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ocl: split: update tests and implementation
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@ -428,7 +428,7 @@ struct ProgramFileCache
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if(status != CL_SUCCESS)
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{
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if(status == CL_BUILD_PROGRAM_FAILURE)
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if (status == CL_BUILD_PROGRAM_FAILURE || status == CL_INVALID_BUILD_OPTIONS)
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{
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size_t buildLogSize = 0;
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openCLSafeCall(clGetProgramBuildInfo(program, getClDeviceID(ctx),
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File diff suppressed because it is too large
Load Diff
@ -66,7 +66,7 @@ namespace cv
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static inline void ___openCLSafeCall(int err, const char *file, const int line, const char *func = "")
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{
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if( CL_SUCCESS != err)
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if (CL_SUCCESS != err)
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cv::ocl::error(getOpenCLErrorString(err), file, line, func);
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}
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}
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@ -149,90 +149,128 @@ namespace cv
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mat_dst.create(size, CV_MAKETYPE(depth, total_channels));
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merge_vector_run(mat_src, n, mat_dst);
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}
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static void split_vector_run(const oclMat &mat_src, oclMat *mat_dst)
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static void split_vector_run(const oclMat &src, oclMat *dst)
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{
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if(!mat_src.clCxt->supportsFeature(FEATURE_CL_DOUBLE) && mat_src.type() == CV_64F)
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if(!src.clCxt->supportsFeature(FEATURE_CL_DOUBLE) && src.type() == CV_64F)
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{
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CV_Error(CV_OpenCLDoubleNotSupported, "Selected device doesn't support double");
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return;
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}
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Context *clCxt = mat_src.clCxt;
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int channels = mat_src.oclchannels();
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int depth = mat_src.depth();
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Context *clCtx = src.clCxt;
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int channels = src.channels();
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int depth = src.depth();
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depth = (depth == CV_8S) ? CV_8U : depth;
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depth = (depth == CV_16S) ? CV_16U : depth;
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string kernelName = "split_vector";
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int vector_lengths[4][7] = {{0, 0, 0, 0, 0, 0, 0},
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{4, 4, 2, 2, 1, 1, 1},
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{4, 4, 2, 2 , 1, 1, 1},
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{4, 4, 2, 2, 1, 1, 1}
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};
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size_t VEC_SIZE = 4;
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size_t vector_length = vector_lengths[channels - 1][mat_dst[0].depth()];
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int max_offset_cols = 0;
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for(int i = 0; i < channels; i++)
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{
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int offset_cols = (mat_dst[i].offset / mat_dst[i].elemSize()) & (vector_length - 1);
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if(max_offset_cols < offset_cols)
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max_offset_cols = offset_cols;
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}
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int cols = vector_length == 1 ? divUp(mat_src.cols, vector_length)
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: divUp(mat_src.cols + max_offset_cols, vector_length);
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size_t localThreads[3] = { 64, 4, 1 };
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size_t globalThreads[3] = { cols, mat_src.rows, 1 };
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int dst_step1 = mat_dst[0].cols * mat_dst[0].elemSize();
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vector<pair<size_t , const void *> > args;
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args.push_back( make_pair( sizeof(cl_mem), (void *)&mat_src.data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_src.step));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_src.offset));
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args.push_back( make_pair( sizeof(cl_mem), (void *)&mat_dst[0].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[0].step));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[0].offset));
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args.push_back( make_pair( sizeof(cl_mem), (void *)&mat_dst[1].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[1].step));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[1].offset));
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if(channels >= 3)
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{
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args.push_back( make_pair( sizeof(cl_mem), (void *)&src.data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&src.step));
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int srcOffsetXBytes = src.offset % src.step;
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int srcOffsetY = src.offset / src.step;
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cl_int2 srcOffset = {{srcOffsetXBytes, srcOffsetY}};
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args.push_back( make_pair( sizeof(cl_int2), (void *)&srcOffset));
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args.push_back( make_pair( sizeof(cl_mem), (void *)&mat_dst[2].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[2].step));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[2].offset));
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}
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if(channels >= 4)
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bool dst0Aligned = false, dst1Aligned = false, dst2Aligned = false, dst3Aligned = false;
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int alignSize = dst[0].elemSize1() * VEC_SIZE;
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int alignMask = alignSize - 1;
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args.push_back( make_pair( sizeof(cl_mem), (void *)&dst[0].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&dst[0].step));
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int dst0OffsetXBytes = dst[0].offset % dst[0].step;
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int dst0OffsetY = dst[0].offset / dst[0].step;
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cl_int2 dst0Offset = {{dst0OffsetXBytes, dst0OffsetY}};
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args.push_back( make_pair( sizeof(cl_int2), (void *)&dst0Offset));
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if ((dst0OffsetXBytes & alignMask) == 0)
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dst0Aligned = true;
