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/* -*- Mode: C++ -*-
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KDChart - a multi-platform charting engine
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*/
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/****************************************************************************
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** Copyright (C) 2001-2003 Klarälvdalens Datakonsult AB. All rights reserved.
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**
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** This file is part of the KDChart library.
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**
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** This file may be distributed and/or modified under the terms of the
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** GNU General Public License version 2 as published by the Free Software
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** Foundation and appearing in the file LICENSE.GPL included in the
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** packaging of this file.
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**
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** Licensees holding valid commercial KDChart licenses may use this file in
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** accordance with the KDChart Commercial License Agreement provided with
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** the Software.
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**
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** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
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** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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**
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** See http://www.klaralvdalens-datakonsult.se/?page=products for
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** information about KDChart Commercial License Agreements.
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**
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** Contact info@klaralvdalens-datakonsult.se if any conditions of this
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** licensing are not clear to you.
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**
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**********************************************************************/
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#include "KDChartRingPainter.h"
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#include "KDChartParams.h"
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#include <tqpainter.h>
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#include <tqvaluestack.h>
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#include <stdlib.h>
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#define DEGTORAD(d) (d)*M_PI/180
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/**
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\class KDChartRingPainter KDChartRingPainter.h
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\brief A chart painter implementation that can paint pie charts.
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PENDING(kalle) Write more documentation.
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*/
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/**
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Constructor. Sets up internal data structures as necessary.
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\param params the KDChartParams structure that defines the chart
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*/
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KDChartRingPainter::KDChartRingPainter( KDChartParams* params ) :
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KDChartPainter( params )
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{
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// This constructor intentionally left blank so far; we cannot setup the
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// geometry yet since we do not know the size of the painter.
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}
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/**
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Destructor.
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*/
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KDChartRingPainter::~KDChartRingPainter()
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{
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// intentionally left blank
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}
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/**
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Paints the actual data area.
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\param painter the TQPainter onto which the chart should be painted
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\param data the data that will be displayed as a chart
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\param paint2nd specifies whether the main chart or the additional chart is to be drawn now
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\param regions a pointer to a list of regions that will be filled
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with regions representing the data segments, if not null
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*/
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void KDChartRingPainter::paintData( TQPainter* painter,
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KDChartTableDataBase* data,
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bool paint2nd,
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KDChartDataRegionList* regions )
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{
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uint chart = paint2nd ? 1 : 0;
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TQRect ourClipRect( _dataRect );
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const TQWMatrix & world = painter->worldMatrix();
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ourClipRect =
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#if COMPAT_TQT_VERSION >= 0x030000
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world.mapRect( ourClipRect );
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#else
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world.map( ourClipRect );
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#endif
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ourClipRect.setTop(ourClipRect.top()-1);
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ourClipRect.setLeft(ourClipRect.left()-1);
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ourClipRect.setBottom(ourClipRect.bottom()+1);
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ourClipRect.setRight(ourClipRect.right()+1);
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painter->setClipRect( ourClipRect );
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uint datasetStart, datasetEnd;
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if ( params()->neverUsedSetChartSourceMode()
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|| !params()->findDataset( KDChartParams::DataEntry,
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datasetStart,
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datasetEnd,
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chart ) ) {
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uint maxRow, maxRowMinus1;
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switch ( data->usedRows() ) {
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case 0:
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return ;
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case 1:
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maxRow = 0;
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maxRowMinus1 = 0;
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break;
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default:
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maxRow = data->usedRows() - 1;
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maxRowMinus1 = maxRow - 1;
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}
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datasetStart = paint2nd ? maxRow
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: 0;
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datasetEnd = paint2nd ? maxRow
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: ( ( KDChartParams::NoType
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== params()->additionalChartType() )
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? maxRow
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: maxRowMinus1 );
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}
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uint datasetNum = abs( (int)( datasetEnd - datasetStart ) + 1 );
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// Number of values: If -1, use all values, otherwise use the
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// specified number of values.
