test_nearest_interp_op.py 15.9 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

from __future__ import print_function

import unittest
import numpy as np
from op_test import OpTest
import paddle.fluid.core as core
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import paddle.fluid as fluid
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def nearest_neighbor_interp_np(X,
                               out_h,
                               out_w,
                               out_size=None,
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                               actual_shape=None,
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                               align_corners=True,
                               data_layout='NCHW'):
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    """nearest neighbor interpolation implement in shape [N, C, H, W]"""
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    if data_layout == "NHWC":
        X = np.transpose(X, (0, 3, 1, 2))  # NHWC => NCHW
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    if out_size is not None:
        out_h = out_size[0]
        out_w = out_size[1]
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    if actual_shape is not None:
        out_h = actual_shape[0]
        out_w = actual_shape[1]
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    n, c, in_h, in_w = X.shape

    ratio_h = ratio_w = 0.0
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    if (out_h > 1):
        if (align_corners):
            ratio_h = (in_h - 1.0) / (out_h - 1.0)
        else:
            ratio_h = 1.0 * in_h / out_h
    if (out_w > 1):
        if (align_corners):
            ratio_w = (in_w - 1.0) / (out_w - 1.0)
        else:
            ratio_w = 1.0 * in_w / out_w
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    out = np.zeros((n, c, out_h, out_w))
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    if align_corners:
        for i in range(out_h):
            in_i = int(ratio_h * i + 0.5)
            for j in range(out_w):
                in_j = int(ratio_w * j + 0.5)
                out[:, :, i, j] = X[:, :, in_i, in_j]
    else:
        for i in range(out_h):
            in_i = int(ratio_h * i)
            for j in range(out_w):
                in_j = int(ratio_w * j)
                out[:, :, i, j] = X[:, :, in_i, in_j]
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    if data_layout == "NHWC":
        out = np.transpose(out, (0, 2, 3, 1))  # NCHW => NHWC

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    return out.astype(X.dtype)


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class TestNearestInterpOp(OpTest):
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    def setUp(self):
        self.out_size = None
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        self.actual_shape = None
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        self.data_layout = 'NCHW'
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        self.init_test_case()
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        self.op_type = "nearest_interp"
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        input_np = np.random.random(self.input_shape).astype("float32")

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        if self.data_layout == "NCHW":
            in_h = self.input_shape[2]
            in_w = self.input_shape[3]
        else:
            in_h = self.input_shape[1]
            in_w = self.input_shape[2]

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        if self.scale > 0:
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            out_h = int(in_h * self.scale)
            out_w = int(in_w * self.scale)
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        else:
            out_h = self.out_h
            out_w = self.out_w

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        output_np = nearest_neighbor_interp_np(
            input_np, out_h, out_w, self.out_size, self.actual_shape,
            self.align_corners, self.data_layout)
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        self.inputs = {'X': input_np}
        if self.out_size is not None:
            self.inputs['OutSize'] = self.out_size
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        if self.actual_shape is not None:
            self.inputs['OutSize'] = self.actual_shape
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        self.attrs = {
            'out_h': self.out_h,
            'out_w': self.out_w,
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            'scale': self.scale,
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            'interp_method': self.interp_method,
            'align_corners': self.align_corners,
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            'data_layout': self.data_layout
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        }
        self.outputs = {'Out': output_np}

    def test_check_output(self):
        self.check_output()

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

    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [2, 3, 4, 4]
        self.out_h = 2
        self.out_w = 2
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        self.scale = 0.
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        self.out_size = np.array([3, 3]).astype("int32")
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        self.align_corners = True
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class TestNearestNeighborInterpCase1(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [4, 1, 7, 8]
        self.out_h = 1
        self.out_w = 1
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        self.scale = 0.
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        self.align_corners = True
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class TestNearestNeighborInterpCase2(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [3, 3, 9, 6]
        self.out_h = 12
        self.out_w = 12
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        self.scale = 0.
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        self.align_corners = True
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class TestNearestNeighborInterpCase3(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [1, 1, 128, 64]
        self.out_h = 64
        self.out_w = 128
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        self.scale = 0.
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        self.align_corners = True
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class TestNearestNeighborInterpCase4(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [4, 1, 7, 8]
        self.out_h = 1
        self.out_w = 1
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        self.scale = 0.
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        self.out_size = np.array([2, 2]).astype("int32")
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        self.align_corners = True
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class TestNearestNeighborInterpCase5(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [3, 3, 9, 6]
        self.out_h = 12
        self.out_w = 12
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        self.scale = 0.
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        self.out_size = np.array([11, 11]).astype("int32")
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        self.align_corners = True
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class TestNearestNeighborInterpCase6(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [1, 1, 128, 64]
        self.out_h = 64
        self.out_w = 128
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        self.scale = 0.
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        self.out_size = np.array([65, 129]).astype("int32")
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        self.align_corners = True
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class TestNearestNeighborInterpSame(TestNearestInterpOp):
    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [2, 3, 128, 64]
        self.out_h = 128
        self.out_w = 64
        self.scale = 0.
        self.align_corners = True


