/************************************************************************ ** ** @file vlayoutdetail.cpp ** @author Roman Telezhynskyi ** @date 2 1, 2015 ** ** @brief ** @copyright ** This source code is part of the Valentine project, a pattern making ** program, whose allow create and modeling patterns of clothing. ** Copyright (C) 2013-2015 Valentina project ** All Rights Reserved. ** ** Valentina 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 3 of the License, or ** (at your option) any later version. ** ** Valentina 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 Valentina. If not, see . ** *************************************************************************/ #include "vlayoutdetail.h" #include "vlayoutdetail_p.h" #include #include #include #include #include #if QT_VERSION < QT_VERSION_CHECK(5, 1, 0) # include "../vmisc/vmath.h" #else # include #endif #include //--------------------------------------------------------------------------------------------------------------------- VLayoutDetail::VLayoutDetail() :VAbstractDetail(), d(new VLayoutDetailData) {} //--------------------------------------------------------------------------------------------------------------------- VLayoutDetail::VLayoutDetail(const VLayoutDetail &detail) :VAbstractDetail(detail), d(detail.d) {} //--------------------------------------------------------------------------------------------------------------------- VLayoutDetail &VLayoutDetail::operator=(const VLayoutDetail &detail) { if ( &detail == this ) { return *this; } VAbstractDetail::operator=(detail); d = detail.d; return *this; } //--------------------------------------------------------------------------------------------------------------------- VLayoutDetail::~VLayoutDetail() {} //--------------------------------------------------------------------------------------------------------------------- // cppcheck-suppress unusedFunction QVector VLayoutDetail::GetContourPoints() const { return d->contour; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetCountourPoints(const QVector &points) { d->contour = RemoveDublicates(RoundPoints(points)); } //--------------------------------------------------------------------------------------------------------------------- // cppcheck-suppress unusedFunction QVector VLayoutDetail::GetSeamAllowencePoints() const { return d->seamAllowence; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetSeamAllowencePoints(const QVector &points, bool seamAllowence, bool closed) { if (seamAllowence) { setSeamAllowance(seamAllowence); setClosed(closed); d->seamAllowence = points; if (not d->seamAllowence.isEmpty()) { d->seamAllowence = RemoveDublicates(RoundPoints(d->seamAllowence)); } else { qWarning()<<"Seam allowence is empty."; setSeamAllowance(false); } } } //--------------------------------------------------------------------------------------------------------------------- QVector VLayoutDetail::GetLayoutAllowencePoints() const { return Map(d->layoutAllowence); } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetDetail(const QString& qsName, const VPatternPieceData& data, const QFont &font) { d->detailData = data; qreal dAng = qDegreesToRadians(data.GetRotation()); QPointF ptCenter(data.GetPos().x() + data.GetLabelWidth()/2, data.GetPos().y() + data.GetLabelHeight()/2); QPointF ptPos = data.GetPos(); QVector v; v << ptPos << QPointF(ptPos.x() + data.GetLabelWidth(), ptPos.y()) << QPointF(ptPos.x() + data.GetLabelWidth(), ptPos.y() + data.GetLabelHeight()) << QPointF(ptPos.x(), ptPos.y() + data.GetLabelHeight()); for (int i = 0; i < v.count(); ++i) { v[i] = RotatePoint(ptCenter, v.at(i), dAng); } d->detailLabel = RoundPoints(v); // generate text d->m_tmDetail.SetFont(font); d->m_tmDetail.SetFontSize(data.GetFontSize()); d->m_tmDetail.Update(qsName, data); // this will generate the lines of text d->m_tmDetail.SetFontSize(data.GetFontSize()); d->m_tmDetail.FitFontSize(data.GetLabelWidth(), data.GetLabelHeight()); } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetPatternInfo(const VAbstractPattern* pDoc, const VPatternInfoGeometry& geom, const QFont &font) { d->patternGeom = geom; qreal dAng = qDegreesToRadians(geom.GetRotation()); QPointF ptCenter(geom.GetPos().x() + geom.GetLabelWidth()/2, geom.GetPos().y() + geom.GetLabelHeight()/2); QPointF ptPos = geom.GetPos(); QVector v; v << ptPos << QPointF(ptPos.x() + geom.GetLabelWidth(), ptPos.y()) << QPointF(ptPos.x() + geom.GetLabelWidth(), ptPos.y() + geom.GetLabelHeight()) << QPointF(ptPos.x(), ptPos.y() + geom.GetLabelHeight()); for (int i = 0; i < v.count(); ++i) { v[i] = RotatePoint(ptCenter, v.at(i), dAng); } d->patternInfo = RoundPoints(v); // Generate text d->m_tmPattern.SetFont(font); d->m_tmPattern.SetFontSize(geom.GetFontSize()); d->m_tmPattern.Update(pDoc); // generate lines of text d->m_tmPattern.SetFontSize(geom.GetFontSize()); d->m_tmPattern.FitFontSize(geom.GetLabelWidth(), geom.GetLabelHeight()); } //--------------------------------------------------------------------------------------------------------------------- QTransform VLayoutDetail::GetMatrix() const { return d->matrix; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetMatrix(const QTransform &matrix) { d->matrix = matrix; } //--------------------------------------------------------------------------------------------------------------------- qreal VLayoutDetail::GetLayoutWidth() const { return d->layoutWidth; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetLayoutWidth(const qreal &value) { d->layoutWidth = value; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::Translate(qreal dx, qreal dy) { QTransform m; m.translate(dx, dy); d->matrix *= m; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::Rotate(const QPointF &originPoint, qreal degrees) { QTransform m; m.translate(originPoint.x(), originPoint.y()); m.rotate(-degrees); m.translate(-originPoint.x(), -originPoint.y()); d->matrix *= m; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::Mirror(const QLineF &edge) { if (edge.isNull()) { return; } const QLineF axis = QLineF(edge.x2(), edge.y2(), edge.x2() + 100, edge.y2()); // Ox axis const qreal angle = edge.angleTo(axis); const QPointF p2 = edge.p2(); QTransform m; m.translate(p2.x(), p2.y()); m.rotate(-angle); m.translate(-p2.x(), -p2.y()); d->matrix *= m; m.reset(); m.translate(p2.x(), p2.y()); m.scale(m.m11(), m.m22()*-1); m.translate(-p2.x(), -p2.y()); d->matrix *= m; m.reset(); m.translate(p2.x(), p2.y()); m.rotate(-(360-angle)); m.translate(-p2.x(), -p2.y()); d->matrix *= m; d->mirror = !d->mirror; } //--------------------------------------------------------------------------------------------------------------------- int VLayoutDetail::EdgesCount() const { return d->layoutAllowence.count(); } //--------------------------------------------------------------------------------------------------------------------- QLineF VLayoutDetail::Edge(int i) const { if (i < 1 || i > EdgesCount()) { // Doesn't exist such edge return QLineF(); } int i1, i2; if (i < EdgesCount()) { i1 = i-1; i2 = i; } else { i1 = EdgesCount()-1; i2 = 0; } if (d->mirror) { const int oldI1 = i1; const int size = d->layoutAllowence.size()-1; //-V807 i1 = size - i2; i2 = size - oldI1; return QLineF(d->matrix.map(d->layoutAllowence.at(i2)), d->matrix.map(d->layoutAllowence.at(i1))); } else { return QLineF(d->matrix.map(d->layoutAllowence.at(i1)), d->matrix.map(d->layoutAllowence.at(i2))); } } //--------------------------------------------------------------------------------------------------------------------- int VLayoutDetail::EdgeByPoint(const QPointF &p1) const { if (p1.isNull()) { return 0; } if (EdgesCount() < 3) { return 0; } const QVector points = GetLayoutAllowencePoints(); for (int i=0; i< points.size(); i++) { if (points.at(i) == p1) { return i+1; } } return 0; // Did not find edge } //--------------------------------------------------------------------------------------------------------------------- QRectF VLayoutDetail::DetailBoundingRect() const { QVector points; if (getSeamAllowance()) { points = GetSeamAllowencePoints(); } else { points = GetContourPoints(); } points.append(points.first()); return QPolygonF(points).boundingRect(); } //--------------------------------------------------------------------------------------------------------------------- QRectF VLayoutDetail::LayoutBoundingRect() const { QVector points = GetLayoutAllowencePoints(); points.append(points.first()); return QPolygonF(points).boundingRect(); } //--------------------------------------------------------------------------------------------------------------------- qreal VLayoutDetail::Diagonal() const { const QRectF rec = LayoutBoundingRect(); return qSqrt(pow(rec.height(), 2) + pow(rec.width(), 2)); } //--------------------------------------------------------------------------------------------------------------------- bool VLayoutDetail::isNull() const { if (d->contour.isEmpty() == false && d->layoutWidth > 0) { if (getSeamAllowance() && d->seamAllowence.isEmpty() == false) { return false; } else { return true; } } else { return true; } } //--------------------------------------------------------------------------------------------------------------------- qint64 