def build(self, corpora, working_dir='.', log_file=None):
if not os.path.isdir(working_dir):
fileutils.makedirs(working_dir, exist_ok=True)
if not os.path.isdir(self._model):
fileutils.makedirs(self._model, exist_ok=True)
merged_corpus = BilingualCorpus.make_parallel(
'merge', working_dir, (self._source_lang, self._target_lang))
fileutils.merge(
[corpus.get_file(self._source_lang) for corpus in corpora],
merged_corpus.get_file(self._source_lang))
fileutils.merge(
[corpus.get_file(self._target_lang) for corpus in corpora],
merged_corpus.get_file(self._target_lang))
log = shell.DEVNULL
try:
if log_file is not None:
log = open(log_file, 'a')
# Train model
command = [
self._build_bin, '-s',
merged_corpus.get_file(self._source_lang), '-t',
merged_corpus.get_file(self._target_lang), '-m', self._model,
'-I', '4'
]
shell.execute(command, stderr=log)
finally:
if log_file is not None:
log.close()
def build(self, corpora, working_dir='.', log_file=None):
if not os.path.isdir(working_dir):
fileutils.makedirs(working_dir, exist_ok=True)
if not os.path.isdir(self._model):
fileutils.makedirs(self._model, exist_ok=True)
merged_corpus = BilingualCorpus.make_parallel('merge', working_dir, (self._source_lang, self._target_lang))
fileutils.merge([corpus.get_file(self._source_lang) for corpus in corpora],
merged_corpus.get_file(self._source_lang))
fileutils.merge([corpus.get_file(self._target_lang) for corpus in corpora],
merged_corpus.get_file(self._target_lang))
log = shell.DEVNULL
try:
if log_file is not None:
log = open(log_file, 'a')
# Train model
command = [self._build_bin,
'-s', merged_corpus.get_file(self._source_lang), '-t', merged_corpus.get_file(self._target_lang),
'-m', self._model, '-I', '4']
shell.execute(command, stderr=log)
finally:
if log_file is not None:
log.close()
def train(self, corpora, lang, working_dir='.', log_file=None):
LanguageModel.train(self, corpora, lang, working_dir, log_file)
log = shell.DEVNULL
try:
if log_file is not None:
log = open(log_file, 'w') if isinstance(log_file, str) else log_file
# Collapse all corpora into a single text file
merged_corpus = os.path.join(working_dir, 'merge')
fileutils.merge([corpus.get_file(lang) for corpus in corpora], merged_corpus)
# Create language model in ARPA format
arpa_file = os.path.join(working_dir, 'lm.arpa')
arpa_command = [self._lmplz_bin, '--discount_fallback', '-o', str(self._order),
'-S', str(self.get_mem_percent()) + '%', '-T', working_dir]
if self._order > 2 and self.prune:
arpa_command += ['--prune', '0', '0', '1']
with open(merged_corpus) as stdin:
with open(arpa_file, 'w') as stdout:
shell.execute(arpa_command, stdin=stdin, stdout=stdout, stderr=log)
# Binarize ARPA file
binarize_command = [self._bbinary_bin, arpa_file, self._model]
shell.execute(binarize_command, stdout=log, stderr=log)
finally:
if log_file is not None and isinstance(log_file, str):
log.close()
def build(self, corpora, working_dir='.', log=None):
if log is None:
log = shell.DEVNULL
shutil.rmtree(self._model, ignore_errors=True)
fileutils.makedirs(self._model, exist_ok=True)
if not os.path.isdir(working_dir):
fileutils.makedirs(working_dir, exist_ok=True)
merged_corpus = BilingualCorpus.make_parallel(
'merge', working_dir, (self._source_lang, self._target_lang))
fileutils.merge(
[corpus.get_file(self._source_lang) for corpus in corpora],
merged_corpus.get_file(self._source_lang))
fileutils.merge(
[corpus.get_file(self._target_lang) for corpus in corpora],
merged_corpus.get_file(self._target_lang))
command = [
self._build_bin, '-s',
merged_corpus.get_file(self._source_lang), '-t',
merged_corpus.get_file(self._target_lang), '-m', self._model, '-I',
'4'
]
