You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
tdegraphics/ksvg/impl/SVGSVGElementImpl.cc

983 lines
28 KiB

/*
Copyright (C) 2001-2003 KSVG Team
This file is part of the KDE project
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include <kdebug.h>
#include <tqtimer.h>
#include <tqstringlist.h>
#include <tqdatetime.h>
#define USE_VALGRIND 0
#if USE_VALGRIND
#include <valgrind/calltree.h>
#endif
#include "SVGLength.h"
#include "SVGRectImpl.h"
#include "SVGAngleImpl.h"
#include "SVGShapeImpl.h"
#include "SVGPointImpl.h"
#include "SVGNumberImpl.h"
#include "SVGMatrixImpl.h"
#include "SVGEventImpl.h"
#include "SVGAElementImpl.h"
#include "SVGDocumentImpl.h"
#include "SVGViewSpecImpl.h"
#include "SVGTransformImpl.h"
#include "SVGSVGElementImpl.h"
#include "SVGAnimatedRectImpl.h"
#include "SVGTransformListImpl.h"
#include "SVGAnimatedLengthImpl.h"
#include "SVGAnimatedStringImpl.h"
#include "SVGPreserveAspectRatioImpl.h"
#include "SVGAnimatedTransformListImpl.h"
#include "SVGAnimatedPreserveAspectRatioImpl.h"
#include "CanvasItem.h"
#include "KSVGCanvas.h"
using namespace KSVG;
#include "SVGSVGElementImpl.lut.h"
#include "ksvg_scriptinterpreter.h"
#include "ksvg_bridge.h"
#include "ksvg_ecma.h"
SVGSVGElementImpl::SVGSVGElementImpl(DOM::ElementImpl *impl) : SVGContainerImpl(impl), SVGTestsImpl(), SVGLangSpaceImpl(), SVGExternalResourcesRequiredImpl(), SVGStylableImpl(this), SVGLocatableImpl(), SVGFitToViewBoxImpl(), SVGZoomAndPanImpl()
{
KSVG_EMPTY_FLAGS
m_x = new SVGAnimatedLengthImpl(LENGTHMODE_WIDTH, this);
m_x->ref();
m_y = new SVGAnimatedLengthImpl(LENGTHMODE_HEIGHT, this);
m_y->ref();
m_width = new SVGAnimatedLengthImpl(LENGTHMODE_WIDTH, this);
m_width->ref();
m_height = new SVGAnimatedLengthImpl(LENGTHMODE_HEIGHT, this);
m_height->ref();
m_viewport = SVGSVGElementImpl::createSVGRect();
m_currentTranslate = SVGSVGElementImpl::createSVGPoint();
m_currentView = new SVGViewSpecImpl();
m_currentView->ref();
m_currentScale = 1.0;
m_useCurrentView = false;
m_clip[0] = 0;
m_clip[1] = 0;
m_clip[2] = 0;
m_clip[3] = 0;
m_rootParentScreenCTM = 0;
m_localMatrix = SVGSVGElementImpl::createSVGMatrix();
}
SVGSVGElementImpl::~SVGSVGElementImpl()
{
if(m_x)
m_x->deref();
if(m_y)
m_y->deref();
if(m_width)
m_width->deref();
if(m_height)
m_height->deref();
if(m_viewport)
m_viewport->deref();
if(m_currentTranslate)
m_currentTranslate->deref();
if(m_currentView)
m_currentView->deref();
if(m_rootParentScreenCTM)
m_rootParentScreenCTM->deref();
if(m_localMatrix)
m_localMatrix->deref();
}
bool SVGSVGElementImpl::isRootElement() const
{
return ownerDoc()->rootElement() == this;
}
void SVGSVGElementImpl::setAttributes()
{
SVGElementImpl::setAttributes();
// Spec: if not specified, effect is as if a value of "0" were specified
if(KSVG_TOKEN_NOT_PARSED(X))
KSVG_SET_ALT_ATTRIBUTE(X, "0")
// Spec: if not specified, effect is as if a value of "0" were specified
if(KSVG_TOKEN_NOT_PARSED(Y))
KSVG_SET_ALT_ATTRIBUTE(Y, "0")
// Spec: If the attribute is not specified, the effect is as if a value of "100%" were specified.
