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mindspore2022/tests/st/gradient/test_jvp_graph.py

test_jvp_graph.py 8.4 kB
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Vjp and fix jvp
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Add forward mode auto diff
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Vjp and fix jvp
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Add forward mode auto diff
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Vjp and fix jvp
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Add forward mode auto diff
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Vjp and fix jvp
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Add forward mode auto diff
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Vjp and fix jvp
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  1. # Copyright 2021 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 jvp in graph mode"""

  16. 

  17. import numpy as np

  18. import pytest

  19. import mindspore.nn as nn

  20. import mindspore.context as context

  21. from mindspore import Tensor

  22. from mindspore.nn.grad import Jvp

  23. 

  24. context.set_context(mode=context.GRAPH_MODE)

  25. 

  26. 

  27. class SingleInputSingleOutputNet(nn.Cell):

  28.     def construct(self, x):

  29.         return x**3

  30. 

  31. 

  32. class SingleInputMultipleOutputNet(nn.Cell):

  33.     def construct(self, x):

  34.         return x**3, 2*x

  35. 

  36. 

  37. class MultipleInputSingleOutputNet(nn.Cell):

  38.     def construct(self, x, y):

  39.         return 2*x + 3*y

  40. 

  41. 

  42. class MultipleInputMultipleOutputNet(nn.Cell):

  43.     def construct(self, x, y):

  44.         return 2*x, y**3

  45. 

  46. 

  47. @pytest.mark.level0

  48. @pytest.mark.platform_x86_cpu

  49. @pytest.mark.env_onecard

  50. def test_jvp_single_input_single_output_default_v_graph():

  51.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  52.     v = Tensor(np.array([[1, 1], [1, 1]]).astype(np.float32))

  53.     net = SingleInputSingleOutputNet()

  54.     expect_primal = Tensor(np.array([[1, 8], [27, 64]]).astype(np.float32))

  55.     expect_grad = Tensor(np.array([[3, 12], [27, 48]]).astype(np.float32))

  56.     primal, grad = Jvp(net)(x, v)

  57.     assert np.allclose(primal.asnumpy(), expect_primal.asnumpy())

  58.     assert np.allclose(grad.asnumpy(), expect_grad.asnumpy())

  59. 

  60. 

  61. @pytest.mark.level0

  62. @pytest.mark.platform_x86_cpu

  63. @pytest.mark.env_onecard

  64. def test_jvp_single_input_single_output_custom_v_graph():

  65.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  66.     v = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  67.     net = SingleInputSingleOutputNet()

  68.     expect_primal = Tensor(np.array([[1, 8], [27, 64]]).astype(np.float32))

  69.     expect_grad = Tensor(np.array([[3, 24], [81, 192]]).astype(np.float32))

  70.     primal, grad = Jvp(net)(x, v)

  71.     assert np.allclose(primal.asnumpy(), expect_primal.asnumpy())

  72.     assert np.allclose(grad.asnumpy(), expect_grad.asnumpy())

  73. 

  74. 

  75. @pytest.mark.level0

  76. @pytest.mark.platform_x86_cpu

  77. @pytest.mark.env_onecard

  78. def test_jvp_single_input_multiple_outputs_default_v_graph():

  79.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  80.     v = Tensor(np.array([[1, 1], [1, 1]]).astype(np.float32))

  81.     net = SingleInputMultipleOutputNet()

  82.     expect_primal_0 = Tensor(np.array([[1, 8], [27, 64]]).astype(np.float32))

  83.     expect_primal_1 = Tensor(np.array([[2, 4], [6, 8]]).astype(np.float32))

  84.     expect_grad_0 = Tensor(np.array([[3, 12], [27, 48]]).astype(np.float32))

  85.     expect_grad_1 = Tensor(np.array([[2, 2], [2, 2]]).astype(np.float32))

  86.     primal, grad = Jvp(net)(x, v)

  87.     assert isinstance(primal, tuple)

  88.     assert len(primal) == 2

  89.     assert np.allclose(primal[0].asnumpy(), expect_primal_0.asnumpy())

  90.     assert np.allclose(primal[1].asnumpy(), expect_primal_1.asnumpy())

  91.     assert isinstance(grad, tuple)

  92.     assert len(grad) == 2

  93.     assert np.allclose(grad[0].asnumpy(), expect_grad_0.asnumpy())

  94.     assert np.allclose(grad[1].asnumpy(), expect_grad_1.asnumpy())

  95. 

  96. 

  97. @pytest.mark.level0

  98. @pytest.mark.platform_x86_cpu

  99. @pytest.mark.env_onecard

  100. def test_jvp_single_input_multiple_outputs_custom_v_graph():

  101.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  102.     v = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  103.     net = SingleInputMultipleOutputNet()

  104.     expect_primal_0 = Tensor(np.array([[1, 8], [27, 64]]).astype(np.float32))

  105.     expect_primal_1 = Tensor(np.array([[2, 4], [6, 8]]).astype(np.float32))

  106.     expect_grad_0 = Tensor(np.array([[3, 24], [81, 192]]).astype(np.float32))

  107.     expect_grad_1 = Tensor(np.array([[2, 4], [6, 8]]).astype(np.float32))

  108.     primal, grad = Jvp(net)(x, v)

  109.     assert isinstance(primal, tuple)

  110.     assert len(primal) == 2

  111.     assert np.allclose(primal[0].asnumpy(), expect_primal_0.asnumpy())

  112.     assert np.allclose(primal[1].asnumpy(), expect_primal_1.asnumpy())

  113.     assert isinstance(grad, tuple)

  114.     assert len(grad) == 2

  115.     assert np.allclose(grad[0].asnumpy(), expect_grad_0.asnumpy())

  116.     assert np.allclose(grad[1].asnumpy(), expect_grad_1.asnumpy())

  117. 