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args.push_back( make_pair( sizeof(cl_mem), (void *)&dst[1].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&dst[1].step));
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int dst1OffsetXBytes = dst[1].offset % dst[1].step;
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int dst1OffsetY = dst[1].offset / dst[1].step;
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cl_int2 dst1Offset = {{dst1OffsetXBytes, dst1OffsetY}};
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args.push_back( make_pair( sizeof(cl_int2), (void *)&dst1Offset));
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if ((dst1OffsetXBytes & alignMask) == 0)
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dst1Aligned = true;
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// DON'T MOVE VARIABLES INTO 'IF' BODY
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int dst2OffsetXBytes, dst2OffsetY;
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cl_int2 dst2Offset;
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int dst3OffsetXBytes, dst3OffsetY;
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cl_int2 dst3Offset;
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if (channels >= 3)
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{
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args.push_back( make_pair( sizeof(cl_mem), (void *)&mat_dst[3].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[3].step));
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_dst[3].offset));
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args.push_back( make_pair( sizeof(cl_mem), (void *)&dst[2].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&dst[2].step));
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dst2OffsetXBytes = dst[2].offset % dst[2].step;
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dst2OffsetY = dst[2].offset / dst[2].step;
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dst2Offset.s[0] = dst2OffsetXBytes; dst2Offset.s[1] = dst2OffsetY;
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args.push_back( make_pair( sizeof(cl_int2), (void *)&dst2Offset));
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if ((dst2OffsetXBytes & alignMask) == 0)
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dst2Aligned = true;
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}
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args.push_back( make_pair( sizeof(cl_int), (void *)&mat_src.rows));
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args.push_back( make_pair( sizeof(cl_int), (void *)&cols));
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args.push_back( make_pair( sizeof(cl_int), (void *)&dst_step1));
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if (channels >= 4)
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{
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args.push_back( make_pair( sizeof(cl_mem), (void *)&dst[3].data));
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args.push_back( make_pair( sizeof(cl_int), (void *)&dst[3].step));
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dst3OffsetXBytes = dst[3].offset % dst[3].step;
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dst3OffsetY = dst[3].offset / dst[3].step;
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dst3Offset.s[0] = dst3OffsetXBytes; dst3Offset.s[1] = dst3OffsetY;
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args.push_back( make_pair( sizeof(cl_int2), (void *)&dst3Offset));
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if ((dst3OffsetXBytes & alignMask) == 0)
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dst3Aligned = true;
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}
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openCLExecuteKernel(clCxt, &split_mat, kernelName, globalThreads, localThreads, args, channels, depth);
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cl_int2 size = {{ src.cols, src.rows }};
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args.push_back( make_pair( sizeof(cl_int2), (void *)&size));
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string build_options =
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cv::format("-D VEC_SIZE=%d -D DATA_DEPTH=%d -D DATA_CHAN=%d",
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(int)VEC_SIZE, depth, channels);
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if (dst0Aligned)
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build_options += " -D DST0_ALIGNED";
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if (dst1Aligned)
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build_options += " -D DST1_ALIGNED";
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if (dst2Aligned)
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build_options += " -D DST2_ALIGNED";
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if (dst3Aligned)
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build_options += " -D DST3_ALIGNED";
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const DeviceInfo& devInfo = clCtx->getDeviceInfo();
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// TODO Workaround for issues. Need to investigate a problem.
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if (channels == 2
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&& devInfo.deviceType == CVCL_DEVICE_TYPE_CPU
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&& devInfo.platform->platformVendor.find("Intel") != std::string::npos
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&& (devInfo.deviceVersion.find("Build 56860") != std::string::npos
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|| devInfo.deviceVersion.find("Build 76921") != std::string::npos))
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build_options += " -D BYPASS_VSTORE=true";
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size_t globalThreads[3] = { divUp(src.cols, VEC_SIZE), src.rows, 1 };
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openCLExecuteKernel(clCtx, &split_mat, kernelName, globalThreads, NULL, args, -1, -1, build_options.c_str());
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}
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static void split(const oclMat &mat_src, oclMat *mat_dst)
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{
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CV_Assert(mat_dst);
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int depth = mat_src.depth();
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int num_channels = mat_src.oclchannels();
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int num_channels = mat_src.channels();
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Size size = mat_src.size();
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if(num_channels == 1)
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if (num_channels == 1)
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{
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mat_src.copyTo(mat_dst[0]);
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return;
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}
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int i;
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for(i = 0; i < num_channels; i++)
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for (int i = 0; i < mat_src.oclchannels(); i++)
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mat_dst[i].create(size, CV_MAKETYPE(depth, 1));
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split_vector_run(mat_src, mat_dst);
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@ -256,7 +294,7 @@ void cv::ocl::split(const oclMat &src, oclMat *dst)
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}
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void cv::ocl::split(const oclMat &src, vector<oclMat> &dst)
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{
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dst.resize(src.oclchannels());
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dst.resize(src.oclchannels()); // TODO Why oclchannels?
