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class FlaskRequest(object):
"""
A Request class to connect the Piwik API to Flask
"""
def __init__(self, request):
"""
:param request: Flask request object.
:type request: flask.Request
:rtype: None
"""
self.request = request
@property
def META(self):
"""
Return request headers.
:rtype: dict
"""
return self.request.headers
def is_secure(self):
"""
Returns a boolean, if the connection is secured.
:rtype: bool
"""
return self.request.is_secure
|
class Flaskrequest(object):
"""
A Request class to connect the Piwik API to Flask
"""
def __init__(self, request):
"""
:param request: Flask request object.
:type request: flask.Request
:rtype: None
"""
self.request = request
@property
def meta(self):
"""
Return request headers.
:rtype: dict
"""
return self.request.headers
def is_secure(self):
"""
Returns a boolean, if the connection is secured.
:rtype: bool
"""
return self.request.is_secure
|
# Sal's Shipping
# Eleni A.
weight = 41.5
GS_FLAT = 20
GSP_FLAT = 125
# Basic Scale Shipping
def basic_shipping(weight):
if weight <= 2:
cost = weight * 1.50
elif weight <= 6:
cost = weight * 3
elif weight <=10:
cost = weight * 4
else:
cost = weight * 4.75
return cost
# Ground Shipping
def ground_shipping(weight):
cost = basic_shipping(weight)
return cost + GS_FLAT
print("Ground Shipping:", ground_shipping(weight))
# Ground Shipping Premium
print("Ground Shipping Premium:", GSP_FLAT)
# Drone Shipping
def drone_shipping(weight):
cost = basic_shipping(weight)
return cost * 3
print("Drone Shipping:", drone_shipping(weight))
|
weight = 41.5
gs_flat = 20
gsp_flat = 125
def basic_shipping(weight):
if weight <= 2:
cost = weight * 1.5
elif weight <= 6:
cost = weight * 3
elif weight <= 10:
cost = weight * 4
else:
cost = weight * 4.75
return cost
def ground_shipping(weight):
cost = basic_shipping(weight)
return cost + GS_FLAT
print('Ground Shipping:', ground_shipping(weight))
print('Ground Shipping Premium:', GSP_FLAT)
def drone_shipping(weight):
cost = basic_shipping(weight)
return cost * 3
print('Drone Shipping:', drone_shipping(weight))
|
"""
Product of Array Except Self
Given an integer array nums, return an array answer such that answer[i] is equal to the product of
all the elements of nums except nums[i].
The product of any prefix or suffix of nums is guaranteed to fit in a 32-bit integer.
You must write an algorithm that runs in O(n) time and without using the division operation.
Example 1:
Input: nums = [1,2,3,4]
Output: [24,12,8,6]
Example 2:
Input: nums = [-1,1,0,-3,3]
Output: [0,0,9,0,0]
Constraints:
2 <= nums.length <= 105
-30 <= nums[i] <= 30
The product of any prefix or suffix of nums is guaranteed to fit in a 32-bit integer.
Follow up: Can you solve the problem in O(1) extra space complexity? (The output array does not count as extra space for space complexity analysis.)
"""
class Solution:
def productExceptSelf(self, nums: List[int]) -> List[int]:
leftProduct = [1]
for i in range(len(nums)-1):
leftProduct.append(leftProduct[-1]*nums[i])
revRightProduct = [1]
for i in range(len(nums)-1, 0, -1):
revRightProduct.append(revRightProduct[-1]*nums[i])
rightProduct = list(reversed(revRightProduct))
ans = []
for i in range(len(rightProduct)):
ans.append(rightProduct[i]*leftProduct[i])
return ans
|
"""
Product of Array Except Self
Given an integer array nums, return an array answer such that answer[i] is equal to the product of
all the elements of nums except nums[i].
The product of any prefix or suffix of nums is guaranteed to fit in a 32-bit integer.
You must write an algorithm that runs in O(n) time and without using the division operation.
Example 1:
Input: nums = [1,2,3,4]
Output: [24,12,8,6]
Example 2:
Input: nums = [-1,1,0,-3,3]
Output: [0,0,9,0,0]
Constraints:
2 <= nums.length <= 105
-30 <= nums[i] <= 30
The product of any prefix or suffix of nums is guaranteed to fit in a 32-bit integer.
Follow up: Can you solve the problem in O(1) extra space complexity? (The output array does not count as extra space for space complexity analysis.)
"""
class Solution:
def product_except_self(self, nums: List[int]) -> List[int]:
left_product = [1]
for i in range(len(nums) - 1):
leftProduct.append(leftProduct[-1] * nums[i])
rev_right_product = [1]
for i in range(len(nums) - 1, 0, -1):
revRightProduct.append(revRightProduct[-1] * nums[i])
right_product = list(reversed(revRightProduct))
ans = []
for i in range(len(rightProduct)):
ans.append(rightProduct[i] * leftProduct[i])
return ans
|
#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright: 2017, Dag Wieers (@dagwieers) <[email protected]>
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = r'''
---
module: win_defrag
version_added: '2.4'
short_description: Consolidate fragmented files on local volumes
description:
- Locates and consolidates fragmented files on local volumes to improve system performance.
- 'More information regarding C(win_defrag) is available from: U(https://technet.microsoft.com/en-us/library/cc731650(v=ws.11).aspx)'
requirements:
- defrag.exe
options:
include_volumes:
description:
- A list of drive letters or mount point paths of the volumes to be defragmented.
- If this parameter is omitted, all volumes (not excluded) will be fragmented.
type: list
exclude_volumes:
description:
- A list of drive letters or mount point paths to exclude from defragmentation.
type: list
freespace_consolidation:
description:
- Perform free space consolidation on the specified volumes.
type: bool
default: no
priority:
description:
- Run the operation at low or normal priority.
type: str
choices: [ low, normal ]
default: low
parallel:
description:
- Run the operation on each volume in parallel in the background.
type: bool
default: no
author:
- Dag Wieers (@dagwieers)
'''
EXAMPLES = r'''
- name: Defragment all local volumes (in parallel)
win_defrag:
parallel: yes
- name: 'Defragment all local volumes, except C: and D:'
win_defrag:
exclude_volumes: [ C, D ]
- name: 'Defragment volume D: with normal priority'
win_defrag:
include_volumes: D
priority: normal
- name: Consolidate free space (useful when reducing volumes)
win_defrag:
freespace_consolidation: yes
'''
RETURN = r'''
cmd:
description: The complete command line used by the module.
returned: always
type: str
sample: defrag.exe /C /V
rc:
description: The return code for the command.
returned: always
type: int
sample: 0
stdout:
description: The standard output from the command.
returned: always
type: str
sample: Success.
stderr:
description: The error output from the command.
returned: always
type: str
sample:
msg:
description: Possible error message on failure.
returned: failed
type: str
sample: Command 'defrag.exe' not found in $env:PATH.
changed:
description: Whether or not any changes were made.
returned: always
type: bool
sample: true
'''
|
ansible_metadata = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'community'}
documentation = "\n---\nmodule: win_defrag\nversion_added: '2.4'\nshort_description: Consolidate fragmented files on local volumes\ndescription:\n- Locates and consolidates fragmented files on local volumes to improve system performance.\n- 'More information regarding C(win_defrag) is available from: U(https://technet.microsoft.com/en-us/library/cc731650(v=ws.11).aspx)'\nrequirements:\n- defrag.exe\noptions:\n include_volumes:\n description:\n - A list of drive letters or mount point paths of the volumes to be defragmented.\n - If this parameter is omitted, all volumes (not excluded) will be fragmented.\n type: list\n exclude_volumes:\n description:\n - A list of drive letters or mount point paths to exclude from defragmentation.\n type: list\n freespace_consolidation:\n description:\n - Perform free space consolidation on the specified volumes.\n type: bool\n default: no\n priority:\n description:\n - Run the operation at low or normal priority.\n type: str\n choices: [ low, normal ]\n default: low\n parallel:\n description:\n - Run the operation on each volume in parallel in the background.\n type: bool\n default: no\nauthor:\n- Dag Wieers (@dagwieers)\n"
examples = "\n- name: Defragment all local volumes (in parallel)\n win_defrag:\n parallel: yes\n\n- name: 'Defragment all local volumes, except C: and D:'\n win_defrag:\n exclude_volumes: [ C, D ]\n\n- name: 'Defragment volume D: with normal priority'\n win_defrag:\n include_volumes: D\n priority: normal\n\n- name: Consolidate free space (useful when reducing volumes)\n win_defrag:\n freespace_consolidation: yes\n"
return = "\ncmd:\n description: The complete command line used by the module.\n returned: always\n type: str\n sample: defrag.exe /C /V\nrc:\n description: The return code for the command.\n returned: always\n type: int\n sample: 0\nstdout:\n description: The standard output from the command.\n returned: always\n type: str\n sample: Success.\nstderr:\n description: The error output from the command.\n returned: always\n type: str\n sample:\nmsg:\n description: Possible error message on failure.\n returned: failed\n type: str\n sample: Command 'defrag.exe' not found in $env:PATH.\nchanged:\n description: Whether or not any changes were made.\n returned: always\n type: bool\n sample: true\n"
|
def open_dev( ):
''' Opens the red light LEDR device
:return: 1 on success, else 0
'''
def set(data):
''' Sets the red light LEDR device
:param data: the integer data to write to LEDR. If data = 0 all lights will be
turned off. If data = 0b1111111111 all lights will be turned on
:return: none
'''
def close( ):
''' Closes the red light LEDR device
:return: none
'''
|
def open_dev():
""" Opens the red light LEDR device
:return: 1 on success, else 0
"""
def set(data):
""" Sets the red light LEDR device
:param data: the integer data to write to LEDR. If data = 0 all lights will be
turned off. If data = 0b1111111111 all lights will be turned on
:return: none
"""
def close():
""" Closes the red light LEDR device
:return: none
"""
|
del_items(0x801234F4)
SetType(0x801234F4, "void GameOnlyTestRoutine__Fv()")
del_items(0x801234FC)
SetType(0x801234FC, "int vecleny__Fii(int a, int b)")
del_items(0x80123520)
SetType(0x80123520, "int veclenx__Fii(int a, int b)")
del_items(0x8012354C)
SetType(0x8012354C, "void GetDamageAmt__FiPiT1(int i, int *mind, int *maxd)")
del_items(0x80123B44)
SetType(0x80123B44, "int CheckBlock__Fiiii(int fx, int fy, int tx, int ty)")
del_items(0x80123C2C)
SetType(0x80123C2C, "int FindClosest__Fiii(int sx, int sy, int rad)")
del_items(0x80123DC8)
SetType(0x80123DC8, "int GetSpellLevel__Fii(int id, int sn)")
del_items(0x80123E3C)
SetType(0x80123E3C, "int GetDirection8__Fiiii(int x1, int y1, int x2, int y2)")
del_items(0x80124058)
SetType(0x80124058, "void DeleteMissile__Fii(int mi, int i)")
del_items(0x801240B0)
SetType(0x801240B0, "void GetMissileVel__Fiiiiii(int i, int sx, int sy, int dx, int dy, int v)")
del_items(0x8012420C)
SetType(0x8012420C, "void PutMissile__Fi(int i)")
del_items(0x80124310)
SetType(0x80124310, "void GetMissilePos__Fi(int i)")
del_items(0x80124438)
SetType(0x80124438, "void MoveMissilePos__Fi(int i)")
del_items(0x801245A0)
SetType(0x801245A0, "unsigned char MonsterTrapHit__FiiiiiUc(int m, int mindam, int maxdam, int dist, int t, int shift)")
del_items(0x80124914)
SetType(0x80124914, "unsigned char MonsterMHit__FiiiiiiUc(int pnum, int m, int mindam, int maxdam, int dist, int t, int shift)")
del_items(0x80125074)
SetType(0x80125074, "unsigned char PlayerMHit__FiiiiiiUcUc(int pnum, int m, int dist, int mind, int maxd, int mtype, int shift, int earflag)")
del_items(0x80125AE0)
SetType(0x80125AE0, "unsigned char Plr2PlrMHit__FiiiiiiUc(int pnum, int p, int mindam, int maxdam, int dist, int mtype, int shift)")
del_items(0x801262BC)
SetType(0x801262BC, "void CheckMissileCol__FiiiUciiUc(int i, int mindam, int maxdam, unsigned char shift, int mx, int my, int nodel)")
del_items(0x801269FC)
SetType(0x801269FC, "unsigned char GetTableValue__FUci(unsigned char code, int dir)")
del_items(0x80126A90)
SetType(0x80126A90, "void SetMissAnim__Fii(int mi, int animtype)")
del_items(0x80126B60)
SetType(0x80126B60, "void SetMissDir__Fii(int mi, int dir)")
del_items(0x80126BA4)
SetType(0x80126BA4, "void AddLArrow__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80126D84)
SetType(0x80126D84, "void AddArrow__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80126F40)
SetType(0x80126F40, "void GetVileMissPos__Fiii(int mi, int dx, int dy)")
del_items(0x80127064)
SetType(0x80127064, "void AddRndTeleport__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x801273D4)
SetType(0x801273D4, "void AddFirebolt__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int micaster, int id, int dam)")
del_items(0x80127640)
SetType(0x80127640, "void AddMagmaball__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80127754)
SetType(0x80127754, "void AddTeleport__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012794C)
SetType(0x8012794C, "void AddLightball__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80127AA0)
SetType(0x80127AA0, "void AddFirewall__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80127C88)
SetType(0x80127C88, "void AddFireball__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80127EE4)
SetType(0x80127EE4, "void AddLightctrl__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80127FCC)
SetType(0x80127FCC, "void AddLightning__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80128194)
SetType(0x80128194, "void AddMisexp__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x801283A0)
SetType(0x801283A0, "unsigned char CheckIfTrig__Fii(int x, int y)")
del_items(0x80128484)
SetType(0x80128484, "void AddTown__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x801288A8)
SetType(0x801288A8, "void AddFlash__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80128AB8)
SetType(0x80128AB8, "void AddFlash2__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80128CAC)
SetType(0x80128CAC, "void AddManashield__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80128D74)
SetType(0x80128D74, "void AddFiremove__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80128ED0)
SetType(0x80128ED0, "void AddGuardian__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012933C)
SetType(0x8012933C, "void AddChain__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129398)
SetType(0x80129398, "void AddRhino__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129554)
SetType(0x80129554, "void AddFlare__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012984C)
SetType(0x8012984C, "void AddAcid__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129950)
SetType(0x80129950, "void AddAcidpud__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129A28)
SetType(0x80129A28, "void AddStone__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129D20)
SetType(0x80129D20, "void AddGolem__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129ED8)
SetType(0x80129ED8, "void AddBoom__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x80129F6C)
SetType(0x80129F6C, "void AddHeal__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A194)
SetType(0x8012A194, "void AddHealOther__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A1FC)
SetType(0x8012A1FC, "void AddElement__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A428)
SetType(0x8012A428, "void AddIdentify__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A4D8)
SetType(0x8012A4D8, "void AddFirewallC__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A788)
SetType(0x8012A788, "void AddInfra__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A884)
SetType(0x8012A884, "void AddWave__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012A908)
SetType(0x8012A908, "void AddNova__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012AB20)
SetType(0x8012AB20, "void AddRepair__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012ABD0)
SetType(0x8012ABD0, "void AddRecharge__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012AC80)
SetType(0x8012AC80, "void AddDisarm__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012ACE8)
SetType(0x8012ACE8, "void AddApoca__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012AF24)
SetType(0x8012AF24, "void AddFlame__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int seqno)")
del_items(0x8012B140)
SetType(0x8012B140, "void AddFlamec__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012B230)
SetType(0x8012B230, "void AddCbolt__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int micaster, int id, int dam)")
del_items(0x8012B424)
SetType(0x8012B424, "void AddHbolt__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int micaster, int id, int dam)")
del_items(0x8012B5E4)
SetType(0x8012B5E4, "void AddResurrect__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012B658)
SetType(0x8012B658, "void AddResurrectBeam__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012B6E0)
SetType(0x8012B6E0, "void AddTelekinesis__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012B748)
SetType(0x8012B748, "void AddBoneSpirit__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012B944)
SetType(0x8012B944, "void AddRportal__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012B9E4)
SetType(0x8012B9E4, "void AddDiabApoca__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)")
del_items(0x8012BB20)
SetType(0x8012BB20, "int AddMissile__Fiiiiiiciii(int sx, int sy, int v1, int v2, int midir, int mitype, int micaster, int id, int v3, int spllvl)")
del_items(0x8012BE6C)
SetType(0x8012BE6C, "int Sentfire__Fiii(int i, int sx, int sy)")
del_items(0x8012C050)
SetType(0x8012C050, "void MI_Dummy__Fi(int i)")
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SetType(0x8012C058, "void MI_Golem__Fi(int i)")
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SetType(0x8012C2B4, "void MI_SetManashield__Fi(int i)")
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SetType(0x8012C2F0, "void MI_LArrow__Fi(int i)")
del_items(0x8012CAAC)
SetType(0x8012CAAC, "void MI_Arrow__Fi(int i)")
del_items(0x8012CCC8)
SetType(0x8012CCC8, "void MI_Firebolt__Fi(int i)")
del_items(0x8012D394)
SetType(0x8012D394, "void MI_Lightball__Fi(int i)")
del_items(0x8012D61C)
SetType(0x8012D61C, "void MI_Acidpud__Fi(int i)")
del_items(0x8012D72C)
SetType(0x8012D72C, "void MI_Firewall__Fi(int i)")
del_items(0x8012D9F0)
SetType(0x8012D9F0, "void MI_Fireball__Fi(int i)")
del_items(0x8012E3B4)
SetType(0x8012E3B4, "void MI_Lightctrl__Fi(int i)")
del_items(0x8012E920)
SetType(0x8012E920, "void MI_Lightning__Fi(int i)")
del_items(0x8012EA9C)
SetType(0x8012EA9C, "void MI_Town__Fi(int i)")
del_items(0x8012ED40)
SetType(0x8012ED40, "void MI_Flash__Fi(int i)")
del_items(0x8012F178)
SetType(0x8012F178, "void MI_Flash2__Fi(int i)")
del_items(0x8012F3C0)
SetType(0x8012F3C0, "void MI_Manashield__Fi(int i)")
del_items(0x8012F9C8)
SetType(0x8012F9C8, "void MI_Firemove__Fi(int i)")
del_items(0x8012FE04)
SetType(0x8012FE04, "void MI_Guardian__Fi(int i)")
del_items(0x801301D0)
SetType(0x801301D0, "void MI_Chain__Fi(int i)")
del_items(0x801304CC)
SetType(0x801304CC, "void MI_Misexp__Fi(int i)")
del_items(0x801307CC)
SetType(0x801307CC, "void MI_Acidsplat__Fi(int i)")
del_items(0x80130968)
SetType(0x80130968, "void MI_Teleport__Fi(int i)")
del_items(0x80130D30)
SetType(0x80130D30, "void MI_Stone__Fi(int i)")
del_items(0x80130EDC)
SetType(0x80130EDC, "void MI_Boom__Fi(int i)")
del_items(0x80130FD4)
SetType(0x80130FD4, "void MI_Rhino__Fi(int i)")
del_items(0x80131380)
SetType(0x80131380, "void MI_FirewallC__Fi(int i)")
del_items(0x801316E8)
SetType(0x801316E8, "void MI_Infra__Fi(int i)")
del_items(0x801317A0)
SetType(0x801317A0, "void MI_Apoca__Fi(int i)")
del_items(0x80131A34)
SetType(0x80131A34, "void MI_Wave__Fi(int i)")
del_items(0x80131F30)
SetType(0x80131F30, "void MI_Nova__Fi(int i)")
del_items(0x801321F0)
SetType(0x801321F0, "void MI_Flame__Fi(int i)")
del_items(0x801323E8)
SetType(0x801323E8, "void MI_Flamec__Fi(int i)")
del_items(0x80132670)
SetType(0x80132670, "void MI_Cbolt__Fi(int i)")
del_items(0x80132974)
SetType(0x80132974, "void MI_Hbolt__Fi(int i)")
del_items(0x80132C80)
SetType(0x80132C80, "void MI_Element__Fi(int i)")
del_items(0x80133338)
SetType(0x80133338, "void MI_Bonespirit__Fi(int i)")
del_items(0x80133740)
SetType(0x80133740, "void MI_ResurrectBeam__Fi(int i)")
del_items(0x801337B0)
SetType(0x801337B0, "void MI_Rportal__Fi(int i)")
del_items(0x801339D4)
SetType(0x801339D4, "void ProcessMissiles__Fv()")
del_items(0x80133DC8)
SetType(0x80133DC8, "void ClearMissileSpot__Fi(int mi)")
del_items(0x80133E80)
SetType(0x80133E80, "void MoveToScrollTarget__7CBlocks(struct CBlocks *this)")
del_items(0x80133E94)
SetType(0x80133E94, "void MonstPartJump__Fi(int m)")
del_items(0x80134028)
SetType(0x80134028, "void DeleteMonster__Fi(int i)")
del_items(0x80134060)
SetType(0x80134060, "int M_GetDir__Fi(int i)")
del_items(0x801340BC)
SetType(0x801340BC, "void M_StartDelay__Fii(int i, int len)")
del_items(0x80134104)
SetType(0x80134104, "void M_StartRAttack__Fiii(int i, int missile_type, int dam)")
del_items(0x8013421C)
SetType(0x8013421C, "void M_StartRSpAttack__Fiii(int i, int missile_type, int dam)")
del_items(0x80134340)
SetType(0x80134340, "void M_StartSpAttack__Fi(int i)")
del_items(0x80134428)
SetType(0x80134428, "void M_StartEat__Fi(int i)")
del_items(0x801344F8)
SetType(0x801344F8, "void M_GetKnockback__Fi(int i)")
del_items(0x801346D0)
SetType(0x801346D0, "void M_StartHit__Fiii(int i, int pnum, int dam)")
del_items(0x801349C8)
SetType(0x801349C8, "void M_DiabloDeath__FiUc(int i, unsigned char sendmsg)")
del_items(0x80134CEC)
SetType(0x80134CEC, "void M2MStartHit__Fiii(int mid, int i, int dam)")
del_items(0x80134F98)
SetType(0x80134F98, "void MonstStartKill__FiiUc(int i, int pnum, unsigned char sendmsg)")
del_items(0x8013526C)
SetType(0x8013526C, "void M2MStartKill__Fii(int i, int mid)")
del_items(0x80135634)
SetType(0x80135634, "void M_StartKill__Fii(int i, int pnum)")
del_items(0x80135724)
SetType(0x80135724, "void M_StartFadein__FiiUc(int i, int md, unsigned char backwards)")
del_items(0x80135878)
SetType(0x80135878, "void M_StartFadeout__FiiUc(int i, int md, unsigned char backwards)")
del_items(0x801359C0)
SetType(0x801359C0, "void M_StartHeal__Fi(int i)")
del_items(0x80135A40)
SetType(0x80135A40, "void M_ChangeLightOffset__Fi(int monst)")
del_items(0x80135AE0)
SetType(0x80135AE0, "int M_DoStand__Fi(int i)")
del_items(0x80135B48)
SetType(0x80135B48, "int M_DoWalk__Fi(int i)")
del_items(0x80135DCC)
SetType(0x80135DCC, "int M_DoWalk2__Fi(int i)")
del_items(0x80135FB8)
SetType(0x80135FB8, "int M_DoWalk3__Fi(int i)")
del_items(0x8013627C)
SetType(0x8013627C, "void M_TryM2MHit__Fiiiii(int i, int mid, int hper, int mind, int maxd)")
del_items(0x80136444)
SetType(0x80136444, "void M_TryH2HHit__Fiiiii(int i, int pnum, int Hit, int MinDam, int MaxDam)")
del_items(0x80136A60)
SetType(0x80136A60, "int M_DoAttack__Fi(int i)")
del_items(0x80136C04)
SetType(0x80136C04, "int M_DoRAttack__Fi(int i)")
del_items(0x80136D7C)
SetType(0x80136D7C, "int M_DoRSpAttack__Fi(int i)")
del_items(0x80136F6C)
SetType(0x80136F6C, "int M_DoSAttack__Fi(int i)")
del_items(0x80137040)
SetType(0x80137040, "int M_DoFadein__Fi(int i)")
del_items(0x80137110)
SetType(0x80137110, "int M_DoFadeout__Fi(int i)")
del_items(0x80137224)
SetType(0x80137224, "int M_DoHeal__Fi(int i)")
del_items(0x801372D0)
SetType(0x801372D0, "int M_DoTalk__Fi(int i)")
del_items(0x8013773C)
SetType(0x8013773C, "void M_Teleport__Fi(int i)")
del_items(0x80137970)
SetType(0x80137970, "int M_DoGotHit__Fi(int i)")
del_items(0x801379D0)
SetType(0x801379D0, "void DoEnding__Fv()")
del_items(0x80137A8C)
SetType(0x80137A8C, "void PrepDoEnding__Fv()")
del_items(0x80137BB0)
SetType(0x80137BB0, "int M_DoDeath__Fi(int i)")
del_items(0x80137D80)
SetType(0x80137D80, "int M_DoSpStand__Fi(int i)")
del_items(0x80137E24)
SetType(0x80137E24, "int M_DoDelay__Fi(int i)")
del_items(0x80137F14)
SetType(0x80137F14, "int M_DoStone__Fi(int i)")
del_items(0x80137F98)
SetType(0x80137F98, "void M_WalkDir__Fii(int i, int md)")
del_items(0x801381C0)
SetType(0x801381C0, "void GroupUnity__Fi(int i)")
del_items(0x801385AC)
SetType(0x801385AC, "unsigned char M_CallWalk__Fii(int i, int md)")
del_items(0x80138798)
SetType(0x80138798, "unsigned char M_PathWalk__Fi(int i, char plr2monst[9], unsigned char (*Check)())")
del_items(0x8013885C)
SetType(0x8013885C, "unsigned char M_CallWalk2__Fii(int i, int md)")
del_items(0x80138970)
SetType(0x80138970, "unsigned char M_DumbWalk__Fii(int i, int md)")
del_items(0x801389C4)
SetType(0x801389C4, "unsigned char M_RoundWalk__FiiRi(int i, int md, int *dir)")
del_items(0x80138B64)
SetType(0x80138B64, "void MAI_Zombie__Fi(int i)")
del_items(0x80138D5C)
SetType(0x80138D5C, "void MAI_SkelSd__Fi(int i)")
del_items(0x80138EF4)
SetType(0x80138EF4, "void MAI_Snake__Fi(int i)")
del_items(0x801392D8)
SetType(0x801392D8, "void MAI_Bat__Fi(int i)")
del_items(0x80139690)
SetType(0x80139690, "void MAI_SkelBow__Fi(int i)")
del_items(0x80139874)
SetType(0x80139874, "void MAI_Fat__Fi(int i)")
del_items(0x80139A24)
SetType(0x80139A24, "void MAI_Sneak__Fi(int i)")
del_items(0x80139E10)
SetType(0x80139E10, "void MAI_Fireman__Fi(int i)")
del_items(0x8013A108)
SetType(0x8013A108, "void MAI_Fallen__Fi(int i)")
del_items(0x8013A424)
SetType(0x8013A424, "void MAI_Cleaver__Fi(int i)")
del_items(0x8013A50C)
SetType(0x8013A50C, "void MAI_Round__FiUc(int i, unsigned char special)")
del_items(0x8013A978)
SetType(0x8013A978, "void MAI_GoatMc__Fi(int i)")
del_items(0x8013A998)
SetType(0x8013A998, "void MAI_Ranged__FiiUc(int i, int missile_type, unsigned char special)")
del_items(0x8013ABB8)
SetType(0x8013ABB8, "void MAI_GoatBow__Fi(int i)")
del_items(0x8013ABDC)
SetType(0x8013ABDC, "void MAI_Succ__Fi(int i)")
del_items(0x8013AC00)
SetType(0x8013AC00, "void MAI_AcidUniq__Fi(int i)")
del_items(0x8013AC24)
SetType(0x8013AC24, "void MAI_Scav__Fi(int i)")
del_items(0x8013B03C)
SetType(0x8013B03C, "void MAI_Garg__Fi(int i)")
del_items(0x8013B21C)
SetType(0x8013B21C, "void MAI_RoundRanged__FiiUciUc(int i, int missile_type, unsigned char checkdoors, int dam, int lessmissiles)")
del_items(0x8013B730)
SetType(0x8013B730, "void MAI_Magma__Fi(int i)")
del_items(0x8013B75C)
SetType(0x8013B75C, "void MAI_Storm__Fi(int i)")
del_items(0x8013B788)
SetType(0x8013B788, "void MAI_Acid__Fi(int i)")
del_items(0x8013B7B8)
SetType(0x8013B7B8, "void MAI_Diablo__Fi(int i)")
del_items(0x8013B7E4)
SetType(0x8013B7E4, "void MAI_RR2__Fiii(int i, int mistype, int dam)")
del_items(0x8013BCE4)
SetType(0x8013BCE4, "void MAI_Mega__Fi(int i)")
del_items(0x8013BD08)
SetType(0x8013BD08, "void MAI_SkelKing__Fi(int i)")
del_items(0x8013C244)
SetType(0x8013C244, "void MAI_Rhino__Fi(int i)")
del_items(0x8013C6EC)
SetType(0x8013C6EC, "void MAI_Counselor__Fi(int i, unsigned char counsmiss[4], int _mx, int _my)")
del_items(0x8013CBB8)
SetType(0x8013CBB8, "void MAI_Garbud__Fi(int i)")
del_items(0x8013CD68)
SetType(0x8013CD68, "void MAI_Zhar__Fi(int i)")
del_items(0x8013CF60)
SetType(0x8013CF60, "void MAI_SnotSpil__Fi(int i)")
del_items(0x8013D194)
SetType(0x8013D194, "void MAI_Lazurus__Fi(int i)")
del_items(0x8013D40C)
SetType(0x8013D40C, "void MAI_Lazhelp__Fi(int i)")
del_items(0x8013D52C)
SetType(0x8013D52C, "void MAI_Lachdanan__Fi(int i)")
del_items(0x8013D6BC)
SetType(0x8013D6BC, "void MAI_Warlord__Fi(int i)")
del_items(0x8013D808)
SetType(0x8013D808, "void DeleteMonsterList__Fv()")
del_items(0x8013D924)
SetType(0x8013D924, "void ProcessMonsters__Fv()")
del_items(0x8013DF00)
SetType(0x8013DF00, "unsigned char DirOK__Fii(int i, int mdir)")
del_items(0x8013E2E8)
SetType(0x8013E2E8, "unsigned char PosOkMissile__Fii(int x, int y)")
del_items(0x8013E350)
SetType(0x8013E350, "unsigned char CheckNoSolid__Fii(int x, int y)")
del_items(0x8013E394)
SetType(0x8013E394, "unsigned char LineClearF__FPFii_Uciiii(unsigned char (*Clear)(), int x1, int y1, int x2, int y2)")
del_items(0x8013E61C)
SetType(0x8013E61C, "unsigned char LineClear__Fiiii(int x1, int y1, int x2, int y2)")
del_items(0x8013E65C)
SetType(0x8013E65C, "unsigned char LineClearF1__FPFiii_Uciiiii(unsigned char (*Clear)(), int monst, int x1, int y1, int x2, int y2)")
del_items(0x8013E8F0)
SetType(0x8013E8F0, "void M_FallenFear__Fii(int x, int y)")
del_items(0x8013EAC0)
SetType(0x8013EAC0, "void PrintMonstHistory__Fi(int mt)")
del_items(0x8013ECE8)
SetType(0x8013ECE8, "void PrintUniqueHistory__Fv()")
del_items(0x8013EE0C)
SetType(0x8013EE0C, "void MissToMonst__Fiii(int i, int x, int y)")
del_items(0x8013F288)
SetType(0x8013F288, "unsigned char PosOkMonst2__Fiii(int i, int x, int y)")
del_items(0x8013F4A4)
SetType(0x8013F4A4, "unsigned char PosOkMonst3__Fiii(int i, int x, int y)")
del_items(0x8013F798)
SetType(0x8013F798, "int M_SpawnSkel__Fiii(int x, int y, int dir)")
del_items(0x8013F8F0)
SetType(0x8013F8F0, "void TalktoMonster__Fi(int i)")
del_items(0x8013FA10)
SetType(0x8013FA10, "void SpawnGolum__Fiiii(int i, int x, int y, int mi)")
del_items(0x8013FC68)
SetType(0x8013FC68, "unsigned char CanTalkToMonst__Fi(int m)")
del_items(0x8013FCA0)
SetType(0x8013FCA0, "unsigned char CheckMonsterHit__FiRUc(int m, unsigned char *ret)")
del_items(0x8013FD6C)
SetType(0x8013FD6C, "void MAI_Golum__Fi(int i)")
del_items(0x801400E0)
SetType(0x801400E0, "unsigned char MAI_Path__Fi(int i)")
del_items(0x80140244)
SetType(0x80140244, "void M_StartAttack__Fi(int i)")
del_items(0x8014032C)
SetType(0x8014032C, "void M_StartWalk__Fiiiiii(int i, int xvel, int yvel, int xadd, int yadd, int EndDir)")
del_items(0x8014048C)
SetType(0x8014048C, "void AddWarpMissile__Fiii(int i, int x, int y)")
del_items(0x80140594)
SetType(0x80140594, "void SyncPortals__Fv()")
del_items(0x8014069C)
SetType(0x8014069C, "void AddInTownPortal__Fi(int i)")
del_items(0x801406D8)
SetType(0x801406D8, "void ActivatePortal__FiiiiiUc(int i, int x, int y, int lvl, int lvltype, int sp)")
del_items(0x80140748)
SetType(0x80140748, "void DeactivatePortal__Fi(int i)")
del_items(0x80140768)
SetType(0x80140768, "unsigned char PortalOnLevel__Fi(int i)")
del_items(0x801407A0)
SetType(0x801407A0, "void RemovePortalMissile__Fi(int id)")
del_items(0x8014093C)
SetType(0x8014093C, "void SetCurrentPortal__Fi(int p)")
del_items(0x80140948)
SetType(0x80140948, "void GetPortalLevel__Fv()")
del_items(0x80140B14)
SetType(0x80140B14, "void GetPortalLvlPos__Fv()")
del_items(0x80140BC8)
SetType(0x80140BC8, "void FreeInvGFX__Fv()")
del_items(0x80140BD0)
SetType(0x80140BD0, "void InvDrawSlot__Fiii(int X, int Y, int Frame)")
del_items(0x80140C54)
SetType(0x80140C54, "void InvDrawSlotBack__FiiiiUc(int X, int Y, int W, int H, int Flag)")
del_items(0x80140EA8)
SetType(0x80140EA8, "void InvDrawItem__FiiiUci(int ItemX, int ItemY, int ItemNo, unsigned char StatFlag, int TransFlag)")
del_items(0x80140F78)
SetType(0x80140F78, "void InvDrawSlots__Fv()")
del_items(0x8014128C)
SetType(0x8014128C, "void PrintStat__FiiPcUc(int Y, int Txt0, char *Txt1, unsigned char Col)")
del_items(0x80141358)
SetType(0x80141358, "void DrawInvStats__Fv()")
del_items(0x80141EE4)
SetType(0x80141EE4, "void DrawInvBack__Fv()")
del_items(0x80141F6C)
SetType(0x80141F6C, "void DrawInvCursor__Fv()")
del_items(0x80142448)
SetType(0x80142448, "void DrawInvMsg__Fv()")
del_items(0x80142610)
SetType(0x80142610, "void DrawInv__Fv()")
del_items(0x80142640)
SetType(0x80142640, "void DrawInvTSK__FP4TASK(struct TASK *T)")
del_items(0x80142920)
SetType(0x80142920, "void DoThatDrawInv__Fv()")
del_items(0x80143174)
SetType(0x80143174, "unsigned char AutoPlace__FiiiiUc(int pnum, int ii, int sx, int sy, int saveflag)")
del_items(0x80143490)
SetType(0x80143490, "unsigned char SpecialAutoPlace__FiiiiUc(int pnum, int ii, int sx, int sy, int saveflag)")
del_items(0x80143828)
SetType(0x80143828, "unsigned char GoldAutoPlace__Fi(int pnum)")
del_items(0x80143CF4)
SetType(0x80143CF4, "unsigned char WeaponAutoPlace__Fi(int pnum)")
del_items(0x80143F7C)
SetType(0x80143F7C, "int SwapItem__FP10ItemStructT0(struct ItemStruct *a, struct ItemStruct *b)")
