// Copyright (C) 2022 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only #ifndef QLINE_H #define QLINE_H #include QT_BEGIN_NAMESPACE class QLineF; /******************************************************************************* * class QLine *******************************************************************************/ class Q_CORE_EXPORT QLine { public: constexpr inline QLine(); constexpr inline QLine(const QPoint &pt1, const QPoint &pt2); constexpr inline QLine(int x1, int y1, int x2, int y2); constexpr inline bool isNull() const; constexpr inline QPoint p1() const; constexpr inline QPoint p2() const; constexpr inline int x1() const; constexpr inline int y1() const; constexpr inline int x2() const; constexpr inline int y2() const; constexpr inline int dx() const; constexpr inline int dy() const; inline void translate(const QPoint &p); inline void translate(int dx, int dy); [[nodiscard]] constexpr inline QLine translated(const QPoint &p) const; [[nodiscard]] constexpr inline QLine translated(int dx, int dy) const; [[nodiscard]] constexpr inline QPoint center() const; inline void setP1(const QPoint &p1); inline void setP2(const QPoint &p2); inline void setPoints(const QPoint &p1, const QPoint &p2); inline void setLine(int x1, int y1, int x2, int y2); #if QT_CORE_REMOVED_SINCE(6, 8) constexpr inline bool operator==(const QLine &d) const noexcept; constexpr inline bool operator!=(const QLine &d) const noexcept { return !operator==(d); } #endif [[nodiscard]] constexpr inline QLineF toLineF() const noexcept; private: friend constexpr bool comparesEqual(const QLine &lhs, const QLine &rhs) noexcept { return lhs.pt1 == rhs.pt1 && lhs.pt2 == rhs.pt2; } #if !QT_CORE_REMOVED_SINCE(6, 8) Q_DECLARE_EQUALITY_COMPARABLE_LITERAL_TYPE(QLine) #endif QPoint pt1, pt2; }; Q_DECLARE_TYPEINFO(QLine, Q_PRIMITIVE_TYPE); /******************************************************************************* * class QLine inline members *******************************************************************************/ constexpr inline QLine::QLine() { } constexpr inline QLine::QLine(const QPoint &pt1_, const QPoint &pt2_) : pt1(pt1_), pt2(pt2_) { } constexpr inline QLine::QLine(int x1pos, int y1pos, int x2pos, int y2pos) : pt1(QPoint(x1pos, y1pos)), pt2(QPoint(x2pos, y2pos)) { } constexpr inline bool QLine::isNull() const { return pt1 == pt2; } constexpr inline int QLine::x1() const { return pt1.x(); } constexpr inline int QLine::y1() const { return pt1.y(); } constexpr inline int QLine::x2() const { return pt2.x(); } constexpr inline int QLine::y2() const { return pt2.y(); } constexpr inline QPoint QLine::p1() const { return pt1; } constexpr inline QPoint QLine::p2() const { return pt2; } constexpr inline int QLine::dx() const { return pt2.x() - pt1.x(); } constexpr inline int QLine::dy() const { return pt2.y() - pt1.y(); } inline void QLine::translate(const QPoint &point) { pt1 += point; pt2 += point; } inline void QLine::translate(int adx, int ady) { this->translate(QPoint(adx, ady)); } constexpr inline QLine QLine::translated(const QPoint &p) const { return QLine(pt1 + p, pt2 + p); } constexpr inline QLine QLine::translated(int adx, int ady) const { return translated(QPoint(adx, ady)); } constexpr inline QPoint QLine::center() const { return QPoint(int((qint64(pt1.x()) + pt2.x()) / 2), int((qint64(pt1.y()) + pt2.y()) / 