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/* -*- Mode: C++ -*-
KDChart - a multi-platform charting engine
*/
/****************************************************************************
** Copyright (C) 2001-2003 Klarälvdalens Datakonsult AB. All rights reserved.
**
** This file is part of the KDChart library.
**
** This file may be distributed and/or modified under the terms of the
** GNU General Public License version 2 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file.
**
** Licensees holding valid commercial KDChart licenses may use this file in
** accordance with the KDChart Commercial License Agreement provided with
** the Software.
**
** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
**
** See http://www.klaralvdalens-datakonsult.se/?page=products for
** information about KDChart Commercial License Agreements.
**
** Contact info@klaralvdalens-datakonsult.se if any conditions of this
** licensing are not clear to you.
**
**********************************************************************/
#include <KDChartWidget.h>
#include <KDChart.h>
#include <KDChartParams.h>
#include <KDChartTableBase.h>
#ifndef KDCHART_MASTER_CVS
#include "KDChartWidget.moc"
#endif
#include <tqpainter.h>
/**
\class KDChartWidget KDChartWidget.h
\brief The entry point into the charting that most people will want
to use.
Simply create a KChartWidget in your application and put it where
you want in your widget hierarchy and create a KChartParams object
that specifies how the chart should be drawn.
\note If for some reason you are NOT using the
KDChartWidget class but calling the painting methods of KDChart directly,
you probably will also use the KDChartDataRegionList class:
This class is derived from TQPtrList, so all of the TQt documentation
for this class is valid for KDChartDataRegionList too, e.g. freeing
of the pointers stored can either be done automatically or
manually - so PLEASE take the time to read the reference information for this class!
\sa KDChart, KDChartDataRegionList
*/
/**
Default Constructor.
Sets params and data pointers to zero, you should call setParams
and setData before using this chart otherwise only a simple
default bar chart will be shown.
\param tqparent the widget tqparent; passed on to TQWidget
\param name the widget name; passed on to TQWidget
*/
KDChartWidget::KDChartWidget( TQWidget* tqparent, const char* name ) :
TQWidget( tqparent, name ),
_params( 0 ),
_data( 0 ),
_activeData( false ),
_mousePressedOnRegion( 0 )
{
_dataRegions.setAutoDelete( true );
setDoubleBuffered( true );
setBackgroundMode( TQt::NoBackground );
}
/**
Constructor. Stores the chart parameters.
\param params the specification of the chart
\param data the data to be displayed as a chart
\param tqparent the widget tqparent; passed on to TQWidget
\param name the widget name; passed on to TQWidget
*/
KDChartWidget::KDChartWidget( KDChartParams* params,
KDChartTableDataBase* data,
TQWidget* tqparent, const char* name ) :
TQWidget( tqparent, name ),
_params( params ),
_data( data ),
_activeData( false ),
_mousePressedOnRegion( 0 )
{
_dataRegions.setAutoDelete( true );
setDoubleBuffered( true );
setBackgroundMode( TQt::NoBackground );
}
/**
Destructor.
