test_split_op.py 24.7 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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#
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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
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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
# 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.

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import paddle
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import unittest
import numpy as np
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from op_test import OpTest, convert_float_to_uint16
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import paddle.fluid as fluid
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from paddle.fluid import compiler, Program, program_guard, core
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from paddle.fluid.framework import _test_eager_guard
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class TestSplitOp(OpTest):
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    def setUp(self):
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        self._set_op_type()
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        self.dtype = self.get_dtype()
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        axis = 1
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        if self.dtype == np.uint16:
            x = np.random.random((4, 5, 6)).astype(np.float32)
            out = np.split(x, [2, 3], axis)
            self.inputs = {'X': convert_float_to_uint16(x)}
            self.outputs = {'Out': [('out%d' % i, convert_float_to_uint16(out[i])) \
                for i in range(len(out))]}
        else:
            x = np.random.random((4, 5, 6)).astype(self.dtype)
            out = np.split(x, [2, 3], axis)
            self.inputs = {'X': x}
            self.outputs = {'Out': [('out%d' % i, out[i]) \
                for i in range(len(out))]}
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        self.attrs = {'axis': axis, 'sections': [2, 1, 2]}
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    def get_dtype(self):
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        return "float64"
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    def _set_op_type(self):
        self.op_type = "split"

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    def test_check_output(self):
        self.check_output()

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    def test_check_grad(self):
        self.check_grad(['X'], ['out0', 'out1', 'out2'])
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# test with attr(num)
class TestSplitOp_2(OpTest):
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    def setUp(self):
        self._set_op_type()
        self.dtype = self.get_dtype()
        self.init_data()
        self.inputs = {'X': self.x}
        self.attrs = {
            'axis': self.axis,
            'sections': self.sections,
            'num': self.num
        }

        out = np.split(self.x, self.indices_or_sections, self.axis)
        self.outputs = {'Out': [('out%d' % i, out[i]) \
                                for i in range(len(out))]}

    def init_data(self):
        self.x = np.random.random((4, 5, 6)).astype(self.dtype)
        self.axis = 2
        self.sections = []
        self.num = 3
        self.indices_or_sections = 3

    def get_dtype(self):
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        return "float64"
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    def _set_op_type(self):
        self.op_type = "split"

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        self.check_grad(['X'], ['out0', 'out1', 'out2'])


# attr(axis) is Tensor
class TestSplitOp_AxisTensor(OpTest):
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    def setUp(self):
        self._set_op_type()
        self.dtype = self.get_dtype()
        self.init_data()
        self.inputs = {
            'X': self.x,
            'AxisTensor': np.array([self.axis]).astype("int32")
        }
        self.attrs = {'sections': self.sections, 'num': self.num}

        out = np.split(self.x, self.indices_or_sections, self.axis)
        self.outputs = {'Out': [('out%d' % i, out[i]) \
                                for i in range(len(out))]}

    def init_data(self):
        self.x = np.random.random((4, 5, 6)).astype(self.dtype)
        self.axis = 2
        self.sections = []
        self.num = 3
        self.indices_or_sections = 3

    def get_dtype(self):
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        return "float64"
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    def _set_op_type(self):
        self.op_type = "split"

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        self.check_grad(['X'], ['out0', 'out1', 'out2'])


# attr(sections) is list containing Tensor
class TestSplitOp_SectionsTensor(OpTest):
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    def setUp(self):
        self._set_op_type()
        self.dtype = self.get_dtype()
        self.init_data()
        self.inputs = {'X': self.x}

        sections_tensor = []
        for index, ele in enumerate(self.sections):
            sections_tensor.append(("x" + str(index), np.ones(
                (1)).astype('int32') * ele))

        self.inputs['SectionsTensorList'] = sections_tensor

        self.attrs = {
            'axis': self.axis,
            'sections': self.sections_infer,
            'num': self.num
        }

        out = np.split(self.x, self.indices_or_sections, self.axis)
        self.outputs = {'Out': [('out%d' % i, out[i]) \
                                for i in range(len(out))]}

    def init_data(self):
        self.x = np.random.random((4, 5, 6)).astype(self.dtype)
        self.axis = 1
        self.sections = [2, 1, 2]
        self.sections_infer = [-1, -1, -1]
        self.num = 0
        self.indices_or_sections = [2, 3]

    def get_dtype(self):
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        return "float64"
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    def _set_op_type(self):
        self.op_type = "split"