shell.execute(command, stdout=log, stderr=log)
def train(self, corpora, lang, working_dir='.', log=None):
if log is None:
log = shell.DEVNULL
LanguageModel.train(self, corpora, lang, working_dir, log)
# Collapse all corpora into a single text file
merged_corpus = os.path.join(working_dir, 'merge')
fileutils.merge([corpus.get_file(lang) for corpus in corpora],
merged_corpus)
# Create language model in ARPA format
arpa_file = os.path.join(working_dir, 'lm.arpa')
arpa_command = [
self._lmplz_bin, '--discount_fallback', '-o',
str(self._order), '-S',
str(self.get_mem_percent()) + '%', '-T', working_dir
]
if self._order > 2 and self.prune:
arpa_command += ['--prune', '0', '0', '1']
with open(merged_corpus) as stdin:
with open(arpa_file, 'w') as stdout:
shell.execute(arpa_command,
stdin=stdin,
stdout=stdout,
stderr=log)
# Binarize ARPA file
binarize_command = [self._bbinary_bin, arpa_file, self._model]
shell.execute(binarize_command, stdout=log, stderr=log)
def train(self, corpora, lang, working_dir='.', log_file=None):
LanguageModel.train(self, corpora, lang, working_dir, log_file)
bicorpora = []
for corpus in corpora:
if len(corpus.langs) > 1:
bicorpora.append(corpus)
log = shell.DEVNULL
try:
if log_file is not None:
log = open(log_file, 'w')
fileutils.makedirs(self._model, exist_ok=True)
# Train static LM
static_lm_model = os.path.join(self._model, 'background.slm')
static_lm_wdir = os.path.join(working_dir, 'slm.temp')
fileutils.makedirs(static_lm_wdir, exist_ok=True)
merged_corpus = os.path.join(working_dir, 'merged_corpus')
fileutils.merge([corpus.get_file(lang) for corpus in corpora],
merged_corpus)
command = [
self._create_slm_bin, '--discount_fallback', '-o',
str(self._order), '--model', static_lm_model, '-S',
str(KenLM.get_mem_percent()) + '%', '-T', static_lm_wdir
]
if self._order > 2 and self.prune:
command += ['--prune', '0', '0', '1']
with open(merged_corpus) as stdin:
shell.execute(command, stdin=stdin, stdout=log, stderr=log)
# Create AdaptiveLM training folder
alm_train_folder = os.path.join(working_dir, 'alm_train')
fileutils.makedirs(alm_train_folder, exist_ok=True)
for corpus in bicorpora:
os.symlink(
corpus.get_file(lang),
os.path.join(alm_train_folder, corpus.name + '.' + lang))
# Train adaptive LM
adaptive_lm_model = os.path.join(self._model, 'foreground.alm')
fileutils.makedirs(adaptive_lm_model, exist_ok=True)
command = [
self._create_alm_bin, '-m', adaptive_lm_model, '-i',
alm_train_folder, '-b', '100000000'
]
shell.execute(command, stdout=log, stderr=log)
finally:
if log_file is not None:
log.close()
def train(self, corpora, lang, working_dir='.', log=None):
if log is None:
log = shell.DEVNULL
bicorpora = []
for corpus in corpora:
if len(corpus.langs) > 1:
bicorpora.append(corpus)
shutil.rmtree(self._model, ignore_errors=True)
fileutils.makedirs(self._model, exist_ok=True)
if not os.path.isdir(working_dir):
fileutils.makedirs(working_dir, exist_ok=True)
# Train static LM
static_lm_model = os.path.join(self._model, 'background.slm')
static_lm_wdir = os.path.join(working_dir, 'slm.temp')
fileutils.makedirs(static_lm_wdir, exist_ok=True)
merged_corpus = os.path.join(working_dir, 'merged_corpus')
fileutils.merge([corpus.get_file(lang) for corpus in corpora],
merged_corpus)
command = [
self._create_slm_bin, '--discount-fallback', '-o',
str(self._order), '-a',
str(self._compression), '-q',
str(self._quantization), '--type', 'trie', '--model',
static_lm_model, '-T', static_lm_wdir
]
if self._order > 2 and self._prune:
command += ['--prune', '0', '1', '2']
with open(merged_corpus) as stdin:
shell.execute(command, stdin=stdin, stdout=log, stderr=log)
