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@ -55,7 +55,9 @@ Ptr<cv::cuda::DensePyrLKOpticalFlow> cv::cuda::DensePyrLKOpticalFlow::create(Siz |
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namespace pyrlk |
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{ |
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void loadConstants(int2 winSize, int iters, cudaStream_t stream); |
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void loadConstants(int* winSize, int iters, cudaStream_t stream); |
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void loadWinSize(int* winSize, int* halfWinSize, cudaStream_t stream); |
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void loadIters(int* iters, cudaStream_t stream); |
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template<typename T, int cn> struct pyrLK_caller |
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{ |
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static void sparse(PtrStepSz<typename device::TypeVec<T, cn>::vec_type> I, PtrStepSz<typename device::TypeVec<T, cn>::vec_type> J, const float2* prevPts, float2* nextPts, uchar* status, float* err, int ptcount, |
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@ -88,7 +90,8 @@ namespace |
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void dense(const GpuMat& prevImg, const GpuMat& nextImg, GpuMat& u, GpuMat& v, Stream& stream); |
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protected: |
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Size winSize_; |
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int winSize_[2]; |
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int halfWinSize_[2]; |
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int maxLevel_; |
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int iters_; |
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bool useInitialFlow_; |
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@ -100,8 +103,11 @@ namespace |
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}; |
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PyrLKOpticalFlowBase::PyrLKOpticalFlowBase(Size winSize, int maxLevel, int iters, bool useInitialFlow) : |
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winSize_(winSize), maxLevel_(maxLevel), iters_(iters), useInitialFlow_(useInitialFlow) |
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winSize_({winSize.width, winSize.height}), halfWinSize_({(winSize.width - 1) / 2, (winSize.height - 1) / 2}), |
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maxLevel_(maxLevel), iters_(iters), useInitialFlow_(useInitialFlow) |
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{ |
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pyrlk::loadWinSize(winSize_, halfWinSize_, 0); |
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pyrlk::loadIters(&iters_, 0); |
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} |
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void calcPatchSize(Size winSize, dim3& block, dim3& patch) |
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@ -148,7 +154,7 @@ namespace |
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CV_Assert(prevPyr[0].size() == nextPyr[0].size()); |
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CV_Assert(prevPts.rows == 1 && prevPts.type() == CV_32FC2); |
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CV_Assert(maxLevel_ >= 0); |
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CV_Assert(winSize_.width > 2 && winSize_.height > 2); |
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CV_Assert(winSize_[0] > 2 && winSize_[1] > 2); |
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if (useInitialFlow_) |
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CV_Assert(nextPts.size() == prevPts.size() && nextPts.type() == prevPts.type()); |
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else |
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@ -171,9 +177,11 @@ namespace |
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} |
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dim3 block, patch; |
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calcPatchSize(winSize_, block, patch); |
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calcPatchSize(Size(winSize_[0], winSize_[1]), block, patch); |
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CV_Assert(patch.x > 0 && patch.x < 6 && patch.y > 0 && patch.y < 6); |
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pyrlk::loadConstants(make_int2(winSize_.width, winSize_.height), iters_, StreamAccessor::getStream(stream)); |
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cudaStream_t stream_ = StreamAccessor::getStream(stream); |
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pyrlk::loadWinSize(winSize_, halfWinSize_, stream_); |
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pyrlk::loadIters(&iters_, stream_); |
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const int cn = prevPyr[0].channels(); |
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const int type = prevPyr[0].depth(); |
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@ -186,9 +194,9 @@ namespace |
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static const func_t funcs[6][4] = |
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{ |
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{ pyrlk::dispatcher<uchar, 1> , /*pyrlk::dispatcher<uchar, 2>*/ 0, pyrlk::dispatcher<uchar, 3> , pyrlk::dispatcher<uchar, 4> }, |
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{ /*pyrlk::dispatcher<char, 1>*/ 0, /*pyrlk::dispatcher<char, 2>*/ 0, /*pyrlk::dispatcher<char, 3>*/ 0, /*pyrlk::dispatcher<char, 4>*/ 0 }, |
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{ /*pyrlk::dispatcher<char, 1>*/ 0, /*pyrlk::dispatcher<char, 2>*/ 0, /*pyrlk::dispatcher<char, 3>*/ 0 , /*pyrlk::dispatcher<char, 4>*/ 0 }, |
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{ pyrlk::dispatcher<ushort, 1> , /*pyrlk::dispatcher<ushort, 2>*/0, pyrlk::dispatcher<ushort, 3> , pyrlk::dispatcher<ushort, 4> }, |
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{ /*pyrlk::dispatcher<short, 1>*/ 0, /*pyrlk::dispatcher<short, 2>*/ 0, /*pyrlk::dispatcher<short, 3>*/ 0, /*pyrlk::dispatcher<short, 4>*/0 }, |
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{ /*pyrlk::dispatcher<short, 1>*/ 0, /*pyrlk::dispatcher<short, 2>*/ 0, /*pyrlk::dispatcher<short, 3>*/ 0 , /*pyrlk::dispatcher<short, 4>*/0 }, |
