/* * Copyright (C) 2005, 2006, 2007, 2008, 2009, 2010 Apple Inc. All rights reserved. * * 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. */ #import "config.h" #import "RenderThemeMac.h" #import "BitmapImage.h" #import "ColorMac.h" #import "CSSStyleSelector.h" #import "CSSValueKeywords.h" #import "Document.h" #import "Element.h" #import "FrameView.h" #import "GraphicsContextCG.h" #import "HTMLInputElement.h" #import "HTMLMediaElement.h" #import "HTMLNames.h" #import "Image.h" #import "ImageBuffer.h" #import "LocalCurrentGraphicsContext.h" #import "MediaControlElements.h" #import "PaintInfo.h" #import "RenderMedia.h" #import "RenderMediaControls.h" #import "RenderSlider.h" #import "RenderView.h" #import "SharedBuffer.h" #import "TimeRanges.h" #import "ThemeMac.h" #import "WebCoreSystemInterface.h" #import "UserAgentStyleSheets.h" #import <Carbon/Carbon.h> #import <Cocoa/Cocoa.h> #import <wtf/RetainPtr.h> #import <wtf/StdLibExtras.h> #import <math.h> #import "RenderProgress.h" #if ENABLE(METER_TAG) #include "RenderMeter.h" #include "HTMLMeterElement.h" #endif #ifdef BUILDING_ON_TIGER typedef int NSInteger; typedef unsigned NSUInteger; #endif using namespace std; // The methods in this file are specific to the Mac OS X platform. // FIXME: The platform-independent code in this class should be factored out and merged with RenderThemeSafari. // We estimate the animation rate of a Mac OS X progress bar is 33 fps. // Hard code the value here because we haven't found API for it. const double progressAnimationFrameRate = 0.033; // Mac OS X progress bar animation seems to have 256 frames. const double progressAnimationNumFrames = 256; @interface WebCoreRenderThemeNotificationObserver : NSObject { WebCore::RenderTheme *_theme; } - (id)initWithTheme:(WebCore::RenderTheme *)theme; - (void)systemColorsDidChange:(NSNotification *)notification; @end @implementation WebCoreRenderThemeNotificationObserver - (id)initWithTheme:(WebCore::RenderTheme *)theme { [super init]; _theme = theme; return self; } - (void)systemColorsDidChange:(NSNotification *)unusedNotification { ASSERT_UNUSED(unusedNotification, [[unusedNotification name] isEqualToString:NSSystemColorsDidChangeNotification]); _theme->platformColorsDidChange(); } @end namespace WebCore { using namespace HTMLNames; enum { topMargin, rightMargin, bottomMargin, leftMargin }; enum { topPadding, rightPadding, bottomPadding, leftPadding }; #if PLATFORM(MAC) PassRefPtr<RenderTheme> RenderTheme::themeForPage(Page*) { static RenderTheme* rt = RenderThemeMac::create().releaseRef(); return rt; } #endif PassRefPtr<RenderTheme> RenderThemeMac::create() { return adoptRef(new RenderThemeMac); } RenderThemeMac::RenderThemeMac() : m_isSliderThumbHorizontalPressed(false) , m_isSliderThumbVerticalPressed(false) , m_notificationObserver(AdoptNS, [[WebCoreRenderThemeNotificationObserver alloc] initWithTheme:this]) { [[NSNotificationCenter defaultCenter] addObserver:m_notificationObserver.get() selector:@selector(systemColorsDidChange:) name:NSSystemColorsDidChangeNotification object:nil]; } RenderThemeMac::~RenderThemeMac() { [[NSNotificationCenter defaultCenter] removeObserver:m_notificationObserver.get()]; } Color RenderThemeMac::platformActiveSelectionBackgroundColor() const { NSColor* color = [[NSColor selectedTextBackgroundColor] colorUsingColorSpaceName:NSDeviceRGBColorSpace]; return Color(static_cast<int>(255.0 * [color redComponent]), static_cast<int>(255.0 * [color greenComponent]), static_cast<int>(255.0 * [color blueComponent])); } Color RenderThemeMac::platformInactiveSelectionBackgroundColor() const { NSColor* color = [[NSColor secondarySelectedControlColor] colorUsingColorSpaceName:NSDeviceRGBColorSpace]; return Color(static_cast<int>(255.0 * [color redComponent]), static_cast<int>(255.0 * [color greenComponent]), static_cast<int>(255.0 * [color blueComponent])); } Color RenderThemeMac::platformActiveListBoxSelectionBackgroundColor() const { NSColor* color = [[NSColor alternateSelectedControlColor] colorUsingColorSpaceName:NSDeviceRGBColorSpace]; return Color(static_cast<int>(255.0 * [color redComponent]), static_cast<int>(255.0 * [color greenComponent]), static_cast<int>(255.0 * [color blueComponent])); } Color RenderThemeMac::platformActiveListBoxSelectionForegroundColor() const { return Color::white; } Color RenderThemeMac::platformInactiveListBoxSelectionForegroundColor() const { return Color::black; } Color RenderThemeMac::platformFocusRingColor() const { if (usesTestModeFocusRingColor()) return oldAquaFocusRingColor(); return systemColor(CSSValueWebkitFocusRingColor); } Color RenderThemeMac::platformInactiveListBoxSelectionBackgroundColor() const { return platformInactiveSelectionBackgroundColor(); } static FontWeight toFontWeight(NSInteger appKitFontWeight) { ASSERT(appKitFontWeight > 0 && appKitFontWeight < 15); if (appKitFontWeight > 14) appKitFontWeight = 14; else if (appKitFontWeight < 1) appKitFontWeight = 1; static