def basic_integration_test(state_filters, feature_group_create_rules,
feature_group_mix_rules,
expected_matrix_multiplier):
with testing.postgresql.Postgresql() as postgresql:
db_engine = create_engine(postgresql.url())
Base.metadata.create_all(db_engine)
populate_source_data(db_engine)
with TemporaryDirectory() as temp_dir:
chopper = Timechop(
feature_start_time=datetime(2010, 1, 1),
feature_end_time=datetime(2014, 1, 1),
label_start_time=datetime(2011, 1, 1),
label_end_time=datetime(2014, 1, 1),
model_update_frequency='1year',
training_label_timespans=['6months'],
test_label_timespans=['6months'],
training_as_of_date_frequencies='1day',
test_as_of_date_frequencies='3months',
max_training_histories=['1months'],
test_durations=['1months'],
)
state_table_generator = StateTableGenerator(
db_engine=db_engine,
experiment_hash='abcd',
dense_state_table='states',
)
label_generator = BinaryLabelGenerator(db_engine=db_engine,
events_table='events')
feature_generator = FeatureGenerator(
db_engine=db_engine,
features_schema_name='features',
replace=True,
)
feature_dictionary_creator = FeatureDictionaryCreator(
db_engine=db_engine, features_schema_name='features')
feature_group_creator = FeatureGroupCreator(
feature_group_create_rules)
feature_group_mixer = FeatureGroupMixer(feature_group_mix_rules)
planner = Planner(engine=db_engine,
feature_start_time=datetime(2010, 1, 1),
label_names=['outcome'],
label_types=['binary'],
db_config={
'features_schema_name':
'features',
'labels_schema_name':
'public',
'labels_table_name':
'labels',
'sparse_state_table_name':
'tmp_sparse_states_abcd',
},
matrix_directory=os.path.join(
temp_dir, 'matrices'),
states=state_filters,
user_metadata={},
replace=True)
# chop time
split_definitions = chopper.chop_time()
num_split_matrices = sum(1 + len(split['test_matrices'])
for split in split_definitions)
# generate as_of_times for feature/label/state generation
all_as_of_times = []
for split in split_definitions:
all_as_of_times.extend(split['train_matrix']['as_of_times'])
for test_matrix in split['test_matrices']:
all_as_of_times.extend(test_matrix['as_of_times'])
all_as_of_times = list(set(all_as_of_times))
feature_aggregation_config = [{
'prefix':
'cat',
'from_obj':
'cat_complaints',
'knowledge_date_column':
'as_of_date',
'aggregates': [{
'quantity': 'cat_sightings',
'metrics': ['count', 'avg'],
'imputation': {
'all': {
'type': 'mean'
}
}
}],
'intervals': ['1y'],
'groups': ['entity_id']
}, {
'prefix':
'dog',
'from_obj':
'dog_complaints',
'knowledge_date_column':
'as_of_date',
'aggregates_imputation': {
'count': {
'type': 'constant',
'value': 7
},
'sum': {
'type': 'mean'
},
'avg': {
'type': 'zero'
}
},
'aggregates': [{
'quantity': 'dog_sightings',
'metrics': ['count', 'avg'],
}],
'intervals': ['1y'],
'groups': ['entity_id']
}]
state_table_generator.validate()
label_generator.validate()
feature_generator.validate(feature_aggregation_config)
feature_group_creator.validate()
planner.validate()
# generate sparse state table
state_table_generator.generate_sparse_table(
as_of_dates=all_as_of_times)
# create labels table
label_generator.generate_all_labels(labels_table='labels',
as_of_dates=all_as_of_times,
label_timespans=['6months'])
# create feature table tasks
# we would use FeatureGenerator#create_all_tables but want to use
# the tasks dict directly to create a feature dict
aggregations = feature_generator.aggregations(
feature_aggregation_config=[{
'prefix':
'cat',
'from_obj':
'cat_complaints',
'knowledge_date_column':
'as_of_date',
'aggregates': [{
'quantity': 'cat_sightings',
'metrics': ['count', 'avg'],
'imputation': {
'all': {
'type': 'mean'
}
}
}],
'intervals': ['1y'],
'groups': ['entity_id']
