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ktechlab/src/mechanics/mechanicsitem.cpp

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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 "itemdocumentdata.h"
#include "mechanicsitem.h"
#include "mechanicsdocument.h"
#include <kdebug.h>
#include <klocale.h>
#include <tqbitarray.h>
#include <tqpainter.h>
#include <tqwmatrix.h>
#include <cmath>
/**
@returns an angle between 0 and 2 pi
*/
double normalizeAngle( double angle )
{
if ( angle < 0 )
angle += 6.2832*(std::ceil(-angle));
return angle - 6.2832*std::floor(angle/6.2832);
}
MechanicsItem::MechanicsItem( MechanicsDocument *mechanicsDocument, bool newItem, const TQString &id )
: Item( mechanicsDocument, newItem, id )
{
p_mechanicsDocument = mechanicsDocument;
m_selectionMode = MechanicsItem::sm_move;
createProperty( "mass", Variant::Type::Double );
property("mass")->setCaption( i18n("Mass") );
property("mass")->setUnit("g");
property("mass")->setValue(10.0);
property("mass")->setMinValue(1e-3);
property("mass")->setMaxValue(1e12);
property("mass")->setAdvanced(true);
createProperty( "moi", Variant::Type::Double );
property("moi")->setCaption( i18n("Moment of Inertia") );
property("moi")->setUnit("gm");
property("moi")->setValue(0.01);
property("moi")->setMinValue(1e-3);
property("moi")->setMaxValue(1e12);
property("moi")->setAdvanced(true);
setZ(ItemDocument::Z::Item);
setAnimated(true);
p_mechanicsDocument->registerItem(this);
}
MechanicsItem::~MechanicsItem()
{
}
int MechanicsItem::rtti() const
{
return ItemDocument::RTTI::MechanicsItem;
}
void MechanicsItem::setSelectionMode( SelectionMode sm )
{
if ( sm == m_selectionMode )
return;
m_selectionMode = sm;
}
void MechanicsItem::setSelected( bool yes )
{
if ( yes == isSelected() )
return;
if (!yes)
// Reset the selection mode
m_selectionMode = MechanicsItem::sm_resize;
Item::setSelected(yes);
}
void MechanicsItem::dataChanged()
{
Item::dataChanged();
m_mechanicsInfo.mass = dataDouble("mass");
m_mechanicsInfo.momentOfInertia = dataDouble("moi");
updateMechanicsInfoCombined();
}
PositionInfo MechanicsItem::absolutePosition() const
{
MechanicsItem *parentMechItem = dynamic_cast<MechanicsItem*>((Item*)(p_parentItem));
if (parentMechItem)
return parentMechItem->absolutePosition() + m_relativePosition;
return m_relativePosition;
}
void MechanicsItem::reparented( Item *oldItem, Item *newItem )
{
MechanicsItem *oldMechItem = dynamic_cast<MechanicsItem*>(oldItem);
MechanicsItem *newMechItem = dynamic_cast<MechanicsItem*>(newItem);
if (oldMechItem)
{
m_relativePosition = oldMechItem->absolutePosition() + m_relativePosition;
disconnect( oldMechItem, TQT_SIGNAL(moved()), this, TQT_SLOT(parentMoved()) );
}
if (newMechItem)
{
m_relativePosition = m_relativePosition - newMechItem->absolutePosition();
connect( newMechItem, TQT_SIGNAL(moved()), this, TQT_SLOT(parentMoved()) );
}
updateCanvasPoints();
}
void MechanicsItem::childAdded( Item *child )
{
MechanicsItem *mechItem = dynamic_cast<MechanicsItem*>(child);
if (!mechItem)
return;
