# Copyright 2019 Huawei Technologies Co., Ltd # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============================================================================ """ Function: Test the query module about lineage information. Usage: The query module test should be run after lineagemgr/collection/model/test_model_lineage.py pytest lineagemgr """ import os from unittest import TestCase import pytest from mindinsight.lineagemgr import filter_summary_lineage, get_summary_lineage from mindinsight.lineagemgr.common.exceptions.exceptions import (LineageFileNotFoundError, LineageParamSummaryPathError, LineageParamTypeError, LineageParamValueError, LineageSearchConditionParamError) from ..conftest import BASE_SUMMARY_DIR, DATASET_GRAPH, SUMMARY_DIR, SUMMARY_DIR_2 from .....ut.lineagemgr.querier import event_data LINEAGE_INFO_RUN1 = { 'summary_dir': os.path.join(BASE_SUMMARY_DIR, 'run1'), 'metric': { 'accuracy': 0.78 }, 'hyper_parameters': { 'optimizer': 'Momentum', 'learning_rate': 0.11999999731779099, 'loss_function': 'SoftmaxCrossEntropyWithLogits', 'epoch': 14, 'parallel_mode': 'stand_alone', 'device_num': 2, 'batch_size': 32 }, 'algorithm': { 'network': 'ResNet' }, 'train_dataset': { 'train_dataset_size': 1024 }, 'valid_dataset': { 'valid_dataset_size': 1024 }, 'model': { 'path': '{"ckpt": "' + BASE_SUMMARY_DIR + '/run1/CKPtest_model.ckpt"}', 'size': 64 }, 'dataset_graph': DATASET_GRAPH } LINEAGE_FILTRATION_EXCEPT_RUN = { 'summary_dir': os.path.join(BASE_SUMMARY_DIR, 'except_run'), 'model_lineage': { 'loss_function': 'SoftmaxCrossEntropyWithLogits', 'train_dataset_path': None, 'train_dataset_count': 1024, 'test_dataset_path': None, 'test_dataset_count': None, 'user_defined': {}, 'network': 'ResNet', 'optimizer': 'Momentum', 'learning_rate': 0.11999999731779099, 'epoch': 10, 'batch_size': 32, 'device_num': 2, 'loss': 0.029999999329447746, 'model_size': 64, 'metric': {}, 'dataset_mark': 2 }, 'dataset_graph': DATASET_GRAPH } LINEAGE_FILTRATION_RUN1 = { 'summary_dir': os.path.join(BASE_SUMMARY_DIR, 'run1'), 'model_lineage': { 'loss_function': 'SoftmaxCrossEntropyWithLogits', 'train_dataset_path': None, 'train_dataset_count': 1024, 'test_dataset_path': None, 'test_dataset_count': 1024, 'user_defined': {}, 'network': 'ResNet', 'optimizer': 'Momentum', 'learning_rate': 0.11999999731779099, 'epoch': 14, 'batch_size': 32, 'device_num': 2, 'loss': None, 'model_size': 64, 'metric': { 'accuracy': 0.78 }, 'dataset_mark': 2 }, 'dataset_graph': DATASET_GRAPH } LINEAGE_FILTRATION_RUN2 = { 'summary_dir': os.path.join(BASE_SUMMARY_DIR, 'run2'), 'model_lineage': { 'loss_function': "SoftmaxCrossEntropyWithLogits", 'train_dataset_path': None, 'train_dataset_count': 1024, 'test_dataset_path': None, 'test_dataset_count': 1024, 'user_defined': {}, 'network': "ResNet", 'optimizer': "Momentum", 'learning_rate': 0.11999999731779099, 'epoch': 10, 'batch_size': 32, 'device_num': 2, 'loss': 0.029999999329447746, 'model_size': 10, 'metric': { 'accuracy': 2.7800000000000002 }, 'dataset_mark': 3 }, 'dataset_graph': DATASET_GRAPH } @pytest.mark.usefixtures("create_summary_dir") class TestModelApi(TestCase): """Test lineage information query interface.""" @classmethod def setup_class(cls): """The initial process.""" cls.dir_with_empty_lineage = os.path.join( BASE_SUMMARY_DIR, 'dir_with_empty_lineage' ) os.makedirs(cls.dir_with_empty_lineage) ms_file = os.path.join( cls.dir_with_empty_lineage, 'empty.summary.1581499502.bms_MS' ) lineage_file = ms_file + '_lineage' with open(ms_file, mode='w'): pass with open(lineage_file, mode='w'): pass cls.empty_dir = os.path.join(BASE_SUMMARY_DIR, 'empty_dir') os.makedirs(cls.empty_dir) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_get_summary_lineage(self): """Test the interface of get_summary_lineage.""" total_res = get_summary_lineage(SUMMARY_DIR) partial_res1 = get_summary_lineage(SUMMARY_DIR, ['hyper_parameters']) partial_res2 = get_summary_lineage(SUMMARY_DIR, ['metric', 'algorithm']) expect_total_res = LINEAGE_INFO_RUN1 expect_partial_res1 = { 'summary_dir': os.path.join(BASE_SUMMARY_DIR, 'run1'), 'hyper_parameters': { 'optimizer': 'Momentum', 'learning_rate': 0.11999999731779099, 'loss_function': 'SoftmaxCrossEntropyWithLogits', 'epoch': 14, 'parallel_mode': 