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path: root/src/gui/oscilloscopeview.cpp
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/***************************************************************************
 *   Copyright (C) 2005 by David Saxton                                    *
 *   david@bluehaze.org                                                    *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 of the License, or     *
 *   (at your option) any later version.                                   *
 ***************************************************************************/

#include "oscilloscope.h"
#include "oscilloscopedata.h"
#include "oscilloscopeview.h"
#include "probepositioner.h"
#include "simulator.h"

#include <kconfig.h>
#include <kdebug.h>
#include <klocale.h>
#include <kglobal.h>
#include <kpopupmenu.h>
#include <tqcheckbox.h>
#include <tqcursor.h>
#include <tqevent.h>
#include <tqlabel.h>
#include <tqpainter.h>
#include <tqpixmap.h>
#include <tqscrollbar.h>
#include <tqtimer.h>

#include <algorithm>
#include <cmath>

inline ullong min( ullong a, ullong b )
{
	return a < b ? a : b;
}


OscilloscopeView::OscilloscopeView( TQWidget *parent, const char *name )
	: TQFrame( parent, name, WNoAutoErase ),
	b_needRedraw(true),
	m_pixmap(0l),
	m_fps(10),
	m_sliderValueAtClick(-1),
	m_clickOffsetPos(-1),
	m_pSimulator( Simulator::self() ),
	m_halfOutputHeight(0.0)
{
	KGlobal::config()->setGroup("Oscilloscope");
	m_fps = KGlobal::config()->readNumEntry( "FPS", 25 );
	
	setBackgroundMode(NoBackground);
	setMouseTracking(true);
	
	m_updateViewTmr = new TQTimer(this);
	connect( m_updateViewTmr, TQT_SIGNAL(timeout()), this, TQT_SLOT(updateViewTimeout()) );
}


OscilloscopeView::~OscilloscopeView()
{
	delete m_pixmap;
	m_pixmap = 0l;
}


void OscilloscopeView::updateView()
{
	if (m_updateViewTmr->isActive() )
		return;
	
	m_updateViewTmr->start( 1000/m_fps, true );
}


void OscilloscopeView::updateViewTimeout()
{
	b_needRedraw = true;
	tqrepaint(false);
	updateTimeLabel();
}


void OscilloscopeView::updateTimeLabel()
{
	if ( hasMouse() )
	{
		int x = mapFromGlobal( TQCursor::pos() ).x();
		double time = (double(Oscilloscope::self()->scrollTime()) / LOGIC_UPDATE_RATE) + (x / Oscilloscope::self()->pixelsPerSecond());
		Oscilloscope::self()->timeLabel->setText( TQString::number( time, 'f', 6 ) );
	}
	
	else
		Oscilloscope::self()->timeLabel->setText( TQString() );
}


void OscilloscopeView::resizeEvent( TQResizeEvent *e )
{
	delete m_pixmap;
	m_pixmap = new TQPixmap( e->size() );
	b_needRedraw = true;
	TQFrame::resizeEvent(e);
}


void OscilloscopeView::mousePressEvent( TQMouseEvent *event )
{
	switch ( event->button() )
	{
		case Qt::LeftButton:
		{
			event->accept();
			m_clickOffsetPos = event->pos().x();
			m_sliderValueAtClick = Oscilloscope::self()->horizontalScroll->value();
			setCursor( TQt::SizeAllCursor );
			return;
		}
		
		case Qt::RightButton:
		{
			event->accept();
	
			KPopupMenu fpsMenu;
			fpsMenu.insertTitle( i18n("Framerate") );
	
			const int fps[] = { 10, 25, 50, 75, 100 };
	
			for ( uint i=0; i<5; ++i )
			{
				const int num = fps[i];
				fpsMenu.insertItem( i18n("%1 fps").tqarg(num), num );
				fpsMenu.setItemChecked( num, num == m_fps );
			}
	
			connect( &fpsMenu, TQT_SIGNAL(activated(int )), this, TQT_SLOT(slotSetFrameRate(int )) );
			fpsMenu.exec( event->globalPos() );
			return;
		}
		
		default:
		{
			TQFrame::mousePressEvent(event);
			return;
		}
	}
}


void OscilloscopeView::mouseMoveEvent( TQMouseEvent *event )
{
	event->accept();
	updateTimeLabel();
	
	if ( m_sliderValueAtClick != -1 )
	{
		int dx = event->pos().x() - m_clickOffsetPos;
		int dTick = int( dx * Oscilloscope::self()->sliderTicksPerSecond() / Oscilloscope::self()->pixelsPerSecond() );
		Oscilloscope::self()->horizontalScroll->setValue( m_sliderValueAtClick - dTick );
	}
}


void OscilloscopeView::mouseReleaseEvent( TQMouseEvent *event )
{
	if ( m_sliderValueAtClick == -1 )
		return TQFrame::mouseReleaseEvent(event);
	
	event->accept();
	m_sliderValueAtClick = -1;
	setCursor( TQt::ArrowCursor );
}


void OscilloscopeView::slotSetFrameRate( int fps )
{
	m_fps = fps;
	KGlobal::config()->setGroup("Oscilloscope");
	KGlobal::config()->writeEntry( "FPS", m_fps );
}