connect( mechItem, TQT_SIGNAL(updateMechanicsInfoCombined()), this, TQT_SLOT(childMoved()) );
updateMechanicsInfoCombined();
}
void MechanicsItem::childRemoved( Item *child )
{
MechanicsItem *mechItem = dynamic_cast<MechanicsItem*>(child);
if (!mechItem)
return;
disconnect( mechItem, TQT_SIGNAL(updateMechanicsInfoCombined()), this, TQT_SLOT(childMoved()) );
updateMechanicsInfoCombined();
}
void MechanicsItem::parentMoved()
{
PositionInfo absPos = absolutePosition();
Item::moveBy( absPos.x() - x(), absPos.y() - y() );
updateCanvasPoints();
emit moved();
}
void MechanicsItem::updateCanvasPoints()
{
const TQRect ipbr = m_itemPoints.boundingRect();
double scalex = double(m_sizeRect.width()) / double(ipbr.width());
double scaley = double(m_sizeRect.height()) / double(ipbr.height());
PositionInfo abs = absolutePosition();
TQWMatrix m;
m.rotate(abs.angle()*57.29577951308232);
m.translate( m_sizeRect.left(), m_sizeRect.top() );
m.scale( scalex, scaley );
m.translate( -int(ipbr.left()), -int(ipbr.top()) );
setPoints( m.map(m_itemPoints) );
TQRect tempt = m.mapRect(ipbr);
}
void MechanicsItem::rotateBy( double dtheta )
{
m_relativePosition.rotate(dtheta);
updateCanvasPoints();
updateMechanicsInfoCombined();
emit moved();
}
void MechanicsItem::moveBy( double dx, double dy )
{
m_relativePosition.translate( dx, dy );
Item::moveBy( m_relativePosition.x() - x(), m_relativePosition.y() - y() );
emit moved();
}
void MechanicsItem::updateMechanicsInfoCombined()
{
m_mechanicsInfoCombined = m_mechanicsInfo;
double mass_x = 0.;
double mass_y = 0.;
const ItemList::const_iterator end = m_children.end();
for ( ItemList::const_iterator it = m_children.begin(); it != end; ++it )
{
MechanicsItem *child = dynamic_cast<MechanicsItem*>((Item*)*it);
if (child)
{
CombinedMechanicsInfo *childInfo = child->mechanicsInfoCombined();
const PositionInfo relativeChildPosition = child->relativePosition();
double mass = childInfo->mass;
// double angle = relativeChildPosition.angle();
double dx = relativeChildPosition.x() /*+ cos(angle)*childInfo->m_x - sin(angle)*childInfo->m_y*/;
double dy = relativeChildPosition.y() /*+ sin(angle)*childInfo->m_x + cos(angle)*childInfo->m_y*/;
m_mechanicsInfoCombined.mass += mass;
mass_x += mass * dx;
mass_y += mass * dy;
double length_squared = dx*dx + dy*dy;
m_mechanicsInfoCombined.momentOfInertia += length_squared * childInfo->momentOfInertia;
}
}
m_mechanicsInfoCombined.x = mass_x / m_mechanicsInfoCombined.mass;
m_mechanicsInfoCombined.y = mass_y / m_mechanicsInfoCombined.mass;
}
ItemData MechanicsItem::itemData() const
{
ItemData itemData = Item::itemData();
itemData.angleDegrees = m_relativePosition.angle()*57.29577951308232;
return itemData;
}
bool MechanicsItem::mousePressEvent( const EventInfo &eventInfo )
{
Q_UNUSED(eventInfo);
return false;
}
bool MechanicsItem::mouseReleaseEvent( const EventInfo &eventInfo )
{
Q_UNUSED(eventInfo);
return false;
}
bool MechanicsItem::mouseDoubleClickEvent( const EventInfo &eventInfo )
{
Q_UNUSED(eventInfo);
return false;
}
bool MechanicsItem::mouseMoveEvent( const EventInfo &eventInfo )
{
Q_UNUSED(eventInfo);
return false;
}
