test_activation_op.py 96.9 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
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import numpy as np
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from scipy.special import expit, erf
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from op_test import OpTest, convert_float_to_uint16
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import paddle
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import paddle.nn as nn
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import paddle.nn.functional as F
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import paddle.fluid as fluid
import paddle.fluid.core as core
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from paddle.fluid import compiler, Program, program_guard
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paddle.enable_static()

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class TestSqrtOpError(unittest.TestCase):
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    def test_errors(self):
        with program_guard(Program(), Program()):
            # The input type of sqrt op must be Variable or numpy.ndarray.
            in1 = 1
            self.assertRaises(TypeError, fluid.layers.sqrt, in1)
            # The input dtype of sqrt op must be float16, float32, float64.
            in2 = fluid.layers.data(
                name='input2', shape=[12, 10], dtype="int32")
            self.assertRaises(TypeError, fluid.layers.sqrt, in2)

            in3 = fluid.layers.data(
                name='input3', shape=[12, 10], dtype="float16")
            fluid.layers.sqrt(x=in3)


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class TestActivation(OpTest):
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    def setUp(self):
        self.op_type = "exp"
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        self.init_dtype()
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        self.init_kernel_type()
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        np.random.seed(2049)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.exp(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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    def init_dtype(self):
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        self.dtype = np.float64
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    def init_kernel_type(self):
        pass

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class TestExpm1(TestActivation):
    def setUp(self):
        self.op_type = "expm1"
        self.init_dtype()

        np.random.seed(2049)
        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.expm1(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

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


class TestExpm1API(unittest.TestCase):
    def init_dtype(self):
        self.dtype = 'float64'
        self.shape = [11, 17]

    def setUp(self):
        self.init_dtype()
        self.x = np.random.uniform(0.1, 1, self.shape).astype(self.dtype)
        self.out_ref = np.expm1(self.x)

        self.place = [paddle.CPUPlace()]
        if core.is_compiled_with_cuda():
            self.place.append(paddle.CUDAPlace(0))

    def test_static_api(self):
        paddle.enable_static()

        def run(place):
            with paddle.static.program_guard(paddle.static.Program()):
                X = paddle.fluid.data('X', self.shape, dtype=self.dtype)
                out = paddle.expm1(X)
                exe = paddle.static.Executor(place)
                res = exe.run(feed={'X': self.x})
            for r in res:
                self.assertEqual(np.allclose(self.out_ref, r), True)

        for place in self.place:
            run(place)

    def test_dygraph_api(self):
        def run(place):
            paddle.disable_static(place)
            X = paddle.to_tensor(self.x)
            out = paddle.expm1(X)
            self.assertEqual(np.allclose(self.out_ref, out.numpy()), True)
            paddle.enable_static()

        for place in self.place:
            run(place)

    def test_errors(self):
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
            X = paddle.fluid.data('X', self.shape, dtype='int32')
            self.assertRaises(TypeError, paddle.expm1, X)
        # The input dtype must be float16, float32, float64.


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class TestParameter(object):
    def test_out_name(self):
        with fluid.program_guard(fluid.Program()):
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            np_x = np.array([0.1])
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            data = fluid.layers.data(name="X", shape=[1])
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            out = eval("paddle.%s(data, name='Y')" % self.op_type)
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            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
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            result, = exe.run(feed={"X": np_x}, fetch_list=[out])
            expected = eval("np.%s(np_x)" % self.op_type)
            self.assertEqual(result, expected)
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    def test_dygraph(self):
        with fluid.dygraph.guard():
            np_x = np.array([0.1])
            x = fluid.dygraph.to_variable(np_x)
            z = eval("paddle.%s(x).numpy()" % self.op_type)
            z_expected = eval("np.%s(np_x)" % self.op_type)
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            # ROCM platform will fail in assertEqual
            if core.is_compiled_with_rocm():
                self.assertTrue(np.allclose(z, z_expected))
            else:
                self.assertEqual(z, z_expected)
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class TestSigmoid(TestActivation):
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    def setUp(self):
        self.op_type = "sigmoid"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
        out = 1 / (1 + np.exp(-x))

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def init_dtype(self):
        self.dtype = np.float32

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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out', max_relative_error=0.01)

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class TestSilu(TestActivation):
    def setUp(self):
        self.op_type = "silu"
        self.init_dtype()

        np.random.seed(1024)
        x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
        out = x / (np.exp(-x) + 1)

        self.inputs = {'X': x}
        self.outputs = {'Out': out}

    def init_dtype(self):
        self.dtype = np.float32

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')


class TestSiluAPI(unittest.TestCase):
    # test paddle.nn.Silu, paddle.nn.functional.silu
    def setUp(self):
        self.x_np = np.random.uniform(-1, 1, [11, 17]).astype('float32')
        self.place = paddle.CUDAPlace(0) if core.is_compiled_with_cuda() \
            else paddle.CPUPlace()

    def test_static_api(self):
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
            x = paddle.fluid.data('X', [11, 17])
            out1 = F.silu(x)
            m = paddle.nn.Silu()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = self.x_np / (1 + np.exp(-self.x_np))
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.silu(x)
        m = paddle.nn.Silu()
        out2 = m(x)
        out_ref = self.x_np / (1 + np.exp(-self.x_np))
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_errors(self):
        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, F.silu, 1)
            # The input dtype must be float16, float32, float64.
            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[11, 17], dtype='int32')
            self.assertRaises(TypeError, F.silu, x_int32)
            # support the input dtype is float16
            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[11, 17], dtype='float16')
            F.silu(x_fp16)


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class TestLogSigmoid(TestActivation):
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    def setUp(self):
        self.op_type = "logsigmoid"
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        self.init_dtype()

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        np.random.seed(2048)
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        x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
        out = np.log(1 / (1 + np.exp(-x)))

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        self.inputs = {'X': x}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out', max_relative_error=0.008)
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class TestLogSigmoidAPI(unittest.TestCase):
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    # test paddle.nn.LogSigmoid, paddle.nn.functional.log_sigmoid
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    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [11, 17]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [11, 17])
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            out1 = F.log_sigmoid(x)
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            m = paddle.nn.LogSigmoid()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = np.log(1 / (1 + np.exp(-self.x_np)))
        for r in res:
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            self.assertTrue(np.allclose(out_ref, r))
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    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
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        out1 = F.log_sigmoid(x)
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        m = paddle.nn.LogSigmoid()
        out2 = m(x)
        out_ref = np.log(1 / (1 + np.exp(-self.x_np)))
        for r in [out1, out2]:
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            self.assertTrue(np.allclose(out_ref, r.numpy()))
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        paddle.enable_static()

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    def test_fluid_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [11, 17])
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            out = paddle.fluid.layers.logsigmoid(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = np.log(1 / (1 + np.exp(-self.x_np)))
        self.assertTrue(np.allclose(out_ref, res[0]))

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
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            self.assertRaises(TypeError, F.log_sigmoid, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[11, 17], dtype='int32')
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            self.assertRaises(TypeError, F.log_sigmoid, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[11, 17], dtype='float16')
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            F.log_sigmoid(x_fp16)
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class TestTanh(TestActivation, TestParameter):
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    def setUp(self):
        self.op_type = "tanh"
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        self.init_dtype()
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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.tanh(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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    def init_dtype(self):
        #TODO If dtype is float64, the output (Out) has diff at CPUPlace
        # when using and not using inplace. Therefore, set dtype as float32
        # for now.
        self.dtype = np.float32

