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      1 /*
      2  * Copyright (C) 2006 Apple Inc. All rights reserved.
      3  * Copyright (C) 2006 Nikolas Zimmermann <zimmermann (at) kde.org>
      4  * Copyright (C) 2007 Rob Buis <buis (at) kde.org>
      5  *
      6  * This library is free software; you can redistribute it and/or
      7  * modify it under the terms of the GNU Library General Public
      8  * License as published by the Free Software Foundation; either
      9  * version 2 of the License, or (at your option) any later version.
     10  *
     11  * This library is distributed in the hope that it will be useful,
     12  * but WITHOUT ANY WARRANTY; without even the implied warranty of
     13  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     14  * Library General Public License for more details.
     15  *
     16  * You should have received a copy of the GNU Library General Public License
     17  * along with this library; see the file COPYING.LIB.  If not, write to
     18  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
     19  * Boston, MA 02110-1301, USA.
     20  */
     21 
     22 #include "config.h"
     23 #include "core/svg/SVGDocumentExtensions.h"
     24 
     25 #include "XLinkNames.h"
     26 #include "core/dom/Document.h"
     27 #include "core/rendering/svg/SVGResourcesCache.h"
     28 #include "core/svg/SVGElement.h"
     29 #include "core/svg/SVGSVGElement.h"
     30 #include "core/svg/animation/SMILTimeContainer.h"
     31 #include "wtf/TemporaryChange.h"
     32 #include "wtf/text/AtomicString.h"
     33 
     34 namespace WebCore {
     35 
     36 SVGDocumentExtensions::SVGDocumentExtensions(Document* document)
     37     : m_document(document)
     38     , m_resourcesCache(adoptPtr(new SVGResourcesCache))
     39 #if !ASSERT_DISABLED
     40     , m_inRelativeLengthSVGRootsInvalidation(false)
     41 #endif
     42 {
     43 }
     44 
     45 SVGDocumentExtensions::~SVGDocumentExtensions()
     46 {
     47 }
     48 
     49 void SVGDocumentExtensions::addTimeContainer(SVGSVGElement* element)
     50 {
     51     m_timeContainers.add(element);
     52 }
     53 
     54 void SVGDocumentExtensions::removeTimeContainer(SVGSVGElement* element)
     55 {
     56     m_timeContainers.remove(element);
     57 }
     58 
     59 void SVGDocumentExtensions::addResource(const AtomicString& id, RenderSVGResourceContainer* resource)
     60 {
     61     ASSERT(resource);
     62 
     63     if (id.isEmpty())
     64         return;
     65 
     66     // Replaces resource if already present, to handle potential id changes
     67     m_resources.set(id, resource);
     68 }
     69 
     70 void SVGDocumentExtensions::removeResource(const AtomicString& id)
     71 {
     72     if (id.isEmpty())
     73         return;
     74 
     75     m_resources.remove(id);
     76 }
     77 
     78 RenderSVGResourceContainer* SVGDocumentExtensions::resourceById(const AtomicString& id) const
     79 {
     80     if (id.isEmpty())
     81         return 0;
     82 
     83     return m_resources.get(id);
     84 }
     85 
     86 void SVGDocumentExtensions::startAnimations()
     87 {
     88     // FIXME: Eventually every "Time Container" will need a way to latch on to some global timer
     89     // starting animations for a document will do this "latching"
     90     // FIXME: We hold a ref pointers to prevent a shadow tree from getting removed out from underneath us.
