test_reshape_op.py 15.6 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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from __future__ import print_function

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import unittest
import numpy as np

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from op_test import OpTest
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import paddle
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import paddle.fluid as fluid
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from paddle.fluid import compiler
from paddle.static import Program, program_guard
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# situation 1: have shape( list, no tensor), no actual shape(Tensor)
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class TestReshapeOp(OpTest):
    def setUp(self):
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        self.init_data()
        self.op_type = "reshape2"
        self.inputs = {"X": np.random.random(self.ori_shape).astype("float32")}
        self.attrs = {"shape": self.new_shape}
        self.outputs = {
            "Out": self.inputs["X"].reshape(self.infered_shape),
            'XShape': np.random.random(self.ori_shape).astype("float32")
        }
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    def init_data(self):
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        self.ori_shape = (2, 60)
        self.new_shape = (12, 10)
        self.infered_shape = (12, 10)
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    def test_check_output(self):
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        self.check_output(no_check_set=['XShape'])
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    def test_check_grad(self):
        self.check_grad(["X"], "Out")


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class TestReshapeOpDimInfer1(TestReshapeOp):
    def init_data(self):
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        self.ori_shape = (5, 25)
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        self.new_shape = (5, -1, 5)
        self.infered_shape = (5, -1, 5)
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class TestReshapeOpDimInfer2(TestReshapeOp):
    def init_data(self):
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        self.ori_shape = (10, 2, 6)
        self.new_shape = (10, 0, 3, -1)
        self.infered_shape = (10, 2, 3, -1)
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# situation 2: have shape(list, no tensor), have actual shape(Tensor)
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class TestReshapeOpWithInputShape(OpTest):
    def setUp(self):
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        self.init_data()
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        self.op_type = "reshape2"
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        self.inputs = {
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            "X": np.random.random(self.ori_shape).astype("float32"),
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            "Shape": np.array(
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                self.actual_shape, dtype="int32")
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        }
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        self.attrs = {"shape": self.new_shape}
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        self.outputs = {
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            "Out": self.inputs["X"].reshape(self.actual_shape),
            'XShape': np.random.random(self.ori_shape).astype("float32")
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        }
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    def init_data(self):
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        self.ori_shape = (6, 20)
        self.new_shape = (0, -1, 20)
        self.actual_shape = (2, 3, 20)
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    def test_check_output(self):
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        self.check_output(no_check_set=['XShape'])
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    def test_check_grad(self):
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        self.check_grad(["X"], "Out")
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# Situation 3: have shape(list, have tensor), no actual shape(Tensor)
class TestReshapeOp_attr_ShapeTensor(OpTest):
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    def setUp(self):
        self.init_data()
        self.op_type = "reshape2"

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

        self.inputs = {
            "X": np.random.random(self.ori_shape).astype("float32"),
            'ShapeTensor': shape_tensor
        }
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        self.attrs = {'shape': self.shape}
        self.outputs = {
            "Out": self.inputs["X"].reshape(self.infered_shape),
            'XShape': np.random.random(self.ori_shape).astype("float32")
        }

    def init_data(self):
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        self.ori_shape = (4, 25)
        self.new_shape = (10, 10)
        self.infered_shape = (10, 10)
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        self.shape = (-1, -1)

    def test_check_output(self):
        self.check_output(no_check_set=['XShape'])

    def test_check_grad(self):
        self.check_grad(["X"], "Out")


class TestReshapeOpDimInfer1_attr_ShapeTensor(TestReshapeOp_attr_ShapeTensor):
    def init_data(self):
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        self.ori_shape = (5, 20)
        self.new_shape = (5, -1, 20)
        self.infered_shape = (5, -1, 20)
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        self.shape = (5, -1, -1)


class TestReshapeOpDimInfer2_attr_ShapeTensor(TestReshapeOp_attr_ShapeTensor):
    def init_data(self):
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        self.ori_shape = (10, 2, 6)
        self.new_shape = (10, 0, 3, -1)
        self.infered_shape = (10, 2, 3, -1)
        self.shape = (10, 0, 3, -1)
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# Situation 4: have shape(Tensor), no actual shape(Tensor)
class TestReshapeOp_attr_OnlyShape(OpTest):
    def setUp(self):
        self.init_data()
        self.op_type = "reshape2"