del_items(0x8014406C)
SetType(0x8014406C, "void CheckInvPaste__Fiii(int pnum, int mx, int my)")
del_items(0x80145CF8)
SetType(0x80145CF8, "void CheckInvCut__Fiii(int pnum, int mx, int my)")
del_items(0x80146784)
SetType(0x80146784, "void RemoveInvItem__Fii(int pnum, int iv)")
del_items(0x80146A28)
SetType(0x80146A28, "void RemoveSpdBarItem__Fii(int pnum, int iv)")
del_items(0x80146B28)
SetType(0x80146B28, "void CheckInvScrn__Fv()")
del_items(0x80146BA0)
SetType(0x80146BA0, "void CheckItemStats__Fi(int pnum)")
del_items(0x80146C24)
SetType(0x80146C24, "void CheckBookLevel__Fi(int pnum)")
del_items(0x80146D58)
SetType(0x80146D58, "void CheckQuestItem__Fi(int pnum)")
del_items(0x80147180)
SetType(0x80147180, "void InvGetItem__Fii(int pnum, int ii)")
del_items(0x80147478)
SetType(0x80147478, "void AutoGetItem__Fii(int pnum, int ii)")
del_items(0x80147EDC)
SetType(0x80147EDC, "int FindGetItem__FiUsi(int idx, unsigned short ci, int iseed)")
del_items(0x80147F90)
SetType(0x80147F90, "void SyncGetItem__FiiiUsi(int x, int y, int idx, unsigned short ci, int iseed)")
del_items(0x8014811C)
SetType(0x8014811C, "unsigned char TryInvPut__Fv()")
del_items(0x801482E4)
SetType(0x801482E4, "int InvPutItem__Fiii(int pnum, int x, int y)")
del_items(0x80148788)
SetType(0x80148788, "int SyncPutItem__FiiiiUsiUciiiiiUl(int pnum, int x, int y, int idx, int icreateinfo, int iseed, int Id, int dur, int mdur, int ch, int mch, int ivalue, unsigned long ibuff)")
del_items(0x80148CE4)
SetType(0x80148CE4, "char CheckInvHLight__Fv()")
del_items(0x80148FF8)
SetType(0x80148FF8, "void RemoveScroll__Fi(int pnum)")
del_items(0x801491DC)
SetType(0x801491DC, "unsigned char UseScroll__Fv()")
del_items(0x80149444)
SetType(0x80149444, "void UseStaffCharge__FP12PlayerStruct(struct PlayerStruct *ptrplr)")
del_items(0x801494AC)
SetType(0x801494AC, "unsigned char UseStaff__Fv()")
del_items(0x8014956C)
SetType(0x8014956C, "void StartGoldDrop__Fv()")
del_items(0x80149670)
SetType(0x80149670, "unsigned char UseInvItem__Fii(int pnum, int cii)")
del_items(0x80149B98)
SetType(0x80149B98, "void DoTelekinesis__Fv()")
del_items(0x80149CC0)
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SetType(0x8014C1A8, "void PRIM_GetPrim__FPP7LINE_F2(struct LINE_F2 **Prim)")
|
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set_type(2148691776, 'void GetVileMissPos__Fiii(int mi, int dx, int dy)')
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set_type(2148692068, 'void AddRndTeleport__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148692948, 'void AddFirebolt__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int micaster, int id, int dam)')
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set_type(2148693568, 'void AddMagmaball__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148693844, 'void AddTeleport__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148694348, 'void AddLightball__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148694688, 'void AddFirewall__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148696012, 'void AddLightning__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148696992, 'unsigned char CheckIfTrig__Fii(int x, int y)')
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set_type(2148697220, 'void AddTown__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148699308, 'void AddManashield__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148699508, 'void AddFiremove__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148699856, 'void AddGuardian__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148700988, 'void AddChain__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148701080, 'void AddRhino__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148702284, 'void AddAcid__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148704660, 'void AddHealOther__Fiiiiiicii(int mi, int sx, int sy, int dx, int dy, int midir, int mienemy, int id, int dam)')
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set_type(2148749208, 'void MonstStartKill__FiiUc(int i, int pnum, unsigned char sendmsg)')
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set_type(2148749932, 'void M2MStartKill__Fii(int i, int mid)')
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set_type(2148750900, 'void M_StartKill__Fii(int i, int pnum)')
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set_type(2148751140, 'void M_StartFadein__FiiUc(int i, int md, unsigned char backwards)')
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set_type(2148751480, 'void M_StartFadeout__FiiUc(int i, int md, unsigned char backwards)')
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set_type(2148751808, 'void M_StartHeal__Fi(int i)')
del_items(2148751936)
set_type(2148751936, 'void M_ChangeLightOffset__Fi(int monst)')
del_items(2148752096)
set_type(2148752096, 'int M_DoStand__Fi(int i)')
del_items(2148752200)
set_type(2148752200, 'int M_DoWalk__Fi(int i)')
del_items(2148752844)
set_type(2148752844, 'int M_DoWalk2__Fi(int i)')
del_items(2148753336)
set_type(2148753336, 'int M_DoWalk3__Fi(int i)')
del_items(2148754044)
set_type(2148754044, 'void M_TryM2MHit__Fiiiii(int i, int mid, int hper, int mind, int maxd)')
del_items(2148754500)
set_type(2148754500, 'void M_TryH2HHit__Fiiiii(int i, int pnum, int Hit, int MinDam, int MaxDam)')
del_items(2148756064)
set_type(2148756064, 'int M_DoAttack__Fi(int i)')
del_items(2148756484)
set_type(2148756484, 'int M_DoRAttack__Fi(int i)')
del_items(2148756860)
set_type(2148756860, 'int M_DoRSpAttack__Fi(int i)')
del_items(2148757356)
set_type(2148757356, 'int M_DoSAttack__Fi(int i)')
del_items(2148757568)
set_type(2148757568, 'int M_DoFadein__Fi(int i)')
del_items(2148757776)
set_type(2148757776, 'int M_DoFadeout__Fi(int i)')
del_items(2148758052)
set_type(2148758052, 'int M_DoHeal__Fi(int i)')
del_items(2148758224)
set_type(2148758224, 'int M_DoTalk__Fi(int i)')
del_items(2148759356)
set_type(2148759356, 'void M_Teleport__Fi(int i)')
del_items(2148759920)
set_type(2148759920, 'int M_DoGotHit__Fi(int i)')
del_items(2148760016)
set_type(2148760016, 'void DoEnding__Fv()')
del_items(2148760204)
set_type(2148760204, 'void PrepDoEnding__Fv()')
del_items(2148760496)
set_type(2148760496, 'int M_DoDeath__Fi(int i)')
del_items(2148760960)
set_type(2148760960, 'int M_DoSpStand__Fi(int i)')
del_items(2148761124)
set_type(2148761124, 'int M_DoDelay__Fi(int i)')
del_items(2148761364)
set_type(2148761364, 'int M_DoStone__Fi(int i)')
del_items(2148761496)
set_type(2148761496, 'void M_WalkDir__Fii(int i, int md)')
del_items(2148762048)
set_type(2148762048, 'void GroupUnity__Fi(int i)')
del_items(2148763052)
set_type(2148763052, 'unsigned char M_CallWalk__Fii(int i, int md)')
del_items(2148763544)
set_type(2148763544, 'unsigned char M_PathWalk__Fi(int i, char plr2monst[9], unsigned char (*Check)())')
del_items(2148763740)
set_type(2148763740, 'unsigned char M_CallWalk2__Fii(int i, int md)')
del_items(2148764016)
set_type(2148764016, 'unsigned char M_DumbWalk__Fii(int i, int md)')
del_items(2148764100)
set_type(2148764100, 'unsigned char M_RoundWalk__FiiRi(int i, int md, int *dir)')
del_items(2148764516)
set_type(2148764516, 'void MAI_Zombie__Fi(int i)')
del_items(2148765020)
set_type(2148765020, 'void MAI_SkelSd__Fi(int i)')
del_items(2148765428)
set_type(2148765428, 'void MAI_Snake__Fi(int i)')
del_items(2148766424)
set_type(2148766424, 'void MAI_Bat__Fi(int i)')
del_items(2148767376)
set_type(2148767376, 'void MAI_SkelBow__Fi(int i)')
del_items(2148767860)
set_type(2148767860, 'void MAI_Fat__Fi(int i)')
del_items(2148768292)
set_type(2148768292, 'void MAI_Sneak__Fi(int i)')
del_items(2148769296)
set_type(2148769296, 'void MAI_Fireman__Fi(int i)')
del_items(2148770056)
set_type(2148770056, 'void MAI_Fallen__Fi(int i)')
del_items(2148770852)
set_type(2148770852, 'void MAI_Cleaver__Fi(int i)')
del_items(2148771084)
set_type(2148771084, 'void MAI_Round__FiUc(int i, unsigned char special)')
del_items(2148772216)
set_type(2148772216, 'void MAI_GoatMc__Fi(int i)')
del_items(2148772248)
set_type(2148772248, 'void MAI_Ranged__FiiUc(int i, int missile_type, unsigned char special)')
del_items(2148772792)
set_type(2148772792, 'void MAI_GoatBow__Fi(int i)')
del_items(2148772828)
set_type(2148772828, 'void MAI_Succ__Fi(int i)')
del_items(2148772864)
set_type(2148772864, 'void MAI_AcidUniq__Fi(int i)')
del_items(2148772900)
set_type(2148772900, 'void MAI_Scav__Fi(int i)')
del_items(2148773948)
set_type(2148773948, 'void MAI_Garg__Fi(int i)')
del_items(2148774428)
set_type(2148774428, 'void MAI_RoundRanged__FiiUciUc(int i, int missile_type, unsigned char checkdoors, int dam, int lessmissiles)')
del_items(2148775728)
set_type(2148775728, 'void MAI_Magma__Fi(int i)')
del_items(2148775772)
set_type(2148775772, 'void MAI_Storm__Fi(int i)')
del_items(2148775816)
set_type(2148775816, 'void MAI_Acid__Fi(int i)')
del_items(2148775864)
set_type(2148775864, 'void MAI_Diablo__Fi(int i)')
del_items(2148775908)
set_type(2148775908, 'void MAI_RR2__Fiii(int i, int mistype, int dam)')
del_items(2148777188)
set_type(2148777188, 'void MAI_Mega__Fi(int i)')
del_items(2148777224)
set_type(2148777224, 'void MAI_SkelKing__Fi(int i)')
del_items(2148778564)
set_type(2148778564, 'void MAI_Rhino__Fi(int i)')
del_items(2148779756)
set_type(2148779756, 'void MAI_Counselor__Fi(int i, unsigned char counsmiss[4], int _mx, int _my)')
del_items(2148780984)
set_type(2148780984, 'void MAI_Garbud__Fi(int i)')
del_items(2148781416)
set_type(2148781416, 'void MAI_Zhar__Fi(int i)')
del_items(2148781920)
set_type(2148781920, 'void MAI_SnotSpil__Fi(int i)')
del_items(2148782484)
set_type(2148782484, 'void MAI_Lazurus__Fi(int i)')
del_items(2148783116)
set_type(2148783116, 'void MAI_Lazhelp__Fi(int i)')
del_items(2148783404)
set_type(2148783404, 'void MAI_Lachdanan__Fi(int i)')
del_items(2148783804)
set_type(2148783804, 'void MAI_Warlord__Fi(int i)')
del_items(2148784136)
set_type(2148784136, 'void DeleteMonsterList__Fv()')
del_items(2148784420)
set_type(2148784420, 'void ProcessMonsters__Fv()')
del_items(2148785920)
set_type(2148785920, 'unsigned char DirOK__Fii(int i, int mdir)')
del_items(2148786920)
set_type(2148786920, 'unsigned char PosOkMissile__Fii(int x, int y)')
del_items(2148787024)
set_type(2148787024, 'unsigned char CheckNoSolid__Fii(int x, int y)')
del_items(2148787092)
set_type(2148787092, 'unsigned char LineClearF__FPFii_Uciiii(unsigned char (*Clear)(), int x1, int y1, int x2, int y2)')
del_items(2148787740)
set_type(2148787740, 'unsigned char LineClear__Fiiii(int x1, int y1, int x2, int y2)')
del_items(2148787804)
set_type(2148787804, 'unsigned char LineClearF1__FPFiii_Uciiiii(unsigned char (*Clear)(), int monst, int x1, int y1, int x2, int y2)')
del_items(2148788464)
set_type(2148788464, 'void M_FallenFear__Fii(int x, int y)')
del_items(2148788928)
set_type(2148788928, 'void PrintMonstHistory__Fi(int mt)')
del_items(2148789480)
set_type(2148789480, 'void PrintUniqueHistory__Fv()')
del_items(2148789772)
set_type(2148789772, 'void MissToMonst__Fiii(int i, int x, int y)')
del_items(2148790920)
set_type(2148790920, 'unsigned char PosOkMonst2__Fiii(int i, int x, int y)')
del_items(2148791460)
set_type(2148791460, 'unsigned char PosOkMonst3__Fiii(int i, int x, int y)')
del_items(2148792216)
set_type(2148792216, 'int M_SpawnSkel__Fiii(int x, int y, int dir)')
del_items(2148792560)
set_type(2148792560, 'void TalktoMonster__Fi(int i)')
del_items(2148792848)
set_type(2148792848, 'void SpawnGolum__Fiiii(int i, int x, int y, int mi)')
del_items(2148793448)
set_type(2148793448, 'unsigned char CanTalkToMonst__Fi(int m)')
del_items(2148793504)
set_type(2148793504, 'unsigned char CheckMonsterHit__FiRUc(int m, unsigned char *ret)')
del_items(2148793708)
set_type(2148793708, 'void MAI_Golum__Fi(int i)')
del_items(2148794592)
set_type(2148794592, 'unsigned char MAI_Path__Fi(int i)')
del_items(2148794948)
set_type(2148794948, 'void M_StartAttack__Fi(int i)')
del_items(2148795180)
set_type(2148795180, 'void M_StartWalk__Fiiiiii(int i, int xvel, int yvel, int xadd, int yadd, int EndDir)')
del_items(2148795532)
set_type(2148795532, 'void AddWarpMissile__Fiii(int i, int x, int y)')
del_items(2148795796)
set_type(2148795796, 'void SyncPortals__Fv()')
del_items(2148796060)
set_type(2148796060, 'void AddInTownPortal__Fi(int i)')
del_items(2148796120)
set_type(2148796120, 'void ActivatePortal__FiiiiiUc(int i, int x, int y, int lvl, int lvltype, int sp)')
del_items(2148796232)
set_type(2148796232, 'void DeactivatePortal__Fi(int i)')
del_items(2148796264)
set_type(2148796264, 'unsigned char PortalOnLevel__Fi(int i)')
del_items(2148796320)
set_type(2148796320, 'void RemovePortalMissile__Fi(int id)')
del_items(2148796732)
set_type(2148796732, 'void SetCurrentPortal__Fi(int p)')
del_items(2148796744)
set_type(2148796744, 'void GetPortalLevel__Fv()')
del_items(2148797204)
set_type(2148797204, 'void GetPortalLvlPos__Fv()')
del_items(2148797384)
set_type(2148797384, 'void FreeInvGFX__Fv()')
del_items(2148797392)
set_type(2148797392, 'void InvDrawSlot__Fiii(int X, int Y, int Frame)')
del_items(2148797524)
set_type(2148797524, 'void InvDrawSlotBack__FiiiiUc(int X, int Y, int W, int H, int Flag)')
del_items(2148798120)
set_type(2148798120, 'void InvDrawItem__FiiiUci(int ItemX, int ItemY, int ItemNo, unsigned char StatFlag, int TransFlag)')
del_items(2148798328)
set_type(2148798328, 'void InvDrawSlots__Fv()')
del_items(2148799116)
set_type(2148799116, 'void PrintStat__FiiPcUc(int Y, int Txt0, char *Txt1, unsigned char Col)')
del_items(2148799320)
set_type(2148799320, 'void DrawInvStats__Fv()')
del_items(2148802276)
set_type(2148802276, 'void DrawInvBack__Fv()')
del_items(2148802412)
set_type(2148802412, 'void DrawInvCursor__Fv()')
del_items(2148803656)
set_type(2148803656, 'void DrawInvMsg__Fv()')
del_items(2148804112)
set_type(2148804112, 'void DrawInv__Fv()')
del_items(2148804160)
set_type(2148804160, 'void DrawInvTSK__FP4TASK(struct TASK *T)')
del_items(2148804896)
set_type(2148804896, 'void DoThatDrawInv__Fv()')
del_items(2148807028)
set_type(2148807028, 'unsigned char AutoPlace__FiiiiUc(int pnum, int ii, int sx, int sy, int saveflag)')
del_items(2148807824)
set_type(2148807824, 'unsigned char SpecialAutoPlace__FiiiiUc(int pnum, int ii, int sx, int sy, int saveflag)')
del_items(2148808744)
set_type(2148808744, 'unsigned char GoldAutoPlace__Fi(int pnum)')
del_items(2148809972)
set_type(2148809972, 'unsigned char WeaponAutoPlace__Fi(int pnum)')
del_items(2148810620)
set_type(2148810620, 'int SwapItem__FP10ItemStructT0(struct ItemStruct *a, struct ItemStruct *b)')
del_items(2148810860)
set_type(2148810860, 'void CheckInvPaste__Fiii(int pnum, int mx, int my)')
del_items(2148818168)
set_type(2148818168, 'void CheckInvCut__Fiii(int pnum, int mx, int my)')
del_items(2148820868)
set_type(2148820868, 'void RemoveInvItem__Fii(int pnum, int iv)')
del_items(2148821544)
set_type(2148821544, 'void RemoveSpdBarItem__Fii(int pnum, int iv)')
del_items(2148821800)
set_type(2148821800, 'void CheckInvScrn__Fv()')
del_items(2148821920)
set_type(2148821920, 'void CheckItemStats__Fi(int pnum)')
del_items(2148822052)
set_type(2148822052, 'void CheckBookLevel__Fi(int pnum)')
del_items(2148822360)
set_type(2148822360, 'void CheckQuestItem__Fi(int pnum)')
del_items(2148823424)
set_type(2148823424, 'void InvGetItem__Fii(int pnum, int ii)')
del_items(2148824184)
set_type(2148824184, 'void AutoGetItem__Fii(int pnum, int ii)')
del_items(2148826844)
set_type(2148826844, 'int FindGetItem__FiUsi(int idx, unsigned short ci, int iseed)')
del_items(2148827024)
set_type(2148827024, 'void SyncGetItem__FiiiUsi(int x, int y, int idx, unsigned short ci, int iseed)')
del_items(2148827420)
set_type(2148827420, 'unsigned char TryInvPut__Fv()')
del_items(2148827876)
set_type(2148827876, 'int InvPutItem__Fiii(int pnum, int x, int y)')
del_items(2148829064)
set_type(2148829064, 'int SyncPutItem__FiiiiUsiUciiiiiUl(int pnum, int x, int y, int idx, int icreateinfo, int iseed, int Id, int dur, int mdur, int ch, int mch, int ivalue, unsigned long ibuff)')
del_items(2148830436)
set_type(2148830436, 'char CheckInvHLight__Fv()')
del_items(2148831224)
set_type(2148831224, 'void RemoveScroll__Fi(int pnum)')
del_items(2148831708)
set_type(2148831708, 'unsigned char UseScroll__Fv()')
del_items(2148832324)
set_type(2148832324, 'void UseStaffCharge__FP12PlayerStruct(struct PlayerStruct *ptrplr)')
del_items(2148832428)
set_type(2148832428, 'unsigned char UseStaff__Fv()')
del_items(2148832620)
set_type(2148832620, 'void StartGoldDrop__Fv()')
del_items(2148832880)
set_type(2148832880, 'unsigned char UseInvItem__Fii(int pnum, int cii)')
del_items(2148834200)
set_type(2148834200, 'void DoTelekinesis__Fv()')
del_items(2148834496)
set_type(2148834496, 'long CalculateGold__Fi(int pnum)')
del_items(2148834808)
set_type(2148834808, 'unsigned char DropItemBeforeTrig__Fv()')
del_items(2148834896)
set_type(2148834896, 'void ControlInv__Fv()')
del_items(2148835800)
set_type(2148835800, 'void InvGetItemWH__Fi(int Pos)')
del_items(2148836048)
set_type(2148836048, 'void InvAlignObject__Fv()')
del_items(2148836484)
set_type(2148836484, 'void InvSetItemCurs__Fv()')
del_items(2148836888)
set_type(2148836888, 'void InvMoveCursLeft__Fv()')
del_items(2148837364)
set_type(2148837364, 'void InvMoveCursRight__Fv()')
del_items(2148838156)
set_type(2148838156, 'void InvMoveCursUp__Fv()')
del_items(2148838644)
set_type(2148838644, 'void InvMoveCursDown__Fv()')
del_items(2148839436)
set_type(2148839436, 'void DumpMonsters__7CBlocks(struct CBlocks *this)')
del_items(2148839476)
set_type(2148839476, 'void Flush__4CPad(struct CPad *this)')
del_items(2148839512)
set_type(2148839512, 'void SetRGB__6DialogUcUcUc(struct Dialog *this, unsigned char R, unsigned char G, unsigned char B)')
del_items(2148839544)
set_type(2148839544, 'void SetBack__6Dialogi(struct Dialog *this, int Type)')
del_items(2148839552)
set_type(2148839552, 'void SetBorder__6Dialogi(struct Dialog *this, int Type)')
del_items(2148839560)
set_type(2148839560, 'int SetOTpos__6Dialogi(struct Dialog *this, int OT)')
del_items(2148839572)
set_type(2148839572, 'void ___6Dialog(struct Dialog *this, int __in_chrg)')
del_items(2148839612)
set_type(2148839612, 'struct Dialog *__6Dialog(struct Dialog *this)')
del_items(2148839704)
set_type(2148839704, 'void StartAutomap__Fv()')
del_items(2148839728)
set_type(2148839728, 'void AutomapUp__Fv()')
del_items(2148839752)
set_type(2148839752, 'void AutomapDown__Fv()')
del_items(2148839776)
set_type(2148839776, 'void AutomapLeft__Fv()')
del_items(2148839800)
set_type(2148839800, 'void AutomapRight__Fv()')
del_items(2148839824)
set_type(2148839824, 'struct LINE_F2 *AMGetLine__FUcUcUc(unsigned char R, unsigned char G, unsigned char B)')
del_items(2148839996)
set_type(2148839996, 'void AmDrawLine__Fiiii(int x0, int y0, int x1, int y1)')
del_items(2148840100)
set_type(2148840100, 'void DrawAutomapPlr__Fv()')
del_items(2148840988)
set_type(2148840988, 'void DrawAutoMapVertWall__Fiii(int X, int Y, int Length)')
del_items(2148841156)
set_type(2148841156, 'void DrawAutoMapHorzWall__Fiii(int X, int Y, int Length)')
del_items(2148841324)
set_type(2148841324, 'void DrawAutoMapVertDoor__Fii(int X, int Y)')
del_items(2148841700)
set_type(2148841700, 'void DrawAutoMapHorzDoor__Fii(int X, int Y)')
del_items(2148842084)
set_type(2148842084, 'void DrawAutoMapVertGrate__Fii(int X, int Y)')
del_items(2148842232)
set_type(2148842232, 'void DrawAutoMapHorzGrate__Fii(int X, int Y)')
del_items(2148842380)
set_type(2148842380, 'void DrawAutoMapSquare__Fii(int X, int Y)')
del_items(2148842660)
set_type(2148842660, 'void DrawAutoMapStairs__Fii(int X, int Y)')
del_items(2148843084)
set_type(2148843084, 'void DrawAutomap__Fv()')
del_items(2148843944)
set_type(2148843944, 'void PRIM_GetPrim__FPP7LINE_F2(struct LINE_F2 **Prim)')
|
def simple(arry, target):
# simple search
arry = [i for i in range(20)]
for i in arry:
print("%d steps" % i)
if i == target:
print("Found %d" % i)
break
def binary_search(arry, target):
# binary search
l = 0 # left pointer
r = len(arry) - 1 # right pointer
step = 0
while l <= r:
step += 1
mid = l + (r - l) // 2
print("%d steps" % step)
if target == arry[mid]:
print("Found %d" % arry[mid])
break
elif arry[mid] < target:
l = mid + 1
else:
r = mid - 1
if __name__ == '__main__':
arry = [i for i in range(20)]
target = 17
simple(arry, target)
binary_search(arry, target)
|
def simple(arry, target):
arry = [i for i in range(20)]
for i in arry:
print('%d steps' % i)
if i == target:
print('Found %d' % i)
break
def binary_search(arry, target):
l = 0
r = len(arry) - 1
step = 0
while l <= r:
step += 1
mid = l + (r - l) // 2
print('%d steps' % step)
if target == arry[mid]:
print('Found %d' % arry[mid])
break
elif arry[mid] < target:
l = mid + 1
else:
r = mid - 1
if __name__ == '__main__':
arry = [i for i in range(20)]
target = 17
simple(arry, target)
binary_search(arry, target)
|
FreeMono9pt7bBitmaps = [
0xAA, 0xA8, 0x0C, 0xED, 0x24, 0x92, 0x48, 0x24, 0x48, 0x91, 0x2F, 0xE4,
0x89, 0x7F, 0x28, 0x51, 0x22, 0x40, 0x08, 0x3E, 0x62, 0x40, 0x30, 0x0E,
0x01, 0x81, 0xC3, 0xBE, 0x08, 0x08, 0x71, 0x12, 0x23, 0x80, 0x23, 0xB8,
0x0E, 0x22, 0x44, 0x70, 0x38, 0x81, 0x02, 0x06, 0x1A, 0x65, 0x46, 0xC8,
0xEC, 0xE9, 0x24, 0x5A, 0xAA, 0xA9, 0x40, 0xA9, 0x55, 0x5A, 0x80, 0x10,
0x22, 0x4B, 0xE3, 0x05, 0x11, 0x00, 0x10, 0x20, 0x47, 0xF1, 0x02, 0x04,
0x00, 0x6B, 0x48, 0xFF, 0x00, 0xF0, 0x02, 0x08, 0x10, 0x60, 0x81, 0x04,
0x08, 0x20, 0x41, 0x02, 0x08, 0x00, 0x38, 0x8A, 0x0C, 0x18, 0x30, 0x60,
0xC1, 0x82, 0x88, 0xE0, 0x27, 0x28, 0x42, 0x10, 0x84, 0x21, 0x3E, 0x38,
0x8A, 0x08, 0x10, 0x20, 0x82, 0x08, 0x61, 0x03, 0xF8, 0x7C, 0x06, 0x02,
0x02, 0x1C, 0x06, 0x01, 0x01, 0x01, 0x42, 0x3C, 0x18, 0xA2, 0x92, 0x8A,
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|
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free_mono9pt7b_glyphs = [[0, 0, 0, 11, 0, 1], [0, 2, 11, 11, 4, -10], [3, 6, 5, 11, 2, -10], [7, 7, 12, 11, 2, -10], [18, 8, 12, 11, 1, -10], [30, 7, 11, 11, 2, -10], [40, 7, 10, 11, 2, -9], [49, 3, 5, 11, 4, -10], [51, 2, 13, 11, 5, -10], [55, 2, 13, 11, 4, -10], [59, 7, 7, 11, 2, -10], [66, 7, 7, 11, 2, -8], [73, 3, 5, 11, 2, -1], [75, 9, 1, 11, 1, -5], [77, 2, 2, 11, 4, -1], [78, 7, 13, 11, 2, -11], [90, 7, 11, 11, 2, -10], [100, 5, 11, 11, 3, -10], [107, 7, 11, 11, 2, -10], [117, 8, 11, 11, 1, -10], [128, 6, 11, 11, 3, -10], [137, 7, 11, 11, 2, -10], [147, 7, 11, 11, 2, -10], [157, 7, 11, 11, 2, -10], [167, 7, 11, 11, 2, -10], [177, 7, 11, 11, 2, -10], [187, 2, 8, 11, 4, -7], [189, 3, 11, 11, 3, -7], [194, 8, 8, 11, 1, -8], [202, 9, 4, 11, 1, -6], [207, 9, 8, 11, 1, -8], [216, 7, 10, 11, 2, -9], [225, 8, 12, 11, 2, -10], [237, 11, 10, 11, 0, -9], [251, 9, 10, 11, 1, -9], [263, 9, 10, 11, 1, -9], [275, 9, 10, 11, 1, -9], [287, 9, 10, 11, 1, -9], [299, 9, 10, 11, 1, -9], [311, 10, 10, 11, 1, -9], [324, 9, 10, 11, 1, -9], [336, 5, 10, 11, 3, -9], [343, 8, 10, 11, 2, -9], [353, 9, 10, 11, 1, -9], [365, 8, 10, 11, 2, -9], [375, 11, 10, 11, 0, -9], [389, 9, 10, 11, 1, -9], [401, 9, 10, 11, 1, -9], [413, 8, 10, 11, 1, -9], [423, 9, 13, 11, 1, -9], [438, 9, 10, 11, 1, -9], [450, 7, 10, 11, 2, -9], [459, 9, 10, 11, 1, -9], [471, 9, 10, 11, 1, -9], [483, 11, 10, 11, 0, -9], [497, 11, 10, 11, 0, -9], [511, 9, 10, 11, 1, -9], [523, 9, 10, 11, 1, -9], [535, 7, 10, 11, 2, -9], [544, 2, 13, 11, 5, -10], [548, 7, 13, 11, 2, -11], [560, 2, 13, 11, 4, -10], [564, 7, 5, 11, 2, -10], [569, 11, 1, 11, 0, 2], [571, 3, 3, 11, 3, -11], [573, 9, 8, 11, 1, -7], [582, 9, 11, 11, 1, -10], [595, 7, 8, 11, 2, -7], [602, 9, 11, 11, 1, -10], [615, 8, 8, 11, 1, -7], [623, 6, 11, 11, 3, -10], [632, 9, 11, 11, 1, -7], [645, 9, 11, 11, 1, -10], [658, 7, 10, 11, 2, -9], [667, 5, 13, 11, 3, -9], [676, 8, 11, 11, 2, -10], [687, 7, 11, 11, 2, -10], [697, 9, 8, 11, 1, -7], [706, 9, 8, 11, 1, -7], [715, 9, 8, 11, 1, -7], [724, 9, 11, 11, 1, -7], [737, 9, 11, 11, 1, -7], [750, 7, 8, 11, 3, -7], [757, 7, 8, 11, 2, -7], [764, 8, 10, 11, 2, -9], [774, 8, 8, 11, 1, -7], [782, 9, 8, 11, 1, -7], [791, 9, 8, 11, 1, -7], [800, 9, 8, 11, 1, -7], [809, 9, 11, 11, 1, -7], [822, 7, 8, 11, 2, -7], [829, 3, 13, 11, 4, -10], [834, 1, 13, 11, 5, -10], [836, 3, 13, 11, 4, -10], [841, 7, 3, 11, 2, -6]]
free_mono9pt7b = [FreeMono9pt7bBitmaps, FreeMono9pt7bGlyphs, 32, 126, 18]
|
#!/usr/bin/python
# -*- coding: utf-8 -*-
##
# Current source: https://github.com/open-security/vulnpwn/
##
class FrameworkException(Exception):
pass
class OptionValidationError(FrameworkException):
pass
|
class Frameworkexception(Exception):
pass
class Optionvalidationerror(FrameworkException):
pass
|
def load(h):
return ({'abbr': 'none', 'code': 0, 'title': 'not set'},
{'abbr': 96,
'code': 96,
'title': 'HIRLAM data',
'units': 'non-standard, deprecated'},
{'abbr': 98,
'code': 98,
'title': 'previously used to tag SMHI data that is ECMWF compliant',
'units': 'deprecated'})
|
def load(h):
return ({'abbr': 'none', 'code': 0, 'title': 'not set'}, {'abbr': 96, 'code': 96, 'title': 'HIRLAM data', 'units': 'non-standard, deprecated'}, {'abbr': 98, 'code': 98, 'title': 'previously used to tag SMHI data that is ECMWF compliant', 'units': 'deprecated'})
|
# Daniel Mc Callion
# Computing the primes
# My list of primes
p = []
# Loop through all of the numbers we're
# checking for primality
for i in range (2,10000):
# Assume that i is a prime
is_prime = True
# Look through all values j from 2 up
# to but not including i
# for j in range(2,i):
for j in p:
# See if j divides i
if i % j == 0:
# If it does, i isn't prime exit loop
# and indicate its not prime
is_prime = False
break
# If i is prime, then append to p
if is_prime:
p.append(i)
# Print out the primes
print(p)
|
p = []
for i in range(2, 10000):
is_prime = True
for j in p:
if i % j == 0:
is_prime = False
break
if is_prime:
p.append(i)
print(p)
|
# Section 1: Comments and Print
# A single line comment in python is indicated by a # at the beginning
''' This
is
a
multiline
comment '''
# A print function prints the code to the console, useful to learn and to debug
print('This is a print') # a comment can also be added after a funcion declaration or variable declaration.
print('you can print multiple things separated by a comma','like this and python will add a space in between')
# Section 2: Variables
var_1 = 5 # This is a int variable
var_2 = 'a' # There is a str variable, no need to invoke int or str as other languages.
var_3 = 1. # Theis is a float variable
print('Hello World!') # This is regular print
print('Hello','World!') # To append in a print on 2.X version a, is used and it adds a space between
print('Hello',end=" ") # The comma could be at the end
print('World!') # and the result will be the same
print('var_1', var_1) # It could be really helpful to print variables
print('var_2', var_2) # It doesnt care if it is a int str or float etc
print('var_3', var_3) # It doesnt care if it is a int str or float etc
print('var_1 is a ',type(var_1)) # Use 'type' to check which type of variable like int
print('var_2 is a ',type(var_2)) # or str
print('var_3 is a ',type(var_3)) # or float
# List, Dictionary, Tuples
print('List:')
L = [2, 5, 8, 'x', 'y'] # This is a list
print(L) # An easy way to print it is with print.
print(L[0]) # The first element starts with 0
print(L[-1]) # The last element is -1
print(L[0:3]) # This will select the elements 0, 1 and 2 (Warning!: not the 3)
print(L[2:4]) # This will select element 2 and 3
print(L[:-2]) # All elements except the last two
print(L[-2:]) # from the element [-2] until the end
L.append('z') #This is the Way to append elements to a list
print(L) # View the list with the last element appended.
print('Dictionary:')
D = {'k1': 123, 'k2': 456, 1:'v3'} # This is a Dictionary syntax key:value
print(D) # This is how to print a dictionary
print(D['k1']) # This is how to print a value with a given key
print ('Tuple:')
a, b = 1, 5 # The values can be assigned to each element separated with commas
print ('a',a) # value of a
print ('b',b) # value of b
|
""" This
is
a
multiline
comment """
print('This is a print')
print('you can print multiple things separated by a comma', 'like this and python will add a space in between')
var_1 = 5
var_2 = 'a'
var_3 = 1.0
print('Hello World!')
print('Hello', 'World!')
print('Hello', end=' ')
print('World!')
print('var_1', var_1)
print('var_2', var_2)
print('var_3', var_3)
print('var_1 is a ', type(var_1))
print('var_2 is a ', type(var_2))
print('var_3 is a ', type(var_3))
print('List:')
l = [2, 5, 8, 'x', 'y']
print(L)
print(L[0])
print(L[-1])
print(L[0:3])
print(L[2:4])
print(L[:-2])
print(L[-2:])
L.append('z')
print(L)
print('Dictionary:')
d = {'k1': 123, 'k2': 456, 1: 'v3'}
print(D)
print(D['k1'])
print('Tuple:')
(a, b) = (1, 5)
print('a', a)
print('b', b)
|
# -*- coding: utf-8 -*-
"""Top-level package for Music Downloader Telegram Bot."""
__author__ = """@Bots_Ki_Duniya"""
__reportbugs__ = "@Mr_Ninjas_Bot"
__version__ = "0.13.7"
|
"""Top-level package for Music Downloader Telegram Bot."""
__author__ = '@Bots_Ki_Duniya'
__reportbugs__ = '@Mr_Ninjas_Bot'
__version__ = '0.13.7'
|
inputstr="SecondMostFrequentCharacterInTheString"
safe=inputstr
countar=[]
count=0
for i in inputstr:
if(i!='#'):
countar.append(inputstr.count(i))
print(i,inputstr.count(i),end=", ")
inputstr=inputstr.replace(i,'#')
else:
continue
firstmax=max(countar)
countar.remove(max(countar))
maxnum=max(countar)
print()
if(firstmax==maxnum):
for i in safe:
if(maxnum==safe.count(i)):
count+=1
if(count==2):
print(i,maxnum)
break
else:
for i in safe:
if(maxnum==safe.count(i)):
print(i,maxnum)
break
|
inputstr = 'SecondMostFrequentCharacterInTheString'
safe = inputstr
countar = []
count = 0
for i in inputstr:
if i != '#':
countar.append(inputstr.count(i))
print(i, inputstr.count(i), end=', ')
inputstr = inputstr.replace(i, '#')
else:
continue
firstmax = max(countar)
countar.remove(max(countar))
maxnum = max(countar)
print()
if firstmax == maxnum:
for i in safe:
if maxnum == safe.count(i):
count += 1
if count == 2:
print(i, maxnum)
break
else:
for i in safe:
if maxnum == safe.count(i):
print(i, maxnum)
break
|
class Solution:
def reverseBetween(self, head: ListNode,
left: int, right: int) -> ListNode:
# Base case scenario
if left == right:
return head
node = ptr = ListNode() # Dummy node before actual linked list
node.next = head
# First traverse to node before reversing starts
for _ in range(1, left):
ptr = ptr.next
# Start reversing from next node using three pointer approach
current_node = ptr.next
while left < right:
temp_node = current_node.next
current_node.next = temp_node.next
temp_node.next = ptr.next
ptr.next = temp_node
left += 1
return node.next
|
class Solution:
def reverse_between(self, head: ListNode, left: int, right: int) -> ListNode:
if left == right:
return head
node = ptr = list_node()
node.next = head
for _ in range(1, left):
ptr = ptr.next
current_node = ptr.next
while left < right:
temp_node = current_node.next
current_node.next = temp_node.next
temp_node.next = ptr.next
ptr.next = temp_node
left += 1
return node.next
|
codigo_set = set()
codido_set_saiu = set()
s = input()
codigos = input().split(' ')
for codigo in codigos:
codigo_set.add(codigo)
i = input()
saidas = input().split(' ')
A = 0
I = 0
R = 0
for saida in saidas:
if saida in codigo_set:
if saida in codido_set_saiu:
R += 1
else:
A += 1
codido_set_saiu.add(saida)
else:
if saida in codido_set_saiu:
R += 1
else:
I += 1
codido_set_saiu.add(saida)
print('%d A' % A)
print('%d I' % I)
print('%d R' % R)
|
codigo_set = set()
codido_set_saiu = set()
s = input()
codigos = input().split(' ')
for codigo in codigos:
codigo_set.add(codigo)
i = input()
saidas = input().split(' ')
a = 0
i = 0
r = 0
for saida in saidas:
if saida in codigo_set:
if saida in codido_set_saiu:
r += 1
else:
a += 1
codido_set_saiu.add(saida)
elif saida in codido_set_saiu:
r += 1
else:
i += 1
codido_set_saiu.add(saida)
print('%d A' % A)
print('%d I' % I)
print('%d R' % R)
|
"""
This is a Utility to parse a file.
