abstract sig cap_state_attr_runIn_val extends AttrValue {} one sig cap_state_attr_runIn_val_on extends cap_state_attr_runIn_val {} one sig cap_state_attr_runIn_val_off extends cap_state_attr_runIn_val {} one sig cap_state_attr_scheduledLightOn extends cap_state_attr {} { values = cap_state_attr_scheduledLightOn_val } abstract sig cap_state_attr_scheduledLightOn_val extends AttrValue {} one sig cap_state_attr_scheduledLightOn_val_true extends cap_state_attr_scheduledLightOn_val {} one sig cap_state_attr_scheduledLightOn_val_false extends cap_state_attr_scheduledLightOn_val {} // application rules base class abstract sig r extends Rule {} one sig r0 extends r {}{ no triggers conditions = r0_cond commands = r0_comm } abstract sig r0_cond extends Condition {} one sig r0_cond0 extends r0_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } abstract sig r0_comm extends Command {} one sig r0_comm0 extends r0_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_false } one sig r1 extends r {}{ triggers = r1_trig conditions = r1_cond commands = r1_comm } abstract sig r1_trig extends Trigger {} one sig r1_trig0 extends r1_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r1_cond extends Condition {} one sig r1_cond0 extends r1_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r1_comm extends Command {} one sig r1_comm0 extends r1_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } one sig r2 extends r {}{ triggers = r2_trig conditions = r2_cond commands = r2_comm } abstract sig r2_trig extends Trigger {} one sig r2_trig0 extends r2_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r2_cond extends Condition {} one sig r2_cond0 extends r2_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r2_comm extends Command {} one sig r2_comm0 extends r2_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } one sig r3 extends r {}{ triggers = r3_trig conditions = r3_cond commands = r3_comm } abstract sig r3_trig extends Trigger {} one sig r3_trig0 extends r3_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r3_cond extends Condition {} one sig r3_cond0 extends r3_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } one sig r3_cond1 extends r3_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val } abstract sig r3_comm extends Command {} one sig r3_comm0 extends r3_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_false } one sig r4 extends r {}{ triggers = r4_trig conditions = r4_cond commands = r4_comm } abstract sig r4_trig extends Trigger {} one sig r4_trig0 extends r4_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r4_cond extends Condition {} one sig r4_cond0 extends r4_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } abstract sig r4_comm extends Command {} one sig r4_comm0 extends r4_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_off } one sig r5 extends r {}{ triggers = r5_trig conditions = r5_cond commands = r5_comm } abstract sig r5_trig extends Trigger {} one sig r5_trig0 extends r5_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r5_cond extends Condition {} one sig r5_cond0 extends r5_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } abstract sig r5_comm extends Command {} one sig r5_comm0 extends r5_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_off } one sig r6 extends r {}{ triggers = r6_trig conditions = r6_cond commands = r6_comm } abstract sig r6_trig extends Trigger {} one sig r6_trig0 extends r6_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r6_cond extends Condition {} one sig r6_cond0 extends r6_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r6_comm extends Command {} one sig r6_comm0 extends r6_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } one sig r6_comm1 extends r6_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_true } one sig r7 extends r {}{ triggers = r7_trig conditions = r7_cond commands = r7_comm } abstract sig r7_trig extends Trigger {} one sig r7_trig0 extends r7_trig {} { capabilities = app_DoorOpenWarningLight.sensors attribute = cap_motionSensor_attr_motion no value } abstract sig r7_cond extends Condition {} one sig r7_cond0 extends r7_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val } one sig r7_cond1 extends r7_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val } abstract sig r7_comm extends Command {} one sig r7_comm0 extends r7_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_false } one sig r8 extends r {}{ no triggers conditions = r8_cond commands = r8_comm } abstract sig r8_cond extends Condition {} one sig r8_cond0 extends r8_cond {} { capabilities = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } abstract sig r8_comm extends Command {} one sig r8_comm0 extends r8_comm {} { capability = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } one sig r9 extends r {}{ triggers = r9_trig conditions = r9_cond commands = r9_comm } abstract sig r9_trig extends Trigger {} one sig r9_trig0 extends r9_trig {} { capabilities = app_DoorOpenWarningLight.contacts attribute = cap_contactSensor_attr_contact no value } abstract sig r9_cond extends Condition {} one sig r9_cond0 extends r9_cond {} { capabilities = app_DoorOpenWarningLight.switch1 attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val //- cap_switch_attr__val_no_value } abstract sig r9_comm extends Command {} one sig r9_comm0 extends r9_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_runIn value = cap_state_attr_runIn_val_on } one sig r9_comm1 extends r9_comm {} { capability = app_DoorOpenWarningLight.state attribute = cap_state_attr_scheduledLightOn value = cap_state_attr_scheduledLightOn_val_true }

Cubical/HITs/Sn.agda

dan-iel-lee/cubical

0

2023

<filename>Cubical/HITs/Sn.agda {-# OPTIONS --cubical --no-import-sorts --safe #-} module Cubical.HITs.Sn where open import Cubical.HITs.Sn.Base public open import Cubical.HITs.Sn.Properties public

compiler/src/grammar/Spice.g4

chillibits/spice

13

6566

grammar Spice; // Control structures entry: (mainFunctionDef | functionDef | procedureDef | structDef | globalVarDef | importStmt | extDecl)*; mainFunctionDef: F LESS TYPE_INT GREATER MAIN LPAREN paramLstDef? RPAREN LBRACE stmtLst RBRACE; functionDef: F LESS dataType GREATER (IDENTIFIER DOT)? IDENTIFIER LPAREN paramLstDef? RPAREN LBRACE stmtLst RBRACE; procedureDef: P (IDENTIFIER DOT)? IDENTIFIER LPAREN paramLstDef? RPAREN LBRACE stmtLst RBRACE; extDecl: EXT (LESS dataType GREATER)? IDENTIFIER LPAREN typeLst? RPAREN DLL? SEMICOLON; structDef: TYPE IDENTIFIER STRUCT LBRACE fieldLst RBRACE; globalVarDef: CONST? dataType IDENTIFIER (ASSIGN_OP value)? SEMICOLON; forLoop: FOR assignExpr SEMICOLON assignExpr SEMICOLON assignExpr LBRACE stmtLst RBRACE; foreachLoop: FOREACH (foreachHead | LPAREN foreachHead RPAREN) LBRACE stmtLst RBRACE; foreachHead: ((declStmt | assignExpr) COMMA)? declStmt COLON assignExpr; whileLoop: WHILE assignExpr LBRACE stmtLst RBRACE; ifStmt: IF assignExpr LBRACE stmtLst RBRACE elseStmt?; elseStmt: ELSE ifStmt | ELSE LBRACE stmtLst RBRACE; // Statements, declarations, definitions and lists stmtLst: (stmt | forLoop | foreachLoop | whileLoop | ifStmt)*; fieldLst: declStmt*; typeLst: dataType (COMMA dataType)* ELLIPSIS?; paramLstDef: (declStmt | assignExpr) (COMMA (declStmt | assignExpr))*; paramLst: assignExpr (COMMA assignExpr)*; stmt: (declStmt | assignExpr | newStmt | arrayInitStmt | idenValue | builtinCall | returnStmt | breakStmt | continueStmt) SEMICOLON; declStmt: CONST? dataType IDENTIFIER; functionCall: IDENTIFIER LPAREN paramLst? RPAREN; newStmt: CONST? dataType IDENTIFIER ASSIGN_OP NEW IDENTIFIER (DOT IDENTIFIER)* LBRACE paramLst? RBRACE; arrayInitStmt: CONST? dataType IDENTIFIER (ASSIGN_OP LBRACE paramLst? RBRACE)?; importStmt: IMPORT STRING AS IDENTIFIER SEMICOLON; returnStmt: RETURN assignExpr?; breakStmt: BREAK INTEGER?; continueStmt: CONTINUE INTEGER?; // Builtin functions builtinCall: printfCall | sizeOfCall; printfCall: PRINTF LPAREN STRING (COMMA assignExpr)* RPAREN; sizeOfCall: SIZEOF LPAREN assignExpr RPAREN; // Expression loop assignExpr: ((declStmt | idenValue) (ASSIGN_OP | PLUS_EQUAL | MINUS_EQUAL | MUL_EQUAL | DIV_EQUAL | SHL_EQUAL | SHR_EQUAL))? ternaryExpr; ternaryExpr: logicalOrExpr (QUESTION_MARK logicalOrExpr COLON logicalOrExpr)?; logicalOrExpr: logicalAndExpr (LOGICAL_OR logicalAndExpr)*; logicalAndExpr: bitwiseOrExpr (LOGICAL_AND bitwiseOrExpr)*; bitwiseOrExpr: bitwiseAndExpr (BITWISE_OR bitwiseAndExpr)*; bitwiseAndExpr: equalityExpr (BITWISE_AND equalityExpr)*; equalityExpr: relationalExpr ((EQUAL | NOT_EQUAL) relationalExpr)?; relationalExpr: shiftExpr ((LESS | GREATER | LESS_EQUAL | GREATER_EQUAL) shiftExpr)?; shiftExpr: additiveExpr ((SHL | SHR) additiveExpr)?; additiveExpr: multiplicativeExpr ((PLUS | MINUS) multiplicativeExpr)*; multiplicativeExpr: prefixUnaryExpr ((MUL | DIV | REM) prefixUnaryExpr)*; prefixUnaryExpr: (NOT | PLUS_PLUS | MINUS_MINUS)? postfixUnaryExpr; postfixUnaryExpr: castExpr (PLUS_PLUS | MINUS_MINUS)?; castExpr: (LPAREN dataType RPAREN)? atomicExpr; atomicExpr: value | idenValue | builtinCall | LPAREN assignExpr RPAREN; // Values and types idenValue: (BITWISE_AND | MUL)* (functionCall | IDENTIFIER) (LBRACKET assignExpr RBRACKET)? (DOT (functionCall | IDENTIFIER) (LBRACKET assignExpr RBRACKET)?)*; value: DOUBLE | INTEGER | CHAR | STRING | TRUE | FALSE | NIL LESS dataType GREATER; dataType: (TYPE_DOUBLE | TYPE_INT | TYPE_SHORT | TYPE_LONG | TYPE_BYTE | TYPE_CHAR | TYPE_STRING | TYPE_BOOL | TYPE_DYN | IDENTIFIER (DOT IDENTIFIER)*) (MUL | LBRACKET INTEGER? RBRACKET)*; // Terminal tokens TYPE_DOUBLE: 'double'; TYPE_INT: 'int'; TYPE_SHORT: 'short'; TYPE_LONG: 'long'; TYPE_BYTE: 'byte'; TYPE_CHAR: 'char'; TYPE_STRING: 'string'; TYPE_BOOL: 'bool'; TYPE_DYN: 'dyn'; F: 'f'; P: 'p'; IF: 'if'; ELSE: 'else'; FOR: 'for'; FOREACH: 'foreach'; WHILE: 'while'; CONST: 'const'; IMPORT: 'import'; BREAK: 'break'; CONTINUE: 'continue'; RETURN: 'return'; AS: 'as'; STRUCT: 'struct'; TYPE: 'type'; NEW: 'new'; NIL: 'nil'; MAIN: 'main'; PRINTF: 'printf'; SIZEOF: 'sizeof'; EXT: 'ext'; DLL: 'dll'; ELLIPSIS: '...'; TRUE: 'true'; FALSE: 'false'; CHAR: '\'' (~['\\\r\n] | '\\' (. | EOF)) '\''; STRING: '"' (~["\\\r\n] | '\\' (. | EOF))* '"'; INTEGER: '-'? [1-9]+[0-9]* | '0'; DOUBLE: '-'? [0-9]+.[0-9]+; IDENTIFIER: [_a-zA-Z][_a-zA-Z0-9]*; LBRACE: '{'; RBRACE: '}'; LPAREN: '('; RPAREN: ')'; LBRACKET: '['; RBRACKET: ']'; LOGICAL_OR: '||'; LOGICAL_AND: '&&'; BITWISE_OR: '|'; BITWISE_AND: '&'; NOT: '!'; PLUS_PLUS: '++'; MINUS_MINUS: '--'; PLUS_EQUAL: '+='; MINUS_EQUAL: '-='; MUL_EQUAL: '*='; DIV_EQUAL: '/='; SHL_EQUAL: '<<='; SHR_EQUAL: '>>='; SHL: '<<'; SHR: '>>'; PLUS: '+'; MINUS: '-'; MUL: '*'; DIV: '/'; REM: '%'; GREATER: '>'; LESS: '<'; GREATER_EQUAL: '>='; LESS_EQUAL: '<='; EQUAL: '=='; NOT_EQUAL: '!='; ASSIGN_OP: '='; QUESTION_MARK: '?'; SEMICOLON: ';'; COLON: ':'; COMMA: ','; DOT: '.'; BLOCK_COMMENT: '/*' .*? '*/' -> skip; LINE_COMMENT: '//' ~[\r\n]* -> skip; WS: [ \t\r\n]+ -> channel(HIDDEN);

src/aco-drivers.ads

jonashaggstrom/ada-canopen

6

12440

<reponame>jonashaggstrom/ada-canopen with ACO.Messages; with Ada.Real_Time; package ACO.Drivers is type Driver is abstract tagged limited null record; type Driver_Access is access all Driver'Class; procedure Receive_Message_Blocking (This : in out Driver; Msg : out ACO.Messages.Message) is abstract; procedure Send_Message (This : in out Driver; Msg : in ACO.Messages.Message) is abstract; procedure Initialize (This : in out Driver) is abstract; procedure Finalize (This : in out Driver) is abstract; function Is_Message_Pending (This : Driver) return Boolean is abstract; function Current_Time (This : Driver) return Ada.Real_Time.Time is abstract; end ACO.Drivers;

src/main/antlr/RSQL.g4

ettoreleandrotognoli/py-storage

0

3881

grammar RSQL; options { language = Python37; } statement : left=statement op=AND_OPERATOR right=statement | left=statement op=OR_OPERATOR right=statement | '(' wrapped=statement ')' | node=comparison ; comparison : left=expression cmp=comparator right=expression ; expression : value | IDENTIFIER ; TRUE: 'true' | 'True' | 't' | 'T' ; FALSE: 'false' | 'False' | 'f' | 'F' ; AND_OPERATOR: ';' | '&'; OR_OPERATOR: ',' | '|'; EQ: '=='; NE: '!='; IDENTIFIER : [a-zA-Z_] [a-zA-Z_0-9]* ; comparator : '=' IDENTIFIER '=' | EQ | NE ; value : boolean=boolean_literal | string=string_literal | number=numeric_literal | array=array_value ; array_value : '(' value ( ',' value ) * ')' | '[' value ( ',' value ) * ']' ; boolean_literal : TRUE | FALSE ; numeric_literal : INT_LITERAL | DECIMAL_LITERAL ; string_literal : STRING_LITERAL ; INT_LITERAL : [-+]? DIGIT+ ; DECIMAL_LITERAL : [-+]? DIGIT+ ( '.' DIGIT*) ; STRING_LITERAL : '\'' ( STRING_ESCAPE_SEQ | ~[\\\r\n'] )* '\'' | '"' ( STRING_ESCAPE_SEQ | ~[\\\r\n"] )* '"' ; STRING_ESCAPE_SEQ : '\\' . ; fragment DIGIT : [0-9];

programs/oeis/109/A109065.asm

neoneye/loda

22

90726

<gh_stars>10-100 ; A109065: Numerator of the fraction due in month n of the total interest for a one-year installment loan based on the Rule of 78s (each denominator is 78). ; 12,11,10,9,8,7,6,5,4,3,2,1 mov $1,12 sub $1,$0 mov $0,$1

Transynther/x86/_processed/P/_ht_/i9-9900K_12_0xa0.log_289_554.asm

ljhsiun2/medusa

9

94694

<filename>Transynther/x86/_processed/P/_ht_/i9-9900K_12_0xa0.log_289_554.asm .global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r13 push %r15 push %r8 push %rbx push %rcx push %rdi push %rdx push %rsi lea addresses_UC_ht+0x15832, %rdx nop nop nop nop sub $62717, %r10 movb (%rdx), %r13b nop nop dec %rbx lea addresses_WC_ht+0x3532, %r11 nop and $42219, %r10 mov (%r11), %r15d nop add $39387, %r13 lea addresses_normal_ht+0x4232, %r10 nop nop nop nop add %r11, %r11 mov (%r10), %r13w nop sub %r13, %r13 lea addresses_UC_ht+0x10aca, %r13 nop nop mfence movb (%r13), %dl nop nop nop nop cmp $38678, %r13 lea addresses_normal_ht+0x146f2, %rsi lea addresses_A_ht+0x110b2, %rdi nop nop and $22287, %rdx mov $38, %rcx rep movsl nop nop and $41019, %r15 lea addresses_UC_ht+0x12903, %rdi nop nop nop nop inc %rbx movl $0x61626364, (%rdi) nop nop dec %rcx lea addresses_D_ht+0x93b6, %rcx nop nop add $3445, %r13 movups (%rcx), %xmm1 vpextrq $0, %xmm1, %rdx and %rcx, %rcx lea addresses_D_ht+0x12b32, %rcx nop nop nop nop nop inc %r10 movw $0x6162, (%rcx) add %rcx, %rcx lea addresses_WT_ht+0x125e2, %r11 clflush (%r11) nop nop sub $45729, %rdi mov (%r11), %dx nop nop nop nop dec %r10 lea addresses_UC_ht+0x1d732, %rbx dec %r8 mov (%rbx), %r11d nop nop nop nop nop xor %r13, %r13 lea addresses_normal_ht+0x17b2, %r13 nop nop nop nop and %r10, %r10 mov $0x6162636465666768, %r8 movq %r8, (%r13) nop nop nop nop nop inc %r15 lea addresses_WC_ht+0x1e692, %r10 nop xor $29133, %rdi movb $0x61, (%r10) nop nop nop nop nop cmp $46113, %rdx pop %rsi pop %rdx pop %rdi pop %rcx pop %rbx pop %r8 pop %r15 pop %r13 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r12 push %r13 push %rbp push %rbx push %rcx push %rdx // Store lea addresses_normal+0x6f2, %rbp nop nop nop cmp %r13, %r13 movb $0x51, (%rbp) nop nop nop nop nop inc %rbx // Faulty Load mov $0x332, %r12 nop nop cmp %rcx, %rcx movups (%r12), %xmm5 vpextrq $1, %xmm5, %rdx lea oracles, %r13 and $0xff, %rdx shlq $12, %rdx mov (%r13,%rdx,1), %rdx pop %rdx pop %rcx pop %rbx pop %rbp pop %r13 pop %r12 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'NT': False, 'same': False, 'congruent': 0, 'type': 'addresses_P', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 5, 'type': 'addresses_normal', 'AVXalign': False, 'size': 1}} [Faulty Load] {'src': {'NT': False, 'same': True, 'congruent': 0, 'type': 'addresses_P', 'AVXalign': False, 'size': 16}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'NT': False, 'same': False, 'congruent': 8, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'src': {'NT': True, 'same': False, 'congruent': 9, 'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 4}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 8, 'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 2}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 1}, 'OP': 'LOAD'} {'src': {'same': True, 'congruent': 6, 'type': 'addresses_normal_ht'}, 'OP': 'REPM', 'dst': {'same': False, 'congruent': 5, 'type': 'addresses_A_ht'}} {'OP': 'STOR', 'dst': {'NT': True, 'same': True, 'congruent': 0, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 4}} {'src': {'NT': False, 'same': False, 'congruent': 0, 'type': 'addresses_D_ht', 'AVXalign': False, 'size': 16}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 9, 'type': 'addresses_D_ht', 'AVXalign': False, 'size': 2}} {'src': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 2}, 'OP': 'LOAD'} {'src': {'NT': False, 'same': False, 'congruent': 10, 'type': 'addresses_UC_ht', 'AVXalign': False, 'size': 4}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 7, 'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 8}} {'OP': 'STOR', 'dst': {'NT': False, 'same': False, 'congruent': 3, 'type': 'addresses_WC_ht', 'AVXalign': False, 'size': 1}} {'46': 289} 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 46 */

tools-src/gnu/gcc/gcc/ada/i-c.ads

enfoTek/tomato.linksys.e2000.nvram-mod

80

25836

----------------------------------------------------------------------------- -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- I N T E R F A C E S . C -- -- -- -- S p e c -- -- -- -- $Revision$ -- -- -- This specification is adapted from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ with System.Parameters; package Interfaces.C is pragma Pure (C); -- Declaration's based on C's <limits.h> CHAR_BIT : constant := 8; SCHAR_MIN : constant := -128; SCHAR_MAX : constant := 127; UCHAR_MAX : constant := 255; -- Signed and Unsigned Integers. Note that in GNAT, we have ensured that -- the standard predefined Ada types correspond to the standard C types type int is new Integer; type short is new Short_Integer; type long is range -(2 ** (System.Parameters.long_bits - 1)) .. +(2 ** (System.Parameters.long_bits - 1)) - 1; type signed_char is range SCHAR_MIN .. SCHAR_MAX; for signed_char'Size use CHAR_BIT; type unsigned is mod 2 ** int'Size; type unsigned_short is mod 2 ** short'Size; type unsigned_long is mod 2 ** long'Size; type unsigned_char is mod (UCHAR_MAX + 1); for unsigned_char'Size use CHAR_BIT; subtype plain_char is unsigned_char; -- ??? should be parametrized type ptrdiff_t is range -(2 ** (Standard'Address_Size - 1)) .. +(2 ** (Standard'Address_Size - 1) - 1); type size_t is mod 2 ** Standard'Address_Size; -- Floating-Point type C_float is new Float; type double is new Standard.Long_Float; type long_double is new Standard.Long_Long_Float; ---------------------------- -- Characters and Strings -- ---------------------------- type char is new Character; nul : constant char := char'First; function To_C (Item : Character) return char; function To_Ada (Item : char) return Character; type char_array is array (size_t range <>) of aliased char; for char_array'Component_Size use CHAR_BIT; function Is_Nul_Terminated (Item : in char_array) return Boolean; function To_C (Item : in String; Append_Nul : in Boolean := True) return char_array; function To_Ada (Item : in char_array; Trim_Nul : in Boolean := True) return String; procedure To_C (Item : in String; Target : out char_array; Count : out size_t; Append_Nul : in Boolean := True); procedure To_Ada (Item : in char_array; Target : out String; Count : out Natural; Trim_Nul : in Boolean := True); ------------------------------------ -- Wide Character and Wide String -- ------------------------------------ type wchar_t is new Wide_Character; for wchar_t'Size use Standard'Wchar_T_Size; wide_nul : constant wchar_t := wchar_t'First; function To_C (Item : in Wide_Character) return wchar_t; function To_Ada (Item : in wchar_t) return Wide_Character; type wchar_array is array (size_t range <>) of aliased wchar_t; function Is_Nul_Terminated (Item : in wchar_array) return Boolean; function To_C (Item : in Wide_String; Append_Nul : in Boolean := True) return wchar_array; function To_Ada (Item : in wchar_array; Trim_Nul : in Boolean := True) return Wide_String; procedure To_C (Item : in Wide_String; Target : out wchar_array; Count : out size_t; Append_Nul : in Boolean := True); procedure To_Ada (Item : in wchar_array; Target : out Wide_String; Count : out Natural; Trim_Nul : in Boolean := True); Terminator_Error : exception; end Interfaces.C;

examples/3rd-party/JiveTurkey/J.asm

brickpool/hp35s

3

86392

<filename>examples/3rd-party/JiveTurkey/J.asm ; Jive Turkey for the HP-35s ; This program is from <NAME> and is used here by permission. ; http://ftp.whtech.com/hexbus_cc40_ti74/a-collection-of-information-on-the-ti-cc40-computer.pdf MODEL P35S SEGMENT JiveTurkey CODE LBL J ;100 DISPLAY AT(6)"* JIVE TURKEY GAME *":PAUSE 2 SF 10 eqn 'JIVE TURKEY' PSE CF 10 @110: ;110 SCORE=0:FIB=0:RANDOMIZE:SECRET=INTRND(100) CLx STO S ; SCORE STO F ; FIB SEED 100 XEQ INTRND STO X ; SECRET @120: ;120 DISPLAY ERASE ALL"PROBABILITY OF TRUTH? 0-100"; SF 10 eqn 'PROB 0-100' PSE CF 10 @130: ;130 ACCEPT AT(29)BEEP VALIDATE(DIGIT);PROB INPUT P ; PROB x<0? GTO @120 100 x<y? GTO @120 @140: ;140 ROLL=INTRND(100):SCORE=SCORE+1:DISPLAY"YOUR GUES? 0-100"; 100 XEQ INTRND STO R ; ROLL 1 STO+ S ; SCORE @142: SF 10 eqn 'GUESS 0-100' PSE CF 10 ;150 ACCEPT AT(20)BEEP VALIDATE(DIGIT);GUESS:IF GUESS=SECRET THEN 190 INPUT G ; GUESS x<0? GTO @142 100 x<y? GTO @142 RCL X x=y? GTO @190 ;160 IF PROB>ROLL THEN FLAG=1 ELSE FLAG=0:IF FLAG=0 THEN FIB=FIB+1 RCL R RCL P CF 1 x>y? SF 1 1 FS? 1 CLx STO+ F ;170 IF GUESS<SECRET THEN IF FLAG=1 THEN 240 ELSE 230 RCL X RCL G x>=y? GTO @180 FS? 1 GTO @240 GTO @230 @180: ;180 IF GUESS>SECRET THEN IF FLAG=1 THEN 230 ELSE 240 x<=y? GTO @190 FS? 1 GTO @230 GTO @240 @190: ;190 PRINT"CONGRATULATIONS! YOU DID IT!":PAUSE 3 SF 10 eqn 'YOU DID IT!' PSE ;200 DISPLAY AT (3)"SCORE=";SCORE,"# OF FIBS=";FIB:PAUSE eqn 'SCORE=' PSE VIEW S eqn 'FIBS=' PSE VIEW F ;210 DISPLAY"SAME GAME AGAIN? Y/N";:ACCEPT AT(22)BEEP VALIDATE("YNyn"),ANSWERS CLx eqn 'AGAIN Y=2 N=1' CF 10 ;220 IF ANSWERS="Y" OR ANSWERS="y" THEN 110 ELSE 250 2 x=y? GTO @110 GTO @250 @230: ;230 PRINT"GUESS TOO HIGH":PAUSE 1:G0T0 140 SF 10 eqn 'GUESS TOO HIGH' PSE CF 10 GTO @140 @240: ;240 PRINT"GUESS TOO LOW":PAUSE 1:G0T0 140 SF 10 eqn 'GUESS TOO LOW' PSE CF 10 GTO @140 @250: ;250 DISPLAY AT(5)ERASE ALL"BYE, HAVE A NICE DAY!":PAUSE 3:END SF 10 eqn 'BYE, HAND' PSE CF 10 CF 1 RTN INTRND: eqn 'IP(RAND*IP(REGX+1/2))+1' RTN ENDS JiveTurkey END

tools/ayacc/src/ayacc_file_names.adb

svn2github/matreshka

24

30892

with Ada.Characters.Handling; with Ada.Directories; with Ada.Strings.Unbounded; with String_Pkg; package body Ayacc_File_Names is use Ada.Characters.Handling; use Ada.Strings.Unbounded; function "+" (Item : String) return Unbounded_String renames To_Unbounded_String; function "+" (Item : Unbounded_String) return String renames To_String; Source_File_Name : Unbounded_String; Out_File_Name : Unbounded_String; Verbose_File_Name : Unbounded_String; Template_File_Name : Unbounded_String; Actions_File_Name : Unbounded_String; Shift_Reduce_File_Name : Unbounded_String; Goto_File_Name : Unbounded_String; Tokens_File_Name : Unbounded_String; -- UMASS CODES : Error_Report_File_Name : Unbounded_String; Listing_File_Name : Unbounded_String; -- END OF UMASS CODES. C_Lex_File_Name : Unbounded_String; Include_File_Name : Unbounded_String; --RJS ========================================== function End_of_Unit_Name (Name : in String) return Natural is Dot_Position : Natural := Name'Last; begin while Dot_Position >= Name'First and then Name (Dot_Position) /= '.' loop Dot_Position := Dot_Position - 1; end loop; return Dot_Position - 1; end End_of_Unit_Name; function Get_Unit_Name (Filename : in String) return String is -- modified to check for valid Ada identifiers. 11/28/88 kn Filename_Without_Extension : String := Filename (Filename'First .. End_of_Unit_Name (Filename)); End_of_Directory : Natural := Filename_Without_Extension'Last + 1; function Is_Alphabetic (Ch : in Character) return Boolean is begin return Ch in 'A' .. 'Z' or else Ch in 'a' .. 'z'; end Is_Alphabetic; function Is_AlphaNum_or_Underscore (Ch : in Character) return Boolean is begin return Is_Alphabetic(Ch) or else Ch in '0' .. '9' or else Ch = '_' or else Ch = '-'; end Is_AlphaNum_or_Underscore; use String_Pkg; begin -- find end of directory for Pos in reverse Filename_Without_Extension'FIRST.. Filename_Without_Extension'LAST loop exit when Filename_Without_Extension(Pos) = '/'; End_Of_Directory := Pos; end loop; if End_Of_Directory <= Filename_Without_Extension'LAST and then Is_Alphabetic (Filename_Without_Extension (End_of_Directory)) then Check_Remaining_Characters : for i in End_Of_Directory + 1 .. Filename_Without_Extension'LAST loop if not Is_AlphaNum_or_Underscore (Filename_Without_Extension(i)) then return ""; elsif Filename_Without_Extension(i) = '-' then Filename_Without_Extension(i) := '.'; end if; end loop Check_Remaining_Characters; return Value (Mixed (Filename_Without_Extension (End_of_Directory .. Filename_Without_Extension'Last))); else return ""; end if; end Get_Unit_Name; --------------------- -- C_Lex_Unit_Name -- --------------------- function C_Lex_Unit_Name return String is Filename : constant String := To_Upper (+C_Lex_File_Name); begin return Get_Unit_Name (Filename); end C_Lex_Unit_Name; --------------------------- -- Goto_Tables_Unit_Name -- --------------------------- function Goto_Tables_Unit_Name return String is Filename : constant String := To_Upper (+Goto_File_Name); begin return Get_Unit_Name (Filename); end Goto_Tables_Unit_Name; ----------------------------------- -- Shift_Reduce_Tables_Unit_Name -- ----------------------------------- function Shift_Reduce_Tables_Unit_Name return String is Filename : constant String := To_Upper (+Shift_Reduce_File_Name); begin return Get_Unit_Name (Filename); end Shift_Reduce_Tables_Unit_Name; ---------------------- -- Tokens_Unit_Name -- ---------------------- function Tokens_Unit_Name return String is Filename : constant String := To_Upper (+Tokens_File_Name); begin return Get_Unit_Name (Filename); end Tokens_Unit_Name; -------------------- -- Main_Unit_Name -- -------------------- function Main_Unit_Name return String is Filename : constant String := To_Upper (+Out_File_Name); begin return Get_Unit_Name (Filename); end Main_Unit_Name; -- UMASS CODES : ---------------------------- -- Error_Report_Unit_Name -- ---------------------------- function Error_Report_Unit_Name return String is Filename : constant String := To_Upper (+Error_Report_File_Name); begin return Get_Unit_Name (Filename); end Error_Report_Unit_Name; -- END OF UMASS CODES. --RJS ========================================== -------------------------- -- Get_Source_File_Name -- -------------------------- function Get_Source_File_Name return String is begin return +Source_File_Name; end; ----------------------- -- Get_Out_File_Name -- ----------------------- function Get_Out_File_Name return String is begin return +Out_File_Name; end; --------------------------- -- Get_Verbose_File_Name -- --------------------------- function Get_Verbose_File_Name return String is begin return +Verbose_File_Name; end; ---------------------------- -- Get_Template_File_Name -- ---------------------------- function Get_Template_File_Name return String is begin return +Template_File_Name; end; --------------------------- -- Get_Actions_File_Name -- --------------------------- function Get_Actions_File_Name return String is begin return +Actions_File_Name; end; -------------------------------- -- Get_Shift_Reduce_File_Name -- -------------------------------- function Get_Shift_Reduce_File_Name return String is begin return +Shift_Reduce_File_Name; end; ------------------------ -- Get_Goto_File_Name -- ------------------------ function Get_Goto_File_Name return String is begin return +Goto_File_Name; end; -------------------------- -- Get_Tokens_File_Name -- -------------------------- function Get_Tokens_File_Name return String is begin return +Tokens_File_Name; end; -- UMASS CODES : -------------------------------- -- Get_Error_Report_File_Name -- -------------------------------- function Get_Error_Report_File_Name return String is begin return +Error_Report_File_Name; end Get_Error_Report_File_Name; --------------------------- -- Get_Listing_File_Name -- --------------------------- function Get_Listing_File_Name return String is begin return +Listing_File_Name; end; -- END OF UMASS CODES. ------------------------- -- Get_C_Lex_File_Name -- ------------------------- function Get_C_Lex_File_Name return String is begin return +C_Lex_File_Name; end; --------------------------- -- Get_Include_File_Name -- --------------------------- function Get_Include_File_Name return String is begin return +Include_File_Name; end; -------------------- -- Set_File_Names -- -------------------- procedure Set_File_Names(Input_File, Extension: in String) is Base_Name : constant String := Ada.Directories.Base_Name (Input_File); begin if Input_File'Length < 3 or else (Input_File(Input_File'Last) /= 'y' and then Input_File(Input_File'Last) /= 'Y') or else Input_File(Input_File'Last - 1) /= '.' then raise Illegal_File_Name; end if; Source_File_Name := +Input_File; Out_File_Name := +Base_Name; Append (Out_File_Name, Extension); Verbose_File_Name := +Base_Name; Append (Verbose_File_Name, ".verbose"); Tokens_File_Name := +Base_Name; Append (Tokens_File_Name, "_tokens" & Extension & "ds"); -- UMASS CODES : Error_Report_File_Name := +Base_Name; Append (Error_Report_File_Name, "-error_report" & Extension); Listing_File_Name := +Base_Name; Append (Listing_File_Name, ".lis"); -- END OF UMASS CODES. Template_File_Name := +"yyparse.template"; Actions_File_Name := +Base_Name; Append (Actions_File_Name, ".accs"); Shift_Reduce_File_Name := +Base_Name; Append (Shift_Reduce_File_Name, "-shift_reduce" & Extension & "ds"); Goto_File_Name := +Base_Name; Append (Goto_File_Name, "-goto_table" & Extension & "ds"); C_Lex_File_Name := +Base_Name; Append (C_Lex_File_Name, "-c_lex" & Extension); Include_File_Name := +Base_Name; Append (Include_File_Name, ".h"); end Set_File_Names; end Ayacc_File_Names;

libsrc/stdlib/wpoke.asm

jpoikela/z88dk

38

166162

; CALLER linkage for function pointers SECTION code_clib PUBLIC wpoke PUBLIC _wpoke EXTERN wpoke_callee EXTERN ASMDISP_WPOKE_CALLEE .wpoke ._wpoke pop af pop de pop hl push hl push de push af jp wpoke_callee + ASMDISP_WPOKE_CALLEE

