718 lines
19 KiB
C++
718 lines
19 KiB
C++
/* -*- mode: C++ ; c-file-style: "stroustrup" -*- *****************************
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* Qwt Widget Library
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* Copyright (C) 1997 Josef Wilgen
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* Copyright (C) 2002 Uwe Rathmann
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the Qwt License, Version 1.0
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*****************************************************************************/
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#include "qwt_point_mapper.h"
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#include "qwt_scale_map.h"
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#include "qwt_pixel_matrix.h"
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#include <qpolygon.h>
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#include <qimage.h>
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#include <qpen.h>
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#include <qpainter.h>
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#if QT_VERSION >= 0x040400
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#include <qthread.h>
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#include <qfuture.h>
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#include <qtconcurrentrun.h>
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#if !defined(QT_NO_QFUTURE)
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#define QWT_USE_THREADS 0
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#endif
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#endif
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static QRectF qwtInvalidRect( 0.0, 0.0, -1.0, -1.0 );
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// Helper class to work around the 5 parameters
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// limitation of QtConcurrent::run()
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class QwtDotsCommand
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{
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public:
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const QwtSeriesData<QPointF> *series;
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int from;
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int to;
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QRgb rgb;
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};
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static void qwtRenderDots(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtDotsCommand command, const QPoint &pos, QImage *image )
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{
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const QRgb rgb = command.rgb;
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QRgb *bits = reinterpret_cast<QRgb *>( image->bits() );
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const int w = image->width();
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const int h = image->height();
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const int x0 = pos.x();
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const int y0 = pos.y();
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for ( int i = command.from; i <= command.to; i++ )
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{
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const QPointF sample = command.series->sample( i );
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const int x = static_cast<int>( xMap.transform( sample.x() ) + 0.5 ) - x0;
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const int y = static_cast<int>( yMap.transform( sample.y() ) + 0.5 ) - y0;
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if ( x >= 0 && x < w && y >= 0 && y < h )
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bits[ y * w + x ] = rgb;
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}
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}
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static inline int qwtRoundValue( double value )
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{
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return qRound( value );
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}
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// some functors, so that the compile can inline
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struct QwtRoundI
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{
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inline int operator()( double value )
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{
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return qwtRoundValue( value );
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}
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};
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struct QwtRoundF
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{
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inline double operator()( double value )
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{
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#if 1
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// MS Windows and at least IRIX does not have C99's nearbyint() function
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return ( value >= 0.0 ) ? ::floor( value + 0.5 ) : ::ceil( value - 0.5 );
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#else
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// slightly faster than the code above
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return nearbyint( value );
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#endif
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}
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};
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struct QwtNoRoundF
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{
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inline double operator()( double value )
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{
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return value;
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}
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};
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// mapping points without any filtering - beside checking
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// the bounding rectangle
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template<class Polygon, class Point, class Round>
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static inline Polygon qwtToPoints(
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const QRectF &boundingRect,
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series,
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int from, int to, Round round )
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{
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Polygon polyline( to - from + 1 );
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Point *points = polyline.data();
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int numPoints = 0;
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if ( boundingRect.isValid() )
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{
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// iterating over all values
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// filtering out all points outside of
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// the bounding rectangle
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for ( int i = from; i <= to; i++ )
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{
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const QPointF sample = series->sample( i );
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const double x = xMap.transform( sample.x() );
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const double y = yMap.transform( sample.y() );
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if ( boundingRect.contains( x, y ) )
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{
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points[ numPoints ].rx() = round( x );
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points[ numPoints ].ry() = round( y );
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numPoints++;
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}
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}
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polyline.resize( numPoints );
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}
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else
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{
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// simply iterating over all values
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// without any filtering
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for ( int i = from; i <= to; i++ )
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{
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const QPointF sample = series->sample( i );
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const double x = xMap.transform( sample.x() );
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const double y = yMap.transform( sample.y() );
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points[ numPoints ].rx() = round( x );
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points[ numPoints ].ry() = round( y );
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numPoints++;
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}