"""
def parse_file(input_file = ""):
try:
with open(input_file , 'r') as file:
lines = [line.rstrip() for line in file]
return lines
except :
return None
|
"""
This is a Utility to parse a file.
"""
def parse_file(input_file=''):
try:
with open(input_file, 'r') as file:
lines = [line.rstrip() for line in file]
return lines
except:
return None
|
# Configuration file for the Sphinx documentation builder.
project = 'pathlib2'
copyright = '2012-2014 Antoine Pitrou and contributors; 2014-2021, Matthias C. M. Troffaes and contributors'
author = 'Matthias C. M. Troffaes'
# The full version, including alpha/beta/rc tags
with open("../VERSION", "r") as version_file:
release = version_file.read().strip()
# -- General configuration ---------------------------------------------------
extensions = []
exclude_patterns = ['_build', 'Thumbs.db', '.DS_Store']
|
project = 'pathlib2'
copyright = '2012-2014 Antoine Pitrou and contributors; 2014-2021, Matthias C. M. Troffaes and contributors'
author = 'Matthias C. M. Troffaes'
with open('../VERSION', 'r') as version_file:
release = version_file.read().strip()
extensions = []
exclude_patterns = ['_build', 'Thumbs.db', '.DS_Store']
|
#
# PySNMP MIB module Dell-vlan-MIB (http://snmplabs.com/pysmi)
# ASN.1 source file:///Users/davwang4/Dev/mibs.snmplabs.com/asn1/Dell-vlan-MIB
# Produced by pysmi-0.3.4 at Mon Apr 29 18:43:15 2019
# On host DAVWANG4-M-1475 platform Darwin version 18.5.0 by user davwang4
# Using Python version 3.7.3 (default, Mar 27 2019, 09:23:15)
#
ObjectIdentifier, Integer, OctetString = mibBuilder.importSymbols("ASN1", "ObjectIdentifier", "Integer", "OctetString")
NamedValues, = mibBuilder.importSymbols("ASN1-ENUMERATION", "NamedValues")
ValueSizeConstraint, ConstraintsIntersection, SingleValueConstraint, ValueRangeConstraint, ConstraintsUnion = mibBuilder.importSymbols("ASN1-REFINEMENT", "ValueSizeConstraint", "ConstraintsIntersection", "SingleValueConstraint", "ValueRangeConstraint", "ConstraintsUnion")
dot1dBasePort, = mibBuilder.importSymbols("BRIDGE-MIB", "dot1dBasePort")
VlanList1, VlanList3, VlanList2, VlanList4 = mibBuilder.importSymbols("Dell-BRIDGEMIBOBJECTS-MIB", "VlanList1", "VlanList3", "VlanList2", "VlanList4")
rnd, = mibBuilder.importSymbols("Dell-MIB", "rnd")
ifIndex, = mibBuilder.importSymbols("IF-MIB", "ifIndex")
InetAddressType, = mibBuilder.importSymbols("INET-ADDRESS-MIB", "InetAddressType")
VlanIndex, PortList, dot1qVlanIndex = mibBuilder.importSymbols("Q-BRIDGE-MIB", "VlanIndex", "PortList", "dot1qVlanIndex")
SnmpAdminString, = mibBuilder.importSymbols("SNMP-FRAMEWORK-MIB", "SnmpAdminString")
ModuleCompliance, NotificationGroup = mibBuilder.importSymbols("SNMPv2-CONF", "ModuleCompliance", "NotificationGroup")
IpAddress, Counter64, Counter32, ObjectIdentity, Gauge32, Bits, Unsigned32, TimeTicks, MibIdentifier, ModuleIdentity, Integer32, iso, NotificationType, MibScalar, MibTable, MibTableRow, MibTableColumn = mibBuilder.importSymbols("SNMPv2-SMI", "IpAddress", "Counter64", "Counter32", "ObjectIdentity", "Gauge32", "Bits", "Unsigned32", "TimeTicks", "MibIdentifier", "ModuleIdentity", "Integer32", "iso", "NotificationType", "MibScalar", "MibTable", "MibTableRow", "MibTableColumn")
TruthValue, TextualConvention, DisplayString, MacAddress, RowStatus = mibBuilder.importSymbols("SNMPv2-TC", "TruthValue", "TextualConvention", "DisplayString", "MacAddress", "RowStatus")
vlan = ModuleIdentity((1, 3, 6, 1, 4, 1, 89, 48))
vlan.setRevisions(('2006-02-12 00:00', '2004-04-19 00:00',))
if mibBuilder.loadTexts: vlan.setLastUpdated('200602120000Z')
if mibBuilder.loadTexts: vlan.setOrganization('Dell')
vlanMibVersion = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 1), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanMibVersion.setStatus('current')
vlanMaxTableNumber = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 2), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanMaxTableNumber.setStatus('current')
vlanNameTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 21), )
if mibBuilder.loadTexts: vlanNameTable.setStatus('current')
vlanNameEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 21, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanNameName"))
if mibBuilder.loadTexts: vlanNameEntry.setStatus('current')
vlanNameName = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 21, 1, 1), DisplayString().subtype(subtypeSpec=ValueSizeConstraint(1, 32))).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanNameName.setStatus('current')
vlanNameTag = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 21, 1, 2), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanNameTag.setStatus('current')
vlanNameIfIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 21, 1, 3), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanNameIfIndex.setStatus('current')
vlanPortModeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 22), )
if mibBuilder.loadTexts: vlanPortModeTable.setStatus('current')
vlanPortModeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 22, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanPortModeEntry.setStatus('current')
vlanPortModeState = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 22, 1, 1), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPortModeState.setStatus('current')
vlanSendUnknownToAllPorts = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 27), TruthValue().clone('true')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanSendUnknownToAllPorts.setStatus('current')
vlanDefaultSupported = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 29), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanDefaultSupported.setStatus('current')
vlanDot1vSupported = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 31), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanDot1vSupported.setStatus('current')
vlanDefaultEnabled = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 32), TruthValue()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanDefaultEnabled.setStatus('current')
vlanSpecialTagTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 33), )
if mibBuilder.loadTexts: vlanSpecialTagTable.setStatus('current')
vlanSpecialTagEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 33, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanSpecialTagEntry.setStatus('current')
vlanSpecialTagVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 33, 1, 1), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanSpecialTagVID.setStatus('current')
vlanSpecialTagStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 33, 1, 2), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanSpecialTagStatus.setStatus('current')
vlanSpecialTagCurrentTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 34), )
if mibBuilder.loadTexts: vlanSpecialTagCurrentTable.setStatus('current')
vlanSpecialTagCurrentEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 34, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanSpecialTagCurrentEntry.setStatus('current')
vlanSpecialTagCurrentVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 34, 1, 1), VlanIndex()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanSpecialTagCurrentVID.setStatus('current')
vlanSpecialTagCurrentReserved = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 34, 1, 2), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanSpecialTagCurrentReserved.setStatus('current')
vlanSpecialTagCurrentActive = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 34, 1, 3), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanSpecialTagCurrentActive.setStatus('current')
vlanPrivateEdgeSupported = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 35), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateEdgeSupported.setStatus('current')
vlanPrivateEdgeVersion = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 36), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateEdgeVersion.setStatus('current')
vlanPrivateEdgeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 37), )
if mibBuilder.loadTexts: vlanPrivateEdgeTable.setStatus('current')
vlanPrivateEdgeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 37, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanPrivateEdgeEntry.setStatus('current')
vlanPrivateEdgeUplink = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 37, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateEdgeUplink.setStatus('current')
vlanPrivateEdgeStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 37, 1, 2), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateEdgeStatus.setStatus('current')
vlanDynamicVlanSupported = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 38), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanDynamicVlanSupported.setStatus('current')
vlanDynamicVlanTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 39), )
if mibBuilder.loadTexts: vlanDynamicVlanTable.setStatus('current')
vlanDynamicVlanEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 39, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanDynamicVlanMacAddress"))
if mibBuilder.loadTexts: vlanDynamicVlanEntry.setStatus('current')
vlanDynamicVlanMacAddress = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 39, 1, 1), MacAddress())
if mibBuilder.loadTexts: vlanDynamicVlanMacAddress.setStatus('current')
vlanDynamicVlanTag = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 39, 1, 2), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanDynamicVlanTag.setStatus('current')
vlanDynamicVlanStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 39, 1, 3), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanDynamicVlanStatus.setStatus('current')
vlanPortModeExtTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 40), )
if mibBuilder.loadTexts: vlanPortModeExtTable.setStatus('current')
vlanPortModeExtEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 40, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanPortModeExtEntry.setStatus('current')
vlanPortModeExtState = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 40, 1, 1), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPortModeExtState.setStatus('current')
vlanPortModeExtStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 40, 1, 2), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPortModeExtStatus.setStatus('current')
vlanPrivateSupported = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 41), TruthValue()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateSupported.setStatus('current')
vlanPrivateTableOld = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 42), )
if mibBuilder.loadTexts: vlanPrivateTableOld.setStatus('current')
vlanPrivateEntryOld = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 42, 1), ).setIndexNames((0, "Q-BRIDGE-MIB", "dot1qVlanIndex"))
if mibBuilder.loadTexts: vlanPrivateEntryOld.setStatus('current')
vlanPrivateOldIsolatedVlanTag = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 42, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 4094))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateOldIsolatedVlanTag.setStatus('current')
vlanPrivateOldStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 42, 1, 2), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateOldStatus.setStatus('current')
vlanPrivateCommunityTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 43), )
if mibBuilder.loadTexts: vlanPrivateCommunityTable.setStatus('current')
vlanPrivateCommunityEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 43, 1), ).setIndexNames((0, "Q-BRIDGE-MIB", "dot1qVlanIndex"), (0, "Dell-vlan-MIB", "vlanPrivateCommunityVlanTag"))
if mibBuilder.loadTexts: vlanPrivateCommunityEntry.setStatus('current')
vlanPrivateCommunityVlanTag = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 43, 1, 1), VlanIndex())
if mibBuilder.loadTexts: vlanPrivateCommunityVlanTag.setStatus('current')
vlanPrivateCommunityStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 43, 1, 2), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateCommunityStatus.setStatus('current')
vlanMulticastTvTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 44), )
if mibBuilder.loadTexts: vlanMulticastTvTable.setStatus('current')
vlanMulticastTvEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 44, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanMulticastTvEntry.setStatus('current')
vlanMulticastTvVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 44, 1, 1), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanMulticastTvVID.setStatus('current')
vlanMulticastTvStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 44, 1, 2), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanMulticastTvStatus.setStatus('current')
vlanMacBaseVlanGroupTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 45), )
if mibBuilder.loadTexts: vlanMacBaseVlanGroupTable.setStatus('current')
vlanMacBaseVlanGroupEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 45, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanMacBaseVlanMacAddress"), (0, "Dell-vlan-MIB", "vlanMacBaseVlanMacMask"))
if mibBuilder.loadTexts: vlanMacBaseVlanGroupEntry.setStatus('current')
vlanMacBaseVlanMacAddress = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 1), MacAddress())
if mibBuilder.loadTexts: vlanMacBaseVlanMacAddress.setStatus('current')
vlanMacBaseVlanMacMask = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(9, 48)))
if mibBuilder.loadTexts: vlanMacBaseVlanMacMask.setStatus('current')
vlanMacBaseVlanGroupId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 3), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 2147483647))).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanMacBaseVlanGroupId.setStatus('current')
vlanMacBaseVlanGroupRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 4), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanMacBaseVlanGroupRowStatus.setStatus('current')
vlanMacBaseVlanPortTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 46), )
if mibBuilder.loadTexts: vlanMacBaseVlanPortTable.setStatus('current')
vlanMacBaseVlanPortEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 46, 1), ).setIndexNames((0, "BRIDGE-MIB", "dot1dBasePort"), (0, "Dell-vlan-MIB", "vlanMacBaseVlanPortGroupId"))
if mibBuilder.loadTexts: vlanMacBaseVlanPortEntry.setStatus('current')
vlanMacBaseVlanPortGroupId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 46, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647)))
if mibBuilder.loadTexts: vlanMacBaseVlanPortGroupId.setStatus('current')
vlanMacBaseVlanPortGroupVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 46, 1, 2), VlanIndex()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanMacBaseVlanPortGroupVid.setStatus('current')
vlanMacBaseVlanPortRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 46, 1, 3), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanMacBaseVlanPortRowStatus.setStatus('current')
vlanPrivateEdgeGroupTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 47), )
if mibBuilder.loadTexts: vlanPrivateEdgeGroupTable.setStatus('current')
vlanPrivateEdgeGroupEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 47, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanPrivateEdgeGroupSource"))
if mibBuilder.loadTexts: vlanPrivateEdgeGroupEntry.setStatus('current')
vlanPrivateEdgeGroupSource = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 47, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateEdgeGroupSource.setStatus('current')
vlanPrivateEdgeGroupUplink = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 47, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateEdgeGroupUplink.setStatus('current')
vlanPrivateEdgeGroupStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 47, 1, 3), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateEdgeGroupStatus.setStatus('current')
vlanPrivateEdgeGroupIfIndexTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 48), )
if mibBuilder.loadTexts: vlanPrivateEdgeGroupIfIndexTable.setStatus('current')
vlanPrivateEdgeGroupIfIndexEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 48, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanPrivateEdgeGroupIfIndexEntry.setStatus('current')
vlanPrivateEdgeGroupIfIndexID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 48, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateEdgeGroupIfIndexID.setStatus('current')
vlanPrivateEdgeGroupIfIndexDomainID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 48, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 65535))).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateEdgeGroupIfIndexDomainID.setStatus('current')
vlanSubnetRangeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 49), )
if mibBuilder.loadTexts: vlanSubnetRangeTable.setStatus('current')
vlanSubnetRangeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 49, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanSubnetRangeAddr"), (0, "Dell-vlan-MIB", "vlanSubnetRangeMask"))
if mibBuilder.loadTexts: vlanSubnetRangeEntry.setStatus('current')
vlanSubnetRangeAddr = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 1), IpAddress()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanSubnetRangeAddr.setStatus('current')
vlanSubnetRangeMask = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 32))).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanSubnetRangeMask.setStatus('current')
vlanSubnetRangeGroupId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 3), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 2147483647))).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanSubnetRangeGroupId.setStatus('current')
vlanSubnetRangeRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 4), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanSubnetRangeRowStatus.setStatus('current')
vlanSubnetPortTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 50), )
if mibBuilder.loadTexts: vlanSubnetPortTable.setStatus('current')
vlanSubnetPortEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 50, 1), ).setIndexNames((0, "BRIDGE-MIB", "dot1dBasePort"), (0, "Dell-vlan-MIB", "vlanSubnetPortGroupId"))
if mibBuilder.loadTexts: vlanSubnetPortEntry.setStatus('current')
vlanSubnetPortGroupId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 50, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 2147483647)))
if mibBuilder.loadTexts: vlanSubnetPortGroupId.setStatus('current')
vlanSubnetPortGroupVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 50, 1, 2), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 4094))).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanSubnetPortGroupVid.setStatus('current')
vlanSubnetPortRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 50, 1, 3), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanSubnetPortRowStatus.setStatus('current')
vlanTriplePlayTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 51), )
if mibBuilder.loadTexts: vlanTriplePlayTable.setStatus('current')
vlanTriplePlayEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 51, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanTriplePlayInnerVID"))
if mibBuilder.loadTexts: vlanTriplePlayEntry.setStatus('current')
vlanTriplePlayInnerVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 51, 1, 1), VlanIndex())
if mibBuilder.loadTexts: vlanTriplePlayInnerVID.setStatus('current')
vlanTriplePlayMulticastTvVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 51, 1, 2), VlanIndex()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanTriplePlayMulticastTvVID.setStatus('current')
vlanTriplePlayRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 51, 1, 3), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanTriplePlayRowStatus.setStatus('current')
vlanTriplePlayMulticastTvTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 52), )
if mibBuilder.loadTexts: vlanTriplePlayMulticastTvTable.setStatus('current')
vlanTriplePlayMulticatTvEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 52, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanTriplePlayMulticastTvMulticastTvVID"))
if mibBuilder.loadTexts: vlanTriplePlayMulticatTvEntry.setStatus('current')
vlanTriplePlayMulticastTvMulticastTvVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 52, 1, 1), VlanIndex()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanTriplePlayMulticastTvMulticastTvVID.setStatus('current')
vlanTriplePlayMulticastTvMulticastTvPortList = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 52, 1, 2), PortList()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanTriplePlayMulticastTvMulticastTvPortList.setStatus('current')
vlanDefaultExtManagment = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 53), TruthValue()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanDefaultExtManagment.setStatus('current')
vlanVoice = MibIdentifier((1, 3, 6, 1, 4, 1, 89, 48, 54))
vlanVoiceAgingTimeout = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 54, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(1, 43200)).clone(1440)).setUnits('minutes').setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoiceAgingTimeout.setStatus('current')
vlanVoiceTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 54, 2), )
if mibBuilder.loadTexts: vlanVoiceTable.setStatus('current')
vlanVoiceEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1), ).setIndexNames((0, "Q-BRIDGE-MIB", "dot1qVlanIndex"))
if mibBuilder.loadTexts: vlanVoiceEntry.setStatus('current')
vlanVoicePriority = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1, 1), Integer32().subtype(subtypeSpec=ValueRangeConstraint(0, 7)).clone(6)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoicePriority.setStatus('current')
vlanVoicePriorityRemark = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1, 2), TruthValue().clone('false')).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanVoicePriorityRemark.setStatus('current')
vlanVoiceRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1, 3), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanVoiceRowStatus.setStatus('current')
vlanVoiceOUITable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 54, 3), )
if mibBuilder.loadTexts: vlanVoiceOUITable.setStatus('current')
vlanVoiceOUIEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanVoiceOUIPrefix"))
if mibBuilder.loadTexts: vlanVoiceOUIEntry.setStatus('current')
vlanVoiceOUIPrefix = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1, 1), OctetString().subtype(subtypeSpec=ValueSizeConstraint(3, 3)).setFixedLength(3))
if mibBuilder.loadTexts: vlanVoiceOUIPrefix.setStatus('current')
vlanVoiceOUIDescription = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1, 2), DisplayString().subtype(subtypeSpec=ValueSizeConstraint(0, 32))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoiceOUIDescription.setStatus('current')
vlanVoiceOUIEntryRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1, 3), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanVoiceOUIEntryRowStatus.setStatus('current')
vlanVoicePortTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 54, 4), )
if mibBuilder.loadTexts: vlanVoicePortTable.setStatus('current')
vlanVoicePortEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanVoicePortEntry.setStatus('current')
vlanVoicePortEnable = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 1), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoicePortEnable.setStatus('current')
vlanVoicePortVlanIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 2), VlanIndex().clone(4095)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoicePortVlanIndex.setStatus('current')
vlanVoicePortSecure = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 3), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoicePortSecure.setStatus('current')
vlanVoicePortCurrentMembership = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 4), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("active", 1), ("notActive", 2)))).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanVoicePortCurrentMembership.setStatus('current')
vlanVoicePortQosMode = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 5), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("src", 1), ("all", 2)))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoicePortQosMode.setStatus('current')
vlanVoiceOUISetToDefault = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 54, 5), TruthValue().clone('false')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanVoiceOUISetToDefault.setStatus('current')
vlanDefault = MibIdentifier((1, 3, 6, 1, 4, 1, 89, 48, 55))
vlanDefaultTaggedPorts = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 55, 1), PortList()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanDefaultTaggedPorts.setStatus('current')
vlanDefaultEnabledPorts = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 55, 2), PortList()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanDefaultEnabledPorts.setStatus('current')
vlanInetTriplePlayTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 56), )
if mibBuilder.loadTexts: vlanInetTriplePlayTable.setStatus('current')
vlanInetTriplePlayEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 56, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanInetTriplePlayInetAddressType"), (0, "Dell-vlan-MIB", "vlanTriplePlayInnerVID"))
if mibBuilder.loadTexts: vlanInetTriplePlayEntry.setStatus('current')
vlanInetTriplePlayInetAddressType = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 1), InetAddressType()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanInetTriplePlayInetAddressType.setStatus('current')
vlanInetTriplePlayInnerVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 2), VlanIndex())
if mibBuilder.loadTexts: vlanInetTriplePlayInnerVID.setStatus('current')
vlanInetTriplePlayMulticastTvVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 3), VlanIndex()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanInetTriplePlayMulticastTvVID.setStatus('current')
vlanInetTriplePlayRowStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 4), RowStatus()).setMaxAccess("readcreate")
if mibBuilder.loadTexts: vlanInetTriplePlayRowStatus.setStatus('current')
vlanInetTriplePlayMulticastTvTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 57), )
if mibBuilder.loadTexts: vlanInetTriplePlayMulticastTvTable.setStatus('current')
vlanInetTriplePlayMulticatTvEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 57, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanTriplePlayMulticastTvMulticastTvVID"))
if mibBuilder.loadTexts: vlanInetTriplePlayMulticatTvEntry.setStatus('current')
vlanInetTriplePlayMulticastTvMulticastTvVID = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 57, 1, 1), VlanIndex()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanInetTriplePlayMulticastTvMulticastTvVID.setStatus('current')
vlanInetTriplePlayMulticastTvMulticastTvPortList = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 57, 1, 2), PortList()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanInetTriplePlayMulticastTvMulticastTvPortList.setStatus('current')
vlanAsymmetricEnabled = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 58), TruthValue()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanAsymmetricEnabled.setStatus('current')
vlanPrivateTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 59), )
if mibBuilder.loadTexts: vlanPrivateTable.setStatus('current')
vlanPrivateEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 59, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanPrivateVid"))
if mibBuilder.loadTexts: vlanPrivateEntry.setStatus('current')
vlanPrivateVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 1), VlanIndex())
if mibBuilder.loadTexts: vlanPrivateVid.setStatus('current')
vlanPrivateType = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 2), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2, 3))).clone(namedValues=NamedValues(("primary", 1), ("isolated", 2), ("community", 3))).clone('primary')).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateType.setStatus('current')
vlanPrivatePrimaryVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 3), VlanIndex()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivatePrimaryVid.setStatus('current')
vlanPrivateStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 4), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateStatus.setStatus('current')
vlanPrivateMapTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 60), )
if mibBuilder.loadTexts: vlanPrivateMapTable.setStatus('current')
vlanPrivateMapEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 60, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanPrivateMapPrimaryVid"), (0, "Dell-vlan-MIB", "vlanPrivateMapSecondaryVid"))
if mibBuilder.loadTexts: vlanPrivateMapEntry.setStatus('current')
vlanPrivateMapPrimaryVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 1), VlanIndex())
if mibBuilder.loadTexts: vlanPrivateMapPrimaryVid.setStatus('current')
vlanPrivateMapSecondaryVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 2), VlanIndex())
if mibBuilder.loadTexts: vlanPrivateMapSecondaryVid.setStatus('current')
vlanPrivateMapPrimaryPorts = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 3), PortList()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateMapPrimaryPorts.setStatus('current')
vlanPrivateMapSecondaryPorts = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 4), PortList()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateMapSecondaryPorts.setStatus('current')
vlanPrivateMapPrimaryOperPorts = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 5), PortList()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateMapPrimaryOperPorts.setStatus('current')
vlanPrivateMapSecondaryOperPorts = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 6), PortList()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanPrivateMapSecondaryOperPorts.setStatus('current')
vlanPrivateMapStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 7), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPrivateMapStatus.setStatus('current')
vlanTrunkPortModeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 61), )
if mibBuilder.loadTexts: vlanTrunkPortModeTable.setStatus('current')
vlanTrunkPortModeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 61, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanTrunkPortModeEntry.setStatus('current')
vlanTrunkPortModeNativeVlanId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 1), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanTrunkPortModeNativeVlanId.setStatus('current')
vlanTrunkModeList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 2), VlanList1()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanTrunkModeList1to1024.setStatus('current')
vlanTrunkModeList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 3), VlanList2()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanTrunkModeList1025to2048.setStatus('current')
vlanTrunkModeList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 4), VlanList3()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanTrunkModeList2049to3072.setStatus('current')
vlanTrunkModeList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 5), VlanList4()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanTrunkModeList3073to4094.setStatus('current')
vlanAccessPortModeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 62), )
if mibBuilder.loadTexts: vlanAccessPortModeTable.setStatus('current')
vlanAccessPortModeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 62, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanAccessPortModeEntry.setStatus('current')
vlanAccessPortModeVlanId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 62, 1, 1), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanAccessPortModeVlanId.setStatus('current')
vlanAccessPortModeMcstTvVlanId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 62, 1, 2), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanAccessPortModeMcstTvVlanId.setStatus('current')
vlanCustomerPortModeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 63), )
if mibBuilder.loadTexts: vlanCustomerPortModeTable.setStatus('current')
vlanCustomerPortModeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 63, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanCustomerPortModeEntry.setStatus('current')
vlanCustomerPortModeVlanId = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 1), VlanIndex()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanCustomerPortModeVlanId.setStatus('current')
vlanCustomerPortModeMtvList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 2), VlanList1()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanCustomerPortModeMtvList1to1024.setStatus('current')
vlanCustomerPortModeMtvList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 3), VlanList2()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanCustomerPortModeMtvList1025to2048.setStatus('current')
vlanCustomerPortModeMtvList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 4), VlanList3()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanCustomerPortModeMtvList2049to3072.setStatus('current')
vlanCustomerPortModeMtvList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 5), VlanList4()).setMaxAccess("readonly")
if mibBuilder.loadTexts: vlanCustomerPortModeMtvList3073to4094.setStatus('current')
vlanSwitchPortModeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 64), )
if mibBuilder.loadTexts: vlanSwitchPortModeTable.setStatus('current')
vlanSwitchPortModeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 64, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanSwitchPortModeEntry.setStatus('current')
vlanSwitchPortModeCategory = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 64, 1, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("l2", 1), ("l3", 2))).clone(1)).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanSwitchPortModeCategory.setStatus('current')
vlanPortModeContextTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 65), )
if mibBuilder.loadTexts: vlanPortModeContextTable.setStatus('current')
vlanPortModeContextEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 65, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: vlanPortModeContextEntry.setStatus('current')
vlanPortModeContextValue = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 65, 1, 1), Integer32()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanPortModeContextValue.setStatus('current')
vlanRsvlEnable = MibScalar((1, 3, 6, 1, 4, 1, 89, 48, 66), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(1, 2))).clone(namedValues=NamedValues(("enable", 1), ("disable", 2)))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanRsvlEnable.setStatus('current')
vlanRsvlMapTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 67), )
if mibBuilder.loadTexts: vlanRsvlMapTable.setStatus('current')
vlanRsvlMapEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 67, 1), ).setIndexNames((0, "Dell-vlan-MIB", "vlanRsvlMapPrimaryVid"), (0, "Dell-vlan-MIB", "vlanRsvlMapSecondaryVid"))
if mibBuilder.loadTexts: vlanRsvlMapEntry.setStatus('current')
vlanRsvlMapPrimaryVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 67, 1, 1), VlanIndex())
if mibBuilder.loadTexts: vlanRsvlMapPrimaryVid.setStatus('current')
vlanRsvlMapSecondaryVid = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 67, 1, 2), VlanIndex())
if mibBuilder.loadTexts: vlanRsvlMapSecondaryVid.setStatus('current')
vlanRsvlMapStatus = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 67, 1, 3), RowStatus()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: vlanRsvlMapStatus.setStatus('current')
rldot1qPortVlanStaticTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 68), )
if mibBuilder.loadTexts: rldot1qPortVlanStaticTable.setStatus('current')
rldot1qPortVlanStaticEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 68, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: rldot1qPortVlanStaticEntry.setStatus('current')
rldot1qPortVlanStaticEgressList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 1), VlanList1().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticEgressList1to1024.setStatus('current')
rldot1qPortVlanStaticEgressList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 2), VlanList2().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticEgressList1025to2048.setStatus('current')
rldot1qPortVlanStaticEgressList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 3), VlanList3().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticEgressList2049to3072.setStatus('current')
rldot1qPortVlanStaticEgressList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 4), VlanList4().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticEgressList3073to4094.setStatus('current')
rldot1qPortVlanStaticUntaggedEgressList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 5), VlanList1().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticUntaggedEgressList1to1024.setStatus('current')
rldot1qPortVlanStaticUntaggedEgressList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 6), VlanList2().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticUntaggedEgressList1025to2048.setStatus('current')
rldot1qPortVlanStaticUntaggedEgressList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 7), VlanList3().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticUntaggedEgressList2049to3072.setStatus('current')
rldot1qPortVlanStaticUntaggedEgressList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 8), VlanList4().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticUntaggedEgressList3073to4094.setStatus('current')
rldot1qPortVlanStaticForbiddenList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 9), VlanList1().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticForbiddenList1to1024.setStatus('current')
rldot1qPortVlanStaticForbiddenList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 10), VlanList2().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticForbiddenList1025to2048.setStatus('current')
rldot1qPortVlanStaticForbiddenList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 11), VlanList3().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticForbiddenList2049to3072.setStatus('current')
rldot1qPortVlanStaticForbiddenList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 12), VlanList4().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qPortVlanStaticForbiddenList3073to4094.setStatus('current')
rldot1qVlanStaticListTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 69), )
if mibBuilder.loadTexts: rldot1qVlanStaticListTable.setStatus('current')
rldot1qVlanStaticListEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 69, 1), ).setIndexNames((0, "Dell-vlan-MIB", "rldot1qVlanStaticListIndex"))
if mibBuilder.loadTexts: rldot1qVlanStaticListEntry.setStatus('current')
rldot1qVlanStaticListIndex = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 1), Integer32().subtype(subtypeSpec=ConstraintsUnion(SingleValueConstraint(0, 1, 2))).clone(namedValues=NamedValues(("static", 0), ("dynamicGvrp", 1), ("dynamicRava", 2)))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qVlanStaticListIndex.setStatus('current')
rldot1qVlanStaticList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 2), VlanList1()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qVlanStaticList1to1024.setStatus('current')
rldot1qVlanStaticList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 3), VlanList2().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qVlanStaticList1025to2048.setStatus('current')
rldot1qVlanStaticList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 4), VlanList3().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qVlanStaticList2049to3072.setStatus('current')
rldot1qVlanStaticList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 5), VlanList4().clone(hexValue="00")).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qVlanStaticList3073to4094.setStatus('current')
rldot1qVlanStaticNameTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 70), )
if mibBuilder.loadTexts: rldot1qVlanStaticNameTable.setStatus('current')