# Create AdaptiveLM training folder
alm_train_folder = os.path.join(working_dir, 'alm_train')
fileutils.makedirs(alm_train_folder, exist_ok=True)
for corpus in bicorpora:
os.symlink(
corpus.get_file(lang),
os.path.join(alm_train_folder, corpus.name + '.' + lang))
# Train adaptive LM
adaptive_lm_model = os.path.join(self._model, 'foreground.alm')
fileutils.makedirs(adaptive_lm_model, exist_ok=True)
command = [
self._create_alm_bin, '-m', adaptive_lm_model, '-i',
alm_train_folder, '-b', '50000000'
]
shell.execute(command, stdout=log, stderr=log)
def train(self, corpora, aligner, working_dir='.', log_file=None):
if os.path.isdir(self._model) and len(os.listdir(self._model)) > 0:
raise Exception('Model already exists at ' + self._model)
if not os.path.isdir(self._model):
fileutils.makedirs(self._model, exist_ok=True)
if not os.path.isdir(working_dir):
fileutils.makedirs(working_dir, exist_ok=True)
l1 = self._source_lang
l2 = self._target_lang
langs = (l1, l2)
langs_suffix = l1 + '-' + l2
mct_base = self._get_model_basename()
dmp_file = mct_base + '.dmp'
mam_file = mct_base + '.' + langs_suffix + '.mam'
lex_file = mct_base + '.' + langs_suffix + '.lex'
log = shell.DEVNULL
try:
if log_file is not None:
log = open(log_file, 'a')
# Clean corpus for training
clean_output = os.path.join(working_dir, 'clean_corpora')
fileutils.makedirs(clean_output, exist_ok=True)
corpora = self._cleaner.clean(corpora, clean_output, (self._source_lang, self._target_lang))
# Create merged corpus and domains list file (dmp)
merged_corpus = BilingualCorpus.make_parallel(os.path.basename(mct_base), working_dir, langs)
fileutils.merge([corpus.get_file(l1) for corpus in corpora], merged_corpus.get_file(l1))
fileutils.merge([corpus.get_file(l2) for corpus in corpora], merged_corpus.get_file(l2))
with open(dmp_file, 'w') as dmp:
for corpus in corpora:
dmp.write(str(corpus.name) + ' ' + str(corpus.count_lines()) + '\n')
# Create alignments in 'bal' file and symmetrize
bal_file = aligner.align(merged_corpus, langs, self._model, working_dir, log_file)
symal_file = os.path.join(working_dir, 'alignments.' + langs_suffix + '.symal')
symal_command = [self._symal_bin, '-a=g', '-d=yes', '-f=yes', '-b=yes']
with open(bal_file) as stdin:
with open(symal_file, 'w') as stdout:
shell.execute(symal_command, stdin=stdin, stdout=stdout, stderr=log)
# Execute mtt-build
mttbuild_command = self._get_mttbuild_command(mct_base, dmp_file, l1)
with open(merged_corpus.get_file(l1)) as stdin:
shell.execute(mttbuild_command, stdin=stdin, stdout=log, stderr=log)
mttbuild_command = self._get_mttbuild_command(mct_base, dmp_file, l2)
with open(merged_corpus.get_file(l2)) as stdin:
shell.execute(mttbuild_command, stdin=stdin, stdout=log, stderr=log)
# Create 'mam' file
mam_command = [self._symal2mam_bin, mam_file]
with open(symal_file) as stdin:
shell.execute(mam_command, stdin=stdin, stdout=log, stderr=log)
# Create 'lex' file
lex_command = [self._mmlexbuild_bin, mct_base + '.', l1, l2, '-o', lex_file]
shell.execute(lex_command, stdout=log, stderr=log)
finally:
if log_file is not None:
log.close()
def tune(self,
corpora=None,
debug=False,
context_enabled=True,
random_seeds=False,
max_iterations=25,
early_stopping_value=None):
if corpora is None:
corpora = BilingualCorpus.list(
os.path.join(self.engine.data_path,
TrainingPreprocessor.DEV_FOLDER_NAME))
target_lang = self.engine.target_lang
source_lang = self.engine.source_lang
corpora = [
corpus for corpus in corpora
if source_lang in corpus.langs and target_lang in corpus.langs
]
if len(corpora) == 0:
raise IllegalArgumentException(
'No %s > %s corpora found into specified path' %
(source_lang, target_lang))
source_corpora = [
