Open Source Computer Vision Library https://opencv.org/
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#include "test_precomp.hpp"
namespace opencv_test { namespace {
//#define DRAW_TEST_IMAGE
class CV_DrawingTest : public cvtest::BaseTest
{
public:
CV_DrawingTest(){}
protected:
void run( int );
virtual void draw( Mat& img ) = 0;
virtual int checkLineIterator( Mat& img) = 0;
Merge pull request #13869 from chacha21:LineVirtualIterator * LineVirtualIterator Proposal of LineVirtualIterator, an alternative to "LineIterator not attached to any mat". This is basically the same implementation, replacing the address difference by a single "offset" variable. elemsize becomes irrelevant and considered to be 1. "step" is thus equal to size.width since no stride is expected. * Update drawing.cpp fixed warning * improvement of LineVirtualIterator instead of being too conservative, the new implementation gets rid of "offset/step" and only keeps a "Point currentPos" up to date. left_to_right is renamed to forceLeftToRight as suggested (even for the old LineIterator) assert() replaced by CV_Assert() (even for the old LineIterator) * fixed implementation +fixed last commit so that LineVirtualIterator gives at least the same results as LineIterator +added a new constructor that does not require any Size, so that no clipping is done and iteration occurs from pt1 to pt2. This is done by adding a spatial offset to pt1 and pt2 so that the same implementation is used, the size being in that case the spatial size between pt1 and pt2 * Update imgproc.hpp fixed warnings * Update drawing.cpp fixed whitespace * Update drawing.cpp trailing whitespace * Update imgproc.hpp +added a new constructor that takes a Rect rather than a Size. It computes the line pt1->pt2 that clips that rect. Yet again, this is still based on the same implementation, thanks to the Size and the currentPosOffset that can artifically consider the origin of the rect at (0,0) * revert changes revert changes on original LineIterator implementation, that will be superseded by the new LineVirtualIterator anyway * added test of LineVirtualIterator * More tests * refactoring Use C++11 chained constructors Improved code style * improve test Added offset as random test data. * fixed order of initialization * merged LineIterator and VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * made LineIterator::operator ++() more efficient added one perfectly predictable check; in theory, since ptmode is set in the end of the constructor in the header file, the compiler can figure out that it's always true/false and eliminate the check from the inline `LineIterator::operator++()` completely * optimized Line() function in the most common case (CV_8UC3) eliminated the check from the loop Co-authored-by: Vadim Pisarevsky <vadim.pisarevsky@gmail.com>
5 years ago
virtual int checkLineVirtualIterator() = 0;
};
void CV_DrawingTest::run( int )
{
Mat testImg, valImg;
const string fname = "../highgui/drawing/image.png";
string path = ts->get_data_path(), filename;
filename = path + fname;
draw( testImg );
valImg = imread( filename );
if( valImg.empty() )
{
//imwrite( filename, testImg );
ts->printf( ts->LOG, "test image can not be read");
#if defined(HAVE_PNG) || defined(HAVE_SPNG)
ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_TEST_DATA);
#else
ts->printf( ts->LOG, "PNG image support is not available");
ts->set_failed_test_info(cvtest::TS::OK);
#endif
return;
}
else
{
// image should match exactly
float err = (float)cvtest::norm( testImg, valImg, NORM_L1 );
float Eps = 1;
if( err > Eps)
{
ts->printf( ts->LOG, "NORM_L1 between testImg and valImg is equal %f (larger than %f)\n", err, Eps );
ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY);
}
else
{
ts->set_failed_test_info(checkLineIterator( testImg ));
}
}
