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https://github.com/opencv/opencv.git
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added gpu::buildWarpPlaneMaps and gpu::buildWarpCylindricalMaps functions, integrated into stitching
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68f5a5a904
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@ -622,6 +622,14 @@ namespace cv
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//! Supports INTER_NEAREST, INTER_LINEAR, INTER_CUBIC
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CV_EXPORTS void warpPerspective(const GpuMat& src, GpuMat& dst, const Mat& M, Size dsize, int flags = INTER_LINEAR, Stream& stream = Stream::Null());
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//! builds plane warping maps
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CV_EXPORTS void buildWarpPlaneMaps(Size src_size, Rect dst_roi, const Mat& R, double f, double s, double dist,
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GpuMat& map_x, GpuMat& map_y, Stream& stream = Stream::Null());
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//! builds cylindrical warping maps
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CV_EXPORTS void buildWarpCylindricalMaps(Size src_size, Rect dst_roi, const Mat& R, double f, double s,
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GpuMat& map_x, GpuMat& map_y, Stream& stream = Stream::Null());
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//! builds spherical warping maps
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CV_EXPORTS void buildWarpSphericalMaps(Size src_size, Rect dst_roi, const Mat& R, double f, double s,
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GpuMat& map_x, GpuMat& map_y, Stream& stream = Stream::Null());
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@ -986,9 +986,54 @@ namespace cv { namespace gpu { namespace imgproc
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__constant__ float crinv[9];
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__constant__ float cf, cs;
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__constant__ float chalf_w, chalf_h;
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__constant__ float cdist;
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}
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class PlaneMapper
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{
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public:
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static __device__ __forceinline__ void mapBackward(float u, float v, float &x, float &y)
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{
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using namespace build_warp_maps;
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float x_ = u / cs;
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float y_ = v / cs;
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float z;
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x = crinv[0]*x_ + crinv[1]*y_ + crinv[2]*cdist;
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y = crinv[3]*x_ + crinv[4]*y_ + crinv[5]*cdist;
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z = crinv[6]*x_ + crinv[7]*y_ + crinv[8]*cdist;
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x = cf*x/z + chalf_w;
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y = cf*y/z + chalf_h;
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}
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};
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class CylindricalMapper
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{
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public:
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static __device__ __forceinline__ void mapBackward(float u, float v, float &x, float &y)
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{
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using namespace build_warp_maps;
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u /= cs;
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float x_ = sinf(u);
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float y_ = v / cs;
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float z_ = cosf(u);
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float z;
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x = crinv[0]*x_ + crinv[1]*y_ + crinv[2]*z_;
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y = crinv[3]*x_ + crinv[4]*y_ + crinv[5]*z_;
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z = crinv[6]*x_ + crinv[7]*y_ + crinv[8]*z_;
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x = cf*x/z + chalf_w;
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y = cf*y/z + chalf_h;
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}
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};
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class SphericalMapper
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{
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public:
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@ -1033,6 +1078,55 @@ namespace cv { namespace gpu { namespace imgproc
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}
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void buildWarpPlaneMaps(int tl_u, int tl_v, DevMem2Df map_x, DevMem2Df map_y,
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const float r[9], const float rinv[9], float f, float s, float dist,
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float half_w, float half_h, cudaStream_t stream)
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{
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cr, r, 9*sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::crinv, rinv, 9*sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cf, &f, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cs, &s, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::chalf_w, &half_w, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::chalf_h, &half_h, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cdist, &dist, sizeof(float)));
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int cols = map_x.cols;
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int rows = map_x.rows;
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dim3 threads(32, 8);
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dim3 grid(divUp(cols, threads.x), divUp(rows, threads.y));
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buildWarpMapsKernel<PlaneMapper><<<grid,threads>>>(tl_u, tl_v, cols, rows, map_x, map_y);
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cudaSafeCall(cudaGetLastError());
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if (stream == 0)
