# Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"). You # may not use this file except in compliance with the License. A copy of # the License is located at # # http://aws.amazon.com/apache2.0/ # # or in the "license" file accompanying this file. This file is # distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF # ANY KIND, either express or implied. See the License for the specific # language governing permissions and limitations under the License. from __future__ import absolute_import import pytest from mock import Mock, patch from sagemaker import image_uris from sagemaker.amazon.ipinsights import IPInsights, IPInsightsPredictor from sagemaker.amazon.amazon_estimator import RecordSet from sagemaker.session_settings import SessionSettings # Mocked training config ROLE = "myrole" INSTANCE_COUNT = 1 INSTANCE_TYPE = "ml.c4.xlarge" # Required algorithm hyperparameters NUM_ENTITY_VECTORS = 10000 VECTOR_DIM = 128 COMMON_TRAIN_ARGS = { "role": ROLE, "instance_count": INSTANCE_COUNT, "instance_type": INSTANCE_TYPE, } ALL_REQ_ARGS = dict( {"num_entity_vectors": NUM_ENTITY_VECTORS, "vector_dim": VECTOR_DIM}, **COMMON_TRAIN_ARGS ) REGION = "us-west-2" BUCKET_NAME = "Some-Bucket" DESCRIBE_TRAINING_JOB_RESULT = {"ModelArtifacts": {"S3ModelArtifacts": "s3://bucket/model.tar.gz"}} ENDPOINT_DESC = {"EndpointConfigName": "test-endpoint"} ENDPOINT_CONFIG_DESC = {"ProductionVariants": [{"ModelName": "model-1"}, {"ModelName": "model-2"}]} @pytest.fixture() def sagemaker_session(): boto_mock = Mock(name="boto_session", region_name=REGION) sms = Mock( name="sagemaker_session", boto_session=boto_mock, region_name=REGION, config=None, local_mode=False, settings=SessionSettings(), default_bucket_prefix=None, ) sms.boto_region_name = REGION sms.default_bucket = Mock(name="default_bucket", return_value=BUCKET_NAME) sms.sagemaker_client.describe_training_job = Mock( name="describe_training_job", return_value=DESCRIBE_TRAINING_JOB_RESULT ) sms.sagemaker_client.describe_endpoint = Mock(return_value=ENDPOINT_DESC) sms.sagemaker_client.describe_endpoint_config = Mock(return_value=ENDPOINT_CONFIG_DESC) # For tests which doesn't verify config file injection, operate with empty config sms.sagemaker_config = {} return sms def test_init_required_positional(sagemaker_session): ipinsights = IPInsights( ROLE, INSTANCE_COUNT, INSTANCE_TYPE, NUM_ENTITY_VECTORS, VECTOR_DIM, sagemaker_session=sagemaker_session, ) assert ipinsights.role == ROLE assert ipinsights.instance_count == INSTANCE_COUNT assert ipinsights.instance_type == INSTANCE_TYPE assert ipinsights.num_entity_vectors == NUM_ENTITY_VECTORS assert ipinsights.vector_dim == VECTOR_DIM def test_init_required_named(sagemaker_session): ipinsights = IPInsights(sagemaker_session=sagemaker_session, **ALL_REQ_ARGS) assert ipinsights.role == COMMON_TRAIN_ARGS["role"] assert ipinsights.instance_count == INSTANCE_COUNT assert ipinsights.instance_type == COMMON_TRAIN_ARGS["instance_type"] assert ipinsights.num_entity_vectors == NUM_ENTITY_VECTORS assert ipinsights.vector_dim == VECTOR_DIM def test_all_hyperparameters(sagemaker_session): ipinsights = IPInsights( sagemaker_session=sagemaker_session, batch_metrics_publish_interval=100, epochs=10, learning_rate=0.001, num_ip_encoder_layers=3, random_negative_sampling_rate=5, shuffled_negative_sampling_rate=5, weight_decay=5.0, **ALL_REQ_ARGS, ) assert ipinsights.hyperparameters() == dict( num_entity_vectors=str(ALL_REQ_ARGS["num_entity_vectors"]), vector_dim=str(ALL_REQ_ARGS["vector_dim"]), batch_metrics_publish_interval="100", epochs="10", learning_rate="0.001", num_ip_encoder_layers="3", random_negative_sampling_rate="5", shuffled_negative_sampling_rate="5", weight_decay="5.0", ) def test_image(sagemaker_session): ipinsights = IPInsights(sagemaker_session=sagemaker_session, **ALL_REQ_ARGS) assert image_uris.retrieve("ipinsights", REGION) == ipinsights.training_image_uri() @pytest.mark.parametrize( "required_hyper_parameters, value", [("num_entity_vectors", "string"), ("vector_dim", "string")] ) def test_required_hyper_parameters_type(sagemaker_session, required_hyper_parameters, value): with pytest.raises(ValueError): test_params = ALL_REQ_ARGS.copy() test_params[required_hyper_parameters] = value IPInsights(sagemaker_session=sagemaker_session, **test_params) @pytest.mark.parametrize( "required_hyper_parameters, value", [ ("num_entity_vectors", 0), ("num_entity_vectors", 500000001), ("vector_dim", 3), ("vector_dim", 4097), ], ) def test_required_hyper_parameters_value(sagemaker_session, required_hyper_parameters, value): with