FontWeight fontWeights[] = { FontWeight100, FontWeight100, FontWeight200, FontWeight300, FontWeight400, FontWeight500, FontWeight600, FontWeight600, FontWeight700, FontWeight800, FontWeight800, FontWeight900, FontWeight900, FontWeight900 }; return fontWeights[appKitFontWeight - 1]; } void RenderThemeMac::systemFont(int cssValueId, FontDescription& fontDescription) const { DEFINE_STATIC_LOCAL(FontDescription, systemFont, ()); DEFINE_STATIC_LOCAL(FontDescription, smallSystemFont, ()); DEFINE_STATIC_LOCAL(FontDescription, menuFont, ()); DEFINE_STATIC_LOCAL(FontDescription, labelFont, ()); DEFINE_STATIC_LOCAL(FontDescription, miniControlFont, ()); DEFINE_STATIC_LOCAL(FontDescription, smallControlFont, ()); DEFINE_STATIC_LOCAL(FontDescription, controlFont, ()); FontDescription* cachedDesc; NSFont* font = nil; switch (cssValueId) { case CSSValueSmallCaption: cachedDesc = &smallSystemFont; if (!smallSystemFont.isAbsoluteSize()) font = [NSFont systemFontOfSize:[NSFont smallSystemFontSize]]; break; case CSSValueMenu: cachedDesc = &menuFont; if (!menuFont.isAbsoluteSize()) font = [NSFont menuFontOfSize:[NSFont systemFontSize]]; break; case CSSValueStatusBar: cachedDesc = &labelFont; if (!labelFont.isAbsoluteSize()) font = [NSFont labelFontOfSize:[NSFont labelFontSize]]; break; case CSSValueWebkitMiniControl: cachedDesc = &miniControlFont; if (!miniControlFont.isAbsoluteSize()) font = [NSFont systemFontOfSize:[NSFont systemFontSizeForControlSize:NSMiniControlSize]]; break; case CSSValueWebkitSmallControl: cachedDesc = &smallControlFont; if (!smallControlFont.isAbsoluteSize()) font = [NSFont systemFontOfSize:[NSFont systemFontSizeForControlSize:NSSmallControlSize]]; break; case CSSValueWebkitControl: cachedDesc = &controlFont; if (!controlFont.isAbsoluteSize()) font = [NSFont systemFontOfSize:[NSFont systemFontSizeForControlSize:NSRegularControlSize]]; break; default: cachedDesc = &systemFont; if (!systemFont.isAbsoluteSize()) font = [NSFont systemFontOfSize:[NSFont systemFontSize]]; } if (font) { NSFontManager *fontManager = [NSFontManager sharedFontManager]; cachedDesc->setIsAbsoluteSize(true); cachedDesc->setGenericFamily(FontDescription::NoFamily); cachedDesc->firstFamily().setFamily([font familyName]); cachedDesc->setSpecifiedSize([font pointSize]); cachedDesc->setWeight(toFontWeight([fontManager weightOfFont:font])); cachedDesc->setItalic([fontManager traitsOfFont:font] & NSItalicFontMask); } fontDescription = *cachedDesc; } static RGBA32 convertNSColorToColor(NSColor *color) { NSColor *colorInColorSpace = [color colorUsingColorSpaceName:NSDeviceRGBColorSpace]; if (colorInColorSpace) { static const double scaleFactor = nextafter(256.0, 0.0); return makeRGB(static_cast<int>(scaleFactor * [colorInColorSpace redComponent]), static_cast<int>(scaleFactor * [colorInColorSpace greenComponent]), static_cast<int>(scaleFactor * [colorInColorSpace blueComponent])); } // This conversion above can fail if the NSColor in question is an NSPatternColor // (as many system colors are). These colors are actually a repeating pattern // not just a solid color. To work around this we simply draw a 1x1 image of // the color and use that pixel's color. It might be better to use an average of // the colors in the pattern instead. NSBitmapImageRep *offscreenRep = [[NSBitmapImageRep alloc] initWithBitmapDataPlanes:nil pixelsWide:1 pixelsHigh:1 bitsPerSample:8 samplesPerPixel:4 hasAlpha:YES isPlanar:NO colorSpaceName:NSDeviceRGBColorSpace bytesPerRow:4 bitsPerPixel:32]; [NSGraphicsContext saveGraphicsState]; [NSGraphicsContext setCurrentContext:[NSGraphicsContext graphicsContextWithBitmapImageRep:offscreenRep]]; NSEraseRect(NSMakeRect(0, 0, 1, 1)); [color drawSwatchInRect:NSMakeRect(0, 0, 1, 1)]; [NSGraphicsContext restoreGraphicsState]; NSUInteger pixel[4]; [offscreenRep getPixel:pixel atX:0 y:0]; [offscreenRep release]; return makeRGB(pixel[0], pixel[1], pixel[2]); } static RGBA32 menuBackgroundColor() { NSBitmapImageRep *offscreenRep = [[NSBitmapImageRep alloc] initWithBitmapDataPlanes:nil pixelsWide:1 pixelsHigh:1 bitsPerSample:8 samplesPerPixel:4 hasAlpha:YES isPlanar:NO colorSpaceName:NSDeviceRGBColorSpace bytesPerRow:4 bitsPerPixel:32]; CGContextRef context = static_cast<CGContextRef>([[NSGraphicsContext graphicsContextWithBitmapImageRep:offscreenRep] graphicsPort]); CGRect rect = CGRectMake(0, 0, 1, 1); HIThemeMenuDrawInfo drawInfo; drawInfo.version = 0; drawInfo.menuType = kThemeMenuTypePopUp; HIThemeDrawMenuBackground(&rect, &drawInfo, context, kHIThemeOrientationInverted); NSUInteger pixel[4]; [offscreenRep getPixel:pixel atX:0 y:0]; [offscreenRep release]; return makeRGB(pixel[0], pixel[1], pixel[2]); } void RenderThemeMac::platformColorsDidChange() { m_systemColorCache.clear(); RenderTheme::platformColorsDidChange(); } Color RenderThemeMac::systemColor(int cssValueId) const { if (m_systemColorCache.contains(cssValueId)) return m_systemColorCache.get(cssValueId); Color color; switch (cssValueId) { case CSSValueActiveborder: color = convertNSColorToColor([NSColor keyboardFocusIndicatorColor]); break; case CSSValueActivecaption: color = convertNSColorToColor([NSColor windowFrameTextColor]); break; case CSSValueAppworkspace: color = convertNSColorToColor([NSColor headerColor]); break; case CSSValueBackground: // Use theme independent default break; case CSSValueButtonface: // We use this value instead of NSColor's controlColor to avoid website incompatibilities. // We may want to change this to use the NSColor in future. color = 0xFFC0C0C0; break; case CSSValueButtonhighlight: color = convertNSColorToColor([NSColor controlHighlightColor]); break; case CSSValueButtonshadow: color = convertNSColorToColor([NSColor controlShadowColor]); break; case CSSValueButtontext: color = convertNSColorToColor([NSColor controlTextColor]); break; case CSSValueCaptiontext: color = convertNSColorToColor([NSColor textColor]); break; case CSSValueGraytext: color = convertNSColorToColor([NSColor disabledControlTextColor]); break; case CSSValueHighlight: color = convertNSColorToColor([NSColor selectedTextBackgroundColor]); break; case CSSValueHighlighttext: color = convertNSColorToColor([NSColor selectedTextColor]); break; case CSSValueInactiveborder: color = convertNSColorToColor([NSColor controlBackgroundColor]); break; case CSSValueInactivecaption: color = convertNSColorToColor([NSColor controlBackgroundColor]); break; case CSSValueInactivecaptiontext: color = convertNSColorToColor([NSColor textColor]); break; case CSSValueInfobackground: // There is no corresponding NSColor for this so we use a hard coded value. color = 0xFFFBFCC5; break; case CSSValueInfotext: color = convertNSColorToColor([NSColor textColor]); break; case CSSValueMenu: color = menuBackgroundColor(); break; case CSSValueMenutext: color = convertNSColorToColor([NSColor selectedMenuItemTextColor]); break; case CSSValueScrollbar: color = convertNSColorToColor([NSColor scrollBarColor]); break; case CSSValueText: color = convertNSColorToColor([NSColor textColor]); break; case CSSValueThreeddarkshadow: color = convertNSColorToColor([NSColor controlDarkShadowColor]); break; case CSSValueThreedshadow: color = convertNSColorToColor([NSColor shadowColor]); break; case CSSValueThreedface: // We use this value instead of NSColor's controlColor to avoid website incompatibilities. // We may want to change this to use the NSColor in future. color = 0xFFC0C0C0; break; case CSSValueThreedhighlight: color = convertNSColorToColor([NSColor highlightColor]); break; case CSSValueThreedlightshadow: color = convertNSColorToColor([NSColor controlLightHighlightColor]); break; case CSSValueWebkitFocusRingColor: color = convertNSColorToColor([NSColor keyboardFocusIndicatorColor]); break; case CSSValueWindow: color = convertNSColorToColor([NSColor windowBackgroundColor]); break; case CSSValueWindowframe: color = convertNSColorToColor([NSColor windowFrameColor]); break; case CSSValueWindowtext: color = convertNSColorToColor([NSColor windowFrameTextColor]); break; } if (!color.isValid()) color = RenderTheme::systemColor(cssValueId); if (color.isValid()) m_systemColorCache.set(cssValueId, color.rgb()); return color; } bool RenderThemeMac::usesTestModeFocusRingColor() const { return WebCore::usesTestModeFocusRingColor(); } NSView* RenderThemeMac::documentViewFor(RenderObject* o) const { #if PLATFORM(MAC) return ThemeMac::ensuredView(o->view()->frameView()); #else ASSERT_NOT_REACHED(); return 0; #endif } bool RenderThemeMac::isControlStyled(const RenderStyle* style, const BorderData& border, const FillLayer& background, const Color& backgroundColor) const { if (style->appearance() == TextFieldPart || style->appearance() == TextAreaPart || style->appearance() == ListboxPart) return style->border() != border; // FIXME: This is horrible, but there is not much else that can be done. Menu lists cannot draw properly when // scaled. They can't really draw properly when transformed either. We can't detect the transform case at style // adjustment time so that will just have to stay broken. We can however detect that we're zooming. If zooming // is in effect we treat it like the control is styled. if (style->appearance() == MenulistPart && style->effectiveZoom() != 1.0f) return true; return RenderTheme::isControlStyled(style, border, background, backgroundColor); } void RenderThemeMac::adjustRepaintRect(const RenderObject* o, IntRect& r) { ControlPart part = o->style()->appearance(); #if USE(NEW_THEME) switch (part) { case CheckboxPart: case RadioPart: case PushButtonPart: case SquareButtonPart: case ListButtonPart: case DefaultButtonPart: case ButtonPart: case OuterSpinButtonPart: return RenderTheme::adjustRepaintRect(o, r); default: break; } #endif float zoomLevel = o->style()->effectiveZoom(); if (part == MenulistPart) { setPopupButtonCellState(o, r); IntSize size = popupButtonSizes()[[popupButton() controlSize]]; size.setHeight(size.height() * zoomLevel); size.setWidth(r.width()); r = inflateRect(r, size, popupButtonMargins(), zoomLevel); } } IntRect RenderThemeMac::inflateRect(const IntRect& r, const IntSize& size, const int* margins, float zoomLevel) const { // Only do the inflation if the available width/height are too small. Otherwise try to // fit the glow/check space into the available box's width/height. int widthDelta = r.width() - (size.width() + margins[leftMargin] * zoomLevel + margins[rightMargin] * zoomLevel); int heightDelta = r.height() - (size.height() + margins[topMargin] * zoomLevel + margins[bottomMargin] * zoomLevel); IntRect result(r); if (widthDelta < 0) { result.setX(result.x() - margins[leftMargin] * zoomLevel); result.setWidth(result.width() - widthDelta); } if (heightDelta < 0) { result.setY(result.y() - margins[topMargin] * zoomLevel); result.setHeight(result.height() - heightDelta); } return result; } FloatRect RenderThemeMac::convertToPaintingRect(const RenderObject* inputRenderer, const RenderObject* partRenderer, const FloatRect& inputRect, const IntRect& r) const { FloatRect partRect(inputRect); // Compute an offset between the part renderer and the input renderer FloatSize offsetFromInputRenderer; const RenderObject* renderer = partRenderer; while (renderer && renderer != inputRenderer) { RenderObject* containingRenderer = renderer->container(); offsetFromInputRenderer -= renderer->offsetFromContainer(containingRenderer, IntPoint()); renderer = containingRenderer; } // If the input renderer was not a container, something went wrong ASSERT(renderer == inputRenderer); // Move the rect into partRenderer's coords partRect.move(offsetFromInputRenderer); // Account for the local drawing offset (tx, ty) partRect.move(r.x(), r.y()); return partRect; } void RenderThemeMac::updateCheckedState(NSCell* cell, const RenderObject* o) { bool oldIndeterminate = [cell state] == NSMixedState; bool indeterminate = isIndeterminate(o); bool checked = isChecked(o); if (oldIndeterminate != indeterminate) { [cell setState:indeterminate ? NSMixedState : (checked ? NSOnState : NSOffState)]; return; } bool oldChecked = [cell state] == NSOnState; if (checked != oldChecked) [cell setState:checked ? NSOnState : NSOffState]; } void RenderThemeMac::updateEnabledState(NSCell* cell, const RenderObject* o) { bool oldEnabled = [cell isEnabled]; bool enabled = isEnabled(o); if (enabled != oldEnabled) [cell setEnabled:enabled]; } void RenderThemeMac::updateFocusedState(NSCell* cell, const RenderObject* o) { bool oldFocused = [cell showsFirstResponder]; bool focused = isFocused(o) && o->style()->outlineStyleIsAuto(); if (focused != oldFocused) [cell setShowsFirstResponder:focused]; } void RenderThemeMac::updatePressedState(NSCell* cell, const RenderObject* o) { bool oldPressed = [cell isHighlighted]; bool pressed = (o->node() && o->node()->active()); if (pressed != oldPressed) [cell setHighlighted:pressed]; } bool RenderThemeMac::controlSupportsTints(const RenderObject* o) const { // An alternate way to implement this would be to get the appropriate cell object // and call the private _needRedrawOnWindowChangedKeyState method. An advantage of // that would be that we would match AppKit behavior more closely, but a disadvantage // would be that we would rely on an AppKit SPI method. if (!isEnabled(o)) return false; // Checkboxes only have tint when checked. if (o->style()->appearance() == CheckboxPart) return isChecked(o); // For now assume other controls have tint if enabled. return true; } NSControlSize RenderThemeMac::controlSizeForFont(RenderStyle* style) const { int fontSize = style->fontSize(); if (fontSize >= 16) return NSRegularControlSize; if (fontSize >= 11) return NSSmallControlSize; return NSMiniControlSize; } void RenderThemeMac::setControlSize(NSCell* cell, const IntSize* sizes, const IntSize& minSize, float zoomLevel) { NSControlSize size; if (minSize.width() >= static_cast<int>(sizes[NSRegularControlSize].width() * zoomLevel) && minSize.height() >= static_cast<int>(sizes[NSRegularControlSize].height() * zoomLevel)) size = NSRegularControlSize; else if (minSize.width() >= static_cast<int>(sizes[NSSmallControlSize].width() * zoomLevel) && minSize.height() >= static_cast<int>(sizes[NSSmallControlSize].height() * zoomLevel)) size = NSSmallControlSize; else size = NSMiniControlSize; if (size != [cell controlSize]) // Only update if we have to, since AppKit does work even if the size is the same. [cell setControlSize:size]; } IntSize RenderThemeMac::sizeForFont(RenderStyle* style, const IntSize* sizes) const { if (style->effectiveZoom() != 1.0f) { IntSize result = sizes[controlSizeForFont(style)]; return IntSize(result.width() * style->effectiveZoom(), result.height() * style->effectiveZoom()); } return sizes[controlSizeForFont(style)]; } IntSize RenderThemeMac::sizeForSystemFont(RenderStyle* style, const IntSize* sizes) const { if (style->effectiveZoom() != 1.0f) { IntSize result = sizes[controlSizeForSystemFont(style)]; return IntSize(result.width() * style->effectiveZoom(), result.height() * style->effectiveZoom()); } return sizes[controlSizeForSystemFont(style)]; } void RenderThemeMac::setSizeFromFont(RenderStyle* style, const IntSize* sizes) const { // FIXME: Check is flawed, since it doesn't take min-width/max-width into account. IntSize size = sizeForFont(style, sizes); if (style->width().isIntrinsicOrAuto() && size.width() > 0) style->setWidth(Length(size.width(), Fixed)); if (style->height().isAuto() && size.height() > 0) style->setHeight(Length(size.height(), Fixed)); } void RenderThemeMac::setFontFromControlSize(CSSStyleSelector*, RenderStyle* style, NSControlSize controlSize) const { FontDescription fontDescription; fontDescription.setIsAbsoluteSize(true); fontDescription.setGenericFamily(FontDescription::SerifFamily); NSFont* font = [NSFont systemFontOfSize:[NSFont systemFontSizeForControlSize:controlSize]]; fontDescription.firstFamily().setFamily([font familyName]); fontDescription.setComputedSize([font pointSize] * style->effectiveZoom()); fontDescription.setSpecifiedSize([font pointSize] * style->effectiveZoom()); // Reset line height style->setLineHeight(RenderStyle::initialLineHeight()); if (style->setFontDescription(fontDescription)) style->font().update(0); } NSControlSize RenderThemeMac::controlSizeForSystemFont(RenderStyle* style) const { int fontSize = style->fontSize(); if (fontSize >= [NSFont systemFontSizeForControlSize:NSRegularControlSize]) return NSRegularControlSize; if (fontSize >= [NSFont systemFontSizeForControlSize:NSSmallControlSize]) return NSSmallControlSize; return NSMiniControlSize; } bool RenderThemeMac::paintTextField(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawBezeledTextFieldCell(r, isEnabled(o) && !isReadOnlyControl(o)); return false; } void RenderThemeMac::adjustTextFieldStyle(CSSStyleSelector*, RenderStyle*, Element*) const { } bool RenderThemeMac::paintCapsLockIndicator(RenderObject*, const PaintInfo& paintInfo, const IntRect& r) { if (paintInfo.context->paintingDisabled()) return true; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawCapsLockIndicator(paintInfo.context->platformContext(), r); return false; } bool RenderThemeMac::paintTextArea(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawBezeledTextArea(r, isEnabled(o) && !isReadOnlyControl(o)); return false; } void RenderThemeMac::adjustTextAreaStyle(CSSStyleSelector*, RenderStyle*, Element*) const { } const int* RenderThemeMac::popupButtonMargins() const { static const int margins[3][4] = { { 0, 3, 1, 3 }, { 0, 3, 2, 3 }, { 0, 1, 0, 1 } }; return margins[[popupButton() controlSize]]; } const IntSize* RenderThemeMac::popupButtonSizes() const { static const IntSize sizes[3] = { IntSize(0, 21), IntSize(0, 18), IntSize(0, 15) }; return sizes; } const int* RenderThemeMac::popupButtonPadding(NSControlSize size) const { static const int padding[3][4] = { { 2, 26, 3, 8 }, { 2, 23, 3, 8 }, { 2, 22, 3, 10 } }; return padding[size]; } bool RenderThemeMac::paintMenuList(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { LocalCurrentGraphicsContext localContext(paintInfo.context); setPopupButtonCellState(o, r); NSPopUpButtonCell* popupButton = this->popupButton(); float zoomLevel = o->style()->effectiveZoom(); IntSize size = popupButtonSizes()[[popupButton controlSize]]; size.setHeight(size.height() * zoomLevel); size.setWidth(r.width()); // Now inflate it to account for the shadow. IntRect inflatedRect = r; if (r.width() >= minimumMenuListSize(o->style())) inflatedRect = inflateRect(inflatedRect, size, popupButtonMargins(), zoomLevel); paintInfo.context->save(); #ifndef BUILDING_ON_TIGER // On Leopard, the cell will draw outside of the given rect, so we have to clip to the rect paintInfo.context->clip(inflatedRect); #endif if (zoomLevel != 1.0f) { inflatedRect.setWidth(inflatedRect.width() / zoomLevel); inflatedRect.setHeight(inflatedRect.height() / zoomLevel); paintInfo.context->translate(inflatedRect.x(), inflatedRect.y()); paintInfo.context->scale(FloatSize(zoomLevel, zoomLevel)); paintInfo.context->translate(-inflatedRect.x(), -inflatedRect.y()); } [popupButton drawWithFrame:inflatedRect inView:documentViewFor(o)]; [popupButton setControlView:nil]; paintInfo.context->restore(); return false; } #if ENABLE(METER_TAG) IntSize RenderThemeMac::meterSizeForBounds(const RenderMeter* renderMeter, const IntRect& bounds) const { if (NoControlPart == renderMeter->style()->appearance()) return bounds.size(); NSLevelIndicatorCell* cell = levelIndicatorFor(renderMeter); // Makes enough room for cell's intrinsic size. NSSize cellSize = [cell cellSizeForBounds:IntRect(IntPoint(), bounds.size())]; return IntSize(bounds.width() < cellSize.width ? cellSize.width : bounds.width(), bounds.height() < cellSize.height ? cellSize.height : bounds.height()); } bool RenderThemeMac::paintMeter(RenderObject* renderObject, const PaintInfo& paintInfo, const