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class TestTanhAPI(unittest.TestCase):
    # test paddle.tanh, paddle.nn.tanh, paddle.nn.functional.tanh
    def setUp(self):
        self.dtype = 'float32'
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
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        self.place = paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()
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        self.executed_api()

    def executed_api(self):
        self.tanh = F.tanh
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    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [10, 12], self.dtype)
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            out1 = self.tanh(x)
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            th = paddle.nn.Tanh()
            out2 = th(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = np.tanh(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
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        x = paddle.to_tensor(self.x_np)
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        out1 = F.tanh(x)
        out2 = paddle.tanh(x)
        th = paddle.nn.Tanh()
        out3 = th(x)
        out_ref = np.tanh(self.x_np)
        for r in [out1, out2, out3]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
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        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', [10, 12], self.dtype)
            out = fluid.layers.tanh(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = np.tanh(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
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            self.assertRaises(TypeError, self.tanh, 1)
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            # The input dtype must be float16, float32.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, self.tanh, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            self.tanh(x_fp16)


class TestTanhInplaceAPI(TestTanhAPI):
    # test paddle.tanh_
    def executed_api(self):
        self.tanh = paddle.tanh_
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class TestAtan(TestActivation, TestParameter):
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    def setUp(self):
        self.op_type = "atan"
        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.arctan(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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    def test_out_name(self):
        with fluid.program_guard(fluid.Program()):
            np_x = np.array([0.1])
            data = fluid.layers.data(name="X", shape=[1])
            out = paddle.atan(data, name='Y')
            place = fluid.CPUPlace()
            exe = fluid.Executor(place)
            result, = exe.run(feed={"X": np_x}, fetch_list=[out])
            expected = np.arctan(np_x)
            self.assertEqual(result, expected)

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    def test_dygraph(self):
        with fluid.dygraph.guard():
            np_x = np.array([0.1])
            x = fluid.dygraph.to_variable(np_x)
            z = paddle.atan(x).numpy()
            z_expected = np.arctan(np_x)
            self.assertEqual(z, z_expected)

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class TestSinh(TestActivation):
    def setUp(self):
        self.op_type = "sinh"
        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.sinh(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')

    def test_dygraph(self):
        with fluid.dygraph.guard():
            np_x = np.array([0.1])
            x = fluid.dygraph.to_variable(np_x)
            z = fluid.layers.sinh(x).numpy()
            z_expected = np.sinh(np_x)
            self.assertTrue(np.allclose(z, z_expected))

    def test_api(self):
        test_data_shape = [11, 17]
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            input_x = np.random.uniform(0.1, 1,
                                        test_data_shape).astype("float32")
            data_x = fluid.layers.data(
                name="data_x",
                shape=test_data_shape,
                append_batch_size=False,
                dtype="float32")

            pd_sinh_out = fluid.layers.sinh(data_x)
            exe = fluid.Executor(place=fluid.CPUPlace())
            exe.run(fluid.default_startup_program())
            np_sinh_res = exe.run(fluid.default_main_program(),
                                  feed={"data_x": input_x},
                                  fetch_list=[pd_sinh_out])

        expected_res = np.sinh(input_x)
        self.assertTrue(np.allclose(np_sinh_res, expected_res))

    def test_backward(self):
        test_data_shape = [11, 17]
        with fluid.dygraph.guard():
            input_x = np.random.uniform(0.1, 1,
                                        test_data_shape).astype("float32")
            var = fluid.dygraph.to_variable(input_x)
            var.stop_gradient = False
            loss = fluid.layers.sinh(var)
            loss.backward()
            grad_var = var.gradient()
            self.assertEqual(grad_var.shape, input_x.shape)


class TestSinhOpError(unittest.TestCase):
    def test_errors(self):
        with program_guard(Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, fluid.layers.sinh, 1)
            # The input dtype must be float16, float32, float64.
            x_int32 = fluid.data(name='x_int32', shape=[12, 10], dtype='int32')
            self.assertRaises(TypeError, fluid.layers.sinh, x_int32)
            # support the input dtype is float16
            x_fp16 = fluid.data(name='x_fp16', shape=[12, 10], dtype='float16')
            fluid.layers.sinh(x_fp16)


class TestCosh(TestActivation):
    def setUp(self):
        self.op_type = "cosh"
        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.cosh(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')

    def test_dygraph(self):
        with fluid.dygraph.guard():
            np_x = np.array([0.1])
            x = fluid.dygraph.to_variable(np_x)
            z = fluid.layers.cosh(x).numpy()
            z_expected = np.cosh(np_x)
            self.assertTrue(np.allclose(z, z_expected))

    def test_api(self):
        test_data_shape = [11, 17]
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            input_x = np.random.uniform(0.1, 1,
                                        test_data_shape).astype("float32")
            data_x = fluid.layers.data(
                name="data_x",
                shape=test_data_shape,
                append_batch_size=False,
                dtype="float32")

            pd_cosh_out = paddle.cosh(data_x)
            exe = fluid.Executor(place=fluid.CPUPlace())
            exe.run(fluid.default_startup_program())
            np_cosh_res = exe.run(fluid.default_main_program(),
                                  feed={"data_x": input_x},
                                  fetch_list=[pd_cosh_out])

        expected_res = np.cosh(input_x)
        self.assertTrue(np.allclose(np_cosh_res, expected_res))

    def test_backward(self):
        test_data_shape = [11, 17]
        with fluid.dygraph.guard():
            input_x = np.random.uniform(0.1, 1,
                                        test_data_shape).astype("float32")
            var = fluid.dygraph.to_variable(input_x)
            var.stop_gradient = False
            loss = fluid.layers.cosh(var)
            loss.backward()
            grad_var = var.gradient()
            self.assertEqual(grad_var.shape, input_x.shape)


class TestCoshOpError(unittest.TestCase):
    def test_errors(self):
        with program_guard(Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, fluid.layers.cosh, 1)
            # The input dtype must be float16, float32, float64.
            x_int32 = fluid.data(name='x_int32', shape=[12, 10], dtype='int32')
            self.assertRaises(TypeError, fluid.layers.cosh, x_int32)
            # support the input dtype is float16
            x_fp16 = fluid.data(name='x_fp16', shape=[12, 10], dtype='float16')
            fluid.layers.cosh(x_fp16)


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def ref_tanhshrink(x):
    out = x - np.tanh(x)
    return out


class TestTanhshrink(TestActivation):
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    def setUp(self):
        self.op_type = "tanh_shrink"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(10, 20, [10, 17]).astype(self.dtype)
        out = ref_tanhshrink(x)
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        self.inputs = {'X': x}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestTanhshrinkAPI(unittest.TestCase):
    # test paddle.nn.Tanhshrink, paddle.nn.functional.tanhshrink
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(10, 20, [10, 17]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.tanhshrink(x)
            tanhshrink = paddle.nn.Tanhshrink()
            out2 = tanhshrink(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_tanhshrink(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.tanhshrink(x)
        tanhshrink = paddle.nn.Tanhshrink()
        out2 = tanhshrink(x)
        out_ref = ref_tanhshrink(self.x_np)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
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        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.tanh_shrink(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_tanhshrink(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, F.tanhshrink, 1)
            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.tanhshrink, x_int32)
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.tanhshrink(x_fp16)


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def ref_hardshrink(x, threshold):
    out = np.copy(x)
    out[(out >= -threshold) & (out <= threshold)] = 0
    return out


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class TestHardShrink(TestActivation):
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    def setUp(self):
        self.op_type = "hard_shrink"
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        self.init_dtype()

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        self.threshold = 0.5
        self.set_attrs()
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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype) * 10
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        out = ref_hardshrink(x, self.threshold)
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        self.attrs = {'threshold': self.threshold}
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        self.inputs = {'X': x}
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        self.outputs = {'Out': out}
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    def set_attrs(self):
        pass

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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestHardShrink_threshold_negative(TestHardShrink):
    def set_attrs(self):
        self.threshold = -0.1


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class TestHardShrinkAPI(unittest.TestCase):
    # test paddle.nn.Hardshrink, paddle.nn.functional.hardshrink
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [10, 12])
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            out1 = F.hardshrink(x)
            hd = paddle.nn.Hardshrink()
            out2 = hd(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_hardshrink(self.x_np, 0.5)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
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        x = paddle.to_tensor(self.x_np)
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        out1 = F.hardshrink(x)
        hd = paddle.nn.Hardshrink()
        out2 = hd(x)
        out_ref = ref_hardshrink(self.x_np, 0.5)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)

        out1 = F.hardshrink(x, 0.6)
        hd = paddle.nn.Hardshrink(0.6)
        out2 = hd(x)
        out_ref = ref_hardshrink(self.x_np, 0.6)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
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        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', [10, 12])
            out = fluid.layers.hard_shrink(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_hardshrink(self.x_np, 0.5)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.hardshrink, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.hardshrink, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.hardshrink(x_fp16)
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def ref_hardtanh(x, min=-1.0, max=1.0):
    out = np.copy(x)
    out[np.abs(x - min) < 0.005] = min + 0.02
    out[np.abs(x - max) < 0.005] = max + 0.02
    out = np.minimum(np.maximum(x, min), max)
    return out


class TestHardtanhAPI(unittest.TestCase):
    # test paddle.nn.Hardtanh, paddle.nn.functional.hardtanh
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-3, 3, [10, 12]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [10, 12])
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            out1 = F.hardtanh(x)
            m = paddle.nn.Hardtanh()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_hardtanh(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
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        x = paddle.to_tensor(self.x_np)
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        out1 = F.hardtanh(x)
        m = paddle.nn.Hardtanh()
        out2 = m(x)
        out_ref = ref_hardtanh(self.x_np)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)

        out1 = F.hardtanh(x, -2.0, 2.0)
        m = paddle.nn.Hardtanh(-2.0, 2.0)
        out2 = m(x)
        out_ref = ref_hardtanh(self.x_np, -2.0, 2.0)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, F.hardtanh, 1)
            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.hardtanh, x_int32)
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.hardtanh(x_fp16)


