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#ifndef OPENCV_STITCHING_EXPOSURE_COMPENSATE_HPP
#define OPENCV_STITCHING_EXPOSURE_COMPENSATE_HPP
#if defined(NO)
# warning Detected Apple 'NO' macro definition, it can cause build conflicts. Please, include this header before any Apple headers.
#endif
#include "opencv2/core.hpp"
namespace cv {
namespace detail {
//! @addtogroup stitching_exposure
//! @{
/** @brief Base class for all exposure compensators.
*/
class CV_EXPORTS_W ExposureCompensator
{
public:
ExposureCompensator(): updateGain(true) {}
virtual ~ExposureCompensator() {}
enum { NO, GAIN, GAIN_BLOCKS, CHANNELS, CHANNELS_BLOCKS };
CV_WRAP static Ptr<ExposureCompensator> createDefault(int type);
/**
@param corners Source image top-left corners
@param images Source images
@param masks Image masks to update (second value in pair specifies the value which should be used
to detect where image is)
*/
CV_WRAP void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<UMat> &masks);
/** @overload */
virtual void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat, uchar> > &masks) = 0;
/** @brief Compensate exposure in the specified image.
@param index Image index
@param corner Image top-left corner
@param image Image to process
@param mask Image mask
*/
CV_WRAP virtual void apply(int index, Point corner, InputOutputArray image, InputArray mask) = 0;
CV_WRAP virtual void getMatGains(CV_OUT std::vector<Mat>& ) {CV_Error(Error::StsInternal, "");};
CV_WRAP virtual void setMatGains(std::vector<Mat>& ) { CV_Error(Error::StsInternal, ""); };
CV_WRAP void setUpdateGain(bool b) { updateGain = b; };
CV_WRAP bool getUpdateGain() { return updateGain; };
protected :
bool updateGain;
};
/** @brief Stub exposure compensator which does nothing.
*/
class CV_EXPORTS_W NoExposureCompensator : public ExposureCompensator
{
public:
void feed(const std::vector<Point> &/*corners*/, const std::vector<UMat> &/*images*/,
const std::vector<std::pair<UMat,uchar> > &/*masks*/) CV_OVERRIDE { }
CV_WRAP void apply(int /*index*/, Point /*corner*/, InputOutputArray /*image*/, InputArray /*mask*/) CV_OVERRIDE { }
CV_WRAP void getMatGains(CV_OUT std::vector<Mat>& umv) CV_OVERRIDE { umv.clear(); return; };
CV_WRAP void setMatGains(std::vector<Mat>& umv) CV_OVERRIDE { umv.clear(); return; };
};
/** @brief Exposure compensator which tries to remove exposure related artifacts by adjusting image
intensities, see @cite BL07 and @cite WJ10 for details.
*/
class CV_EXPORTS_W GainCompensator : public ExposureCompensator
{
public:
// This Constructor only exists to make source level compatibility detector happy
CV_WRAP GainCompensator()
: GainCompensator(1) {}
CV_WRAP GainCompensator(int nr_feeds)
: nr_feeds_(nr_feeds) {}
void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat,uchar> > &masks) CV_OVERRIDE;
void singleFeed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat,uchar> > &masks);
CV_WRAP void apply(int index, Point corner, InputOutputArray image, InputArray mask) CV_OVERRIDE;
CV_WRAP void getMatGains(CV_OUT std::vector<Mat>& umv) CV_OVERRIDE ;
CV_WRAP void setMatGains(std::vector<Mat>& umv) CV_OVERRIDE ;
CV_WRAP void setNrFeeds(int nr_feeds) { nr_feeds_ = nr_feeds; }
CV_WRAP int getNrFeeds() { return nr_feeds_; }
std::vector<double> gains() const;
private:
Mat_<double> gains_;
int nr_feeds_;
};
/** @brief Exposure compensator which tries to remove exposure related artifacts by adjusting image
intensities on each channel independently.