if(KSVG_TOKEN_NOT_PARSED(Width))
KSVG_SET_ALT_ATTRIBUTE(Width, "100%")
// Spec: If the attribute is not specified, the effect is as if a value of "100%" were specified.
if(KSVG_TOKEN_NOT_PARSED(Height))
KSVG_SET_ALT_ATTRIBUTE(Height, "100%")
// Spec: The contentScriptType should default to "text/ecmascript".
if(KSVG_TOKEN_NOT_PARSED(ContentScriptType))
KSVG_SET_ALT_ATTRIBUTE(ContentScriptType, "text/ecmascript")
// Spec: The contentStyleType should default to "text/css".
if(KSVG_TOKEN_NOT_PARSED(ContentStyleType))
KSVG_SET_ALT_ATTRIBUTE(ContentStyleType, "text/css")
if(m_useCurrentView)
{
parseViewBox(m_currentView->viewBoxString().string());
preserveAspectRatio()->baseVal()->parsePreserveAspectRatio(m_currentView->preserveAspectRatioString().string());
}
m_viewport->setX(x()->baseVal()->value());
m_viewport->setY(y()->baseVal()->value());
m_viewport->setWidth(width()->baseVal()->value());
m_viewport->setHeight(height()->baseVal()->value());
if(isRootElement() && ownerDoc()->parentImage() == 0)
{
if(ownerDoc()->canvas())
ownerDoc()->canvas()->setViewportDimension(int(ceil(width()->baseVal()->value() * currentScale())), int(ceil(height()->baseVal()->value() * currentScale())));
// Special case for outermost svg element:
// We need to register our id manually, because
// m_ownerSVGElement is 0 in SVGElementImpl::setAttributes (Niko)
if(!id().isNull())
addToIdMap(id().string(), this);
}
}
SVGAnimatedLengthImpl *SVGSVGElementImpl::x()
{
return m_x;
}
SVGAnimatedLengthImpl *SVGSVGElementImpl::y()
{
return m_y;
}
SVGAnimatedLengthImpl *SVGSVGElementImpl::width()
{
return m_width;
}
SVGAnimatedLengthImpl *SVGSVGElementImpl::height()
{
return m_height;
}
void SVGSVGElementImpl::setContentScriptType(const DOM::DOMString &contentScriptType)
{
setAttribute("contentScriptType", contentScriptType);
}
DOM::DOMString SVGSVGElementImpl::contentScriptType() const
{
return getAttribute("contentScriptType");
}
void SVGSVGElementImpl::setContentStyleType(const DOM::DOMString &contentStyleType)
{
setAttribute("contentStyleType", contentStyleType);
}
DOM::DOMString SVGSVGElementImpl::contentStyleType() const
{
return getAttribute("contentStyleType");
}
SVGRectImpl *SVGSVGElementImpl::viewport()
{
return m_viewport;
}
SVGRectImpl *SVGSVGElementImpl::getBBox()
{
SVGRectImpl *ret = new SVGRectImpl(getCTM()->qmatrix().invert().map(m_viewport->qrect()));
ret->ref();
return ret;
}
float SVGSVGElementImpl::pixelUnitToMillimeterX() const
{
return ownerDoc()->screenPixelsPerMillimeterX();
}
float SVGSVGElementImpl::pixelUnitToMillimeterY() const
{
return ownerDoc()->screenPixelsPerMillimeterY();
}
float SVGSVGElementImpl::screenPixelToMillimeterX() const
{
return pixelUnitToMillimeterX();
}
float SVGSVGElementImpl::screenPixelToMillimeterY() const
{
return pixelUnitToMillimeterY();
}
void SVGSVGElementImpl::setUseCurrentView(bool useCurrentView)
{
m_useCurrentView = useCurrentView;
}
bool SVGSVGElementImpl::useCurrentView() const
{
return m_useCurrentView;
}
SVGViewSpecImpl *SVGSVGElementImpl::currentView() const
{
return m_currentView;
}
void SVGSVGElementImpl::setCurrentScale(float currentScale)
{
if( m_currentScale != currentScale )
{
m_currentScale = currentScale;
invalidateCachedMatrices();
if(hasEventListener(SVGEvent::ZOOM_EVENT, true))
dispatchEvent(SVGEvent::ZOOM_EVENT, false, false);