Merge pull request #13869 from chacha21:LineVirtualIterator * LineVirtualIterator Proposal of LineVirtualIterator, an alternative to "LineIterator not attached to any mat". This is basically the same implementation, replacing the address difference by a single "offset" variable. elemsize becomes irrelevant and considered to be 1. "step" is thus equal to size.width since no stride is expected. * Update drawing.cpp fixed warning * improvement of LineVirtualIterator instead of being too conservative, the new implementation gets rid of "offset/step" and only keeps a "Point currentPos" up to date. left_to_right is renamed to forceLeftToRight as suggested (even for the old LineIterator) assert() replaced by CV_Assert() (even for the old LineIterator) * fixed implementation +fixed last commit so that LineVirtualIterator gives at least the same results as LineIterator +added a new constructor that does not require any Size, so that no clipping is done and iteration occurs from pt1 to pt2. This is done by adding a spatial offset to pt1 and pt2 so that the same implementation is used, the size being in that case the spatial size between pt1 and pt2 * Update imgproc.hpp fixed warnings * Update drawing.cpp fixed whitespace * Update drawing.cpp trailing whitespace * Update imgproc.hpp +added a new constructor that takes a Rect rather than a Size. It computes the line pt1->pt2 that clips that rect. Yet again, this is still based on the same implementation, thanks to the Size and the currentPosOffset that can artifically consider the origin of the rect at (0,0) * revert changes revert changes on original LineIterator implementation, that will be superseded by the new LineVirtualIterator anyway * added test of LineVirtualIterator * More tests * refactoring Use C++11 chained constructors Improved code style * improve test Added offset as random test data. * fixed order of initialization * merged LineIterator and VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * made LineIterator::operator ++() more efficient added one perfectly predictable check; in theory, since ptmode is set in the end of the constructor in the header file, the compiler can figure out that it's always true/false and eliminate the check from the inline `LineIterator::operator++()` completely * optimized Line() function in the most common case (CV_8UC3) eliminated the check from the loop Co-authored-by: Vadim Pisarevsky <vadim.pisarevsky@gmail.com>
5 years ago
ts->set_failed_test_info(checkLineVirtualIterator());
ts->set_failed_test_info(cvtest::TS::OK);
}
class CV_DrawingTest_CPP : public CV_DrawingTest
{
public:
CV_DrawingTest_CPP() {}
protected:
virtual void draw( Mat& img );
virtual int checkLineIterator( Mat& img);
Merge pull request #13869 from chacha21:LineVirtualIterator * LineVirtualIterator Proposal of LineVirtualIterator, an alternative to "LineIterator not attached to any mat". This is basically the same implementation, replacing the address difference by a single "offset" variable. elemsize becomes irrelevant and considered to be 1. "step" is thus equal to size.width since no stride is expected. * Update drawing.cpp fixed warning * improvement of LineVirtualIterator instead of being too conservative, the new implementation gets rid of "offset/step" and only keeps a "Point currentPos" up to date. left_to_right is renamed to forceLeftToRight as suggested (even for the old LineIterator) assert() replaced by CV_Assert() (even for the old LineIterator) * fixed implementation +fixed last commit so that LineVirtualIterator gives at least the same results as LineIterator +added a new constructor that does not require any Size, so that no clipping is done and iteration occurs from pt1 to pt2. This is done by adding a spatial offset to pt1 and pt2 so that the same implementation is used, the size being in that case the spatial size between