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python-code-infill-test

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<|file_name|>session_recording.py<|end_file_name|><|fim▁begin|># Source Generated with Decompyle++ # File: session_recording.pyc (Python 2.5) from __future__ import absolute_import from pushbase.session_recording_component import FixedLengthSessionRecordingComponent class SessionRecordingComponent(FixedLengthSessionRecordingComponent): def __init__(self, *a, **k): super(SessionRecordingComponent, self).__init__(*a, **a) self.set_trigger_recording_on_release(not (self._record_button.is_pressed)) def set_trigger_recording_on_release(self, trigger_recording): self._should_trigger_recording = trigger_recording def <|fim_middle|>(self): pass def _on_record_button_released(self): if self._should_trigger_recording: self._trigger_recording() self._should_trigger_recording = True <|fim▁end|>
_on_record_button_pressed
<|file_name|>session_recording.py<|end_file_name|><|fim▁begin|># Source Generated with Decompyle++ # File: session_recording.pyc (Python 2.5) from __future__ import absolute_import from pushbase.session_recording_component import FixedLengthSessionRecordingComponent class SessionRecordingComponent(FixedLengthSessionRecordingComponent): def __init__(self, *a, **k): super(SessionRecordingComponent, self).__init__(*a, **a) self.set_trigger_recording_on_release(not (self._record_button.is_pressed)) def set_trigger_recording_on_release(self, trigger_recording): self._should_trigger_recording = trigger_recording def _on_record_button_pressed(self): pass def <|fim_middle|>(self): if self._should_trigger_recording: self._trigger_recording() self._should_trigger_recording = True <|fim▁end|>
_on_record_button_released
<|file_name|>runtests.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python """ This script is used to run tests, create a coverage report and output the statistics at the end of the tox run. To run this script just execute ``tox`` """ import re from fabric.api import local, warn from fabric.colors import green, red if __name__ == '__main__': # Kept some files for backwards compatibility. If support is dropped, # remove it here deprecated_files = '*utils_email*,*utils_log*' local('flake8 --ignore=E126 --ignore=W391 --statistics' ' --exclude=submodules,migrations,build .') local('coverage run --source="django_libs" manage.py test -v 2' ' --traceback --failfast --settings=django_libs.tests.settings' ' --pattern="*_tests.py"') local('coverage html -d coverage' ' --omit="*__init__*,*/settings/*,*/migrations/*,*/tests/*,' '*admin*,{}"'.format(deprecated_files))<|fim▁hole|> warn(red('Coverage is {0}%'.format(percentage))) else: print(green('Coverage is {0}%'.format(percentage)))<|fim▁end|>
total_line = local('grep -n pc_cov coverage/index.html', capture=True) percentage = float(re.findall(r'(\d+)%', total_line)[-1]) if percentage < 100:
<|file_name|>runtests.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python """ This script is used to run tests, create a coverage report and output the statistics at the end of the tox run. To run this script just execute ``tox`` """ import re from fabric.api import local, warn from fabric.colors import green, red if __name__ == '__main__': # Kept some files for backwards compatibility. If support is dropped, # remove it here <|fim_middle|> <|fim▁end|>
deprecated_files = '*utils_email*,*utils_log*' local('flake8 --ignore=E126 --ignore=W391 --statistics' ' --exclude=submodules,migrations,build .') local('coverage run --source="django_libs" manage.py test -v 2' ' --traceback --failfast --settings=django_libs.tests.settings' ' --pattern="*_tests.py"') local('coverage html -d coverage' ' --omit="*__init__*,*/settings/*,*/migrations/*,*/tests/*,' '*admin*,{}"'.format(deprecated_files)) total_line = local('grep -n pc_cov coverage/index.html', capture=True) percentage = float(re.findall(r'(\d+)%', total_line)[-1]) if percentage < 100: warn(red('Coverage is {0}%'.format(percentage))) else: print(green('Coverage is {0}%'.format(percentage)))
<|file_name|>runtests.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python """ This script is used to run tests, create a coverage report and output the statistics at the end of the tox run. To run this script just execute ``tox`` """ import re from fabric.api import local, warn from fabric.colors import green, red if __name__ == '__main__': # Kept some files for backwards compatibility. If support is dropped, # remove it here deprecated_files = '*utils_email*,*utils_log*' local('flake8 --ignore=E126 --ignore=W391 --statistics' ' --exclude=submodules,migrations,build .') local('coverage run --source="django_libs" manage.py test -v 2' ' --traceback --failfast --settings=django_libs.tests.settings' ' --pattern="*_tests.py"') local('coverage html -d coverage' ' --omit="*__init__*,*/settings/*,*/migrations/*,*/tests/*,' '*admin*,{}"'.format(deprecated_files)) total_line = local('grep -n pc_cov coverage/index.html', capture=True) percentage = float(re.findall(r'(\d+)%', total_line)[-1]) if percentage < 100: <|fim_middle|> else: print(green('Coverage is {0}%'.format(percentage))) <|fim▁end|>