     91     // In the future we should refactor the use-element to avoid this. See https://webkit.org/b/53704
     92     Vector<RefPtr<SVGSVGElement> > timeContainers;
     93     timeContainers.appendRange(m_timeContainers.begin(), m_timeContainers.end());
     94     Vector<RefPtr<SVGSVGElement> >::iterator end = timeContainers.end();
     95     for (Vector<RefPtr<SVGSVGElement> >::iterator itr = timeContainers.begin(); itr != end; ++itr)
     96         (*itr)->timeContainer()->begin();
     97 }
     98 
     99 void SVGDocumentExtensions::pauseAnimations()
    100 {
    101     HashSet<SVGSVGElement*>::iterator end = m_timeContainers.end();
    102     for (HashSet<SVGSVGElement*>::iterator itr = m_timeContainers.begin(); itr != end; ++itr)
    103         (*itr)->pauseAnimations();
    104 }
    105 
    106 void SVGDocumentExtensions::unpauseAnimations()
    107 {
    108     HashSet<SVGSVGElement*>::iterator end = m_timeContainers.end();
    109     for (HashSet<SVGSVGElement*>::iterator itr = m_timeContainers.begin(); itr != end; ++itr)
    110         (*itr)->unpauseAnimations();
    111 }
    112 
    113 void SVGDocumentExtensions::dispatchSVGLoadEventToOutermostSVGElements()
    114 {
    115     Vector<RefPtr<SVGSVGElement> > timeContainers;
    116     timeContainers.appendRange(m_timeContainers.begin(), m_timeContainers.end());
    117 
    118     Vector<RefPtr<SVGSVGElement> >::iterator end = timeContainers.end();
    119     for (Vector<RefPtr<SVGSVGElement> >::iterator it = timeContainers.begin(); it != end; ++it) {
    120         SVGSVGElement* outerSVG = (*it).get();
    121         if (!outerSVG->isOutermostSVGSVGElement())
    122             continue;
    123         outerSVG->sendSVGLoadEventIfPossible();
    124     }
    125 }
    126 
    127 static void reportMessage(Document* document, MessageLevel level, const String& message)
    128 {
    129     if (document->frame())
    130         document->addConsoleMessage(RenderingMessageSource, level, message);
    131 }
    132 
    133 void SVGDocumentExtensions::reportWarning(const String& message)
    134 {
    135     reportMessage(m_document, WarningMessageLevel, "Warning: " + message);
    136 }
    137 
    138 void SVGDocumentExtensions::reportError(const String& message)
    139 {
    140     reportMessage(m_document, ErrorMessageLevel, "Error: " + message);
    141 }
    142 
    143 void SVGDocumentExtensions::addPendingResource(const AtomicString& id, Element* element)
    144 {
    145     ASSERT(element);
    146     ASSERT(element->inDocument());
    147 
    148     if (id.isEmpty())
    149         return;
    150 
    151     HashMap<AtomicString, OwnPtr<SVGPendingElements> >::AddResult result = m_pendingResources.add(id, nullptr);
    152     if (result.isNewEntry)
    153         result.iterator->value = adoptPtr(new SVGPendingElements);
    154     result.iterator->value->add(element);
    155 
    156     element->setHasPendingResources();
    157 }
    158 
    159 bool SVGDocumentExtensions::hasPendingResource(const AtomicString& id) const
    160 {
    161     if (id.isEmpty())
    162         return false;
    163 
    164     return m_pendingResources.contains(id);
    165 }
    166 
    167 bool SVGDocumentExtensions::isElementPendingResources(Element* element) const
    168 {
    169     // This algorithm takes time proportional to the number of pending resources and need not.
    170     // If performance becomes an issue we can keep a counted set of elements and answer the question efficiently.
    171 
    172     ASSERT(element);
    173 
    174     HashMap<AtomicString, OwnPtr<SVGPendingElements> >::const_iterator end = m_pendingResources.end();
    175     for (HashMap<AtomicString, OwnPtr<SVGPendingElements> >::const_iterator it = m_pendingResources.begin(); it != end; ++it) {
    176         SVGPendingElements* elements = it->value.get();
    177         ASSERT(elements);
    178 
    179         if (elements->contains(element))
    180             return true;
    181     }
    182     return false;
    183 }
    184 
    185 bool SVGDocumentExtensions::isElementPendingResource(Element* element, const AtomicString& id) const
    186 {
    187     ASSERT(element);
    188 
    189     if (!hasPendingResource(id))
    190         return false;
    191 
    192     return m_pendingResources.get(id)->contains(element);
    193 }
    194 
    195 void SVGDocumentExtensions::clearHasPendingResourcesIfPossible(Element* element)
    196 {
    197     if (!isElementPendingResources(element))
    198         element->clearHasPendingResources();
    199 }
    200 
    201 void SVGDocumentExtensions::removeElementFromPendingResources(Element* element)
    202 {
    203     ASSERT(element);
    204 
    205     // Remove the element from pending resources.
    206     if (!m_pendingResources.isEmpty() && element->hasPendingResources()) {
    207         Vector<AtomicString> toBeRemoved;
    208         HashMap<AtomicString, OwnPtr<SVGPendingElements> >::iterator end = m_pendingResources.end();
    209         for (HashMap<AtomicString, OwnPtr<SVGPendingElements> >::iterator it = m_pendingResources.begin(); it != end; ++it) {
    210             SVGPendingElements* elements = it->value.get();
    211             ASSERT(elements);
    212             ASSERT(!elements->isEmpty());
    213 
    214             elements->remove(element);
    215             if (elements->isEmpty())
    216                 toBeRemoved.append(it->key);
    217         }
    218 
    219         clearHasPendingResourcesIfPossible(element);
    220 
    221         // We use the removePendingResource function here because it deals with set lifetime correctly.
    222         Vector<AtomicString>::iterator vectorEnd = toBeRemoved.end();
    223         for (Vector<AtomicString>::iterator it = toBeRemoved.begin(); it != vectorEnd; ++it)
    224             removePendingResource(*it);
    225     }
    226 
    227     // Remove the element from pending resources that were scheduled for removal.
