/************************************************************************ ** ** @file vnodedetail.cpp ** @author Roman Telezhynskyi ** @date November 15, 2013 ** ** @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 "vnodedetail.h" #include "../vgeometry/vpointf.h" #include "../vpatterndb/vcontainer.h" #include "vnodedetail_p.h" #include "vpiecenode.h" #include "vpiecepath.h" #include #include namespace { //--------------------------------------------------------------------------------------------------------------------- auto IsOX(const QLineF &line) -> bool { return VFuzzyComparePossibleNulls(line.angle(), 0) || VFuzzyComparePossibleNulls(line.angle(), 360) || VFuzzyComparePossibleNulls(line.angle(), 180); } //--------------------------------------------------------------------------------------------------------------------- auto IsOY(const QLineF &line) -> bool { return VFuzzyComparePossibleNulls(line.angle(), 90) || VFuzzyComparePossibleNulls(line.angle(), 270); } //--------------------------------------------------------------------------------------------------------------------- auto LocalWidth(const QLineF &line, const QLineF &movedLine) -> QString { if (VFuzzyComparePossibleNulls(line.angle(), movedLine.angle())) { return QString().setNum(movedLine.length()); } // different direction means value is negative return QChar('0'); } //--------------------------------------------------------------------------------------------------------------------- void ConvertBefore(VPieceNode &node, const QLineF &line, qreal mX, qreal mY) { if (not qFuzzyIsNull(mX) && IsOX(line)) { const QLineF movedLine(line.p1().x(), line.p1().y(), line.p2().x() + mX, line.p2().y()); node.SetFormulaSABefore(LocalWidth(line, movedLine)); } else if (not qFuzzyIsNull(mY) && IsOY(line)) { const QLineF movedLine(line.p1().x(), line.p1().y(), line.p2().x(), line.p2().y() + mY); node.SetFormulaSABefore(LocalWidth(line, movedLine)); } } //--------------------------------------------------------------------------------------------------------------------- void ConvertAfter(VPieceNode &node, const QLineF &line, qreal mX, qreal mY) { if (not qFuzzyIsNull(mX) && IsOX(line)) { const QLineF movedLine(line.p1().x(), line.p1().y(), line.p2().x() + mX, line.p2().y()); node.SetFormulaSAAfter(LocalWidth(line, movedLine)); } else if (not qFuzzyIsNull(mY) && IsOY(line)) { const QLineF movedLine(line.p1().x(), line.p1().y(), line.p2().x(), line.p2().y() + mY); node.SetFormulaSAAfter(LocalWidth(line, movedLine)); } } } // namespace //--------------------------------------------------------------------------------------------------------------------- VNodeDetail::VNodeDetail() : d(new VNodeDetailData) { } //--------------------------------------------------------------------------------------------------------------------- VNodeDetail::VNodeDetail(quint32 id, Tool typeTool, NodeDetail typeNode, qreal mx, qreal my, bool reverse) : d(new VNodeDetailData(id, typeTool, typeNode, mx, my, reverse)) { } //--------------------------------------------------------------------------------------------------------------------- COPY_CONSTRUCTOR_IMPL(VNodeDetail) //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::operator=(const VNodeDetail &node) -> VNodeDetail & { if (&node == this) { return *this; } d = node.d; return *this; } //--------------------------------------------------------------------------------------------------------------------- VNodeDetail::VNodeDetail(VNodeDetail &&node) noexcept : d(std::move(node.d)) { } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::operator=(VNodeDetail &&node) noexcept -> VNodeDetail & { std::swap(d, node.d); return *this; } //--------------------------------------------------------------------------------------------------------------------- VNodeDetail::~VNodeDetail() = default; //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::getId() const -> quint32 { return d->id; } //--------------------------------------------------------------------------------------------------------------------- void VNodeDetail::setId(const quint32 &value) { d->id = value; } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::getTypeTool() const -> Tool { return d->typeTool; } //--------------------------------------------------------------------------------------------------------------------- // cppcheck-suppress unusedFunction void VNodeDetail::setTypeTool(const Tool &value) { d->typeTool = value; } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::getTypeNode() const -> NodeDetail { return d->typeNode; } //--------------------------------------------------------------------------------------------------------------------- // cppcheck-suppress unusedFunction void VNodeDetail::setTypeNode(const NodeDetail &value) { d->typeNode = value; } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::getMx() const -> qreal { return d->mx; } //--------------------------------------------------------------------------------------------------------------------- void VNodeDetail::setMx(const qreal &value) { d->mx = value; } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::getMy() const -> qreal { return d->my; } //--------------------------------------------------------------------------------------------------------------------- void VNodeDetail::setMy(const qreal &value) { d->my = value; } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::getReverse() const -> bool { if (getTypeTool() == Tool::NodePoint) { return false; } return d->reverse; } //--------------------------------------------------------------------------------------------------------------------- void VNodeDetail::setReverse(bool reverse) { if (getTypeTool() == Tool::NodePoint) { d->reverse = false; } else { d->reverse = reverse; } } //--------------------------------------------------------------------------------------------------------------------- auto VNodeDetail::Convert(const VContainer *data, const QVector &nodes, qreal width, bool closed) -> QVector { if (width < 0) { width = 0; } VPiecePath path; for (const auto &node : nodes) { path.Append(VPieceNode(node.getId(), node.getTypeTool(), node.getReverse())); } if (path.PathPoints(data).size() > 2) { for (int i = 0; i < nodes.size(); ++i) { const VNodeDetail &node = nodes.at(i); if (node.getTypeTool() == Tool::NodePoint) { if (not qFuzzyIsNull(node.getMx()) || not qFuzzyIsNull(node.getMy())) { const QPointF previosPoint = path.NodePreviousPoint(data, i); const QPointF nextPoint = path.NodeNextPoint(data, i); const QPointF point = data->GeometricObject(node.getId())->toQPointF(); QLineF lineBefore(point, previosPoint); lineBefore.setAngle(lineBefore.angle() - 90); lineBefore.setLength(width); ConvertBefore(path[i], lineBefore, node.getMx(), node.getMy()); QLineF lineAfter(point, nextPoint); lineAfter.setAngle(lineAfter.angle() + 90); lineAfter.setLength(width); ConvertAfter(path[i], lineAfter, node.getMx(), node.getMy()); } } } } if (not closed && path.CountNodes() > 1) { path[0].SetFormulaSABefore(QChar('0')); path[path.CountNodes() - 1].SetFormulaSAAfter(QChar('0')); } return path.GetNodes(); }