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class TestNearestNeighborInterpActualShape(TestNearestInterpOp):
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    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [3, 2, 32, 16]
        self.out_h = 64
        self.out_w = 32
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        self.scale = 0.
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        self.out_size = np.array([66, 40]).astype("int32")
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        self.align_corners = True
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class TestNearestNeighborInterpDataLayout(TestNearestInterpOp):
    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [2, 4, 4, 5]
        self.out_h = 2
        self.out_w = 2
        self.scale = 0.
        self.out_size = np.array([3, 8]).astype("int32")
        self.align_corners = True
        self.data_layout = "NHWC"


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class TestNearestInterpOpUint8(OpTest):
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    def setUp(self):
        self.out_size = None
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        self.actual_shape = None
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        self.init_test_case()
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        self.op_type = "nearest_interp"
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        input_np = np.random.randint(
            low=0, high=256, size=self.input_shape).astype("uint8")
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        if self.scale > 0:
            out_h = int(self.input_shape[2] * self.scale)
            out_w = int(self.input_shape[3] * self.scale)
        else:
            out_h = self.out_h
            out_w = self.out_w

        output_np = nearest_neighbor_interp_np(input_np, out_h, out_w,
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                                               self.out_size, self.actual_shape,
                                               self.align_corners)
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        self.inputs = {'X': input_np}
        if self.out_size is not None:
            self.inputs['OutSize'] = self.out_size
        self.attrs = {
            'out_h': self.out_h,
            'out_w': self.out_w,
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            'scale': self.scale,
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            'interp_method': self.interp_method,
            'align_corners': self.align_corners
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        }
        self.outputs = {'Out': output_np}

    def test_check_output(self):
        self.check_output_with_place(place=core.CPUPlace(), atol=1)

    def init_test_case(self):
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        self.interp_method = 'nearest'
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        self.input_shape = [1, 3, 9, 6]
        self.out_h = 10
        self.out_w = 9
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        self.scale = 0.
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        self.align_corners = True
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class TestNearestNeighborInterpCase1Uint8(TestNearestInterpOpUint8):
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    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [2, 3, 128, 64]
        self.out_h = 120
        self.out_w = 50
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        self.scale = 0.
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        self.align_corners = True
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class TestNearestNeighborInterpCase2Uint8(TestNearestInterpOpUint8):
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    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [4, 1, 7, 8]
        self.out_h = 5
        self.out_w = 13
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        self.scale = 0.
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        self.out_size = np.array([6, 15]).astype("int32")
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        self.align_corners = True


class TestNearestInterpWithoutCorners(TestNearestInterpOp):
    def set_align_corners(self):
        self.align_corners = False
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class TestNearestNeighborInterpScale1(TestNearestInterpOp):
    def init_test_case(self):
        self.interp_method = 'nearest'
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        self.input_shape = [3, 2, 7, 5]
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        self.out_h = 64
        self.out_w = 32
        self.scale = 2.
        self.out_size = np.array([66, 40]).astype("int32")
        self.align_corners = True


class TestNearestNeighborInterpScale2(TestNearestInterpOp):
    def init_test_case(self):
        self.interp_method = 'nearest'
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        self.input_shape = [3, 2, 5, 7]
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        self.out_h = 64
        self.out_w = 32
        self.scale = 1.5
        self.out_size = np.array([66, 40]).astype("int32")
        self.align_corners = True


class TestNearestNeighborInterpScale3(TestNearestInterpOp):
    def init_test_case(self):
        self.interp_method = 'nearest'
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        self.input_shape = [3, 2, 7, 5]
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        self.out_h = 64
        self.out_w = 32
        self.scale = 1.
        self.out_size = np.array([66, 40]).astype("int32")
        self.align_corners = True


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class TestNearestInterpOp_attr_tensor(OpTest):
    def setUp(self):
        self.out_size = None
        self.actual_shape = None
        self.init_test_case()
        self.op_type = "nearest_interp"
        self.shape_by_1Dtensor = False
        self.scale_by_1Dtensor = False
        self.attrs = {
            'interp_method': self.interp_method,
            'align_corners': self.align_corners,
        }

        input_np = np.random.random(self.input_shape).astype("float32")
        self.inputs = {'X': input_np}

        if self.scale_by_1Dtensor:
            self.inputs['Scale'] = np.array([self.scale]).astype("float32")
        elif self.scale > 0:
            out_h = int(self.input_shape[2] * self.scale)
            out_w = int(self.input_shape[3] * self.scale)
            self.attrs['scale'] = self.scale
        else:
            out_h = self.out_h
            out_w = self.out_w