BilingualCorpus.make_parallel(corpus.name, corpus.get_folder(),
[source_lang]) for corpus in corpora
]
reference_corpora = [
BilingualCorpus.make_parallel(corpus.name, corpus.get_folder(),
[target_lang]) for corpus in corpora
]
cmdlogger = _tuning_logger(4)
cmdlogger.start(self, corpora)
working_dir = self.engine.get_tempdir('tuning')
mert_wd = os.path.join(working_dir, 'mert')
try:
# Tokenization
tokenizer = Tokenizer(target_lang)
tokenized_output = os.path.join(working_dir, 'reference_corpora')
fileutils.makedirs(tokenized_output, exist_ok=True)
with cmdlogger.step('Corpora tokenization') as _:
reference_corpora = tokenizer.process_corpora(
reference_corpora, tokenized_output)
# Create merged corpus
with cmdlogger.step('Merging corpus') as _:
# source
source_merged_corpus = os.path.join(working_dir,
'corpus.' + source_lang)
with open(source_merged_corpus, 'wb') as out:
for corpus in source_corpora:
out.write(corpus.get_file(source_lang) + '\n')
# target
target_merged_corpus = os.path.join(working_dir,
'corpus.' + target_lang)
fileutils.merge([
corpus.get_file(target_lang)
for corpus in reference_corpora
], target_merged_corpus)
# Run MERT algorithm
with cmdlogger.step('Tuning') as _:
# Start MERT
decoder_flags = ['--port', str(self.api.port)]
if self.api.root is not None:
decoder_flags += ['--root', self.api.root]
if not context_enabled:
decoder_flags.append('--skip-context-analysis')
decoder_flags.append('1')
fileutils.makedirs(mert_wd, exist_ok=True)
with tempfile.NamedTemporaryFile() as runtime_moses_ini:
command = [
self._mert_script, source_merged_corpus,
target_merged_corpus, self._mert_i_script,
runtime_moses_ini.name, '--threads',
str(multiprocessing.cpu_count()), '--mertdir',
cli.BIN_DIR, '--mertargs',
'\'--binary --sctype BLEU\'', '--working-dir', mert_wd,
'--nbest', '100', '--decoder-flags',
'"' + ' '.join(decoder_flags) + '"', '--nonorm',
'--closest', '--no-filter-phrase-table'
]
if early_stopping_value is not None:
command += [
'--bleuscorer', self._scorer_script,
'--bleuscorer-flags "-nt" --early-stopping-value %d'
% early_stopping_value
]
if not random_seeds:
command.append('--predictable-seeds')
if max_iterations > 0:
command.append('--maximum-iterations={num}'.format(
num=max_iterations))
with open(self.engine.get_logfile('mert'), 'wb') as log:
shell.execute(' '.join(command),
stdout=log,
stderr=log)
# Read optimized configuration
with cmdlogger.step('Applying changes') as _:
bleu_score = 0
weights = {}
found_weights = False
with open(os.path.join(mert_wd, 'moses.ini')) as moses_ini:
for line in moses_ini:
line = line.strip()
if len(line) == 0:
continue
elif found_weights:
tokens = line.split()
weights[tokens[0].rstrip('=')] = [
float(val) for val in tokens[1:]
]
elif line.startswith('# BLEU'):
bleu_score = float(line.split()[2])
elif line == '[weight]':
found_weights = True
_ = self.api.update_features(weights)
cmdlogger.completed(bleu_score)
finally:
if not debug:
self.engine.clear_tempdir("tuning")
def evaluate(self, corpora, heval_output=None, debug=False):
target_lang = self._engine.target_lang
source_lang = self._engine.source_lang
corpora = [corpus for corpus in corpora if source_lang in corpus.langs and target_lang in corpus.langs]
if len(corpora) == 0:
raise IllegalArgumentException('No %s > %s corpora found into specified path' % (source_lang, target_lang))
if heval_output is not None:
fileutils.makedirs(heval_output, exist_ok=True)
logger = _evaluate_logger()
logger.start(corpora)
working_dir = self._engine.get_tempdir('evaluation')
try:
results = []
# Process references
with logger.step('Preparing corpora') as _:
corpora_path = os.path.join(working_dir, 'corpora')