// returns a % b
static double lld_modulus( llong a, double b )
{
	return double(a) - llong(a/b)*b;
}


void OscilloscopeView::paintEvent( TQPaintEvent *e )
{
	TQRect r = e->rect();
	
	if (b_needRedraw)
	{
		updateOutputHeight();
		const double pixelsPerSecond = Oscilloscope::self()->pixelsPerSecond();
		
		TQPainter p;
		m_pixmap->fill( paletteBackgroundColor() );
		p.begin(m_pixmap);
		p.setClipRegion(e->region());
		
		//BEGIN Draw vertical marker lines
		const double divisions = 5.0;
		const double min_sep = 10.0;
		
		double spacing = pixelsPerSecond/(std::pow( divisions, std::floor(std::log(pixelsPerSecond/min_sep)/std::log(divisions)) ));
		
		// Pixels offset is the number of pixels that the view is scrolled along
		const llong pixelsOffset = llong(Oscilloscope::self()->scrollTime()*pixelsPerSecond/LOGIC_UPDATE_RATE);
		double linesOffset = - lld_modulus( pixelsOffset, spacing );
		
		int blackness = 256 - int(184.0 * spacing / (min_sep*divisions*divisions));
		p.setPen( TQColor( blackness, blackness, blackness ) );
		
		for ( double i = linesOffset; i <= frameRect().width(); i += spacing )
			p.drawLine( int(i), 1, int(i), frameRect().height()-2 );
		
		
		
		spacing *= divisions;
		linesOffset = - lld_modulus( pixelsOffset, spacing );
		
		blackness = 256 - int(184.0 * spacing / (min_sep*divisions*divisions));
		p.setPen( TQColor( blackness, blackness, blackness ) );
		
		for ( double i = linesOffset; i <= frameRect().width(); i += spacing )
			p.drawLine( int(i), 1, int(i), frameRect().height()-2 );
		
		
		
		spacing *= divisions;
		linesOffset = - lld_modulus( pixelsOffset, spacing );
		
		blackness = 256 - int(184.0);
		p.setPen( TQColor( blackness, blackness, blackness ) );
		
		for ( double i = linesOffset; i <= frameRect().width(); i += spacing )
			p.drawLine( int(i), 1, int(i), frameRect().height()-2 );
		//END Draw vertical marker lines
		
		drawLogicData(p);
		drawFloatingData(p);
		
		p.setPen(TQt::black);
		p.drawRect( frameRect() );
		
		b_needRedraw = false;
	}
	
	bitBlt( this, r.x(), r.y(), m_pixmap, r.x(), r.y(), r.width(), r.height() );
}


void OscilloscopeView::updateOutputHeight()
{
	m_halfOutputHeight = int((Oscilloscope::self()->probePositioner->probeOutputHeight() - (probeArrowWidth/Oscilloscope::self()->numberOfProbes()))/2)-1;
}


void OscilloscopeView::drawLogicData( TQPainter & p )
{
	const double pixelsPerSecond = Oscilloscope::self()->pixelsPerSecond();
	
	const LogicProbeDataMap::iterator end = Oscilloscope::self()->m_logicProbeDataMap.end();
	for ( LogicProbeDataMap::iterator it = Oscilloscope::self()->m_logicProbeDataMap.begin(); it != end; ++it )
	{
		// When searching for the next logic value to display, we look along
		// until there is a recorded point which is at least one pixel along
		// If we are zoomed out far, there might be thousands of data points
		// between each pixel. It is time consuming searching for the next point
		// to display one at a time, so we record the average number of data points
		// between pixels ( = deltaAt / totalDeltaAt )
		llong deltaAt = 1;
		int totalDeltaAt = 1;
		
		LogicProbeData * probe = it.data();
		StoredData<LogicDataPoint> * data = &(probe->m_data);
		
		if ( data->allocatedUpTo() == 0 )
			continue;
		
		const int midHeight = Oscilloscope::self()->probePositioner->probePosition(probe);
		const llong timeOffset = Oscilloscope::self()->scrollTime();
		
		// Draw the horizontal line indicating the midpoint of our output
		p.setPen( TQColor( 228, 228, 228 ) );
		p.drawLine( 0, midHeight, width(), midHeight );
		
		// Set the pen colour according to the colour the user has selected for the probe
		p.setPen( probe->color() );
		
