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/* -*- mode: C++ ; c-file-style: "stroustrup" -*- *****************************
* Qwt Widget Library
* Copyright (C) 1997 Josef Wilgen
* Copyright (C) 2002 Uwe Rathmann
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the Qwt License, Version 1.0
*****************************************************************************/
#include "qwt_series_data.h"
#include "qwt_math.h"
static inline QRectF qwtBoundingRect( const QPointF &sample )
{
return QRectF( sample.x(), sample.y(), 0.0, 0.0 );
}
static inline QRectF qwtBoundingRect( const QwtPoint3D &sample )
{
return QRectF( sample.x(), sample.y(), 0.0, 0.0 );
}
static inline QRectF qwtBoundingRect( const QwtPointPolar &sample )
{
return QRectF( sample.azimuth(), sample.radius(), 0.0, 0.0 );
}
static inline QRectF qwtBoundingRect( const QwtIntervalSample &sample )
{
return QRectF( sample.interval.minValue(), sample.value,
sample.interval.maxValue() - sample.interval.minValue(), 0.0 );
}
static inline QRectF qwtBoundingRect( const QwtSetSample &sample )
{
double minY = sample.set[0];
double maxY = sample.set[0];
for ( int i = 1; i < sample.set.size(); i++ )
{
if ( sample.set[i] < minY )
minY = sample.set[i];
if ( sample.set[i] > maxY )
maxY = sample.set[i];
}
double minX = sample.value;
double maxX = sample.value;
return QRectF( minX, minY, maxX - minX, maxY - minY );
}
static inline QRectF qwtBoundingRect( const QwtOHLCSample &sample )
{
const QwtInterval interval = sample.boundingInterval();
return QRectF( interval.minValue(), sample.time, interval.width(), 0.0 );
}
/*!
\brief Calculate the bounding rectangle of a series subset
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
template <class T>
QRectF qwtBoundingRectT(
const QwtSeriesData<T>& series, int from, int to )
{
QRectF boundingRect( 1.0, 1.0, -2.0, -2.0 ); // invalid;
if ( from < 0 )
from = 0;
if ( to < 0 )
to = static_cast<int>(series.size()) - 1;
if ( to < from )
return boundingRect;
int i;
for ( i = from; i <= to; i++ )
{
const QRectF rect = qwtBoundingRect( series.sample( i ) );
if ( rect.width() >= 0.0 && rect.height() >= 0.0 )
{
boundingRect = rect;
i++;
break;
}
}
for ( ; i <= to; i++ )
{
const QRectF rect = qwtBoundingRect( series.sample( i ) );
if ( rect.width() >= 0.0 && rect.height() >= 0.0 )
{
boundingRect.setLeft( qMin( boundingRect.left(), rect.left() ) );
boundingRect.setRight( qMax( boundingRect.right(), rect.right() ) );
boundingRect.setTop( qMin( boundingRect.top(), rect.top() ) );
boundingRect.setBottom( qMax( boundingRect.bottom(), rect.bottom() ) );
}
}
return boundingRect;
}
/*!
\brief Calculate the bounding rectangle of a series subset
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
QRectF qwtBoundingRect(
const QwtSeriesData<QPointF> &series, int from, int to )
{
return qwtBoundingRectT<QPointF>( series, from, to );
}
/*!
\brief Calculate the bounding rectangle of a series subset
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
QRectF qwtBoundingRect(
const QwtSeriesData<QwtPoint3D> &series, int from, int to )
{
return qwtBoundingRectT<QwtPoint3D>( series, from, to );
}
/*!
\brief Calculate the bounding rectangle of a series subset
The horizontal coordinates represent the azimuth, the
vertical coordinates the radius.
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
QRectF qwtBoundingRect(
const QwtSeriesData<QwtPointPolar> &series, int from, int to )
{
return qwtBoundingRectT<QwtPointPolar>( series, from, to );
}
/*!
