opencv/modules/objdetect/test/test_cascadeandhog.cpp

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#include "test_precomp.hpp"
#include "opencv2/imgproc/imgproc.hpp"
using namespace cv;
using namespace std;
//#define GET_STAT
#define DIST_E "distE"
#define S_E "sE"
#define NO_PAIR_E "noPairE"
//#define TOTAL_NO_PAIR_E "totalNoPairE"
#define DETECTOR_NAMES "detector_names"
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#define DETECTORS "detectors"
#define IMAGE_FILENAMES "image_filenames"
#define VALIDATION "validation"
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#define FILENAME "fn"
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#define C_SCALE_CASCADE "scale_cascade"
class CV_DetectorTest : public cvtest::BaseTest
{
public:
CV_DetectorTest();
protected:
virtual int prepareData( FileStorage& fs );
virtual void run( int startFrom );
virtual string& getValidationFilename();
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virtual void readDetector( const FileNode& fn ) = 0;
virtual void writeDetector( FileStorage& fs, int di ) = 0;
int runTestCase( int detectorIdx, vector<vector<Rect> >& objects );
virtual int detectMultiScale( int di, const Mat& img, vector<Rect>& objects ) = 0;
int validate( int detectorIdx, vector<vector<Rect> >& objects );
struct
{
float dist;
float s;
float noPair;
//float totalNoPair;
} eps;
vector<string> detectorNames;
vector<string> detectorFilenames;
vector<string> imageFilenames;
vector<Mat> images;
string validationFilename;
FileStorage validationFS;
};
CV_DetectorTest::CV_DetectorTest()
{
}
string& CV_DetectorTest::getValidationFilename()
{
return validationFilename;
}
int CV_DetectorTest::prepareData( FileStorage& _fs )
{
if( !_fs.isOpened() )
test_case_count = -1;
else
{
FileNode fn = _fs.getFirstTopLevelNode();
fn[DIST_E] >> eps.dist;
fn[S_E] >> eps.s;
fn[NO_PAIR_E] >> eps.noPair;
// fn[TOTAL_NO_PAIR_E] >> eps.totalNoPair;
// read detectors
if( fn[DETECTOR_NAMES].node->data.seq != 0 )
{
FileNodeIterator it = fn[DETECTOR_NAMES].begin();
for( ; it != fn[DETECTOR_NAMES].end(); )
{
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string _name;
it >> _name;
detectorNames.push_back(_name);
readDetector(fn[DETECTORS][_name]);
}
}
test_case_count = (int)detectorNames.size();
// read images filenames and images
string dataPath = ts->get_data_path();
if( fn[IMAGE_FILENAMES].node->data.seq != 0 )
{
for( FileNodeIterator it = fn[IMAGE_FILENAMES].begin(); it != fn[IMAGE_FILENAMES].end(); )
{
string filename;
it >> filename;
imageFilenames.push_back(filename);
Mat img = imread( dataPath+filename, 1 );
images.push_back( img );
}
}
}
return cvtest::TS::OK;
}
void CV_DetectorTest::run( int )
{
string dataPath = ts->get_data_path();
validationFS.open( dataPath + getValidationFilename(), FileStorage::READ );
int code = prepareData( validationFS );
if( code < 0 )
{
ts->set_failed_test_info( code );
return;
}
#ifdef GET_STAT
validationFS.release();
string filename = ts->get_data_path();
filename += getValidationFilename();
validationFS.open( filename, FileStorage::WRITE );
validationFS << FileStorage::getDefaultObjectName(validationFilename) << "{";
validationFS << DIST_E << eps.dist;
validationFS << S_E << eps.s;
validationFS << NO_PAIR_E << eps.noPair;
// validationFS << TOTAL_NO_PAIR_E << eps.totalNoPair;
// write detector names
validationFS << DETECTOR_NAMES << "[";
vector<string>::const_iterator nit = detectorNames.begin();
for( ; nit != detectorNames.end(); ++nit )
{
validationFS << *nit;
}
validationFS << "]"; // DETECTOR_NAMES
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// write detectors
validationFS << DETECTORS << "{";
assert( detectorNames.size() == detectorFilenames.size() );
nit = detectorNames.begin();
for( int di = 0; di < detectorNames.size(), nit != detectorNames.end(); ++nit, di++ )
{
validationFS << *nit << "{";
writeDetector( validationFS, di );
validationFS << "}";
}
validationFS << "}";
// write image filenames
validationFS << IMAGE_FILENAMES << "[";
vector<string>::const_iterator it = imageFilenames.begin();
for( int ii = 0; it != imageFilenames.end(); ++it, ii++ )
{
char buf[10];