bool MechanicsItem::wheelEvent( const EventInfo &eventInfo )
{
Q_UNUSED(eventInfo);
return false;
}
void MechanicsItem::enterEvent()
{
}
void MechanicsItem::leaveEvent()
{
}
TQRect MechanicsItem::maxInnerRectangle( const TQRect &outerRect ) const
{
TQRect normalizedOuterRect = outerRect.normalize();
const double LEFT = normalizedOuterRect.left();
const double TOP = normalizedOuterRect.top();
const double X = normalizedOuterRect.width();
const double Y = normalizedOuterRect.height();
const double a = normalizeAngle(absolutePosition().angle());
double left;
double top;
double width;
double height;
// if ( can change width/height ratio )
{
double x1 = X*std::cos(a) - Y*std::sin(a);
double y1 = X*std::sin(a) + Y*std::cos(a);
double x2 = X*std::cos(a);
double y2 = X*std::sin(a);
double x3 = -Y*std::sin(a);
double y3 = Y*std::cos(a);
double xbig;/* = std::max( std::abs(x2-x3), std::abs(x1) );*/
double ybig;/* = std::max( std::abs(y2-y3), std::abs(y1) );*/
if ( (a - floor(a/6.2832)*6.2832) < 3.1416 )
{
xbig = std::abs(x3-x2);
ybig = std::abs(y1);
}
else
{
xbig = std::abs(x1);
ybig = std::abs(y3-y2);
}
width = X*(X/xbig);
height = Y*(Y/ybig);
top = -std::sin(a) * (LEFT + width*std::sin(a)) + std::cos(a)*TOP;
left = std::cos(a) * (LEFT + width*std::sin(a)) + std::sin(a)*TOP;
}
return TQRect( int(left), int(top), int(width), int(height) );
}
void MechanicsItem::initPainter( TQPainter &p )
{
PositionInfo absPos = absolutePosition();
p.translate( absPos.x(), absPos.y() );
// 57.29577951308232 is the number of degrees per radian.
p.rotate( absPos.angle()*57.29577951308232 );
p.translate( -absPos.x(), -absPos.y() );
}
void MechanicsItem::deinitPainter( TQPainter &p )
{
PositionInfo absPos = absolutePosition();
p.translate( absPos.x(), absPos.y() );
// 57.29577951308232 is the number of degrees per radian.
p.rotate( -absPos.angle()*57.29577951308232 );
p.translate( -absPos.x(), -absPos.y() );
}
PositionInfo::PositionInfo()
{
reset();
}
const PositionInfo PositionInfo::operator+( const PositionInfo &info )
{
// Copy the child to a new position
PositionInfo newInfo = info;
// Translate the newInfo by our translation amount
newInfo.translate( x(), y() );
// Rotate the child about us
newInfo.rotateAboutPoint( x(), y(), angle() );
return newInfo;
}
const PositionInfo PositionInfo::operator-( const PositionInfo &info )
{
PositionInfo newInfo = *this;
newInfo.translate( -info.x(), -info.y() );
newInfo.rotate( -info.angle() );
return newInfo;
}
void PositionInfo::rotateAboutPoint( double x, double y, double angle )
{
m_angle += angle;
double newx = x + (m_x-x)*std::cos(angle) - (m_y-y)*std::sin(angle);
double newy = y + (m_x-x)*std::sin(angle) + (m_y-y)*std::cos(angle);
m_x = newx;
m_y = newy;
}
void PositionInfo::reset()
{
m_x = 0.;
m_y = 0.;
m_angle = 0.;
}
MechanicsInfo::MechanicsInfo()
{
mass = 0.;
momentOfInertia = 0.;
}
CombinedMechanicsInfo::CombinedMechanicsInfo()
: MechanicsInfo()
{
x = 0.;
y = 0.;
}
CombinedMechanicsInfo::CombinedMechanicsInfo( const MechanicsInfo &info )
: MechanicsInfo(info)
{
x = 0.;
y = 0.;
}
#include "mechanicsitem.moc"