def main_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
command = command_handling(args, COMMAND_LOG)
# Parses command line arguments.
command_args = a.parse_and_check(command)
default_output = ('evaluation' if command_args.evaluate
else 'predictions.csv')
resume = command_args.resume
if command_args.resume:
command_args, session_file, output_dir = get_stored_command(
args, command_args.debug, command_log=COMMAND_LOG,
dirs_log=DIRS_LOG, sessions_log=SESSIONS_LOG)
default_output = ('evaluation' if command_args.evaluate
else 'predictions.csv')
if command_args.predictions is None:
command_args.predictions = os.path.join(output_dir,
default_output)
else:
if command_args.output_dir is None:
command_args.output_dir = a.NOW
if command_args.predictions is None:
command_args.predictions = os.path.join(command_args.output_dir,
default_output)
if len(os.path.dirname(command_args.predictions).strip()) == 0:
command_args.predictions = os.path.join(command_args.output_dir,
command_args.predictions)
directory = u.check_dir(command_args.predictions)
session_file = os.path.join(directory, SESSIONS_LOG)
u.log_message(command.command + "\n", log_file=session_file)
try:
defaults_file = open(DEFAULTS_FILE, 'r')
contents = defaults_file.read()
defaults_file.close()
defaults_copy = open(os.path.join(directory, DEFAULTS_FILE),
'w', 0)
defaults_copy.write(contents)
defaults_copy.close()
except IOError:
pass
u.sys_log_message(u"%s\n" % os.path.abspath(directory),
log_file=DIRS_LOG)
# Creates the corresponding api instance
api = a.get_api_instance(command_args, u.check_dir(session_file))
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.votes_dirs):
output_args = a.get_output_args(api, command_args, resume)
a.transform_args(command_args, command.flags, api,
command.user_defaults)
compute_output(**output_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def cluster_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
command = command_handling(args, COMMAND_LOG)
# Parses command line arguments.
command_args = a.parse_and_check(command)
resume = command_args.resume
if command_args.resume:
command_args, session_file, output_dir = get_stored_command(
args,
command_args.debug,
command_log=COMMAND_LOG,
dirs_log=DIRS_LOG,
sessions_log=SESSIONS_LOG)
if command_args.predictions is None:
command_args.predictions = os.path.join(output_dir, DEFAULT_OUTPUT)
else:
if command_args.output_dir is None:
command_args.output_dir = a.NOW
if command_args.predictions is None:
command_args.predictions = os.path.join(command_args.output_dir,
DEFAULT_OUTPUT)
if len(os.path.dirname(command_args.predictions).strip()) == 0:
command_args.predictions = os.path.join(command_args.output_dir,
command_args.predictions)
directory = u.check_dir(command_args.predictions)
session_file = os.path.join(directory, SESSIONS_LOG)
u.log_message(command.command + "\n", log_file=session_file)
try:
defaults_file = open(DEFAULTS_FILE, 'r')
contents = defaults_file.read()
defaults_file.close()
defaults_copy = open(os.path.join(directory, DEFAULTS_FILE), 'w',
0)
defaults_copy.write(contents)
defaults_copy.close()
except IOError:
pass
u.sys_log_message(u"%s\n" % os.path.abspath(directory),
log_file=DIRS_LOG)
# Creates the corresponding api instance
api = a.get_api_instance(command_args, u.check_dir(session_file))
# Selects the action to perform
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.cluster_datasets is not None):
output_args = a.get_output_args(api, command_args, resume)
a.transform_args(command_args, command.flags, api,
command.user_defaults)
compute_output(**output_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def logistic_regression_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
command = command_handling(args, COMMAND_LOG)
