root/modules/cudaimgproc/src/hough_lines.cpp

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DEFINITIONS

This source file includes following definitions.
  1. createHoughLinesDetector
  2. maxLines_
  3. setRho
  4. getRho
  5. setTheta
  6. getTheta
  7. setThreshold
  8. getThreshold
  9. setDoSort
  10. getDoSort
  11. setMaxLines
  12. getMaxLines
  13. write
  14. read
  15. detect
  16. downloadResults
  17. createHoughLinesDetector
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#include "precomp.hpp"

using namespace cv;
using namespace cv::cuda;

#if !defined (HAVE_CUDA) || defined (CUDA_DISABLER)

Ptr<cuda::HoughLinesDetector> cv::cuda::createHoughLinesDetector(float, float, int, bool, int) { throw_no_cuda(); return Ptr<HoughLinesDetector>(); }

#else /* !defined (HAVE_CUDA) */

namespace cv { namespace cuda { namespace device
{
    namespace hough
    {
        int buildPointList_gpu(PtrStepSzb src, unsigned int* list);
    }

    namespace hough_lines
    {
        void linesAccum_gpu(const unsigned int* list, int count, PtrStepSzi accum, float rho, float theta, size_t sharedMemPerBlock, bool has20);
        int linesGetResult_gpu(PtrStepSzi accum, float2* out, int* votes, int maxSize, float rho, float theta, int threshold, bool doSort);
    }
}}}

namespace
{
    class HoughLinesDetectorImpl : public HoughLinesDetector
    {
    public:
        HoughLinesDetectorImpl(float rho, float theta, int threshold, bool doSort, int maxLines) :
            rho_(rho), theta_(theta), threshold_(threshold), doSort_(doSort), maxLines_(maxLines)
        {
        }

        void detect(InputArray src, OutputArray lines, Stream& stream);
        void downloadResults(InputArray d_lines, OutputArray h_lines, OutputArray h_votes, Stream& stream);

        void setRho(float rho) { rho_ = rho; }
        float getRho() const { return rho_; }

        void setTheta(float theta) { theta_ = theta; }
        float getTheta() const { return theta_; }

        void setThreshold(int threshold) { threshold_ = threshold; }
        int getThreshold() const { return threshold_; }

        void setDoSort(bool doSort) { doSort_ = doSort; }
        bool getDoSort() const { return doSort_; }

        void setMaxLines(int maxLines) { maxLines_ = maxLines; }
        int getMaxLines() const { return maxLines_; }

        void write(FileStorage& fs) const
        {
            fs << "name" << "HoughLinesDetector_CUDA"
            << "rho" << rho_
            << "theta" << theta_
            << "threshold" << threshold_
            << "doSort" << doSort_
            << "maxLines" << maxLines_;
        }

        void read(const FileNode& fn)
        {
            CV_Assert( String(fn["name"]) == "HoughLinesDetector_CUDA" );
            rho_ = (float)fn["rho"];
            theta_ = (float)fn["theta"];
            threshold_ = (int)fn["threshold"];
            doSort_ = (int)fn["doSort"] != 0;
            maxLines_ = (int)fn["maxLines"];
        }

    private:
        float rho_;
        float theta_;
        int threshold_;
        bool doSort_;
        int maxLines_;

        GpuMat accum_;
        GpuMat list_;
        GpuMat result_;
    };

    void HoughLinesDetectorImpl::detect(InputArray _src, OutputArray lines, Stream& stream)
    {
        // TODO : implement async version
        (void) stream;

        using namespace cv::cuda::device::hough;
        using namespace cv::cuda::device::hough_lines;

        GpuMat src = _src.getGpuMat();

        CV_Assert( src.type() == CV_8UC1 );
        CV_Assert( src.cols < std::numeric_limits<unsigned short>::max() );
        CV_Assert( src.rows < std::numeric_limits<unsigned short>::max() );

        ensureSizeIsEnough(1, src.size().area(), CV_32SC1, list_);
        unsigned int* srcPoints = list_.ptr<unsigned int>();

        const int pointsCount = buildPointList_gpu(src, srcPoints);
        if (pointsCount == 0)
        {
            lines.release();
            return;
        }

        const int numangle = cvRound(CV_PI / theta_);
        const int numrho = cvRound(((src.cols + src.rows) * 2 + 1) / rho_);
        CV_Assert( numangle > 0 && numrho > 0 );

        ensureSizeIsEnough(numangle + 2, numrho + 2, CV_32SC1, accum_);
        accum_.setTo(Scalar::all(0));

        DeviceInfo devInfo;
        linesAccum_gpu(srcPoints, pointsCount, accum_, rho_, theta_, devInfo.sharedMemPerBlock(), devInfo.supports(FEATURE_SET_COMPUTE_20));

        ensureSizeIsEnough(2, maxLines_, CV_32FC2, result_);

        int linesCount = linesGetResult_gpu(accum_, result_.ptr<float2>(0), result_.ptr<int>(1), maxLines_, rho_, theta_, threshold_, doSort_);

        if (linesCount == 0)
        {
            lines.release();
            return;
        }

        result_.cols = linesCount;
        result_.copyTo(lines);
    }

    void HoughLinesDetectorImpl::downloadResults(InputArray _d_lines, OutputArray h_lines, OutputArray h_votes, Stream& stream)
    {
        GpuMat d_lines = _d_lines.getGpuMat();

        if (d_lines.empty())
        {
            h_lines.release();
            if (h_votes.needed())
                h_votes.release();
            return;
        }

        CV_Assert( d_lines.rows == 2 && d_lines.type() == CV_32FC2 );

        if (stream)
            d_lines.row(0).download(h_lines, stream);
        else
            d_lines.row(0).download(h_lines);

        if (h_votes.needed())
        {
            GpuMat d_votes(1, d_lines.cols, CV_32SC1, d_lines.ptr<int>(1));
            if (stream)
                d_votes.download(h_votes, stream);
            else
                d_votes.download(h_votes);
        }
    }
}

Ptr<HoughLinesDetector> cv::cuda::createHoughLinesDetector(float rho, float theta, int threshold, bool doSort, int maxLines)
{
    return makePtr<HoughLinesDetectorImpl>(rho, theta, threshold, doSort, maxLines);
}

#endif /* !defined (HAVE_CUDA) */
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