pt1 and pt2 * Update imgproc.hpp fixed warnings * Update drawing.cpp fixed whitespace * Update drawing.cpp trailing whitespace * Update imgproc.hpp +added a new constructor that takes a Rect rather than a Size. It computes the line pt1->pt2 that clips that rect. Yet again, this is still based on the same implementation, thanks to the Size and the currentPosOffset that can artifically consider the origin of the rect at (0,0) * revert changes revert changes on original LineIterator implementation, that will be superseded by the new LineVirtualIterator anyway * added test of LineVirtualIterator * More tests * refactoring Use C++11 chained constructors Improved code style * improve test Added offset as random test data. * fixed order of initialization * merged LineIterator and VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * made LineIterator::operator ++() more efficient added one perfectly predictable check; in theory, since ptmode is set in the end of the constructor in the header file, the compiler can figure out that it's always true/false and eliminate the check from the inline `LineIterator::operator++()` completely * optimized Line() function in the most common case (CV_8UC3) eliminated the check from the loop Co-authored-by: Vadim Pisarevsky <vadim.pisarevsky@gmail.com>
5 years ago
virtual int checkLineVirtualIterator();
};
void CV_DrawingTest_CPP::draw( Mat& img )
{
Size imgSize( 600, 400 );
img.create( imgSize, CV_8UC3 );
vector<Point> polyline(4);
polyline[0] = Point(0, 0);
polyline[1] = Point(imgSize.width, 0);
polyline[2] = Point(imgSize.width, imgSize.height);
polyline[3] = Point(0, imgSize.height);
const Point* pts = &polyline[0];
int n = (int)polyline.size();
fillPoly( img, &pts, &n, 1, Scalar::all(255) );
Point p1(1,1), p2(3,3);
if( clipLine(Rect(0,0,imgSize.width,imgSize.height), p1, p2) && clipLine(imgSize, p1, p2) )
circle( img, Point(300,100), 40, Scalar(0,0,255), 3 ); // draw
p2 = Point(3,imgSize.height+1000);
if( clipLine(Rect(0,0,imgSize.width,imgSize.height), p1, p2) && clipLine(imgSize, p1, p2) )
circle( img, Point(500,300), 50, cvColorToScalar(255,CV_8UC3), 5, 8, 1 ); // draw
p1 = Point(imgSize.width,1), p2 = Point(imgSize.width,3);
if( clipLine(Rect(0,0,imgSize.width,imgSize.height), p1, p2) && clipLine(imgSize, p1, p2) )
circle( img, Point(390,100), 10, Scalar(0,0,255), 3 ); // not draw
p1 = Point(imgSize.width-1,1), p2 = Point(imgSize.width,3);
if( clipLine(Rect(0,0,imgSize.width,imgSize.height), p1, p2) && clipLine(imgSize, p1, p2) )
ellipse( img, Point(390,100), Size(20,30), 60, 0, 220.0, Scalar(0,200,0), 4 ); //draw
ellipse( img, RotatedRect(Point(100,200),Size(200,100),160), Scalar(200,200,255), 5 );
polyline.clear();
ellipse2Poly( Point(430,180), Size(100,150), 30, 0, 150, 20, polyline );
pts = &polyline[0];
n = (int)polyline.size();
polylines( img, &pts, &n, 1, false, Scalar(0,0,150), 4, CV_AA );
n = 0;
for( vector<Point>::const_iterator it = polyline.begin(); n < (int)polyline.size()-1; ++it, n++ )
{
line( img, *it, *(it+1), Scalar(50,250,100));
}
polyline.clear();
ellipse2Poly( Point(500,300), Size(50,80), 0, 0, 180, 10, polyline );
pts = &polyline[0];
n = (int)polyline.size();
polylines( img, &pts, &n, 1, true, Scalar(100,200,100), 20 );
fillConvexPoly( img, pts, n, Scalar(0, 80, 0) );
polyline.resize(8);
// external rectengular
polyline[0] = Point(0, 0);
polyline[1] = Point(80, 0);
polyline[2] = Point(80, 80);
polyline[3] = Point(0, 80);
// internal rectangular
polyline[4] = Point(20, 20);
polyline[5] = Point(60, 20);
polyline[6] = Point(60, 60);
polyline[7] = Point(20, 60);
const Point* ppts[] = {&polyline[0], &polyline[0]+4};
int pn[] = {4, 4};
fillPoly( img, ppts, pn, 2, Scalar(100, 100, 0), 8, 0, Point(500, 20) );
rectangle( img, Point(0, 300), Point(50, 398), Scalar(0,0,255) );
string text1 = "OpenCV";
