/**************************************************************************** ** 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 "KDChartStockDiagram.h" #include "KDChartStockDiagram_p.h" #include "KDChartPaintContext.h" using namespace KDChart; #define d d_func() StockDiagram::StockDiagram( QWidget *parent, CartesianCoordinatePlane *plane ) : AbstractCartesianDiagram( new Private(), parent, plane ) { init(); } StockDiagram::~StockDiagram() { } /** * Initializes the diagram */ void StockDiagram::init() { d->diagram = this; d->compressor.setModel( attributesModel() ); // Set properties to defaults d->type = HighLowClose; d->upTrendCandlestickBrush = QBrush( Qt::white ); d->downTrendCandlestickBrush = QBrush( Qt::black ); d->upTrendCandlestickPen = QPen( Qt::black ); d->downTrendCandlestickPen = QPen( Qt::black ); d->lowHighLinePen = QPen( Qt::black ); setPen( QPen( Qt::black ) ); } /** * Switches between the supported types of stock charts, * depending on \a type */ void StockDiagram::setType( Type type ) { d->type = type; emit propertiesChanged(); } /** * @return the type of this diagram */ StockDiagram::Type StockDiagram::type() const { return d->type; } void StockDiagram::setStockBarAttributes( const StockBarAttributes &attr ) { attributesModel()->setModelData( qVariantFromValue( attr ), StockBarAttributesRole ); emit propertiesChanged(); } StockBarAttributes StockDiagram::stockBarAttributes() const { return qVariantValue( attributesModel()->modelData( StockBarAttributesRole ) ); } void StockDiagram::setStockBarAttributes( int column, const StockBarAttributes &attr ) { d->setDatasetAttrs( column, qVariantFromValue( attr ), StockBarAttributesRole ); emit propertiesChanged(); } StockBarAttributes StockDiagram::stockBarAttributes( int column ) const { const QVariant attr( d->datasetAttrs( column, StockBarAttributesRole ) ); if ( attr.isValid() ) return qVariantValue( attr ); return stockBarAttributes(); } /** * Sets the 3D attributes for all bars (i.e. candlesticks) * * @param attr The 3D attributes to set */ void StockDiagram::setThreeDBarAttributes( const ThreeDBarAttributes &attr ) { attributesModel()->setModelData( qVariantFromValue( attr ), ThreeDBarAttributesRole ); emit propertiesChanged(); } /** * Returns the 3D attributes for all bars (i.e. candlesticks) * * @return the 3D bar attributes */ ThreeDBarAttributes StockDiagram::threeDBarAttributes() const { return qVariantValue( attributesModel()->modelData( ThreeDBarAttributesRole ) ); } /** * Sets the 3D attributes for the bar (i.e. candlestick) in certain column * of the diagram * * Note: Every column in a StockDiagram is represented by a row in the model * * @param column The column to set the 3D bar attributes for * @param attr The 3D attributes to set */ void StockDiagram::setThreeDBarAttributes( int column, const ThreeDBarAttributes &attr ) { d->setDatasetAttrs( column, qVariantFromValue( attr ), StockBarAttributesRole ); emit propertiesChanged(); } /** * Returns the 3D attributes for a bars (i.e. candlestick) in a certain column * of the diagram * * Note: Every column in a StockDiagram is represented by a row in the model * * @param column The column to get the 3D bar attributes for * @return The 3D attributes for the specified column */ ThreeDBarAttributes StockDiagram::threeDBarAttributes( int column ) const { const QVariant attr( d->datasetAttrs( column, ThreeDBarAttributesRole ) ); if ( attr.isValid() ) return qVariantValue( attr ); return threeDBarAttributes(); } void StockDiagram::setLowHighLinePen( const QPen &pen ) { d->lowHighLinePen = pen; } QPen StockDiagram::lowHighLinePen() const { return d->lowHighLinePen; } void StockDiagram::setLowHighLinePen( int column, const QPen &pen ) { d->lowHighLinePens[column] = pen; } QPen StockDiagram::lowHighLinePen( int column ) const { if ( d->lowHighLinePens.contains( column ) ) return d->lowHighLinePens[column]; return d->lowHighLinePen; } void StockDiagram::setUpTrendCandlestickBrush( const QBrush &brush ) { d->upTrendCandlestickBrush = brush; } QBrush StockDiagram::upTrendCandlestickBrush() const { return d->upTrendCandlestickBrush; } void StockDiagram::setDownTrendCandlestickBrush( const QBrush &brush ) { d->downTrendCandlestickBrush = brush; } QBrush StockDiagram::downTrendCandlestickBrush() const { return d->downTrendCandlestickBrush; } void StockDiagram::setUpTrendCandlestickBrush( int column, const QBrush &brush ) { d->upTrendCandlestickBrushes[column] = brush; } QBrush StockDiagram::upTrendCandlestickBrush( int column ) const { if ( d->upTrendCandlestickBrushes.contains( column ) ) return d->upTrendCandlestickBrushes[column]; return