C++ (Cpp) colorD Exemples

Exemple #1

Fichier : CmColorQua.cpp Projet : 20083017/CmCode

// src3f are BGR, color3f are 1xBinDim matrix represent color fore each histogram bin
int CmColorQua::S_BinInf(CMat& idx1i, Mat &color3f, vecI &colorNum, int method, CMat &src3f)
{
	int totalBinNum = 0;
	CV_Assert(idx1i.data != NULL && idx1i.type() == CV_32S && method >= 0 && method < S_Q_NUM);

	// Find colors for each bin
	color3f = Mat::zeros(1, binNum[method], CV_32FC3);
	Vec3f* color = (Vec3f*)(color3f.data);

	vector<Vec3d> colorD(color3f.cols, 0);
	colorNum.resize(color3f.cols, 0);
	if (src3f.size() != Size() && src3f.data != NULL)	{
		for (int r = 0; r < idx1i.rows; r++) {
			const int *idx = idx1i.ptr<int>(r);
			const Vec3f *src = src3f.ptr<Vec3f>(r);
			for (int c = 0; c < idx1i.cols; c++)	{
				colorD[idx[c]] += src[c];
				colorNum[idx[c]] ++;
			}
		}
	}
	S_RECOVER_FUNC SR_Function = srFuns[method];
	for (int i = 0; i < color3f.cols; i++)	{
		if (colorNum[i] == 0)
			(*SR_Function)(i, color[i]);
		else
			totalBinNum += colorNum[i];
	}
	if (method == 1)
		cvtColor(color3f, color3f, CV_HSV2BGR);
	else if (method == 2)
		cvtColor(color3f, color3f, CV_Lab2BGR);

	for (int i = 0; i < color3f.cols; i++)
		if (colorNum[i] > 0)
			color[i] = Vec3f((float)(colorD[i][0]/colorNum[i]), (float)(colorD[i][1]/colorNum[i]), (float)(colorD[i][2]/colorNum[i]));

	return totalBinNum;
}

Exemple #2

Fichier : view.cpp Projet : Arcen/MedicalImage

/*
region<int> getDiffer( trackDocument * doc, int areaIndex, int start, int end, int time )
{
	boundaryArea & area = doc->areas[areaIndex];
	boundaryCurve & curve = area.divisions.first();
	boundaryCurveIndex index;
	index.curve = 0;
	index.size = curve.points.size;
	index.start = start;
	index.end = end;
	static array2<bool> flag;
	flag.allocate( doc->width, doc->height );
	region<int> result;
	if ( ! time ) return result;
	area.update( time - 1 );
	area.update( time );
	region<int> prevShape, nowShape;
	{
		list< point2<int> > segments;
		bool checkStart = true;
		for ( boundaryCurveIndex::iterator iti( index ); iti; ++iti ) {
			curve.segment( segments, iti(), time - 1 );
		}
		memset( flag.data, 0, sizeof( bool ) * flag.size );
		for ( list< point2<int> >::iterator itp( segments ); itp; ++itp ) {
			flag( clamp( 0, itp->x, doc->width - 1 ), clamp( 0, itp->y, doc->height - 1 ) ) = true;
		}
		prevShape.set( flag, 0, 0 );
	}
	{
		list< point2<int> > segments;
		bool checkStart = true;
		for ( boundaryCurveIndex::iterator iti( index ); iti; ++iti ) {
			curve.segment( segments, iti(), time );
		}
		memset( flag.data, 0, sizeof( bool ) * flag.size );
		for ( list< point2<int> >::iterator itp( segments ); itp; ++itp ) {
			flag( clamp( 0, itp->x, doc->width - 1 ), clamp( 0, itp->y, doc->height - 1 ) ) = true;
		}
		nowShape.set( flag, 0, 0 );
	}
	region<int> round;
	round = nowShape | prevShape;
	{
		region<int> line;
		point2<int> p1 = curve.points[start]( time - 1 );
		point2<int> p2 = curve.points[start]( time );
		line.line( p1.x, p1.y, p2.x, p2.y );
		round |= line;
	}
	{
		region<int> line;
		point2<int> p1 = curve.points[end]( time - 1 );
		point2<int> p2 = curve.points[end]( time );
		line.line( p1.x, p1.y, p2.x, p2.y );
		round |= line;
	}
	round.fill( result );
	return result;
}
*/
void stateDocument::paint()
{
	trackDocument * doc = trackDocument::get();
	trackView * view = trackView::get();
	if ( ! doc ) return;
	if ( ! view ) return;
	static image viewImage;//画面表示用画像
	viewImage.topdown = false;
	double maxValue = doc->maxValues[doc->currentViewImageIndex];
	double windowLevel = windowLevelBar->get();
	double windowSize = windowSizeBar->get();
	decimal rate = 255.0 / windowSize;
	decimal offset = windowLevel - windowSize / 2;

