KissCount/lib/libkdchart/src/KDChartNormalBarDiagram_p.cpp

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2012-01-28 15:54:17 +01:00
/****************************************************************************
** Copyright (C) 2001-2011 Klaralvdalens Datakonsult AB. All rights reserved.
**
** This file is part of the KD Chart library.
**
** Licensees holding valid commercial KD Chart licenses may use this file in
** accordance with the KD Chart Commercial License Agreement provided with
** the Software.
**
**
** This file may be distributed and/or modified under the terms of the
** GNU General Public License version 2 and version 3 as published by the
** Free Software Foundation and appearing in the file LICENSE.GPL.txt included.
**
** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
**
** Contact info@kdab.com if any conditions of this licensing are not
** clear to you.
**
**********************************************************************/
#include "KDChartNormalBarDiagram_p.h"
#include <QModelIndex>
#include "KDChartBarDiagram.h"
#include "KDChartTextAttributes.h"
#include "KDChartAttributesModel.h"
#include "KDChartAbstractCartesianDiagram.h"
using namespace KDChart;
using namespace std;
NormalBarDiagram::NormalBarDiagram( BarDiagram* d )
: BarDiagramType( d )
{
}
BarDiagram::BarType NormalBarDiagram::type() const
{
return BarDiagram::Normal;
}
const QPair<QPointF, QPointF> NormalBarDiagram::calculateDataBoundaries() const
{
const int rowCount = compressor().modelDataRows();
const int colCount = compressor().modelDataColumns();
double xMin = 0.0;
double xMax = diagram()->model() ? diagram()->model()->rowCount( diagram()->rootIndex() ) : 0;
double yMin = 0.0, yMax = 0.0;
double usedDepth = 0;
bool bStarting = true;
for ( int column = 0; column < colCount; ++column )
{
for ( int row = 0; row < rowCount; ++row )
{
const CartesianDiagramDataCompressor::CachePosition position( row, column );
const CartesianDiagramDataCompressor::DataPoint point = compressor().data( position );
const double value = ISNAN( point.value ) ? 0.0 : point.value;
QModelIndex sourceIndex = attributesModel()->mapToSource( point.index );
ThreeDBarAttributes threeDAttrs = diagram()->threeDBarAttributes( sourceIndex );
if ( threeDAttrs.isEnabled() )
usedDepth = qMax( usedDepth, threeDAttrs.depth() );
// this is always true yMin can be 0 in case all values
// are the same
// same for yMax it can be zero if all values are negative
if( bStarting ){
yMin = value;
yMax = value;
bStarting = false;
}else{
yMin = qMin( yMin, value );
yMax = qMax( yMax, value );
}
}
}
// special cases
if ( yMax == yMin ) {
if ( yMin == 0.0 )
yMax = 0.1; //we need at least a range
else if( yMax < 0.0 )
yMax = 0.0; // they are the same and negative
else if( yMin > 0.0 )
yMin = 0.0; // they are the same but positive
}
const QPointF bottomLeft ( QPointF( xMin, yMin ) );
const QPointF topRight ( QPointF( xMax, yMax ) );
//qDebug() << "KDChart::NormalBarDiagram::calculateDataBoundaries() returns " << bottomLeft << topRight;
return QPair< QPointF, QPointF >( bottomLeft, topRight );
}
void NormalBarDiagram::paint( PaintContext* ctx )
{
reverseMapper().clear();
const QPair<QPointF,QPointF> boundaries = diagram()->dataBoundaries(); // cached
const QPointF boundLeft = ctx->coordinatePlane()->translate( boundaries.first ) ;
const QPointF boundRight = ctx->coordinatePlane()->translate( boundaries.second );
const int rowCount = attributesModel()->rowCount(attributesModelRootIndex());
const int colCount = attributesModel()->columnCount(attributesModelRootIndex());
BarAttributes ba = diagram()->barAttributes( diagram()->model()->index( 0, 0, diagram()->rootIndex() ) );
ThreeDBarAttributes threeDAttrs = diagram()->threeDBarAttributes( diagram()->model()->index( 0, 0, diagram()->rootIndex() ) );
double barWidth = 0;
double maxDepth = 0;
double width = boundRight.x() - boundLeft.x();
double groupWidth = width / (rowCount + 2);
double spaceBetweenBars = 0;
double spaceBetweenGroups = 0;
if ( ba.useFixedBarWidth() ) {
barWidth = ba.fixedBarWidth();
groupWidth += barWidth;
// Pending Michel set a min and max value for the groupWidth
// related to the area.width
if ( groupWidth < 0 )
groupWidth = 0;
if ( groupWidth * rowCount > width )
groupWidth = width / rowCount;
}
// maxLimit: allow the space between bars to be larger until area.width()
// is covered by the groups.
double maxLimit = rowCount * (groupWidth + ((colCount-1) * ba.fixedDataValueGap()) );
//Pending Michel: FixMe
if ( ba.useFixedDataValueGap() ) {
if ( width > maxLimit )
spaceBetweenBars += ba.fixedDataValueGap();
else
spaceBetweenBars = ((width/rowCount) - groupWidth)/(colCount-1);
}
if ( ba.useFixedValueBlockGap() ) {
spaceBetweenGroups += ba.fixedValueBlockGap();
}
calculateValueAndGapWidths( rowCount, colCount,groupWidth,
barWidth, spaceBetweenBars, spaceBetweenGroups );
DataValueTextInfoList list;
for( int row = 0; row < rowCount; ++row )
{
double offset = -groupWidth/2 + spaceBetweenGroups/2;
if ( ba.useFixedDataValueGap() )
{
if ( spaceBetweenBars > 0 )
{
if ( width > maxLimit )
offset -= ba.fixedDataValueGap();
else
offset -= ((width/rowCount) - groupWidth)/(colCount-1);
}
else
{
offset += barWidth/2;
}
}
for( int column=0; column< colCount; ++column )
{
// paint one group
const CartesianDiagramDataCompressor::CachePosition position( row, column );
const CartesianDiagramDataCompressor::DataPoint point = compressor().data( position );
const QModelIndex sourceIndex = attributesModel()->mapToSource( point.index );
const qreal value = point.value;//attributesModel()->data( sourceIndex ).toDouble();
if ( ! point.hidden && !ISNAN( value ) ) {
QPointF topPoint = ctx->coordinatePlane()->translate( QPointF( point.key + 0.5, value ) );
QPointF bottomPoint = ctx->coordinatePlane()->translate( QPointF( point.key, 0 ) );
if ( threeDAttrs.isEnabled() ) {
const double usedDepth = threeDAttrs.depth()/4;
topPoint.setY( topPoint.y() + usedDepth + 1.0 );
}
const double barHeight = bottomPoint.y() - topPoint.y();
topPoint.setX( topPoint.x() + offset );
const QRectF rect( topPoint, QSizeF( barWidth, barHeight ) );
appendDataValueTextInfoToList( diagram(), list, sourceIndex, PositionPoints( rect ),
Position::NorthWest, Position::SouthEast,
point.value );
paintBars( ctx, sourceIndex, rect, maxDepth );
}
offset += barWidth + spaceBetweenBars;
}
}
paintDataValueTextsAndMarkers( diagram(), ctx, list, false );
}