# Parses command line arguments.
command_args = a.parse_and_check(command)
default_output = ('evaluation'
if command_args.evaluate else 'predictions.csv')
resume = command_args.resume
if command_args.resume:
command_args, session_file, output_dir = get_stored_command(
args,
command_args.debug,
command_log=COMMAND_LOG,
dirs_log=DIRS_LOG,
sessions_log=SESSIONS_LOG)
default_output = ('evaluation'
if command_args.evaluate else 'predictions.csv')
if command_args.predictions is None:
command_args.predictions = os.path.join(output_dir, default_output)
else:
if command_args.output_dir is None:
command_args.output_dir = a.NOW
if command_args.predictions is None:
command_args.predictions = os.path.join(command_args.output_dir,
default_output)
if len(os.path.dirname(command_args.predictions).strip()) == 0:
command_args.predictions = os.path.join(command_args.output_dir,
command_args.predictions)
directory = u.check_dir(command_args.predictions)
session_file = os.path.join(directory, SESSIONS_LOG)
u.log_message(command.command + "\n", log_file=session_file)
try:
shutil.copy(DEFAULTS_FILE, os.path.join(directory, DEFAULTS_FILE))
except IOError:
pass
u.sys_log_message(u"%s\n" % os.path.abspath(directory),
log_file=DIRS_LOG)
# Creates the corresponding api instance
api = a.get_api_instance(command_args, u.check_dir(session_file))
# Selects the action to perform
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.export_fields):
output_args = a.get_output_args(api, command_args, resume)
a.transform_args(command_args, command.flags, api,
command.user_defaults)
compute_output(**output_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def cluster_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
command = command_handling(args, COMMAND_LOG)
# Parses command line arguments.
command_args = a.parse_and_check(command)
resume = command_args.resume
if command_args.resume:
command_args, session_file, output_dir = get_stored_command(
args, command_args.debug, command_log=COMMAND_LOG,
dirs_log=DIRS_LOG, sessions_log=SESSIONS_LOG)
if command_args.predictions is None:
command_args.predictions = os.path.join(output_dir,
DEFAULT_OUTPUT)
else:
if command_args.output_dir is None:
command_args.output_dir = a.NOW
if command_args.predictions is None:
command_args.predictions = os.path.join(command_args.output_dir,
DEFAULT_OUTPUT)
if len(os.path.dirname(command_args.predictions).strip()) == 0:
command_args.predictions = os.path.join(command_args.output_dir,
command_args.predictions)
directory = u.check_dir(command_args.predictions)
session_file = os.path.join(directory, SESSIONS_LOG)
u.log_message(command.command + "\n", log_file=session_file)
try:
shutil.copy(DEFAULTS_FILE, os.path.join(directory, DEFAULTS_FILE))
except IOError:
pass
u.sys_log_message(u"%s\n" % os.path.abspath(directory),
log_file=DIRS_LOG)
# Creates the corresponding api instance
api = a.get_api_instance(command_args, u.check_dir(session_file))
# Selects the action to perform
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.cluster_datasets is not None
or command_args.export_fields is not None):
output_args = a.get_output_args(api, command_args, resume)
a.transform_args(command_args, command.flags, api,
command.user_defaults)
compute_output(**output_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def association_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
command_args, _, api, session_file, resume = get_context(args, SETTINGS)
# Selects the action to perform
if a.has_train(command_args) or a.has_test(command_args):
output_args = a.get_output_args(api, command_args, resume)
compute_output(**output_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def association_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
command_args, command, api, session_file, resume = get_context(args,
SETTINGS)
# Selects the action to perform
if a.has_train(command_args) or a.has_test(command_args):
output_args = a.get_output_args(api, command_args, resume)
compute_output(**output_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def pca_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
settings = {}
settings.update(SETTINGS)
command_args, _, api, session_file, _ = get_context(args, settings)
# Selects the action to perform
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.export_fields):
compute_output(api, command_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def pca_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
settings = {}
settings.update(SETTINGS)
command_args, command, api, session_file, resume = get_context(args,
settings)
# Selects the action to perform
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.export_fields):
compute_output(api, command_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def main_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
settings = {}
settings.update(SETTINGS)
if '--evaluate' in args:
settings.update({"default_output": "evaluation"})
command_args, _, api, session_file, _ = get_context(args, settings)
# the predictions flag prevails to store the results
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.votes_dirs):
compute_output(api, command_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def main_dispatcher(args=sys.argv[1:]):
"""Parses command line and calls the different processing functions
"""
# If --clear-logs the log files are cleared
if "--clear-logs" in args:
clear_log_files(LOG_FILES)
settings = {}
settings.update(SETTINGS)
if '--evaluate' in args:
settings.update({"default_output": "evaluation"})
command_args, command, api, session_file, resume = get_context(args,
settings)
# the predictions flag prevails to store the results
if (a.has_train(command_args) or a.has_test(command_args)
or command_args.votes_dirs):
compute_output(api, command_args)
u.log_message("_" * 80 + "\n", log_file=session_file)
def compute_output(api, args):
""" Creates one or more models using the `training_set` or uses the ids
of previously created BigML models to make predictions for the `test_set`.