'stand_alone', 'device_num': 2, 'batch_size': 32 } } expect_partial_res2 = { 'summary_dir': os.path.join(BASE_SUMMARY_DIR, 'run1'), 'metric': { 'accuracy': 0.78 }, 'algorithm': { 'network': 'ResNet' } } assert expect_total_res == total_res assert expect_partial_res1 == partial_res1 assert expect_partial_res2 == partial_res2 # the lineage summary file is empty result = get_summary_lineage(self.dir_with_empty_lineage) assert {} == result # keys is empty list expect_result = { 'summary_dir': SUMMARY_DIR } result = get_summary_lineage(SUMMARY_DIR, []) assert expect_result == result @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_get_summary_lineage_exception_1(self): """Test the interface of get_summary_lineage with exception.""" # summary path does not exist self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path does not exist or is not a dir.', get_summary_lineage, '/tmp/fake/dir' ) # summary path is relative path self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path is invalid.', get_summary_lineage, 'tmp' ) # the type of input param is invalid self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path is invalid.', get_summary_lineage, ['/root/linage1', '/root/lineage2'] ) # summary path is empty str self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path is invalid.', get_summary_lineage, '', keys=None ) # summary path invalid self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path is invalid.', get_summary_lineage, '\\', keys=None ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_get_summary_lineage_exception_2(self): """Test the interface of get_summary_lineage with exception.""" # keys is invalid self.assertRaisesRegex( LineageParamValueError, 'Keys must be in', get_summary_lineage, SUMMARY_DIR, ['metric', 'fake_name'] ) self.assertRaisesRegex( LineageParamTypeError, 'Keys must be list.', get_summary_lineage, SUMMARY_DIR, 0 ) self.assertRaisesRegex( LineageParamTypeError, 'Keys must be list.', get_summary_lineage, SUMMARY_DIR, 0.1 ) self.assertRaisesRegex( LineageParamTypeError, 'Keys must be list.', get_summary_lineage, SUMMARY_DIR, True ) self.assertRaisesRegex( LineageParamTypeError, 'Element of keys must be str.', get_summary_lineage, SUMMARY_DIR, [1, 2, 3] ) self.assertRaisesRegex( LineageParamTypeError, 'Keys must be list.', get_summary_lineage, SUMMARY_DIR, (3, 4) ) self.assertRaisesRegex( LineageParamTypeError, 'Keys must be list.', get_summary_lineage, SUMMARY_DIR, {'a': 'b'} ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage(self): """Test the interface of filter_summary_lineage.""" expect_result = { 'customized': event_data.CUSTOMIZED__0, 'object': [ LINEAGE_FILTRATION_EXCEPT_RUN, LINEAGE_FILTRATION_RUN1, LINEAGE_FILTRATION_RUN2 ], 'count': 3 } search_condition = { 'sorted_name': 'summary_dir' } res = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition) expect_objects = expect_result.get('object') for idx, res_object in enumerate(res.get('object')): expect_objects[idx]['model_lineage']['dataset_mark'] = res_object['model_lineage'].get('dataset_mark') assert expect_result == res expect_result = { 'customized': {}, 'object': [], 'count': 0 } res = filter_summary_lineage(self.dir_with_empty_lineage) expect_objects = expect_result.get('object') for idx, res_object in enumerate(res.get('object')): expect_objects[idx]['model_lineage']['dataset_mark'] = res_object['model_lineage'].get('dataset_mark') assert expect_result == res @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_with_condition_1(self): """Test the interface of filter_summary_lineage with condition.""" search_condition = { 'summary_dir': { 'in': [ SUMMARY_DIR, SUMMARY_DIR_2 ] }, 'metric/accuracy': { 'lt': 3.0, 'gt': 0.5 }, 'sorted_name': 'metric/accuracy', 'sorted_type': 'descending', 'limit': 3, 'offset': 0 } expect_result = { 'customized': event_data.CUSTOMIZED__0, 'object': [ LINEAGE_FILTRATION_RUN2, LINEAGE_FILTRATION_RUN1 ], 'count': 2 } partial_res = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition) expect_objects = expect_result.get('object') for idx, res_object in enumerate(partial_res.get('object')): expect_objects[idx]['model_lineage']['dataset_mark'] = res_object['model_lineage'].get('dataset_mark') assert expect_result == partial_res @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_with_condition_2(self): """Test the interface of filter_summary_lineage with condition.""" search_condition = { 'summary_dir': { 'in': [ './run1', './run2' ] }, 'metric/accuracy': { 'lt': 3.0, 'gt': 0.5 }, 'sorted_name': 'metric/accuracy', 'sorted_type': 'descending', 'limit': 3, 'offset': 0 } expect_result = { 'customized': event_data.CUSTOMIZED__0, 'object': [ LINEAGE_FILTRATION_RUN2, LINEAGE_FILTRATION_RUN1 ], 'count': 2 } partial_res = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition) expect_objects = expect_result.get('object') for idx, res_object in enumerate(partial_res.get('object')): expect_objects[idx]['model_lineage']['dataset_mark'] = res_object['model_lineage'].get('dataset_mark') assert expect_result == partial_res @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_with_condition_3(self): """Test the interface of filter_summary_lineage with condition.""" search_condition1 = { 'batch_size': { 'ge': 30 }, 'sorted_name': 'metric/accuracy', } expect_result = { 'customized': event_data.CUSTOMIZED__0, 'object': [ LINEAGE_FILTRATION_EXCEPT_RUN, LINEAGE_FILTRATION_RUN1, LINEAGE_FILTRATION_RUN2 ], 'count': 3 } partial_res1 = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition1) expect_objects = expect_result.get('object') for idx, res_object in enumerate(partial_res1.get('object')): expect_objects[idx]['model_lineage']['dataset_mark'] = res_object['model_lineage'].get('dataset_mark') assert expect_result == partial_res1 search_condition2 = { 'batch_size': { 'lt': 30 }, 'lineage_type': { 'eq': 'model' }, } expect_result = { 'customized': {}, 'object': [], 'count': 0 } partial_res2 = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition2) expect_objects = expect_result.get('object') for idx, res_object in enumerate(partial_res2.get('object')): expect_objects[idx]['model_lineage']['dataset_mark'] = res_object['model_lineage'].get('dataset_mark') assert expect_result == partial_res2 @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_with_lineage_type(self): """Test the interface of filter_summary_lineage with lineage_type.""" summary_dir = os.path.join(BASE_SUMMARY_DIR, 'except_run') search_condition = { 'summary_dir': { 'in': [summary_dir] }, 'lineage_type': { 'eq': 'dataset' }, } expect_result = { 'customized': {}, 'object': [ { 'summary_dir': summary_dir, 'dataset_graph': DATASET_GRAPH } ], 'count': 1 } res = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition) assert expect_result == res @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_1(self): """Test the abnormal execution of the filter_summary_lineage interface.""" # summary base dir is relative path self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path is invalid.', filter_summary_lineage, 'relative_path' ) # summary base dir does not exist self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path does not exist or is not a dir.', filter_summary_lineage, '/path/does/not/exist' ) # no summary log file under summary_base_dir self.assertRaisesRegex( LineageFileNotFoundError, 'There is no summary log file under summary_base_dir.', filter_summary_lineage, self.empty_dir ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_2(self): """Test the abnormal execution of the filter_summary_lineage interface.""" # search_condition type error search_condition = { 'summary_dir': 1.0 } self.assertRaisesRegex( LineageSearchConditionParamError, 'The search_condition element summary_dir should be dict.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # only sorted_type (no sorted_name) search_condition = { 'sorted_type': 'descending' } self.assertRaisesRegex( LineageSearchConditionParamError, 'The sorted_name have to exist when sorted_type exists.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # search condition is not dict or None search_condition = [] self.assertRaisesRegex( LineageSearchConditionParamError, 'Invalid search_condition type, it should be dict.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # the condition of limit is invalid search_condition = { 'limit': True } self.assertRaisesRegex( LineageSearchConditionParamError, 'The limit must be int.