\brief Calculate the bounding rectangle of a series subset
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
QRectF qwtBoundingRect(
const QwtSeriesData<QwtIntervalSample>& series, int from, int to )
{
return qwtBoundingRectT<QwtIntervalSample>( series, from, to );
}
/*!
\brief Calculate the bounding rectangle of a series subset
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
QRectF qwtBoundingRect(
const QwtSeriesData<QwtOHLCSample>& series, int from, int to )
{
return qwtBoundingRectT<QwtOHLCSample>( series, from, to );
}
/*!
\brief Calculate the bounding rectangle of a series subset
Slow implementation, that iterates over the series.
\param series Series
\param from Index of the first sample, <= 0 means from the beginning
\param to Index of the last sample, < 0 means to the end
\return Bounding rectangle
*/
QRectF qwtBoundingRect(
const QwtSeriesData<QwtSetSample>& series, int from, int to )
{
return qwtBoundingRectT<QwtSetSample>( series, from, to );
}
/*!
Constructor
\param samples Samples
*/
QwtPointSeriesData::QwtPointSeriesData(
const QVector<QPointF> &samples ):
QwtArraySeriesData<QPointF>( samples )
{
}
/*!
\brief Calculate the bounding rectangle
The bounding rectangle is calculated once by iterating over all
points and is stored for all following requests.
\return Bounding rectangle
*/
QRectF QwtPointSeriesData::boundingRect() const
{
if ( d_boundingRect.width() < 0.0 )
d_boundingRect = qwtBoundingRect( *this );
return d_boundingRect;
}
/*!
Constructor
\param samples Samples
*/
QwtPoint3DSeriesData::QwtPoint3DSeriesData(
const QVector<QwtPoint3D> &samples ):
QwtArraySeriesData<QwtPoint3D>( samples )
{
}
/*!
\brief Calculate the bounding rectangle
The bounding rectangle is calculated once by iterating over all
points and is stored for all following requests.
\return Bounding rectangle
*/
QRectF QwtPoint3DSeriesData::boundingRect() const
{
if ( d_boundingRect.width() < 0.0 )
d_boundingRect = qwtBoundingRect( *this );
return d_boundingRect;
}
/*!
Constructor
\param samples Samples
*/
QwtIntervalSeriesData::QwtIntervalSeriesData(
const QVector<QwtIntervalSample> &samples ):
QwtArraySeriesData<QwtIntervalSample>( samples )
{
}
/*!
\brief Calculate the bounding rectangle
The bounding rectangle is calculated once by iterating over all
points and is stored for all following requests.
\return Bounding rectangle
*/
QRectF QwtIntervalSeriesData::boundingRect() const
{
if ( d_boundingRect.width() < 0.0 )
d_boundingRect = qwtBoundingRect( *this );
return d_boundingRect;
}
/*!
Constructor
\param samples Samples
*/
QwtSetSeriesData::QwtSetSeriesData(
const QVector<QwtSetSample> &samples ):
QwtArraySeriesData<QwtSetSample>( samples )
{
}
/*!
\brief Calculate the bounding rectangle
The bounding rectangle is calculated once by iterating over all
points and is stored for all following requests.
\return Bounding rectangle
*/
QRectF QwtSetSeriesData::boundingRect() const
{
if ( d_boundingRect.width() < 0.0 )
d_boundingRect = qwtBoundingRect( *this );
return d_boundingRect;
}
/*!
Constructor
\param samples Samples
*/
QwtTradingChartData::QwtTradingChartData(
const QVector<QwtOHLCSample> &samples ):
QwtArraySeriesData<QwtOHLCSample>( samples )
{
}
/*!
\brief Calculate the bounding rectangle
The bounding rectangle is calculated once by iterating over all
points and is stored for all following requests.
\return Bounding rectangle
*/
QRectF QwtTradingChartData::boundingRect() const
{
if ( d_boundingRect.width() < 0.0 )
d_boundingRect = qwtBoundingRect( *this );
return d_boundingRect;
}