test_imperative_double_grad.py 23.0 KB
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# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
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#
# 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.

import paddle.fluid as fluid
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import paddle
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from paddle.fluid.wrapped_decorator import wrap_decorator
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from paddle.vision.models import resnet50, resnet101
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import unittest
from unittest import TestCase
import numpy as np
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import paddle.compat as cpt
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from paddle.fluid.framework import _test_eager_guard, _in_legacy_dygraph, _in_eager_without_dygraph_check
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import paddle.fluid.core as core
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def _dygraph_guard_(func):
    def __impl__(*args, **kwargs):
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        if fluid._non_static_mode():
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            return func(*args, **kwargs)
        else:
            with fluid.dygraph.guard():
                return func(*args, **kwargs)

    return __impl__


dygraph_guard = wrap_decorator(_dygraph_guard_)


def random_var(size, low=-1, high=1, dtype='float32'):
    x_np = np.random.uniform(low=low, high=high, size=size).astype(dtype)
    return fluid.dygraph.to_variable(x_np)


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class TestEagerGrad(TestCase):
    def func_simple_example_eager_grad(self):
        np.random.seed(2021)
        paddle.set_device('cpu')
        np_x = np.random.random((3, 3))
        np_y = np.random.random((3, 1))
        x = paddle.to_tensor(np_x, dtype="float64", stop_gradient=False)
        y = paddle.to_tensor(np_y, dtype="float64", stop_gradient=False)
        out = paddle.matmul(x, y)
        dx = fluid.dygraph.grad(out, x)

        dout = np.ones_like(np_y)
        expected_dx = np.matmul(dout, np.transpose(np_y))

        # stop_gradient = !create_graph, create_graph default false
        self.assertEqual(dx[0].stop_gradient, True)
        self.assertTrue(np.allclose(dx[0].numpy(), expected_dx[0]))

    def test_simple_example_eager_grad(self):
        with _test_eager_guard():
            self.func_simple_example_eager_grad()
        self.func_simple_example_eager_grad()

    def func_simple_example_eager_grad_allow_unused(self):
        np.random.seed(2021)
        paddle.set_device('cpu')
        np_x = np.random.random((3, 3))
        np_y = np.random.random((3, 1))
        np_z = np.random.random((3, 1))
        x = paddle.to_tensor(np_x, dtype="float64", stop_gradient=False)
        y = paddle.to_tensor(np_y, dtype="float64", stop_gradient=False)
        z = paddle.to_tensor(np_z, dtype="float64", stop_gradient=False)
        out_z = paddle.nn.functional.sigmoid(z)
        out = paddle.matmul(x, y)

        dx = fluid.dygraph.grad(out, [x, z], allow_unused=True)
        dout = np.ones_like(np_y)
        expected_dx = np.matmul(dout, np.transpose(np_y))
        self.assertTrue(np.allclose(dx[0].numpy(), expected_dx[0]))
        # stop_gradient = !create_graph, create_graph default false
        self.assertEqual(dx[0].stop_gradient, True)
        # x is unused input in the graph
        self.assertEqual(dx[1], None)

    def test_simple_example_eager_grad_allow_unused(self):
        with _test_eager_guard():
            self.func_simple_example_eager_grad_allow_unused()
        self.func_simple_example_eager_grad_allow_unused()

    def func_simple_example_eager_grad_not_allow_unused(self):
        np.random.seed(2021)
        paddle.set_device('cpu')
        np_x = np.random.random((3, 3))
        np_y = np.random.random((3, 1))
        np_z = np.random.random((3, 1))
        x = paddle.to_tensor(np_x, dtype="float64", stop_gradient=False)
        y = paddle.to_tensor(np_y, dtype="float64", stop_gradient=False)
        z = paddle.to_tensor(np_z, dtype="float64", stop_gradient=False)
        out_z = paddle.nn.functional.sigmoid(z)
        out = paddle.matmul(x, y)

        try:
            # allow_unused is false in default
            dx = fluid.dygraph.grad(out, [x, z])
        except ValueError as e:
            error_msg = cpt.get_exception_message(e)
            assert error_msg.find("allow_unused") > 0

    def test_simple_example_eager_grad_not_allow_unused(self):
        with _test_eager_guard():
            self.func_simple_example_eager_grad_not_allow_unused()
        self.func_simple_example_eager_grad_not_allow_unused()