docs/build/Pygments/tests/examplefiles/output/test.adb

mjtamlyn/django-braces

1

5413

(lp1 (ccopy_reg _reconstructor p2 (cpygments.token _TokenType p3 c__builtin__ tuple p4 (S'Comment' p5 S'Single' p6 ttRp7 (dp8 S'subtypes' p9 c__builtin__ set p10 ((ltRp11 sS'parent' p12 g2 (g3 g4 (g5 ttRp13 (dp14 g12 g2 (g3 g4 (ttRp15 (dp16 g5 g13 sS'Name' p17 g2 (g3 g4 (g17 ttRp18 (dp19 S'Function' p20 g2 (g3 g4 (g17 g20 ttRp21 (dp22 g9 g10 ((ltRp23 sg12 g18 sbsS'Exception' p24 g2 (g3 g4 (g17 g24 ttRp25 (dp26 g9 g10 ((ltRp27 sg12 g18 sbsS'Tag' p28 g2 (g3 g4 (g17 g28 ttRp29 (dp30 g9 g10 ((ltRp31 sg12 g18 sbsS'Constant' p32 g2 (g3 g4 (g17 g32 ttRp33 (dp34 g9 g10 ((ltRp35 sg12 g18 sbsg12 g15 sS'Pseudo' p36 g2 (g3 g4 (g17 g36 ttRp37 (dp38 g9 g10 ((ltRp39 sg12 g18 sbsS'Attribute' p40 g2 (g3 g4 (g17 g40 ttRp41 (dp42 g9 g10 ((ltRp43 sg12 g18 sbsS'Label' p44 g2 (g3 g4 (g17 g44 ttRp45 (dp46 g9 g10 ((ltRp47 sg12 g18 sbsS'Blubb' p48 g2 (g3 g4 (g17 g48 ttRp49 (dp50 g9 g10 ((ltRp51 sg12 g18 sbsS'Entity' p52 g2 (g3 g4 (g17 g52 ttRp53 (dp54 g9 g10 ((ltRp55 sg12 g18 sbsS'Builtin' p56 g2 (g3 g4 (g17 g56 ttRp57 (dp58 g9 g10 ((lp59 g2 (g3 g4 (g17 g56 g36 ttRp60 (dp61 g9 g10 ((ltRp62 sg12 g57 sbatRp63 sg36 g60 sg12 g18 sbsS'Other' p64 g2 (g3 g4 (g17 g64 ttRp65 (dp66 g9 g10 ((ltRp67 sg12 g18 sbsS'Identifier' p68 g2 (g3 g4 (g17 g68 ttRp69 (dp70 g9 g10 ((ltRp71 sg12 g18 sbsS'Variable' p72 g2 (g3 g4 (g17 g72 ttRp73 (dp74 g12 g18 sS'Global' p75 g2 (g3 g4 (g17 g72 g75 ttRp76 (dp77 g9 g10 ((ltRp78 sg12 g73 sbsS'Instance' p79 g2 (g3 g4 (g17 g72 g79 ttRp80 (dp81 g9 g10 ((ltRp82 sg12 g73 sbsS'Anonymous' p83 g2 (g3 g4 (g17 g72 g83 ttRp84 (dp85 g9 g10 ((ltRp86 sg12 g73 sbsg9 g10 ((lp87 g84 ag80 ag76 ag2 (g3 g4 (g17 g72 S'Class' p88 ttRp89 (dp90 g9 g10 ((ltRp91 sg12 g73 sbatRp92 sg88 g89 sbsg9 g10 ((lp93 g2 (g3 g4 (g17 S'Decorator' p94 ttRp95 (dp96 g9 g10 ((ltRp97 sg12 g18 sbag41 ag33 ag37 ag2 (g3 g4 (g17 S'Namespace' p98 ttRp99 (dp100 g9 g10 ((ltRp101 sg12 g18 sbag69 ag57 ag73 ag65 ag49 ag53 ag21 ag2 (g3 g4 (g17 S'Property' p102 ttRp103 (dp104 g9 g10 ((ltRp105 sg12 g18 sbag45 ag29 ag25 ag2 (g3 g4 (g17 g88 ttRp106 (dp107 g9 g10 ((ltRp108 sg12 g18 sbatRp109 sg102 g103 sg88 g106 sg94 g95 sg98 g99 sbsS'Keyword' p110 g2 (g3 g4 (g110 ttRp111 (dp112 g32 g2 (g3 g4 (g110 g32 ttRp113 (dp114 g9 g10 ((ltRp115 sg12 g111 sbsg12 g15 sg98 g2 (g3 g4 (g110 g98 ttRp116 (dp117 g9 g10 ((ltRp118 sg12 g111 sbsg36 g2 (g3 g4 (g110 g36 ttRp119 (dp120 g9 g10 ((ltRp121 sg12 g111 sbsS'Reserved' p122 g2 (g3 g4 (g110 g122 ttRp123 (dp124 g9 g10 ((ltRp125 sg12 g111 sbsS'Declaration' p126 g2 (g3 g4 (g110 g126 ttRp127 (dp128 g9 g10 ((ltRp129 sg12 g111 sbsg72 g2 (g3 g4 (g110 g72 ttRp130 (dp131 g9 g10 ((ltRp132 sg12 g111 sbsg9 g10 ((lp133 g113 ag123 ag2 (g3 g4 (g110 S'Type' p134 ttRp135 (dp136 g9 g10 ((ltRp137 sg12 g111 sbag127 ag130 ag116 ag119 atRp138 sg134 g135 sbsS'Generic' p139 g2 (g3 g4 (g139 ttRp140 (dp141 S'Prompt' p142 g2 (g3 g4 (g139 g142 ttRp143 (dp144 g9 g10 ((ltRp145 sg12 g140 sbsg12 g15 sS'Deleted' p146 g2 (g3 g4 (g139 g146 ttRp147 (dp148 g9 g10 ((ltRp149 sg12 g140 sbsS'Traceback' p150 g2 (g3 g4 (g139 g150 ttRp151 (dp152 g9 g10 ((ltRp153 sg12 g140 sbsS'Emph' p154 g2 (g3 g4 (g139 g154 ttRp155 (dp156 g9 g10 ((ltRp157 sg12 g140 sbsS'Output' p158 g2 (g3 g4 (g139 g158 ttRp159 (dp160 g9 g10 ((ltRp161 sg12 g140 sbsS'Subheading' p162 g2 (g3 g4 (g139 g162 ttRp163 (dp164 g9 g10 ((ltRp165 sg12 g140 sbsS'Error' p166 g2 (g3 g4 (g139 g166 ttRp167 (dp168 g9 g10 ((ltRp169 sg12 g140 sbsg9 g10 ((lp170 g159 ag155 ag167 ag163 ag151 ag147 ag2 (g3 g4 (g139 S'Heading' p171 ttRp172 (dp173 g9 g10 ((ltRp174 sg12 g140 sbag2 (g3 g4 (g139 S'Inserted' p175 ttRp176 (dp177 g9 g10 ((ltRp178 sg12 g140 sbag2 (g3 g4 (g139 S'Strong' p179 ttRp180 (dp181 g9 g10 ((ltRp182 sg12 g140 sbag143 atRp183 sg179 g180 sg175 g176 sg171 g172 sbsS'Text' p184 g2 (g3 g4 (g184 ttRp185 (dp186 g9 g10 ((lp187 g2 (g3 g4 (g184 S'Symbol' p188 ttRp189 (dp190 g9 g10 ((ltRp191 sg12 g185 sbag2 (g3 g4 (g184 S'Whitespace' p192 ttRp193 (dp194 g9 g10 ((ltRp195 sg12 g185 sbatRp196 sg188 g189 sg192 g193 sg12 g15 sbsS'Punctuation' p197 g2 (g3 g4 (g197 ttRp198 (dp199 g9 g10 ((lp200 g2 (g3 g4 (g197 S'Indicator' p201 ttRp202 (dp203 g9 g10 ((ltRp204 sg12 g198 sbatRp205 sg201 g202 sg12 g15 sbsS'Token' p206 g15 sS'Number' p207 g2 (g3 g4 (S'Literal' p208 g207 ttRp209 (dp210 S'Bin' p211 g2 (g3 g4 (g208 g207 g211 ttRp212 (dp213 g9 g10 ((ltRp214 sg12 g209 sbsS'Binary' p215 g2 (g3 g4 (g208 g207 g215 ttRp216 (dp217 g9 g10 ((ltRp218 sg12 g209 sbsg12 g2 (g3 g4 (g208 ttRp219 (dp220 S'String' p221 g2 (g3 g4 (g208 g221 ttRp222 (dp223 S'Regex' p224 g2 (g3 g4 (g208 g221 g224 ttRp225 (dp226 g9 g10 ((ltRp227 sg12 g222 sbsS'Interpol' p228 g2 (g3 g4 (g208 g221 g228 ttRp229 (dp230 g9 g10 ((ltRp231 sg12 g222 sbsS'Regexp' p232 g2 (g3 g4 (g208 g221 g232 ttRp233 (dp234 g9 g10 ((ltRp235 sg12 g222 sbsg12 g219 sS'Heredoc' p236 g2 (g3 g4 (g208 g221 g236 ttRp237 (dp238 g9 g10 ((ltRp239 sg12 g222 sbsS'Double' p240 g2 (g3 g4 (g208 g221 g240 ttRp241 (dp242 g9 g10 ((ltRp243 sg12 g222 sbsg188 g2 (g3 g4 (g208 g221 g188 ttRp244 (dp245 g9 g10 ((ltRp246 sg12 g222 sbsS'Escape' p247 g2 (g3 g4 (g208 g221 g247 ttRp248 (dp249 g9 g10 ((ltRp250 sg12 g222 sbsS'Character' p251 g2 (g3 g4 (g208 g221 g251 ttRp252 (dp253 g9 g10 ((ltRp254 sg12 g222 sbsS'Interp' p255 g2 (g3 g4 (g208 g221 g255 ttRp256 (dp257 g9 g10 ((ltRp258 sg12 g222 sbsS'Backtick' p259 g2 (g3 g4 (g208 g221 g259 ttRp260 (dp261 g9 g10 ((ltRp262 sg12 g222 sbsS'Char' p263 g2 (g3 g4 (g208 g221 g263 ttRp264 (dp265 g9 g10 ((ltRp266 sg12 g222 sbsg6 g2 (g3 g4 (g208 g221 g6 ttRp267 (dp268 g9 g10 ((ltRp269 sg12 g222 sbsg64 g2 (g3 g4 (g208 g221 g64 ttRp270 (dp271 g9 g10 ((ltRp272 sg12 g222 sbsS'Doc' p273 g2 (g3 g4 (g208 g221 g273 ttRp274 (dp275 g9 g10 ((ltRp276 sg12 g222 sbsg9 g10 ((lp277 g270 ag2 (g3 g4 (g208 g221 S'Atom' p278 ttRp279 (dp280 g9 g10 ((ltRp281 sg12 g222 sbag241 ag264 ag256 ag274 ag237 ag260 ag229 ag244 ag233 ag225 ag267 ag252 ag248 atRp282 sg278 g279 sbsg12 g15 sg207 g209 sS'Scalar' p283 g2 (g3 g4 (g208 g283 ttRp284 (dp285 g9 g10 ((lp286 g2 (g3 g4 (g208 g283 S'Plain' p287 ttRp288 (dp289 g9 g10 ((ltRp290 sg12 g284 sbatRp291 sg12 g219 sg287 g288 sbsg64 g2 (g3 g4 (g208 g64 ttRp292 (dp293 g9 g10 ((ltRp294 sg12 g219 sbsS'Date' p295 g2 (g3 g4 (g208 g295 ttRp296 (dp297 g9 g10 ((ltRp298 sg12 g219 sbsg9 g10 ((lp299 g296 ag222 ag292 ag209 ag284 atRp300 sbsS'Decimal' p301 g2 (g3 g4 (g208 g207 g301 ttRp302 (dp303 g9 g10 ((ltRp304 sg12 g209 sbsS'Float' p305 g2 (g3 g4 (g208 g207 g305 ttRp306 (dp307 g9 g10 ((ltRp308 sg12 g209 sbsS'Hex' p309 g2 (g3 g4 (g208 g207 g309 ttRp310 (dp311 g9 g10 ((ltRp312 sg12 g209 sbsS'Integer' p313 g2 (g3 g4 (g208 g207 g313 ttRp314 (dp315 g9 g10 ((lp316 g2 (g3 g4 (g208 g207 g313 S'Long' p317 ttRp318 (dp319 g9 g10 ((ltRp320 sg12 g314 sbatRp321 sg317 g318 sg12 g209 sbsS'Octal' p322 g2 (g3 g4 (g208 g207 g322 ttRp323 (dp324 g9 g10 ((ltRp325 sg12 g209 sbsg9 g10 ((lp326 g212 ag216 ag323 ag302 ag2 (g3 g4 (g208 g207 S'Oct' p327 ttRp328 (dp329 g9 g10 ((ltRp330 sg12 g209 sbag314 ag306 ag310 atRp331 sg327 g328 sbsg208 g219 sg64 g2 (g3 g4 (g64 ttRp332 (dp333 g9 g10 ((ltRp334 sg12 g15 sbsg166 g2 (g3 g4 (g166 ttRp335 (dp336 g9 g10 ((ltRp337 sg12 g15 sbsS'Operator' p338 g2 (g3 g4 (g338 ttRp339 (dp340 g9 g10 ((lp341 g2 (g3 g4 (g338 S'Word' p342 ttRp343 (dp344 g9 g10 ((ltRp345 sg12 g339 sbatRp346 sg342 g343 sg12 g15 sbsg9 g10 ((lp347 g13 ag335 ag140 ag185 ag18 ag198 ag111 ag219 ag339 ag332 atRp348 sg221 g222 sbsS'Preproc' p349 g2 (g3 g4 (g5 g349 ttRp350 (dp351 g9 g10 ((ltRp352 sg12 g13 sbsg6 g7 sS'Multiline' p353 g2 (g3 g4 (g5 g353 ttRp354 (dp355 g9 g10 ((ltRp356 sg12 g13 sbsg9 g10 ((lp357 g2 (g3 g4 (g5 S'Special' p358 ttRp359 (dp360 g9 g10 ((ltRp361 sg12 g13 sbag350 ag7 ag354 atRp362 sg358 g359 sbsbV-- Model IED Simulator\u000a p363 tp364 a(g7 V-- COL <NAME>, 1 December 2007\u000a p365 tp366 a(g116 Vwith p367 tp368 a(g185 V tp369 a(g99 VAda.Text_IO p370 tp371 a(g198 V; tp372 a(g185 V\u000a\u000a p373 tp374 a(g116 Vwith p375 tp376 a(g185 V tp377 a(g99 VAda.Characters.Latin_1 p378 tp379 a(g198 V; tp380 a(g185 V\u000a tp381 a(g116 Vuse p382 tp383 a(g185 V p384 tp385 a(g99 VAda.Characters.Latin_1 p386 tp387 a(g198 V; tp388 a(g185 V\u000a\u000a p389 tp390 a(g116 Vwith p391 tp392 a(g185 V tp393 a(g99 VAda.Strings.Fixed p394 tp395 a(g198 V; tp396 a(g185 V\u000a tp397 a(g116 Vuse p398 tp399 a(g185 V p400 tp401 a(g99 VAda.Strings.Fixed p402 tp403 a(g198 V; tp404 a(g185 V\u000a\u000a p405 tp406 a(g116 Vwith p407 tp408 a(g185 V tp409 a(g99 VAda.Strings p410 tp411 a(g198 V; tp412 a(g185 V\u000a tp413 a(g116 Vwith p414 tp415 a(g185 V tp416 a(g99 VAda.Strings.Bounded p417 tp418 a(g198 V; tp419 a(g185 V\u000a\u000a p420 tp421 a(g116 Vwith p422 tp423 a(g185 V tp424 a(g99 VBinary_Search p425 tp426 a(g198 V; tp427 a(g185 V\u000a\u000a p428 tp429 a(g116 Vwith p430 tp431 a(g185 V tp432 a(g99 VAda.Containers.Generic_Array_Sort p433 tp434 a(g198 V; tp435 a(g185 V\u000a\u000a p436 tp437 a(g127 Vpackage p438 tp439 a(g185 V tp440 a(g127 Vbody p441 tp442 a(g185 V tp443 a(g106 VScanner p444 tp445 a(g185 V tp446 a(g123 Vis p447 tp448 a(g185 V\u000a tp449 a(g185 V p450 tp451 a(g185 V\u000a tp452 a(g185 V p453 tp454 a(g33 VConstant_123 p455 tp456 a(g185 V p457 tp458 a(g198 V: tp459 a(g185 V tp460 a(g123 Vconstant p461 tp462 a(g185 V tp463 a(g135 VCharacter p464 tp465 a(g185 V tp466 a(g198 V:= p467 tp468 a(g185 V tp469 a(g135 VCharacter p470 tp471 a(g198 V' tp472 a(g41 VVal p473 tp474 a(g185 V tp475 a(g198 V( tp476 a(g310 V16#00# p477 tp478 a(g198 V) tp479 a(g198 V; tp480 a(g185 V\u000a tp481 a(g185 V p482 tp483 a(g33 VMAX_KEYWORD_LENGTH_C p484 tp485 a(g185 V tp486 a(g198 V: tp487 a(g185 V tp488 a(g123 Vconstant p489 tp490 a(g185 V tp491 a(g135 VNatural p492 tp493 a(g185 V tp494 a(g198 V:= p495 tp496 a(g185 V tp497 a(g314 V24 p498 tp499 a(g198 V; tp500 a(g185 V\u000a tp501 a(g185 V p502 tp503 a(g185 V\u000a tp504 a(g185 V p505 tp506 a(g33 VNew_Constant p507 tp508 a(g185 V tp509 a(g198 V: tp510 a(g185 V tp511 a(g123 Vconstant p512 tp513 a(g185 V tp514 a(g18 VNew_Type p515 tp516 a(g185 V\u000a tp517 a(g185 V p518 tp519 a(g198 V:= p520 tp521 a(g185 V tp522 a(g314 V2 tp523 a(g198 V; tp524 a(g185 V\u000a tp525 a(g185 V p526 tp527 a(g185 V\u000a tp528 a(g185 V p529 tp530 a(g33 VKEYWORDS_C p531 tp532 a(g185 V tp533 a(g198 V: tp534 a(g185 V tp535 a(g123 Vconstant p536 tp537 a(g185 V tp538 a(g18 VKeyword_Array_T p539 tp540 a(g185 V tp541 a(g198 V:= p542 tp543 a(g185 V\u000a tp544 a(g185 V p545 tp546 a(g198 V( tp547 a(g18 VTo_BS p548 tp549 a(g198 V( tp550 a(g222 V"description" p551 tp552 a(g198 V) tp553 a(g198 V, tp554 a(g185 V\u000a tp555 a(g185 V p556 tp557 a(g18 VTo_BS p558 tp559 a(g198 V( tp560 a(g222 V"with" p561 tp562 a(g198 V) tp563 a(g198 V) tp564 a(g198 V; tp565 a(g185 V\u000a tp566 a(g185 V p567 tp568 a(g185 V\u000a tp569 a(g185 V p570 tp571 a(g127 Vprocedure p572 tp573 a(g185 V tp574 a(g21 VBlah p575 tp576 a(g198 V; tp577 a(g185 V\u000a tp578 a(g185 V p579 tp580 a(g185 V\u000a tp581 a(g185 V p582 tp583 a(g127 Vprocedure p584 tp585 a(g185 V tp586 a(g21 Vblah p587 tp588 a(g185 V tp589 a(g123 Vis p590 tp591 a(g185 V\u000a tp592 a(g185 V p593 tp594 a(g123 Vbegin p595 tp596 a(g185 V\u000a tp597 a(g185 V p598 tp599 a(g185 V\u000a tp600 a(g185 V p601 tp602 a(g45 VDeclaration p603 tp604 a(g198 V: tp605 a(g185 V\u000a p606 tp607 a(g123 Vdeclare p608 tp609 a(g185 V\u000a tp610 a(g185 V p611 tp612 a(g18 VJoe p613 tp614 a(g185 V tp615 a(g198 V: tp616 a(g185 V tp617 a(g18 VType_Type p618 tp619 a(g185 V tp620 a(g198 V:= p621 tp622 a(g185 V tp623 a(g18 VRandom p624 tp625 a(g198 V; tp626 a(g185 V\u000a tp627 a(g185 V p628 tp629 a(g123 Vbegin p630 tp631 a(g185 V\u000a tp632 a(g185 V p633 tp634 a(g18 VDo_Something p635 tp636 a(g198 V; tp637 a(g185 V\u000a tp638 a(g185 V p639 tp640 a(g123 Vend p641 tp642 a(g185 V tp643 a(g21 VDeclaration p644 tp645 a(g198 V; tp646 a(g185 V\u000a tp647 a(g185 V p648 tp649 a(g45 VLoop_ID p650 tp651 a(g198 V: tp652 a(g185 V\u000a p653 tp654 a(g123 Vloop p655 tp656 a(g185 V\u000a tp657 a(g185 V p658 tp659 a(g18 VLoop_Do p660 tp661 a(g198 V; tp662 a(g185 V\u000a tp663 a(g185 V p664 tp665 a(g123 Vexit p666 tp667 a(g185 V tp668 a(g123 Vwhen p669 tp670 a(g185 V tp671 a(g314 V1 tp672 a(g339 V= tp673 a(g314 V2 tp674 a(g198 V; tp675 a(g185 V\u000a tp676 a(g185 V p677 tp678 a(g123 Vend p679 tp680 a(g185 V tp681 a(g123 Vloop p682 tp683 a(g185 V tp684 a(g123 VLoop p685 tp686 a(g21 V_ID p687 tp688 a(g198 V; tp689 a(g185 V\u000a tp690 a(g185 V p691 tp692 a(g123 Vif p693 tp694 a(g185 V tp695 a(g113 VTrue p696 tp697 a(g185 V tp698 a(g343 Vor else p699 tp700 a(g185 V tp701 a(g113 VFalse p702 tp703 a(g185 V tp704 a(g123 Vthen p705 tp706 a(g185 V\u000a tp707 a(g185 V p708 tp709 a(g18 VDo_This p710 tp711 a(g198 V( tp712 a(g198 V) tp713 a(g198 V; tp714 a(g185 V\u000a tp715 a(g185 V p716 tp717 a(g123 Velsif p718 tp719 a(g185 V tp720 a(g343 Vnot p721 tp722 a(g185 V tp723 a(g113 VFalse p724 tp725 a(g185 V tp726 a(g343 Vand then p727 tp728 a(g185 V tp729 a(g113 VTrue p730 tp731 a(g185 V tp732 a(g123 Vthen p733 tp734 a(g185 V\u000a tp735 a(g185 V p736 tp737 a(g18 VDo_That p738 tp739 a(g198 V; tp740 a(g185 V\u000a tp741 a(g185 V p742 tp743 a(g123 Velse p744 tp745 a(g185 V\u000a tp746 a(g185 V p747 tp748 a(g18 VPanic p749 tp750 a(g198 V; tp751 a(g185 V\u000a tp752 a(g185 V p753 tp754 a(g123 Vend p755 tp756 a(g185 V tp757 a(g123 Vif p758 tp759 a(g198 V; tp760 a(g185 V\u000a tp761 a(g185 V p762 tp763 a(g123 Vend p764 tp765 a(g185 V tp766 a(g21 Vblah p767 tp768 a(g198 V; tp769 a(g185 V\u000a tp770 a(g185 V p771 tp772 a(g185 V\u000a tp773 a(g185 V p774 tp775 a(g127 Vfunction p776 tp777 a(g185 V tp778 a(g21 V"*" p779 tp780 a(g185 V tp781 a(g198 V( tp782 a(g73 VLeft p783 tp784 a(g198 V, tp785 a(g185 V tp786 a(g73 VRight p787 tp788 a(g185 V tp789 a(g198 V: p790 tp791 a(g123 Vin p792 tp793 a(g185 V tp794 a(g135 VInteger p795 tp796 a(g198 V) tp797 a(g185 V tp798 a(g123 Vreturn p799 tp800 a(g185 V tp801 a(g135 VInteger p802 tp803 a(g185 V tp804 a(g123 Vis p805 tp806 a(g185 V\u000a tp807 a(g185 V p808 tp809 a(g123 Vbegin p810 tp811 a(g185 V\u000a tp812 a(g185 V p813 tp814 a(g45 V<<Goto_Label>> p815 tp816 a(g185 V\u000a tp817 a(g185 V p818 tp819 a(g123 Vgoto p820 tp821 a(g185 V tp822 a(g18 VGoto_Label p823 tp824 a(g198 V; tp825 a(g185 V\u000a tp826 a(g185 V p827 tp828 a(g123 Vreturn p829 tp830 a(g185 V tp831 a(g18 VLeft p832 tp833 a(g185 V tp834 a(g339 V+ tp835 a(g185 V tp836 a(g18 VRight p837 tp838 a(g198 V; tp839 a(g185 V\u000a tp840 a(g185 V p841 tp842 a(g123 Vend p843 tp844 a(g185 V tp845 a(g21 V"*" p846 tp847 a(g198 V; tp848 a(g185 V\u000a tp849 a(g185 V p850 tp851 a(g185 V\u000a tp852 a(g185 V p853 tp854 a(g127 Vfunction p855 tp856 a(g185 V tp857 a(g21 VFunction_Specification p858 tp859 a(g185 V\u000a tp860 a(g185 V p861 tp862 a(g198 V( tp863 a(g73 VParam_1 p864 tp865 a(g185 V p866 tp867 a(g198 V: p868 tp869 a(g123 Vin p870 tp871 a(g185 V tp872 a(g18 VBlah p873 tp874 a(g198 V; tp875 a(g185 V tp876 a(g185 V\u000a tp877 a(g185 V p878 tp879 a(g73 VParam2 p880 tp881 a(g198 V, tp882 a(g185 V tp883 a(g73 Vparam3 p884 tp885 a(g185 V tp886 a(g198 V: p887 tp888 a(g123 Vin p889 tp890 a(g185 V tp891 a(g123 Vaccess p892 tp893 a(g185 V tp894 a(g18 VBlah_Type p895 tp896 a(g185 V tp897 a(g198 V:= p898 tp899 a(g185 V tp900 a(g314 V0 tp901 a(g198 V) tp902 a(g185 V\u000a tp903 a(g185 V p904 tp905 a(g123 Vreturn p906 tp907 a(g185 V tp908 a(g18 VIt_Type p909 tp910 a(g198 V; tp911 a(g185 V\u000a tp912 a(g185 V p913 tp914 a(g185 V\u000a tp915 a(g185 V p916 tp917 a(g127 Vpackage p918 tp919 a(g185 V tp920 a(g106 VRename_Check p921 tp922 a(g185 V tp923 a(g123 Vrenames p924 tp925 a(g185 V tp926 a(g106 VAda.Text_IO p927 tp928 a(g198 V; tp929 a(g185 V\u000a\u000a p930 tp931 a(g185 V p932 tp933 a(g127 Vtype p934 tp935 a(g185 V tp936 a(g135 VNew_Float p937 tp938 a(g185 V tp939 a(g123 Vis p940 tp941 a(g185 V tp942 a(g123 Vdelta p943 tp944 a(g185 V tp945 a(g306 V0.001 p946 tp947 a(g185 V tp948 a(g123 Vdigits p949 tp950 a(g185 V tp951 a(g314 V12 p952 tp953 a(g198 V; tp954 a(g185 V\u000a tp955 a(g185 V p956 tp957 a(g185 V\u000a tp958 a(g185 V p959 tp960 a(g127 Vpackage p961 tp962 a(g185 V tp963 a(g106 VPackage_Inst p964 tp965 a(g185 V tp966 a(g123 Vis new p967 tp968 a(g185 V tp969 a(g106 VAda.Strings.Bounded.Generic_Bounded_Length p970 tp971 a(g185 V\u000a tp972 a(g185 V p973 tp974 a(g198 V( tp975 a(g73 VMax p976 tp977 a(g185 V tp978 a(g198 V=> p979 tp980 a(g185 V tp981 a(g185 VM tp982 a(g185 VA tp983 a(g185 VX tp984 a(g185 V_ tp985 a(g185 VK tp986 a(g185 VE tp987 a(g185 VY tp988 a(g185 VW tp989 a(g185 VO tp990 a(g185 VR tp991 a(g185 VD tp992 a(g185 V_ tp993 a(g185 VL tp994 a(g185 VE tp995 a(g185 VN tp996 a(g185 VG tp997 a(g185 VT tp998 a(g185 VH tp999 a(g185 V_ tp1000 a(g185 VC tp1001 a(g198 V) tp1002 a(g198 V; tp1003 a(g185 V\u000a\u000a p1004 tp1005 a(g185 V p1006 tp1007 a(g127 Vtype p1008 tp1009 a(g185 V tp1010 a(g135 VArray_Decl12 p1011 tp1012 a(g185 V tp1013 a(g123 Vis p1014 tp1015 a(g185 V tp1016 a(g123 Varray p1017 tp1018 a(g185 V tp1019 a(g198 V( tp1020 a(g135 VPositive p1021 tp1022 a(g185 V tp1023 a(g123 Vrange p1024 tp1025 a(g185 V tp1026 a(g198 V<> p1027 tp1028 a(g198 V) tp1029 a(g185 V tp1030 a(g123 Vof p1031 tp1032 a(g185 V tp1033 a(g18 VSB p1034 tp1035 a(g198 V. tp1036 a(g18 VBounded_String p1037 tp1038 a(g198 V; tp1039 a(g185 V\u000a tp1040 a(g185 V p1041 tp1042 a(g127 Vtype p1043 tp1044 a(g185 V tp1045 a(g135 VArray_Decl3 p1046 tp1047 a(g185 V tp1048 a(g123 Vis p1049 tp1050 a(g185 V tp1051 a(g123 Varray p1052 tp1053 a(g185 V tp1054 a(g198 V( tp1055 a(g135 VNew_Type p1056 tp1057 a(g185 V tp1058 a(g123 Vrange p1059 tp1060 a(g185 V tp1061 a(g18 VThing_1 p1062 tp1063 a(g185 V tp1064 a(g198 V. tp1065 a(g198 V. tp1066 a(g185 V tp1067 a(g18 VThing_2 p1068 tp1069 a(g198 V) tp1070 a(g185 V tp1071 a(g123 Vof p1072 tp1073 a(g185 V tp1074 a(g18 VSB p1075 tp1076 a(g198 V. tp1077 a(g18 VBounded_String p1078 tp1079 a(g198 V; tp1080 a(g185 V\u000a\u000a p1081 tp1082 a(g185 V p1083 tp1084 a(g127 Vtype p1085 tp1086 a(g185 V tp1087 a(g135 VBoring_Type p1088 tp1089 a(g185 V tp1090 a(g123 Vis p1091 tp1092 a(g185 V\u000a tp1093 a(g185 V p1094 tp1095 a(g198 V( tp1096 a(g73 VStart p1097 tp1098 a(g198 V, tp1099 a(g185 V\u000a tp1100 a(g185 V p1101 tp1102 a(g18 VEnd_Error p1103 tp1104 a(g198 V) tp1105 a(g198 V; tp1106 a(g185 V\u000a\u000a p1107 tp1108 a(g185 V p1109 tp1110 a(g127 Vsubtype p1111 tp1112 a(g185 V tp1113 a(g135 VSub_Type_check p1114 tp1115 a(g185 V tp1116 a(g123 Vis p1117 tp1118 a(g185 V tp1119 a(g135 VCharacter p1120 tp1121 a(g185 V tp1122 a(g123 Vrange p1123 tp1124 a(g185 V tp1125 a(g198 V' tp1126 a(g41 V0 tp1127 a(g198 V' tp1128 a(g185 V tp1129 a(g198 V. tp1130 a(g198 V. tp1131 a(g185 V tp1132 a(g198 V' tp1133 a(g41 V9 tp1134 a(g198 V' tp1135 a(g198 V; tp1136 a(g185 V\u000a tp1137 a(g185 V p1138 tp1139 a(g185 V\u000a tp1140 a(g185 V p1141 tp1142 a(g33 VInitialized_Array p1143 tp1144 a(g185 V tp1145 a(g198 V: tp1146 a(g185 V tp1147 a(g123 Vconstant p1148 tp1149 a(g185 V tp1150 a(g18 VTransistion_Array_T p1151 tp1152 a(g185 V tp1153 a(g198 V:= p1154 tp1155 a(g185 V\u000a tp1156 a(g185 V p1157 tp1158 a(g198 V( tp1159 a(g18 VStart p1160 tp1161 a(g185 V tp1162 a(g198 V=> p1163 tp1164 a(g185 V\u000a tp1165 a(g185 V p1166 tp1167 a(g198 V( tp1168 a(g18 VLetter_Lower p1169 tp1170 a(g185 V tp1171 a(g198 V| tp1172 a(g185 V tp1173 a(g18 VLetter_Upper p1174 tp1175 a(g185 V tp1176 a(g198 V=> p1177 tp1178 a(g185 V tp1179 a(g18 VSaw_Alpha p1180 tp1181 a(g198 V, tp1182 a(g185 V\u000a tp1183 a(g185 V p1184 tp1185 a(g252 V' ' p1186 tp1187 a(g185 V tp1188 a(g198 V| tp1189 a(g185 V tp1190 a(g18 VHT p1191 tp1192 a(g185 V tp1193 a(g198 V| tp1194 a(g185 V tp1195 a(g18 VCR p1196 tp1197 a(g185 V tp1198 a(g198 V| tp1199 a(g185 V tp1200 a(g18 VLF p1201 tp1202 a(g185 V p1203 tp1204 a(g198 V=> p1205 tp1206 a(g185 V tp1207 a(g18 VStart p1208 tp1209 a(g198 V, tp1210 a(g185 V\u000a tp1211 a(g185 V p1212 tp1213 a(g123 Vothers p1214 tp1215 a(g185 V tp1216 a(g198 V=> p1217 tp1218 a(g185 V tp1219 a(g18 VBegin_Error p1220 tp1221 a(g198 V) tp1222 a(g198 V, tp1223 a(g185 V\u000a\u000a p1224 tp1225 a(g185 V p1226 tp1227 a(g18 VEnd_Error p1228 tp1229 a(g185 V tp1230 a(g198 V=> p1231 tp1232 a(g185 V tp1233 a(g198 V( tp1234 a(g123 Vothers p1235 tp1236 a(g185 V tp1237 a(g198 V=> p1238 tp1239 a(g185 V tp1240 a(g18 VStart p1241 tp1242 a(g198 V) tp1243 a(g185 V\u000a\u000a p1244 tp1245 a(g185 V p1246 tp1247 a(g198 V) tp1248 a(g198 V; tp1249 a(g185 V\u000a\u000a p1250 tp1251 a(g185 V p1252 tp1253 a(g127 Vtype p1254 tp1255 a(g185 V tp1256 a(g135 VRecorder p1257 tp1258 a(g185 V tp1259 a(g123 Vis p1260 tp1261 a(g185 V tp1262 a(g123 Vrecord p1263 tp1264 a(g185 V\u000a tp1265 a(g185 V p1266 tp1267 a(g73 VAdvance p1268 tp1269 a(g185 V p1270 tp1271 a(g198 V: p1272 tp1273 a(g18 VBoolean p1274 tp1275 a(g198 V; tp1276 a(g185 V\u000a tp1277 a(g185 V p1278 tp1279 a(g73 VReturn_Token p1280 tp1281 a(g185 V tp1282 a(g198 V: p1283 tp1284 a(g18 VToken_T p1285 tp1286 a(g198 V; tp1287 a(g185 V\u000a tp1288 a(g185 V p1289 tp1290 a(g123 Vend p1291 tp1292 a(g185 V tp1293 a(g123 Vrecord p1294 tp1295 a(g198 V; tp1296 a(g185 V\u000a tp1297 a(g185 V p1298 tp1299 a(g185 V\u000a tp1300 a(g185 V p1301 tp1302 a(g123 Vfor p1303 tp1304 a(g185 V tp1305 a(g18 VRecorder p1306 tp1307 a(g185 V tp1308 a(g116 Vuse p1309 tp1310 a(g185 V tp1311 a(g99 V8 tp1312 a(g198 V; tp1313 a(g185 V\u000a tp1314 a(g185 V p1315 tp1316 a(g185 V\u000a tp1317 a(g185 V p1318 tp1319 a(g127 Vtype p1320 tp1321 a(g185 V tp1322 a(g135 VNull_Record p1323 tp1324 a(g185 V tp1325 a(g123 Vis p1326 tp1327 a(g185 V tp1328 a(g113 Vnull p1329 tp1330 a(g185 V tp1331 a(g123 Vrecord p1332 tp1333 a(g198 V; tp1334 a(g185 V\u000a tp1335 a(g185 V p1336 tp1337 a(g185 V\u000a tp1338 a(g185 V p1339 tp1340 a(g127 Vtype p1341 tp1342 a(g185 V tp1343 a(g135 VDiscriminated_Record p1344 tp1345 a(g185 V tp1346 a(g198 V( tp1347 a(g73 VSize p1348 tp1349 a(g185 V tp1350 a(g198 V: p1351 tp1352 a(g135 VNatural p1353 tp1354 a(g198 V) tp1355 a(g185 V tp1356 a(g123 Vis p1357 tp1358 a(g185 V tp1359 a(g185 V\u000a tp1360 a(g185 V p1361 tp1362 a(g123 Vrecord p1363 tp1364 a(g185 V\u000a tp1365 a(g185 V p1366 tp1367 a(g73 VA tp1368 a(g185 V tp1369 a(g198 V: p1370 tp1371 a(g135 VString p1372 tp1373 a(g185 V tp1374 a(g198 V( tp1375 a(g314 V1 tp1376 a(g185 V tp1377 a(g198 V. tp1378 a(g198 V. tp1379 a(g185 V tp1380 a(g18 VSize p1381 tp1382 a(g198 V) tp1383 a(g198 V; tp1384 a(g185 V\u000a tp1385 a(g185 V p1386 tp1387 a(g123 Vend p1388 tp1389 a(g185 V tp1390 a(g123 Vrecord p1391 tp1392 a(g198 V; tp1393 a(g185 V\u000a tp1394 a(g185 V p1395 tp1396 a(g185 V\u000a tp1397 a(g185 V p1398 tp1399 a(g123 Vpragma p1400 tp1401 a(g185 V tp1402 a(g350 VUnchecked_Union p1403 tp1404 a(g185 V tp1405 a(g198 V( tp1406 a(g18 VUnion p1407 tp1408 a(g198 V) tp1409 a(g198 V; tp1410 a(g185 V\u000a tp1411 a(g185 V p1412 tp1413 a(g123 Vpragma p1414 tp1415 a(g185 V tp1416 a(g350 VConvention p1417 tp1418 a(g185 V tp1419 a(g198 V( tp1420 a(g73 VC tp1421 a(g198 V, tp1422 a(g185 V tp1423 a(g18 VUnion p1424 tp1425 a(g198 V) tp1426 a(g198 V; tp1427 a(g185 V\u000a tp1428 a(g185 V p1429 tp1430 a(g185 V\u000a tp1431 a(g185 V p1432 tp1433 a(g127 Vtype p1434 tp1435 a(g185 V tp1436 a(g135 VPerson p1437 tp1438 a(g185 V tp1439 a(g123 Vis p1440 tp1441 a(g185 V tp1442 a(g123 Vtagged p1443 tp1444 a(g185 V tp1445 a(g185 V\u000a tp1446 a(g185 V p1447 tp1448 a(g123 Vrecord p1449 tp1450 a(g185 V\u000a tp1451 a(g185 V p1452 tp1453 a(g73 VName p1454 tp1455 a(g185 V p1456 tp1457 a(g198 V: p1458 tp1459 a(g135 VString p1460 tp1461 a(g185 V tp1462 a(g198 V( tp1463 a(g314 V1 tp1464 a(g185 V tp1465 a(g198 V. tp1466 a(g198 V. tp1467 a(g185 V tp1468 a(g314 V10 p1469 tp1470 a(g198 V) tp1471 a(g198 V; tp1472 a(g185 V\u000a tp1473 a(g185 V p1474 tp1475 a(g18 VGender p1476 tp1477 a(g185 V tp1478 a(g198 V: tp1479 a(g185 V tp1480 a(g18 VGender_Type p1481 tp1482 a(g198 V; tp1483 a(g185 V\u000a tp1484 a(g185 V p1485 tp1486 a(g123 Vend p1487 tp1488 a(g185 V tp1489 a(g123 Vrecord p1490 tp1491 a(g198 V; tp1492 a(g185 V\u000a tp1493 a(g185 V p1494 tp1495 a(g185 V\u000a tp1496 a(g185 V p1497 tp1498 a(g127 Vtype p1499 tp1500 a(g185 V tp1501 a(g135 VProgrammer p1502 tp1503 a(g185 V tp1504 a(g123 Vis p1505 tp1506 a(g185 V tp1507 a(g123 Vnew p1508 tp1509 a(g185 V tp1510 a(g18 VPerson p1511 tp1512 a(g185 V tp1513 a(g123 Vwith p1514 tp1515 a(g185 V\u000a tp1516 a(g185 V p1517 tp1518 a(g123 Vrecord p1519 tp1520 a(g185 V\u000a tp1521 a(g185 V p1522 tp1523 a(g73 VSkilled_In p1524 tp1525 a(g185 V tp1526 a(g198 V: p1527 tp1528 a(g18 VLanguage_List p1529 tp1530 a(g198 V; tp1531 a(g185 V\u000a tp1532 a(g185 V p1533 tp1534 a(g73 VFavorite_Langauge p1535 tp1536 a(g185 V tp1537 a(g198 V: p1538 tp1539 a(g18 VPython_Type p1540 tp1541 a(g198 V; tp1542 a(g185 V\u000a tp1543 a(g185 V p1544 tp1545 a(g123 Vend p1546 tp1547 a(g185 V tp1548 a(g123 Vrecord p1549 tp1550 a(g198 V; tp1551 a(g185 V\u000a tp1552 a(g185 V p1553 tp1554 a(g185 V\u000a tp1555 a(g185 V p1556 tp1557 a(g127 Vtype p1558 tp1559 a(g185 V tp1560 a(g135 VProgrammer p1561 tp1562 a(g185 V tp1563 a(g123 Vis p1564 tp1565 a(g185 V tp1566 a(g123 Vnew p1567 tp1568 a(g185 V tp1569 a(g18 VPerson p1570 tp1571 a(g185 V tp1572 a(g185 V\u000a tp1573 a(g185 V p1574 tp1575 a(g123 Vand p1576 tp1577 a(g185 V tp1578 a(g18 VPrintable p1579 tp1580 a(g185 V tp1581 a(g185 V\u000a tp1582 a(g185 V p1583 tp1584 a(g123 Vwith p1585 tp1586 a(g185 V tp1587 a(g185 V\u000a tp1588 a(g185 V p1589 tp1590 a(g123 Vrecord p1591 tp1592 a(g185 V\u000a tp1593 a(g185 V p1594 tp1595 a(g73 VSkilled_In p1596 tp1597 a(g185 V tp1598 a(g198 V: p1599 tp1600 a(g18 VLanguage_List p1601 tp1602 a(g198 V; tp1603 a(g185 V\u000a tp1604 a(g185 V p1605 tp1606 a(g73 VBlah p1607 tp1608 a(g185 V tp1609 a(g198 V: p1610 tp1611 a(g123 Valiased p1612 tp1613 a(g185 V tp1614 a(g135 VInteger p1615 tp1616 a(g198 V; tp1617 a(g185 V\u000a tp1618 a(g185 V p1619 tp1620 a(g123 Vend p1621 tp1622 a(g185 V tp1623 a(g123 Vrecord p1624 tp1625 a(g198 V; tp1626 a(g185 V\u000a tp1627 a(g185 V p1628 tp1629 a(g185 V\u000a tp1630 a(g185 V p1631 tp1632 a(g7 V---------------------\u000a p1633 tp1634 a(g185 V p1635 tp1636 a(g7 V-- Scan_Next_Token --\u000a p1637 tp1638 a(g185 V p1639 tp1640 a(g7 V---------------------\u000a p1641 tp1642 a(g185 V p1643 tp1644 a(g185 V\u000a tp1645 a(g185 V p1646 tp1647 a(g127 Vtask p1648 tp1649 a(g185 V tp1650 a(g18 VCyclic_Buffer_Task_Type p1651 tp1652 a(g185 V tp1653 a(g123 Vis p1654 tp1655 a(g185 V\u000a tp1656 a(g185 V p1657 tp1658 a(g127 Ventry p1659 tp1660 a(g185 V tp1661 a(g21 VInsert p1662 tp1663 a(g185 V tp1664 a(g198 V( tp1665 a(g73 VAn_Item p1666 tp1667 a(g185 V tp1668 a(g198 V: p1669 tp1670 a(g123 Vin p1671 tp1672 a(g185 V p1673 tp1674 a(g18 VItem p1675 tp1676 a(g198 V) tp1677 a(g198 V; tp1678 a(g185 V\u000a tp1679 a(g185 V p1680 tp1681 a(g127 Ventry p1682 tp1683 a(g185 V tp1684 a(g21 VRemove p1685 tp1686 a(g185 V tp1687 a(g198 V( tp1688 a(g73 VAn_Item p1689 tp1690 a(g185 V tp1691 a(g198 V: p1692 tp1693 a(g123 Vout p1694 tp1695 a(g185 V tp1696 a(g18 VItem p1697 tp1698 a(g198 V) tp1699 a(g198 V; tp1700 a(g185 V\u000a tp1701 a(g185 V p1702 tp1703 a(g123 Vend p1704 tp1705 a(g185 V tp1706 a(g21 VCyclic_Buffer_Task_Type p1707 tp1708 a(g198 V; tp1709 a(g185 V\u000a tp1710 a(g185 V p1711 tp1712 a(g185 V\u000a tp1713 a(g185 V p1714 tp1715 a(g127 Vtask p1716 tp1717 a(g185 V tp1718 a(g123 Vbody p1719 tp1720 a(g185 V tp1721 a(g18 VCyclic_Buffer_Task_Type p1722 tp1723 a(g185 V tp1724 a(g123 Vis p1725 tp1726 a(g185 V\u000a tp1727 a(g185 V p1728 tp1729 a(g73 VQ_Size p1730 tp1731 a(g185 V tp1732 a(g198 V: p1733 tp1734 a(g123 Vconstant p1735 tp1736 a(g185 V tp1737 a(g198 V:= p1738 tp1739 a(g185 V tp1740 a(g314 V100 p1741 tp1742 a(g198 V; tp1743 a(g185 V\u000a tp1744 a(g185 V p1745 tp1746 a(g127 Vsubtype p1747 tp1748 a(g185 V tp1749 a(g135 VQ_Range p1750 tp1751 a(g185 V tp1752 a(g123 Vis p1753 tp1754 a(g185 V tp1755 a(g135 VPositive p1756 tp1757 a(g185 V tp1758 a(g123 Vrange p1759 tp1760 a(g185 V tp1761 a(g314 V1 tp1762 a(g185 V tp1763 a(g198 V. tp1764 a(g198 V. tp1765 a(g185 V tp1766 a(g18 VQ_Size p1767 tp1768 a(g198 V; tp1769 a(g185 V\u000a tp1770 a(g185 V p1771 tp1772 a(g73 VLength p1773 tp1774 a(g185 V tp1775 a(g198 V: p1776 tp1777 a(g135 VNatural p1778 tp1779 a(g185 V tp1780 a(g123 Vrange p1781 tp1782 a(g185 V tp1783 a(g314 V0 tp1784 a(g185 V tp1785 a(g198 V. tp1786 a(g198 V. tp1787 a(g185 V tp1788 a(g18 VQ_Size p1789 tp1790 a(g185 V tp1791 a(g198 V:= p1792 tp1793 a(g185 V tp1794 a(g314 V0 tp1795 a(g198 V; tp1796 a(g185 V\u000a tp1797 a(g185 V p1798 tp1799 a(g73 VHead p1800 tp1801 a(g198 V, tp1802 a(g185 V tp1803 a(g73 VTail p1804 tp1805 a(g185 V tp1806 a(g198 V: p1807 tp1808 a(g18 VQ_Range p1809 tp1810 a(g185 V tp1811 a(g198 V:= p1812 tp1813 a(g185 V tp1814 a(g314 V1 tp1815 a(g198 V; tp1816 a(g185 V\u000a tp1817 a(g185 V p1818 tp1819 a(g73 VData p1820 tp1821 a(g185 V tp1822 a(g198 V: p1823 tp1824 a(g123 Varray p1825 tp1826 a(g185 V tp1827 a(g198 V( tp1828 a(g18 VQ_Range p1829 tp1830 a(g198 V) tp1831 a(g185 V tp1832 a(g123 Vof p1833 tp1834 a(g185 V tp1835 a(g18 VItem p1836 tp1837 a(g198 V; tp1838 a(g185 V\u000a tp1839 a(g185 V p1840 tp1841 a(g123 Vbegin p1842 tp1843 a(g185 V\u000a tp1844 a(g185 V p1845 tp1846 a(g123 Vloop p1847 tp1848 a(g185 V\u000a tp1849 a(g185 V p1850 tp1851 a(g123 Vselect p1852 tp1853 a(g185 V\u000a tp1854 a(g185 V p1855 tp1856 a(g123 Vwhen p1857 tp1858 a(g185 V tp1859 a(g18 VLength p1860 tp1861 a(g185 V tp1862 a(g339 V< tp1863 a(g185 V tp1864 a(g18 VQ_Size p1865 tp1866 a(g185 V tp1867 a(g198 V=> p1868 tp1869 a(g185 V\u000a tp1870 a(g185 V p1871 tp1872 a(g123 Vaccept p1873 tp1874 a(g185 V tp1875 a(g18 VInsert p1876 tp1877 a(g185 V tp1878 a(g198 V( tp1879 a(g73 VAn_Item p1880 tp1881 a(g185 V tp1882 a(g198 V: p1883 tp1884 a(g123 Vin p1885 tp1886 a(g185 V p1887 tp1888 a(g18 VItem p1889 tp1890 a(g198 V) tp1891 a(g185 V tp1892 a(g123 Vdo p1893 tp1894 a(g185 V\u000a tp1895 a(g185 V p1896 tp1897 a(g18 VData p1898 tp1899 a(g198 V( tp1900 a(g18 VTail p1901 tp1902 a(g198 V) tp1903 a(g185 V tp1904 a(g198 V:= p1905 tp1906 a(g185 V tp1907 a(g18 VAn_Item p1908 tp1909 a(g198 V; tp1910 a(g185 V\u000a tp1911 a(g185 V p1912 tp1913 a(g123 Vend p1914 tp1915 a(g185 V tp1916 a(g21 VInsert p1917 tp1918 a(g198 V; tp1919 a(g185 V\u000a tp1920 a(g185 V p1921 tp1922 a(g18 VTail p1923 tp1924 a(g185 V tp1925 a(g198 V:= p1926 tp1927 a(g185 V tp1928 a(g18 VTail p1929 tp1930 a(g185 V tp1931 a(g343 Vmod p1932 tp1933 a(g185 V tp1934 a(g18 VQ_Size p1935 tp1936 a(g185 V tp1937 a(g339 V+ tp1938 a(g185 V tp1939 a(g314 V1 tp1940 a(g198 V; tp1941 a(g185 V\u000a tp1942 a(g185 V p1943 tp1944 a(g18 VLength p1945 tp1946 a(g185 V tp1947 a(g198 V:= p1948 tp1949 a(g185 V tp1950 a(g18 VLength p1951 tp1952 a(g185 V tp1953 a(g339 V+ tp1954 a(g185 V tp1955 a(g314 V1 tp1956 a(g198 V; tp1957 a(g185 V\u000a tp1958 a(g185 V p1959 tp1960 a(g123 Vor p1961 tp1962 a(g185 V\u000a tp1963 a(g185 V p1964 tp1965 a(g123 Vwhen p1966 tp1967 a(g185 V tp1968 a(g18 VLength p1969 tp1970 a(g185 V tp1971 a(g339 V> tp1972 a(g185 V tp1973 a(g314 V0 tp1974 a(g185 V tp1975 a(g198 V=> p1976 tp1977 a(g185 V\u000a tp1978 a(g185 V p1979 tp1980 a(g123 Vaccept p1981 tp1982 a(g185 V tp1983 a(g18 VRemove p1984 tp1985 a(g185 V tp1986 a(g198 V( tp1987 a(g73 VAn_Item p1988 tp1989 a(g185 V tp1990 a(g198 V: p1991 tp1992 a(g123 Vout p1993 tp1994 a(g185 V tp1995 a(g18 VItem p1996 tp1997 a(g198 V) tp1998 a(g185 V tp1999 a(g123 Vdo p2000 tp2001 a(g185 V\u000a tp2002 a(g185 V p2003 tp2004 a(g18 VAn_Item p2005 tp2006 a(g185 V tp2007 a(g198 V:= p2008 tp2009 a(g185 V tp2010 a(g18 VData p2011 tp2012 a(g198 V( tp2013 a(g18 VHead p2014 tp2015 a(g198 V) tp2016 a(g198 V; tp2017 a(g185 V\u000a tp2018 a(g185 V p2019 tp2020 a(g123 Vend p2021 tp2022 a(g185 V tp2023 a(g21 VRemove p2024 tp2025 a(g198 V; tp2026 a(g185 V\u000a tp2027 a(g185 V p2028 tp2029 a(g18 VHead p2030 tp2031 a(g185 V tp2032 a(g198 V:= p2033 tp2034 a(g185 V tp2035 a(g18 VHead p2036 tp2037 a(g185 V tp2038 a(g343 Vmod p2039 tp2040 a(g185 V tp2041 a(g18 VQ_Size p2042 tp2043 a(g185 V tp2044 a(g339 V+ tp2045 a(g185 V tp2046 a(g314 V1 tp2047 a(g198 V; tp2048 a(g185 V\u000a tp2049 a(g185 V p2050 tp2051 a(g18 VLength p2052 tp2053 a(g185 V tp2054 a(g198 V:= p2055 tp2056 a(g185 V tp2057 a(g18 VLength p2058 tp2059 a(g185 V tp2060 a(g339 V- tp2061 a(g185 V tp2062 a(g314 V1 tp2063 a(g198 V; tp2064 a(g185 V\u000a tp2065 a(g185 V p2066 tp2067 a(g123 Vend p2068 tp2069 a(g185 V tp2070 a(g123 Vselect p2071 tp2072 a(g198 V; tp2073 a(g185 V\u000a tp2074 a(g185 V p2075 tp2076 a(g123 Vend p2077 tp2078 a(g185 V tp2079 a(g123 Vloop p2080 tp2081 a(g198 V; tp2082 a(g185 V\u000a tp2083 a(g185 V p2084 tp2085 a(g123 Vend p2086 tp2087 a(g185 V tp2088 a(g21 VCyclic_Buffer_Task_Type p2089 tp2090 a(g198 V; tp2091 a(g185 V\u000a tp2092 a(g185 V p2093 tp2094 a(g185 V\u000a tp2095 a(g185 V p2096 tp2097 a(g185 V\u000a tp2098 a(g185 V p2099 tp2100 a(g185 V\u000a tp2101 a(g185 V p2102 tp2103 a(g127 Vprocedure p2104 tp2105 a(g185 V tp2106 a(g21 VScan_Next_Token p2107 tp2108 a(g185 V\u000a tp2109 a(g185 V p2110 tp2111 a(g198 V( tp2112 a(g73 VS tp2113 a(g185 V p2114 tp2115 a(g198 V: p2116 tp2117 a(g123 Vin p2118 tp2119 a(g185 V p2120 tp2121 a(g135 VString p2122 tp2123 a(g198 V; tp2124 a(g185 V\u000a tp2125 a(g185 V p2126 tp2127 a(g73 VStart_Index p2128 tp2129 a(g185 V tp2130 a(g198 V: p2131 tp2132 a(g185 V p2133 tp2134 a(g123 Vout p2135 tp2136 a(g185 V tp2137 a(g135 VPositive p2138 tp2139 a(g198 V; tp2140 a(g185 V\u000a tp2141 a(g185 V p2142 tp2143 a(g73 VEnd_Index p2144 tp2145 a(g185 V p2146 tp2147 a(g198 V: p2148 tp2149 a(g123 Vin p2150 tp2151 a(g185 V tp2152 a(g123 Vout p2153 tp2154 a(g185 V tp2155 a(g135 VNatural p2156 tp2157 a(g198 V; tp2158 a(g185 V p2159 tp2160 a(g7 V-- Tricky comment\u000a p2161 tp2162 a(g185 V p2163 tp2164 a(g73 VLine_Number p2165 tp2166 a(g185 V tp2167 a(g198 V: p2168 tp2169 a(g123 Vin p2170 tp2171 a(g185 V tp2172 a(g123 Vout p2173 tp2174 a(g185 V tp2175 a(g135 VPositive p2176 tp2177 a(g198 V; tp2178 a(g185 V\u000a tp2179 a(g185 V p2180 tp2181 a(g73 VToken p2182 tp2183 a(g185 V p2184 tp2185 a(g198 V: p2186 tp2187 a(g185 V p2188 tp2189 a(g123 Vout p2190 tp2191 a(g185 V tp2192 a(g18 VToken_T p2193 tp2194 a(g198 V) tp2195 a(g198 V; tp2196 a(g185 V\u000a tp2197 a(g185 V p2198 tp2199 a(g185 V\u000a tp2200 a(g185 V p2201 tp2202 a(g127 Vprocedure p2203 tp2204 a(g185 V tp2205 a(g21 VScan_Next_Token p2206 tp2207 a(g185 V\u000a tp2208 a(g185 V p2209 tp2210 a(g198 V( tp2211 a(g73 VS tp2212 a(g185 V p2213 tp2214 a(g198 V: p2215 tp2216 a(g123 Vin p2217 tp2218 a(g185 V p2219 tp2220 a(g135 VString p2221 tp2222 a(g198 V; tp2223 a(g185 V\u000a tp2224 a(g185 V p2225 tp2226 a(g73 VStart_Index p2227 tp2228 a(g185 V tp2229 a(g198 V: p2230 tp2231 a(g185 V p2232 tp2233 a(g123 Vout p2234 tp2235 a(g185 V tp2236 a(g135 VPositive p2237 tp2238 a(g198 V; tp2239 a(g185 V\u000a tp2240 a(g185 V p2241 tp2242 a(g73 VEnd_Index p2243 tp2244 a(g185 V p2245 tp2246 a(g198 V: p2247 tp2248 a(g123 Vin p2249 tp2250 a(g185 V tp2251 a(g123 Vout p2252 tp2253 a(g185 V tp2254 a(g135 VNatural p2255 tp2256 a(g198 V; tp2257 a(g185 V p2258 tp2259 a(g7 V-- Another comment\u000a p2260 tp2261 a(g185 V p2262 tp2263 a(g73 VLine_Number p2264 tp2265 a(g185 V tp2266 a(g198 V: p2267 tp2268 a(g123 Vin p2269 tp2270 a(g185 V tp2271 a(g123 Vout p2272 tp2273 a(g185 V tp2274 a(g135 VPositive p2275 tp2276 a(g198 V; tp2277 a(g185 V\u000a tp2278 a(g185 V p2279 tp2280 a(g73 VToken p2281 tp2282 a(g185 V p2283 tp2284 a(g198 V: p2285 tp2286 a(g185 V p2287 tp2288 a(g123 Vout p2289 tp2290 a(g185 V tp2291 a(g18 VToken_T p2292 tp2293 a(g198 V) tp2294 a(g185 V\u000a tp2295 a(g185 V p2296 tp2297 a(g123 Vis p2298 tp2299 a(g185 V\u000a tp2300 a(g185 V p2301 tp2302 a(g123 Vbegin p2303 tp2304 a(g185 V\u000a tp2305 a(g185 V p2306 tp2307 a(g45 VScanner_Loop p2308 tp2309 a(g198 V: tp2310 a(g185 V\u000a p2311 tp2312 a(g123 Vloop p2313 tp2314 a(g185 V\u000a tp2315 a(g185 V p2316 tp2317 a(g123 Vif p2318 tp2319 a(g185 V tp2320 a(g18 VNew_State p2321 tp2322 a(g185 V tp2323 a(g339 V= tp2324 a(g185 V tp2325 a(g18 VEnd_Error p2326 tp2327 a(g185 V tp2328 a(g123 Vthen p2329 tp2330 a(g185 V\u000a tp2331 a(g185 V p2332 tp2333 a(g123 Vexit p2334 tp2335 a(g185 V tp2336 a(g18 VScanner_Loop p2337 tp2338 a(g198 V; tp2339 a(g185 V\u000a tp2340 a(g185 V p2341 tp2342 a(g123 Vend p2343 tp2344 a(g185 V tp2345 a(g123 Vif p2346 tp2347 a(g198 V; tp2348 a(g185 V\u000a\u000a p2349 tp2350 a(g185 V p2351 tp2352 a(g123 Vif p2353 tp2354 a(g185 V tp2355 a(g18 VState p2356 tp2357 a(g185 V tp2358 a(g339 V= tp2359 a(g185 V tp2360 a(g18 VStart p2361 tp2362 a(g185 V tp2363 a(g343 Vand p2364 tp2365 a(g185 V tp2366 a(g18 VNew_State p2367 tp2368 a(g185 V tp2369 a(g339 V/ tp2370 a(g339 V= tp2371 a(g185 V tp2372 a(g18 VStart p2373 tp2374 a(g185 V tp2375 a(g123 Vthen p2376 tp2377 a(g185 V\u000a tp2378 a(g185 V p2379 tp2380 a(g18 VStart_Index p2381 tp2382 a(g185 V tp2383 a(g198 V:= p2384 tp2385 a(g185 V tp2386 a(g18 VPeek_Index p2387 tp2388 a(g198 V; tp2389 a(g185 V\u000a tp2390 a(g185 V p2391 tp2392 a(g123 Vend p2393 tp2394 a(g185 V tp2395 a(g123 Vif p2396 tp2397 a(g198 V; tp2398 a(g185 V\u000a tp2399 a(g185 V p2400 tp2401 a(g123 Vend p2402 tp2403 a(g185 V tp2404 a(g123 Vloop p2405 tp2406 a(g185 V tp2407 a(g21 VScanner_Loop p2408 tp2409 a(g198 V; tp2410 a(g185 V\u000a tp2411 a(g185 V p2412 tp2413 a(g123 Vend p2414 tp2415 a(g185 V tp2416 a(g21 VScan_Next_Token p2417 tp2418 a(g198 V; tp2419 a(g185 V\u000a tp2420 a(g185 V p2421 tp2422 a(g185 V\u000a tp2423 a(g185 V p2424 tp2425 a(g127 Vprocedure p2426 tp2427 a(g185 V tp2428 a(g21 VAdvance p2429 tp2430 a(g185 V tp2431 a(g123 Vis p2432 tp2433 a(g185 V\u000a tp2434 a(g185 V p2435 tp2436 a(g123 Vbegin p2437 tp2438 a(g185 V\u000a tp2439 a(g185 V p2440 tp2441 a(g18 VPeek_Index p2442 tp2443 a(g185 V tp2444 a(g198 V:= p2445 tp2446 a(g185 V tp2447 a(g18 VPeek_Index p2448 tp2449 a(g185 V tp2450 a(g339 V+ tp2451 a(g185 V tp2452 a(g314 V1 tp2453 a(g198 V; tp2454 a(g185 V\u000a tp2455 a(g185 V p2456 tp2457 a(g123 Vend p2458 tp2459 a(g185 V tp2460 a(g21 VAdvance p2461 tp2462 a(g198 V; tp2463 a(g185 V\u000a tp2464 a(g185 V p2465 tp2466 a(g185 V\u000a\u000a p2467 tp2468 a(g185 V p2469 tp2470 a(g7 V-- Eliminate the leading space that Ada puts in front of positive\u000a p2471 tp2472 a(g185 V p2473 tp2474 a(g7 V-- integer images.\u000a p2475 tp2476 a(g185 V p2477 tp2478 a(g127 Vfunction p2479 tp2480 a(g185 V tp2481 a(g21 VImage p2482 tp2483 a(g198 V( tp2484 a(g73 VN tp2485 a(g185 V tp2486 a(g198 V: p2487 tp2488 a(g123 Vin p2489 tp2490 a(g185 V tp2491 a(g135 VInteger p2492 tp2493 a(g198 V) tp2494 a(g185 V tp2495 a(g123 Vreturn p2496 tp2497 a(g185 V tp2498 a(g135 VString p2499 tp2500 a(g185 V tp2501 a(g123 Vis p2502 tp2503 a(g185 V\u000a tp2504 a(g185 V p2505 tp2506 a(g18 VS tp2507 a(g185 V tp2508 a(g198 V: tp2509 a(g185 V tp2510 a(g135 VString p2511 tp2512 a(g185 V tp2513 a(g198 V:= p2514 tp2515 a(g185 V tp2516 a(g135 VInteger p2517 tp2518 a(g198 V' tp2519 a(g41 VImage p2520 tp2521 a(g198 V( tp2522 a(g18 VN tp2523 a(g198 V) tp2524 a(g198 V; tp2525 a(g185 V\u000a tp2526 a(g185 V p2527 tp2528 a(g123 Vbegin p2529 tp2530 a(g185 V\u000a tp2531 a(g185 V p2532 tp2533 a(g123 Vif p2534 tp2535 a(g185 V tp2536 a(g18 VS tp2537 a(g198 V( tp2538 a(g314 V1 tp2539 a(g198 V) tp2540 a(g185 V tp2541 a(g339 V= tp2542 a(g185 V tp2543 a(g252 V' ' p2544 tp2545 a(g185 V tp2546 a(g123 Vthen p2547 tp2548 a(g185 V\u000a tp2549 a(g185 V p2550 tp2551 a(g123 Vreturn p2552 tp2553 a(g185 V tp2554 a(g18 VS tp2555 a(g198 V( tp2556 a(g314 V2 tp2557 a(g185 V tp2558 a(g198 V. tp2559 a(g198 V. tp2560 a(g185 V tp2561 a(g18 VS tp2562 a(g198 V' tp2563 a(g41 VLast p2564 tp2565 a(g198 V) tp2566 a(g198 V; tp2567 a(g185 V\u000a tp2568 a(g185 V p2569 tp2570 a(g123 Vend p2571 tp2572 a(g185 V tp2573 a(g123 Vif p2574 tp2575 a(g198 V; tp2576 a(g185 V\u000a tp2577 a(g185 V p2578 tp2579 a(g123 Vreturn p2580 tp2581 a(g185 V tp2582 a(g18 VS tp2583 a(g198 V; tp2584 a(g185 V\u000a tp2585 a(g185 V p2586 tp2587 a(g123 Vend p2588 tp2589 a(g185 V tp2590 a(g21 VImage p2591 tp2592 a(g198 V; tp2593 a(g185 V\u000a\u000a p2594 tp2595 a(g123 Vend p2596 tp2597 a(g185 V tp2598 a(g21 VScanner p2599 tp2600 a(g198 V; tp2601 a(g185 V\u000a tp2602 a.

Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_573_1020.asm

ljhsiun2/medusa

9

84762

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r13 push %r9 push %rbp push %rbx push %rcx push %rdi push %rdx push %rsi lea addresses_normal_ht+0x1edb6, %rdx nop nop nop nop nop add $27210, %r13 movw $0x6162, (%rdx) nop cmp $53378, %rbx lea addresses_A_ht+0xa176, %rbp nop nop nop nop and $60089, %r10 mov $0x6162636465666768, %rdi movq %rdi, %xmm6 movups %xmm6, (%rbp) nop nop sub %r13, %r13 lea addresses_A_ht+0x95f6, %rbx nop nop and $2156, %rdx movb $0x61, (%rbx) nop nop nop nop xor %r13, %r13 lea addresses_A_ht+0xffa6, %r13 nop nop nop nop add %r10, %r10 mov (%r13), %rbp nop nop dec %rbp lea addresses_WC_ht+0x149f6, %r10 sub %rdi, %rdi movl $0x61626364, (%r10) nop nop nop nop xor $17575, %rbx lea addresses_UC_ht+0x14c76, %r13 nop nop nop and %r9, %r9 movw $0x6162, (%r13) nop nop nop nop sub $43629, %rbx lea addresses_UC_ht+0x1e8f6, %rdx nop cmp %rdi, %rdi mov $0x6162636465666768, %r9 movq %r9, (%rdx) add %rdx, %rdx lea addresses_A_ht+0x19c75, %r10 nop nop nop and %r13, %r13 movups (%r10), %xmm5 vpextrq $1, %xmm5, %rdi nop nop dec %r13 lea addresses_UC_ht+0xd616, %rdx nop nop nop xor %r13, %r13 movw $0x6162, (%rdx) nop nop nop add $61288, %rbp lea addresses_A_ht+0x1a8b6, %rdx nop add %rbx, %rbx movb $0x61, (%rdx) nop nop nop nop nop inc %rbx lea addresses_normal_ht+0x181f6, %r13 nop cmp $27527, %rbp movups (%r13), %xmm1 vpextrq $0, %xmm1, %r10 nop nop nop nop nop xor $11850, %rbp lea addresses_WC_ht+0x1129a, %rsi lea addresses_A_ht+0x16596, %rdi sub %r9, %r9 mov $57, %rcx rep movsb nop nop xor $62920, %rdi pop %rsi pop %rdx pop %rdi pop %rcx pop %rbx pop %rbp pop %r9 pop %r13 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r8 push %r9 push %rax push %rbx push %rcx push %rsi // Store lea addresses_PSE+0x123c6, %rcx nop xor $28166, %r8 mov $0x5152535455565758, %rsi movq %rsi, (%rcx) nop nop nop nop add %r11, %r11 // Faulty Load lea addresses_D+0xb1f6, %rcx nop nop inc %rax vmovups (%rcx), %ymm2 vextracti128 $1, %ymm2, %xmm2 vpextrq $1, %xmm2, %rsi lea oracles, %r9 and $0xff, %rsi shlq $12, %rsi mov (%r9,%rsi,1), %rsi pop %rsi pop %rcx pop %rbx pop %rax pop %r9 pop %r8 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_D', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 2, 'AVXalign': False, 'NT': True, 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 6, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 8, 'AVXalign': True, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 6, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'size': 2, 'AVXalign': False, 'NT': True, 'congruent': 5, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WC_ht', 'congruent': 2, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 5, 'same': True}} {'36': 573} 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 */

src/FormulaCS.Parser/Formula.g4

floradu88/FormulaCS

0

1471

grammar Formula; /* Parser rules */ main : '=' expr EOF; expr : expr ':' expr #Range | sign=('+'|'-') expr #Unary | expr '%' #Percentage | expr '^' expr #Pow | expr op=('*'|'/') expr #MulDiv | expr op=('+'|'-') expr #AddSub | expr '&' expr #Concatenate | expr op=('='|'<>') expr #Equality | expr op=('<'|'>'|'<='|'>=') expr #Relational | '(' expr ')' #Parenthesis | name=NAME '(' (expr (',' expr)*)? ')' #Function | STRING #String | CELLREF #CellRef | BOOLEAN #Boolean | NUMBER #Number | NAME #Name | ERROR #Error ; /* Lexer rules */ STRING : '"' ~["]* '"' ; CELLREF : SHEET? '$'? COL '$'? DIGIT+ ; BOOLEAN : TRUE|FALSE ; NUMBER : FLOAT|DIGIT+ ; NAME : [a-zA-Z_\\] ([0-9a-zA-Z_.\\])* ; ERROR : '#NULL!' | '#DIV/0!' | '#VALUE!' | '#NAME?' | '#NUM!' | '#N/A' | '#REF!' ; S : (' '|'\t'|'\r'|'\n'|'\u000C') -> skip ; INVALID : . ; /* Lexer fragments */ fragment COL : [a-zA-Z]? [a-zA-Z]? [a-zA-Z] ; // Max col is XFD fragment DIGIT : [0-9] ; fragment TRUE : [Tt][Rr][Uu][Ee] ; fragment FALSE : [Ff][Aa][Ll][Ss][Ee] ; fragment FLOAT : DIGIT+ '.' DIGIT+ E? | DIGIT+ E ; fragment E : [Ee] ('+'?|'-') DIGIT+ ; fragment SHEET : FILE? SHEET_C+ '!' | FILE? SHEET_C+ ':' + SHEET_C+ '!' | '\'' WIN_PATH? FILE? Q_SHEET_C+ '\'!' | '\'' WIN_PATH? FILE? Q_SHEET_C+ ':' Q_SHEET_C+ '\'!' ; fragment FILE : '[' DIGIT+ ']' | '[' FILENAME_C+ ']' ; fragment WIN_PATH : [A-Z] ':\\' (FILENAME_C+ '\\')* ; fragment FILENAME_C : ~["*[\]\\:/?<>|] ; fragment SHEET_C : ~['*[\]\\:/?<>();{}#"=&+^%,!\u2229\u222A \-] ; fragment Q_SHEET_C : ~['*[\]\\:/?] ;

programs/oeis/187/A187468.asm

karttu/loda

1

19505

<filename>programs/oeis/187/A187468.asm ; A187468: Sum of the squares modulo 2^n of the odd numbers less than 2^n. ; 1,2,4,40,208,928,3904,16000,64768,260608,1045504,4188160,16764928,67084288,268386304,1073643520,4294770688,17179475968,68718690304,274876334080,1099508482048,4398040219648,17592173461504,70368719011840,281474926379008 mov $1,2 pow $1,$0 sub $1,1 mov $2,1 add $2,$1 trn $1,3 add $1,1 mul $1,$2

host/stm32gd-gpio-irq.adb

ekoeppen/STM32_Generic_Ada_Drivers

1

18834

<filename>host/stm32gd-gpio-irq.adb with STM32_SVD.GPIO; use STM32_SVD.GPIO; with STM32_SVD.SYSCFG; use STM32_SVD.SYSCFG; with STM32GD.GPIO.Port; package body STM32GD.GPIO.IRQ is Index : constant Natural := GPIO_Pin'Pos (Pin.Pin); Pin_Mask : constant UInt16 := GPIO_Pin'Enum_Rep (Pin.Pin); procedure Connect_External_Interrupt is Port_Id : constant UInt4 := STM32GD.GPIO.Port.GPIO_Port_Representation (Pin.Port); begin case Index is when 0 .. 3 => SYSCFG_Periph.EXTICR1.EXTI.Arr (Index) := Port_Id; when 4 .. 7 => SYSCFG_Periph.EXTICR2.EXTI.Arr (Index) := Port_Id; when 8 .. 11 => SYSCFG_Periph.EXTICR3.EXTI.Arr (Index) := Port_Id; when 12 .. 15 => SYSCFG_Periph.EXTICR4.EXTI.Arr (Index) := Port_Id; when others => raise Program_Error; end case; end Connect_External_Interrupt; function Interrupt_Line_Number return STM32GD.EXTI.External_Line_Number is begin return STM32GD.EXTI.External_Line_Number'Val (Index); end Interrupt_Line_Number; procedure Wait_For_Trigger is begin STM32GD.EXTI.IRQ_Handler.Wait; end Wait_For_Trigger; procedure Clear_Trigger is begin STM32GD.EXTI.IRQ_Handler.Reset_Status (Interrupt_Line_Number); end Clear_Trigger; function Triggered return Boolean is begin return STM32GD.EXTI.IRQ_Handler.Status (Interrupt_Line_Number); end Triggered; procedure Cancel_Wait is begin STM32GD.EXTI.IRQ_Handler.Cancel; end Cancel_Wait; procedure Configure_Trigger (Trigger : EXTI.External_Triggers) is use STM32GD.EXTI; Line : constant External_Line_Number := External_Line_Number'Val (Index); begin Connect_External_Interrupt; if Trigger in Interrupt_Triggers then Enable_External_Interrupt (Line, Trigger); else Enable_External_Event (Line, Trigger); end if; end Configure_Trigger; end STM32GD.GPIO.IRQ;

antlr/arms--newline.g4

ARMS/arms.github.io

1

3336

<reponame>ARMS/arms.github.io grammar arms; // templates first? program : modelBlock NEWLINE (declaration NEWLINE)+; modelBlock : NAME '=' 'Model' '{' 'units' '=' UNITS NEWLINE '}'; declaration : block | assignment | template; block : '{' declaration NEWLINE '}'; assignment : NAME '=' expression; expression : math | primitive | templateCall; math: NUMBER # Number | NAME # Name | '(' inner = expression ')' # Parentheses | left = math operator = '^' right = math # Power | left = math operator = '*' right = math # Multiplication | left = math operator = '/' right = math # Division | left = math operator = '+' right = math # Addition | left = math operator = '-' right = math # Subtraction; primitive : cuboid | ellipsoid | cylinder | mesh; cuboid: 'Cuboid' '{' 'size' '=' vec3 NEWLINE commonAttributes NEWLINE '}'; ellipsoid: 'Ellipsoid' '{' 'radii' '=' vec3 NEWLINE commonAttributes NEWLINE '}'; cylinder: 'Cylinder' '{' 'radius1' '=' NUMBER NEWLINE 'radius2' '=' NUMBER NEWLINE 'height' '=' NUMBER 'axis' '=' ('x' | 'y') commonAttributes NEWLINE '}'; mesh: 'Mesh' '{' 'uri' '=' STRING NEWLINE commonAttributes NEWLINE '}'; commonAttributes: 'position' '=' vec3 NEWLINE 'quaternion' '=' vec4 NEWLINE 'color' '=' COLOR NEWLINE 'parent' '=' NAME NEWLINE 'positioning' '=' ('relative' | 'absolute') NEWLINE; template : 'Template' NAME '(' parameters ')' block; templateCall : NAME '(' arguments ')' updates; parameters : (NAME (',' NAME)*)?; arguments : (arg (',' arg))?; updates : ('&' NAME '=' arg)*; arg : math | STRING | vec3 | vec4; vec4 : NUMBER NUMBER NUMBER NUMBER; vec3 : NUMBER NUMBER NUMBER; UNITS : 'mm' | 'cm' | 'm' | 'in' | 'ft'; NAME : [a-zA-Z_]+ [a-zA-Z0-9_]*; QNAME : '"' NAME '"'; STRING : '"' (~'"' | '\\"')* '"'; NUMBER : '-'? DIGITS ('.' ZERO* DIGITS EXP? | EXP); fragment EXP : [Ee] [+\-]? DIGITS; fragment DIGITS : ZERO | [1-9] [0-9]*; fragment ZERO : '0'; BLOCK_COMMENT : '[-' .*? '-]' -> skip; LINE_COMMENT : '--' ~[\r\n]* -> skip; NEWLINE : [\r\n]+; WHITESPACE : [ \t]+ -> skip;

examples/getopt.adb

ytomino/drake

33

22787

-- Demonstration of the extended units: Ada.Command_Line.Generic_Parsing -- Use Ada.Command_Line.Parsing for actual command line. with Ada.Command_Line.Generic_Parsing; with Ada.Containers.Indefinite_Doubly_Linked_Lists; with Ada.Strings.Unbounded; procedure getopt is use type Ada.Containers.Count_Type; use type Ada.Strings.Unbounded.Unbounded_String; package Lists is new Ada.Containers.Indefinite_Doubly_Linked_Lists (String); type Option_Type is record a, b : Natural := 0; o : Ada.Strings.Unbounded.Unbounded_String := Ada.Strings.Unbounded.Null_Unbounded_String; long : Natural := 0; prefix : Ada.Strings.Unbounded.Unbounded_String := Ada.Strings.Unbounded.Null_Unbounded_String; to : Ada.Strings.Unbounded.Unbounded_String := Ada.Strings.Unbounded.Null_Unbounded_String; verbose : Natural := 0; Unknown : Lists.List := Lists.Empty_List; Arguments : Lists.List := Lists.Empty_List; end record; -- parse arguments procedure Test_Parsing (Arguments : aliased Lists.List; Option : out Option_Type) is package Parsing is new Ada.Command_Line.Generic_Parsing ( Input_Cursor => Lists.Cursor, Has_Element => Lists.Has_Element, Input_Iterator_Interfaces => Lists.List_Iterator_Interfaces, Input_Iterator => Lists.Iterate (Arguments), Argument => Lists.Element); begin for I in Parsing.Iterate loop if Parsing.Is_Option (I, 'a') then pragma Assert (Parsing.Name (I) = "-a"); pragma Assert (Parsing.Short_Name (I) = 'a'); pragma Assert (Parsing.Value (I) = ""); Option.a := Option.a + 1; elsif Parsing.Is_Option (I, 'b') then pragma Assert (Parsing.Name (I) = "-b"); pragma Assert (Parsing.Short_Name (I) = 'b'); pragma Assert (Parsing.Value (I) = ""); Option.b := Option.b + 1; elsif Parsing.Is_Option (I, 'o', ':') then pragma Assert (Parsing.Name (I) = "-o"); pragma Assert (Parsing.Short_Name (I) = 'o'); Option.o := +Parsing.Value (I); elsif Parsing.Is_Option (I, "long") then pragma Assert (Parsing.Name (I) = "--long"); pragma Assert (Parsing.Long_Name (I) = "long"); pragma Assert (Parsing.Value (I) = ""); Option.long := Option.long + 1; elsif Parsing.Is_Option (I, "prefix", '?') then pragma Assert (Parsing.Name (I) = "--prefix"); Option.prefix := +Parsing.Value (I); elsif Parsing.Is_Option (I, "to", ':') then pragma Assert (Parsing.Name (I) = "--to"); Option.to := +Parsing.Value (I); elsif Parsing.Is_Option (I, 'v', "verbose") then pragma Assert (Parsing.Name (I) = "-v" or else Parsing.Name (I) = "--verbose"); pragma Assert (Parsing.Short_Name (I) = 'v' or else Parsing.Long_Name (I) = "verbose"); pragma Assert (Parsing.Value (I) = ""); Option.verbose := Option.verbose + 1; elsif Parsing.Is_Unknown_Option (I) then pragma Assert (Parsing.Long_Name (I) /= "long" or else Parsing.Value (I) = "value"); -- *A* Lists.Append (Option.Unknown, Parsing.Name (I)); else Lists.Append (Option.Arguments, Parsing.Argument (I)); end if; end loop; end Test_Parsing; begin -- empty declare Arguments : aliased Lists.List := Lists.Empty_List; begin declare Option : Option_Type; begin Test_Parsing (Arguments, Option); end; end; -- arguments declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "a.txt"); Lists.Append (Arguments, "b.txt"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.Arguments.Length = 2); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "a.txt"); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.Last) = "b.txt"); end; end; -- double hyphen at first declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "--"); Lists.Append (Arguments, "-a.txt"); Lists.Append (Arguments, "--b.txt"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.Arguments.Length = 2); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "-a.txt"); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.Last) = "--b.txt"); end; end; -- parameterless options declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-ab"); Lists.Append (Arguments, "--long"); Lists.Append (Arguments, "-v"); Lists.Append (Arguments, "--verbose"); Lists.Append (Arguments, "a.txt"); Lists.Append (Arguments, "--"); Lists.Append (Arguments, "-b.txt"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.a = 1); pragma Assert (Option.b = 1); pragma Assert (Option.long = 1); pragma Assert (Option.verbose = 2); pragma Assert (Option.Arguments.Length = 2); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "a.txt"); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.Last) = "-b.txt"); end; end; -- values without space declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-oa.out"); Lists.Append (Arguments, "--prefix=/usr/local"); Lists.Append (Arguments, "--to=utf-8"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.o = "a.out"); pragma Assert (Option.prefix = "/usr/local"); pragma Assert (Option.to = "utf-8"); pragma Assert (Option.Arguments.Length = 0); end; end; -- values with space declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-o"); Lists.Append (Arguments, "a.out"); Lists.Append (Arguments, "--prefix"); Lists.Append (Arguments, "/usr/local"); Lists.Append (Arguments, "--to"); Lists.Append (Arguments, "utf-8"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.o = "a.out"); pragma Assert (Option.to = "utf-8"); pragma Assert (Option.prefix = ""); pragma Assert (Option.Arguments.Length = 1); pragma Assert (Option.Arguments.Constant_Reference (Option.Arguments.First) = "/usr/local"); end; end; -- missing values by end-of-arguments (short) declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-t"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.to = ""); pragma Assert (Option.Arguments.Length = 0); end; end; -- missing values by end-of-arguments (long) declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "--to"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.to = ""); pragma Assert (Option.Arguments.Length = 0); end; end; -- unknown options declare Arguments : aliased Lists.List := Lists.Empty_List; begin Lists.Append (Arguments, "-u"); Lists.Append (Arguments, "--long=value"); -- *A* Lists.Append (Arguments, "--unknown"); Lists.Append (Arguments, "--unknown=xyz"); declare Option : Option_Type; begin Test_Parsing (Arguments, Option); pragma Assert (Option.to = ""); pragma Assert (Option.Unknown.Length = 4); pragma Assert (Option.Unknown.Constant_Reference (Option.Unknown.First) = "-u"); pragma Assert (Option.Unknown.Constant_Reference (Lists.Next (Option.Unknown.First)) = "--long"); pragma Assert (Option.Unknown.Constant_Reference (Lists.Next (Lists.Next (Option.Unknown.First))) = "--unknown"); pragma Assert (Option.Unknown.Constant_Reference (Option.Unknown.Last) = "--unknown"); pragma Assert (Option.Arguments.Length = 0); end; end; pragma Debug (Ada.Debug.Put ("OK")); end getopt;

src/002/my_pack.ads

xeenta/learning-ada

0

23620

<filename>src/002/my_pack.ads package My_Pack is function Get return Integer; function Get_Count return Integer; procedure Set (V : in Integer); end My_Pack;

