source: ntrip/trunk/BNC/qwt/qwt_clipper.cpp@ 10230

Last change on this file since 10230 was 9383, checked in by stoecker, 4 years ago

update to qwt verion 6.1.1 to fix build with newer Qt5

File size: 12.5 KB
RevLine 
[4271]1/* -*- mode: C++ ; c-file-style: "stroustrup" -*- *****************************
2 * Qwt Widget Library
3 * Copyright (C) 1997 Josef Wilgen
4 * Copyright (C) 2002 Uwe Rathmann
5 *
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the Qwt License, Version 1.0
8 *****************************************************************************/
9
10#include "qwt_clipper.h"
11#include "qwt_point_polar.h"
12#include <qrect.h>
[8127]13#include <string.h>
14#include <stdlib.h>
[4271]15
16#if QT_VERSION < 0x040601
17#define qAtan(x) ::atan(x)
18#endif
19
20namespace QwtClip
21{
22 // some templates used for inlining
23 template <class Point, typename T> class LeftEdge;
24 template <class Point, typename T> class RightEdge;
25 template <class Point, typename T> class TopEdge;
26 template <class Point, typename T> class BottomEdge;
27
28 template <class Point> class PointBuffer;
29}
30
31template <class Point, typename Value>
32class QwtClip::LeftEdge
33{
34public:
35 inline LeftEdge( Value x1, Value, Value, Value ):
36 d_x1( x1 )
37 {
38 }
39
40 inline bool isInside( const Point &p ) const
41 {
42 return p.x() >= d_x1;
43 }
44
45 inline Point intersection( const Point &p1, const Point &p2 ) const
46 {
47 double dy = ( p1.y() - p2.y() ) / double( p1.x() - p2.x() );
[8127]48 return Point( d_x1, static_cast< Value >( p2.y() + ( d_x1 - p2.x() ) * dy ) );
[4271]49 }
50private:
51 const Value d_x1;
52};
53
54template <class Point, typename Value>
55class QwtClip::RightEdge
56{
57public:
58 inline RightEdge( Value, Value x2, Value, Value ):
59 d_x2( x2 )
60 {
61 }
62
63 inline bool isInside( const Point &p ) const
64 {
65 return p.x() <= d_x2;
66 }
67
68 inline Point intersection( const Point &p1, const Point &p2 ) const
69 {
70 double dy = ( p1.y() - p2.y() ) / double( p1.x() - p2.x() );
[8127]71 return Point( d_x2, static_cast<Value>( p2.y() + ( d_x2 - p2.x() ) * dy ) );
[4271]72 }
73
74private:
75 const Value d_x2;
76};
77
78template <class Point, typename Value>
79class QwtClip::TopEdge
80{
81public:
82 inline TopEdge( Value, Value, Value y1, Value ):
83 d_y1( y1 )
84 {
85 }
86
87 inline bool isInside( const Point &p ) const
88 {
89 return p.y() >= d_y1;
90 }
91
92 inline Point intersection( const Point &p1, const Point &p2 ) const
93 {
94 double dx = ( p1.x() - p2.x() ) / double( p1.y() - p2.y() );
[8127]95 return Point( static_cast<Value>( p2.x() + ( d_y1 - p2.y() ) * dx ), d_y1 );
[4271]96 }
97
98private:
99 const Value d_y1;
100};
101
102template <class Point, typename Value>
103class QwtClip::BottomEdge
104{
105public:
106 inline BottomEdge( Value, Value, Value, Value y2 ):
107 d_y2( y2 )
108 {
109 }
110
111 inline bool isInside( const Point &p ) const
112 {
113 return p.y() <= d_y2;
114 }
115
116 inline Point intersection( const Point &p1, const Point &p2 ) const
117 {
118 double dx = ( p1.x() - p2.x() ) / double( p1.y() - p2.y() );
[8127]119 return Point( static_cast<Value>( p2.x() + ( d_y2 - p2.y() ) * dx ), d_y2 );