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def ref_softshrink(x, threshold=0.5):
    out = np.copy(x)
    out = (out < -threshold) * (out + threshold) + (out > threshold) * (
        out - threshold)
    return out


class TestSoftshrink(TestActivation):
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    def setUp(self):
        self.op_type = "softshrink"
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        self.init_dtype()

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        threshold = 0.8
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        np.random.seed(1023)
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        x = np.random.uniform(0.25, 10, [10, 12]).astype(self.dtype)
        out = ref_softshrink(x, threshold)
        self.inputs = {'X': x}
        self.attrs = {"lambda": threshold}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestSoftshrinkAPI(unittest.TestCase):
    # test paddle.nn.Softshrink, paddle.nn.functional.softshrink
    def setUp(self):
        self.threshold = 0.8
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(0.25, 10, [10, 12]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.softshrink(x, self.threshold)
            softshrink = paddle.nn.Softshrink(self.threshold)
            out2 = softshrink(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_softshrink(self.x_np, self.threshold)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.softshrink(x, self.threshold)
        softshrink = paddle.nn.Softshrink(self.threshold)
        out2 = softshrink(x)
        out_ref = ref_softshrink(self.x_np, self.threshold)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
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        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.softshrink(x, self.threshold)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_softshrink(self.x_np, self.threshold)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.softshrink, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.softshrink, x_int32)
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            # The threshold must be no less than zero
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            x_fp32 = paddle.fluid.data(
                name='x_fp32', shape=[12, 10], dtype='float32')
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            self.assertRaises(ValueError, F.softshrink, x_fp32, -1.0)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.softshrink(x_fp16)
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class TestSqrt(TestActivation, TestParameter):
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    def setUp(self):
        self.op_type = "sqrt"
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        self.init_dtype()

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        np.random.seed(1023)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.sqrt(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestRsqrt(TestActivation):
    def setUp(self):
        self.op_type = "rsqrt"
        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [10, 12]).astype(self.dtype) * 10
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        out = 1.0 / np.sqrt(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out', max_relative_error=0.0005)


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class TestAbs(TestActivation):
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    def setUp(self):
        self.op_type = "abs"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [4, 25]).astype(self.dtype)
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        # Because we set delta = 0.005 in calculating numeric gradient,
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        # if x is too small, such as 0.002, x_neg will be -0.003
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        # x_pos will be 0.007, so the numeric gradient is inaccurate.
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        # we should avoid this
        x[np.abs(x) < 0.005] = 0.02
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        out = np.abs(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestCeil(TestActivation):
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    def setUp(self):
        self.op_type = "ceil"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
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        out = np.ceil(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    # The same reason with TestFloor
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    def test_check_grad(self):
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        pass


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class TestFloor(TestActivation):
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    def setUp(self):
        self.op_type = "floor"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
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        out = np.floor(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    # the gradient on floor, ceil, round is undefined.
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    # we return zero as gradient, but the numpy return nan
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    # The same reason with TestFloor
    def test_check_grad(self):
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        pass


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class TestCos(TestActivation):
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    def setUp(self):
        self.op_type = "cos"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
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        out = np.cos(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestTan(TestActivation):
    def setUp(self):
        np.random.seed(1024)
        self.op_type = "tan"
        self.init_dtype()
        self.dtype = 'float32'
        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
        self.place = paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
            else paddle.CPUPlace()

        out = np.tan(self.x_np)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(self.x_np)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out_test = paddle.tan(x)
        out_ref = np.tan(self.x_np)
        self.assertTrue(np.allclose(out_ref, out_test.numpy()))
        paddle.enable_static()

    def test_static_api(self):
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
            x = paddle.static.data('X', [10, 12], self.dtype)
            out = paddle.tan(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = np.tan(self.x_np)
        self.assertTrue(np.allclose(out_ref, res[0]))

    def test_backward(self):
        test_data_shape = [11, 17]
        with fluid.dygraph.guard():
            input_x = np.random.uniform(0.1, 1,
                                        test_data_shape).astype("float32")
            var = paddle.to_tensor(input_x)
            var.stop_gradient = False
            loss = paddle.tan(var)
            loss.backward()
            grad_var = var.gradient()
            self.assertEqual(grad_var.shape, input_x.shape)


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class TestAcos(TestActivation):
    def setUp(self):
        self.op_type = "acos"
        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-0.95, 0.95, [10, 12]).astype(self.dtype)
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        out = np.arccos(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestSin(TestActivation, TestParameter):
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    def setUp(self):
        self.op_type = "sin"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
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        out = np.sin(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestAsin(TestActivation):
    def setUp(self):
        self.op_type = "asin"
        self.init_dtype()

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        np.random.seed(2048)
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        x = np.random.uniform(-0.95, 0.95, [10, 12]).astype(self.dtype)
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        out = np.arcsin(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestRound(TestActivation):
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    def setUp(self):
        self.op_type = "round"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
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        out = np.round(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        pass


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class TestRelu(TestActivation):
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    def setUp(self):
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        self.op_type = "relu"
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        self.init_dtype()

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        np.random.seed(1024)
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        if self.dtype == np.uint16:
            x = np.random.uniform(-1, 1, [11, 17]).astype(np.float32)
            # The same reason with TestAbs
            x[np.abs(x) < 0.005] = 0.02
            out = convert_float_to_uint16(np.maximum(x, 0))
            self.inputs = {'X': convert_float_to_uint16(x)}
        else:
            x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
            # The same reason with TestAbs
            x[np.abs(x) < 0.005] = 0.02
            out = np.maximum(x, 0)
            self.inputs = {'X': x}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestReluAPI(unittest.TestCase):
    # test paddle.nn.ReLU, paddle.nn.functional.relu
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()
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        self.executed_api()

    def executed_api(self):
        self.relu = F.relu
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    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [10, 12])
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            out1 = self.relu(x)
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            m = paddle.nn.ReLU()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = np.maximum(self.x_np, 0)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        m = paddle.nn.ReLU()
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        out1 = m(x)
        out2 = self.relu(x)
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        out_ref = np.maximum(self.x_np, 0)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, self.relu, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[10, 12], dtype='int32')
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            self.assertRaises(TypeError, self.relu, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[10, 12], dtype='float16')
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            self.relu(x_fp16)


class TestReluInplaceAPI(TestReluAPI):
    # test paddle.nn.functional.relu_
    def executed_api(self):
        self.relu = F.relu_
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def ref_leaky_relu(x, alpha=0.01):
    out = np.copy(x)
    out[out < 0] *= alpha
    return out


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class TestLeakyRelu(TestActivation):
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    def get_alpha(self):
        return 0.02

