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/***************************************************************************
* Copyright (C) 2004-2005 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 "ecnode.h"
#include "icndocument.h"
#include "libraryitem.h"
#include "multiinputgate.h"
#include "logic.h"
#include <cmath>
#include <klocale.h>
#include <tqpainter.h>
//BEGIN class MultiInputGate
MultiInputGate::MultiInputGate( ICNDocument *icnDocument, bool newItem, const char *id, int baseWidth )
: Component( icnDocument, newItem, id )
{
b_doneInit = false;
m_numInputs = 0;
if ( baseWidth == -1 ) {
baseWidth = 32;
}
m_baseWidth = baseWidth;
for ( int i=0; i<maxGateInput; ++i )
{
inLogic[i] = 0l;
inNode[i] = 0l;
}
updateInputs(2);
init1PinRight(16);
m_pOut = createLogicOut( m_pPNode[0], false );
createProperty( "numInput", Variant::Type::Int );
property("numInput")->setCaption( i18n("Number Inputs") );
property("numInput")->setMinValue(2);
property("numInput")->setMaxValue(maxGateInput);
property("numInput")->setValue(2);
b_doneInit = true;
}
MultiInputGate::~MultiInputGate()
{
}
void MultiInputGate::dataChanged()
{
updateInputs( TQMIN( maxGateInput, dataInt("numInput") ) );
}
void MultiInputGate::updateInputs( int newNum )
{
if ( newNum == m_numInputs ) {
return;
}
if ( newNum < 2 ) {
newNum = 2;
}
else if ( newNum > maxGateInput ) {
newNum = maxGateInput;
}
const int newWidth = m_baseWidth;
setSize( -newWidth/2, -8*newNum, newWidth, 16*newNum, true );
const bool added = ( newNum > m_numInputs );
if (added)
{
for ( int i = m_numInputs; i<newNum; ++i )
{
ECNode *node = createPin( 0, 0, 0, "in"+TQString::number(i) );
inNode[i] = node;
inLogic[i] = createLogicIn(node);
inLogic[i]->setCallback( this, (CallbackPtr)(&MultiInputGate::inStateChanged) );
}
}
else
{
for ( int i=newNum; i<m_numInputs; ++i )
{
removeNode("in"+TQString::number(i));
removeElement( inLogic[i], false );
inNode[i] = 0l;
inLogic[i] = 0l;
}
}
m_numInputs = newNum;
// We can't call a pure-virtual function if we haven't finished our constructor yet...
if (b_doneInit)
inStateChanged(!added);
updateAttachedPositioning();
}
void MultiInputGate::updateAttachedPositioning()
{
// Check that our ndoes have been created before we attempt to use them
if ( !m_nodeMap.tqcontains("p1") || !m_nodeMap.tqcontains("in"+TQString::number(m_numInputs-1)) )
return;
int _x = offsetX()+8;
int _y = offsetY()+8;
m_nodeMap["p1"].x = m_baseWidth/2 + 8;
m_nodeMap["p1"].y = 0;
for ( int i=0; i< m_numInputs; ++i )
{
m_nodeMap["in"+TQString::number(i)].x = _x - 16;
m_nodeMap["in"+TQString::number(i)].y = _y + 16*i;
}
if (b_doneInit)
Component::updateAttachedPositioning();
}
//END class MultiInputGate
//BEGIN class ECXNor
Item* ECXnor::construct( ItemDocument *itemDocument, bool newItem, const char *id )
{
return new ECXnor( (ICNDocument*)itemDocument, newItem, id );
}
LibraryItem* ECXnor::libraryItem()
{
return new LibraryItem(
TQString("ec/xnor"),
i18n("XNOR gate"),
i18n("Logic"),
"xnor.png",
LibraryItem::lit_component,
ECXnor::construct );
}
ECXnor::ECXnor( ICNDocument *icnDocument, bool newItem, const char *id )
: MultiInputGate( icnDocument, newItem, (id) ? id : "xnor", 48 )
{
m_name = i18n("XNOR gate");
m_desc = i18n("Exclusive NOR gate. Output is low when exactly one input is high.");
inStateChanged(false);
}
ECXnor::~ECXnor()
{
}
void ECXnor::inStateChanged(bool)
{
int highCount = 0;
for ( int i=0; i<m_numInputs; ++i )
{
if ( inLogic[i]->isHigh() )
highCount++;
}
m_pOut->setHigh( highCount != 1 );
}
void ECXnor::drawShape( TQPainter &p )
{
initPainter(p);
int _x = (int)x()+offsetX();
int _y = (int)y()+offsetY();
p.save();
p.setPen( TQt::NoPen );