source/asis/asis-compilation_units.adb

faelys/gela-asis

4

24620

------------------------------------------------------------------------------ -- <NAME> A A S I S -- -- ASIS implementation for Gela project, a portable Ada compiler -- -- http://gela.ada-ru.org -- -- - - - - - - - - - - - - - - - -- -- Read copyright and license at the end of this file -- ------------------------------------------------------------------------------ -- $Revision: 209 $ $Date: 2013-11-30 21:03:24 +0200 (Сб., 30 нояб. 2013) $ -- Purpose: -- Procedural wrapper over Object-Oriented ASIS implementation package body Asis.Compilation_Units is ------------------------------- -- Attribute_Value_Delimiter -- ------------------------------- function Attribute_Value_Delimiter return Wide_String is begin return ","; end Attribute_Value_Delimiter; ---------------------- -- Attribute_Values -- ---------------------- function Attribute_Values (Compilation_Unit : in Asis.Compilation_Unit; Attribute : in Wide_String) return Wide_String is begin if Assigned (Compilation_Unit) then return ""; -- return Attribute_Values (Compilation_Unit.all, Attribute); else return ""; end if; end Attribute_Values; ------------------------- -- Can_Be_Main_Program -- ------------------------- function Can_Be_Main_Program (Compilation_Unit : in Asis.Compilation_Unit) return Boolean is begin if Assigned (Compilation_Unit) then return Can_Be_Main_Program (Compilation_Unit.all); else return False; end if; end Can_Be_Main_Program; -------------------------------------- -- Compilation_Command_Line_Options -- -------------------------------------- function Compilation_Command_Line_Options (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Compilation_Command_Line_Options (Compilation_Unit.all); else return ""; end if; end Compilation_Command_Line_Options; ----------------------------- -- Compilation_Unit_Bodies -- ----------------------------- function Compilation_Unit_Bodies (The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Compilation_Unit_Bodies (The_Context.all); else return Nil_Compilation_Unit_List; end if; end Compilation_Unit_Bodies; --------------------------- -- Compilation_Unit_Body -- --------------------------- function Compilation_Unit_Body (Name : in Wide_String; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Compilation_Unit_Body (Name, The_Context.all); else return Nil_Compilation_Unit; end if; end Compilation_Unit_Body; ----------------------- -- Compilation_Units -- ----------------------- function Compilation_Units (The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Context_Compilation_Units (The_Context.all); else return Nil_Compilation_Unit_List; end if; end Compilation_Units; ------------------------ -- Corresponding_Body -- ------------------------ function Corresponding_Body (Library_Item : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Library_Item, "Corresponding_Body"); return Corresponding_Body (Library_Item.all); end Corresponding_Body; ------------------------ -- Corresponding_Body -- ------------------------ function Corresponding_Body (Library_Item : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Body (Library_Item, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Body; ---------------------------- -- Corresponding_Children -- ---------------------------- function Corresponding_Children (Library_Unit : in Asis.Compilation_Unit) return Asis.Compilation_Unit_List is begin Check_Nil_Unit (Library_Unit, "Corresponding_Children"); return Corresponding_Children (Library_Unit.all); end Corresponding_Children; ---------------------------- -- Corresponding_Children -- ---------------------------- function Corresponding_Children (Library_Unit : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Corresponding_Children (Library_Unit, The_Context.all); else return Nil_Compilation_Unit_List; end if; end Corresponding_Children; ------------------------------- -- Corresponding_Declaration -- ------------------------------- function Corresponding_Declaration (Library_Item : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Library_Item, "Corresponding_Declaration"); return Corresponding_Declaration (Library_Item.all); end Corresponding_Declaration; ------------------------------- -- Corresponding_Declaration -- ------------------------------- function Corresponding_Declaration (Library_Item : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Declaration (Library_Item, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Declaration; -------------------------------------- -- Corresponding_Parent_Declaration -- -------------------------------------- function Corresponding_Parent_Declaration (Library_Unit : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Library_Unit, "Corresponding_Parent_Declaration"); return Corresponding_Parent_Declaration (Library_Unit.all); end Corresponding_Parent_Declaration; -------------------------------------- -- Corresponding_Parent_Declaration -- -------------------------------------- function Corresponding_Parent_Declaration (Library_Unit : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Parent_Declaration (Library_Unit, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Parent_Declaration; --------------------------------------- -- Corresponding_Subunit_Parent_Body -- --------------------------------------- function Corresponding_Subunit_Parent_Body (Subunit : in Asis.Compilation_Unit) return Asis.Compilation_Unit is begin Check_Nil_Unit (Subunit, "Corresponding_Subunit_Parent_Body"); return Corresponding_Subunit_Parent_Body (Subunit.all); end Corresponding_Subunit_Parent_Body; --------------------------------------- -- Corresponding_Subunit_Parent_Body -- --------------------------------------- function Corresponding_Subunit_Parent_Body (Subunit : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Corresponding_Subunit_Parent_Body (Subunit, The_Context.all); else return Nil_Compilation_Unit; end if; end Corresponding_Subunit_Parent_Body; ----------------- -- Debug_Image -- ----------------- function Debug_Image (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return "Debug_Image"; else return "[null]"; end if; end Debug_Image; ------------------------- -- Enclosing_Container -- ------------------------- function Enclosing_Container (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Ada_Environments.Containers.Container is use Asis.Ada_Environments.Containers; List : constant Container_List := Defining_Containers (Enclosing_Context (Compilation_Unit)); begin return List (List'First); end Enclosing_Container; ----------------------- -- Enclosing_Context -- ----------------------- function Enclosing_Context (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Context is begin Check_Nil_Unit (Compilation_Unit, "Enclosing_Context"); return Enclosing_Context (Compilation_Unit.all); end Enclosing_Context; ------------ -- Exists -- ------------ function Exists (Compilation_Unit : in Asis.Compilation_Unit) return Boolean is Kind : constant Asis.Unit_Kinds := Unit_Kind (Compilation_Unit); begin if Kind = Not_A_Unit or Kind = A_Nonexistent_Declaration or Kind = A_Nonexistent_Body then return False; else return True; end if; end Exists; ------------------- -- Has_Attribute -- ------------------- function Has_Attribute (Compilation_Unit : in Asis.Compilation_Unit; Attribute : in Wide_String) return Boolean is begin if Assigned (Compilation_Unit) then return False; -- return Has_Attribute (Compilation_Unit.all, Attribute); else return False; end if; end Has_Attribute; ---------------------- -- Is_Body_Required -- ---------------------- function Is_Body_Required (Compilation_Unit : in Asis.Compilation_Unit) return Boolean is begin if Assigned (Compilation_Unit) then return Is_Body_Required (Compilation_Unit.all); else return False; end if; end Is_Body_Required; -------------- -- Is_Equal -- -------------- function Is_Equal (Left : in Asis.Compilation_Unit; Right : in Asis.Compilation_Unit) return Boolean is begin return Unique_Name (Left) = Unique_Name (Right); end Is_Equal; ------------------ -- Is_Identical -- ------------------ function Is_Identical (Left : in Asis.Compilation_Unit; Right : in Asis.Compilation_Unit) return Boolean is type Comp_Unit_Node_Ptr is access all Compilation_Unit_Node'Class; begin return Comp_Unit_Node_Ptr (Left) = Comp_Unit_Node_Ptr (Right); end Is_Identical; ------------ -- Is_Nil -- ------------ function Is_Nil (Right : in Asis.Compilation_Unit) return Boolean is begin return not Assigned (Right); end Is_Nil; ------------ -- Is_Nil -- ------------ function Is_Nil (Right : in Asis.Compilation_Unit_List) return Boolean is begin return Right'Length = 0; end Is_Nil; ------------------------------ -- Library_Unit_Declaration -- ------------------------------ function Library_Unit_Declaration (Name : in Wide_String; The_Context : in Asis.Context) return Asis.Compilation_Unit is begin if Assigned (The_Context) then return Library_Unit_Declaration (Name, The_Context.all); else return Nil_Compilation_Unit; end if; end Library_Unit_Declaration; ------------------------------- -- Library_Unit_Declarations -- ------------------------------- function Library_Unit_Declarations (The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Library_Unit_Declarations (The_Context.all); else return Nil_Compilation_Unit_List; end if; end Library_Unit_Declarations; ----------------- -- Object_Form -- ----------------- function Object_Form (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Object_Form (Compilation_Unit.all); else return ""; end if; end Object_Form; ----------------- -- Object_Name -- ----------------- function Object_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Object_Name (Compilation_Unit.all); else return ""; end if; end Object_Name; -------------- -- Subunits -- -------------- function Subunits (Parent_Body : in Asis.Compilation_Unit) return Asis.Compilation_Unit_List is begin Check_Nil_Unit (Parent_Body, "Subunits"); return Subunits (Parent_Body.all); end Subunits; -------------- -- Subunits -- -------------- function Subunits (Parent_Body : in Asis.Compilation_Unit; The_Context : in Asis.Context) return Asis.Compilation_Unit_List is begin if Assigned (The_Context) then return Subunits (Parent_Body, The_Context.all); else return Nil_Compilation_Unit_List; end if; end Subunits; --------------- -- Text_Form -- --------------- function Text_Form (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Text_Form (Compilation_Unit.all); else return ""; end if; end Text_Form; --------------- -- Text_Name -- --------------- function Text_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Text_Name (Compilation_Unit.all); else return ""; end if; end Text_Name; ----------------- -- Unique_Name -- ----------------- function Unique_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Unique_Name (Compilation_Unit.all); else return ""; end if; end Unique_Name; ---------------- -- Unit_Class -- ---------------- function Unit_Class (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Unit_Classes is begin if Assigned (Compilation_Unit) then return Unit_Class (Compilation_Unit.all); else return Not_A_Class; end if; end Unit_Class; -------------------- -- Unit_Full_Name -- -------------------- function Unit_Full_Name (Compilation_Unit : in Asis.Compilation_Unit) return Wide_String is begin if Assigned (Compilation_Unit) then return Unit_Full_Name (Compilation_Unit.all); else return ""; end if; end Unit_Full_Name; --------------- -- Unit_Kind -- --------------- function Unit_Kind (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Unit_Kinds is begin if Assigned (Compilation_Unit) then return Unit_Kind (Compilation_Unit.all); else return Not_A_Unit; end if; end Unit_Kind; ----------------- -- Unit_Origin -- ----------------- function Unit_Origin (Compilation_Unit : in Asis.Compilation_Unit) return Asis.Unit_Origins is begin if Assigned (Compilation_Unit) then return Unit_Origin (Compilation_Unit.all); else return Not_An_Origin; end if; end Unit_Origin; end Asis.Compilation_Units; ------------------------------------------------------------------------------ -- Copyright (c) 2006-2013, <NAME> -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions are met: -- -- * Redistributions of source code must retain the above copyright notice, -- this list of conditions and the following disclaimer. -- * Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- * Neither the name of the <NAME>, IE nor the names of its -- contributors may be used to endorse or promote products derived from -- this software without specific prior written permission. -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" -- AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE -- IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE -- ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE -- LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR -- CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF -- SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS -- INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN -- CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. ------------------------------------------------------------------------------

ga_ref_impl/test_left_contraction/src/lc_test.adb

rogermc2/GA_Ada

3

22841

<gh_stars>1-10 with Ada.Strings.Unbounded; with Ada.Text_IO; use Ada.Text_IO; with Blade; with Blade_Types; with GA_Maths; with GA_Utilities; with Metric; use Metric; with Multivectors; use Multivectors; with Multivector_Type; procedure LC_Test is use Blade_Types; BV_Names : Basis_Vector_Names; no_bv : Multivector := Basis_Vector (Blade_Types.C3_no); e1_bv : Multivector := Basis_Vector (Blade_Types.C3_e1); e2_bv : Multivector := Basis_Vector (Blade_Types.C3_e2); e3_bv : Multivector := Basis_Vector (Blade_Types.C3_e3); ni_bv : Multivector := Basis_Vector (Blade_Types.C3_ni); Met : Metric_Record := C3_Metric; MV_A1 : Multivector; MV_A2 : Multivector; MV_A : Multivector; MV_A_Inv : Multivector; NP_1 : constant Normalized_Point := New_Normalized_Point (1.0, 0.0, 0.0); NP_2 : constant Normalized_Point := New_Normalized_Point (0.0, 1.0, 0.0); NP_123 : constant Normalized_Point := New_Normalized_Point (-1.0, 2.0, -2.0); C1 : constant Normalized_Point := New_Normalized_Point (0.707, 0.707, 0.0); C2 : constant Normalized_Point := New_Normalized_Point (0.0, 1.0, 0.0); C3 : constant Normalized_Point := New_Normalized_Point (-0.356756, -0.881980, 0.0); Circle : constant Multivector := Outer_Product (C1, Outer_Product (C2, C3)); NP_1_OP : Multivector; NP_1_IP : Multivector; NP_1_LC : Multivector; NP_1_GP_Met : Multivector; NP_1_IP_Met : Multivector; NP_1_Inv : Multivector; NP_1_GP : Multivector; begin Multivectors.Set_Geometry (C3_Geometry); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("no")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("e1")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("e2")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("e3")); BV_Names.Append (Ada.Strings.Unbounded.To_Unbounded_String ("ni")); MV_A1 := Left_Contraction (e2_bv, e3_bv, Met); MV_A2 := Left_Contraction (e2_bv, ni_bv, Met); -- MV_A := e1_bv + Outer_Product (Outer_Product (e2_bv, e3_bv), e1_bv); GA_Utilities.Print_Multivector_String ("LC_Test LC (e2, e3)", MV_A1, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("LC_Test LC (e2, ni)", MV_A2, Basis_Names_C3GA); -- GA_Utilities.Print_Multivector_String ("LC_Test MV_A", MV_A, Basis_Names_C3GA); MV_A1 := Left_Contraction (e3_bv, e2_bv, Met); GA_Utilities.Print_Multivector_String ("LC_Test LC (e3, e2)", MV_A1, Basis_Names_C3GA); New_Line; MV_A2 := Left_Contraction (ni_bv, e2_bv, Met); GA_Utilities.Print_Multivector_String ("LC_Test LC (ni, e2)", MV_A2, Basis_Names_C3GA); MV_A1 := Left_Contraction (e3_bv, Geometric_Product (e2_bv, e3_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test LC (e3, GP (e2, e3))", MV_A1, Basis_Names_C3GA); MV_A2 := Left_Contraction (ni_bv, Geometric_Product (e2_bv, ni_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test (ni, GP (e2, ni))", MV_A2, Basis_Names_C3GA); MV_A1 := Left_Contraction (e3_bv, Geometric_Product (e3_bv, e2_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test (e3, GP (e3, e2))", MV_A1, Basis_Names_C3GA); MV_A2 := Left_Contraction (ni_bv, Geometric_Product (ni_bv, e2_bv, Met), Met); GA_Utilities.Print_Multivector_String ("LC_Test (ni, GP (ni, e2))", MV_A2, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("LC_Test Circle", Circle, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("LC_Tests NP_1", NP_1, Basis_Names_C3GA); NP_1_IP := Inner_Product (NP_1, NP_1, Met); NP_1_OP := Outer_Product (NP_1, NP_1); NP_1_GP := Geometric_Product (NP_1, NP_1, Met); GA_Utilities.Print_Multivector_String ("Inner Product (NP_1, NP_1)", NP_1_IP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Outer Product (NP_1, NP_1)", NP_1_OP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Geometric Product (NP_1, NP_1)", NP_1_GP, Basis_Names_C3GA); New_Line; NP_1_IP := Inner_Product (NP_123, NP_123, Met); NP_1_OP := Outer_Product (NP_123, NP_123); NP_1_GP := Geometric_Product (NP_123, NP_123, Met); GA_Utilities.Print_Multivector_String ("Inner Product (NP_123, NP_123)", NP_1_IP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Outer Product (NP_123, NP_123)", NP_1_OP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Geometric Product (NP_123, NP_123)", NP_1_GP, Basis_Names_C3GA); New_Line; NP_1_IP := Inner_Product (NP_1, NP_2, Met); NP_1_OP := Outer_Product (NP_1, NP_2); NP_1_GP := Geometric_Product (NP_1, NP_2, Met); GA_Utilities.Print_Multivector_String ("Inner Product (NP_1, NP_2)", NP_1_IP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Outer Product (NP_1, NP_2)", NP_1_OP, Basis_Names_C3GA); GA_Utilities.Print_Multivector_String ("Geometric Product (NP_1, NP_2)", NP_1_GP, Basis_Names_C3GA); New_Line; NP_1_IP := Left_Contraction (NP_1, NP_2, Met); GA_Utilities.Print_Multivector_String ("Left Contraction (NP_1, NP_2)", NP_1_IP, Basis_Names_C3GA); NP_1_IP := Left_Contraction (NP_1, NP_123, Met); GA_Utilities.Print_Multivector_String ("Left Contraction (NP_1, NP_123)", NP_1_IP, Basis_Names_C3GA); exception when anError : others => Put_Line ("An exception occurred in LC_Test."); raise; end LC_Test;

school2/8B/3Alab.asm

momomeomo/School

0

81217

INCLUDE asmlib.inc .data .code main PROC cls endl mov eax, 171 call writeint endl mov eax, 32 call writehex endl mov eax, 20o call writeint endl main ENDP END main

tests/testapp.adb

skordal/databases

0

25110

-- Databases - A simple database library for Ada applications -- (c) <NAME> 2019 <<EMAIL>> -- Report bugs and issues on <https://github.com/skordal/databases/issues> -- vim:ts=3:sw=3:et:si:sta with Databases; with Databases.Sqlite; with Ada.Numerics.Discrete_Random; with Ada.Text_IO; procedure Testapp is use type Databases.Statement_Execution_Status; Database : Databases.Database_Access := null; package Sql is Create_Table : constant String := "CREATE TABLE test" & "(" & " id INTEGER PRIMARY KEY," & " item VARYING CHARACTER (127)," & " count INTEGER" & ");"; Insert_Data : constant String := "INSERT INTO test VALUES (:id, :name, :count);"; Select_Data : constant String := "SELECT * FROM test;"; end Sql; package Random_Number_Generators is new Ada.Numerics.Discrete_Random (Result_Subtype => Natural); RNG : Random_Number_Generators.Generator; begin Database := Databases.Sqlite.Open ("test.db", Create => True); -- Create database tables: declare Statement : Databases.Prepared_Statement_Access := Database.Prepare (Sql.Create_Table); Status : constant Databases.Statement_Execution_Status := Statement.Execute; begin if Status /= Databases.Success then Ada.Text_IO.Put_Line ("Error: failed to create database tables!"); end if; Databases.Free (Statement); end; -- Insert database values: declare Insert_Statement : Databases.Prepared_Statement_Access := Database.Prepare (Sql.Insert_Data); Status : Databases.Statement_Execution_Status; begin for Counter in 1..10 loop Insert_Statement.Clear; Insert_Statement.Bind (1, Databases.Sql_Integer (Counter)); Insert_Statement.Bind (2, "Item number " & Integer'Image (Counter)); Insert_Statement.Bind (3, Databases.Sql_Integer (Random_Number_Generators.Random (RNG) mod 1000)); Status := Insert_Statement.Execute; if Status /= Databases.Success then Ada.Text_IO.Put_Line ("Warning: failed to insert item number " & Integer'Image (Counter) & " into the database"); end if; Insert_Statement.Reset; end loop; Databases.Free (Insert_Statement); end; -- Print database values: declare Select_Statement : Databases.Prepared_Statement_Access := Database.Prepare (Sql.Select_Data); Result : Databases.Statement_Result_Access := Select_Statement.Execute; begin Ada.Text_IO.Put_Line ("Got " & Integer'Image (Result.Get_Returned_Row_Count) & " results"); if Result.Get_Returned_Row_Count > 0 then for I in 1 .. Result.Get_Returned_Row_Count loop Ada.Text_IO.Put_Line ("ID" & Databases.Sql_Integer'Image (Result.Get_Row (I).Get_Column (1).Get_Value)); Ada.Text_IO.Put_Line (" Item name: " & Result.Get_Row (I).Get_Column (2).Get_Value); Ada.Text_IO.Put_Line (" Item count: " & Databases.Sql_Integer'Image (Result.Get_Row (I).Get_Column (3).Get_Value)); end loop; end if; Databases.Free (Result); Databases.Free (Select_Statement); end; Database.Close; Databases.Free (Database); exception when Databases.File_Error => Ada.Text_IO.Put_Line ("Error: Could not open the test database file!"); when Databases.IO_Error => Ada.Text_IO.Put_Line ("Error: An I/O error occurred!"); when Databases.Unspecified_Error => Ada.Text_IO.Put_Line ("Error: An unspecified error occurred!"); end Testapp;

Transynther/x86/_processed/NONE/_zr_/i7-8650U_0xd2.log_111_1792.asm

ljhsiun2/medusa

9

23958

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r12 push %rcx push %rdi push %rsi lea addresses_WT_ht+0x175c7, %rsi nop nop nop nop nop sub %rcx, %rcx movb (%rsi), %r11b nop nop add $51407, %rdi lea addresses_WT_ht+0x169fb, %rsi lea addresses_normal_ht+0x122cb, %rdi nop nop sub %r12, %r12 mov $23, %rcx rep movsb nop nop nop xor %rsi, %rsi lea addresses_WC_ht+0x759e, %r10 nop nop nop dec %r11 mov (%r10), %rcx nop nop nop nop sub $14267, %rcx pop %rsi pop %rdi pop %rcx pop %r12 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r9 push %rax push %rcx push %rdi push %rsi // Store lea addresses_normal+0x1f7db, %r9 nop nop cmp %rcx, %rcx mov $0x5152535455565758, %r11 movq %r11, %xmm4 movntdq %xmm4, (%r9) // Exception!!! nop nop mov (0), %r14 nop nop xor $20446, %r11 // Store lea addresses_A+0x1b5fb, %rdi nop nop nop nop nop xor %rax, %rax movw $0x5152, (%rdi) nop nop nop nop nop inc %r14 // Faulty Load lea addresses_A+0x86db, %rax nop nop nop and %rdi, %rdi movb (%rax), %cl lea oracles, %rsi and $0xff, %rcx shlq $12, %rcx mov (%rsi,%rcx,1), %rcx pop %rsi pop %rdi pop %rcx pop %rax pop %r9 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WT_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_WT_ht', 'congruent': 4, 'same': False}, 'dst': {'type': 'addresses_normal_ht', 'congruent': 3, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'00': 111} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

Kernel/src/video.asm

royprocell/GoldOS16

4

242400

;============================== ;GoldElfOS: Mk II ; ;<NAME> ;21 April 2015 ; ;Updated 7/14/2015 for GoldOS Mk IV ; ;Video System Calls ;Video.asm ; ;Features: ;Video: ;os_set_video_mode (done!) ;os_move_cursor (done!) ;os_get_cursor (done!) ;os_set_cursor_visible (done!) ;os_set_cursor_invisible (done!) ;os_clear_screen (done!) ;os_set_background (done!) ;os_print_string (done!) ;os_print_char (done!) ;os_print_new_line (done!) ;os_draw_pixel (done!) ;os_get_pixel (done!) ;os_draw_border (done!) ;os_draw_bar (done!) ;os_get_video_mode (done!) ;os_draw_box (done!) ;os_set_cursor_full (done!) ;os_set_cursor_bar (done!) ; ;os_disable_blinking (done!) ;os_enable_blinking (done!) ; ;os_set_vga_font ;os_draw_icon (done!) ; ;os_draw_box_gfx (done!) ;os_clear_screen_gfx (done!) ; ;os_draw_rect_gfx (done!) ;os_draw_triangle_gfx (done!) ;os_draw_line_gfx (done!) ;============================== ;================== ;os_set_video_mode ;Sets the current video mode ;IN: AL=video mode ;OUT: Nothing ;================== os_set_video_mode: pusha mov ah, 0 int 10h popa ret ;================== ;os_move_cursor ;Sets the location of the cursor ;IN: DH: row, DL: column ;OUT: Nothing ;================== os_move_cursor: pusha mov ah, 02h mov bh, 0 int 10h popa ret ;================== ;os_get_cursor ;Gets the cursor position ;IN: Nothing ;OUT: DH: row, DL: column ;================== os_get_cursor: pusha mov ah, 03h mov bh, 0 int 10h popa ret ;================== ;os_set_cursor_visible ;Sets the cursor type to visible ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_visible: pusha mov ch, 6 mov cl, 7 mov ah, 1 mov al, 3 int 10h popa ret ;================== ;os_set_cursor_invisible ;Sets the cursor type to invisible ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_invisible: pusha mov ch, 32 mov ah, 1 mov al, 3 int 10h popa ret ;================== ;os_clear_screen ;Clears the screen of text ;IN: BL: color IGNORE:(BH: background color) ;OUT: Nothing ;================== os_clear_screen: pusha ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl;h .interrupt: mov dh, 0 mov cx, 25 .loop: call os_draw_border inc dh loop .loop ;mov ah, 06h ;mov ch, 0 ;mov cl, 0 ;mov dh, 24 ;mov dl, 79 ;int 10h popa ret ;================== ;os_set_background ;Sets the background color ;IN: BL: background color ;OUT: Nothing ;================== os_set_background: pusha ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl .interrupt: mov ah, 0Bh mov bh, 0 int 10h popa ret ;================== ;os_print_string ;Prints strings ;IN: SI: string address, DS: string segment ;OUT: Nothing. Resets DS to 2000h. ;================== os_print_string: pusha ;mov ds, ax mov ah, 0Eh .repeat: lodsb cmp al, 0 je .done int 10h jmp .repeat .done: mov ax, 2000h mov ds, ax popa ret ;================== ;os_print_char ;Prints a single char ;IN: AL: desired char ;OUT: Nothing ;================== os_print_char: pusha mov ah, 0Eh mov bh, 0 int 10h popa ret ;================== ;os_print_new_line ;Prints a new line char and moves the cursor down. ;IN: Nothing ;OUT: Nothing ;================== os_print_new_line: pusha mov ah, 0Eh mov al, 13 int 10h mov al, 10 int 10h popa ret ;================== ;os_draw_pixel ;For use in graphics modes only! ;IN: AX: pixel row, BX: pixel column, CL: pixel color ;OUT: Nothing ;================== os_draw_pixel: pusha mov dx, 0xA000 mov es, dx mov di, 0 xchg ax, bx mov dx, 320 mul dx add di, ax add di, bx mov byte [es:di], cl mov ax, 2000h mov es, ax popa ret ;================== ;os_get_pixel ;Gets pixel data at a certain x and y. For use in graphics modes only! ;IN: AX: pixel row, BX: pixel column ;OUT: CL: pixel color ;================== os_get_pixel: pusha mov dx, 0xA000 mov es, dx mov di, 0 xchg ax, bx mov dx, 320 mul dx add di, ax add di, bx mov cl, byte [es:di] mov byte [.tmp], cl mov ax, 2000h mov es, ax popa mov cl, byte [.tmp] ret .tmp db 0 ;================== ;os_draw_border ;Draws a border at the cursor's row ;IN: BL: color, DH: cursor's row ;OUT: Nothing ;================== os_draw_border: pusha mov dl, 0 call os_move_cursor ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl .interrupt: mov ah, 09h mov al, ' ' mov bh, 0 mov cx, 80 int 10h popa ret ;================== ;os_draw_bar ;Draws a bar at the cursor's row and column ;IN: BL: color, DH: cursor's row, DL: cursor's column, CX: number of columns ;OUT: Nothing ;================== os_draw_bar: pusha mov word [.tmp], cx call os_move_cursor mov cx, word [.tmp] ;checks to see if the system can support 16 colors, or only 8 colors and blinking. ;if the system can only support 8 colors and blinking, os_gfx_var will be set to 1 ;and colors will be reduced so that no unintentional blinking occurs. cmp byte [os_gfx_var], 1 je .color_filter jmp .interrupt .color_filter: call os_clear_blinking_bit_bl .interrupt: mov ah, 09h mov al, ' ' mov bh, 0 int 10h popa ret .tmp dw 0 ;================== ;os_get_video_mode ;Gets the current video mode. ;IN: Nothing ;OUT: AL: video mode, AH: character columns, BH: active page ;================== os_get_video_mode: mov ah, 0Fh int 10h ret ;================== ;os_draw_box ;Draws a box ;IN: BL: color, DH: cursor's row, DL: cursor's column, CX: number of columns, AX: number of rows ;OUT: Nothing ;================== os_draw_box: mov word [.tmp], ax sub dh, 1 .loop: cmp word [.tmp], 0 je .done inc dh call os_draw_bar dec word [.tmp] jmp .loop .done: ret .tmp dw 0 ;================== ;os_set_cursor_full ;Sets the cursor to a full box ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_full: pusha mov cx, 0007h call os_get_video_mode mov ah, 1 int 10h popa ret ;================== ;os_set_cursor_bar ;Sets the cursor to the default bar ;IN: Nothing ;OUT: Nothing ;================== os_set_cursor_bar: pusha mov cx, 0607h call os_get_video_mode mov ah, 1 int 10h popa ret ;================== ;os_draw_box_gfx ;Draws a box in graphics mode. ;IN: BX: starting column, CX: starting row, DX: number of columns, SI: number of rows, AL: color ;OUT: Nothing ;================== os_draw_box_gfx: pusha mov byte [.color], al mov word [.x_coord], bx mov word [.y_coord], cx mov word [.dx_coord], dx mov word [.dy_coord], si mov ax, 0xA000 mov es, ax mov ax, word [.y_coord] mov bx, 320 mul bx add ax, word [.x_coord] mov word [.first_pixel], ax mov di, ax mov cx, word [.dx_coord] mov al, byte [.color] .x_loop: cmp cx, 0 je .post_x_loop ;cmp di, 0x7FFF ;jge .done mov byte [es:di], al inc di dec cx jmp .x_loop .post_x_loop: dec word [.dy_coord] cmp word [.dy_coord], 0 je .done add word [.first_pixel], 320 mov di, word [.first_pixel] mov cx, word [.dx_coord] jmp .x_loop .done: mov ax, 2000h mov es, ax popa ret .color db 0 .x_coord dw 0 .y_coord dw 0 .dx_coord dw 0 .dy_coord dw 0 .first_pixel dw 0 ;================== ;os_clear_screen_gfx ;Clears the screen in graphics mode 13h. ;IN: BL: color ;OUT: Nothing ;================== os_clear_screen_gfx: pusha mov cx, 64000 mov ax, 0xA000 mov es, ax mov di, 0 .loop: cmp cx, 0 je .done mov byte [es:di], bl inc di dec cx jmp .loop .done: mov ax, 2000h mov ds, ax popa ret ;================== ;os_draw_icon ;Draws an icon at the specified coordinates ;IN: AX: x, BX: y, GS: icon segment, SI: icon address ;OUT: Nothing ;================== os_draw_icon: mov word [.ax], ax mov al, byte [gs:si] mov byte [.counter], al mov byte [.counter_backup], al inc si mov al, byte [gs:si] dec al mov byte [.post_counter], al inc si mov ax, word [.ax] dec ax .loop: cmp byte [.counter], 0 je .post_loop mov cl, byte [gs:si] inc ax call os_draw_pixel inc si dec byte [.counter] jmp .loop .post_loop: cmp byte [.post_counter], 0 je .done inc bx dec byte [.post_counter] mov al, byte [.counter_backup] mov byte [.counter], al mov ax, word [.ax] dec ax jmp .loop .done: ret .counter db 0 .counter_backup db 0 .post_counter db 0 .ax dw 0 ;================== ;os_disable_blinking ;Disables blinking text. ;IN: Nothing ;OUT: Nothing ;================== os_disable_blinking: pusha mov ax, 1003h mov bx, 0 int 10h popa ret ;================== ;os_enable_blinking ;Enables blinking text. ;IN: Nothing ;OUT: Nothing ;================== os_enable_blinking: pusha mov ax, 1003h mov bl, 1 mov bh, 0 int 10h popa ret ;================== ;os_draw_line_gfx ;Draws a line in graphics mode. ;IN: AX: x1, BX: y1, SI: x2, DX: y2, CL: color ;OUT: Nothing ;================== os_draw_line_gfx: mov word [.x1], ax mov word [.y1], bx mov word [.x2], si mov word [.y2], dx mov byte [.color], cl ;calculate dx and dy sub si, ax mov word [.dx], si sub dx, bx mov word [.dy], dx ;calculate b mov ax, word [.dy] mov bx, [.x1] imul bx mov bx, word [.dx] ;before we div by bx, make sure it isn't zero! cmp bx, 0 je .zero_draw_loop idiv bx mov word [.m1], ax mov ax, word [.y1] mov bx, word [.m1] sub ax, bx mov word [.b], ax ;if dy is bigger than dx, ;it is better to draw with (y-b)/m = x mov dx, word [.dy] mov si, word [.dx] cmp dx, 0 jl .dx_neg cmp si, 0 jl .si_neg jmp .neg_cont .dx_neg: neg dx cmp si, 0 jl .si_neg jmp .neg_cont .si_neg: neg si jmp .neg_cont .neg_cont: cmp dx, si jge .x_calc_choose mov cx, word [.dx] cmp word [.dx], 0 jl .backward_draw_loop .forward_draw_loop: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.x1] call .calc_y loop .forward_draw_loop jmp .done .backward_draw_loop: neg cx .backward_draw_loop_run: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.x1] call .calc_y loop .backward_draw_loop_run jmp .done .zero_draw_loop: mov cx, word [.dy] mov ax, word [.x1] cmp word [.dy], 0 jl .zero_draw_loop_run_neg_pre .zero_draw_loop_run_pos: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.y1] loop .zero_draw_loop_run_pos jmp .done .zero_draw_loop_run_neg_pre: neg cx .zero_draw_loop_run_neg: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.y1] loop .zero_draw_loop_run_neg jmp .done .done: ret .x_calc_choose: mov bx, word [.dy] ;before we div by bx, make sure it isn't zero! cmp bx, 0 je .zero_draw_loop_x mov cx, word [.dy] cmp word [.dy], 0 jl .backward_draw_loop_x .forward_draw_loop_x: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.y1] call .calc_x loop .forward_draw_loop_x jmp .done .zero_draw_loop_x: mov cx, word [.dx] mov bx, word [.y1] cmp word [.dx], 0 jl .zero_draw_loop_run_neg_x_pre .zero_draw_loop_run_pos_x: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] inc word [.y1] loop .zero_draw_loop_run_pos_x jmp .done .zero_draw_loop_run_neg_x_pre: neg cx .zero_draw_loop_run_neg_x: mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.y1] loop .zero_draw_loop_run_neg_x jmp .done .backward_draw_loop_x: neg cx .backward_draw_loop_run_x: mov ax, word [.x1] mov bx, word [.y1] mov word [.cx_tmp], cx mov cl, byte [.color] call os_draw_pixel mov cx, word [.cx_tmp] dec word [.y1] call .calc_x loop .backward_draw_loop_run_x jmp .done .calc_y: mov ax, word [.dy] mov bx, [.x1] imul bx mov bx, word [.dx] idiv bx add ax, word [.b] mov word [.y1], ax ret .calc_x: mov ax, word [.y1] sub ax, word [.b] mov bx, word [.dx] imul bx mov bx, word [.dy] idiv bx mov word [.x1], ax ret .cx_tmp dw 0 .m1 dw 0 .b dw 0 .d dw 0 .dx dw 0 .dy dw 0 .x1 dw 0 .y1 dw 0 .x2 dw 0 .y2 dw 0 .color db 0 ;================== ;os_draw_triangle_gfx ;Draws a triangle in graphics mode. ;Data format: ;2 bytes: x1 ;2 bytes: y1 ;2 bytes: x2 ;2 bytes: y2 ;2 bytes: x3 ;2 bytes: y3 ;TOTAL: 12 byte packet ;IN: AX: segment to point data, BX: location of point data, CL: color ;OUT: Nothing ;================== os_draw_triangle_gfx: pusha mov es, ax mov si, bx mov byte [.cl], cl mov ax, word [es:si] mov word [.x1], ax inc si inc si mov ax, word [es:si] mov word [.y1], ax inc si inc si mov ax, word [es:si] mov word [.x2], ax inc si inc si mov ax, word [es:si] mov word [.y2], ax inc si inc si mov ax, word [es:si] mov word [.x3], ax inc si inc si mov ax, word [es:si] mov word [.y3], ax mov ax, word [.x1] mov bx, word [.y1] mov si, word [.x2] mov dx, word [.y2] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x2] mov bx, word [.y2] mov si, word [.x3] mov dx, word [.y3] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x3] mov bx, word [.y3] mov si, word [.x1] mov dx, word [.y1] mov cl, byte [.cl] call os_draw_line_gfx mov ax, 2000h mov es, ax popa ret .cl db 0 .x1 dw 0 .y1 dw 0 .x2 dw 0 .y2 dw 0 .x3 dw 0 .y3 dw 0 ;================== ;os_draw_rect_gfx ;Draws a rectangle in graphics mode. ;Data format: ;2 bytes: x1 ;2 bytes: y1 ;2 bytes: x2 ;2 bytes: y2 ;2 bytes: x3 ;2 bytes: y3 ;2 bytes: x4 ;2 bytes: y4 ;TOTAL: 16 byte packet ;IN: AX: segment to point data, BX: location of point data, CL: color ;OUT: Nothing ;================== os_draw_rect_gfx: pusha mov es, ax mov si, bx mov byte [.cl], cl mov ax, word [es:si] mov word [.x1], ax inc si inc si mov ax, word [es:si] mov word [.y1], ax inc si inc si mov ax, word [es:si] mov word [.x2], ax inc si inc si mov ax, word [es:si] mov word [.y2], ax inc si inc si mov ax, word [es:si] mov word [.x3], ax inc si inc si mov ax, word [es:si] mov word [.y3], ax inc si inc si mov ax, word [es:si] mov word [.x4], ax inc si inc si mov ax, word [es:si] mov word [.y4], ax mov ax, word [.x1] mov bx, word [.y1] mov si, word [.x2] mov dx, word [.y2] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x2] mov bx, word [.y2] mov si, word [.x3] mov dx, word [.y3] mov cl, byte [.cl] call os_draw_line_gfx mov ax, word [.x3] mov bx, word [.y3] mov si, word [.x1] mov dx, word [.y1] mov cl, byte [.cl] call os_draw_line_gfx mov ax, 2000h mov es, ax popa ret .cl db 0 .x1 dw 0 .y1 dw 0 .x2 dw 0 .y2 dw 0 .x3 dw 0 .y3 dw 0 .x4 dw 0 .y4 dw 0

agda-stdlib-0.9/src/Relation/Nullary/Core.agda

qwe2/try-agda

1

17402

<reponame>qwe2/try-agda<filename>agda-stdlib-0.9/src/Relation/Nullary/Core.agda ------------------------------------------------------------------------ -- The Agda standard library -- -- Nullary relations (some core definitions) ------------------------------------------------------------------------ -- The definitions in this file are reexported by Relation.Nullary. module Relation.Nullary.Core where open import Data.Empty open import Level -- Negation. infix 3 ¬_ ¬_ : ∀ {ℓ} → Set ℓ → Set ℓ ¬ P = P → ⊥ -- Decidable relations. data Dec {p} (P : Set p) : Set p where yes : ( p : P) → Dec P no : (¬p : ¬ P) → Dec P

programs/oeis/131/A131649.asm

jmorken/loda

1

104179

; A131649: Number of distinct improper 2-coloring of edges for odd-order cyclic graphs. ; 4,8,16,32,54,82,116,156,202,254,312,376,446,522,604,692,786,886,992,1104,1222,1346,1476,1612,1754,1902,2056,2216,2382,2554,2732,2916,3106,3302,3504,3712,3926,4146,4372,4604,4842,5086,5336,5592,5854 mul $0,3 mov $2,$0 pow $0,2 sub $1,$2 add $1,$0 add $1,4 mov $3,$0 lpb $3 div $1,2 add $1,$2 mod $3,12 lpe sub $1,4 div $1,3 mul $1,2 add $1,4

oeis/111/A111575.asm

neoneye/loda-programs

11

176544

; A111575: Powers of 3 repeated four times. ; 1,1,1,1,3,3,3,3,9,9,9,9,27,27,27,27,81,81,81,81,243,243,243,243,729,729,729,729,2187,2187,2187,2187,6561,6561,6561,6561,19683,19683,19683,19683,59049,59049,59049,59049,177147,177147,177147,177147,531441,531441,531441,531441,1594323,1594323,1594323,1594323,4782969,4782969,4782969,4782969,14348907,14348907,14348907,14348907,43046721,43046721,43046721,43046721,129140163,129140163,129140163,129140163,387420489,387420489,387420489,387420489,1162261467,1162261467,1162261467,1162261467,3486784401 div $0,4 mov $1,3 pow $1,$0 mov $0,$1

gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/support/lencheck.ada

best08618/asylo

7

22415

-- THIS GENERIC PROCEDURE IS INTENDED FOR USE IN CONJUNCTION WITH THE -- ACVC CHAPTER 13 C TESTS. IT IS INSTANTIATED FOR A TYPE WHOSE -- REPRESENTATION IS TO BE CHECKED, AND THEN THE PROCEDURE REP_CHECK -- IS CALLED WITH TWO ARGUMENTS, THE FIRST IS A VALUE OF THE TYPE TO -- BE CHECKED, AND THE SECOND IS A STRING DESCRIBING OR NAMING THE -- TYPE (FOR USE IN A CALL TO FAILED IF THE REPRESENTATION CHECK FAILS) -- THE CHECK IS TO CONVERT THE VALUE TO A PACKED BOOLEAN ARRAY WITH A -- LENGTH CORRESPONDING TO THE 'SIZE OF THE TYPE, AND THEN CONVERT IT -- BACK AGAIN AND CHECK THAT THE SAME VALUE IS OBTAINED. THE -- CONVERSIONS ARE PERFORMED USING APPROPRIATE INSTANTIATIONS OF -- UNCHECKED_CONVERSION. -- AUTHOR: <NAME>, UNCOPYRIGHTED, PUBLIC DOMAIN USE -- AUTHORIZED -- DHH 03/27/89 CHANGED REP_CHECK TO LENGTH_CHECK BY ADDING A THIRD -- PARAMETER TO GIVE LENGTH EXPECTED AND BY DOING A BIT TO -- BIT COPY OF THE UNCHECKED CONVERSION BOOLEAN ARRAY SO -- A STRAIGHT COMPARE OF THE TWO VALUES CAN BE DONE. GENERIC TYPE TEST_TYPE IS PRIVATE; PROCEDURE LENGTH_CHECK (TEST_VALUE : TEST_TYPE; EXPECTED_LENGTH : INTEGER; TYPE_ID : STRING); WITH UNCHECKED_CONVERSION; WITH REPORT; USE REPORT; PROCEDURE LENGTH_CHECK (TEST_VALUE : TEST_TYPE; EXPECTED_LENGTH : INTEGER; TYPE_ID : STRING) IS LEN : CONSTANT INTEGER := EXPECTED_LENGTH; TYPE BIT_ARRAY_TYPE IS ARRAY (1 .. LEN) OF BOOLEAN; PRAGMA PACK (BIT_ARRAY_TYPE); TYPE NEW_BIT_ARRAY_TYPE IS ARRAY (1 .. 3) OF BIT_ARRAY_TYPE; FUNCTION TO_BITS IS NEW UNCHECKED_CONVERSION (TEST_TYPE, BIT_ARRAY_TYPE); FUNCTION FROM_BITS IS NEW UNCHECKED_CONVERSION (BIT_ARRAY_TYPE, TEST_TYPE); BIT_ARRAY : BIT_ARRAY_TYPE := (OTHERS => FALSE); BIT_ARRAY_NEW : NEW_BIT_ARRAY_TYPE := (OTHERS => (OTHERS => FALSE)); BEGIN BIT_ARRAY := TO_BITS (TEST_VALUE); FOR I IN 1 .. LEN LOOP BIT_ARRAY_NEW(IDENT_INT(1)) (IDENT_INT(I)) := BIT_ARRAY(I); END LOOP; IF TEST_VALUE /= FROM_BITS (BIT_ARRAY_NEW(1)) THEN FAILED ("CHECK ON REPRESENTATION FOR " & TYPE_ID & " FAILED."); END IF; END LENGTH_CHECK;

gcc-gcc-7_3_0-release/gcc/testsuite/gnat.dg/self_aggregate_with_pointer.adb

best08618/asylo

7

14164

-- { dg-do run } procedure self_aggregate_with_pointer is type Arr is array (Natural range <>) of Integer; type Rec (N : Natural) is record A : Arr (1..N); end record; type Acc_Rec is access all Rec; type SRec is record A : Acc_Rec; I1, I2, I3, I4, I5, I6, I7: Integer; end record; R : aliased Rec (1); S : Srec := (A => R'Access, others => 0); begin S := (A => S.A, others => 0); if S.A /= R'Access then raise Program_Error; end if; end;

