299 lines
7.8 KiB
C++
299 lines
7.8 KiB
C++
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/* -*- 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_matrix_raster_data.h"
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#include <qnumeric.h>
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#include <qmath.h>
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class QwtMatrixRasterData::PrivateData
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{
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public:
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PrivateData():
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resampleMode(QwtMatrixRasterData::NearestNeighbour),
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numColumns(0)
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{
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}
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inline double value(int row, int col) const
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{
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return values.data()[ row * numColumns + col ];
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}
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QwtMatrixRasterData::ResampleMode resampleMode;
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QVector<double> values;
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int numColumns;
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int numRows;
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double dx;
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double dy;
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};
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//! Constructor
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QwtMatrixRasterData::QwtMatrixRasterData()
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{
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d_data = new PrivateData();
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update();
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}
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//! Destructor
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QwtMatrixRasterData::~QwtMatrixRasterData()
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{
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delete d_data;
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}
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/*!
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\brief Set the resampling algorithm
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\param mode Resampling mode
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\sa resampleMode(), value()
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*/
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void QwtMatrixRasterData::setResampleMode( ResampleMode mode )
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{
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d_data->resampleMode = mode;
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}
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/*!
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\return resampling algorithm
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\sa setResampleMode(), value()
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*/
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QwtMatrixRasterData::ResampleMode QwtMatrixRasterData::resampleMode() const
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{
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return d_data->resampleMode;
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}
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/*!
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\brief Assign the bounding interval for an axis
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Setting the bounding intervals for the X/Y axis is mandatory
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to define the positions for the values of the value matrix.
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The interval in Z direction defines the possible range for
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the values in the matrix, what is f.e used by QwtPlotSpectrogram
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to map values to colors. The Z-interval might be the bounding
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interval of the values in the matrix, but usually it isn't.
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( f.e a interval of 0.0-100.0 for values in percentage )
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\param axis X, Y or Z axis
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\param interval Interval
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\sa QwtRasterData::interval(), setValueMatrix()
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*/
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void QwtMatrixRasterData::setInterval(
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Qt::Axis axis, const QwtInterval &interval )
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{
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QwtRasterData::setInterval( axis, interval );
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update();
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}
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/*!
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\brief Assign a value matrix
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The positions of the values are calculated by dividing
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the bounding rectangle of the X/Y intervals into equidistant
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rectangles ( pixels ). Each value corresponds to the center of
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a pixel.
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\param values Vector of values
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\param numColumns Number of columns
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\sa valueMatrix(), numColumns(), numRows(), setInterval()()
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*/
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void QwtMatrixRasterData::setValueMatrix(
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const QVector<double> &values, int numColumns )
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{
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d_data->values = values;
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d_data->numColumns = qMax( numColumns, 0 );
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update();
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}
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/*!
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\return Value matrix
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\sa setValueMatrix(), numColumns(), numRows(), setInterval()
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*/
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const QVector<double> QwtMatrixRasterData::valueMatrix() const
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{
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return d_data->values;
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}
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/*!
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\brief Change a single value in the matrix
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\param row Row index
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\param col Column index
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\param value New value
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\sa value(), setValueMatrix()
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*/
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void QwtMatrixRasterData::setValue( int row, int col, double value )
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{
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if ( row >= 0 && row < d_data->numRows &&
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col >= 0 && col < d_data->numColumns )
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{
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const int index = row * d_data->numColumns + col;
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d_data->values.data()[ index ] = value;
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}
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}
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/*!
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\return Number of columns of the value matrix
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\sa valueMatrix(), numRows(), setValueMatrix()
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*/
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int QwtMatrixRasterData::numColumns() const
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{
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return d_data->numColumns;
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}
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/*!
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\return Number of rows of the value matrix
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\sa valueMatrix(), numColumns(), setValueMatrix()
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*/
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int QwtMatrixRasterData::numRows() const
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{
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return d_data->numRows;
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}
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/*!
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\brief Calculate the pixel hint
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pixelHint() returns the geometry of a pixel, that can be used
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to calculate the resolution and alignment of the plot item, that is
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representing the data.