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        self.check_grad(['X'], ['out0', 'out1', 'out2'])


class TestSplitOp_unk_section(OpTest):
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    def setUp(self):
        self._set_op_type()
        self.dtype = self.get_dtype()
        self.init_data()
        self.inputs = {'X': self.x}
        self.attrs = {
            'axis': self.axis,
            'sections': self.sections,
            'num': self.num
        }

        out = np.split(self.x, self.indices_or_sections, self.axis)
        self.outputs = {'Out': [('out%d' % i, out[i]) \
                                for i in range(len(out))]}

    def init_data(self):
        self.x = np.random.random((4, 5, 6)).astype(self.dtype)
        self.axis = 2
        self.sections = [2, 1, -1]
        self.num = 0
        self.indices_or_sections = [2, 3]

    def get_dtype(self):
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        return "float64"
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    def _set_op_type(self):
        self.op_type = "split"

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        self.check_grad(['X'], ['out0', 'out1', 'out2'])


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class TestSplitByrefOp(OpTest):
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    def _set_op_type(self):
        self.op_type = "split_byref"


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#----------------Split Fp16----------------


def create_test_fp16(parent):
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    @unittest.skipIf(not core.is_compiled_with_cuda(),
                     "core is not compiled with CUDA")
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    class TestSplitFp16(parent):
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        def get_dtype(self):
            return np.float16

        def test_check_grad(self):
            pass

    cls_name = "{0}_{1}".format(parent.__name__, "Fp16")
    TestSplitFp16.__name__ = cls_name
    globals()[cls_name] = TestSplitFp16


create_test_fp16(TestSplitOp)

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#----------------Split Bf16----------------


def create_test_bf16(parent):
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    @unittest.skipIf(not core.is_compiled_with_cuda(),
                     "core is not compiled with CUDA")
    class TestSplitBf16(parent):
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        def get_dtype(self):
            return np.uint16

        def test_check_output(self):
            place = core.CUDAPlace(0)
            self.check_output_with_place(place)

        def test_check_grad(self):
            pass

    cls_name = "{0}_{1}".format(parent.__name__, "Bf16")
    TestSplitBf16.__name__ = cls_name
    globals()[cls_name] = TestSplitBf16


create_test_bf16(TestSplitOp)

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class TestSplitAPI(unittest.TestCase):
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    def test_api(self):
        input_1 = np.random.random([4, 5, 6]).astype("int32")
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        positive_1_int32 = fluid.layers.fill_constant([1], "int32", 1)
        positive_1_int64 = fluid.layers.fill_constant([1], "int64", 1)
        positive_2_int64 = fluid.layers.fill_constant([1], "int64", 2)
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        x_1 = fluid.data(shape=[4, 5, 6], dtype='int32', name='x_1')
        x_2 = fluid.data(shape=[4, 5, None], dtype='int32', name='x_2')

        out_0, out_1, out_2 = fluid.layers.split(
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            input=x_1,
            num_or_sections=[positive_2_int64, positive_1_int32, -1],
            dim=positive_1_int64)

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        out_3, out_4, out_5 = fluid.layers.split(input=x_1,
                                                 num_or_sections=[2, 1, 2],
                                                 dim=positive_1_int32)
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        fluid.layers.split(input=x_2, num_or_sections=2, dim=2)

        exe = fluid.Executor(place=fluid.CPUPlace())
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        [res_0, res_1, res_2, res_3, res_4,
         res_5] = exe.run(fluid.default_main_program(),
                          feed={
                              "x_1": input_1,
                              "x_2": input_1
                          },
                          fetch_list=[out_0, out_1, out_2, out_3, out_4, out_5])
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        out = np.split(input_1, [2, 3], 1)
        assert np.array_equal(res_0, out[0])
        assert np.array_equal(res_1, out[1])
        assert np.array_equal(res_2, out[2])
        assert np.array_equal(res_3, out[0])
        assert np.array_equal(res_4, out[1])
        assert np.array_equal(res_5, out[2])