    228     if (!m_pendingResourcesForRemoval.isEmpty()) {
    229         Vector<AtomicString> toBeRemoved;
    230         HashMap<AtomicString, OwnPtr<SVGPendingElements> >::iterator end = m_pendingResourcesForRemoval.end();
    231         for (HashMap<AtomicString, OwnPtr<SVGPendingElements> >::iterator it = m_pendingResourcesForRemoval.begin(); it != end; ++it) {
    232             SVGPendingElements* elements = it->value.get();
    233             ASSERT(elements);
    234             ASSERT(!elements->isEmpty());
    235 
    236             elements->remove(element);
    237             if (elements->isEmpty())
    238                 toBeRemoved.append(it->key);
    239         }
    240 
    241         // We use the removePendingResourceForRemoval function here because it deals with set lifetime correctly.
    242         Vector<AtomicString>::iterator vectorEnd = toBeRemoved.end();
    243         for (Vector<AtomicString>::iterator it = toBeRemoved.begin(); it != vectorEnd; ++it)
    244             removePendingResourceForRemoval(*it);
    245     }
    246 }
    247 
    248 PassOwnPtr<SVGDocumentExtensions::SVGPendingElements> SVGDocumentExtensions::removePendingResource(const AtomicString& id)
    249 {
    250     ASSERT(m_pendingResources.contains(id));
    251     return m_pendingResources.take(id);
    252 }
    253 
    254 PassOwnPtr<SVGDocumentExtensions::SVGPendingElements> SVGDocumentExtensions::removePendingResourceForRemoval(const AtomicString& id)
    255 {
    256     ASSERT(m_pendingResourcesForRemoval.contains(id));
    257     return m_pendingResourcesForRemoval.take(id);
    258 }
    259 
    260 void SVGDocumentExtensions::markPendingResourcesForRemoval(const AtomicString& id)
    261 {
    262     if (id.isEmpty())
    263         return;
    264 
    265     ASSERT(!m_pendingResourcesForRemoval.contains(id));
    266 
    267     OwnPtr<SVGPendingElements> existing = m_pendingResources.take(id);
    268     if (existing && !existing->isEmpty())
    269         m_pendingResourcesForRemoval.add(id, existing.release());
    270 }
    271 
    272 Element* SVGDocumentExtensions::removeElementFromPendingResourcesForRemoval(const AtomicString& id)
    273 {
    274     if (id.isEmpty())
    275         return 0;
    276 
    277     SVGPendingElements* resourceSet = m_pendingResourcesForRemoval.get(id);
    278     if (!resourceSet || resourceSet->isEmpty())
    279         return 0;
    280 
    281     SVGPendingElements::iterator firstElement = resourceSet->begin();
    282     Element* element = *firstElement;
    283 
    284     resourceSet->remove(firstElement);
    285 
    286     if (resourceSet->isEmpty())
    287         removePendingResourceForRemoval(id);
    288 
    289     return element;
    290 }
    291 
    292 HashSet<SVGElement*>* SVGDocumentExtensions::setOfElementsReferencingTarget(SVGElement* referencedElement) const
    293 {
    294     ASSERT(referencedElement);
    295     const HashMap<SVGElement*, OwnPtr<HashSet<SVGElement*> > >::const_iterator it = m_elementDependencies.find(referencedElement);
    296     if (it == m_elementDependencies.end())
    297         return 0;
    298     return it->value.get();
    299 }
    300 
    301 void SVGDocumentExtensions::addElementReferencingTarget(SVGElement* referencingElement, SVGElement* referencedElement)
    302 {
    303     ASSERT(referencingElement);
    304     ASSERT(referencedElement);
    305 
    306     if (HashSet<SVGElement*>* elements = m_elementDependencies.get(referencedElement)) {
    307         elements->add(referencingElement);
    308         return;
    309     }
    310 
    311     OwnPtr<HashSet<SVGElement*> > elements = adoptPtr(new HashSet<SVGElement*>);
    312     elements->add(referencingElement);
    313     m_elementDependencies.set(referencedElement, elements.release());
    314 }
    315 
    316 void SVGDocumentExtensions::removeAllTargetReferencesForElement(SVGElement* referencingElement)
    317 {
    318     Vector<SVGElement*> toBeRemoved;
    319 
    320     HashMap<SVGElement*, OwnPtr<HashSet<SVGElement*> > >::iterator end = m_elementDependencies.end();
    321     for (HashMap<SVGElement*, OwnPtr<HashSet<SVGElement*> > >::iterator it = m_elementDependencies.begin(); it != end; ++it) {
    322         SVGElement* referencedElement = it->key;