}
}
float SVGSVGElementImpl::currentScale() const
{
return m_currentScale;
}
void SVGSVGElementImpl::setCurrentTranslate(const TQPoint &p)
{
if(m_currentTranslate->x() != p.x() || m_currentTranslate->y() != p.y())
{
m_currentTranslate->setX(p.x());
m_currentTranslate->setY(p.y());
invalidateCachedMatrices();
if(hasEventListener(SVGEvent::SCROLL_EVENT, true))
dispatchEvent(SVGEvent::SCROLL_EVENT, false, false);
}
}
SVGPointImpl *SVGSVGElementImpl::currentTranslate()
{
return m_currentTranslate;
}
unsigned long SVGSVGElementImpl::suspendRedraw(unsigned long)
{
return 0;
}
void SVGSVGElementImpl::unsuspendRedraw(unsigned long)
{
}
void SVGSVGElementImpl::unsuspendRedrawAll()
{
}
void SVGSVGElementImpl::forceRedraw()
{
#if USE_VALGRIND
CALLTREE_ZERO_STATS();
#endif
TQTime timer;
timer.start();
if(ownerDoc() && ownerDoc()->canvas())
ownerDoc()->canvas()->update();
kdDebug(26000) << "forceRedraw in " << timer.elapsed()/1000.0 << " seconds" << endl;
#if USE_VALGRIND
CALLTREE_DUMP_STATS();
#endif
}
void SVGSVGElementImpl::pauseAnimations()
{
if(!ownerDoc()->timeScheduler()->animationsPaused())
ownerDoc()->timeScheduler()->toggleAnimations();
}
void SVGSVGElementImpl::unpauseAnimations()
{
if(ownerDoc()->timeScheduler()->animationsPaused())
ownerDoc()->timeScheduler()->toggleAnimations();
}
bool SVGSVGElementImpl::animationsPaused()
{
return ownerDoc()->timeScheduler()->animationsPaused();
}
float SVGSVGElementImpl::getCurrentTime() const
{
return ownerDoc()->timeScheduler()->elapsed();
}
void SVGSVGElementImpl::setCurrentTime(float)
{
}
DOM::NodeList SVGSVGElementImpl::getIntersectionList(SVGRectImpl *, SVGElementImpl *)
{
// TODO : implement me
return DOM::NodeList();
}
DOM::NodeList SVGSVGElementImpl::getEnclosureList(SVGRectImpl *rect, SVGElementImpl */*referenceElement*/)
{
DOM::NodeList list;
DOM::Node node = firstChild();
for(; !node.isNull(); node = node.nextSibling())
{
SVGElementImpl *element = ownerDoc()->getElementFromHandle(node.handle());
SVGShapeImpl *tqshape = dynamic_cast<SVGShapeImpl *>(element);
if(tqshape)
{
if(tqshape->isContainer())
// TODO : pass it on to container::getEnclosureList() which should return a NodeList
kdDebug() << "!tqshape" << endl;
else
{
// TODO : add the tqshape to list if the test succeeds
SVGRectImpl *current = tqshape->getBBox();
if(rect->qrect().tqcontains(current->qrect(), true))
kdDebug() << "tqshape : " << element->nodeName().string() << " is fully enclosed" << endl;
current->deref();
}
}
}
return list;
}
bool SVGSVGElementImpl::checkIntersection(SVGElementImpl *element, SVGRectImpl *rect)
{
SVGShapeImpl *tqshape = dynamic_cast<SVGShapeImpl *>(element);
if(!tqshape)
return false;
SVGRectImpl *current = tqshape->getBBox();
bool result = rect->qrect().intersects(current->qrect());
current->deref();
return result;
}
bool SVGSVGElementImpl::checkEnclosure(SVGElementImpl *element, SVGRectImpl *rect)
{
SVGShapeImpl *tqshape = dynamic_cast<SVGShapeImpl *>(element);
if(!tqshape)
return false;
SVGRectImpl *current = tqshape->getBBox();
bool result = rect->qrect().tqcontains(current->qrect());
current->deref();
return result;
}
void SVGSVGElementImpl::deSelectAll()
{
}
SVGNumberImpl *SVGSVGElementImpl::createSVGNumber()
{
// Spec: Creates an SVGNumber object outside of any document
// trees. The object is initialized to a value of zero.