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48.log_21829_2879.asm

ljhsiun2/medusa

9

29490

.global s_prepare_buffers s_prepare_buffers: ret .global s_faulty_load s_faulty_load: push %r14 push %r9 push %rax push %rbp push %rbx push %rdi push %rdx // Store mov $0xe74, %r14 add %rbx, %rbx mov $0x5152535455565758, %rdi movq %rdi, %xmm1 vmovups %ymm1, (%r14) nop nop add %r9, %r9 // Faulty Load lea addresses_RW+0x7734, %r14 nop nop nop nop add $16290, %rbp mov (%r14), %r9d lea oracles, %rdi and $0xff, %r9 shlq $12, %r9 mov (%rdi,%r9,1), %r9 pop %rdx pop %rdi pop %rbx pop %rbp pop %rax pop %r9 pop %r14 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_P', 'AVXalign': False, 'congruent': 6, 'size': 32, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'AVXalign': False, 'congruent': 0, 'size': 4, 'same': True, 'NT': False}} <gen_prepare_buffer> {'32': 21829} 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 */

compiler/out/production/src/com/company/Mx_Lex.g4

TimerChen/MxCompiler

2

4189

lexer grammar Mx_Lex; Type : 'void' | 'int' | 'string' | 'bool' ; Auto : 'auto'; Break : 'break'; Case : 'case'; Char : 'char'; Constant : 'const'; Continue : 'continue'; Default : 'default'; Do : 'do'; Double : 'double'; Else : 'else'; Enum : 'enum'; Extern : 'extern'; Float : 'float'; For : 'for'; Goto : 'goto'; If : 'if'; Inline : 'inline'; Int : 'int'; Long : 'long'; Register : 'register'; Restrict : 'restrict'; Return : 'return'; Short : 'short'; Signed : 'signed'; Sizeof : 'sizeof'; Static : 'static'; Struct : 'struct'; Switch : 'switch'; Typedef : 'typedef'; Union : 'union'; Unsigned : 'unsigned'; Void : 'void'; Volatile : 'volatile'; While : 'while'; Alignas : '_Alignas'; Alignof : '_Alignof'; Atomic : '_Atomic'; Bool : '_Bool'; Complex : '_Complex'; Generic : '_Generic'; Imaginary : '_Imaginary'; Noreturn : '_Noreturn'; StaticAssert : '_Static_assert'; ThreadLocal : '_Thread_local'; LeftParen : '('; RightParen : ')'; LeftBracket : '['; RightBracket : ']'; LeftBrace : '{'; RightBrace : '}'; Less : '<'; LessEqual : '<='; Greater : '>'; GreaterEqual : '>='; LeftShift : '<<'; RightShift : '>>'; Plus : '+'; PlusPlus : '++'; Minus : '-'; MinusMinus : '--'; Star : '*'; Div : '/'; Mod : '%'; And : '&'; Or : '|'; AndAnd : '&&'; OrOr : '||'; Caret : '^'; Not : '!'; Tilde : '~'; Question : '?'; Colon : ':'; Semi : ';'; Comma : ','; Assign : '='; // '*=' | '/=' | '%=' | '+=' | '-=' | '<<=' | '>>=' | '&=' | '^=' | '|=' StarAssign : '*='; DivAssign : '/='; ModAssign : '%='; PlusAssign : '+='; MinusAssign : '-='; LeftShiftAssign : '<<='; RightShiftAssign : '>>='; AndAssign : '&='; XorAssign : '^='; OrAssign : '|='; Equal : '=='; NotEqual : '!='; Arrow : '->'; Dot : '.'; Ellipsis : '...'; Identifier: Nondigit (Digit|Nondigit)* ; Const : IntConst ; fragment IntConst : Sign? NonzeroDigit Digit* ; fragment Nondigit : [a-zA-Z_] ; fragment Digit : [0-9] ; fragment NonzeroDigit : [1-9] ; fragment Sign : '+' | '-' ; fragment SChar : ~["\\\r\n] | EscapeSequence | '\\\n' // Added line | '\\\r\n' // Added line ; Whitespace : [ \t]+ -> skip ; Newline : ( '\r' '\n'? | '\n' ) -> skip ; BlockComment : '/*' .*? '*/' -> skip ; LineComment : '//' ~[\r\n]* -> skip ;

src/compiling/ANTLR/grammar/SpecifyBlockTerminals.g4

jecassis/VSCode-SystemVerilog

75

5082

<reponame>jecassis/VSCode-SystemVerilog<filename>src/compiling/ANTLR/grammar/SpecifyBlockTerminals.g4 grammar SpecifyBlockTerminals; import SpecifyPathDelays; specify_input_terminal_descriptor : input_identifier ( '[' constant_range_expression ']' )? ; specify_output_terminal_descriptor : output_identifier ( '[' constant_range_expression ']' )? ; input_identifier : input_port_identifier | inout_port_identifier | interface_identifier '.' port_identifier ; output_identifier : output_port_identifier | inout_port_identifier | interface_identifier '.' port_identifier ;

programs/oeis/275/A275015.asm

jmorken/loda

1

9365

<gh_stars>1-10 ; A275015: Number of neighbors of each new term in an isosceles triangle read by rows. ; 0,1,2,1,3,2,1,3,3,2,1,3,3,3,2,1,3,3,3,3,2,1,3,3,3,3,3,2,1,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,3,3,2,1,3,3,3,3,3,3,3,3,3,3,3,3,2 lpb $0 add $0,4 mov $1,3 trn $2,2 add $2,3 trn $0,$2 sub $1,$0 trn $0,2 lpe

oeis/208/A208633.asm

neoneye/loda-programs

11

162353

; A208633: Number of n X 4 0..1 arrays with new values 0..1 introduced in row major order and no element equal to more than one of its immediate leftward or upward or right-upward antidiagonal neighbors. ; Submitted by <NAME> ; 8,23,71,225,722,2331,7548,24476,79423,257807,836973,2717446,8823199,28648292,93019712,302032007,980690055,3184277945,10339281402,33571429395,109005736508,353939387572,1149233948207,3731539152111,12116231458885,39341156329966,127739932048631,414768953722244,1346746332649400,4372857872962167,14198580322636679,46102500708059793,149693879477441058,486052973461483211,1578204091150829500,5124396494462689292,16638810898869952671,54025879618724457103,175420929194865258781,569588179160849503958 add $0,1 mov $3,1 lpb $0 sub $0,1 add $1,$4 add $4,$3 sub $4,$2 add $2,$3 add $3,4 add $4,2 add $4,$1 add $4,1 add $3,$4 lpe mov $0,$4 add $0,4

ex8.asm

robjpar/nasm-sasm

0

100754

<reponame>robjpar/nasm-sasm ; nasm -f elf32 ex8.asm -o ex8.o ; gcc -m32 ex8.o -o ex8.out ; ./ex8.out ; echo $? global main section .text main: mov ebp, esp; for correct debugging call func ; jump to func mov eax, 1 ; exit call mov ebx, 0 ; exit status int 0x80 ; system call func: push ebp ; save ebp on the stack mov ebp, esp ; save esp (stack pointer) in ebp sub esp, 2 ; esp (stack pointer) -= 2 mov [esp], byte 'H' ; 'H' mov [esp+1], byte 'i'; "Hi" mov eax, 4 ; write call mov ebx, 1 ; stdout mov ecx, esp ; ['H'] mov edx, 2 ; 2 bytes int 0x80 ; system call mov esp, ebp ; restore esp (stack pointer) from ebp pop ebp ; restore ebp from the stack ret ; return to the next line after the call

oeis/014/A014897.asm

neoneye/loda-programs

11

27961

<filename>oeis/014/A014897.asm ; A014897: a(1)=1, a(n) = 14*a(n-1) + n. ; 1,16,227,3182,44553,623748,8732479,122254714,1711566005,23961924080,335466937131,4696537119846,65751519677857,920521275490012,12887297856860183,180422169996042578,2525910379944596109,35362745319224345544,495078434469140837635,6931098082567971726910,97035373155951604176761,1358495224183322458474676,19018933138566514418645487,266265063939931201861036842,3727710895159036826054515813,52187952532226515564763221408,730631335451171217906685099739,10228838696316397050693591396374 add $0,1 lpb $0 sub $0,1 add $2,1 mul $2,14 add $1,$2 lpe div $1,14 mov $0,$1

projects/batfish/src/main/antlr4/org/batfish/grammar/flatjuniper/FlatJuniper_switch_options.g4

jeffkala/batfish

0

4446

parser grammar FlatJuniper_switch_options; import FlatJuniper_common; options { tokenVocab = FlatJuniperLexer; } s_switch_options : SWITCH_OPTIONS ( so_vtep_source_interface | so_route_distinguisher | so_vrf_target | so_vrf_export | so_vrf_import ) ; so_vtep_source_interface : VTEP_SOURCE_INTERFACE iface = interface_id ; so_route_distinguisher : ROUTE_DISTINGUISHER route_distinguisher ; so_vrf_target : VRF_TARGET null_filler ; so_vrf_export : VRF_EXPORT null_filler ; so_vrf_import : VRF_IMPORT null_filler ;