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}
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return polyline;
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}
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static inline QPolygon qwtToPointsI(
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const QRectF &boundingRect,
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series,
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int from, int to )
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{
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return qwtToPoints<QPolygon, QPoint>(
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boundingRect, xMap, yMap, series, from, to, QwtRoundI() );
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}
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template<class Round>
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static inline QPolygonF qwtToPointsF(
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const QRectF &boundingRect,
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series,
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int from, int to, Round round )
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{
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return qwtToPoints<QPolygonF, QPointF>(
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boundingRect, xMap, yMap, series, from, to, round );
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}
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// Mapping points with filtering out consecutive
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// points mapped to the same position
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template<class Polygon, class Point, class Round>
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static inline Polygon qwtToPolylineFiltered(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series,
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int from, int to, Round round )
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{
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// in curves with many points consecutive points
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// are often mapped to the same position. As this might
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// result in empty lines ( or symbols hidden by others )
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// we try to filter them out
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Polygon polyline( to - from + 1 );
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Point *points = polyline.data();
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const QPointF sample0 = series->sample( from );
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points[0].rx() = round( xMap.transform( sample0.x() ) );
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points[0].ry() = round( yMap.transform( sample0.y() ) );
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int pos = 0;
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for ( int i = from + 1; i <= to; i++ )
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{
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const QPointF sample = series->sample( i );
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const Point p( round( xMap.transform( sample.x() ) ),
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round( yMap.transform( sample.y() ) ) );
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if ( points[pos] != p )
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points[++pos] = p;
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}
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polyline.resize( pos + 1 );
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return polyline;
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}
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static inline QPolygon qwtToPolylineFilteredI(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series,
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int from, int to )
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{
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return qwtToPolylineFiltered<QPolygon, QPoint>(
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xMap, yMap, series, from, to, QwtRoundI() );
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}
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template<class Round>
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static inline QPolygonF qwtToPolylineFilteredF(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series,
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int from, int to, Round round )
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{
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return qwtToPolylineFiltered<QPolygonF, QPointF>(
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xMap, yMap, series, from, to, round );
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}
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template<class Polygon, class Point>
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static inline Polygon qwtToPointsFiltered(
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const QRectF &boundingRect,
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series, int from, int to )
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{
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// F.e. in scatter plots ( no connecting lines ) we
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// can sort out all duplicates ( not only consecutive points )
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Polygon polygon( to - from + 1 );
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Point *points = polygon.data();
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QwtPixelMatrix pixelMatrix( boundingRect.toAlignedRect() );
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int numPoints = 0;
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for ( int i = from; i <= to; i++ )
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{
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const QPointF sample = series->sample( i );
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const int x = qwtRoundValue( xMap.transform( sample.x() ) );
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const int y = qwtRoundValue( yMap.transform( sample.y() ) );
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if ( pixelMatrix.testAndSetPixel( x, y, true ) == false )
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{
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points[ numPoints ].rx() = x;
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points[ numPoints ].ry() = y;
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numPoints++;
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}
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}
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polygon.resize( numPoints );
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return polygon;
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}
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static inline QPolygon qwtToPointsFilteredI(
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const QRectF &boundingRect,
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series, int from, int to )
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{
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return qwtToPointsFiltered<QPolygon, QPoint>(
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boundingRect, xMap, yMap, series, from, to );
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}
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static inline QPolygonF qwtToPointsFilteredF(
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const QRectF &boundingRect,
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series, int from, int to )
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{
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return qwtToPointsFiltered<QPolygonF, QPointF>(
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boundingRect, xMap, yMap, series, from, to );
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}
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class QwtPointMapper::PrivateData
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{
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public:
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PrivateData():
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boundingRect( qwtInvalidRect )
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{
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}
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QRectF boundingRect;
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QwtPointMapper::TransformationFlags flags;
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};
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//! Constructor
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QwtPointMapper::QwtPointMapper()
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{
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d_data = new PrivateData();
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}
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//! Destructor
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QwtPointMapper::~QwtPointMapper()
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{
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delete d_data;
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}
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/*!