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_3(self): """Test the abnormal execution of the filter_summary_lineage interface.""" # the condition of offset is invalid search_condition = { 'offset': 1.0 } self.assertRaisesRegex( LineageSearchConditionParamError, 'The offset must be int.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # the search attribute not supported search_condition = { 'dataset_graph': { 'le': 1 } } self.assertRaisesRegex( LineageSearchConditionParamError, 'The search attribute not supported.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_4(self): """Test the abnormal execution of the filter_summary_lineage interface.""" # the sorted_type not supported search_condition = { 'sorted_name': 'summary_dir', 'sorted_type': 'xxx' } self.assertRaisesRegex( LineageSearchConditionParamError, 'The sorted_type must be ascending or descending', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # the search condition not supported search_condition = { 'batch_size': { 'dd': 30 } } self.assertRaisesRegex( LineageSearchConditionParamError, 'The compare condition should be in', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # the search condition type error search_condition = { 'metric/accuracy': { 'lt': 'xxx' } } self.assertRaisesRegex( LineageSearchConditionParamError, 'The parameter metric/accuracy is invalid.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_5(self): """Test the abnormal execution of the filter_summary_lineage interface.""" # the summary dir is invalid in search condition search_condition = { 'summary_dir': { 'in': [ 'xxx' ] } } self.assertRaisesRegex( LineageParamSummaryPathError, 'The summary path is invalid.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_6(self): """Test the abnormal execution of the filter_summary_lineage interface.""" # gt > lt search_condition1 = { 'metric/accuracy': { 'gt': 1, 'lt': 0.5 } } expect_result = { 'customized': {}, 'object': [], 'count': 0 } partial_res1 = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition1) assert expect_result == partial_res1 # the (offset + 1) * limit > count search_condition2 = { 'loss': { 'lt': 1 }, 'limit': 1, 'offset': 4 } expect_result = { 'customized': {}, 'object': [], 'count': 2 } partial_res2 = filter_summary_lineage(BASE_SUMMARY_DIR, search_condition2) assert expect_result == partial_res2 @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_7(self): """Test the abnormal execution of the filter_summary_lineage interface.""" condition_keys = ["summary_dir", "lineage_type", "loss_function", "optimizer", "network", "dataset_mark"] for condition_key in condition_keys: # the condition type not supported in summary_dir and lineage_type search_condition = { condition_key: { 'lt': '/xxx' } } self.assertRaisesRegex( LineageSearchConditionParamError, f'The parameter {condition_key} is invalid. Its operation should be `in` or `eq`.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) # more than one operation in summary_dir and lineage_type search_condition = { condition_key: { 'in': ['/xxx', '/yyy'], 'eq': '/zzz', } } self.assertRaisesRegex( LineageSearchConditionParamError, f'The parameter {condition_key} is invalid. More than one operation.', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_8(self): """Test the abnormal execution of the filter_summary_lineage interface.""" invalid_lineage_types = ['xxx', None] for lineage_type in invalid_lineage_types: search_condition = { 'lineage_type': { 'eq': lineage_type } } self.assertRaisesRegex( LineageSearchConditionParamError, "The parameter lineage_type is invalid. It should be 'dataset' or 'model'.", filter_summary_lineage, BASE_SUMMARY_DIR, search_condition ) @pytest.mark.level0 @pytest.mark.platform_arm_ascend_training @pytest.mark.platform_x86_gpu_training @pytest.mark.platform_x86_ascend_training @pytest.mark.platform_x86_cpu @pytest.mark.env_single def test_filter_summary_lineage_exception_9(self): """Test the abnormal execution of the filter_summary_lineage interface.""" invalid_sorted_names = ['xxx', 'metric_', 1] for sorted_name in invalid_sorted_names: search_condition = { 'sorted_name': sorted_name } self.assertRaisesRegex( LineageSearchConditionParamError, 'The sorted_name must be in', filter_summary_lineage, BASE_SUMMARY_DIR, search_condition )