p.drawChord( _x-width()+22, _y, 2*width()-28, height(), -16*81, 16*162 );
p.restore();
p.drawArc( _x-width()+22, _y, 2*width()-28, height(), -16*90, 16*180 );
p.drawArc( _x-8, _y, 16, height(), -16*90, 16*180 );
p.drawArc( _x, _y, 16, height(), -16*90, 16*180 );
p.drawEllipse( _x+width()-6, _y+(height()/2)-3, 6, 6 );
const int n = m_numInputs;
for ( int i=0; i<n; ++i )
{
p.setPen( inNode[i]->isSelected() ? m_selectedCol : TQt::black );
int pin_x = (int)std::sqrt((double)(64*n*n - (8*n-8-16*i)*(8*n-8-16*i)))/n;
p.drawLine( _x, _y+16*i+8, _x+pin_x, _y+16*i+8 );
}
deinitPainter(p);
}
//END class ECXnor
//BEGIN class ECXor
Item* ECXor::construct( ItemDocument *itemDocument, bool newItem, const char *id )
{
return new ECXor( (ICNDocument*)itemDocument, newItem, id );
}
LibraryItem* ECXor::libraryItem()
{
return new LibraryItem(
TQString("ec/xor"),
i18n("XOR gate"),
i18n("Logic"),
"xor.png",
LibraryItem::lit_component,
ECXor::construct );
}
ECXor::ECXor( ICNDocument *icnDocument, bool newItem, const char *id )
: MultiInputGate( icnDocument, newItem, (id) ? id : "xor", 48 )
{
m_name = i18n("XOR gate");
m_desc = i18n("Exclusive OR gate. Output is high when exactly one input is high.");
inStateChanged(false);
}
ECXor::~ECXor()
{
}
void ECXor::inStateChanged(bool)
{
int highCount = 0;
for ( int i=0; i<m_numInputs; ++i )
{
if ( inLogic[i]->isHigh() )
highCount++;
}
m_pOut->setHigh( highCount == 1 );
}
void ECXor::drawShape( TQPainter &p )
{
initPainter(p);
int _x = (int)x()+offsetX();
int _y = (int)y()+offsetY();
p.save();
p.setPen( TQt::NoPen );
p.drawChord( _x-width()+16, _y, 2*width()-16, height(), -16*81, 16*162 );
p.restore();
p.drawArc( _x-width()+16, _y, 2*width()-16, height(), -16*90, 16*180 );
p.drawArc( _x-8, _y, 16, height(), -16*90, 16*180 );
p.drawArc( _x, _y, 16, height(), -16*90, 16*180 );
const int n = m_numInputs;
for ( int i=0; i<n; ++i )
{
p.setPen( inNode[i]->isSelected() ? m_selectedCol : TQt::black );
int pin_x = (int)std::sqrt((double)(64*n*n - (8*n-8-16*i)*(8*n-8-16*i)))/n;
p.drawLine( _x, _y+16*i+8, _x+pin_x, _y+16*i+8 );
}
deinitPainter(p);
}
//END class ECXor
//BEGIN class EXOr
Item* ECOr::construct( ItemDocument *itemDocument, bool newItem, const char *id )
{
return new ECOr( (ICNDocument*)itemDocument, newItem, id );
}
LibraryItem* ECOr::libraryItem()
{
return new LibraryItem(
TQString("ec/or"),
i18n("OR gate"),
i18n("Logic"),
"or.png",
LibraryItem::lit_component,
ECOr::construct );
}
ECOr::ECOr( ICNDocument *icnDocument, bool newItem, const char *id )
: MultiInputGate( icnDocument, newItem, (id) ? id : "or", 48 )
{
m_name = i18n("OR gate");
m_desc = i18n("The output is high when at least one of the inputs is high; or low when all of the inputs are off");
inStateChanged(false);
}
ECOr::~ECOr()
{
}
void ECOr::inStateChanged(bool)
{
bool allLow = true;
for ( int i=0; i<m_numInputs && allLow; ++i )
{
if ( inLogic[i]->isHigh() )
allLow = false;
}
m_pOut->setHigh(!allLow);
}
void ECOr::drawShape( TQPainter &p )
{
initPainter(p);
int _x = (int)x()+offsetX();
int _y = (int)y()+offsetY();
p.save();
p.setPen( TQt::NoPen );
// p.setBrush( TQt::red );
p.drawChord( _x-width(), _y, 2*width(), height(), -16*81, 16*162 );
// p.drawPie( _x-width()+16, _y, 2*width()-16, height(), -16*100, 16*200 );
p.restore();
p.drawArc( _x-width(), _y, 2*width(), height(), -16*90, 16*180 );
p.drawArc( _x-8, _y, 16, height(), -16*90, 16*180 );
const int n = m_numInputs;
for ( int i=0; i<n; ++i )
{
p.setPen( inNode[i]->isSelected() ? m_selectedCol : TQt::black );
int pin_x = (int)std::sqrt((double)(64*n*n - (8*n-8-16*i)*(8*n-8-16*i)))/n;
p.drawLine( _x, _y+16*i+8, _x+pin_x, _y+16*i+8 );
}
deinitPainter(p);
}
//END class ECOr