int baseline = 0, thickness = 3, fontFace = FONT_HERSHEY_SCRIPT_SIMPLEX;
float fontScale = 2;
Size textSize = getTextSize( text1, fontFace, fontScale, thickness, &baseline);
baseline += thickness;
Point textOrg((img.cols - textSize.width)/2, (img.rows + textSize.height)/2);
rectangle(img, textOrg + Point(0, baseline), textOrg + Point(textSize.width, -textSize.height), Scalar(0,0,255));
line(img, textOrg + Point(0, thickness), textOrg + Point(textSize.width, thickness), Scalar(0, 0, 255));
putText(img, text1, textOrg, fontFace, fontScale, Scalar(150,0,150), thickness, 8);
string text2 = "abcdefghijklmnopqrstuvwxyz1234567890";
Scalar color(200,0,0);
fontScale = 0.5, thickness = 1;
int dist = 5;
textSize = getTextSize( text2, FONT_HERSHEY_SIMPLEX, fontScale, thickness, &baseline);
textOrg = Point(5,5)+Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_SIMPLEX, fontScale, color, thickness, CV_AA);
fontScale = 1;
textSize = getTextSize( text2, FONT_HERSHEY_PLAIN, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_PLAIN, fontScale, color, thickness, CV_AA);
fontScale = 0.5;
textSize = getTextSize( text2, FONT_HERSHEY_DUPLEX, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_DUPLEX, fontScale, color, thickness, CV_AA);
textSize = getTextSize( text2, FONT_HERSHEY_COMPLEX, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_COMPLEX, fontScale, color, thickness, CV_AA);
textSize = getTextSize( text2, FONT_HERSHEY_TRIPLEX, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_TRIPLEX, fontScale, color, thickness, CV_AA);
fontScale = 1;
textSize = getTextSize( text2, FONT_HERSHEY_COMPLEX_SMALL, fontScale, thickness, &baseline);
textOrg += Point(0,180) + Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_COMPLEX_SMALL, fontScale, color, thickness, CV_AA);
textSize = getTextSize( text2, FONT_HERSHEY_SCRIPT_SIMPLEX, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_SCRIPT_SIMPLEX, fontScale, color, thickness, CV_AA);
textSize = getTextSize( text2, FONT_HERSHEY_SCRIPT_COMPLEX, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_HERSHEY_SCRIPT_COMPLEX, fontScale, color, thickness, CV_AA);
dist = 15, fontScale = 0.5;
textSize = getTextSize( text2, FONT_ITALIC, fontScale, thickness, &baseline);
textOrg += Point(0,textSize.height+dist);
putText(img, text2, textOrg, FONT_ITALIC, fontScale, color, thickness, CV_AA);
}
int CV_DrawingTest_CPP::checkLineIterator( Mat& img )
{
LineIterator it( img, Point(0,300), Point(1000, 300) );
for(int i = 0; i < it.count; ++it, i++ )
{
Vec3b v = (Vec3b)(*(*it)) - img.at<Vec3b>(300,i);
float err = (float)cvtest::norm( v, NORM_L2 );
if( err != 0 )
{
ts->printf( ts->LOG, "LineIterator works incorrect" );
ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_OUTPUT);
}
}
ts->set_failed_test_info(cvtest::TS::OK);
return 0;
}
Merge pull request #13869 from chacha21:LineVirtualIterator * LineVirtualIterator Proposal of LineVirtualIterator, an alternative to "LineIterator not attached to any mat". This is basically the same implementation, replacing the address difference by a single "offset" variable. elemsize becomes irrelevant and considered to be 1. "step" is thus equal to size.width since no stride is expected. * Update drawing.cpp fixed warning * improvement of LineVirtualIterator instead of being too conservative, the new implementation gets rid of "offset/step" and only keeps a "Point currentPos" up to date. left_to_right is renamed to forceLeftToRight as suggested (even for the old LineIterator) assert() replaced by CV_Assert() (even for the old LineIterator) * fixed implementation +fixed last commit so that LineVirtualIterator gives at least the same results as LineIterator +added a new constructor that does not require any Size, so that no clipping is done and iteration occurs from pt1 to pt2. This is done by adding a spatial offset to pt1 and pt2 so that