warn(red('Coverage is {0}%'.format(percentage)))
<|file_name|>runtests.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python """ This script is used to run tests, create a coverage report and output the statistics at the end of the tox run. To run this script just execute ``tox`` """ import re from fabric.api import local, warn from fabric.colors import green, red if __name__ == '__main__': # Kept some files for backwards compatibility. If support is dropped, # remove it here deprecated_files = '*utils_email*,*utils_log*' local('flake8 --ignore=E126 --ignore=W391 --statistics' ' --exclude=submodules,migrations,build .') local('coverage run --source="django_libs" manage.py test -v 2' ' --traceback --failfast --settings=django_libs.tests.settings' ' --pattern="*_tests.py"') local('coverage html -d coverage' ' --omit="*__init__*,*/settings/*,*/migrations/*,*/tests/*,' '*admin*,{}"'.format(deprecated_files)) total_line = local('grep -n pc_cov coverage/index.html', capture=True) percentage = float(re.findall(r'(\d+)%', total_line)[-1]) if percentage < 100: warn(red('Coverage is {0}%'.format(percentage))) else: <|fim_middle|> <|fim▁end|>
print(green('Coverage is {0}%'.format(percentage)))
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI',<|fim▁hole|>WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main()<|fim▁end|>
'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): <|fim_middle|> # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30)))
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): <|fim_middle|> #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): <|fim_middle|> # Run main main() <|fim▁end|>
global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): <|fim_middle|> ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
ent_str = ''.join([ent_str, g_terms[i]])
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: <|fim_middle|> return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
return True
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: <|fim_middle|> # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
g_bet_loop = False
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: <|fim_middle|> # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: <|fim_middle|> # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
g_bet_loop = False
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: <|fim_middle|> # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: <|fim_middle|> # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
print 'breaking' g_bet_loop = False
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def <|fim_middle|>(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
draw_starting_screen
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def <|fim_middle|>(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def main(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
is_in_terms
<|file_name|>wager_test_01.py<|end_file_name|><|fim▁begin|>import os import sys import pygame import signal import time import ConfigParser from twython import TwythonStreamer #----------------------------------------------------------------------------- # Import custom modules #----------------------------------------------------------------------------- # Add pyscope module to path path = os.path.join(os.path.dirname(__file__), 'py_apps/pyscope') sys.path.append(path) # Add twit_feed module to path path = os.path.join(os.path.dirname(__file__), '../py_apps/twit_feed') sys.path.append(path) import pyscope import twit_feed #import tf_test_02 #----------------------------------------------------------------------------- # Constants #----------------------------------------------------------------------------- MAX_ENTRIES = 1 FPS = 5 BET_TERM = ['#testing', '#blargz'] #['@Gr8AmTweetRace'] AUTH = { 'app_key': 'li8wn8Tb7xBifCnNIgyqUw', 'app_secret': 'vcwq36w4C4VXamlqWBDKM2E8etsOoangDoMhxNDU', 'oauth_token': '1969690717-rGw3VkRQ8IyL4OcPWtv5Y2CeBdVn8ndJrjGKraI', 'oauth_token_secret': 'KO7YIFMKWKaYTtz2zEyaSy044ixj5kIbWrDtZZL96ly0H'} # Common colors WHITE = 255,255,255 GREEN = 0,255,0 BLACK = 0,0,0 BLUE = 0,0,255 RED = 255,0,0 #----------------------------------------------------------------------------- # Global Variables #----------------------------------------------------------------------------- g_terms = [] g_bet_loop = None g_scope = None #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- # Handle graphics on the screen def draw_starting_screen(): global g_terms global g_scope # Create fonts font_mode = pygame.font.Font(None, 68) font_title_1 = pygame.font.Font(None, 68) font_title_2 = pygame.font.Font(None, 68) font_instr_1 = pygame.font.Font(None, 36) font_instr_2 = pygame.font.Font(None, 36) font_ent_title = pygame.font.Font(None, 36) font_ent = pygame.font.Font(None, 36) # Create background rect_bg = pygame.draw.rect(g_scope.screen, BLACK, \ (0, 0, 540, 960), 0) rect_title = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 20, 500, 100), 0) rect_game_mode = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 140, 500, 60), 0) rect_instructions = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 220, 500, 100), 0) rect_tweets = pygame.draw.rect(g_scope.screen, WHITE, \ (20, 340, 500, 300), 0) # Draw title title1 = "The Great American" title2 = "Tweet Race" text_title_1 = font_title_1.render(title1,1,BLACK) text_title_2 = font_title_2.render(title2,1,BLACK) g_scope.screen.blit(text_title_1, (40, 25)) g_scope.screen.blit(text_title_2, (130, 70)) # Draw game mode mode_str = font_mode.render('Starting Gate',1,BLACK) g_scope.screen.blit(mode_str, (115, 140)) # Draw instructions instr_str_1 = 'Send a tweet to @Gr8AmTweetRace' instr_str_2 = 'with a #term to enter!' instr_1 = font_instr_1.render(instr_str_1,1,BLACK) instr_2 = font_instr_2.render(instr_str_2,1,BLACK) g_scope.screen.blit(instr_1, (40, 240)) g_scope.screen.blit(instr_2, (40, 270)) # Draw entrants ent_title = font_ent_title.render('Contestants',1,BLACK) g_scope.screen.blit(ent_title, (40, 360)) ent_y = 390 for i in range(0, MAX_ENTRIES): ent_str = ''.join([str(i + 1), ': ']) if i < len(g_terms): ent_str = ''.join([ent_str, g_terms[i]]) ent_disp = font_ent.render(ent_str,1,BLACK) g_scope.screen.blit(ent_disp, (40, 390 + (i * 30))) # Test if a term is already in the term list def is_in_terms(entry): global g_terms for term in g_terms: if ''.join(['#', entry]) == term: return True return False #----------------------------------------------------------------------------- # Main #----------------------------------------------------------------------------- def <|fim_middle|>(): global g_bet_loop global g_scope global g_terms # Setup Twitter streamer tf = twit_feed.TwitFeed(AUTH) #tf = tf_test_02.TwitFeed(AUTH) # Tweet that we are accepting bets # Start streamer to search for terms tf.start_track_streamer(BET_TERM) # Setup display pygame.init() #g_scope = pyscope.pyscope() fps_clock = pygame.time.Clock() pygame.mouse.set_visible(False) # Main game loop g_bet_loop = False while g_bet_loop: # Handle game events for event in pygame.event.get(): # End game if quit event raises if event.type == pygame.QUIT: g_bet_loop = False # End game if 'q' or 'esc' key pressed elif event.type == pygame.KEYDOWN: if event.key == pygame.K_q or event.key == pygame.K_ESCAPE: g_bet_loop = False # Get entries and print them entries = tf.get_entries() for entry in entries: print entry if is_in_terms(entry) == False: g_terms.append(''.join(['#', entry])) print len(g_terms) if len(g_terms) >= MAX_ENTRIES: print 'breaking' g_bet_loop = False # Update screen draw_starting_screen() pygame.display.update() fps_clock.tick(FPS) # Clean up Twitter feed and pygame print str(pygame.time.get_ticks()) tf.stop_tracking() print str(pygame.time.get_ticks()) pygame.quit() # Print terms print 'Search terms: ', g_terms # Run main main() <|fim▁end|>
main
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent)<|fim▁hole|> self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event)<|fim▁end|>
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): <|fim_middle|> <|fim▁end|>
def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event)
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): <|fim_middle|> def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change)
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): <|fim_middle|> sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", }
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): <|fim_middle|> self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------')
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): <|fim_middle|> def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p)
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): <|fim_middle|> <|fim▁end|>
if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event)
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: <|fim_middle|> else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
childName = '.'.join(path)
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: <|fim_middle|> print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
childName = param.name()
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: <|fim_middle|> else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
self.hide() event.accept()
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: <|fim_middle|> <|fim▁end|>
super(QtGui.QDialog, self).keyPressEvent(event)
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def <|fim_middle|>(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
__init__
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def <|fim_middle|>(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
makeCheckBox
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def <|fim_middle|>(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
change