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    def func_simple_example_eager_grad_duplicate_input(self):
        np.random.seed(2021)
        paddle.set_device('cpu')
        np_x = np.random.random((3, 3))
        np_y = np.random.random((3, 1))
        np_z = np.random.random((3, 1))
        x = paddle.to_tensor(np_x, dtype="float64", stop_gradient=False)
        y = paddle.to_tensor(np_y, dtype="float64", stop_gradient=False)
        z = paddle.to_tensor(np_z, dtype="float64", stop_gradient=False)
        out_z = paddle.nn.functional.sigmoid(z)
        out = paddle.matmul(x, y)

        try:
            # duplicate input will arise RuntimeError errors
            dx = fluid.dygraph.grad(out, [x, x])
        except RuntimeError as e:
            error_msg = cpt.get_exception_message(e)
            assert error_msg.find("duplicate") > 0

    def test_simple_example_eager_grad_duplicate_input(self):
        with _test_eager_guard():
            self.func_simple_example_eager_grad_duplicate_input()
        self.func_simple_example_eager_grad_duplicate_input()

    def func_simple_example_eager_grad_duplicate_output(self):
        np.random.seed(2021)
        paddle.set_device('cpu')
        np_x = np.random.random((3, 3))
        np_y = np.random.random((3, 1))
        np_z = np.random.random((3, 1))
        x = paddle.to_tensor(np_x, dtype="float64", stop_gradient=False)
        y = paddle.to_tensor(np_y, dtype="float64", stop_gradient=False)
        z = paddle.to_tensor(np_z, dtype="float64", stop_gradient=False)
        out_z = paddle.nn.functional.sigmoid(z)
        out = paddle.matmul(x, y)

        try:
            # duplicate output will arise RuntimeError errors
            dx = fluid.dygraph.grad([out, out], [x])
        except RuntimeError as e:
            error_msg = cpt.get_exception_message(e)
            assert error_msg.find("duplicate") > 0

    def test_simple_example_eager_grad_duplicate_output(self):
        with _test_eager_guard():
            self.func_simple_example_eager_grad_duplicate_output()
        self.func_simple_example_eager_grad_duplicate_output()

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class TestDygraphDoubleGrad(TestCase):
    def setUp(self):
        self.sort_sum_gradient = False
        self.shape = [5, 10]

    def grad(self,
             outputs,
             inputs,
             grad_outputs=None,
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             no_grad_vars=None,
             retain_graph=None,
             create_graph=False,
             allow_unused=False):
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        fluid.set_flags({'FLAGS_sort_sum_gradient': self.sort_sum_gradient})
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        return fluid.dygraph.grad(
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            outputs=outputs,
            inputs=inputs,
            grad_outputs=grad_outputs,
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            no_grad_vars=no_grad_vars,
            retain_graph=retain_graph,
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            create_graph=create_graph,
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            allow_unused=allow_unused)
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    @dygraph_guard
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    def func_exception(self):
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        with self.assertRaises(AssertionError):
            self.grad(None, None)

        shape = self.shape

        with self.assertRaises(AssertionError):
            self.grad(1, random_var(shape))

        with self.assertRaises(AssertionError):
            self.grad(random_var(shape), 1)

        with self.assertRaises(AssertionError):
            self.grad([1], [random_var(shape)])

        with self.assertRaises(AssertionError):
            self.grad([random_var(shape)], [1])

        with self.assertRaises(AssertionError):
            self.grad([random_var(shape), random_var(shape)],
                      [random_var(shape)], [random_var(shape)])

        with self.assertRaises(AssertionError):
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            self.grad(
                [random_var(shape)], [random_var(shape)], no_grad_vars=[1])
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        with self.assertRaises(AssertionError):
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            self.grad([random_var(shape)], [random_var(shape)], no_grad_vars=1)
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    def test_exception(self):
        with _test_eager_guard():
            self.func_exception()
        self.func_exception()