[4271]120 }
121
122private:
123 const Value d_y2;
124};
125
126template<class Point>
127class QwtClip::PointBuffer
128{
129public:
130 PointBuffer( int capacity = 0 ):
131 m_capacity( 0 ),
132 m_size( 0 ),
133 m_buffer( NULL )
134 {
135 if ( capacity > 0 )
136 reserve( capacity );
137 }
138
139 ~PointBuffer()
140 {
141 if ( m_buffer )
[8127]142 ::free( m_buffer );
[4271]143 }
144
145 inline void setPoints( int numPoints, const Point *points )
146 {
147 reserve( numPoints );
148
149 m_size = numPoints;
[8127]150 ::memcpy( m_buffer, points, m_size * sizeof( Point ) );
[4271]151 }
152
[9383]153 inline void reset()
154 {
155 m_size = 0;
[4271]156 }
157
[9383]158 inline int size() const
159 {
160 return m_size;
[4271]161 }
162
[9383]163 inline Point *data() const
164 {
165 return m_buffer;
[4271]166 }
167
[9383]168 inline Point &operator[]( int i )
169 {
170 return m_buffer[i];
[4271]171 }
172
[9383]173 inline const Point &operator[]( int i ) const
174 {
175 return m_buffer[i];
[4271]176 }
177
178 inline void add( const Point &point )
179 {
180 if ( m_capacity <= m_size )
181 reserve( m_size + 1 );
182
183 m_buffer[m_size++] = point;
184 }
185
186private:
187 inline void reserve( int size )
188 {
189 if ( m_capacity == 0 )
190 m_capacity = 1;
191
192 while ( m_capacity < size )
193 m_capacity *= 2;
194
[9383]195 m_buffer = static_cast<Point *>(
[8127]196 ::realloc( m_buffer, m_capacity * sizeof( Point ) ) );
[4271]197 }
198
199 int m_capacity;
200 int m_size;
201 Point *m_buffer;
202};
203
204using namespace QwtClip;
205
206template <class Polygon, class Rect, class Point, typename T>
207class QwtPolygonClipper
208{
209public:
210 QwtPolygonClipper( const Rect &clipRect ):
211 d_clipRect( clipRect )
212 {
213 }
214
215 Polygon clipPolygon( const Polygon &polygon, bool closePolygon ) const
216 {
217#if 0
218 if ( d_clipRect.contains( polygon.boundingRect() ) )
219 return polygon;
220#endif
221
222 PointBuffer<Point> points1;
223 PointBuffer<Point> points2( qMin( 256, polygon.size() ) );
224
225 points1.setPoints( polygon.size(), polygon.data() );
226
227 clipEdge< LeftEdge<Point, T> >( closePolygon, points1, points2 );
228 clipEdge< RightEdge<Point, T> >( closePolygon, points2, points1 );
229 clipEdge< TopEdge<Point, T> >( closePolygon, points1, points2 );
230 clipEdge< BottomEdge<Point, T> >( closePolygon, points2, points1 );
231
232 Polygon p;
233 p.resize( points1.size() );
[8127]234 ::memcpy( p.data(), points1.data(), points1.size() * sizeof( Point ) );
[4271]235
236 return p;
237 }
238
239private:
240 template <class Edge>
241 inline void clipEdge( bool closePolygon,
242 PointBuffer<Point> &points, PointBuffer<Point> &clippedPoints ) const
243 {
244 clippedPoints.reset();
245
246 if ( points.size() < 2 )
247 {
248 if ( points.size() == 1 )
249 clippedPoints.add( points[0] );
250 return;
251 }
252
253 const Edge edge( d_clipRect.x(), d_clipRect.x() + d_clipRect.width(),
254 d_clipRect.y(), d_clipRect.y() + d_clipRect.height() );
255
256 int lastPos, start;
257 if ( closePolygon )
258 {
259 start = 0;
260 lastPos = points.size() - 1;
261 }
262 else
263 {
264 start = 1;
265 lastPos = 0;
266