  118. 

  119. @pytest.mark.level0

  120. @pytest.mark.platform_x86_cpu

  121. @pytest.mark.env_onecard

  122. def test_jvp_multiple_inputs_single_output_default_v_graph():

  123.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  124.     y = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  125.     v = Tensor(np.array([[1, 1], [1, 1]]).astype(np.float32))

  126.     net = MultipleInputSingleOutputNet()

  127.     expect_primal = Tensor(np.array([[5, 10], [15, 20]]).astype(np.float32))

  128.     expect_grad = Tensor(np.array([[5, 5], [5, 5]]).astype(np.float32))

  129.     primal, grad = Jvp(net)(x, y, (v, v))

  130.     assert np.allclose(primal.asnumpy(), expect_primal.asnumpy())

  131.     assert np.allclose(grad.asnumpy(), expect_grad.asnumpy())

  132. 

  133. 

  134. @pytest.mark.level0

  135. @pytest.mark.platform_x86_cpu

  136. @pytest.mark.env_onecard

  137. def test_jvp_multiple_inputs_single_output_custom_v_graph():

  138.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  139.     y = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  140.     v1 = Tensor(np.array([[1, 1], [1, 1]]).astype(np.float32))

  141.     v2 = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  142.     net = MultipleInputSingleOutputNet()

  143.     expect_primal = Tensor(np.array([[5, 10], [15, 20]]).astype(np.float32))

  144.     expect_grad = Tensor(np.array([[5, 8], [11, 14]]).astype(np.float32))

  145.     primal, grad = Jvp(net)(x, y, (v1, v2))

  146.     assert np.allclose(primal.asnumpy(), expect_primal.asnumpy())

  147.     assert np.allclose(grad.asnumpy(), expect_grad.asnumpy())

  148. 

  149. 

  150. @pytest.mark.level0

  151. @pytest.mark.platform_x86_cpu

  152. @pytest.mark.env_onecard

  153. def test_jvp_multiple_inputs_multiple_outputs_default_v_graph():

  154.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  155.     y = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  156.     v = Tensor(np.array([[1, 1], [1, 1]]).astype(np.float32))

  157.     net = MultipleInputMultipleOutputNet()

  158.     expect_primal_0 = Tensor(np.array([[2, 4], [6, 8]]).astype(np.float32))

  159.     expect_primal_1 = Tensor(np.array([[1, 8], [27, 64]]).astype(np.float32))

  160.     expect_grad_0 = Tensor(np.array([[2, 2], [2, 2]]).astype(np.float32))

  161.     expect_grad_1 = Tensor(np.array([[3, 12], [27, 48]]).astype(np.float32))

  162.     primal, grad = Jvp(net)(x, y, (v, v))

  163.     assert isinstance(primal, tuple)

  164.     assert len(primal) == 2

  165.     assert np.allclose(primal[0].asnumpy(), expect_primal_0.asnumpy())

  166.     assert np.allclose(primal[1].asnumpy(), expect_primal_1.asnumpy())

  167.     assert isinstance(grad, tuple)

  168.     assert len(grad) == 2

  169.     assert np.allclose(grad[0].asnumpy(), expect_grad_0.asnumpy())

  170.     assert np.allclose(grad[1].asnumpy(), expect_grad_1.asnumpy())

  171. 

  172. 

  173. @pytest.mark.level0

  174. @pytest.mark.platform_x86_cpu

  175. @pytest.mark.env_onecard

  176. def test_jvp_multiple_inputs_multiple_outputs_custom_v_graph():

  177.     x = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  178.     y = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  179.     v1 = Tensor(np.array([[1, 1], [1, 1]]).astype(np.float32))

  180.     v2 = Tensor(np.array([[1, 2], [3, 4]]).astype(np.float32))

  181.     net = MultipleInputMultipleOutputNet()

  182.     expect_primal_0 = Tensor(np.array([[2, 4], [6, 8]]).astype(np.float32))

  183.     expect_primal_1 = Tensor(np.array([[1, 8], [27, 64]]).astype(np.float32))

  184.     expect_grad_0 = Tensor(np.array([[2, 2], [2, 2]]).astype(np.float32))

  185.     expect_grad_1 = Tensor(np.array([[3, 24], [81, 192]]).astype(np.float32))

  186.     primal, grad = Jvp(net)(x, y, (v1, v2))

  187.     assert isinstance(primal, tuple)

  188.     assert len(primal) == 2

  189.     assert np.allclose(primal[0].asnumpy(), expect_primal_0.asnumpy())

  190.     assert np.allclose(primal[1].asnumpy(), expect_primal_1.asnumpy())

  191.     assert isinstance(grad, tuple)

  192.     assert len(grad) == 2

  193.     assert np.allclose(grad[0].asnumpy(), expect_grad_0.asnumpy())

  194.     assert np.allclose(grad[1].asnumpy(), expect_grad_1.asnumpy())

阿对对队