Paddle/python/paddle/v2/fluid/tests/test_conv2d_op.py

import unittest
import numpy as np
from op_test import OpTest


def conv2d_forward_naive(input, filter, group, conv_param):
    in_n, in_c, in_h, in_w = input.shape
    out_c, f_c, f_h, f_w = filter.shape
    assert f_c * group == in_c
    assert np.mod(out_c, group) == 0
    sub_out_c = out_c / group

    stride, pad, dilation = conv_param['stride'], conv_param['pad'], conv_param[
        'dilation']
    out_h = 1 + (in_h + 2 * pad[0] - (dilation[0] * (f_h - 1) + 1)) / stride[0]
    out_w = 1 + (in_w + 2 * pad[1] - (dilation[1] * (f_w - 1) + 1)) / stride[1]
    out = np.zeros((in_n, out_c, out_h, out_w))

    d_bolck_h = (dilation[0] * (f_h - 1) + 1)
    d_bolck_w = (dilation[1] * (f_w - 1) + 1)

    input_pad = np.pad(input, ((0, ), (0, ), (pad[0], ), (pad[1], )),
                       mode='constant',
                       constant_values=0)

    filter_dilation = np.zeros((out_c, f_c, d_bolck_h, d_bolck_w))
    filter_dilation[:, :, 0:d_bolck_h:dilation[0], 0:d_bolck_w:dilation[
        1]] = filter

    for i in range(out_h):
        for j in range(out_w):
            for g in range(group):
                input_pad_masked = \
                    input_pad[:, g * f_c:(g + 1) * f_c,
                    i * stride[0]:i * stride[0] + d_bolck_h,
                    j * stride[1]:j * stride[1] + d_bolck_w]

                f_sub = filter_dilation[g * sub_out_c:(g + 1) *
                                        sub_out_c, :, :, :]
                for k in range(sub_out_c):
                    out[:, g * sub_out_c + k, i, j] = \
                        np.sum(input_pad_masked * f_sub[k, :, :, :],
                               axis=(1, 2, 3))

    return out


class TestConv2dOp(OpTest):
    def setUp(self):
        self.init_op_type()
        self.init_group()
        self.init_dilation()
        self.init_test_case()

        conv2d_param = {
            'stride': self.stride,
            'pad': self.pad,
            'dilation': self.dilations
        }
        input = np.random.random(self.input_size).astype("float32")
        filter = np.random.random(self.filter_size).astype("float32")
        output = conv2d_forward_naive(input, filter, self.groups,
                                      conv2d_param).astype('float32')

        self.inputs = {'Input': input, 'Filter': filter}
        self.attrs = {
            'strides': self.stride,
            'paddings': self.pad,
            'groups': self.groups,
            'dilations': self.dilations
        }
        self.outputs = {'Output': output}

    def test_check_output(self):
        self.check_output()

    def test_check_grad(self):
        self.check_grad(
            set(['Input', 'Filter']), 'Output', max_relative_error=0.02)

    def test_check_grad_no_filter(self):
        self.check_grad(
            ['Input'],
            'Output',
            max_relative_error=0.02,
            no_grad_set=set(['Filter']))

    def test_check_grad_no_input(self):
        self.check_grad(
            ['Filter'],
            'Output',
            max_relative_error=0.02,
            no_grad_set=set(['Input']))

    def init_test_case(self):
        self.pad = [0, 0]
        self.stride = [1, 1]
        self.input_size = [2, 3, 5, 5]  # NCHW
        assert np.mod(self.input_size[1], self.groups) == 0
        f_c = self.input_size[1] / self.groups
        self.filter_size = [6, f_c, 3, 3]

    def init_dilation(self):
        self.dilations = [1, 1]

    def init_group(self):
        self.groups = 1

    def init_op_type(self):
        self.op_type = "conv2d"


class TestWithPad(TestConv2dOp):
    def init_test_case(self):
        self.pad = [1, 1]
        self.stride = [1, 1]
        self.input_size = [2, 3, 5, 5]  # NCHW
        assert np.mod(self.input_size[1], self.groups) == 0
        f_c = self.input_size[1] / self.groups
        self.filter_size = [6, f_c, 3, 3]


class TestWithStride(TestConv2dOp):
    def init_test_case(self):
        self.pad = [1, 1]
        self.stride = [2, 2]
        self.input_size = [2, 3, 6, 6]  # NCHW
        assert np.mod(self.input_size[1], self.groups) == 0
        f_c = self.input_size[1] / self.groups
        self.filter_size = [6, f_c, 3, 3]


class TestWithGroup(TestConv2dOp):
    def init_group(self):
        self.groups = 3


class TestWith1x1(TestConv2dOp):
    def init_test_case(self):
        self.pad = [0, 0]
        self.stride = [1, 1]
        self.input_size = [2, 3, 5, 5]  # NCHW
        assert np.mod(self.input_size[1], self.groups) == 0
        f_c = self.input_size[1] / self.groups
        self.filter_size = [6, f_c, 1, 1]

    def init_group(self):
        self.groups = 3


class TestWithDilation(TestConv2dOp):
    def init_test_case(self):
        self.pad = [0, 0]
        self.stride = [1, 1]
        self.input_size = [2, 3, 10, 10]  # NCHW
        assert np.mod(self.input_size[1], self.groups) == 0
        f_c = self.input_size[1] / self.groups
        self.filter_size = [6, f_c, 3, 3]

    def init_dilation(self):
        self.dilations = [2, 2]

    def init_group(self):
        self.groups = 3


#----------------Conv2dCudnn----------------
class TestCudnn(TestConv2dOp):
    def init_op_type(self):
        self.op_type = "conv2d_cudnn"


class TestCudnnWithPad(TestWithPad):
    def init_op_type(self):
        self.op_type = "conv2d_cudnn"


class TestCudnnWithStride(TestWithStride):
    def init_op_type(self):
        self.op_type = "conv2d_cudnn"


class TestCudnnWithGroup(TestWithGroup):
    def init_op_type(self):
        self.op_type = "conv2d_cudnn"


class TestCudnnWith1x1(TestWith1x1):
    def init_op_type(self):
        self.op_type = "conv2d_cudnn"


#  cudnn v5 does not support dilation conv.
# class TestCudnnWithDilation(TestWithDilation):
#     def init_op_type(self):
#         self.op_type = "conv_cudnn"

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