rldot1qVlanStaticNameEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 70, 1), ).setIndexNames((0, "Q-BRIDGE-MIB", "dot1qVlanIndex"))
if mibBuilder.loadTexts: rldot1qVlanStaticNameEntry.setStatus('current')
rldot1qVlanStaticName = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 70, 1, 1), SnmpAdminString().subtype(subtypeSpec=ValueSizeConstraint(0, 32))).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rldot1qVlanStaticName.setStatus('current')
rlPortVlanTriplePlayMulticastTvTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 71), )
if mibBuilder.loadTexts: rlPortVlanTriplePlayMulticastTvTable.setStatus('current')
rlPortVlanTriplePlayMulticastTvEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 71, 1), ).setIndexNames((0, "IF-MIB", "ifIndex"))
if mibBuilder.loadTexts: rlPortVlanTriplePlayMulticastTvEntry.setStatus('current')
rlPortVlanTriplePlayMulticastTvList1to1024 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 1), VlanList1()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rlPortVlanTriplePlayMulticastTvList1to1024.setStatus('current')
rlPortVlanTriplePlayMulticastTvList1025to2048 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 2), VlanList2()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rlPortVlanTriplePlayMulticastTvList1025to2048.setStatus('current')
rlPortVlanTriplePlayMulticastTvList2049to3072 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 3), VlanList3()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rlPortVlanTriplePlayMulticastTvList2049to3072.setStatus('current')
rlPortVlanTriplePlayMulticastTvList3073to4094 = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 4), VlanList4()).setMaxAccess("readwrite")
if mibBuilder.loadTexts: rlPortVlanTriplePlayMulticastTvList3073to4094.setStatus('current')
rldot1qVlanMembershipTypeTable = MibTable((1, 3, 6, 1, 4, 1, 89, 48, 72), )
if mibBuilder.loadTexts: rldot1qVlanMembershipTypeTable.setStatus('current')
rldot1qVlanMembershipTypeEntry = MibTableRow((1, 3, 6, 1, 4, 1, 89, 48, 72, 1), ).setIndexNames((0, "Q-BRIDGE-MIB", "dot1qVlanIndex"))
if mibBuilder.loadTexts: rldot1qVlanMembershipTypeEntry.setStatus('current')
rldot1qVlanMembershipTypeBitmap = MibTableColumn((1, 3, 6, 1, 4, 1, 89, 48, 72, 1, 1), Integer32()).setMaxAccess("readonly")
if mibBuilder.loadTexts: rldot1qVlanMembershipTypeBitmap.setStatus('current')
mibBuilder.exportSymbols("Dell-vlan-MIB", vlanPortModeEntry=vlanPortModeEntry, vlanMulticastTvTable=vlanMulticastTvTable, vlanPrivateEdgeSupported=vlanPrivateEdgeSupported, vlanMacBaseVlanPortGroupVid=vlanMacBaseVlanPortGroupVid, vlanCustomerPortModeTable=vlanCustomerPortModeTable, vlan=vlan, vlanPrivateEdgeTable=vlanPrivateEdgeTable, vlanAccessPortModeEntry=vlanAccessPortModeEntry, vlanDefaultEnabledPorts=vlanDefaultEnabledPorts, vlanPrivateMapStatus=vlanPrivateMapStatus, rldot1qVlanStaticList2049to3072=rldot1qVlanStaticList2049to3072, vlanVoicePortTable=vlanVoicePortTable, vlanMacBaseVlanPortTable=vlanMacBaseVlanPortTable, vlanSwitchPortModeTable=vlanSwitchPortModeTable, vlanDefaultEnabled=vlanDefaultEnabled, rldot1qPortVlanStaticEgressList3073to4094=rldot1qPortVlanStaticEgressList3073to4094, vlanPrivateEdgeGroupUplink=vlanPrivateEdgeGroupUplink, vlanTriplePlayMulticastTvMulticastTvPortList=vlanTriplePlayMulticastTvMulticastTvPortList, vlanTrunkModeList2049to3072=vlanTrunkModeList2049to3072, vlanNameEntry=vlanNameEntry, vlanMacBaseVlanMacAddress=vlanMacBaseVlanMacAddress, vlanInetTriplePlayTable=vlanInetTriplePlayTable, vlanAccessPortModeVlanId=vlanAccessPortModeVlanId, vlanRsvlMapStatus=vlanRsvlMapStatus, rldot1qPortVlanStaticEgressList1to1024=rldot1qPortVlanStaticEgressList1to1024, vlanPrivateEdgeEntry=vlanPrivateEdgeEntry, vlanPrivateEdgeGroupIfIndexID=vlanPrivateEdgeGroupIfIndexID, vlanPrivateEdgeGroupTable=vlanPrivateEdgeGroupTable, vlanPrivateEntryOld=vlanPrivateEntryOld, vlanPrivateCommunityTable=vlanPrivateCommunityTable, rldot1qVlanStaticNameTable=rldot1qVlanStaticNameTable, vlanPrivateEdgeUplink=vlanPrivateEdgeUplink, vlanPrivateMapPrimaryVid=vlanPrivateMapPrimaryVid, vlanSubnetRangeAddr=vlanSubnetRangeAddr, vlanPortModeTable=vlanPortModeTable, vlanAsymmetricEnabled=vlanAsymmetricEnabled, vlanPrivateCommunityStatus=vlanPrivateCommunityStatus, vlanSendUnknownToAllPorts=vlanSendUnknownToAllPorts, vlanSubnetPortRowStatus=vlanSubnetPortRowStatus, rldot1qVlanMembershipTypeEntry=rldot1qVlanMembershipTypeEntry, vlanTriplePlayMulticatTvEntry=vlanTriplePlayMulticatTvEntry, vlanVoiceAgingTimeout=vlanVoiceAgingTimeout, vlanMaxTableNumber=vlanMaxTableNumber, vlanDefaultExtManagment=vlanDefaultExtManagment, vlanVoiceOUISetToDefault=vlanVoiceOUISetToDefault, vlanRsvlMapSecondaryVid=vlanRsvlMapSecondaryVid, vlanSubnetRangeTable=vlanSubnetRangeTable, PYSNMP_MODULE_ID=vlan, vlanMacBaseVlanGroupRowStatus=vlanMacBaseVlanGroupRowStatus, vlanSubnetRangeGroupId=vlanSubnetRangeGroupId, vlanVoiceOUIDescription=vlanVoiceOUIDescription, vlanSpecialTagVID=vlanSpecialTagVID, vlanPortModeExtTable=vlanPortModeExtTable, vlanMacBaseVlanPortGroupId=vlanMacBaseVlanPortGroupId, vlanTrunkPortModeEntry=vlanTrunkPortModeEntry, vlanNameTag=vlanNameTag, rldot1qPortVlanStaticEgressList2049to3072=rldot1qPortVlanStaticEgressList2049to3072, vlanPrivateMapEntry=vlanPrivateMapEntry, vlanVoiceTable=vlanVoiceTable, rldot1qPortVlanStaticTable=rldot1qPortVlanStaticTable, rldot1qPortVlanStaticForbiddenList3073to4094=rldot1qPortVlanStaticForbiddenList3073to4094, vlanAccessPortModeMcstTvVlanId=vlanAccessPortModeMcstTvVlanId, rldot1qPortVlanStaticForbiddenList1025to2048=rldot1qPortVlanStaticForbiddenList1025to2048, vlanSubnetPortTable=vlanSubnetPortTable, vlanDefaultTaggedPorts=vlanDefaultTaggedPorts, vlanPortModeExtStatus=vlanPortModeExtStatus, vlanInetTriplePlayMulticastTvMulticastTvVID=vlanInetTriplePlayMulticastTvMulticastTvVID, vlanDynamicVlanSupported=vlanDynamicVlanSupported, vlanRsvlMapEntry=vlanRsvlMapEntry, vlanDynamicVlanTable=vlanDynamicVlanTable, vlanPrivateEdgeGroupEntry=vlanPrivateEdgeGroupEntry, vlanRsvlMapTable=vlanRsvlMapTable, rlPortVlanTriplePlayMulticastTvEntry=rlPortVlanTriplePlayMulticastTvEntry, vlanTrunkPortModeTable=vlanTrunkPortModeTable, vlanTriplePlayMulticastTvMulticastTvVID=vlanTriplePlayMulticastTvMulticastTvVID, vlanMacBaseVlanGroupTable=vlanMacBaseVlanGroupTable, rldot1qPortVlanStaticForbiddenList2049to3072=rldot1qPortVlanStaticForbiddenList2049to3072, vlanPrivateEdgeGroupSource=vlanPrivateEdgeGroupSource, vlanDefault=vlanDefault, rldot1qVlanStaticListIndex=rldot1qVlanStaticListIndex, rldot1qPortVlanStaticUntaggedEgressList3073to4094=rldot1qPortVlanStaticUntaggedEgressList3073to4094, vlanTriplePlayTable=vlanTriplePlayTable, vlanSpecialTagCurrentReserved=vlanSpecialTagCurrentReserved, rldot1qPortVlanStaticUntaggedEgressList2049to3072=rldot1qPortVlanStaticUntaggedEgressList2049to3072, vlanSpecialTagCurrentEntry=vlanSpecialTagCurrentEntry, vlanPrivateOldStatus=vlanPrivateOldStatus, vlanTriplePlayMulticastTvVID=vlanTriplePlayMulticastTvVID, vlanDot1vSupported=vlanDot1vSupported, vlanSpecialTagTable=vlanSpecialTagTable, rldot1qVlanMembershipTypeBitmap=rldot1qVlanMembershipTypeBitmap, vlanMacBaseVlanGroupId=vlanMacBaseVlanGroupId, vlanInetTriplePlayMulticastTvMulticastTvPortList=vlanInetTriplePlayMulticastTvMulticastTvPortList, vlanMacBaseVlanMacMask=vlanMacBaseVlanMacMask, vlanSwitchPortModeCategory=vlanSwitchPortModeCategory, rlPortVlanTriplePlayMulticastTvTable=rlPortVlanTriplePlayMulticastTvTable, vlanInetTriplePlayEntry=vlanInetTriplePlayEntry, vlanPrivateEdgeStatus=vlanPrivateEdgeStatus, vlanPortModeExtState=vlanPortModeExtState, vlanMacBaseVlanGroupEntry=vlanMacBaseVlanGroupEntry, vlanDefaultSupported=vlanDefaultSupported, vlanSubnetPortEntry=vlanSubnetPortEntry, vlanPrivateTableOld=vlanPrivateTableOld, vlanTriplePlayMulticastTvTable=vlanTriplePlayMulticastTvTable, vlanCustomerPortModeMtvList1to1024=vlanCustomerPortModeMtvList1to1024, vlanVoiceOUITable=vlanVoiceOUITable, vlanSpecialTagStatus=vlanSpecialTagStatus, vlanDynamicVlanTag=vlanDynamicVlanTag, vlanVoicePortCurrentMembership=vlanVoicePortCurrentMembership, vlanInetTriplePlayMulticatTvEntry=vlanInetTriplePlayMulticatTvEntry, vlanSubnetRangeMask=vlanSubnetRangeMask, rldot1qVlanStaticList3073to4094=rldot1qVlanStaticList3073to4094, rldot1qPortVlanStaticEntry=rldot1qPortVlanStaticEntry, vlanPrivateMapPrimaryPorts=vlanPrivateMapPrimaryPorts, vlanNameIfIndex=vlanNameIfIndex, vlanSubnetPortGroupId=vlanSubnetPortGroupId, vlanNameName=vlanNameName, rldot1qVlanStaticListTable=rldot1qVlanStaticListTable, vlanTriplePlayEntry=vlanTriplePlayEntry, vlanMacBaseVlanPortEntry=vlanMacBaseVlanPortEntry, vlanSubnetPortGroupVid=vlanSubnetPortGroupVid, rlPortVlanTriplePlayMulticastTvList2049to3072=rlPortVlanTriplePlayMulticastTvList2049to3072, vlanDynamicVlanMacAddress=vlanDynamicVlanMacAddress, vlanCustomerPortModeMtvList2049to3072=vlanCustomerPortModeMtvList2049to3072, vlanPrivateEdgeVersion=vlanPrivateEdgeVersion, vlanPortModeState=vlanPortModeState, vlanPrivateEdgeGroupIfIndexEntry=vlanPrivateEdgeGroupIfIndexEntry, vlanPrivateOldIsolatedVlanTag=vlanPrivateOldIsolatedVlanTag, vlanPrivateMapTable=vlanPrivateMapTable, vlanVoicePortEntry=vlanVoicePortEntry, vlanVoicePriorityRemark=vlanVoicePriorityRemark, vlanMacBaseVlanPortRowStatus=vlanMacBaseVlanPortRowStatus, vlanTrunkModeList1to1024=vlanTrunkModeList1to1024, rldot1qPortVlanStaticEgressList1025to2048=rldot1qPortVlanStaticEgressList1025to2048, vlanAccessPortModeTable=vlanAccessPortModeTable, vlanRsvlEnable=vlanRsvlEnable, rldot1qVlanStaticNameEntry=rldot1qVlanStaticNameEntry, vlanPrivateMapSecondaryVid=vlanPrivateMapSecondaryVid, vlanTriplePlayInnerVID=vlanTriplePlayInnerVID, vlanVoiceOUIPrefix=vlanVoiceOUIPrefix, rldot1qPortVlanStaticForbiddenList1to1024=rldot1qPortVlanStaticForbiddenList1to1024, vlanInetTriplePlayMulticastTvVID=vlanInetTriplePlayMulticastTvVID, vlanPrivateMapPrimaryOperPorts=vlanPrivateMapPrimaryOperPorts, vlanSpecialTagCurrentActive=vlanSpecialTagCurrentActive, vlanPortModeContextValue=vlanPortModeContextValue, vlanSpecialTagCurrentTable=vlanSpecialTagCurrentTable, vlanVoicePriority=vlanVoicePriority, vlanVoiceOUIEntry=vlanVoiceOUIEntry, vlanVoiceEntry=vlanVoiceEntry, vlanPrivateSupported=vlanPrivateSupported, rlPortVlanTriplePlayMulticastTvList1025to2048=rlPortVlanTriplePlayMulticastTvList1025to2048, vlanSubnetRangeEntry=vlanSubnetRangeEntry, vlanTrunkPortModeNativeVlanId=vlanTrunkPortModeNativeVlanId, vlanPrivateType=vlanPrivateType, vlanInetTriplePlayMulticastTvTable=vlanInetTriplePlayMulticastTvTable, rldot1qPortVlanStaticUntaggedEgressList1to1024=rldot1qPortVlanStaticUntaggedEgressList1to1024, vlanVoicePortQosMode=vlanVoicePortQosMode, vlanPrivateEdgeGroupIfIndexTable=vlanPrivateEdgeGroupIfIndexTable, rldot1qVlanStaticList1to1024=rldot1qVlanStaticList1to1024, vlanCustomerPortModeEntry=vlanCustomerPortModeEntry, vlanPrivateCommunityEntry=vlanPrivateCommunityEntry, vlanSpecialTagCurrentVID=vlanSpecialTagCurrentVID, rldot1qVlanMembershipTypeTable=rldot1qVlanMembershipTypeTable, vlanPrivateEdgeGroupStatus=vlanPrivateEdgeGroupStatus, vlanCustomerPortModeMtvList3073to4094=vlanCustomerPortModeMtvList3073to4094, vlanMulticastTvStatus=vlanMulticastTvStatus, rlPortVlanTriplePlayMulticastTvList3073to4094=rlPortVlanTriplePlayMulticastTvList3073to4094, vlanSpecialTagEntry=vlanSpecialTagEntry, vlanPortModeExtEntry=vlanPortModeExtEntry, vlanSwitchPortModeEntry=vlanSwitchPortModeEntry, vlanPrivateMapSecondaryPorts=vlanPrivateMapSecondaryPorts, rldot1qPortVlanStaticUntaggedEgressList1025to2048=rldot1qPortVlanStaticUntaggedEgressList1025to2048, vlanInetTriplePlayRowStatus=vlanInetTriplePlayRowStatus, vlanPrivatePrimaryVid=vlanPrivatePrimaryVid, vlanTriplePlayRowStatus=vlanTriplePlayRowStatus, vlanCustomerPortModeVlanId=vlanCustomerPortModeVlanId, vlanPortModeContextEntry=vlanPortModeContextEntry, vlanPrivateVid=vlanPrivateVid, vlanPortModeContextTable=vlanPortModeContextTable, rlPortVlanTriplePlayMulticastTvList1to1024=rlPortVlanTriplePlayMulticastTvList1to1024, vlanDynamicVlanEntry=vlanDynamicVlanEntry, vlanPrivateCommunityVlanTag=vlanPrivateCommunityVlanTag, vlanSubnetRangeRowStatus=vlanSubnetRangeRowStatus, vlanPrivateEdgeGroupIfIndexDomainID=vlanPrivateEdgeGroupIfIndexDomainID, vlanVoicePortVlanIndex=vlanVoicePortVlanIndex, vlanNameTable=vlanNameTable, vlanVoiceOUIEntryRowStatus=vlanVoiceOUIEntryRowStatus, vlanVoicePortEnable=vlanVoicePortEnable, vlanVoicePortSecure=vlanVoicePortSecure, vlanPrivateEntry=vlanPrivateEntry, vlanPrivateMapSecondaryOperPorts=vlanPrivateMapSecondaryOperPorts, rldot1qVlanStaticName=rldot1qVlanStaticName, vlanMibVersion=vlanMibVersion, vlanPrivateTable=vlanPrivateTable, vlanTrunkModeList3073to4094=vlanTrunkModeList3073to4094, vlanCustomerPortModeMtvList1025to2048=vlanCustomerPortModeMtvList1025to2048, vlanMulticastTvVID=vlanMulticastTvVID, vlanTrunkModeList1025to2048=vlanTrunkModeList1025to2048, vlanRsvlMapPrimaryVid=vlanRsvlMapPrimaryVid, rldot1qVlanStaticListEntry=rldot1qVlanStaticListEntry, vlanVoiceRowStatus=vlanVoiceRowStatus, vlanVoice=vlanVoice, rldot1qVlanStaticList1025to2048=rldot1qVlanStaticList1025to2048, vlanInetTriplePlayInnerVID=vlanInetTriplePlayInnerVID, vlanDynamicVlanStatus=vlanDynamicVlanStatus, vlanMulticastTvEntry=vlanMulticastTvEntry, vlanInetTriplePlayInetAddressType=vlanInetTriplePlayInetAddressType, vlanPrivateStatus=vlanPrivateStatus)
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(object_identifier, integer, octet_string) = mibBuilder.importSymbols('ASN1', 'ObjectIdentifier', 'Integer', 'OctetString')
(named_values,) = mibBuilder.importSymbols('ASN1-ENUMERATION', 'NamedValues')
(value_size_constraint, constraints_intersection, single_value_constraint, value_range_constraint, constraints_union) = mibBuilder.importSymbols('ASN1-REFINEMENT', 'ValueSizeConstraint', 'ConstraintsIntersection', 'SingleValueConstraint', 'ValueRangeConstraint', 'ConstraintsUnion')
(dot1d_base_port,) = mibBuilder.importSymbols('BRIDGE-MIB', 'dot1dBasePort')
(vlan_list1, vlan_list3, vlan_list2, vlan_list4) = mibBuilder.importSymbols('Dell-BRIDGEMIBOBJECTS-MIB', 'VlanList1', 'VlanList3', 'VlanList2', 'VlanList4')
(rnd,) = mibBuilder.importSymbols('Dell-MIB', 'rnd')
(if_index,) = mibBuilder.importSymbols('IF-MIB', 'ifIndex')
(inet_address_type,) = mibBuilder.importSymbols('INET-ADDRESS-MIB', 'InetAddressType')
(vlan_index, port_list, dot1q_vlan_index) = mibBuilder.importSymbols('Q-BRIDGE-MIB', 'VlanIndex', 'PortList', 'dot1qVlanIndex')
(snmp_admin_string,) = mibBuilder.importSymbols('SNMP-FRAMEWORK-MIB', 'SnmpAdminString')
(module_compliance, notification_group) = mibBuilder.importSymbols('SNMPv2-CONF', 'ModuleCompliance', 'NotificationGroup')
(ip_address, counter64, counter32, object_identity, gauge32, bits, unsigned32, time_ticks, mib_identifier, module_identity, integer32, iso, notification_type, mib_scalar, mib_table, mib_table_row, mib_table_column) = mibBuilder.importSymbols('SNMPv2-SMI', 'IpAddress', 'Counter64', 'Counter32', 'ObjectIdentity', 'Gauge32', 'Bits', 'Unsigned32', 'TimeTicks', 'MibIdentifier', 'ModuleIdentity', 'Integer32', 'iso', 'NotificationType', 'MibScalar', 'MibTable', 'MibTableRow', 'MibTableColumn')
(truth_value, textual_convention, display_string, mac_address, row_status) = mibBuilder.importSymbols('SNMPv2-TC', 'TruthValue', 'TextualConvention', 'DisplayString', 'MacAddress', 'RowStatus')
vlan = module_identity((1, 3, 6, 1, 4, 1, 89, 48))
vlan.setRevisions(('2006-02-12 00:00', '2004-04-19 00:00'))
if mibBuilder.loadTexts:
vlan.setLastUpdated('200602120000Z')
if mibBuilder.loadTexts:
vlan.setOrganization('Dell')
vlan_mib_version = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 1), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanMibVersion.setStatus('current')
vlan_max_table_number = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 2), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanMaxTableNumber.setStatus('current')
vlan_name_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 21))
if mibBuilder.loadTexts:
vlanNameTable.setStatus('current')
vlan_name_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 21, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanNameName'))
if mibBuilder.loadTexts:
vlanNameEntry.setStatus('current')
vlan_name_name = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 21, 1, 1), display_string().subtype(subtypeSpec=value_size_constraint(1, 32))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanNameName.setStatus('current')
vlan_name_tag = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 21, 1, 2), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanNameTag.setStatus('current')
vlan_name_if_index = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 21, 1, 3), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanNameIfIndex.setStatus('current')
vlan_port_mode_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 22))
if mibBuilder.loadTexts:
vlanPortModeTable.setStatus('current')
vlan_port_mode_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 22, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanPortModeEntry.setStatus('current')
vlan_port_mode_state = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 22, 1, 1), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPortModeState.setStatus('current')
vlan_send_unknown_to_all_ports = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 27), truth_value().clone('true')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanSendUnknownToAllPorts.setStatus('current')
vlan_default_supported = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 29), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanDefaultSupported.setStatus('current')
vlan_dot1v_supported = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 31), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanDot1vSupported.setStatus('current')
vlan_default_enabled = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 32), truth_value()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanDefaultEnabled.setStatus('current')
vlan_special_tag_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 33))
if mibBuilder.loadTexts:
vlanSpecialTagTable.setStatus('current')
vlan_special_tag_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 33, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanSpecialTagEntry.setStatus('current')
vlan_special_tag_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 33, 1, 1), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanSpecialTagVID.setStatus('current')
vlan_special_tag_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 33, 1, 2), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanSpecialTagStatus.setStatus('current')
vlan_special_tag_current_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 34))
if mibBuilder.loadTexts:
vlanSpecialTagCurrentTable.setStatus('current')
vlan_special_tag_current_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 34, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanSpecialTagCurrentEntry.setStatus('current')
vlan_special_tag_current_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 34, 1, 1), vlan_index()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanSpecialTagCurrentVID.setStatus('current')
vlan_special_tag_current_reserved = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 34, 1, 2), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanSpecialTagCurrentReserved.setStatus('current')
vlan_special_tag_current_active = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 34, 1, 3), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanSpecialTagCurrentActive.setStatus('current')
vlan_private_edge_supported = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 35), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateEdgeSupported.setStatus('current')
vlan_private_edge_version = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 36), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateEdgeVersion.setStatus('current')
vlan_private_edge_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 37))
if mibBuilder.loadTexts:
vlanPrivateEdgeTable.setStatus('current')
vlan_private_edge_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 37, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanPrivateEdgeEntry.setStatus('current')
vlan_private_edge_uplink = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 37, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 65535))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateEdgeUplink.setStatus('current')
vlan_private_edge_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 37, 1, 2), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateEdgeStatus.setStatus('current')
vlan_dynamic_vlan_supported = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 38), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanDynamicVlanSupported.setStatus('current')
vlan_dynamic_vlan_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 39))
if mibBuilder.loadTexts:
vlanDynamicVlanTable.setStatus('current')
vlan_dynamic_vlan_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 39, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanDynamicVlanMacAddress'))
if mibBuilder.loadTexts:
vlanDynamicVlanEntry.setStatus('current')
vlan_dynamic_vlan_mac_address = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 39, 1, 1), mac_address())
if mibBuilder.loadTexts:
vlanDynamicVlanMacAddress.setStatus('current')
vlan_dynamic_vlan_tag = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 39, 1, 2), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanDynamicVlanTag.setStatus('current')
vlan_dynamic_vlan_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 39, 1, 3), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanDynamicVlanStatus.setStatus('current')
vlan_port_mode_ext_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 40))
if mibBuilder.loadTexts:
vlanPortModeExtTable.setStatus('current')
vlan_port_mode_ext_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 40, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanPortModeExtEntry.setStatus('current')
vlan_port_mode_ext_state = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 40, 1, 1), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPortModeExtState.setStatus('current')
vlan_port_mode_ext_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 40, 1, 2), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPortModeExtStatus.setStatus('current')
vlan_private_supported = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 41), truth_value()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateSupported.setStatus('current')
vlan_private_table_old = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 42))
if mibBuilder.loadTexts:
vlanPrivateTableOld.setStatus('current')
vlan_private_entry_old = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 42, 1)).setIndexNames((0, 'Q-BRIDGE-MIB', 'dot1qVlanIndex'))
if mibBuilder.loadTexts:
vlanPrivateEntryOld.setStatus('current')
vlan_private_old_isolated_vlan_tag = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 42, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(0, 4094))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateOldIsolatedVlanTag.setStatus('current')
vlan_private_old_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 42, 1, 2), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateOldStatus.setStatus('current')
vlan_private_community_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 43))
if mibBuilder.loadTexts:
vlanPrivateCommunityTable.setStatus('current')
vlan_private_community_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 43, 1)).setIndexNames((0, 'Q-BRIDGE-MIB', 'dot1qVlanIndex'), (0, 'Dell-vlan-MIB', 'vlanPrivateCommunityVlanTag'))
if mibBuilder.loadTexts:
vlanPrivateCommunityEntry.setStatus('current')
vlan_private_community_vlan_tag = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 43, 1, 1), vlan_index())
if mibBuilder.loadTexts:
vlanPrivateCommunityVlanTag.setStatus('current')
vlan_private_community_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 43, 1, 2), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateCommunityStatus.setStatus('current')
vlan_multicast_tv_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 44))
if mibBuilder.loadTexts:
vlanMulticastTvTable.setStatus('current')
vlan_multicast_tv_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 44, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanMulticastTvEntry.setStatus('current')
vlan_multicast_tv_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 44, 1, 1), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanMulticastTvVID.setStatus('current')
vlan_multicast_tv_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 44, 1, 2), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanMulticastTvStatus.setStatus('current')
vlan_mac_base_vlan_group_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 45))
if mibBuilder.loadTexts:
vlanMacBaseVlanGroupTable.setStatus('current')
vlan_mac_base_vlan_group_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 45, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanMacBaseVlanMacAddress'), (0, 'Dell-vlan-MIB', 'vlanMacBaseVlanMacMask'))
if mibBuilder.loadTexts:
vlanMacBaseVlanGroupEntry.setStatus('current')
vlan_mac_base_vlan_mac_address = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 1), mac_address())
if mibBuilder.loadTexts:
vlanMacBaseVlanMacAddress.setStatus('current')
vlan_mac_base_vlan_mac_mask = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(9, 48)))
if mibBuilder.loadTexts:
vlanMacBaseVlanMacMask.setStatus('current')
vlan_mac_base_vlan_group_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 3), integer32().subtype(subtypeSpec=value_range_constraint(0, 2147483647))).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanMacBaseVlanGroupId.setStatus('current')
vlan_mac_base_vlan_group_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 45, 1, 4), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanMacBaseVlanGroupRowStatus.setStatus('current')
vlan_mac_base_vlan_port_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 46))
if mibBuilder.loadTexts:
vlanMacBaseVlanPortTable.setStatus('current')
vlan_mac_base_vlan_port_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 46, 1)).setIndexNames((0, 'BRIDGE-MIB', 'dot1dBasePort'), (0, 'Dell-vlan-MIB', 'vlanMacBaseVlanPortGroupId'))
if mibBuilder.loadTexts:
vlanMacBaseVlanPortEntry.setStatus('current')
vlan_mac_base_vlan_port_group_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 46, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647)))
if mibBuilder.loadTexts:
vlanMacBaseVlanPortGroupId.setStatus('current')
vlan_mac_base_vlan_port_group_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 46, 1, 2), vlan_index()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanMacBaseVlanPortGroupVid.setStatus('current')
vlan_mac_base_vlan_port_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 46, 1, 3), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanMacBaseVlanPortRowStatus.setStatus('current')
vlan_private_edge_group_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 47))
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupTable.setStatus('current')
vlan_private_edge_group_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 47, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanPrivateEdgeGroupSource'))
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupEntry.setStatus('current')
vlan_private_edge_group_source = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 47, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 65535))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupSource.setStatus('current')
vlan_private_edge_group_uplink = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 47, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(1, 65535))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupUplink.setStatus('current')
vlan_private_edge_group_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 47, 1, 3), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupStatus.setStatus('current')
vlan_private_edge_group_if_index_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 48))
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupIfIndexTable.setStatus('current')
vlan_private_edge_group_if_index_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 48, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupIfIndexEntry.setStatus('current')
vlan_private_edge_group_if_index_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 48, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 65535))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupIfIndexID.setStatus('current')
vlan_private_edge_group_if_index_domain_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 48, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(1, 65535))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateEdgeGroupIfIndexDomainID.setStatus('current')
vlan_subnet_range_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 49))
if mibBuilder.loadTexts:
vlanSubnetRangeTable.setStatus('current')
vlan_subnet_range_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 49, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanSubnetRangeAddr'), (0, 'Dell-vlan-MIB', 'vlanSubnetRangeMask'))
if mibBuilder.loadTexts:
vlanSubnetRangeEntry.setStatus('current')
vlan_subnet_range_addr = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 1), ip_address()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanSubnetRangeAddr.setStatus('current')
vlan_subnet_range_mask = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(1, 32))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanSubnetRangeMask.setStatus('current')
vlan_subnet_range_group_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 3), integer32().subtype(subtypeSpec=value_range_constraint(0, 2147483647))).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanSubnetRangeGroupId.setStatus('current')
vlan_subnet_range_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 49, 1, 4), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanSubnetRangeRowStatus.setStatus('current')
vlan_subnet_port_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 50))
if mibBuilder.loadTexts:
vlanSubnetPortTable.setStatus('current')
vlan_subnet_port_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 50, 1)).setIndexNames((0, 'BRIDGE-MIB', 'dot1dBasePort'), (0, 'Dell-vlan-MIB', 'vlanSubnetPortGroupId'))
if mibBuilder.loadTexts:
vlanSubnetPortEntry.setStatus('current')
vlan_subnet_port_group_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 50, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 2147483647)))
if mibBuilder.loadTexts:
vlanSubnetPortGroupId.setStatus('current')
vlan_subnet_port_group_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 50, 1, 2), integer32().subtype(subtypeSpec=value_range_constraint(1, 4094))).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanSubnetPortGroupVid.setStatus('current')
vlan_subnet_port_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 50, 1, 3), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanSubnetPortRowStatus.setStatus('current')
vlan_triple_play_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 51))
if mibBuilder.loadTexts:
vlanTriplePlayTable.setStatus('current')
vlan_triple_play_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 51, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanTriplePlayInnerVID'))
if mibBuilder.loadTexts:
vlanTriplePlayEntry.setStatus('current')
vlan_triple_play_inner_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 51, 1, 1), vlan_index())
if mibBuilder.loadTexts:
vlanTriplePlayInnerVID.setStatus('current')
vlan_triple_play_multicast_tv_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 51, 1, 2), vlan_index()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanTriplePlayMulticastTvVID.setStatus('current')
vlan_triple_play_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 51, 1, 3), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanTriplePlayRowStatus.setStatus('current')
vlan_triple_play_multicast_tv_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 52))
if mibBuilder.loadTexts:
vlanTriplePlayMulticastTvTable.setStatus('current')
vlan_triple_play_multicat_tv_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 52, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanTriplePlayMulticastTvMulticastTvVID'))
if mibBuilder.loadTexts:
vlanTriplePlayMulticatTvEntry.setStatus('current')
vlan_triple_play_multicast_tv_multicast_tv_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 52, 1, 1), vlan_index()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanTriplePlayMulticastTvMulticastTvVID.setStatus('current')
vlan_triple_play_multicast_tv_multicast_tv_port_list = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 52, 1, 2), port_list()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanTriplePlayMulticastTvMulticastTvPortList.setStatus('current')
vlan_default_ext_managment = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 53), truth_value()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanDefaultExtManagment.setStatus('current')
vlan_voice = mib_identifier((1, 3, 6, 1, 4, 1, 89, 48, 54))
vlan_voice_aging_timeout = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 54, 1), integer32().subtype(subtypeSpec=value_range_constraint(1, 43200)).clone(1440)).setUnits('minutes').setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoiceAgingTimeout.setStatus('current')
vlan_voice_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 54, 2))
if mibBuilder.loadTexts:
vlanVoiceTable.setStatus('current')
vlan_voice_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1)).setIndexNames((0, 'Q-BRIDGE-MIB', 'dot1qVlanIndex'))
if mibBuilder.loadTexts:
vlanVoiceEntry.setStatus('current')
vlan_voice_priority = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1, 1), integer32().subtype(subtypeSpec=value_range_constraint(0, 7)).clone(6)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoicePriority.setStatus('current')
vlan_voice_priority_remark = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1, 2), truth_value().clone('false')).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanVoicePriorityRemark.setStatus('current')
vlan_voice_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 2, 1, 3), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanVoiceRowStatus.setStatus('current')
vlan_voice_oui_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 54, 3))
if mibBuilder.loadTexts:
vlanVoiceOUITable.setStatus('current')
vlan_voice_oui_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanVoiceOUIPrefix'))
if mibBuilder.loadTexts:
vlanVoiceOUIEntry.setStatus('current')
vlan_voice_oui_prefix = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1, 1), octet_string().subtype(subtypeSpec=value_size_constraint(3, 3)).setFixedLength(3))
if mibBuilder.loadTexts:
vlanVoiceOUIPrefix.setStatus('current')
vlan_voice_oui_description = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1, 2), display_string().subtype(subtypeSpec=value_size_constraint(0, 32))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoiceOUIDescription.setStatus('current')
vlan_voice_oui_entry_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 3, 1, 3), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanVoiceOUIEntryRowStatus.setStatus('current')
vlan_voice_port_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 54, 4))
if mibBuilder.loadTexts:
vlanVoicePortTable.setStatus('current')
vlan_voice_port_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanVoicePortEntry.setStatus('current')
vlan_voice_port_enable = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 1), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoicePortEnable.setStatus('current')
vlan_voice_port_vlan_index = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 2), vlan_index().clone(4095)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoicePortVlanIndex.setStatus('current')
vlan_voice_port_secure = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 3), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoicePortSecure.setStatus('current')
vlan_voice_port_current_membership = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 4), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('active', 1), ('notActive', 2)))).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanVoicePortCurrentMembership.setStatus('current')
vlan_voice_port_qos_mode = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 54, 4, 1, 5), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('src', 1), ('all', 2)))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoicePortQosMode.setStatus('current')
vlan_voice_oui_set_to_default = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 54, 5), truth_value().clone('false')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanVoiceOUISetToDefault.setStatus('current')
vlan_default = mib_identifier((1, 3, 6, 1, 4, 1, 89, 48, 55))
vlan_default_tagged_ports = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 55, 1), port_list()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanDefaultTaggedPorts.setStatus('current')
vlan_default_enabled_ports = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 55, 2), port_list()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanDefaultEnabledPorts.setStatus('current')
vlan_inet_triple_play_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 56))
if mibBuilder.loadTexts:
vlanInetTriplePlayTable.setStatus('current')
vlan_inet_triple_play_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 56, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanInetTriplePlayInetAddressType'), (0, 'Dell-vlan-MIB', 'vlanTriplePlayInnerVID'))
if mibBuilder.loadTexts:
vlanInetTriplePlayEntry.setStatus('current')
vlan_inet_triple_play_inet_address_type = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 1), inet_address_type()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanInetTriplePlayInetAddressType.setStatus('current')
vlan_inet_triple_play_inner_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 2), vlan_index())
if mibBuilder.loadTexts:
vlanInetTriplePlayInnerVID.setStatus('current')
vlan_inet_triple_play_multicast_tv_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 3), vlan_index()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanInetTriplePlayMulticastTvVID.setStatus('current')
vlan_inet_triple_play_row_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 56, 1, 4), row_status()).setMaxAccess('readcreate')
if mibBuilder.loadTexts:
vlanInetTriplePlayRowStatus.setStatus('current')
vlan_inet_triple_play_multicast_tv_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 57))
if mibBuilder.loadTexts:
vlanInetTriplePlayMulticastTvTable.setStatus('current')
vlan_inet_triple_play_multicat_tv_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 57, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanTriplePlayMulticastTvMulticastTvVID'))
if mibBuilder.loadTexts:
vlanInetTriplePlayMulticatTvEntry.setStatus('current')
vlan_inet_triple_play_multicast_tv_multicast_tv_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 57, 1, 1), vlan_index()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanInetTriplePlayMulticastTvMulticastTvVID.setStatus('current')
vlan_inet_triple_play_multicast_tv_multicast_tv_port_list = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 57, 1, 2), port_list()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanInetTriplePlayMulticastTvMulticastTvPortList.setStatus('current')
vlan_asymmetric_enabled = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 58), truth_value()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanAsymmetricEnabled.setStatus('current')
vlan_private_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 59))
if mibBuilder.loadTexts:
vlanPrivateTable.setStatus('current')
vlan_private_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 59, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanPrivateVid'))
if mibBuilder.loadTexts:
vlanPrivateEntry.setStatus('current')
vlan_private_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 1), vlan_index())