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Set the flags affecting the transformation process
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\param flags Flags
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\sa flags(), setFlag()
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*/
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void QwtPointMapper::setFlags( TransformationFlags flags )
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{
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d_data->flags = flags;
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}
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/*!
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\return Flags affecting the transformation process
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\sa setFlags(), setFlag()
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*/
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QwtPointMapper::TransformationFlags QwtPointMapper::flags() const
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{
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return d_data->flags;
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}
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/*!
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Modify a flag affecting the transformation process
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\param flag Flag type
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\param on Value
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\sa flag(), setFlags()
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*/
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void QwtPointMapper::setFlag( TransformationFlag flag, bool on )
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{
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if ( on )
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d_data->flags |= flag;
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else
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d_data->flags &= ~flag;
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}
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/*!
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\return True, when the flag is set
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\param flag Flag type
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\sa setFlag(), setFlags()
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*/
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bool QwtPointMapper::testFlag( TransformationFlag flag ) const
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{
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return d_data->flags & flag;
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}
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/*!
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Set a bounding rectangle for the point mapping algorithm
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A valid bounding rectangle can be used for optimizations
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\param rect Bounding rectangle
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\sa boundingRect()
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*/
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void QwtPointMapper::setBoundingRect( const QRectF &rect )
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{
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d_data->boundingRect = rect;
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}
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/*!
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\return Bounding rectangle
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\sa setBoundingRect()
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*/
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QRectF QwtPointMapper::boundingRect() const
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{
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return d_data->boundingRect;
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}
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/*!
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\brief Translate a series of points into a QPolygonF
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When the WeedOutPoints flag is enabled consecutive points,
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that are mapped to the same position will be one point.
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When RoundPoints is set all points are rounded to integers
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but returned as PolygonF - what only makes sense
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when the further processing of the values need a QPolygonF.
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\param xMap x map
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\param yMap y map
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\param series Series of points to be mapped
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\param from Index of the first point to be painted
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\param to Index of the last point to be painted
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\return Translated polygon
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*/
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QPolygonF QwtPointMapper::toPolygonF(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series, int from, int to ) const
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{
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QPolygonF polyline;
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if ( d_data->flags & WeedOutPoints )
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{
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if ( d_data->flags & RoundPoints )
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{
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polyline = qwtToPolylineFilteredF(
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xMap, yMap, series, from, to, QwtRoundF() );
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}
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else
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{
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polyline = qwtToPolylineFilteredF(
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xMap, yMap, series, from, to, QwtNoRoundF() );
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}
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}
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else
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{
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if ( d_data->flags & RoundPoints )
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{
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polyline = qwtToPointsF( qwtInvalidRect,
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xMap, yMap, series, from, to, QwtRoundF() );
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}
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else
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{
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polyline = qwtToPointsF( qwtInvalidRect,
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xMap, yMap, series, from, to, QwtNoRoundF() );
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}
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}
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return polyline;
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}
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/*!
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\brief Translate a series of points into a QPolygon
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When the WeedOutPoints flag is enabled consecutive points,
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that are mapped to the same position will be one point.
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\param xMap x map
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\param yMap y map
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\param series Series of points to be mapped
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\param from Index of the first point to be painted
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\param to Index of the last point to be painted
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\return Translated polygon
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*/
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QPolygon QwtPointMapper::toPolygon(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series, int from, int to ) const
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{
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QPolygon polyline;
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if ( d_data->flags & WeedOutPoints )
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{
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polyline = qwtToPolylineFilteredI(
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xMap, yMap, series, from, to );
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}
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else
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{
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polyline = qwtToPointsI(
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qwtInvalidRect, xMap, yMap, series, from, to );
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}
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return polyline;
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}
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/*!