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    @dygraph_guard
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    def func_simple_example(self):
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        x = random_var(self.shape)
        x.stop_gradient = False
        y = x + 1

        for create_graph in [False, True]:
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            dx, = self.grad(
                [x], [x], create_graph=create_graph, retain_graph=True)
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            self.assertEqual(dx.shape, x.shape)
            self.assertTrue(np.all(dx.numpy() == 1))
            self.assertNotEqual(dx.stop_gradient, create_graph)

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            dx_mul_2, = self.grad(
                [y, x], [x], create_graph=create_graph, retain_graph=True)
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            self.assertEqual(dx_mul_2.shape, x.shape)
            self.assertTrue(np.all(dx_mul_2.numpy() == 2))
            self.assertNotEqual(dx_mul_2.stop_gradient, create_graph)

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            none_grad, = self.grad(
                [x], [y], create_graph=create_graph, allow_unused=True)
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            self.assertTrue(none_grad is None)

            grad_with_none_and_not_none, = self.grad(
                [x, y], [y], create_graph=create_graph)
            self.assertTrue(grad_with_none_and_not_none.shape, x.shape)
            self.assertTrue(np.all(grad_with_none_and_not_none.numpy() == 1))
            self.assertNotEqual(grad_with_none_and_not_none.stop_gradient,
                                create_graph)

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    def test_simple_example(self):
        with _test_eager_guard():
            self.func_simple_example()
        self.func_simple_example()

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    @dygraph_guard
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    def func_example_no_grad_vars(self):
        x = random_var(self.shape)
        x_np = x.numpy()
        numel = x_np.size
        x.stop_gradient = False

        y1 = fluid.layers.relu(x)
        y2 = fluid.layers.relu(x)
        z = y1 + y2
        w = z * z

        w_mean = fluid.layers.reduce_mean(w)
        del y1, z, w

        dx_actual, = self.grad(
            [w_mean], [x], create_graph=True, no_grad_vars=[y2])

        self.assertFalse(y2.stop_gradient)
        self.assertFalse(dx_actual.stop_gradient)

        dx_expected = (1.0 / float(numel) * (np.maximum(x_np, 0) + y2.numpy()) *
                       (x_np > 0) * 2).astype('float32')

        self.assertTrue(np.allclose(dx_actual.numpy(), dx_expected))

    def test_example_no_grad_vars(self):
        with _test_eager_guard():
            self.func_example_no_grad_vars()
        self.func_example_no_grad_vars()

    @dygraph_guard
    def func_none_one_initial_gradient(self):
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        numel = 1
        for s in self.shape:
            numel *= s

        half_numel = int(numel / 2)
        half_x_positive = np.random.uniform(low=1, high=2, size=[half_numel])
        half_x_negative = np.random.uniform(
            low=-2, high=-1, size=[numel - half_numel])
        x_np = np.array(list(half_x_positive) + list(half_x_negative)).astype(
            'float32')
        np.random.shuffle(x_np)

        x = fluid.dygraph.to_variable(x_np)
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        x.stop_gradient = False

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        alpha = 0.2
        y = fluid.layers.leaky_relu(x, alpha=alpha)
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        y = y * y
        z = y * y

        x_np = x.numpy()
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        relu_x_np = np.maximum(x_np, alpha * x_np).astype('float32')
        relu_x_grad_np = ((x_np > 0) + (x_np < 0) * alpha).astype('float32')
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        dy_expected = (relu_x_np * relu_x_grad_np * 2).astype('float32')
        dz_expected = (np.power(relu_x_np, 3) * relu_x_grad_np *
                       4).astype('float32')

