/************************************************************************ ** ** @file vgobject.cpp ** @author Roman Telezhynskyi ** @date 27 12, 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 "vgobject.h" #include #include #include #include #include #include #include #include #include "../vmisc/def.h" #include "../vmisc/compatibility.h" #include "vgobject_p.h" #include "../vmisc/vabstractapplication.h" namespace { //--------------------------------------------------------------------------------------------------------------------- /** * @brief PerpDotProduct Calculates the area of the parallelogram of the three points. * This is actually the same as the area of the triangle defined by the three points, multiplied by 2. * @return 2 * triangleArea(a,b,c) */ auto PerpDotProduct(const QPointF &p1, const QPointF &p2, const QPointF &t) -> double { return (p1.x() - t.x()) * (p2.y() - t.y()) - (p1.y() - t.y()) * (p2.x() - t.x()); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief GetEpsilon solve the floating-point accuraccy problem. * * There is the floating-point accuraccy problem, so instead of checking against zero, some epsilon value has to be * used. Because the size of the pdp value depends on the length of the vectors, no static value can be used. One * approach is to compare the pdp/area value to the fraction of another area which also depends on the length of the * line e1=(p1, p2), e.g. the minimal area calucalted with PerpDotProduc() if point still not on the line. This distance * is controled by variable accuracyPointOnLine */ auto GetEpsilon(const QPointF &t, QPointF p1, QPointF p2, qreal accuracy) -> double { QLineF edge1(p1, p2); QLineF edge2(p1, t); if (edge2.length() > edge1.length()) { edge1.setLength(edge2.length()); p1 = edge1.p1(); p2 = edge1.p2(); } QLineF line(p1, p2); line.setAngle(line.angle() + 90); line.setLength(accuracy); // less than accuracy means the same point return qAbs(PerpDotProduct(p1, p2, line.p2())); } } // namespace //--------------------------------------------------------------------------------------------------------------------- /** * @brief VGObject default constructor. */ VGObject::VGObject() :d(new VGObjectData) {} //--------------------------------------------------------------------------------------------------------------------- /** * @brief VGObject constructor. * @param type type graphical object. * @param idObject id parent object. * @param mode mode creation. Used in modeling mode. */ VGObject::VGObject(const GOType &type, const quint32 &idObject, const Draw &mode) :d(new VGObjectData(type, idObject, mode)) {} //--------------------------------------------------------------------------------------------------------------------- /** * @brief VGObject copy constructor. * @param obj object. */ VGObject::VGObject(const VGObject &obj) // NOLINT(modernize-use-equals-default) :d (obj.d) {} //--------------------------------------------------------------------------------------------------------------------- /** * @brief operator = assignment operator. * @param obj object * @return object */ auto VGObject::operator=(const VGObject &obj) -> VGObject & { if ( &obj == this ) { return *this; } d = obj.d; return *this; } #ifdef Q_COMPILER_RVALUE_REFS //--------------------------------------------------------------------------------------------------------------------- VGObject::VGObject(VGObject &&obj) Q_DECL_NOTHROW :d (std::move(obj.d)) {} //--------------------------------------------------------------------------------------------------------------------- auto VGObject::operator=(VGObject &&obj) Q_DECL_NOTHROW -> VGObject & { std::swap(d, obj.d); return *this; } #endif //--------------------------------------------------------------------------------------------------------------------- VGObject::~VGObject() // NOLINT(modernize-use-equals-default) {} //--------------------------------------------------------------------------------------------------------------------- /** * @brief getIdObject return parent id. * @return parent id or 0 if object don't have parent. */ auto VGObject::getIdObject() const -> quint32 { return d->idObject; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief setIdObject set parent id. * @param value parent id. */ void VGObject::setIdObject(const quint32 &value) { d->idObject = value; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief name return name graphical object. * @return name */ auto VGObject::name() const -> QString { return d->_name; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief setName set name graphical object. * @param name name graphical object. */ void VGObject::setName(const QString &name) { d->_name = name; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief getMode return mode creation. * @return mode. */ auto VGObject::getMode() const -> Draw { return d->mode; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief setMode set mode creation. * @param value mode. */ void VGObject::setMode(const Draw &value) { d->mode = value; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief getType return object type. * @return type. */ auto VGObject::getType() const -> GOType { return d->type; } //--------------------------------------------------------------------------------------------------------------------- // cppcheck-suppress unusedFunction void VGObject::setType(const GOType &type) { d->type = type; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief id return id object. * @return id */ auto VGObject::id() const -> quint32 { return d->_id; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief setId set id object. * @param id id. */ void VGObject::setId(const quint32 &id) { d->_id = id; } //--------------------------------------------------------------------------------------------------------------------- void VGObject::SetAlias(const QString &alias) { d->m_alias = alias; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::GetAlias() const -> QString { return d->m_alias; } //--------------------------------------------------------------------------------------------------------------------- void VGObject::SetAliasSuffix(const QString &aliasSuffix) { d->m_aliasSuffix = aliasSuffix; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::GetAliasSuffix() const -> QString { return d->m_aliasSuffix; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::ObjectName() const -> QString { const QString alias = VAbstractApplication::VApp()->TrVars()->VarToUser(d->m_alias); const QString name = VAbstractApplication::VApp()->TrVars()->VarToUser(d->_name); return not d->m_alias.isEmpty() ? QStringLiteral("%1 (%2)").arg(alias, name) : name; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::getIdTool() const -> quint32 { if (d->mode == Draw::Calculation) { if (d->idObject != NULL_ID) { return d->idObject; } return d->_id; } return d->_id; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::ToJson() const -> QJsonObject { QJsonObject object { {"id", static_cast(id())}, {"type", static_cast(getType())}, }; return object; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::BuildLine(const QPointF &p1, const qreal &length, const qreal &angle) -> QLineF { QLineF line = QLineF(); line.setP1(p1); line.setAngle(angle);// First set angle then length. Length can have negative value. line.setLength(length); return line; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::BuildRay(const QPointF &firstPoint, const qreal &angle, const QRectF &scRect) -> QPointF { QRectF rect = scRect; if (not rect.isValid()) { rect = QRectF(0, 0, 1200, 700); } if (not rect.contains(firstPoint)) { // If point outside of scene rect create one around point and unite two rects. QRectF rectangle(firstPoint.x()-rect.width()/2, firstPoint.y()-rect.height()/2, rect.width(), rect.height()); rect = rect.united(rectangle); } const qreal diagonal = qSqrt(pow(rect.height(), 2) + pow(rect.width(), 2)); const QLineF line = BuildLine(firstPoint, diagonal, angle); return LineIntersectRect(rect, line); } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::BuildAxis(const QPointF &p, const qreal &angle, const QRectF &scRect) -> QLineF { const QPointF endP1 = BuildRay(p, angle+180, scRect); const QPointF endP2 = BuildRay(p, angle, scRect); return {endP1, endP2}; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::BuildAxis(const QPointF &p1, const QPointF &p2, const QRectF &scRect) -> QLineF { return BuildAxis(p1, QLineF(p1, p2).angle(), scRect); } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::ContactPoints(const QPointF &p, const QPointF ¢er, qreal radius, QPointF &p1, QPointF &p2) -> int { const int flag = PointInCircle(p, center, radius); if (flag == 0) { return 0; } if (flag == 1) { p1 = p; return 1; } const double d = QLineF (p, center).length(); const double k = sqrt (d * d - radius * radius); return IntersectionCircles(p, k, center, radius, p1, p2); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief LineIntersectRect find point intersection line and rect. * @param rec rect. * @param line line. * @return point intersection. */ auto VGObject::LineIntersectRect(const QRectF &rec, const QLineF &line) -> QPointF { qreal x1, y1, x2, y2; rec.getCoords(&x1, &y1, &x2, &y2); QPointF point; QLineF::IntersectType type = Intersects(line, QLineF(QPointF(x1, y1), QPointF(x1, y2)), &point); if ( type == QLineF::BoundedIntersection ) { return point; } type = Intersects(line, QLineF(QPointF(x1, y1), QPointF(x2, y1)), &point); if ( type == QLineF::BoundedIntersection ) { return point; } type = Intersects(line, QLineF(QPointF(x1, y2), QPointF(x2, y2)), &point); if ( type == QLineF::BoundedIntersection ) { return point; } type = Intersects(line, QLineF(QPointF(x2, y1), QPointF(x2, y2)), &point); if ( type == QLineF::BoundedIntersection ) { return point; } return point; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::IntersectionCircles(const QPointF &c1, double r1, const QPointF &c2, double r2, QPointF &p1, QPointF &p2) -> int { if (VFuzzyComparePossibleNulls(c1.x(), c2.x()) && VFuzzyComparePossibleNulls(c1.y(), c2.y()) && VFuzzyComparePossibleNulls(r1, r2)) { return 3;// Circles are equal } const double a = - 2.0 * (c2.x() - c1.x()); const double b = - 2.0 * (c2.y() - c1.y()); const double c = (c2.x() - c1.x())* (c2.x() - c1.x()) + (c2.y() - c1.y()) * (c2.y() - c1.y()) + r1 * r1 - r2 * r2; const double x0 = -a*c/(a*a+b*b); const double y0 = -b*c/(a*a+b*b); if (c*c > r1*r1*(a*a+b*b)) { return 0; } if (VFuzzyComparePossibleNulls(c*c, r1*r1*(a*a+b*b))) { p1 = QPointF(x0 + c1.x(), y0 + c1.y()); return 1; } const double d = r1*r1 - c*c/(a*a+b*b); const double mult = sqrt (d / (a*a+b*b)); const double ax = x0 + b * mult; const double bx = x0 - b * mult; const double ay = y0 - a * mult; const double by = y0 + a * mult; p1 = QPointF(ax + c1.x(), ay + c1.y()); p2 = QPointF(bx + c1.x(), by + c1.y()); return 2; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief LineIntersectCircle find point intersection line and circle. * @param center arc center. * @param radius arc radius. * @param line line * @param p1 first intersection point. * @param p2 second intersection point. * @return 0 - intersection doesn't exist, 1 - one intersection point, 2 - two intersection points. */ auto VGObject::LineIntersectCircle(const QPointF ¢er, qreal radius, const QLineF &line, QPointF &p1, QPointF &p2) -> qint32 { // Fix for issue #485. https://bitbucket.org/dismine/valentina/issues/485/error-when-drawing-a-curved-path if (qFuzzyIsNull(line.length())) { return 0; } //coefficient for equation of segment qreal a = 0, b = 0, c = 0; LineCoefficients(line, &a, &b, &c); // projection center of circle on to line const QPointF p = ClosestPoint (line, center); // how many solutions? qint32 flag = 0; const qreal d = QLineF (center, p).length(); if (VFuzzyComparePossibleNulls(d, radius)) { flag = 1; } else { if (radius > d) { flag = 2; } else { return 0; } } // find distance from projection to points of intersection const qreal k = qSqrt (qAbs(radius * radius - d * d)); const qreal t = QLineF (QPointF (0, 0), QPointF (b, - a)).length(); // add to projection a vectors aimed to points of intersection p1 = addVector (p, QPointF (0, 0), QPointF (- b, a), k / t); p2 = addVector (p, QPointF (0, 0), QPointF (b, - a), k / t); return flag; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief ClosestPoint find point projection of point onto line. * @param line line. * @return point on line or extended line if origin size too small. */ auto VGObject::ClosestPoint(const QLineF &line, const QPointF &point) -> QPointF { qreal a = 0, b = 0, c = 0; LineCoefficients(line, &a, &b, &c); qreal x = point.x() + a; qreal y = b + point.y(); QLineF lin (point, QPointF(x, y)); QPointF p; QLineF::IntersectType intersect = Intersects(line, lin, &p); if (intersect == QLineF::UnboundedIntersection || intersect == QLineF::BoundedIntersection) { return p; } return point; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::addVector(const QPointF &p, const QPointF &p1, const QPointF &p2, qreal k) -> QPointF { return {p.x() + (p2.x() - p1.x()) * k, p.y() + (p2.y() - p1.y()) * k}; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief LineCoefficients coefficient for equation of segment. Segment equestion ax+by+c=0. * @param line line * @param a a value * @param b b value * @param c c value */ void VGObject::LineCoefficients(const QLineF &line, qreal *a, qreal *b, qreal *c) { //coefficient for equation of segment QPointF p1 = line.p1(); *a = line.p2().y() - p1.y(); *b = p1.x() - line.p2().x(); *c = - *a * p1.x() - *b * p1.y(); } //--------------------------------------------------------------------------------------------------------------------- /** * @brief IsPointOnLineSegment Check if the point is on the line segment. */ auto VGObject::IsPointOnLineSegment(const QPointF &t, const QPointF &p1, const QPointF &p2, qreal accuracy) -> bool { // Because