*/
KDChartWidget::~KDChartWidget()
{
// delete any regions that might still be registered
_dataRegions.clear();
KDChartAutoColor::freeInstance();
}
void KDChartWidget::paintTo( TQPainter& painter,
const TQRect* rect )
{
KDChart::paint( &painter, _params, _data, &_dataRegions, rect );
}
void KDChartWidget::print( TQPainter& painter,
const TQRect* rect )
{
bool oldOpt=true;
if( _params ){
oldOpt = _params->optimizeOutputForScreen();
_params->setOptimizeOutputForScreen( false );
}
bool bOldBuf = _doubleBuffered;
_doubleBuffered = false;
paintTo( painter, rect );
_doubleBuffered = bOldBuf;
if( _params )
_params->setOptimizeOutputForScreen( oldOpt );
}
void KDChartWidget::paintEvent( TQPaintEvent* event )
{
if( _doubleBuffered ) {
// if double-buffering, paint onto the pixmap and copy
// afterwards
_buffer.fill( backgroundColor() );
TQPainter painter( &_buffer );
paintTo( painter );
bitBlt( this, event->rect().topLeft(), &_buffer, event->rect() );
} else {
// if not double-buffering, paint directly into the window
TQPainter painter( this );
paintTo( painter );
}
}
/**
\internal
*/
void KDChartWidget::mousePressEvent( TQMouseEvent* event )
{
if ( !_activeData )
return ;
_mousePressedOnRegion = 0;
KDChartDataRegion* current = 0;
//TQPtrListIterator < KDChartDataRegion > it( _dataRegions );
for( current = _dataRegions.last(); current; current = _dataRegions.prev() ){
//while ( ( current = it.current() ) ) {
if ( current->tqcontains( event->pos() ) ) {
_mousePressedOnRegion = current;
if ( event->button() == Qt::LeftButton ){
emit dataLeftPressed( current->row, current->col );
emit dataLeftPressed( event->pos() );
}else if ( event->button() == Qt::MidButton ){
emit dataMiddlePressed( current->row, current->col );
emit dataMiddlePressed( event->pos() );
}else{
emit dataRightPressed( current->row, current->col );
emit dataRightPressed( event->pos() );
}
return;
}
}
}
/**
\internal
*/
void KDChartWidget::mouseReleaseEvent( TQMouseEvent* event )
{
if ( !_activeData )
return ;
KDChartDataRegion* current = 0;
TQPtrListIterator < KDChartDataRegion > it( _dataRegions );
while ( ( current = it.current() ) ) {
++it;
if ( current->tqcontains( event->pos() ) ) {
if ( event->button() == Qt::LeftButton ) {
emit dataLeftReleased( current->row, current->col );
emit dataLeftReleased( event->pos() );
if ( _mousePressedOnRegion == current ){
emit dataLeftClicked( current->row, current->col );
emit dataLeftClicked( event->pos() );
}
} else if ( event->button() == Qt::MidButton ) {
emit dataMiddleReleased( current->row, current->col );
emit dataMiddleReleased( event->pos() );
if ( _mousePressedOnRegion == current ){
emit dataMiddleClicked( current->row, current->col );
emit dataMiddleClicked( event->pos() );
}
} else {
emit dataRightReleased( current->row, current->col );
emit dataRightReleased( event->pos() );
if ( _mousePressedOnRegion == current ){
emit dataRightClicked( current->row, current->col );
emit dataRightClicked( event->pos() );
}
}
}
}
}
/**
\internal
*/
void KDChartWidget::resizeEvent( TQResizeEvent* /*event*/ )
{
// if we use double-buffering, resize the buffer to the new size,
// otherwise leave it alone
if( _doubleBuffered )
_buffer.resize( size() );
}
/**
If \a active is true, this widget reports mouse presses, releases
and clicks on the data segments it displays. This can slow down the
display process, so this is turned off by default.
If active data reporting is turned on when the widget is already
shown, data will be reported after the next tqrepaint(). Call
tqrepaint() explicitly if necessary.
Active data is currently supported for bar, pie, and line charts
(the latter only with markers, as trying to hit the line would be
too difficult for the user anyway).
\param active if true, the widget reports mouse events
\sa isActiveData()
*/
void KDChartWidget::setActiveData( bool active )
{
_activeData = active;
}
/**
Returns true if the widget is configured to report mouse
events. The default is not to report mouse events.
\return true if the widget is configured to report mouse events,
false otherwise
\sa setActiveData()
*/
bool KDChartWidget::isActiveData() const
{
return _activeData;
}
/**
If \a doublebuffered is true, the widget will double-buffer
everything while drawing which reduces flicker a lot, but requires
more memory as an off-screen buffer of the same size as the widget
needs to be kept around. However, in most cases, it is worth
spending the extra memory. Double-buffering is on by
default. Turning double-buffering on or off does not trigger a
tqrepaint.