SVGNumberImpl *ret = new SVGNumberImpl();
ret->ref();
return ret;
}
SVGLengthImpl *SVGSVGElementImpl::createSVGLength()
{
// Spec: Creates an SVGLength object outside of any document
// trees. The object is initialized to the value of 0 user units.
SVGLengthImpl *ret = new SVGLengthImpl();
ret->ref();
return ret;
}
SVGAngleImpl *SVGSVGElementImpl::createSVGAngle()
{
// Spec: Creates an SVGAngle object outside of any document
// trees. The object is initialized to the value 0 degrees (unitless).
SVGAngleImpl *ret = new SVGAngleImpl();
ret->ref();
return ret;
}
SVGPointImpl *SVGSVGElementImpl::createSVGPoint()
{
// Spec: Creates an SVGPoint object outside of any document
// trees. The object is initialized to the point (0,0) in the user coordinate system.
SVGPointImpl *ret = new SVGPointImpl();
ret->ref();
return ret;
}
SVGMatrixImpl *SVGSVGElementImpl::createSVGMatrix()
{
// Spec: Creates an SVGMatrix object outside of any document
// trees. The object is initialized to the identity matrix.
SVGMatrixImpl *ret = new SVGMatrixImpl(TQWMatrix(1.0F, 0.0F, 0.0F, 1.0F, 0.0F, 0.0F));
ret->ref();
return ret;
}
SVGRectImpl *SVGSVGElementImpl::createSVGRect()
{
// Spec: Creates an SVGRect object outside of any document
// trees. The object is initialized such that all values are set to 0 user units.
SVGRectImpl *ret = new SVGRectImpl();
ret->ref();
return ret;
}
SVGTransformImpl *SVGSVGElementImpl::createSVGTransform()
{
// Spec: Creates an SVGTransform object outside of any document
// trees. The object is initialized to an identity matrix transform (SVG_TRANSFORM_MATRIX).
SVGTransformImpl *transform = createSVGTransformFromMatrix(createSVGMatrix());
// createSVGMatrix already ref's the matrix, the SVGTransformImpl->setMatrix
// call also does this, prevent non deleting of the object by deref'ing (Niko)
transform->matrix()->deref();
return transform;
}
SVGTransformImpl *SVGSVGElementImpl::createSVGTransformFromMatrix(SVGMatrixImpl *mat)
{
// Spec: Creates an SVGTransform object outside of any document
// trees. The object is initialized to the given matrix transform (i.e., SVG_TRANSFORM_MATRIX).
SVGTransformImpl *ret = new SVGTransformImpl();
ret->setMatrix(mat);
ret->ref();
return ret;
}
SVGElementImpl *SVGSVGElementImpl::getElementById(const DOM::DOMString &elementId)
{
return m_map[elementId.string()];
}
void SVGSVGElementImpl::addToIdMap(const TQString &id, SVGElementImpl *obj)
{
m_map.insert(id, obj);
}
SVGMatrixImpl *SVGSVGElementImpl::getCTM()
{
return viewBoxToViewTransform(width()->baseVal()->value(), height()->baseVal()->value());
}
const SVGMatrixImpl *SVGSVGElementImpl::localMatrix()
{
// TODO: only update the matrix when needed and just return m_localMatrix
m_localMatrix->reset();
if(ownerSVGElement() == 0)
{
if(m_rootParentScreenCTM != 0)
m_localMatrix->copy(m_rootParentScreenCTM);
// We're the outermost svg element.
// Put the zoom scale and translate into the matrix.
m_localMatrix->translate(currentTranslate()->x(), currentTranslate()->y());
m_localMatrix->scale(currentScale());
}
// Apply viewport translation.
m_localMatrix->translate(x()->baseVal()->value(), y()->baseVal()->value());
// And viewbox.
