/*
* Copyright (C) 2004, 2005, 2006, 2007 Apple Inc. All rights reserved.
* Copyright (C) 2006 Alexey Proskuryakov (ap@nypop.com)
* Copyright (C) 2007 Trolltech ASA
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#import "config.h"
#import "Frame.h"
#import "AXObjectCache.h"
#import "BeforeUnloadEvent.h"
#import "BlockExceptions.h"
#import "CSSHelper.h"
#import "Cache.h"
#import "Chrome.h"
#import "ClipboardEvent.h"
#import "ClipboardMac.h"
#import "ColorMac.h"
#import "Cursor.h"
#import "DOMInternal.h"
#import "DocumentLoader.h"
#import "EditCommand.h"
#import "EditorClient.h"
#import "Event.h"
#import "EventNames.h"
#import "FloatRect.h"
#import "FontData.h"
#import "FoundationExtras.h"
#import "FrameLoadRequest.h"
#import "FrameLoader.h"
#import "FrameLoaderClient.h"
#import "FrameLoaderTypes.h"
#import "FramePrivate.h"
#import "FrameView.h"
#import "GraphicsContext.h"
#import "HTMLDocument.h"
#import "HTMLFormElement.h"
#import "HTMLGenericFormElement.h"
#import "HTMLInputElement.h"
#import "HTMLNames.h"
#import "HTMLTableCellElement.h"
#import "HitTestRequest.h"
#import "HitTestResult.h"
#import "KeyboardEvent.h"
#import "Logging.h"
#import "MouseEventWithHitTestResults.h"
#import "Page.h"
#import "PlatformKeyboardEvent.h"
#import "PlatformScrollBar.h"
#import "PlatformWheelEvent.h"
#import "Plugin.h"
#import "RegularExpression.h"
#import "RenderImage.h"
#import "RenderListItem.h"
#import "RenderPart.h"
#import "RenderTableCell.h"
#import "RenderTheme.h"
#import "RenderView.h"
#import "ResourceHandle.h"
#import "Settings.h"
#import "SystemTime.h"
#import "TextResourceDecoder.h"
#import "WebCoreFrameBridge.h"
#import "WebCoreSystemInterface.h"
#import "WebCoreViewFactory.h"
#import "WebDashboardRegion.h"
#import "WebScriptObjectPrivate.h"
#import "kjs_proxy.h"
#import "kjs_window.h"
#import "visible_units.h"
#import <Carbon/Carbon.h>
#import <JavaScriptCore/NP_jsobject.h>
#import <JavaScriptCore/npruntime_impl.h>
#undef _webcore_TIMING
@interface NSObject (WebPlugIn)
- (id)objectForWebScript;
- (NPObject *)createPluginScriptableObject;
@end
@interface NSView (WebCoreHTMLDocumentView)
- (void)drawSingleRect:(NSRect)rect;
@end
using namespace std;
using namespace KJS::Bindings;
using KJS::JSLock;
namespace WebCore {
using namespace EventNames;
using namespace HTMLNames;
void Frame::setBridge(WebCoreFrameBridge* bridge)
{
if (d->m_bridge == bridge)
return;
if (!bridge) {
[d->m_bridge clearFrame];
HardRelease(d->m_bridge);
d->m_bridge = nil;
return;
}
HardRetain(bridge);
HardRelease(d->m_bridge);
d->m_bridge = bridge;
}
WebCoreFrameBridge* Frame::bridge() const
{
return d->m_bridge;
}
// Either get cached regexp or build one that matches any of the labels.
// The regexp we build is of the form: (STR1|STR2|STRN)
RegularExpression* regExpForLabels(NSArray* labels)
{
// All the ObjC calls in this method are simple array and string
// calls which we can assume do not raise exceptions
// Parallel arrays that we use to cache regExps. In practice the number of expressions
// that the app will use is equal to the number of locales is used in searching.
static const unsigned int regExpCacheSize = 4;
static NSMutableArray* regExpLabels = nil;
static Vector<RegularExpression*> regExps;
static RegularExpression wordRegExp = RegularExpression("\\w");
RegularExpression* result;
if (!regExpLabels)
regExpLabels = [[NSMutableArray alloc] initWithCapacity:regExpCacheSize];
CFIndex cacheHit = [regExpLabels indexOfObject:labels];
if (cacheHit != NSNotFound)
result = regExps.at(cacheHit);
else {
DeprecatedString pattern("(");
unsigned int numLabels = [labels count];
unsigned int i;
for (i = 0; i < numLabels; i++) {
DeprecatedString label = DeprecatedString::fromNSString((NSString*)[labels objectAtIndex:i]);
bool startsWithWordChar = false;
bool endsWithWordChar = false;
if (label.length() != 0) {
startsWithWordChar = wordRegExp.search(label.at(0)) >= 0;
endsWithWordChar = wordRegExp.search(label.at(label.length() - 1)) >= 0;
}
if (i != 0)
pattern.append("|");
// Search for word boundaries only if label starts/ends with "word characters".