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{ pyrlk::dispatcher<int, 1> , /*pyrlk::dispatcher<int, 2>*/ 0, pyrlk::dispatcher<int, 3> , pyrlk::dispatcher<int, 4> }, |
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{ pyrlk::dispatcher<float, 1> , /*pyrlk::dispatcher<float, 2>*/ 0, pyrlk::dispatcher<float, 3> , pyrlk::dispatcher<float, 4> } |
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}; |
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@ -201,7 +209,7 @@ namespace |
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prevPts.ptr<float2>(), nextPts.ptr<float2>(), |
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status.ptr(), level == 0 && err ? err->ptr<float>() : 0, |
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prevPts.cols, level, block, patch, |
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StreamAccessor::getStream(stream)); |
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stream_); |
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} |
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} |
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@ -229,7 +237,7 @@ namespace |
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CV_Assert( prevImg.type() == CV_8UC1 ); |
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CV_Assert( prevImg.size() == nextImg.size() && prevImg.type() == nextImg.type() ); |
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CV_Assert( maxLevel_ >= 0 ); |
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CV_Assert( winSize_.width > 2 && winSize_.height > 2 ); |
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CV_Assert( winSize_[0] > 2 && winSize_[1] > 2 ); |
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// build the image pyramids.
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@ -262,9 +270,11 @@ namespace |
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vPyr[0].setTo(Scalar::all(0), stream); |
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uPyr[1].setTo(Scalar::all(0), stream); |
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vPyr[1].setTo(Scalar::all(0), stream); |
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int2 winSize2i = make_int2(winSize_.width, winSize_.height); |
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pyrlk::loadConstants(winSize2i, iters_, StreamAccessor::getStream(stream)); |
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cudaStream_t stream_ = StreamAccessor::getStream(stream); |
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pyrlk::loadWinSize(winSize_, halfWinSize_, stream_); |
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pyrlk::loadIters(&iters_, stream_); |
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int2 winSize2i = make_int2(winSize_[0], winSize_[1]); |
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//pyrlk::loadConstants(winSize2i, iters_, StreamAccessor::getStream(stream));
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int idx = 0; |
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@ -275,7 +285,7 @@ namespace |
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pyrlk::pyrLK_caller<float,1>::dense(prevPyr_[level], nextPyr_[level], |
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uPyr[idx], vPyr[idx], uPyr[idx2], vPyr[idx2], |
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PtrStepSzf(), winSize2i, |
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StreamAccessor::getStream(stream)); |
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stream_); |
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if (level > 0) |
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idx = idx2; |
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@ -293,8 +303,13 @@ namespace |
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{ |
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} |
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virtual Size getWinSize() const { return winSize_; } |
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virtual void setWinSize(Size winSize) { winSize_ = winSize; } |
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virtual Size getWinSize() const { return cv::Size(winSize_[0], winSize_[1]); } |
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virtual void setWinSize(Size winSize) { |
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winSize_[0] = winSize.width; |
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winSize_[1] = winSize.height; |
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halfWinSize_[0] = (winSize.width - 1) / 2; |
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halfWinSize_[1] = (winSize.height -1) / 2; |
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} |
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virtual int getMaxLevel() const { return maxLevel_; } |
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virtual void setMaxLevel(int maxLevel) { maxLevel_ = maxLevel; } |
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@ -339,8 +354,13 @@ namespace |
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{ |
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} |
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virtual Size getWinSize() const { return winSize_; } |
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virtual void setWinSize(Size winSize) { winSize_ = winSize; } |
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virtual Size getWinSize() const { return cv::Size(winSize_[0], winSize_[1]); } |
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virtual void setWinSize(Size winSize) { |
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winSize_[0] = winSize.width; |
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winSize_[1] = winSize.height; |
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halfWinSize_[0] = (winSize.width - 1) / 2; |
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halfWinSize_[1] = (winSize.height -1) / 2; |
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} |
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virtual int getMaxLevel() const { return maxLevel_; } |
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virtual void setMaxLevel(int maxLevel) { maxLevel_ = maxLevel; } |
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