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    def setUp(self):
        self.op_type = "leaky_relu"
        self.init_dtype()
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        alpha = self.get_alpha()
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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
        # The same reason with TestAbs
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        x[np.abs(x) < 0.005] = 0.05
        out = ref_leaky_relu(x, alpha)
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        self.inputs = {'X': x}
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        self.outputs = {'Out': out}
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        self.attrs = {'alpha': alpha}
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    def test_check_grad(self):
        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestLeakyReluAlpha1(TestLeakyRelu):
    def get_alpha(self):
        return 2


class TestLeakyReluAlpha2(TestLeakyRelu):
    def get_alpha(self):
        return -0.01


class TestLeakyReluAlpha3(TestLeakyRelu):
    def get_alpha(self):
        return -2.0


class TestLeakyReluAPI(unittest.TestCase):
    # test paddle.nn.LeakyReLU, paddle.nn.functional.leaky_relu,
    # fluid.layers.leaky_relu
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [10, 12])
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            out1 = F.leaky_relu(x)
            m = paddle.nn.LeakyReLU()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_leaky_relu(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
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        x = paddle.to_tensor(self.x_np)
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        out1 = F.leaky_relu(x)
        m = paddle.nn.LeakyReLU()
        out2 = m(x)
        out_ref = ref_leaky_relu(self.x_np)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)

        out1 = F.leaky_relu(x, 0.6)
        m = paddle.nn.LeakyReLU(0.6)
        out2 = m(x)
        out_ref = ref_leaky_relu(self.x_np, 0.6)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
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        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', [10, 12])
            out = fluid.layers.leaky_relu(x, 0.01)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_leaky_relu(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.leaky_relu, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.leaky_relu, x_int32)
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.leaky_relu(x_fp16)
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def gelu(x, approximate):
    if approximate:
        y_ref = 0.5 * x * (1.0 + np.tanh(
            np.sqrt(2 / np.pi) * (x + 0.044715 * np.power(x, 3))))
    else:
        y_ref = 0.5 * x * (1 + erf(x / np.sqrt(2)))
    return y_ref.astype(x.dtype)


class TestGeluApproximate(TestActivation):
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    def setUp(self):
        self.op_type = "gelu"
        self.init_dtype()
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        approximate = True
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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
        out = gelu(x, approximate)
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        self.inputs = {'X': x}
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        self.outputs = {'Out': out}
        self.attrs = {"approximate": approximate}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')


class TestGelu(TestActivation):
    def setUp(self):
        self.op_type = "gelu"
        self.init_dtype()
        approximate = False
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        np.random.seed(2048)
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        x = np.random.uniform(-1, 1, [11, 17]).astype(self.dtype)
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        out = gelu(x, approximate)
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        self.inputs = {'X': x}
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        self.outputs = {'Out': out}
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        self.attrs = {"approximate": approximate}
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    def test_check_grad(self):
        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestGELUAPI(unittest.TestCase):
    # test paddle.nn.GELU, paddle.nn.functional.gelu
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [11, 17]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [11, 17])
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            out1 = F.gelu(x)
            m = paddle.nn.GELU()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = gelu(self.x_np, False)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.gelu(x)
        m = paddle.nn.GELU()
        out2 = m(x)
        out_ref = gelu(self.x_np, False)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)

        out1 = F.gelu(x, True)
        m = paddle.nn.GELU(True)
        out2 = m(x)
        out_ref = gelu(self.x_np, True)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, F.gelu, 1)
            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[11, 17], dtype='int32')
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            self.assertRaises(TypeError, F.gelu, x_int32)
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[11, 17], dtype='float16')
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            F.gelu(x_fp16)


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class TestBRelu(TestActivation):
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    def setUp(self):
        self.op_type = "brelu"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-5, 10, [10, 12]).astype(self.dtype)
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        t_min = 1.0
        t_max = 4.0
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        # The same with TestAbs
        x[np.abs(x - t_min) < 0.005] = t_min + 0.02
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        x[np.abs(x - t_max) < 0.005] = t_max + 0.02
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        t = np.copy(x)
        t[t < t_min] = t_min
        t[t > t_max] = t_max
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        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.attrs = {'t_min': t_min, 't_max': t_max}
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        self.outputs = {'Out': t}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestBreluAPI(unittest.TestCase):
    # test paddle.fluid.layers.brelu
    def setUp(self):
        np.random.seed(1024)
        self.t_min = 0.
        self.t_max = 24.
        self.x_np = np.random.uniform(-1, 30, [10, 12]).astype('float32')
        self.out_ref = np.copy(self.x_np)
        self.out_ref[self.out_ref < self.t_min] = self.t_min
        self.out_ref[self.out_ref > self.t_max] = self.t_max
        self.out_ref = self.out_ref.astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_fluid_api(self):
        with paddle.static.program_guard(paddle.static.Program()):
            x = paddle.static.data('X', [10, 12])
            out = paddle.fluid.layers.brelu(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
            self.assertTrue(np.allclose(self.out_ref, res[0]))

            paddle.disable_static(self.place)
            x = paddle.to_tensor(self.x_np)
            out = paddle.fluid.layers.brelu(x)
            self.assertTrue(np.allclose(self.out_ref, out.numpy()))
            paddle.enable_static()

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    def test_errors(self):
        with program_guard(Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, fluid.layers.brelu, 1)
            # The input dtype must be float16, float32, float64.
            x_int32 = fluid.data(name='x_int32', shape=[12, 10], dtype='int32')
            self.assertRaises(TypeError, fluid.layers.brelu, x_int32)
            # support the input dtype is float16
            x_fp16 = fluid.layers.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
            fluid.layers.brelu(x_fp16)


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def ref_relu6(x, threshold=6.0):
    out = np.copy(x)
    out[np.abs(x - threshold) < 0.005] = threshold + 0.02
    out = np.minimum(np.maximum(x, 0), threshold)
    return out


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class TestRelu6(TestActivation):
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    def setUp(self):
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        self.op_type = "relu6"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 10, [10, 12]).astype(self.dtype)
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        x[np.abs(x) < 0.005] = 0.02
1542
        out = ref_relu6(x)
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1544 1545
        self.inputs = {'X': x}
        self.attrs = {'threshold': 6.0}
1546
        self.outputs = {'Out': out}
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    def test_check_grad(self):
        if self.dtype == np.float16:
            return
1551
        self.check_grad(['X'], 'Out')
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class TestRelu6API(unittest.TestCase):
    # test paddle.nn.ReLU6, paddle.nn.functional.relu6
    def setUp(self):
1557
        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 10, [10, 12]).astype(np.float64)
        self.x_np[np.abs(self.x_np) < 0.005] = 0.02
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.relu6(x)
            relu6 = paddle.nn.ReLU6()
            out2 = relu6(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_relu6(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.relu6(x)
        relu6 = paddle.nn.ReLU6()
        out2 = relu6(x)
        out_ref = ref_relu6(self.x_np)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
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        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.relu6(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_relu6(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.relu6, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.relu6, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.relu6(x_fp16)
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def ref_hardswish(x, threshold=6.0, scale=6.0, offset=3.0):
    return (x * np.minimum(np.maximum(x + offset, 0.), threshold) /
            scale).astype(x.dtype)


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class TestHardSwish(TestActivation):
    def setUp(self):
        self.op_type = 'hard_swish'
        self.init_dtype()

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        from op_test import skip_check_grad_ci
        skip_check_grad_ci(reason="not implemented yet")

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        np.random.seed(1024)
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        x = np.random.uniform(-6, 6, [10, 12]).astype(self.dtype)
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        threshold = 6.0
        scale = 6.0
        offset = 3.0
        #the same with TestAbs
        x[np.abs(x + offset) < 0.005] = 0.02
        x[np.abs(x - threshold + offset) < 0.005] = threshold - offset + 0.02
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        out = ref_hardswish(x, threshold, scale, offset)
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        self.inputs = {'X': x}
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        self.attrs = {'threshold': threshold, 'scale': scale, 'offset': offset}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
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        return  # not implemented yet
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        self.check_grad(['X'], 'Out')
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class TestHardswishAPI(unittest.TestCase):
    # test paddle.nn.Hardswish, paddle.nn.functional.hardswish
    def setUp(self):
        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.hardswish(x)
            m = paddle.nn.Hardswish()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_hardswish(self.x_np)
        for r in res:
            self.assertTrue(np.allclose(out_ref, r))

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.hardswish(x)
        m = paddle.nn.Hardswish()
        out2 = m(x)
        out_ref = ref_hardswish(self.x_np)
        for r in [out1, out2]:
            self.assertTrue(np.allclose(out_ref, r.numpy()))
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        paddle.enable_static()
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    def test_fluid_api(self):
        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.hard_swish(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_hardswish(self.x_np)
        self.assertTrue(np.allclose(out_ref, res[0]))

