diff --git a/libs/widgets/KisVisualRectangleSelectorShape.cpp b/libs/widgets/KisVisualRectangleSelectorShape.cpp index 196c61ccd9..aa4a896d77 100644 --- a/libs/widgets/KisVisualRectangleSelectorShape.cpp +++ b/libs/widgets/KisVisualRectangleSelectorShape.cpp @@ -1,373 +1,373 @@ /* * Copyright (C) Wolthera van Hovell tot Westerflier , (C) 2016 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "KisVisualRectangleSelectorShape.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "KoColorConversions.h" #include "KoColorDisplayRendererInterface.h" #include "KoChannelInfo.h" #include #include #include "kis_signal_compressor.h" #include "kis_debug.h" KisVisualRectangleSelectorShape::KisVisualRectangleSelectorShape(QWidget *parent, Dimensions dimension, const KoColorSpace *cs, int channel1, int channel2, const KoColorDisplayRendererInterface *displayRenderer, int width, singelDTypes d) : KisVisualColorSelectorShape(parent, dimension, cs, channel1, channel2, displayRenderer) { //qDebug() << "creating KisVisualRectangleSelectorShape" << this; m_type = d; m_barWidth = width; } KisVisualRectangleSelectorShape::~KisVisualRectangleSelectorShape() { //qDebug() << "deleting KisVisualRectangleSelectorShape" << this; } void KisVisualRectangleSelectorShape::setBorderWidth(int width) { m_barWidth = width; } QRect KisVisualRectangleSelectorShape::getSpaceForSquare(QRect geom) { QPointF tl; QPointF br; if (m_type==KisVisualRectangleSelectorShape::vertical) { br = geom.bottomRight(); tl = QPoint(geom.topLeft().x()+m_barWidth, geom.topLeft().y()); } else if (m_type==KisVisualRectangleSelectorShape::horizontal) { br = geom.bottomRight(); tl = QPoint(geom.topLeft().x(), geom.topLeft().y()+m_barWidth); } else { tl = QPointF (geom.topLeft().x()+m_barWidth, geom.topLeft().y()+m_barWidth); br = QPointF (geom.bottomRight().x()-m_barWidth, geom.bottomRight().y()-m_barWidth); } QRect a(tl.toPoint(), br.toPoint()); QRect r(a.left(), a.top(), qMin(a.height(), a.width()), qMin(a.height(), a.width())); return r; } QRect KisVisualRectangleSelectorShape::getSpaceForCircle(QRect geom) { return getSpaceForSquare(geom); } QRect KisVisualRectangleSelectorShape::getSpaceForTriangle(QRect geom) { return getSpaceForSquare(geom); } QPointF KisVisualRectangleSelectorShape::convertShapeCoordinateToWidgetCoordinate(QPointF coordinate) const { // Reminder: in Qt widget space, origin is top-left, but we want zero y to be at the bottom qreal x = 0.5 * m_barWidth; qreal y = 0.5 * m_barWidth; qreal offset = 5.0; KisVisualColorSelectorShape::Dimensions dimension = getDimensions(); if (dimension == KisVisualColorSelectorShape::onedimensional) { if ( m_type == KisVisualRectangleSelectorShape::vertical) { y = qMin((1.0 - coordinate.x())*(height()-offset*2)+offset, (qreal)height()); } else if (m_type == KisVisualRectangleSelectorShape::horizontal) { x = qMin(coordinate.x()*(width()-offset*2)+offset, (qreal)width()); } else if (m_type == KisVisualRectangleSelectorShape::border) { QRectF innerRect(m_barWidth/2, m_barWidth/2, width()-m_barWidth, height()-m_barWidth); QPointF left (innerRect.left(),innerRect.center().y()); QList polygonLines; polygonLines.append(QLineF(left, innerRect.topLeft())); polygonLines.append(QLineF(innerRect.topLeft(), innerRect.topRight())); polygonLines.append(QLineF(innerRect.topRight(), innerRect.bottomRight())); polygonLines.append(QLineF(innerRect.bottomRight(), innerRect.bottomLeft())); polygonLines.append(QLineF(innerRect.bottomLeft(), left)); qreal totalLength =0.0; Q_FOREACH(QLineF line, polygonLines) { totalLength += line.length(); } qreal length = coordinate.x()*totalLength; QPointF intersect(x,y); Q_FOREACH(QLineF line, polygonLines) { if (line.length()>length && length>0){ intersect = line.pointAt(length/line.length()); } length-=line.length(); } x = qRound(intersect.x()); y = qRound(intersect.y()); } else /*if (m_type == KisVisualRectangleSelectorShape::borderMirrored)*/ { QRectF innerRect(m_barWidth/2, m_barWidth/2, width()-m_barWidth, height()-m_barWidth); QPointF