		// The smallest time step that will display in our oscilloscope
		const int minTimeStep = int(LOGIC_UPDATE_RATE/pixelsPerSecond);
		
		llong at = probe->findPos(timeOffset);
		const llong maxAt = probe->insertPos();
		llong prevTime = data->dataAt(at).time;
		int prevX = (at > 0) ? 0 : int((prevTime - timeOffset)*(pixelsPerSecond/LOGIC_UPDATE_RATE));
		bool prevHigh = data->dataAt(at).value;
		int prevY = midHeight + int(prevHigh ? -m_halfOutputHeight : +m_halfOutputHeight);
		while ( at < maxAt )
		{
			// Search for the next pos which will show up at our zoom level
			llong previousAt = at;
			llong dAt = deltaAt / totalDeltaAt;
			
			while ( (dAt > 1) && (at < maxAt) && ( (llong(data->dataAt(at).time) - prevTime) != minTimeStep ) )
			{
				// Search forwards until we overshoot
				while ( at < maxAt && ( llong(data->dataAt(at).time) - prevTime ) < minTimeStep )
					at += dAt;
				dAt /= 2;
				
				// Search backwards until we undershoot
				while ( (at < maxAt) && ( llong(data->dataAt(at).time) - prevTime ) > minTimeStep )
				{
					at -= dAt;
					if ( at < 0 )
						at = 0;
				}
				dAt /= 2;
			}
			
			// Possibly increment the value of at found by one (or more if this is the first go)
			while ( (previousAt == at) || ((at < maxAt) && ( llong(data->dataAt(at).time) - prevTime ) < minTimeStep) )
				at++;
			
			if ( at >= maxAt )
				break;
			
			// Update the average values
			deltaAt += at - previousAt;
			totalDeltaAt++;
			
			bool nextHigh = data->dataAt(at).value;
			if ( nextHigh == prevHigh )
				continue;
			llong nextTime = data->dataAt(at).time;
			int nextX = int((nextTime - timeOffset)*(pixelsPerSecond/LOGIC_UPDATE_RATE));
			int nextY = midHeight + int(nextHigh ? -m_halfOutputHeight : +m_halfOutputHeight);
			
			p.drawLine( prevX, prevY, nextX, prevY );
			p.drawLine( nextX, prevY, nextX, nextY );
			
			prevHigh = nextHigh;
			prevTime = nextTime;
			prevX = nextX;
			prevY = nextY;
				
			if ( nextX > width() )
				break;
		};
		
		// If we could not draw right to the end; it is because we exceeded
		// maxAt
		if ( prevX < width() )
			p.drawLine( prevX, prevY, width(), prevY );
	}
}


#define v_to_y int(midHeight - (logarithmic ? ( (v>0) ? log(v/lowerAbsValue) : -log(-v/lowerAbsValue) ) : v) * sf)


void OscilloscopeView::drawFloatingData( TQPainter & p )
{
	const double pixelsPerSecond = Oscilloscope::self()->pixelsPerSecond();
	
	const FloatingProbeDataMap::iterator end = Oscilloscope::self()->m_floatingProbeDataMap.end();
	for ( FloatingProbeDataMap::iterator it = Oscilloscope::self()->m_floatingProbeDataMap.begin(); it != end; ++it )
	{
		FloatingProbeData * probe = it.data();
		StoredData<float> * data = &(probe->m_data);
		
		if ( data->allocatedUpTo() == 0 )
			continue;
		
		bool logarithmic = probe->scaling() == FloatingProbeData::Logarithmic;
		double lowerAbsValue = probe->lowerAbsValue();
		double sf = m_halfOutputHeight / (logarithmic ? log(probe->upperAbsValue()/lowerAbsValue) : probe->upperAbsValue());
		
		const int midHeight = Oscilloscope::self()->probePositioner->probePosition(probe);
		const llong timeOffset = Oscilloscope::self()->scrollTime();
		
		// Draw the horizontal line indicating the midpoint of our output
		p.setPen( TQColor( 228, 228, 228 ) );
		p.drawLine( 0, midHeight, width(), midHeight );
		
		// Set the pen colour according to the colour the user has selected for the probe
		p.setPen( probe->color() );
		
		llong at = probe->findPos(timeOffset); 
		const llong maxAt = probe->insertPos();
		llong prevTime = probe->toTime(at);
		
		double v = data->dataAt((at>0)?at:0);
		int prevY = v_to_y;
		int prevX = int((prevTime - timeOffset)*(pixelsPerSecond/LOGIC_UPDATE_RATE));
		
		while ( at < maxAt-1 )
		{
			at++;
			
			ullong nextTime = prevTime + ullong(LOGIC_UPDATE_RATE/LINEAR_UPDATE_RATE);
			
			double v = data->dataAt((at>0)?at:0);
			int nextY = v_to_y;
			int nextX = int((nextTime - timeOffset)*(pixelsPerSecond/LOGIC_UPDATE_RATE));
			
			p.drawLine( prevX, prevY, nextX, nextY );
				
			prevTime = nextTime;
			prevX = nextX;
			prevY = nextY;
			
			if ( nextX > width() )
				break;
		};
		
		// If we could not draw right to the end; it is because we exceeded
		// maxAt
		if ( prevX < width() )
			p.drawLine( prevX, prevY, width(), prevY );
	}
}


#include "oscilloscopeview.moc"