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koffice/chalk/core/kis_layer.cpp

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/*
* Copyright (c) 2002 Patrick Julien <freak@codepimps.org>
* Copyright (c) 2005 Casper Boemann <cbr@boemann.dk>
*
* 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.
*
* this program is distributed in the hope that it will be useful,
* but without any warranty; without even the implied warranty of
* merchantability or fitness for a particular purpose. see the
* gnu general public license for more details.
*
* you should have received a copy of the gnu general public license
* along with this program; if not, write to the free software
* foundation, inc., 675 mass ave, cambridge, ma 02139, usa.
*/
#include <kdebug.h>
#include <tqimage.h>
#include "kis_debug_areas.h"
#include "kis_group_layer.h"
#include "kis_image.h"
#include "kis_layer.h"
#include "kis_painter.h"
#include "kis_undo_adapter.h"
namespace {
class KisLayerCommand : public KNamedCommand {
typedef KNamedCommand super;
public:
KisLayerCommand(const TQString& name, KisLayerSP layer);
virtual ~KisLayerCommand() {}
virtual void execute() = 0;
virtual void unexecute() = 0;
protected:
void setUndo(bool undo);
KisLayerSP m_layer;
};
KisLayerCommand::KisLayerCommand(const TQString& name, KisLayerSP layer) :
super(name), m_layer(layer)
{
}
void KisLayerCommand::setUndo(bool undo)
{
if (m_layer->undoAdapter()) {
m_layer->undoAdapter()->setUndo(undo);
}
}
class KisLayerLockedCommand : public KisLayerCommand {
typedef KisLayerCommand super;
public:
KisLayerLockedCommand(KisLayerSP layer, bool newLocked);
virtual void execute();
virtual void unexecute();
private:
bool m_newLocked;
};
KisLayerLockedCommand::KisLayerLockedCommand(KisLayerSP layer, bool newLocked) :
super(i18n("Lock Layer"), layer)
{
m_newLocked = newLocked;
}
void KisLayerLockedCommand::execute()
{
setUndo(false);
m_layer->setLocked(m_newLocked);
setUndo(true);
}
void KisLayerLockedCommand::unexecute()
{
setUndo(false);
m_layer->setLocked(!m_newLocked);
setUndo(true);
}
class KisLayerOpacityCommand : public KisLayerCommand {
typedef KisLayerCommand super;
public:
KisLayerOpacityCommand(KisLayerSP layer, TQ_UINT8 oldOpacity, TQ_UINT8 newOpacity);
virtual void execute();
virtual void unexecute();
private:
TQ_UINT8 m_oldOpacity;
TQ_UINT8 m_newOpacity;
};
KisLayerOpacityCommand::KisLayerOpacityCommand(KisLayerSP layer, TQ_UINT8 oldOpacity, TQ_UINT8 newOpacity) :
super(i18n("Layer Opacity"), layer)
{
m_oldOpacity = oldOpacity;
m_newOpacity = newOpacity;
}
void KisLayerOpacityCommand::execute()
{
setUndo(false);
m_layer->setOpacity(m_newOpacity);
setUndo(true);
}
void KisLayerOpacityCommand::unexecute()
{
setUndo(false);
m_layer->setOpacity(m_oldOpacity);
setUndo(true);
}
class KisLayerVisibilityCommand : public KisLayerCommand {
typedef KisLayerCommand super;
public:
KisLayerVisibilityCommand(KisLayerSP layer, bool newVisibility);
virtual void execute();
virtual void unexecute();
private:
bool m_newVisibility;
};
KisLayerVisibilityCommand::KisLayerVisibilityCommand(KisLayerSP layer, bool newVisibility) :
super(i18n("Layer Visibility"), layer)
{
m_newVisibility = newVisibility;
}
void KisLayerVisibilityCommand::execute()
{
setUndo(false);
