source: ntrip/trunk/BNC/qwt/qwt_curve_fitter.cpp@ 9121

Last change on this file since 9121 was 8127, checked in by stoecker, 8 years ago

update qwt and qwtpolar, many QT5 fixes (unfinished)

File size: 10.1 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_curve_fitter.h"
11#include "qwt_math.h"
12#include "qwt_spline.h"
13#include <qstack.h>
14#include <qvector.h>
15
16#if QT_VERSION < 0x040601
17#define qFabs(x) ::fabs(x)
18#endif
19
20//! Constructor
21QwtCurveFitter::QwtCurveFitter()
22{
23}
24
25//! Destructor
26QwtCurveFitter::~QwtCurveFitter()
27{
28}
29
30class QwtSplineCurveFitter::PrivateData
31{
32public:
33 PrivateData():
34 fitMode( QwtSplineCurveFitter::Auto ),
35 splineSize( 250 )
36 {
37 }
38
39 QwtSpline spline;
40 QwtSplineCurveFitter::FitMode fitMode;
41 int splineSize;
42};
43
44//! Constructor
45QwtSplineCurveFitter::QwtSplineCurveFitter()
46{
47 d_data = new PrivateData;
48}
49
50//! Destructor
51QwtSplineCurveFitter::~QwtSplineCurveFitter()
52{
53 delete d_data;
54}
55
56/*!
57 Select the algorithm used for building the spline
58
59 \param mode Mode representing a spline algorithm
60 \sa fitMode()
61*/
62void QwtSplineCurveFitter::setFitMode( FitMode mode )
63{
64 d_data->fitMode = mode;
65}
66
67/*!
68 \return Mode representing a spline algorithm
69 \sa setFitMode()
70*/
71QwtSplineCurveFitter::FitMode QwtSplineCurveFitter::fitMode() const
72{
73 return d_data->fitMode;
74}
75
76/*!
77 Assign a spline
78
79 \param spline Spline
80 \sa spline()
81*/
82void QwtSplineCurveFitter::setSpline( const QwtSpline &spline )
83{
84 d_data->spline = spline;
85 d_data->spline.reset();
86}
87
88/*!
89 \return Spline
90 \sa setSpline()
91*/
92const QwtSpline &QwtSplineCurveFitter::spline() const
93{
94 return d_data->spline;
95}
96
97/*!
98 \return Spline
99 \sa setSpline()
100*/
101QwtSpline &QwtSplineCurveFitter::spline()
102{
103 return d_data->spline;
104}
105
106/*!
107 Assign a spline size ( has to be at least 10 points )
108
109 \param splineSize Spline size
110 \sa splineSize()
111*/
112void QwtSplineCurveFitter::setSplineSize( int splineSize )
113{
114 d_data->splineSize = qMax( splineSize, 10 );
115}
116
117/*!
118 \return Spline size
119 \sa setSplineSize()
120*/
121int QwtSplineCurveFitter::splineSize() const
122{
123 return d_data->splineSize;
124}
125
126/*!
127 Find a curve which has the best fit to a series of data points
128
129 \param points Series of data points
130 \return Curve points
131*/
132QPolygonF QwtSplineCurveFitter::fitCurve( const QPolygonF &points ) const
133{
134 const int size = points.size();
135 if ( size <= 2 )
136 return points;
137
138 FitMode fitMode = d_data->fitMode;
139 if ( fitMode == Auto )
140 {
141 fitMode = Spline;
142
143 const QPointF *p = points.data();
144 for ( int i = 1; i < size; i++ )
145 {
146 if ( p[i].x() <= p[i-1].x() )
147 {
148 fitMode = ParametricSpline;
149 break;
150 }
151 };
152 }
153
154 if ( fitMode == ParametricSpline )
155 return fitParametric( points );
156 else
157 return fitSpline( points );
158}
159
160QPolygonF QwtSplineCurveFitter::fitSpline( const QPolygonF &points ) const
161{
162 d_data->spline.setPoints( points );
163 if ( !d_data->spline.isValid() )
164 return points;
165
166 QPolygonF fittedPoints( d_data->splineSize );
167
168 const double x1 = points[0].x();
169 const double x2 = points[int( points.size() - 1 )].x();
170 const double dx = x2 - x1;
171 const double delta = dx / ( d_data->splineSize - 1 );