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        random_grad_y = random_var(y.shape, low=1, high=2)
        random_grad_z = random_var(z.shape, low=1, high=2)
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        ones_grad_y = np.ones(y.shape).astype('float32')
        ones_grad_z = np.ones(z.shape).astype('float32')

        original_random_grad_y = random_grad_y.numpy()
        original_random_grad_z = random_grad_z.numpy()

        for grad_y in [random_grad_y]:
            for grad_z in [random_grad_z]:
                for create_graph in [False, True]:
                    dx_actual, = self.grad(
                        outputs=[y, z],
                        inputs=[x],
                        grad_outputs=[grad_y, grad_z],
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                        create_graph=create_graph,
                        retain_graph=True)
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                    grad_y_np = ones_grad_y if grad_y is None else grad_y.numpy(
                    )
                    grad_z_np = ones_grad_z if grad_z is None else grad_z.numpy(
                    )

                    dx_expected = dy_expected * grad_y_np + dz_expected * grad_z_np
                    self.assertTrue(np.allclose(dx_actual.numpy(), dx_expected))

                    if grad_y is not None:
                        self.assertTrue(grad_y.stop_gradient)
                        self.assertTrue(
                            np.array_equal(grad_y.numpy(),
                                           original_random_grad_y))

                    if grad_z is not None:
                        self.assertTrue(grad_z.stop_gradient)
                        self.assertTrue(
                            np.array_equal(grad_z.numpy(),
                                           original_random_grad_z))

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    def test_none_one_initial_gradient(self):
        with _test_eager_guard():
            self.func_none_one_initial_gradient()
        self.func_none_one_initial_gradient()

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    @dygraph_guard
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    def func_example_with_gradient_accumulation_and_create_graph(self):
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        x = random_var(self.shape)
        x_np = x.numpy()
        numel = x_np.size
        x.stop_gradient = False

        y = fluid.layers.relu(x)
        z = y + 1
        w = z * z

        w_mean = fluid.layers.reduce_mean(w)
        del y, z, w

        dx_actual, = self.grad([w_mean], [x], create_graph=True)
        del w_mean

        self.assertFalse(dx_actual.stop_gradient)

        # Theoritical result based on math calculation
        dx_expected = (1.0 / float(numel) * (np.maximum(x_np, 0) + 1) *
                       (x_np > 0) * 2).astype('float32')
        self.assertTrue(np.allclose(dx_actual.numpy(), dx_expected))

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        if not _in_legacy_dygraph():
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            pass
        else:
            loss = fluid.layers.reduce_mean(dx_actual * dx_actual + x * x)
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            loss.backward(retain_graph=True)
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            x_grad_actual = x.gradient()
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            x_grad_expected = (2.0 / float(numel) * (
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                x_np + dx_expected *
                (x_np > 0) * 2 / float(numel))).astype('float32')
            self.assertTrue(np.allclose(x_grad_actual, x_grad_expected))

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            for i in range(5):
                loss.backward(retain_graph=True)
                x_grad_actual = x.gradient()
                x_grad_expected = (i + 2) * (2.0 / float(numel) * (
                    x_np + dx_expected *
                    (x_np > 0) * 2 / float(numel))).astype('float32')
                self.assertTrue(np.allclose(x_grad_actual, x_grad_expected))

    def test_example_with_gradient_accumulation_and_create_graph(self):
        with _test_eager_guard():
            self.func_example_with_gradient_accumulation_and_create_graph()
        self.func_example_with_gradient_accumulation_and_create_graph()

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    @dygraph_guard
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    def func_example_with_gradient_accumulation_and_no_grad_vars(self):
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        x = random_var(self.shape)
        x_np = x.numpy()
        numel = x_np.size
        x.stop_gradient = False

        y1 = fluid.layers.relu(x)
        y2 = fluid.layers.relu(x)
        z = y1 + y2
        w = z * z

        w_mean = fluid.layers.reduce_mean(w)
        del y1, z, w

        dx_actual, = self.grad(
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            [w_mean], [x], create_graph=True, no_grad_vars=[y2])
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        self.assertFalse(y2.stop_gradient)
        self.assertFalse(dx_actual.stop_gradient)

        dx_expected = (1.0 / float(numel) * (np.maximum(x_np, 0) + y2.numpy()) *
                       (x_np > 0) * 2).astype('float32')
        self.assertTrue(np.allclose(dx_actual.numpy(), dx_expected))