the same implementation is used, the size being in that case the spatial size between pt1 and pt2 * Update imgproc.hpp fixed warnings * Update drawing.cpp fixed whitespace * Update drawing.cpp trailing whitespace * Update imgproc.hpp +added a new constructor that takes a Rect rather than a Size. It computes the line pt1->pt2 that clips that rect. Yet again, this is still based on the same implementation, thanks to the Size and the currentPosOffset that can artifically consider the origin of the rect at (0,0) * revert changes revert changes on original LineIterator implementation, that will be superseded by the new LineVirtualIterator anyway * added test of LineVirtualIterator * More tests * refactoring Use C++11 chained constructors Improved code style * improve test Added offset as random test data. * fixed order of initialization * merged LineIterator and VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * merged LineIterator & VirtualLineIterator * made LineIterator::operator ++() more efficient added one perfectly predictable check; in theory, since ptmode is set in the end of the constructor in the header file, the compiler can figure out that it's always true/false and eliminate the check from the inline `LineIterator::operator++()` completely * optimized Line() function in the most common case (CV_8UC3) eliminated the check from the loop Co-authored-by: Vadim Pisarevsky <vadim.pisarevsky@gmail.com>
5 years ago
int CV_DrawingTest_CPP::checkLineVirtualIterator( )
{
RNG randomGenerator(1);
for (size_t test = 0; test < 10000; ++test)
{
int width = randomGenerator.uniform(0, 512+1);
int height = randomGenerator.uniform(0, 512+1);
int x1 = randomGenerator.uniform(-512, 1024+1);
int y1 = randomGenerator.uniform(-512, 1024+1);
int x2 = randomGenerator.uniform(-512, 1024+1);
int y2 = randomGenerator.uniform(-512, 1024+1);
int x3 = randomGenerator.uniform(-512, 1024+1);
int y3 = randomGenerator.uniform(-512, 1024+1);
int channels = randomGenerator.uniform(1, 3+1);
Mat m(cv::Size(width, height), CV_MAKETYPE(8U, channels));
Point p1(x1, y1);
Point p2(x2, y2);
Point offset(x3, y3);
LineIterator it( m, p1, p2 );
LineIterator vit(Rect(offset.x, offset.y, width, height), p1 + offset, p2 + offset);
if (it.count != vit.count)
{
ts->printf( ts->LOG, "virtual LineIterator works incorrectly" );
ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_OUTPUT);
break;
}
else
{
for(int i = 0; i < it.count; ++it, ++vit, i++ )
{
Point pIt = it.pos();
Point pVit = vit.pos() - offset;
if (pIt != pVit)
{
ts->printf( ts->LOG, "virtual LineIterator works incorrectly" );
ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_OUTPUT);
break;
}
}
}
}
ts->set_failed_test_info(cvtest::TS::OK);
return 0;
}
class CV_DrawingTest_Far : public CV_DrawingTest_CPP
{
public:
CV_DrawingTest_Far() {}
protected:
virtual void draw(Mat& img);
};
void CV_DrawingTest_Far::draw(Mat& img)
{
Size imgSize(32768 + 600, 400);
img.create(imgSize, CV_8UC3);
vector<Point> polyline(4);
polyline[0] = Point(32768 + 0, 0);
polyline[1] = Point(imgSize.width, 0);
polyline[2] = Point(imgSize.width, imgSize.height);
polyline[3] = Point(32768 + 0, imgSize.height);
const Point* pts = &polyline[0];
int n = (int)polyline.size();
fillPoly(img, &pts, &n, 1, Scalar::all(255));
Point p1(32768 + 1, 1), p2(32768 + 3, 3);
if (clipLine(Rect(32768 + 0, 0, imgSize.width, imgSize.height), p1, p2) && clipLine(imgSize, p1, p2))
circle(img, Point(32768 + 300, 100), 40, Scalar(0, 0, 255), 3); // draw
p2 = Point(32768 + 3, imgSize.height + 1000);
if (clipLine(Rect(32768 + 0, 0, imgSize.width, imgSize.height), p1, p2) && clipLine(imgSize, p1, p2))
circle(img, Point(65536 + 500, 300), 50, cvColorToScalar(255, CV_8UC3), 5, 8, 1); // draw
p1 = Point(imgSize.width, 1), p2 = Point(imgSize.width, 3);
if (clipLine(Rect(32768 + 0, 0, imgSize.width, imgSize.height), p1, p2) && clipLine(imgSize, p1, p2))
