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363 lines
16 KiB
363 lines
16 KiB
# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. |
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# |
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# Licensed under the Apache License, Version 2.0 (the "License"); |
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# you may not use this file except in compliance with the License. |
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# You may obtain a copy of the License at |
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# |
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# http://www.apache.org/licenses/LICENSE-2.0 |
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# |
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# Unless required by applicable law or agreed to in writing, software |
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# distributed under the License is distributed on an "AS IS" BASIS, |
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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# See the License for the specific language governing permissions and |
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# limitations under the License. |
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import os.path as osp |
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import tempfile |
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import unittest.mock as mock |
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import paddle |
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import paddlers as pdrs |
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from paddlers.transforms import decode_image |
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from testing_utils import CommonTest, run_script |
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__all__ = [ |
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'TestCDPredictor', 'TestClasPredictor', 'TestDetPredictor', |
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'TestSegPredictor' |
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] |
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class TestPredictor(CommonTest): |
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MODULE = pdrs.tasks |
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TRAINER_NAME_TO_EXPORT_OPTS = {} |
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WHITE_LIST = [] |
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@staticmethod |
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def add_tests(cls): |
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""" |
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Automatically patch testing functions to cls. |
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""" |
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def _test_predictor(trainer_name): |
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def _test_predictor_impl(self): |
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trainer_class = getattr(self.MODULE, trainer_name) |
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# Construct trainer with default parameters |
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# TODO: Load pretrained weights to avoid numeric problems |
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trainer = trainer_class() |
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with tempfile.TemporaryDirectory() as td: |
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dynamic_model_dir = osp.join(td, "dynamic") |
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static_model_dir = osp.join(td, "static") |
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# HACK: BaseModel.save_model() requires BaseModel().optimizer to be set |
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optimizer = mock.Mock() |
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optimizer.state_dict.return_value = {'foo': 'bar'} |
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trainer.optimizer = optimizer |
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trainer.save_model(dynamic_model_dir) |
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export_cmd = f"python export_model.py --model_dir {dynamic_model_dir} --save_dir {static_model_dir} " |
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if trainer_name in self.TRAINER_NAME_TO_EXPORT_OPTS: |
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export_cmd += self.TRAINER_NAME_TO_EXPORT_OPTS[ |
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trainer_name] |
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elif '_default' in self.TRAINER_NAME_TO_EXPORT_OPTS: |
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export_cmd += self.TRAINER_NAME_TO_EXPORT_OPTS[ |
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'_default'] |
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run_script(export_cmd, wd="../deploy/export") |
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# Construct predictor |
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# TODO: Test trt and mkl |
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predictor = pdrs.deploy.Predictor( |
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static_model_dir, |
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use_gpu=paddle.device.get_device().startswith('gpu')) |
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self.check_predictor(predictor, trainer) |
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return _test_predictor_impl |
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for trainer_name in cls.MODULE.__all__: |
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if trainer_name in cls.WHITE_LIST: |
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continue |
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setattr(cls, 'test_' + trainer_name, _test_predictor(trainer_name)) |
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return cls |
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def check_predictor(self, predictor, trainer): |
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raise NotImplementedError |
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def check_dict_equal( |
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self, |
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dict_, |
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expected_dict, |
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ignore_keys=('label_map', 'mask', 'category', 'category_id')): |
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# By default do not compare label_maps, masks, or categories, |
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# because numeric errors could result in large difference in labels. |
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if isinstance(dict_, list): |
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self.assertIsInstance(expected_dict, list) |
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self.assertEqual(len(dict_), len(expected_dict)) |
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for d1, d2 in zip(dict_, expected_dict): |
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self.check_dict_equal(d1, d2, ignore_keys=ignore_keys) |
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else: |
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assert isinstance(dict_, dict) |
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assert isinstance(expected_dict, dict) |
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self.assertEqual(dict_.keys(), expected_dict.keys()) |
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ignore_keys = set() if ignore_keys is None else set(ignore_keys) |
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for key in dict_.keys(): |
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if key in ignore_keys: |
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continue |
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# Use higher tolerance |
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self.check_output_equal( |
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dict_[key], expected_dict[key], rtol=1.e-4, atol=1.e-6) |
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@TestPredictor.add_tests |
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class TestCDPredictor(TestPredictor): |
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MODULE = pdrs.tasks.change_detector |
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TRAINER_NAME_TO_EXPORT_OPTS = { |
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'_default': "--fixed_input_shape [-1,3,256,256]" |
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} |
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# HACK: Skip CDNet. |
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# These models are heavily affected by numeric errors. |
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WHITE_LIST = ['CDNet'] |