\param doublebuffered if true, turns double-buffering on, if false,
turns double-buffering off
\sa isDoubleBuffered
*/
void KDChartWidget::setDoubleBuffered( bool doublebuffered )
{
_doubleBuffered = doublebuffered;
if( doublebuffered ) {
// turn double-buffering on
// resize the buffer to the size of the widget
_buffer.resize( size() );
} else {
// turn double-buffering off
// minimize the buffer so that it does not take any memory
_buffer.resize( 0, 0 );
}
}
/**
Returns whether the widget uses double-buffering for drawing. See
\a setDoubleBuffered() for an explanation of double-buffering.
\return true if double-buffering is turned on, false otherwise
*/
bool KDChartWidget::isDoubleBuffered() const
{
return _doubleBuffered;
}
/**
Set an entire new parameter set.
(Normally you might prefer modifying the existing parameters
rather than specifying a new set.)
*/
void KDChartWidget::setParams( KDChartParams* params )
{
_params = params;
}
/**
Set an entire new data table.
*/
void KDChartWidget::setData( KDChartTableDataBase* data )
{
_data = data;
}
/**
Returns a pointer to the current parameter set.
*/
KDChartParams* KDChartWidget::params() const
{
return _params;
}
/**
Returns a pointer to the current data table.
*/
KDChartTableDataBase* KDChartWidget::data() const
{
return _data;
}
/**
\fn void KDChartWidget::barsDisplayed( int barsDisplayed, int barsLeft )
This signal is emitted when drawing of a bar chart is done.
Use it to determine if all bars have been drawn: in case
you specified both the bar width and the value block gap width
it might be that KD Chart is not able to display all bars since
they do not fit into the available horizontal space.
The value of barsLeft indicates how many bars could not be
drawn because the data area was not wide enough.
\sa KDChartParams::numBarsDisplayed, KDChartParams::numBarsLeft
*/
/**
\fn void KDChartWidget::dataLeftClicked( uint row, uint col )
This signal is emitted when a data item was clicked onto with the left mouse button.
The values of row / col indicate the respective dataset (row) and item (col).
\note There is another signal sent simultaneously: reporting the screen coordinates clicked onto.
\sa dataLeftReleased
\sa dataRightClicked, dataMiddleClicked
*/
/**
\fn void KDChartWidget::dataRightClicked( uint row, uint col )
This signal is emitted when a data item was clicked onto with the right mouse button.
The values of row / col indicate the respective dataset (row) and item (col).
\note There is another signal sent simultaneously: reporting the screen coordinates clicked onto.
\sa dataRightReleased
\sa dataLeftClicked, dataMiddleClicked
*/
/**
\fn void KDChartWidget::dataMiddleClicked( uint row, uint col )
This signal is emitted when a data item was clicked onto with the middle mouse button.
The values of row / col indicate the respective dataset (row) and item (col).
\note There is another signal sent simultaneously: reporting the screen coordinates clicked onto.
\sa dataMiddleReleased
\sa dataLeftClicked, dataRightClicked
*/
/**
\fn void KDChartWidget::dataLeftClicked( const TQPoint & pnt )
This signal is emitted when a data item was clicked onto with the left mouse button.
The value of pnt indicates the screen coordinates in relation to the origin of the data area.
\note There is another signal sent simultaneously: reporting which data item was clicked onto.
\sa dataLeftReleased
\sa dataRightClicked, dataMiddleClicked
*/
/**
\fn void KDChartWidget::dataRightClicked( const TQPoint & pnt )
This signal is emitted when a data item was clicked onto with the right mouse button.
The values of row / col indicate the screen coordinates in relation to the origin of the data area.
\note There is another signal sent simultaneously: reporting which data item was clicked onto.
\sa dataRightReleased
\sa dataLeftClicked, dataMiddleClicked
*/
/**
\fn void KDChartWidget::dataMiddleClicked( const TQPoint & pnt )
This signal is emitted when a data item was clicked onto with the middle mouse button.
The values of row / col indicate the screen coordinates in relation to the origin of the data area.
\note There is another signal sent simultaneously: reporting which data item was clicked onto.
\sa dataMiddleReleased
\sa dataLeftClicked, dataRightClicked
*/
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