//BEGIN class ECNor
Item* ECNor::construct( ItemDocument *itemDocument, bool newItem, const char *id )
{
return new ECNor( (ICNDocument*)itemDocument, newItem, id );
}
LibraryItem* ECNor::libraryItem()
{
return new LibraryItem(
TQString("ec/nor"),
i18n("NOR gate"),
i18n("Logic"),
"nor.png",
LibraryItem::lit_component,
ECNor::construct );
}
ECNor::ECNor( ICNDocument *icnDocument, bool newItem, const char *id )
: MultiInputGate( icnDocument, newItem, (id) ? id : "nor", 48 )
{
m_name = i18n("NOR Gate");
m_desc = i18n("The output is high when all inputs are low.");
inStateChanged(false);
}
ECNor::~ECNor()
{
}
void ECNor::inStateChanged(bool)
{
bool allLow = true;
for ( int i=0; i<m_numInputs && allLow; ++i )
{
if ( inLogic[i]->isHigh() )
allLow = false;
}
m_pOut->setHigh(allLow);
}
void ECNor::drawShape( TQPainter &p )
{
initPainter(p);
int _x = (int)x()+offsetX();
int _y = (int)y()+offsetY();
p.save();
p.setPen( TQt::NoPen );
p.drawChord( _x-width()+6, _y, 2*width()-12, height(), -16*81, 16*162 );
p.restore();
p.drawArc( _x-width()+6, _y, 2*width()-12, height(), -16*90, 16*180 );
p.drawArc( _x-8, _y, 16, height(), -16*90, 16*180 );
p.drawEllipse( _x+width()-6, _y+(height()/2)-3, 6, 6 );
const int n = m_numInputs;
for ( int i=0; i<n; ++i )
{
p.setPen( inNode[i]->isSelected() ? m_selectedCol : TQt::black );
int pin_x = (int)std::sqrt((double)(64*n*n - (8*n-8-16*i)*(8*n-8-16*i)))/n;
p.drawLine( _x, _y+16*i+8, _x+pin_x, _y+16*i+8 );
}
deinitPainter(p);
}
//END class ECNor
//BEGIN class ECNand
Item* ECNand::construct( ItemDocument *itemDocument, bool newItem, const char *id )
{
return new ECNand( (ICNDocument*)itemDocument, newItem, id );
}
LibraryItem* ECNand::libraryItem()
{
return new LibraryItem(
TQString("ec/nand"),
i18n("NAND gate"),
i18n("Logic"),
"nand.png",
LibraryItem::lit_component,
ECNand::construct );
}
ECNand::ECNand( ICNDocument *icnDocument, bool newItem, const char *id )
: MultiInputGate( icnDocument, newItem, id ? id : "nand" )
{
m_name = i18n("NAND Gate");
m_desc = i18n("The output is low only when all of the inputs are high.");
inStateChanged(false);
}
ECNand::~ECNand()
{
}
void ECNand::inStateChanged(bool)
{
bool allHigh = true;
for ( int i=0; i<m_numInputs && allHigh; ++i )
{
if ( !inLogic[i]->isHigh() )
allHigh = false;
}
m_pOut->setHigh(!allHigh);
}
void ECNand::drawShape( TQPainter &p )
{
initPainter(p);
int _x = (int)x()+offsetX();
int _y = (int)y()+offsetY();
p.drawChord( _x-width()+6, _y, 2*width()-12, height(), -16*90, 16*180 );
p.drawEllipse( _x+width()-6, _y+(height()/2)-3, 6, 6 );
deinitPainter(p);
}
//END class ECNand
//BEGIN class ECAnd
Item* ECAnd::construct( ItemDocument *itemDocument, bool newItem, const char *id )
{
return new ECAnd( (ICNDocument*)itemDocument, newItem, id );
}
LibraryItem* ECAnd::libraryItem()
{
TQStringList idList;
idList << "ec/and" << "ec/and_2";
return new LibraryItem(
idList,
i18n("AND gate"),
i18n("Logic"),
"and.png",
LibraryItem::lit_component,
ECAnd::construct );
}
ECAnd::ECAnd( ICNDocument *icnDocument, bool newItem, const char *id )
: MultiInputGate( icnDocument, newItem, id ? id : "and" )
{
m_name = i18n("AND Gate");
m_desc = i18n("The output is high if and only if all of the inputs are high.");
inStateChanged(false);
}
ECAnd::~ECAnd()
{
}
void ECAnd::inStateChanged(bool)
{
bool allHigh = true;
for ( int i=0; i<m_numInputs && allHigh; ++i )
{
if ( !inLogic[i]->isHigh() )
allHigh = false;
}
m_pOut->setHigh(allHigh);
}
void ECAnd::drawShape( TQPainter &p )
{
initPainter(p);
int _x = (int)x()+offsetX();
int _y = (int)y()+offsetY();
p.drawChord( _x-width(), _y, 2*width(), height(), -16*90, 16*180 );
deinitPainter(p);
}
//END class ECAnd
|