/************************************************************************ ** ** @file vposition.cpp ** @author Roman Telezhynskyi ** @date 20 1, 2015 ** ** @brief ** @copyright ** This source code is part of the Valentina 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 "vposition.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../ifc/exception/vexception.h" #include "../vlayout/vlayoutpoint.h" #include "../vmisc/def.h" #include "../vpatterndb/floatItemData/floatitemdef.h" #include "vpiecegrainline.h" namespace { #ifdef LAYOUT_DEBUG //--------------------------------------------------------------------------------------------------------------------- QPainterPath ShowDirection(const QLineF &edge) { const int arrowLength = 14; QPainterPath path; if (edge.length() / arrowLength < 5) { return path; } QLineF arrow = edge; arrow.setLength(edge.length() / 2.0); // Reverse line because we want start arrow from this point arrow = QLineF(arrow.p2(), arrow.p1()); const qreal angle = arrow.angle(); // we each time change line angle, better save original angle value arrow.setLength(arrowLength); // arrow length in pixels arrow.setAngle(angle - 35); path.moveTo(arrow.p1()); path.lineTo(arrow.p2()); arrow.setAngle(angle + 35); path.moveTo(arrow.p1()); path.lineTo(arrow.p2()); return path; } //--------------------------------------------------------------------------------------------------------------------- QPainterPath DumpContour(const QVector &points) { QPainterPath path; path.setFillRule(Qt::WindingFill); if (points.count() >= 2) { for (qint32 i = 0; i < points.count() - 1; ++i) { path.moveTo(points.at(i)); path.lineTo(points.at(i + 1)); } path.lineTo(points.at(0)); #ifdef SHOW_DIRECTION for (qint32 i = 0; i < points.count() - 1; ++i) { path.addPath(ShowDirection(QLineF(points.at(i), points.at(i + 1)))); } #endif #ifdef SHOW_VERTICES for (qint32 i = 0; i < points.count(); ++i) { path.addRect(points.at(i).x() - 3, points.at(i).y() - 3, 6, 6); } #endif } return path; } //--------------------------------------------------------------------------------------------------------------------- QPainterPath DumpDetails(const QVector &details) { QPainterPath path; path.setFillRule(Qt::WindingFill); if (details.count() > 0) { for (auto &detail : details) { path.addPath(detail.ContourPath()); } } return path; } #endif } // anonymous namespace //--------------------------------------------------------------------------------------------------------------------- VPosition::VPosition(const VPositionData &data, std::atomic_bool *stop, bool saveLength) : m_isValid(true), m_bestResult(VBestSquare(data.gContour.GetSize(), saveLength, data.isOriginPaperOrientationPortrait)), m_data(data), stop(stop) { if (m_data.rotationNumber > 360 || m_data.rotationNumber < 1) { m_data.rotationNumber = 2; } } //--------------------------------------------------------------------------------------------------------------------- void VPosition::run() { if (not m_isValid) { return; } if (stop->load()) { return; } try { for (int i = 1; i <= m_data.detail.LayoutEdgesCount(); ++i) { if (stop->load()) { return; } m_data.i = i; FindBestPosition(); if (stop->load()) { return; } } } catch (const VException &e) { m_bestResult.TerminatedByException(QStringLiteral("%1\n\n%2").arg(e.ErrorMessage(), e.DetailedInformation())); return; } catch (std::exception &e) { m_bestResult.TerminatedByException(QString::fromLatin1(e.what())); return; } } //--------------------------------------------------------------------------------------------------------------------- auto VPosition::getBestResult() const -> VBestSquare { return m_bestResult; } //--------------------------------------------------------------------------------------------------------------------- auto VPosition::ArrangeDetail(const VPositionData &data, std::atomic_bool *stop, bool saveLength) -> VBestSquare { VBestSquare bestResult(data.gContour.GetSize(), saveLength, data.isOriginPaperOrientationPortrait); if (stop->load()) { return bestResult; } // First need set size of paper if (data.gContour.GetHeight() <= 0 || data.gContour.GetWidth() <= 0) { return bestResult; } const VLayoutPiece detail = data.detail; const auto detailEdgesCount = detail.LayoutEdgesCount(); if (detailEdgesCount < 3 || detail.DetailEdgesCount() < 3) { return bestResult; // Not enough