"""
source = None
dataset = None
model = None
models = None
fields = None
other_label = OTHER
ensemble_ids = []
multi_label_data = None
multi_label_fields = []
# local_ensemble = None
test_dataset = None
datasets = None
# variables from command-line options
resume = args.resume_
model_ids = args.model_ids_
output = args.predictions
dataset_fields = args.dataset_fields_
check_args_coherence(args)
path = u.check_dir(output)
session_file = "%s%s%s" % (path, os.sep, SESSIONS_LOG)
csv_properties = {}
# If logging is required set the file for logging
log = None
if args.log_file:
u.check_dir(args.log_file)
log = args.log_file
# If --clear_logs the log files are cleared
clear_log_files([log])
# labels to be used in multi-label expansion
labels = None if args.labels is None else [label.strip() for label in args.labels.split(args.args_separator)]
if labels is not None:
labels = sorted([label for label in labels])
# multi_label file must be preprocessed to obtain a new extended file
if args.multi_label and args.training_set is not None:
(args.training_set, multi_label_data) = ps.multi_label_expansion(
args.training_set, args.train_header, args, path, labels=labels, session_file=session_file
)
args.train_header = True
args.objective_field = multi_label_data["objective_name"]
all_labels = l.get_all_labels(multi_label_data)
if not labels:
labels = all_labels
else:
all_labels = labels
if args.objective_field:
csv_properties.update({"objective_field": args.objective_field})
if args.source_file:
# source is retrieved from the contents of the given local JSON file
source, csv_properties, fields = u.read_local_resource(args.source_file, csv_properties=csv_properties)
else:
# source is retrieved from the remote object
source, resume, csv_properties, fields = ps.source_processing(
api,
args,
resume,
csv_properties=csv_properties,
multi_label_data=multi_label_data,
session_file=session_file,
path=path,
log=log,
)
if args.multi_label and source:
multi_label_data = l.get_multi_label_data(source)
(args.objective_field, labels, all_labels, multi_label_fields) = l.multi_label_sync(
args.objective_field, labels, multi_label_data, fields, multi_label_fields
)
if args.dataset_file:
# dataset is retrieved from the contents of the given local JSON file
model_dataset, csv_properties, fields = u.read_local_resource(args.dataset_file, csv_properties=csv_properties)
if not args.datasets:
datasets = [model_dataset]
dataset = model_dataset
else:
datasets = u.read_datasets(args.datasets)
if not datasets:
# dataset is retrieved from the remote object
datasets, resume, csv_properties, fields = pd.dataset_processing(
source,
api,
args,
resume,
fields=fields,
csv_properties=csv_properties,
multi_label_data=multi_label_data,
session_file=session_file,
path=path,
log=log,
)
if datasets:
dataset = datasets[0]
if args.to_csv is not None:
resume = pd.export_dataset(dataset, api, args, resume, session_file=session_file, path=path)
# Now we have a dataset, let's check if there's an objective_field
# given by the user and update it in the fields structure
args.objective_id_ = get_objective_id(args, fields)
# If test_split is used, split the dataset in a training and a test dataset
# according to the given split
if args.test_split > 0:
dataset, test_dataset, resume = pd.split_processing(
dataset, api, args, resume, multi_label_data=multi_label_data, session_file=session_file, path=path, log=log
)
datasets[0] = dataset
# Check if the dataset has a categorical objective field and it
# has a max_categories limit for categories
if args.max_categories > 0 and len(datasets) == 1:
if pd.check_max_categories(fields.fields[args.objective_id_]):
distribution = pd.get_categories_distribution(dataset, args.objective_id_)
if distribution and len(distribution) > args.max_categories:
categories = [element[0] for element in distribution]
other_label = pd.create_other_label(categories, other_label)
datasets, resume = pd.create_categories_datasets(
dataset,
distribution,
fields,
args,
api,
resume,
session_file=session_file,
path=path,
log=log,
other_label=other_label,
)
else:
sys.exit(
"The provided objective field is not categorical nor "
"a full terms only text field. "
"Only these fields can be used with"
" --max-categories"
)
# If multi-dataset flag is on, generate a new dataset from the given
# list of datasets
if args.multi_dataset:
dataset, resume = pd.create_new_dataset(
datasets, api, args, resume, fields=fields, session_file=session_file, path=path, log=log
)
datasets = [dataset]
# Check if the dataset has a generators file associated with it, and
# generate a new dataset with the specified field structure. Also
# if the --to-dataset flag is used to clone or sample the original dataset
if (
args.new_fields
or (args.sample_rate != 1 and args.no_model)
or (args.lisp_filter or args.json_filter)
and not has_source(args)
):
if fields is None:
if isinstance(dataset, basestring):
dataset = check_resource(dataset, api=api)
fields = Fields(dataset, csv_properties)
args.objective_id_ = get_objective_id(args, fields)
args.objective_name_ = fields.field_name(args.objective_id_)
dataset, resume = pd.create_new_dataset(
dataset, api, args, resume, fields=fields, session_file=session_file, path=path, log=log
)
datasets[0] = dataset
# rebuild fields structure for new ids and fields
csv_properties.update({"objective_field": args.objective_name_, "objective_field_present": True})
fields = pd.get_fields_structure(dataset, csv_properties)
args.objective_id_ = get_objective_id(args, fields)
if args.multi_label and dataset and multi_label_data is None:
multi_label_data = l.get_multi_label_data(dataset)
(args.objective_field, labels, all_labels, multi_label_fields) = l.multi_label_sync(
args.objective_field, labels, multi_label_data, fields, multi_label_fields
)
if dataset:
# retrieves max_categories data, if any
args.max_categories = get_metadata(dataset, "max_categories", args.max_categories)
other_label = get_metadata(dataset, "other_label", other_label)
if args.model_file:
# model is retrieved from the contents of the given local JSON file
model, csv_properties, fields = u.read_local_resource(args.model_file, csv_properties=csv_properties)
models = [model]
model_ids = [model["resource"]]
ensemble_ids = []
elif args.ensemble_file:
# model is retrieved from the contents of the given local JSON file
ensemble, csv_properties, fields = u.read_local_resource(args.ensemble_file, csv_properties=csv_properties)
model_ids = ensemble["object"]["models"][:]
ensemble_ids = [ensemble["resource"]]
models = model_ids[:]
model = retrieve_resource(bigml.api.BigML(storage="./storage"), models[0], query_string=r.ALL_FIELDS_QS)
models[0] = model
else:
# model is retrieved from the remote object
models, model_ids, ensemble_ids, resume = pm.models_processing(
datasets,
models,
model_ids,
api,
args,
resume,
fields=fields,
session_file=session_file,
path=path,
log=log,
labels=labels,
multi_label_data=multi_label_data,
other_label=other_label,
)
if models:
model = models[0]
single_model = len(models) == 1
# If multi-label flag is set and no training_set was provided, label
# info is extracted from the user_metadata. If models belong to an
# ensemble, the ensemble must be retrieved to get the user_metadata.
if model and args.multi_label and multi_label_data is None:
if len(ensemble_ids) > 0 and isinstance(ensemble_ids[0], dict):
resource = ensemble_ids[0]
elif belongs_to_ensemble(model):
ensemble_id = get_ensemble_id(model)
resource = r.get_ensemble(ensemble_id, api=api, verbosity=args.verbosity, session_file=session_file)
else:
resource = model
multi_label_data = l.get_multi_label_data(resource)
# We update the model's public state if needed
if model:
if isinstance(model, basestring) or bigml.api.get_status(model)["code"] != bigml.api.FINISHED:
if not args.evaluate and not a.has_train(args):
query_string = MINIMUM_MODEL
elif not args.test_header:
query_string = r.ALL_FIELDS_QS
else:
query_string = "%s;%s" % (r.ALL_FIELDS_QS, r.FIELDS_QS)
model = u.check_resource(model, api.get_model, query_string=query_string)
models[0] = model
if args.black_box or args.white_box or (args.shared_flag and r.shared_changed(args.shared, model)):
model_args = {}
if args.shared_flag and r.shared_changed(args.shared, model):
model_args.update(shared=args.shared)
if args.black_box or args.white_box:
model_args.update(r.set_publish_model_args(args))
if model_args:
model = r.update_model(model, model_args, args, api=api, path=path, session_file=session_file)
models[0] = model
# We get the fields of the model if we haven't got
# them yet and need them
if model and not args.evaluate and args.test_set:
# If more than one model, use the full field structure
if not single_model and not args.multi_label and belongs_to_ensemble(model):
if len(ensemble_ids) > 0:
ensemble_id = ensemble_ids[0]
else:
ensemble_id = get_ensemble_id(model)
fields = pm.get_model_fields(
model, csv_properties, args, single_model=single_model, multi_label_data=multi_label_data
)
# Free memory after getting fields
# local_ensemble = None
gc.collect()
# Fills in all_labels from user_metadata
if args.multi_label and not all_labels:
(args.objective_field, labels, all_labels, multi_label_fields) = l.multi_label_sync(
args.objective_field, labels, multi_label_data, fields, multi_label_fields
)
if model:
# retrieves max_categories data, if any
args.max_categories = get_metadata(model, "max_categories", args.max_categories)
other_label = get_metadata(model, "other_label", other_label)
# If predicting
if models and (a.has_test(args) or (test_dataset and args.remote)) and not args.evaluate:
models_per_label = 1
if test_dataset is None:
test_dataset = get_test_dataset(args)
if args.multi_label:
# When prediction starts from existing models, the
# multi_label_fields can be retrieved from the user_metadata
# in the models
if args.multi_label_fields is None and multi_label_fields:
multi_label_field_names = [field[1] for field in multi_label_fields]
args.multi_label_fields = ",".join(multi_label_field_names)
test_set = ps.multi_label_expansion(
args.test_set, args.test_header, args, path, labels=labels, session_file=session_file, input_flag=True
)[0]
test_set_header = True
# Remote predictions: predictions are computed as batch predictions
# in bigml.com except when --no-batch flag is set on or multi-label
# or max-categories are used
if (
args.remote
and not args.no_batch
and not args.multi_label
and not args.method in [THRESHOLD_CODE, COMBINATION]
):
# create test source from file
test_name = "%s - test" % args.name
if args.test_source is None:
test_properties = ps.test_source_processing(
api, args, resume, session_file=session_file, path=path, log=log
)
(test_source, resume, csv_properties, test_fields) = test_properties
else:
test_source_id = bigml.api.get_source_id(args.test_source)
test_source = api.check_resource(test_source_id)
if test_dataset is None:
# create test dataset from test source
dataset_args = r.set_basic_dataset_args(args, name=test_name)
test_dataset, resume = pd.alternative_dataset_processing(
test_source, "test", dataset_args, api, args, resume, session_file=session_file, path=path, log=log
)
else:
test_dataset_id = bigml.api.get_dataset_id(test_dataset)
test_dataset = api.check_resource(test_dataset_id)
csv_properties.update(objective_field=None, objective_field_present=False)
test_fields = pd.get_fields_structure(test_dataset, csv_properties)
batch_prediction_args = r.set_batch_prediction_args(args, fields=fields, dataset_fields=test_fields)
remote_predict(
model,
test_dataset,
batch_prediction_args,
args,
api,
resume,
prediction_file=output,
session_file=session_file,
path=path,
log=log,
)
else:
models_per_label = args.number_of_models
if args.multi_label and len(ensemble_ids) > 0 and args.number_of_models == 1:
# use case where ensembles are read from a file
models_per_label = len(models) / len(ensemble_ids)
predict(
models,
fields,
args,
api=api,
log=log,
resume=resume,
session_file=session_file,
labels=labels,
models_per_label=models_per_label,
other_label=other_label,
multi_label_data=multi_label_data,
)
# When combine_votes flag is used, retrieve the predictions files saved
# in the comma separated list of directories and combine them
if args.votes_files_:
model_id = re.sub(r".*(model_[a-f0-9]{24})__predictions\.csv$", r"\1", args.votes_files_[0]).replace("_", "/")
try:
model = u.check_resource(model_id, api.get_model)
except ValueError, exception:
sys.exit("Failed to get model %s: %s" % (model_id, str(exception)))
local_model = Model(model)
message = u.dated("Combining votes.\n")
u.log_message(message, log_file=session_file, console=args.verbosity)
combine_votes(args.votes_files_, local_model.to_prediction, output, method=args.method)
def compute_output(api, args):
""" Creates one or more models using the `training_set` or uses the ids
of previously created BigML models to make predictions for the `test_set`.