        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out = paddle.fluid.layers.hard_swish(x)
        self.assertTrue(np.allclose(out_ref, out.numpy()))
        paddle.enable_static()

    def test_errors(self):
        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.hardswish, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.hardswish, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.hardswish(x_fp16)
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class TestSoftRelu(TestActivation):
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    def setUp(self):
        self.op_type = "soft_relu"
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        self.init_dtype()

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        np.random.seed(4096)
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        x = np.random.uniform(-3, 3, [4, 4]).astype(self.dtype)
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        threshold = 2.0
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        # The same reason with TestAbs
        x[np.abs(x - threshold) < 0.005] = threshold + 0.02
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        x[np.abs(x + threshold) < 0.005] = -threshold - 0.02
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        t = np.copy(x)
        t[t < -threshold] = -threshold
        t[t > threshold] = threshold
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        out = np.log((np.exp(t) + 1))

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.attrs = {'threshold': threshold}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out', max_relative_error=0.02)
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class TestSoftReluOpError(unittest.TestCase):
    def test_errors(self):
        with program_guard(Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, fluid.layers.soft_relu, 1)
            # The input dtype must be float16, float32, float64.
            x_int32 = fluid.data(name='x_int32', shape=[12, 10], dtype='int32')
            self.assertRaises(TypeError, fluid.layers.soft_relu, x_int32)
            # support the input dtype is float16
            x_fp16 = fluid.data(name='x_fp16', shape=[12, 10], dtype='float16')
            fluid.layers.soft_relu(x_fp16)


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def elu(x, alpha):
    out_ref = np.maximum(0, x) + np.minimum(0, alpha * (np.exp(x) - 1))
    return out_ref.astype(x.dtype)


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class TestELU(TestActivation):
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    def setUp(self):
        self.op_type = "elu"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-3, 3, [10, 12]).astype(self.dtype)
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        alpha = 1.
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        out = elu(x, alpha)
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        # Note: unlike other Relu extensions, point 0 on standard ELU function (i.e. alpha = 1)
        # is differentiable, so we can skip modifications like x[np.abs(x) < 0.005] = 0.02 here
        self.inputs = {'X': x}
        self.attrs = {'alpha': alpha}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestELUAPI(unittest.TestCase):
    # test paddle.nn.ELU, paddle.nn.functional.elu
    def setUp(self):
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        np.random.seed(1024)
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        self.x_np = np.random.uniform(-3, 3, [10, 12]).astype('float32')
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()
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        self.executed_api()

    def executed_api(self):
        self.elu = F.elu
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    def test_static_api(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.fluid.data('X', [10, 12])
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            out1 = self.elu(x)
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            m = paddle.nn.ELU()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = elu(self.x_np, 1.0)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
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        out1 = self.elu(x)
        x = paddle.to_tensor(self.x_np)
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        m = paddle.nn.ELU()
        out2 = m(x)
        out_ref = elu(self.x_np, 1.0)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)

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        out1 = self.elu(x, 0.2)
        x = paddle.to_tensor(self.x_np)
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        m = paddle.nn.ELU(0.2)
        out2 = m(x)
        out_ref = elu(self.x_np, 0.2)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

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    def test_errors(self):
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        paddle.enable_static()
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        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
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            self.assertRaises(TypeError, self.elu, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[10, 12], dtype='int32')
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            self.assertRaises(TypeError, self.elu, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[10, 12], dtype='float16')
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            self.elu(x_fp16)


class TestELUInplaceAPI(TestELUAPI):
    # test paddle.nn.functional.elu_
    def executed_api(self):
        self.elu = F.elu_
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class TestReciprocal(TestActivation):
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    def setUp(self):
        self.op_type = "reciprocal"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(1, 2, [11, 17]).astype(self.dtype)
        out = np.reciprocal(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out', max_relative_error=0.01)
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class TestLog(TestActivation):
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    def setUp(self):
        self.op_type = "log"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.log(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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    def test_error(self):
        in1 = fluid.layers.data(
            name="in1", shape=[11, 17], append_batch_size=False, dtype="int32")
        in2 = fluid.layers.data(
            name="in2", shape=[11, 17], append_batch_size=False, dtype="int64")

        self.assertRaises(TypeError, fluid.layers.log, in1)
        self.assertRaises(TypeError, fluid.layers.log, in2)

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class TestLog2(TestActivation):
    def setUp(self):
        self.op_type = "log2"
        self.init_dtype()

        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.log2(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')

    def test_error(self):
        in1 = paddle.static.data(name="in1", shape=[11, 17], dtype="int32")
        in2 = paddle.static.data(name="in2", shape=[11, 17], dtype="int64")

        self.assertRaises(TypeError, paddle.log2, in1)
        self.assertRaises(TypeError, paddle.log2, in2)

    def test_api(self):
        with paddle.static.program_guard(paddle.static.Program(),
                                         paddle.static.Program()):
            input_x = np.random.uniform(0.1, 1, [11, 17]).astype("float64")
            data_x = paddle.static.data(
                name="data_x", shape=[11, 17], dtype="float64")

            out1 = paddle.log2(data_x)
            exe = paddle.static.Executor(place=fluid.CPUPlace())
            exe.run(paddle.static.default_startup_program())
            res1 = exe.run(paddle.static.default_main_program(),
                           feed={"data_x": input_x},
                           fetch_list=[out1])
        expected_res = np.log2(input_x)
        self.assertTrue(np.allclose(res1, expected_res))

        # dygraph
        with fluid.dygraph.guard():
            np_x = np.random.uniform(0.1, 1, [11, 17]).astype("float64")
            data_x = paddle.to_tensor(np_x)
            z = paddle.log2(data_x)
            np_z = z.numpy()
            z_expected = np.array(np.log2(np_x))
        self.assertTrue(np.allclose(np_z, z_expected))


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class TestLog10(TestActivation):
    def setUp(self):
        self.op_type = "log10"
        self.init_dtype()

        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.log10(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')

    def test_error(self):
        in1 = paddle.static.data(name="in1", shape=[11, 17], dtype="int32")
        in2 = paddle.static.data(name="in2", shape=[11, 17], dtype="int64")

        self.assertRaises(TypeError, paddle.log10, in1)
        self.assertRaises(TypeError, paddle.log10, in2)

    def test_api(self):
        with paddle.static.program_guard(paddle.static.Program(),
                                         paddle.static.Program()):
            input_x = np.random.uniform(0.1, 1, [11, 17]).astype("float64")
            data_x = paddle.static.data(
                name="data_x", shape=[11, 17], dtype="float64")

            out1 = paddle.log10(data_x)
            exe = paddle.static.Executor(place=paddle.CPUPlace())
            exe.run(paddle.static.default_startup_program())
            res1 = exe.run(paddle.static.default_main_program(),
                           feed={"data_x": input_x},
                           fetch_list=[out1])
        expected_res = np.log10(input_x)
        self.assertTrue(np.allclose(res1, expected_res))

        # dygraph
        with fluid.dygraph.guard():
            np_x = np.random.uniform(0.1, 1, [11, 17]).astype("float64")
            data_x = paddle.to_tensor(np_x)
            z = paddle.log10(data_x)
            np_z = z.numpy()
            z_expected = np.array(np.log10(np_x))
        self.assertTrue(np.allclose(np_z, z_expected))


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class TestLog1p(TestActivation):
    def setUp(self):
        self.op_type = "log1p"
        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.log1p(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
        self.check_grad(['X'], 'Out')

    def test_api(self):
        with fluid.program_guard(fluid.Program(), fluid.Program()):
            input_x = np.random.uniform(0.1, 1, [11, 17]).astype("float64")
            data_x = fluid.layers.data(
                name="data_x",
                shape=[11, 17],
                append_batch_size=False,
                dtype="float64")

            out1 = paddle.log1p(data_x)
            exe = fluid.Executor(place=fluid.CPUPlace())
            exe.run(fluid.default_startup_program())
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            res1 = exe.run(fluid.default_main_program(),
                           feed={"data_x": input_x},
                           fetch_list=[out1])
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        expected_res = np.log1p(input_x)
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        self.assertTrue(np.allclose(res1, expected_res))
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        # dygraph
        with fluid.dygraph.guard():
            np_x = np.random.uniform(0.1, 1, [11, 17]).astype("float64")
            data_x = fluid.dygraph.to_variable(np_x)
            z = paddle.log1p(data_x)
            np_z = z.numpy()
            z_expected = np.array(np.log1p(np_x))
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        self.assertTrue(np.allclose(np_z, z_expected))
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class TestSquare(TestActivation):
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    def setUp(self):
        self.op_type = "square"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
        out = np.square(x)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out', max_relative_error=0.007)
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class TestPow(TestActivation):
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    def setUp(self):
        self.op_type = "pow"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(1, 2, [11, 17]).astype(self.dtype)
        out = np.power(x, 3)

        self.inputs = {'X': OpTest.np_dtype_to_fluid_dtype(x)}
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        self.attrs = {'factor': 3.0}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
2057 2058
        if self.dtype == np.float16:
            return
2059
        self.check_grad(['X'], 'Out')
2060