}, {
'prefix':
'dog',
'from_obj':
'dog_complaints',
'knowledge_date_column':
'as_of_date',
'aggregates_imputation': {
'count': {
'type': 'constant',
'value': 7
},
'sum': {
'type': 'mean'
},
'avg': {
'type': 'zero'
}
},
'aggregates': [{
'quantity': 'dog_sightings',
'metrics': ['count', 'avg'],
}],
'intervals': ['1y'],
'groups': ['entity_id']
}],
feature_dates=all_as_of_times,
state_table=state_table_generator.sparse_table_name)
feature_table_agg_tasks = feature_generator.generate_all_table_tasks(
aggregations, task_type='aggregation')
# create feature aggregation tables
feature_generator.process_table_tasks(feature_table_agg_tasks)
feature_table_imp_tasks = feature_generator.generate_all_table_tasks(
aggregations, task_type='imputation')
# create feature imputation tables
feature_generator.process_table_tasks(feature_table_imp_tasks)
# build feature dictionaries from feature tables and
# subsetting config
master_feature_dict = feature_dictionary_creator.feature_dictionary(
feature_table_names=feature_table_imp_tasks.keys(),
index_column_lookup=feature_generator.index_column_lookup(
aggregations))
feature_dicts = feature_group_mixer.generate(
feature_group_creator.subsets(master_feature_dict))
# figure out what matrices need to be built
_, matrix_build_tasks =\
planner.generate_plans(
split_definitions,
feature_dicts
)
# go and build the matrices
planner.build_all_matrices(matrix_build_tasks)
# super basic assertion: did matrices we expect get created?
matrix_directory = os.path.join(temp_dir, 'matrices')
matrices = [
path for path in os.listdir(matrix_directory) if '.csv' in path
]
metadatas = [
path for path in os.listdir(matrix_directory)
if '.yaml' in path
]
assert len(
matrices) == num_split_matrices * expected_matrix_multiplier
assert len(
metadatas) == num_split_matrices * expected_matrix_multiplier
def predict_forward_with_existed_model(db_engine, project_path, model_id,
as_of_date):
"""Predict forward given model_id and as_of_date and store the prediction in database
Args:
db_engine (sqlalchemy.db.engine)
project_storage (catwalk.storage.ProjectStorage)
model_id (int) The id of a given model in the database
as_of_date (string) a date string like "YYYY-MM-DD"
"""
logger.spam("In PREDICT LIST................")
upgrade_db(db_engine=db_engine)
project_storage = ProjectStorage(project_path)
matrix_storage_engine = project_storage.matrix_storage_engine()
# 1. Get feature and cohort config from database
(train_matrix_uuid,
matrix_metadata) = train_matrix_info_from_model_id(db_engine, model_id)
experiment_config = experiment_config_from_model_id(db_engine, model_id)
# 2. Generate cohort
cohort_table_name = f"triage_production.cohort_{experiment_config['cohort_config']['name']}"
cohort_table_generator = EntityDateTableGenerator(
db_engine=db_engine,
query=experiment_config['cohort_config']['query'],
entity_date_table_name=cohort_table_name)
cohort_table_generator.generate_entity_date_table(
as_of_dates=[dt_from_str(as_of_date)])
# 3. Generate feature aggregations
feature_generator = FeatureGenerator(
db_engine=db_engine,
features_schema_name="triage_production",
feature_start_time=experiment_config['temporal_config']
['feature_start_time'],
)
collate_aggregations = feature_generator.aggregations(
feature_aggregation_config=experiment_config['feature_aggregations'],
feature_dates=[as_of_date],
state_table=cohort_table_name)
feature_generator.process_table_tasks(
feature_generator.generate_all_table_tasks(collate_aggregations,
task_type='aggregation'))
# 4. Reconstruct feature disctionary from feature_names and generate imputation
reconstructed_feature_dict = FeatureGroup()
imputation_table_tasks = OrderedDict()