corpora = self._xmlencoder.encode(corpora, corpora_path)
reference = os.path.join(working_dir, 'reference.' + target_lang)
source = os.path.join(working_dir, 'source.' + source_lang)
fileutils.merge([corpus.get_file(target_lang) for corpus in corpora], reference)
fileutils.merge([corpus.get_file(source_lang) for corpus in corpora], source)
if heval_output is not None:
self._heval_outputter.write(lang=target_lang, input_file=reference,
output_file=os.path.join(heval_output, 'reference.' + target_lang))
self._heval_outputter.write(lang=source_lang, input_file=source,
output_file=os.path.join(heval_output, 'source.' + source_lang))
# Translate
for translator in self._translators:
name = translator.name()
with logger.step('Translating with %s' % name) as _:
result = _EvaluationResult(translator)
results.append(result)
translations_path = os.path.join(working_dir, 'translations', result.id + '.raw')
xmltranslations_path = os.path.join(working_dir, 'translations', result.id)
fileutils.makedirs(translations_path, exist_ok=True)
try:
translated, mtt, parallelism = translator.translate(corpora, translations_path)
filename = result.id + '.' + target_lang
result.mtt = mtt
result.parallelism = parallelism
result.translated_corpora = self._xmlencoder.encode(translated, xmltranslations_path)
result.merge = os.path.join(working_dir, filename)
fileutils.merge([corpus.get_file(target_lang)
for corpus in result.translated_corpora], result.merge)
if heval_output is not None:
self._heval_outputter.write(lang=target_lang, input_file=result.merge,
output_file=os.path.join(heval_output, filename))
except TranslateError as e:
result.error = e
except Exception as e:
result.error = TranslateError('Unexpected ERROR: ' + str(e.message))
# Check corpora length
reference_lines = fileutils.linecount(reference)
for result in results:
if result.error is not None:
continue
lines = fileutils.linecount(result.merge)
if lines != reference_lines:
raise TranslateError('Invalid line count for translator %s: expected %d, found %d.'
% (result.translator.name(), reference_lines, lines))
# Scoring
scorers = [(MatecatScore(), 'pes'), (BLEUScore(), 'bleu')]
for scorer, field in scorers:
with logger.step('Calculating %s' % scorer.name()) as _:
for result in results:
if result.error is not None:
continue
setattr(result, field, scorer.calculate(result.merge, reference))
logger.completed(results, scorers)
return results
finally:
if not debug:
self._engine.clear_tempdir('evaluation')
def evaluate(self, corpora, heval_output=None, debug=False):
if len(corpora) == 0:
raise IllegalArgumentException('empty corpora')
if heval_output is not None:
fileutils.makedirs(heval_output, exist_ok=True)
target_lang = self._engine.target_lang
source_lang = self._engine.source_lang
logger = _evaluate_logger()
logger.start(corpora)
working_dir = self._engine.get_tempdir('evaluation')
try:
results = []
# Process references
with logger.step('Preparing corpora') as _:
corpora_path = os.path.join(working_dir, 'corpora')
corpora = self._xmlencoder.encode(corpora, corpora_path)
reference = os.path.join(working_dir, 'reference.' + target_lang)
source = os.path.join(working_dir, 'source.' + source_lang)
fileutils.merge([corpus.get_file(target_lang) for corpus in corpora], reference)
fileutils.merge([corpus.get_file(source_lang) for corpus in corpora], source)
if heval_output is not None:
self._heval_outputter.write(lang=target_lang, input_file=reference,
output_file=os.path.join(heval_output, 'reference.' + target_lang))
self._heval_outputter.write(lang=source_lang, input_file=source,
output_file=os.path.join(heval_output, 'source.' + source_lang))
# Translate
for translator in self._translators:
name = translator.name()
with logger.step('Translating with %s' % name) as _:
result = _EvaluationResult(translator)
results.append(result)
translations_path = os.path.join(working_dir, 'translations', result.id + '.raw')
xmltranslations_path = os.path.join(working_dir, 'translations', result.id)
fileutils.makedirs(translations_path, exist_ok=True)
try:
translated, mtt, parallelism = translator.translate(corpora, translations_path)
filename = result.id + '.' + target_lang
result.mtt = mtt
result.parallelism = parallelism
result.translated_corpora = self._xmlencoder.encode(translated, xmltranslations_path)
result.merge = os.path.join(working_dir, filename)
fileutils.merge([corpus.get_file(target_lang)
for corpus in result.translated_corpora], result.merge)
if heval_output is not None:
self._heval_outputter.write(lang=target_lang, input_file=result.merge,
output_file=os.path.join(heval_output, filename))
except TranslateError as e:
result.error = e
except Exception as e:
result.error = TranslateError('Unexpected ERROR: ' + str(e.message))
# Check corpora length
reference_lines = fileutils.linecount(reference)
for result in results:
if result.error is not None:
continue
lines = fileutils.linecount(result.merge)
if lines != reference_lines:
raise TranslateError('Invalid line count for translator %s: expected %d, found %d.'
% (result.translator.name(), reference_lines, lines))
# Scoring
scorers = [(MatecatScore(), 'pes'), (BLEUScore(), 'bleu')]
for scorer, field in scorers:
with logger.step('Calculating %s' % scorer.name()) as _:
for result in results:
if result.error is not None:
continue
setattr(result, field, scorer.calculate(result.merge, reference))
logger.completed(results, scorers)
return results
finally:
if not debug:
self._engine.clear_tempdir('evaluation')
def tune(self, corpora=None, debug=False, context_enabled=True, random_seeds=False, max_iterations=25):
if corpora is None:
corpora = BilingualCorpus.list(os.path.join(self.engine.data_path, TrainingPreprocessor.DEV_FOLDER_NAME))
if len(corpora) == 0:
raise IllegalArgumentException('empty corpora')
if not self.is_running():
raise IllegalStateException('No MMT Server running, start the engine first')
tokenizer = Tokenizer()
target_lang = self.engine.target_lang
source_lang = self.engine.source_lang
source_corpora = [BilingualCorpus.make_parallel(corpus.name, corpus.get_folder(), [source_lang])
for corpus in corpora]
reference_corpora = [BilingualCorpus.make_parallel(corpus.name, corpus.get_folder(), [target_lang])
for corpus in corpora]
cmdlogger = _tuning_logger(4)
cmdlogger.start(self, corpora)
working_dir = self.engine.get_tempdir('tuning')
mert_wd = os.path.join(working_dir, 'mert')
try:
# Tokenization
tokenized_output = os.path.join(working_dir, 'reference_corpora')
fileutils.makedirs(tokenized_output, exist_ok=True)
with cmdlogger.step('Corpora tokenization') as _:
reference_corpora = tokenizer.process_corpora(reference_corpora, tokenized_output)
# Create merged corpus
with cmdlogger.step('Merging corpus') as _:
# source
source_merged_corpus = os.path.join(working_dir, 'corpus.' + source_lang)
with open(source_merged_corpus, 'wb') as out:
for corpus in source_corpora:
out.write(corpus.get_file(source_lang) + '\n')
# target
target_merged_corpus = os.path.join(working_dir, 'corpus.' + target_lang)
fileutils.merge([corpus.get_file(target_lang) for corpus in reference_corpora], target_merged_corpus)
# Run MERT algorithm
with cmdlogger.step('Tuning') as _:
# Start MERT
decoder_flags = ['--port', str(self.api.port)]
if not context_enabled:
decoder_flags.append('--skip-context-analysis')
decoder_flags.append('1')