SVGMatrixImpl *viewboxMatrix = viewBoxToViewTransform(width()->baseVal()->value(), height()->baseVal()->value());
m_localMatrix->multiply(viewboxMatrix);
viewboxMatrix->deref();
return m_localMatrix;
}
void SVGSVGElementImpl::setClip(const TQString &clip)
{
// TODO : this routine should probably be shared between all classes that establish new viewports (Rob)
if(!clip.startsWith("rect(") || !clip.endsWith(")"))
return;
TQString work = clip.mid(5, clip.length() - 6);
TQStringList substrings = TQStringList::split(',', clip);
TQStringList::ConstIterator it = substrings.begin();
if(m_clip[0])
m_clip[0]->deref();
m_clip[0] = SVGSVGElementImpl::createSVGLength();
if(*it != "auto")
m_clip[0]->setValueAsString(*it);
++it;
if(m_clip[1])
m_clip[1]->deref();
m_clip[1] = SVGSVGElementImpl::createSVGLength();
if(*it != "auto")
m_clip[1]->setValueAsString(*it);
++it;
if(m_clip[2])
m_clip[2]->deref();
m_clip[2] = SVGSVGElementImpl::createSVGLength();
if(*it != "auto")
m_clip[2]->setValueAsString(*it);
++it;
if(m_clip[3])
m_clip[3]->deref();
m_clip[3] = SVGSVGElementImpl::createSVGLength();
if(*it != "auto")
m_clip[3]->setValueAsString(*it);
}
TQRect SVGSVGElementImpl::clip()
{
// Get viewport in user coordinates.
TQRect v(0, 0, m_viewport->qrect().width(), m_viewport->qrect().height());
SVGMatrixImpl *ctm = getCTM();
TQRect r = ctm->qmatrix().invert().mapRect(v);
ctm->deref();
if(m_clip[0])
r.setTop(static_cast<int>(r.top() + m_clip[0]->value()));
if(m_clip[1])
r.setRight(static_cast<int>(r.right() - m_clip[1]->value()));
if(m_clip[2])
r.setBottom(static_cast<int>(r.bottom() - m_clip[2]->value()));
if(m_clip[3])
r.setLeft(static_cast<int>(r.left() + m_clip[3]->value()));
return r;
}
void SVGSVGElementImpl::setRootParentScreenCTM(SVGMatrixImpl *screenCTM)
{
if(m_rootParentScreenCTM != 0)
m_rootParentScreenCTM->deref();
m_rootParentScreenCTM = screenCTM;
screenCTM->ref();
}
bool SVGSVGElementImpl::prepareMouseEvent(const TQPoint &p, const TQPoint &a, SVGMouseEventImpl *mev)
{
// mop: central bool var which turns to true once the current "mouseover" element has been found
bool ret = false, dorerender = false;
SVGElementImpl *elem = 0;
SVGMatrixImpl *ctm = getCTM();
TQPoint userA = ctm->qmatrix().invert().map(a);
ctm->deref();
// Just check the lastTarget once (mop)
if(ownerDoc()->lastTarget())
{
elem = ownerDoc()->lastTarget();
ret = elem->prepareMouseEvent(p, userA, mev);
// mop: only proceed if element is not the current element anymore. rest is done in the lower part
if(!ret)
{
if(elem->hasEventListener(SVGEvent::MOUSEOUT_EVENT, false))
{
dorerender = true;
elem->setMouseOver(false);
elem->dispatchMouseEvent(SVGEvent::MOUSEOUT_EVENT, true, true, 0, mev->screenX(), mev->screenY(), mev->clientX(), mev->clientY(), mev->ctrlKey(), mev->altKey(), mev->shiftKey(), mev->metaKey(), mev->button(), elem);
}
if(elem->hasEventListener(SVGEvent::DOMFOCUSOUT_EVENT, false) && elem->focus())
{
dorerender = true;
elem->setFocus(false);
elem->dispatchEvent(SVGEvent::DOMFOCUSOUT_EVENT, true, true);
}
// mop: unset last target once we left it
ownerDoc()->setLastTarget(0);
}
}
// mop: DAMN...logic doesn't work :(
// we cant use the results of the above check because something like this
// _________
// | ____ |
// ||____| |
// |_________|
//
// wouldn't work because even if the mousepointer would be in the inner rect it would still be inside the bbox
// of the outer (assuming that the outer is the lastTarget). :(
ret = false;
// mop: just check for a node until the element where the mouse is over is found
// mop: "ret" can be set from the above stuff too...
// find the element here and do the event stuff in the lower part..much cleaner
CanvasItemList hits = ownerDoc()->canvas()->collisions(p, true);
for(CanvasItemList::Iterator it = hits.begin(); it != hits.end(); ++it)
{
elem = (*it)->element();
if(elem)
{
// Check if mouse is over a certain tqshape...
