/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QPATHCLIPPER_P_H #define QPATHCLIPPER_P_H // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists purely as an // implementation detail. This header file may change from version to // version without notice, or even be removed. // // We mean it. // #include #include #include #include #include QT_BEGIN_HEADER QT_BEGIN_NAMESPACE QT_MODULE(Gui) class QWingedEdge; class Q_AUTOTEST_EXPORT QPathClipper { public: enum Operation { BoolAnd, BoolOr, BoolSub, Simplify }; public: QPathClipper(const QPainterPath &subject, const QPainterPath &clip); QPainterPath clip(Operation op = BoolAnd); bool intersect(); bool contains(); static bool pathToRect(const QPainterPath &path, QRectF *rect = 0); static QPainterPath intersect(const QPainterPath &path, const QRectF &rect); private: Q_DISABLE_COPY(QPathClipper) enum ClipperMode { ClipMode, // do the full clip CheckMode // for contains/intersects (only interested in whether the result path is non-empty) }; bool handleCrossingEdges(QWingedEdge &list, qreal y, ClipperMode mode); bool doClip(QWingedEdge &list, ClipperMode mode); QPainterPath subjectPath; QPainterPath clipPath; Operation op; int aMask; int bMask; }; struct QPathVertex { public: QPathVertex(const QPointF &p = QPointF(), int e = -1); operator QPointF() const; int edge; qreal x; qreal y; }; class QPathEdge { public: enum Traversal { RightTraversal, LeftTraversal }; enum Direction { Forward, Backward }; enum Type { Line, Curve }; QPathEdge(int a = -1, int b = -1); mutable int flag; int windingA; int windingB; int first; int second; double angle; double invAngle; int next(Traversal traversal, Direction direction) const; void setNext(Traversal traversal, Direction direction, int next); void setNext(Direction direction, int next); Direction directionTo(int vertex) const; int vertex(Direction direction) const; private: int m_next[2][2]; }; class QPathSegments { public: struct Intersection { int vertex; qreal t; int next; bool operator<(const Intersection &o) const { return t < o.t; } }; struct Segment { Segment(int pathId, int vertexA, int vertexB) : path(pathId) , va(vertexA) , vb(vertexB) , intersection(-1) { } int path; // vertices int va; int vb; // intersection index int intersection; QRectF bounds; }; QPathSegments(int reserve); void setPath(const QPainterPath &path); void addPath(const QPainterPath &path); int intersections() const; int segments() const; int points() const; const Segment &segmentAt(int index) const; const QLineF lineAt(int index) const; const QRectF &elementBounds(int index) const; int pathId(int index) const; const QPointF &pointAt(int vertex) const; int addPoint(const QPointF &point); const Intersection *intersectionAt(int index) const; void addIntersection(int index, const Intersection &intersection); void mergePoints(); private: QDataBuffer m_points; QDataBuffer m_segments; QDataBuffer m_intersections; int m_pathId; }; class Q_AUTOTEST_EXPORT QWingedEdge { public: struct TraversalStatus { int edge; QPathEdge::Traversal traversal; QPathEdge::Direction direction; void flipDirection(); void flipTraversal(); void flip(); }; QWingedEdge(); QWingedEdge(const QPainterPath &subject, const QPainterPath &clip); void simplify(); QPainterPath toPath() const; int edgeCount() const; QPathEdge *edge(int edge); const QPathEdge *edge(int edge) const; int vertexCount() const; int addVertex(const QPointF &p); QPathVertex *vertex(int vertex); const QPathVertex *vertex(int vertex) const; TraversalStatus next(const TraversalStatus &status) const; int addEdge(const QPointF &a, const QPointF &b); int addEdge(int vertexA, int vertexB); bool isInside(qreal x, qreal y) const; static QPathEdge::Traversal flip(QPathEdge::Traversal traversal); static QPathEdge::Direction flip(QPathEdge::Direction direction); private: void intersectAndAdd(); void printNode(int i, FILE *handle); void removeEdge(int ei); int insert(const QPathVertex &vertex); TraversalStatus findInsertStatus(int vertex, int edge) const; qreal delta(int vertex, int a, int b) const; QDataBuffer m_edges; QDataBuffer m_vertices; QVector