if mibBuilder.loadTexts:
vlanPrivateVid.setStatus('current')
vlan_private_type = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 2), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2, 3))).clone(namedValues=named_values(('primary', 1), ('isolated', 2), ('community', 3))).clone('primary')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateType.setStatus('current')
vlan_private_primary_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 3), vlan_index()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivatePrimaryVid.setStatus('current')
vlan_private_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 59, 1, 4), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateStatus.setStatus('current')
vlan_private_map_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 60))
if mibBuilder.loadTexts:
vlanPrivateMapTable.setStatus('current')
vlan_private_map_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 60, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanPrivateMapPrimaryVid'), (0, 'Dell-vlan-MIB', 'vlanPrivateMapSecondaryVid'))
if mibBuilder.loadTexts:
vlanPrivateMapEntry.setStatus('current')
vlan_private_map_primary_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 1), vlan_index())
if mibBuilder.loadTexts:
vlanPrivateMapPrimaryVid.setStatus('current')
vlan_private_map_secondary_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 2), vlan_index())
if mibBuilder.loadTexts:
vlanPrivateMapSecondaryVid.setStatus('current')
vlan_private_map_primary_ports = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 3), port_list()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateMapPrimaryPorts.setStatus('current')
vlan_private_map_secondary_ports = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 4), port_list()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateMapSecondaryPorts.setStatus('current')
vlan_private_map_primary_oper_ports = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 5), port_list()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateMapPrimaryOperPorts.setStatus('current')
vlan_private_map_secondary_oper_ports = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 6), port_list()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanPrivateMapSecondaryOperPorts.setStatus('current')
vlan_private_map_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 60, 1, 7), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPrivateMapStatus.setStatus('current')
vlan_trunk_port_mode_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 61))
if mibBuilder.loadTexts:
vlanTrunkPortModeTable.setStatus('current')
vlan_trunk_port_mode_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 61, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanTrunkPortModeEntry.setStatus('current')
vlan_trunk_port_mode_native_vlan_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 1), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanTrunkPortModeNativeVlanId.setStatus('current')
vlan_trunk_mode_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 2), vlan_list1()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanTrunkModeList1to1024.setStatus('current')
vlan_trunk_mode_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 3), vlan_list2()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanTrunkModeList1025to2048.setStatus('current')
vlan_trunk_mode_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 4), vlan_list3()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanTrunkModeList2049to3072.setStatus('current')
vlan_trunk_mode_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 61, 1, 5), vlan_list4()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanTrunkModeList3073to4094.setStatus('current')
vlan_access_port_mode_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 62))
if mibBuilder.loadTexts:
vlanAccessPortModeTable.setStatus('current')
vlan_access_port_mode_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 62, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanAccessPortModeEntry.setStatus('current')
vlan_access_port_mode_vlan_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 62, 1, 1), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanAccessPortModeVlanId.setStatus('current')
vlan_access_port_mode_mcst_tv_vlan_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 62, 1, 2), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanAccessPortModeMcstTvVlanId.setStatus('current')
vlan_customer_port_mode_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 63))
if mibBuilder.loadTexts:
vlanCustomerPortModeTable.setStatus('current')
vlan_customer_port_mode_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 63, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanCustomerPortModeEntry.setStatus('current')
vlan_customer_port_mode_vlan_id = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 1), vlan_index()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanCustomerPortModeVlanId.setStatus('current')
vlan_customer_port_mode_mtv_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 2), vlan_list1()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanCustomerPortModeMtvList1to1024.setStatus('current')
vlan_customer_port_mode_mtv_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 3), vlan_list2()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanCustomerPortModeMtvList1025to2048.setStatus('current')
vlan_customer_port_mode_mtv_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 4), vlan_list3()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanCustomerPortModeMtvList2049to3072.setStatus('current')
vlan_customer_port_mode_mtv_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 63, 1, 5), vlan_list4()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
vlanCustomerPortModeMtvList3073to4094.setStatus('current')
vlan_switch_port_mode_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 64))
if mibBuilder.loadTexts:
vlanSwitchPortModeTable.setStatus('current')
vlan_switch_port_mode_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 64, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanSwitchPortModeEntry.setStatus('current')
vlan_switch_port_mode_category = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 64, 1, 1), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('l2', 1), ('l3', 2))).clone(1)).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanSwitchPortModeCategory.setStatus('current')
vlan_port_mode_context_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 65))
if mibBuilder.loadTexts:
vlanPortModeContextTable.setStatus('current')
vlan_port_mode_context_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 65, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
vlanPortModeContextEntry.setStatus('current')
vlan_port_mode_context_value = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 65, 1, 1), integer32()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanPortModeContextValue.setStatus('current')
vlan_rsvl_enable = mib_scalar((1, 3, 6, 1, 4, 1, 89, 48, 66), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(1, 2))).clone(namedValues=named_values(('enable', 1), ('disable', 2)))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanRsvlEnable.setStatus('current')
vlan_rsvl_map_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 67))
if mibBuilder.loadTexts:
vlanRsvlMapTable.setStatus('current')
vlan_rsvl_map_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 67, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'vlanRsvlMapPrimaryVid'), (0, 'Dell-vlan-MIB', 'vlanRsvlMapSecondaryVid'))
if mibBuilder.loadTexts:
vlanRsvlMapEntry.setStatus('current')
vlan_rsvl_map_primary_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 67, 1, 1), vlan_index())
if mibBuilder.loadTexts:
vlanRsvlMapPrimaryVid.setStatus('current')
vlan_rsvl_map_secondary_vid = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 67, 1, 2), vlan_index())
if mibBuilder.loadTexts:
vlanRsvlMapSecondaryVid.setStatus('current')
vlan_rsvl_map_status = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 67, 1, 3), row_status()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
vlanRsvlMapStatus.setStatus('current')
rldot1q_port_vlan_static_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 68))
if mibBuilder.loadTexts:
rldot1qPortVlanStaticTable.setStatus('current')
rldot1q_port_vlan_static_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 68, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
rldot1qPortVlanStaticEntry.setStatus('current')
rldot1q_port_vlan_static_egress_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 1), vlan_list1().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticEgressList1to1024.setStatus('current')
rldot1q_port_vlan_static_egress_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 2), vlan_list2().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticEgressList1025to2048.setStatus('current')
rldot1q_port_vlan_static_egress_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 3), vlan_list3().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticEgressList2049to3072.setStatus('current')
rldot1q_port_vlan_static_egress_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 4), vlan_list4().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticEgressList3073to4094.setStatus('current')
rldot1q_port_vlan_static_untagged_egress_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 5), vlan_list1().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticUntaggedEgressList1to1024.setStatus('current')
rldot1q_port_vlan_static_untagged_egress_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 6), vlan_list2().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticUntaggedEgressList1025to2048.setStatus('current')
rldot1q_port_vlan_static_untagged_egress_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 7), vlan_list3().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticUntaggedEgressList2049to3072.setStatus('current')
rldot1q_port_vlan_static_untagged_egress_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 8), vlan_list4().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticUntaggedEgressList3073to4094.setStatus('current')
rldot1q_port_vlan_static_forbidden_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 9), vlan_list1().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticForbiddenList1to1024.setStatus('current')
rldot1q_port_vlan_static_forbidden_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 10), vlan_list2().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticForbiddenList1025to2048.setStatus('current')
rldot1q_port_vlan_static_forbidden_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 11), vlan_list3().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticForbiddenList2049to3072.setStatus('current')
rldot1q_port_vlan_static_forbidden_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 68, 1, 12), vlan_list4().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qPortVlanStaticForbiddenList3073to4094.setStatus('current')
rldot1q_vlan_static_list_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 69))
if mibBuilder.loadTexts:
rldot1qVlanStaticListTable.setStatus('current')
rldot1q_vlan_static_list_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 69, 1)).setIndexNames((0, 'Dell-vlan-MIB', 'rldot1qVlanStaticListIndex'))
if mibBuilder.loadTexts:
rldot1qVlanStaticListEntry.setStatus('current')
rldot1q_vlan_static_list_index = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 1), integer32().subtype(subtypeSpec=constraints_union(single_value_constraint(0, 1, 2))).clone(namedValues=named_values(('static', 0), ('dynamicGvrp', 1), ('dynamicRava', 2)))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qVlanStaticListIndex.setStatus('current')
rldot1q_vlan_static_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 2), vlan_list1()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qVlanStaticList1to1024.setStatus('current')
rldot1q_vlan_static_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 3), vlan_list2().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qVlanStaticList1025to2048.setStatus('current')
rldot1q_vlan_static_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 4), vlan_list3().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qVlanStaticList2049to3072.setStatus('current')
rldot1q_vlan_static_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 69, 1, 5), vlan_list4().clone(hexValue='00')).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qVlanStaticList3073to4094.setStatus('current')
rldot1q_vlan_static_name_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 70))
if mibBuilder.loadTexts:
rldot1qVlanStaticNameTable.setStatus('current')
rldot1q_vlan_static_name_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 70, 1)).setIndexNames((0, 'Q-BRIDGE-MIB', 'dot1qVlanIndex'))
if mibBuilder.loadTexts:
rldot1qVlanStaticNameEntry.setStatus('current')
rldot1q_vlan_static_name = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 70, 1, 1), snmp_admin_string().subtype(subtypeSpec=value_size_constraint(0, 32))).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rldot1qVlanStaticName.setStatus('current')
rl_port_vlan_triple_play_multicast_tv_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 71))
if mibBuilder.loadTexts:
rlPortVlanTriplePlayMulticastTvTable.setStatus('current')
rl_port_vlan_triple_play_multicast_tv_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 71, 1)).setIndexNames((0, 'IF-MIB', 'ifIndex'))
if mibBuilder.loadTexts:
rlPortVlanTriplePlayMulticastTvEntry.setStatus('current')
rl_port_vlan_triple_play_multicast_tv_list1to1024 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 1), vlan_list1()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rlPortVlanTriplePlayMulticastTvList1to1024.setStatus('current')
rl_port_vlan_triple_play_multicast_tv_list1025to2048 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 2), vlan_list2()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rlPortVlanTriplePlayMulticastTvList1025to2048.setStatus('current')
rl_port_vlan_triple_play_multicast_tv_list2049to3072 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 3), vlan_list3()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rlPortVlanTriplePlayMulticastTvList2049to3072.setStatus('current')
rl_port_vlan_triple_play_multicast_tv_list3073to4094 = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 71, 1, 4), vlan_list4()).setMaxAccess('readwrite')
if mibBuilder.loadTexts:
rlPortVlanTriplePlayMulticastTvList3073to4094.setStatus('current')
rldot1q_vlan_membership_type_table = mib_table((1, 3, 6, 1, 4, 1, 89, 48, 72))
if mibBuilder.loadTexts:
rldot1qVlanMembershipTypeTable.setStatus('current')
rldot1q_vlan_membership_type_entry = mib_table_row((1, 3, 6, 1, 4, 1, 89, 48, 72, 1)).setIndexNames((0, 'Q-BRIDGE-MIB', 'dot1qVlanIndex'))
if mibBuilder.loadTexts:
rldot1qVlanMembershipTypeEntry.setStatus('current')
rldot1q_vlan_membership_type_bitmap = mib_table_column((1, 3, 6, 1, 4, 1, 89, 48, 72, 1, 1), integer32()).setMaxAccess('readonly')
if mibBuilder.loadTexts:
rldot1qVlanMembershipTypeBitmap.setStatus('current')
mibBuilder.exportSymbols('Dell-vlan-MIB', vlanPortModeEntry=vlanPortModeEntry, vlanMulticastTvTable=vlanMulticastTvTable, vlanPrivateEdgeSupported=vlanPrivateEdgeSupported, vlanMacBaseVlanPortGroupVid=vlanMacBaseVlanPortGroupVid, vlanCustomerPortModeTable=vlanCustomerPortModeTable, vlan=vlan, vlanPrivateEdgeTable=vlanPrivateEdgeTable, vlanAccessPortModeEntry=vlanAccessPortModeEntry, vlanDefaultEnabledPorts=vlanDefaultEnabledPorts, vlanPrivateMapStatus=vlanPrivateMapStatus, rldot1qVlanStaticList2049to3072=rldot1qVlanStaticList2049to3072, vlanVoicePortTable=vlanVoicePortTable, vlanMacBaseVlanPortTable=vlanMacBaseVlanPortTable, vlanSwitchPortModeTable=vlanSwitchPortModeTable, vlanDefaultEnabled=vlanDefaultEnabled, rldot1qPortVlanStaticEgressList3073to4094=rldot1qPortVlanStaticEgressList3073to4094, vlanPrivateEdgeGroupUplink=vlanPrivateEdgeGroupUplink, vlanTriplePlayMulticastTvMulticastTvPortList=vlanTriplePlayMulticastTvMulticastTvPortList, vlanTrunkModeList2049to3072=vlanTrunkModeList2049to3072, vlanNameEntry=vlanNameEntry, vlanMacBaseVlanMacAddress=vlanMacBaseVlanMacAddress, vlanInetTriplePlayTable=vlanInetTriplePlayTable, vlanAccessPortModeVlanId=vlanAccessPortModeVlanId, vlanRsvlMapStatus=vlanRsvlMapStatus, rldot1qPortVlanStaticEgressList1to1024=rldot1qPortVlanStaticEgressList1to1024, vlanPrivateEdgeEntry=vlanPrivateEdgeEntry, vlanPrivateEdgeGroupIfIndexID=vlanPrivateEdgeGroupIfIndexID, vlanPrivateEdgeGroupTable=vlanPrivateEdgeGroupTable, vlanPrivateEntryOld=vlanPrivateEntryOld, vlanPrivateCommunityTable=vlanPrivateCommunityTable, rldot1qVlanStaticNameTable=rldot1qVlanStaticNameTable, vlanPrivateEdgeUplink=vlanPrivateEdgeUplink, vlanPrivateMapPrimaryVid=vlanPrivateMapPrimaryVid, vlanSubnetRangeAddr=vlanSubnetRangeAddr, vlanPortModeTable=vlanPortModeTable, vlanAsymmetricEnabled=vlanAsymmetricEnabled, vlanPrivateCommunityStatus=vlanPrivateCommunityStatus, vlanSendUnknownToAllPorts=vlanSendUnknownToAllPorts, vlanSubnetPortRowStatus=vlanSubnetPortRowStatus, rldot1qVlanMembershipTypeEntry=rldot1qVlanMembershipTypeEntry, vlanTriplePlayMulticatTvEntry=vlanTriplePlayMulticatTvEntry, vlanVoiceAgingTimeout=vlanVoiceAgingTimeout, vlanMaxTableNumber=vlanMaxTableNumber, vlanDefaultExtManagment=vlanDefaultExtManagment, vlanVoiceOUISetToDefault=vlanVoiceOUISetToDefault, vlanRsvlMapSecondaryVid=vlanRsvlMapSecondaryVid, vlanSubnetRangeTable=vlanSubnetRangeTable, PYSNMP_MODULE_ID=vlan, vlanMacBaseVlanGroupRowStatus=vlanMacBaseVlanGroupRowStatus, vlanSubnetRangeGroupId=vlanSubnetRangeGroupId, vlanVoiceOUIDescription=vlanVoiceOUIDescription, vlanSpecialTagVID=vlanSpecialTagVID, vlanPortModeExtTable=vlanPortModeExtTable, vlanMacBaseVlanPortGroupId=vlanMacBaseVlanPortGroupId, vlanTrunkPortModeEntry=vlanTrunkPortModeEntry, vlanNameTag=vlanNameTag, rldot1qPortVlanStaticEgressList2049to3072=rldot1qPortVlanStaticEgressList2049to3072, vlanPrivateMapEntry=vlanPrivateMapEntry, vlanVoiceTable=vlanVoiceTable, rldot1qPortVlanStaticTable=rldot1qPortVlanStaticTable, rldot1qPortVlanStaticForbiddenList3073to4094=rldot1qPortVlanStaticForbiddenList3073to4094, vlanAccessPortModeMcstTvVlanId=vlanAccessPortModeMcstTvVlanId, rldot1qPortVlanStaticForbiddenList1025to2048=rldot1qPortVlanStaticForbiddenList1025to2048, vlanSubnetPortTable=vlanSubnetPortTable, vlanDefaultTaggedPorts=vlanDefaultTaggedPorts, vlanPortModeExtStatus=vlanPortModeExtStatus, vlanInetTriplePlayMulticastTvMulticastTvVID=vlanInetTriplePlayMulticastTvMulticastTvVID, vlanDynamicVlanSupported=vlanDynamicVlanSupported, vlanRsvlMapEntry=vlanRsvlMapEntry, vlanDynamicVlanTable=vlanDynamicVlanTable, vlanPrivateEdgeGroupEntry=vlanPrivateEdgeGroupEntry, vlanRsvlMapTable=vlanRsvlMapTable, rlPortVlanTriplePlayMulticastTvEntry=rlPortVlanTriplePlayMulticastTvEntry, vlanTrunkPortModeTable=vlanTrunkPortModeTable, vlanTriplePlayMulticastTvMulticastTvVID=vlanTriplePlayMulticastTvMulticastTvVID, vlanMacBaseVlanGroupTable=vlanMacBaseVlanGroupTable, rldot1qPortVlanStaticForbiddenList2049to3072=rldot1qPortVlanStaticForbiddenList2049to3072, vlanPrivateEdgeGroupSource=vlanPrivateEdgeGroupSource, vlanDefault=vlanDefault, rldot1qVlanStaticListIndex=rldot1qVlanStaticListIndex, rldot1qPortVlanStaticUntaggedEgressList3073to4094=rldot1qPortVlanStaticUntaggedEgressList3073to4094, vlanTriplePlayTable=vlanTriplePlayTable, vlanSpecialTagCurrentReserved=vlanSpecialTagCurrentReserved, rldot1qPortVlanStaticUntaggedEgressList2049to3072=rldot1qPortVlanStaticUntaggedEgressList2049to3072, vlanSpecialTagCurrentEntry=vlanSpecialTagCurrentEntry, vlanPrivateOldStatus=vlanPrivateOldStatus, vlanTriplePlayMulticastTvVID=vlanTriplePlayMulticastTvVID, vlanDot1vSupported=vlanDot1vSupported, vlanSpecialTagTable=vlanSpecialTagTable, rldot1qVlanMembershipTypeBitmap=rldot1qVlanMembershipTypeBitmap, vlanMacBaseVlanGroupId=vlanMacBaseVlanGroupId, vlanInetTriplePlayMulticastTvMulticastTvPortList=vlanInetTriplePlayMulticastTvMulticastTvPortList, vlanMacBaseVlanMacMask=vlanMacBaseVlanMacMask, vlanSwitchPortModeCategory=vlanSwitchPortModeCategory, rlPortVlanTriplePlayMulticastTvTable=rlPortVlanTriplePlayMulticastTvTable, vlanInetTriplePlayEntry=vlanInetTriplePlayEntry, vlanPrivateEdgeStatus=vlanPrivateEdgeStatus, vlanPortModeExtState=vlanPortModeExtState, vlanMacBaseVlanGroupEntry=vlanMacBaseVlanGroupEntry, vlanDefaultSupported=vlanDefaultSupported, vlanSubnetPortEntry=vlanSubnetPortEntry, vlanPrivateTableOld=vlanPrivateTableOld, vlanTriplePlayMulticastTvTable=vlanTriplePlayMulticastTvTable, vlanCustomerPortModeMtvList1to1024=vlanCustomerPortModeMtvList1to1024, vlanVoiceOUITable=vlanVoiceOUITable, vlanSpecialTagStatus=vlanSpecialTagStatus, vlanDynamicVlanTag=vlanDynamicVlanTag, vlanVoicePortCurrentMembership=vlanVoicePortCurrentMembership, vlanInetTriplePlayMulticatTvEntry=vlanInetTriplePlayMulticatTvEntry, vlanSubnetRangeMask=vlanSubnetRangeMask, rldot1qVlanStaticList3073to4094=rldot1qVlanStaticList3073to4094, rldot1qPortVlanStaticEntry=rldot1qPortVlanStaticEntry, vlanPrivateMapPrimaryPorts=vlanPrivateMapPrimaryPorts, vlanNameIfIndex=vlanNameIfIndex, vlanSubnetPortGroupId=vlanSubnetPortGroupId, vlanNameName=vlanNameName, rldot1qVlanStaticListTable=rldot1qVlanStaticListTable, vlanTriplePlayEntry=vlanTriplePlayEntry, vlanMacBaseVlanPortEntry=vlanMacBaseVlanPortEntry, vlanSubnetPortGroupVid=vlanSubnetPortGroupVid, rlPortVlanTriplePlayMulticastTvList2049to3072=rlPortVlanTriplePlayMulticastTvList2049to3072, vlanDynamicVlanMacAddress=vlanDynamicVlanMacAddress, vlanCustomerPortModeMtvList2049to3072=vlanCustomerPortModeMtvList2049to3072, vlanPrivateEdgeVersion=vlanPrivateEdgeVersion, vlanPortModeState=vlanPortModeState, vlanPrivateEdgeGroupIfIndexEntry=vlanPrivateEdgeGroupIfIndexEntry, vlanPrivateOldIsolatedVlanTag=vlanPrivateOldIsolatedVlanTag, vlanPrivateMapTable=vlanPrivateMapTable, vlanVoicePortEntry=vlanVoicePortEntry, vlanVoicePriorityRemark=vlanVoicePriorityRemark, vlanMacBaseVlanPortRowStatus=vlanMacBaseVlanPortRowStatus, vlanTrunkModeList1to1024=vlanTrunkModeList1to1024, rldot1qPortVlanStaticEgressList1025to2048=rldot1qPortVlanStaticEgressList1025to2048, vlanAccessPortModeTable=vlanAccessPortModeTable, vlanRsvlEnable=vlanRsvlEnable, rldot1qVlanStaticNameEntry=rldot1qVlanStaticNameEntry, vlanPrivateMapSecondaryVid=vlanPrivateMapSecondaryVid, vlanTriplePlayInnerVID=vlanTriplePlayInnerVID, vlanVoiceOUIPrefix=vlanVoiceOUIPrefix, rldot1qPortVlanStaticForbiddenList1to1024=rldot1qPortVlanStaticForbiddenList1to1024, vlanInetTriplePlayMulticastTvVID=vlanInetTriplePlayMulticastTvVID, vlanPrivateMapPrimaryOperPorts=vlanPrivateMapPrimaryOperPorts, vlanSpecialTagCurrentActive=vlanSpecialTagCurrentActive, vlanPortModeContextValue=vlanPortModeContextValue, vlanSpecialTagCurrentTable=vlanSpecialTagCurrentTable, vlanVoicePriority=vlanVoicePriority, vlanVoiceOUIEntry=vlanVoiceOUIEntry, vlanVoiceEntry=vlanVoiceEntry, vlanPrivateSupported=vlanPrivateSupported, rlPortVlanTriplePlayMulticastTvList1025to2048=rlPortVlanTriplePlayMulticastTvList1025to2048, vlanSubnetRangeEntry=vlanSubnetRangeEntry, vlanTrunkPortModeNativeVlanId=vlanTrunkPortModeNativeVlanId, vlanPrivateType=vlanPrivateType, vlanInetTriplePlayMulticastTvTable=vlanInetTriplePlayMulticastTvTable, rldot1qPortVlanStaticUntaggedEgressList1to1024=rldot1qPortVlanStaticUntaggedEgressList1to1024, vlanVoicePortQosMode=vlanVoicePortQosMode, vlanPrivateEdgeGroupIfIndexTable=vlanPrivateEdgeGroupIfIndexTable, rldot1qVlanStaticList1to1024=rldot1qVlanStaticList1to1024, vlanCustomerPortModeEntry=vlanCustomerPortModeEntry, vlanPrivateCommunityEntry=vlanPrivateCommunityEntry, vlanSpecialTagCurrentVID=vlanSpecialTagCurrentVID, rldot1qVlanMembershipTypeTable=rldot1qVlanMembershipTypeTable, vlanPrivateEdgeGroupStatus=vlanPrivateEdgeGroupStatus, vlanCustomerPortModeMtvList3073to4094=vlanCustomerPortModeMtvList3073to4094, vlanMulticastTvStatus=vlanMulticastTvStatus, rlPortVlanTriplePlayMulticastTvList3073to4094=rlPortVlanTriplePlayMulticastTvList3073to4094, vlanSpecialTagEntry=vlanSpecialTagEntry, vlanPortModeExtEntry=vlanPortModeExtEntry, vlanSwitchPortModeEntry=vlanSwitchPortModeEntry, vlanPrivateMapSecondaryPorts=vlanPrivateMapSecondaryPorts, rldot1qPortVlanStaticUntaggedEgressList1025to2048=rldot1qPortVlanStaticUntaggedEgressList1025to2048, vlanInetTriplePlayRowStatus=vlanInetTriplePlayRowStatus, vlanPrivatePrimaryVid=vlanPrivatePrimaryVid, vlanTriplePlayRowStatus=vlanTriplePlayRowStatus, vlanCustomerPortModeVlanId=vlanCustomerPortModeVlanId, vlanPortModeContextEntry=vlanPortModeContextEntry, vlanPrivateVid=vlanPrivateVid, vlanPortModeContextTable=vlanPortModeContextTable, rlPortVlanTriplePlayMulticastTvList1to1024=rlPortVlanTriplePlayMulticastTvList1to1024, vlanDynamicVlanEntry=vlanDynamicVlanEntry, vlanPrivateCommunityVlanTag=vlanPrivateCommunityVlanTag, vlanSubnetRangeRowStatus=vlanSubnetRangeRowStatus, vlanPrivateEdgeGroupIfIndexDomainID=vlanPrivateEdgeGroupIfIndexDomainID, vlanVoicePortVlanIndex=vlanVoicePortVlanIndex, vlanNameTable=vlanNameTable, vlanVoiceOUIEntryRowStatus=vlanVoiceOUIEntryRowStatus, vlanVoicePortEnable=vlanVoicePortEnable, vlanVoicePortSecure=vlanVoicePortSecure, vlanPrivateEntry=vlanPrivateEntry, vlanPrivateMapSecondaryOperPorts=vlanPrivateMapSecondaryOperPorts, rldot1qVlanStaticName=rldot1qVlanStaticName, vlanMibVersion=vlanMibVersion, vlanPrivateTable=vlanPrivateTable, vlanTrunkModeList3073to4094=vlanTrunkModeList3073to4094, vlanCustomerPortModeMtvList1025to2048=vlanCustomerPortModeMtvList1025to2048, vlanMulticastTvVID=vlanMulticastTvVID, vlanTrunkModeList1025to2048=vlanTrunkModeList1025to2048, vlanRsvlMapPrimaryVid=vlanRsvlMapPrimaryVid, rldot1qVlanStaticListEntry=rldot1qVlanStaticListEntry, vlanVoiceRowStatus=vlanVoiceRowStatus, vlanVoice=vlanVoice, rldot1qVlanStaticList1025to2048=rldot1qVlanStaticList1025to2048, vlanInetTriplePlayInnerVID=vlanInetTriplePlayInnerVID, vlanDynamicVlanStatus=vlanDynamicVlanStatus, vlanMulticastTvEntry=vlanMulticastTvEntry, vlanInetTriplePlayInetAddressType=vlanInetTriplePlayInetAddressType, vlanPrivateStatus=vlanPrivateStatus)
|
_base_ = [
'../_base_/models/mask_rcnn_r50_fpn.py',
'../_base_/datasets/coco_instance.py',
'../_base_/schedules/schedule_1x.py', '../_base_/default_runtime.py'
]
model = dict(
rpn_head=dict(
anchor_generator=dict(type='LegacyAnchorGenerator', center_offset=0.5),
bbox_coder=dict(type='LegacyDeltaXYWHBBoxCoder'),
loss_bbox=dict(type='SmoothL1Loss', beta=1.0 / 9.0, loss_weight=1.0)),
roi_head=dict(
bbox_roi_extractor=dict(
type='SingleRoIExtractor',
roi_layer=dict(
type='RoIAlign', out_size=7, sample_num=2, aligned=False)),
mask_roi_extractor=dict(
type='SingleRoIExtractor',
roi_layer=dict(
type='RoIAlign', out_size=14, sample_num=2, aligned=False)),
bbox_head=dict(
bbox_coder=dict(type='LegacyDeltaXYWHBBoxCoder'),
loss_bbox=dict(type='SmoothL1Loss', beta=1.0, loss_weight=1.0))))
# model training and testing settings
train_cfg = dict(
rpn_proposal=dict(nms_post=2000, max_num=2000),
rcnn=dict(assigner=dict(match_low_quality=True)))
|
_base_ = ['../_base_/models/mask_rcnn_r50_fpn.py', '../_base_/datasets/coco_instance.py', '../_base_/schedules/schedule_1x.py', '../_base_/default_runtime.py']
model = dict(rpn_head=dict(anchor_generator=dict(type='LegacyAnchorGenerator', center_offset=0.5), bbox_coder=dict(type='LegacyDeltaXYWHBBoxCoder'), loss_bbox=dict(type='SmoothL1Loss', beta=1.0 / 9.0, loss_weight=1.0)), roi_head=dict(bbox_roi_extractor=dict(type='SingleRoIExtractor', roi_layer=dict(type='RoIAlign', out_size=7, sample_num=2, aligned=False)), mask_roi_extractor=dict(type='SingleRoIExtractor', roi_layer=dict(type='RoIAlign', out_size=14, sample_num=2, aligned=False)), bbox_head=dict(bbox_coder=dict(type='LegacyDeltaXYWHBBoxCoder'), loss_bbox=dict(type='SmoothL1Loss', beta=1.0, loss_weight=1.0))))
train_cfg = dict(rpn_proposal=dict(nms_post=2000, max_num=2000), rcnn=dict(assigner=dict(match_low_quality=True)))
|
# TODO: Finish exception implementation, with single exception used to manage hiding error details from user in UI
class GigantumException(Exception):
"""Any Exception arising from inside the Labbook class will be cast as a LabbookException.
This is to avoid having "except Exception" clauses in the client code, and to avoid
having to be aware of every sub-library that is used by the Labbook and the exceptions that those raise.
The principle idea behind this is to have a single catch for all Labbook-related errors. In the stack trace you
can still observe the origin of the problem."""
pass
class GigantumLockedException(GigantumException):
""" Raised when trying to acquire a Labbook lock when lock
is already acquired by another process and failfast flag is set to
True"""
pass
|
class Gigantumexception(Exception):
"""Any Exception arising from inside the Labbook class will be cast as a LabbookException.
This is to avoid having "except Exception" clauses in the client code, and to avoid
having to be aware of every sub-library that is used by the Labbook and the exceptions that those raise.
The principle idea behind this is to have a single catch for all Labbook-related errors. In the stack trace you
can still observe the origin of the problem."""
pass
class Gigantumlockedexception(GigantumException):
""" Raised when trying to acquire a Labbook lock when lock
is already acquired by another process and failfast flag is set to
True"""
pass
|
"""
cmd.do('set ellipsoid_color, ${1:color};')
cmd.do('${0}')
"""
cmd.do('set ellipsoid_color, color;')
# Description: Set ellipsoid color.
# Source: placeHolder
|
"""
cmd.do('set ellipsoid_color, ${1:color};')
cmd.do('${0}')
"""
cmd.do('set ellipsoid_color, color;')
|
#!/usr/bin/python
# -*- coding: utf-8 -*-
# Author: illuz <iilluzen[at]gmail.com>
# File: AC_stack_dict_n.py
# Create Date: 2015-03-04 19:47:43
# Usage: AC_stack_dict_n.py
# Descripton:
class Solution:
# @return a boolean
def isValid(self, s):
mp = {')': '(', ']': '[', '}': '{'}
stk = []
for ch in s:
if ch in '([{':
stk.append(ch)
else:
if not stk or mp[ch] != stk.pop():
return False
return not stk
|
class Solution:
def is_valid(self, s):
mp = {')': '(', ']': '[', '}': '{'}
stk = []
for ch in s:
if ch in '([{':
stk.append(ch)
elif not stk or mp[ch] != stk.pop():
return False
return not stk
|
class Button(object):
"""Button object, used for creating button messages"""
def __init__(self, type=None, title="", payload=""):
# Type: request param key
valid_types = {
'web_url': 'url',
'postback': 'payload'
}
assert type in valid_types, "Type %s is not a Button type" \
% (type,)
self.title = title
self.type = type
self.typekey = valid_types[type]
self.payload = payload
def to_json(self):
request_payload = {}
request_payload[self.typekey] = self.payload
request_payload['title'] = self.title
request_payload['type'] = self.type
return request_payload
class Element(object):
"""Elements are features of Templates"""
def __init__(self, title="", subtitle="", image_url="", buttons=None):
self.title = title
self.image_url = image_url
self.subtitle = subtitle
self.buttons = buttons
def to_json(self):
if self.buttons:
if not all(isinstance(button, Button)
for button in self.buttons):
raise TypeError("Buttons list contained non-type Button")
buttons = [button.to_json() for button in self.buttons]
payload = {
'title': self.title,
'image_url': self.image_url,
'subtitle': self.subtitle,
'buttons': buttons
}
return payload
class ReceiptElement(Element):
def __init__(self, quantity=None, price=None,
currency="CAD", **kwargs):
self.kwargs = kwargs
super(ReceiptElement, self).__init__(**self.kwargs)
if price is None:
raise ValueError("Incorrect keyword-argument given for type ReceiptElement, needed: price")
self.quantity = quantity
self.price = price
self.currency = currency
def to_json(self):
payload = {
'title': self.title,
'subtitle': self.subtitle,
'quantity': self.quantity,
'price': self.price,
'currency': self.currency,
'image_url': self.image_url
}
return payload
|
class Button(object):
"""Button object, used for creating button messages"""
def __init__(self, type=None, title='', payload=''):
valid_types = {'web_url': 'url', 'postback': 'payload'}
assert type in valid_types, 'Type %s is not a Button type' % (type,)
self.title = title
self.type = type
self.typekey = valid_types[type]
self.payload = payload
def to_json(self):
request_payload = {}
request_payload[self.typekey] = self.payload
request_payload['title'] = self.title
request_payload['type'] = self.type
return request_payload
class Element(object):
"""Elements are features of Templates"""
def __init__(self, title='', subtitle='', image_url='', buttons=None):
self.title = title
self.image_url = image_url
self.subtitle = subtitle
self.buttons = buttons
def to_json(self):
if self.buttons:
if not all((isinstance(button, Button) for button in self.buttons)):
raise type_error('Buttons list contained non-type Button')
buttons = [button.to_json() for button in self.buttons]
payload = {'title': self.title, 'image_url': self.image_url, 'subtitle': self.subtitle, 'buttons': buttons}
return payload
class Receiptelement(Element):
def __init__(self, quantity=None, price=None, currency='CAD', **kwargs):
self.kwargs = kwargs
super(ReceiptElement, self).__init__(**self.kwargs)
if price is None:
raise value_error('Incorrect keyword-argument given for type ReceiptElement, needed: price')
self.quantity = quantity
self.price = price
self.currency = currency
def to_json(self):
payload = {'title': self.title, 'subtitle': self.subtitle, 'quantity': self.quantity, 'price': self.price, 'currency': self.currency, 'image_url': self.image_url}
return payload
|
"""
Equation:
x^3 - 2400x^2 - 3x + 2 = 0
x = [0, ]
"""
def bisection(lb, ub, e, iter):
lv = lb**3-2400*(lb**2)-3*lb+2
uv = ub**3-2400*(ub**2)-3*ub+2
if lv*uv > 0:
print("No root found")
return
prev_mid = (lb+ub)/2
f_lb = lb**3-2400*(lb**2)-3*lb+2
f_mid = prev_mid**3-2400*(prev_mid**2)-3*prev_mid+2
if f_lb*f_mid < 0 :
ub = prev_mid
elif f_lb*f_mid > 0:
lb = prev_mid
else:
return prev_mid
for _ in range(iter):
mid = (lb+ub)/2
f_lb = lb**3-2400*(lb**2)-3*lb+2
f_mid = mid**3-2400*(mid**2)-3*mid+2
if f_lb*f_mid < 0 :
ub = mid
elif f_lb*f_mid > 0:
lb = mid
else:
return mid
rel_error = abs(mid - prev_mid)/mid
if rel_error <= e:
return mid
else:
prev_mid = mid
#calling bisection method
ans = bisection(0, 1, 0.005, 20)
if ans is not None:
print("Molar dissociation: " + str(ans))
|
"""
Equation:
x^3 - 2400x^2 - 3x + 2 = 0
x = [0, ]
"""
def bisection(lb, ub, e, iter):
lv = lb ** 3 - 2400 * lb ** 2 - 3 * lb + 2
uv = ub ** 3 - 2400 * ub ** 2 - 3 * ub + 2
if lv * uv > 0:
print('No root found')
return
prev_mid = (lb + ub) / 2
f_lb = lb ** 3 - 2400 * lb ** 2 - 3 * lb + 2
f_mid = prev_mid ** 3 - 2400 * prev_mid ** 2 - 3 * prev_mid + 2
if f_lb * f_mid < 0:
ub = prev_mid
elif f_lb * f_mid > 0:
lb = prev_mid
else:
return prev_mid
for _ in range(iter):
mid = (lb + ub) / 2
f_lb = lb ** 3 - 2400 * lb ** 2 - 3 * lb + 2
f_mid = mid ** 3 - 2400 * mid ** 2 - 3 * mid + 2
if f_lb * f_mid < 0:
ub = mid
elif f_lb * f_mid > 0:
lb = mid
else:
return mid
rel_error = abs(mid - prev_mid) / mid
if rel_error <= e:
return mid
else:
prev_mid = mid
ans = bisection(0, 1, 0.005, 20)
if ans is not None:
print('Molar dissociation: ' + str(ans))
|
f = open('sample-input.txt')
o = open('sample-output.txt', 'w')
t = int(f.readline().strip())
for i in xrange(1, t + 1):
o.write("Case #{}: ".format(i))
n = int(f.readline().strip())
x = [int(j) for j in f.readline().strip().split()]
y = [int(j) for j in f.readline().strip().split()]
o.write("\n")
|
f = open('sample-input.txt')
o = open('sample-output.txt', 'w')
t = int(f.readline().strip())
for i in xrange(1, t + 1):
o.write('Case #{}: '.format(i))
n = int(f.readline().strip())
x = [int(j) for j in f.readline().strip().split()]
y = [int(j) for j in f.readline().strip().split()]
o.write('\n')
|
"""Undocumented Module"""
__all__ = []
## from DirectObject import *
## from pandac.PandaModules import *
##
## class PandaObject(DirectObject):
## """
## This is the class that all Panda/Show classes should inherit from
## """
## pass
|
"""Undocumented Module"""
__all__ = []
|
class Users:
def __init__(self, id, name, surname, password, email, changepass, read_comment, read_like):
self.id = id
self.name = name
self.surname = surname
self.password = password
self.email = email
self.changepass = changepass
self.read_comment = read_comment
self.read_like = read_like
class UsersPass:
def __init__(self, id, password):
self.id = id
self.password = password
|
class Users:
def __init__(self, id, name, surname, password, email, changepass, read_comment, read_like):
self.id = id
self.name = name
self.surname = surname
self.password = password
self.email = email
self.changepass = changepass
self.read_comment = read_comment
self.read_like = read_like
class Userspass:
def __init__(self, id, password):
self.id = id
self.password = password
|
M = int(input())
m1 = set(map(int, input().split()))
N = int(input())
n1 = set(map(int, input().split()))
output = list(m1.union(n1).difference(m1.intersection(n1)))
output.sort()
for i in output:
print(i)
|
m = int(input())
m1 = set(map(int, input().split()))
n = int(input())
n1 = set(map(int, input().split()))
output = list(m1.union(n1).difference(m1.intersection(n1)))
output.sort()
for i in output:
print(i)
|
"""
Version of drf_editable
"""
__version__ = '0.0.1'
|
"""
Version of drf_editable
"""
__version__ = '0.0.1'
|
"""A series of modules containing dictionaries that can be used in run.py"""
def test_person_set_1():
person1 = {
"name": "Steven",
"age": 12,
"likes": "action",
"availability": 3
}
person2 = {
"name": "Jane",
"age": 23,
"likes": "romance",
"availability": 2
}
person3 = {
"name": "Alice",
"age": 18,
"likes": "romance",
"availability": 2
}
person4 = {
"name": "Henry",
"age": 19,
"likes": "horror",
"availability": 1
}
person5 = {
"name": "Alex",
"age": 22,
"likes": "comedy",
"availability": 3
}
people = [person1, person2, person3, person4, person5]
return people
|
"""A series of modules containing dictionaries that can be used in run.py"""
def test_person_set_1():
person1 = {'name': 'Steven', 'age': 12, 'likes': 'action', 'availability': 3}
person2 = {'name': 'Jane', 'age': 23, 'likes': 'romance', 'availability': 2}
person3 = {'name': 'Alice', 'age': 18, 'likes': 'romance', 'availability': 2}
person4 = {'name': 'Henry', 'age': 19, 'likes': 'horror', 'availability': 1}
person5 = {'name': 'Alex', 'age': 22, 'likes': 'comedy', 'availability': 3}
people = [person1, person2, person3, person4, person5]
return people
|
class ALonelyClass:
'''
A multiline class docstring.
'''
def AnEquallyLonelyMethod(self):
'''
A multiline method docstring'''
pass
def one_function():
'''This is a docstring with a single line of text.'''
pass
def shockingly_the_quotes_are_normalized():
'''This is a multiline docstring.
This is a multiline docstring.
This is a multiline docstring.
'''
pass
def foo():
"""This is a docstring with
some lines of text here
"""
return
def baz():
'''"This" is a string with some
embedded "quotes"'''
return
def poit():
"""
Lorem ipsum dolor sit amet.
Consectetur adipiscing elit:
- sed do eiusmod tempor incididunt ut labore
- dolore magna aliqua
- enim ad minim veniam
- quis nostrud exercitation ullamco laboris nisi
- aliquip ex ea commodo consequat
"""
pass
def under_indent():
"""
These lines are indented in a way that does not
make sense.
"""
pass
def over_indent():
"""
This has a shallow indent
- But some lines are deeper
- And the closing quote is too deep
"""
pass
def single_line():
"""But with a newline after it!
"""
pass
def this():
r"""
'hey ho'
"""
def that():
""" "hey yah" """
def and_that():
"""
"hey yah" """
def and_this():
'''
"hey yah"'''
def believe_it_or_not_this_is_in_the_py_stdlib(): '''
"hey yah"'''
def shockingly_the_quotes_are_normalized_v2():
'''
Docstring Docstring Docstring
'''
pass
# output
class ALonelyClass:
'''
A multiline class docstring.
'''
def AnEquallyLonelyMethod(self):
'''
A multiline method docstring'''
pass
def one_function():
'''This is a docstring with a single line of text.'''
pass
def shockingly_the_quotes_are_normalized():
'''This is a multiline docstring.