2)); } inline void QLine::setP1(const QPoint &aP1) { pt1 = aP1; } inline void QLine::setP2(const QPoint &aP2) { pt2 = aP2; } inline void QLine::setPoints(const QPoint &aP1, const QPoint &aP2) { pt1 = aP1; pt2 = aP2; } inline void QLine::setLine(int aX1, int aY1, int aX2, int aY2) { pt1 = QPoint(aX1, aY1); pt2 = QPoint(aX2, aY2); } #if QT_CORE_REMOVED_SINCE(6, 8) constexpr inline bool QLine::operator==(const QLine &d) const noexcept { return comparesEqual(*this, d); } #endif #ifndef QT_NO_DEBUG_STREAM Q_CORE_EXPORT QDebug operator<<(QDebug d, const QLine &p); #endif #ifndef QT_NO_DATASTREAM Q_CORE_EXPORT QDataStream &operator<<(QDataStream &, const QLine &); Q_CORE_EXPORT QDataStream &operator>>(QDataStream &, QLine &); #endif /******************************************************************************* * class QLineF *******************************************************************************/ class Q_CORE_EXPORT QLineF { public: enum IntersectionType { NoIntersection, BoundedIntersection, UnboundedIntersection }; using IntersectType = IntersectionType; // deprecated name constexpr inline QLineF(); constexpr inline QLineF(const QPointF &pt1, const QPointF &pt2); constexpr inline QLineF(qreal x1, qreal y1, qreal x2, qreal y2); constexpr inline QLineF(const QLine &line) : pt1(line.p1()), pt2(line.p2()) { } [[nodiscard]] static QLineF fromPolar(qreal length, qreal angle); constexpr bool isNull() const; constexpr inline QPointF p1() const; constexpr inline QPointF p2() const; constexpr inline qreal x1() const; constexpr inline qreal y1() const; constexpr inline qreal x2() const; constexpr inline qreal y2() const; constexpr inline qreal dx() const; constexpr inline qreal dy() const; qreal length() const; void setLength(qreal len); qreal angle() const; void setAngle(qreal angle); qreal angleTo(const QLineF &l) const; [[nodiscard]] QLineF unitVector() const; [[nodiscard]] constexpr inline QLineF normalVector() const; IntersectionType intersects(const QLineF &l, QPointF *intersectionPoint = nullptr) const; constexpr inline QPointF pointAt(qreal t) const; inline void translate(const QPointF &p); inline void translate(qreal dx, qreal dy); [[nodiscard]] constexpr inline QLineF translated(const QPointF &p) const; [[nodiscard]] constexpr inline QLineF translated(qreal dx, qreal dy) const; [[nodiscard]] constexpr inline QPointF center() const; inline void setP1(const QPointF &p1); inline void setP2(const QPointF &p2); inline void setPoints(const QPointF &p1, const QPointF &p2); inline void setLine(qreal x1, qreal y1, qreal x2, qreal y2); #if QT_CORE_REMOVED_SINCE(6, 8) constexpr inline bool operator==(const QLineF &d) const; constexpr inline bool operator!=(const QLineF &d) const { return !operator==(d); } #endif constexpr QLine toLine() const; private: friend constexpr bool comparesEqual(const QLineF &lhs, const QLineF &rhs) noexcept { return lhs.pt1 == rhs.pt1 && lhs.pt2 == rhs.pt2; } #if !QT_CORE_REMOVED_SINCE(6, 8) Q_DECLARE_EQUALITY_COMPARABLE_LITERAL_TYPE(QLineF) #endif friend constexpr bool comparesEqual(const QLineF &lhs, const QLine &rhs) noexcept { return comparesEqual(lhs, rhs.toLineF()); } Q_DECLARE_EQUALITY_COMPARABLE_LITERAL_TYPE(QLineF, QLine) friend constexpr bool qFuzzyCompare(const QLineF &lhs, const QLineF &rhs) noexcept { return qFuzzyCompare(lhs.pt1, rhs.pt1) && qFuzzyCompare(lhs.pt2, rhs.pt2); } friend