circle(img, Point(32768 + 390, 100), 10, Scalar(0, 0, 255), 3); // not draw
p1 = Point(imgSize.width - 1, 1), p2 = Point(imgSize.width, 3);
if (clipLine(Rect(32768 + 0, 0, imgSize.width, imgSize.height), p1, p2) && clipLine(imgSize, p1, p2))
ellipse(img, Point(32768 + 390, 100), Size(20, 30), 60, 0, 220.0, Scalar(0, 200, 0), 4); //draw
ellipse(img, RotatedRect(Point(32768 + 100, 200), Size(200, 100), 160), Scalar(200, 200, 255), 5);
polyline.clear();
ellipse2Poly(Point(32768 + 430, 180), Size(100, 150), 30, 0, 150, 20, polyline);
pts = &polyline[0];
n = (int)polyline.size();
polylines(img, &pts, &n, 1, false, Scalar(0, 0, 150), 4, CV_AA);
n = 0;
for (vector<Point>::const_iterator it = polyline.begin(); n < (int)polyline.size() - 1; ++it, n++)
{
line(img, *it, *(it + 1), Scalar(50, 250, 100));
}
polyline.clear();
ellipse2Poly(Point(32768 + 500, 300), Size(50, 80), 0, 0, 180, 10, polyline);
pts = &polyline[0];
n = (int)polyline.size();
polylines(img, &pts, &n, 1, true, Scalar(100, 200, 100), 20);
fillConvexPoly(img, pts, n, Scalar(0, 80, 0));
polyline.resize(8);
// external rectengular
polyline[0] = Point(32768 + 0, 0);
polyline[1] = Point(32768 + 80, 0);
polyline[2] = Point(32768 + 80, 80);
polyline[3] = Point(32768 + 0, 80);
// internal rectangular
polyline[4] = Point(32768 + 20, 20);
polyline[5] = Point(32768 + 60, 20);
polyline[6] = Point(32768 + 60, 60);
polyline[7] = Point(32768 + 20, 60);
const Point* ppts[] = { &polyline[0], &polyline[0] + 4 };
int pn[] = { 4, 4 };
fillPoly(img, ppts, pn, 2, Scalar(100, 100, 0), 8, 0, Point(500, 20));
rectangle(img, Point(32768 + 0, 300), Point(32768 + 50, 398), Scalar(0, 0, 255));
string text1 = "OpenCV";
int baseline = 0, thickness = 3, fontFace = FONT_HERSHEY_SCRIPT_SIMPLEX;
float fontScale = 2;
Size textSize = getTextSize(text1, fontFace, fontScale, thickness, &baseline);
baseline += thickness;
Point textOrg((32768 + img.cols - textSize.width) / 2, (img.rows + textSize.height) / 2);
rectangle(img, textOrg + Point(0, baseline), textOrg + Point(textSize.width, -textSize.height), Scalar(0, 0, 255));
line(img, textOrg + Point(0, thickness), textOrg + Point(textSize.width, thickness), Scalar(0, 0, 255));
putText(img, text1, textOrg, fontFace, fontScale, Scalar(150, 0, 150), thickness, 8);
string text2 = "abcdefghijklmnopqrstuvwxyz1234567890";
Scalar color(200, 0, 0);
fontScale = 0.5, thickness = 1;
int dist = 5;
textSize = getTextSize(text2, FONT_HERSHEY_SIMPLEX, fontScale, thickness, &baseline);
textOrg = Point(32768 + 5, 5) + Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_SIMPLEX, fontScale, color, thickness, CV_AA);
fontScale = 1;
textSize = getTextSize(text2, FONT_HERSHEY_PLAIN, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_PLAIN, fontScale, color, thickness, CV_AA);
fontScale = 0.5;
textSize = getTextSize(text2, FONT_HERSHEY_DUPLEX, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_DUPLEX, fontScale, color, thickness, CV_AA);
textSize = getTextSize(text2, FONT_HERSHEY_COMPLEX, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_COMPLEX, fontScale, color, thickness, CV_AA);
textSize = getTextSize(text2, FONT_HERSHEY_TRIPLEX, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_TRIPLEX, fontScale, color, thickness, CV_AA);
fontScale = 1;
textSize = getTextSize(text2, FONT_HERSHEY_COMPLEX_SMALL, fontScale, thickness, &baseline);
textOrg += Point(0, 180) + Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_COMPLEX_SMALL, fontScale, color, thickness, CV_AA);
textSize = getTextSize(text2, FONT_HERSHEY_SCRIPT_SIMPLEX, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_SCRIPT_SIMPLEX, fontScale, color, thickness, CV_AA);
textSize = getTextSize(text2, FONT_HERSHEY_SCRIPT_COMPLEX, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_HERSHEY_SCRIPT_COMPLEX, fontScale, color, thickness, CV_AA);