"""
source = None
dataset = None
model = None
models = None
fields = None
other_label = OTHER
ensemble_ids = []
multi_label_data = None
multi_label_fields = []
#local_ensemble = None
test_dataset = None
datasets = None
# variables from command-line options
resume = args.resume_
model_ids = args.model_ids_
output = args.predictions
dataset_fields = args.dataset_fields_
check_args_coherence(args)
path = u.check_dir(output)
session_file = "%s%s%s" % (path, os.sep, SESSIONS_LOG)
csv_properties = {}
# If logging is required set the file for logging
log = None
if args.log_file:
u.check_dir(args.log_file)
log = args.log_file
# If --clear_logs the log files are cleared
clear_log_files([log])
# labels to be used in multi-label expansion
labels = (None if args.labels is None else
[label.strip() for label in
args.labels.split(args.args_separator)])
if labels is not None:
labels = sorted([label for label in labels])
# multi_label file must be preprocessed to obtain a new extended file
if args.multi_label and args.training_set is not None:
(args.training_set, multi_label_data) = ps.multi_label_expansion(
args.training_set, args.train_header, args, path,
labels=labels, session_file=session_file)
args.train_header = True
args.objective_field = multi_label_data["objective_name"]
all_labels = l.get_all_labels(multi_label_data)
if not labels:
labels = all_labels
else:
all_labels = labels
if args.objective_field:
csv_properties.update({'objective_field': args.objective_field})
if args.source_file:
# source is retrieved from the contents of the given local JSON file
source, csv_properties, fields = u.read_local_resource(
args.source_file,
csv_properties=csv_properties)
else:
# source is retrieved from the remote object
source, resume, csv_properties, fields = ps.source_processing(
api, args, resume,
csv_properties=csv_properties, multi_label_data=multi_label_data,
session_file=session_file, path=path, log=log)
if args.multi_label and source:
multi_label_data = l.get_multi_label_data(source)
(args.objective_field,
labels,
all_labels,
multi_label_fields) = l.multi_label_sync(args.objective_field,
labels,
multi_label_data,
fields,
multi_label_fields)
if fields and args.export_fields:
fields.summary_csv(os.path.join(path, args.export_fields))
if args.dataset_file:
# dataset is retrieved from the contents of the given local JSON file
model_dataset, csv_properties, fields = u.read_local_resource(
args.dataset_file,
csv_properties=csv_properties)
if not args.datasets:
datasets = [model_dataset]
dataset = model_dataset
else:
datasets = u.read_datasets(args.datasets)
if not datasets:
# dataset is retrieved from the remote object
datasets, resume, csv_properties, fields = pd.dataset_processing(
source, api, args, resume,
fields=fields,
csv_properties=csv_properties,
multi_label_data=multi_label_data,
session_file=session_file, path=path, log=log)
if datasets:
dataset = datasets[0]
if args.to_csv is not None:
resume = pd.export_dataset(dataset, api, args, resume,
session_file=session_file, path=path)
# Now we have a dataset, let's check if there's an objective_field
# given by the user and update it in the fields structure
args.objective_id_ = get_objective_id(args, fields)
# If test_split is used, split the dataset in a training and a test dataset
# according to the given split
if args.test_split > 0:
dataset, test_dataset, resume = pd.split_processing(
dataset, api, args, resume,
multi_label_data=multi_label_data,
session_file=session_file, path=path, log=log)
datasets[0] = dataset
# Check if the dataset has a categorical objective field and it
# has a max_categories limit for categories
if args.max_categories > 0 and len(datasets) == 1:
if pd.check_max_categories(fields.fields[args.objective_id_]):
distribution = pd.get_categories_distribution(dataset,
args.objective_id_)
if distribution and len(distribution) > args.max_categories:
categories = [element[0] for element in distribution]
other_label = pd.create_other_label(categories, other_label)
datasets, resume = pd.create_categories_datasets(
dataset, distribution, fields, args,
api, resume, session_file=session_file, path=path, log=log,
other_label=other_label)
else:
sys.exit("The provided objective field is not categorical nor "
"a full terms only text field. "
"Only these fields can be used with"
" --max-categories")
# If multi-dataset flag is on, generate a new dataset from the given
# list of datasets
if args.multi_dataset:
dataset, resume = pd.create_new_dataset(