This is a multiline docstring.
This is a multiline docstring.
'''
pass
def foo():
"""This is a docstring with
some lines of text here
"""
return
def baz():
'''"This" is a string with some
embedded "quotes"'''
return
def poit():
"""
Lorem ipsum dolor sit amet.
Consectetur adipiscing elit:
- sed do eiusmod tempor incididunt ut labore
- dolore magna aliqua
- enim ad minim veniam
- quis nostrud exercitation ullamco laboris nisi
- aliquip ex ea commodo consequat
"""
pass
def under_indent():
"""
These lines are indented in a way that does not
make sense.
"""
pass
def over_indent():
"""
This has a shallow indent
- But some lines are deeper
- And the closing quote is too deep
"""
pass
def single_line():
"""But with a newline after it!"""
pass
def this():
r"""
'hey ho'
"""
def that():
""" "hey yah" """
def and_that():
"""
"hey yah" """
def and_this():
'''
"hey yah"'''
def believe_it_or_not_this_is_in_the_py_stdlib():
'''
"hey yah"'''
def shockingly_the_quotes_are_normalized_v2():
'''
Docstring Docstring Docstring
'''
pass
|
class Alonelyclass:
"""
A multiline class docstring.
"""
def an_equally_lonely_method(self):
"""
A multiline method docstring"""
pass
def one_function():
"""This is a docstring with a single line of text."""
pass
def shockingly_the_quotes_are_normalized():
"""This is a multiline docstring.
This is a multiline docstring.
This is a multiline docstring.
"""
pass
def foo():
"""This is a docstring with
some lines of text here
"""
return
def baz():
'''"This" is a string with some
embedded "quotes"'''
return
def poit():
"""
Lorem ipsum dolor sit amet.
Consectetur adipiscing elit:
- sed do eiusmod tempor incididunt ut labore
- dolore magna aliqua
- enim ad minim veniam
- quis nostrud exercitation ullamco laboris nisi
- aliquip ex ea commodo consequat
"""
pass
def under_indent():
"""
These lines are indented in a way that does not
make sense.
"""
pass
def over_indent():
"""
This has a shallow indent
- But some lines are deeper
- And the closing quote is too deep
"""
pass
def single_line():
"""But with a newline after it!
"""
pass
def this():
"""
'hey ho'
"""
def that():
""" "hey yah" """
def and_that():
"""
"hey yah" """
def and_this():
'''
"hey yah"'''
def believe_it_or_not_this_is_in_the_py_stdlib():
'''
"hey yah"'''
def shockingly_the_quotes_are_normalized_v2():
"""
Docstring Docstring Docstring
"""
pass
class Alonelyclass:
"""
A multiline class docstring.
"""
def an_equally_lonely_method(self):
"""
A multiline method docstring"""
pass
def one_function():
"""This is a docstring with a single line of text."""
pass
def shockingly_the_quotes_are_normalized():
"""This is a multiline docstring.
This is a multiline docstring.
This is a multiline docstring.
"""
pass
def foo():
"""This is a docstring with
some lines of text here
"""
return
def baz():
'''"This" is a string with some
embedded "quotes"'''
return
def poit():
"""
Lorem ipsum dolor sit amet.
Consectetur adipiscing elit:
- sed do eiusmod tempor incididunt ut labore
- dolore magna aliqua
- enim ad minim veniam
- quis nostrud exercitation ullamco laboris nisi
- aliquip ex ea commodo consequat
"""
pass
def under_indent():
"""
These lines are indented in a way that does not
make sense.
"""
pass
def over_indent():
"""
This has a shallow indent
- But some lines are deeper
- And the closing quote is too deep
"""
pass
def single_line():
"""But with a newline after it!"""
pass
def this():
"""
'hey ho'
"""
def that():
""" "hey yah" """
def and_that():
"""
"hey yah" """
def and_this():
'''
"hey yah"'''
def believe_it_or_not_this_is_in_the_py_stdlib():
'''
"hey yah"'''
def shockingly_the_quotes_are_normalized_v2():
"""
Docstring Docstring Docstring
"""
pass
|
## UVSError handling guidelines:
# 1- don't use OOP exceptions, NEVER NEVER NEVER use inheritance in exceptions
# i dont like exception X that inherits from Y and 2mrw is a G then suddenly catches an F blah blah
# doing the above makes it harder not easier to figure out what the hell happened.
# just use one exception class. return a descriptive msg as to what happened. and if more specifity is needed
# associate an error code with that exception and enumerate the errors
# (i.e. 1 means permission denied, 2 means mac failed ..... ) this is so far not needed.
# if it was needed we code add something like uvs_error_no field to this class and enumerate the
# the different error codes in this module.
# (python shamefully has no constants but there is trick to be done with properties, and raise Error on set
# that pretty much gives us the same thing as language enforced constants, google it)
#
# 2- exceptions are not return values, dont ever use exceptions to communicate results from a sub-routine.
# exceptions are meant to indicate a catastrophic situation that required an immediate termination
# to whatever was happening. for example if a key was not found do NOT raise an exception, return None
# an exception must terminate something. sometimes it should terminate the process. sometimes
# it terminates a thread, sometimes it should terminate a web request. its not a return value.
# it should be used like golang's panic call.
#
#
class UVSError(Exception):
pass
|
class Uvserror(Exception):
pass
|
"""
Module: 'cmath' on micropython-maixpy-0.6.2-66
"""
# MCU: {'ver': '0.6.2-66', 'build': '66', 'sysname': 'MaixPy', 'platform': 'MaixPy', 'version': '0.6.2', 'release': '0.6.2', 'port': 'MaixPy', 'family': 'micropython', 'name': 'micropython', 'machine': 'Sipeed_M1 with kendryte-k210', 'nodename': 'MaixPy'}
# Stubber: 1.3.9
def cos():
pass
e = 2.718282
def exp():
pass
def log():
pass
def log10():
pass
def phase():
pass
pi = 3.141593
def polar():
pass
def rect():
pass
def sin():
pass
def sqrt():
pass
|
"""
Module: 'cmath' on micropython-maixpy-0.6.2-66
"""
def cos():
pass
e = 2.718282
def exp():
pass
def log():
pass
def log10():
pass
def phase():
pass
pi = 3.141593
def polar():
pass
def rect():
pass
def sin():
pass
def sqrt():
pass
|
def SumOfTwoNums(array , target):
"""
Get THe Sum of Two Numbers from an array to match the required target
"""
#sort the array
array.sort()
NumSums = []
left = 0
right = len(array)-1
while left < right:
currSum = array[left] + array[right]
# print(left , right , currSum)
if currSum == target:
NumSums.append((array[left] , array[right]))
right -=1
left +=1
elif currSum > target:
right -=1
elif currSum < target:
left +=1
else:
print("passs")
pass
return NumSums
# using iterations
def GetTwoSumByIteration(array , target):
NumSums =[]
for i in range(len(array)-1):
for j in range(i+1 , len(array)):
currSum = array[i]+array[j]
if currSum == target:
NumSums.append((array[i],array[j]))
return NumSums
res = SumOfTwoNums([3,5,-5,8,11,1,-1,6 ,4] , 10)
print(res)
res1 = GetTwoSumByIteration([3,5,-5,8,11,1,-1,6 ,4] , 10)
print(res1)
|
def sum_of_two_nums(array, target):
"""
Get THe Sum of Two Numbers from an array to match the required target
"""
array.sort()
num_sums = []
left = 0
right = len(array) - 1
while left < right:
curr_sum = array[left] + array[right]
if currSum == target:
NumSums.append((array[left], array[right]))
right -= 1
left += 1
elif currSum > target:
right -= 1
elif currSum < target:
left += 1
else:
print('passs')
pass
return NumSums
def get_two_sum_by_iteration(array, target):
num_sums = []
for i in range(len(array) - 1):
for j in range(i + 1, len(array)):
curr_sum = array[i] + array[j]
if currSum == target:
NumSums.append((array[i], array[j]))
return NumSums
res = sum_of_two_nums([3, 5, -5, 8, 11, 1, -1, 6, 4], 10)
print(res)
res1 = get_two_sum_by_iteration([3, 5, -5, 8, 11, 1, -1, 6, 4], 10)
print(res1)
|
# This is an input class. Do not edit.
class LinkedList:
def __init__(self, value):
self.value = value
self.next = None
def reverseLinkedList(head):
# The trick of the problem is that we need to use three pointers, not two (which is the common pattern).
# the first and third pointer act as a reference and the second one (P2) is the visited one. So, the condition is that when p2 is null, then we have
# reversed the linked list. At the beginning we start with P1 = null (there's nothing on the left of P2), P2 as first element and p3 and the second one.
# in order, the algorithm should do the following:
# p2.next = p1
# p1 = p2
# p2 = p3
# p3 = p3.next
# Initialisation of p1 and p2
p1, p2 = None, head
while p2 is not None:
# why we do this here?
# p2 as the tail of the LL, and so p3 is null; so we are doing None.next which will give an attr error
# p3 = p2.next, we could do p3 = p3.next if not None else p3
p3 = p2.next
p2.next = p1
p1 = p2
p2 = p3
# when p2 is pointing to none, p1 is the final element in the list, which is the new head!
return p1
|
class Linkedlist:
def __init__(self, value):
self.value = value
self.next = None
def reverse_linked_list(head):
(p1, p2) = (None, head)
while p2 is not None:
p3 = p2.next
p2.next = p1
p1 = p2
p2 = p3
return p1
|
# cycle.py
def cycle(iterable):
index = 0
length = len(iterable)
while True:
for index in range(length):
yield index
endless = cycle(range(0, 10))
for item in endless:
print(item)
|
def cycle(iterable):
index = 0
length = len(iterable)
while True:
for index in range(length):
yield index
endless = cycle(range(0, 10))
for item in endless:
print(item)
|
# Copyright 2021 The Bazel Authors. All rights reserved.
#
# 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.
"""Defines create_rule and create_dep macros"""
def create_rule(impl, attrs = {}, deps = [], fragments = [], remove_attrs = [], **kwargs):
"""Creates a rule composed from dependencies.
Args:
impl: The implementation function of the rule, taking as parameters the
rule ctx followed by the executable function of each dependency
attrs: Dict of attributes required by the rule. These will override any
conflicting attributes specified by dependencies
deps: Dict of name->dependency mappings, with each dependency struct
created using 'create_dep'. The keys of this dict are the parameter
names received by 'impl'
fragments: List of configuration fragments required by the rule
remove_attrs: List of attributes to remove from the implementation.
**kwargs: extra args to be passed for rule creation
Returns:
The composed rule
"""
merged_attrs = dict()
fragments = list(fragments)
merged_mandatory_attrs = []
for dep in deps:
merged_attrs.update(dep.attrs)
fragments.extend(dep.fragments)
merged_mandatory_attrs.extend(dep.mandatory_attrs)
merged_attrs.update(attrs)
for attr in remove_attrs:
if attr in merged_mandatory_attrs:
fail("Cannot remove mandatory attribute %s" % attr)
merged_attrs.pop(attr)
return rule(
implementation = impl,
attrs = merged_attrs,
fragments = fragments,
**kwargs
)
def create_dep(call, attrs = {}, fragments = [], mandatory_attrs = None):
"""Combines a dependency's executable function, attributes, and fragments.
Args:
call: the executable function
attrs: dict of required rule attrs
fragments: list of required configuration fragments
mandatory_attrs: list of attributes that can't be removed later
(when not set, all attributes are mandatory)
Returns:
The struct
"""
return _create_dep(call, attrs, fragments, mandatory_attrs if mandatory_attrs else attrs.keys())
def _create_dep(call, attrs = {}, fragments = [], mandatory_attrs = []):
return struct(
call = call,
attrs = attrs,
fragments = fragments,
mandatory_attrs = mandatory_attrs,
)
def create_composite_dep(merge_func, *deps):
"""Creates a dependency struct from multiple dependencies
Args:
merge_func: The executable function to evaluate the dependencies.
*deps: The dependencies to compose provided as keyword args
Returns:
A dependency struct
"""
merged_attrs = dict()
merged_frags = []
merged_mandatory_attrs = []
for dep in deps:
merged_attrs.update(dep.attrs)
merged_frags.extend(dep.fragments)
merged_mandatory_attrs.extend(dep.mandatory_attrs)
return _create_dep(
call = merge_func,
attrs = merged_attrs,
fragments = merged_frags,
mandatory_attrs = merged_mandatory_attrs,
)
|
"""Defines create_rule and create_dep macros"""
def create_rule(impl, attrs={}, deps=[], fragments=[], remove_attrs=[], **kwargs):
"""Creates a rule composed from dependencies.
Args:
impl: The implementation function of the rule, taking as parameters the
rule ctx followed by the executable function of each dependency
attrs: Dict of attributes required by the rule. These will override any
conflicting attributes specified by dependencies
deps: Dict of name->dependency mappings, with each dependency struct
created using 'create_dep'. The keys of this dict are the parameter
names received by 'impl'
fragments: List of configuration fragments required by the rule
remove_attrs: List of attributes to remove from the implementation.
**kwargs: extra args to be passed for rule creation
Returns:
The composed rule
"""
merged_attrs = dict()
fragments = list(fragments)
merged_mandatory_attrs = []
for dep in deps:
merged_attrs.update(dep.attrs)
fragments.extend(dep.fragments)
merged_mandatory_attrs.extend(dep.mandatory_attrs)
merged_attrs.update(attrs)
for attr in remove_attrs:
if attr in merged_mandatory_attrs:
fail('Cannot remove mandatory attribute %s' % attr)
merged_attrs.pop(attr)
return rule(implementation=impl, attrs=merged_attrs, fragments=fragments, **kwargs)
def create_dep(call, attrs={}, fragments=[], mandatory_attrs=None):
"""Combines a dependency's executable function, attributes, and fragments.
Args:
call: the executable function
attrs: dict of required rule attrs
fragments: list of required configuration fragments
mandatory_attrs: list of attributes that can't be removed later
(when not set, all attributes are mandatory)
Returns:
The struct
"""
return _create_dep(call, attrs, fragments, mandatory_attrs if mandatory_attrs else attrs.keys())
def _create_dep(call, attrs={}, fragments=[], mandatory_attrs=[]):
return struct(call=call, attrs=attrs, fragments=fragments, mandatory_attrs=mandatory_attrs)
def create_composite_dep(merge_func, *deps):
"""Creates a dependency struct from multiple dependencies
Args:
merge_func: The executable function to evaluate the dependencies.
*deps: The dependencies to compose provided as keyword args
Returns:
A dependency struct
"""
merged_attrs = dict()
merged_frags = []
merged_mandatory_attrs = []
for dep in deps:
merged_attrs.update(dep.attrs)
merged_frags.extend(dep.fragments)
merged_mandatory_attrs.extend(dep.mandatory_attrs)
return _create_dep(call=merge_func, attrs=merged_attrs, fragments=merged_frags, mandatory_attrs=merged_mandatory_attrs)
|
def oddTuples(aTup):
'''
aTup: a tuple
returns: tuple, every other element of aTup.
'''
# using tuple slicing method
return aTup[0: :2]
|
def odd_tuples(aTup):
"""
aTup: a tuple
returns: tuple, every other element of aTup.
"""
return aTup[0::2]
|
mylang='fr'
family = 'wikipedia'
usernames['wikipedia']['fr']=u'Arktest'
console_encoding = 'utf-8'
|
mylang = 'fr'
family = 'wikipedia'
usernames['wikipedia']['fr'] = u'Arktest'
console_encoding = 'utf-8'
|
#!/usr/bin/python3
"""Square class creation
"""
class Square:
"""Bypass attributes or methods declaration
"""
pass
|
"""Square class creation
"""
class Square:
"""Bypass attributes or methods declaration
"""
pass
|
'''
@author: Pranshu Aggarwal
@problem: https://hack.codingblocks.com/app/practice/1/285/problem
Algorithm to Generate(arr, n):
for row:=0 to n step by 1,
for col:=0 to row + 1 step by 1,
Set arr[row][col] = 1 if column is 0 or equals row
Set arr[row][col] = (Sum of Diagonally Previous element and Upper previous element) if row > 1 and col > 0
Algorithm to Print(n):
for row:=0 to n step by 1
for col:=0 to (n - row) step by 1, Print(" ")
for col:=0 to (row + 1) step by 1,
for i:=0 to (4 - number of digits of n) step by 1, Print(" ")
Print(arr[row][col])
Print(newline)
'''
def generate_pascal_triangle(n):
arr = [[0 for _ in range(0, n)] for _ in range(0, n)]
arr[0][1] = 1
for row in range(0, n):
for col in range(0, row + 1):
if col == 0 or col == row: arr[row][col] = 1
if row > 1 and col > 0: arr[row][col] = arr[row - 1][col - 1] + arr[row - 1][col]
return arr
def pascal_triangle1(n):
if n == 1 or n == 0:
print(1)
return
arr = generate_pascal_triangle(n)
for row in range(0, n):
for col in range(0, n - row): print(" ", end='')
for col in range(0, row + 1):
for _ in range(0, 4 - len(str(arr[row][col]))): print(" ", end='')
print(arr[row][col], end='')
print()
if __name__ == "__main__":
n = int(input().strip())
pascal_triangle1(n)
|
"""
@author: Pranshu Aggarwal
@problem: https://hack.codingblocks.com/app/practice/1/285/problem
Algorithm to Generate(arr, n):
for row:=0 to n step by 1,
for col:=0 to row + 1 step by 1,
Set arr[row][col] = 1 if column is 0 or equals row
Set arr[row][col] = (Sum of Diagonally Previous element and Upper previous element) if row > 1 and col > 0
Algorithm to Print(n):
for row:=0 to n step by 1
for col:=0 to (n - row) step by 1, Print(" ")
for col:=0 to (row + 1) step by 1,
for i:=0 to (4 - number of digits of n) step by 1, Print(" ")
Print(arr[row][col])
Print(newline)
"""
def generate_pascal_triangle(n):
arr = [[0 for _ in range(0, n)] for _ in range(0, n)]
arr[0][1] = 1
for row in range(0, n):
for col in range(0, row + 1):
if col == 0 or col == row:
arr[row][col] = 1
if row > 1 and col > 0:
arr[row][col] = arr[row - 1][col - 1] + arr[row - 1][col]
return arr
def pascal_triangle1(n):
if n == 1 or n == 0:
print(1)
return
arr = generate_pascal_triangle(n)
for row in range(0, n):
for col in range(0, n - row):
print(' ', end='')
for col in range(0, row + 1):
for _ in range(0, 4 - len(str(arr[row][col]))):
print(' ', end='')
print(arr[row][col], end='')
print()
if __name__ == '__main__':
n = int(input().strip())
pascal_triangle1(n)
|
#!/usr/bin/env python3
# https://codeforces.com/problemset/problem/1332/A
def f(l):
a,c = l
p = 1
r = 0
while a>0 or c>0:
r += p*((c%3-a%3)%3)
p *= 3
c = c//3
a = a//3
return r
l = list(map(int,input().split()))
print(f(l))
|
def f(l):
(a, c) = l
p = 1
r = 0
while a > 0 or c > 0:
r += p * ((c % 3 - a % 3) % 3)
p *= 3
c = c // 3
a = a // 3
return r
l = list(map(int, input().split()))
print(f(l))
|
a = 0
b = 1
n = int(input())
for i in range(n):
print(a,end=",")
print(b,end=",")
a = a+b
b = b+a
print("\b")
|
a = 0
b = 1
n = int(input())
for i in range(n):
print(a, end=',')
print(b, end=',')
a = a + b
b = b + a
print('\x08')
|
DATASET_REGISTRY = {}
def register_dataset(name: str):
def register_dataset_func(func):
DATASET_REGISTRY[name] = func()
return register_dataset_func
|
dataset_registry = {}
def register_dataset(name: str):
def register_dataset_func(func):
DATASET_REGISTRY[name] = func()
return register_dataset_func
|
token = "bot_token"
admins = [admin_id]
api_id = 2040
api_hash = "b18441a1ff607e10a989891a5462e627"
|
token = 'bot_token'
admins = [admin_id]
api_id = 2040
api_hash = 'b18441a1ff607e10a989891a5462e627'
|
a = [3, 4, 5, 6]
b = ['a', 'b', 'c', 'd']
def zipper(a,b):
newZip = []
if len (a) == len(b):
for i in range(len(a)):
newZip.append([a[i], b[i]])
print (newZip)
if len(a)!= len(b):
print("lists do not match")
zipper(a,b)
|
a = [3, 4, 5, 6]
b = ['a', 'b', 'c', 'd']
def zipper(a, b):
new_zip = []
if len(a) == len(b):
for i in range(len(a)):
newZip.append([a[i], b[i]])
print(newZip)
if len(a) != len(b):
print('lists do not match')
zipper(a, b)
|
c = get_config()
c.TerminalInteractiveShell.confirm_exit = False
c.TerminalInteractiveShell.editing_mode = 'vi'
|
c = get_config()
c.TerminalInteractiveShell.confirm_exit = False
c.TerminalInteractiveShell.editing_mode = 'vi'
|
class Player:
def __init__(self, socket, name, color, board):
self.name = name
self.board = board
self.socket = socket
self.lastMove = []
self.isTurn = False
#self.color = color
self.color = 'w'
async def init(self):
await self.board.addPlayer(self)
def __str__(self):
return self.name
def __repr__(self):
return str(self.name)
|
class Player:
def __init__(self, socket, name, color, board):
self.name = name
self.board = board
self.socket = socket
self.lastMove = []
self.isTurn = False
self.color = 'w'
async def init(self):
await self.board.addPlayer(self)
def __str__(self):
return self.name
def __repr__(self):
return str(self.name)
|
# visit: https://imgur.com/a/oemBqyv
count = 0
total = 0
# Handle any exceptions using try/except
try:
def main():
# Initialize variables
count = 0
total = 0
# Opens the Section1.txt file.
infile = open("Section1.txt", "r")
# Reads the numbers in the file into a list
num = infile.readlines()
for num in infile:
number = float(num)
total = total + number
count = count + 1
average = total / count
# Close the file
infile.close
# Output: display the number of the scores, and the average of the scores
print("Number of scores in Section 1: ", count)
print("Average: ", format((average), ".2f"), "Letter Grade: ")
total2 = 0
count2 = 0
infile2 = open("Section2.txt.", "r")
for num in infile2:
number = float(num)
total2 = total2 + number
count2 = count2 + 1
average2 = total2 / count2
infile2.close
print("Number of scores in Section 2: ", count2)
print("Average: ", format((average2), ".2f"), "Letter Grade: ", score)
total_count = count1 + count2
total_average = (total1 + total2) / total_count
print("Numbers of score in both sections combined: ", total_count)
print("Average: ", format((total_average), ".2f"), "Letter grade: ", score)
scoring(grade)
def scoring(grade):
# Create outputs for numerical scores, make "else" anything below 0 or over 100
if 89.5 <= grade <= 100:
print("The letter grade is A")
elif 79.5 <= grade <= 89.4:
print("The letter grade is B")
elif 69.5 <= grade <= 79.4:
print("The letter grade is C")
elif 59.5 <= grade <= 69.4:
print("The letter grade is D")
elif 0 <= grade <= 59.4:
print("The letter grade is F")
else:
print("invalid score")
main()
except IOError:
print("An error occurred trying to open the file")
except ValueError:
print("Non-numeric data found in the file")
except Exception as err:
print(err)
|
count = 0
total = 0
try:
def main():
count = 0
total = 0
infile = open('Section1.txt', 'r')
num = infile.readlines()
for num in infile:
number = float(num)
total = total + number
count = count + 1
average = total / count
infile.close
print('Number of scores in Section 1: ', count)
print('Average: ', format(average, '.2f'), 'Letter Grade: ')
total2 = 0
count2 = 0
infile2 = open('Section2.txt.', 'r')
for num in infile2:
number = float(num)
total2 = total2 + number
count2 = count2 + 1
average2 = total2 / count2
infile2.close
print('Number of scores in Section 2: ', count2)
print('Average: ', format(average2, '.2f'), 'Letter Grade: ', score)
total_count = count1 + count2
total_average = (total1 + total2) / total_count
print('Numbers of score in both sections combined: ', total_count)
print('Average: ', format(total_average, '.2f'), 'Letter grade: ', score)
scoring(grade)
def scoring(grade):
if 89.5 <= grade <= 100:
print('The letter grade is A')
elif 79.5 <= grade <= 89.4:
print('The letter grade is B')
elif 69.5 <= grade <= 79.4:
print('The letter grade is C')
elif 59.5 <= grade <= 69.4:
print('The letter grade is D')
elif 0 <= grade <= 59.4:
print('The letter grade is F')
else:
print('invalid score')
main()
except IOError:
print('An error occurred trying to open the file')
except ValueError:
print('Non-numeric data found in the file')
except Exception as err:
print(err)
|
# V0
# V1
# https://www.jiuzhang.com/solution/fair-candy-swap/#tag-highlight-lang-python
class Solution:
"""
@param A: an array
@param B: an array
@return: an integer array
"""
def fairCandySwap(self, A, B):
# Write your code here.
ans = []
sumA = sum(A)
sumB = sum(B)
A.sort()
B.sort()
tmp = sumA - (sumA + sumB) / 2
i = 0
j = 0
while i < len(A) and j < len(B):
if A[i] - B[j] == tmp:
ans.append(A[i])
ans.append(B[j])
break
elif A[i] - B[j] > tmp:
j += 1
elif A[i] - B[j] < tmp:
i += 1
return ans
# V1'
# https://blog.csdn.net/fuxuemingzhu/article/details/82013077
class Solution(object):
def fairCandySwap(self, A, B):
"""
:type A: List[int]
:type B: List[int]
:rtype: List[int]
"""
sum_A, sum_B, set_B = sum(A), sum(B), set(B)
target = (sum_A + sum_B) / 2
for a in A:
b = target - (sum_A - a)
if b >= 1 and b <= 100000 and b in set_B:
return [a, b]
# V2
# Time: O(m + n)
# Space: O(m + n)
class Solution(object):
def fairCandySwap(self, A, B):
"""
:type A: List[int]
:type B: List[int]
:rtype: List[int]
"""
diff = (sum(A)-sum(B))//2
setA = set(A)
for b in set(B):
if diff+b in setA:
return [diff+b, b]
return []
|
class Solution:
"""
@param A: an array
@param B: an array
@return: an integer array
"""
def fair_candy_swap(self, A, B):
ans = []
sum_a = sum(A)
sum_b = sum(B)
A.sort()
B.sort()
tmp = sumA - (sumA + sumB) / 2
i = 0
j = 0
while i < len(A) and j < len(B):
if A[i] - B[j] == tmp:
ans.append(A[i])
ans.append(B[j])
break
elif A[i] - B[j] > tmp:
j += 1
elif A[i] - B[j] < tmp:
i += 1
return ans
class Solution(object):
def fair_candy_swap(self, A, B):
"""
:type A: List[int]
:type B: List[int]
:rtype: List[int]
"""
(sum_a, sum_b, set_b) = (sum(A), sum(B), set(B))
target = (sum_A + sum_B) / 2
for a in A:
b = target - (sum_A - a)
if b >= 1 and b <= 100000 and (b in set_B):
return [a, b]
class Solution(object):
def fair_candy_swap(self, A, B):
"""
:type A: List[int]
:type B: List[int]
:rtype: List[int]
"""
diff = (sum(A) - sum(B)) // 2
set_a = set(A)
for b in set(B):
if diff + b in setA:
return [diff + b, b]
return []
|
# PROBLEM LINK:- https://leetcode.com/problems/height-checker/
class Solution:
def heightChecker(self, heights: List[int]) -> int:
n = len(heights)
expected = heights.copy()
expected.sort()
c = 0
for i in range(0,n):
if heights[i] != expected[i]:
c += 1
return c
|
class Solution:
def height_checker(self, heights: List[int]) -> int:
n = len(heights)
expected = heights.copy()
expected.sort()
c = 0
for i in range(0, n):
if heights[i] != expected[i]:
c += 1
return c
|
m = float(input('Informe os metros: '))
print(f'{m} metros equivale a: \n{m*0.001}km\n{m*0.01}hm\n{m*0.1:.1f}dam\n{m*10:.0f}dm\n{m*100:.0f}cm\n{m*1000:.0f}mm')
#km, hm, dam, m, dm, cm, mm
|
m = float(input('Informe os metros: '))
print(f'{m} metros equivale a: \n{m * 0.001}km\n{m * 0.01}hm\n{m * 0.1:.1f}dam\n{m * 10:.0f}dm\n{m * 100:.0f}cm\n{m * 1000:.0f}mm')
|
__title__ = "feedler"
__description__ = "A dead simple parser"
__version__ = "0.0.2"
__author__ = "Victor Natschke"
__author_email__ = "[email protected]"
__license__ = "MIT"
__copyright__ = "Copyright 2020 Victor Natschke"
|
__title__ = 'feedler'
__description__ = 'A dead simple parser'
__version__ = '0.0.2'
__author__ = 'Victor Natschke'
__author_email__ = '[email protected]'
__license__ = 'MIT'
__copyright__ = 'Copyright 2020 Victor Natschke'
|
class Solution:
def InsertInterval(self, Interval, newInterval):
nums,mid = list(), 0
int_len = len(Interval)
for s,e in Interval:
if s < newInterval[0]:
nums.append([s,e])
mid += 1
else:
break
if not nums or nums[-1][1] < newInterval[0]:
nums.append(newInterval)
else:
nums[-1][1] = max(newInterval[1], nums[-1][1])
for s,e in Interval[mid:]:
if s > nums[-1][1]:
nums.append([s,e])
else:
nums[-1][1] = max(nums[-1][1], e)
return nums
if __name__ == "__main__":
a = Solution()
print(a.InsertInterval([[2,3],[6,9]], [5,7]))
print(a.InsertInterval([[1,2],[3,5],[6,7],[8,10],[12,16]], [4,8]))
print(a.InsertInterval([], [4,8]))
|
class Solution:
def insert_interval(self, Interval, newInterval):
(nums, mid) = (list(), 0)
int_len = len(Interval)
for (s, e) in Interval:
if s < newInterval[0]:
nums.append([s, e])
mid += 1
else:
break
if not nums or nums[-1][1] < newInterval[0]:
nums.append(newInterval)
else:
nums[-1][1] = max(newInterval[1], nums[-1][1])
for (s, e) in Interval[mid:]:
if s > nums[-1][1]:
nums.append([s, e])
else:
nums[-1][1] = max(nums[-1][1], e)
return nums
if __name__ == '__main__':
a = solution()
print(a.InsertInterval([[2, 3], [6, 9]], [5, 7]))
print(a.InsertInterval([[1, 2], [3, 5], [6, 7], [8, 10], [12, 16]], [4, 8]))
print(a.InsertInterval([], [4, 8]))
|
deployment = """
---
apiVersion: apps/v1
kind: Deployment
metadata:
name: {cfg[name_version]}-{cfg[name]}
namespace: {cfg[metadata][namespace]}
spec:
replicas: {cfg[replicas]}
strategy:
type: RollingUpdate
rollingUpdate:
maxSurge: 1
maxUnavailable: 1
selector:
matchLabels:
app: {cfg[name_version]}-{cfg[name]}
template:
metadata:
labels:
app: {cfg[name_version]}-{cfg[name]}
annotations:
fluentbit.io/parser: "json"
cluster-autoscaler.kubernetes.io/safe-to-evict: "true"
spec:
topologySpreadConstraints:
- maxSkew: 1
topologyKey: topology.kubernetes.io/zone
whenUnsatisfiable: DoNotSchedule
labelSelector:
matchLabels:
app: {cfg[name_version]}-{cfg[name]}
imagePullSecrets:
- name: regcred
containers:
- name: {cfg[name]}
image: {cfg[image]}
imagePullPolicy: Always
ports:
- containerPort: {cfg[port]}
name: http
env: []
envFrom:
- secretRef:
name: {cfg[name_version]}-{cfg[name]}-{cfg[hash]}
livenessProbe:
httpGet:
path: {cfg[liveness_path]}
port: http
timeoutSeconds: 2
failureThreshold: 2
initialDelaySeconds: 10
periodSeconds: 30
readinessProbe:
httpGet:
path: {cfg[readiness_path]}
port: http
initialDelaySeconds: 10
periodSeconds: 2
timeoutSeconds: 2
failureThreshold: 2
resources:
limits:
memory: "{cfg[mem_limit]}"
requests:
memory: "{cfg[mem_request]}"
securityContext:
readOnlyRootFilesystem: true
runAsNonRoot: true
runAsUser: 1000
capabilities:
drop:
- all
volumeMounts:
- mountPath: /tmp
name: tmpdir
volumes:
- name: tmpdir
emptyDir:
medium: Memory
"""
|
deployment = '\n---\napiVersion: apps/v1\nkind: Deployment\nmetadata:\n name: {cfg[name_version]}-{cfg[name]}\n namespace: {cfg[metadata][namespace]}\nspec:\n replicas: {cfg[replicas]}\n strategy:\n type: RollingUpdate\n rollingUpdate:\n maxSurge: 1\n maxUnavailable: 1\n selector:\n matchLabels:\n app: {cfg[name_version]}-{cfg[name]}\n template:\n metadata:\n labels:\n app: {cfg[name_version]}-{cfg[name]}\n annotations:\n fluentbit.io/parser: "json"\n cluster-autoscaler.kubernetes.io/safe-to-evict: "true"\n spec:\n topologySpreadConstraints:\n - maxSkew: 1\n topologyKey: topology.kubernetes.io/zone\n whenUnsatisfiable: DoNotSchedule\n labelSelector:\n matchLabels:\n app: {cfg[name_version]}-{cfg[name]}\n imagePullSecrets:\n - name: regcred\n containers:\n - name: {cfg[name]}\n image: {cfg[image]}\n imagePullPolicy: Always\n ports:\n - containerPort: {cfg[port]}\n name: http\n env: []\n envFrom:\n - secretRef:\n name: {cfg[name_version]}-{cfg[name]}-{cfg[hash]}\n livenessProbe:\n httpGet:\n path: {cfg[liveness_path]}\n port: http\n timeoutSeconds: 2\n failureThreshold: 2\n initialDelaySeconds: 10\n periodSeconds: 30\n readinessProbe:\n httpGet:\n path: {cfg[readiness_path]}\n port: http\n initialDelaySeconds: 10\n periodSeconds: 2\n timeoutSeconds: 2\n failureThreshold: 2\n resources:\n limits:\n memory: "{cfg[mem_limit]}"\n requests:\n memory: "{cfg[mem_request]}"\n securityContext:\n readOnlyRootFilesystem: true\n runAsNonRoot: true\n runAsUser: 1000\n capabilities:\n drop:\n - all\n volumeMounts:\n - mountPath: /tmp\n name: tmpdir\n volumes:\n - name: tmpdir\n emptyDir:\n medium: Memory\n'
|
# Peter Thornton, 04 Mar 18
# Exercise 5
# Please complete the following exercise this week.
# Write a Python script that reads the Iris data set in and prints the four numerical values on each row in a nice format.
# That is, on the screen should be printed the petal length, petal width, sepal length and sepal width, and these values should have the decimal places aligned, with a space between the columns.
with open("iris.data.csv") as t:
for line in t:
print(line.split(',')[0], line.split(',')[1], line.split(',')[2], line.split(',')[3])
|
with open('iris.data.csv') as t:
for line in t:
print(line.split(',')[0], line.split(',')[1], line.split(',')[2], line.split(',')[3])
|
EPSILON = "epsilon"
K = "k"
MAX_VALUE = "max_value"
MIN_VALUE = "min_value"
ATTRIBUTE = "attribute"
NAME = "name"
SENSITIVITY_TYPE = "sensitivity_type"
ATTRIBUTE_TYPE = "attribute_type"
# window size is used in the disclosure risk calculation
# it indicates the % of the num of records in the dataset
WINDOW_SIZE = 1
# border margin is used in differential privacy anonymization
# it indicates the margin to be applied to the attribute domain
BORDER_MARGIN = 1.5
|
epsilon = 'epsilon'
k = 'k'
max_value = 'max_value'
min_value = 'min_value'
attribute = 'attribute'
name = 'name'
sensitivity_type = 'sensitivity_type'
attribute_type = 'attribute_type'
window_size = 1
border_margin = 1.5
|
pdrop = 0.1
tau = 0.1
lengthscale = 0.01
N = 364
print(lengthscale ** 2 * (1 - pdrop) / (2. * N * tau))
|
pdrop = 0.1
tau = 0.1
lengthscale = 0.01
n = 364
print(lengthscale ** 2 * (1 - pdrop) / (2.0 * N * tau))
|
class Delegator():
""" Class implementing Delegator pattern in childrens, who enable to
automaticaly use functions and methods from _delegate_subsystems, so
reduces boilerplate code
!!! be aware that Delegator can't delegate methods from childrens
which implements Delegator
"""
def __init__(self):
# prepare list of instances to delegate work to them
if not self._delegate_subsystems:
self._delegate_subsystems: list[object] = []
# prepare dict with subsystems and their methods
self._subsystems_dicts = [
{
"subsystem": s,
"methods": [
f for f in dir(s) if not f.startswith('_')
]
}
for s in self._delegate_subsystems
]
def __getattr__(self, func):
""" Enable to delegate all methods from subsystems to self """
def method(*args):
# get list of subsystems with specified method
results = list(filter(
lambda subsystem_data: func in subsystem_data["methods"],
self._subsystems_dicts))
# if some results, return that function to execute
if len(results) > 0:
return getattr(results[0]["subsystem"], func)(*args)
else:
# raise error if not found
raise AttributeError
return method
|
class Delegator:
""" Class implementing Delegator pattern in childrens, who enable to
automaticaly use functions and methods from _delegate_subsystems, so
reduces boilerplate code
!!! be aware that Delegator can't delegate methods from childrens
which implements Delegator
"""
def __init__(self):
if not self._delegate_subsystems:
self._delegate_subsystems: list[object] = []
self._subsystems_dicts = [{'subsystem': s, 'methods': [f for f in dir(s) if not f.startswith('_')]} for s in self._delegate_subsystems]
def __getattr__(self, func):
""" Enable to delegate all methods from subsystems to self """
def method(*args):
results = list(filter(lambda subsystem_data: func in subsystem_data['methods'], self._subsystems_dicts))
if len(results) > 0:
return getattr(results[0]['subsystem'], func)(*args)
else:
raise AttributeError
return method
|
a = 1
b = 1
a = 1
b = 1
|
a = 1
b = 1
a = 1
b = 1
|
"""
Crafting.py
Inspired by: Craft3.pdf by John Arras
http://web.archive.org/web/20080211222642/http://www.cs.umd.edu/~jra/craft3.pdf
Intention: Implement a crafting system which can act as a suitable base for a procedurally-generated
society.