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        if not _in_legacy_dygraph():
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            pass
        else:
            loss = fluid.layers.reduce_mean(dx_actual * dx_actual + x * x)
            loss.backward()
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            x_grad_actual = x.gradient()
            x_grad_expected = (2.0 / float(numel) * (
                x_np + dx_expected *
                (x_np > 0) * 4 / float(numel))).astype('float32')
            self.assertTrue(np.allclose(x_grad_actual, x_grad_expected))

    def test_example_with_gradient_accumulation_and_no_grad_vars(self):
        with _test_eager_guard():
            self.func_example_with_gradient_accumulation_and_no_grad_vars()
        self.func_example_with_gradient_accumulation_and_no_grad_vars()
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    @dygraph_guard
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    def func_example_with_gradient_accumulation_and_not_create_graph(self):
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        x = random_var(self.shape)
        x_np = x.numpy()
        numel = x_np.size
        x.stop_gradient = False

        y = fluid.layers.relu(x)
        z = y + 1
        w = z * z

        w_mean = fluid.layers.reduce_mean(w)
        del y, z, w

        dx_actual, = self.grad([w_mean], [x], create_graph=False)
        del w_mean

        self.assertTrue(dx_actual.stop_gradient)

        dx_expected = (1.0 / float(numel) * (np.maximum(x_np, 0) + 1) *
                       (x_np > 0) * 2).astype('float32')

        self.assertTrue(np.allclose(dx_actual.numpy(), dx_expected))

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        if not _in_legacy_dygraph():
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            pass
        else:
            loss = fluid.layers.reduce_mean(dx_actual * dx_actual + x * x)
            loss.backward()
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            x_grad_actual = x.gradient()
            x_grad_expected = (2.0 * x_np / float(numel)).astype('float32')
            self.assertTrue(np.allclose(x_grad_actual, x_grad_expected))

    def test_example_with_gradient_accumulation_and_not_create_graph(self):
        with _test_eager_guard():
            self.func_example_with_gradient_accumulation_and_not_create_graph()
        self.func_example_with_gradient_accumulation_and_not_create_graph()
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class TestDygraphDoubleGradSortGradient(TestDygraphDoubleGrad):
    def setUp(self):
        self.sort_sum_gradient = True
        self.shape = [5, 10]


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class TestDygraphDoubleGradVisitedUniq(TestCase):
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    def func_compare(self):
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        value = np.random.uniform(-0.5, 0.5, 100).reshape(10, 2,
                                                          5).astype("float32")
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        def model_f(input):
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            linear = fluid.dygraph.Linear(5, 3, bias_attr=False)
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            for i in range(10):
                if i == 0:
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                    out = linear(input)
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                else:
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                    out = out + linear(input)
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            return out

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        fluid.set_flags({'FLAGS_sort_sum_gradient': True})

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        with fluid.dygraph.guard():
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            paddle.seed(123)
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            paddle.framework.random._manual_program_seed(123)
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            a = fluid.dygraph.to_variable(value)
            a.stop_gradient = False

            out = model_f(a)

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            dx = fluid.dygraph.grad(
                outputs=[out],
                inputs=[a],
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                create_graph=False,
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                only_inputs=True,
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                allow_unused=False)
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            grad_1 = dx[0].numpy()

        with fluid.dygraph.guard():
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            paddle.seed(123)
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            paddle.framework.random._manual_program_seed(123)
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            a = fluid.dygraph.to_variable(value)
            a.stop_gradient = False

            out = model_f(a)
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            out.backward()
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            grad_2 = a.gradient()

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        self.assertTrue(np.array_equal(grad_1, grad_2))

