/************************************************************************ ** ** @file vspline_p.h ** @author Roman Telezhynskyi ** @date 20 8, 2014 ** ** @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 . ** *************************************************************************/ #ifndef VSPLINE_P_H #define VSPLINE_P_H #include #include "vpointf.h" #include #include #ifdef Q_CC_GNU #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Weffc++" #endif class VSplineData : public QSharedData { public: VSplineData() :p1(VPointF()), p2(QPointF()), p3(QPointF()), p4(VPointF()), angle1(0), angle2(0), kAsm1(1), kAsm2(1), kCurve(1) {} VSplineData ( const VSplineData &spline ) :QSharedData(spline), p1(spline.p1), p2(spline.p2), p3(spline.p3), p4(spline.p4), angle1(spline.angle1), angle2(spline.angle2), kAsm1(spline.kAsm1), kAsm2(spline.kAsm2), kCurve(spline.kCurve) {} VSplineData (VPointF p1, VPointF p4, qreal angle1, qreal angle2, qreal kAsm1, qreal kAsm2, qreal kCurve) :p1(p1), p2(QPointF()), p3(QPointF()), p4(p4), angle1(angle1), angle2(angle2), kAsm1(kAsm1), kAsm2(kAsm2), kCurve(kCurve) { qreal L = 0, radius = 0, angle = 90; QPointF point1 = this->p1.toQPointF(); QPointF point4 = this->p4.toQPointF(); radius = QLineF(point1, point4).length()/M_SQRT2; L = kCurve * radius * 4 / 3 * tan( angle * M_PI / 180.0 / 4 ); QLineF p1p2(this->p1.x(), this->p1.y(), this->p1.x() + L * kAsm1, this->p1.y()); p1p2.setAngle(angle1); QLineF p4p3(this->p4.x(), this->p4.y(), this->p4.x() + L * kAsm2, this->p4.y()); p4p3.setAngle(angle2); this->p2 = p1p2.p2(); this->p3 = p4p3.p2(); } VSplineData (VPointF p1, QPointF p2, QPointF p3, VPointF p4, qreal kCurve) :p1(p1), p2(p2), p3(p3), p4(p4), angle1(0), angle2(0), kAsm1(1), kAsm2(1), kCurve(1) { this->angle1 = QLineF ( this->p1.toQPointF(), this->p2 ).angle(); this->angle2 = QLineF ( this->p4.toQPointF(), this->p3 ).angle(); qreal L = 0, radius = 0, angle = 90; QPointF point1 = this->p1.toQPointF(); QPointF point4 = this->p4.toQPointF(); radius = QLineF(point1, point4).length()/M_SQRT2; L = kCurve * radius * 4 / 3 * tan( angle * M_PI / 180.0 / 4 ); this->kCurve = kCurve; this->kAsm1 = QLineF ( this->p1.toQPointF(), this->p2 ).length()/L; this->kAsm2 = QLineF ( this->p4.toQPointF(), this->p3 ).length()/L; } virtual ~VSplineData(); /** @brief p1 first spline point. */ VPointF p1; /** @brief p2 first control point. */ QPointF p2; /** @brief p3 second control point. */ QPointF p3; /** @brief p4 last spline point. */ VPointF p4; /** @brief angle1 first angle control line. */ qreal angle1; /** @brief angle2 second angle control line. */ qreal angle2; /** @brief kAsm1 coefficient of length first control line. */ qreal kAsm1; /** @brief kAsm2 coefficient of length second control line. */ qreal kAsm2; /** @brief kCurve coefficient of curvature spline. */ qreal kCurve; private: VSplineData &operator=(const VSplineData &) Q_DECL_EQ_DELETE; }; VSplineData::~VSplineData() {} #ifdef Q_CC_GNU #pragma GCC diagnostic pop #endif #endif // VSPLINE_P_H