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if ( params()->numValues() != -1 )
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_numValues = params()->numValues();
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else
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_numValues = data->usedCols();
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// compute position
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_size = TQMIN( _dataRect.width(), _dataRect.height() ); // initial size
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// if the rings explode, we need to give them additional space =>
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// make the basic size smaller
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if ( params()->explode() ) {
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double doubleSize = ( double ) _size;
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doubleSize /= ( 1.0 + params()->explodeFactor() * 2 );
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_size = ( int ) doubleSize;
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}
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int x = ( _dataRect.width() == _size ) ? 0 : ( ( _dataRect.width() - _size ) / 2 );
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int y = ( _dataRect.height() == _size ) ? 0 : ( ( _dataRect.height() - _size ) / 2 );
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_position = TQRect( x, y, _size, _size );
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_position.moveBy( _dataRect.left(), _dataRect.top() );
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// We need the row sums anyway later, so we can just as well compute them
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// here, because we need them in case of relative ring thicknesses.
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TQMemArray<double> rowsums;
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double totalSum = 0.0;
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rowsums.resize( datasetEnd+1 ); // not datasetNum!
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for( int d1 = (int)datasetStart; d1 <= (int)datasetEnd; d1++ ) {
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rowsums[d1] = data->rowAbsSum( d1 );
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totalSum += rowsums[d1];
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}
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TQMemArray<int> ringthicknesses;
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ringthicknesses.resize( datasetEnd+1 ); // not datasetNum!
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// constant ring thickness
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int ringthickness = _size / ( datasetNum * 2 );
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// Never let the ring thickness be more than 1/10 of the size to
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// ensure "ringness"
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if( ringthickness > ( _size/10 ) )
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ringthickness = _size / 10;
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for( int d2 = (int)datasetStart; d2 <= (int)datasetEnd; d2++ )
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if( params()->relativeRingThickness() ) {
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// 50% should be the same thickness as the one used when ring
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// thickness is constant.
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ringthicknesses[d2] = (uint)floor( (rowsums[d2] / totalSum) *
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( 2.0 * (double)ringthickness ) + 0.5 );
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} else {
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ringthicknesses[d2] = ringthickness;
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}
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int currentouterradius = _size/2;
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// Loop through all the displayable datasets; each dataset is one ring
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for( int dataset = (int)datasetStart; dataset <= (int)datasetEnd; dataset++ ) {
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double sectorsPerValue = 5760.0 / rowsums[dataset]; // 5760 == 16*360, number of sections in TQt circle
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//int sectorsPerValueI = static_cast<int>( sectorsPerValue );
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double currentstartpos = (double)params()->ringStart() * 16.0;
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// Loop through all the values; each value is one piece on the ring.
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TQVariant vValY;
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for( int value = 0; value < _numValues; value++ ) {
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// is there anything at all at this value?
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double cellValue = 0.0;
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if( data->cellCoord( dataset, value, vValY, 1 ) &&
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TQVariant::Double == vValY.type() ){
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cellValue = fabs( vValY.toDouble() );
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// Explosion: Only explode if explosion is turned on generally
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// and we are on the first ring. Besides, if there is a list
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// of explodeable values, the current value must be on this
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// list.