        self.inputs = {
            "X": np.random.random(self.ori_shape).astype("float32"),
            "Shape": np.array(
                self.new_shape, dtype="int32")
        }
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        self.attrs = {}
        self.outputs = {
            "Out": self.inputs["X"].reshape(self.infered_shape),
            'XShape': np.random.random(self.ori_shape).astype("float32")
        }

    def init_data(self):
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        self.ori_shape = (4, 25)
        self.new_shape = (10, 10)
        self.infered_shape = (10, 10)
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    def test_check_output(self):
        self.check_output(no_check_set=['XShape'])

    def test_check_grad(self):
        self.check_grad(["X"], "Out")


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class TestReshapeOpDimInfer1_attr_OnlyShape(TestReshapeOp_attr_OnlyShape):
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    def init_data(self):
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        self.ori_shape = (5, 20)
        self.new_shape = (5, -1, 10)
        self.infered_shape = (5, -1, 10)
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        self.shape = (5, -1, -1)
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class TestReshapeOpDimInfer2_attr_OnlyShape(TestReshapeOp_attr_OnlyShape):
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    def init_data(self):
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        self.ori_shape = (10, 2, 6)
        self.new_shape = (10, 0, 3, -1)
        self.infered_shape = (10, 2, 3, -1)
        self.shape = (10, 0, 3, -1)
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# test int8 data type on CPU
class TestReshapeInt8Op(OpTest):
    def setUp(self):
        self.init_dtype()
        self.init_data()
        self.use_mkldnn = True
        self._cpu_only = True
        self.op_type = "reshape2"
        input = np.random.randint(0, 127, self.ori_shape).astype(self.dtype)
        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(input)}
        self.attrs = {
            'shape': self.new_shape,
            'use_mkldnn': self.use_mkldnn,
        }
        self.outputs = {
            "Out": self.inputs["X"].reshape(self.infered_shape),
            'XShape': np.random.random(self.ori_shape).astype(np.float32)
        }

    def init_dtype(self):
        self.dtype = np.int8

    def init_data(self):
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        self.ori_shape = (10, 2, 6)
        self.new_shape = (10, 0, 3, -1)
        self.infered_shape = (10, 2, 3, -1)
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    def test_check_output(self):
        self.check_output_with_place(
            fluid.core.CPUPlace(), atol=1e-5, no_check_set=['XShape'])

    def test_check_grad(self):
        pass


# test unt8 data type on CPU
class TestReshapeUint8Op(TestReshapeInt8Op):
    def init_dtype(self):
        self.dtype = np.uint8


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class TestReshapeOpBool(TestReshapeOp):
    def setUp(self):
        self.init_data()
        self.op_type = "reshape2"
        self.inputs = {
            "X": np.random.choice(
                [True, False], size=self.ori_shape)
        }
        self.attrs = {"shape": self.new_shape}
        self.outputs = {
            "Out": self.inputs["X"].reshape(self.infered_shape),
            'XShape': np.random.random(self.ori_shape).astype("float32")
        }

    def test_check_grad(self):
        pass


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# Test python API
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class TestReshapeAPI(unittest.TestCase):
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    def _set_paddle_api(self):
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        self.fill_constant = paddle.fluid.layers.fill_constant
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        self.data = paddle.static.data
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        self.to_tensor = paddle.to_tensor
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        self._executed_api()

    def _executed_api(self):
        self.reshape = paddle.reshape
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    def _set_fluid_api(self):
        self.fill_constant = fluid.layers.fill_constant
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        self.data = paddle.static.data
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        self.reshape = fluid.layers.reshape