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cudaSafeCall(cudaDeviceSynchronize());
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}
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void buildWarpCylindricalMaps(int tl_u, int tl_v, DevMem2Df map_x, DevMem2Df map_y,
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const float r[9], const float rinv[9], float f, float s,
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float half_w, float half_h, cudaStream_t stream)
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{
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cr, r, 9*sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::crinv, rinv, 9*sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cf, &f, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::cs, &s, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::chalf_w, &half_w, sizeof(float)));
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cudaSafeCall(cudaMemcpyToSymbol(build_warp_maps::chalf_h, &half_h, sizeof(float)));
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int cols = map_x.cols;
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int rows = map_x.rows;
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dim3 threads(32, 8);
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dim3 grid(divUp(cols, threads.x), divUp(rows, threads.y));
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buildWarpMapsKernel<CylindricalMapper><<<grid,threads>>>(tl_u, tl_v, cols, rows, map_x, map_y);
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cudaSafeCall(cudaGetLastError());
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if (stream == 0)
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cudaSafeCall(cudaDeviceSynchronize());
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}
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void buildWarpSphericalMaps(int tl_u, int tl_v, DevMem2Df map_x, DevMem2Df map_y,
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const float r[9], const float rinv[9], float f, float s,
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float half_w, float half_h, cudaStream_t stream)
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@ -1059,3 +1153,4 @@ namespace cv { namespace gpu { namespace imgproc
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}}}
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@ -56,8 +56,9 @@ void cv::gpu::resize(const GpuMat&, GpuMat&, Size, double, double, int, Stream&)
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void cv::gpu::copyMakeBorder(const GpuMat&, GpuMat&, int, int, int, int, const Scalar&, Stream&) { throw_nogpu(); }
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void cv::gpu::warpAffine(const GpuMat&, GpuMat&, const Mat&, Size, int, Stream&) { throw_nogpu(); }
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void cv::gpu::warpPerspective(const GpuMat&, GpuMat&, const Mat&, Size, int, Stream&) { throw_nogpu(); }
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void cv::gpu::buildWarpSphericalMaps(Size, Rect, const Mat&, double, double,
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GpuMat&, GpuMat&, Stream&) { throw_nogpu(); }
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void cv::gpu::buildWarpPlaneMaps(Size, Rect, const Mat&, double, double, double, GpuMat&, GpuMat&, Stream&) { throw_nogpu(); }
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void cv::gpu::buildWarpCylindricalMaps(Size, Rect, const Mat&, double, double, GpuMat&, GpuMat&, Stream&) { throw_nogpu(); }
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void cv::gpu::buildWarpSphericalMaps(Size, Rect, const Mat&, double, double, GpuMat&, GpuMat&, Stream&) { throw_nogpu(); }
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void cv::gpu::rotate(const GpuMat&, GpuMat&, Size, double, double, double, int, Stream&) { throw_nogpu(); }
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void cv::gpu::integral(const GpuMat&, GpuMat&, Stream&) { throw_nogpu(); }
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void cv::gpu::integralBuffered(const GpuMat&, GpuMat&, GpuMat&, Stream&) { throw_nogpu(); }
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@ -510,6 +511,52 @@ void cv::gpu::warpPerspective(const GpuMat& src, GpuMat& dst, const Mat& M, Size
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nppWarpCaller(src, dst, coeffs, dsize, flags, npp_warpPerspective_8u, npp_warpPerspective_16u, npp_warpPerspective_32s, npp_warpPerspective_32f, StreamAccessor::getStream(s));
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}
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//////////////////////////////////////////////////////////////////////////////
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// buildWarpPlaneMaps
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namespace cv { namespace gpu { namespace imgproc
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{
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void buildWarpPlaneMaps(int tl_u, int tl_v, DevMem2Df map_x, DevMem2Df map_y,
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const float r[9], const float rinv[9], float f, float s, float dist,
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float half_w, float half_h, cudaStream_t stream);
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}}}
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void cv::gpu::buildWarpPlaneMaps(Size src_size, Rect dst_roi, const Mat& R, double f, double s,
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double dist, GpuMat& map_x, GpuMat& map_y, Stream& stream)
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{
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CV_Assert(R.size() == Size(3,3) && R.isContinuous() && R.type() == CV_32F);
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Mat Rinv = R.inv();
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CV_Assert(Rinv.isContinuous());
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map_x.create(dst_roi.size(), CV_32F);
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map_y.create(dst_roi.size(), CV_32F);
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imgproc::buildWarpPlaneMaps(dst_roi.tl().x, dst_roi.tl().y, map_x, map_y, R.ptr<float>(), Rinv.ptr<float>(),
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f, s, dist, 0.5f*src_size.width, 0.5f*src_size.height, StreamAccessor::getStream(stream));
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}
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//////////////////////////////////////////////////////////////////////////////
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// buildWarpCylyndricalMaps
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namespace cv { namespace gpu { namespace imgproc