// If we always searched for word boundaries, this wouldn't work for languages
// such as Japanese.
if (startsWithWordChar) {
pattern.append("\\b");
}
pattern.append(label);
if (endsWithWordChar) {
pattern.append("\\b");
}
}
pattern.append(")");
result = new RegularExpression(pattern, false);
}
// add regexp to the cache, making sure it is at the front for LRU ordering
if (cacheHit != 0) {
if (cacheHit != NSNotFound) {
// remove from old spot
[regExpLabels removeObjectAtIndex:cacheHit];
regExps.remove(cacheHit);
}
// add to start
[regExpLabels insertObject:labels atIndex:0];
regExps.insert(0, result);
// trim if too big
if ([regExpLabels count] > regExpCacheSize) {
[regExpLabels removeObjectAtIndex:regExpCacheSize];
RegularExpression* last = regExps.last();
regExps.removeLast();
delete last;
}
}
return result;
}
NSString* Frame::searchForNSLabelsAboveCell(RegularExpression* regExp, HTMLTableCellElement* cell)
{
RenderTableCell* cellRenderer = static_cast<RenderTableCell*>(cell->renderer());
if (cellRenderer && cellRenderer->isTableCell()) {
RenderTableCell* cellAboveRenderer = cellRenderer->table()->cellAbove(cellRenderer);
if (cellAboveRenderer) {
HTMLTableCellElement* aboveCell =
static_cast<HTMLTableCellElement*>(cellAboveRenderer->element());
if (aboveCell) {
// search within the above cell we found for a match
for (Node* n = aboveCell->firstChild(); n; n = n->traverseNextNode(aboveCell)) {
if (n->isTextNode() && n->renderer() && n->renderer()->style()->visibility() == VISIBLE) {
// For each text chunk, run the regexp
DeprecatedString nodeString = n->nodeValue().deprecatedString();
int pos = regExp->searchRev(nodeString);
if (pos >= 0)
return nodeString.mid(pos, regExp->matchedLength()).getNSString();
}
}
}
}
}
// Any reason in practice to search all cells in that are above cell?
return nil;
}
NSString* Frame::searchForLabelsBeforeElement(NSArray* labels, Element* element)
{
RegularExpression* regExp = regExpForLabels(labels);
// We stop searching after we've seen this many chars
const unsigned int charsSearchedThreshold = 500;
// This is the absolute max we search. We allow a little more slop than
// charsSearchedThreshold, to make it more likely that we'll search whole nodes.
const unsigned int maxCharsSearched = 600;
// If the starting element is within a table, the cell that contains it
HTMLTableCellElement* startingTableCell = 0;
bool searchedCellAbove = false;
// walk backwards in the node tree, until another element, or form, or end of tree
int unsigned lengthSearched = 0;
Node* n;
for (n = element->traversePreviousNode();
n && lengthSearched < charsSearchedThreshold;
n = n->traversePreviousNode())
{
if (n->hasTagName(formTag)
|| (n->isHTMLElement()
&& static_cast<HTMLElement*>(n)->isGenericFormElement()))
{
// We hit another form element or the start of the form - bail out
break;
} else if (n->hasTagName(tdTag) && !startingTableCell) {
startingTableCell = static_cast<HTMLTableCellElement*>(n);
} else if (n->hasTagName(trTag) && startingTableCell) {
NSString* result = searchForLabelsAboveCell(regExp, startingTableCell);
if (result && [result length] > 0)
return result;
searchedCellAbove = true;
} else if (n->isTextNode() && n->renderer() && n->renderer()->style()->visibility() == VISIBLE) {
// For each text chunk, run the regexp
DeprecatedString nodeString = n->nodeValue().deprecatedString();
// add 100 for slop, to make it more likely that we'll search whole nodes
if (lengthSearched + nodeString.length() > maxCharsSearched)
nodeString = nodeString.right(charsSearchedThreshold - lengthSearched);
int pos = regExp->searchRev(nodeString);
if (pos >= 0)
return nodeString.mid(pos, regExp->matchedLength()).getNSString();
lengthSearched += nodeString.length();
}
}
// If we started in a cell, but bailed because we found the start of the form or the
// previous element, we still might need to search the row above us for a label.