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class TestSplitOpError(unittest.TestCase):
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    def test_errors(self):
        with program_guard(Program(), Program()):
            # The type of axis in split_op should be int or Variable.
            def test_axis_type():
                x6 = fluid.layers.data(shape=[4], dtype='float16', name='x3')
                fluid.layers.split(input=x6, num_or_sections=2, dim=3.2)

            self.assertRaises(TypeError, test_axis_type)

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            # The type of axis in split_op should be int or Variable.
            def test_axis_variable_type():
                x9 = fluid.layers.data(shape=[4], dtype='float16', name='x9')
                x10 = fluid.layers.data(shape=[1], dtype='float16', name='x10')
                fluid.layers.split(input=x9, num_or_sections=2, dim=x10)

            self.assertRaises(TypeError, test_axis_variable_type)

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            # The type of num_or_sections in split_op should be int, tuple or list.
            def test_num_or_sections_type():
                x6 = fluid.layers.data(shape=[4], dtype='float16', name='x4')
                fluid.layers.split(input=x6, num_or_sections=2.1, dim=3)

            self.assertRaises(TypeError, test_num_or_sections_type)

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            def test_num_or_sections_type_tensor():
                x7 = fluid.layers.data(shape=[4], dtype='float16', name='x5')
                paddle.split(input=x7, num_or_sections=2.1, dim=3)

            self.assertRaises(TypeError, test_num_or_sections_type_tensor)

            def test_axis_type_tensor():
                x8 = fluid.layers.data(shape=[4], dtype='float16', name='x6')
                paddle.split(input=x8, num_or_sections=2, dim=3.2)

            self.assertRaises(TypeError, test_axis_type_tensor)


class API_TestSplit(unittest.TestCase):
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    def test_out(self):
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            data1 = fluid.layers.data('data1', shape=[4, 6, 6], dtype='float64')
            data2 = fluid.layers.data('data2', shape=[1], dtype='int32')
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            x0, x1, x2 = paddle.split(data1, num_or_sections=3, axis=data2)
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            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            input1 = np.random.random([4, 6, 6]).astype('float64')
            input2 = np.array([2]).astype('int32')
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            r0, r1, r2, = exe.run(feed={
                "data1": input1,
                "data2": input2
            },
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                                  fetch_list=[x0, x1, x2])
            ex_x0, ex_x1, ex_x2 = np.split(input1, 3, axis=2)
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            np.testing.assert_allclose(ex_x0, r0, rtol=1e-05)
            np.testing.assert_allclose(ex_x1, r1, rtol=1e-05)
            np.testing.assert_allclose(ex_x2, r2, rtol=1e-05)
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class API_TestSplit2(unittest.TestCase):
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    def test_out(self):
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            data1 = fluid.layers.data('data1', shape=[4, 6, 6], dtype='float64')
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            x0, x1, x2 = paddle.split(data1, num_or_sections=3, axis=2)
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            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            input1 = np.random.random([4, 6, 6]).astype('float64')
            r0, r1, r2, = exe.run(feed={"data1": input1},
                                  fetch_list=[x0, x1, x2])
            ex_x0, ex_x1, ex_x2 = np.split(input1, 3, axis=2)
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            np.testing.assert_allclose(ex_x0, r0, rtol=1e-05)
            np.testing.assert_allclose(ex_x1, r1, rtol=1e-05)
            np.testing.assert_allclose(ex_x2, r2, rtol=1e-05)
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class API_TestSplit3(unittest.TestCase):
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    def test_out(self):
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            data = fluid.layers.data('data', shape=[-1, 10], dtype='float64')
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            x0, x1 = paddle.split(data, num_or_sections=(3, 7), axis=1)
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            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            input1 = np.random.random([1, 10]).astype('float64')
            r0, r1 = exe.run(feed={"data": input1}, fetch_list=[x0, x1])
            ex_x0, ex_x1 = np.split(input1, (3, ), axis=1)
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            np.testing.assert_allclose(ex_x0, r0, rtol=1e-05)
            np.testing.assert_allclose(ex_x1, r1, rtol=1e-05)
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class API_TestSplit4(unittest.TestCase):
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    def test_out(self):
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            data = fluid.layers.data('data', shape=[-1, 10], dtype='float64')
            index = fluid.layers.data('index', shape=[1], dtype='int32')
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            x0, x1 = paddle.split(data, num_or_sections=(3, index), axis=1)
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            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            input1 = np.random.random([1, 10]).astype('float64')
            input2 = np.array([7]).astype('int32')
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            r0, r1 = exe.run(feed={
                "data": input1,
                "index": input2
            },
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                             fetch_list=[x0, x1])
            ex_x0, ex_x1 = np.split(input1, (3, ), axis=1)
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            np.testing.assert_allclose(ex_x0, r0, rtol=1e-05)
            np.testing.assert_allclose(ex_x1, r1, rtol=1e-05)
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class API_TestSplit5(unittest.TestCase):