sprintf( buf, "%s%d", "img_", ii );
cvWriteComment( validationFS.fs, buf, 0 );
validationFS << *it;
}
validationFS << "]"; // IMAGE_FILENAMES
validationFS << VALIDATION << "{";
#endif
int progress = 0;
for( int di = 0; di < test_case_count; di++ )
{
progress = update_progress( progress, di, test_case_count, 0 );
#ifdef GET_STAT
validationFS << detectorNames[di] << "{";
#endif
vector<vector<Rect> > objects;
int temp_code = runTestCase( di, objects );
#ifndef GET_STAT
if (temp_code == cvtest::TS::OK)
temp_code = validate( di, objects );
#endif
if (temp_code != cvtest::TS::OK)
code = temp_code;
#ifdef GET_STAT
validationFS << "}"; // detectorNames[di]
#endif
}
#ifdef GET_STAT
validationFS << "}"; // VALIDATION
validationFS << "}"; // getDefaultObjectName
#endif
if ( test_case_count <= 0 || imageFilenames.size() <= 0 )
{
ts->printf( cvtest::TS::LOG, "validation file is not determined or not correct" );
code = cvtest::TS::FAIL_INVALID_TEST_DATA;
}
ts->set_failed_test_info( code );
}
int CV_DetectorTest::runTestCase( int detectorIdx, vector<vector<Rect> >& objects )
{
string dataPath = ts->get_data_path(), detectorFilename;
if( !detectorFilenames[detectorIdx].empty() )
detectorFilename = dataPath + detectorFilenames[detectorIdx];
for( int ii = 0; ii < (int)imageFilenames.size(); ++ii )
{
vector<Rect> imgObjects;
Mat image = images[ii];
if( image.empty() )
{
char msg[30];
sprintf( msg, "%s %d %s", "image ", ii, " can not be read" );
ts->printf( cvtest::TS::LOG, msg );
return cvtest::TS::FAIL_INVALID_TEST_DATA;
}
int code = detectMultiScale( detectorIdx, image, imgObjects );
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if( code != cvtest::TS::OK )
return code;
objects.push_back( imgObjects );
#ifdef GET_STAT
char buf[10];
sprintf( buf, "%s%d", "img_", ii );
string imageIdxStr = buf;
validationFS << imageIdxStr << "[:";
for( vector<Rect>::const_iterator it = imgObjects.begin();
it != imgObjects.end(); ++it )
{
validationFS << it->x << it->y << it->width << it->height;
}
validationFS << "]"; // imageIdxStr
#endif
}
return cvtest::TS::OK;
}
bool isZero( uchar i ) {return i == 0;}
int CV_DetectorTest::validate( int detectorIdx, vector<vector<Rect> >& objects )
{
assert( imageFilenames.size() == objects.size() );
int imageIdx = 0;
int totalNoPair = 0, totalValRectCount = 0;
for( vector<vector<Rect> >::const_iterator it = objects.begin();
it != objects.end(); ++it, imageIdx++ ) // for image
{
Size imgSize = images[imageIdx].size();
float dist = min(imgSize.height, imgSize.width) * eps.dist;
float wDiff = imgSize.width * eps.s;
float hDiff = imgSize.height * eps.s;
int noPair = 0;
// read validation rectangles
char buf[10];
sprintf( buf, "%s%d", "img_", imageIdx );
string imageIdxStr = buf;
FileNode node = validationFS.getFirstTopLevelNode()[VALIDATION][detectorNames[detectorIdx]][imageIdxStr];
vector<Rect> valRects;
if( node.node->data.seq != 0 )
{
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for( FileNodeIterator it2 = node.begin(); it2 != node.end(); )
{
Rect r;
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it2 >> r.x >> r.y >> r.width >> r.height;
valRects.push_back(r);
}
}
totalValRectCount += (int)valRects.size();
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// compare rectangles
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vector<uchar> map(valRects.size(), 0);
for( vector<Rect>::const_iterator cr = it->begin();
cr != it->end(); ++cr )
{
// find nearest rectangle
Point2f cp1 = Point2f( cr->x + (float)cr->width/2.0f, cr->y + (float)cr->height/2.0f );
int minIdx = -1, vi = 0;
float minDist = (float)norm( Point(imgSize.width, imgSize.height) );
for( vector<Rect>::const_iterator vr = valRects.begin();
vr != valRects.end(); ++vr, vi++ )
{
Point2f cp2 = Point2f( vr->x + (float)vr->width/2.0f, vr->y + (float)vr->height/2.0f );
float curDist = (float)norm(cp1-cp2);
if( curDist < minDist )
{
minIdx = vi;
minDist = curDist;
}
}
if( minIdx == -1 )
{
noPair++;
}
else
{
Rect vr = valRects[minIdx];
if( map[minIdx] != 0 || (minDist > dist) || (abs(cr->width - vr.width) > wDiff) ||
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(abs(cr->height - vr.height) > hDiff) )