    def _test_api(self):
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        paddle.enable_static()
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        input = np.random.random([2, 25]).astype("float32")
        shape = [2, 5, 5]
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        main_prog = Program()
        with program_guard(main_prog, Program()):
            positive_five = self.fill_constant([1], "int32", 5)
            x = self.data(name="x", shape=[2, 25], dtype="float32")
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            actual_shape = self.data(name="shape", shape=[3], dtype="int32")
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            # situation 1: have shape( list, no tensor), no actual shape(Tensor)
            out_1 = self.reshape(x, shape)
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            # situation 2: have shape(list, no tensor), have actual shape(Tensor)
            out_2 = fluid.layers.reshape(
                x, shape=shape, actual_shape=actual_shape)
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            # Situation 3: have shape(list, have tensor), no actual shape(Tensor)
            out_3 = self.reshape(x, shape=[positive_five, 10])
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            # Situation 4: have shape(Tensor), no actual shape(Tensor)
            out_4 = self.reshape(x, shape=actual_shape)
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        exe = paddle.static.Executor(place=paddle.CPUPlace())
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        res_1, res_2, res_3, res_4 = exe.run(
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            main_prog,
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            feed={"x": input,
                  "shape": np.array([2, 5, 5]).astype("int32")},
            fetch_list=[out_1, out_2, out_3, out_4])

        assert np.array_equal(res_1, input.reshape(shape))
        assert np.array_equal(res_2, input.reshape(shape))
        assert np.array_equal(res_3, input.reshape([5, 10]))
        assert np.array_equal(res_4, input.reshape(shape))
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    def test_paddle_api(self):
        self._set_paddle_api()
        self._test_api()

    def test_fluid_api(self):
        self._set_fluid_api()
        self._test_api()

    def test_imperative(self):
        self._set_paddle_api()
        input = np.random.random([2, 25]).astype("float32")
        shape = [2, 5, 5]
        with fluid.dygraph.guard():
            x = self.to_tensor(input)
            positive_five = self.fill_constant([1], "int32", 5)

            out_1 = self.reshape(x, shape)

            out_2 = self.reshape(x, shape=[positive_five, 10])

            shape_tensor = self.to_tensor(np.array([2, 5, 5]).astype("int32"))
            out_3 = self.reshape(x, shape=shape_tensor)

        assert np.array_equal(out_1.numpy(), input.reshape(shape))
        assert np.array_equal(out_2.numpy(), input.reshape([5, 10]))
        assert np.array_equal(out_3.numpy(), input.reshape(shape))

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class TestStaticReshape_(TestReshapeAPI):
    def _executed_api(self):
        self.reshape = paddle.reshape_

    def test_imperative(self):
        self._set_paddle_api()
        input = np.random.random([2, 25]).astype("float32")
        shape = [2, 5, 5]
        with fluid.dygraph.guard():
            x = self.to_tensor(input)
            positive_five = self.fill_constant([1], "int32", 5)

            out_1 = self.reshape(x, shape)

            out_2 = self.reshape(x, shape=[positive_five, 10])

            shape_tensor = self.to_tensor(np.array([2, 5, 5]).astype("int32"))
            out_3 = self.reshape(x, shape=shape_tensor)

        assert np.array_equal(out_1.numpy(), input.reshape(shape))
        assert np.array_equal(out_2.numpy(), input.reshape(shape))
        assert np.array_equal(out_3.numpy(), input.reshape(shape))


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# Test Input Error
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class TestReshapeOpError(unittest.TestCase):
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    def _set_paddle_api(self):
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        self.data = paddle.static.data
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        self.reshape = paddle.reshape

    def _set_fluid_api(self):
        self.data = fluid.data
        self.reshape = fluid.layers.reshape

    def _test_errors(self):
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        with program_guard(Program(), Program()):
            # The x type of reshape_op must be Variable.
            def test_x_type():
                x1 = fluid.create_lod_tensor(
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                    np.array([[-1]]), [[1]], paddle.CPUPlace())
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                self.reshape(x1, shape=[1])
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            self.assertRaises(TypeError, test_x_type)