267 if ( edge.isInside( points[0] ) )
268 clippedPoints.add( points[0] );
269 }
270
271 const uint nPoints = points.size();
272 for ( uint i = start; i < nPoints; i++ )
273 {
274 const Point &p1 = points[i];
275 const Point &p2 = points[lastPos];
276
277 if ( edge.isInside( p1 ) )
278 {
279 if ( edge.isInside( p2 ) )
280 {
281 clippedPoints.add( p1 );
282 }
283 else
284 {
285 clippedPoints.add( edge.intersection( p1, p2 ) );
286 clippedPoints.add( p1 );
287 }
288 }
289 else
290 {
291 if ( edge.isInside( p2 ) )
292 {
293 clippedPoints.add( edge.intersection( p1, p2 ) );
294 }
295 }
296 lastPos = i;
297 }
298 }
299
300 const Rect d_clipRect;
301};
302
303class QwtCircleClipper
304{
305public:
306 QwtCircleClipper( const QRectF &r );
307 QVector<QwtInterval> clipCircle( const QPointF &, double radius ) const;
308
309private:
310 enum Edge
311 {
312 Left,
313 Top,
314 Right,
315 Bottom,
316
317 NEdges
318 };
319
320 QList<QPointF> cuttingPoints(
321 Edge, const QPointF &pos, double radius ) const;
322
323 double toAngle( const QPointF &, const QPointF & ) const;
324
325 const QRectF d_rect;
326};
327
328
329QwtCircleClipper::QwtCircleClipper( const QRectF &r ):
330 d_rect( r )
331{
332}
333
334QVector<QwtInterval> QwtCircleClipper::clipCircle(
335 const QPointF &pos, double radius ) const
336{
337 QList<QPointF> points;
338 for ( int edge = 0; edge < NEdges; edge++ )
[8127]339 points += cuttingPoints( static_cast<Edge>(edge), pos, radius );
[4271]340
341 QVector<QwtInterval> intv;
342 if ( points.size() <= 0 )
343 {
344 QRectF cRect( 0, 0, 2 * radius, 2 * radius );
345 cRect.moveCenter( pos );
346 if ( d_rect.contains( cRect ) )
347 intv += QwtInterval( 0.0, 2 * M_PI );
348 }
349 else
350 {
351 QList<double> angles;
352 for ( int i = 0; i < points.size(); i++ )
353 angles += toAngle( pos, points[i] );
354 qSort( angles );
355
356 const int in = d_rect.contains( qwtPolar2Pos( pos, radius,
357 angles[0] + ( angles[1] - angles[0] ) / 2 ) );
358
359 if ( in )
360 {
361 for ( int i = 0; i < angles.size() - 1; i += 2 )
362 intv += QwtInterval( angles[i], angles[i+1] );
363 }
364 else
365 {
366 for ( int i = 1; i < angles.size() - 1; i += 2 )
367 intv += QwtInterval( angles[i], angles[i+1] );
368 intv += QwtInterval( angles.last(), angles.first() );
369 }
370 }
371
372 return intv;
373}
374
375double QwtCircleClipper::toAngle(
376 const QPointF &from, const QPointF &to ) const
377{
378 if ( from.x() == to.x() )
379 return from.y() <= to.y() ? M_PI / 2.0 : 3 * M_PI / 2.0;
380
381 const double m = qAbs( ( to.y() - from.y() ) / ( to.x() - from.x() ) );
382
383 double angle = qAtan( m );
384 if ( to.x() > from.x() )
385 {
386 if ( to.y() > from.y() )
387 angle = 2 * M_PI - angle;
388 }
389 else
390 {
391 if ( to.y() > from.y() )
392 angle = M_PI + angle;
393 else
394 angle = M_PI - angle;
395 }
396
397 return angle;
398}
399
400QList<QPointF> QwtCircleClipper::cuttingPoints(
401 Edge edge, const QPointF &pos, double radius ) const
402{
403 QList<QPointF> points;
404
405 if ( edge == Left || edge == Right )
406 {
407 const double x = ( edge == Left ) ? d_rect.left() : d_rect.right();
408 if ( qAbs( pos.x() - x ) < radius )
409 {