    323         HashSet<SVGElement*>* referencingElements = it->value.get();
    324         HashSet<SVGElement*>::iterator setIt = referencingElements->find(referencingElement);
    325         if (setIt == referencingElements->end())
    326             continue;
    327 
    328         referencingElements->remove(setIt);
    329         if (referencingElements->isEmpty())
    330             toBeRemoved.append(referencedElement);
    331     }
    332 
    333     Vector<SVGElement*>::iterator vectorEnd = toBeRemoved.end();
    334     for (Vector<SVGElement*>::iterator it = toBeRemoved.begin(); it != vectorEnd; ++it)
    335         m_elementDependencies.remove(*it);
    336 }
    337 
    338 void SVGDocumentExtensions::rebuildAllElementReferencesForTarget(SVGElement* referencedElement)
    339 {
    340     ASSERT(referencedElement);
    341     HashMap<SVGElement*, OwnPtr<HashSet<SVGElement*> > >::iterator it = m_elementDependencies.find(referencedElement);
    342     if (it == m_elementDependencies.end())
    343         return;
    344     ASSERT(it->key == referencedElement);
    345     Vector<SVGElement*> toBeNotified;
    346 
    347     HashSet<SVGElement*>* referencingElements = it->value.get();
    348     HashSet<SVGElement*>::iterator setEnd = referencingElements->end();
    349     for (HashSet<SVGElement*>::iterator setIt = referencingElements->begin(); setIt != setEnd; ++setIt)
    350         toBeNotified.append(*setIt);
    351 
    352     // Force rebuilding the referencingElement so it knows about this change.
    353     Vector<SVGElement*>::iterator vectorEnd = toBeNotified.end();
    354     for (Vector<SVGElement*>::iterator vectorIt = toBeNotified.begin(); vectorIt != vectorEnd; ++vectorIt) {
    355         // Before rebuilding referencingElement ensure it was not removed from under us.
    356         if (HashSet<SVGElement*>* referencingElements = setOfElementsReferencingTarget(referencedElement)) {
    357             if (referencingElements->contains(*vectorIt))
    358                 (*vectorIt)->svgAttributeChanged(XLinkNames::hrefAttr);
    359         }
    360     }
    361 }
    362 
    363 void SVGDocumentExtensions::removeAllElementReferencesForTarget(SVGElement* referencedElement)
    364 {
    365     ASSERT(referencedElement);
    366     HashMap<SVGElement*, OwnPtr<HashSet<SVGElement*> > >::iterator it = m_elementDependencies.find(referencedElement);
    367     if (it == m_elementDependencies.end())
    368         return;
    369     ASSERT(it->key == referencedElement);
    370 
    371     m_elementDependencies.remove(it);
    372 }
    373 
    374 void SVGDocumentExtensions::addSVGRootWithRelativeLengthDescendents(SVGSVGElement* svgRoot)
    375 {
    376     ASSERT(!m_inRelativeLengthSVGRootsInvalidation);
    377     m_relativeLengthSVGRoots.add(svgRoot);
    378 }
    379 
    380 void SVGDocumentExtensions::removeSVGRootWithRelativeLengthDescendents(SVGSVGElement* svgRoot)
    381 {
    382     ASSERT(!m_inRelativeLengthSVGRootsInvalidation);
    383     m_relativeLengthSVGRoots.remove(svgRoot);
    384 }
    385 
    386 bool SVGDocumentExtensions::isSVGRootWithRelativeLengthDescendents(SVGSVGElement* svgRoot) const
    387 {
    388     return m_relativeLengthSVGRoots.contains(svgRoot);
    389 }
    390 
    391 void SVGDocumentExtensions::invalidateSVGRootsWithRelativeLengthDescendents(SubtreeLayoutScope* scope)
    392 {
    393     ASSERT(!m_inRelativeLengthSVGRootsInvalidation);
    394 #if !ASSERT_DISABLED
    395     TemporaryChange<bool> inRelativeLengthSVGRootsChange(m_inRelativeLengthSVGRootsInvalidation, true);
    396 #endif
    397 
    398     HashSet<SVGSVGElement*>::iterator end = m_relativeLengthSVGRoots.end();
    399     for (HashSet<SVGSVGElement*>::iterator it = m_relativeLengthSVGRoots.begin(); it != end; ++it)
    400         (*it)->invalidateRelativeLengthClients(scope);
    401 }
    402 
    403 #if ENABLE(SVG_FONTS)
    404 void SVGDocumentExtensions::registerSVGFontFaceElement(SVGFontFaceElement* element)
    405 {
    406     m_svgFontFaceElements.add(element);
    407 }
    408 
    409 void SVGDocumentExtensions::unregisterSVGFontFaceElement(SVGFontFaceElement* element)
    410 {
    411     ASSERT(m_svgFontFaceElements.contains(element));
    412     m_svgFontFaceElements.remove(element);
    413 }
    414 #endif
    415 
    416 }
    417