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1e74f5850b
* sharp Gaussian kernel causes over flow and ends up in blank image
264 lines
14 KiB
C++
264 lines
14 KiB
C++
// This file is part of OpenCV project.
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// It is subject to the license terms in the LICENSE file found in the top-level directory
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// of this distribution and at http://opencv.org/license.html.
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#include "test_precomp.hpp"
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namespace opencv_test { namespace {
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static const int fixedShiftU8 = 8;
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static const int64_t fixedOneU8 = (1L << fixedShiftU8);
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static const int fixedShiftU16 = 16;
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static const int64_t fixedOneU16 = (1L << fixedShiftU16);
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int64_t vU8[][9] = {
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{ fixedOneU8 }, // size 1, sigma 0
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{ fixedOneU8 >> 2, fixedOneU8 >> 1, fixedOneU8 >> 2 }, // size 3, sigma 0
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{ fixedOneU8 >> 4, fixedOneU8 >> 2, 6 * (fixedOneU8 >> 4), fixedOneU8 >> 2, fixedOneU8 >> 4 }, // size 5, sigma 0
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{ fixedOneU8 >> 5, 7 * (fixedOneU8 >> 6), 7 * (fixedOneU8 >> 5), 9 * (fixedOneU8 >> 5), 7 * (fixedOneU8 >> 5), 7 * (fixedOneU8 >> 6), fixedOneU8 >> 5 }, // size 7, sigma 0
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{ 4, 13, 30, 51, 60, 51, 30, 13, 4 }, // size 9, sigma 0
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#if 1
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#define CV_TEST_INACCURATE_GAUSSIAN_BLUR
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{ 81, 94, 81 }, // size 3, sigma 1.75
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{ 65, 126, 65 }, // size 3, sigma 0.875
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{ 0, 7, 242, 7, 0 }, // size 5, sigma 0.375
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{ 4, 56, 136, 56, 4 } // size 5, sigma 0.75
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#endif
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};
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int64_t vU16[][9] = {
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{ fixedOneU16 }, // size 1, sigma 0
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{ fixedOneU16 >> 2, fixedOneU16 >> 1, fixedOneU16 >> 2 }, // size 3, sigma 0
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{ fixedOneU16 >> 4, fixedOneU16 >> 2, 6 * (fixedOneU16 >> 4), fixedOneU16 >> 2, fixedOneU16 >> 4 }, // size 5, sigma 0
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{ fixedOneU16 >> 5, 7 * (fixedOneU16 >> 6), 7 * (fixedOneU16 >> 5), 9 * (fixedOneU16 >> 5), 7 * (fixedOneU16 >> 5), 7 * (fixedOneU16 >> 6), fixedOneU16 >> 5 }, // size 7, sigma 0
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{ 4<<8, 13<<8, 30<<8, 51<<8, 60<<8, 51<<8, 30<<8, 13<<8, 4<<8 } // size 9, sigma 0
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};
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template <typename T, int fixedShift>
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T eval(Mat src, vector<int64_t> kernelx, vector<int64_t> kernely)
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{
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static const int64_t fixedRound = ((1LL << (fixedShift * 2)) >> 1);
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int64_t val = 0;
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for (size_t j = 0; j < kernely.size(); j++)
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{
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int64_t lineval = 0;
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for (size_t i = 0; i < kernelx.size(); i++)
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lineval += src.at<T>((int)j, (int)i) * kernelx[i];
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val += lineval * kernely[j];
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}
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return saturate_cast<T>((val + fixedRound) >> (fixedShift * 2));
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}
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struct testmode
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{
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int type;
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Size sz;
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Size kernel;
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double sigma_x;
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double sigma_y;
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vector<int64_t> kernel_x;
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vector<int64_t> kernel_y;
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};
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int bordermodes[] = {
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BORDER_CONSTANT | BORDER_ISOLATED,
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BORDER_REPLICATE | BORDER_ISOLATED,
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BORDER_REFLECT | BORDER_ISOLATED,
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BORDER_WRAP | BORDER_ISOLATED,
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BORDER_REFLECT_101 | BORDER_ISOLATED
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// BORDER_CONSTANT,