if (startingTableCell && !searchedCellAbove) {
NSString* result = searchForLabelsAboveCell(regExp, startingTableCell);
if (result && [result length] > 0)
return result;
}
return nil;
}
NSString* Frame::matchLabelsAgainstElement(NSArray* labels, Element* element)
{
DeprecatedString name = element->getAttribute(nameAttr).deprecatedString();
// Make numbers and _'s in field names behave like word boundaries, e.g., "address2"
name.replace(RegularExpression("[[:digit:]]"), " ");
name.replace('_', ' ');
RegularExpression* regExp = regExpForLabels(labels);
// Use the largest match we can find in the whole name string
int pos;
int length;
int bestPos = -1;
int bestLength = -1;
int start = 0;
do {
pos = regExp->search(name, start);
if (pos != -1) {
length = regExp->matchedLength();
if (length >= bestLength) {
bestPos = pos;
bestLength = length;
}
start = pos+1;
}
} while (pos != -1);
if (bestPos != -1)
return name.mid(bestPos, bestLength).getNSString();
return nil;
}
NSImage* Frame::imageFromRect(NSRect rect) const
{
NSView* view = d->m_view->getDocumentView();
if (!view)
return nil;
if (![view respondsToSelector:@selector(drawSingleRect:)])
return nil;
NSImage* resultImage;
BEGIN_BLOCK_OBJC_EXCEPTIONS;
NSRect bounds = [view bounds];
// Round image rect size in window coordinate space to avoid pixel cracks at HiDPI (4622794)
rect = [view convertRect:rect toView:nil];
rect.size.height = roundf(rect.size.height);
rect.size.width = roundf(rect.size.width);
rect = [view convertRect:rect fromView:nil];
resultImage = [[[NSImage alloc] initWithSize:rect.size] autorelease];
if (rect.size.width != 0 && rect.size.height != 0) {
[resultImage setFlipped:YES];
[resultImage lockFocus];
CGContextRef context = (CGContextRef)[[NSGraphicsContext currentContext] graphicsPort];
CGContextSaveGState(context);
CGContextTranslateCTM(context, bounds.origin.x - rect.origin.x, bounds.origin.y - rect.origin.y);
// Note: Must not call drawRect: here, because drawRect: assumes that it's called from AppKit's
// display machinery. It calls getRectsBeingDrawn:count:, which can only be called inside
// when a real AppKit display is underway.
[view drawSingleRect:rect];
CGContextRestoreGState(context);
[resultImage unlockFocus];
[resultImage setFlipped:NO];
}
return resultImage;
END_BLOCK_OBJC_EXCEPTIONS;
return nil;
}
NSImage* Frame::selectionImage(bool forceBlackText) const
{
d->m_paintRestriction = forceBlackText ? PaintRestrictionSelectionOnlyBlackText : PaintRestrictionSelectionOnly;
d->m_doc->updateLayout();
NSImage* result = imageFromRect(selectionRect());
d->m_paintRestriction = PaintRestrictionNone;
return result;
}
NSImage* Frame::snapshotDragImage(Node* node, NSRect* imageRect, NSRect* elementRect) const
{
RenderObject* renderer = node->renderer();
if (!renderer)
return nil;
renderer->updateDragState(true); // mark dragged nodes (so they pick up the right CSS)
d->m_doc->updateLayout(); // forces style recalc - needed since changing the drag state might
// imply new styles, plus JS could have changed other things
IntRect topLevelRect;
NSRect paintingRect = renderer->paintingRootRect(topLevelRect);
d->m_elementToDraw = node; // invoke special sub-tree drawing mode
NSImage* result = imageFromRect(paintingRect);
renderer->updateDragState(false);
d->m_doc->updateLayout();
d->m_elementToDraw = 0;
if (elementRect)
*elementRect = topLevelRect;
if (imageRect)
*imageRect = paintingRect;
return result;
}
NSDictionary* Frame::fontAttributesForSelectionStart() const
{
Node* nodeToRemove;
RenderStyle* style = styleForSelectionStart(nodeToRemove);
if (!style)
return nil;
NSMutableDictionary* result = [NSMutableDictionary dictionary];