	imageInterface< pixelLuminance<int16> > * img = & doc->originalImages[doc->currentViewImageIndex];
	switch ( view->mode & trackView::baseImageMask ) {
	case trackView::original:
		break;
	case trackView::vertEdge: 
		img = & doc->verticalEdgeImages[doc->currentViewImageIndex]; 
		break;
	case trackView::horzEdge: 
		img = & doc->horizontalEdgeImages[doc->currentViewImageIndex]; 
		break;
	default:
		offset = 0;
		rate = 0;
		break;
	}
	viewImage.create( img->width, img->height );
	pixel p( 0, 0, 0, 255 );
	if ( rate ) {
		for ( int y = 0; y < img->height; ++y ) {
			for ( int x = 0; x < img->width; ++x ) {
				p.r = p.g = p.b = static_cast<int8>( clamp<decimal>( 0, 
					( img->getInternal( x, y ).y - offset ) * rate, 255.0 ) );
				viewImage.setInternal( x, y, p );
			}
		}
	} else {
		for ( int y = 0; y < img->height; ++y ) {
			for ( int x = 0; x < img->width; ++x ) {
				viewImage.setInternal( x, y, p );
			}
		}
	}
	//波の表示用の色
	pixel colorV( 0, 0, 255, 255 );
	pixel colorH( 0, 255, 0, 255 );
	pixel colorA( 255, 255, 0, 255 );
	pixel colorD( 255, 0, 255, 255 );
	//論文投稿用の表示
	if ( false && ( ( view->mode & trackView::baseImageMask ) == trackView::none ) ) {
		p.r = p.g = p.b = 0;
		for ( int y = 0; y < img->height; ++y ) {
			for ( int x = 0; x < img->width; ++x ) {
				viewImage.setInternal( x, y, p );
			}
		}
		for ( int t = 0; t < doc->sizeTime(); ++t ) {
			pixel c;
			if ( view->mode & trackView::vertical ) {
				for ( array< list<link> >::iterator ita( doc->verticalLinks ); ita; ++ita ) {
					for ( list<link>::iterator it( ita() ); it; ++it ) {
						c.r = c.g = c.b = clamp<int>( 0, it->reliability * 255, 255 );
						int x = it->cx * doc->wave[t] + it->bx;
						int y = it->cy * doc->wave[t] + it->by;
						viewImage.set( x, y, blendMax( viewImage.get( x, y ), c ) );
					}
				}
			}
			if ( view->mode & trackView::horizontal ) {
				for ( array< list<link> >::iterator ita( doc->horizontalLinks ); ita; ++ita ) {
					for ( list<link>::iterator it( ita() ); it; ++it ) {
						c.r = c.g = c.b = clamp<int>( 0, it->reliability * 255, 255 );
						int x = it->cx * doc->wave[t] + it->bx;
						int y = it->cy * doc->wave[t] + it->by;
						viewImage.set( x, y, blendMax( viewImage.get( x, y ), c ) );
					}
				}
			}
			if ( view->mode & trackView::ascent ) {
				for ( array< list<link> >::iterator ita( doc->ascentLinks ); ita; ++ita ) {
					for ( list<link>::iterator it( ita() ); it; ++it ) {
						c.r = c.g = c.b = clamp<int>( 0, it->reliability * 255, 255 );
						int x = it->cx * doc->wave[t] + it->bx;
						int y = it->cy * doc->wave[t] + it->by;
						viewImage.set( x, y, blendMax( viewImage.get( x, y ), c ) );
					}
				}
			}
			if ( view->mode & trackView::descent ) {
				for ( array< list<link> >::iterator ita( doc->descentLinks ); ita; ++ita ) {
					for ( list<link>::iterator it( ita() ); it; ++it ) {
						c.r = c.g = c.b = clamp<int>( 0, it->reliability * 255, 255 );
						int x = it->cx * doc->wave[t] + it->bx;
						int y = it->cy * doc->wave[t] + it->by;
						viewImage.set( x, y, blendMax( viewImage.get( x, y ), c ) );
					}
				}
			}
		}
	} else
	if ( view->mode != trackView::original ) {
/*
		if ( view->mode & trackView::vertical ) {
			checkMaximum<double> mx;
			for ( array< list<link> >::iterator ita( doc->verticalLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					mx( it->intensity );
				}
			}
			for ( array< list<link> >::iterator ita( doc->verticalLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorV;
					c.a = clamp<int>( 0, c.a * it->intensity / mx(), 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
		if ( view->mode & trackView::horizontal ) {
			checkMaximum<double> mx;
			for ( array< list<link> >::iterator ita( doc->horizontalLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					mx( it->intensity );
				}
			}
			for ( array< list<link> >::iterator ita( doc->horizontalLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorH;
					c.a = clamp<int>( 0, c.a * it->intensity / mx(), 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
		if ( view->mode & trackView::ascent ) {
			checkMaximum<double> mx;
			for ( array< list<link> >::iterator ita( doc->ascentLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					mx( it->intensity );
				}
			}
			for ( array< list<link> >::iterator ita( doc->ascentLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorA;
					c.a = clamp<int>( 0, c.a * it->intensity / mx(), 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
		if ( view->mode & trackView::descent ) {
			checkMaximum<double> mx;
			for ( array< list<link> >::iterator ita( doc->descentLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					mx( it->intensity );
				}
			}
			for ( array< list<link> >::iterator ita( doc->descentLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorD;
					c.a = clamp<int>( 0, c.a * it->intensity / mx(), 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}