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\brief Translate a series into a QPolygonF
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- WeedOutPoints & RoundPoints & boundingRect().isValid()
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All points that are mapped to the same position
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will be one point. Points outside of the bounding
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rectangle are ignored.
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- WeedOutPoints & RoundPoints & !boundingRect().isValid()
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All consecutive points that are mapped to the same position
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will one point
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- WeedOutPoints & !RoundPoints
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All consecutive points that are mapped to the same position
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will one point
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- !WeedOutPoints & boundingRect().isValid()
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Points outside of the bounding rectangle are ignored.
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When RoundPoints is set all points are rounded to integers
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but returned as PolygonF - what only makes sense
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when the further processing of the values need a QPolygonF.
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\param xMap x map
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\param yMap y map
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\param series Series of points to be mapped
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\param from Index of the first point to be painted
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\param to Index of the last point to be painted
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\return Translated polygon
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*/
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QPolygonF QwtPointMapper::toPointsF(
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const QwtScaleMap &xMap, const QwtScaleMap &yMap,
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const QwtSeriesData<QPointF> *series, int from, int to ) const
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{
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QPolygonF points;
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if ( d_data->flags & WeedOutPoints )
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{
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if ( d_data->flags & RoundPoints )
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{
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if ( d_data->boundingRect.isValid() )
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{
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points = qwtToPointsFilteredF( d_data->boundingRect,
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xMap, yMap, series, from, to );
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}
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else
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{
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// without a bounding rectangle all we can
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// do is to filter out duplicates of
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// consecutive points
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points = qwtToPolylineFilteredF(
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xMap, yMap, series, from, to, QwtRoundF() );
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}
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}
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else
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{
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// when rounding is not allowed we can't use
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// qwtToPointsFilteredF
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points = qwtToPolylineFilteredF(
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xMap, yMap, series, from, to, QwtNoRoundF() );
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}
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}
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else
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{
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if ( d_data->flags & RoundPoints )
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{
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points = qwtToPointsF( d_data->boundingRect,
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xMap, yMap, series, from, to, QwtRoundF() );
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}
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else
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{
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points = qwtToPointsF( d_data->boundingRect,
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xMap, yMap, series, from, to, QwtNoRoundF() );
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}
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}
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return points;
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}
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/*!
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\brief Translate a series of points into a QPolygon
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- WeedOutPoints & boundingRect().isValid()
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All points that are mapped to the same position
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will be one point. Points outside of the bounding
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rectangle are ignored.
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- WeedOutPoints & !boundingRect().isValid()
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All consecutive points that are mapped to the same position
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will one point
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- !WeedOutPoints & boundingRect().isValid()
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Points outside of the bounding rectangle are ignored.
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\param xMap x map
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\param yMap y map
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\param series Series of points to be mapped
|
|
\param from Index of the first point to be painted
|
|
\param to Index of the last point to be painted
|
|
|
|
\return Translated polygon
|
|
*/
|
|
QPolygon QwtPointMapper::toPoints(
|
|
const QwtScaleMap &xMap, const QwtScaleMap &yMap,
|
|
const QwtSeriesData<QPointF> *series, int from, int to ) const
|
|
{
|
|
QPolygon points;
|
|
|
|
if ( d_data->flags & WeedOutPoints )
|
|
{
|
|
if ( d_data->boundingRect.isValid() )
|
|
{
|
|
points = qwtToPointsFilteredI( d_data->boundingRect,
|
|
xMap, yMap, series, from, to );
|
|
}
|
|
else
|
|
{
|
|
// when we don't have the bounding rectangle all
|
|
// we can do is to filter out consecutive duplicates
|
|
|
|
points = qwtToPolylineFilteredI(
|
|
xMap, yMap, series, from, to );
|
|
}
|
|
}
|
|
else
|
|
{
|
|
points = qwtToPointsI(
|
|
d_data->boundingRect, xMap, yMap, series, from, to );
|
|
}
|
|
|
|
return points;
|
|
}
|
|
|
|
|
|
/*!