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// BORDER_REPLICATE,
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// BORDER_REFLECT,
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// BORDER_WRAP,
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// BORDER_REFLECT_101
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};
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template <int fixedShift>
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void checkMode(const testmode& mode)
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{
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int type = mode.type, depth = CV_MAT_DEPTH(type), cn = CV_MAT_CN(type);
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int dcols = mode.sz.width, drows = mode.sz.height;
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Size kernel = mode.kernel;
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int rows = drows + 20, cols = dcols + 20;
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Mat src(rows, cols, type), refdst(drows, dcols, type), dst;
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for (int j = 0; j < rows; j++)
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{
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uint8_t* line = src.ptr(j);
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for (int i = 0; i < cols; i++)
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for (int c = 0; c < cn; c++)
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{
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RNG rnd(0x123456789abcdefULL);
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double val = j < rows / 2 ? (i < cols / 2 ? ((sin((i + 1)*CV_PI / 256.)*sin((j + 1)*CV_PI / 256.)*sin((cn + 4)*CV_PI / 8.) + 1.)*128.) :
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(((i / 128 + j / 128) % 2) * 250 + (j / 128) % 2)) :
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(i < cols / 2 ? ((i / 128) * (85 - j / 256 * 40) * ((j / 128) % 2) + (7 - i / 128) * (85 - j / 256 * 40) * ((j / 128 + 1) % 2)) :
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((uchar)rnd));
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if (depth == CV_8U)
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line[i*cn + c] = (uint8_t)val;
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else if (depth == CV_16U)
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((uint16_t*)line)[i*cn + c] = (uint16_t)val;
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else if (depth == CV_16S)
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((int16_t*)line)[i*cn + c] = (int16_t)val;
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else if (depth == CV_32S)
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((int32_t*)line)[i*cn + c] = (int32_t)val;
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else
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CV_Assert(0);
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}
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}
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Mat src_roi = src(Rect(10, 10, dcols, drows));
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for (int borderind = 0, _bordercnt = sizeof(bordermodes) / sizeof(bordermodes[0]); borderind < _bordercnt; ++borderind)
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{
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Mat src_border;
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cv::copyMakeBorder(src_roi, src_border, kernel.height / 2, kernel.height / 2, kernel.width / 2, kernel.width / 2, bordermodes[borderind]);
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for (int c = 0; c < src_border.channels(); c++)
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{
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int fromTo[2] = { c, 0 };
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int toFrom[2] = { 0, c };
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Mat src_chan(src_border.size(), CV_MAKETYPE(src_border.depth(),1));
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Mat dst_chan(refdst.size(), CV_MAKETYPE(refdst.depth(), 1));
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mixChannels(src_border, src_chan, fromTo, 1);
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for (int j = 0; j < drows; j++)
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for (int i = 0; i < dcols; i++)
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{
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if (depth == CV_8U)
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dst_chan.at<uint8_t>(j, i) = eval<uint8_t, fixedShift>(src_chan(Rect(i,j,kernel.width,kernel.height)), mode.kernel_x, mode.kernel_y);
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else if (depth == CV_16U)
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dst_chan.at<uint16_t>(j, i) = eval<uint16_t, fixedShift>(src_chan(Rect(i, j, kernel.width, kernel.height)), mode.kernel_x, mode.kernel_y);
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else if (depth == CV_16S)
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dst_chan.at<int16_t>(j, i) = eval<int16_t, fixedShift>(src_chan(Rect(i, j, kernel.width, kernel.height)), mode.kernel_x, mode.kernel_y);
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else if (depth == CV_32S)
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dst_chan.at<int32_t>(j, i) = eval<int32_t, fixedShift>(src_chan(Rect(i, j, kernel.width, kernel.height)), mode.kernel_x, mode.kernel_y);
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else
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CV_Assert(0);
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}