IntRect& rect) { if (!renderObject->isMeter()) return true; LocalCurrentGraphicsContext localContext(paintInfo.context); NSLevelIndicatorCell* cell = levelIndicatorFor(toRenderMeter(renderObject)); paintInfo.context->save(); [cell drawWithFrame:rect inView:documentViewFor(renderObject)]; [cell setControlView:nil]; paintInfo.context->restore(); return false; } bool RenderThemeMac::supportsMeter(ControlPart part) const { switch (part) { case RelevancyLevelIndicatorPart: case DiscreteCapacityLevelIndicatorPart: case RatingLevelIndicatorPart: case MeterPart: case ContinuousCapacityLevelIndicatorPart: return true; default: return false; } } NSLevelIndicatorStyle RenderThemeMac::levelIndicatorStyleFor(ControlPart part) const { switch (part) { case RelevancyLevelIndicatorPart: return NSRelevancyLevelIndicatorStyle; case DiscreteCapacityLevelIndicatorPart: return NSDiscreteCapacityLevelIndicatorStyle; case RatingLevelIndicatorPart: return NSRatingLevelIndicatorStyle; case MeterPart: case ContinuousCapacityLevelIndicatorPart: default: return NSContinuousCapacityLevelIndicatorStyle; } } NSLevelIndicatorCell* RenderThemeMac::levelIndicatorFor(const RenderMeter* renderMeter) const { RenderStyle* style = renderMeter->style(); ASSERT(style->appearance() != NoControlPart); if (!m_levelIndicator) m_levelIndicator.adoptNS([[NSLevelIndicatorCell alloc] initWithLevelIndicatorStyle:NSContinuousCapacityLevelIndicatorStyle]); NSLevelIndicatorCell* cell = m_levelIndicator.get(); HTMLMeterElement* element = static_cast<HTMLMeterElement*>(renderMeter->node()); double value = element->value(); // Because NSLevelIndicatorCell does not support optimum-in-the-middle type coloring, // we explicitly control the color instead giving low and high value to NSLevelIndicatorCell as is. switch (element->gaugeRegion()) { case HTMLMeterElement::GaugeRegionOptimum: // Make meter the green [cell setWarningValue:value + 1]; [cell setCriticalValue:value + 2]; break; case HTMLMeterElement::GaugeRegionSuboptimal: // Make the meter yellow [cell setWarningValue:value - 1]; [cell setCriticalValue:value + 1]; break; case HTMLMeterElement::GaugeRegionEvenLessGood: // Make the meter red [cell setWarningValue:value - 2]; [cell setCriticalValue:value - 1]; break; } [cell setLevelIndicatorStyle:levelIndicatorStyleFor(style->appearance())]; [cell setBaseWritingDirection:style->isLeftToRightDirection() ? NSWritingDirectionLeftToRight : NSWritingDirectionRightToLeft]; [cell setMinValue:element->min()]; [cell setMaxValue:element->max()]; RetainPtr<NSNumber> valueObject = [NSNumber numberWithDouble:value]; [cell setObjectValue:valueObject.get()]; return cell; } #endif #if ENABLE(PROGRESS_TAG) double RenderThemeMac::animationRepeatIntervalForProgressBar(RenderProgress*) const { return progressAnimationFrameRate; } double RenderThemeMac::animationDurationForProgressBar(RenderProgress*) const { return progressAnimationNumFrames * progressAnimationFrameRate; } void RenderThemeMac::adjustProgressBarStyle(CSSStyleSelector*, RenderStyle*, Element*) const { } bool RenderThemeMac::paintProgressBar(RenderObject* renderObject, const PaintInfo& paintInfo, const IntRect& rect) { if (!renderObject->isProgress()) return true; RenderProgress* renderProgress = toRenderProgress(renderObject); HIThemeTrackDrawInfo trackInfo; trackInfo.version = 0; trackInfo.kind = renderProgress->position() < 0 ? kThemeLargeIndeterminateBar : kThemeLargeProgressBar; trackInfo.bounds = IntRect(IntPoint(), rect.size()); trackInfo.min = 0; trackInfo.max = numeric_limits<SInt32>::max(); trackInfo.value = lround(renderProgress->position() * nextafter(trackInfo.max, 0)); trackInfo.trackInfo.progress.phase = lround(renderProgress->animationProgress() * nextafter(progressAnimationNumFrames, 0)); trackInfo.attributes = kThemeTrackHorizontal; trackInfo.enableState = isActive(renderObject) ? kThemeTrackActive : kThemeTrackInactive; trackInfo.reserved = 0; trackInfo.filler1 = 0; OwnPtr<ImageBuffer> imageBuffer = ImageBuffer::create(rect.size()); if (!imageBuffer) return true; HIThemeDrawTrack(&trackInfo, 0, imageBuffer->context()->platformContext(), kHIThemeOrientationNormal); paintInfo.context->save(); if (!renderProgress->style()->isLeftToRightDirection()) { paintInfo.context->translate(2 * rect.x() + rect.width(), 0); paintInfo.context->scale(FloatSize(-1, 1)); } paintInfo.context->drawImageBuffer(imageBuffer.get(), ColorSpaceDeviceRGB, rect.location()); paintInfo.context->restore(); return false; } #endif const float baseFontSize = 11.0f; const float baseArrowHeight = 4.0f; const float baseArrowWidth = 5.0f; const float baseSpaceBetweenArrows = 2.0f; const int arrowPaddingLeft = 6; const int arrowPaddingRight = 6; const int paddingBeforeSeparator = 4; const int baseBorderRadius = 5; const int styledPopupPaddingLeft = 8; const int styledPopupPaddingTop = 1; const int styledPopupPaddingBottom = 2; static void TopGradientInterpolate(void*, const