m_layer->setVisible(m_newVisibility);
setUndo(true);
}
void KisLayerVisibilityCommand::unexecute()
{
setUndo(false);
m_layer->setVisible(!m_newVisibility);
setUndo(true);
}
class KisLayerCompositeOpCommand : public KisLayerCommand {
typedef KisLayerCommand super;
public:
KisLayerCompositeOpCommand(KisLayerSP layer, const KisCompositeOp& oldCompositeOp, const KisCompositeOp& newCompositeOp);
virtual void execute();
virtual void unexecute();
private:
KisCompositeOp m_oldCompositeOp;
KisCompositeOp m_newCompositeOp;
};
KisLayerCompositeOpCommand::KisLayerCompositeOpCommand(KisLayerSP layer, const KisCompositeOp& oldCompositeOp,
const KisCompositeOp& newCompositeOp) :
super(i18n("Layer Composite Mode"), layer)
{
m_oldCompositeOp = oldCompositeOp;
m_newCompositeOp = newCompositeOp;
}
void KisLayerCompositeOpCommand::execute()
{
setUndo(false);
m_layer->setCompositeOp(m_newCompositeOp);
setUndo(true);
}
void KisLayerCompositeOpCommand::unexecute()
{
setUndo(false);
m_layer->setCompositeOp(m_oldCompositeOp);
setUndo(true);
}
class KisLayerOffsetCommand : public KNamedCommand {
typedef KNamedCommand super;
public:
KisLayerOffsetCommand(KisLayerSP layer, const TQPoint& oldpos, const TQPoint& newpos);
virtual ~KisLayerOffsetCommand();
virtual void execute();
virtual void unexecute();
private:
void moveTo(const TQPoint& pos);
private:
KisLayerSP m_layer;
TQRect m_updateRect;
TQPoint m_oldPos;
TQPoint m_newPos;
};
KisLayerOffsetCommand::KisLayerOffsetCommand(KisLayerSP layer, const TQPoint& oldpos, const TQPoint& newpos) :
super(i18n("Move Layer"))
{
m_layer = layer;
m_oldPos = oldpos;
m_newPos = newpos;
TQRect currentBounds = m_layer->exactBounds();
TQRect oldBounds = currentBounds;
oldBounds.moveBy(oldpos.x() - newpos.x(), oldpos.y() - newpos.y());
m_updateRect = currentBounds | oldBounds;
}
KisLayerOffsetCommand::~KisLayerOffsetCommand()
{
}
void KisLayerOffsetCommand::execute()
{
moveTo(m_newPos);
}
void KisLayerOffsetCommand::unexecute()
{
moveTo(m_oldPos);
}
void KisLayerOffsetCommand::moveTo(const TQPoint& pos)
{
if (m_layer->undoAdapter()) {
m_layer->undoAdapter()->setUndo(false);
}
m_layer->setX(pos.x());
m_layer->setY(pos.y());
m_layer->setDirty(m_updateRect);
if (m_layer->undoAdapter()) {
m_layer->undoAdapter()->setUndo(true);
}
}
}
static int getID()
{
static int id = 1;
return id++;
}
KisLayer::KisLayer(KisImage *img, const TQString &name, TQ_UINT8 opacity) :
TQObject(0, name.latin1()),
12 years ago
TDEShared(),
m_id(getID()),
m_index(-1),
m_opacity(opacity),
m_locked(false),
m_visible(true),
m_temporary(false),
m_name(name),
m_parent(0),
m_image(img),
m_compositeOp(COMPOSITE_OVER)
{
}
KisLayer::KisLayer(const KisLayer& rhs) :
TQObject(),
12 years ago
TDEShared(rhs)
{
if (this != &rhs) {
m_id = getID();
m_index = -1;
m_opacity = rhs.m_opacity;
m_locked = rhs.m_locked;
m_visible = rhs.m_visible;
m_temporary = rhs.m_temporary;
m_dirtyRect = rhs.m_dirtyRect;
m_name = rhs.m_name;
m_image = rhs.m_image;
m_parent = 0;
m_compositeOp = rhs.m_compositeOp;
}
}
KisLayer::~KisLayer()
{
}
void KisLayer::setClean(const TQRect & rect)
{
if (m_dirtyRect.isValid() && rect.isValid()) {
// XXX: We should only set the parts clean that were actually cleaned. However, extent and exactBounds conspire
// to make that very hard atm.