x265/source/common/x86/h-ipfilter8.asm

xu5343/ffmpegtoolkit_CentOS7

14

86519

;***************************************************************************** ;* Copyright (C) 2013-2017 MulticoreWare, Inc ;* ;* Authors: <NAME> <<EMAIL>> ;* <NAME> <<EMAIL>> ;* <NAME> <<EMAIL>> ;* ;* This program is free software; you can redistribute it and/or modify ;* it under the terms of the GNU General Public License as published by ;* the Free Software Foundation; either version 2 of the License, or ;* (at your option) any later version. ;* ;* This program is distributed in the hope that it will be useful, ;* but WITHOUT ANY WARRANTY; without even the implied warranty of ;* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;* GNU General Public License for more details. ;* ;* You should have received a copy of the GNU General Public License ;* along with this program; if not, write to the Free Software ;* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. ;* ;* This program is also available under a commercial proprietary license. ;* For more information, contact us at license @ x265.com. ;*****************************************************************************/ %include "x86inc.asm" %include "x86util.asm" SECTION_RODATA 32 const h_tabw_LumaCoeff, dw 0, 0, 0, 64, 0, 0, 0, 0 dw -1, 4, -10, 58, 17, -5, 1, 0 dw -1, 4, -11, 40, 40, -11, 4, -1 dw 0, 1, -5, 17, 58, -10, 4, -1 const h_tabw_ChromaCoeff, dw 0, 64, 0, 0 dw -2, 58, 10, -2 dw -4, 54, 16, -2 dw -6, 46, 28, -4 dw -4, 36, 36, -4 dw -4, 28, 46, -6 dw -2, 16, 54, -4 dw -2, 10, 58, -2 const h_tab_ChromaCoeff, db 0, 64, 0, 0 db -2, 58, 10, -2 db -4, 54, 16, -2 db -6, 46, 28, -4 db -4, 36, 36, -4 db -4, 28, 46, -6 db -2, 16, 54, -4 db -2, 10, 58, -2 const h_tab_LumaCoeff, db 0, 0, 0, 64, 0, 0, 0, 0 db -1, 4, -10, 58, 17, -5, 1, 0 db -1, 4, -11, 40, 40, -11, 4, -1 db 0, 1, -5, 17, 58, -10, 4, -1 const h_tab_Tm, db 0, 1, 2, 3, 1, 2, 3, 4, 2, 3, 4, 5, 3, 4, 5, 6 db 4, 5, 6, 7, 5, 6, 7, 8, 6, 7, 8, 9, 7, 8, 9, 10 db 8, 9,10,11, 9,10,11,12,10,11,12,13,11,12,13, 14 const h_tab_Lm, db 0, 1, 2, 3, 4, 5, 6, 7, 1, 2, 3, 4, 5, 6, 7, 8 db 2, 3, 4, 5, 6, 7, 8, 9, 3, 4, 5, 6, 7, 8, 9, 10 db 4, 5, 6, 7, 8, 9, 10, 11, 5, 6, 7, 8, 9, 10, 11, 12 db 6, 7, 8, 9, 10, 11, 12, 13, 7, 8, 9, 10, 11, 12, 13, 14 const interp4_shuf, times 2 db 0, 1, 8, 9, 4, 5, 12, 13, 2, 3, 10, 11, 6, 7, 14, 15 const h_interp8_hps_shuf, dd 0, 4, 1, 5, 2, 6, 3, 7 const interp4_hpp_shuf, times 2 db 0, 1, 2, 3, 1, 2, 3, 4, 8, 9, 10, 11, 9, 10, 11, 12 const interp4_horiz_shuf1, db 0, 1, 2, 3, 1, 2, 3, 4, 2, 3, 4, 5, 3, 4, 5, 6 db 8, 9, 10, 11, 9, 10, 11, 12, 10, 11, 12, 13, 11, 12, 13, 14 const h_pd_526336, times 8 dd 8192*64+2048 const pb_LumaCoeffVer, times 16 db 0, 0 times 16 db 0, 64 times 16 db 0, 0 times 16 db 0, 0 times 16 db -1, 4 times 16 db -10, 58 times 16 db 17, -5 times 16 db 1, 0 times 16 db -1, 4 times 16 db -11, 40 times 16 db 40, -11 times 16 db 4, -1 times 16 db 0, 1 times 16 db -5, 17 times 16 db 58, -10 times 16 db 4, -1 const h_pw_LumaCoeffVer, times 8 dw 0, 0 times 8 dw 0, 64 times 8 dw 0, 0 times 8 dw 0, 0 times 8 dw -1, 4 times 8 dw -10, 58 times 8 dw 17, -5 times 8 dw 1, 0 times 8 dw -1, 4 times 8 dw -11, 40 times 8 dw 40, -11 times 8 dw 4, -1 times 8 dw 0, 1 times 8 dw -5, 17 times 8 dw 58, -10 times 8 dw 4, -1 const pb_8tap_hps_0, times 2 db 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8 times 2 db 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9,10 times 2 db 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9,10,10,11,11,12 times 2 db 6, 7, 7, 8, 8, 9, 9,10,10,11,11,12,12,13,13,14 ALIGN 32 interp4_hps_shuf: times 2 db 0, 1, 2, 3, 1, 2, 3, 4, 8, 9, 10, 11, 9, 10, 11, 12 SECTION .text cextern pw_1 cextern pw_32 cextern pw_2000 cextern pw_512 %macro PROCESS_LUMA_AVX2_W8_16R 1 movu xm0, [r0] ; m0 = row 0 movu xm1, [r0 + r1] ; m1 = row 1 punpckhwd xm2, xm0, xm1 punpcklwd xm0, xm1 vinserti128 m0, m0, xm2, 1 pmaddwd m0, [r5] movu xm2, [r0 + r1 * 2] ; m2 = row 2 punpckhwd xm3, xm1, xm2 punpcklwd xm1, xm2 vinserti128 m1, m1, xm3, 1 pmaddwd m1, [r5] movu xm3, [r0 + r4] ; m3 = row 3 punpckhwd xm4, xm2, xm3 punpcklwd xm2, xm3 vinserti128 m2, m2, xm4, 1 pmaddwd m4, m2, [r5 + 1 * mmsize] paddd m0, m4 pmaddwd m2, [r5] lea r7, [r0 + r1 * 4] movu xm4, [r7] ; m4 = row 4 punpckhwd xm5, xm3, xm4 punpcklwd xm3, xm4 vinserti128 m3, m3, xm5, 1 pmaddwd m5, m3, [r5 + 1 * mmsize] paddd m1, m5 pmaddwd m3, [r5] movu xm5, [r7 + r1] ; m5 = row 5 punpckhwd xm6, xm4, xm5 punpcklwd xm4, xm5 vinserti128 m4, m4, xm6, 1 pmaddwd m6, m4, [r5 + 2 * mmsize] paddd m0, m6 pmaddwd m6, m4, [r5 + 1 * mmsize] paddd m2, m6 pmaddwd m4, [r5] movu xm6, [r7 + r1 * 2] ; m6 = row 6 punpckhwd xm7, xm5, xm6 punpcklwd xm5, xm6 vinserti128 m5, m5, xm7, 1 pmaddwd m7, m5, [r5 + 2 * mmsize] paddd m1, m7 pmaddwd m7, m5, [r5 + 1 * mmsize] paddd m3, m7 pmaddwd m5, [r5] movu xm7, [r7 + r4] ; m7 = row 7 punpckhwd xm8, xm6, xm7 punpcklwd xm6, xm7 vinserti128 m6, m6, xm8, 1 pmaddwd m8, m6, [r5 + 3 * mmsize] paddd m0, m8 pmaddwd m8, m6, [r5 + 2 * mmsize] paddd m2, m8 pmaddwd m8, m6, [r5 + 1 * mmsize] paddd m4, m8 pmaddwd m6, [r5] lea r7, [r7 + r1 * 4] movu xm8, [r7] ; m8 = row 8 punpckhwd xm9, xm7, xm8 punpcklwd xm7, xm8 vinserti128 m7, m7, xm9, 1 pmaddwd m9, m7, [r5 + 3 * mmsize] paddd m1, m9 pmaddwd m9, m7, [r5 + 2 * mmsize] paddd m3, m9 pmaddwd m9, m7, [r5 + 1 * mmsize] paddd m5, m9 pmaddwd m7, [r5] movu xm9, [r7 + r1] ; m9 = row 9 punpckhwd xm10, xm8, xm9 punpcklwd xm8, xm9 vinserti128 m8, m8, xm10, 1 pmaddwd m10, m8, [r5 + 3 * mmsize] paddd m2, m10 pmaddwd m10, m8, [r5 + 2 * mmsize] paddd m4, m10 pmaddwd m10, m8, [r5 + 1 * mmsize] paddd m6, m10 pmaddwd m8, [r5] movu xm10, [r7 + r1 * 2] ; m10 = row 10 punpckhwd xm11, xm9, xm10 punpcklwd xm9, xm10 vinserti128 m9, m9, xm11, 1 pmaddwd m11, m9, [r5 + 3 * mmsize] paddd m3, m11 pmaddwd m11, m9, [r5 + 2 * mmsize] paddd m5, m11 pmaddwd m11, m9, [r5 + 1 * mmsize] paddd m7, m11 pmaddwd m9, [r5] movu xm11, [r7 + r4] ; m11 = row 11 punpckhwd xm12, xm10, xm11 punpcklwd xm10, xm11 vinserti128 m10, m10, xm12, 1 pmaddwd m12, m10, [r5 + 3 * mmsize] paddd m4, m12 pmaddwd m12, m10, [r5 + 2 * mmsize] paddd m6, m12 pmaddwd m12, m10, [r5 + 1 * mmsize] paddd m8, m12 pmaddwd m10, [r5] lea r7, [r7 + r1 * 4] movu xm12, [r7] ; m12 = row 12 punpckhwd xm13, xm11, xm12 punpcklwd xm11, xm12 vinserti128 m11, m11, xm13, 1 pmaddwd m13, m11, [r5 + 3 * mmsize] paddd m5, m13 pmaddwd m13, m11, [r5 + 2 * mmsize] paddd m7, m13 pmaddwd m13, m11, [r5 + 1 * mmsize] paddd m9, m13 pmaddwd m11, [r5] %ifidn %1,sp paddd m0, m14 paddd m1, m14 paddd m2, m14 paddd m3, m14 paddd m4, m14 paddd m5, m14 psrad m0, 12 psrad m1, 12 psrad m2, 12 psrad m3, 12 psrad m4, 12 psrad m5, 12 %else psrad m0, 6 psrad m1, 6 psrad m2, 6 psrad m3, 6 psrad m4, 6 psrad m5, 6 %endif packssdw m0, m1 packssdw m2, m3 packssdw m4, m5 %ifidn %1,sp packuswb m0, m2 mova m5, [h_interp8_hps_shuf] vpermd m0, m5, m0 vextracti128 xm2, m0, 1 movq [r2], xm0 movhps [r2 + r3], xm0 movq [r2 + r3 * 2], xm2 movhps [r2 + r6], xm2 %else vpermq m0, m0, 11011000b vpermq m2, m2, 11011000b vextracti128 xm1, m0, 1 vextracti128 xm3, m2, 1 movu [r2], xm0 movu [r2 + r3], xm1 movu [r2 + r3 * 2], xm2 movu [r2 + r6], xm3 %endif movu xm13, [r7 + r1] ; m13 = row 13 punpckhwd xm0, xm12, xm13 punpcklwd xm12, xm13 vinserti128 m12, m12, xm0, 1 pmaddwd m0, m12, [r5 + 3 * mmsize] paddd m6, m0 pmaddwd m0, m12, [r5 + 2 * mmsize] paddd m8, m0 pmaddwd m0, m12, [r5 + 1 * mmsize] paddd m10, m0 pmaddwd m12, [r5] movu xm0, [r7 + r1 * 2] ; m0 = row 14 punpckhwd xm1, xm13, xm0 punpcklwd xm13, xm0 vinserti128 m13, m13, xm1, 1 pmaddwd m1, m13, [r5 + 3 * mmsize] paddd m7, m1 pmaddwd m1, m13, [r5 + 2 * mmsize] paddd m9, m1 pmaddwd m1, m13, [r5 + 1 * mmsize] paddd m11, m1 pmaddwd m13, [r5] %ifidn %1,sp paddd m6, m14 paddd m7, m14 psrad m6, 12 psrad m7, 12 %else psrad m6, 6 psrad m7, 6 %endif packssdw m6, m7 lea r8, [r2 + r3 * 4] %ifidn %1,sp packuswb m4, m6 vpermd m4, m5, m4 vextracti128 xm6, m4, 1 movq [r8], xm4 movhps [r8 + r3], xm4 movq [r8 + r3 * 2], xm6 movhps [r8 + r6], xm6 %else vpermq m4, m4, 11011000b vpermq m6, m6, 11011000b vextracti128 xm1, m4, 1 vextracti128 xm7, m6, 1 movu [r8], xm4 movu [r8 + r3], xm1 movu [r8 + r3 * 2], xm6 movu [r8 + r6], xm7 %endif movu xm1, [r7 + r4] ; m1 = row 15 punpckhwd xm2, xm0, xm1 punpcklwd xm0, xm1 vinserti128 m0, m0, xm2, 1 pmaddwd m2, m0, [r5 + 3 * mmsize] paddd m8, m2 pmaddwd m2, m0, [r5 + 2 * mmsize] paddd m10, m2 pmaddwd m2, m0, [r5 + 1 * mmsize] paddd m12, m2 pmaddwd m0, [r5] lea r7, [r7 + r1 * 4] movu xm2, [r7] ; m2 = row 16 punpckhwd xm3, xm1, xm2 punpcklwd xm1, xm2 vinserti128 m1, m1, xm3, 1 pmaddwd m3, m1, [r5 + 3 * mmsize] paddd m9, m3 pmaddwd m3, m1, [r5 + 2 * mmsize] paddd m11, m3 pmaddwd m3, m1, [r5 + 1 * mmsize] paddd m13, m3 pmaddwd m1, [r5] movu xm3, [r7 + r1] ; m3 = row 17 punpckhwd xm4, xm2, xm3 punpcklwd xm2, xm3 vinserti128 m2, m2, xm4, 1 pmaddwd m4, m2, [r5 + 3 * mmsize] paddd m10, m4 pmaddwd m4, m2, [r5 + 2 * mmsize] paddd m12, m4 pmaddwd m2, [r5 + 1 * mmsize] paddd m0, m2 movu xm4, [r7 + r1 * 2] ; m4 = row 18 punpckhwd xm2, xm3, xm4 punpcklwd xm3, xm4 vinserti128 m3, m3, xm2, 1 pmaddwd m2, m3, [r5 + 3 * mmsize] paddd m11, m2 pmaddwd m2, m3, [r5 + 2 * mmsize] paddd m13, m2 pmaddwd m3, [r5 + 1 * mmsize] paddd m1, m3 movu xm2, [r7 + r4] ; m2 = row 19 punpckhwd xm6, xm4, xm2 punpcklwd xm4, xm2 vinserti128 m4, m4, xm6, 1 pmaddwd m6, m4, [r5 + 3 * mmsize] paddd m12, m6 pmaddwd m4, [r5 + 2 * mmsize] paddd m0, m4 lea r7, [r7 + r1 * 4] movu xm6, [r7] ; m6 = row 20 punpckhwd xm7, xm2, xm6 punpcklwd xm2, xm6 vinserti128 m2, m2, xm7, 1 pmaddwd m7, m2, [r5 + 3 * mmsize] paddd m13, m7 pmaddwd m2, [r5 + 2 * mmsize] paddd m1, m2 movu xm7, [r7 + r1] ; m7 = row 21 punpckhwd xm2, xm6, xm7 punpcklwd xm6, xm7 vinserti128 m6, m6, xm2, 1 pmaddwd m6, [r5 + 3 * mmsize] paddd m0, m6 movu xm2, [r7 + r1 * 2] ; m2 = row 22 punpckhwd xm3, xm7, xm2 punpcklwd xm7, xm2 vinserti128 m7, m7, xm3, 1 pmaddwd m7, [r5 + 3 * mmsize] paddd m1, m7 %ifidn %1,sp paddd m8, m14 paddd m9, m14 paddd m10, m14 paddd m11, m14 paddd m12, m14 paddd m13, m14 paddd m0, m14 paddd m1, m14 psrad m8, 12 psrad m9, 12 psrad m10, 12 psrad m11, 12 psrad m12, 12 psrad m13, 12 psrad m0, 12 psrad m1, 12 %else psrad m8, 6 psrad m9, 6 psrad m10, 6 psrad m11, 6 psrad m12, 6 psrad m13, 6 psrad m0, 6 psrad m1, 6 %endif packssdw m8, m9 packssdw m10, m11 packssdw m12, m13 packssdw m0, m1 lea r8, [r8 + r3 * 4] %ifidn %1,sp packuswb m8, m10 packuswb m12, m0 vpermd m8, m5, m8 vpermd m12, m5, m12 vextracti128 xm10, m8, 1 vextracti128 xm0, m12, 1 movq [r8], xm8 movhps [r8 + r3], xm8 movq [r8 + r3 * 2], xm10 movhps [r8 + r6], xm10 lea r8, [r8 + r3 * 4] movq [r8], xm12 movhps [r8 + r3], xm12 movq [r8 + r3 * 2], xm0 movhps [r8 + r6], xm0 %else vpermq m8, m8, 11011000b vpermq m10, m10, 11011000b vpermq m12, m12, 11011000b vpermq m0, m0, 11011000b vextracti128 xm9, m8, 1 vextracti128 xm11, m10, 1 vextracti128 xm13, m12, 1 vextracti128 xm1, m0, 1 movu [r8], xm8 movu [r8 + r3], xm9 movu [r8 + r3 * 2], xm10 movu [r8 + r6], xm11 lea r8, [r8 + r3 * 4] movu [r8], xm12 movu [r8 + r3], xm13 movu [r8 + r3 * 2], xm0 movu [r8 + r6], xm1 %endif %endmacro %macro FILTER_H8_W8_sse2 0 movh m1, [r0 + x - 3] movh m4, [r0 + x - 2] punpcklbw m1, m6 punpcklbw m4, m6 movh m5, [r0 + x - 1] movh m0, [r0 + x] punpcklbw m5, m6 punpcklbw m0, m6 pmaddwd m1, m3 pmaddwd m4, m3 pmaddwd m5, m3 pmaddwd m0, m3 packssdw m1, m4 packssdw m5, m0 pshuflw m4, m1, q2301 pshufhw m4, m4, q2301 pshuflw m0, m5, q2301 pshufhw m0, m0, q2301 paddw m1, m4 paddw m5, m0 psrldq m1, 2 psrldq m5, 2 pshufd m1, m1, q3120 pshufd m5, m5, q3120 punpcklqdq m1, m5 movh m7, [r0 + x + 1] movh m4, [r0 + x + 2] punpcklbw m7, m6 punpcklbw m4, m6 movh m5, [r0 + x + 3] movh m0, [r0 + x + 4] punpcklbw m5, m6 punpcklbw m0, m6 pmaddwd m7, m3 pmaddwd m4, m3 pmaddwd m5, m3 pmaddwd m0, m3 packssdw m7, m4 packssdw m5, m0 pshuflw m4, m7, q2301 pshufhw m4, m4, q2301 pshuflw m0, m5, q2301 pshufhw m0, m0, q2301 paddw m7, m4 paddw m5, m0 psrldq m7, 2 psrldq m5, 2 pshufd m7, m7, q3120 pshufd m5, m5, q3120 punpcklqdq m7, m5 pshuflw m4, m1, q2301 pshufhw m4, m4, q2301 pshuflw m0, m7, q2301 pshufhw m0, m0, q2301 paddw m1, m4 paddw m7, m0 psrldq m1, 2 psrldq m7, 2 pshufd m1, m1, q3120 pshufd m7, m7, q3120 punpcklqdq m1, m7 %endmacro %macro FILTER_H8_W4_sse2 0 movh m1, [r0 + x - 3] movh m0, [r0 + x - 2] punpcklbw m1, m6 punpcklbw m0, m6 movh m4, [r0 + x - 1] movh m5, [r0 + x] punpcklbw m4, m6 punpcklbw m5, m6 pmaddwd m1, m3 pmaddwd m0, m3 pmaddwd m4, m3 pmaddwd m5, m3 packssdw m1, m0 packssdw m4, m5 pshuflw m0, m1, q2301 pshufhw m0, m0, q2301 pshuflw m5, m4, q2301 pshufhw m5, m5, q2301 paddw m1, m0 paddw m4, m5 psrldq m1, 2 psrldq m4, 2 pshufd m1, m1, q3120 pshufd m4, m4, q3120 punpcklqdq m1, m4 pshuflw m0, m1, q2301 pshufhw m0, m0, q2301 paddw m1, m0 psrldq m1, 2 pshufd m1, m1, q3120 %endmacro ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_%3_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA_sse2 3 INIT_XMM sse2 cglobal interp_8tap_horiz_%3_%1x%2, 4,6,8 mov r4d, r4m add r4d, r4d pxor m6, m6 %ifidn %3, ps add r3d, r3d cmp r5m, byte 0 %endif %ifdef PIC lea r5, [h_tabw_LumaCoeff] movu m3, [r5 + r4 * 8] %else movu m3, [h_tabw_LumaCoeff + r4 * 8] %endif mov r4d, %2 %ifidn %3, pp mova m2, [pw_32] %else mova m2, [pw_2000] je .loopH lea r5, [r1 + 2 * r1] sub r0, r5 add r4d, 7 %endif .loopH: %assign x 0 %rep %1 / 8 FILTER_H8_W8_sse2 %ifidn %3, pp paddw m1, m2 psraw m1, 6 packuswb m1, m1 movh [r2 + x], m1 %else psubw m1, m2 movu [r2 + 2 * x], m1 %endif %assign x x+8 %endrep %rep (%1 % 8) / 4 FILTER_H8_W4_sse2 %ifidn %3, pp paddw m1, m2 psraw m1, 6 packuswb m1, m1 movd [r2 + x], m1 %else psubw m1, m2 movh [r2 + 2 * x], m1 %endif %endrep add r0, r1 add r2, r3 dec r4d jnz .loopH RET %endmacro ;-------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_pp_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;-------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA_sse2 4, 4, pp IPFILTER_LUMA_sse2 4, 8, pp IPFILTER_LUMA_sse2 8, 4, pp IPFILTER_LUMA_sse2 8, 8, pp IPFILTER_LUMA_sse2 16, 16, pp IPFILTER_LUMA_sse2 16, 8, pp IPFILTER_LUMA_sse2 8, 16, pp IPFILTER_LUMA_sse2 16, 12, pp IPFILTER_LUMA_sse2 12, 16, pp IPFILTER_LUMA_sse2 16, 4, pp IPFILTER_LUMA_sse2 4, 16, pp IPFILTER_LUMA_sse2 32, 32, pp IPFILTER_LUMA_sse2 32, 16, pp IPFILTER_LUMA_sse2 16, 32, pp IPFILTER_LUMA_sse2 32, 24, pp IPFILTER_LUMA_sse2 24, 32, pp IPFILTER_LUMA_sse2 32, 8, pp IPFILTER_LUMA_sse2 8, 32, pp IPFILTER_LUMA_sse2 64, 64, pp IPFILTER_LUMA_sse2 64, 32, pp IPFILTER_LUMA_sse2 32, 64, pp IPFILTER_LUMA_sse2 64, 48, pp IPFILTER_LUMA_sse2 48, 64, pp IPFILTER_LUMA_sse2 64, 16, pp IPFILTER_LUMA_sse2 16, 64, pp ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_ps_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA_sse2 4, 4, ps IPFILTER_LUMA_sse2 8, 8, ps IPFILTER_LUMA_sse2 8, 4, ps IPFILTER_LUMA_sse2 4, 8, ps IPFILTER_LUMA_sse2 16, 16, ps IPFILTER_LUMA_sse2 16, 8, ps IPFILTER_LUMA_sse2 8, 16, ps IPFILTER_LUMA_sse2 16, 12, ps IPFILTER_LUMA_sse2 12, 16, ps IPFILTER_LUMA_sse2 16, 4, ps IPFILTER_LUMA_sse2 4, 16, ps IPFILTER_LUMA_sse2 32, 32, ps IPFILTER_LUMA_sse2 32, 16, ps IPFILTER_LUMA_sse2 16, 32, ps IPFILTER_LUMA_sse2 32, 24, ps IPFILTER_LUMA_sse2 24, 32, ps IPFILTER_LUMA_sse2 32, 8, ps IPFILTER_LUMA_sse2 8, 32, ps IPFILTER_LUMA_sse2 64, 64, ps IPFILTER_LUMA_sse2 64, 32, ps IPFILTER_LUMA_sse2 32, 64, ps IPFILTER_LUMA_sse2 64, 48, ps IPFILTER_LUMA_sse2 48, 64, ps IPFILTER_LUMA_sse2 64, 16, ps IPFILTER_LUMA_sse2 16, 64, ps %macro FILTER_H4_w2_2_sse2 0 pxor m3, m3 movd m0, [srcq - 1] movd m2, [srcq] punpckldq m0, m2 punpcklbw m0, m3 movd m1, [srcq + srcstrideq - 1] movd m2, [srcq + srcstrideq] punpckldq m1, m2 punpcklbw m1, m3 pmaddwd m0, m4 pmaddwd m1, m4 packssdw m0, m1 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 paddw m0, m1 psrld m0, 16 packssdw m0, m0 paddw m0, m5 psraw m0, 6 packuswb m0, m0 movd r4d, m0 mov [dstq], r4w shr r4, 16 mov [dstq + dststrideq], r4w %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2xN(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro FILTER_H4_W2xN_sse3 1 INIT_XMM sse3 cglobal interp_4tap_horiz_pp_2x%1, 4, 6, 6, src, srcstride, dst, dststride mov r4d, r4m mova m5, [pw_32] %ifdef PIC lea r5, [h_tabw_ChromaCoeff] movddup m4, [r5 + r4 * 8] %else movddup m4, [h_tabw_ChromaCoeff + r4 * 8] %endif %assign x 1 %rep %1/2 FILTER_H4_w2_2_sse2 %if x < %1/2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endif %assign x x+1 %endrep RET %endmacro FILTER_H4_W2xN_sse3 4 FILTER_H4_W2xN_sse3 8 FILTER_H4_W2xN_sse3 16 %macro FILTER_H4_w4_2_sse2 0 pxor m5, m5 movd m0, [srcq - 1] movd m6, [srcq] punpckldq m0, m6 punpcklbw m0, m5 movd m1, [srcq + 1] movd m6, [srcq + 2] punpckldq m1, m6 punpcklbw m1, m5 movd m2, [srcq + srcstrideq - 1] movd m6, [srcq + srcstrideq] punpckldq m2, m6 punpcklbw m2, m5 movd m3, [srcq + srcstrideq + 1] movd m6, [srcq + srcstrideq + 2] punpckldq m3, m6 punpcklbw m3, m5 pmaddwd m0, m4 pmaddwd m1, m4 pmaddwd m2, m4 pmaddwd m3, m4 packssdw m0, m1 packssdw m2, m3 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 pshuflw m3, m2, q2301 pshufhw m3, m3, q2301 paddw m0, m1 paddw m2, m3 psrld m0, 16 psrld m2, 16 packssdw m0, m2 paddw m0, m7 psraw m0, 6 packuswb m0, m2 movd [dstq], m0 psrldq m0, 4 movd [dstq + dststrideq], m0 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x32(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro FILTER_H4_W4xN_sse3 1 INIT_XMM sse3 cglobal interp_4tap_horiz_pp_4x%1, 4, 6, 8, src, srcstride, dst, dststride mov r4d, r4m mova m7, [pw_32] %ifdef PIC lea r5, [h_tabw_ChromaCoeff] movddup m4, [r5 + r4 * 8] %else movddup m4, [h_tabw_ChromaCoeff + r4 * 8] %endif %assign x 1 %rep %1/2 FILTER_H4_w4_2_sse2 %if x < %1/2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endif %assign x x+1 %endrep RET %endmacro FILTER_H4_W4xN_sse3 2 FILTER_H4_W4xN_sse3 4 FILTER_H4_W4xN_sse3 8 FILTER_H4_W4xN_sse3 16 FILTER_H4_W4xN_sse3 32 %macro FILTER_H4_w6_sse2 0 pxor m4, m4 movh m0, [srcq - 1] movh m5, [srcq] punpckldq m0, m5 movhlps m2, m0 punpcklbw m0, m4 punpcklbw m2, m4 movd m1, [srcq + 1] movd m5, [srcq + 2] punpckldq m1, m5 punpcklbw m1, m4 pmaddwd m0, m6 pmaddwd m1, m6 pmaddwd m2, m6 packssdw m0, m1 packssdw m2, m2 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 pshuflw m3, m2, q2301 paddw m0, m1 paddw m2, m3 psrld m0, 16 psrld m2, 16 packssdw m0, m2 paddw m0, m7 psraw m0, 6 packuswb m0, m0 movd [dstq], m0 pextrw r4d, m0, 2 mov [dstq + 4], r4w %endmacro %macro FILH4W8_sse2 1 movh m0, [srcq - 1 + %1] movh m5, [srcq + %1] punpckldq m0, m5 movhlps m2, m0 punpcklbw m0, m4 punpcklbw m2, m4 movh m1, [srcq + 1 + %1] movh m5, [srcq + 2 + %1] punpckldq m1, m5 movhlps m3, m1 punpcklbw m1, m4 punpcklbw m3, m4 pmaddwd m0, m6 pmaddwd m1, m6 pmaddwd m2, m6 pmaddwd m3, m6 packssdw m0, m1 packssdw m2, m3 pshuflw m1, m0, q2301 pshufhw m1, m1, q2301 pshuflw m3, m2, q2301 pshufhw m3, m3, q2301 paddw m0, m1 paddw m2, m3 psrld m0, 16 psrld m2, 16 packssdw m0, m2 paddw m0, m7 psraw m0, 6 packuswb m0, m0 movh [dstq + %1], m0 %endmacro %macro FILTER_H4_w8_sse2 0 FILH4W8_sse2 0 %endmacro %macro FILTER_H4_w12_sse2 0 FILH4W8_sse2 0 movd m1, [srcq - 1 + 8] movd m3, [srcq + 8] punpckldq m1, m3 punpcklbw m1, m4 movd m2, [srcq + 1 + 8] movd m3, [srcq + 2 + 8] punpckldq m2, m3 punpcklbw m2, m4 pmaddwd m1, m6 pmaddwd m2, m6 packssdw m1, m2 pshuflw m2, m1, q2301 pshufhw m2, m2, q2301 paddw m1, m2 psrld m1, 16 packssdw m1, m1 paddw m1, m7 psraw m1, 6 packuswb m1, m1 movd [dstq + 8], m1 %endmacro %macro FILTER_H4_w16_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 %endmacro %macro FILTER_H4_w24_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 %endmacro %macro FILTER_H4_w32_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 FILH4W8_sse2 24 %endmacro %macro FILTER_H4_w48_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 FILH4W8_sse2 24 FILH4W8_sse2 32 FILH4W8_sse2 40 %endmacro %macro FILTER_H4_w64_sse2 0 FILH4W8_sse2 0 FILH4W8_sse2 8 FILH4W8_sse2 16 FILH4W8_sse2 24 FILH4W8_sse2 32 FILH4W8_sse2 40 FILH4W8_sse2 48 FILH4W8_sse2 56 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro IPFILTER_CHROMA_sse3 2 INIT_XMM sse3 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 8, src, srcstride, dst, dststride mov r4d, r4m mova m7, [pw_32] pxor m4, m4 %ifdef PIC lea r5, [h_tabw_ChromaCoeff] movddup m6, [r5 + r4 * 8] %else movddup m6, [h_tabw_ChromaCoeff + r4 * 8] %endif %assign x 1 %rep %2 FILTER_H4_w%1_sse2 %if x < %2 add srcq, srcstrideq add dstq, dststrideq %endif %assign x x+1 %endrep RET %endmacro IPFILTER_CHROMA_sse3 6, 8 IPFILTER_CHROMA_sse3 8, 2 IPFILTER_CHROMA_sse3 8, 4 IPFILTER_CHROMA_sse3 8, 6 IPFILTER_CHROMA_sse3 8, 8 IPFILTER_CHROMA_sse3 8, 16 IPFILTER_CHROMA_sse3 8, 32 IPFILTER_CHROMA_sse3 12, 16 IPFILTER_CHROMA_sse3 6, 16 IPFILTER_CHROMA_sse3 8, 12 IPFILTER_CHROMA_sse3 8, 64 IPFILTER_CHROMA_sse3 12, 32 IPFILTER_CHROMA_sse3 16, 4 IPFILTER_CHROMA_sse3 16, 8 IPFILTER_CHROMA_sse3 16, 12 IPFILTER_CHROMA_sse3 16, 16 IPFILTER_CHROMA_sse3 16, 32 IPFILTER_CHROMA_sse3 32, 8 IPFILTER_CHROMA_sse3 32, 16 IPFILTER_CHROMA_sse3 32, 24 IPFILTER_CHROMA_sse3 24, 32 IPFILTER_CHROMA_sse3 32, 32 IPFILTER_CHROMA_sse3 16, 24 IPFILTER_CHROMA_sse3 16, 64 IPFILTER_CHROMA_sse3 32, 48 IPFILTER_CHROMA_sse3 24, 64 IPFILTER_CHROMA_sse3 32, 64 IPFILTER_CHROMA_sse3 64, 64 IPFILTER_CHROMA_sse3 64, 32 IPFILTER_CHROMA_sse3 64, 48 IPFILTER_CHROMA_sse3 48, 64 IPFILTER_CHROMA_sse3 64, 16 %macro FILTER_2 2 movd m3, [srcq + %1] movd m4, [srcq + 1 + %1] punpckldq m3, m4 punpcklbw m3, m0 pmaddwd m3, m1 packssdw m3, m3 pshuflw m4, m3, q2301 paddw m3, m4 psrldq m3, 2 psubw m3, m2 movd [dstq + %2], m3 %endmacro %macro FILTER_4 2 movd m3, [srcq + %1] movd m4, [srcq + 1 + %1] punpckldq m3, m4 punpcklbw m3, m0 pmaddwd m3, m1 movd m4, [srcq + 2 + %1] movd m5, [srcq + 3 + %1] punpckldq m4, m5 punpcklbw m4, m0 pmaddwd m4, m1 packssdw m3, m4 pshuflw m4, m3, q2301 pshufhw m4, m4, q2301 paddw m3, m4 psrldq m3, 2 pshufd m3, m3, q3120 psubw m3, m2 movh [dstq + %2], m3 %endmacro %macro FILTER_4TAP_HPS_sse3 2 INIT_XMM sse3 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 6, src, srcstride, dst, dststride mov r4d, r4m add dststrided, dststrided mova m2, [pw_2000] pxor m0, m0 %ifdef PIC lea r6, [h_tabw_ChromaCoeff] movddup m1, [r6 + r4 * 8] %else movddup m1, [h_tabw_ChromaCoeff + r4 * 8] %endif mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: %assign x -1 %assign y 0 %rep %1/4 FILTER_4 x,y %assign x x+4 %assign y y+8 %endrep %rep (%1 % 4)/2 FILTER_2 x,y %endrep add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_4TAP_HPS_sse3 2, 4 FILTER_4TAP_HPS_sse3 2, 8 FILTER_4TAP_HPS_sse3 2, 16 FILTER_4TAP_HPS_sse3 4, 2 FILTER_4TAP_HPS_sse3 4, 4 FILTER_4TAP_HPS_sse3 4, 8 FILTER_4TAP_HPS_sse3 4, 16 FILTER_4TAP_HPS_sse3 4, 32 FILTER_4TAP_HPS_sse3 6, 8 FILTER_4TAP_HPS_sse3 6, 16 FILTER_4TAP_HPS_sse3 8, 2 FILTER_4TAP_HPS_sse3 8, 4 FILTER_4TAP_HPS_sse3 8, 6 FILTER_4TAP_HPS_sse3 8, 8 FILTER_4TAP_HPS_sse3 8, 12 FILTER_4TAP_HPS_sse3 8, 16 FILTER_4TAP_HPS_sse3 8, 32 FILTER_4TAP_HPS_sse3 8, 64 FILTER_4TAP_HPS_sse3 12, 16 FILTER_4TAP_HPS_sse3 12, 32 FILTER_4TAP_HPS_sse3 16, 4 FILTER_4TAP_HPS_sse3 16, 8 FILTER_4TAP_HPS_sse3 16, 12 FILTER_4TAP_HPS_sse3 16, 16 FILTER_4TAP_HPS_sse3 16, 24 FILTER_4TAP_HPS_sse3 16, 32 FILTER_4TAP_HPS_sse3 16, 64 FILTER_4TAP_HPS_sse3 24, 32 FILTER_4TAP_HPS_sse3 24, 64 FILTER_4TAP_HPS_sse3 32, 8 FILTER_4TAP_HPS_sse3 32, 16 FILTER_4TAP_HPS_sse3 32, 24 FILTER_4TAP_HPS_sse3 32, 32 FILTER_4TAP_HPS_sse3 32, 48 FILTER_4TAP_HPS_sse3 32, 64 FILTER_4TAP_HPS_sse3 48, 64 FILTER_4TAP_HPS_sse3 64, 16 FILTER_4TAP_HPS_sse3 64, 32 FILTER_4TAP_HPS_sse3 64, 48 FILTER_4TAP_HPS_sse3 64, 64 %macro FILTER_H4_w2_2 3 movh %2, [srcq - 1] pshufb %2, %2, Tm0 movh %1, [srcq + srcstrideq - 1] pshufb %1, %1, Tm0 punpcklqdq %2, %1 pmaddubsw %2, coef2 phaddw %2, %2 pmulhrsw %2, %3 packuswb %2, %2 movd r4d, %2 mov [dstq], r4w shr r4, 16 mov [dstq + dststrideq], r4w %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2x4(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_2x4, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 2 FILTER_H4_w2_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2x8(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_2x8, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 4 FILTER_H4_w2_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_2x16(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_2x16, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mov r5d, 16/2 .loop: FILTER_H4_w2_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] dec r5d jnz .loop RET %macro FILTER_H4_w4_2 3 movh %2, [srcq - 1] pshufb %2, %2, Tm0 pmaddubsw %2, coef2 movh %1, [srcq + srcstrideq - 1] pshufb %1, %1, Tm0 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movd [dstq], %2 palignr %2, %2, 4 movd [dstq + dststrideq], %2 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x2, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] FILTER_H4_w4_2 t0, t1, t2 RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x4(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x4, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 2 FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x8(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x8, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 4 FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x16(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x16, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] %rep 8 FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] %endrep RET ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4x32(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- INIT_XMM sse4 cglobal interp_4tap_horiz_pp_4x32, 4, 6, 5, src, srcstride, dst, dststride %define coef2 m4 %define Tm0 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mov r5d, 32/2 .loop: FILTER_H4_w4_2 t0, t1, t2 lea srcq, [srcq + srcstrideq * 2] lea dstq, [dstq + dststrideq * 2] dec r5d jnz .loop RET ALIGN 32 const interp_4tap_8x8_horiz_shuf, dd 0, 4, 1, 5, 2, 6, 3, 7 %macro FILTER_H4_w6 3 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movd [dstq], %2 pextrw [dstq + 4], %2, 2 %endmacro %macro FILTER_H4_w8 3 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movh [dstq], %2 %endmacro %macro FILTER_H4_w12 3 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 movu %1, [srcq - 1 + 8] pshufb %1, %1, Tm0 pmaddubsw %1, coef2 phaddw %1, %1 pmulhrsw %1, %3 packuswb %2, %1 movh [dstq], %2 pextrd [dstq + 8], %2, 2 %endmacro %macro FILTER_H4_w16 4 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq], %2 %endmacro %macro FILTER_H4_w24 4 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq], %2 movu %1, [srcq - 1 + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 pmulhrsw %2, %3 packuswb %2, %2 movh [dstq + 16], %2 %endmacro %macro FILTER_H4_w32 4 movu %1, [srcq - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq], %2 movu %1, [srcq - 1 + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq - 1 + 24] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq + 16], %2 %endmacro %macro FILTER_H4_w16o 5 movu %1, [srcq + %5 - 1] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + %5 - 1 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 pmulhrsw %2, %3 pmulhrsw %4, %3 packuswb %2, %4 movu [dstq + %5], %2 %endmacro %macro FILTER_H4_w48 4 FILTER_H4_w16o %1, %2, %3, %4, 0 FILTER_H4_w16o %1, %2, %3, %4, 16 FILTER_H4_w16o %1, %2, %3, %4, 32 %endmacro %macro FILTER_H4_w64 4 FILTER_H4_w16o %1, %2, %3, %4, 0 FILTER_H4_w16o %1, %2, %3, %4, 16 FILTER_H4_w16o %1, %2, %3, %4, 32 FILTER_H4_w16o %1, %2, %3, %4, 48 %endmacro ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro IPFILTER_CHROMA 2 INIT_XMM sse4 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 6, src, srcstride, dst, dststride %define coef2 m5 %define Tm0 m4 %define Tm1 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif mov r5d, %2 pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] .loop: FILTER_H4_w%1 t0, t1, t2 add srcq, srcstrideq add dstq, dststrideq dec r5d jnz .loop RET %endmacro IPFILTER_CHROMA 6, 8 IPFILTER_CHROMA 8, 2 IPFILTER_CHROMA 8, 4 IPFILTER_CHROMA 8, 6 IPFILTER_CHROMA 8, 8 IPFILTER_CHROMA 8, 16 IPFILTER_CHROMA 8, 32 IPFILTER_CHROMA 12, 16 IPFILTER_CHROMA 6, 16 IPFILTER_CHROMA 8, 12 IPFILTER_CHROMA 8, 64 IPFILTER_CHROMA 12, 32 ;----------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;----------------------------------------------------------------------------- %macro IPFILTER_CHROMA_W 2 INIT_XMM sse4 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 7, src, srcstride, dst, dststride %define coef2 m6 %define Tm0 m5 %define Tm1 m4 %define t3 m3 %define t2 m2 %define t1 m1 %define t0 m0 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] movd coef2, [r5 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif mov r5d, %2 pshufd coef2, coef2, 0 mova t2, [pw_512] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] .loop: FILTER_H4_w%1 t0, t1, t2, t3 add srcq, srcstrideq add dstq, dststrideq dec r5d jnz .loop RET %endmacro IPFILTER_CHROMA_W 16, 4 IPFILTER_CHROMA_W 16, 8 IPFILTER_CHROMA_W 16, 12 IPFILTER_CHROMA_W 16, 16 IPFILTER_CHROMA_W 16, 32 IPFILTER_CHROMA_W 32, 8 IPFILTER_CHROMA_W 32, 16 IPFILTER_CHROMA_W 32, 24 IPFILTER_CHROMA_W 24, 32 IPFILTER_CHROMA_W 32, 32 IPFILTER_CHROMA_W 16, 24 IPFILTER_CHROMA_W 16, 64 IPFILTER_CHROMA_W 32, 48 IPFILTER_CHROMA_W 24, 64 IPFILTER_CHROMA_W 32, 64 IPFILTER_CHROMA_W 64, 64 IPFILTER_CHROMA_W 64, 32 IPFILTER_CHROMA_W 64, 48 IPFILTER_CHROMA_W 48, 64 IPFILTER_CHROMA_W 64, 16 %macro FILTER_H8_W8 7-8 ; t0, t1, t2, t3, coef, c512, src, dst movu %1, %7 pshufb %2, %1, [h_tab_Lm + 0] pmaddubsw %2, %5 pshufb %3, %1, [h_tab_Lm + 16] pmaddubsw %3, %5 phaddw %2, %3 pshufb %4, %1, [h_tab_Lm + 32] pmaddubsw %4, %5 pshufb %1, %1, [h_tab_Lm + 48] pmaddubsw %1, %5 phaddw %4, %1 phaddw %2, %4 %if %0 == 8 pmulhrsw %2, %6 packuswb %2, %2 movh %8, %2 %endif %endmacro %macro FILTER_H8_W4 2 movu %1, [r0 - 3 + r5] pshufb %2, %1, [h_tab_Lm] pmaddubsw %2, m3 pshufb m7, %1, [h_tab_Lm + 16] pmaddubsw m7, m3 phaddw %2, m7 phaddw %2, %2 %endmacro ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_%3_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA 3 INIT_XMM sse4 cglobal interp_8tap_horiz_%3_%1x%2, 4,7,8 mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] movh m3, [r6 + r4 * 8] %else movh m3, [h_tab_LumaCoeff + r4 * 8] %endif punpcklqdq m3, m3 %ifidn %3, pp mova m2, [pw_512] %else mova m2, [pw_2000] %endif mov r4d, %2 %ifidn %3, ps add r3, r3 cmp r5m, byte 0 je .loopH lea r6, [r1 + 2 * r1] sub r0, r6 add r4d, 7 %endif .loopH: xor r5, r5 %rep %1 / 8 %ifidn %3, pp FILTER_H8_W8 m0, m1, m4, m5, m3, m2, [r0 - 3 + r5], [r2 + r5] %else FILTER_H8_W8 m0, m1, m4, m5, m3, UNUSED, [r0 - 3 + r5] psubw m1, m2 movu [r2 + 2 * r5], m1 %endif add r5, 8 %endrep %rep (%1 % 8) / 4 FILTER_H8_W4 m0, m1 %ifidn %3, pp pmulhrsw m1, m2 packuswb m1, m1 movd [r2 + r5], m1 %else psubw m1, m2 movh [r2 + 2 * r5], m1 %endif %endrep add r0, r1 add r2, r3 dec r4d jnz .loopH RET %endmacro INIT_YMM avx2 cglobal interp_8tap_horiz_pp_4x4, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 sub r0, 3 ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 phaddd m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 2-3 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 phaddd m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] packssdw m3, m4 ; WORD [R3D R3C R2D R2C R1D R1C R0D R0C R3B R3A R2B R2A R1B R1A R0B R0A] pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 ; BYTE [R3D R3C R2D R2C R1D R1C R0D R0C R3B R3A R2B R2A R1B R1A R0B R0A] pshufb xm3, [interp4_shuf] ; [row3 row1 row2 row0] lea r0, [r3 * 3] movd [r2], xm3 pextrd [r2+r3], xm3, 2 pextrd [r2+r3*2], xm3, 1 pextrd [r2+r0], xm3, 3 RET %macro FILTER_HORIZ_LUMA_AVX2_4xN 1 INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_horiz_pp_4x%1, 4, 6, 9 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] mova m2, [pw_1] mova m7, [h_interp8_hps_shuf] mova m8, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 lea r4, [r1 * 3] lea r5, [r3 * 3] sub r0, 3 %rep %1 / 8 ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 phaddd m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 2-3 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 phaddd m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] packssdw m3, m4 ; WORD [R3D R3C R2D R2C R1D R1C R0D R0C R3B R3A R2B R2A R1B R1A R0B R0A] lea r0, [r0 + r1 * 4] ; Row 4-5 vbroadcasti128 m5, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 phaddd m5, m4 ; DWORD [R5D R5C R4D R4C R5B R5A R4B R4A] ; Row 6-7 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m6, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m6, m1 pmaddubsw m6, m0 pmaddwd m6, m2 phaddd m4, m6 ; DWORD [R7D R7C R6D R6C R7B R7A R6B R6A] packssdw m5, m4 ; WORD [R7D R7C R6D R6C R5D R5C R4D R4C R7B R7A R6B R6A R5B R5A R4B R4A] vpermd m3, m7, m3 vpermd m5, m7, m5 pmulhrsw m3, m8 pmulhrsw m5, m8 packuswb m3, m5 vextracti128 xm5, m3, 1 movd [r2], xm3 pextrd [r2 + r3], xm3, 1 movd [r2 + r3 * 2], xm5 pextrd [r2 + r5], xm5, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm3, 2 pextrd [r2 + r3], xm3, 3 pextrd [r2 + r3 * 2], xm5, 2 pextrd [r2 + r5], xm5, 3 lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] %endrep RET %endif %endmacro FILTER_HORIZ_LUMA_AVX2_4xN 8 FILTER_HORIZ_LUMA_AVX2_4xN 16 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_8x4, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] mova m2, [h_tab_Lm + 32] ; register map ; m0 - interpolate coeff ; m1, m2 - shuffle order table sub r0, 3 lea r5, [r1 * 3] lea r4, [r3 * 3] ; Row 0 vbroadcasti128 m3, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m2 pshufb m3, m1 pmaddubsw m3, m0 pmaddubsw m4, m0 phaddw m3, m4 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 phaddw m3, m4 ; WORD [R1H R1G R1D R1C R0H R0G R0D R0C R1F R1E R1B R1A R0F R0E R0B R0A] pmulhrsw m3, [pw_512] ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 ; Row 3 vbroadcasti128 m5, [r0 + r5] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m6, m5, m2 pshufb m5, m1 pmaddubsw m5, m0 pmaddubsw m6, m0 phaddw m5, m6 phaddw m4, m5 ; WORD [R3H R3G R3D R3C R2H R2G R2D R2C R3F R3E R3B R3A R2F R2E R2B R2A] pmulhrsw m4, [pw_512] packuswb m3, m4 vextracti128 xm4, m3, 1 punpcklwd xm5, xm3, xm4 movq [r2], xm5 movhps [r2 + r3], xm5 punpckhwd xm5, xm3, xm4 movq [r2 + r3 * 2], xm5 movhps [r2 + r4], xm5 RET %macro IPFILTER_LUMA_AVX2_8xN 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4, 7, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastq m0, [r5 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] mova m2, [h_tab_Lm + 32] ; register map ; m0 - interpolate coeff ; m1, m2 - shuffle order table sub r0, 3 lea r5, [r1 * 3] lea r6, [r3 * 3] mov r4d, %2 / 4 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m2 pshufb m3, m1 pmaddubsw m3, m0 pmaddubsw m4, m0 phaddw m3, m4 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 phaddw m3, m4 ; WORD [R1H R1G R1D R1C R0H R0G R0D R0C R1F R1E R1B R1A R0F R0E R0B R0A] pmulhrsw m3, [pw_512] ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m2 pshufb m4, m1 pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 ; Row 3 vbroadcasti128 m5, [r0 + r5] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m6, m5, m2 pshufb m5, m1 pmaddubsw m5, m0 pmaddubsw m6, m0 phaddw m5, m6 phaddw m4, m5 ; WORD [R3H R3G R3D R3C R2H R2G R2D R2C R3F R3E R3B R3A R2F R2E R2B R2A] pmulhrsw m4, [pw_512] packuswb m3, m4 vextracti128 xm4, m3, 1 punpcklwd xm5, xm3, xm4 movq [r2], xm5 movhps [r2 + r3], xm5 punpckhwd xm5, xm3, xm4 movq [r2 + r3 * 2], xm5 movhps [r2 + r6], xm5 lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] dec r4d jnz .loop RET %endmacro IPFILTER_LUMA_AVX2_8xN 8, 8 IPFILTER_LUMA_AVX2_8xN 8, 16 IPFILTER_LUMA_AVX2_8xN 8, 32 %macro IPFILTER_LUMA_AVX2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, %2/2 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] ; second 8 elements in Row0 pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + r1] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + r1 + 8] ; second 8 elements in Row0 pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2+r3], xm5 lea r0, [r0 + r1 * 2] lea r2, [r2 + r3 * 2] dec r4d jnz .loop RET %endmacro %macro IPFILTER_LUMA_32x_avx2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, %2 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 24] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2 + 16], xm5 lea r0, [r0 + r1] lea r2, [r2 + r3] dec r4d jnz .loop RET %endmacro %macro IPFILTER_LUMA_64x_avx2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, %2 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 24] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2 + 16], xm5 vbroadcasti128 m4, [r0 + 32] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 40] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 48] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 56] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2 +32], xm4 movu [r2 + 48], xm5 lea r0, [r0 + r1] lea r2, [r2 + r3] dec r4d jnz .loop RET %endmacro INIT_YMM avx2 cglobal interp_8tap_horiz_pp_48x64, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, 64 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [h_tab_Tm] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + 24] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movu [r2 + 16], xm5 vbroadcasti128 m4, [r0 + 32] pshufb m5, m4, m3 pshufb m4, [h_tab_Tm] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 40] pshufb m6, m5, m3 pshufb m5, [h_tab_Tm] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 pmulhrsw m4, [pw_512] packuswb m4, m4 vpermq m4, m4, 11011000b pshufd xm4, xm4, 11011000b movu [r2 + 32], xm4 lea r0, [r0 + r1] lea r2, [r2 + r3] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_4x4, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vpbroadcastd m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 lea r0, [r3 * 3] movd [r2], xm3 pextrd [r2+r3], xm3, 2 pextrd [r2+r3*2], xm3, 1 pextrd [r2+r0], xm3, 3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_2x4, 4, 6, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif dec r0 lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 pshufb m1, [interp4_hpp_shuf] pmaddubsw m1, m0 pmaddwd m1, [pw_1] vextracti128 xm2, m1, 1 packssdw xm1, xm2 pmulhrsw xm1, [pw_512] packuswb xm1, xm1 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 2 pextrw [r2 + r4], xm1, 3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_2x8, 4, 6, 6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m4, [interp4_hpp_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 pmulhrsw m1, [pw_512] vextracti128 xm2, m1, 1 packuswb xm1, xm2 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 4 pextrw [r2 + r4], xm1, 5 lea r2, [r2 + r3 * 4] pextrw [r2], xm1, 2 pextrw [r2 + r3], xm1, 3 pextrw [r2 + r3 * 2], xm1, 6 pextrw [r2 + r4], xm1, 7 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_32x32, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 32 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2], m3 lea r2, [r2 + r3] lea r0, [r0 + r1] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_16x16, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 8 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET ;-------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_pp_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;-------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA 4, 4, pp IPFILTER_LUMA 4, 8, pp IPFILTER_LUMA 12, 16, pp IPFILTER_LUMA 4, 16, pp INIT_YMM avx2 cglobal interp_4tap_horiz_pp_8x8, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif movu m1, [h_tab_Tm] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 sub r0, 1 mov r4d, 2 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] lea r0, [r0 + r1 * 2] ; Row 2 vbroadcasti128 m4, [r0 ] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, [pw_512] packuswb m3, m4 mova m5, [interp_4tap_8x8_horiz_shuf] vpermd m3, m5, m3 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 lea r2, [r2 + r3 * 2] movq [r2], xm4 movhps [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1*2] dec r4d jnz .loop RET IPFILTER_LUMA_AVX2 16, 4 IPFILTER_LUMA_AVX2 16, 8 IPFILTER_LUMA_AVX2 16, 12 IPFILTER_LUMA_AVX2 16, 16 IPFILTER_LUMA_AVX2 16, 32 IPFILTER_LUMA_AVX2 16, 64 IPFILTER_LUMA_32x_avx2 32 , 8 IPFILTER_LUMA_32x_avx2 32 , 16 IPFILTER_LUMA_32x_avx2 32 , 24 IPFILTER_LUMA_32x_avx2 32 , 32 IPFILTER_LUMA_32x_avx2 32 , 64 IPFILTER_LUMA_64x_avx2 64 , 64 IPFILTER_LUMA_64x_avx2 64 , 48 IPFILTER_LUMA_64x_avx2 64 , 32 IPFILTER_LUMA_64x_avx2 64 , 16 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_8x2, 4, 6, 5 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 pshufd xm3, xm3, 11011000b movq [r2], xm3 movhps [r2 + r3], xm3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_8x6, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] mova m6, [pw_512] lea r4, [r1 * 3] lea r5, [r3 * 3] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 movq [r2 + r3 * 2], xm4 movhps [r2 + r5], xm4 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] ; Row 4 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 5 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vextracti128 xm4, m3, 1 packuswb xm3, xm4 pshufd xm3, xm3, 11011000b movq [r2], xm3 movhps [r2 + r3], xm3 RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_6x8, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] mova m6, [pw_512] lea r4, [r1 * 3] lea r5, [r3 * 3] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 %rep 2 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vextracti128 xm4, m3, 1 movd [r2], xm3 pextrw [r2 + 4], xm4, 0 pextrd [r2 + r3], xm3, 1 pextrw [r2 + r3 + 4], xm4, 2 pextrd [r2 + r3 * 2], xm3, 2 pextrw [r2 + r3 * 2 + 4], xm4, 4 pextrd [r2 + r5], xm3, 3 pextrw [r2 + r5 + 4], xm4, 6 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] %endrep RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_64xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; %macro IPFILTER_CHROMA_HPS_64xN 1 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_64x%1, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %1 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 24] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 32], m3 vbroadcasti128 m3, [r0 + 32] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 40] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 64], m3 vbroadcasti128 m3, [r0 + 48] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 56] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 96], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET %endmacro IPFILTER_CHROMA_HPS_64xN 64 IPFILTER_CHROMA_HPS_64xN 32 IPFILTER_CHROMA_HPS_64xN 48 IPFILTER_CHROMA_HPS_64xN 16 ;----------------------------------------------------------------------------------------------------------------------------- ;void interp_horiz_ps_c(const pixel* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA_PS_4xN_AVX2 1 INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_horiz_ps_4x%1, 6,7,6 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m1, [h_tab_Lm] add r3d, r3d vbroadcasti128 m2, [pw_2000] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d mov r5d, %1 ; loop count variable - height jz .preloop lea r6, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src) - 3 * srcStride add r5d, 7 ; need extra 7 rows, just set a specially flag here, blkheight += N - 1 (7 - 3 = 4 ; since the last three rows not in loop) .preloop: lea r6, [r3 * 3] .loop: ; Row 0-1 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 ; shuffled based on the col order tab_Lm pmaddubsw m3, m0 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 phaddw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 2-3 lea r0, [r0 + r1 * 2] ;3rd row(i.e 2nd row) vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 phaddw m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] phaddw m3, m4 ; all rows and col completed. mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 psubw m3, m2 vextracti128 xm4, m3, 1 movq [r2], xm3 ;row 0 movhps [r2 + r3], xm3 ;row 1 movq [r2 + r3 * 2], xm4 ;row 2 movhps [r2 + r6], xm4 ;row 3 lea r0, [r0 + r1 * 2] ; first loop src ->5th row(i.e 4) lea r2, [r2 + r3 * 4] ; first loop dst ->5th row(i.e 4) sub r5d, 4 jz .end cmp r5d, 4 jge .loop ; Row 8-9 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 phaddw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] ; Row 10 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 phaddw m4, m4 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] phaddw m3, m4 vpermd m3, m5, m3 ; m5 don't broken in above psubw m3, m2 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 movq [r2 + r3 * 2], xm4 .end: RET %endif %endmacro IPFILTER_LUMA_PS_4xN_AVX2 4 IPFILTER_LUMA_PS_4xN_AVX2 8 IPFILTER_LUMA_PS_4xN_AVX2 16 %macro IPFILTER_LUMA_PS_8xN_AVX2 1 ; TODO: verify and enable on X86 mode %if ARCH_X86_64 == 1 ; void filter_hps(const pixel* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx, int isRowExt) INIT_YMM avx2 cglobal interp_8tap_horiz_ps_8x%1, 4,7,6 mov r5d, r5m mov r4d, r4m shl r4d, 7 %ifdef PIC lea r6, [pb_LumaCoeffVer] add r6, r4 %else lea r6, [pb_LumaCoeffVer + r4] %endif add r3d, r3d vpbroadcastd m0, [pw_2000] sub r0, 3 lea r4, [pb_8tap_hps_0] vbroadcasti128 m5, [r4 + 0 * mmsize] ; check row count extend for interpolateHV test r5d, r5d; mov r5d, %1 jz .enter_loop lea r4, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r4 ; r0(src)-r8 add r5d, 8-1-2 ; blkheight += N - 1 (7 - 3 = 4 ; since the last three rows not in loop) .enter_loop: lea r4, [pb_8tap_hps_0] ; ***** register map ***** ; m0 - pw_2000 ; r4 - base pointer of shuffle order table ; r5 - count of loop ; r6 - point to LumaCoeff .loop: ; Row 0-1 movu xm1, [r0] movu xm2, [r0 + r1] vinserti128 m1, m1, xm2, 1 pshufb m2, m1, m5 ; [0 1 1 2 2 3 3 4 ...] pshufb m3, m1, [r4 + 1 * mmsize] ; [2 3 3 4 4 5 5 6 ...] pshufb m4, m1, [r4 + 2 * mmsize] ; [4 5 5 6 6 7 7 8 ...] pshufb m1, m1, [r4 + 3 * mmsize] ; [6 7 7 8 8 9 9 A ...] pmaddubsw m2, [r6 + 0 * mmsize] pmaddubsw m3, [r6 + 1 * mmsize] pmaddubsw m4, [r6 + 2 * mmsize] pmaddubsw m1, [r6 + 3 * mmsize] paddw m2, m3 paddw m1, m4 paddw m1, m2 psubw m1, m0 vextracti128 xm2, m1, 1 movu [r2], xm1 ; row 0 movu [r2 + r3], xm2 ; row 1 lea r0, [r0 + r1 * 2] ; first loop src ->5th row(i.e 4) lea r2, [r2 + r3 * 2] ; first loop dst ->5th row(i.e 4) sub r5d, 2 jg .loop jz .end ; last row movu xm1, [r0] pshufb xm2, xm1, xm5 ; [0 1 1 2 2 3 3 4 ...] pshufb xm3, xm1, [r4 + 1 * mmsize] ; [2 3 3 4 4 5 5 6 ...] pshufb xm4, xm1, [r4 + 2 * mmsize] ; [4 5 5 6 6 7 7 8 ...] pshufb xm1, xm1, [r4 + 3 * mmsize] ; [6 7 7 8 8 9 9 A ...] pmaddubsw xm2, [r6 + 0 * mmsize] pmaddubsw xm3, [r6 + 1 * mmsize] pmaddubsw xm4, [r6 + 2 * mmsize] pmaddubsw xm1, [r6 + 3 * mmsize] paddw xm2, xm3 paddw xm1, xm4 paddw xm1, xm2 psubw xm1, xm0 movu [r2], xm1 ;row 0 .end: RET %endif %endmacro ; IPFILTER_LUMA_PS_8xN_AVX2 IPFILTER_LUMA_PS_8xN_AVX2 4 IPFILTER_LUMA_PS_8xN_AVX2 8 IPFILTER_LUMA_PS_8xN_AVX2 16 IPFILTER_LUMA_PS_8xN_AVX2 32 %macro IPFILTER_LUMA_PS_16x_AVX2 2 INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_horiz_ps_%1x%2, 6, 10, 7 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r9, %2 ;height add r3d, r3d vbroadcasti128 m2, [pw_2000] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 xor r7, r7 ; loop count variable sub r0, 3 test r5d, r5d jz .label lea r8, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r8 ; r0(src)-r8 add r9, 7 ; blkheight += N - 1 (7 - 1 = 6 ; since the last one row not in loop) .label: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 phaddw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m6 ;row 1 (col 4 to 7) pshufb m4, m1 ;row 1 (col 0 to 3) pmaddubsw m4, m0 pmaddubsw m5, m0 phaddw m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] phaddw m3, m4 ; all rows and col completed. mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 psubw m3, m2 movu [r2], m3 ;row 0 lea r0, [r0 + r1] ; first loop src ->5th row(i.e 4) lea r2, [r2 + r3] ; first loop dst ->5th row(i.e 4) dec r9d jnz .label RET %endif %endmacro IPFILTER_LUMA_PS_16x_AVX2 16 , 16 IPFILTER_LUMA_PS_16x_AVX2 16 , 8 IPFILTER_LUMA_PS_16x_AVX2 16 , 12 IPFILTER_LUMA_PS_16x_AVX2 16 , 4 IPFILTER_LUMA_PS_16x_AVX2 16 , 32 IPFILTER_LUMA_PS_16x_AVX2 16 , 64 ;-------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_pp_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx) ;-------------------------------------------------------------------------------------------------------------- %macro IPFILTER_LUMA_PP_W8 2 INIT_XMM sse4 cglobal interp_8tap_horiz_pp_%1x%2, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] movh m3, [r5 + r4 * 8] %else movh m3, [h_tab_LumaCoeff + r4 * 8] %endif pshufd m0, m3, 0 ; m0 = coeff-L pshufd m1, m3, 0x55 ; m1 = coeff-H lea r5, [h_tab_Tm] ; r5 = shuffle mova m2, [pw_512] ; m2 = 512 mov r4d, %2 .loopH: %assign x 0 %rep %1 / 8 movu m3, [r0 - 3 + x] ; m3 = [F E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, [r5 + 0*16] ; m4 = [6 5 4 3 5 4 3 2 4 3 2 1 3 2 1 0] pshufb m5, m3, [r5 + 1*16] ; m5 = [A 9 8 7 9 8 7 6 8 7 6 5 7 6 5 4] pshufb m3, [r5 + 2*16] ; m3 = [E D C B D C B A C B A 9 B A 9 8] pmaddubsw m4, m0 pmaddubsw m6, m5, m1 pmaddubsw m5, m0 pmaddubsw m3, m1 paddw m4, m6 paddw m5, m3 phaddw m4, m5 pmulhrsw m4, m2 packuswb m4, m4 movh [r2 + x], m4 %assign x x+8 %endrep add r0, r1 add r2, r3 dec r4d jnz .loopH RET %endmacro IPFILTER_LUMA_PP_W8 8, 4 IPFILTER_LUMA_PP_W8 8, 8 IPFILTER_LUMA_PP_W8 8, 16 IPFILTER_LUMA_PP_W8 8, 32 IPFILTER_LUMA_PP_W8 16, 4 IPFILTER_LUMA_PP_W8 16, 8 IPFILTER_LUMA_PP_W8 16, 12 IPFILTER_LUMA_PP_W8 16, 16 IPFILTER_LUMA_PP_W8 16, 32 IPFILTER_LUMA_PP_W8 16, 64 IPFILTER_LUMA_PP_W8 24, 32 IPFILTER_LUMA_PP_W8 32, 8 IPFILTER_LUMA_PP_W8 32, 16 IPFILTER_LUMA_PP_W8 32, 24 IPFILTER_LUMA_PP_W8 32, 32 IPFILTER_LUMA_PP_W8 32, 64 IPFILTER_LUMA_PP_W8 48, 64 IPFILTER_LUMA_PP_W8 64, 16 IPFILTER_LUMA_PP_W8 64, 32 IPFILTER_LUMA_PP_W8 64, 48 IPFILTER_LUMA_PP_W8 64, 64 ;---------------------------------------------------------------------------------------------------------------------------- ; void interp_8tap_horiz_ps_%1x%2(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;---------------------------------------------------------------------------------------------------------------------------- IPFILTER_LUMA 4, 4, ps IPFILTER_LUMA 8, 8, ps IPFILTER_LUMA 8, 4, ps IPFILTER_LUMA 4, 8, ps IPFILTER_LUMA 16, 16, ps IPFILTER_LUMA 16, 8, ps IPFILTER_LUMA 8, 16, ps IPFILTER_LUMA 16, 12, ps IPFILTER_LUMA 12, 16, ps IPFILTER_LUMA 16, 4, ps IPFILTER_LUMA 4, 16, ps IPFILTER_LUMA 32, 32, ps IPFILTER_LUMA 32, 16, ps IPFILTER_LUMA 16, 32, ps IPFILTER_LUMA 32, 24, ps IPFILTER_LUMA 24, 32, ps IPFILTER_LUMA 32, 8, ps IPFILTER_LUMA 8, 32, ps IPFILTER_LUMA 64, 64, ps IPFILTER_LUMA 64, 32, ps IPFILTER_LUMA 32, 64, ps IPFILTER_LUMA 64, 48, ps IPFILTER_LUMA 48, 64, ps IPFILTER_LUMA 64, 16, ps IPFILTER_LUMA 16, 64, ps ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_2x%2(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA_2xN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 4, src, srcstride, dst, dststride %define coef2 m3 %define Tm0 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t1, [pw_2000] mova Tm0, [h_tab_Tm] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: movh t0, [srcq] pshufb t0, t0, Tm0 pmaddubsw t0, coef2 phaddw t0, t0 psubw t0, t1 movd [dstq], t0 lea srcq, [srcq + srcstrideq] lea dstq, [dstq + dststrideq] dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_2xN 2, 4 FILTER_HORIZ_CHROMA_2xN 2, 8 FILTER_HORIZ_CHROMA_2xN 2, 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_4x%2(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA_4xN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 4, src, srcstride, dst, dststride %define coef2 m3 %define Tm0 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t1, [pw_2000] mova Tm0, [h_tab_Tm] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: movh t0, [srcq] pshufb t0, t0, Tm0 pmaddubsw t0, coef2 phaddw t0, t0 psubw t0, t1 movlps [dstq], t0 lea srcq, [srcq + srcstrideq] lea dstq, [dstq + dststrideq] dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_4xN 4, 2 FILTER_HORIZ_CHROMA_4xN 4, 4 FILTER_HORIZ_CHROMA_4xN 4, 8 FILTER_HORIZ_CHROMA_4xN 4, 16 FILTER_HORIZ_CHROMA_4xN 4, 32 %macro PROCESS_CHROMA_W6 3 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movh [dstq], %2 pshufd %2, %2, 2 movd [dstq + 8], %2 %endmacro %macro PROCESS_CHROMA_W12 3 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movu [dstq], %2 movu %1, [srcq + 8] pshufb %1, %1, Tm0 pmaddubsw %1, coef2 phaddw %1, %1 psubw %1, %3 movh [dstq + 16], %1 %endmacro ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_6x%2(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 6, src, srcstride, dst, dststride %define coef2 m5 %define Tm0 m4 %define Tm1 m3 %define t2 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_2000] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: PROCESS_CHROMA_W%1 t0, t1, t2 add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA 6, 8 FILTER_HORIZ_CHROMA 12, 16 FILTER_HORIZ_CHROMA 6, 16 FILTER_HORIZ_CHROMA 12, 32 %macro PROCESS_CHROMA_W8 3 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movu [dstq], %2 %endmacro ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_8x%2(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro FILTER_HORIZ_CHROMA_8xN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 6, src, srcstride, dst, dststride %define coef2 m5 %define Tm0 m4 %define Tm1 m3 %define t2 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_2000] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: PROCESS_CHROMA_W8 t0, t1, t2 add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_8xN 8, 2 FILTER_HORIZ_CHROMA_8xN 8, 4 FILTER_HORIZ_CHROMA_8xN 8, 6 FILTER_HORIZ_CHROMA_8xN 8, 8 FILTER_HORIZ_CHROMA_8xN 8, 16 FILTER_HORIZ_CHROMA_8xN 8, 32 FILTER_HORIZ_CHROMA_8xN 8, 12 FILTER_HORIZ_CHROMA_8xN 8, 64 %macro PROCESS_CHROMA_W16 4 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq], %2 movu [dstq + 16], %4 %endmacro %macro PROCESS_CHROMA_W24 4 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq], %2 movu [dstq + 16], %4 movu %1, [srcq + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 psubw %2, %3 movu [dstq + 32], %2 %endmacro %macro PROCESS_CHROMA_W32 4 movu %1, [srcq] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq], %2 movu [dstq + 16], %4 movu %1, [srcq + 16] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + 24] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq + 32], %2 movu [dstq + 48], %4 %endmacro %macro PROCESS_CHROMA_W16o 5 movu %1, [srcq + %5] pshufb %2, %1, Tm0 pmaddubsw %2, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %2, %1 movu %1, [srcq + %5 + 8] pshufb %4, %1, Tm0 pmaddubsw %4, coef2 pshufb %1, %1, Tm1 pmaddubsw %1, coef2 phaddw %4, %1 psubw %2, %3 psubw %4, %3 movu [dstq + %5 * 2], %2 movu [dstq + %5 * 2 + 16], %4 %endmacro %macro PROCESS_CHROMA_W48 4 PROCESS_CHROMA_W16o %1, %2, %3, %4, 0 PROCESS_CHROMA_W16o %1, %2, %3, %4, 16 PROCESS_CHROMA_W16o %1, %2, %3, %4, 32 %endmacro %macro PROCESS_CHROMA_W64 4 PROCESS_CHROMA_W16o %1, %2, %3, %4, 0 PROCESS_CHROMA_W16o %1, %2, %3, %4, 16 PROCESS_CHROMA_W16o %1, %2, %3, %4, 32 PROCESS_CHROMA_W16o %1, %2, %3, %4, 48 %endmacro ;------------------------------------------------------------------------------------------------------------------------------ ; void interp_4tap_horiz_ps_%1x%2(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;------------------------------------------------------------------------------------------------------------------------------ %macro FILTER_HORIZ_CHROMA_WxN 2 INIT_XMM sse4 cglobal interp_4tap_horiz_ps_%1x%2, 4, 7, 7, src, srcstride, dst, dststride %define coef2 m6 %define Tm0 m5 %define Tm1 m4 %define t3 m3 %define t2 m2 %define t1 m1 %define t0 m0 dec srcq mov r4d, r4m add dststrided, dststrided %ifdef PIC lea r6, [h_tab_ChromaCoeff] movd coef2, [r6 + r4 * 4] %else movd coef2, [h_tab_ChromaCoeff + r4 * 4] %endif pshufd coef2, coef2, 0 mova t2, [pw_2000] mova Tm0, [h_tab_Tm] mova Tm1, [h_tab_Tm + 16] mov r4d, %2 cmp r5m, byte 0 je .loopH sub srcq, srcstrideq add r4d, 3 .loopH: PROCESS_CHROMA_W%1 t0, t1, t2, t3 add srcq, srcstrideq add dstq, dststrideq dec r4d jnz .loopH RET %endmacro FILTER_HORIZ_CHROMA_WxN 16, 4 FILTER_HORIZ_CHROMA_WxN 16, 8 FILTER_HORIZ_CHROMA_WxN 16, 12 FILTER_HORIZ_CHROMA_WxN 16, 16 FILTER_HORIZ_CHROMA_WxN 16, 32 FILTER_HORIZ_CHROMA_WxN 24, 32 FILTER_HORIZ_CHROMA_WxN 32, 8 FILTER_HORIZ_CHROMA_WxN 32, 16 FILTER_HORIZ_CHROMA_WxN 32, 24 FILTER_HORIZ_CHROMA_WxN 32, 32 FILTER_HORIZ_CHROMA_WxN 16, 24 FILTER_HORIZ_CHROMA_WxN 16, 64 FILTER_HORIZ_CHROMA_WxN 24, 64 FILTER_HORIZ_CHROMA_WxN 32, 48 FILTER_HORIZ_CHROMA_WxN 32, 64 FILTER_HORIZ_CHROMA_WxN 64, 64 FILTER_HORIZ_CHROMA_WxN 64, 32 FILTER_HORIZ_CHROMA_WxN 64, 48 FILTER_HORIZ_CHROMA_WxN 48, 64 FILTER_HORIZ_CHROMA_WxN 64, 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_32x32(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_32x32, 4,6,8 mov r4d, r4m add r3d, r3d dec r0 ; check isRowExt cmp r5m, byte 0 lea r5, [h_tab_ChromaCoeff] vpbroadcastw m0, [r5 + r4 * 4 + 0] vpbroadcastw m1, [r5 + r4 * 4 + 2] mova m7, [pw_2000] ; register map ; m0 - interpolate coeff Low ; m1 - interpolate coeff High ; m7 - constant pw_2000 mov r4d, 32 je .loop sub r0, r1 add r4d, 3 .loop: ; Row 0 movu m2, [r0] movu m3, [r0 + 1] punpckhbw m4, m2, m3 punpcklbw m2, m3 pmaddubsw m4, m0 pmaddubsw m2, m0 movu m3, [r0 + 2] movu m5, [r0 + 3] punpckhbw m6, m3, m5 punpcklbw m3, m5 pmaddubsw m6, m1 pmaddubsw m3, m1 paddw m4, m6 paddw m2, m3 psubw m4, m7 psubw m2, m7 vperm2i128 m3, m2, m4, 0x20 vperm2i128 m5, m2, m4, 0x31 movu [r2], m3 movu [r2 + mmsize], m5 add r2, r3 add r0, r1 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_16x16(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_16x16, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 16 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_16xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PS_16xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_%1x%2, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %2 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET %endmacro IPFILTER_CHROMA_PS_16xN_AVX2 16 , 32 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 12 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 8 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 4 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 24 IPFILTER_CHROMA_PS_16xN_AVX2 16 , 64 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_32xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PS_32xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_%1x%2, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %2 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 16] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 24] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 32], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET %endmacro IPFILTER_CHROMA_PS_32xN_AVX2 32 , 16 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 24 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 8 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 64 IPFILTER_CHROMA_PS_32xN_AVX2 32 , 48 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_4x4(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_ps_4x4, 4,7,5 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 test r5d, r5d je .label sub r0 , r1 .label: ; Row 0-1 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] movu xm4, [r0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 movhps [r2 + r3], xm4 test r5d, r5d jz .end lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] ;Row 5-6 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 7 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 .end: RET cglobal interp_4tap_horiz_ps_4x2, 4,7,5 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 test r5d, r5d je .label sub r0 , r1 .label: ; Row 0-1 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 test r5d, r5d jz .end lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] ;Row 2-3 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 5 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 .end: RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_4xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; %macro IPFILTER_CHROMA_PS_4xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_%1x%2, 4,7,5 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r4, %2 dec r0 test r5d, r5d je .loop sub r0 , r1 .loop: sub r4d, 4 ; Row 0-1 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] movu xm4, [r0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 movhps [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] test r4d, r4d jnz .loop test r5d, r5d jz .end ;Row 5-6 movu xm3, [r0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 7 lea r0, [r0 + r1 * 2] vbroadcasti128 m4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, [pw_2000] vextracti128 xm4, m3, 1 movq [r2], xm3 movq [r2+r3], xm4 lea r2, [r2 + r3 * 2] movhps [r2], xm3 .end: RET %endmacro IPFILTER_CHROMA_PS_4xN_AVX2 4 , 8 IPFILTER_CHROMA_PS_4xN_AVX2 4 , 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_8x8(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_8x8, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 4 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 1 .loop: dec r6d ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] test r6d, r6d jnz .loop test r5d, r5d je .end ;Row 11 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], xm3 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_4x2, 4,6,4 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; Row 0-1 movu xm2, [r0 - 1] vinserti128 m2, m2, [r0 + r1 - 1], 1 pshufb m2, m1 pmaddubsw m2, m0 pmaddwd m2, [pw_1] packssdw m2, m2 pmulhrsw m2, [pw_512] vextracti128 xm3, m2, 1 packuswb xm2, xm3 movd [r2], xm2 pextrd [r2+r3], xm2, 2 RET ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_32xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_32xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, %2 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2], m3 add r2, r3 add r0, r1 dec r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_32xN_AVX2 32, 16 IPFILTER_CHROMA_PP_32xN_AVX2 32, 24 IPFILTER_CHROMA_PP_32xN_AVX2 32, 8 IPFILTER_CHROMA_PP_32xN_AVX2 32, 64 IPFILTER_CHROMA_PP_32xN_AVX2 32, 48 ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_8xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_8xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif movu m1, [h_tab_Tm] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 sub r0, 1 mov r4d, %2 .loop: sub r4d, 4 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] lea r0, [r0 + r1 * 2] ; Row 2 vbroadcasti128 m4, [r0 ] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, [pw_512] packuswb m3, m4 mova m5, [interp_4tap_8x8_horiz_shuf] vpermd m3, m5, m3 vextracti128 xm4, m3, 1 movq [r2], xm3 movhps [r2 + r3], xm3 lea r2, [r2 + r3 * 2] movq [r2], xm4 movhps [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1*2] test r4d, r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_8xN_AVX2 8 , 16 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 32 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 4 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 64 IPFILTER_CHROMA_PP_8xN_AVX2 8 , 12 ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_4xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_4xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4,6,6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vpbroadcastd m2, [pw_1] vbroadcasti128 m1, [h_tab_Tm] mov r4d, %2 ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 .loop: sub r4d, 4 ; Row 0-1 movu xm3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m3, m3, [r0 + r1], 1 pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 2-3 lea r0, [r0 + r1 * 2] movu xm4, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] vinserti128 m4, m4, [r0 + r1], 1 pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, [pw_512] vextracti128 xm4, m3, 1 packuswb xm3, xm4 movd [r2], xm3 pextrd [r2+r3], xm3, 2 lea r2, [r2 + r3 * 2] pextrd [r2], xm3, 1 pextrd [r2+r3], xm3, 3 lea r0, [r0 + r1 * 2] lea r2, [r2 + r3 * 2] test r4d, r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_4xN_AVX2 4 , 8 IPFILTER_CHROMA_PP_4xN_AVX2 4 , 16 %macro IPFILTER_LUMA_PS_32xN_AVX2 2 INIT_YMM avx2 cglobal interp_8tap_horiz_ps_%1x%2, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, %2 ;height add r3d, r3d vbroadcasti128 m2, [pw_1] mova m7, [h_interp8_hps_shuf] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_1 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] ; r8 = (N / 2 - 1) * srcStride sub r0, r6 add r4d, 7 .label: lea r6, [pw_2000] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] pshufb m5, m4, m6 ;row 0 (col 12 to 15) pshufb m4, m1 ;row 0 (col 8 to 11) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 ; row 0 (col 20 to 23) pshufb m3, m1 ; row 0 (col 16 to 19) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 24] pshufb m5, m4, m6 ;row 0 (col 28 to 31) pshufb m4, m1 ;row 0 (col 24 to 27) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 32], m3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET %endmacro IPFILTER_LUMA_PS_32xN_AVX2 32 , 32 IPFILTER_LUMA_PS_32xN_AVX2 32 , 16 IPFILTER_LUMA_PS_32xN_AVX2 32 , 24 IPFILTER_LUMA_PS_32xN_AVX2 32 , 8 IPFILTER_LUMA_PS_32xN_AVX2 32 , 64 INIT_YMM avx2 cglobal interp_8tap_horiz_ps_48x64, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, 64 ;height add r3d, r3d vbroadcasti128 m2, [pw_2000] mova m7, [pw_1] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] ; r6 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src)-r6 add r4d, 7 ; blkheight += N - 1 (7 - 1 = 6 ; since the last one row not in loop) .label: lea r6, [h_interp8_hps_shuf] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] pshufb m5, m4, m6 ;row 0 (col 12 to 15) pshufb m4, m1 ;row 0 (col 8 to 11) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 ; row 0 (col 20 to 23) pshufb m3, m1 ; row 0 (col 16 to 19) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 24] pshufb m5, m4, m6 ;row 0 (col 28 to 31) pshufb m4, m1 ;row 0 (col 24 to 27) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2 + 32], m3 ;row 0 vbroadcasti128 m3, [r0 + 32] pshufb m4, m3, m6 ; row 0 (col 36 to 39) pshufb m3, m1 ; row 0 (col 32 to 35) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 40] pshufb m5, m4, m6 ;row 0 (col 44 to 47) pshufb m4, m1 ;row 0 (col 40 to 43) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2 + 64], m3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_8tap_horiz_pp_24x32, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] lea r5, [h_tab_Tm] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, 32 .loop: ; Row 0 vbroadcasti128 m4, [r0] ; [x E D C B A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m3 pshufb m4, [r5] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] pshufb m6, m5, m3 pshufb m5, [r5] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] vbroadcasti128 m2, [r0 + 16] pshufb m5, m2, m3 pshufb m2, [r5] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 packssdw m2, m2 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movu [r2], xm4 movq [r2 + 16], xm5 add r0, r1 add r2, r3 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_8tap_horiz_pp_12x16, 4,6,8 sub r0, 3 mov r4d, r4m %ifdef PIC lea r5, [h_tab_LumaCoeff] vpbroadcastd m0, [r5 + r4 * 8] vpbroadcastd m1, [r5 + r4 * 8 + 4] %else vpbroadcastd m0, [h_tab_LumaCoeff + r4 * 8] vpbroadcastd m1, [h_tab_LumaCoeff + r4 * 8 + 4] %endif movu m3, [h_tab_Tm + 16] vpbroadcastd m7, [pw_1] lea r5, [h_tab_Tm] ; register map ; m0 , m1 interpolate coeff ; m2 , m2 shuffle order table ; m7 - pw_1 mov r4d, 8 .loop: ; Row 0 vbroadcasti128 m4, [r0] ;first 8 element pshufb m5, m4, m3 pshufb m4, [r5] pmaddubsw m4, m0 pmaddubsw m5, m1 paddw m4, m5 pmaddwd m4, m7 vbroadcasti128 m5, [r0 + 8] ; element 8 to 11 pshufb m6, m5, m3 pshufb m5, [r5] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m4, m5 ; [17 16 15 14 07 06 05 04 13 12 11 10 03 02 01 00] pmulhrsw m4, [pw_512] ;Row 1 vbroadcasti128 m2, [r0 + r1] pshufb m5, m2, m3 pshufb m2, [r5] pmaddubsw m2, m0 pmaddubsw m5, m1 paddw m2, m5 pmaddwd m2, m7 vbroadcasti128 m5, [r0 + r1 + 8] pshufb m6, m5, m3 pshufb m5, [r5] pmaddubsw m5, m0 pmaddubsw m6, m1 paddw m5, m6 pmaddwd m5, m7 packssdw m2, m5 pmulhrsw m2, [pw_512] packuswb m4, m2 vpermq m4, m4, 11011000b vextracti128 xm5, m4, 1 pshufd xm4, xm4, 11011000b pshufd xm5, xm5, 11011000b movq [r2], xm4 pextrd [r2+8], xm4, 2 movq [r2 + r3], xm5 pextrd [r2+r3+8], xm5, 2 lea r0, [r0 + r1 * 2] lea r2, [r2 + r3 * 2] dec r4d jnz .loop RET ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_16xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_16xN_AVX2 2 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_%1x%2, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, %2/2 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_16xN_AVX2 16 , 8 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 32 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 12 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 4 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 64 IPFILTER_CHROMA_PP_16xN_AVX2 16 , 24 %macro IPFILTER_LUMA_PS_64xN_AVX2 1 INIT_YMM avx2 cglobal interp_8tap_horiz_ps_64x%1, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, %1 ;height add r3d, r3d vbroadcasti128 m2, [pw_1] mova m7, [h_interp8_hps_shuf] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] sub r0, r6 ; r0(src)-r6 add r4d, 7 ; blkheight += N - 1 .label: lea r6, [pw_2000] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] pshufb m5, m4, m6 ;row 0 (col 12 to 15) pshufb m4, m1 ;row 0 (col 8 to 11) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 ; row 0 (col 20 to 23) pshufb m3, m1 ; row 0 (col 16 to 19) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 24] pshufb m5, m4, m6 ;row 0 (col 28 to 31) pshufb m4, m1 ;row 0 (col 24 to 27) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 32], m3 ;row 0 vbroadcasti128 m3, [r0 + 32] pshufb m4, m3, m6 ; row 0 (col 36 to 39) pshufb m3, m1 ; row 0 (col 32 to 35) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 40] pshufb m5, m4, m6 ;row 0 (col 44 to 47) pshufb m4, m1 ;row 0 (col 40 to 43) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 64], m3 ;row 0 vbroadcasti128 m3, [r0 + 48] pshufb m4, m3, m6 ; row 0 (col 52 to 55) pshufb m3, m1 ; row 0 (col 48 to 51) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vbroadcasti128 m4, [r0 + 56] pshufb m5, m4, m6 ;row 0 (col 60 to 63) pshufb m4, m1 ;row 0 (col 56 to 59) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 vpermd m3, m7, m3 psubw m3, [r6] movu [r2 + 96], m3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET %endmacro IPFILTER_LUMA_PS_64xN_AVX2 64 IPFILTER_LUMA_PS_64xN_AVX2 48 IPFILTER_LUMA_PS_64xN_AVX2 32 IPFILTER_LUMA_PS_64xN_AVX2 16 ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_8xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PS_8xN_AVX2 1 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_8x%1, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, %1/2 dec r0 test r5d, r5d jz .loop sub r0 , r1 inc r6d .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movu [r2 + r3], xm4 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r6d jnz .loop test r5d, r5d jz .end ;Row 11 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], xm3 .end: RET %endmacro IPFILTER_CHROMA_PS_8xN_AVX2 2 IPFILTER_CHROMA_PS_8xN_AVX2 32 IPFILTER_CHROMA_PS_8xN_AVX2 16 IPFILTER_CHROMA_PS_8xN_AVX2 6 IPFILTER_CHROMA_PS_8xN_AVX2 4 IPFILTER_CHROMA_PS_8xN_AVX2 12 IPFILTER_CHROMA_PS_8xN_AVX2 64 INIT_YMM avx2 cglobal interp_4tap_horiz_ps_2x4, 4, 7, 3 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova xm3, [pw_2000] dec r0 test r5d, r5d jz .label sub r0, r1 .label: lea r6, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r6] vinserti128 m1, m1, xm2, 1 pshufb m1, [interp4_hpp_shuf] pmaddubsw m1, m0 pmaddwd m1, [pw_1] vextracti128 xm2, m1, 1 packssdw xm1, xm2 psubw xm1, xm3 lea r4, [r3 * 3] movd [r2], xm1 pextrd [r2 + r3], xm1, 1 pextrd [r2 + r3 * 2], xm1, 2 pextrd [r2 + r4], xm1, 3 test r5d, r5d jz .end lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] vinserti128 m1, m1, xm2, 1 pshufb m1, [interp4_hpp_shuf] pmaddubsw m1, m0 pmaddwd m1, [pw_1] vextracti128 xm2, m1, 1 packssdw xm1, xm2 psubw xm1, xm3 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 pextrd [r2 + r3 * 2], xm1, 2 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_ps_2x8, 4, 7, 7 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m6, [pw_2000] test r5d, r5d jz .label sub r0, r1 .label: mova m4, [interp4_hpp_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] ;row 0 movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 psubw m1, m6 lea r4, [r3 * 3] vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 pextrd [r2 + r4], xm2, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm1, 2 pextrd [r2 + r3], xm1, 3 pextrd [r2 + r3 * 2], xm2, 2 pextrd [r2 + r4], xm2, 3 test r5d, r5d jz .end lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] movq xm1, [r0] ;row 0 movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] vinserti128 m1, m1, xm2, 1 pshufb m1, m4 pmaddubsw m1, m0 pmaddwd m1, m5 packssdw m1, m1 psubw m1, m6 vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_12x16, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 8 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movq [r2], xm3 pextrd [r2+8], xm3, 2 movq [r2 + r3], xm4 pextrd [r2 + r3 + 8],xm4, 2 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_24x32, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 32 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movq [r2 + 16], xm4 add r2, r3 add r0, r1 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_6x8(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_6x8, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 8/2 dec r0 test r5d, r5d jz .loop sub r0 , r1 inc r6d .loop: ; Row 0 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movq [r2], xm3 pextrd [r2 + 8], xm3, 2 movq [r2 + r3], xm4 pextrd [r2 + r3 + 8], xm4, 2 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r6d jnz .loop test r5d, r5d jz .end ;Row 11 vbroadcasti128 m3, [r0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vextracti128 xm4, m3, 1 movq [r2], xm3 movd [r2+8], xm4 .end: RET INIT_YMM avx2 cglobal interp_8tap_horiz_ps_12x16, 6, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] add r3d, r3d vbroadcasti128 m2, [pw_2000] mov r4d, 16 vbroadcasti128 m7, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - pw_2000 mova m5, [h_interp8_hps_shuf] sub r0, 3 test r5d, r5d jz .loop lea r6, [r1 * 3] ; r6 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src)-r6 add r4d, 7 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 pshufb m3, m1 ; shuffled based on the col order tab_Lm pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m7 packssdw m4, m4 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vpermd m3, m5, m3 psubw m3, m2 vextracti128 xm4, m3, 1 movu [r2], xm3 ;row 0 movq [r2 + 16], xm4 ;row 1 add r0, r1 add r2, r3 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_8tap_horiz_ps_24x32, 4, 7, 8 mov r5d, r5m mov r4d, r4m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r4d, 32 ;height add r3d, r3d vbroadcasti128 m2, [pw_2000] vbroadcasti128 m7, [pw_1] ; register map ; m0 - interpolate coeff ; m1 , m6 - shuffle order table ; m2 - pw_2000 sub r0, 3 test r5d, r5d jz .label lea r6, [r1 * 3] ; r6 = (N / 2 - 1) * srcStride sub r0, r6 ; r0(src)-r6 add r4d, 7 ; blkheight += N - 1 (7 - 1 = 6 ; since the last one row not in loop) .label: lea r6, [h_interp8_hps_shuf] .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m6 ;row 1 (col 4 to 7) pshufb m4, m1 ;row 1 (col 0 to 3) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m7 pmaddwd m5, m7 packssdw m4, m5 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m5, [r6] vpermd m3, m5, m3 psubw m3, m2 movu [r2], m3 ;row 0 vbroadcasti128 m3, [r0 + 16] pshufb m4, m3, m6 pshufb m3, m1 pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 pmaddwd m3, m7 pmaddwd m4, m7 packssdw m3, m4 mova m4, [r6] vpermd m3, m4, m3 psubw m3, m2 movu [r2 + 32], xm3 ;row 0 add r0, r1 add r2, r3 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_24x32(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_ps_24x32, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 32 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, 11011000b movu [r2 + 32], xm3 add r2, r3 add r0, r1 dec r6d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------- ;macro FILTER_H8_W8_16N_AVX2 ;----------------------------------------------------------------------------------------------------------------------- %macro FILTER_H8_W8_16N_AVX2 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m3, m6 ; row 0 (col 4 to 7) pshufb m3, m1 ; shuffled based on the col order tab_Lm row 0 (col 0 to 3) pmaddubsw m3, m0 pmaddubsw m4, m0 pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 ; DWORD [R1D R1C R0D R0C R1B R1A R0B R0A] vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m4, m6 ;row 1 (col 4 to 7) pshufb m4, m1 ;row 1 (col 0 to 3) pmaddubsw m4, m0 pmaddubsw m5, m0 pmaddwd m4, m2 pmaddwd m5, m2 packssdw m4, m5 ; DWORD [R3D R3C R2D R2C R3B R3A R2B R2A] pmaddwd m3, m2 pmaddwd m4, m2 packssdw m3, m4 ; all rows and col completed. mova m5, [h_interp8_hps_shuf] vpermd m3, m5, m3 psubw m3, m8 vextracti128 xm4, m3, 1 mova [r4], xm3 mova [r4 + 16], xm4 %endmacro ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_64xN(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- %macro IPFILTER_CHROMA_PP_64xN_AVX2 1 INIT_YMM avx2 cglobal interp_4tap_horiz_pp_64x%1, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, %1 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2], m3 vbroadcasti128 m3, [r0 + 32] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 36] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 48] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 52] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b movu [r2 + 32], m3 add r2, r3 add r0, r1 dec r4d jnz .loop RET %endmacro IPFILTER_CHROMA_PP_64xN_AVX2 64 IPFILTER_CHROMA_PP_64xN_AVX2 32 IPFILTER_CHROMA_PP_64xN_AVX2 48 IPFILTER_CHROMA_PP_64xN_AVX2 16 ;------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_pp_48x64(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx ;------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_pp_48x64, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 64 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, q3120 movu [r2], m3 vbroadcasti128 m3, [r0 + mmsize] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + mmsize + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + mmsize + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + mmsize + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, q3120 movu [r2 + mmsize], xm3 add r2, r3 add r0, r1 dec r4d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_48x64(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;-----------------------------------------------------------------------------------------------------------------------------; INIT_YMM avx2 cglobal interp_4tap_horiz_ps_48x64, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 64 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 24] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2 + 32], m3 vbroadcasti128 m3, [r0 + 32] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 40] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2 + 64], m3 add r2, r3 add r0, r1 dec r6d jnz .loop RET ;----------------------------------------------------------------------------------------------------------------------------- ; void interp_4tap_horiz_ps_24x64(pixel *src, intptr_t srcStride, int16_t *dst, intptr_t dstStride, int coeffIdx, int isRowExt) ;----------------------------------------------------------------------------------------------------------------------------- INIT_YMM avx2 cglobal interp_4tap_horiz_ps_24x64, 4,7,6 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m2, [pw_1] vbroadcasti128 m5, [pw_2000] mova m1, [h_tab_Tm] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 mov r6d, 64 dec r0 test r5d, r5d je .loop sub r0 , r1 add r6d , 3 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 8] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 psubw m3, m5 vpermq m3, m3, q3120 movu [r2], m3 vbroadcasti128 m3, [r0 + 16] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 packssdw m3, m3 psubw m3, m5 vpermq m3, m3, q3120 movu [r2 + 32], xm3 add r2, r3 add r0, r1 dec r6d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_ps_2x16, 4, 7, 7 mov r4d, r4m mov r5d, r5m add r3d, r3d %ifdef PIC lea r6, [h_tab_ChromaCoeff] vpbroadcastd m0, [r6 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif vbroadcasti128 m6, [pw_2000] test r5d, r5d jz .label sub r0, r1 .label: mova m4, [interp4_hps_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] ;row 0 movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 psubw m1, m6 lea r4, [r3 * 3] vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 pextrd [r2 + r4], xm2, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm1, 2 pextrd [r2 + r3], xm1, 3 pextrd [r2 + r3 * 2], xm2, 2 pextrd [r2 + r4], xm2, 3 lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 psubw m1, m6 lea r4, [r3 * 3] vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 pextrd [r2 + r4], xm2, 1 lea r2, [r2 + r3 * 4] pextrd [r2], xm1, 2 pextrd [r2 + r3], xm1, 3 pextrd [r2 + r3 * 2], xm2, 2 pextrd [r2 + r4], xm2, 3 test r5d, r5d jz .end lea r0, [r0 + r1 * 4] lea r2, [r2 + r3 * 4] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] vinserti128 m1, m1, xm2, 1 pshufb m1, m4 pmaddubsw m1, m0 pmaddwd m1, m5 packssdw m1, m1 psubw m1, m6 vextracti128 xm2, m1, 1 movd [r2], xm1 pextrd [r2 + r3], xm1, 1 movd [r2 + r3 * 2], xm2 .end: RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_6x16, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [h_tab_Tm] mova m2, [pw_1] mova m6, [pw_512] lea r4, [r1 * 3] lea r5, [r3 * 3] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 %rep 4 ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 2 vbroadcasti128 m4, [r0 + r1 * 2] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 ; Row 3 vbroadcasti128 m5, [r0 + r4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vextracti128 xm4, m3, 1 movd [r2], xm3 pextrw [r2 + 4], xm4, 0 pextrd [r2 + r3], xm3, 1 pextrw [r2 + r3 + 4], xm4, 2 pextrd [r2 + r3 * 2], xm3, 2 pextrw [r2 + r3 * 2 + 4], xm4, 4 pextrd [r2 + r5], xm3, 3 pextrw [r2 + r5 + 4], xm4, 6 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] %endrep RET ;----------------------------------------------------------------------------- ; void interp_8tap_hv_pp_16x16(pixel *src, intptr_t srcStride, pixel *dst, intptr_t dstStride, int idxX, int idxY) ;----------------------------------------------------------------------------- INIT_YMM avx2 %if ARCH_X86_64 == 1 cglobal interp_8tap_hv_pp_16x16, 4, 10, 15, 0-31*32 %define stk_buf1 rsp mov r4d, r4m mov r5d, r5m %ifdef PIC lea r6, [h_tab_LumaCoeff] vpbroadcastq m0, [r6 + r4 * 8] %else vpbroadcastq m0, [h_tab_LumaCoeff + r4 * 8] %endif xor r6, r6 mov r4, rsp mova m6, [h_tab_Lm + 32] mova m1, [h_tab_Lm] mov r8, 16 ;height vbroadcasti128 m8, [pw_2000] vbroadcasti128 m2, [pw_1] sub r0, 3 lea r7, [r1 * 3] ; r7 = (N / 2 - 1) * srcStride sub r0, r7 ; r0(src)-r7 add r8, 7 .loopH: FILTER_H8_W8_16N_AVX2 add r0, r1 add r4, 32 inc r6 cmp r6, 16+7 jnz .loopH ; vertical phase xor r6, r6 xor r1, r1 .loopV: ;load necessary variables mov r4d, r5d ;coeff here for vertical is r5m shl r4d, 7 mov r1d, 16 add r1d, r1d ; load intermedia buffer mov r0, stk_buf1 ; register mapping ; r0 - src ; r5 - coeff ; r6 - loop_i ; load coeff table %ifdef PIC lea r5, [h_pw_LumaCoeffVer] add r5, r4 %else lea r5, [h_pw_LumaCoeffVer + r4] %endif lea r4, [r1*3] mova m14, [h_pd_526336] lea r6, [r3 * 3] mov r9d, 16 / 8 .loopW: PROCESS_LUMA_AVX2_W8_16R sp add r2, 8 add r0, 16 dec r9d jnz .loopW RET %endif INIT_YMM avx2 cglobal interp_4tap_horiz_pp_12x32, 4, 6, 7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m6, [pw_512] mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 16 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 ; Row 1 vbroadcasti128 m4, [r0 + r1] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + r1 + 4] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movq [r2], xm3 pextrd [r2+8], xm3, 2 movq [r2 + r3], xm4 pextrd [r2 + r3 + 8],xm4, 2 lea r2, [r2 + r3 * 2] lea r0, [r0 + r1 * 2] dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_24x64, 4,6,7 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m1, [interp4_horiz_shuf1] vpbroadcastd m2, [pw_1] mova m6, [pw_512] ; register map ; m0 - interpolate coeff ; m1 - shuffle order table ; m2 - constant word 1 dec r0 mov r4d, 64 .loop: ; Row 0 vbroadcasti128 m3, [r0] ; [x x x x x A 9 8 7 6 5 4 3 2 1 0] pshufb m3, m1 pmaddubsw m3, m0 pmaddwd m3, m2 vbroadcasti128 m4, [r0 + 4] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 packssdw m3, m4 pmulhrsw m3, m6 vbroadcasti128 m4, [r0 + 16] pshufb m4, m1 pmaddubsw m4, m0 pmaddwd m4, m2 vbroadcasti128 m5, [r0 + 20] pshufb m5, m1 pmaddubsw m5, m0 pmaddwd m5, m2 packssdw m4, m5 pmulhrsw m4, m6 packuswb m3, m4 vpermq m3, m3, 11011000b vextracti128 xm4, m3, 1 movu [r2], xm3 movq [r2 + 16], xm4 add r2, r3 add r0, r1 dec r4d jnz .loop RET INIT_YMM avx2 cglobal interp_4tap_horiz_pp_2x16, 4, 6, 6 mov r4d, r4m %ifdef PIC lea r5, [h_tab_ChromaCoeff] vpbroadcastd m0, [r5 + r4 * 4] %else vpbroadcastd m0, [h_tab_ChromaCoeff + r4 * 4] %endif mova m4, [interp4_hpp_shuf] mova m5, [pw_1] dec r0 lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 pmulhrsw m1, [pw_512] vextracti128 xm2, m1, 1 packuswb xm1, xm2 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 4 pextrw [r2 + r4], xm1, 5 lea r2, [r2 + r3 * 4] pextrw [r2], xm1, 2 pextrw [r2 + r3], xm1, 3 pextrw [r2 + r3 * 2], xm1, 6 pextrw [r2 + r4], xm1, 7 lea r2, [r2 + r3 * 4] lea r0, [r0 + r1 * 4] lea r4, [r1 * 3] movq xm1, [r0] movhps xm1, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m1, m1, xm2, 1 lea r0, [r0 + r1 * 4] movq xm3, [r0] movhps xm3, [r0 + r1] movq xm2, [r0 + r1 * 2] movhps xm2, [r0 + r4] vinserti128 m3, m3, xm2, 1 pshufb m1, m4 pshufb m3, m4 pmaddubsw m1, m0 pmaddubsw m3, m0 pmaddwd m1, m5 pmaddwd m3, m5 packssdw m1, m3 pmulhrsw m1, [pw_512] vextracti128 xm2, m1, 1 packuswb xm1, xm2 lea r4, [r3 * 3] pextrw [r2], xm1, 0 pextrw [r2 + r3], xm1, 1 pextrw [r2 + r3 * 2], xm1, 4 pextrw [r2 + r4], xm1, 5 lea r2, [r2 + r3 * 4] pextrw [r2], xm1, 2 pextrw [r2 + r3], xm1, 3 pextrw [r2 + r3 * 2], xm1, 6 pextrw [r2 + r4], xm1, 7 RET