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TQValueList<int> explodeList = params()->explodeValues();
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bool explode = params()->explode() && // explosion is on at all
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( dataset == (int)datasetStart ) && // outermost ring
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( ( explodeList.count() == 0 ) || // either nothing on explode list
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( explodeList.find( value ) != explodeList.end() ) ); // or pie is on it
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drawOneSegment( painter,
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currentouterradius,
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currentouterradius-ringthicknesses[dataset],
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currentstartpos,
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sectorsPerValue * cellValue,
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dataset, value, chart, explode, regions );
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}
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currentstartpos += sectorsPerValue * cellValue;
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}
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currentouterradius -= ringthicknesses[dataset];
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}
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}
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void KDChartRingPainter::drawOneSegment( TQPainter* painter,
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uint outerRadius,
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uint innerRadius,
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double startAngle,
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double angles,
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uint dataset,
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uint value,
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uint chart,
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bool explode,
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KDChartDataRegionList* regions )
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{
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// special case for full circle
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if( angles == 5760.0 )
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startAngle = 0.0;
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painter->setPen( TQPen( params()->outlineDataColor(),
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params()->outlineDataLineWidth() ) );
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painter->setBrush( params()->dataColor( value ) );
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uint outerRadius2 = outerRadius * 2;
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uint innerRadius2 = innerRadius * 2;
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TQRect drawPosition = _position;
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if ( explode ) {
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// need to compute a new position for each pie
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double explodeAngle = ( startAngle + angles / 2.0 ) / 16.0;
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double explodeAngleRad = DEGTORAD( explodeAngle );
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double cosAngle = cos( explodeAngleRad );
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double sinAngle = -sin( explodeAngleRad );
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// find the explode factor for this particular ring segment
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double explodeFactor = 0.0;
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TQMap<int,double> explodeFactors = params()->explodeFactors();
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if( !explodeFactors.contains( value ) ) // not on factors list, use default
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explodeFactor = params()->explodeFactor();
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else // on factors list, use segment-specific value
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explodeFactor = explodeFactors[value];
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double explodeX = explodeFactor * _size * cosAngle;
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double explodeY = explodeFactor * _size * sinAngle;
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drawPosition.moveBy( static_cast<int>( explodeX ), static_cast<int>( explodeY ) );
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}
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TQRect outerRect( drawPosition.x() +
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( drawPosition.width() - outerRadius2 ) / 2,
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drawPosition.y() +
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( drawPosition.height() - outerRadius2 ) / 2,
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outerRadius2, outerRadius2 );
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TQRect innerRect( drawPosition.x() +
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( drawPosition.width() - innerRadius2 ) / 2,
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drawPosition.y() +
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( drawPosition.height() - innerRadius2 ) / 2,
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innerRadius2, innerRadius2 );
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// Start with getting the points for the inner arc.
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TQPointArray innerArc;
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makeArc( innerArc, innerRect, startAngle, angles );
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// And the points for the outer arc
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TQPointArray outerArc;
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makeArc( outerArc, outerRect, startAngle, angles );
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// Now copy the points from the outer arc in the reverse order onto the
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// inner arc array and draw that.
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uint innerArcPoints = innerArc.size();
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uint outerArcPoints = outerArc.size();
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innerArc.resize( innerArcPoints + outerArcPoints );
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for ( int i = outerArcPoints - 1; i >= 0; i-- ) {
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innerArc.setPoint( innerArcPoints+outerArcPoints-i-1,
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outerArc.point( i ) );
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}
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painter->drawPolygon( innerArc );
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if ( regions /* && ( innerArc.size() > 2 )*/ ) {
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KDChartDataRegion* datReg = new KDChartDataRegion( dataset,
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value,
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chart,
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innerArc );
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const int aA = static_cast<int>( startAngle );
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const int aM = static_cast<int>( startAngle + angles / 2.0 );