pytest.raises(ValueError): test_params = ALL_REQ_ARGS.copy() test_params[required_hyper_parameters] = value IPInsights(sagemaker_session=sagemaker_session, **test_params) @pytest.mark.parametrize( "optional_hyper_parameters, value", [ ("batch_metrics_publish_interval", "string"), ("epochs", "string"), ("learning_rate", "string"), ("num_ip_encoder_layers", "string"), ("random_negative_sampling_rate", "string"), ("shuffled_negative_sampling_rate", "string"), ("weight_decay", "string"), ], ) def test_optional_hyper_parameters_type(sagemaker_session, optional_hyper_parameters, value): with pytest.raises(ValueError): test_params = ALL_REQ_ARGS.copy() test_params.update({optional_hyper_parameters: value}) IPInsights(sagemaker_session=sagemaker_session, **test_params) @pytest.mark.parametrize( "optional_hyper_parameters, value", [ ("batch_metrics_publish_interval", 0), ("epochs", 0), ("learning_rate", 0), ("learning_rate", 11), ("num_ip_encoder_layers", -1), ("num_ip_encoder_layers", 101), ("random_negative_sampling_rate", -1), ("random_negative_sampling_rate", 501), ("shuffled_negative_sampling_rate", -1), ("shuffled_negative_sampling_rate", 501), ("weight_decay", -1), ("weight_decay", 11), ], ) def test_optional_hyper_parameters_value(sagemaker_session, optional_hyper_parameters, value): with pytest.raises(ValueError): test_params = ALL_REQ_ARGS.copy() test_params.update({optional_hyper_parameters: value}) IPInsights(sagemaker_session=sagemaker_session, **test_params) PREFIX = "prefix" FEATURE_DIM = None MINI_BATCH_SIZE = 200 @patch("sagemaker.amazon.amazon_estimator.AmazonAlgorithmEstimatorBase.fit") def test_call_fit(base_fit, sagemaker_session): ipinsights = IPInsights( base_job_name="ipinsights", sagemaker_session=sagemaker_session, **ALL_REQ_ARGS ) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) ipinsights.fit(data, MINI_BATCH_SIZE) base_fit.assert_called_once() assert len(base_fit.call_args[0]) == 2 assert base_fit.call_args[0][0] == data assert base_fit.call_args[0][1] == MINI_BATCH_SIZE def test_call_fit_none_mini_batch_size(sagemaker_session): ipinsights = IPInsights( base_job_name="ipinsights", sagemaker_session=sagemaker_session, **ALL_REQ_ARGS ) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) ipinsights.fit(data) def test_prepare_for_training_wrong_type_mini_batch_size(sagemaker_session): ipinsights = IPInsights( base_job_name="ipinsights", sagemaker_session=sagemaker_session, **ALL_REQ_ARGS ) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) with pytest.raises((TypeError, ValueError)): ipinsights._prepare_for_training(data, "some") def test_prepare_for_training_wrong_value_lower_mini_batch_size(sagemaker_session): ipinsights = IPInsights( base_job_name="ipinsights", sagemaker_session=sagemaker_session, **ALL_REQ_ARGS ) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) with pytest.raises(ValueError): ipinsights._prepare_for_training(data, 0) def test_prepare_for_training_wrong_value_upper_mini_batch_size(sagemaker_session): ipinsights = IPInsights( base_job_name="ipinsights", sagemaker_session=sagemaker_session, **ALL_REQ_ARGS ) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) with pytest.raises(ValueError): ipinsights._prepare_for_training(data, 500001) def test_model_image(sagemaker_session): ipinsights = IPInsights(sagemaker_session=sagemaker_session, **ALL_REQ_ARGS) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) ipinsights.fit(data, MINI_BATCH_SIZE) model = ipinsights.create_model() assert image_uris.retrieve("ipinsights", REGION) == model.image_uri def test_predictor_type(sagemaker_session): ipinsights = IPInsights(sagemaker_session=sagemaker_session, **ALL_REQ_ARGS) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) ipinsights.fit(data, MINI_BATCH_SIZE) model = ipinsights.create_model() predictor = model.deploy(1, INSTANCE_TYPE) assert isinstance(predictor, IPInsightsPredictor) def test_predictor_custom_serialization(sagemaker_session): ipinsights = IPInsights(sagemaker_session=sagemaker_session, **ALL_REQ_ARGS) data = RecordSet( "s3://{}/{}".format(BUCKET_NAME, PREFIX), num_records=1, feature_dim=FEATURE_DIM, channel="train", ) ipinsights.fit(data, MINI_BATCH_SIZE) model = ipinsights.create_model() custom_serializer = Mock() custom_deserializer = Mock() predictor = model.deploy( 1, INSTANCE_TYPE, serializer=custom_serializer, deserializer=custom_deserializer, ) assert isinstance(predictor, IPInsightsPredictor) assert predictor.serializer is custom_serializer assert predictor.deserializer is custom_deserializer