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{
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void buildWarpCylindricalMaps(int tl_u, int tl_v, DevMem2Df map_x, DevMem2Df map_y,
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const float r[9], const float rinv[9], float f, float s,
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float half_w, float half_h, cudaStream_t stream);
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}}}
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void cv::gpu::buildWarpCylindricalMaps(Size src_size, Rect dst_roi, const Mat& R, double f, double s,
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GpuMat& map_x, GpuMat& map_y, Stream& stream)
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{
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CV_Assert(R.size() == Size(3,3) && R.isContinuous() && R.type() == CV_32F);
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Mat Rinv = R.inv();
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CV_Assert(Rinv.isContinuous());
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map_x.create(dst_roi.size(), CV_32F);
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map_y.create(dst_roi.size(), CV_32F);
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imgproc::buildWarpCylindricalMaps(dst_roi.tl().x, dst_roi.tl().y, map_x, map_y, R.ptr<float>(), Rinv.ptr<float>(),
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f, s, 0.5f*src_size.width, 0.5f*src_size.height, StreamAccessor::getStream(stream));
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}
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//////////////////////////////////////////////////////////////////////////////
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// buildWarpSphericalMaps
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@ -233,10 +233,7 @@ void MultiBandBlender::feed(const Mat &img, const Mat &mask, Point tl)
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copyMakeBorder(img, img_with_border, top, bottom, left, right,
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BORDER_REFLECT);
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vector<Mat> src_pyr_laplace;
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if (can_use_gpu_)
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createLaplacePyrGpu(img_with_border, num_bands_, src_pyr_laplace);
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else
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createLaplacePyr(img_with_border, num_bands_, src_pyr_laplace);
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createLaplacePyr(img_with_border, num_bands_, src_pyr_laplace);
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// Create the weight map Gaussian pyramid
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Mat weight_map;
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@ -341,6 +338,7 @@ void createLaplacePyr(const Mat &img, int num_levels, vector<Mat> &pyr)
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}
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#if 0
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void createLaplacePyrGpu(const Mat &img, int num_levels, vector<Mat> &pyr)
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{
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pyr.resize(num_levels + 1);
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@ -360,7 +358,7 @@ void createLaplacePyrGpu(const Mat &img, int num_levels, vector<Mat> &pyr)
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pyr[num_levels] = gpu_pyr[num_levels];
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}
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#endif
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void restoreImageFromLaplacePyr(vector<Mat> &pyr)
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@ -108,7 +108,11 @@ void normalize(const cv::Mat& weight, cv::Mat& src);
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void createWeightMap(const cv::Mat& mask, float sharpness, cv::Mat& weight);
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void createLaplacePyr(const cv::Mat &img, int num_levels, std::vector<cv::Mat>& pyr);
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// TODO Use it after gpu::pyrDown and gpu::pyrUp are updated
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#if 0
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void createLaplacePyrGpu(const cv::Mat &img, int num_levels, std::vector<cv::Mat>& pyr);
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#endif
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// Restores source image in-place (result will be stored in pyr[0])
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void restoreImageFromLaplacePyr(std::vector<cv::Mat>& pyr);
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@ -547,7 +547,7 @@ int main(int argc, char* argv[])
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else
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img = full_img;
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full_img.release();
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Size img_size = img.size();
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Size img_size = img.size();
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// Warp the current image
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warper->warp(img, static_cast<float>(cameras[img_idx].focal), cameras[img_idx].R,
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@ -48,9 +48,9 @@ Ptr<Warper> Warper::createByCameraFocal(float focal, int type, bool try_gpu)
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{
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bool can_use_gpu = try_gpu && gpu::getCudaEnabledDeviceCount();
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if (type == PLANE)
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return new PlaneWarper(focal);
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return !can_use_gpu ? new PlaneWarper(focal) : new PlaneWarperGpu(focal);
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if (type == CYLINDRICAL)
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return new CylindricalWarper(focal);
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return !can_use_gpu ? new CylindricalWarper(focal) : new CylindricalWarperGpu(focal);
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if (type == SPHERICAL)
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return !can_use_gpu ? new SphericalWarper(focal) : new SphericalWarperGpu(focal);
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CV_Error(CV_StsBadArg, "unsupported warping type");
