opencv/modules/imgproc/src/featureselect.cpp

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/*M///////////////////////////////////////////////////////////////////////////////////////
//
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//
//
// Intel License Agreement
// For Open Source Computer Vision Library
//
// Copyright (C) 2000, Intel Corporation, all rights reserved.
// Third party copyrights are property of their respective owners.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
//
// * Redistribution's of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
//
// * Redistribution's in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
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// * The name of Intel Corporation may not be used to endorse or promote products
// derived from this software without specific prior written permission.
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// (including, but not limited to, procurement of substitute goods or services;
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#include "precomp.hpp"
#include <cstdio>
#include <vector>
namespace cv
{
template<typename T> struct greaterThanPtr
{
bool operator()(const T* a, const T* b) const { return *a > *b; }
};
void goodFeaturesToTrack( const Mat& image, vector<Point2f>& corners,
int maxCorners, double qualityLevel, double minDistance,
const Mat& mask, int blockSize,
bool useHarrisDetector, double harrisK )
{
CV_Assert( qualityLevel > 0 && minDistance >= 0 && maxCorners >= 0 );
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CV_Assert( mask.empty() || (mask.type() == CV_8UC1 && mask.size() == image.size()) );
Mat eig, tmp;
if( useHarrisDetector )
cornerHarris( image, eig, blockSize, 3, harrisK );
else
cornerMinEigenVal( image, eig, blockSize, 3 );
double maxVal = 0;
minMaxLoc( eig, 0, &maxVal, 0, 0, mask );
threshold( eig, eig, maxVal*qualityLevel, 0, THRESH_TOZERO );
dilate( eig, tmp, Mat());
Size imgsize = image.size();
vector<const float*> tmpCorners;
// collect list of pointers to features - put them into temporary image
for( int y = 1; y < imgsize.height - 1; y++ )
{
const float* eig_data = (const float*)eig.ptr(y);
const float* tmp_data = (const float*)tmp.ptr(y);
const uchar* mask_data = mask.data ? mask.ptr(y) : 0;
for( int x = 1; x < imgsize.width - 1; x++ )
{
float val = eig_data[x];
if( val != 0 && val == tmp_data[x] && (!mask_data || mask_data[x]) )
tmpCorners.push_back(eig_data + x);
}
}
sort( tmpCorners, greaterThanPtr<float>() );
corners.clear();
size_t i, j, total = tmpCorners.size(), ncorners = 0;
if(minDistance >= 1)
{
// Partition the image into larger grids
int w = image.cols;
int h = image.rows;
const int cell_size = cvRound(minDistance);
const int grid_width = (w + cell_size - 1) / cell_size;
const int grid_height = (h + cell_size - 1) / cell_size;
std::vector<std::vector<Point2f> > grid(grid_width*grid_height);
minDistance *= minDistance;
for( i = 0; i < total; i++ )
{
int ofs = (int)((const uchar*)tmpCorners[i] - eig.data);
int y = (int)(ofs / eig.step);
int x = (int)((ofs - y*eig.step)/sizeof(float));
bool good = true;
int x_cell = x / cell_size;
int y_cell = y / cell_size;
int x1 = x_cell - 1;
int y1 = y_cell - 1;
int x2 = x_cell + 1;
int y2 = y_cell + 1;
// boundary check
x1 = std::max(0, x1);
y1 = std::max(0, y1);
x2 = std::min(grid_width-1, x2);
y2 = std::min(grid_height-1, y2);
for( int yy = y1; yy <= y2; yy++ )
{
for( int xx = x1; xx <= x2; xx++ )
{
vector <Point2f> &m = grid[yy*grid_width + xx];
if( m.size() )
{
for(j = 0; j < m.size(); j++)
{
float dx = x - m[j].x;
float dy = y - m[j].y;
if( dx*dx + dy*dy < minDistance )
{
good = false;
goto break_out;
}
}
}
}
}
break_out:
if(good)
{
// printf("%d: %d %d -> %d %d, %d, %d -- %d %d %d %d, %d %d, c=%d\n",
// i,x, y, x_cell, y_cell, (int)minDistance, cell_size,x1,y1,x2,y2, grid_width,grid_height,c);
grid[y_cell*grid_width + x_cell].push_back(Point2f((float)x, (float)y));
corners.push_back(Point2f((float)x, (float)y));
++ncorners;
if( maxCorners > 0 && (int)ncorners == maxCorners )
break;
}
}
}
else
{
for( i = 0; i < total; i++ )
{
int ofs = (int)((const uchar*)tmpCorners[i] - eig.data);
int y = (int)(ofs / eig.step);
int x = (int)((ofs - y*eig.step)/sizeof(float));
corners.push_back(Point2f((float)x, (float)y));
++ncorners;
if( maxCorners > 0 && (int)ncorners == maxCorners )
break;
}
}
/*
for( i = 0; i < total; i++ )
{
int ofs = (int)((const uchar*)tmpCorners[i] - eig.data);
int y = (int)(ofs / eig.step);
int x = (int)((ofs - y*eig.step)/sizeof(float));
if( minDistance > 0 )
{
for( j = 0; j < ncorners; j++ )
{
float dx = x - corners[j].x;
float dy = y - corners[j].y;
if( dx*dx + dy*dy < minDistance )
break;
}
if( j < ncorners )
continue;
}
corners.push_back(Point2f((float)x, (float)y));
++ncorners;
if( maxCorners > 0 && (int)ncorners == maxCorners )
break;
}
*/
}
}
CV_IMPL void
cvGoodFeaturesToTrack( const void* _image, void*, void*,
CvPoint2D32f* _corners, int *_corner_count,
double quality_level, double min_distance,
const void* _maskImage, int block_size,
int use_harris, double harris_k )
{
cv::Mat image = cv::cvarrToMat(_image), mask;
cv::vector<cv::Point2f> corners;
if( _maskImage )
mask = cv::cvarrToMat(_maskImage);
CV_Assert( _corners && _corner_count );
cv::goodFeaturesToTrack( image, corners, *_corner_count, quality_level,
min_distance, mask, block_size, use_harris != 0, harris_k );
size_t i, ncorners = corners.size();
for( i = 0; i < ncorners; i++ )
_corners[i] = corners[i];
*_corner_count = (int)ncorners;
}
/* End of file. */