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def <|fim_middle|>(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def keyPressEvent(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
onPressAccepted
<|file_name|>bv_feature_selection.py<|end_file_name|><|fim▁begin|>import pyqtgraph as pg from pyqtgraph.Qt import QtGui, QtCore import numpy# from pyqtgraph.parametertree import Parameter, ParameterTree, ParameterItem, registerParameterType class FeatureSelectionDialog(QtGui.QDialog): def __init__(self,viewer, parent): super(FeatureSelectionDialog, self).__init__(parent) self.resize(800,600) self.viewer = viewer self.layout = QtGui.QVBoxLayout() self.setLayout(self.layout) self.buttonBox = QtGui.QDialogButtonBox(QtGui.QDialogButtonBox.Ok|QtGui.QDialogButtonBox.Cancel) self.buttonBox.accepted.connect(self.onPressAccepted) def makeCheckBox(name, val=True): return { 'name': name, 'type': 'bool', 'value': val, #'tip': "This is a checkbox", } sigmaOpt = {'name': 'sigma', 'type': 'str', 'value': '[0.0, 1.0, 2.0, 4.0]' } wardOpts = {'name': 'wardness', 'type': 'str', 'value': '[0.0, 0.1, 0.2]' } filterChild = [ makeCheckBox("computeFilter"), sigmaOpt, { 'name':'UCM', 'children': [ makeCheckBox("ucmFilters"), wardOpts, {'name': 'meanSign', 'type': 'float', 'value': '1.0' } ] } ] params = [ { 'name' : "RawData", 'type' : 'group', 'children' : [ { 'name': 'Compute Features On Raw Data', 'type': 'bool', 'value': True, 'tip': "This is a checkbox", }, { 'name' : "0-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "1-Order Filter", 'type' : 'group', 'children' : filterChild }, { 'name' : "2-Order Filter", 'type' : 'group', 'children' : filterChild } ] }, #ComplexParameter(name='Custom parameter group (reciprocal values)'), #ScalableGroup(name="Expandable Parameter Group", children=[ # {'name': 'ScalableParam 1', 'type': 'str', 'value': "default param 1"}, # {'name': 'ScalableParam 2', 'type': 'str', 'value': "default param 2"}, #]), ] ## Create tree of Parameter objects self.p = Parameter.create(name='params', type='group', children=params) self.t = ParameterTree() self.t.setParameters(self.p, showTop=False) self.layout.addWidget(self.t) self.layout.addWidget(self.buttonBox) ## If anything changes in the tree, print a message def change(param, changes): print("tree changes:") for param, change, data in changes: path = self.p.childPath(param) if path is not None: childName = '.'.join(path) else: childName = param.name() print(' parameter: %s'% childName) print(' change: %s'% change) print(' data: %s'% str(data)) print(' ----------') self.p.sigTreeStateChanged.connect(change) def onPressAccepted(self): self.hide() self.viewer.onClickedComputeFeaturesImpl(self.p) def <|fim_middle|>(self, event): if event.key() == QtCore.Qt.Key_Escape: self.hide() event.accept() else: super(QtGui.QDialog, self).keyPressEvent(event) <|fim▁end|>
keyPressEvent
<|file_name|>utils.py<|end_file_name|><|fim▁begin|>from django.contrib.gis.geoip2 import GeoIP2 from geoip2.errors import GeoIP2Error from ipware import get_client_ip def get_location_from_ip(request): client_ip, is_routable = get_client_ip(request) if client_ip is not None: g = GeoIP2() try: record = g.city(client_ip) except GeoIP2Error: return None if record:<|fim▁hole|> delimeter = ', ' if city and country else '' return f'{city}{delimeter}{country}' return None<|fim▁end|>
city = record.get('city') or '' country = record.get('country') or ''
<|file_name|>utils.py<|end_file_name|><|fim▁begin|>from django.contrib.gis.geoip2 import GeoIP2 from geoip2.errors import GeoIP2Error from ipware import get_client_ip def get_location_from_ip(request): <|fim_middle|> <|fim▁end|>
client_ip, is_routable = get_client_ip(request) if client_ip is not None: g = GeoIP2() try: record = g.city(client_ip) except GeoIP2Error: return None if record: city = record.get('city') or '' country = record.get('country') or '' delimeter = ', ' if city and country else '' return f'{city}{delimeter}{country}' return None
<|file_name|>utils.py<|end_file_name|><|fim▁begin|>from django.contrib.gis.geoip2 import GeoIP2 from geoip2.errors import GeoIP2Error from ipware import get_client_ip def get_location_from_ip(request): client_ip, is_routable = get_client_ip(request) if client_ip is not None: <|fim_middle|> return None <|fim▁end|>
g = GeoIP2() try: record = g.city(client_ip) except GeoIP2Error: return None if record: city = record.get('city') or '' country = record.get('country') or '' delimeter = ', ' if city and country else '' return f'{city}{delimeter}{country}'
<|file_name|>utils.py<|end_file_name|><|fim▁begin|>from django.contrib.gis.geoip2 import GeoIP2 from geoip2.errors import GeoIP2Error from ipware import get_client_ip def get_location_from_ip(request): client_ip, is_routable = get_client_ip(request) if client_ip is not None: g = GeoIP2() try: record = g.city(client_ip) except GeoIP2Error: return None if record: <|fim_middle|> return None <|fim▁end|>
city = record.get('city') or '' country = record.get('country') or '' delimeter = ', ' if city and country else '' return f'{city}{delimeter}{country}'