2061

2062 2063 2064 2065 2066
class TestPow_factor_tensor(TestActivation):
    def setUp(self):
        self.op_type = "pow"
        self.init_dtype()

2067
        np.random.seed(1024)
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        x = np.random.uniform(1, 2, [11, 17]).astype(self.dtype)
        out = np.power(x, 3)

        self.inputs = {
            'X': OpTest.np_dtype_to_fluid_dtype(x),
            'FactorTensor': np.array([3.0]).astype("float32")
        }

        self.attrs = {}
        self.outputs = {'Out': out}

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        if self.dtype == np.float16:
            return
2085
        self.check_grad(['X'], 'Out')
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    def test_api(self):
        input = np.random.uniform(1, 2, [11, 17]).astype("float32")
        x = fluid.layers.data(
            name="x", shape=[11, 17], append_batch_size=False, dtype="float32")
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        res = fluid.layers.data(
            name="res",
            shape=[11, 17],
            append_batch_size=False,
            dtype="float32")
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        factor_1 = 2.0
        factor_2 = fluid.layers.fill_constant([1], "float32", 3.0)
        out_1 = fluid.layers.pow(x, factor=factor_1)
        out_2 = fluid.layers.pow(x, factor=factor_2)
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        out_4 = paddle.pow(x, factor_1, name='pow_res')
        out_6 = paddle.pow(x, factor_2)
        self.assertEqual(('pow_res' in out_4.name), True)
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        exe = fluid.Executor(place=fluid.CPUPlace())
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        res_1, res_2, res, res_6 = exe.run(
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            fluid.default_main_program(),
            feed={"x": input},
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            fetch_list=[out_1, out_2, res, out_6])
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        assert np.allclose(res_1, np.power(input, 2))
        assert np.allclose(res_2, np.power(input, 3))
        assert np.allclose(res_6, np.power(input, 3))
2114

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    def test_error(self):
        in1 = fluid.layers.data(
            name="in1", shape=[11, 17], append_batch_size=False, dtype="int32")
        in2 = fluid.layers.data(
            name="in2", shape=[11, 17], append_batch_size=False, dtype="int64")
        in3 = fluid.layers.data(
            name="in3",
            shape=[11, 17],
            append_batch_size=False,
            dtype="float32")
        in4 = fluid.layers.data(
            name="in4",
            shape=[11, 17],
            append_batch_size=False,
            dtype="float64")

        factor_1 = fluid.layers.fill_constant([1], "float64", 3.0)

        self.assertRaises(TypeError, fluid.layers.pow, x=in1, factor=factor_1)
        self.assertRaises(TypeError, fluid.layers.pow, x=in2, factor=factor_1)
        self.assertRaises(TypeError, fluid.layers.pow, x=in3, factor=factor_1)
        self.assertRaises(TypeError, fluid.layers.pow, x=in4, factor=factor_1)

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def ref_stanh(x, scale_a=0.67, scale_b=1.7159):
    out = scale_b * np.tanh(x * scale_a)
    return out


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class TestSTanh(TestActivation):
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    def get_scale_a(self):
        return 0.67

    def get_scale_b(self):
        return 1.7159

2151 2152
    def setUp(self):
        self.op_type = "stanh"
2153
        self.init_dtype()
2154 2155
        scale_a = self.get_scale_a()
        scale_b = self.get_scale_b()
2156

2157
        np.random.seed(1024)
2158
        x = np.random.uniform(0.1, 1, [11, 17]).astype(self.dtype)
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        # The same reason with TestAbs
        out = ref_stanh(x, scale_a, scale_b)
2161

2162
        self.inputs = {'X': x}
2163
        self.attrs = {'scale_a': scale_a, 'scale_b': scale_b}
2164
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')
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class TestSTanhScaleA(TestSTanh):
    def get_scale_a(self):
        return 2.0


class TestSTanhScaleB(TestSTanh):
    def get_scale_b(self):
        return 0.5


class TestSTanhAPI(unittest.TestCase):
    # test paddle.nn.stanh
    def get_scale_a(self):
        return 0.67

    def get_scale_b(self):
        return 1.7159

    def setUp(self):
        np.random.seed(1024)
        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype('float32')
        self.scale_a = self.get_scale_a()
        self.scale_b = self.get_scale_b()
        self.place=paddle.CUDAPlace(0) if core.is_compiled_with_cuda() \
            else paddle.CPUPlace()

    def test_static_api(self):
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
            x = paddle.fluid.data('X', [10, 12])
            out = paddle.stanh(x, self.scale_a, self.scale_b)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_stanh(self.x_np, self.scale_a, self.scale_b)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out = paddle.stanh(x, self.scale_a, self.scale_b)
        out_ref = ref_stanh(self.x_np, self.scale_a, self.scale_b)
        for r in [out]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
        paddle.enable_static()
        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', [10, 12])
            out = fluid.layers.stanh(x, self.scale_a, self.scale_b)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_stanh(self.x_np, self.scale_a, self.scale_b)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

2228
    def test_errors(self):
2229 2230
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
2231
            # The input type must be Variable.
2232
            self.assertRaises(TypeError, paddle.stanh, 1)
2233
            # The input dtype must be float16, float32, float64.
2234 2235 2236
            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
            self.assertRaises(TypeError, paddle.stanh, x_int32)
2237
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
            paddle.stanh(x_fp16)


class TestSTanhAPIScaleA(TestSTanhAPI):
    def get_scale_a(self):
        return 2.0


class TestSTanhAPIScaleB(TestSTanhAPI):
    def get_scale_b(self):
        return 0.5
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2253 2254 2255 2256 2257 2258 2259
def ref_softplus(x, beta=1, threshold=20):
    x_beta = beta * x
    out = np.select([x_beta <= threshold, x_beta > threshold],
                    [np.log(1 + np.exp(x_beta)) / beta, x])
    return out


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class TestSoftplus(TestActivation):
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    def setUp(self):
        self.op_type = "softplus"
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        self.init_dtype()

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        beta = 2
        threshold = 15
2267

2268
        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
        out = ref_softplus(x, beta, threshold)
        self.inputs = {'X': x}
        self.attrs = {'beta': beta, "threshold": threshold}
2273
        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
2278
        self.check_grad(['X'], 'Out')
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class TestSoftplusAPI(unittest.TestCase):
    # test paddle.nn.Softplus, paddle.nn.functional.softplus
    def setUp(self):
        self.beta = 2
        self.threshold = 15
2286
        np.random.seed(1024)
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        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
2292
        paddle.enable_static()
2293
        with paddle.static.program_guard(paddle.static.Program()):
2294
            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.softplus(x, self.beta, self.threshold)
            softplus = paddle.nn.Softplus(self.beta, self.threshold)
            out2 = softplus(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_softplus(self.x_np, self.beta, self.threshold)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.softplus(x, self.beta, self.threshold)
        softplus = paddle.nn.Softplus(self.beta, self.threshold)
        out2 = softplus(x)
        out_ref = ref_softplus(self.x_np, self.beta, self.threshold)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
2316
        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.softplus(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_softplus(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

    def test_errors(self):
2326
        paddle.enable_static()
2327 2328 2329 2330
        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, F.softplus, 1)
            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.softplus, x_int32)
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.softplus(x_fp16)


def ref_softsign(x):
    out = np.divide(x, 1 + np.abs(x))
    return out


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class TestSoftsign(TestActivation):
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    def setUp(self):
        self.op_type = "softsign"
2348 2349
        self.init_dtype()