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def check_predictor(self, predictor, trainer): |
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t1_path = "data/ssmt/optical_t1.bmp" |
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t2_path = "data/ssmt/optical_t2.bmp" |
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single_input = (t1_path, t2_path) |
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num_inputs = 2 |
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transforms = pdrs.transforms.Compose([ |
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pdrs.transforms.DecodeImg(), pdrs.transforms.Normalize(), |
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pdrs.transforms.ArrangeChangeDetector('test') |
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]) |
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# Expected failure |
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with self.assertRaises(ValueError): |
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predictor.predict(t1_path, transforms=transforms) |
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# Single input (file paths) |
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input_ = single_input |
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out_single_file_p = predictor.predict(input_, transforms=transforms) |
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out_single_file_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_file_p, out_single_file_t) |
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out_single_file_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_file_list_p), 1) |
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self.check_dict_equal(out_single_file_list_p[0], out_single_file_p) |
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out_single_file_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.check_dict_equal(out_single_file_list_p[0], |
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out_single_file_list_t[0]) |
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# Single input (ndarrays) |
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input_ = (decode_image( |
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t1_path, to_rgb=False), decode_image( |
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t2_path, to_rgb=False)) # Reuse the name `input_` |
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out_single_array_p = predictor.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_array_p, out_single_file_p) |
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out_single_array_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_array_p, out_single_array_t) |
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out_single_array_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_array_list_p), 1) |
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self.check_dict_equal(out_single_array_list_p[0], out_single_array_p) |
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out_single_array_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.check_dict_equal(out_single_array_list_p[0], |
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out_single_array_list_t[0]) |
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# Multiple inputs (file paths) |
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input_ = [single_input] * num_inputs # Reuse the name `input_` |
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out_multi_file_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_p), num_inputs) |
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out_multi_file_t = trainer.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_t), num_inputs) |
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# Multiple inputs (ndarrays) |
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input_ = [(decode_image( |
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t1_path, to_rgb=False), decode_image( |
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t2_path, to_rgb=False))] * num_inputs # Reuse the name `input_` |
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out_multi_array_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_p), num_inputs) |
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out_multi_array_t = trainer.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_t), num_inputs) |
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@TestPredictor.add_tests |
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class TestClasPredictor(TestPredictor): |
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MODULE = pdrs.tasks.classifier |
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TRAINER_NAME_TO_EXPORT_OPTS = { |
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'_default': "--fixed_input_shape [-1,3,256,256]" |
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} |
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def check_predictor(self, predictor, trainer): |
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single_input = "data/ssmt/optical_t1.bmp" |
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num_inputs = 2 |
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transforms = pdrs.transforms.Compose([ |
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pdrs.transforms.DecodeImg(), pdrs.transforms.Normalize(), |
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pdrs.transforms.ArrangeClassifier('test') |
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]) |
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labels = list(range(2)) |
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trainer.labels = labels |
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predictor._model.labels = labels |
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# Single input (file path) |
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input_ = single_input |
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out_single_file_p = predictor.predict(input_, transforms=transforms) |
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out_single_file_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_file_p, out_single_file_t) |
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out_single_file_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_file_list_p), 1) |
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self.check_dict_equal(out_single_file_list_p[0], out_single_file_p) |
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out_single_file_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.check_dict_equal(out_single_file_list_p[0], |
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out_single_file_list_t[0]) |
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# Single input (ndarray) |
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input_ = decode_image( |
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single_input, to_rgb=False) # Reuse the name `input_` |
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out_single_array_p = predictor.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_array_p, out_single_file_p) |
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out_single_array_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_array_p, out_single_array_t) |
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out_single_array_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_array_list_p), 1) |
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self.check_dict_equal(out_single_array_list_p[0], out_single_array_p) |
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out_single_array_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.check_dict_equal(out_single_array_list_p[0], |
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out_single_array_list_t[0]) |
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# Multiple inputs (file paths) |
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input_ = [single_input] * num_inputs # Reuse the name `input_` |
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out_multi_file_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_p), num_inputs) |
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out_multi_file_t = trainer.predict(input_, transforms=transforms) |
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# Check value consistence |
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self.check_dict_equal(out_multi_file_p, out_multi_file_t) |
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# Multiple inputs (ndarrays) |
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input_ = [decode_image( |
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single_input, to_rgb=False)] * num_inputs # Reuse the name `input_` |
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out_multi_array_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_p), num_inputs) |
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out_multi_array_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_multi_array_p, out_multi_array_t) |