//if (rect.contains(m_dirtyRect)) m_dirtyRect = TQRect();
m_dirtyRect = TQRect();
}
}
bool KisLayer::dirty()
{
return m_dirtyRect.isValid();
}
bool KisLayer::dirty(const TQRect & rc)
{
if (!m_dirtyRect.isValid() || !rc.isValid()) return false;
return rc.intersects(m_dirtyRect);
}
TQRect KisLayer::dirtyRect() const
{
return m_dirtyRect;
}
void KisLayer::setDirty(bool propagate)
{
TQRect rc = extent();
if (rc.isValid()) m_dirtyRect = rc;
// If we're dirty, our parent is dirty, if we've got a parent
if (propagate && m_parent && rc.isValid()) m_parent->setDirty(m_dirtyRect);
if (m_image && rc.isValid()) {
m_image->notifyLayerUpdated(this, rc);
}
}
void KisLayer::setDirty(const TQRect & rc, bool propagate)
{
// If we're dirty, our parent is dirty, if we've got a parent
if (rc.isValid())
m_dirtyRect |= rc;
if (propagate && m_parent && m_dirtyRect.isValid())
m_parent->setDirty(m_dirtyRect);
if (m_image && rc.isValid()) {
m_image->notifyLayerUpdated(this, rc);
}
}
KisGroupLayerSP KisLayer::parent() const
{
return m_parent;
}
KisLayerSP KisLayer::prevSibling() const
{
if (!parent())
return 0;
return parent()->at(index() - 1);
}
KisLayerSP KisLayer::nextSibling() const
{
if (!parent())
return 0;
return parent()->at(index() + 1);
}
int KisLayer::index() const
{
return m_index;
}
void KisLayer::setIndex(int i)
{
if (!parent())
return;
parent()->setIndex(this, i);
}
KisLayerSP KisLayer::findLayer(const TQString& n) const
{
if (name() == n)
return const_cast<KisLayer*>(this); //HACK any less ugly way? findLayer() is conceptually const...
for (KisLayerSP layer = firstChild(); layer; layer = layer->nextSibling())
if (KisLayerSP found = layer->findLayer(n))
return found;
return 0;
}
KisLayerSP KisLayer::findLayer(int i) const
{
if (id() == i)
return const_cast<KisLayer*>(this); //HACK
for (KisLayerSP layer = firstChild(); layer; layer = layer->nextSibling())
if (KisLayerSP found = layer->findLayer(i))
return found;
return 0;
}
int KisLayer::numLayers(int flags) const
{
int num = 0;
if (matchesFlags(flags)) num++;
for (KisLayerSP layer = firstChild(); layer; layer = layer->nextSibling())
num += layer->numLayers(flags);
return num;
}
bool KisLayer::matchesFlags(int flags) const
{
if ((flags & Visible) && !visible())
return false;
if ((flags & Hidden) && visible())
return false;
if ((flags & Locked) && !locked())
return false;
if ((flags & Unlocked) && locked())
return false;
return true;
}
TQ_UINT8 KisLayer::opacity() const
{
return m_opacity;
}
void KisLayer::setOpacity(TQ_UINT8 val)
{
if (m_opacity != val)
{
m_opacity = val;
setDirty();
notifyPropertyChanged();
}
}
KNamedCommand *KisLayer::setOpacityCommand(TQ_UINT8 newOpacity)
{
return new KisLayerOpacityCommand(this, opacity(), newOpacity);
}
KNamedCommand *KisLayer::setOpacityCommand(TQ_UINT8 prevOpacity, TQ_UINT8 newOpacity)
