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#ifndef __CVAUX_HPP__
#define __CVAUX_HPP__
#ifdef __cplusplus
/****************************************************************************************\
* Image class *
\****************************************************************************************/
class CV_EXPORTS CvCamShiftTracker
{
public:
CvCamShiftTracker();
virtual ~CvCamShiftTracker();
/**** Characteristics of the object that are calculated by track_object method *****/
float get_orientation() const // orientation of the object in degrees
{ return m_box.angle; }
float get_length() const // the larger linear size of the object
{ return m_box.size.height; }
float get_width() const // the smaller linear size of the object
{ return m_box.size.width; }
CvPoint2D32f get_center() const // center of the object
{ return m_box.center; }
CvRect get_window() const // bounding rectangle for the object
{ return m_comp.rect; }
/*********************** Tracking parameters ************************/
int get_threshold() const // thresholding value that applied to back project
{ return m_threshold; }
int get_hist_dims( int* dims = 0 ) const // returns number of histogram dimensions and sets
{ return m_hist ? cvGetDims( m_hist->bins, dims ) : 0; }
int get_min_ch_val( int channel ) const // get the minimum allowed value of the specified channel
{ return m_min_ch_val[channel]; }
int get_max_ch_val( int channel ) const // get the maximum allowed value of the specified channel
{ return m_max_ch_val[channel]; }
// set initial object rectangle (must be called before initial calculation of the histogram)
bool set_window( CvRect window)
{ m_comp.rect = window; return true; }
bool set_threshold( int threshold ) // threshold applied to the histogram bins
{ m_threshold = threshold; return true; }
bool set_hist_bin_range( int dim, int min_val, int max_val );
bool set_hist_dims( int c_dims, int* dims );// set the histogram parameters
bool set_min_ch_val( int channel, int val ) // set the minimum allowed value of the specified channel
{ m_min_ch_val[channel] = val; return true; }
bool set_max_ch_val( int channel, int val ) // set the maximum allowed value of the specified channel
{ m_max_ch_val[channel] = val; return true; }
/************************ The processing methods *********************************/
// update object position
virtual bool track_object( const IplImage* cur_frame );
// update object histogram
virtual bool update_histogram( const IplImage* cur_frame );
// reset histogram
virtual void reset_histogram();
/************************ Retrieving internal data *******************************/
// get back project image
virtual IplImage* get_back_project()
{ return m_back_project; }
float query( int* bin ) const
{ return m_hist ? (float)cvGetRealND(m_hist->bins, bin) : 0.f; }
protected:
// internal method for color conversion: fills m_color_planes group
virtual void color_transform( const IplImage* img );
CvHistogram* m_hist;
CvBox2D m_box;
CvConnectedComp m_comp;
float m_hist_ranges_data[CV_MAX_DIM][2];
float* m_hist_ranges[CV_MAX_DIM];
int m_min_ch_val[CV_MAX_DIM];
int m_max_ch_val[CV_MAX_DIM];
int m_threshold;
IplImage* m_color_planes[CV_MAX_DIM];
IplImage* m_back_project;
IplImage* m_temp;
IplImage* m_mask;
};
#endif /* __cplusplus */
#endif /* __CVAUX_HPP__ */
/* End of file. */