for aggregation in collate_aggregations:
feature_group, feature_names = get_feature_names(
aggregation, matrix_metadata)
reconstructed_feature_dict[feature_group] = feature_names
# Make sure that the features imputed in training should also be imputed in production
features_imputed_in_train = get_feature_needs_imputation_in_train(
aggregation, feature_names)
features_imputed_in_production = get_feature_needs_imputation_in_production(
aggregation, db_engine)
total_impute_cols = set(features_imputed_in_production) | set(
features_imputed_in_train)
total_nonimpute_cols = set(f for f in set(feature_names)
if '_imp' not in f) - total_impute_cols
task_generator = feature_generator._generate_imp_table_tasks_for
imputation_table_tasks.update(
task_generator(aggregation,
impute_cols=list(total_impute_cols),
nonimpute_cols=list(total_nonimpute_cols)))
feature_generator.process_table_tasks(imputation_table_tasks)
# 5. Build matrix
db_config = {
"features_schema_name": "triage_production",
"labels_schema_name": "public",
"cohort_table_name": cohort_table_name,
}
matrix_builder = MatrixBuilder(
db_config=db_config,
matrix_storage_engine=matrix_storage_engine,
engine=db_engine,
experiment_hash=None,
replace=True,
)
feature_start_time = experiment_config['temporal_config'][
'feature_start_time']
label_name = experiment_config['label_config']['name']
label_type = 'binary'
cohort_name = experiment_config['cohort_config']['name']
user_metadata = experiment_config['user_metadata']
# Use timechop to get the time definition for production
temporal_config = experiment_config["temporal_config"]
temporal_config.update(
temporal_params_from_matrix_metadata(db_engine, model_id))
timechopper = Timechop(**temporal_config)
prod_definitions = timechopper.define_test_matrices(
train_test_split_time=dt_from_str(as_of_date),
test_duration=temporal_config['test_durations'][0],
test_label_timespan=temporal_config['test_label_timespans'][0])
matrix_metadata = Planner.make_metadata(
prod_definitions[-1],
reconstructed_feature_dict,
label_name,
label_type,
cohort_name,
'production',
feature_start_time,
user_metadata,
)
matrix_metadata['matrix_id'] = str(
as_of_date) + f'_model_id_{model_id}' + '_risklist'
matrix_uuid = filename_friendly_hash(matrix_metadata)
matrix_builder.build_matrix(
as_of_times=[as_of_date],
label_name=label_name,
label_type=label_type,
feature_dictionary=reconstructed_feature_dict,
matrix_metadata=matrix_metadata,
matrix_uuid=matrix_uuid,
matrix_type="production",
)
# 6. Predict the risk score for production
predictor = Predictor(
model_storage_engine=project_storage.model_storage_engine(),
db_engine=db_engine,
rank_order='best')
predictor.predict(
model_id=model_id,
matrix_store=matrix_storage_engine.get_store(matrix_uuid),
misc_db_parameters={},
train_matrix_columns=matrix_storage_engine.get_store(
train_matrix_uuid).columns())
def basic_integration_test(
cohort_names,
feature_group_create_rules,
feature_group_mix_rules,
expected_matrix_multiplier,
expected_group_lists,
):
with testing.postgresql.Postgresql() as postgresql:
db_engine = create_engine(postgresql.url())
Base.metadata.create_all(db_engine)
populate_source_data(db_engine)
with TemporaryDirectory() as temp_dir:
chopper = Timechop(
feature_start_time=datetime(2010, 1, 1),
feature_end_time=datetime(2014, 1, 1),
label_start_time=datetime(2011, 1, 1),
label_end_time=datetime(2014, 1, 1),
model_update_frequency="1year",
training_label_timespans=["6months"],
test_label_timespans=["6months"],
training_as_of_date_frequencies="1day",
test_as_of_date_frequencies="3months",
max_training_histories=["1months"],
test_durations=["1months"],
)
entity_date_table_generator = EntityDateTableGenerator(