<|file_name|>utils.py<|end_file_name|><|fim▁begin|>from django.contrib.gis.geoip2 import GeoIP2 from geoip2.errors import GeoIP2Error from ipware import get_client_ip def <|fim_middle|>(request): client_ip, is_routable = get_client_ip(request) if client_ip is not None: g = GeoIP2() try: record = g.city(client_ip) except GeoIP2Error: return None if record: city = record.get('city') or '' country = record.get('country') or '' delimeter = ', ' if city and country else '' return f'{city}{delimeter}{country}' return None <|fim▁end|>
get_location_from_ip
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred <|fim▁hole|> if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et<|fim▁end|>
def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close()
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): <|fim_middle|> # vim:ts=4:sw=4:et <|fim▁end|>
"""Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): <|fim_middle|> def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): <|fim_middle|> def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed())
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): <|fim_middle|> def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction)
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): <|fim_middle|> def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction)
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): <|fim_middle|> # vim:ts=4:sw=4:et <|fim▁end|>
raise NotImplemented
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: <|fim_middle|> #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
opt.extend(["--set-selections-file", "%s" % tempf.name])
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: <|fim_middle|> cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
opt.extend(["--parent-window-id", "%s" % (xid)])
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: <|fim_middle|> if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
tempf.close()
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: <|fim_middle|> else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
deferred.callback()
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: <|fim_middle|> def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
deferred.errback(sessioninstaller.errors.ModifyFailed())
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def <|fim_middle|>(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
_run_synaptic
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def <|fim_middle|>(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
_on_synaptic_exit
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def <|fim_middle|>(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
remove_packages
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def <|fim_middle|>(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_package_files(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
install_packages
<|file_name|>synaptic.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python # -*- coding: utf-8 -*- """Make use of synaptic as backend.""" # Copyright (C) 2008-2010 Sebastian Heinlein <[email protected]> # Copyright (C) 2005-2007 Canonical # # Licensed under the GNU General Public License Version 2 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. __author__ = "Sebastian Heinlein <[email protected]>, " \ "Michael Vogt <[email protected]" import tempfile from gettext import gettext as _ from gi.repository import GObject from defer import Deferred import sessioninstaller.errors class SynapticBackend(object): """Make use of Synaptic to install and remove packages.""" def _run_synaptic(self, xid, opt, tempf, interaction): deferred = Deferred() if tempf: opt.extend(["--set-selections-file", "%s" % tempf.name]) #FIXME: Take interaction into account opt.extend(["-o", "Synaptic::closeZvt=true"]) if xid: opt.extend(["--parent-window-id", "%s" % (xid)]) cmd = ["/usr/bin/gksu", "--desktop", "/usr/share/applications/update-manager.desktop", "--", "/usr/sbin/synaptic", "--hide-main-window", "--non-interactive"] cmd.extend(opt) flags = GObject.SPAWN_DO_NOT_REAP_CHILD (pid, stdin, stdout, stderr) = GObject.spawn_async(cmd, flags=flags) GObject.child_watch_add(pid, self._on_synaptic_exit, (tempf, deferred)) return deferred def _on_synaptic_exit(self, pid, condition, (tempf, deferred)): if tempf: tempf.close() if condition == 0: deferred.callback() else: deferred.errback(sessioninstaller.errors.ModifyFailed()) def remove_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tuninstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def install_packages(self, xid, package_names, interaction): opt = [] # custom progress strings #opt.append("--progress-str") #opt.append("%s" % _("Please wait, this can take some time.")) #opt.append("--finish-str") #opt.append("%s" % _("Update is complete")) tempf = tempfile.NamedTemporaryFile() for pkg_name in package_names: tempf.write("%s\tinstall\n" % pkg_name) tempf.flush() return self._run_synaptic(xid, opt, tempf, interaction) def <|fim_middle|>(self, xid, package_names, interaction): raise NotImplemented # vim:ts=4:sw=4:et <|fim▁end|>