bottom (innerRect.center().x(), innerRect.bottom()); QList polygonLines; polygonLines.append(QLineF(bottom, innerRect.bottomLeft())); polygonLines.append(QLineF(innerRect.bottomLeft(), innerRect.topLeft())); polygonLines.append(QLineF(innerRect.topLeft(), innerRect.topRight())); polygonLines.append(QLineF(innerRect.topRight(), innerRect.bottomRight())); polygonLines.append(QLineF(innerRect.bottomRight(), bottom)); qreal totalLength =0.0; Q_FOREACH(QLineF line, polygonLines) { totalLength += line.length(); } qreal length = coordinate.x()*(totalLength/2); QPointF intersect(x,y); if (coordinate.y()==1) { for (int i = polygonLines.size()-1; i==0; i--) { QLineF line = polygonLines.at(i); if (line.length()>length && length>0){ intersect = line.pointAt(length/line.length()); } length-=line.length(); } } else { Q_FOREACH(QLineF line, polygonLines) { if (line.length()>length && length>0){ intersect = line.pointAt(length/line.length()); } length-=line.length(); } } x = qRound(intersect.x()); y = qRound(intersect.y()); } } else { - x = qMin(coordinate.x()*(height()-offset*2)+offset, (qreal)height()); - y = qMin((1.0 - coordinate.y())*(width()-offset*2)+offset, (qreal)width()); + x = qMin(coordinate.x()*(width()-offset*2)+offset, (qreal)width()); + y = qMin((1.0 - coordinate.y())*(height()-offset*2)+offset, (qreal)height()); } return QPointF(x,y); } QPointF KisVisualRectangleSelectorShape::convertWidgetCoordinateToShapeCoordinate(QPoint coordinate) const { // Reminder: in Qt widget space, origin is top-left, but we want zero y to be at the bottom //default values: qreal x = 0.5; qreal y = 0.5; qreal offset = 5.0; KisVisualColorSelectorShape::Dimensions dimension = getDimensions(); if (dimension == KisVisualColorSelectorShape::onedimensional ) { if (m_type == KisVisualRectangleSelectorShape::vertical) { x = 1.0 - (coordinate.y()-offset)/(height()-offset*2); } else if (m_type == KisVisualRectangleSelectorShape::horizontal) { x = (coordinate.x()-offset)/(width()-offset*2); } else if (m_type == KisVisualRectangleSelectorShape::border) { //border QRectF innerRect(m_barWidth, m_barWidth, width()-(m_barWidth*2), height()-(m_barWidth*2)); QPointF left (innerRect.left(),innerRect.center().y()); QList polygonLines; polygonLines.append(QLineF(left, innerRect.topLeft())); polygonLines.append(QLineF(innerRect.topLeft(), innerRect.topRight())); polygonLines.append(QLineF(innerRect.topRight(), innerRect.bottomRight())); polygonLines.append(QLineF(innerRect.bottomRight(), innerRect.bottomLeft())); polygonLines.append(QLineF(innerRect.bottomLeft(), left)); QLineF radius(coordinate, this->geometry().center()); QPointF intersect(0.5,0.5); qreal length = 0.0; qreal totalLength = 0.0; bool foundIntersect = false; Q_FOREACH(QLineF line, polygonLines) { if (line.intersect(radius,&intersect)==QLineF::BoundedIntersection && foundIntersect==false) { foundIntersect = true; length+=QLineF(line.p1(), intersect).length(); } if (foundIntersect==false) { length+=line.length(); } totalLength+=line.length(); } x = length/totalLength; } else /*if (m_type == KisVisualRectangleSelectorShape::borderMirrored)*/ { //border QRectF innerRect(m_barWidth, m_barWidth, width()-(m_barWidth*2), height()-(m_barWidth*2)); QPointF bottom (innerRect.center().x(), innerRect.bottom()); QList polygonLines; polygonLines.append(QLineF(bottom, innerRect.bottomLeft())); polygonLines.append(QLineF(innerRect.bottomLeft(), innerRect.topLeft())); polygonLines.append(QLineF(innerRect.topLeft(), innerRect.topRight())); polygonLines.append(QLineF(innerRect.topRight(), innerRect.bottomRight())); polygonLines.append(QLineF(innerRect.bottomRight(), bottom)); QLineF radius(coordinate, this->geometry().center()); QPointF intersect(0.5,0.5); qreal length = 0.0; qreal totalLength = 0.0; bool foundIntersect = false; Q_FOREACH(QLineF line, polygonLines) { if (line.intersect(radius,&intersect)==QLineF::BoundedIntersection && foundIntersect==false) { foundIntersect = true; length+=QLineF(line.p1(), intersect).length(); } if (foundIntersect==false) { length+=line.length(); } totalLength+=line.length(); } int halflength = totalLength/2; if (length>halflength) { x = (halflength - (length-halflength))/halflength; y = 1.0; } else { x = length/halflength; y = 0.0; } } } else { x = (coordinate.x()-offset)/(width()-offset*2); y = 1.0 - (coordinate.y()-offset)/(height()-offset*2); } x = qBound((qreal)0.0, x, (qreal)1.0); y = qBound((qreal)0.0, y, (qreal)1.0); return QPointF(x, y); } QRegion KisVisualRectangleSelectorShape::getMaskMap() { QRegion mask = QRegion(0,0,width(),height()); if (m_type==KisVisualRectangleSelectorShape::border || m_type==KisVisualRectangleSelectorShape::borderMirrored) { mask = mask.subtracted(QRegion(m_barWidth, m_barWidth, width()-(m_barWidth*2), height()-(m_barWidth*2))); } return mask; } void KisVisualRectangleSelectorShape::resizeEvent(QResizeEvent *) { //qDebug() << this << "KisVisualRectangleSelectorShape::resizeEvent"; forceImageUpdate(); } void KisVisualRectangleSelectorShape::drawCursor() { //qDebug() << this << "KisVisualRectangleSelectorShape::drawCursor: image needs update" << imagesNeedUpdate(); QPointF cursorPoint = convertShapeCoordinateToWidgetCoordinate(getCursorPosition()); QImage fullSelector = getImageMap(); QColor col = getColorFromConverter(getCurrentColor()); QPainter painter; painter.begin(&fullSelector); painter.setRenderHint(QPainter::Antialiasing); //QPainterPath path; QBrush fill; fill.setStyle(Qt::SolidPattern); int cursorwidth = 5; QRect rect(cursorPoint.toPoint().x()-cursorwidth,cursorPoint.toPoint().y()-cursorwidth, cursorwidth*2,cursorwidth*2); if (m_type==KisVisualRectangleSelectorShape::vertical){ int x = ( cursorPoint.x()-(width()/2)+1 ); int y = ( cursorPoint.y()-cursorwidth ); rect.setCoords(x, y, x+width()-2, y+(cursorwidth*2)); painter.save(); painter.setCompositionMode(QPainter::CompositionMode_Clear); QPen pen; pen.setWidth(5); painter.setPen(pen); painter.drawLine(QLine(QPoint(0.0,0.0), QPoint(0.0,height()))); painter.drawLine(QLine(QPoint(width(),0.0), QPoint(width(),height()))); painter.restore(); } else { int x = cursorPoint.x()-cursorwidth; int y = cursorPoint.y()-(height()/2)+1; rect.setCoords(x, y, x+(cursorwidth*2), y+cursorwidth-2); } QRectF innerRect(m_barWidth, m_barWidth, width()-(m_barWidth*2), height()-(m_barWidth*2)); if (getDimensions() == KisVisualColorSelectorShape::onedimensional && m_type!=KisVisualRectangleSelectorShape::border && m_type!=KisVisualRectangleSelectorShape::borderMirrored) { painter.setPen(Qt::white); fill.setColor(Qt::white); painter.setBrush(fill); painter.drawRect(rect); //set filter conversion! fill.setColor(col); painter.setPen(Qt::black); painter.setBrush(fill); rect.setCoords(rect.topLeft().x()+1, rect.topLeft().y()+1, rect.topLeft().x()+rect.width()-2, rect.topLeft().y()+rect.height()-2); painter.drawRect(rect); }else if(m_type==KisVisualRectangleSelectorShape::borderMirrored){ painter.setPen(Qt::white); fill.setColor(Qt::white); painter.setBrush(fill); painter.drawEllipse(cursorPoint, cursorwidth, cursorwidth); QPoint mirror(innerRect.center().x()+(innerRect.center().x()-cursorPoint.x()),cursorPoint.y()); painter.drawEllipse(mirror, cursorwidth, cursorwidth); fill.setColor(col); painter.setPen(Qt::black); painter.setBrush(fill); painter.drawEllipse(cursorPoint, cursorwidth-1, cursorwidth-1); painter.drawEllipse(mirror, cursorwidth-1, cursorwidth-1); } else { painter.save(); painter.setCompositionMode(QPainter::CompositionMode_Clear); QPen pen; pen.setWidth(5); painter.setPen(pen); painter.drawRect(QRect(0,0,width(),height())); painter.restore(); painter.setPen(Qt::white); fill.setColor(Qt::white); painter.setBrush(fill); painter.drawEllipse(cursorPoint, cursorwidth, cursorwidth); fill.setColor(col); painter.setPen(Qt::black); painter.setBrush(fill); painter.drawEllipse(cursorPoint, cursorwidth-1.0, cursorwidth-1.0); } painter.end(); setFullImage(fullSelector); }