db_engine=db_engine,
entity_date_table_name="cohort_abcd",
query="select distinct(entity_id) from events")
label_generator = LabelGenerator(
db_engine=db_engine,
query=sample_config()["label_config"]["query"])
feature_generator = FeatureGenerator(
db_engine=db_engine,
features_schema_name="features",
replace=True)
feature_dictionary_creator = FeatureDictionaryCreator(
db_engine=db_engine, features_schema_name="features")
feature_group_creator = FeatureGroupCreator(
feature_group_create_rules)
feature_group_mixer = FeatureGroupMixer(feature_group_mix_rules)
project_storage = ProjectStorage(temp_dir)
planner = Planner(
feature_start_time=datetime(2010, 1, 1),
label_names=["outcome"],
label_types=["binary"],
cohort_names=cohort_names,
user_metadata={},
)
builder = MatrixBuilder(
engine=db_engine,
db_config={
"features_schema_name": "features",
"labels_schema_name": "public",
"labels_table_name": "labels",
"cohort_table_name": "cohort_abcd",
},
experiment_hash=None,
matrix_storage_engine=project_storage.matrix_storage_engine(),
replace=True,
)
# chop time
split_definitions = chopper.chop_time()
num_split_matrices = sum(1 + len(split["test_matrices"])
for split in split_definitions)
# generate as_of_times for feature/label/state generation
all_as_of_times = []
for split in split_definitions:
all_as_of_times.extend(split["train_matrix"]["as_of_times"])
for test_matrix in split["test_matrices"]:
all_as_of_times.extend(test_matrix["as_of_times"])
all_as_of_times = list(set(all_as_of_times))
# generate entity_date state table
entity_date_table_generator.generate_entity_date_table(
as_of_dates=all_as_of_times)
# create labels table
label_generator.generate_all_labels(
labels_table="labels",
as_of_dates=all_as_of_times,
label_timespans=["6months"],
)
# create feature table tasks
# we would use FeatureGenerator#create_all_tables but want to use
# the tasks dict directly to create a feature dict
aggregations = feature_generator.aggregations(
feature_aggregation_config=[
{
"prefix":
"cat",
"from_obj":
"cat_complaints",
"knowledge_date_column":
"as_of_date",
"aggregates": [{
"quantity": "cat_sightings",
"metrics": ["count", "avg"],
"imputation": {
"all": {
"type": "mean"
}
},
}],
"intervals": ["1y"],
"groups": ["entity_id"],
},
{
"prefix":
"dog",
"from_obj":
"dog_complaints",
"knowledge_date_column":
"as_of_date",
"aggregates_imputation": {
"count": {
"type": "constant",
"value": 7
},
"sum": {
"type": "mean"
},
"avg": {
"type": "zero"
},
},
"aggregates": [{
"quantity": "dog_sightings",
"metrics": ["count", "avg"]
}],
"intervals": ["1y"],
"groups": ["entity_id"],
},
],
feature_dates=all_as_of_times,
state_table=entity_date_table_generator.entity_date_table_name,
)
feature_table_agg_tasks = feature_generator.generate_all_table_tasks(
aggregations, task_type="aggregation")
# create feature aggregation tables
feature_generator.process_table_tasks(feature_table_agg_tasks)
feature_table_imp_tasks = feature_generator.generate_all_table_tasks(
aggregations, task_type="imputation")
# create feature imputation tables
feature_generator.process_table_tasks(feature_table_imp_tasks)
# build feature dictionaries from feature tables and
# subsetting config
master_feature_dict = feature_dictionary_creator.feature_dictionary(
feature_table_names=feature_table_imp_tasks.keys(),
index_column_lookup=feature_generator.index_column_lookup(
aggregations),
)
feature_dicts = feature_group_mixer.generate(
feature_group_creator.subsets(master_feature_dict))
# figure out what matrices need to be built
_, matrix_build_tasks = planner.generate_plans(
split_definitions, feature_dicts)
# go and build the matrices
builder.build_all_matrices(matrix_build_tasks)