// mop: once an element has been found check eventlisteners and leave immediately
ret = elem->prepareMouseEvent(p, userA, mev);
if(ret) break;
}
}
// mop: has an element been found?
if(ret)
{
int events = mev->target()->getEventListeners(false);
// Dispatch mousemove, mousedown, mouseup and mouseclick events
bool cancel = (mev->id() != SVGEvent::MOUSEMOVE_EVENT);
if(events & 1 << mev->id())
{
mev->target()->dispatchMouseEvent(mev->id(), true, cancel, 0, mev->screenX(), mev->screenY(), mev->clientX(), mev->clientY(), mev->ctrlKey(), mev->altKey(), mev->shiftKey(), mev->metaKey(), mev->button(), elem);
dorerender = true; // mop: if it has the event then rerender
}
// If a mouse "moves" over a tqshape, it's also "over" the tqshape
if(mev->id() == SVGEvent::MOUSEMOVE_EVENT)
{
mev->target()->setMouseOver(true);
if(events & 1 << SVGEvent::MOUSEOVER_EVENT)
{
mev->target()->dispatchMouseEvent(SVGEvent::MOUSEOVER_EVENT, true, cancel, 0, mev->screenX(), mev->screenY(), mev->clientX(), mev->clientY(), mev->ctrlKey(), mev->altKey(), mev->shiftKey(), mev->metaKey(), mev->button(), elem);
dorerender = true;
}
}
// Also send an domactivate + focusin event on mouseup
bool dolinktest = true;
if(mev->id() == SVGEvent::MOUSEUP_EVENT)
{
mev->target()->setFocus(true);
if(events & 1 << SVGEvent::CLICK_EVENT)
{
dolinktest = mev->target()->dispatchEvent(SVGEvent::CLICK_EVENT, true, true);
dorerender = true;
}
if(events & 1 << SVGEvent::DOMACTIVATE_EVENT)
{
mev->target()->dispatchEvent(SVGEvent::DOMACTIVATE_EVENT, true, true);
dorerender = true;
}
if(events & 1 << SVGEvent::DOMFOCUSIN_EVENT)
{
mev->target()->dispatchEvent(SVGEvent::DOMFOCUSIN_EVENT, true, true);
dorerender = true;
}
}
// Hyperlink support
SVGAElementImpl* link=0;
if(dolinktest && !mev->defaultPrevented())
{
link = SVGAElementImpl::getLink(elem);
if(link)
{
mev->setURL(link->href()->baseVal());
emit ownerDoc()->gotURL(link->target()->baseVal().string());
}
}
// The mouse is over a tqshape, so we have a target..we need to register that for a mouseout
ownerDoc()->setLastTarget(mev->target());
}
// mop: all events may trigger changed style, add elements etc. this is definately needed :(
if(dorerender)
ownerDoc()->rerender();
return dorerender; // mop: some kind of event has been found and executed
}
// Ecma stuff
/*
@namespace KSVG
@begin SVGSVGElementImpl::s_hashTable 23
x SVGSVGElementImpl::X DontDelete|ReadOnly
y SVGSVGElementImpl::Y DontDelete|ReadOnly
width SVGSVGElementImpl::Width DontDelete|ReadOnly
height SVGSVGElementImpl::Height DontDelete|ReadOnly
viewport SVGSVGElementImpl::Viewport DontDelete|ReadOnly
contentScriptType SVGSVGElementImpl::ContentScriptType DontDelete
contentStyleType SVGSVGElementImpl::ContentStyleType DontDelete
pixelUnitToMillimeterX SVGSVGElementImpl::PixelUnitToMillimeterX DontDelete|ReadOnly
pixelUnitToMillimeterY SVGSVGElementImpl::PixelUnitToMillimeterY DontDelete|ReadOnly
screenPixelToMillimeterX SVGSVGElementImpl::ScreenPixelToMillimeterX DontDelete|ReadOnly
screenPixelToMillimeterY SVGSVGElementImpl::ScreenPixelToMillimeterY DontDelete|ReadOnly
useCurrentView SVGSVGElementImpl::UseCurrentView DontDelete
currentScale SVGSVGElementImpl::CurrentScale DontDelete
currentTranslate SVGSVGElementImpl::CurrentTranslate DontDelete|ReadOnly
onunload SVGSVGElementImpl::OnUnload DontDelete
onerror SVGSVGElementImpl::OnError DontDelete
onresize SVGSVGElementImpl::OnResize DontDelete
onzoom SVGSVGElementImpl::OnZoom DontDelete