dasm/mkarg.asm

ceharris/sbz80

0

90522

<reponame>ceharris/sbz80<gh_stars>0 name mkarg include defs.asm extern flag_table extern reg_r_table extern reg_qq_table extern reg_ss_table cseg ;--------------------------------------------------------------- ; mkflag: ; ; Makes an argument structure for flag `f`. ; ; On entry: ; IX -> target argument structure ; A = flag `f` ; ; On return: ; argument structure filled in ; all registers except AF are preserved ; mkflag:: push bc push hl ld b,a ; save specified flag ; get flag symbol index from lookup table ; start by getting offset into flag lookup table ld hl,flag_table ld a,l add a,b ld l,a adc a,h sub l ld h,a ; HL -> entry for flag `f` ld a,(hl) ; get symbol index ld (ix+st_arg_flags),mask_flag ld (ix+st_arg_v),a ld (ix+st_arg_v+1),0 ld (ix+st_arg_disp),0 pop hl pop bc ret ;--------------------------------------------------------------- ; mkregr: ; ; Makes an argument structure for register `r`. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; HL -> next byte of instruction under decode ; A = register `r` ; ; On return: ; argument structure filled in ; HL is incremented if the instruction is indexed ; all registers except AF are preserved ; mkregr:: push bc ; is `r` the indirect register? cp reg_indirect jr nz,mkregr_10 ld (ix+st_arg_flags),mask_register|mask_indirect ld a,(iy+st_dasm_preg) ; get pointer register symbol ld (ix+st_arg_v),a ; set indexed flag and displacement if indexed instruction cp reg_HL jr z,mkregr_20 set arg_indexed,(ix+st_arg_flags) ld a,(hl) inc hl ld (ix+st_arg_disp),a ; save displacement jr mkregr_20 mkregr_10: ld b,a ; save specified register ; get register symbol index from lookup table ; start by getting offset into register lookup table push hl ld hl,reg_r_table ld a,l add a,b ld l,a adc a,h sub l ld h,a ; HL -> entry for register `r` ld a,(hl) ; get symbol index pop hl ld (ix+st_arg_flags),mask_register ld (ix+st_arg_v),a mkregr_20: pop bc ret ;--------------------------------------------------------------- ; mkregqq: ; ; Makes an argument structure for register pair `qq`. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; A = register `qq` ; ; On return: ; argument structure filled in ; all registers except AF are preserved ; mkregqq:: push bc push hl ld hl,reg_qq_table jr mkregrr ;--------------------------------------------------------------- ; mkregss: ; ; Makes an argument structure for register pair `ss`. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; A = register `ss` ; ; On return: ; argument structure filled in ; all registers except AF are preserved ; mkregss:: push bc push hl ld hl,reg_ss_table mkregrr: ; is `rr` the pointer register? cp reg_pointer jr nz,mkregrr_10 ld a,(iy+st_dasm_preg) ; get pointer register symbol jr mkregrr_20 mkregrr_10: ld b,a ; save specified register ; get register symbol index from lookup table ; start by getting offset into register lookup table ld a,l add a,b ld l,a adc a,h sub l ld h,a ; HL -> entry for register `r` ld a,(hl) ; get symbol index mkregrr_20: ld (ix+st_arg_flags),mask_register ld (ix+st_arg_v),a ld (ix+st_arg_disp),0 pop hl pop bc ret ;--------------------------------------------------------------- ; mkreg: ; ; Makes an argument structure for a register argument using ; the specified register symbol. ; ; On entry: ; IX -> target argument structure ; A = register symbol ; C = displacement ; On return: ; all registers preserved ; mkreg:: ld (ix+st_arg_flags),mask_register ld (ix+st_arg_v),a ld (ix+st_arg_disp),c ret ;--------------------------------------------------------------- ; mkregi: ; ; Makes an argument structure for a register indirect argument ; using the specified register symbol. ; ; On entry: ; IX -> target argument structure ; IY -> disassembly state structure ; A = register symbol ; C = displacement ; On return: ; all registers preserved ; mkregi:: push af ld (ix+st_arg_flags),mask_register | mask_indirect ld (ix+st_arg_v),a ld (ix+st_arg_v+1),0 ld a,(iy+st_dasm_preg) cp reg_HL jr z,mkregi_10 set arg_indexed,(ix+st_arg_flags) ld (ix+st_arg_disp),c mkregi_10: pop af ret ;--------------------------------------------------------------- ; mkaadd: ; ; Makes an argument structure for an absolute (immediate) address. ; On entry: ; BC = address ; On return: ; all registers preserved ; mkaadd:: ld (ix+st_arg_flags),mask_immediate | mask_extended ld (ix+st_arg_v),c ld (ix+st_arg_v+1),b ret ;--------------------------------------------------------------- ; mkiadd: ; ; Makes an argument structure for an indirect address. ; ; On entry: ; BC = address ; On return: ; all registers preserved ; mkiadd:: ld (ix+st_arg_flags),mask_immediate | mask_extended | mask_indirect ld (ix+st_arg_v),c ld (ix+st_arg_v+1),b ret ;--------------------------------------------------------------- ; mkradd: ; ; Makes an argument structure for an relative address. ; ; On entry: ; C = displacement ; On return: ; all registers preserved ; mkradd:: ld (ix+st_arg_flags),mask_immediate | mask_disp ld (ix+st_arg_v),c ret ;--------------------------------------------------------------- ; mkimm: ; ; Makes an argument structure for an 8-bit immediate operand ; ; On entry: ; C = operand ; On return: ; all registers preserved ; mkimm:: ld (ix+st_arg_flags),mask_immediate ld (ix+st_arg_v),c ret ;--------------------------------------------------------------- ; mkilit: ; ; Makes an argument structure for an implicit literal operand ; (e.g. for the BIT or IM instructions). ; ; On entry: ; A = operand ; On return: ; all registers preserved ; mkilit:: ld (ix+st_arg_flags),mask_implicit ld (ix+st_arg_v),a ret ;--------------------------------------------------------------- ; mkzadd: ; ; Makes an argument structure for an implicit zero-page address ; operand; e.g. for the RST instruction. ; ; On entry: ; A = operand ; On return: ; all registers preserved ; mkzadd:: ld (ix+st_arg_flags),mask_implicit | mask_flag ld (ix+st_arg_v),a ret

Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_2382.asm

ljhsiun2/medusa

9

246431

<reponame>ljhsiun2/medusa .global s_prepare_buffers s_prepare_buffers: push %r12 push %r8 push %rax push %rbp push %rcx push %rdi push %rdx push %rsi lea addresses_A_ht+0x143b4, %r8 nop nop cmp %rbp, %rbp mov (%r8), %rax nop nop nop nop xor $18273, %rdx lea addresses_UC_ht+0x12c14, %rsi lea addresses_WC_ht+0xa1d4, %rdi nop nop nop cmp %r12, %r12 mov $91, %rcx rep movsw nop nop and %rdx, %rdx lea addresses_normal_ht+0xdd70, %rdx nop nop nop nop nop cmp $30574, %rcx movups (%rdx), %xmm4 vpextrq $0, %xmm4, %rbp inc %rcx lea addresses_WT_ht+0x196d4, %rcx nop nop dec %r12 mov $0x6162636465666768, %r8 movq %r8, %xmm2 vmovups %ymm2, (%rcx) nop nop and %rdi, %rdi lea addresses_D_ht+0x18fd4, %rax clflush (%rax) nop cmp %r8, %r8 mov (%rax), %r12d nop nop nop nop and $5365, %rax lea addresses_A_ht+0xb631, %rax nop nop nop sub %r8, %r8 movb $0x61, (%rax) nop nop nop nop xor $36875, %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rbp pop %rax pop %r8 pop %r12 ret .global s_faulty_load s_faulty_load: push %r12 push %r15 push %r9 push %rax push %rbx push %rcx // Faulty Load lea addresses_WC+0x141d4, %rbx nop nop nop add $19160, %r15 mov (%rbx), %r12w lea oracles, %r9 and $0xff, %r12 shlq $12, %r12 mov (%r9,%r12,1), %r12 pop %rcx pop %rbx pop %rax pop %r9 pop %r15 pop %r12 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 32, 'same': True, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_WC', 'AVXalign': False, 'congruent': 0, 'size': 2, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 5, 'size': 8, 'same': False, 'NT': False}} {'OP': 'REPM', 'src': {'type': 'addresses_UC_ht', 'congruent': 5, 'same': False}, 'dst': {'type': 'addresses_WC_ht', 'congruent': 11, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 1, 'size': 16, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'congruent': 8, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'AVXalign': False, 'congruent': 9, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 0, 'size': 1, 'same': False, 'NT': False}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

Transynther/x86/_processed/NONE/_xt_/i7-7700_9_0x48_notsx.log_21829_1433.asm

ljhsiun2/medusa

9

3313

.global s_prepare_buffers s_prepare_buffers: ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi // Store lea addresses_UC+0x12dd, %r14 nop nop xor %rcx, %rcx mov $0x5152535455565758, %r9 movq %r9, %xmm2 and $0xffffffffffffffc0, %r14 vmovaps %ymm2, (%r14) nop nop cmp $45532, %rax // Load lea addresses_WT+0xd76d, %rax add %r9, %r9 movups (%rax), %xmm3 vpextrq $1, %xmm3, %r14 nop nop sub $9621, %r9 // Store lea addresses_normal+0x24bd, %rcx nop xor $45137, %rax mov $0x5152535455565758, %r9 movq %r9, %xmm6 vmovups %ymm6, (%rcx) xor %r9, %r9 // Load lea addresses_PSE+0x1bcef, %rcx nop nop and $57560, %rdx mov (%rcx), %r11 nop dec %r11 // Store lea addresses_PSE+0xcedd, %r14 nop nop nop nop nop lfence movw $0x5152, (%r14) nop nop nop nop cmp $30200, %rsi // Store lea addresses_UC+0x69dd, %rdx nop nop sub $19596, %rcx movb $0x51, (%rdx) nop nop sub %rcx, %rcx // REPMOV lea addresses_WC+0x1edd, %rsi lea addresses_PSE+0x196dd, %rdi clflush (%rdi) xor %r11, %r11 mov $49, %rcx rep movsq nop cmp %rsi, %rsi // Store lea addresses_WT+0x16dd, %rdx nop nop nop add %r11, %r11 mov $0x5152535455565758, %rdi movq %rdi, (%rdx) nop cmp $52062, %rcx // Faulty Load lea addresses_WC+0x1edd, %r14 nop nop dec %r11 movb (%r14), %dl lea oracles, %r9 and $0xff, %rdx shlq $12, %rdx mov (%r9,%rdx,1), %rdx pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WC', 'congruent': 0}} {'dst': {'same': False, 'NT': False, 'AVXalign': True, 'size': 32, 'type': 'addresses_UC', 'congruent': 10}, 'OP': 'STOR'} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': False, 'size': 16, 'type': 'addresses_WT', 'congruent': 3}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 32, 'type': 'addresses_normal', 'congruent': 5}, 'OP': 'STOR'} {'OP': 'LOAD', 'src': {'same': False, 'NT': False, 'AVXalign': True, 'size': 8, 'type': 'addresses_PSE', 'congruent': 0}} {'dst': {'same': False, 'NT': False, 'AVXalign': True, 'size': 2, 'type': 'addresses_PSE', 'congruent': 9}, 'OP': 'STOR'} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_UC', 'congruent': 8}, 'OP': 'STOR'} {'dst': {'same': False, 'congruent': 11, 'type': 'addresses_PSE'}, 'OP': 'REPM', 'src': {'same': True, 'congruent': 0, 'type': 'addresses_WC'}} {'dst': {'same': False, 'NT': False, 'AVXalign': False, 'size': 8, 'type': 'addresses_WT', 'congruent': 10}, 'OP': 'STOR'} [Faulty Load] {'OP': 'LOAD', 'src': {'same': True, 'NT': False, 'AVXalign': False, 'size': 1, 'type': 'addresses_WC', 'congruent': 0}} <gen_prepare_buffer> {'38': 21829} 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 38 */

45/beef/drv/csd/src/update1.asm

minblock/msdos

0

244053

;* included in: ;* tandy, ibmcvt NonStandard FvmGetCur NonStandard ModeGetCur NonStandard FInitCsd NonStandard DoUpdateCsd ;********** FvmGetCur ********** ;* entry: DS:DI => driver data ;* * if first time called, identify the current screen and set fvmCur ;* * subsequent calls will return fvmCur ;* * After this call: fvmCur is initialized ;* exit: AL == fvm for current screen (0 => no supported screen found) ;* AH == monitor cProc FvmGetCur, <NEAR, PUBLIC, ATOMIC>, <DS> cBegin FvmGetCur AssertEQ di,OFF_lpwDataCsd mov ax,-1 mov [di].fvmCurAdap,al mov [di].fvmCurDisp,ah cEnd FvmGetCur ;********** ModeGetCur ********* ;* entry: n/a ;* * get current machine mode ;* exit: al = mode, ah = ayMac (or 0 if unknown) cProc ModeGetCur, <NEAR, PUBLIC, ATOMIC>, <ES> cBegin ModeGetCur push bx mov ah,0fh int 10h ;* get current state, return al = mode and al,7Fh ;* mask off clear video buffer bit. pop bx mov ah,25 ;default cEnd ModeGetCur ;********** FInitCsd ********** ;* entry: ;* pinch = near pointer to INCH structure to fill ;* * Initialize the screen to the given mode ;* exit: AX != 0 if ok cProc FInitCsd, <FAR, PUBLIC, ATOMIC>, <ds,di> parmDP pinst parmDP pinch localB modeCur cBegin FInitCsd mov di,OFF_lpwDataCsd ;* Data in data segment ;* * save old mode cCall ModeGetCur ;* al = mode, ah = ayMac mov modeCur,al ;* current mode mov bx,pinst cmp ds:[bx].ayMacInst,ah je @F ;* same resolution mov modeCur,0 ;* cause mode reset @@: ;* * set mode mov [di].pinstDrv,bx mov bx,ds:[bx].pdmInst ;* CS:BX => DM info ;* * copy mode info into driver globals mov ax,cs:[bx].vparmCursOnDm mov [di].vparmCursOn,ax mov [di].vparmCursSize,ax mov ax,cs:[bx].wExtraDm mov [di].wExtra,ax mov al,cs:[bx].modeDm cmp al,modeCur jne @F jmp finitdone ;same mode, no reset @@: xor ah,ah ;* set mode ;* REVIEW: always clear RGEN ?? mov al,cs:[bx].modeDm int 10h mov ax,40H mov es,ax mov al,cs:[bx].ayMacDm dec al ; rows - 1 mov byte ptr es:[0084H],al ;* update BIOS rows finitdone: test cs:[bx].finstDm,finstGraphics jz @F mov [di].SEG_lpbFont,segROM ;load PC ROM Font mov [di].OFF_lpbFont,0FA6Eh mov [di].ayBox,8 jmp short exitF @@: ;* * normally the INCH array would be copied (but since it is already ;* * setup in DATA just leave it alone). ;* * Do other diddling cCall DiddleBlinkBit exitF: mov ax,sp ;* success cEnd FInitCsd ;********** DoUpdateCsd ********** ;* entry: ;* parameters just like PrepUpdateCsd ;* * after primary buffer has been updated ;* * For BIOS version -- send to screen ;* * for Kanji -- parse for DBCS boundaries (OAX) ;* exit: n/a cProc DoUpdateCsd,<FAR, PUBLIC, ATOMIC>, <DS, ES, SI, DI> parmB ayLine parmB axFirst parmB dax ;* will never be 0 parmW offFirst parmW fRestoreDbcs ;* => restore DBCS 1/2 characters localB axCurs localB axCurrent localB flastattr ;check repeat attribute localB ifgd ;needed for mode A (640x200x4) localB ibkgd localB curattr localW wTemp localV LocalChar,8 ;storage of char bit map for ffont mode localB iMode cBegin DoUpdateCsd cmp dax,0 ja DoUpdateChar jmp end_update DoUpdateChar: mov di,OFF_lpwDataCsd ;* Data in data segment mov bx,[di].pinstDrv test ss:[bx].finstInst,finstGraphics ;graphics text 8x14 jnz graf_update jmp done_graf_update graf_update: mov ax,[di].posCurs ;for cursor drawing mov axCurs,-1 mov axCurrent,0 cmp byte ptr [di].fCurs,0 ;cursor on ? je NoCursUpdate cmp ah,ayLine ;check if cursor on ayLine jne NoCursUpdate cmp al,axFirst ;check if cursor outside axFirst jb NoCursUpdate mov axCurs,al ;need to update cursor mov al,axFirst mov axCurrent,al NoCursUpdate: mov si,ds:[bx].pdmInst mov dl,cs:[si].modeDm ;save video mode in dl mov iMode,dl mov ds,ds:[bx].psPrimInst ;* DS:SI => primary buffer ;* * DS:SI => start character in primary buffer ;* * SS:BX => INST info ;* * SS:DI => Driver data ;***** Graphics Text **** ;* * ;* * mov flastattr,0 ;initialize with black:black mov cx,ss:[di].ayBox shr cx,1 ;memory interleave addressing xor ax,ax ;calculate start of screen address mov al,ayLine mul cx mov cx,80 mul cx xor cx,cx mov cl,axFirst IFDEF TANDYCSD cmp iMode,0Ah jne @F shl cx,1 ;Tandy's 4-color mode, 2 bytes/char @@: ENDIF add ax,cx ;ax = ayLine x 80 x ayBox + axFirst mov di,ax ;point to video buffer xor cx,cx mov cl,dax ;no. of char to be updated mov si,offFirst ;* 640x200x2(x4) graphics out_next_char1: lodsw ;load character+attribute mov curattr,ah ;save color attribute push cx mov wTemp,di ;save di mov di,OFF_lpwDataCsd mov cx,ss:[di].ayBox ;calculate character table address push ds ;save pointer to primary buffer push si mov si,ss:[di].OFF_lpbFont ;default mov ds,ss:[di].SEG_lpbFont mov dx,ax ;save char + attribute cmp al,80h jb first128 ;use extend font (128 - 255) push cs pop ds mov si,drvOffset rgbCGAExFont8x8 ;see cga8x8.inc sub al,80h first128: xor ah,ah mul cl add si,ax ;ds:[si] -> char bit map mov ax,ss mov es,ax lea di,LocalChar ;es:[di] -> local storage rep movsb ;copy char bit map into local area mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox test ss:[bx].finstInst,finstMonochrome ;Test for mono jz @F cmp curattr,70H ;highlighting ? jne @F lea si,LocalChar loopnot: not byte ptr ss:[si] inc si loop loopnot mov cx,ss:[di].ayBox @@: mov ds,ax lea si,LocalChar cmp ss:[bx].psSecInst,0 ;is sec. buffer allocated ? je notfont8 test ss:[bx].finstInst,finstFont ;ffont mode ? jz notfont8 mov ax,dx ;save char pop di ;si -> di push di mov es,ss:[bx].psSecInst ;es:[di] => ffont buffer mov dx,es:[di-2] ;dx = ffont word or dl,dl ;normal ? jz notfont8 cmp al,' ' ;check spaces jne notspace1 test dl,ffontUnderline or ffontDoubleUnderline or ffontStrikeThrough or ffontOrCharacter jz notfont8 notspace1: cCall ChrisPFont mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox notfont8: mov al,axCurrent ;cursor position ? cmp al,axCurs jne CursOff1 mov di,OFF_lpwDataCsd push si mov cx,ss:[di].vparmCursOn xchg ch,cl xor ch,ch add si,cx mov cx,ss:[di].vparmCursOn sub cl,ch xor ch,ch ;cx = thickness of the cursor outCurs1: ;display the cursor not byte ptr [si] inc si loop outCurs1 pop si mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox CursOff1: IFDEF TANDYCSD mov dh,curattr cmp dh,flastattr ;same attr ? je @F mov flastattr,dh ;update attribute mov dl,curattr mov al,dl ;al = foreground and al,03h mov cl,4 shr dl,cl ;dl = background value and dl,03h mov ifgd,al mov ibkgd,dl mov di,OFF_lpwDataCsd ;restore points mov cx,ss:[di].ayBox @@: ;* same attribute ENDIF mov ax,0B800h ;CGA video segment mov es,ax mov di,wTemp ;restore di IFDEF TANDYCSD cmp iMode,0Ah jne NotMode0Ah ;;;4-color graphics mode push bx out_1_byte: lodsb ;al=bit pattern mov bl,al ;fgd = 1 mov dl,ifgd and dl,1 jnz @F not bl @@: mov bh,bl cmp ifgd,1 jb @F cmp ifgd,2 ja @F not bh @@: mov ah,al and bx,ax ;bkgd = 00 (black) push bx ;save fgd pattern not al mov bl,al ;fgd = 1 mov dl,ibkgd and dl,1 jnz @F not bl @@: mov bh,bl cmp ibkgd,1 jb @F cmp ibkgd,2 ja @F not bh @@: mov ah,al and bx,ax ;fgd = 00 (black) pop ax ;restore fgd pattern or ax,bx ;merge fgd & bkgd stosw ;update one line add di,2000h-2 ;go to next line jns @F add di,-8000h+160 @@: loop out_1_byte pop bx mov di,wTemp inc di ;next char inc di ;2 bytes/char jmp NextChar NotMode0Ah: ENDIF ;;;mono graphics mode mov ax,1FFFh mov dx,79-2000h out_one_byte: ;output the character movsb add di,ax xchg ax,dx loop out_one_byte mov di,wTemp inc di ;next char NextChar: inc axCurrent ;bump update position pop si pop ds pop cx ;restore dax dec cx jz out_done1 jmp out_next_char1 out_done1: done_graf_update: IFDEF KANJI ;* * For the OAX, we parse what we have printed and set the attribute ;* * byte to 0 for the second byte of double byte characters. cmp fRestoreDbcs,0 jne end_update mov si,offFirst xor cx,cx mov cl,dax ;* # of bytes loop_parse_dbcs: lodsw ;* get char(al) + attribute(ah) JmpNotDbc parse_single ;* * second byte follows inc si ;* skip 2nd char mov byte ptr ds:[si],0 ;* clear attrib inc si AssertNE cx,1 ;* must be enough dec cx parse_single: loop loop_parse_dbcs ENDIF ;KANJI end_update: cEnd DoUpdateCsd include cga8x8.inc ; extend font (128 - 255) NonStandard BltArcCsd ;********** BltArcCsd ********** ;* * CSD entry point (see documentation for interface) ;* entry : axSrc, aySrc : upper left of source ;* axDest, ayDest : upper left of destination ;* dax, day : shift amount ;* * Move a rectangle from one portion of the screen to another. ;* exit : n/a cProc BltArcCsd,<FAR, PUBLIC, ATOMIC>, <SI,DI,DS> parmB axDest parmB ayDest parmB dax parmB day parmB axSrc parmB aySrc localW cRows cBegin BltArcCsd mov di,OFF_lpwDataCsd ;* Data in data segment mov bx,[di].pinstDrv ;* * SS:BX => INST info ;* * SS:DI => Driver data ;set up Src pointer si mov cx,ss:[di].ayBox shr cx,1 ;memory interleave mov al,80 ;assume 80 columns (IBM) mul cl ; mov bx,ax ;bx = 80 * charHeight mov cl,aySrc mul cx mov cl,axSrc add ax,cx ;ax = ay x 80 x Height + ax mov si,ax ;si points to starting byte Src ;set up Dest pointer di ;assume (Scroll down) Hi -> Lo memory mov ax,bx mov cl,ayDest mul cx mov cl,axDest add ax,cx mov cx,ss:[di].ayBox ;for later use mov di,ax mov al,day mul cl ;ax = ayBox * day mov cRows,ax ;total scan rows needed to be blt mov cl,ayDest cmp cl,aySrc jb fwd ja bkwd ;ayDest = aySrc mov cl,axDest cmp cl,axSrc jb fwd bkwd: ;have to blt backward (Lo -> Hi memory) ;(Scroll up) shr ax,1 dec ax mov cx,80 mul cx mov cl,dax dec cx add ax,cx ;ax = block offset add ax,2000h ;start blt from odd line add di,ax ;si, di point to end of block add si,ax std ;set direction flag fwd: mov ax,0B800h mov ds,ax ;ds,es point to video buffer mov es,ax mov cx,cRows Blt1: mov ax,si mov bx,di mov dx,cx ; push si ; push di ; push cx xor ch,ch mov cl,dax rep movsb ;load latches/store video memory ; pop cx ; pop di ; pop si mov cx,dx mov di,bx mov si,ax cmp di,si jb bf ;blt backward cmp si,2000h jb @F mov dx,-2000h jmp short Blt2 @@: mov dx,2000h - 80 jmp short Blt2 bf: ;blt forward cmp si,2000h jb @F mov dx,-2000h + 80 jmp short Blt2 @@: mov dx,2000h Blt2: add si,dx add di,dx loop Blt1 cld ;clear direction flag cEnd BltArcCsd NonStandard GetCharMapCsd ;********** GetCharMapCsd ********** ;* entry: pinft, ch, pbitmap ;* * copy character bit map into buffer cProc GetCharMapCsd, <FAR, ATOMIC, PUBLIC>, <DS,SI,DI> parmDP pinft parmB char parmDP pbitmap cBegin GetCharMapCsd mov di,pinft ;* ds:di => INFT xor ch,ch mov cl,ds:[di].dyCharInft mov al,char cmp al,128 jb @F sub al,128 mov dx,cs mov ds,dx mov si,drvOffset rgbCGAExFont8x8 ;see cga8x8.inc jmp short RetFonts @@: mov dx,0F000h mov ds,dx mov si,0FA6Eh RetFonts: mul cl add si,ax ;ds:si => character bit map mov ax,ss mov es,ax mov di,pbitmap ;es:di => destination rep movsb cEnd GetCharMapCsd

test/Succeed/Issue5434.agda

KDr2/agda

0

15150

<gh_stars>0 {-# OPTIONS --two-level --cubical-compatible #-} open import Agda.Primitive data D₁ : SSet → SSet (lsuc lzero) where c : (@0 A : SSet) → A → D₁ A data D₂ : Set → SSet (lsuc lzero) where c : (@0 A : Set) → A → D₂ A

models/hol/sygus/integer_benchmarks/max-5.als

johnwickerson/alloystar

2

4072

open max -------------------------------------------------------------------------------- -- Variables -------------------------------------------------------------------------------- one sig X, Y, Z, U, V extends IntVar {} -------------------------------------------------------------------------------- -- Commands -------------------------------------------------------------------------------- run synthIntNodeI for 13 but -1..3 Int, 0 IntLit, 0 BoolLit, 0 BoolVar, 0 BinaryIntOp, 0 UnaryIntOp, 0 GT, 0 LT, 0 Xor, 0 Nand, 0 Nor, 0 BoolInvComp run synthIntNodeI for 0 but -1..3 Int, exactly 4 ITE, exactly 4 GTE

oeis/141/A141187.asm

neoneye/loda-programs

11

99222

<reponame>neoneye/loda-programs ; A141187: Primes of the form -x^2+6*x*y+3*y^2 (as well as of the form 8*x^2+12*x*y+3*y^2). ; Submitted by <NAME> ; 3,11,23,47,59,71,83,107,131,167,179,191,227,239,251,263,311,347,359,383,419,431,443,467,479,491,503,563,587,599,647,659,683,719,743,827,839,863,887,911,947,971,983,1019,1031,1091,1103,1151,1163,1187,1223 mul $0,2 lpb $0 sub $0,1 mov $2,$0 mov $0,1 div $2,2 seq $2,68231 ; Primes congruent to 11 mod 12. sub $2,3 lpe mov $0,$2 add $0,3

test/Fail/TypeConstructorsWhichPreserveGuardedness1.agda

hborum/agda

3

344

-- Note that the flag --guardedness-preserving-type-constructors is -- not (should not be) enabled in this module. module TypeConstructorsWhichPreserveGuardedness1 where open import Common.Coinduction record ⊤ : Set where data _⊎_ (A B : Set) : Set where inj₁ : A → A ⊎ B inj₂ : B → A ⊎ B record ∃ {A : Set} (B : A → Set) : Set where constructor _,_ field proj₁ : A proj₂ : B proj₁ data Rec (A : ∞ Set) : Set where fold : ♭ A → Rec A module ℕ₁ where -- Without the flag, the following is non-terminating, -- hence, not reduced. {-# NON_TERMINATING #-} ℕ : Set ℕ = ⊤ ⊎ Rec (♯ ℕ) zero : ℕ zero = inj₁ _ -- yields a type error since ℕ does not reduce suc : ℕ → ℕ suc n = inj₂ (fold n) ℕ-rec : (P : ℕ → Set) → P zero → (∀ n → P n → P (suc n)) → ∀ n → P n ℕ-rec P z s (inj₁ _) = z ℕ-rec P z s (inj₂ (fold n)) = s n (ℕ-rec P z s n) module ℕ₂ where data ℕC : Set where ′zero : ℕC ′suc : ℕC mutual ℕ : Set ℕ = ∃ λ (c : ℕC) → ℕ′ c ℕ′ : ℕC → Set ℕ′ ′zero = ⊤ ℕ′ ′suc = Rec (♯ ℕ) zero : ℕ zero = (′zero , _) suc : ℕ → ℕ suc n = (′suc , fold n) ℕ-rec : (P : ℕ → Set) → P zero → (∀ n → P n → P (suc n)) → ∀ n → P n ℕ-rec P z s (′zero , _) = z ℕ-rec P z s (′suc , fold n) = s n (ℕ-rec P z s n)

T4/E4T1.asm

abphilip-vit/College3

2

22747

ORG 0000H HERE: MOV P0, #55H MOV P1, #55H MOV P2, #55H ACALL DELAY MOV P0, #0AAH MOV P1, #0AAH MOV P2, #0AAH ACALL DELAY SJMP HERE DELAY: MOV R1, #200 BACK: MOV R2, #200 AGAIN: DJNZ R2, AGAIN DJNZ R1, BACK RET END

FormalAnalyzer/models/apps/Outdoorlights.als

Mohannadcse/IoTCOM_BehavioralRuleExtractor

0

4184

module app_Outdoorlights open IoTBottomUp as base open cap_runIn open cap_now open cap_contactSensor open cap_switch open cap_illuminanceMeasurement open cap_userInput one sig app_Outdoorlights extends IoTApp { contact1 : some cap_contactSensor, switches : some cap_switch, lightSensor : one cap_illuminanceMeasurement, time : one cap_userInput, state : one cap_state, } { rules = r //capabilities = contact1 + switches + lightSensor + time + state } abstract sig cap_userInput_attr_time_val extends cap_userInput_attr_value_val {} one sig cap_userInput_attr_time_val0 extends cap_userInput_attr_time_val {} one sig cap_state extends cap_runIn {} { attributes = cap_state_attr + cap_runIn_attr } abstract sig cap_state_attr extends Attribute {} one sig cap_state_attr_lastStatus extends cap_state_attr {} { values = cap_state_attr_lastStatus_val } abstract sig cap_state_attr_lastStatus_val extends AttrValue {} one sig cap_state_attr_lastStatus_val_on extends cap_state_attr_lastStatus_val {} one sig cap_state_attr_lastStatus_val_off extends cap_state_attr_lastStatus_val {} one sig cap_state_attr_motionStopTime extends cap_state_attr {} { values = cap_state_attr_motionStopTime_val } abstract sig cap_state_attr_motionStopTime_val extends AttrValue {} //one sig cap_state_attr_lastStatus_val_on extends cap_state_attr_lastStatus_val {} abstract sig cap_user_attr_time extends cap_userInput_attr {} { values = cap_user_attr_time_val } abstract sig cap_user_attr_time_val extends cap_userInput_attr_value_val {} one sig cap_user_attr_time_val_0 extends cap_user_attr_time_val {} one sig range_0,range_1,range_2 extends cap_illuminanceMeasurement_attr_illuminance_val {} abstract sig r extends Rule {} one sig r0 extends r {}{ no triggers conditions = r0_cond commands = r0_comm } abstract sig r0_cond extends Condition {} one sig r0_cond0 extends r0_cond {} { capabilities = app_Outdoorlights.state attribute = cap_runIn_attr_runIn value = cap_runIn_attr_runIn_val_on } abstract sig r0_comm extends Command {} one sig r0_comm0 extends r0_comm {} { capability = app_Outdoorlights.switches attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_off } one sig r1 extends r {}{ triggers = r1_trig conditions = r1_cond commands = r1_comm } abstract sig r1_trig extends Trigger {} one sig r1_trig0 extends r1_trig {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance no value } abstract sig r1_cond extends Condition {} one sig r1_cond0 extends r1_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val - cap_state_attr_lastStatus_val_off } one sig r1_cond1 extends r1_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_2//cap_illuminanceMeasurement_attr_illuminance_val_Range2 } abstract sig r1_comm extends Command {} one sig r1_comm0 extends r1_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r2 extends r {}{ triggers = r2_trig conditions = r2_cond commands = r2_comm } abstract sig r2_trig extends Trigger {} /* one sig r2_trig0 extends r2_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_openening } */ one sig r2_trig1 extends r2_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_open } abstract sig r2_cond extends Condition {} one sig r2_cond0 extends r2_cond {} { capabilities = app_Outdoorlights.time attribute = cap_user_attr_time value = cap_user_attr_time_val - cap_user_attr_time_val_0 } abstract sig r2_comm extends Command {} one sig r2_comm0 extends r2_comm {} { capability = app_Outdoorlights.state attribute = cap_runIn_attr_runIn value = cap_runIn_attr_runIn_val_on } one sig r3 extends r {}{ triggers = r3_trig conditions = r3_cond commands = r3_comm } abstract sig r3_trig extends Trigger {} one sig r3_trig0 extends r3_trig {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance no value } abstract sig r3_cond extends Condition {} one sig r3_cond0 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r3_cond1 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_motionStopTime value = cap_state_attr_motionStopTime_val } one sig r3_cond2 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val - cap_state_attr_lastStatus_val_off } one sig r3_cond3 extends r3_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_1 } one sig r3_cond4 extends r3_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_motionStopTime value = cap_state_attr_motionStopTime_val } abstract sig r3_comm extends Command {} one sig r3_comm0 extends r3_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r4 extends r {}{ triggers = r4_trig conditions = r4_cond commands = r4_comm } abstract sig r4_trig extends Trigger {} /* one sig r4_trig0 extends r4_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_openening } */ one sig r4_trig1 extends r4_trig {} { capabilities = app_Outdoorlights.contact1 attribute = cap_contactSensor_attr_contact value = cap_contactSensor_attr_contact_val_open } abstract sig r4_cond extends Condition {} abstract sig r4_comm extends Command {} one sig r4_comm0 extends r4_comm {} { capability = app_Outdoorlights.switches attribute = cap_switch_attr_switch value = cap_switch_attr_switch_val_on } /* one sig r5 extends r {}{ no triggers conditions = r5_cond commands = r5_comm } abstract sig r5_cond extends Condition {} abstract sig r5_comm extends Command {} one sig r5_comm0 extends r5_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_riseTime value = cap_state_attr_riseTime_val } one sig r5_comm1 extends r5_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_setTime value = cap_state_attr_setTime_val } */ one sig r6 extends r {}{ triggers = r6_trig conditions = r6_cond commands = r6_comm } abstract sig r6_trig extends Trigger {} one sig r6_trig0 extends r6_trig {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance no value } abstract sig r6_cond extends Condition {} one sig r6_cond0 extends r6_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_off } one sig r6_cond1 extends r6_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_motionStopTime value = cap_state_attr_motionStopTime_val } one sig r6_cond2 extends r6_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_1 } one sig r6_cond3 extends r6_cond {} { capabilities = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val - cap_state_attr_lastStatus_val_on } one sig r6_cond4 extends r6_cond {} { capabilities = app_Outdoorlights.lightSensor attribute = cap_illuminanceMeasurement_attr_illuminance value = range_0 } abstract sig r6_comm extends Command {} one sig r6_comm0 extends r6_comm {} { capability = app_Outdoorlights.state attribute = cap_state_attr_lastStatus value = cap_state_attr_lastStatus_val_on }

puzzle_13/src/puzzle_13.adb

AdaForge/Advent_of_Code_2020

0

2936

procedure Puzzle_13 is begin null; end Puzzle_13;

programs/oeis/161/A161345.asm

neoneye/loda

22

167195

<reponame>neoneye/loda ; A161345: Numbers k whose largest divisor <= sqrt(k) is 3. ; 9,12,15,18,21,27,33,39,51,57,69,87,93,111,123,129,141,159,177,183,201,213,219,237,249,267,291,303,309,321,327,339,381,393,411,417,447,453,471,489,501,519,537,543,573,579,591,597,633,669,681,687,699,717,723 seq $0,161346 ; a(n) = A161345(n)/3. mul $0,3

test/Succeed/Issue1324.agda

redfish64/autonomic-agda

3

8925

------------------------------------------------------------------------ -- Library stuff data ⊥ : Set where record ⊤ : Set where constructor tt data Bool : Set where true false : Bool if_then_else_ : ∀ {A : Set} → Bool → A → A → A if true then t else f = t if false then t else f = f data ℕ : Set where zero : ℕ suc : ℕ → ℕ {-# BUILTIN NATURAL ℕ #-} _∸_ : ℕ → ℕ → ℕ m ∸ zero = m zero ∸ suc n = zero suc m ∸ suc n = m ∸ n _≤_ : ℕ → ℕ → Bool zero ≤ n = true suc m ≤ zero = false suc m ≤ suc n = m ≤ n data _⊎_ (A : Set) (B : Set) : Set where inj₁ : (x : A) → A ⊎ B inj₂ : (y : B) → A ⊎ B [_,_]₁ : ∀ {A : Set} {B : Set} {C : A ⊎ B → Set₁} → ((x : A) → C (inj₁ x)) → ((x : B) → C (inj₂ x)) → ((x : A ⊎ B) → C x) [ f , g ]₁ (inj₁ x) = f x [ f , g ]₁ (inj₂ y) = g y data _≡_ {A : Set}(x : A) : A → Set where refl : x ≡ x record Σ (X : Set) (Y : X → Set) : Set where constructor _,_ field proj₁ : X proj₂ : Y proj₁ _×_ : Set → Set → Set X × Y = Σ X λ _ → Y record Sig : Set₁ where constructor _◃_ field Parameter : Set Arity : Parameter → Set open Sig public ⟦_⟧ : Sig → Set → Set ⟦ P ◃ A ⟧ X = Σ P λ p → A p → X Alg : Sig → Set → Set Alg Σ X = ⟦ Σ ⟧ X → X data μ (C : Sig) : Set where sup : Alg C (μ C) const^C : Set → Sig const^C X = X ◃ λ _ → ⊥ _⊎^C_ : Sig → Sig → Sig (P₁ ◃ A₁) ⊎^C (P₂ ◃ A₂) = (P₁ ⊎ P₂) ◃ [ A₁ , A₂ ]₁ _⋆^C_ : Sig → Set → Sig C ⋆^C X = const^C X ⊎^C C _⋆_ : Sig → Set → Set C ⋆ X = μ (C ⋆^C X) do : ∀ {C X} → Alg C (C ⋆ X) do (p , k) = sup (inj₂ p , k) record Monad (T : Set → Set) : Set₁ where infixl 1 _>>=_ field return : ∀ {X} → X → T X _>>=_ : ∀ {X Y} → T X → (X → T Y) → T Y monad : ∀ {Σ} → Monad (_⋆_ Σ) monad {Σ} = record { return = λ x → sup (inj₁ x , λ ()) ; _>>=_ = _>>=_ } where _>>=_ : ∀ {X Y} → Σ ⋆ X → (X → Σ ⋆ Y) → Σ ⋆ Y sup (inj₁ x , _) >>= f = f x sup (inj₂ p , k) >>= f = do (p , λ a → k a >>= f) generic : ∀ {Σ} (p : Parameter Σ) → Σ ⋆ Arity Σ p generic p = do (p , return) where open Monad monad ------------------------------------------------------------------------ -- Example Π : (X : Set) → (X → Set) → Set Π X Y = (x : X) → (X ◃ Y) ⋆ Y x call : ∀ {X Y} → Π X Y call x = generic x dom : ∀ {X Y} → ∀ {x} → (X ◃ Y) ⋆ Y x → (X → Set) → Set dom (sup (inj₁ _ , _)) R = ⊤ dom {Y = Y} (sup (inj₂ x , k)) R = R x × ((y : Y x) → dom (k y) R) data Dom {X}{Y} (f : (x : X) → (X ◃ Y) ⋆ Y x) : X → Set where ⟨_⟩ : ∀ {x} → dom (f x) (Dom f) → Dom f x dom-map : ∀ {X Y} {R₁ R₂ : X → Set} {x} {w : (X ◃ Y) ⋆ Y x} → (∀ {x} → R₁ x → R₂ x) → dom w R₁ → dom w R₂ dom-map {w = sup (inj₁ _ , _)} f _ = tt dom-map {w = sup (inj₂ _ , _)} f (y₁ , k) = f y₁ , λ y₂ → dom-map f (k y₂) {-# TERMINATING #-} bove-capretta : ∀ {X Y} (f : Π X Y) → (x : X) → Dom f x → Y x bove-capretta {X}{Y} f x ⟨ d ⟩ = helper (f x) (dom-map (λ {x′} → bove-capretta f x′) d) where helper : ∀ {x} (w : (X ◃ Y) ⋆ Y x) → dom w Y → Y x helper (sup (inj₁ y , _)) _ = y helper (sup (inj₂ _ , k)) (d , dk) = helper (k d) (dk d) module _ where open Monad monad gcd : Π (ℕ × ℕ) (λ _ → ℕ) gcd (0 , n) = return n gcd (m , 0) = return m gcd (suc m , suc n) = if m ≤ n then call (suc m , (n ∸ m)) else call ((m ∸ n) , suc n) acc : Dom gcd (8 , 12) acc = ⟨ ⟨ ⟨ ⟨ _ ⟩ , _ ⟩ , _ ⟩ , _ ⟩ -- ⟨ ⟨ ⟨ ⟨ tt ⟩ , (λ _ → tt) ⟩ , (λ _ → tt) ⟩ , (λ _ → tt) ⟩ test-gcd′ : bove-capretta gcd (8 , 12) acc ≡ 4 test-gcd′ = refl

Sources/Interfaces/screenshots.ads

ForYouEyesOnly/Space-Convoy

1

23639

<reponame>ForYouEyesOnly/Space-Convoy -- -- Jan & <NAME>, Australia, July 2011 -- package Screenshots is procedure Take_Shot; end Screenshots;

oeis/021/A021914.asm

neoneye/loda-programs

11

172790

; A021914: Expansion of 1/((1-x)(1-4x)(1-8x)(1-10x)). ; Submitted by <NAME> ; 1,23,355,4635,55371,627243,6866155,73433195,772592491,8032358763,82776456555,847393109355,8630981813611,87566313375083,885715453576555,8937574526027115,90019110908986731,905338057186084203,9094556248256546155,91274968260234970475,915384930289721279851,9174931290260247414123,91917968824962999125355,920528935722339183363435,9216083337380365339460971,92247185216560641317012843,923162666913667116052514155,9237153187145175981596869995,92415744015615875176593098091,924511137309855981819128448363 mov $1,1 mov $2,1 mov $3,2 lpb $0 sub $0,1 mul $1,10 mul $3,8 add $3,2 add $1,$3 mul $2,4 add $2,1 sub $1,$2 lpe mov $0,$1

oeis/291/A291000.asm

neoneye/loda-programs

11

24512

; A291000: p-INVERT of (1,1,1,1,1,...), where p(S) = 1 - S - S^2 - S^3. ; Submitted by <NAME>(w2) ; 1,3,9,26,74,210,596,1692,4804,13640,38728,109960,312208,886448,2516880,7146144,20289952,57608992,163568448,464417728,1318615104,3743926400,10630080640,30181847168,85694918912,243312448256,690833811712,1961475291648,5569190816256,15812529721856,44896306205696,127473487567872,361933784892416,1027633801709568,2917747042404352,8284320532563968,23521561564057600,66784458210783232,189620227652030464,538386200893104128,1528632809385861120,4340226889275088896,12323148721343119360,34988952947043844096 add $0,1 mov $1,1 mov $2,1 lpb $0 sub $0,1 mul $3,2 add $3,$1 add $1,$2 add $2,$3 lpe mov $0,$2 div $0,2