# super basic assertion: did matrices we expect get created?
matrices_records = list(
db_engine.execute(
"""select matrix_uuid, num_observations, matrix_type
from triage_metadata.matrices
"""))
matrix_directory = os.path.join(temp_dir, "matrices")
matrices = [
path for path in os.listdir(matrix_directory) if ".csv" in path
]
metadatas = [
path for path in os.listdir(matrix_directory)
if ".yaml" in path
]
assert len(matrices) == num_split_matrices * \
expected_matrix_multiplier
assert len(metadatas) == num_split_matrices * \
expected_matrix_multiplier
assert len(matrices) == len(matrices_records)
feature_group_name_lists = []
for metadata_path in metadatas:
with open(os.path.join(matrix_directory, metadata_path)) as f:
metadata = yaml.full_load(f)
feature_group_name_lists.append(metadata["feature_groups"])
for matrix_uuid, num_observations, matrix_type in matrices_records:
assert matrix_uuid in matrix_build_tasks # the hashes of the matrices
assert type(num_observations) is int
assert matrix_type == matrix_build_tasks[matrix_uuid][
"matrix_type"]
def deep_unique_tuple(l):
return set([tuple(i) for i in l])
assert deep_unique_tuple(
feature_group_name_lists) == deep_unique_tuple(
expected_group_lists)
class Retrainer:
"""Given a model_group_id and prediction_date, retrain a model using the all the data till prediction_date
Args:
db_engine (sqlalchemy.engine)
project_path (string)
model_group_id (string)
"""
def __init__(self, db_engine, project_path, model_group_id):
self.retrain_hash = None
self.db_engine = db_engine
upgrade_db(db_engine=self.db_engine)
self.project_storage = ProjectStorage(project_path)
self.model_group_id = model_group_id
self.model_group_info = get_model_group_info(self.db_engine,
self.model_group_id)
self.matrix_storage_engine = self.project_storage.matrix_storage_engine(
)
self.triage_run_id, self.experiment_config = experiment_config_from_model_group_id(
self.db_engine, self.model_group_id)
# This feels like it needs some refactoring since in some edge cases at least the test matrix temporal parameters
# might differ across models in the mdoel group (the training ones shouldn't), but this should probably work for
# the vast majorty of use cases...
self.experiment_config['temporal_config'].update(
temporal_params_from_matrix_metadata(
self.db_engine, self.model_group_info['model_id_last_split']))
# Since "testing" here is predicting forward to a single new date, the test_duration should always be '0day'
# (regardless of what it may have been before)
self.experiment_config['temporal_config']['test_durations'] = ['0day']
# These lists should now only contain one item (the value actually used for the last model in this group)
self.training_label_timespan = self.experiment_config[
'temporal_config']['training_label_timespans'][0]
self.test_label_timespan = self.experiment_config['temporal_config'][
'test_label_timespans'][0]
self.test_duration = self.experiment_config['temporal_config'][
'test_durations'][0]
self.feature_start_time = self.experiment_config['temporal_config'][
'feature_start_time']
self.label_name = self.experiment_config['label_config']['name']
self.cohort_name = self.experiment_config['cohort_config']['name']
self.user_metadata = self.experiment_config['user_metadata']
self.feature_dictionary_creator = FeatureDictionaryCreator(
features_schema_name='triage_production', db_engine=self.db_engine)
self.label_generator = LabelGenerator(
label_name=self.experiment_config['label_config'].get(
"name", None),
query=self.experiment_config['label_config']["query"],
replace=True,
db_engine=self.db_engine,
)
self.labels_table_name = "labels_{}_{}_production".format(
self.experiment_config['label_config'].get('name', 'default'),
filename_friendly_hash(
self.experiment_config['label_config']['query']))
self.feature_generator = FeatureGenerator(
db_engine=self.db_engine,
features_schema_name="triage_production",
feature_start_time=self.feature_start_time,
)
self.model_trainer = ModelTrainer(
experiment_hash=None,
model_storage_engine=ModelStorageEngine(self.project_storage),
db_engine=self.db_engine,
replace=True,
run_id=self.triage_run_id,
)
def get_temporal_config_for_retrain(self, prediction_date):
temporal_config = self.experiment_config['temporal_config'].copy()
temporal_config['feature_end_time'] = datetime.strftime(
prediction_date, "%Y-%m-%d")
temporal_config['label_end_time'] = datetime.strftime(
prediction_date +
convert_str_to_relativedelta(self.test_label_timespan), "%Y-%m-%d")
# just needs to be bigger than the gap between the label start and end times
# to ensure we only get one time split for the retraining
temporal_config['model_update_frequency'] = '%syears' % (
dt_from_str(temporal_config['label_end_time']).year -
dt_from_str(temporal_config['label_start_time']).year + 10)
return temporal_config
def generate_all_labels(self, as_of_date):
self.label_generator.generate_all_labels(
labels_table=self.labels_table_name,
as_of_dates=[as_of_date],
label_timespans=[self.training_label_timespan])
def generate_entity_date_table(self, as_of_date, entity_date_table_name):
cohort_table_generator = EntityDateTableGenerator(
db_engine=self.db_engine,
query=self.experiment_config['cohort_config']['query'],
entity_date_table_name=entity_date_table_name)
cohort_table_generator.generate_entity_date_table(
as_of_dates=[dt_from_str(as_of_date)])
def get_collate_aggregations(self, as_of_date, state_table):
collate_aggregations = self.feature_generator.aggregations(
feature_aggregation_config=self.