datasets, api, args, resume, fields=fields,
session_file=session_file, path=path, log=log)
datasets = [dataset]
# Check if the dataset has a generators file associated with it, and
# generate a new dataset with the specified field structure. Also
# if the --to-dataset flag is used to clone or sample the original dataset
if args.new_fields or (args.sample_rate != 1 and args.no_model) or \
(args.lisp_filter or args.json_filter) and not has_source(args):
if fields is None:
if isinstance(dataset, basestring):
dataset = u.check_resource(dataset, api=api)
fields = Fields(dataset, csv_properties)
args.objective_id_ = get_objective_id(args, fields)
args.objective_name_ = fields.field_name(args.objective_id_)
dataset, resume = pd.create_new_dataset(
dataset, api, args, resume, fields=fields,
session_file=session_file, path=path, log=log)
datasets[0] = dataset
# rebuild fields structure for new ids and fields
csv_properties.update({'objective_field': args.objective_name_,
'objective_field_present': True})
fields = pd.get_fields_structure(dataset, csv_properties)
args.objective_id_ = get_objective_id(args, fields)
if args.multi_label and dataset and multi_label_data is None:
multi_label_data = l.get_multi_label_data(dataset)
(args.objective_field,
labels,
all_labels,
multi_label_fields) = l.multi_label_sync(args.objective_field,
labels,
multi_label_data,
fields, multi_label_fields)
if dataset:
# retrieves max_categories data, if any
args.max_categories = get_metadata(dataset, 'max_categories',
args.max_categories)
other_label = get_metadata(dataset, 'other_label',
other_label)
if fields and args.export_fields:
fields.summary_csv(os.path.join(path, args.export_fields))
if args.model_file:
# model is retrieved from the contents of the given local JSON file
model, csv_properties, fields = u.read_local_resource(
args.model_file,
csv_properties=csv_properties)
models = [model]
model_ids = [model['resource']]
ensemble_ids = []
elif args.ensemble_file:
# model is retrieved from the contents of the given local JSON file
ensemble, csv_properties, fields = u.read_local_resource(
args.ensemble_file,
csv_properties=csv_properties)
model_ids = ensemble['object']['models'][:]
ensemble_ids = [ensemble['resource']]
models = model_ids[:]
model = retrieve_resource(bigml.api.BigML(storage='./storage'),
models[0],
query_string=r.ALL_FIELDS_QS)
models[0] = model
else:
# model is retrieved from the remote object
models, model_ids, ensemble_ids, resume = pm.models_processing(
datasets, models, model_ids,
api, args, resume, fields=fields,
session_file=session_file, path=path, log=log, labels=labels,
multi_label_data=multi_label_data, other_label=other_label)
if models:
model = models[0]
single_model = len(models) == 1
# If multi-label flag is set and no training_set was provided, label
# info is extracted from the user_metadata. If models belong to an
# ensemble, the ensemble must be retrieved to get the user_metadata.
if model and args.multi_label and multi_label_data is None:
if len(ensemble_ids) > 0 and isinstance(ensemble_ids[0], dict):
resource = ensemble_ids[0]
elif belongs_to_ensemble(model):
ensemble_id = get_ensemble_id(model)
resource = r.get_ensemble(ensemble_id, api=api,
verbosity=args.verbosity,
session_file=session_file)
else:
resource = model
multi_label_data = l.get_multi_label_data(resource)
# We update the model's public state if needed
if model:
if (isinstance(model, basestring) or
bigml.api.get_status(model)['code'] != bigml.api.FINISHED):
if not args.evaluate and not a.has_train(args) and \
not a.has_test(args) :
query_string = MINIMUM_MODEL
elif not args.test_header:
query_string = r.ALL_FIELDS_QS
else:
query_string = "%s;%s" % (r.ALL_FIELDS_QS, r.FIELDS_QS)
model = u.check_resource(model, api.get_model,
query_string=query_string)
models[0] = model
if (args.black_box or args.white_box or
(args.shared_flag and r.shared_changed(args.shared, model))):
model_args = {}
if args.shared_flag and r.shared_changed(args.shared, model):
model_args.update(shared=args.shared)
if args.black_box or args.white_box:
model_args.update(r.set_publish_model_args(args))
if model_args:
model = r.update_model(model, model_args, args,
api=api, path=path,
session_file=session_file)
models[0] = model
# We get the fields of the model if we haven't got
# them yet and need them
if model and not args.evaluate and (a.has_test(args) or
args.export_fields):
# If more than one model, use the full field structure
if (not single_model and not args.multi_label and