{
return new KisLayerOpacityCommand(this, prevOpacity, newOpacity);
}
const bool KisLayer::visible() const
{
return m_visible;
}
void KisLayer::setVisible(bool v)
{
if (m_visible != v) {
m_visible = v;
notifyPropertyChanged();
setDirty();
if (undoAdapter() && undoAdapter()->undo()) {
undoAdapter()->addCommand(setVisibleCommand(v));
}
}
}
KNamedCommand *KisLayer::setVisibleCommand(bool newVisibility)
{
return new KisLayerVisibilityCommand(this, newVisibility);
}
bool KisLayer::locked() const
{
return m_locked;
}
void KisLayer::setLocked(bool l)
{
if (m_locked != l) {
m_locked = l;
notifyPropertyChanged();
if (undoAdapter() && undoAdapter()->undo()) {
undoAdapter()->addCommand(setLockedCommand(l));
}
}
}
bool KisLayer::temporary() const
{
return m_temporary;
}
void KisLayer::setTemporary(bool t)
{
m_temporary = t;
}
KNamedCommand *KisLayer::setLockedCommand(bool newLocked)
{
return new KisLayerLockedCommand(this, newLocked);
}
TQString KisLayer::name() const
{
return m_name;
}
void KisLayer::setName(const TQString& name)
{
if (!name.isEmpty() && m_name != name)
{
m_name = name;
notifyPropertyChanged();
}
}
void KisLayer::setCompositeOp(const KisCompositeOp& compositeOp)
{
if (m_compositeOp != compositeOp)
{
m_compositeOp = compositeOp;
notifyPropertyChanged();
setDirty();
}
}
KNamedCommand *KisLayer::setCompositeOpCommand(const KisCompositeOp& newCompositeOp)
{
return new KisLayerCompositeOpCommand(this, compositeOp(), newCompositeOp);
}
KNamedCommand *KisLayer::moveCommand(TQPoint oldPosition, TQPoint newPosition)
{
return new KisLayerOffsetCommand(this, oldPosition, newPosition);
}
KisUndoAdapter *KisLayer::undoAdapter() const
{
if (m_image) {
return m_image->undoAdapter();
}
return 0;
}
void KisLayer::paintMaskInactiveLayers(TQImage &, TQ_INT32, TQ_INT32, TQ_INT32, TQ_INT32)
{
}
void KisLayer::paintSelection(TQImage &, TQ_INT32, TQ_INT32, TQ_INT32, TQ_INT32)
{
}
void KisLayer::paintSelection(TQImage &, const TQRect&, const TQSize&, const TQSize&)
{
}
TQImage KisLayer::createThumbnail(TQ_INT32, TQ_INT32)
{
return 0;
}
void KisLayer::notifyPropertyChanged()
{
if(image() && !signalsBlocked())
image()->notifyPropertyChanged(this);
}
void KisLayerSupportsIndirectPainting::setTemporaryTarget(KisPaintDeviceSP t) {
m_temporaryTarget = t;
}
void KisLayerSupportsIndirectPainting::setTemporaryCompositeOp(const KisCompositeOp& c) {
m_compositeOp = c;
}
void KisLayerSupportsIndirectPainting::setTemporaryOpacity(TQ_UINT8 o) {
m_compositeOpacity = o;
}
KisPaintDeviceSP KisLayerSupportsIndirectPainting::temporaryTarget() {
return m_temporaryTarget;
}
KisCompositeOp KisLayerSupportsIndirectPainting::temporaryCompositeOp() const {
return m_compositeOp;
}
TQ_UINT8 KisLayerSupportsIndirectPainting::temporaryOpacity() const {
return m_compositeOpacity;
}
#include "kis_layer.moc"