A curve fitter implementing Douglas and Peucker algorithm. More...
#include <qwt_weeding_curve_fitter.h>
Classes | |
class | Line |
class | PrivateData |
Public Member Functions | |
uint | chunkSize () const |
virtual QPolygonF | fitCurve (const QPolygonF &) const QWT_OVERRIDE |
virtual QPainterPath | fitCurvePath (const QPolygonF &) const QWT_OVERRIDE |
QwtWeedingCurveFitter (double tolerance=1.0) | |
void | setChunkSize (uint) |
void | setTolerance (double) |
double | tolerance () const |
virtual | ~QwtWeedingCurveFitter () |
Destructor. More... | |
Public Member Functions inherited from QwtCurveFitter | |
Mode | mode () const |
virtual | ~QwtCurveFitter () |
Destructor. More... | |
Private Member Functions | |
virtual QPolygonF | simplify (const QPolygonF &) const |
Private Attributes | |
PrivateData * | m_data |
Additional Inherited Members | |
Public Types inherited from QwtCurveFitter | |
enum | Mode { Polygon, Path } |
Preferred mode of the fitting algorithm. More... | |
Protected Member Functions inherited from QwtCurveFitter | |
QwtCurveFitter (Mode mode) | |
A curve fitter implementing Douglas and Peucker algorithm.
The purpose of the Douglas and Peucker algorithm is that given a 'curve' composed of line segments to find a curve not too dissimilar but that has fewer points. The algorithm defines 'too dissimilar' based on the maximum distance (tolerance) between the original curve and the smoothed curve.
The runtime of the algorithm increases non linear ( worst case O( n*n ) ) and might be very slow for huge polygons. To avoid performance issues it might be useful to split the polygon ( setChunkSize() ) and to run the algorithm for these smaller parts. The disadvantage of having no interpolation at the borders is for most use cases irrelevant.
The smoothed curve consists of a subset of the points that defined the original curve.
In opposite to QwtSplineCurveFitter the Douglas and Peucker algorithm reduces the number of points. By adjusting the tolerance parameter according to the axis scales QwtSplineCurveFitter can be used to implement different level of details to speed up painting of curves of many points.
Definition at line 38 of file qwt_weeding_curve_fitter.h.
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explicit |
Constructor
tolerance | Tolerance |
Definition at line 50 of file qwt_weeding_curve_fitter.cpp.
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virtual |
Destructor.
Definition at line 58 of file qwt_weeding_curve_fitter.cpp.
uint QwtWeedingCurveFitter::chunkSize | ( | ) | const |
Definition at line 114 of file qwt_weeding_curve_fitter.cpp.
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virtual |
points | Series of data points |
Implements QwtCurveFitter.
Definition at line 124 of file qwt_weeding_curve_fitter.cpp.
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virtual |
points | Series of data points |
Implements QwtCurveFitter.
Definition at line 151 of file qwt_weeding_curve_fitter.cpp.
void QwtWeedingCurveFitter::setChunkSize | ( | uint | numPoints | ) |
Limit the number of points passed to a run of the algorithm
The runtime of the Douglas Peucker algorithm increases non linear with the number of points. For a chunk size > 0 the polygon is split into pieces passed to the algorithm one by one.
numPoints | Maximum for the number of points passed to the algorithm |
Definition at line 101 of file qwt_weeding_curve_fitter.cpp.
void QwtWeedingCurveFitter::setTolerance | ( | double | tolerance | ) |
Assign the tolerance
The tolerance is the maximum distance, that is acceptable between the original curve and the smoothed curve.
Increasing the tolerance will reduce the number of the resulting points.
tolerance | Tolerance |
Definition at line 76 of file qwt_weeding_curve_fitter.cpp.
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privatevirtual |
Definition at line 158 of file qwt_weeding_curve_fitter.cpp.
double QwtWeedingCurveFitter::tolerance | ( | ) | const |
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private |
Definition at line 65 of file qwt_weeding_curve_fitter.h.