172
173 for ( int i = 0; i < d_data->splineSize; i++ )
174 {
175 QPointF &p = fittedPoints[i];
176
177 const double v = x1 + i * delta;
178 const double sv = d_data->spline.value( v );
179
180 p.setX( v );
181 p.setY( sv );
182 }
183 d_data->spline.reset();
184
185 return fittedPoints;
186}
187
188QPolygonF QwtSplineCurveFitter::fitParametric( const QPolygonF &points ) const
189{
190 int i;
191 const int size = points.size();
192
193 QPolygonF fittedPoints( d_data->splineSize );
194 QPolygonF splinePointsX( size );
195 QPolygonF splinePointsY( size );
196
197 const QPointF *p = points.data();
198 QPointF *spX = splinePointsX.data();
199 QPointF *spY = splinePointsY.data();
200
201 double param = 0.0;
202 for ( i = 0; i < size; i++ )
203 {
204 const double x = p[i].x();
205 const double y = p[i].y();
206 if ( i > 0 )
207 {
208 const double delta = qSqrt( qwtSqr( x - spX[i-1].y() )
209 + qwtSqr( y - spY[i-1].y() ) );
210 param += qMax( delta, 1.0 );
211 }
212 spX[i].setX( param );
213 spX[i].setY( x );
214 spY[i].setX( param );
215 spY[i].setY( y );
216 }
217
218 d_data->spline.setPoints( splinePointsX );
219 if ( !d_data->spline.isValid() )
220 return points;
221
222 const double deltaX =
223 splinePointsX[size - 1].x() / ( d_data->splineSize - 1 );
224 for ( i = 0; i < d_data->splineSize; i++ )
225 {
226 const double dtmp = i * deltaX;
227 fittedPoints[i].setX( d_data->spline.value( dtmp ) );
228 }
229
230 d_data->spline.setPoints( splinePointsY );
231 if ( !d_data->spline.isValid() )
232 return points;
233
234 const double deltaY =
235 splinePointsY[size - 1].x() / ( d_data->splineSize - 1 );
236 for ( i = 0; i < d_data->splineSize; i++ )
237 {
238 const double dtmp = i * deltaY;
239 fittedPoints[i].setY( d_data->spline.value( dtmp ) );
240 }
241
242 return fittedPoints;
243}
244
245class QwtWeedingCurveFitter::PrivateData
246{
247public:
248 PrivateData():
[8127]249 tolerance( 1.0 ),
250 chunkSize( 0 )
[4271]251 {
252 }
253
254 double tolerance;
[8127]255 uint chunkSize;
[4271]256};
257
258class QwtWeedingCurveFitter::Line
259{
260public:
261 Line( int i1 = 0, int i2 = 0 ):
262 from( i1 ),
263 to( i2 )
264 {
265 }
266
267 int from;
268 int to;
269};
270
271/*!
272 Constructor
273
274 \param tolerance Tolerance
275 \sa setTolerance(), tolerance()
276*/
277QwtWeedingCurveFitter::QwtWeedingCurveFitter( double tolerance )
278{
279 d_data = new PrivateData;
280 setTolerance( tolerance );
281}
282
283//! Destructor
284QwtWeedingCurveFitter::~QwtWeedingCurveFitter()
285{
286 delete d_data;
287}
288
289/*!
290 Assign the tolerance
291
[8127]292 The tolerance is the maximum distance, that is acceptable
[4271]293 between the original curve and the smoothed curve.
294
295 Increasing the tolerance will reduce the number of the
296 resulting points.
297
298 \param tolerance Tolerance
299
300 \sa tolerance()
301*/
302void QwtWeedingCurveFitter::setTolerance( double tolerance )
303{
304 d_data->tolerance = qMax( tolerance, 0.0 );
305}
306
307/*!
308 \return Tolerance
309 \sa setTolerance()
310*/
311double QwtWeedingCurveFitter::tolerance() const
312{
313 return d_data->tolerance;
314}
315
316/*!
[8127]317 Limit the number of points passed to a run of the algorithm
318
319 The runtime of the Douglas Peucker algorithm increases non linear
320 with the number of points. For a chunk size > 0 the polygon
321 is split into pieces passed to the algorithm one by one.