fileutils.makedirs(mert_wd, exist_ok=True)
with tempfile.NamedTemporaryFile() as runtime_moses_ini:
command = [self._mert_script, source_merged_corpus, target_merged_corpus,
self._mert_i_script, runtime_moses_ini.name, '--threads',
str(multiprocessing.cpu_count()), '--mertdir', cli.BIN_DIR,
'--mertargs', '\'--binary --sctype BLEU\'', '--working-dir', mert_wd, '--nbest', '100',
'--decoder-flags', '"' + ' '.join(decoder_flags) + '"', '--nonorm', '--closest',
'--no-filter-phrase-table']
if not random_seeds:
command.append('--predictable-seeds')
if max_iterations > 0:
command.append('--maximum-iterations={num}'.format(num=max_iterations))
with open(self.engine.get_logfile('mert'), 'wb') as log:
shell.execute(' '.join(command), stdout=log, stderr=log)
# Read optimized configuration
with cmdlogger.step('Applying changes') as _:
bleu_score = 0
weights = {}
found_weights = False
with open(os.path.join(mert_wd, 'moses.ini')) as moses_ini:
for line in moses_ini:
line = line.strip()
if len(line) == 0:
continue
elif found_weights:
tokens = line.split()
weights[tokens[0].rstrip('=')] = [float(val) for val in tokens[1:]]
elif line.startswith('# BLEU'):
bleu_score = float(line.split()[2])
elif line == '[weight]':
found_weights = True
_ = self.api.update_features(weights)
cmdlogger.completed(bleu_score)
finally:
if not debug:
self.engine.clear_tempdir()
def translate(self, corpora, dest_path=None, debug=False):
if len(corpora) == 0:
raise IllegalArgumentException('empty corpora')
if dest_path:
fileutils.makedirs(dest_path, exist_ok=True)
target_lang = self._engine.target_lang
source_lang = self._engine.source_lang
working_dir = self._engine.get_tempdir('evaluation')
have_references = False
try:
results = []
# Process references
corpora_path = os.path.join(working_dir, 'corpora')
corpora = self._xmlencoder.encode(corpora, corpora_path)
reference = os.path.join(working_dir, 'reference.' + target_lang)
source = os.path.join(working_dir, 'source.' + source_lang)
refs = [corpus.get_file(target_lang) for corpus in corpora if corpus.get_file(target_lang)]
have_references = len(refs) > 0
fileutils.merge(refs, reference) # tolerates missing reference
fileutils.merge([corpus.get_file(source_lang) for corpus in corpora], source)
if dest_path:
for corpus in corpora:
corpus.copy(dest_path, suffixes={source_lang: '.src', target_lang: '.ref', 'tmx': '.src'})
# Translate
translator = self._translator
name = translator.name()
result = _EvaluationResult(translator)
results.append(result)
translations_path = os.path.join(working_dir, 'translations', result.id + '.raw')
xmltranslations_path = os.path.join(working_dir, 'translations', result.id)
fileutils.makedirs(translations_path, exist_ok=True)
try:
translated, mtt, parallelism = translator.translate(corpora, translations_path)
filename = result.id + '.' + target_lang
result.mtt = mtt
result.parallelism = parallelism
result.translated_corpora = self._xmlencoder.encode(translated, xmltranslations_path)
result.merge = os.path.join(working_dir, filename)
fileutils.merge([corpus.get_file(target_lang)
for corpus in result.translated_corpora], result.merge)
if dest_path:
for corpus in result.translated_corpora:
corpus.copy(dest_path, suffixes={target_lang: '.hyp', 'tmx': '.hyp'})
except TranslateError as e:
result.error = e
except Exception as e:
result.error = TranslateError('Unexpected ERROR: ' + str(e.message))
if result.error is None:
if have_references:
scorer = BLEUScore()
# bleu in range [0;1)
bleu = scorer.calculate(result.merge, reference)
return bleu
else:
return True
else:
print(result.error)
return None
finally:
if not debug:
self._engine.clear_tempdir('evaluation')