"""
# Crafting is the act of producing an object from resources by use of a recipe
# A Crafting Recipe must define Location, Participants, Resources, Tools, Time, and Results
# Example Craft structure from article
# Craft
# {
# int time;
# string resource_names;
# Craft_need *resource_list; // List of resources and quantities
# int num_resources;
# string skill_name;
# int skill_level;
# int percent_failure;
# string item_created_amount; // Allow for random number of items made.
# string item_created_name;
# int item_created_id;
# };
# Craft_need
# {
# int type;
# int in_object;
# int amount_needed;
# int *acceptable_objects;
# int num_acceptable_objects;
# int damage_amount;
# }
#
# Sample Recipe: Wood (1 to 10 logs)
# Tree Here
# Axe Wield
# Wood_Log Produce [1,10]
# TODO: Define Crafting Primitives
class Craft:
def __init__(self):
self.time = 1
self.needs = {}
self.failure_percent = 10
self.create_amount = 10
self.create_id = 0
raise NotImplementedError
class CraftNeeded:
def __init__(self):
self.type = 0
self.in_object = 0
self.amount = 0
raise NotImplementedError
|
"""
Crafting.py
Inspired by: Craft3.pdf by John Arras
http://web.archive.org/web/20080211222642/http://www.cs.umd.edu/~jra/craft3.pdf
Intention: Implement a crafting system which can act as a suitable base for a procedurally-generated
society.
"""
class Craft:
def __init__(self):
self.time = 1
self.needs = {}
self.failure_percent = 10
self.create_amount = 10
self.create_id = 0
raise NotImplementedError
class Craftneeded:
def __init__(self):
self.type = 0
self.in_object = 0
self.amount = 0
raise NotImplementedError
|
class FrankiException(Exception):
pass
class FrankiInvalidFormatException(Exception):
pass
class FrankiFileNotFound(Exception):
pass
class FrankiInvalidFileFormat(Exception):
pass
__all__ = ("FrankiInvalidFormatException", "FrankiFileNotFound",
"FrankiInvalidFileFormat", "FrankiException")
|
class Frankiexception(Exception):
pass
class Frankiinvalidformatexception(Exception):
pass
class Frankifilenotfound(Exception):
pass
class Frankiinvalidfileformat(Exception):
pass
__all__ = ('FrankiInvalidFormatException', 'FrankiFileNotFound', 'FrankiInvalidFileFormat', 'FrankiException')
|
T = int(input())
for i in range(T):
m, n, a, b = map(int, input().split())
count = 0
for num in range(m, n + 1):
if num % a == 0 or num % b == 0:
count += 1
print(count)
|
t = int(input())
for i in range(T):
(m, n, a, b) = map(int, input().split())
count = 0
for num in range(m, n + 1):
if num % a == 0 or num % b == 0:
count += 1
print(count)
|
"""
Author: Darian T. Yang
Date of Creation: September 13th, 2021
Description:
"""
# Welcome to the WE-dap module!
|
"""
Author: Darian T. Yang
Date of Creation: September 13th, 2021
Description:
"""
|
# This problem was asked by Airbnb.
#
# Given a list of integers, write a function that returns the largest sum of non-adjacent numbers.
# Numbers can be 0 or negative.
# For example, [2, 4, 6, 2, 5] should return 13, since we pick 2, 6, and 5. [5, 1, 1, 5] should return 10,
# since we pick 5 and 5.
# Follow-up: Can you do this in O(N) time and constant space?
# Input examples
input_1 = [2, 4, 6, 2, 5] # return 13
input_2 = [5, 1, 1, 5] # return 10
input_3 = [2, 14, 6, 2, 15] # return 29
input_4 = [2, 5, 11, 8, 3] # return 16
input_5 = [90, 15, 10, 30, 100] # return 200
input_6 = [29, 51, 8, 10, 43, 28] # return 94
def largest_sum_adj(arr):
result = 0
size = len(arr)
# validate the input list. It must be a length greater than 2
if size > 2:
arr[2] += arr[0]
result = arr[2]
for i in range(3, size):
tmp = arr[i-3]
if arr[i-2] > arr[i-3]:
tmp = arr[i-2]
tmp_addition = tmp + arr[i]
arr[i] = tmp_addition
if tmp_addition > result:
result = tmp_addition
else:
print("The length of input list must be greater than 2")
return result
|
input_1 = [2, 4, 6, 2, 5]
input_2 = [5, 1, 1, 5]
input_3 = [2, 14, 6, 2, 15]
input_4 = [2, 5, 11, 8, 3]
input_5 = [90, 15, 10, 30, 100]
input_6 = [29, 51, 8, 10, 43, 28]
def largest_sum_adj(arr):
result = 0
size = len(arr)
if size > 2:
arr[2] += arr[0]
result = arr[2]
for i in range(3, size):
tmp = arr[i - 3]
if arr[i - 2] > arr[i - 3]:
tmp = arr[i - 2]
tmp_addition = tmp + arr[i]
arr[i] = tmp_addition
if tmp_addition > result:
result = tmp_addition
else:
print('The length of input list must be greater than 2')
return result
|
def status(bot, update, webcontrol):
chat_id = update.message.chat_id
code, text = webcontrol.execute('detection', 'status')
if code == 200:
bot.sendMessage(chat_id=chat_id, text=text)
else:
bot.sendMessage(chat_id=chat_id, text="Try it later")
|
def status(bot, update, webcontrol):
chat_id = update.message.chat_id
(code, text) = webcontrol.execute('detection', 'status')
if code == 200:
bot.sendMessage(chat_id=chat_id, text=text)
else:
bot.sendMessage(chat_id=chat_id, text='Try it later')
|
eg = [
'forward 5',
'down 5',
'forward 8',
'up 3',
'down 8',
'forward 2',
]
def load(file):
with open(file) as f:
data = f.readlines()
return data
def steps(lines, pos_char, neg_char):
directions = [ln.split(' ') for ln in lines if ln[0] in [pos_char, neg_char]]
steps = [int(ln[1]) * (1 if ln[0][0] == pos_char else -1) for ln in directions]
return steps
def split(data):
horiz = steps(data, 'f', 'b')
vert = steps(data, 'd', 'u')
return horiz, vert
hh, vv = split(eg)
assert (sum(hh) * sum(vv)) == 150
dd = load('data.txt')
hh, vv = split(dd)
ans = sum(hh) * sum(vv)
print(f"Answer: {ans}")
|
eg = ['forward 5', 'down 5', 'forward 8', 'up 3', 'down 8', 'forward 2']
def load(file):
with open(file) as f:
data = f.readlines()
return data
def steps(lines, pos_char, neg_char):
directions = [ln.split(' ') for ln in lines if ln[0] in [pos_char, neg_char]]
steps = [int(ln[1]) * (1 if ln[0][0] == pos_char else -1) for ln in directions]
return steps
def split(data):
horiz = steps(data, 'f', 'b')
vert = steps(data, 'd', 'u')
return (horiz, vert)
(hh, vv) = split(eg)
assert sum(hh) * sum(vv) == 150
dd = load('data.txt')
(hh, vv) = split(dd)
ans = sum(hh) * sum(vv)
print(f'Answer: {ans}')
|
def test():
print("test successful...")
def update():
print("Updating DSA")
if __name__=='__main__':
pass
|
def test():
print('test successful...')
def update():
print('Updating DSA')
if __name__ == '__main__':
pass
|
"""Sort an array by anagram."""
def sort_by_anagram(array):
n = len(array)
if n <= 2:
return array
i = 0
while i < n-2:
for j in range(i+1, n):
if is_anagram(array[i], array[j]):
i += 1
array[i], array[j] = array[j], array[i]
i += 1
return array
def is_anagram(s, t):
if len(s) != len(t):
return False
s_array = list(s.lower())
t_array = list(t.lower())
s_array.sort()
t_array.sort()
return s_array == t_array
|
"""Sort an array by anagram."""
def sort_by_anagram(array):
n = len(array)
if n <= 2:
return array
i = 0
while i < n - 2:
for j in range(i + 1, n):
if is_anagram(array[i], array[j]):
i += 1
(array[i], array[j]) = (array[j], array[i])
i += 1
return array
def is_anagram(s, t):
if len(s) != len(t):
return False
s_array = list(s.lower())
t_array = list(t.lower())
s_array.sort()
t_array.sort()
return s_array == t_array
|
class Component:
def __init__(self, fail_ratio, repair_ratio, state):
self.fail_ratio = fail_ratio
self.repair_ratio = repair_ratio
self.state = state
|
class Component:
def __init__(self, fail_ratio, repair_ratio, state):
self.fail_ratio = fail_ratio
self.repair_ratio = repair_ratio
self.state = state
|
def parse():
with open("input16") as f:
n = [int(x) for x in f.read()]
return n
n = parse()
for _ in range(100):
result = []
for i in range(1, len(n) + 1):
digit = 0
start = i - 1
add = 1
while start < len(n):
end = min(start + i, len(n))
digit += add * sum(n[start:end])
add *= -1
start += 2*i
result.append(abs(digit) % 10)
n = result
print("".join([str(x) for x in n[:8]]))
# part 2
n = parse()
k = int("".join([str(x) for x in n[:7]]))
total_len = 10000 * len(n)
relevant_len = total_len - k
offset = k % len(n)
l = n[offset:] + (relevant_len // len(n)) * n
for nr in range(100):
print(nr)
result = []
cache = {}
for i in range(0, len(l)):
digit = 0
start = i
add = 1
while start < len(l):
end = min(start + i + k, len(l))
if (start - 1, end) in cache:
q = (cache[(start - 1,end)] - l[start - 1])
else:
q = sum(l[start:end])
digit += add * q
cache[(start, end)] = q
add *= -1
start += 2 * (i + k)
result.append(abs(digit) % 10)
l = result
print("".join([str(x) for x in l[:8]]))
|
def parse():
with open('input16') as f:
n = [int(x) for x in f.read()]
return n
n = parse()
for _ in range(100):
result = []
for i in range(1, len(n) + 1):
digit = 0
start = i - 1
add = 1
while start < len(n):
end = min(start + i, len(n))
digit += add * sum(n[start:end])
add *= -1
start += 2 * i
result.append(abs(digit) % 10)
n = result
print(''.join([str(x) for x in n[:8]]))
n = parse()
k = int(''.join([str(x) for x in n[:7]]))
total_len = 10000 * len(n)
relevant_len = total_len - k
offset = k % len(n)
l = n[offset:] + relevant_len // len(n) * n
for nr in range(100):
print(nr)
result = []
cache = {}
for i in range(0, len(l)):
digit = 0
start = i
add = 1
while start < len(l):
end = min(start + i + k, len(l))
if (start - 1, end) in cache:
q = cache[start - 1, end] - l[start - 1]
else:
q = sum(l[start:end])
digit += add * q
cache[start, end] = q
add *= -1
start += 2 * (i + k)
result.append(abs(digit) % 10)
l = result
print(''.join([str(x) for x in l[:8]]))
|
def exec_procedure(session, proc_name, params):
sql_params = ",".join(["@{0}={1}".format(name, value) for name, value in params.items()])
sql_string = """
DECLARE @return_value int;
EXEC @return_value = [dbo].[{proc_name}] {params};
SELECT 'Return Value' = @return_value;
""".format(proc_name=proc_name, params=sql_params)
return session.execute(sql_string).fetchall()
|
def exec_procedure(session, proc_name, params):
sql_params = ','.join(['@{0}={1}'.format(name, value) for (name, value) in params.items()])
sql_string = "\n DECLARE @return_value int;\n EXEC @return_value = [dbo].[{proc_name}] {params};\n SELECT 'Return Value' = @return_value;\n ".format(proc_name=proc_name, params=sql_params)
return session.execute(sql_string).fetchall()
|
"""
Computer vision Utils
=====================
Standard utils module storing common to the package classes, functions, constants, and other objects.
"""
|
"""
Computer vision Utils
=====================
Standard utils module storing common to the package classes, functions, constants, and other objects.
"""
|
expected_output = {
'slot':{
2:{
'port_group':{
1:{
'port':{
'Hu2/0/25':{
'mode':'inactive'
},
'Hu2/0/26':{
'mode':'inactive'
},
'Fou2/0/27':{
'mode':'400G'
},
'Hu2/0/28':{
'mode':'inactive'
}
}
},
2:{
'port':{
'Hu2/0/29':{
'mode':'inactive'
},
'Hu2/0/30':{
'mode':'inactive'
},
'Fou2/0/31':{
'mode':'400G'
},
'Hu2/0/32':{
'mode':'inactive'
}
}
}
}
}
}
}
|
expected_output = {'slot': {2: {'port_group': {1: {'port': {'Hu2/0/25': {'mode': 'inactive'}, 'Hu2/0/26': {'mode': 'inactive'}, 'Fou2/0/27': {'mode': '400G'}, 'Hu2/0/28': {'mode': 'inactive'}}}, 2: {'port': {'Hu2/0/29': {'mode': 'inactive'}, 'Hu2/0/30': {'mode': 'inactive'}, 'Fou2/0/31': {'mode': '400G'}, 'Hu2/0/32': {'mode': 'inactive'}}}}}}}
|
"""
Write a function that takes an integer as input, and returns the number of bits that are equal to one in the binary representation of that number.
You can guarantee that input is non-negative.
Example: The binary representation of 1234 is 10011010010, so the function should return 5 in this case.
"""
def count_bits(n):
binaryversion = str(bin(n))
return str(binaryversion[2:]).count("1")
|
"""
Write a function that takes an integer as input, and returns the number of bits that are equal to one in the binary representation of that number.
You can guarantee that input is non-negative.
Example: The binary representation of 1234 is 10011010010, so the function should return 5 in this case.
"""
def count_bits(n):
binaryversion = str(bin(n))
return str(binaryversion[2:]).count('1')
|
#!/usr/bin/env python
# coding: utf-8
# # *section 2: Basic Data Type*
#
# ### writer : Faranak Alikhah 1954128
# ### 4. Lists :
#
# In[ ]:
if __name__ == '__main__':
N = int(input())
my_list=[]
for i in range(N):
A=input().split();
if A[0]=="sort":
my_list.sort();
elif A[0]=="insert":
my_list.insert(int(A[1]),int(A[2]))
elif A[0]=="remove":
my_list.remove(int(A[1]))
elif A[0]=="append":
my_list.append(int(A[1]))
elif A[0]=="pop":
my_list.pop()
elif A[0]=="reverse":
my_list.reverse()
elif A[0]=="print":
print(my_list)
#
|
if __name__ == '__main__':
n = int(input())
my_list = []
for i in range(N):
a = input().split()
if A[0] == 'sort':
my_list.sort()
elif A[0] == 'insert':
my_list.insert(int(A[1]), int(A[2]))
elif A[0] == 'remove':
my_list.remove(int(A[1]))
elif A[0] == 'append':
my_list.append(int(A[1]))
elif A[0] == 'pop':
my_list.pop()
elif A[0] == 'reverse':
my_list.reverse()
elif A[0] == 'print':
print(my_list)
|
class Solution:
def hasZeroSumSubarray(self, nums: List[int]) -> bool:
vis = set()
x = 0
for n in nums :
x+=n
if x==0 or x in vis :
return 1
vis.add(x)
return 0
|
class Solution:
def has_zero_sum_subarray(self, nums: List[int]) -> bool:
vis = set()
x = 0
for n in nums:
x += n
if x == 0 or x in vis:
return 1
vis.add(x)
return 0
|
# -*- coding: utf-8 -*-
# File defines a single function, a set cookie that takes a configuration
# Use only if the app cannot be imported, otherwise use .cookies
def set_cookie(config, response, key, val):
response.set_cookie(key, val,
secure = config['COOKIES_SECURE'],
httponly = config['COOKIES_HTTPONLY'],
samesite = config['COOKIES_SAMESITE'])
|
def set_cookie(config, response, key, val):
response.set_cookie(key, val, secure=config['COOKIES_SECURE'], httponly=config['COOKIES_HTTPONLY'], samesite=config['COOKIES_SAMESITE'])
|
class Solution:
def minSwaps(self, data: List[int]) -> int:
k = data.count(1)
ones = 0 # ones in window
maxOnes = 0 # max ones in window
for i, num in enumerate(data):
if i >= k and data[i - k]:
ones -= 1
if num:
ones += 1
maxOnes = max(maxOnes, ones)
return k - maxOnes
|
class Solution:
def min_swaps(self, data: List[int]) -> int:
k = data.count(1)
ones = 0
max_ones = 0
for (i, num) in enumerate(data):
if i >= k and data[i - k]:
ones -= 1
if num:
ones += 1
max_ones = max(maxOnes, ones)
return k - maxOnes
|
class DNSimpleException(Exception):
def __init__(self, message=None, errors=None):
self.message = message
self.errors = errors
|
class Dnsimpleexception(Exception):
def __init__(self, message=None, errors=None):
self.message = message
self.errors = errors
|
polygon = [
[2000, 1333],
[2000, 300],
[500, 900],
[0, 1333],
[2000, 1333]
]
'''
polygon = [
[0, 0],
[0, 600],
[900, 600],
[1800, 0],
[0, 0]
]
'''
|
polygon = [[2000, 1333], [2000, 300], [500, 900], [0, 1333], [2000, 1333]]
'\npolygon = [\n\t[0, 0],\n\t[0, 600],\n\t[900, 600],\n\t[1800, 0],\n\t[0, 0]\n]\n'
|
class A:
def __init__(self):
self._x = 5
class B(A):
def display(self):
print(self._x)
def main():
obj = B()
obj.display()
main()
|
class A:
def __init__(self):
self._x = 5
class B(A):
def display(self):
print(self._x)
def main():
obj = b()
obj.display()
main()
|
"""
Ideas:
1. The widest container (using first and last line) is a good candidate, because of its width. Its water level is the height of the smaller one of first and last line.
2. All other containers are less wide and thus would need a higher water level in order to hold more water.
3. The smaller one of first and last line doesn't support a higher water level and can thus be safely removed from further consideration.
"""
class Solution(object):
def maxArea(self, height):
"""
:type height: List[int]
:rtype: int
"""
i, j = 0, len(height)-1
water = 0
while i < j:
water = max(water, (j-i)*min(height[i],height[j]))
if height[i] < height[j]:
i += 1
else:
j -= 1
return water
|
"""
Ideas:
1. The widest container (using first and last line) is a good candidate, because of its width. Its water level is the height of the smaller one of first and last line.
2. All other containers are less wide and thus would need a higher water level in order to hold more water.
3. The smaller one of first and last line doesn't support a higher water level and can thus be safely removed from further consideration.
"""
class Solution(object):
def max_area(self, height):
"""
:type height: List[int]
:rtype: int
"""
(i, j) = (0, len(height) - 1)
water = 0
while i < j:
water = max(water, (j - i) * min(height[i], height[j]))
if height[i] < height[j]:
i += 1
else:
j -= 1
return water
|
arr = []
for x in range(100):
arr.append([])
arr[x] = [0 for i in range(100)]
n = int(input())
ans=0
for x in range(n):
a, b, c, d = map(int, input().split())
ans=ans+(c-a+1)*(d-b+1)
print(ans)
|
arr = []
for x in range(100):
arr.append([])
arr[x] = [0 for i in range(100)]
n = int(input())
ans = 0
for x in range(n):
(a, b, c, d) = map(int, input().split())
ans = ans + (c - a + 1) * (d - b + 1)
print(ans)
|
alp = "abcdefghijklmnopqrstuvwxyz"
res = ""
while True:
s = __import__('sys').stdin.readline().strip()
if s == "#":
break
x, y, z = s.split()
t = ""
for i in range(len(x)):
dif = (ord(y[i]) - ord(x[i]) + 26) % 26
t += alp[(ord(z[i]) - ord('a') + dif) % 26]
res += s + " " + t + "\n"
print(res, end="")
|
alp = 'abcdefghijklmnopqrstuvwxyz'
res = ''
while True:
s = __import__('sys').stdin.readline().strip()
if s == '#':
break
(x, y, z) = s.split()
t = ''
for i in range(len(x)):
dif = (ord(y[i]) - ord(x[i]) + 26) % 26
t += alp[(ord(z[i]) - ord('a') + dif) % 26]
res += s + ' ' + t + '\n'
print(res, end='')
|
class Day10:
ILLEGAL_CHAR_TO_POINTS = {
")": 3,
"]": 57,
"}": 1197,
">": 25137,
}
def __init__(self, input="src/input/day10.txt"):
self.INPUT = input
def read_input(self):
input = []
with open(self.INPUT, "r") as fp:
lines = fp.readlines()
input = [line.strip() for line in lines]
return input
def part1(self):
input = self.read_input()
# remove all legal chunks
legal_chunks = ["()", "{}", "<>", "[]"]
cleaned_input = []
for line in input:
prev_length = float("inf")
while prev_length > len(line):
prev_length = len(line)
for chunk in legal_chunks:
line = line.replace(chunk, "")
cleaned_input.append(line)
# check if incomplete or illegal
illegal_characters = []
for line in cleaned_input:
for char in line:
if char not in ["(", "{", "<", "["]:
illegal_characters.append(char)
break
return sum([self.ILLEGAL_CHAR_TO_POINTS[char] for char in illegal_characters])
def part2(self):
input = self.read_input()
# remove all legal chunks
legal_chunks = ["()", "{}", "<>", "[]"]
cleaned_input = []
for line in input:
prev_length = float("inf")
while prev_length > len(line):
prev_length = len(line)
for chunk in legal_chunks:
line = line.replace(chunk, "")
cleaned_input.append(line)
# discard corrupted lines
incomplete_input = []
for line in cleaned_input:
closings = [")", "}", ">", "]"]
check = False
for closing in closings:
if closing in line:
check = True
if not check:
incomplete_input.append(line)
# reverse the order
missing_input = [line[::-1] for line in incomplete_input]
# reverse doesn't change opening to closing brackets,
# which is why we use opening brackets to calculate the final score
char_to_points = {
"(": 1,
"[": 2,
"{": 3,
"<": 4,
}
# calculate result
scores = []
for line in missing_input:
score = 0
for char in line:
score *= 5
score += char_to_points[char]
scores.append(score)
# sort scores and return middle
return sorted(scores)[len(scores) // 2]
def execute(self):
print(f"Solution for part 1: {self.part1()}")
print(f"Solution for part 2: {self.part2()}")
if __name__ == "__main__":
Day10().execute()
|
class Day10:
illegal_char_to_points = {')': 3, ']': 57, '}': 1197, '>': 25137}
def __init__(self, input='src/input/day10.txt'):
self.INPUT = input
def read_input(self):
input = []
with open(self.INPUT, 'r') as fp:
lines = fp.readlines()
input = [line.strip() for line in lines]
return input
def part1(self):
input = self.read_input()
legal_chunks = ['()', '{}', '<>', '[]']
cleaned_input = []
for line in input:
prev_length = float('inf')
while prev_length > len(line):
prev_length = len(line)
for chunk in legal_chunks:
line = line.replace(chunk, '')
cleaned_input.append(line)
illegal_characters = []
for line in cleaned_input:
for char in line:
if char not in ['(', '{', '<', '[']:
illegal_characters.append(char)
break
return sum([self.ILLEGAL_CHAR_TO_POINTS[char] for char in illegal_characters])
def part2(self):
input = self.read_input()
legal_chunks = ['()', '{}', '<>', '[]']
cleaned_input = []
for line in input:
prev_length = float('inf')
while prev_length > len(line):
prev_length = len(line)
for chunk in legal_chunks:
line = line.replace(chunk, '')
cleaned_input.append(line)
incomplete_input = []
for line in cleaned_input:
closings = [')', '}', '>', ']']
check = False
for closing in closings:
if closing in line:
check = True
if not check:
incomplete_input.append(line)
missing_input = [line[::-1] for line in incomplete_input]
char_to_points = {'(': 1, '[': 2, '{': 3, '<': 4}
scores = []
for line in missing_input:
score = 0
for char in line:
score *= 5
score += char_to_points[char]
scores.append(score)
return sorted(scores)[len(scores) // 2]
def execute(self):
print(f'Solution for part 1: {self.part1()}')
print(f'Solution for part 2: {self.part2()}')
if __name__ == '__main__':
day10().execute()
|
def ways(n, m):
grid = [[None]*m]*n
for i in range(m):
grid[n-1][i] = 1
for i in range(n):
grid[i][m-1] = 1
for i in range(n-2,-1,-1):
for j in range(m-2,-1,-1):
grid[i][j] = grid[i][j+1] + grid[i+1][j]
return grid[0][0]
if __name__ == "__main__":
t = int(input("Number of times you want to run this Program: "))
for i in range(t):
n, m = map(int, input(f"\n{i+1}. Grid Size (n*m): ").split())
result = ways(n, m)
print(f"There are {result} ways.\n")
|
def ways(n, m):
grid = [[None] * m] * n
for i in range(m):
grid[n - 1][i] = 1
for i in range(n):
grid[i][m - 1] = 1
for i in range(n - 2, -1, -1):
for j in range(m - 2, -1, -1):
grid[i][j] = grid[i][j + 1] + grid[i + 1][j]
return grid[0][0]
if __name__ == '__main__':
t = int(input('Number of times you want to run this Program: '))
for i in range(t):
(n, m) = map(int, input(f'\n{i + 1}. Grid Size (n*m): ').split())
result = ways(n, m)
print(f'There are {result} ways.\n')
|
message = input().split()
def asci_change(message):
numbers = [num for num in i if num.isdigit()]
numbers_in_chr = chr(int(''.join(numbers)))
letters = [letter for letter in i if not letter.isdigit()]
letters_split = ''.join(letters)
final_word = numbers_in_chr + str(letters_split)
return final_word
def index_change(message):
letters = [letter for letter in j]
letters[1], letters[-1] = letters[-1], letters[1]
letters_split = ''.join(letters)
return letters_split
index_i = 0
for i in message:
message[index_i] = asci_change(message)
index_i += 1
index_j = 0
for j in message:
message[index_j] = index_change(message)
index_j += 1
print(' '.join(message))
|
message = input().split()
def asci_change(message):
numbers = [num for num in i if num.isdigit()]
numbers_in_chr = chr(int(''.join(numbers)))
letters = [letter for letter in i if not letter.isdigit()]
letters_split = ''.join(letters)
final_word = numbers_in_chr + str(letters_split)
return final_word
def index_change(message):
letters = [letter for letter in j]
(letters[1], letters[-1]) = (letters[-1], letters[1])
letters_split = ''.join(letters)
return letters_split
index_i = 0
for i in message:
message[index_i] = asci_change(message)
index_i += 1
index_j = 0
for j in message:
message[index_j] = index_change(message)
index_j += 1
print(' '.join(message))
|
star_wars = [125, 1977]
raiders = [115, 1981]
mean_girls = [97, 2004]
def distance(movie1, movie2):
length_difference = (movie1[0] - movie2[0]) ** 2
year_difference = (movie1[1] - movie2[1]) ** 2
distance = (length_difference + year_difference) ** 0.5
return distance
print(distance(star_wars, raiders))
print(distance(star_wars, mean_girls))
|
star_wars = [125, 1977]
raiders = [115, 1981]
mean_girls = [97, 2004]
def distance(movie1, movie2):
length_difference = (movie1[0] - movie2[0]) ** 2
year_difference = (movie1[1] - movie2[1]) ** 2
distance = (length_difference + year_difference) ** 0.5
return distance
print(distance(star_wars, raiders))
print(distance(star_wars, mean_girls))
|
def get_distribution_steps(distribution):
i = 0
distributed_loaves = 0
while i < len(distribution):
if distribution[i] % 2 == 0:
i += 1
continue
next_item_index = i + 1
if next_item_index == len(distribution):
return -1
distribution[next_item_index] += 1
distributed_loaves += 2
i += 1
return distributed_loaves
N = int(input().strip())
current_distribution = [
int(B_temp)
for B_temp
in input().strip().split(' ')
]
steps = get_distribution_steps(current_distribution)
print(steps if steps != -1 else 'NO')
|
def get_distribution_steps(distribution):
i = 0
distributed_loaves = 0
while i < len(distribution):
if distribution[i] % 2 == 0:
i += 1
continue
next_item_index = i + 1
if next_item_index == len(distribution):
return -1
distribution[next_item_index] += 1
distributed_loaves += 2
i += 1
return distributed_loaves
n = int(input().strip())
current_distribution = [int(B_temp) for b_temp in input().strip().split(' ')]
steps = get_distribution_steps(current_distribution)
print(steps if steps != -1 else 'NO')
|
class File:
def __init__(
self,
name: str,
display_str: str,
short_status: str,
has_staged_change: bool,
has_unstaged_change: bool,
tracked: bool,
deleted: bool,
added: bool,
has_merged_conflicts: bool,
has_inline_merged_conflicts: bool,
) -> None:
self.name = name
self.display_str = display_str
self.short_status = short_status
self.has_staged_change = has_staged_change
self.has_unstaged_change = has_unstaged_change
self.tracked = tracked
self.deleted = deleted
self.added = added
self.has_merged_conflicts = has_merged_conflicts
self.has_inline_merged_conflicts = has_inline_merged_conflicts
|
class File:
def __init__(self, name: str, display_str: str, short_status: str, has_staged_change: bool, has_unstaged_change: bool, tracked: bool, deleted: bool, added: bool, has_merged_conflicts: bool, has_inline_merged_conflicts: bool) -> None:
self.name = name
self.display_str = display_str
self.short_status = short_status
self.has_staged_change = has_staged_change
self.has_unstaged_change = has_unstaged_change
self.tracked = tracked
self.deleted = deleted
self.added = added
self.has_merged_conflicts = has_merged_conflicts
self.has_inline_merged_conflicts = has_inline_merged_conflicts
|
with open('input') as f:
instructions = []
for line in f:
op, arg = line.split()
instructions.append((op, int(arg)))
# Part 1
executed = [False] * len(instructions)
accumulator = 0
i = 0
while i < len(instructions):
if executed[i]: break
executed[i] = True
op, n = instructions[i]
if op == 'acc':
accumulator += n
i += 1
elif op == 'jmp':
i += n
elif op == 'nop':
i += 1
else:
print('invalid operator')
exit(1)
print(accumulator)
# Part 2
mod = ['jmp', 'nop']
def fix(j):
executed = [False] * len(instructions)
accumulator = 0
i = 0
while i < len(instructions):
if executed[i]:
return False
executed[i] = True
op, n = instructions[i]
if i == j:
op = mod[mod.index(op) ^ 1] # Swap
if op == 'acc':
accumulator += n
i += 1
elif op == 'jmp':
i += n
elif op == 'nop':
i += 1
else:
print('invalid operator')
exit(1)
return accumulator
for i, (op, _) in enumerate(instructions):
if op in mod:
res = fix(i)
if res != False:
print(res)
break
|
with open('input') as f:
instructions = []
for line in f:
(op, arg) = line.split()
instructions.append((op, int(arg)))
executed = [False] * len(instructions)
accumulator = 0
i = 0
while i < len(instructions):
if executed[i]:
break
executed[i] = True
(op, n) = instructions[i]
if op == 'acc':
accumulator += n
i += 1
elif op == 'jmp':
i += n
elif op == 'nop':
i += 1
else:
print('invalid operator')
exit(1)
print(accumulator)
mod = ['jmp', 'nop']
def fix(j):
executed = [False] * len(instructions)
accumulator = 0
i = 0
while i < len(instructions):
if executed[i]:
return False
executed[i] = True
(op, n) = instructions[i]
if i == j:
op = mod[mod.index(op) ^ 1]
if op == 'acc':
accumulator += n
i += 1
elif op == 'jmp':
i += n
elif op == 'nop':
i += 1
else:
print('invalid operator')
exit(1)
return accumulator
for (i, (op, _)) in enumerate(instructions):
if op in mod:
res = fix(i)
if res != False:
print(res)
break
|
# encoding: utf-8
SECRET_KEY = 'a unique and long key'
TITLE = 'Riki'
HISTORY_SHOW_MAX = 30
PIC_BASE = '/static/content/'
CONTENT_DIR = '///D:\\School\\Riki\\content'
USER_DIR = '///D:\\School\\Riki\\user'
NUMBER_OF_HISTORY = 5
PRIVATE = False
|
secret_key = 'a unique and long key'
title = 'Riki'
history_show_max = 30
pic_base = '/static/content/'
content_dir = '///D:\\School\\Riki\\content'
user_dir = '///D:\\School\\Riki\\user'
number_of_history = 5
private = False
|
###############################################################
# LeetCode Problem Number : 622
# Difficulty Level : Medium
# URL : https://leetcode.com/problems/design-circular-queue/
###############################################################
class CircularQueue:
def __init__(self, size):
"""initialize your data structure here"""
self.max_size = size
""" set head and tail pointer to -1 """
self.head = -1
self.tail = -1
""" initialize internal array """
self.data = [[] for _ in range(size)]
def isEmpty(self) -> bool:
"""checks whether the circular queue is empty or not"""
return self.computeSize() == 0
def isFull(self) -> bool:
"""checks whether the circular queue is full or not"""
return self.computeSize() == self.max_size
def enqueue(self, val: int) -> bool:
"""insert an element into the circular queue
return true if the operation is successful
"""
if self.isFull():
return False
""" move tail pointer to the next valid index
example : max_size : 5, tail : 2, next tail : 3
max_size : 5, tail : 4, next tail : 0
"""
self.tail = (self.tail + 1) % self.max_size
self.data[self.tail] = val
""" for the first enqueue operation, set head to point to tail """
if self.head == -1:
self.head = self.tail
return True
def dequeue(self) -> bool:
"""delete an element from the circular queue
return true if the operation is successful
"""
if self.isEmpty():
return False
self.data[self.head] = None
""" if empty queue, set head to -1
else move head to the next valid insert position
"""
self.head = -1 if self.computeSize() == 1 else (self.head + 1) % self.max_size
""" reset tail pointer for an empty queue """
if self.head == -1:
self.tail = -1
return True
def front(self) -> int:
"""get the front item from the queue"""
if self.isEmpty():
return -1
""" return value pointed by head pointer """
return self.data[self.head]
def rear(self) -> int:
"""get the last item from the queue"""
if self.isEmpty():
return -1
""" return value pointed by tail pointer """
return self.data[self.tail]
def computeSize(self) -> int:
""" queue is empty if head pointer is set to -1 """
if self.head == -1:
return 0
""" if both head and tail pointers are set to the same index,
then queue has only 1 item
"""
if self.tail == self.head:
return 1
""" if tail points to an index after head, then current size : (tail - head) + 1
if tail points to an index before head, then current size : (tail - head) + 1 + max-size
"""
diff = self.tail - self.head
return diff + 1 if diff > 0 else diff + 1 + self.max_size
def executeCommands(self, command: str, operands: list):
"""Automate execution of large number of operations to test implementation.
Not part of main queue implementation.
"""
if command == "enQueue":
return self.enqueue(operands[0])
elif command == "deQueue":
return self.dequeue()
elif command == "Rear":
return self.rear()
elif command == "Front":
return self.front()
elif command == "isFull":
return self.isFull()
elif command == "isEmpty":
return self.isEmpty()
return
|
class Circularqueue:
def __init__(self, size):
"""initialize your data structure here"""
self.max_size = size
' set head and tail pointer to -1 '
self.head = -1
self.tail = -1
' initialize internal array '
self.data = [[] for _ in range(size)]
def is_empty(self) -> bool:
"""checks whether the circular queue is empty or not"""
return self.computeSize() == 0
def is_full(self) -> bool:
"""checks whether the circular queue is full or not"""
return self.computeSize() == self.max_size
def enqueue(self, val: int) -> bool:
"""insert an element into the circular queue
return true if the operation is successful
"""
if self.isFull():
return False
' move tail pointer to the next valid index\n example : max_size : 5, tail : 2, next tail : 3\n max_size : 5, tail : 4, next tail : 0\n '
self.tail = (self.tail + 1) % self.max_size
self.data[self.tail] = val
' for the first enqueue operation, set head to point to tail '
if self.head == -1:
self.head = self.tail
return True
def dequeue(self) -> bool:
"""delete an element from the circular queue
return true if the operation is successful
"""
if self.isEmpty():
return False
self.data[self.head] = None
' if empty queue, set head to -1\n else move head to the next valid insert position\n '
self.head = -1 if self.computeSize() == 1 else (self.head + 1) % self.max_size
' reset tail pointer for an empty queue '
if self.head == -1:
self.tail = -1
return True
def front(self) -> int:
"""get the front item from the queue"""
if self.isEmpty():
return -1
' return value pointed by head pointer '
return self.data[self.head]
def rear(self) -> int:
"""get the last item from the queue"""
if self.isEmpty():
return -1
' return value pointed by tail pointer '
return self.data[self.tail]
def compute_size(self) -> int:
""" queue is empty if head pointer is set to -1 """
if self.head == -1:
return 0
' if both head and tail pointers are set to the same index,\n then queue has only 1 item\n '
if self.tail == self.head:
return 1
' if tail points to an index after head, then current size : (tail - head) + 1\n if tail points to an index before head, then current size : (tail - head) + 1 + max-size\n '
diff = self.tail - self.head
return diff + 1 if diff > 0 else diff + 1 + self.max_size
def execute_commands(self, command: str, operands: list):
"""Automate execution of large number of operations to test implementation.