install_package_files
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv':<|fim▁hole|> labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close()<|fim▁end|>
# we can use the Allars label too
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): <|fim_middle|> def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): <|fim_middle|> concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']]
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): <|fim_middle|> def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json()
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): <|fim_middle|> def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels <|fim_middle|> for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts)))
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: <|fim_middle|> return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
concept['alts'] = row['alts']['value']
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: <|fim_middle|> if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
texts.append(rec['title'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: <|fim_middle|> return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
for summary in rec['summary']: texts.append(summary)
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too <|fim_middle|> if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
labels.append(concept['ysapref'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too <|fim_middle|> if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
labels.append(concept['allarspref'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: <|fim_middle|> labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
labels.append(concept['alts'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: <|fim_middle|> # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
texts += records_to_texts(response['records'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: <|fim_middle|> # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
texts += records_to_texts(response['records'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: <|fim_middle|> return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
texts += records_to_texts(response['records'])
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): <|fim_middle|> text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
continue
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: <|fim_middle|> print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1)
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def <|fim_middle|>(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
row_to_concept
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def <|fim_middle|>(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
get_concepts
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def <|fim_middle|>(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
search_finna
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def <|fim_middle|>(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def generate_text(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
records_to_texts
<|file_name|>create_corpus_yso_finna.py<|end_file_name|><|fim▁begin|>#!/usr/bin/env python3 from SPARQLWrapper import SPARQLWrapper, JSON import requests import re import os import os.path import time import sys FINTO_ENDPOINT='http://api.dev.finto.fi/sparql' FINNA_API_SEARCH='https://api.finna.fi/v1/search' lang = sys.argv[1] # map ISO 639-1 language codes into the ISO 639-2 codes that Finna uses LANGMAP = { 'fi': 'fin', 'sv': 'swe', 'en': 'eng' } def row_to_concept(row): concept = {'uri': row['c']['value'], 'pref': row['pref']['value'], 'ysapref': row['ysapref']['value'], 'allarspref': row['allarspref']['value']} if 'alts' in row: concept['alts'] = row['alts']['value'] return concept def get_concepts(lang): sparql = SPARQLWrapper(FINTO_ENDPOINT) sparql.setQuery(""" PREFIX skos: <http://www.w3.org/2004/02/skos/core#> PREFIX owl: <http://www.w3.org/2002/07/owl#> PREFIX ysometa: <http://www.yso.fi/onto/yso-meta/> SELECT ?c ?pref (GROUP_CONCAT(?alt) AS ?alts) ?ysapref ?allarspref WHERE { GRAPH <http://www.yso.fi/onto/yso/> { ?c a skos:Concept . ?c skos:prefLabel ?pref . FILTER(LANG(?pref)='%s') OPTIONAL { ?c skos:altLabel ?alt . FILTER(LANG(?alt)='%s') } FILTER NOT EXISTS { ?c owl:deprecated true } FILTER NOT EXISTS { ?c a ysometa:Hierarchy } } GRAPH <http://www.yso.fi/onto/ysa/> { ?ysac skos:closeMatch|skos:exactMatch ?c . ?ysac skos:prefLabel ?ysapref . } GRAPH <http://www.yso.fi/onto/allars/> { ?allarsc skos:closeMatch|skos:exactMatch ?c . ?allarsc skos:prefLabel ?allarspref . } } GROUP BY ?c ?pref ?ysapref ?allarspref #LIMIT 500 """ % (lang, lang)) sparql.setReturnFormat(JSON) results = sparql.query().convert() return [row_to_concept(row) for row in results['results']['bindings']] concepts = get_concepts(lang) def search_finna(params): r = requests.get(FINNA_API_SEARCH, params=params, headers={'User-agent': 'annif 0.1'}) return r.json() def records_to_texts(records): texts = [] for rec in records: if 'title' in rec: texts.append(rec['title']) if 'summary' in rec: for summary in rec['summary']: texts.append(summary) return texts def <|fim_middle|>(concept, lang): # start with pref- and altlabels labels = [concept['pref']] if lang == 'fi': # we can use the YSA label too labels.append(concept['ysapref']) if lang == 'sv': # we can use the Allars label too labels.append(concept['allarspref']) if 'alts' in concept: labels.append(concept['alts']) labels = ' '.join(labels) # look for more text in Finna API texts = [] fields = ['title','summary'] finnaterms = (concept['ysapref'], concept['allarspref']) finnalang = LANGMAP[lang] # Search type 1: exact matches using topic facet params = {'lookfor': 'topic_facet:"%s" OR topic_facet:"%s"' % finnaterms, 'filter[]': 'language:%s' % finnalang, 'lng':lang, 'limit':100, 'field[]':fields} response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 2: exact matches using Subject search params['lookfor'] = '"%s" OR "%s"' % finnaterms params['type'] = 'Subject' response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) # Search type 3: fuzzy matches using Subject search params['lookfor'] = '(%s) OR (%s)' % finnaterms response = search_finna(params) if 'records' in response: texts += records_to_texts(response['records']) return "\n".join([labels] + list(set(texts))) for concept in concepts: localname = concept['uri'].split('/')[-1] outfile = 'corpus/%s-%s.raw' % (localname, lang) if os.path.exists(outfile): continue text = None tries = 0 while tries < 10: try: text = generate_text(concept, lang) break except: # failure, try again until tries exhausted tries += 1 print("Error generating text for concept %s, trying again (attempt %d)" % (concept['uri'], tries)) time.sleep(tries) # wait progressively longer between attempts if text is None: print("Failed looking up concept %s, exiting" % concept['uri']) sys.exit(1) print(localname, lang, concept['pref'], concept['ysapref'], concept['allarspref'], len(text.split())) f = open(outfile, 'w') print (concept['uri'], concept['pref'], file=f) print (text, file=f) f.close() <|fim▁end|>
generate_text
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"):<|fim▁hole|> registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main()<|fim▁end|>
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): <|fim_middle|> class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap"))
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): <|fim_middle|> def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
registry._reset()
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): <|fim_middle|> def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
@registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1)
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): <|fim_middle|> model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): <|fim_middle|> def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
@registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1)
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): <|fim_middle|> model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): <|fim_middle|> def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
@registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn)
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): <|fim_middle|> model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): <|fim_middle|> def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered")
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): <|fim_middle|> def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
@registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): <|fim_middle|> with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): <|fim_middle|> def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): <|fim_middle|> def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
@registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models()))
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): <|fim_middle|> @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): <|fim_middle|> self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): <|fim_middle|> class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap"))
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): <|fim_middle|> class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
def setUp(self): registry._reset() def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): <|fim_middle|> def testHParamSet(self): @registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range) def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
registry._reset()