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            # The x dtype of reshape_op must be float16, float32, float64, int32 or int64.
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            def test_x_dtype():
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                x2 = self.data(name="x2", shape=[2, 25], dtype="int8")
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                self.reshape(x2, shape=[2, 5, 5])
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            self.assertRaises(TypeError, test_x_dtype)

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            def test_x_dtype_float16():
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                x_float16 = self.data(
                    name="x_float16", shape=[2, 25], dtype="float16")
                self.reshape(x_float16, shape=[2, 5, 5])
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            test_x_dtype_float16()

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            x3 = self.data(name="x3", shape=[2, 25], dtype="float32")
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            # The argument shape's type of reshape_op must be list, tuple or Variable.
            def test_shape_type():
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                self.reshape(x3, shape=1)
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            self.assertRaises(TypeError, test_shape_type)

            # The argument actual_shape's type of reshape_op must be Variable or None.
            def test_actual_shape_type():
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                self.reshape(x3, shape=[25, 2], actual_shape=1)
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            self.assertRaises(TypeError, test_actual_shape_type)

            # The argument shape have more than one -1.
            def test_shape_1():
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                self.reshape(x3, shape=[-1, -1, 5])
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            self.assertRaises(AssertionError, test_shape_1)

            # The argument shape have element 0 whose index exceed the input dimension.
            def test_shape_2():
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                self.reshape(x3, [2, 5, 5, 0])
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            self.assertRaises(AssertionError, test_shape_2)

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            # The argument shape have more than one negative value.
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            def test_shape_3():
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                self.reshape(x3, [-1, -2, 5])
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            self.assertRaises(AssertionError, test_shape_3)

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    def test_paddle_api_error(self):
        self._set_paddle_api()
        self._test_errors()

    def test_fluid_api_error(self):
        self._set_fluid_api()
        self._test_errors()

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class TestDygraphReshapeAPI(unittest.TestCase):
    def setUp(self):
        self.executed_api()

    def executed_api(self):
        self.reshape = paddle.reshape

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    def test_out(self):
        paddle.disable_static()
        input_1 = np.random.random([5, 1, 10]).astype("int32")
        input = paddle.to_tensor(input_1)
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        output = self.reshape(x=input, shape=[5, 10])
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        out_np = output.numpy()
        expected_out = np.reshape(input_1, newshape=[5, 10])
        self.assertTrue(np.allclose(expected_out, out_np))

    def test_out_uint8(self):
        paddle.disable_static()
        input_1 = np.random.random([5, 1, 10]).astype("uint8")
        input = paddle.to_tensor(input_1)
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        output = self.reshape(x=input, shape=[5, 10])
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        out_np = output.numpy()
        expected_out = np.reshape(input_1, newshape=[5, 10])
        self.assertTrue(np.allclose(expected_out, out_np))

    def test_out_float32(self):
        paddle.disable_static()
        input_1 = np.random.random([5, 1, 10]).astype("float32")
        input = paddle.to_tensor(input_1)
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        output = self.reshape(x=input, shape=[5, 10])
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        out_np = output.numpy()
        expected_out = np.reshape(input_1, newshape=[5, 10])
        self.assertTrue(np.allclose(expected_out, out_np))


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class TestDygraphReshapeInplaceAPI(TestDygraphReshapeAPI):
    def executed_api(self):
        self.reshape = paddle.reshape_


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class TestReshapeZeroTensor(unittest.TestCase):
    def test_reshape_zero_tensor_success(self):
        zero_tensor = paddle.zeros([0, 2, 3])
        # since we use "0" as the dimension copy semantically in reshape, 
        # we need to copy the 0 dim in the src tensor in order to make a successful zero tensor reshape
        zero_tensor = zero_tensor.reshape([0, 6])
        self.assertTrue(list(zero_tensor.shape) == [0, 6])

    def test_reshape_zero_tensor_error(self):
        zero_tensor = paddle.zeros([0, 2, 3])
        with self.assertRaises(ValueError):
            zero_tensor.reshape([2, 3])


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if __name__ == "__main__":
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    unittest.main()