dist = 15, fontScale = 0.5;
textSize = getTextSize(text2, FONT_ITALIC, fontScale, thickness, &baseline);
textOrg += Point(0, textSize.height + dist);
putText(img, text2, textOrg, FONT_ITALIC, fontScale, color, thickness, CV_AA);
img = img(Rect(32768, 0, 600, 400)).clone();
}
TEST(Drawing, cpp_regression) { CV_DrawingTest_CPP test; test.safe_run(); }
TEST(Drawing, far_regression) { CV_DrawingTest_Far test; test.safe_run(); }
class CV_FillConvexPolyTest : public cvtest::BaseTest
{
public:
CV_FillConvexPolyTest() {}
~CV_FillConvexPolyTest() {}
protected:
void run(int)
{
vector<Point> line1;
vector<Point> line2;
line1.push_back(Point(1, 1));
line1.push_back(Point(5, 1));
line1.push_back(Point(5, 8));
line1.push_back(Point(1, 8));
line2.push_back(Point(2, 2));
line2.push_back(Point(10, 2));
line2.push_back(Point(10, 16));
line2.push_back(Point(2, 16));
Mat gray0(10,10,CV_8U, Scalar(0));
fillConvexPoly(gray0, line1, Scalar(255), 8, 0);
int nz1 = countNonZero(gray0);
fillConvexPoly(gray0, line2, Scalar(0), 8, 1);
int nz2 = countNonZero(gray0)/255;
CV_Assert( nz1 == 40 && nz2 == 0 );
}
};
TEST(Drawing, fillconvexpoly_clipping) { CV_FillConvexPolyTest test; test.safe_run(); }
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class CV_DrawingTest_UTF8 : public cvtest::BaseTest
{
public:
CV_DrawingTest_UTF8() {}
~CV_DrawingTest_UTF8() {}
protected:
void run(int)
{
vector<string> lines;
lines.push_back("abcdefghijklmnopqrstuvwxyz1234567890");
// cyrillic letters small
lines.push_back("\xD0\xB0\xD0\xB1\xD0\xB2\xD0\xB3\xD0\xB4\xD0\xB5\xD1\x91\xD0\xB6\xD0\xB7"
"\xD0\xB8\xD0\xB9\xD0\xBA\xD0\xBB\xD0\xBC\xD0\xBD\xD0\xBE\xD0\xBF\xD1\x80"
"\xD1\x81\xD1\x82\xD1\x83\xD1\x84\xD1\x85\xD1\x86\xD1\x87\xD1\x88\xD1\x89"
"\xD1\x8A\xD1\x8B\xD1\x8C\xD1\x8D\xD1\x8E\xD1\x8F");
// cyrillic letters capital
lines.push_back("\xD0\x90\xD0\x91\xD0\x92\xD0\x93\xD0\x94\xD0\x95\xD0\x81\xD0\x96\xD0\x97"
"\xD0\x98\xD0\x99\xD0\x9A\xD0\x9B\xD0\x9C\xD0\x9D\xD0\x9E\xD0\x9F\xD0\xA0"
"\xD0\xA1\xD0\xA2\xD0\xA3\xD0\xA4\xD0\xA5\xD0\xA6\xD0\xA7\xD0\xA8\xD0\xA9"
"\xD0\xAA\xD0\xAB\xD0\xAC\xD0\xAD\xD0\xAE\xD0\xAF");
// bounds
lines.push_back("-\xD0\x80-\xD0\x8E-\xD0\x8F-");
lines.push_back("-\xD1\x90-\xD1\x91-\xD1\xBF-");
// bad utf8
lines.push_back("-\x81-\x82-\x83-");
lines.push_back("--\xF0--");
lines.push_back("-\xF0");
vector<int> fonts;
fonts.push_back(FONT_HERSHEY_SIMPLEX);
fonts.push_back(FONT_HERSHEY_PLAIN);
fonts.push_back(FONT_HERSHEY_DUPLEX);
fonts.push_back(FONT_HERSHEY_COMPLEX);
fonts.push_back(FONT_HERSHEY_TRIPLEX);
fonts.push_back(FONT_HERSHEY_COMPLEX_SMALL);
fonts.push_back(FONT_HERSHEY_SCRIPT_SIMPLEX);
fonts.push_back(FONT_HERSHEY_SCRIPT_COMPLEX);
vector<Mat> results;
Size bigSize(0, 0);
for (vector<int>::const_iterator font = fonts.begin(); font != fonts.end(); ++font)
{
for (int italic = 0; italic <= FONT_ITALIC; italic += FONT_ITALIC)
{
for (vector<string>::const_iterator line = lines.begin(); line != lines.end(); ++line)
{
const float fontScale = 1;
const int thickness = 1;
const Scalar color(20,20,20);
int baseline = 0;
Size textSize = getTextSize(*line, *font | italic, fontScale, thickness, &baseline);
Point textOrg(0, textSize.height + 2);
Mat img(textSize + Size(0, baseline), CV_8UC3, Scalar(255, 255, 255));
putText(img, *line, textOrg, *font | italic, fontScale, color, thickness, CV_AA);
results.push_back(img);
bigSize.width = max(bigSize.width, img.size().width);
bigSize.height += img.size().height + 1;
}
}
}
int shift = 0;
Mat result(bigSize, CV_8UC3, Scalar(100, 100, 100));
for (vector<Mat>::const_iterator img = results.begin(); img != results.end(); ++img)
{
Rect roi(Point(0, shift), img->size());
Mat sub(result, roi);
img->copyTo(sub);
shift += img->size().height + 1;
}
if (cvtest::debugLevel > 0)
imwrite("all_fonts.png", result);
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}