VLayoutDetail::Square() const { if (d->layoutAllowence.isEmpty()) //-V807 { return 0; } const qreal res = SumTrapezoids(d->layoutAllowence); const qint64 sq = qFloor(qAbs(res/2.0)); return sq; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetLayoutAllowencePoints() { if (d->layoutWidth > 0) { if (getSeamAllowance()) { d->layoutAllowence = Equidistant(d->seamAllowence, EquidistantType::CloseEquidistant, d->layoutWidth); if (d->layoutAllowence.isEmpty() == false) { #if QT_VERSION < QT_VERSION_CHECK(5, 1, 0) d->layoutAllowence.remove(d->layoutAllowence.size() - 1); #else d->layoutAllowence.removeLast(); #endif } } else { d->layoutAllowence = Equidistant(d->contour, EquidistantType::CloseEquidistant, d->layoutWidth); if (d->layoutAllowence.isEmpty() == false) { #if QT_VERSION < QT_VERSION_CHECK(5, 1, 0) d->layoutAllowence.remove(d->layoutAllowence.size() - 1); #else d->layoutAllowence.removeLast(); #endif } } } else { d->layoutAllowence.clear(); } } //--------------------------------------------------------------------------------------------------------------------- QVector VLayoutDetail::Map(const QVector &points) const { QVector p; for (int i = 0; i < points.size(); ++i) { p.append(d->matrix.map(points.at(i))); } if (d->mirror) { QList list = p.toList(); for (int k=0, s=list.size(), max=(s/2); k VLayoutDetail::RoundPoints(const QVector &points) { QVector p; for (int i=0; i < points.size(); ++i) { p.append(QPointF(qRound(points.at(i).x()), qRound(points.at(i).y()))); } return p; } //--------------------------------------------------------------------------------------------------------------------- QPainterPath VLayoutDetail::ContourPath() const { QPainterPath path; // contour QVector points = Map(d->contour); path.moveTo(points.at(0)); for (qint32 i = 1; i < points.count(); ++i) { path.lineTo(points.at(i)); } path.lineTo(points.at(0)); // seam allowence if (getSeamAllowance() == true) { points = Map(d->seamAllowence); if (getClosed() == true) { points.append(points.at(0)); } QPainterPath ekv; ekv.moveTo(points.at(0)); for (qint32 i = 1; i < points.count(); ++i) { ekv.lineTo(points.at(i)); } path.addPath(ekv); path.setFillRule(Qt::WindingFill); } return path; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::ClearTextItems() { d->m_liPP.clear(); } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::CreateTextItems() { ClearTextItems(); // first add detail texts if (d->detailLabel.count() > 0) { // get the mapped label vertices QVector points = Map(Mirror(d->detailLabel)); // append the first point to obtain the closed rectangle points.push_back(points.at(0)); // calculate the angle of rotation qreal dAng = qAtan2(points.at(1).y() - points.at(0).y(), points.at(1).x() - points.at(0).x()); // calculate the label width qreal dW = GetDistance(points.at(0), points.at(1)); qreal dY = 0; qreal dX; // set up the rotation around top-left corner matrix QMatrix mat; mat.translate(points.at(0).x(), points.at(0).y()); mat.rotate(qRadiansToDegrees(dAng)); for (int i = 0; i < d->m_tmDetail.GetCount(); ++i) { const TextLine& tl = d->m_tmDetail.GetLine(i); QFont fnt = d->m_tmDetail.GetFont(); fnt.setPixelSize(d->m_tmDetail.GetFont().pixelSize() + tl.m_iFontSize); fnt.setWeight(tl.m_eFontWeight); fnt.setStyle(tl.m_eStyle); dY += tl.m_iHeight; QFontMetrics fm(fnt); // find the correct horizontal offset, depending on the alignment flag if ((tl.m_eAlign & Qt::AlignLeft) > 0) { dX = 0; } else if ((tl.m_eAlign & Qt::AlignHCenter) > 0) { dX = (dW - fm.width(tl.m_qsText))/2; } else { dX = dW - fm.width(tl.m_qsText); } // create text path and add it to the list QPainterPath path; path.addText(dX, dY - (fm.height() - fm.ascent())/2, fnt, tl.m_qsText); d->m_liPP << mat.map(path); dY += d->m_tmDetail.GetSpacing(); } } // and then add pattern texts if (d->patternInfo.count() > 0) { // similar approach like for the detail label QVector points = Map(Mirror(d->patternInfo)); points.push_back(points.at(0)); qreal dAng = qAtan2(points.at(1).y() - points.at(0).y(), points.at(1).x() - points.at(0).x()); qreal dW = GetDistance(points.at(0), points.at(1)); qreal dY = 0; qreal dX; QMatrix mat; mat.translate(points.at(0).x(), points.at(0).y()); mat.rotate(qRadiansToDegrees(dAng)); for (int i = 0; i < d->m_tmPattern.GetCount(); ++i) { const TextLine& tl = d->m_tmPattern.GetLine(i); QFont fnt = d->m_tmPattern.GetFont(); fnt.setPixelSize(d->m_tmPattern.GetFont().pixelSize() + tl.m_iFontSize); fnt.setWeight(tl.m_eFontWeight); fnt.setStyle(tl.m_eStyle); dY += tl.m_iHeight; QFontMetrics fm(fnt); if ((tl.m_eAlign & Qt::AlignLeft) > 0) { dX = 0; } else if ((tl.m_eAlign & Qt::AlignHCenter) > 0) { dX = (dW - fm.width(tl.m_qsText))/2; } else { dX = dW - fm.width(tl.m_qsText); } QPainterPath path; path.addText(dX, dY - (fm.height() - fm.ascent())/2, fnt, tl.m_qsText); d->m_liPP << mat.map(path); dY += d->m_tmPattern.GetSpacing(); } } } //--------------------------------------------------------------------------------------------------------------------- int VLayoutDetail::GetTextItemsCount() const { return d->m_liPP.count(); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief VLayoutDetail::GetTextItem Creates and returns the i-th text item * @param i index of the requested item * @return pointer to the newly created item. The caller is responsible to delete it. */ QGraphicsItem* VLayoutDetail::GetTextItem(int i) const { QGraphicsPathItem* item = new QGraphicsPathItem(); QTransform transform = d->matrix; QPainterPath path = transform.map(d->m_liPP[i]); if (d->mirror == true) { QVector points; if (i < d->m_tmDetail.GetCount()) { points = Map(Mirror(d->detailLabel)); } else { points = Map(Mirror(d->patternInfo)); } QPointF ptCenter = (points.at(1) + points.at(3))/2; qreal dRot = qRadiansToDegrees(qAtan2(points.at(1).y() - points.at(0).y(), points.at(1).x() - points.at(0).x())); // we need to move the center back to the origin, rotate it to align it with x axis, // then mirror it to obtain the proper text direction, rotate it and translate it back to original position. // The operations must be added in reverse order QTransform t; // move the label back to its original position t.translate(ptCenter.x(), ptCenter.y()); // rotate the label back to original angle t.rotate(dRot); // mirror the label horizontally t.scale(-1, 1); // rotate the label to normal position t.rotate(-dRot); // move the label center into origin t.translate(-ptCenter.x(), -ptCenter.y()); path = t.map(path); } item->setPath(path); item->setBrush(QBrush(Qt::black)); return item; } //--------------------------------------------------------------------------------------------------------------------- QPainterPath VLayoutDetail::LayoutAllowencePath() const { QPainterPath path; path.setFillRule(Qt::WindingFill); const QVector points = GetLayoutAllowencePoints(); path.moveTo(points.at(0)); for (qint32 i = 1; i < points.count(); ++i) { path.lineTo(points.at(i)); } path.lineTo(points.at(0)); return path; } //--------------------------------------------------------------------------------------------------------------------- QGraphicsItem *VLayoutDetail::GetItem() const { QGraphicsPathItem *item = new QGraphicsPathItem(); item->setPath(ContourPath()); return item; } //--------------------------------------------------------------------------------------------------------------------- bool VLayoutDetail::IsMirror() const { return d->mirror; } //--------------------------------------------------------------------------------------------------------------------- void VLayoutDetail::SetMirror(bool value) { d->mirror = value; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief VLayoutDetail::RotatePoint rotates a point around the center for given angle * @param ptCenter center around which the point is rotated * @param pt point, which is rotated around the center * @param dAng angle of rotation * @return position of point pt after rotating it around the center for dAng radians */ QPointF VLayoutDetail::RotatePoint(const QPointF &ptCenter, const QPointF& pt, qreal dAng) { QPointF ptDest; QPointF ptRel = pt - ptCenter; ptDest.setX(cos(dAng)*ptRel.x() - sin(dAng)*ptRel.y()); ptDest.setY(sin(dAng)*ptRel.x() + cos(dAng)*ptRel.y()); return ptDest + ptCenter; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief VLayoutDetail::Mirror if the detail layout is rotated, this method will flip the * label points over vertical axis, which goes through the center of the label * @param list of 4 label vertices * @return list of flipped points */ QVector VLayoutDetail::Mirror(const QVector &points) const { // should only call this method with rectangular shapes Q_ASSERT(points.count() == 4); if (d->mirror == false) { return points; } QVector v; v.resize(4); v[0] = points.at(2); v[1] = points.at(3); v[2] = points.at(0); v[3] = points.at(1); return v; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief VLayoutDetail::GetDistance calculates the Euclidian distance between the points * @param pt1 first point * @param pt2 second point * @return Euclidian distance between the two points */ qreal VLayoutDetail::GetDistance(const QPointF &pt1, const QPointF &pt2) { const qreal dX = pt1.x() - pt2.x(); const qreal dY = pt1.y() - pt2.y(); return qSqrt(dX*dX + dY*dY); }