CGFloat* inData, CGFloat* outData) { static float dark[4] = { 1.0f, 1.0f, 1.0f, 0.4f }; static float light[4] = { 1.0f, 1.0f, 1.0f, 0.15f }; float a = inData[0]; int i = 0; for (i = 0; i < 4; i++) outData[i] = (1.0f - a) * dark[i] + a * light[i]; } static void BottomGradientInterpolate(void*, const CGFloat* inData, CGFloat* outData) { static float dark[4] = { 1.0f, 1.0f, 1.0f, 0.0f }; static float light[4] = { 1.0f, 1.0f, 1.0f, 0.3f }; float a = inData[0]; int i = 0; for (i = 0; i < 4; i++) outData[i] = (1.0f - a) * dark[i] + a * light[i]; } static void MainGradientInterpolate(void*, const CGFloat* inData, CGFloat* outData) { static float dark[4] = { 0.0f, 0.0f, 0.0f, 0.15f }; static float light[4] = { 0.0f, 0.0f, 0.0f, 0.0f }; float a = inData[0]; int i = 0; for (i = 0; i < 4; i++) outData[i] = (1.0f - a) * dark[i] + a * light[i]; } static void TrackGradientInterpolate(void*, const CGFloat* inData, CGFloat* outData) { static float dark[4] = { 0.0f, 0.0f, 0.0f, 0.678f }; static float light[4] = { 0.0f, 0.0f, 0.0f, 0.13f }; float a = inData[0]; int i = 0; for (i = 0; i < 4; i++) outData[i] = (1.0f - a) * dark[i] + a * light[i]; } void RenderThemeMac::paintMenuListButtonGradients(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { if (r.isEmpty()) return; CGContextRef context = paintInfo.context->platformContext(); paintInfo.context->save(); RoundedIntRect border = o->style()->getRoundedBorderFor(r); int radius = border.radii().topLeft().width(); CGColorSpaceRef cspace = deviceRGBColorSpaceRef(); FloatRect topGradient(r.x(), r.y(), r.width(), r.height() / 2.0f); struct CGFunctionCallbacks topCallbacks = { 0, TopGradientInterpolate, NULL }; RetainPtr<CGFunctionRef> topFunction(AdoptCF, CGFunctionCreate(NULL, 1, NULL, 4, NULL, &topCallbacks)); RetainPtr<CGShadingRef> topShading(AdoptCF, CGShadingCreateAxial(cspace, CGPointMake(topGradient.x(), topGradient.y()), CGPointMake(topGradient.x(), topGradient.maxY()), topFunction.get(), false, false)); FloatRect bottomGradient(r.x() + radius, r.y() + r.height() / 2.0f, r.width() - 2.0f * radius, r.height() / 2.0f); struct CGFunctionCallbacks bottomCallbacks = { 0, BottomGradientInterpolate, NULL }; RetainPtr<CGFunctionRef> bottomFunction(AdoptCF, CGFunctionCreate(NULL, 1, NULL, 4, NULL, &bottomCallbacks)); RetainPtr<CGShadingRef> bottomShading(AdoptCF, CGShadingCreateAxial(cspace, CGPointMake(bottomGradient.x(), bottomGradient.y()), CGPointMake(bottomGradient.x(), bottomGradient.maxY()), bottomFunction.get(), false, false)); struct CGFunctionCallbacks mainCallbacks = { 0, MainGradientInterpolate, NULL }; RetainPtr<CGFunctionRef> mainFunction(AdoptCF, CGFunctionCreate(NULL, 1, NULL, 4, NULL, &mainCallbacks)); RetainPtr<CGShadingRef> mainShading(AdoptCF, CGShadingCreateAxial(cspace, CGPointMake(r.x(), r.y()), CGPointMake(r.x(), r.maxY()), mainFunction.get(), false, false)); RetainPtr<CGShadingRef> leftShading(AdoptCF, CGShadingCreateAxial(cspace, CGPointMake(r.x(), r.y()), CGPointMake(r.x() + radius, r.y()), mainFunction.get(), false, false)); RetainPtr<CGShadingRef> rightShading(AdoptCF, CGShadingCreateAxial(cspace, CGPointMake(r.maxX(), r.y()), CGPointMake(r.maxX() - radius, r.y()), mainFunction.get(), false, false)); paintInfo.context->save(); CGContextClipToRect(context, r); paintInfo.context->addRoundedRectClip(border); CGContextDrawShading(context, mainShading.get()); paintInfo.context->restore(); paintInfo.context->save(); CGContextClipToRect(context, topGradient); paintInfo.context->addRoundedRectClip(RoundedIntRect(enclosingIntRect(topGradient), border.radii().topLeft(), border.radii().topRight(), IntSize(), IntSize())); CGContextDrawShading(context, topShading.get()); paintInfo.context->restore(); if (!bottomGradient.isEmpty()) { paintInfo.context->save(); CGContextClipToRect(context, bottomGradient); paintInfo.context->addRoundedRectClip(RoundedIntRect(enclosingIntRect(bottomGradient), IntSize(), IntSize(), border.radii().bottomLeft(), border.radii().bottomRight())); CGContextDrawShading(context, bottomShading.get()); paintInfo.context->restore(); } paintInfo.context->save(); CGContextClipToRect(context, r); paintInfo.context->addRoundedRectClip(border); CGContextDrawShading(context, leftShading.get()); CGContextDrawShading(context, rightShading.get()); paintInfo.context->restore(); paintInfo.context->restore(); } bool RenderThemeMac::paintMenuListButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { IntRect bounds = IntRect(r.x() + o->style()->borderLeftWidth(), r.y() + o->style()->borderTopWidth(), r.width() - o->style()->borderLeftWidth() - o->style()->borderRightWidth(), r.height() - o->style()->borderTopWidth() - o->style()->borderBottomWidth()); // Draw the gradients to give the styled popup menu a button appearance paintMenuListButtonGradients(o, paintInfo, bounds); // Since we actually know the size of the control here, we restrict the font scale to make sure the arrows will fit vertically in the bounds float