*/
class CV_EXPORTS_W ChannelsCompensator : public ExposureCompensator
{
public:
CV_WRAP ChannelsCompensator(int nr_feeds=1) : nr_feeds_(nr_feeds) {}
void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat,uchar> > &masks) CV_OVERRIDE;
CV_WRAP void apply(int index, Point corner, InputOutputArray image, InputArray mask) CV_OVERRIDE;
CV_WRAP void getMatGains(CV_OUT std::vector<Mat>& umv) CV_OVERRIDE;
CV_WRAP void setMatGains(std::vector<Mat>& umv) CV_OVERRIDE;
CV_WRAP void setNrFeeds(int nr_feeds) { nr_feeds_ = nr_feeds; }
CV_WRAP int getNrFeeds() { return nr_feeds_; }
std::vector<Scalar> gains() const { return gains_; }
private:
std::vector<Scalar> gains_;
int nr_feeds_;
};
/** @brief Exposure compensator which tries to remove exposure related artifacts by adjusting image blocks.
*/
class CV_EXPORTS_W BlocksCompensator : public ExposureCompensator
{
public:
BlocksCompensator(int bl_width=32, int bl_height=32, int nr_feeds=1)
: bl_width_(bl_width), bl_height_(bl_height), nr_feeds_(nr_feeds), nr_gain_filtering_iterations_(2) {}
CV_WRAP void apply(int index, Point corner, InputOutputArray image, InputArray mask) CV_OVERRIDE;
CV_WRAP void getMatGains(CV_OUT std::vector<Mat>& umv) CV_OVERRIDE;
CV_WRAP void setMatGains(std::vector<Mat>& umv) CV_OVERRIDE;
CV_WRAP void setNrFeeds(int nr_feeds) { nr_feeds_ = nr_feeds; }
CV_WRAP int getNrFeeds() { return nr_feeds_; }
CV_WRAP void setBlockSize(int width, int height) { bl_width_ = width; bl_height_ = height; }
CV_WRAP void setBlockSize(Size size) { setBlockSize(size.width, size.height); }
CV_WRAP Size getBlockSize() const { return Size(bl_width_, bl_height_); }
CV_WRAP void setNrGainsFilteringIterations(int nr_iterations) { nr_gain_filtering_iterations_ = nr_iterations; }
CV_WRAP int getNrGainsFilteringIterations() const { return nr_gain_filtering_iterations_; }
protected:
template<class Compensator>
void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat,uchar> > &masks);
private:
UMat getGainMap(const GainCompensator& compensator, int bl_idx, Size bl_per_img);
UMat getGainMap(const ChannelsCompensator& compensator, int bl_idx, Size bl_per_img);
int bl_width_, bl_height_;
std::vector<UMat> gain_maps_;
int nr_feeds_;
int nr_gain_filtering_iterations_;
};
/** @brief Exposure compensator which tries to remove exposure related artifacts by adjusting image block
intensities, see @cite UES01 for details.
*/
class CV_EXPORTS_W BlocksGainCompensator : public BlocksCompensator
{
public:
// This Constructor only exists to make source level compatibility detector happy
CV_WRAP BlocksGainCompensator(int bl_width = 32, int bl_height = 32)
: BlocksGainCompensator(bl_width, bl_height, 1) {}
CV_WRAP BlocksGainCompensator(int bl_width, int bl_height, int nr_feeds)
: BlocksCompensator(bl_width, bl_height, nr_feeds) {}
void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat,uchar> > &masks) CV_OVERRIDE;
// This function only exists to make source level compatibility detector happy
CV_WRAP void apply(int index, Point corner, InputOutputArray image, InputArray mask) CV_OVERRIDE {
BlocksCompensator::apply(index, corner, image, mask); }
// This function only exists to make source level compatibility detector happy
CV_WRAP void getMatGains(CV_OUT std::vector<Mat>& umv) CV_OVERRIDE { BlocksCompensator::getMatGains(umv); }
// This function only exists to make source level compatibility detector happy
CV_WRAP void setMatGains(std::vector<Mat>& umv) CV_OVERRIDE { BlocksCompensator::setMatGains(umv); }
};
/** @brief Exposure compensator which tries to remove exposure related artifacts by adjusting image block
on each channel.
*/
class CV_EXPORTS_W BlocksChannelsCompensator : public BlocksCompensator
{
public:
CV_WRAP BlocksChannelsCompensator(int bl_width=32, int bl_height=32, int nr_feeds=1)
: BlocksCompensator(bl_width, bl_height, nr_feeds) {}
void feed(const std::vector<Point> &corners, const std::vector<UMat> &images,
const std::vector<std::pair<UMat,uchar> > &masks) CV_OVERRIDE;
};
//! @}
} // namespace detail
} // namespace cv
#endif // OPENCV_STITCHING_EXPOSURE_COMPENSATE_HPP