		*/
		if ( view->mode & trackView::vertical ) {
			for ( array< list<link> >::iterator ita( doc->verticalLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorV;
					c.a = clamp<int>( 0, c.a * it->reliability, 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
		if ( view->mode & trackView::horizontal ) {
			for ( array< list<link> >::iterator ita( doc->horizontalLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorH;
					c.a = clamp<int>( 0, c.a * it->reliability, 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
		if ( view->mode & trackView::ascent ) {
			for ( array< list<link> >::iterator ita( doc->ascentLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorA;
					c.a = clamp<int>( 0, c.a * it->reliability, 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
		if ( view->mode & trackView::descent ) {
			for ( array< list<link> >::iterator ita( doc->descentLinks ); ita; ++ita ) {
				for ( list<link>::iterator it( ita() ); it; ++it ) {
					pixel c = colorD;
					c.a = clamp<int>( 0, c.a * it->reliability, 255 );
					int x = it->cx * doc->wave[doc->currentViewImageIndex] + it->bx;
					int y = it->cy * doc->wave[doc->currentViewImageIndex] + it->by;
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
	}
	/*
	for ( int i = 0; i < 4; ++i ) {
		for ( array2<flicker>::iterator it( doc->flickers[i] ); it; ++it ) {
			if ( it->value < 0.25 ) continue;
			pixel c( 0, 255, 0, 255 );
			c.a = clamp<int>( 0, c.a * it->value, 128 );
			const point2<int> & pos = it->lnk.position( doc->currentViewImageIndex, doc->wave );
			int x = pos.x, y = pos.y;
			viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
		}
	}
	*/
	for ( list< boundaryArea >::iterator it( doc->areas ); it; ++it ) {
		it->update( doc->currentViewImageIndex );
	}
	list< point2<int> > points;
	pixel linecolor( 255, 255, 0, 128 );
	pixel pointcolor( 0, 255, 0, 255 );
	pixel itnitialpointcolor( 0, 0, 255, 255 );
	pixel editedpointcolor( 255, 0, 0, 255 );
	/*
	for ( list< boundaryArea >::iterator it( doc->areas ); it; ++it ) {
		boundaryArea & area = it();
		if ( ! area.enable ) continue;
		pixel areacolor( 0, 0, 0, 64 );
		for ( list< boundaryPart >::iterator ita( area.parts ); ita; ++ita ) {
			areacolor.r = rand() % 256;
			areacolor.g = rand() % 256;
			areacolor.b = rand() % 256;
			areacolor.a = 128;
			boundaryPart & part = ita();
			for ( region<int>::iterator itp( part.shapes[doc->currentViewImageIndex] ); itp; ++itp ) {
				int x = itp->x;
				int y = itp->y;
				viewImage.set( x, y, blend( viewImage.get( x, y ), areacolor ) );
			}
		}
	}
	*/
	for ( list< boundaryArea >::iterator it( doc->areas ); it; ++it ) {
		//曲線の表示
		if ( doc->show_curve )
		{
			for ( list< point2<int> >::iterator itp( it->boundaryCurves[doc->currentViewImageIndex] ); itp; ++itp ) {
				const point2<int> & p = itp();
				int x = p.x;
				int y = p.y;
				viewImage.set( x, y, blend( viewImage.get( x, y ), linecolor ) );
			}
		}
		//制御点の表示
		for ( list<boundaryPoint*>::iterator itc( it->controlPoints ); itc; ++itc ) {
			boundaryPoint & bp = *itc();
			const point2<int> & p = bp( doc->currentViewImageIndex );
			pixel c;
			switch ( bp.type( doc->currentViewImageIndex ) ) {
			case boundaryPointFrame::typeInitial: c = itnitialpointcolor; break;
			case boundaryPointFrame::typeEdited: c = editedpointcolor; break;
			case boundaryPointFrame::typeInterpolated: c = pointcolor; break;
			default: c = pointcolor; break;
			}
			for ( int y = p.y - 1; y <= p.y + 1; ++y ) {
				for ( int x = p.x - 1; x <= p.x + 1; ++x ) {
					viewImage.set( x, y, blend( viewImage.get( x, y ), c ) );
				}
			}
		}
	}
	paint( viewImage );
}