m_splitPoints; QPathSegments m_segments; }; inline QPathEdge::QPathEdge(int a, int b) : flag(0) , windingA(0) , windingB(0) , first(a) , second(b) , angle(0) , invAngle(0) { m_next[0][0] = -1; m_next[1][0] = -1; m_next[0][0] = -1; m_next[1][0] = -1; } inline int QPathEdge::next(Traversal traversal, Direction direction) const { return m_next[int(traversal)][int(direction)]; } inline void QPathEdge::setNext(Traversal traversal, Direction direction, int next) { m_next[int(traversal)][int(direction)] = next; } inline void QPathEdge::setNext(Direction direction, int next) { m_next[0][int(direction)] = next; m_next[1][int(direction)] = next; } inline QPathEdge::Direction QPathEdge::directionTo(int vertex) const { return first == vertex ? Backward : Forward; } inline int QPathEdge::vertex(Direction direction) const { return direction == Backward ? first : second; } inline QPathVertex::QPathVertex(const QPointF &p, int e) : edge(e) , x(p.x()) , y(p.y()) { } inline QPathVertex::operator QPointF() const { return QPointF(x, y); } inline QPathSegments::QPathSegments(int reserve) : m_points(reserve), m_segments(reserve), m_intersections(reserve) { } inline int QPathSegments::segments() const { return m_segments.size(); } inline int QPathSegments::points() const { return m_points.size(); } inline const QPointF &QPathSegments::pointAt(int i) const { return m_points.at(i); } inline int QPathSegments::addPoint(const QPointF &point) { m_points << point; return m_points.size() - 1; } inline const QPathSegments::Segment &QPathSegments::segmentAt(int index) const { return m_segments.at(index); } inline const QLineF QPathSegments::lineAt(int index) const { const Segment &segment = m_segments.at(index); return QLineF(m_points.at(segment.va), m_points.at(segment.vb)); } inline const QRectF &QPathSegments::elementBounds(int index) const { return m_segments.at(index).bounds; } inline int QPathSegments::pathId(int index) const { return m_segments.at(index).path; } inline const QPathSegments::Intersection *QPathSegments::intersectionAt(int index) const { const int intersection = m_segments.at(index).intersection; if (intersection < 0) return 0; else return &m_intersections.at(intersection); } inline int QPathSegments::intersections() const { return m_intersections.size(); } inline void QPathSegments::addIntersection(int index, const Intersection &intersection) { m_intersections << intersection; Segment &segment = m_segments.at(index); if (segment.intersection < 0) { segment.intersection = m_intersections.size() - 1; } else { Intersection *isect = &m_intersections.at(segment.intersection); while (isect->next != 0) isect += isect->next; isect->next = (m_intersections.size() - 1) - (isect - m_intersections.data()); } } inline void QWingedEdge::TraversalStatus::flipDirection() { direction = QWingedEdge::flip(direction); } inline void QWingedEdge::TraversalStatus::flipTraversal() { traversal = QWingedEdge::flip(traversal); } inline void QWingedEdge::TraversalStatus::flip() { flipDirection(); flipTraversal(); } inline int QWingedEdge::edgeCount() const { return m_edges.size(); } inline QPathEdge *QWingedEdge::edge(int edge) { return edge < 0 ? 0 : &m_edges.at(edge); } inline const QPathEdge *QWingedEdge::edge(int edge) const { return edge < 0 ? 0 : &m_edges.at(edge); } inline int QWingedEdge::vertexCount() const { return m_vertices.size(); } inline int QWingedEdge::addVertex(const QPointF &p) { m_vertices << p; return m_vertices.size() - 1; } inline QPathVertex *QWingedEdge::vertex(int vertex) { return vertex < 0 ? 0 : &m_vertices.at(vertex); } inline const QPathVertex *QWingedEdge::vertex(int vertex) const { return vertex < 0 ? 0 : &m_vertices.at(vertex); } inline QPathEdge::Traversal QWingedEdge::flip(QPathEdge::Traversal traversal) { return traversal == QPathEdge::RightTraversal ? QPathEdge::LeftTraversal : QPathEdge::RightTraversal; } inline QPathEdge::Direction QWingedEdge::flip(QPathEdge::Direction direction) { return direction == QPathEdge::Forward ? QPathEdge::Backward : QPathEdge::Forward; } QT_END_NAMESPACE QT_END_HEADER #endif // QPATHCLIPPER_P_H