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mixChannels(dst_chan, refdst, toFrom, 1);
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}
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cv::GaussianBlur(src_roi, dst, kernel, mode.sigma_x, mode.sigma_y, bordermodes[borderind]);
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EXPECT_GE(0, cvtest::norm(refdst, dst, cv::NORM_L1))
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<< "GaussianBlur " << cn << "-chan mat " << drows << "x" << dcols << " by kernel " << kernel << " sigma(" << mode.sigma_x << ";" << mode.sigma_y << ") failed with max diff " << cvtest::norm(refdst, dst, cv::NORM_INF);
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}
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}
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TEST(GaussianBlur_Bitexact, Linear8U)
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{
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testmode modes[] = {
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{ CV_8UC1, Size( 1, 1), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 2, 2), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 3, 1), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 1, 3), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 3, 3), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 3, 3), Size(5, 5), 0, 0, vector<int64_t>(vU8[2], vU8[2]+5), vector<int64_t>(vU8[2], vU8[2]+5) },
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{ CV_8UC1, Size( 3, 3), Size(7, 7), 0, 0, vector<int64_t>(vU8[3], vU8[3]+7), vector<int64_t>(vU8[3], vU8[3]+7) },
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{ CV_8UC1, Size( 5, 5), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 5, 5), Size(5, 5), 0, 0, vector<int64_t>(vU8[2], vU8[2]+5), vector<int64_t>(vU8[2], vU8[2]+5) },
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{ CV_8UC1, Size( 3, 5), Size(5, 5), 0, 0, vector<int64_t>(vU8[2], vU8[2]+5), vector<int64_t>(vU8[2], vU8[2]+5) },
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{ CV_8UC1, Size( 5, 5), Size(5, 5), 0, 0, vector<int64_t>(vU8[2], vU8[2]+5), vector<int64_t>(vU8[2], vU8[2]+5) },
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{ CV_8UC1, Size( 5, 5), Size(7, 7), 0, 0, vector<int64_t>(vU8[3], vU8[3]+7), vector<int64_t>(vU8[3], vU8[3]+7) },
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{ CV_8UC1, Size( 7, 7), Size(7, 7), 0, 0, vector<int64_t>(vU8[3], vU8[3]+7), vector<int64_t>(vU8[3], vU8[3]+7) },
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{ CV_8UC1, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC2, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC3, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC4, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU8[1], vU8[1]+3), vector<int64_t>(vU8[1], vU8[1]+3) },
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{ CV_8UC1, Size( 256, 128), Size(5, 5), 0, 0, vector<int64_t>(vU8[2], vU8[2]+5), vector<int64_t>(vU8[2], vU8[2]+5) },
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{ CV_8UC1, Size( 256, 128), Size(7, 7), 0, 0, vector<int64_t>(vU8[3], vU8[3]+7), vector<int64_t>(vU8[3], vU8[3]+7) },
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{ CV_8UC1, Size( 256, 128), Size(9, 9), 0, 0, vector<int64_t>(vU8[4], vU8[4]+9), vector<int64_t>(vU8[4], vU8[4]+9) },
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#ifdef CV_TEST_INACCURATE_GAUSSIAN_BLUR
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{ CV_8UC1, Size( 256, 128), Size(3, 3), 1.75, 0.875, vector<int64_t>(vU8[5], vU8[5]+3), vector<int64_t>(vU8[6], vU8[6]+3) },
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{ CV_8UC2, Size( 256, 128), Size(3, 3), 1.75, 0.875, vector<int64_t>(vU8[5], vU8[5]+3), vector<int64_t>(vU8[6], vU8[6]+3) },
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{ CV_8UC3, Size( 256, 128), Size(3, 3), 1.75, 0.875, vector<int64_t>(vU8[5], vU8[5]+3), vector<int64_t>(vU8[6], vU8[6]+3) },
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{ CV_8UC4, Size( 256, 128), Size(3, 3), 1.75, 0.875, vector<int64_t>(vU8[5], vU8[5]+3), vector<int64_t>(vU8[6], vU8[6]+3) },
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{ CV_8UC1, Size( 256, 128), Size(5, 5), 0.375, 0.75, vector<int64_t>(vU8[7], vU8[7]+5), vector<int64_t>(vU8[8], vU8[8]+5) }
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#endif
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};
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for (int modeind = 0, _modecnt = sizeof(modes) / sizeof(modes[0]); modeind < _modecnt; ++modeind)
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{
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checkMode<fixedShiftU8>(modes[modeind]);
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}
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}
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TEST(GaussianBlur_Bitexact, Linear16U)
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{
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testmode modes[] = {
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{ CV_16UC1, Size( 1, 1), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 2, 2), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 3, 1), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 1, 3), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 3, 3), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 3, 3), Size(5, 5), 0, 0, vector<int64_t>(vU16[2], vU16[2]+5), vector<int64_t>(vU16[2], vU16[2]+5) },
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{ CV_16UC1, Size( 3, 3), Size(7, 7), 0, 0, vector<int64_t>(vU16[3], vU16[3]+7), vector<int64_t>(vU16[3], vU16[3]+7) },