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if(src.oclchannels() > 0)
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split_merge::split(src, &dst[0]);
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}
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@ -158,81 +158,32 @@ PARAM_TEST_CASE(SplitTestBase, MatType, int, bool)
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int channels;
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bool use_roi;
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//src mat
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cv::Mat mat;
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cv::Mat src, src_roi;
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cv::Mat dst[MAX_CHANNELS], dst_roi[MAX_CHANNELS];
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//dstmat
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cv::Mat dst[MAX_CHANNELS];
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// set up roi
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int roicols, roirows;
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int srcx, srcy;
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int dstx[MAX_CHANNELS];
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int dsty[MAX_CHANNELS];
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//src mat with roi
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cv::Mat mat_roi;
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//dst mat with roi
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cv::Mat dst_roi[MAX_CHANNELS];
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//ocl dst mat for testing
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cv::ocl::oclMat gdst_whole[MAX_CHANNELS];
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//ocl mat with roi
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cv::ocl::oclMat gmat;
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cv::ocl::oclMat gdst[MAX_CHANNELS];
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cv::ocl::oclMat gsrc_whole, gsrc_roi;
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cv::ocl::oclMat gdst_whole[MAX_CHANNELS], gdst_roi[MAX_CHANNELS];
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virtual void SetUp()
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{
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type = GET_PARAM(0);
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channels = GET_PARAM(1);
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use_roi = GET_PARAM(2);
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cv::Size size(MWIDTH, MHEIGHT);
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mat = randomMat(size, CV_MAKETYPE(type, channels), 5, 16, false);
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for (int i = 0; i < channels; ++i)
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dst[i] = randomMat(size, CV_MAKETYPE(type, 1), 5, 16, false); }
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}
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void random_roi()
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{
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if (use_roi)
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{
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//randomize ROI
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roicols = rng.uniform(1, mat.cols);
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roirows = rng.uniform(1, mat.rows);
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srcx = rng.uniform(0, mat.cols - roicols);
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srcy = rng.uniform(0, mat.rows - roirows);
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for (int i = 0; i < channels; ++i)
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{
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dstx[i] = rng.uniform(0, dst[i].cols - roicols);
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dsty[i] = rng.uniform(0, dst[i].rows - roirows);
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}
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}
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else
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{
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roicols = mat.cols;
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roirows = mat.rows;
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srcx = srcy = 0;
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for (int i = 0; i < channels; ++i)
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dstx[i] = dsty[i] = 0;
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}
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mat_roi = mat(Rect(srcx, srcy, roicols, roirows));
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for (int i = 0; i < channels; ++i)
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dst_roi[i] = dst[i](Rect(dstx[i], dsty[i], roicols, roirows));
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Size roiSize = randomSize(1, MAX_VALUE);
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Border srcBorder = randomBorder(0, use_roi ? MAX_VALUE : 0);
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randomSubMat(src, src_roi, roiSize, srcBorder, CV_MAKETYPE(type, channels), 0, 256);
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generateOclMat(gsrc_whole, gsrc_roi, src, roiSize, srcBorder);
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for (int i = 0; i < channels; ++i)
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{
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gdst_whole[i] = dst[i];
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gdst[i] = gdst_whole[i](Rect(dstx[i], dsty[i], roicols, roirows));
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Border dstBorder = randomBorder(0, use_roi ? MAX_VALUE : 0);
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randomSubMat(dst[i], dst_roi[i], roiSize, dstBorder, CV_MAKETYPE(type, 1), 5, 16);
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generateOclMat(gdst_whole[i], gdst_roi[i], dst[i], roiSize, dstBorder);
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}
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gmat = mat_roi;
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}
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};
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@ -244,11 +195,14 @@ OCL_TEST_P(Split, Accuracy)
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{
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random_roi();
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cv::split(mat_roi, dst_roi);
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cv::ocl::split(gmat, gdst);
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cv::split(src_roi, dst_roi);
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cv::ocl::split(gsrc_roi, gdst_roi);
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for (int i = 0; i < channels; ++i)
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EXPECT_MAT_NEAR(dst[i], Mat(gdst_whole[i]), 0.0);
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{
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EXPECT_MAT_NEAR(dst[i], gdst_whole[i], 0.0);
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EXPECT_MAT_NEAR(dst_roi[i], gdst_roi[i], 0.0);
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}
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}
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}
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@ -88,14 +88,16 @@ inline double checkNormRelative(const Mat &m1, const Mat &m2)
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{ \
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ASSERT_EQ(mat1.type(), mat2.type()); \
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ASSERT_EQ(mat1.size(), mat2.size()); \
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EXPECT_LE(checkNorm(cv::Mat(mat1), cv::Mat(mat2)), eps); \
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EXPECT_LE(checkNorm(cv::Mat(mat1), cv::Mat(mat2)), eps) \
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<< cv::format("Size: %d x %d", mat1.cols, mat1.rows) << std::endl; \
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}
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#define EXPECT_MAT_NEAR_RELATIVE(mat1, mat2, eps) \
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{ \
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ASSERT_EQ(mat1.type(), mat2.type()); \
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ASSERT_EQ(mat1.size(), mat2.size()); \
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EXPECT_LE(checkNormRelative(cv::Mat(mat1), cv::Mat(mat2)), eps); \
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EXPECT_LE(checkNormRelative(cv::Mat(mat1), cv::Mat(mat2)), eps) \
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<< cv::format("Size: %d x %d", mat1.cols, mat1.rows) << std::endl; \
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}
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#define EXPECT_MAT_SIMILAR(mat1, mat2, eps) \
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