2350
        np.random.seed(1024)
2351 2352 2353
        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
        out = ref_softsign(x)
        self.inputs = {'X': x}
2354
        self.outputs = {'Out': out}
2355 2356

    def test_check_grad(self):
2357 2358
        if self.dtype == np.float16:
            return
2359
        self.check_grad(['X'], 'Out')
2360 2361


2362 2363 2364
class TestSoftsignAPI(unittest.TestCase):
    # test paddle.nn.Softsign, paddle.nn.functional.softsign
    def setUp(self):
2365
        np.random.seed(1024)
2366
        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
2368 2369 2370
            else paddle.CPUPlace()

    def test_static_api(self):
2371
        paddle.enable_static()
2372
        with paddle.static.program_guard(paddle.static.Program()):
2373
            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.softsign(x)
            softsign = paddle.nn.Softsign()
            out2 = softsign(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_softsign(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.softsign(x)
        softsign = paddle.nn.Softsign()
        out2 = softsign(x)
        out_ref = ref_softsign(self.x_np)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
2395
        paddle.enable_static()
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        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.softsign(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_softsign(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

    def test_errors(self):
2405
        paddle.enable_static()
2406 2407 2408 2409
        with paddle.static.program_guard(paddle.static.Program()):
            # The input type must be Variable.
            self.assertRaises(TypeError, F.softsign, 1)
            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
2412 2413
            self.assertRaises(TypeError, F.softsign, x_int32)
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
2416 2417 2418
            F.softsign(x_fp16)


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def ref_thresholded_relu(x, threshold=1.0):
    out = (x > threshold) * x
    return out


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class TestThresholdedRelu(TestActivation):
2425 2426
    def setUp(self):
        self.op_type = "thresholded_relu"
2427 2428
        self.init_dtype()

2429
        threshold = 15
2430

2431 2432 2433 2434 2435 2436
        np.random.seed(1024)
        x = np.random.uniform(-20, 20, [10, 12]).astype(self.dtype)
        x[np.abs(x) < 0.005] = 0.02
        out = ref_thresholded_relu(x, threshold)
        self.inputs = {'X': x}
        self.attrs = {"threshold": threshold}
2437
        self.outputs = {'Out': out}
2438 2439

    def test_check_grad(self):
2440 2441
        if self.dtype == np.float16:
            return
2442
        self.check_grad(['X'], 'Out')
2443 2444


2445 2446 2447 2448 2449 2450 2451
class TestThresholdedReluAPI(unittest.TestCase):
    # test paddle.nn.ThresholdedReLU, paddle.nn.functional.thresholded_relu
    def setUp(self):
        self.threshold = 15
        np.random.seed(1024)
        self.x_np = np.random.uniform(-20, 20, [10, 12]).astype(np.float64)
        self.x_np[np.abs(self.x_np) < 0.005] = 0.02
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
2453 2454 2455 2456 2457
            else paddle.CPUPlace()

    def test_static_api(self):
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
2458
            x = paddle.fluid.data('X', self.x_np.shape, self.x_np.dtype)
2459 2460 2461 2462 2463 2464 2465 2466 2467 2468 2469 2470 2471 2472 2473 2474 2475 2476 2477 2478 2479 2480 2481 2482 2483 2484 2485 2486 2487 2488
            out1 = F.thresholded_relu(x, self.threshold)
            thresholded_relu = paddle.nn.ThresholdedReLU(self.threshold)
            out2 = thresholded_relu(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_thresholded_relu(self.x_np, self.threshold)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.thresholded_relu(x, self.threshold)
        thresholded_relu = paddle.nn.ThresholdedReLU(self.threshold)
        out2 = thresholded_relu(x)
        out_ref = ref_thresholded_relu(self.x_np, self.threshold)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
        paddle.enable_static()
        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.thresholded_relu(x, self.threshold)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_thresholded_relu(self.x_np, self.threshold)
        self.assertEqual(np.allclose(out_ref, res[0]), True)

2489
    def test_errors(self):
2490 2491
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
2492
            # The input type must be Variable.
2493
            self.assertRaises(TypeError, F.thresholded_relu, 1)
2494
            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
2497
            self.assertRaises(TypeError, F.thresholded_relu, x_int32)
2498
            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
2501
            F.thresholded_relu(x_fp16)
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2504 2505 2506 2507
def ref_hardsigmoid(x, slope=0.166666666666667, offset=0.5):
    return np.maximum(np.minimum(x * slope + offset, 1.), 0.).astype(x.dtype)


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class TestHardSigmoid(TestActivation):
2509 2510
    def setUp(self):
        self.op_type = "hard_sigmoid"
2511 2512 2513 2514
        self.dtype = 'float64'
        self.slope = 0.166666666666667
        self.offset = 0.5
        self.set_attrs()
2515

2516 2517 2518
        x = np.random.uniform(-5, 5, [10, 12]).astype(self.dtype)
        lower_threshold = -self.offset / self.slope
        upper_threshold = (1. - self.offset) / self.slope
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2520
        # Same reason as TestAbs
2521 2522 2523
        delta = 0.005
        x[np.abs(x - lower_threshold) < delta] = lower_threshold - 0.02
        x[np.abs(x - upper_threshold) < delta] = upper_threshold - 0.02
2524

2525
        out = ref_hardsigmoid(x, self.slope, self.offset)
2526

2527 2528
        self.attrs = {'slope': self.slope, 'offset': self.offset}
        self.inputs = {'X': x}
2529
        self.outputs = {'Out': out}
2530

2531 2532
    def set_attrs(self):
        pass
2533

2534

2535 2536 2537 2538 2539 2540 2541 2542 2543 2544 2545 2546 2547 2548 2549
class TestHardSigmoidFP32(TestHardSigmoid):
    def set_attrs(self):
        self.dtype = 'float32'


class TestHardSigmoidSlopeOffset(TestHardSigmoid):
    def set_attrs(self):
        self.slope = 0.2
        self.offset = 0.4


class TestHardsigmoidAPI(unittest.TestCase):
    # test paddle.nn.Hardsigmoid, paddle.nn.functional.hardsigmoid
    def setUp(self):
        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
2551 2552 2553 2554
            else paddle.CPUPlace()

    def test_static_api(self):
        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.static.data('X', self.x_np.shape, self.x_np.dtype)
2556 2557 2558 2559 2560 2561 2562 2563 2564 2565 2566 2567 2568 2569 2570 2571 2572 2573
            out1 = F.hardsigmoid(x)
            m = paddle.nn.Hardsigmoid()
            out2 = m(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_hardsigmoid(self.x_np)
        for r in res:
            self.assertTrue(np.allclose(out_ref, r))

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.hardsigmoid(x)
        m = paddle.nn.Hardsigmoid()
        out2 = m(x)
        out_ref = ref_hardsigmoid(self.x_np)
        for r in [out1, out2]:
            self.assertTrue(np.allclose(out_ref, r.numpy()))
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        paddle.enable_static()
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    def test_fluid_api(self):
        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.hard_sigmoid(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_hardsigmoid(self.x_np, 0.2, 0.5)
        self.assertTrue(np.allclose(out_ref, res[0]))

        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out = paddle.fluid.layers.hard_sigmoid(x)
        self.assertTrue(np.allclose(out_ref, out.numpy()))
        paddle.enable_static()

    def test_errors(self):
        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.hardsigmoid, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.hardsigmoid, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.hardsigmoid(x_fp16)
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def ref_swish(x):
    out = x * expit(x)
    return out


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class TestSwish(TestActivation):
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    def setUp(self):
        self.op_type = "swish"
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        self.init_dtype()

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        np.random.seed(1024)
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        x = np.random.uniform(-1, 1, [10, 12]).astype(self.dtype)
        out = ref_swish(x)
        self.inputs = {'X': x}
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        self.attrs = {'beta': 1.0}
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        self.outputs = {'Out': out}
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    def test_check_grad(self):
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        if self.dtype == np.float16:
            return
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        self.check_grad(['X'], 'Out')