    def test_out(self):
        for use_cuda in ([False, True]
                         if core.is_compiled_with_cuda() else [False]):
            place = paddle.CUDAPlace(0) if use_cuda else paddle.CPUPlace()
            with fluid.program_guard(fluid.Program(), fluid.Program()):
                input_1 = np.random.random([5, 4]).astype("int32")
                # input is a variable which shape is [5, 4]
                input = paddle.to_tensor(input_1)
                n = paddle.full([1], 5, dtype='int32')
                out = paddle.split(input, [n])
                exe = paddle.static.Executor(place=place)
                re = exe.run(fetch_list=[out])
                re = re[0]
                ex_out = np.split(input_1, [5])
                ex_out = ex_out[0]
                np.testing.assert_allclose(ex_out, re, rtol=1e-05)


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class API_TestSplit6(unittest.TestCase):

    def test_out(self):
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            data = fluid.layers.data('data', shape=[-1, 10], dtype='float64')
            x0, x1 = paddle.split(data, num_or_sections=[1, 1], axis=0)
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            input1 = np.random.random([2, 10]).astype('float64')
            r0, r1 = exe.run(feed={"data": input1}, fetch_list=[x0, x1])
            ex_x0, ex_x1 = np.split(input1, (1, ), axis=0)
            np.testing.assert_allclose(ex_x0, r0, rtol=1e-05)
            np.testing.assert_allclose(ex_x1, r1, rtol=1e-05)


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class API_TestDygraphFluidSplit(unittest.TestCase):

    def test_out1(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
            input = paddle.to_tensor(input_1)
            x0, x1, x2 = fluid.layers.split(input, num_or_sections=3, dim=1)
            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, 3, axis=1)
            with _test_eager_guard():
                # input is a variable which shape is [4, 6, 6]
                input = paddle.to_tensor(input_1)
                input.stop_gradient = False
                x0, x1, x2 = fluid.layers.split(input, num_or_sections=3, dim=1)
                eager_x0_out = x0.numpy()
                eager_x1_out = x1.numpy()
                eager_x2_out = x2.numpy()
                loss = x0.sum()
                loss.backward()
                manul_grad = np.zeros_like(input_1)
                manul_grad[:, :2, :] = 1
                np.testing.assert_allclose(input.gradient(),
                                           manul_grad,
                                           rtol=1e-05)
                np.testing.assert_allclose(ex_x0, eager_x0_out, rtol=1e-05)
                np.testing.assert_allclose(ex_x1, eager_x1_out, rtol=1e-05)
                np.testing.assert_allclose(ex_x2, eager_x2_out, rtol=1e-05)

        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)

    def test_out2(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
            input = paddle.to_tensor(input_1)
            x0, x1, x2 = fluid.layers.split(input, [2, 2, 2], dim=1)
            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, 3, axis=1)
            with _test_eager_guard():
                # input is a variable which shape is [4, 6, 6]
                input = paddle.to_tensor(input_1)
                input.stop_gradient = False
                x0, x1, x2 = fluid.layers.split(input, [2, 2, 2], dim=1)
                eager_x0_out = x0.numpy()
                eager_x1_out = x1.numpy()
                eager_x2_out = x2.numpy()
                loss = x0.sum()
                loss.backward()
                manul_grad = np.zeros_like(input_1)
                manul_grad[:, :2, :] = 1
                np.testing.assert_allclose(input.gradient(),
                                           manul_grad,
                                           rtol=1e-05)
                np.testing.assert_allclose(ex_x0, eager_x0_out, rtol=1e-05)
                np.testing.assert_allclose(ex_x1, eager_x1_out, rtol=1e-05)
                np.testing.assert_allclose(ex_x2, eager_x2_out, rtol=1e-05)

        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)