410 const double off = qSqrt( qwtSqr( radius ) - qwtSqr( pos.x() - x ) );
411 const double m_y1 = pos.y() + off;
412 if ( m_y1 >= d_rect.top() && m_y1 <= d_rect.bottom() )
413 points += QPointF( x, m_y1 );
414
415 const double m_y2 = pos.y() - off;
416 if ( m_y2 >= d_rect.top() && m_y2 <= d_rect.bottom() )
417 points += QPointF( x, m_y2 );
418 }
419 }
420 else
421 {
422 const double y = ( edge == Top ) ? d_rect.top() : d_rect.bottom();
423 if ( qAbs( pos.y() - y ) < radius )
424 {
425 const double off = qSqrt( qwtSqr( radius ) - qwtSqr( pos.y() - y ) );
426 const double x1 = pos.x() + off;
427 if ( x1 >= d_rect.left() && x1 <= d_rect.right() )
428 points += QPointF( x1, y );
429
430 const double m_x2 = pos.x() - off;
431 if ( m_x2 >= d_rect.left() && m_x2 <= d_rect.right() )
432 points += QPointF( m_x2, y );
433 }
434 }
435 return points;
436}
437
438/*!
439 Sutherland-Hodgman polygon clipping
440
441 \param clipRect Clip rectangle
442 \param polygon Polygon
443 \param closePolygon True, when the polygon is closed
444
445 \return Clipped polygon
446*/
447QPolygon QwtClipper::clipPolygon(
[8127]448 const QRectF &clipRect, const QPolygon &polygon, bool closePolygon )
449{
450 const int minX = qCeil( clipRect.left() );
451 const int maxX = qFloor( clipRect.right() );
452 const int minY = qCeil( clipRect.top() );
453 const int maxY = qFloor( clipRect.bottom() );
454
455 const QRect r( minX, minY, maxX - minX, maxY - minY );
456
457 QwtPolygonClipper<QPolygon, QRect, QPoint, int> clipper( r );
458 return clipper.clipPolygon( polygon, closePolygon );
459}
460/*!
461 Sutherland-Hodgman polygon clipping
462
463 \param clipRect Clip rectangle
464 \param polygon Polygon
465 \param closePolygon True, when the polygon is closed
466
467 \return Clipped polygon
468*/
469QPolygon QwtClipper::clipPolygon(
[4271]470 const QRect &clipRect, const QPolygon &polygon, bool closePolygon )
471{
472 QwtPolygonClipper<QPolygon, QRect, QPoint, int> clipper( clipRect );
473 return clipper.clipPolygon( polygon, closePolygon );
474}
475
476/*!
477 Sutherland-Hodgman polygon clipping
478
479 \param clipRect Clip rectangle
480 \param polygon Polygon
481 \param closePolygon True, when the polygon is closed
482
483 \return Clipped polygon
484*/
485QPolygonF QwtClipper::clipPolygonF(
486 const QRectF &clipRect, const QPolygonF &polygon, bool closePolygon )
487{
488 QwtPolygonClipper<QPolygonF, QRectF, QPointF, double> clipper( clipRect );
489 return clipper.clipPolygon( polygon, closePolygon );
490}
491
492/*!
493 Circle clipping
494
[8127]495 clipCircle() divides a circle into intervals of angles representing arcs
[4271]496 of the circle. When the circle is completely inside the clip rectangle
497 an interval [0.0, 2 * M_PI] is returned.
498
499 \param clipRect Clip rectangle
500 \param center Center of the circle
501 \param radius Radius of the circle
502
503 \return Arcs of the circle
504*/
505QVector<QwtInterval> QwtClipper::clipCircle( const QRectF &clipRect,
506 const QPointF &center, double radius )
507{
508 QwtCircleClipper clipper( clipRect );
509 return clipper.clipCircle( center, radius );
510}
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