experiment_config['feature_aggregations'],
feature_dates=[as_of_date],
state_table=state_table)
return collate_aggregations
def get_feature_dict_and_imputation_task(self, collate_aggregations,
model_id):
(train_matrix_uuid, matrix_metadata) = train_matrix_info_from_model_id(
self.db_engine, model_id)
reconstructed_feature_dict = FeatureGroup()
imputation_table_tasks = OrderedDict()
for aggregation in collate_aggregations:
feature_group, feature_names = get_feature_names(
aggregation, matrix_metadata)
reconstructed_feature_dict[feature_group] = feature_names
# Make sure that the features imputed in training should also be imputed in production
features_imputed_in_train = get_feature_needs_imputation_in_train(
aggregation, feature_names)
features_imputed_in_production = get_feature_needs_imputation_in_production(
aggregation, self.db_engine)
total_impute_cols = set(features_imputed_in_production) | set(
features_imputed_in_train)
total_nonimpute_cols = set(f for f in set(feature_names)
if '_imp' not in f) - total_impute_cols
task_generator = self.feature_generator._generate_imp_table_tasks_for
imputation_table_tasks.update(
task_generator(aggregation,
impute_cols=list(total_impute_cols),
nonimpute_cols=list(total_nonimpute_cols)))
return reconstructed_feature_dict, imputation_table_tasks
def retrain(self, prediction_date):
"""Retrain a model by going back one split from prediction_date, so the as_of_date for training would be (prediction_date - training_label_timespan)
Args:
prediction_date(str)
"""
# Retrain config and hash
retrain_config = {
"model_group_id": self.model_group_id,
"prediction_date": prediction_date,
"test_label_timespan": self.test_label_timespan,
"test_duration": self.test_duration,
}
self.retrain_hash = save_retrain_and_get_hash(retrain_config,
self.db_engine)
with get_for_update(self.db_engine, Retrain,
self.retrain_hash) as retrain:
retrain.prediction_date = prediction_date
# Timechop
prediction_date = dt_from_str(prediction_date)
temporal_config = self.get_temporal_config_for_retrain(prediction_date)
timechopper = Timechop(**temporal_config)
chops = timechopper.chop_time()
assert len(chops) == 1
chops_train_matrix = chops[0]['train_matrix']
as_of_date = datetime.strftime(chops_train_matrix['last_as_of_time'],
"%Y-%m-%d")
retrain_definition = {
'first_as_of_time':
chops_train_matrix['first_as_of_time'],
'last_as_of_time':
chops_train_matrix['last_as_of_time'],
'matrix_info_end_time':
chops_train_matrix['matrix_info_end_time'],
'as_of_times': [as_of_date],
'training_label_timespan':
chops_train_matrix['training_label_timespan'],
'max_training_history':
chops_train_matrix['max_training_history'],
'training_as_of_date_frequency':
chops_train_matrix['training_as_of_date_frequency'],
}
# Set ExperimentRun
run = TriageRun(
start_time=datetime.now(),
git_hash=infer_git_hash(),
triage_version=infer_triage_version(),
python_version=infer_python_version(),
run_type="retrain",
run_hash=self.retrain_hash,
last_updated_time=datetime.now(),
current_status=TriageRunStatus.started,
installed_libraries=infer_installed_libraries(),
platform=platform.platform(),
os_user=getpass.getuser(),
working_directory=os.getcwd(),
ec2_instance_type=infer_ec2_instance_type(),
log_location=infer_log_location(),
experiment_class_path=classpath(self.__class__),
random_seed=retrieve_experiment_seed_from_run_id(
self.db_engine, self.triage_run_id),
)
run_id = None
with scoped_session(self.db_engine) as session:
session.add(run)
session.commit()
run_id = run.run_id
if not run_id:
raise ValueError("Failed to retrieve run_id from saved row")