if (style->backgroundColor().isValid() && style->backgroundColor().alpha() != 0)
[result setObject:nsColor(style->backgroundColor()) forKey:NSBackgroundColorAttributeName];
if (style->font().primaryFont()->getNSFont())
[result setObject:style->font().primaryFont()->getNSFont() forKey:NSFontAttributeName];
if (style->color().isValid() && style->color() != Color::black)
[result setObject:nsColor(style->color()) forKey:NSForegroundColorAttributeName];
ShadowData* shadow = style->textShadow();
if (shadow) {
NSShadow* s = [[NSShadow alloc] init];
[s setShadowOffset:NSMakeSize(shadow->x, shadow->y)];
[s setShadowBlurRadius:shadow->blur];
[s setShadowColor:nsColor(shadow->color)];
[result setObject:s forKey:NSShadowAttributeName];
}
int decoration = style->textDecorationsInEffect();
if (decoration & LINE_THROUGH)
[result setObject:[NSNumber numberWithInt:NSUnderlineStyleSingle] forKey:NSStrikethroughStyleAttributeName];
int superscriptInt = 0;
switch (style->verticalAlign()) {
case BASELINE:
case BOTTOM:
case BASELINE_MIDDLE:
case LENGTH:
case MIDDLE:
case TEXT_BOTTOM:
case TEXT_TOP:
case TOP:
break;
case SUB:
superscriptInt = -1;
break;
case SUPER:
superscriptInt = 1;
break;
}
if (superscriptInt)
[result setObject:[NSNumber numberWithInt:superscriptInt] forKey:NSSuperscriptAttributeName];
if (decoration & UNDERLINE)
[result setObject:[NSNumber numberWithInt:NSUnderlineStyleSingle] forKey:NSUnderlineStyleAttributeName];
if (nodeToRemove) {
ExceptionCode ec = 0;
nodeToRemove->remove(ec);
ASSERT(ec == 0);
}
return result;
}
NSWritingDirection Frame::baseWritingDirectionForSelectionStart() const
{
NSWritingDirection result = NSWritingDirectionLeftToRight;
Position pos = selectionController()->selection().visibleStart().deepEquivalent();
Node* node = pos.node();
if (!node || !node->renderer() || !node->renderer()->containingBlock())
return result;
RenderStyle* style = node->renderer()->containingBlock()->style();
if (!style)
return result;
switch (style->direction()) {
case LTR:
result = NSWritingDirectionLeftToRight;
break;
case RTL:
result = NSWritingDirectionRightToLeft;
break;
}
return result;
}
void Frame::issuePasteCommand()
{
[d->m_bridge issuePasteCommand];
}
void Frame::issueTransposeCommand()
{
[d->m_bridge issueTransposeCommand];
}
const short enableRomanKeyboardsOnly = -23;
void Frame::setUseSecureKeyboardEntry(bool enable)
{
if (enable == IsSecureEventInputEnabled())
return;
if (enable) {
EnableSecureEventInput();
#ifdef BUILDING_ON_TIGER
KeyScript(enableRomanKeyboardsOnly);
#else
CFArrayRef inputSources = TISCreateASCIICapableInputSourceList();
TSMSetDocumentProperty(TSMGetActiveDocument(), kTSMDocumentEnabledInputSourcesPropertyTag, sizeof(CFArrayRef), &inputSources);
CFRelease(inputSources);
#endif
} else {
DisableSecureEventInput();
#ifdef BUILDING_ON_TIGER
KeyScript(smKeyEnableKybds);
#else
TSMRemoveDocumentProperty(TSMGetActiveDocument(), kTSMDocumentEnabledInputSourcesPropertyTag);
#endif
}
}
NSMutableDictionary* Frame::dashboardRegionsDictionary()
{
Document* doc = document();
if (!doc)
return nil;
const Vector<DashboardRegionValue>& regions = doc->dashboardRegions();
size_t n = regions.size();
// Convert the Vector<DashboardRegionValue> into a NSDictionary of WebDashboardRegions
NSMutableDictionary* webRegions = [NSMutableDictionary dictionaryWithCapacity:n];
for (size_t i = 0; i < n; i++) {
const DashboardRegionValue& region = regions[i];
if (region.type == StyleDashboardRegion::None)
continue;
NSString *label = region.label;
WebDashboardRegionType type = WebDashboardRegionTypeNone;
if (region.type == StyleDashboardRegion::Circle)
type = WebDashboardRegionTypeCircle;