constexpr bool qFuzzyIsNull(const QLineF &line) noexcept { return qFuzzyCompare(line.pt1, line.pt2); } QPointF pt1, pt2; }; Q_DECLARE_TYPEINFO(QLineF, Q_PRIMITIVE_TYPE); /******************************************************************************* * class QLineF inline members *******************************************************************************/ constexpr inline QLineF::QLineF() { } constexpr inline QLineF::QLineF(const QPointF &apt1, const QPointF &apt2) : pt1(apt1), pt2(apt2) { } constexpr inline QLineF::QLineF(qreal x1pos, qreal y1pos, qreal x2pos, qreal y2pos) : pt1(x1pos, y1pos), pt2(x2pos, y2pos) { } constexpr inline qreal QLineF::x1() const { return pt1.x(); } constexpr inline qreal QLineF::y1() const { return pt1.y(); } constexpr inline qreal QLineF::x2() const { return pt2.x(); } constexpr inline qreal QLineF::y2() const { return pt2.y(); } constexpr inline bool QLineF::isNull() const { return qFuzzyCompare(pt1, pt2); } constexpr inline QPointF QLineF::p1() const { return pt1; } constexpr inline QPointF QLineF::p2() const { return pt2; } constexpr inline qreal QLineF::dx() const { return pt2.x() - pt1.x(); } constexpr inline qreal QLineF::dy() const { return pt2.y() - pt1.y(); } constexpr inline QLineF QLineF::normalVector() const { return QLineF(p1(), p1() + QPointF(dy(), -dx())); } inline void QLineF::translate(const QPointF &point) { pt1 += point; pt2 += point; } inline void QLineF::translate(qreal adx, qreal ady) { this->translate(QPointF(adx, ady)); } constexpr inline QLineF QLineF::translated(const QPointF &p) const { return QLineF(pt1 + p, pt2 + p); } constexpr inline QLineF QLineF::translated(qreal adx, qreal ady) const { return translated(QPointF(adx, ady)); } constexpr inline QPointF QLineF::center() const { return QPointF(0.5 * pt1.x() + 0.5 * pt2.x(), 0.5 * pt1.y() + 0.5 * pt2.y()); } inline void QLineF::setLength(qreal len) { Q_ASSERT(qIsFinite(len)); const qreal oldLength = length(); Q_ASSERT(qIsFinite(oldLength)); // Scale len by dx() / length() and dy() / length(), two O(1) quantities, // rather than scaling dx() and dy() by len / length(), which might overflow. if (oldLength > 0) pt2 = QPointF(pt1.x() + len * (dx() / oldLength), pt1.y() + len * (dy() / oldLength)); } constexpr inline QPointF QLineF::pointAt(qreal t) const { return QPointF(pt1.x() + (pt2.x() - pt1.x()) * t, pt1.y() + (pt2.y() - pt1.y()) * t); } constexpr inline QLineF QLine::toLineF() const noexcept { return *this; } constexpr inline QLine QLineF::toLine() const { return QLine(pt1.toPoint(), pt2.toPoint()); } inline void QLineF::setP1(const QPointF &aP1) { pt1 = aP1; } inline void QLineF::setP2(const QPointF &aP2) { pt2 = aP2; } inline void QLineF::setPoints(const QPointF &aP1, const QPointF &aP2) { pt1 = aP1; pt2 = aP2; } inline void QLineF::setLine(qreal aX1, qreal aY1, qreal aX2, qreal aY2) { pt1 = QPointF(aX1, aY1); pt2 = QPointF(aX2, aY2); } #if QT_CORE_REMOVED_SINCE(6, 8) constexpr inline bool QLineF::operator==(const QLineF &d) const { return comparesEqual(*this, d); } #endif #ifndef QT_NO_DEBUG_STREAM Q_CORE_EXPORT QDebug operator<<(QDebug d, const QLineF &p); #endif #ifndef QT_NO_DATASTREAM Q_CORE_EXPORT QDataStream &operator<<(QDataStream &, const QLineF &); Q_CORE_EXPORT QDataStream &operator>>(QDataStream &, QLineF &); #endif QT_END_NAMESPACE #endif // QLINE_H