        if self.shape_by_1Dtensor:
            self.inputs['OutSize'] = self.out_size
        elif self.out_size is not None:
            size_tensor = []
            for index, ele in enumerate(self.out_size):
                size_tensor.append(("x" + str(index), np.ones(
                    (1)).astype('int32') * ele))
            self.inputs['SizeTensor'] = size_tensor

        self.attrs['out_h'] = self.out_h
        self.attrs['out_w'] = self.out_w
        output_np = nearest_neighbor_interp_np(input_np, out_h, out_w,
                                               self.out_size, self.actual_shape,
                                               self.align_corners)
        self.outputs = {'Out': output_np}

    def test_check_output(self):
        self.check_output()

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

    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [2, 3, 4, 4]
        self.out_h = 3
        self.out_w = 3
        self.scale = 0.
        self.out_size = [3, 3]
        self.align_corners = True


# out_size is a tensor list
class TestNearestInterp_attr_tensor_Case1(TestNearestInterpOp_attr_tensor):
    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [3, 3, 9, 6]
        self.out_h = 12
        self.out_w = 12
        self.scale = 0.
        self.out_size = [8, 12]
        self.align_corners = True


# out_size is a 1-D tensor
class TestNearestInterp_attr_tensor_Case2(TestNearestInterpOp_attr_tensor):
    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [3, 2, 32, 16]
        self.out_h = 64
        self.out_w = 32
        self.scale = 0.
        self.out_size = np.array([66, 40]).astype("int32")
        self.align_corners = True
        self.shape_by_1Dtensor = True


# scale is a 1-D tensor
class TestNearestInterp_attr_tensor_Case3(TestNearestInterpOp_attr_tensor):
    def init_test_case(self):
        self.interp_method = 'nearest'
        self.input_shape = [3, 2, 32, 16]
        self.out_h = 64
        self.out_w = 32
        self.scale = 2.0
        self.out_size = None
        self.align_corners = True
        self.scale_by_1Dtensor = True


class TestNearestAPI(OpTest):
    def test_case(self):
        x = fluid.layers.data(name="x", shape=[3, 6, 6], dtype="float32")
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        y = fluid.layers.data(name="y", shape=[6, 6, 3], dtype="float32")
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        dim = fluid.layers.data(
            name="dim", shape=[1], dtype="int32", append_batch_size=False)
        shape_tensor = fluid.layers.data(
            name="shape_tensor",
            shape=[2],
            dtype="int32",
            append_batch_size=False)
        actual_size = fluid.layers.data(
            name="actual_size",
            shape=[2],
            dtype="int32",
            append_batch_size=False)
        scale_tensor = fluid.layers.data(
            name="scale_tensor",
            shape=[1],
            dtype="float32",
            append_batch_size=False)

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        out1 = fluid.layers.resize_nearest(
            y, out_shape=[12, 12], data_format='NHWC')
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        out2 = fluid.layers.resize_nearest(x, out_shape=[12, dim])
        out3 = fluid.layers.resize_nearest(x, out_shape=shape_tensor)
        out4 = fluid.layers.resize_nearest(
            x, out_shape=[4, 4], actual_shape=actual_size)
        out5 = fluid.layers.resize_nearest(x, scale=scale_tensor)

        x_data = np.random.random((1, 3, 6, 6)).astype("float32")
        dim_data = np.array([12]).astype("int32")
        shape_data = np.array([12, 12]).astype("int32")
        actual_size_data = np.array([12, 12]).astype("int32")
        scale_data = np.array([2.0]).astype("float32")

        place = core.CPUPlace()
        exe = fluid.Executor(place)
        results = exe.run(fluid.default_main_program(),
                          feed={
                              "x": x_data,
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                              "y": np.transpose(x_data, (0, 2, 3, 1)),
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                              "dim": dim_data,
                              "shape_tensor": shape_data,
                              "actual_size": actual_size_data,
                              "scale_tensor": scale_data
                          },
                          fetch_list=[out1, out2, out3, out4, out5],
                          return_numpy=True)

        expect_res = nearest_neighbor_interp_np(
            x_data, out_h=12, out_w=12, align_corners=True)
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        self.assertTrue(
            np.allclose(results[0], np.transpose(expect_res, (0, 2, 3, 1))))
        for i in range(len(results) - 1):
            self.assertTrue(np.allclose(results[i + 1], expect_res))

    def test_exception(self):
        # for 4-D input, data_format can only be NCHW or NHWC
        input = fluid.layers.data(
            name="input", shape=[3, 6, 6], dtype="float32")
        try:
            out = fluid.layers.resize_nearest(
                input, out_shape=[4, 8], data_format='NDHWC')
        except:
            pass
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if __name__ == "__main__":
    unittest.main()