belongs_to_ensemble(model)):
if len(ensemble_ids) > 0:
ensemble_id = ensemble_ids[0]
args.ensemble_ids_ = ensemble_ids
else:
ensemble_id = get_ensemble_id(model)
fields = pm.get_model_fields(
model, csv_properties, args, single_model=single_model,
multi_label_data=multi_label_data)
# Free memory after getting fields
# local_ensemble = None
gc.collect()
# Fills in all_labels from user_metadata
if args.multi_label and not all_labels:
(args.objective_field,
labels,
all_labels,
multi_label_fields) = l.multi_label_sync(args.objective_field, labels,
multi_label_data, fields,
multi_label_fields)
if model:
# retrieves max_categories data, if any
args.max_categories = get_metadata(model, 'max_categories',
args.max_categories)
other_label = get_metadata(model, 'other_label',
other_label)
if fields and args.export_fields:
fields.summary_csv(os.path.join(path, args.export_fields))
# If predicting
if (models and (a.has_test(args) or (test_dataset and args.remote))
and not args.evaluate):
models_per_label = 1
if test_dataset is None:
test_dataset = get_test_dataset(args)
if args.multi_label:
# When prediction starts from existing models, the
# multi_label_fields can be retrieved from the user_metadata
# in the models
if args.multi_label_fields is None and multi_label_fields:
multi_label_field_names = [field[1] for field
in multi_label_fields]
args.multi_label_fields = ",".join(multi_label_field_names)
test_set = ps.multi_label_expansion(
args.test_set, args.test_header, args, path,
labels=labels, session_file=session_file, input_flag=True)[0]
test_set_header = True
# Remote predictions: predictions are computed as batch predictions
# in bigml.com except when --no-batch flag is set on or multi-label
# or max-categories are used
if (args.remote and not args.no_batch and not args.multi_label
and not args.method in [THRESHOLD_CODE, COMBINATION]):
# create test source from file
test_name = "%s - test" % args.name
if args.test_source is None:
test_properties = ps.test_source_processing(
api, args, resume, session_file=session_file,
path=path, log=log)
(test_source, resume, csv_properties,
test_fields) = test_properties
else:
test_source_id = bigml.api.get_source_id(args.test_source)
test_source = api.check_resource(test_source_id)
if test_dataset is None:
# create test dataset from test source
dataset_args = r.set_basic_dataset_args(args, name=test_name)
test_dataset, resume = pd.alternative_dataset_processing(
test_source, "test", dataset_args, api, args,
resume, session_file=session_file, path=path, log=log)
else:
test_dataset_id = bigml.api.get_dataset_id(test_dataset)
test_dataset = api.check_resource(test_dataset_id)
csv_properties.update(objective_field=None,
objective_field_present=False)
test_fields = pd.get_fields_structure(test_dataset,
csv_properties)
if args.to_dataset and args.dataset_off:
model = api.check_resource(model['resource'],
query_string=r.ALL_FIELDS_QS)
model_fields = Fields(model)
objective_field_name = model_fields.field_name( \
model_fields.objective_field)
if objective_field_name in test_fields.fields_by_name.keys():
args.prediction_name = "%s (predicted)" % \
objective_field_name
batch_prediction_args = r.set_batch_prediction_args(
args, fields=fields,
dataset_fields=test_fields)
remote_predict(model, test_dataset, batch_prediction_args, args,
api, resume, prediction_file=output,
session_file=session_file, path=path, log=log)
else:
models_per_label = args.number_of_models
if (args.multi_label and len(ensemble_ids) > 0
and args.number_of_models == 1):
# use case where ensembles are read from a file
models_per_label = len(models) / len(ensemble_ids)
predict(models, fields, args, api=api, log=log,
resume=resume, session_file=session_file, labels=labels,
models_per_label=models_per_label, other_label=other_label,
multi_label_data=multi_label_data)
# When combine_votes flag is used, retrieve the predictions files saved
# in the comma separated list of directories and combine them
if args.votes_files_:
model_id = re.sub(r'.*(model_[a-f0-9]{24})__predictions\.csv$',
r'\1', args.votes_files_[0]).replace("_", "/")
try:
model = u.check_resource(model_id, api.get_model)
except ValueError, exception:
sys.exit("Failed to get model %s: %s" % (model_id, str(exception)))
local_model = Model(model)
message = u.dated("Combining votes.\n")
u.log_message(message, log_file=session_file,
console=args.verbosity)
combine_votes(args.votes_files_, local_model.to_prediction,
output, method=args.method)