edges } QFutureWatcher watcher; QVector jobs; jobs.reserve(data.gContour.GlobalEdgesCount()); for (int j = 1; j <= data.gContour.GlobalEdgesCount(); ++j) { VPositionData linkedData = data; linkedData.j = j; jobs.append(VPosition(linkedData, stop, saveLength)); } Q_ASSERT(not jobs.isEmpty()); std::function Nest = [](VPosition position) { position.run(); return position.getBestResult(); }; watcher.setFuture(QtConcurrent::mapped(jobs, Nest)); while (not watcher.isStarted()) { QCoreApplication::processEvents(); QThread::msleep(250); } // Wait for done do { QCoreApplication::processEvents(); QThread::msleep(250); } while (watcher.isRunning() && not stop->load()); if (stop->load()) { do { QCoreApplication::processEvents(); QThread::msleep(250); } while (watcher.isRunning()); return bestResult; } QList results = watcher.future().results(); for (auto &result : results) { bestResult.NewResult(result); } return bestResult; } //--------------------------------------------------------------------------------------------------------------------- void VPosition::SaveCandidate(VBestSquare &bestResult, const VLayoutPiece &detail, int globalI, int detJ, BestFrom type) { if (bestResult.IsSaveLength()) { m_data.gContour.CeateEmptySheetContour(); } QVector newGContour = m_data.gContour.UniteWithContour(detail, globalI, detJ, type); newGContour.append(newGContour.constFirst()); const QSizeF size = QPolygonF(newGContour).boundingRect().size(); const QRectF boundingRect = detail.MappedDetailBoundingRect(); const qreal depthPosition = m_data.isOriginPaperOrientationPortrait ? boundingRect.y() : boundingRect.x(); const qreal sidePosition = m_data.isOriginPaperOrientationPortrait ? boundingRect.x() : boundingRect.y(); QT_WARNING_PUSH QT_WARNING_DISABLE_GCC("-Wnoexcept") VBestSquareResData data; QT_WARNING_POP data.bestSize = size; data.globalI = globalI; // Edge of global contour data.detJ = detJ; // Edge of detail data.resMatrix = detail.GetMatrix(); // Matrix for rotation and translation detail data.resMirror = detail.IsMirror(); data.type = type; data.depthPosition = depthPosition; data.sidePosition = sidePosition; bestResult.NewResult(data); } //--------------------------------------------------------------------------------------------------------------------- auto VPosition::CheckCombineEdges(VLayoutPiece &detail, int j, int &dEdge) -> bool { const QLineF globalEdge = m_data.gContour.GlobalEdge(j); bool flagMirror = false; bool flagSquare = false; CombineEdges(detail, globalEdge, dEdge); #ifdef LAYOUT_DEBUG #ifdef SHOW_COMBINE DumpFrame(m_data.gContour, detail, m_data.mutex, m_data.details); #endif #endif CrossingType type = CrossingType::Intersection; if (not detail.IsForceFlipping() && SheetContains(detail.MappedDetailBoundingRect())) { if (not m_data.gContour.GetContour().isEmpty()) { type = Crossing(detail); } else { type = CrossingType::NoIntersection; } } switch (type) { case CrossingType::EdgeError: return false; case CrossingType::Intersection: detail.Mirror(globalEdge); flagMirror = true; break; case CrossingType::NoIntersection: flagSquare = true; break; default: break; } if (flagMirror && not detail.IsForbidFlipping()) { #ifdef LAYOUT_DEBUG #ifdef SHOW_MIRROR DumpFrame(m_data.gContour, detail, m_data.mutex, m_data.details); #endif #endif EdgeIndex layoutEdge = detail.LayoutEdgeByPoint(globalEdge.p2()); if (not layoutEdge.has_value()) { return false; } dEdge = *layoutEdge; CrossingType type = CrossingType::Intersection; if (SheetContains(detail.MappedDetailBoundingRect())) { type = Crossing(detail); } switch (type) { case CrossingType::EdgeError: return false; case CrossingType::Intersection: flagSquare = false; break; case CrossingType::NoIntersection: flagSquare = true; break; default: break; } } return flagSquare; } //--------------------------------------------------------------------------------------------------------------------- auto VPosition::CheckRotationEdges(VLayoutPiece &detail, int j, int dEdge, qreal angle) const -> bool { const QLineF globalEdge = m_data.gContour.GlobalEdge(j); bool flagSquare = false; if (detail.IsForceFlipping()) { detail.Mirror(not m_data.followGrainline ? globalEdge : QLineF(10, 10, 10, 100)); } RotateEdges(detail, globalEdge, dEdge, angle); #ifdef LAYOUT_DEBUG #ifdef SHOW_ROTATION DumpFrame(m_data.gContour, detail, m_data.mutex, m_data.details); #endif #endif CrossingType type = CrossingType::Intersection; if (SheetContains(detail.MappedDetailBoundingRect())) { type = Crossing(detail); } switch (type) { case CrossingType::EdgeError: return false; case CrossingType::Intersection: flagSquare = false; break; case CrossingType::NoIntersection: flagSquare = true; break; default: break; } return flagSquare; } //--------------------------------------------------------------------------------------------------------------------- void VPosition::RotateOnAngle(qreal angle) { // We should use copy of the detail. VLayoutPiece workDetail = m_data.detail; if (CheckRotationEdges(workDetail, m_data.j, m_data.i, angle)) { if (stop->load()) { return; } #ifdef LAYOUT_DEBUG #ifdef SHOW_CANDIDATE_BEST DumpFrame(m_data.gContour, workDetail, m_data.mutex, m_data.details); #endif #endif SaveCandidate(m_bestResult, workDetail, m_data.j, m_data.i, BestFrom::Rotation); } } //--------------------------------------------------------------------------------------------------------------------- auto VPosition::Crossing(const VLayoutPiece &detail) const -> VPosition::CrossingType { if (m_data.positionsCache.isEmpty()) { return CrossingType::NoIntersection; } const QVector layoutPoints = detail.GetMappedLayoutAllowancePoints(); const QRectF layoutBoundingRect = VLayoutPiece::BoundingRect(layoutPoints); const QPainterPath layoutAllowancePath = VGObject::PainterPath(layoutPoints); QVector contourPoints; CastTo(detail.IsSeamAllowance() && not detail.IsSeamAllowanceBuiltIn() ? detail.GetMappedSeamAllowancePoints() : detail.GetMappedContourPoints(), contourPoints); const QRectF detailBoundingRect = VLayoutPiece::BoundingRect(contourPoints); const QPainterPath contourPath = VGObject::PainterPath(contourPoints); for (const auto &position : m_data.positionsCache) { if (position.boundingRect.intersects(layoutBoundingRect) || position.boundingRect.contains(detailBoundingRect) || detailBoundingRect.contains(position.boundingRect)) { if (position.layoutAllowancePath.contains(contourPath) || contourPath.contains(position.layoutAllowancePath) || position.layoutAllowancePath.intersects(layoutAllowancePath)) { return CrossingType::Intersection; } } } return CrossingType::NoIntersection; } //--------------------------------------------------------------------------------------------------------------------- auto VPosition::SheetContains(const QRectF &rect) const -> bool { const QRectF bRect(-accuracyPointOnLine, -accuracyPointOnLine, m_data.gContour.GetWidth() + accuracyPointOnLine, m_data.gContour.GetHeight() + accuracyPointOnLine); return bRect.contains(rect); } //--------------------------------------------------------------------------------------------------------------------- void VPosition::CombineEdges(VLayoutPiece &detail, const QLineF &globalEdge, int dEdge) { QLineF detailEdge = detail.LayoutEdge(dEdge); // Find distance between two edges for two begin vertex. const qreal dx = globalEdge.x2() - detailEdge.x2(); const qreal dy = globalEdge.y2() - detailEdge.y2(); detailEdge.translate(dx, dy); // Use values for translate detail edge. angle_between = globalEdge.angleTo(detailEdge); // Seek angle between two edges. // Now we move detail to position near to global contour edge. detail.Translate(dx, dy); if (not qFuzzyIsNull(angle_between) || not qFuzzyCompare(angle_between, 360)) { detail.Rotate(detailEdge.p2(), -angle_between); } } //--------------------------------------------------------------------------------------------------------------------- void VPosition::RotateEdges(VLayoutPiece &detail, const QLineF &globalEdge, int dEdge, qreal angle) { QLineF detailEdge = detail.LayoutEdge(dEdge); // Now we move detail to position near to global contour edge. detail.Translate(globalEdge.x2() - detailEdge.x2(), globalEdge.y2() - detailEdge.y2()); detail.Rotate(globalEdge.p2(), angle); } //--------------------------------------------------------------------------------------------------------------------- void VPosition::Rotate(int number) { const qreal step = 360.0 / number; qreal startAngle = 0; if (VFuzzyComparePossibleNulls(angle_between, 360)) { startAngle = step; } qreal angle = startAngle; while (angle < 360) { if (stop->load()) { return; } RotateOnAngle(angle); angle = angle + step; } } //--------------------------------------------------------------------------------------------------------------------- void VPosition::FollowGrainline() { if (stop->load()) { return; } VPieceGrainline pieceGrainline = m_data.detail.GetGrainline(); QLineF detailGrainline(10, 10, 100, 10); detailGrainline.setAngle(pieceGrainline.GetMainLine().angle()); if (m_data.detail.IsForceFlipping()) { VLayoutPiece workDetail = m_data.detail; // We need copy for temp change workDetail.Mirror(not m_data.followGrainline ? m_data.gContour.GlobalEdge(m_data.j) : QLineF(10, 10, 10, 100)); detailGrainline = workDetail.GetMatrix().map(detailGrainline); } if (stop->load()) { return; } const qreal angle = detailGrainline.angleTo(FabricGrainline()); if (pieceGrainline.IsArrowUpEnabled()) { RotateOnAngle(angle); } if (stop->load()) { return; } if (pieceGrainline.IsArrowDownEnabled()) { RotateOnAngle(angle + 180); } if (stop->load()) { return; } if (pieceGrainline.IsArrowLeftEnabled()) { RotateOnAngle(angle + 90); } if (stop->load()) { return; } if (pieceGrainline.IsArrowRightEnabled()) { RotateOnAngle(angle - 90); } } //--------------------------------------------------------------------------------------------------------------------- void VPosition::FindBestPosition() { if (stop->load()) { return; } if (not m_data.followGrainline || not m_data.detail.IsGrainlineEnabled()) { // We should use copy of the detail. VLayoutPiece workDetail = m_data.detail; int dEdge = m_data.i; // For mirror detail edge will be different if (CheckCombineEdges(workDetail, m_data.j, dEdge)) { if (stop->load()) { return; } #ifdef LAYOUT_DEBUG #ifdef SHOW_CANDIDATE_BEST DumpFrame(m_data.gContour, workDetail, m_data.mutex, m_data.details); #endif #endif SaveCandidate(m_bestResult, workDetail, m_data.j, dEdge, BestFrom::Combine); } if (stop->load()) { return; } if (m_data.rotate) { Rotate(m_data.rotationNumber); } } else { FollowGrainline(); } } #ifdef LAYOUT_DEBUG //--------------------------------------------------------------------------------------------------------------------- void VPosition::DumpFrame(const VContour &contour, const VLayoutPiece &detail, QMutex *mutex, const QVector &details = QVector()) { auto Bias = [](int length, int maxLength) { return length < maxLength && length * 2 < maxLength ? length : maxLength - length; }; const int biasWidth = Bias(contour.GetWidth(), QIMAGE_MAX); const int biasHeight = Bias(contour.GetHeight(), QIMAGE_MAX); QPicture picture; QPainter paint; paint.begin(&picture); paint.setPen(QPen(Qt::black, 6, Qt::SolidLine, Qt::FlatCap, Qt::MiterJoin)); QPainterPath p; if (contour.GetContour().isEmpty()) { p = DumpContour(contour.CutEmptySheetEdge()); p.translate(biasWidth / 2, biasHeight / 2); paint.drawPath(p); } else { p = DumpContour(contour.GetContour()); p.translate(biasWidth / 2, biasHeight / 2); paint.drawPath(p); } #ifdef SHOW_CANDIDATE paint.setPen(QPen(Qt::darkGreen, 6, Qt::SolidLine, Qt::FlatCap, Qt::MiterJoin)); p = DumpContour(detail.GetLayoutAllowancePoints()); p.translate(biasWidth / 2, biasHeight / 2); paint.drawPath(p); #else Q_UNUSED(detail) Q_UNUSED(details) #endif #ifdef ARRANGED_DETAILS paint.setPen(QPen(Qt::blue, 2, Qt::SolidLine, Qt::FlatCap, Qt::MiterJoin)); p = DumpDetails(details); p.translate(biasWidth / 2, biasHeight / 2); paint.drawPath(p); #else Q_UNUSED(details) #endif // Calculate bounding rect before draw sheet rect const QRect pictureRect = picture.boundingRect(); // Sheet #ifdef SHOW_SHEET paint.setPen(QPen(Qt::darkRed, 15, Qt::SolidLine, Qt::FlatCap, Qt::MiterJoin)); paint.drawRect(QRectF(biasWidth / 2, biasHeight / 2, contour.GetWidth(), contour.GetHeight())); #endif paint.end(); // Dump frame to image // Note. If program was build with Address Sanitizer possible crashes. Address Sanitizer doesn't support big // allocations. See page https://bitbucket.org/dismine/valentina/wiki/developers/Address_Sanitizer QImage frameImage(pictureRect.width() + biasWidth, pictureRect.height() + biasHeight, QImage::Format_RGB32); if (frameImage.isNull()) { return; } frameImage.fill(Qt::white); QPainter paintFrameImage; paintFrameImage.begin(&frameImage); paintFrameImage.drawPicture(0, 0, picture); paintFrameImage.end(); QMutexLocker locker(mutex); static int frame = 0; ++frame; const QString path = QDir::homePath() + QStringLiteral("/LayoutDebug/%1.png").arg(frame); frameImage.save(path); } #endif