noPair++;
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else
map[minIdx] = 1;
}
}
noPair += (int)count_if( map.begin(), map.end(), isZero );
totalNoPair += noPair;
if( noPair > cvRound(valRects.size()*eps.noPair)+1 )
break;
}
if( imageIdx < (int)imageFilenames.size() )
{
char msg[500];
sprintf( msg, "detector %s has overrated count of rectangles without pair on %s-image\n",
detectorNames[detectorIdx].c_str(), imageFilenames[imageIdx].c_str() );
ts->printf( cvtest::TS::LOG, msg );
return cvtest::TS::FAIL_BAD_ACCURACY;
}
if ( totalNoPair > cvRound(totalValRectCount*eps./*total*/noPair)+1 )
{
ts->printf( cvtest::TS::LOG, "overrated count of rectangles without pair on all images set" );
return cvtest::TS::FAIL_BAD_ACCURACY;
}
return cvtest::TS::OK;
}
//----------------------------------------------- CascadeDetectorTest -----------------------------------
class CV_CascadeDetectorTest : public CV_DetectorTest
{
public:
CV_CascadeDetectorTest();
protected:
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virtual void readDetector( const FileNode& fn );
virtual void writeDetector( FileStorage& fs, int di );
virtual int detectMultiScale( int di, const Mat& img, vector<Rect>& objects );
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vector<int> flags;
};
CV_CascadeDetectorTest::CV_CascadeDetectorTest()
{
validationFilename = "cascadeandhog/cascade.xml";
}
void CV_CascadeDetectorTest::readDetector( const FileNode& fn )
{
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string filename;
int flag;
fn[FILENAME] >> filename;
detectorFilenames.push_back(filename);
fn[C_SCALE_CASCADE] >> flag;
if( flag )
flags.push_back( 0 );
else
flags.push_back( CV_HAAR_SCALE_IMAGE );
}
void CV_CascadeDetectorTest::writeDetector( FileStorage& fs, int di )
{
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int sc = flags[di] & CV_HAAR_SCALE_IMAGE ? 0 : 1;
fs << FILENAME << detectorFilenames[di];
fs << C_SCALE_CASCADE << sc;
}
int CV_CascadeDetectorTest::detectMultiScale( int di, const Mat& img,
vector<Rect>& objects)
{
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string dataPath = ts->get_data_path(), filename;
filename = dataPath + detectorFilenames[di];
CascadeClassifier cascade( filename );
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if( cascade.empty() )
{
ts->printf( cvtest::TS::LOG, "cascade %s can not be opened");
return cvtest::TS::FAIL_INVALID_TEST_DATA;
}
Mat grayImg;
cvtColor( img, grayImg, CV_BGR2GRAY );
equalizeHist( grayImg, grayImg );
cascade.detectMultiScale( grayImg, objects, 1.1, 3, flags[di] );
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return cvtest::TS::OK;
}
//----------------------------------------------- HOGDetectorTest -----------------------------------
class CV_HOGDetectorTest : public CV_DetectorTest
{
public:
CV_HOGDetectorTest();
protected:
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virtual void readDetector( const FileNode& fn );
virtual void writeDetector( FileStorage& fs, int di );
virtual int detectMultiScale( int di, const Mat& img, vector<Rect>& objects );
};
CV_HOGDetectorTest::CV_HOGDetectorTest()
{
validationFilename = "cascadeandhog/hog.xml";
}
void CV_HOGDetectorTest::readDetector( const FileNode& fn )
{
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string filename;
if( fn[FILENAME].node->data.seq != 0 )
fn[FILENAME] >> filename;
detectorFilenames.push_back( filename);
}
void CV_HOGDetectorTest::writeDetector( FileStorage& fs, int di )
{
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fs << FILENAME << detectorFilenames[di];
}
int CV_HOGDetectorTest::detectMultiScale( int di, const Mat& img,
vector<Rect>& objects)
{
HOGDescriptor hog;
if( detectorFilenames[di].empty() )
hog.setSVMDetector(HOGDescriptor::getDefaultPeopleDetector());
else
assert(0);
hog.detectMultiScale(img, objects);
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return cvtest::TS::OK;
}
TEST(Objdetect_CascadeDetector, regression) { CV_CascadeDetectorTest test; test.safe_run(); }
TEST(Objdetect_HOGDetector, regression) { CV_HOGDetectorTest test; test.safe_run(); }