d->upTrendCandlestickBrush; } void StockDiagram::setDownTrendCandlestickBrush( int column, const QBrush &brush ) { d->downTrendCandlestickBrushes[column] = brush; } QBrush StockDiagram::downTrendCandlestickBrush( int column ) const { if ( d->downTrendCandlestickBrushes.contains( column ) ) return d->downTrendCandlestickBrushes[column]; return d->downTrendCandlestickBrush; } void StockDiagram::setUpTrendCandlestickPen( const QPen &pen ) { d->upTrendCandlestickPen = pen; } QPen StockDiagram::upTrendCandlestickPen() const { return d->upTrendCandlestickPen; } void StockDiagram::setDownTrendCandlestickPen( const QPen &pen ) { d->downTrendCandlestickPen = pen; } QPen StockDiagram::downTrendCandlestickPen() const { return d->downTrendCandlestickPen; } void StockDiagram::setUpTrendCandlestickPen( int column, const QPen &pen ) { d->upTrendCandlestickPens[column] = pen; } QPen StockDiagram::upTrendCandlestickPen( int column ) const { if ( d->upTrendCandlestickPens.contains( column ) ) return d->upTrendCandlestickPens[column]; return d->upTrendCandlestickPen; } void StockDiagram::setDownTrendCandlestickPen( int column, const QPen &pen ) { d->downTrendCandlestickPens[column] = pen; } QPen StockDiagram::downTrendCandlestickPen( int column ) const { if ( d->downTrendCandlestickPens.contains( column ) ) return d->downTrendCandlestickPens[column]; return d->downTrendCandlestickPen; } #if QT_VERSION < 0x040400 || defined(Q_COMPILER_MANGLES_RETURN_TYPE) const #endif int StockDiagram::numberOfAbscissaSegments() const { return 1; } #if QT_VERSION < 0x040400 || defined(Q_COMPILER_MANGLES_RETURN_TYPE) const #endif int StockDiagram::numberOfOrdinateSegments() const { return 1; } void StockDiagram::paint( PaintContext *context ) { // Clear old reverse mapping data and create new // reverse mapping scene d->reverseMapper.clear(); PainterSaver painterSaver( context->painter() ); int rowCount = attributesModel()->rowCount( attributesModelRootIndex() ); for ( int row = 0; row < rowCount; row++ ) { CartesianDiagramDataCompressor::DataPoint low; CartesianDiagramDataCompressor::DataPoint high; CartesianDiagramDataCompressor::DataPoint open; CartesianDiagramDataCompressor::DataPoint close; CartesianDiagramDataCompressor::DataPoint volume; if ( d->type == HighLowClose ) { const CartesianDiagramDataCompressor::CachePosition highPos( row, 0 ); const CartesianDiagramDataCompressor::CachePosition lowPos( row, 1 ); const CartesianDiagramDataCompressor::CachePosition closePos( row, 2 ); low = d->compressor.data( lowPos ); high = d->compressor.data( highPos ); close = d->compressor.data( closePos ); } else if ( d->type == OpenHighLowClose || d->type == Candlestick ) { const CartesianDiagramDataCompressor::CachePosition openPos( row, 0 ); const CartesianDiagramDataCompressor::CachePosition highPos( row, 1 ); const CartesianDiagramDataCompressor::CachePosition lowPos( row, 2 ); const CartesianDiagramDataCompressor::CachePosition closePos( row, 3 ); open = d->compressor.data( openPos ); low = d->compressor.data( lowPos ); high = d->compressor.data( highPos ); close = d->compressor.data( closePos ); } switch( d->type ) { case HighLowClose: open.hidden = true; // Fall-through intended! case OpenHighLowClose: d->drawOHLCBar( open, high, low, close, context ); break; case Candlestick: d->drawCandlestick( open, high, low, close, context ); break; } } } void StockDiagram::resize( const QSizeF &size ) { d->compressor.setResolution( static_cast< int >( size.width() * coordinatePlane()->zoomFactorX() ), static_cast< int >( size.height() * coordinatePlane()->zoomFactorY() ) ); setDataBoundariesDirty(); } double StockDiagram::threeDItemDepth( int column ) const { Q_UNUSED( column ); //FIXME: Implement threeD functionality return 1.0; } double StockDiagram::threeDItemDepth( const QModelIndex &index ) const { Q_UNUSED( index ); //FIXME: Implement threeD functionality return 1.0; } const QPair StockDiagram::calculateDataBoundaries() const { const int rowCount = attributesModel()->rowCount( attributesModelRootIndex() ); const int colCount = attributesModel()->columnCount( attributesModelRootIndex() ); qreal xMin = 0.0; qreal xMax = rowCount; qreal yMin = 0.0; qreal yMax = 0.0; for ( int row = 0; row < rowCount; row++ ) { for ( int col = 0; col < colCount; col++ ) { const CartesianDiagramDataCompressor::CachePosition pos( row, col ); const CartesianDiagramDataCompressor::DataPoint point = d->compressor.data( pos ); yMax = qMax( yMax, point.value ); yMin = qMin( yMin, point.value ); // FIXME: Can stock charts really have negative values? } } return QPair( QPointF( xMin, yMin ), QPointF( xMax, yMax ) ); }