<|file_name|>registry_test.py<|end_file_name|><|fim▁begin|># coding=utf-8 # Copyright 2017 The DLT2T Authors. # # 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. """Tests for DLT2T.registry.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function # Dependency imports from DLT2T.utils import modality from DLT2T.utils import registry from DLT2T.utils import t2t_model import tensorflow as tf # pylint: disable=unused-variable class ModelRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testT2TModelRegistration(self): @registry.register_model class MyModel1(t2t_model.T2TModel): pass model = registry.model("my_model1") self.assertTrue(model is MyModel1) def testNamedRegistration(self): @registry.register_model("model2") class MyModel1(t2t_model.T2TModel): pass model = registry.model("model2") self.assertTrue(model is MyModel1) def testNonT2TModelRegistration(self): @registry.register_model def model_fn(): pass model = registry.model("model_fn") self.assertTrue(model is model_fn) def testUnknownModel(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.model("not_registered") def testDuplicateRegistration(self): @registry.register_model def m1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_model("m1") def m2(): pass def testListModels(self): @registry.register_model def m1(): pass @registry.register_model def m2(): pass self.assertSetEqual(set(["m1", "m2"]), set(registry.list_models())) def testSnakeCase(self): convert = registry._convert_camel_to_snake self.assertEqual("typical_camel_case", convert("TypicalCamelCase")) self.assertEqual("numbers_fuse2gether", convert("NumbersFuse2gether")) self.assertEqual("numbers_fuse2_gether", convert("NumbersFuse2Gether")) self.assertEqual("lstm_seq2_seq", convert("LSTMSeq2Seq")) self.assertEqual("starts_lower", convert("startsLower")) self.assertEqual("starts_lower_caps", convert("startsLowerCAPS")) self.assertEqual("caps_fuse_together", convert("CapsFUSETogether")) self.assertEqual("startscap", convert("Startscap")) self.assertEqual("s_tartscap", convert("STartscap")) class HParamRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testHParamSet(self): <|fim_middle|> def testNamedRegistration(self): @registry.register_hparams("a") def my_hparams_set(): pass @registry.register_ranged_hparams("a") def my_hparams_range(_): pass self.assertTrue(registry.hparams("a") is my_hparams_set) self.assertTrue(registry.ranged_hparams("a") is my_hparams_range) def testUnknownHparams(self): with self.assertRaisesRegexp(LookupError, "never registered"): registry.hparams("not_registered") with self.assertRaisesRegexp(LookupError, "never registered"): registry.ranged_hparams("not_registered") def testDuplicateRegistration(self): @registry.register_hparams def hp1(): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_hparams("hp1") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass with self.assertRaisesRegexp(LookupError, "already registered"): @registry.register_ranged_hparams("rhp1") def rhp2(_): pass def testListHparams(self): @registry.register_hparams def hp1(): pass @registry.register_hparams("hp2_named") def hp2(): pass @registry.register_ranged_hparams def rhp1(_): pass @registry.register_ranged_hparams("rhp2_named") def rhp2(_): pass self.assertSetEqual(set(["hp1", "hp2_named"]), set(registry.list_hparams())) self.assertSetEqual( set(["rhp1", "rhp2_named"]), set(registry.list_ranged_hparams())) def testRangeSignatureCheck(self): with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad(): pass with self.assertRaisesRegexp(ValueError, "must take a single argument"): @registry.register_ranged_hparams def rhp_bad2(a, b): # pylint: disable=unused-argument pass class ModalityRegistryTest(tf.test.TestCase): def setUp(self): registry._reset() def testModalityRegistration(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass self.assertTrue( registry.symbol_modality("my_symbol_modality") is MySymbolModality) self.assertTrue( registry.audio_modality("my_audio_modality") is MyAudioModality) self.assertTrue( registry.image_modality("my_image_modality") is MyImageModality) self.assertTrue( registry.class_label_modality("my_class_label_modality") is MyClassLabelModality) def testDefaultNameLookup(self): @registry.register_symbol_modality("default") class MyDefaultModality(modality.Modality): pass self.assertTrue(registry.symbol_modality() is MyDefaultModality) def testList(self): @registry.register_symbol_modality class MySymbolModality(modality.Modality): pass @registry.register_audio_modality class MyAudioModality(modality.Modality): pass @registry.register_image_modality class MyImageModality(modality.Modality): pass @registry.register_class_label_modality class MyClassLabelModality(modality.Modality): pass expected = [ "symbol:my_symbol_modality", "audio:my_audio_modality", "image:my_image_modality", "class_label:my_class_label_modality" ] self.assertSetEqual(set(registry.list_modalities()), set(expected)) if __name__ == "__main__": tf.test.main() <|fim▁end|>
@registry.register_hparams def my_hparams_set(): pass @registry.register_ranged_hparams def my_hparams_range(_): pass self.assertTrue(registry.hparams("my_hparams_set") is my_hparams_set) self.assertTrue( registry.ranged_hparams("my_hparams_range") is my_hparams_range)