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{ CV_16UC1, Size( 5, 5), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 5, 5), Size(5, 5), 0, 0, vector<int64_t>(vU16[2], vU16[2]+5), vector<int64_t>(vU16[2], vU16[2]+5) },
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{ CV_16UC1, Size( 3, 5), Size(5, 5), 0, 0, vector<int64_t>(vU16[2], vU16[2]+5), vector<int64_t>(vU16[2], vU16[2]+5) },
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{ CV_16UC1, Size( 5, 5), Size(5, 5), 0, 0, vector<int64_t>(vU16[2], vU16[2]+5), vector<int64_t>(vU16[2], vU16[2]+5) },
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{ CV_16UC1, Size( 5, 5), Size(7, 7), 0, 0, vector<int64_t>(vU16[3], vU16[3]+7), vector<int64_t>(vU16[3], vU16[3]+7) },
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{ CV_16UC1, Size( 7, 7), Size(7, 7), 0, 0, vector<int64_t>(vU16[3], vU16[3]+7), vector<int64_t>(vU16[3], vU16[3]+7) },
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{ CV_16UC1, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC2, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC3, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC4, Size( 256, 128), Size(3, 3), 0, 0, vector<int64_t>(vU16[1], vU16[1]+3), vector<int64_t>(vU16[1], vU16[1]+3) },
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{ CV_16UC1, Size( 256, 128), Size(5, 5), 0, 0, vector<int64_t>(vU16[2], vU16[2]+5), vector<int64_t>(vU16[2], vU16[2]+5) },
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{ CV_16UC1, Size( 256, 128), Size(7, 7), 0, 0, vector<int64_t>(vU16[3], vU16[3]+7), vector<int64_t>(vU16[3], vU16[3]+7) },
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{ CV_16UC1, Size( 256, 128), Size(9, 9), 0, 0, vector<int64_t>(vU16[4], vU16[4]+9), vector<int64_t>(vU16[4], vU16[4]+9) },
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};
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for (int modeind = 0, _modecnt = sizeof(modes) / sizeof(modes[0]); modeind < _modecnt; ++modeind)
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{
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checkMode<16>(modes[modeind]);
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}
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}
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TEST(GaussianBlur_Bitexact, regression_15015)
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{
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Mat src(100,100,CV_8UC3,Scalar(255,255,255));
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Mat dst;
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GaussianBlur(src, dst, Size(5, 5), 0);
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ASSERT_EQ(0.0, cvtest::norm(dst, src, NORM_INF));
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}
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TEST(GaussianBlur_Bitexact, overflow_20121)
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{
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Mat src(100, 100, CV_16UC1, Scalar(65535));
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Mat dst;
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GaussianBlur(src, dst, cv::Size(9, 9), 0.0);
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double min_val;
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minMaxLoc(dst, &min_val);
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ASSERT_EQ(cvRound(min_val), 65535);
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}
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static void checkGaussianBlur_8Uvs32F(const Mat& src8u, const Mat& src32f, int N, double sigma)
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{
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Mat dst8u; GaussianBlur(src8u, dst8u, Size(N, N), sigma); // through bit-exact path
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Mat dst8u_32f; dst8u.convertTo(dst8u_32f, CV_32F);
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Mat dst32f; GaussianBlur(src32f, dst32f, Size(N, N), sigma); // without bit-exact computations
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double normINF_32f = cv::norm(dst8u_32f, dst32f, NORM_INF);
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EXPECT_LE(normINF_32f, 1.0);
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}
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TEST(GaussianBlur_Bitexact, regression_9863)
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{
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Mat src8u = imread(cvtest::findDataFile("shared/lena.png"));
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Mat src32f; src8u.convertTo(src32f, CV_32F);
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checkGaussianBlur_8Uvs32F(src8u, src32f, 151, 30);
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}
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TEST(GaussianBlur_Bitexact, overflow_20792)
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{
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Mat src(128, 128, CV_16UC1, Scalar(255));
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Mat dst;
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double sigma = theRNG().uniform(0.0, 0.2); // a peaky kernel
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GaussianBlur(src, dst, Size(7, 7), sigma, 0.9);
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int count = (int)countNonZero(dst);
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int nintyPercent = (int)(src.rows*src.cols * 0.9);
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EXPECT_GT(count, nintyPercent);
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}
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}} // namespace
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