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class API_TestDygraphSplit(unittest.TestCase):
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    def test_out1(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
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            input = paddle.to_tensor(input_1)
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            x0, x1, x2 = paddle.split(input, num_or_sections=3, axis=1)
            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, 3, axis=1)
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            with _test_eager_guard():
                # input is a variable which shape is [4, 6, 6]
                input = paddle.to_tensor(input_1)
                input.stop_gradient = False
                x0, x1, x2 = paddle.split(input, num_or_sections=3, axis=1)
                eager_x0_out = x0.numpy()
                eager_x1_out = x1.numpy()
                eager_x2_out = x2.numpy()
                loss = x0.sum()
                loss.backward()
                manul_grad = np.zeros_like(input_1)
                manul_grad[:, :2, :] = 1
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                np.testing.assert_allclose(input.gradient(),
                                           manul_grad,
                                           rtol=1e-05)
                np.testing.assert_allclose(ex_x0, eager_x0_out, rtol=1e-05)
                np.testing.assert_allclose(ex_x1, eager_x1_out, rtol=1e-05)
                np.testing.assert_allclose(ex_x2, eager_x2_out, rtol=1e-05)
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        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)
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    def test_out2(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("bool")
            # input is a variable which shape is [4, 6, 6]
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            input = paddle.to_tensor(input_1)
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            x0, x1, x2 = paddle.split(input, num_or_sections=3, axis=1)
            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, 3, axis=1)
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        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)
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    def test_out3(self):
        with fluid.dygraph.guard():
            np.random.seed(2021)
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
            input = paddle.to_tensor(input_1)
            out_dy = paddle.split(input, [6], axis=1)
            out_dy = out_dy[0]
            out_dy_np = out_dy.numpy()
            ex_out = np.split(input_1, [6], axis=1)
            ex_out = ex_out[0]
            with _test_eager_guard():
                input = paddle.to_tensor(input_1)
                out_eager = paddle.split(input, [6], axis=1)
                out_eager = out_eager[0]
                out_eager_np = out_dy.numpy()
                np.testing.assert_allclose(ex_out, out_eager_np, rtol=1e-05)
        np.testing.assert_allclose(ex_out, out_dy_np, rtol=1e-05)

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    def test_out_tensor_input(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
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            input = paddle.to_tensor(input_1)
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            num1 = paddle.full(shape=[1], fill_value=2, dtype='int32')
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            x0, x1, x2 = paddle.split(input,
                                      num_or_sections=[num1, 2, 2],
                                      axis=1)
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            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, 3, axis=1)
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        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)
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    def test_axis_tensor_input(self):
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        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
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            input = paddle.to_tensor(input_1)
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            num1 = paddle.full(shape=[1], fill_value=1, dtype='int32')
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            x0, x1, x2 = paddle.split(input,
                                      num_or_sections=[2, 2, 2],
                                      axis=num1)
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            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, 3, axis=1)
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        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)
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    def func_negative_one_section(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([4, 6, 6]).astype("int32")
            # input is a variable which shape is [4, 6, 6]
            input = paddle.to_tensor(input_1)
            num1 = paddle.full(shape=[1], fill_value=1, dtype='int32')
            x0 = paddle.split(input, num_or_sections=[-1], axis=num1)
            x0_out = x0[0].numpy()
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        np.testing.assert_array_equal(x0_out, input.numpy())
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    def test_negative_one_section(self):
        with _test_eager_guard():
            self.func_negative_one_section()
        self.func_negative_one_section()

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class API_TestEmptySplit(unittest.TestCase):
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    def test_axis_input_empty_section(self):
        with fluid.dygraph.guard():
            input_1 = np.random.random([8, 6, 6]).astype("float32")
            # input is a variable which shape is [8, 6, 6]
            input = paddle.to_tensor(input_1)
            x0, x1, x2 = paddle.split(input, num_or_sections=[5, 0, 3])
            x0_out = x0.numpy()
            x1_out = x1.numpy()
            x2_out = x2.numpy()
            ex_x0, ex_x1, ex_x2 = np.split(input_1, [
                5,
                5,
            ])
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        np.testing.assert_allclose(ex_x0, x0_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x1, x1_out, rtol=1e-05)
        np.testing.assert_allclose(ex_x2, x2_out, rtol=1e-05)
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if __name__ == '__main__':
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    paddle.enable_static()
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    unittest.main()