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    def test_compare(self):
        with _test_eager_guard():
            self.func_compare()
        self.func_compare()

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class TestRaiseNoDoubleGradOp(TestCase):
    def raise_no_grad_op(self):
        with fluid.dygraph.guard():
            x = fluid.layers.ones(shape=[2, 3, 2, 2], dtype='float32')
            x.stop_gradient = False
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            y = paddle.fluid.layers.group_norm(x, groups=1)
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            dx = fluid.dygraph.grad(
                outputs=[y], inputs=[x], create_graph=True,
                retain_graph=True)[0]

            loss = fluid.layers.reduce_mean(dx)
            loss.backward()

    def test_raise(self):
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        self.assertRaises(RuntimeError, self.raise_no_grad_op)
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class TestDoubleGradResNet(TestCase):
    def setUp(self):
        paddle.seed(123)
        paddle.framework.random._manual_program_seed(123)
        self.data = np.random.rand(1, 3, 224, 224).astype(np.float32)

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    @dygraph_guard
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    def test_resnet_resnet50(self):
        with _test_eager_guard():
            model = resnet50(pretrained=False)
            egr_data = paddle.to_tensor(self.data)
            egr_data.stop_gradient = False
            egr_out = model(egr_data)
            egr_preds = paddle.argmax(egr_out, axis=1)
            egr_label_onehot = paddle.nn.functional.one_hot(
                paddle.to_tensor(egr_preds), num_classes=egr_out.shape[1])
            egr_target = paddle.sum(egr_out * egr_label_onehot, axis=1)

            egr_g = paddle.grad(outputs=egr_target, inputs=egr_out)[0]
            egr_g_numpy = egr_g.numpy()
            self.assertEqual(list(egr_g_numpy.shape), list(egr_out.shape))

        model = resnet50(pretrained=False)
        data = paddle.to_tensor(self.data)
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        data.stop_gradient = False
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        out = model(data)
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        preds = paddle.argmax(out, axis=1)
        label_onehot = paddle.nn.functional.one_hot(
            paddle.to_tensor(preds), num_classes=out.shape[1])
        target = paddle.sum(out * label_onehot, axis=1)

        g = paddle.grad(outputs=target, inputs=out)[0]
        g_numpy = g.numpy()
        self.assertEqual(list(g_numpy.shape), list(out.shape))

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        self.assertTrue(np.array_equal(egr_out, out))
        self.assertTrue(np.array_equal(egr_g_numpy, g_numpy))
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    @dygraph_guard
    def test_resnet_resnet101(self):
        with _test_eager_guard():
            model = resnet101(pretrained=False)
            egr_data = paddle.to_tensor(self.data)
            egr_data.stop_gradient = False
            egr_out = model(egr_data)
            egr_preds = paddle.argmax(egr_out, axis=1)
            egr_label_onehot = paddle.nn.functional.one_hot(
                paddle.to_tensor(egr_preds), num_classes=egr_out.shape[1])
            egr_target = paddle.sum(egr_out * egr_label_onehot, axis=1)

            egr_g = paddle.grad(outputs=egr_target, inputs=egr_out)[0]
            egr_g_numpy = egr_g.numpy()
            self.assertEqual(list(egr_g_numpy.shape), list(egr_out.shape))

        model = resnet101(pretrained=False)
        data = paddle.to_tensor(self.data)
        data.stop_gradient = False
        out = model(data)
        preds = paddle.argmax(out, axis=1)
        label_onehot = paddle.nn.functional.one_hot(
            paddle.to_tensor(preds), num_classes=out.shape[1])
        target = paddle.sum(out * label_onehot, axis=1)
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        g = paddle.grad(outputs=target, inputs=out)[0]
        g_numpy = g.numpy()
        self.assertEqual(list(g_numpy.shape), list(out.shape))
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        self.assertTrue(np.array_equal(egr_out, out))
        self.assertTrue(np.array_equal(egr_g_numpy, g_numpy))
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if __name__ == '__main__':
    unittest.main()