else if (region.type == StyleDashboardRegion::Rectangle)
type = WebDashboardRegionTypeRectangle;
NSMutableArray *regionValues = [webRegions objectForKey:label];
if (!regionValues) {
regionValues = [[NSMutableArray alloc] initWithCapacity:1];
[webRegions setObject:regionValues forKey:label];
[regionValues release];
}
WebDashboardRegion *webRegion = [[WebDashboardRegion alloc] initWithRect:region.bounds clip:region.clip type:type];
[regionValues addObject:webRegion];
[webRegion release];
}
return webRegions;
}
void Frame::dashboardRegionsChanged()
{
NSMutableDictionary *webRegions = dashboardRegionsDictionary();
[d->m_bridge dashboardRegionsChanged:webRegions];
}
void Frame::willPopupMenu(NSMenu * menu)
{
[d->m_bridge willPopupMenu:menu];
}
void Frame::setNeedsReapplyStyles()
{
[d->m_bridge setNeedsReapplyStyles];
}
FloatRect Frame::customHighlightLineRect(const AtomicString& type, const FloatRect& lineRect, Node* node)
{
return [d->m_bridge customHighlightRect:type forLine:lineRect representedNode:node];
}
void Frame::paintCustomHighlight(const AtomicString& type, const FloatRect& boxRect, const FloatRect& lineRect, bool text, bool line, Node* node)
{
[d->m_bridge paintCustomHighlight:type forBox:boxRect onLine:lineRect behindText:text entireLine:line representedNode:node];
}
DragImageRef Frame::dragImageForSelection()
{
if (!selectionController()->isRange())
return nil;
return selectionImage();
}
KJS::Bindings::Instance* Frame::createScriptInstanceForWidget(WebCore::Widget* widget)
{
NSView* aView = widget->getView();
if (!aView)
return 0;
void* nativeHandle = aView;
CreateRootObjectFunction createRootObject = RootObject::createRootObject();
RefPtr<RootObject> rootObject = createRootObject(nativeHandle);
if ([aView respondsToSelector:@selector(objectForWebScript)]) {
id objectForWebScript = [aView objectForWebScript];
if (objectForWebScript)
return Instance::createBindingForLanguageInstance(Instance::ObjectiveCLanguage, objectForWebScript, rootObject.release());
return 0;
} else if ([aView respondsToSelector:@selector(createPluginScriptableObject)]) {
#if USE(NPOBJECT)
NPObject* npObject = [aView createPluginScriptableObject];
if (npObject) {
Instance* instance = Instance::createBindingForLanguageInstance(Instance::CLanguage, npObject, rootObject.release());
// -createPluginScriptableObject returns a retained NPObject. The caller is expected to release it.
_NPN_ReleaseObject(npObject);
return instance;
}
#endif
return 0;
}
jobject applet;
// Get a pointer to the actual Java applet instance.
if ([d->m_bridge respondsToSelector:@selector(getAppletInView:)])
applet = [d->m_bridge getAppletInView:aView];
else
applet = [d->m_bridge pollForAppletInView:aView];
if (applet) {
// Wrap the Java instance in a language neutral binding and hand
// off ownership to the APPLET element.
Instance* instance = Instance::createBindingForLanguageInstance(Instance::JavaLanguage, applet, rootObject.release());
return instance;
}
return 0;
}
WebScriptObject* Frame::windowScriptObject()
{
Settings* settings = this->settings();
if (!settings || !settings->isJavaScriptEnabled())
return 0;
if (!d->m_windowScriptObject) {
KJS::JSLock lock;
KJS::JSObject* win = KJS::Window::retrieveWindow(this);
KJS::Bindings::RootObject *root = bindingRootObject();
d->m_windowScriptObject = [WebScriptObject scriptObjectForJSObject:toRef(win) originRootObject:root rootObject:root];
}
return d->m_windowScriptObject.get();
}
void Frame::clearPlatformScriptObjects()
{
if (d->m_windowScriptObject) {
KJS::Bindings::RootObject* root = bindingRootObject();
[d->m_windowScriptObject.get() _setOriginRootObject:root andRootObject:root];
}
}
} // namespace WebCore