322
323 \param numPoints Maximum for the number of points passed to the algorithm
324
325 \sa chunkSize()
326*/
327void QwtWeedingCurveFitter::setChunkSize( uint numPoints )
328{
329 if ( numPoints > 0 )
330 numPoints = qMax( numPoints, 3U );
331
332 d_data->chunkSize = numPoints;
333}
334
335/*!
336
337 \return Maximum for the number of points passed to a run
338 of the algorithm - or 0, when unlimited
339 \sa setChunkSize()
340*/
341uint QwtWeedingCurveFitter::chunkSize() const
342{
343 return d_data->chunkSize;
344}
345
346/*!
[4271]347 \param points Series of data points
348 \return Curve points
349*/
350QPolygonF QwtWeedingCurveFitter::fitCurve( const QPolygonF &points ) const
351{
[8127]352 QPolygonF fittedPoints;
353
354 if ( d_data->chunkSize == 0 )
355 {
356 fittedPoints = simplify( points );
357 }
358 else
359 {
360 for ( int i = 0; i < points.size(); i += d_data->chunkSize )
361 {
362 const QPolygonF p = points.mid( i, d_data->chunkSize );
363 fittedPoints += simplify( p );
364 }
365 }
366
367 return fittedPoints;
368}
369
370QPolygonF QwtWeedingCurveFitter::simplify( const QPolygonF &points ) const
371{
372 const double toleranceSqr = d_data->tolerance * d_data->tolerance;
373
[4271]374 QStack<Line> stack;
375 stack.reserve( 500 );
376
377 const QPointF *p = points.data();
378 const int nPoints = points.size();
379
380 QVector<bool> usePoint( nPoints, false );
381
382 stack.push( Line( 0, nPoints - 1 ) );
383
384 while ( !stack.isEmpty() )
385 {
386 const Line r = stack.pop();
387
388 // initialize line segment
389 const double vecX = p[r.to].x() - p[r.from].x();
390 const double vecY = p[r.to].y() - p[r.from].y();
391
392 const double vecLength = qSqrt( vecX * vecX + vecY * vecY );
393
394 const double unitVecX = ( vecLength != 0.0 ) ? vecX / vecLength : 0.0;
395 const double unitVecY = ( vecLength != 0.0 ) ? vecY / vecLength : 0.0;
396
[8127]397 double maxDistSqr = 0.0;
[4271]398 int nVertexIndexMaxDistance = r.from + 1;
399 for ( int i = r.from + 1; i < r.to; i++ )
400 {
401 //compare to anchor
402 const double fromVecX = p[i].x() - p[r.from].x();
403 const double fromVecY = p[i].y() - p[r.from].y();
404
[8127]405 double distToSegmentSqr;
[4271]406 if ( fromVecX * unitVecX + fromVecY * unitVecY < 0.0 )
407 {
[8127]408 distToSegmentSqr = fromVecX * fromVecX + fromVecY * fromVecY;
[4271]409 }
410 else
411 {
412 const double toVecX = p[i].x() - p[r.to].x();
413 const double toVecY = p[i].y() - p[r.to].y();
[8127]414 const double toVecLength = toVecX * toVecX + toVecY * toVecY;
415
[4271]416 const double s = toVecX * ( -unitVecX ) + toVecY * ( -unitVecY );
417 if ( s < 0.0 )
[8127]418 {
419 distToSegmentSqr = toVecLength;
420 }
[4271]421 else
422 {
[8127]423 distToSegmentSqr = qFabs( toVecLength - s * s );
[4271]424 }
425 }
426
[8127]427 if ( maxDistSqr < distToSegmentSqr )
[4271]428 {
[8127]429 maxDistSqr = distToSegmentSqr;
[4271]430 nVertexIndexMaxDistance = i;
431 }
432 }
[8127]433 if ( maxDistSqr <= toleranceSqr )
[4271]434 {
435 usePoint[r.from] = true;
436 usePoint[r.to] = true;
437 }
438 else
439 {
440 stack.push( Line( r.from, nVertexIndexMaxDistance ) );
441 stack.push( Line( nVertexIndexMaxDistance, r.to ) );
442 }
443 }
444
[8127]445 QPolygonF stripped;
[4271]446 for ( int i = 0; i < nPoints; i++ )
447 {
448 if ( usePoint[i] )
[8127]449 stripped += p[i];
[4271]450 }
[8127]451
[4271]452 return stripped;
453}
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