# set ModelTrainer's run_id and experiment_hash for Retrain run
self.model_trainer.run_id = run_id
self.model_trainer.experiment_hash = self.retrain_hash
# 1. Generate all labels
self.generate_all_labels(as_of_date)
record_labels_table_name(run_id, self.db_engine,
self.labels_table_name)
# 2. Generate cohort
cohort_table_name = f"triage_production.cohort_{self.experiment_config['cohort_config']['name']}_retrain"
self.generate_entity_date_table(as_of_date, cohort_table_name)
record_cohort_table_name(run_id, self.db_engine, cohort_table_name)
# 3. Generate feature aggregations
collate_aggregations = self.get_collate_aggregations(
as_of_date, cohort_table_name)
feature_aggregation_table_tasks = self.feature_generator.generate_all_table_tasks(
collate_aggregations, task_type='aggregation')
self.feature_generator.process_table_tasks(
feature_aggregation_table_tasks)
# 4. Reconstruct feature disctionary from feature_names and generate imputation
reconstructed_feature_dict, imputation_table_tasks = self.get_feature_dict_and_imputation_task(
collate_aggregations,
self.model_group_info['model_id_last_split'],
)
feature_group_creator = FeatureGroupCreator(
self.experiment_config['feature_group_definition'])
feature_group_mixer = FeatureGroupMixer(["all"])
feature_group_dict = feature_group_mixer.generate(
feature_group_creator.subsets(reconstructed_feature_dict))[0]
self.feature_generator.process_table_tasks(imputation_table_tasks)
# 5. Build new matrix
db_config = {
"features_schema_name": "triage_production",
"labels_schema_name": "public",
"cohort_table_name": cohort_table_name,
"labels_table_name": self.labels_table_name,
}
record_matrix_building_started(run_id, self.db_engine)
matrix_builder = MatrixBuilder(
db_config=db_config,
matrix_storage_engine=self.matrix_storage_engine,
engine=self.db_engine,
experiment_hash=None,
replace=True,
)
new_matrix_metadata = Planner.make_metadata(
matrix_definition=retrain_definition,
feature_dictionary=feature_group_dict,
label_name=self.label_name,
label_type='binary',
cohort_name=self.cohort_name,
matrix_type='train',
feature_start_time=dt_from_str(self.feature_start_time),
user_metadata=self.user_metadata,
)
new_matrix_metadata['matrix_id'] = "_".join([
self.label_name,
'binary',
str(as_of_date),
'retrain',
])
matrix_uuid = filename_friendly_hash(new_matrix_metadata)
matrix_builder.build_matrix(
as_of_times=[as_of_date],
label_name=self.label_name,
label_type='binary',
feature_dictionary=feature_group_dict,
matrix_metadata=new_matrix_metadata,
matrix_uuid=matrix_uuid,
matrix_type="train",
)
retrain_model_comment = 'retrain_' + str(datetime.now())
misc_db_parameters = {
'train_end_time': dt_from_str(as_of_date),
'test': False,
'train_matrix_uuid': matrix_uuid,
'training_label_timespan': self.training_label_timespan,
'model_comment': retrain_model_comment,
}
# get the random seed from the last split
last_split_train_matrix_uuid, last_split_matrix_metadata = train_matrix_info_from_model_id(
self.db_engine,
model_id=self.model_group_info['model_id_last_split'])
random_seed = self.model_trainer.get_or_generate_random_seed(
model_group_id=self.model_group_id,
matrix_metadata=last_split_matrix_metadata,
train_matrix_uuid=last_split_train_matrix_uuid)
# create retrain model hash
retrain_model_hash = self.model_trainer._model_hash(
self.matrix_storage_engine.get_store(matrix_uuid).metadata,
class_path=self.model_group_info['model_type'],
parameters=self.model_group_info['hyperparameters'],
random_seed=random_seed,
)
associate_models_with_retrain(self.retrain_hash,
(retrain_model_hash, ), self.db_engine)