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@ -105,6 +105,26 @@ void PlaneWarper::detectResultRoi(Point &dst_tl, Point &dst_br)
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}
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Point PlaneWarperGpu::warp(const Mat &src, float focal, const cv::Mat &R, cv::Mat &dst, int interp_mode, int border_mode)
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{
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src_size_ = src.size();
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projector_.size = src.size();
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projector_.focal = focal;
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projector_.setTransformation(R);
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cv::Point dst_tl, dst_br;
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detectResultRoi(dst_tl, dst_br);
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gpu::buildWarpPlaneMaps(src.size(), Rect(dst_tl, Point(dst_br.x+1, dst_br.y+1)),
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R, focal, projector_.scale, projector_.plane_dist, d_xmap_, d_ymap_);
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dst.create(dst_br.y - dst_tl.y + 1, dst_br.x - dst_tl.x + 1, src.type());
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remap(src, dst, Mat(d_xmap_), Mat(d_ymap_), interp_mode, border_mode);
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return dst_tl;
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}
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void SphericalWarper::detectResultRoi(Point &dst_tl, Point &dst_br)
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{
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detectResultRoiByBorder(dst_tl, dst_br);
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@ -168,3 +188,24 @@ Point SphericalWarperGpu::warp(const Mat &src, float focal, const Mat &R, Mat &d
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return dst_tl;
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}
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Point CylindricalWarperGpu::warp(const Mat &src, float focal, const Mat &R, Mat &dst,
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int interp_mode, int border_mode)
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{
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src_size_ = src.size();
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projector_.size = src.size();
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projector_.focal = focal;
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projector_.setTransformation(R);
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cv::Point dst_tl, dst_br;
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detectResultRoi(dst_tl, dst_br);
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gpu::buildWarpCylindricalMaps(src.size(), Rect(dst_tl, Point(dst_br.x+1, dst_br.y+1)),
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R, focal, projector_.scale, d_xmap_, d_ymap_);
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dst.create(dst_br.y - dst_tl.y + 1, dst_br.x - dst_tl.x + 1, src.type());
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remap(src, dst, Mat(d_xmap_), Mat(d_ymap_), interp_mode, border_mode);
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return dst_tl;
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}
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projector_.scale = scale;
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}
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private:
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protected:
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void detectResultRoi(cv::Point &dst_tl, cv::Point &dst_br);
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};
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class PlaneWarperGpu : public PlaneWarper
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{
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public:
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PlaneWarperGpu(float plane_dist = 1.f, float scale = 1.f) : PlaneWarper(plane_dist, scale) {}
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cv::Point warp(const cv::Mat &src, float focal, const cv::Mat &R, cv::Mat &dst,
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int interp_mode, int border_mode);
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private:
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cv::gpu::GpuMat d_xmap_, d_ymap_, d_dst_;
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};
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struct SphericalProjector : ProjectorBase
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{
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void mapForward(float x, float y, float &u, float &v);
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@ -158,13 +170,25 @@ class CylindricalWarper : public WarperBase<CylindricalProjector>
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public:
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CylindricalWarper(float scale = 300.f) { projector_.scale = scale; }
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private:
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protected:
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void detectResultRoi(cv::Point &dst_tl, cv::Point &dst_br)
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{
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WarperBase<CylindricalProjector>::detectResultRoiByBorder(dst_tl, dst_br);
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}
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};
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class CylindricalWarperGpu : public CylindricalWarper
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{
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public:
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CylindricalWarperGpu(float scale = 300.f) : CylindricalWarper(scale) {}
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cv::Point warp(const cv::Mat &src, float focal, const cv::Mat &R, cv::Mat &dst,
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int interp_mode, int border_mode);
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private:
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cv::gpu::GpuMat d_xmap_, d_ymap_, d_dst_;
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};
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#include "warpers_inl.hpp"
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#endif // __OPENCV_WARPERS_HPP__
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