|
|
\brief Translate a series into a QImage
|
|
|
|
\param xMap x map
|
|
\param yMap y map
|
|
\param series Series of points to be mapped
|
|
\param from Index of the first point to be painted
|
|
\param to Index of the last point to be painted
|
|
\param pen Pen used for drawing a point
|
|
of the image, where a point is mapped to
|
|
\param antialiased True, when the dots should be displayed
|
|
antialiased
|
|
\param numThreads Number of threads to be used for rendering.
|
|
If numThreads is set to 0, the system specific
|
|
ideal thread count is used.
|
|
|
|
\return Image displaying the series
|
|
*/
|
|
QImage QwtPointMapper::toImage(
|
|
const QwtScaleMap &xMap, const QwtScaleMap &yMap,
|
|
const QwtSeriesData<QPointF> *series, int from, int to,
|
|
const QPen &pen, bool antialiased, uint numThreads ) const
|
|
{
|
|
Q_UNUSED( antialiased )
|
|
|
|
#if QWT_USE_THREADS
|
|
if ( numThreads == 0 )
|
|
numThreads = QThread::idealThreadCount();
|
|
|
|
if ( numThreads <= 0 )
|
|
numThreads = 1;
|
|
#else
|
|
Q_UNUSED( numThreads )
|
|
#endif
|
|
|
|
// a very special optimization for scatter plots
|
|
// where every sample is mapped to one pixel only.
|
|
|
|
const QRect rect = d_data->boundingRect.toAlignedRect();
|
|
|
|
QImage image( rect.size(), QImage::Format_ARGB32 );
|
|
image.fill( Qt::transparent );
|
|
|
|
if ( pen.width() <= 1 && pen.color().alpha() == 255 )
|
|
{
|
|
QwtDotsCommand command;
|
|
command.series = series;
|
|
command.rgb = pen.color().rgba();
|
|
|
|
#if QWT_USE_THREADS
|
|
const int numPoints = ( to - from + 1 ) / numThreads;
|
|
|
|
QList< QFuture<void> > futures;
|
|
for ( uint i = 0; i < numThreads; i++ )
|
|
{
|
|
const QPoint pos = rect.topLeft();
|
|
|
|
const int index0 = from + i * numPoints;
|
|
if ( i == numThreads - 1 )
|
|
{
|
|
command.from = index0;
|
|
command.to = to;
|
|
|
|
qwtRenderDots( xMap, yMap, command, pos, &image );
|
|
}
|
|
else
|
|
{
|
|
command.from = index0;
|
|
command.to = index0 + numPoints - 1;
|
|
|
|
futures += QtConcurrent::run( &qwtRenderDots,
|
|
xMap, yMap, command, pos, &image );
|
|
}
|
|
}
|
|
for ( int i = 0; i < futures.size(); i++ )
|
|
futures[i].waitForFinished();
|
|
#else
|
|
command.from = from;
|
|
command.to = to;
|
|
|
|
qwtRenderDots( xMap, yMap, command, rect.topLeft(), &image );
|
|
#endif
|
|
}
|
|
else
|
|
{
|
|
// fallback implementation: to be replaced later by
|
|
// setting the pixels of the image like above, TODO ...
|
|
|
|
QPainter painter( &image );
|
|
painter.setPen( pen );
|
|
painter.setRenderHint( QPainter::Antialiasing, antialiased );
|
|
|
|
const int chunkSize = 1000;
|
|
for ( int i = from; i <= to; i += chunkSize )
|
|
{
|
|
const int indexTo = qMin( i + chunkSize - 1, to );
|
|
const QPolygon points = toPoints(
|
|
xMap, yMap, series, i, indexTo );
|
|
|
|
painter.drawPoints( points );
|
|
}
|
|
}
|
|
|
|
return image;
|
|
}
|