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@TestPredictor.add_tests |
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class TestDetPredictor(TestPredictor): |
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MODULE = pdrs.tasks.object_detector |
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TRAINER_NAME_TO_EXPORT_OPTS = { |
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'_default': "--fixed_input_shape [-1,3,256,256]" |
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} |
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def check_predictor(self, predictor, trainer): |
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# For detection tasks, do NOT ensure the consistence of bboxes. |
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# This is because the coordinates of bboxes were observed to be very sensitive to numeric errors, |
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# given that the network is (partially?) randomly initialized. |
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single_input = "data/ssmt/optical_t1.bmp" |
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num_inputs = 2 |
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transforms = pdrs.transforms.Compose([ |
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pdrs.transforms.DecodeImg(), pdrs.transforms.Normalize(), |
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pdrs.transforms.ArrangeDetector('test') |
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]) |
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labels = list(range(80)) |
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trainer.labels = labels |
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predictor._model.labels = labels |
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# Single input (file path) |
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input_ = single_input |
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predictor.predict(input_, transforms=transforms) |
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trainer.predict(input_, transforms=transforms) |
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out_single_file_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_file_list_p), 1) |
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out_single_file_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_file_list_t), 1) |
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# Single input (ndarray) |
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input_ = decode_image( |
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single_input, to_rgb=False) # Reuse the name `input_` |
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predictor.predict(input_, transforms=transforms) |
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trainer.predict(input_, transforms=transforms) |
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out_single_array_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_array_list_p), 1) |
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out_single_array_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_array_list_t), 1) |
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# Multiple inputs (file paths) |
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input_ = [single_input] * num_inputs # Reuse the name `input_` |
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out_multi_file_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_p), num_inputs) |
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out_multi_file_t = trainer.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_t), num_inputs) |
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# Multiple inputs (ndarrays) |
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input_ = [decode_image( |
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single_input, to_rgb=False)] * num_inputs # Reuse the name `input_` |
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out_multi_array_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_p), num_inputs) |
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out_multi_array_t = trainer.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_t), num_inputs) |
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@TestPredictor.add_tests |
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class TestSegPredictor(TestPredictor): |
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MODULE = pdrs.tasks.segmenter |
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TRAINER_NAME_TO_EXPORT_OPTS = { |
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'_default': "--fixed_input_shape [-1,3,256,256]" |
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} |
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def check_predictor(self, predictor, trainer): |
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single_input = "data/ssmt/optical_t1.bmp" |
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num_inputs = 2 |
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transforms = pdrs.transforms.Compose([ |
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pdrs.transforms.DecodeImg(), pdrs.transforms.Normalize(), |
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pdrs.transforms.ArrangeSegmenter('test') |
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]) |
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# Single input (file path) |
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input_ = single_input |
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out_single_file_p = predictor.predict(input_, transforms=transforms) |
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out_single_file_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_file_p, out_single_file_t) |
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out_single_file_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_file_list_p), 1) |
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self.check_dict_equal(out_single_file_list_p[0], out_single_file_p) |
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out_single_file_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.check_dict_equal(out_single_file_list_p[0], |
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out_single_file_list_t[0]) |
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# Single input (ndarray) |
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input_ = decode_image( |
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single_input, to_rgb=False) # Reuse the name `input_` |
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out_single_array_p = predictor.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_array_p, out_single_file_p) |
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out_single_array_t = trainer.predict(input_, transforms=transforms) |
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self.check_dict_equal(out_single_array_p, out_single_array_t) |
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out_single_array_list_p = predictor.predict( |
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[input_], transforms=transforms) |
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self.assertEqual(len(out_single_array_list_p), 1) |
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self.check_dict_equal(out_single_array_list_p[0], out_single_array_p) |
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out_single_array_list_t = trainer.predict( |
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[input_], transforms=transforms) |
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self.check_dict_equal(out_single_array_list_p[0], |
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out_single_array_list_t[0]) |
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# Multiple inputs (file paths) |
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input_ = [single_input] * num_inputs # Reuse the name `input_` |
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out_multi_file_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_p), num_inputs) |
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out_multi_file_t = trainer.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_file_t), num_inputs) |
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# Multiple inputs (ndarrays) |
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input_ = [decode_image( |
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single_input, to_rgb=False)] * num_inputs # Reuse the name `input_` |
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out_multi_array_p = predictor.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_p), num_inputs) |
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out_multi_array_t = trainer.predict(input_, transforms=transforms) |
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self.assertEqual(len(out_multi_array_t), num_inputs)
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