record_model_building_started(run_id, self.db_engine)
retrain_model_id = self.model_trainer.process_train_task(
matrix_store=self.matrix_storage_engine.get_store(matrix_uuid),
class_path=self.model_group_info['model_type'],
parameters=self.model_group_info['hyperparameters'],
model_hash=retrain_model_hash,
misc_db_parameters=misc_db_parameters,
random_seed=random_seed,
retrain=True,
model_group_id=self.model_group_id)
self.retrain_model_hash = retrieve_model_hash_from_id(
self.db_engine, retrain_model_id)
self.retrain_matrix_uuid = matrix_uuid
self.retrain_model_id = retrain_model_id
return {
'retrain_model_comment': retrain_model_comment,
'retrain_model_id': retrain_model_id
}
def predict(self, prediction_date):
"""Predict forward by creating a matrix using as_of_date = prediction_date and applying the retrain model on it
Args:
prediction_date(str)
"""
cohort_table_name = f"triage_production.cohort_{self.experiment_config['cohort_config']['name']}_predict"
# 1. Generate cohort
self.generate_entity_date_table(prediction_date, cohort_table_name)
# 2. Generate feature aggregations
collate_aggregations = self.get_collate_aggregations(
prediction_date, cohort_table_name)
self.feature_generator.process_table_tasks(
self.feature_generator.generate_all_table_tasks(
collate_aggregations, task_type='aggregation'))
# 3. Reconstruct feature disctionary from feature_names and generate imputation
reconstructed_feature_dict, imputation_table_tasks = self.get_feature_dict_and_imputation_task(
collate_aggregations, self.retrain_model_id)
self.feature_generator.process_table_tasks(imputation_table_tasks)
# 4. Build matrix
db_config = {
"features_schema_name": "triage_production",
"labels_schema_name": "public",
"cohort_table_name": cohort_table_name,
}
matrix_builder = MatrixBuilder(
db_config=db_config,
matrix_storage_engine=self.matrix_storage_engine,
engine=self.db_engine,
experiment_hash=None,
replace=True,
)
# Use timechop to get the time definition for production
temporal_config = self.get_temporal_config_for_retrain(
dt_from_str(prediction_date))
timechopper = Timechop(**temporal_config)
retrain_config = get_retrain_config_from_model_id(
self.db_engine, self.retrain_model_id)
prod_definitions = timechopper.define_test_matrices(
train_test_split_time=dt_from_str(prediction_date),
test_duration=retrain_config['test_duration'],
test_label_timespan=retrain_config['test_label_timespan'])
last_split_definition = prod_definitions[-1]
matrix_metadata = Planner.make_metadata(
matrix_definition=last_split_definition,
feature_dictionary=reconstructed_feature_dict,
label_name=self.label_name,
label_type='binary',
cohort_name=self.cohort_name,
matrix_type='production',
feature_start_time=self.feature_start_time,
user_metadata=self.user_metadata,
)
matrix_metadata['matrix_id'] = str(
prediction_date
) + f'_model_id_{self.retrain_model_id}' + '_risklist'
matrix_uuid = filename_friendly_hash(matrix_metadata)
matrix_builder.build_matrix(
as_of_times=[prediction_date],
label_name=self.label_name,
label_type='binary',
feature_dictionary=reconstructed_feature_dict,
matrix_metadata=matrix_metadata,
matrix_uuid=matrix_uuid,
matrix_type="production",
)
# 5. Predict the risk score for production
predictor = Predictor(
model_storage_engine=self.project_storage.model_storage_engine(),
db_engine=self.db_engine,
rank_order='best')
predictor.predict(
model_id=self.retrain_model_id,
matrix_store=self.matrix_storage_engine.get_store(matrix_uuid),
misc_db_parameters={},
train_matrix_columns=self.matrix_storage_engine.get_store(
self.retrain_matrix_uuid).columns(),
)
self.predict_matrix_uuid = matrix_uuid