of accuracy issues, this operation is slightly different from ordinary checking point on segment. // Here we deal with more like cigar shape. // Front and rear easy to check if (VFuzzyComparePoints(p1, t, accuracy) || VFuzzyComparePoints(p2, t, accuracy)) { return true; } // Check if we have a segment. On previous step we already confirmed that we don't have intersection if (VFuzzyComparePoints(p1, p2, accuracy)) { return false; } // Calculate the main rectangle shape. QLineF is not 100% accurate in calculating positions for points, but this // should be good enough for us. const qreal degrees = 90; QLineF edge(p1, p2); edge.setAngle(edge.angle()+degrees); edge.setLength(accuracy); QPointF sP1 = edge.p2(); edge = QLineF(p2, p1); edge.setAngle(edge.angle()-degrees); edge.setLength(accuracy); QPointF sP2 = edge.p2(); edge = QLineF(p2, p1); edge.setAngle(edge.angle()+degrees); edge.setLength(accuracy); QPointF sP3 = edge.p2(); edge = QLineF(p1, p2); edge.setAngle(edge.angle()-degrees); edge.setLength(accuracy); QPointF sP4 = edge.p2(); QVector shape{sP1, sP2, sP3, sP4, sP1}; for (int i=0; i < shape.size()-1; ++i) { const QPointF &sp1 = shape.at(i); const QPointF &sp2 = shape.at(i+1); // This formula helps to determine on which side of a vector lies a point. qreal position = (sp2.x()-sp1.x())*(t.y()-sp1.y())-(sp2.y()-sp1.y())*(t.x()-sp1.x()); if (position < 0) { return false; } } return true; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::IsLineSegmentOnLineSegment(const QLineF &seg1, const QLineF &seg2, qreal accuracy) -> bool { const bool onLine = IsPointOnLineviaPDP(seg1.p1(), seg2.p1(), seg2.p2(), accuracy) && IsPointOnLineviaPDP(seg1.p2(), seg2.p1(), seg2.p2(), accuracy); if (onLine) { return IsPointOnLineSegment(seg1.p1(), seg2.p1(), seg2.p2(), accuracy) || IsPointOnLineSegment(seg1.p2(), seg2.p1(), seg2.p2(), accuracy) || IsPointOnLineSegment(seg2.p1(), seg1.p1(), seg1.p2(), accuracy) || IsPointOnLineSegment(seg2.p2(), seg1.p1(), seg1.p2(), accuracy); } return onLine; } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::CorrectDistortion(const QPointF &t, const QPointF &p1, const QPointF &p2) -> QPointF { if (not VFuzzyComparePoints(p1, p2)) { return VGObject::ClosestPoint(QLineF(p1, p2), t); } return t; } //--------------------------------------------------------------------------------------------------------------------- /** * @brief IsPointOnLineviaPDP use the perp dot product (PDP) way. * * The pdp is zero only if the t lies on the line e1 = vector from p1 to p2. * @return true if point is on line */ auto VGObject::IsPointOnLineviaPDP(const QPointF &t, const QPointF &p1, const QPointF &p2, qreal accuracy) -> bool { const double p = qAbs(PerpDotProduct(p1, p2, t)); const double e = GetEpsilon(t, p1, p2, accuracy); // We can't use common "<=" here because of the floating-point accuraccy problem return p < e || VFuzzyComparePossibleNulls(p, e); } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::PointInCircle(const QPointF &p, const QPointF ¢er, qreal radius) -> int { const double d = QLineF (p, center).length(); if (VFuzzyComparePossibleNulls(radius, d)) { return 1; // on circle } if (radius > d) { return 0; // outside circle } return 2; // inside circle } //--------------------------------------------------------------------------------------------------------------------- /** * @brief GetLengthContour return length of contour. * @param contour container with points of contour. * @param newPoints point whos we try to add to contour. * @return length length of contour. */ // cppcheck-suppress unusedFunction auto VGObject::GetLengthContour(const QVector &contour, const QVector &newPoints) -> int { qreal length = 0; QVector points; points << contour << newPoints; for (qint32 i = 0; i < points.size()-1; ++i) { QLineF line(points.at(i), points.at(i+1)); length += line.length(); } return qFloor(length); } //--------------------------------------------------------------------------------------------------------------------- auto VGObject::FlippingMatrix(const QLineF &axis) -> QTransform { QTransform matrix; if (axis.isNull()) { return matrix; } const QLineF axisOX = QLineF(axis.x2(), axis.y2(), axis.x2() + 100, axis.y2()); // Ox axis const qreal angle = axis.angleTo(axisOX); const QPointF p2 = axis.p2(); QTransform m; m.translate(p2.x(), p2.y()); m.rotate(-angle); m.translate(-p2.x(), -p2.y()); matrix *= m; m.reset(); m.translate(p2.x(), p2.y()); m.scale(m.m11(), m.m22()*-1); m.translate(-p2.x(), -p2.y()); matrix *= m; m.reset(); m.translate(p2.x(), p2.y()); m.rotate(-(360-angle)); m.translate(-p2.x(), -p2.y()); matrix *= m; return matrix; }