};
TEST(Drawing, utf8_support) { CV_DrawingTest_UTF8 test; test.safe_run(); }
TEST(Drawing, _914)
{
const int rows = 256;
const int cols = 256;
Mat img(rows, cols, CV_8UC1, Scalar(255));
line(img, Point(0, 10), Point(255, 10), Scalar(0), 2, 4);
line(img, Point(-5, 20), Point(260, 20), Scalar(0), 2, 4);
line(img, Point(10, 0), Point(10, 255), Scalar(0), 2, 4);
double x0 = 0.0/pow(2.0, -2.0);
double x1 = 255.0/pow(2.0, -2.0);
double y = 30.5/pow(2.0, -2.0);
line(img, Point(int(x0), int(y)), Point(int(x1), int(y)), Scalar(0), 2, 4, 2);
int pixelsDrawn = rows*cols - countNonZero(img);
ASSERT_EQ( (3*rows + cols)*3 - 3*9, pixelsDrawn);
}
TEST(Drawing, polylines_empty)
{
Mat img(100, 100, CV_8UC1, Scalar(0));
vector<Point> pts; // empty
polylines(img, pts, false, Scalar(255));
int cnt = countNonZero(img);
ASSERT_EQ(cnt, 0);
}
TEST(Drawing, polylines)
{
Mat img(100, 100, CV_8UC1, Scalar(0));
vector<Point> pts;
pts.push_back(Point(0, 0));
pts.push_back(Point(20, 0));
polylines(img, pts, false, Scalar(255));
int cnt = countNonZero(img);
ASSERT_EQ(cnt, 21);
}
TEST(Drawing, longline)
{
Mat mat = Mat::zeros(256, 256, CV_8UC1);
line(mat, cv::Point(34, 204), cv::Point(46400, 47400), cv::Scalar(255), 3);
EXPECT_EQ(310, cv::countNonZero(mat));
Point pt[6];
pt[0].x = 32;
pt[0].y = 204;
pt[1].x = 34;
pt[1].y = 202;
pt[2].x = 87;
pt[2].y = 255;
pt[3].x = 82;
pt[3].y = 255;
pt[4].x = 37;
pt[4].y = 210;
pt[5].x = 37;
pt[5].y = 209;
fillConvexPoly(mat, pt, 6, cv::Scalar(0));
EXPECT_EQ(0, cv::countNonZero(mat));
}
TEST(Drawing, putText_no_garbage)
{
Size sz(640, 480);
Mat mat = Mat::zeros(sz, CV_8UC1);
mat = Scalar::all(0);
putText(mat, "029", Point(10, 350), 0, 10, Scalar(128), 15);
EXPECT_EQ(0, cv::countNonZero(mat(Rect(0, 0, 10, sz.height))));
EXPECT_EQ(0, cv::countNonZero(mat(Rect(sz.width-10, 0, 10, sz.height))));
EXPECT_EQ(0, cv::countNonZero(mat(Rect(205, 0, 10, sz.height))));
EXPECT_EQ(0, cv::countNonZero(mat(Rect(405, 0, 10, sz.height))));
}
TEST(Drawing, line)
{
Mat mat = Mat::zeros(Size(100,100), CV_8UC1);
ASSERT_THROW(line(mat, Point(1,1),Point(99,99),Scalar(255),0), cv::Exception);
}
TEST(Drawing, regression_16308)
{
Mat_<uchar> img(Size(100, 100), (uchar)0);
circle(img, Point(50, 50), 50, 255, 1, LINE_AA);
EXPECT_NE(0, (int)img.at<uchar>(0, 50));
EXPECT_NE(0, (int)img.at<uchar>(50, 0));
EXPECT_NE(0, (int)img.at<uchar>(50, 99));
EXPECT_NE(0, (int)img.at<uchar>(99, 50));
}
TEST(Drawing, fillpoly_circle)
{
Mat img_c(640, 480, CV_8UC3, Scalar::all(0));
Mat img_fp = img_c.clone(), img_fcp = img_c.clone(), img_fp3 = img_c.clone();
Point center1(img_c.cols/2, img_c.rows/2);
Point center2(img_c.cols/10, img_c.rows*3/4);
Point center3 = Point(img_c.cols, img_c.rows) - center2;
int radius = img_c.rows/4;
int radius_small = img_c.cols/15;
Scalar color(0, 0, 255);
circle(img_c, center1, radius, color, -1);
// check that circle, fillConvexPoly and fillPoly
// give almost the same result then asked to draw a single circle
vector<Point> vtx;
ellipse2Poly(center1, Size(radius, radius), 0, 0, 360, 1, vtx);
fillConvexPoly(img_fcp, vtx, color);
fillPoly(img_fp, vtx, color);
double diff_fp = cv::norm(img_c, img_fp, NORM_L1)/(255*radius*2*CV_PI);
double diff_fcp = cv::norm(img_c, img_fcp, NORM_L1)/(255*radius*2*CV_PI);
EXPECT_LT(diff_fp, 1.);
EXPECT_LT(diff_fcp, 1.);
// check that fillPoly can draw 3 disjoint circles at once
circle(img_c, center2, radius_small, color, -1);
circle(img_c, center3, radius_small, color, -1);
vector<vector<Point> > vtx3(3);
vtx3[0] = vtx;
ellipse2Poly(center2, Size(radius_small, radius_small), 0, 0, 360, 1, vtx3[1]);
ellipse2Poly(center3, Size(radius_small, radius_small), 0, 0, 360, 1, vtx3[2]);
fillPoly(img_fp3, vtx3, color);
double diff_fp3 = cv::norm(img_c, img_fp3, NORM_L1)/(255*(radius+radius_small*2)*2*CV_PI);
EXPECT_LT(diff_fp3, 1.);
}
}} // namespace