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mindspore/tests/ut/python/pynative_mode/test_training.py

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  1. # Copyright 2020 Huawei Technologies Co., Ltd

  2. #

  3. # Licensed under the Apache License, Version 2.0 (the "License");

  4. # you may not use this file except in compliance with the License.

  5. # You may obtain a copy of the License at

  6. #

  7. # http://www.apache.org/licenses/LICENSE-2.0

  8. #

  9. # Unless required by applicable law or agreed to in writing, software

  10. # distributed under the License is distributed on an "AS IS" BASIS,

  11. # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  12. # See the License for the specific language governing permissions and

  13. # limitations under the License.

  14. # ============================================================================

  15. """ test_training """

  16. import numpy as np

  17. 

  18. import mindspore.nn as nn

  19. from mindspore import context

  20. from mindspore.common.tensor import Tensor

  21. from mindspore.nn import WithGradCell, WithLossCell

  22. from mindspore.ops import operations as P

  23. from ..ut_filter import non_graph_engine

  24. 

  25. 

  26. def setup_module(module):

  27.     context.set_context(mode=context.PYNATIVE_MODE)

  28. 

  29. 

  30. class LeNet5(nn.Cell):

  31.     """ LeNet5 definition """

  32. 

  33.     def __init__(self):

  34.         super(LeNet5, self).__init__()

  35.         self.conv1 = nn.Conv2d(1, 6, 5, pad_mode='valid')

  36.         self.conv2 = nn.Conv2d(6, 16, 5, pad_mode='valid')

  37.         self.fc1 = nn.Dense(16 * 5 * 5, 120)

  38.         self.fc2 = nn.Dense(120, 84)

  39.         self.fc3 = nn.Dense(84, 10)

  40.         self.relu = nn.ReLU()

  41.         self.max_pool2d = nn.MaxPool2d(kernel_size=2, stride=2)

  42.         self.flatten = P.Flatten()

  43. 

  44.     def construct(self, x):

  45.         x = self.max_pool2d(self.relu(self.conv1(x)))

  46.         x = self.max_pool2d(self.relu(self.conv2(x)))

  47.         x = self.flatten(x)

  48.         x = self.relu(self.fc1(x))

  49.         x = self.relu(self.fc2(x))

  50.         x = self.fc3(x)

  51.         return x

  52. 

  53. 

  54. @non_graph_engine

  55. def test_loss_cell_wrapper():

  56.     """ test_loss_cell_wrapper """

  57.     data = Tensor(np.ones([1, 1, 32, 32]).astype(np.float32) * 0.01)

  58.     label = Tensor(np.ones([1, 10]).astype(np.float32))

  59.     net = LeNet5()

  60.     loss_fn = nn.SoftmaxCrossEntropyWithLogits()

  61.     loss_net = WithLossCell(net, loss_fn)

  62.     loss_out = loss_net(data, label)

  63.     assert loss_out.asnumpy().dtype == 'float32' or loss_out.asnumpy().dtype == 'float64'

  64. 

  65. 

  66. @non_graph_engine

  67. def test_grad_cell_wrapper():

  68.     """ test_grad_cell_wrapper """

  69.     data = Tensor(np.ones([1, 1, 32, 32]).astype(np.float32) * 0.01)

  70.     label = Tensor(np.ones([1, 10]).astype(np.float32))

  71.     dout = Tensor(np.ones([1]).astype(np.float32))

  72.     net = LeNet5()

  73.     loss_fn = nn.SoftmaxCrossEntropyWithLogits()

  74.     grad_net = WithGradCell(net, loss_fn, dout)

  75.     gradients = grad_net(data, label)

  76.     assert isinstance(gradients[0].asnumpy()[0][0][0][0], (np.float32, np.float64))