Not part of main queue implementation.
"""
if command == 'enQueue':
return self.enqueue(operands[0])
elif command == 'deQueue':
return self.dequeue()
elif command == 'Rear':
return self.rear()
elif command == 'Front':
return self.front()
elif command == 'isFull':
return self.isFull()
elif command == 'isEmpty':
return self.isEmpty()
return
|
"""
STIX 2.0 open vocabularies and enums
"""
ATTACK_MOTIVATION_ACCIDENTAL = "accidental"
ATTACK_MOTIVATION_COERCION = "coercion"
ATTACK_MOTIVATION_DOMINANCE = "dominance"
ATTACK_MOTIVATION_IDEOLOGY = "ideology"
ATTACK_MOTIVATION_NOTORIETY = "notoriety"
ATTACK_MOTIVATION_ORGANIZATIONAL_GAIN = "organizational-gain"
ATTACK_MOTIVATION_PERSONAL_GAIN = "personal-gain"
ATTACK_MOTIVATION_PERSONAL_SATISFACTION = "personal-satisfaction"
ATTACK_MOTIVATION_REVENGE = "revenge"
ATTACK_MOTIVATION_UNPREDICTABLE = "unpredictable"
ATTACK_MOTIVATION = [
ATTACK_MOTIVATION_ACCIDENTAL,
ATTACK_MOTIVATION_COERCION,
ATTACK_MOTIVATION_DOMINANCE,
ATTACK_MOTIVATION_IDEOLOGY,
ATTACK_MOTIVATION_NOTORIETY,
ATTACK_MOTIVATION_ORGANIZATIONAL_GAIN,
ATTACK_MOTIVATION_PERSONAL_GAIN,
ATTACK_MOTIVATION_PERSONAL_SATISFACTION,
ATTACK_MOTIVATION_REVENGE,
ATTACK_MOTIVATION_UNPREDICTABLE,
]
ATTACK_RESOURCE_LEVEL_INDIVIDUAL = "individual"
ATTACK_RESOURCE_LEVEL_CLUB = "club"
ATTACK_RESOURCE_LEVEL_CONTEST = "contest"
ATTACK_RESOURCE_LEVEL_TEAM = "team"
ATTACK_RESOURCE_LEVEL_ORGANIZATION = "organization"
ATTACK_RESOURCE_LEVEL_GOVERNMENT = "government"
ATTACK_RESOURCE_LEVEL = [
ATTACK_RESOURCE_LEVEL_INDIVIDUAL,
ATTACK_RESOURCE_LEVEL_CLUB,
ATTACK_RESOURCE_LEVEL_CONTEST,
ATTACK_RESOURCE_LEVEL_TEAM,
ATTACK_RESOURCE_LEVEL_ORGANIZATION,
ATTACK_RESOURCE_LEVEL_GOVERNMENT,
]
HASHING_ALGORITHM_MD5 = "MD5"
HASHING_ALGORITHM_MD6 = "MD6"
HASHING_ALGORITHM_RIPEMD_160 = "RIPEMD-160"
HASHING_ALGORITHM_SHA_1 = "SHA-1"
HASHING_ALGORITHM_SHA_224 = "SHA-224"
HASHING_ALGORITHM_SHA_256 = "SHA-256"
HASHING_ALGORITHM_SHA_384 = "SHA-384"
HASHING_ALGORITHM_SHA_512 = "SHA-512"
HASHING_ALGORITHM_SHA3_224 = "SHA3-224"
HASHING_ALGORITHM_SHA3_256 = "SHA3-256"
HASHING_ALGORITHM_SHA3_384 = "SHA3-384"
HASHING_ALGORITHM_SHA3_512 = "SHA3-512"
HASHING_ALGORITHM_SSDEEP = "ssdeep"
HASHING_ALGORITHM_WHIRLPOOL = "WHIRLPOOL"
HASHING_ALGORITHM = [
HASHING_ALGORITHM_MD5,
HASHING_ALGORITHM_MD6,
HASHING_ALGORITHM_RIPEMD_160,
HASHING_ALGORITHM_SHA_1,
HASHING_ALGORITHM_SHA_224,
HASHING_ALGORITHM_SHA_256,
HASHING_ALGORITHM_SHA_384,
HASHING_ALGORITHM_SHA_512,
HASHING_ALGORITHM_SHA3_224,
HASHING_ALGORITHM_SHA3_256,
HASHING_ALGORITHM_SHA3_384,
HASHING_ALGORITHM_SHA3_512,
HASHING_ALGORITHM_SSDEEP,
HASHING_ALGORITHM_WHIRLPOOL,
]
IDENTITY_CLASS_INDIVIDUAL = "individual"
IDENTITY_CLASS_GROUP = "group"
IDENTITY_CLASS_ORGANIZATION = "organization"
IDENTITY_CLASS_CLASS = "class"
IDENTITY_CLASS_UNKNOWN = "unknown"
IDENTITY_CLASS = [
IDENTITY_CLASS_INDIVIDUAL,
IDENTITY_CLASS_GROUP,
IDENTITY_CLASS_ORGANIZATION,
IDENTITY_CLASS_CLASS,
IDENTITY_CLASS_UNKNOWN,
]
INDICATOR_LABEL_ANOMALOUS_ACTIVITY = "anomalous-activity"
INDICATOR_LABEL_ANONYMIZATION = "anonymization"
INDICATOR_LABEL_BENIGN = "benign"
INDICATOR_LABEL_COMPROMISED = "compromised"
INDICATOR_LABEL_MALICIOUS_ACTIVITY = "malicious-activity"
INDICATOR_LABEL_ATTRIBUTION = "attribution"
INDICATOR_LABEL = [
INDICATOR_LABEL_ANOMALOUS_ACTIVITY,
INDICATOR_LABEL_ANONYMIZATION,
INDICATOR_LABEL_BENIGN,
INDICATOR_LABEL_COMPROMISED,
INDICATOR_LABEL_MALICIOUS_ACTIVITY,
INDICATOR_LABEL_ATTRIBUTION,
]
INDUSTRY_SECTOR_AGRICULTURE = "agriculture"
INDUSTRY_SECTOR_AEROSPACE = "aerospace"
INDUSTRY_SECTOR_AUTOMOTIVE = "automotive"
INDUSTRY_SECTOR_COMMUNICATIONS = "communications"
INDUSTRY_SECTOR_CONSTRUCTION = "construction"
INDUSTRY_SECTOR_DEFENCE = "defence"
INDUSTRY_SECTOR_EDUCATION = "education"
INDUSTRY_SECTOR_ENERGY = "energy"
INDUSTRY_SECTOR_ENTERTAINMENT = "entertainment"
INDUSTRY_SECTOR_FINANCIAL_SERVICES = "financial-services"
INDUSTRY_SECTOR_GOVERNMENT_NATIONAL = "government-national"
INDUSTRY_SECTOR_GOVERNMENT_REGIONAL = "government-regional"
INDUSTRY_SECTOR_GOVERNMENT_LOCAL = "government-local"
INDUSTRY_SECTOR_GOVERNMENT_PUBLIC_SERVICES = "government-public-services"
INDUSTRY_SECTOR_HEALTHCARE = "healthcare"
INDUSTRY_SECTOR_HOSPITALITY_LEISURE = "hospitality-leisure"
INDUSTRY_SECTOR_INFRASTRUCTURE = "infrastructure"
INDUSTRY_SECTOR_INSURANCE = "insurance"
INDUSTRY_SECTOR_MANUFACTURING = "manufacturing"
INDUSTRY_SECTOR_MINING = "mining"
INDUSTRY_SECTOR_NON_PROFIT = "non-profit"
INDUSTRY_SECTOR_PHARMACEUTICALS = "pharmaceuticals"
INDUSTRY_SECTOR_RETAIL = "retail"
INDUSTRY_SECTOR_TECHNOLOGY = "technology"
INDUSTRY_SECTOR_TELECOMMUNICATIONS = "telecommunications"
INDUSTRY_SECTOR_TRANSPORTATION = "transportation"
INDUSTRY_SECTOR_UTILITIES = "utilities"
INDUSTRY_SECTOR = [
INDUSTRY_SECTOR_AGRICULTURE,
INDUSTRY_SECTOR_AEROSPACE,
INDUSTRY_SECTOR_AUTOMOTIVE,
INDUSTRY_SECTOR_COMMUNICATIONS,
INDUSTRY_SECTOR_CONSTRUCTION,
INDUSTRY_SECTOR_DEFENCE,
INDUSTRY_SECTOR_EDUCATION,
INDUSTRY_SECTOR_ENERGY,
INDUSTRY_SECTOR_ENTERTAINMENT,
INDUSTRY_SECTOR_FINANCIAL_SERVICES,
INDUSTRY_SECTOR_GOVERNMENT_NATIONAL,
INDUSTRY_SECTOR_GOVERNMENT_REGIONAL,
INDUSTRY_SECTOR_GOVERNMENT_LOCAL,
INDUSTRY_SECTOR_GOVERNMENT_PUBLIC_SERVICES,
INDUSTRY_SECTOR_HEALTHCARE,
INDUSTRY_SECTOR_HOSPITALITY_LEISURE,
INDUSTRY_SECTOR_INFRASTRUCTURE,
INDUSTRY_SECTOR_INSURANCE,
INDUSTRY_SECTOR_MANUFACTURING,
INDUSTRY_SECTOR_MINING,
INDUSTRY_SECTOR_NON_PROFIT,
INDUSTRY_SECTOR_PHARMACEUTICALS,
INDUSTRY_SECTOR_RETAIL,
INDUSTRY_SECTOR_TECHNOLOGY,
INDUSTRY_SECTOR_TELECOMMUNICATIONS,
INDUSTRY_SECTOR_TRANSPORTATION,
INDUSTRY_SECTOR_UTILITIES,
]
MALWARE_LABEL_ADWARE = "adware"
MALWARE_LABEL_BACKDOOR = "backdoor"
MALWARE_LABEL_BOT = "bot"
MALWARE_LABEL_DDOS = "ddos"
MALWARE_LABEL_DROPPER = "dropper"
MALWARE_LABEL_EXPLOIT_KIT = "exploit-kit"
MALWARE_LABEL_KEYLOGGER = "keylogger"
MALWARE_LABEL_RANSOMWARE = "ransomware"
MALWARE_LABEL_REMOTE_ACCESS_TROJAN = "remote-access-trojan"
MALWARE_LABEL_RESOURCE_EXPLOITATION = "resource-exploitation"
MALWARE_LABEL_ROGUE_SECURITY_SOFTWARE = "rogue-security-software"
MALWARE_LABEL_ROOTKIT = "rootkit"
MALWARE_LABEL_SCREEN_CAPTURE = "screen-capture"
MALWARE_LABEL_SPYWARE = "spyware"
MALWARE_LABEL_TROJAN = "trojan"
MALWARE_LABEL_VIRUS = "virus"
MALWARE_LABEL_WORM = "worm"
MALWARE_LABEL = [
MALWARE_LABEL_ADWARE,
MALWARE_LABEL_BACKDOOR,
MALWARE_LABEL_BOT,
MALWARE_LABEL_DDOS,
MALWARE_LABEL_DROPPER,
MALWARE_LABEL_EXPLOIT_KIT,
MALWARE_LABEL_KEYLOGGER,
MALWARE_LABEL_RANSOMWARE,
MALWARE_LABEL_REMOTE_ACCESS_TROJAN,
MALWARE_LABEL_RESOURCE_EXPLOITATION,
MALWARE_LABEL_ROGUE_SECURITY_SOFTWARE,
MALWARE_LABEL_ROOTKIT,
MALWARE_LABEL_SCREEN_CAPTURE,
MALWARE_LABEL_SPYWARE,
MALWARE_LABEL_TROJAN,
MALWARE_LABEL_VIRUS,
MALWARE_LABEL_WORM,
]
REPORT_LABEL_THREAT_REPORT = "threat-report"
REPORT_LABEL_ATTACK_PATTERN = "attack-pattern"
REPORT_LABEL_CAMPAIGN = "campaign"
REPORT_LABEL_IDENTITY = "identity"
REPORT_LABEL_INDICATOR = "indicator"
REPORT_LABEL_INTRUSION_SET = "intrusion-set"
REPORT_LABEL_MALWARE = "malware"
REPORT_LABEL_OBSERVED_DATA = "observed-data"
REPORT_LABEL_THREAT_ACTOR = "threat-actor"
REPORT_LABEL_TOOL = "tool"
REPORT_LABEL_VULNERABILITY = "vulnerability"
REPORT_LABEL = [
REPORT_LABEL_THREAT_REPORT,
REPORT_LABEL_ATTACK_PATTERN,
REPORT_LABEL_CAMPAIGN,
REPORT_LABEL_IDENTITY,
REPORT_LABEL_INDICATOR,
REPORT_LABEL_INTRUSION_SET,
REPORT_LABEL_MALWARE,
REPORT_LABEL_OBSERVED_DATA,
REPORT_LABEL_THREAT_ACTOR,
REPORT_LABEL_TOOL,
REPORT_LABEL_VULNERABILITY,
]
THREAT_ACTOR_LABEL_ACTIVIST = "activist"
THREAT_ACTOR_LABEL_COMPETITOR = "competitor"
THREAT_ACTOR_LABEL_CRIME_SYNDICATE = "crime-syndicate"
THREAT_ACTOR_LABEL_CRIMINAL = "criminal"
THREAT_ACTOR_LABEL_HACKER = "hacker"
THREAT_ACTOR_LABEL_INSIDER_ACCIDENTAL = "insider-accidental"
THREAT_ACTOR_LABEL_INSIDER_DISGRUNTLED = "insider-disgruntled"
THREAT_ACTOR_LABEL_NATION_STATE = "nation-state"
THREAT_ACTOR_LABEL_SENSATIONALIST = "sensationalist"
THREAT_ACTOR_LABEL_SPY = "spy"
THREAT_ACTOR_LABEL_TERRORIST = "terrorist"
THREAT_ACTOR_LABEL = [
THREAT_ACTOR_LABEL_ACTIVIST,
THREAT_ACTOR_LABEL_COMPETITOR,
THREAT_ACTOR_LABEL_CRIME_SYNDICATE,
THREAT_ACTOR_LABEL_CRIMINAL,
THREAT_ACTOR_LABEL_HACKER,
THREAT_ACTOR_LABEL_INSIDER_ACCIDENTAL,
THREAT_ACTOR_LABEL_INSIDER_DISGRUNTLED,
THREAT_ACTOR_LABEL_NATION_STATE,
THREAT_ACTOR_LABEL_SENSATIONALIST,
THREAT_ACTOR_LABEL_SPY,
THREAT_ACTOR_LABEL_TERRORIST,
]
THREAT_ACTOR_ROLE_AGENT = "agent"
THREAT_ACTOR_ROLE_DIRECTOR = "director"
THREAT_ACTOR_ROLE_INDEPENDENT = "independent"
THREAT_ACTOR_ROLE_INFRASTRUCTURE_ARCHITECT = "infrastructure-architect"
THREAT_ACTOR_ROLE_INFRASTRUCTURE_OPERATOR = "infrastructure-operator"
THREAT_ACTOR_ROLE_MALWARE_AUTHOR = "malware-author"
THREAT_ACTOR_ROLE_SPONSOR = "sponsor"
THREAT_ACTOR_ROLE = [
THREAT_ACTOR_ROLE_AGENT,
THREAT_ACTOR_ROLE_DIRECTOR,
THREAT_ACTOR_ROLE_INDEPENDENT,
THREAT_ACTOR_ROLE_INFRASTRUCTURE_ARCHITECT,
THREAT_ACTOR_ROLE_INFRASTRUCTURE_OPERATOR,
THREAT_ACTOR_ROLE_MALWARE_AUTHOR,
THREAT_ACTOR_ROLE_SPONSOR,
]
THREAT_ACTOR_SOPHISTICATION_NONE = "none"
THREAT_ACTOR_SOPHISTICATION_MINIMAL = "minimal"
THREAT_ACTOR_SOPHISTICATION_INTERMEDIATE = "intermediate"
THREAT_ACTOR_SOPHISTICATION_ADVANCED = "advanced"
THREAT_ACTOR_SOPHISTICATION_EXPERT = "expert"
THREAT_ACTOR_SOPHISTICATION_INNOVATOR = "innovator"
THREAT_ACTOR_SOPHISTICATION_STRATEGIC = "strategic"
THREAT_ACTOR_SOPHISTICATION = [
THREAT_ACTOR_SOPHISTICATION_NONE,
THREAT_ACTOR_SOPHISTICATION_MINIMAL,
THREAT_ACTOR_SOPHISTICATION_INTERMEDIATE,
THREAT_ACTOR_SOPHISTICATION_ADVANCED,
THREAT_ACTOR_SOPHISTICATION_EXPERT,
THREAT_ACTOR_SOPHISTICATION_INNOVATOR,
THREAT_ACTOR_SOPHISTICATION_STRATEGIC,
]
TOOL_LABEL_DENIAL_OF_SERVICE = "denial-of-service"
TOOL_LABEL_EXPLOITATION = "exploitation"
TOOL_LABEL_INFORMATION_GATHERING = "information-gathering"
TOOL_LABEL_NETWORK_CAPTURE = "network-capture"
TOOL_LABEL_CREDENTIAL_EXPLOITATION = "credential-exploitation"
TOOL_LABEL_REMOTE_ACCESS = "remote-access"
TOOL_LABEL_VULNERABILITY_SCANNING = "vulnerability-scanning"
TOOL_LABEL = [
TOOL_LABEL_DENIAL_OF_SERVICE,
TOOL_LABEL_EXPLOITATION,
TOOL_LABEL_INFORMATION_GATHERING,
TOOL_LABEL_NETWORK_CAPTURE,
TOOL_LABEL_CREDENTIAL_EXPLOITATION,
TOOL_LABEL_REMOTE_ACCESS,
TOOL_LABEL_VULNERABILITY_SCANNING,
]
|
"""
STIX 2.0 open vocabularies and enums
"""
attack_motivation_accidental = 'accidental'
attack_motivation_coercion = 'coercion'
attack_motivation_dominance = 'dominance'
attack_motivation_ideology = 'ideology'
attack_motivation_notoriety = 'notoriety'
attack_motivation_organizational_gain = 'organizational-gain'
attack_motivation_personal_gain = 'personal-gain'
attack_motivation_personal_satisfaction = 'personal-satisfaction'
attack_motivation_revenge = 'revenge'
attack_motivation_unpredictable = 'unpredictable'
attack_motivation = [ATTACK_MOTIVATION_ACCIDENTAL, ATTACK_MOTIVATION_COERCION, ATTACK_MOTIVATION_DOMINANCE, ATTACK_MOTIVATION_IDEOLOGY, ATTACK_MOTIVATION_NOTORIETY, ATTACK_MOTIVATION_ORGANIZATIONAL_GAIN, ATTACK_MOTIVATION_PERSONAL_GAIN, ATTACK_MOTIVATION_PERSONAL_SATISFACTION, ATTACK_MOTIVATION_REVENGE, ATTACK_MOTIVATION_UNPREDICTABLE]
attack_resource_level_individual = 'individual'
attack_resource_level_club = 'club'
attack_resource_level_contest = 'contest'
attack_resource_level_team = 'team'
attack_resource_level_organization = 'organization'
attack_resource_level_government = 'government'
attack_resource_level = [ATTACK_RESOURCE_LEVEL_INDIVIDUAL, ATTACK_RESOURCE_LEVEL_CLUB, ATTACK_RESOURCE_LEVEL_CONTEST, ATTACK_RESOURCE_LEVEL_TEAM, ATTACK_RESOURCE_LEVEL_ORGANIZATION, ATTACK_RESOURCE_LEVEL_GOVERNMENT]
hashing_algorithm_md5 = 'MD5'
hashing_algorithm_md6 = 'MD6'
hashing_algorithm_ripemd_160 = 'RIPEMD-160'
hashing_algorithm_sha_1 = 'SHA-1'
hashing_algorithm_sha_224 = 'SHA-224'
hashing_algorithm_sha_256 = 'SHA-256'
hashing_algorithm_sha_384 = 'SHA-384'
hashing_algorithm_sha_512 = 'SHA-512'
hashing_algorithm_sha3_224 = 'SHA3-224'
hashing_algorithm_sha3_256 = 'SHA3-256'
hashing_algorithm_sha3_384 = 'SHA3-384'
hashing_algorithm_sha3_512 = 'SHA3-512'
hashing_algorithm_ssdeep = 'ssdeep'
hashing_algorithm_whirlpool = 'WHIRLPOOL'
hashing_algorithm = [HASHING_ALGORITHM_MD5, HASHING_ALGORITHM_MD6, HASHING_ALGORITHM_RIPEMD_160, HASHING_ALGORITHM_SHA_1, HASHING_ALGORITHM_SHA_224, HASHING_ALGORITHM_SHA_256, HASHING_ALGORITHM_SHA_384, HASHING_ALGORITHM_SHA_512, HASHING_ALGORITHM_SHA3_224, HASHING_ALGORITHM_SHA3_256, HASHING_ALGORITHM_SHA3_384, HASHING_ALGORITHM_SHA3_512, HASHING_ALGORITHM_SSDEEP, HASHING_ALGORITHM_WHIRLPOOL]
identity_class_individual = 'individual'
identity_class_group = 'group'
identity_class_organization = 'organization'
identity_class_class = 'class'
identity_class_unknown = 'unknown'
identity_class = [IDENTITY_CLASS_INDIVIDUAL, IDENTITY_CLASS_GROUP, IDENTITY_CLASS_ORGANIZATION, IDENTITY_CLASS_CLASS, IDENTITY_CLASS_UNKNOWN]
indicator_label_anomalous_activity = 'anomalous-activity'
indicator_label_anonymization = 'anonymization'
indicator_label_benign = 'benign'
indicator_label_compromised = 'compromised'
indicator_label_malicious_activity = 'malicious-activity'
indicator_label_attribution = 'attribution'
indicator_label = [INDICATOR_LABEL_ANOMALOUS_ACTIVITY, INDICATOR_LABEL_ANONYMIZATION, INDICATOR_LABEL_BENIGN, INDICATOR_LABEL_COMPROMISED, INDICATOR_LABEL_MALICIOUS_ACTIVITY, INDICATOR_LABEL_ATTRIBUTION]
industry_sector_agriculture = 'agriculture'
industry_sector_aerospace = 'aerospace'
industry_sector_automotive = 'automotive'
industry_sector_communications = 'communications'
industry_sector_construction = 'construction'
industry_sector_defence = 'defence'
industry_sector_education = 'education'
industry_sector_energy = 'energy'
industry_sector_entertainment = 'entertainment'
industry_sector_financial_services = 'financial-services'
industry_sector_government_national = 'government-national'
industry_sector_government_regional = 'government-regional'
industry_sector_government_local = 'government-local'
industry_sector_government_public_services = 'government-public-services'
industry_sector_healthcare = 'healthcare'
industry_sector_hospitality_leisure = 'hospitality-leisure'
industry_sector_infrastructure = 'infrastructure'
industry_sector_insurance = 'insurance'
industry_sector_manufacturing = 'manufacturing'
industry_sector_mining = 'mining'
industry_sector_non_profit = 'non-profit'
industry_sector_pharmaceuticals = 'pharmaceuticals'
industry_sector_retail = 'retail'
industry_sector_technology = 'technology'
industry_sector_telecommunications = 'telecommunications'
industry_sector_transportation = 'transportation'
industry_sector_utilities = 'utilities'
industry_sector = [INDUSTRY_SECTOR_AGRICULTURE, INDUSTRY_SECTOR_AEROSPACE, INDUSTRY_SECTOR_AUTOMOTIVE, INDUSTRY_SECTOR_COMMUNICATIONS, INDUSTRY_SECTOR_CONSTRUCTION, INDUSTRY_SECTOR_DEFENCE, INDUSTRY_SECTOR_EDUCATION, INDUSTRY_SECTOR_ENERGY, INDUSTRY_SECTOR_ENTERTAINMENT, INDUSTRY_SECTOR_FINANCIAL_SERVICES, INDUSTRY_SECTOR_GOVERNMENT_NATIONAL, INDUSTRY_SECTOR_GOVERNMENT_REGIONAL, INDUSTRY_SECTOR_GOVERNMENT_LOCAL, INDUSTRY_SECTOR_GOVERNMENT_PUBLIC_SERVICES, INDUSTRY_SECTOR_HEALTHCARE, INDUSTRY_SECTOR_HOSPITALITY_LEISURE, INDUSTRY_SECTOR_INFRASTRUCTURE, INDUSTRY_SECTOR_INSURANCE, INDUSTRY_SECTOR_MANUFACTURING, INDUSTRY_SECTOR_MINING, INDUSTRY_SECTOR_NON_PROFIT, INDUSTRY_SECTOR_PHARMACEUTICALS, INDUSTRY_SECTOR_RETAIL, INDUSTRY_SECTOR_TECHNOLOGY, INDUSTRY_SECTOR_TELECOMMUNICATIONS, INDUSTRY_SECTOR_TRANSPORTATION, INDUSTRY_SECTOR_UTILITIES]
malware_label_adware = 'adware'
malware_label_backdoor = 'backdoor'
malware_label_bot = 'bot'
malware_label_ddos = 'ddos'
malware_label_dropper = 'dropper'
malware_label_exploit_kit = 'exploit-kit'
malware_label_keylogger = 'keylogger'
malware_label_ransomware = 'ransomware'
malware_label_remote_access_trojan = 'remote-access-trojan'
malware_label_resource_exploitation = 'resource-exploitation'
malware_label_rogue_security_software = 'rogue-security-software'
malware_label_rootkit = 'rootkit'
malware_label_screen_capture = 'screen-capture'
malware_label_spyware = 'spyware'
malware_label_trojan = 'trojan'
malware_label_virus = 'virus'
malware_label_worm = 'worm'
malware_label = [MALWARE_LABEL_ADWARE, MALWARE_LABEL_BACKDOOR, MALWARE_LABEL_BOT, MALWARE_LABEL_DDOS, MALWARE_LABEL_DROPPER, MALWARE_LABEL_EXPLOIT_KIT, MALWARE_LABEL_KEYLOGGER, MALWARE_LABEL_RANSOMWARE, MALWARE_LABEL_REMOTE_ACCESS_TROJAN, MALWARE_LABEL_RESOURCE_EXPLOITATION, MALWARE_LABEL_ROGUE_SECURITY_SOFTWARE, MALWARE_LABEL_ROOTKIT, MALWARE_LABEL_SCREEN_CAPTURE, MALWARE_LABEL_SPYWARE, MALWARE_LABEL_TROJAN, MALWARE_LABEL_VIRUS, MALWARE_LABEL_WORM]
report_label_threat_report = 'threat-report'
report_label_attack_pattern = 'attack-pattern'
report_label_campaign = 'campaign'
report_label_identity = 'identity'
report_label_indicator = 'indicator'
report_label_intrusion_set = 'intrusion-set'
report_label_malware = 'malware'
report_label_observed_data = 'observed-data'
report_label_threat_actor = 'threat-actor'
report_label_tool = 'tool'
report_label_vulnerability = 'vulnerability'
report_label = [REPORT_LABEL_THREAT_REPORT, REPORT_LABEL_ATTACK_PATTERN, REPORT_LABEL_CAMPAIGN, REPORT_LABEL_IDENTITY, REPORT_LABEL_INDICATOR, REPORT_LABEL_INTRUSION_SET, REPORT_LABEL_MALWARE, REPORT_LABEL_OBSERVED_DATA, REPORT_LABEL_THREAT_ACTOR, REPORT_LABEL_TOOL, REPORT_LABEL_VULNERABILITY]
threat_actor_label_activist = 'activist'
threat_actor_label_competitor = 'competitor'
threat_actor_label_crime_syndicate = 'crime-syndicate'
threat_actor_label_criminal = 'criminal'
threat_actor_label_hacker = 'hacker'
threat_actor_label_insider_accidental = 'insider-accidental'
threat_actor_label_insider_disgruntled = 'insider-disgruntled'
threat_actor_label_nation_state = 'nation-state'
threat_actor_label_sensationalist = 'sensationalist'
threat_actor_label_spy = 'spy'
threat_actor_label_terrorist = 'terrorist'
threat_actor_label = [THREAT_ACTOR_LABEL_ACTIVIST, THREAT_ACTOR_LABEL_COMPETITOR, THREAT_ACTOR_LABEL_CRIME_SYNDICATE, THREAT_ACTOR_LABEL_CRIMINAL, THREAT_ACTOR_LABEL_HACKER, THREAT_ACTOR_LABEL_INSIDER_ACCIDENTAL, THREAT_ACTOR_LABEL_INSIDER_DISGRUNTLED, THREAT_ACTOR_LABEL_NATION_STATE, THREAT_ACTOR_LABEL_SENSATIONALIST, THREAT_ACTOR_LABEL_SPY, THREAT_ACTOR_LABEL_TERRORIST]
threat_actor_role_agent = 'agent'
threat_actor_role_director = 'director'
threat_actor_role_independent = 'independent'
threat_actor_role_infrastructure_architect = 'infrastructure-architect'
threat_actor_role_infrastructure_operator = 'infrastructure-operator'
threat_actor_role_malware_author = 'malware-author'
threat_actor_role_sponsor = 'sponsor'
threat_actor_role = [THREAT_ACTOR_ROLE_AGENT, THREAT_ACTOR_ROLE_DIRECTOR, THREAT_ACTOR_ROLE_INDEPENDENT, THREAT_ACTOR_ROLE_INFRASTRUCTURE_ARCHITECT, THREAT_ACTOR_ROLE_INFRASTRUCTURE_OPERATOR, THREAT_ACTOR_ROLE_MALWARE_AUTHOR, THREAT_ACTOR_ROLE_SPONSOR]
threat_actor_sophistication_none = 'none'
threat_actor_sophistication_minimal = 'minimal'
threat_actor_sophistication_intermediate = 'intermediate'
threat_actor_sophistication_advanced = 'advanced'
threat_actor_sophistication_expert = 'expert'
threat_actor_sophistication_innovator = 'innovator'
threat_actor_sophistication_strategic = 'strategic'
threat_actor_sophistication = [THREAT_ACTOR_SOPHISTICATION_NONE, THREAT_ACTOR_SOPHISTICATION_MINIMAL, THREAT_ACTOR_SOPHISTICATION_INTERMEDIATE, THREAT_ACTOR_SOPHISTICATION_ADVANCED, THREAT_ACTOR_SOPHISTICATION_EXPERT, THREAT_ACTOR_SOPHISTICATION_INNOVATOR, THREAT_ACTOR_SOPHISTICATION_STRATEGIC]
tool_label_denial_of_service = 'denial-of-service'
tool_label_exploitation = 'exploitation'
tool_label_information_gathering = 'information-gathering'
tool_label_network_capture = 'network-capture'
tool_label_credential_exploitation = 'credential-exploitation'
tool_label_remote_access = 'remote-access'
tool_label_vulnerability_scanning = 'vulnerability-scanning'
tool_label = [TOOL_LABEL_DENIAL_OF_SERVICE, TOOL_LABEL_EXPLOITATION, TOOL_LABEL_INFORMATION_GATHERING, TOOL_LABEL_NETWORK_CAPTURE, TOOL_LABEL_CREDENTIAL_EXPLOITATION, TOOL_LABEL_REMOTE_ACCESS, TOOL_LABEL_VULNERABILITY_SCANNING]
|
#!/usr/bin/env python
OUTPUT_FILENAME = "output"
TOTAL_OF_FILES = 2
if __name__ == "__main__":
# make an array of files of size 100
results = []
for i in range(1, TOTAL_OF_FILES+1):
a = open("./{}{}.txt".format(OUTPUT_FILENAME, i), 'r')
text = a.read()
a.close()
text = text.split('\n')
results.append(text[1:-2])
text = "Original_variable | real_parameters | number_of_observations | log-likelihood_of_real_params | Estim_params_T2_SSPSC | log-likelihood_T2_SSPSC | p-value_T2_SSPSC | Estim_params_T2_StSI | log-likelihood_T2_StSI | p-value_T2_StSI | AIC_selected_model | AIC_relative_prob\n"
for line in range(len(results[0])):
for i in range(TOTAL_OF_FILES):
text+=(i+1).__str__() + ' | ' + results[i][line]+'\n'
a = open('100exp_OUTPUT', 'w')
a.write(text)
a.close()
|
output_filename = 'output'
total_of_files = 2
if __name__ == '__main__':
results = []
for i in range(1, TOTAL_OF_FILES + 1):
a = open('./{}{}.txt'.format(OUTPUT_FILENAME, i), 'r')
text = a.read()
a.close()
text = text.split('\n')
results.append(text[1:-2])
text = 'Original_variable | real_parameters | number_of_observations | log-likelihood_of_real_params | Estim_params_T2_SSPSC | log-likelihood_T2_SSPSC | p-value_T2_SSPSC | Estim_params_T2_StSI | log-likelihood_T2_StSI | p-value_T2_StSI | AIC_selected_model | AIC_relative_prob\n'
for line in range(len(results[0])):
for i in range(TOTAL_OF_FILES):
text += (i + 1).__str__() + ' | ' + results[i][line] + '\n'
a = open('100exp_OUTPUT', 'w')
a.write(text)
a.close()
|
def func(word):
word = word.split(", ")
dic = {"Magic":[],"Normal":[]}
for elm in word:
decide = ""
first = elm[0]
first = int(first)
sum1 = 0
for sval in elm[1::]:
sum1 += int(sval)
if first == sum1:
decide = "Magic"
else:
decide = "Normal"
dic[decide].append(int(elm))
fdic = {}
for key,val in dic.items():
fdic[key] = tuple(val)
return fdic
word = input("Enter your numbers: ")
print(func(word))
|
def func(word):
word = word.split(', ')
dic = {'Magic': [], 'Normal': []}
for elm in word:
decide = ''
first = elm[0]
first = int(first)
sum1 = 0
for sval in elm[1:]:
sum1 += int(sval)
if first == sum1:
decide = 'Magic'
else:
decide = 'Normal'
dic[decide].append(int(elm))
fdic = {}
for (key, val) in dic.items():
fdic[key] = tuple(val)
return fdic
word = input('Enter your numbers: ')
print(func(word))
|
def contador(i,f,p):
"""
Faz a contagem e mostra na tela
:param i: inicio da contagem
:param f: fim da contagem
:param p: passo da contagem
:return: sem retorno
"""
c=i
while c<=f:
print(f'{c} ', end='')
c +=p
print('FIMMM')
contador(2,10,2)
help(contador)
|
def contador(i, f, p):
"""
Faz a contagem e mostra na tela
:param i: inicio da contagem
:param f: fim da contagem
:param p: passo da contagem
:return: sem retorno
"""
c = i
while c <= f:
print(f'{c} ', end='')
c += p
print('FIMMM')
contador(2, 10, 2)
help(contador)
|
class Node:
def __init__(self, data):
self.data = data # Assign the data here
self.next = None # Set next to None by default.
class LinkedList:
def __init__(self):
self.head = None
# Display the list. Linked list traversal.
def display(self):
temp = self.head
display = ""
while temp:
display+=(str(temp.data)+" -> ")
temp = temp.next
display+="None"
print(display)
def push(self, data):
# Create the new node before we insert it at the beginning of the LL
new_node = Node(data)
# Assign the next pointer to the head
new_node.next = self.head
# Move the head pointer to the new node.
self.head = new_node
def append(self, data):
# Inserting data at the end of the linked list.
new_node = Node(data)
if self.head == None:
self.head = new_node
return
last = self.head
while last.next:
last = last.next
last.next = new_node
def insert(self, previous_node, data):
if previous_node == None:
return
# Create a new node with new data
new_node = Node(data)
new_node.next = previous_node.next
previous_node.next = new_node
# Tests
# Initialize linked list
llist = LinkedList()
# Create some nodes.
llist.push(2)
llist.push(3)
llist.push(4)
llist.append(1)
llist.display()
|
class Node:
def __init__(self, data):
self.data = data
self.next = None
class Linkedlist:
def __init__(self):
self.head = None
def display(self):
temp = self.head
display = ''
while temp:
display += str(temp.data) + ' -> '
temp = temp.next
display += 'None'
print(display)
def push(self, data):
new_node = node(data)
new_node.next = self.head
self.head = new_node
def append(self, data):
new_node = node(data)
if self.head == None:
self.head = new_node
return
last = self.head
while last.next:
last = last.next
last.next = new_node
def insert(self, previous_node, data):
if previous_node == None:
return
new_node = node(data)
new_node.next = previous_node.next
previous_node.next = new_node
llist = linked_list()
llist.push(2)
llist.push(3)
llist.push(4)
llist.append(1)
llist.display()
|
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