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- NearestNeighbour\n
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pixelHint() returns the surrounding pixel of the top left value
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in the matrix.
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- BilinearInterpolation\n
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Returns an empty rectangle recommending
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to render in target device ( f.e. screen ) resolution.
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\param area Requested area, ignored
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\return Calculated hint
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\sa ResampleMode, setMatrix(), setInterval()
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*/
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QRectF QwtMatrixRasterData::pixelHint( const QRectF &area ) const
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{
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Q_UNUSED( area )
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QRectF rect;
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if ( d_data->resampleMode == NearestNeighbour )
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{
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const QwtInterval intervalX = interval( Qt::XAxis );
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const QwtInterval intervalY = interval( Qt::YAxis );
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if ( intervalX.isValid() && intervalY.isValid() )
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{
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rect = QRectF( intervalX.minValue(), intervalY.minValue(),
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d_data->dx, d_data->dy );
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}
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}
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return rect;
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}
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/*!
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\return the value at a raster position
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\param x X value in plot coordinates
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\param y Y value in plot coordinates
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\sa ResampleMode
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*/
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double QwtMatrixRasterData::value( double x, double y ) const
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{
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const QwtInterval xInterval = interval( Qt::XAxis );
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const QwtInterval yInterval = interval( Qt::YAxis );
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if ( !( xInterval.contains(x) && yInterval.contains(y) ) )
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return qQNaN();
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double value;
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switch( d_data->resampleMode )
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{
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case BilinearInterpolation:
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{
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int col1 = qRound( (x - xInterval.minValue() ) / d_data->dx ) - 1;
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int row1 = qRound( (y - yInterval.minValue() ) / d_data->dy ) - 1;
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int col2 = col1 + 1;
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int row2 = row1 + 1;
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if ( col1 < 0 )
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col1 = col2;
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else if ( col2 >= static_cast<int>( d_data->numColumns ) )
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col2 = col1;
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if ( row1 < 0 )
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row1 = row2;
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else if ( row2 >= static_cast<int>( d_data->numRows ) )
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row2 = row1;
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const double v11 = d_data->value( row1, col1 );
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const double v21 = d_data->value( row1, col2 );
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const double v12 = d_data->value( row2, col1 );
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const double v22 = d_data->value( row2, col2 );
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const double x2 = xInterval.minValue() +
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( col2 + 0.5 ) * d_data->dx;
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const double y2 = yInterval.minValue() +
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( row2 + 0.5 ) * d_data->dy;
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const double rx = ( x2 - x ) / d_data->dx;
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const double ry = ( y2 - y ) / d_data->dy;
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const double vr1 = rx * v11 + ( 1.0 - rx ) * v21;
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const double vr2 = rx * v12 + ( 1.0 - rx ) * v22;
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value = ry * vr1 + ( 1.0 - ry ) * vr2;
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break;
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}
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case NearestNeighbour:
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default:
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{
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int row = int( (y - yInterval.minValue() ) / d_data->dy );
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int col = int( (x - xInterval.minValue() ) / d_data->dx );
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// In case of intervals, where the maximum is included
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// we get out of bound for row/col, when the value for the
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// maximum is requested. Instead we return the value
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// from the last row/col
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if ( row >= d_data->numRows )
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row = d_data->numRows - 1;
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if ( col >= d_data->numColumns )
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col = d_data->numColumns - 1;
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value = d_data->value( row, col );
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}
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}
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return value;
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}
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void QwtMatrixRasterData::update()
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{
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d_data->numRows = 0;
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d_data->dx = 0.0;
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d_data->dy = 0.0;
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if ( d_data->numColumns > 0 )
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{
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d_data->numRows = d_data->values.size() / d_data->numColumns;
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const QwtInterval xInterval = interval( Qt::XAxis );
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const QwtInterval yInterval = interval( Qt::YAxis );
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if ( xInterval.isValid() )
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d_data->dx = xInterval.width() / d_data->numColumns;
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if ( yInterval.isValid() )
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d_data->dy = yInterval.width() / d_data->numRows;
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}
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}
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