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const int aZ = static_cast<int>( startAngle + angles );
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datReg->points[ KDChartEnums::PosTopLeft ]
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= pointOnCircle( outerRect, aZ );
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datReg->points[ KDChartEnums::PosTopCenter ]
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= pointOnCircle( outerRect, aM );
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datReg->points[ KDChartEnums::PosTopRight ]
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= pointOnCircle( outerRect, aA );
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datReg->points[ KDChartEnums::PosBottomLeft ]
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= pointOnCircle( innerRect, aZ );
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datReg->points[ KDChartEnums::PosBottomCenter ]
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= pointOnCircle( innerRect, aM );
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datReg->points[ KDChartEnums::PosBottomRight ]
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= pointOnCircle( innerRect, aA );
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datReg->points[ KDChartEnums::PosCenterLeft ]
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= TQPoint( ( datReg->points[ KDChartEnums::PosTopLeft ].x()
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+ datReg->points[ KDChartEnums::PosBottomLeft ].x() ) / 2,
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( datReg->points[ KDChartEnums::PosTopLeft ].y()
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+ datReg->points[ KDChartEnums::PosBottomLeft ].y() ) / 2 );
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datReg->points[ KDChartEnums::PosCenter ]
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= TQPoint( ( datReg->points[ KDChartEnums::PosTopCenter ].x()
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+ datReg->points[ KDChartEnums::PosBottomCenter ].x() ) / 2,
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( datReg->points[ KDChartEnums::PosTopCenter ].y()
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+ datReg->points[ KDChartEnums::PosBottomCenter ].y() ) / 2 );
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datReg->points[ KDChartEnums::PosCenterRight ]
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= TQPoint( ( datReg->points[ KDChartEnums::PosTopRight ].x()
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+ datReg->points[ KDChartEnums::PosBottomRight ].x() ) / 2,
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( datReg->points[ KDChartEnums::PosTopRight ].y()
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+ datReg->points[ KDChartEnums::PosBottomRight ].y() ) / 2 );
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// test the 9 positions:
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/*
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painter->drawEllipse( datReg->points[ KDChartEnums::PosTopLeft ].x() - 2,
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datReg->points[ KDChartEnums::PosTopLeft ].y() - 2, 5, 5);
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painter->drawEllipse( datReg->points[ KDChartEnums::PosCenterLeft ].x() - 2,
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datReg->points[ KDChartEnums::PosCenterLeft ].y() - 2, 5, 5);
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painter->drawEllipse( datReg->points[ KDChartEnums::PosBottomLeft ].x() - 2,
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datReg->points[ KDChartEnums::PosBottomLeft ].y() - 2, 5, 5);
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tqDebug( "\ncenter: (%i, %i)",
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datReg->points[ KDChartEnums::PosCenter ].x(),
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datReg->points[ KDChartEnums::PosCenter ].y() );
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painter->drawEllipse( datReg->points[ KDChartEnums::PosTopCenter ].x() - 2,
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datReg->points[ KDChartEnums::PosTopCenter ].y() - 2, 5, 5);
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painter->drawEllipse( datReg->points[ KDChartEnums::PosCenter ].x() - 2,
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datReg->points[ KDChartEnums::PosCenter ].y() - 2, 5, 5);
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painter->drawEllipse( datReg->points[ KDChartEnums::PosBottomCenter].x() - 2,
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datReg->points[ KDChartEnums::PosBottomCenter].y() - 2, 5, 5);
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painter->drawRect( datReg->points[ KDChartEnums::PosCenterRight ].x() - 2,
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datReg->points[ KDChartEnums::PosCenterRight ].y() - 2, 5, 5);
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//painter->drawRect( datReg->points[ KDChartEnums::PosTopRight ].x() - 2,
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|
// datReg->points[ KDChartEnums::PosTopRight ].y() - 2, 5, 5);
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painter->drawRect( datReg->points[ KDChartEnums::PosBottomRight ].x() - 2,
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|
datReg->points[ KDChartEnums::PosBottomRight ].y() - 2, 5, 5);
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|
*/
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|
datReg->startAngle = static_cast<int>( startAngle );
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|
datReg->angleLen = static_cast<int>( angles );
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|
regions->append( datReg );
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|
}
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}
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|
/**
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|
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|
This method is a specialization that returns a fallback legend text
|
|
|
|
appropriate for rings where the fallbacks should come from the values, not
|
|
|
|
from the datasets.
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|
|
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|
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|
This method is only used when automatic legends are used, because
|
|
|
|
manual and first-column legends do not need fallback texts.
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|
|
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|
|
\param uint dataset the dataset number for which to generate a
|
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|
|
fallback text
|
|
|
|
\return the fallback text to use for describing the specified
|
|
|
|
dataset in the legend
|
|
|
|
*/
|
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|
|
TQString KDChartRingPainter::fallbackLegendText( uint dataset ) const
|
|
|
|
{
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|
|
|
return TQObject::tr( "Item " ) + TQString::number( dataset + 1 );
|
|
|
|
}
|
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|
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|
|
/**
|
|
|
|
This methods returns the number of elements to be shown in the
|
|
|
|
legend in case fallback texts are used.
|
|
|
|
|
|
|
|
This method is only used when automatic legends are used, because
|
|
|
|
manual and first-column legends do not need fallback texts.
|
|
|
|
|
|
|
|
\return the number of fallback texts to use
|
|
|
|
*/
|
|
|
|
uint KDChartRingPainter::numLegendFallbackTexts( KDChartTableDataBase* data ) const
|
|
|
|
{
|
|
|
|
return data->usedCols();
|
|
|
|
}
|