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class TestSwishAPI(unittest.TestCase):
    # test paddle.nn.Swish, paddle.nn.functional.swish
    def setUp(self):
        np.random.seed(1024)
        self.x_np = np.random.uniform(-1, 1, [10, 12]).astype(np.float64)
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        self.place=paddle.CUDAPlace(0) if paddle.is_compiled_with_cuda() \
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            else paddle.CPUPlace()

    def test_static_api(self):
        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
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            x = paddle.static.data('X', self.x_np.shape, self.x_np.dtype)
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            out1 = F.swish(x)
            swish = paddle.nn.Swish()
            out2 = swish(x)
            exe = paddle.static.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out1, out2])
        out_ref = ref_swish(self.x_np)
        for r in res:
            self.assertEqual(np.allclose(out_ref, r), True)

    def test_dygraph_api(self):
        paddle.disable_static(self.place)
        x = paddle.to_tensor(self.x_np)
        out1 = F.swish(x)
        swish = paddle.nn.Swish()
        out2 = swish(x)
        out_ref = ref_swish(self.x_np)
        for r in [out1, out2]:
            self.assertEqual(np.allclose(out_ref, r.numpy()), True)
        paddle.enable_static()

    def test_fluid_api(self):
        paddle.enable_static()
        with fluid.program_guard(fluid.Program()):
            x = fluid.data('X', self.x_np.shape, self.x_np.dtype)
            out = fluid.layers.swish(x)
            exe = fluid.Executor(self.place)
            res = exe.run(feed={'X': self.x_np}, fetch_list=[out])
        out_ref = ref_swish(self.x_np)
        self.assertEqual(np.allclose(out_ref, res[0]), True)
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    def test_errors(self):
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        paddle.enable_static()
        with paddle.static.program_guard(paddle.static.Program()):
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            # The input type must be Variable.
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            self.assertRaises(TypeError, F.swish, 1)
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            # The input dtype must be float16, float32, float64.
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            x_int32 = paddle.fluid.data(
                name='x_int32', shape=[12, 10], dtype='int32')
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            self.assertRaises(TypeError, F.swish, x_int32)
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            # support the input dtype is float16
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            x_fp16 = paddle.fluid.data(
                name='x_fp16', shape=[12, 10], dtype='float16')
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            F.swish(x_fp16)
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#------------------ Test Error Activation----------------------
def create_test_error_class(op_type):
    class TestOpErrors(unittest.TestCase):
        def test_errors(self):
            with program_guard(Program(), Program()):
                op = getattr(fluid.layers, op_type)
                # The input dtype of op_type must be float32, float64.
                in1 = fluid.layers.data(
                    name='input2', shape=[12, 10], dtype="int32")
                in2 = fluid.layers.data(
                    name='input3', shape=[12, 10], dtype="int64")
                self.assertRaises(TypeError, op, in1)
                self.assertRaises(TypeError, op, in2)

    cls_name = "{0}_{1}".format(op_type, "test_errors")
    TestOpErrors.__name__ = cls_name
    globals()[cls_name] = TestOpErrors


create_test_error_class('acos')
create_test_error_class('asin')
create_test_error_class('atan')
create_test_error_class('ceil')
create_test_error_class('cos')
create_test_error_class('floor')
create_test_error_class('reciprocal')
create_test_error_class('round')
create_test_error_class('rsqrt')
create_test_error_class('sin')
create_test_error_class('sqrt')
create_test_error_class('tanh')
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create_test_error_class('tan')
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#------------------ Test Cudnn Activation----------------------
def create_test_act_cudnn_class(parent, atol=1e-3, grad_atol=1e-3):
    @unittest.skipIf(not core.is_compiled_with_cuda(),
                     "core is not compiled with CUDA")
    class TestActCudnn(parent):
        def init_kernel_type(self):
            self.attrs = {"use_cudnn": True}

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


create_test_act_cudnn_class(TestRelu)
create_test_act_cudnn_class(TestRelu6)
create_test_act_cudnn_class(TestSigmoid)
create_test_act_cudnn_class(TestTanh)


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#------------------ Test Fp16 ----------------------
def create_test_act_fp16_class(parent,
                               atol=1e-3,
                               grad_check=True,
                               grad_atol=0.80):
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    @unittest.skipIf(not paddle.is_compiled_with_cuda(),
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                     "core is not compiled with CUDA")
    class TestActFp16(parent):
        def init_dtype(self):
            self.dtype = np.float16
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        def test_check_output(self):
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            place = core.CUDAPlace(0)
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            support_fp16 = core.is_float16_supported(place)
            if support_fp16:
                self.check_output_with_place(place, atol=atol)
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        def test_check_grad(self):
            place = core.CUDAPlace(0)
            support_fp16 = core.is_float16_supported(place)
            if support_fp16 and grad_check:
                self.check_grad_with_place(
                    place, ['X'], 'Out', max_relative_error=grad_atol)

    cls_name = "{0}_{1}".format(parent.__name__, "fp16")
    TestActFp16.__name__ = cls_name
    globals()[cls_name] = TestActFp16


create_test_act_fp16_class(TestActivation)
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create_test_act_fp16_class(TestExpm1)
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create_test_act_fp16_class(TestSigmoid)
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create_test_act_fp16_class(TestSilu)
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create_test_act_fp16_class(TestLogSigmoid)
create_test_act_fp16_class(TestTanh)
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create_test_act_fp16_class(TestTanhshrink)
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create_test_act_fp16_class(TestHardShrink)
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create_test_act_fp16_class(TestSoftshrink)
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create_test_act_fp16_class(TestSqrt)
create_test_act_fp16_class(TestAbs)
create_test_act_fp16_class(TestCeil, grad_check=False)
create_test_act_fp16_class(TestFloor, grad_check=False)
create_test_act_fp16_class(TestCos, grad_atol=0.85)
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create_test_act_fp16_class(TestTan, grad_atol=0.85)
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create_test_act_fp16_class(TestCosh, grad_atol=0.85)
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create_test_act_fp16_class(TestAcos, grad_atol=0.85)
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create_test_act_fp16_class(TestSin)
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create_test_act_fp16_class(TestSinh)
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create_test_act_fp16_class(TestAsin)
create_test_act_fp16_class(TestAtan)
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create_test_act_fp16_class(TestRound, grad_check=False)
create_test_act_fp16_class(TestRelu)
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create_test_act_fp16_class(TestGelu)
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create_test_act_fp16_class(TestBRelu)
create_test_act_fp16_class(TestRelu6)
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create_test_act_fp16_class(TestSoftRelu, grad_atol=0.85)
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create_test_act_fp16_class(TestELU)
create_test_act_fp16_class(TestReciprocal)
create_test_act_fp16_class(TestLog)
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if core.is_compiled_with_rocm():
    create_test_act_fp16_class(TestLog2, atol=5e-2, grad_atol=0.85)
else:
    create_test_act_fp16_class(TestLog2, atol=5e-2)
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create_test_act_fp16_class(TestLog10, atol=5e-2)
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create_test_act_fp16_class(TestLog1p, grad_atol=0.9)
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create_test_act_fp16_class(TestSquare)
create_test_act_fp16_class(TestPow, atol=5e-2)
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create_test_act_fp16_class(TestPow_factor_tensor, atol=5e-2)
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create_test_act_fp16_class(TestSTanh, grad_atol=0.9)
create_test_act_fp16_class(TestSoftplus)
create_test_act_fp16_class(TestSoftsign)
create_test_act_fp16_class(TestThresholdedRelu)
create_test_act_fp16_class(TestHardSigmoid)
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create_test_act_fp16_class(TestSwish, grad_atol=0.85)
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create_test_act_fp16_class(TestHardSwish)
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def create_test_act_bf16_class(parent,
                               atol=1e-2,
                               grad_check=True,
                               grad_atol=0.80):
    @unittest.skipIf(not paddle.is_compiled_with_cuda(),
                     "core is not compiled with CUDA")
    class TestActBF16(parent):
        def init_dtype(self):
            self.dtype = np.uint16

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

        def test_check_grad(self):
            place = core.CUDAPlace(0)
            self.check_grad_with_place(
                place, ['X'], 'Out', max_relative_error=grad_atol)

    cls_name = "{0}_{1}".format(parent.__name__, "bf16")
    TestActBF16.__name__ = cls_name
    globals()[cls_name] = TestActBF16


create_test_act_bf16_class(TestRelu)

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