onscroll SVGSVGElementImpl::OnScroll DontDelete
@end
@namespace KSVG
@begin SVGSVGElementImplProto::s_hashTable 29
createSVGNumber SVGSVGElementImpl::CreateSVGNumber DontDelete|Function 0
createSVGLength SVGSVGElementImpl::CreateSVGLength DontDelete|Function 0
createSVGAngle SVGSVGElementImpl::CreateSVGAngle DontDelete|Function 0
createSVGPoint SVGSVGElementImpl::CreateSVGPoint DontDelete|Function 0
createSVGMatrix SVGSVGElementImpl::CreateSVGMatrix DontDelete|Function 0
createSVGRect SVGSVGElementImpl::CreateSVGRect DontDelete|Function 0
createSVGTransform SVGSVGElementImpl::CreateSVGTransform DontDelete|Function 0
createSVGTransformFromMatrix SVGSVGElementImpl::CreateSVGTransformFromMatrix DontDelete|Function 1
suspendRedraw SVGSVGElementImpl::SuspendRedraw DontDelete|Function 1
unsuspendRedraw SVGSVGElementImpl::UnsuspendRedraw DontDelete|Function 1
unsuspendRedrawAll SVGSVGElementImpl::UnsuspendRedrawAll DontDelete|Function 0
forceRedraw SVGSVGElementImpl::ForceRedraw DontDelete|Function 0
pauseAnimations SVGSVGElementImpl::PauseAnimations DontDelete|Function 0
unpauseAnimations SVGSVGElementImpl::UnpauseAnimations DontDelete|Function 0
animationsPaused SVGSVGElementImpl::AnimationsPaused DontDelete|Function 0
getCurrentTime SVGSVGElementImpl::GetCurrentTime DontDelete|Function 0
setCurrentTime SVGSVGElementImpl::SetCurrentTime DontDelete|Function 1
getIntersectionList SVGSVGElementImpl::GetIntersectionList DontDelete|Function 2
getEnclosureList SVGSVGElementImpl::GetEnclosureList DontDelete|Function 2
checkIntersection SVGSVGElementImpl::CheckIntersection DontDelete|Function 2
checkEnclosure SVGSVGElementImpl::CheckEnclosure DontDelete|Function 2
deselectAll SVGSVGElementImpl::DeselectAll DontDelete|Function 0
getElementById SVGSVGElementImpl::GetElementById DontDelete|Function 1
@end
*/
KSVG_IMPLEMENT_PROTOTYPE("SVGSVGElement", SVGSVGElementImplProto, SVGSVGElementImplProtoFunc)
Value SVGSVGElementImpl::getValueProperty(ExecState *exec, int token) const
{
KSVG_CHECK_ATTRIBUTE
switch(token)
{
case X:
if(!attributeMode)
return m_x->cache(exec);
else
return Number(m_x->baseVal()->value());
case Y:
if(!attributeMode)
return m_y->cache(exec);
else
return Number(m_y->baseVal()->value());
case Width:
if(!attributeMode)
return m_width->cache(exec);
else
return Number(m_width->baseVal()->value());
case Height:
if(!attributeMode)
return m_height->cache(exec);
else
return Number(m_height->baseVal()->value());
case Viewport:
return m_viewport->cache(exec);
case ContentScriptType:
return String(contentScriptType().string());
case ContentStyleType:
return String(contentStyleType().string());
case PixelUnitToMillimeterX:
return Number(pixelUnitToMillimeterX());
case PixelUnitToMillimeterY:
return Number(pixelUnitToMillimeterY());
case ScreenPixelToMillimeterX:
return Number(screenPixelToMillimeterX());
case ScreenPixelToMillimeterY:
return Number(screenPixelToMillimeterY());
case UseCurrentView:
return Boolean(useCurrentView());
case CurrentScale:
return Number(currentScale());
case CurrentTranslate:
return m_currentTranslate->cache(exec);
default:
kdWarning() << "Unhandled token in " << k_funcinfo << " : " << token << endl;
return Undefined();
}
}
void SVGSVGElementImpl::putValueProperty(ExecState *exec, int token, const Value &value, int)
{
switch(token)
{
case ContentScriptType:
setContentScriptType(value.toString(exec).string());
break;
case ContentStyleType:
setContentStyleType(value.toString(exec).string());
break;
case CurrentScale:
m_currentScale = value.toNumber(exec);
break;
case X:
x()->baseVal()->setValueAsString(value.toString(exec).qstring());
break;
case Y:
y()->baseVal()->setValueAsString(value.toString(exec).qstring());
break;
case Width:
width()->baseVal()->setValueAsString(value.toString(exec).qstring());
break;
case Height:
height()->baseVal()->setValueAsString(value.toString(exec).qstring());
break;
case OnUnload:
// Spec: only applicable to outermost 'svg' elements
if(isRootElement())
setEventListener(SVGEvent::UNLOAD_EVENT, ownerDoc()->createEventListener(value.toString(exec).qstring()));
break;
case OnError:
setEventListener(SVGEvent::ERROR_EVENT, ownerDoc()->createEventListener(value.toString(exec).qstring()));
break;
case OnResize:
// Spec: only applicable to outermost 'svg' elements
if(isRootElement())
setEventListener(SVGEvent::RESIZE_EVENT, ownerDoc()->createEventListener(value.toString(exec).qstring()));
break;
case OnZoom:
// Spec: only applicable to outermost 'svg' elements
if(isRootElement())
setEventListener(SVGEvent::ZOOM_EVENT, ownerDoc()->createEventListener(value.toString(exec).qstring()));
break;
case OnScroll:
// Spec: only applicable to outermost 'svg' elements
if(isRootElement())
setEventListener(SVGEvent::SCROLL_EVENT, ownerDoc()->createEventListener(value.toString(exec).qstring()));
break;
default:
kdWarning() << k_funcinfo << "unhandled token " << token << endl;
}
}
Value SVGSVGElementImplProtoFunc::call(ExecState *exec, Object &thisObj, const List &args)
{
KSVG_CHECK_THIS(SVGSVGElementImpl)
switch(id)
{
case SVGSVGElementImpl::CreateSVGNumber:
return obj->createSVGNumber()->cache(exec);
case SVGSVGElementImpl::CreateSVGLength:
return obj->createSVGLength()->cache(exec);
case SVGSVGElementImpl::CreateSVGAngle:
return obj->createSVGAngle()->cache(exec);
case SVGSVGElementImpl::CreateSVGPoint:
return obj->createSVGPoint()->cache(exec);
case SVGSVGElementImpl::CreateSVGMatrix:
return obj->createSVGMatrix()->cache(exec);
case SVGSVGElementImpl::CreateSVGRect:
return obj->createSVGRect()->cache(exec);
case SVGSVGElementImpl::CreateSVGTransform:
return obj->createSVGTransform()->cache(exec);
case SVGSVGElementImpl::CreateSVGTransformFromMatrix:
return obj->createSVGTransformFromMatrix(static_cast<KSVGBridge<SVGMatrixImpl> *>(args[0].imp())->impl())->cache(exec);
case SVGSVGElementImpl::GetElementById:
{
// Keep in sync with SVGDocumentImpl's version.
Value ret;
SVGElementImpl *element = obj->getElementById(args[0].toString(exec).string());
if(element)
ret = getDOMNode(exec, *element);
else
{
element = obj->ownerDoc()->recursiveSearch(*(obj->ownerDoc()), args[0].toString(exec).string());
if(!element)
return Null();
ret = getDOMNode(exec, *element);
}
return ret;
}
case SVGSVGElementImpl::GetCurrentTime:
return Number(obj->getCurrentTime());
case SVGSVGElementImpl::SetCurrentTime:
obj->setCurrentTime(args[0].toNumber(exec));
return Undefined();
case SVGSVGElementImpl::DeselectAll:
obj->deSelectAll();
return Undefined();
case SVGSVGElementImpl::PauseAnimations:
obj->pauseAnimations();
return Undefined();
case SVGSVGElementImpl::UnpauseAnimations:
obj->unpauseAnimations();
return Undefined();
case SVGSVGElementImpl::AnimationsPaused:
return Boolean(obj->animationsPaused());
default:
kdWarning() << "Unhandled function id in " << k_funcinfo << " : " << id << endl;
break;
}
return Undefined();
}
// vim:ts=4:noet