fontScale = min(o->style()->fontSize() / baseFontSize, bounds.height() / (baseArrowHeight * 2 + baseSpaceBetweenArrows)); float centerY = bounds.y() + bounds.height() / 2.0f; float arrowHeight = baseArrowHeight * fontScale; float arrowWidth = baseArrowWidth * fontScale; float leftEdge = bounds.maxX() - arrowPaddingRight * o->style()->effectiveZoom() - arrowWidth; float spaceBetweenArrows = baseSpaceBetweenArrows * fontScale; if (bounds.width() < arrowWidth + arrowPaddingLeft * o->style()->effectiveZoom()) return false; paintInfo.context->save(); paintInfo.context->setFillColor(o->style()->visitedDependentColor(CSSPropertyColor), o->style()->colorSpace()); paintInfo.context->setStrokeStyle(NoStroke); FloatPoint arrow1[3]; arrow1[0] = FloatPoint(leftEdge, centerY - spaceBetweenArrows / 2.0f); arrow1[1] = FloatPoint(leftEdge + arrowWidth, centerY - spaceBetweenArrows / 2.0f); arrow1[2] = FloatPoint(leftEdge + arrowWidth / 2.0f, centerY - spaceBetweenArrows / 2.0f - arrowHeight); // Draw the top arrow paintInfo.context->drawConvexPolygon(3, arrow1, true); FloatPoint arrow2[3]; arrow2[0] = FloatPoint(leftEdge, centerY + spaceBetweenArrows / 2.0f); arrow2[1] = FloatPoint(leftEdge + arrowWidth, centerY + spaceBetweenArrows / 2.0f); arrow2[2] = FloatPoint(leftEdge + arrowWidth / 2.0f, centerY + spaceBetweenArrows / 2.0f + arrowHeight); // Draw the bottom arrow paintInfo.context->drawConvexPolygon(3, arrow2, true); Color leftSeparatorColor(0, 0, 0, 40); Color rightSeparatorColor(255, 255, 255, 40); // FIXME: Should the separator thickness and space be scaled up by fontScale? int separatorSpace = 2; // Deliberately ignores zoom since it looks nicer if it stays thin. int leftEdgeOfSeparator = static_cast<int>(leftEdge - arrowPaddingLeft * o->style()->effectiveZoom()); // FIXME: Round? // Draw the separator to the left of the arrows paintInfo.context->setStrokeThickness(1.0f); // Deliberately ignores zoom since it looks nicer if it stays thin. paintInfo.context->setStrokeStyle(SolidStroke); paintInfo.context->setStrokeColor(leftSeparatorColor, ColorSpaceDeviceRGB); paintInfo.context->drawLine(IntPoint(leftEdgeOfSeparator, bounds.y()), IntPoint(leftEdgeOfSeparator, bounds.maxY())); paintInfo.context->setStrokeColor(rightSeparatorColor, ColorSpaceDeviceRGB); paintInfo.context->drawLine(IntPoint(leftEdgeOfSeparator + separatorSpace, bounds.y()), IntPoint(leftEdgeOfSeparator + separatorSpace, bounds.maxY())); paintInfo.context->restore(); return false; } static const IntSize* menuListButtonSizes() { static const IntSize sizes[3] = { IntSize(0, 21), IntSize(0, 18), IntSize(0, 15) }; return sizes; } void RenderThemeMac::adjustMenuListStyle(CSSStyleSelector* selector, RenderStyle* style, Element* e) const { NSControlSize controlSize = controlSizeForFont(style); style->resetBorder(); style->resetPadding(); // Height is locked to auto. style->setHeight(Length(Auto)); // White-space is locked to pre style->setWhiteSpace(PRE); // Set the foreground color to black or gray when we have the aqua look. // Cast to RGB32 is to work around a compiler bug. style->setColor(e && e->isEnabledFormControl() ? static_cast<RGBA32>(Color::black) : Color::darkGray); // Set the button's vertical size. setSizeFromFont(style, menuListButtonSizes()); // Our font is locked to the appropriate system font size for the control. To clarify, we first use the CSS-specified font to figure out // a reasonable control size, but once that control size is determined, we throw that font away and use the appropriate // system font for the control size instead. setFontFromControlSize(selector, style, controlSize); style->setBoxShadow(0); } int RenderThemeMac::popupInternalPaddingLeft(RenderStyle* style) const { if (style->appearance() == MenulistPart) return popupButtonPadding(controlSizeForFont(style))[leftPadding] * style->effectiveZoom(); if (style->appearance() == MenulistButtonPart) return styledPopupPaddingLeft * style->effectiveZoom(); return 0; } int RenderThemeMac::popupInternalPaddingRight(RenderStyle* style) const { if (style->appearance() == MenulistPart) return popupButtonPadding(controlSizeForFont(style))[rightPadding] * style->effectiveZoom(); if (style->appearance() == MenulistButtonPart) { float fontScale = style->fontSize() / baseFontSize; float arrowWidth = baseArrowWidth * fontScale; return static_cast<int>(ceilf(arrowWidth + (arrowPaddingLeft + arrowPaddingRight + paddingBeforeSeparator) * style->effectiveZoom())); } return 0; } int RenderThemeMac::popupInternalPaddingTop(RenderStyle* style) const { if (style->appearance() == MenulistPart) return popupButtonPadding(controlSizeForFont(style))[topPadding] * style->effectiveZoom(); if (style->appearance() == MenulistButtonPart) return styledPopupPaddingTop * style->effectiveZoom(); return 0; } int RenderThemeMac::popupInternalPaddingBottom(RenderStyle* style) const { if (style->appearance() == MenulistPart) return popupButtonPadding(controlSizeForFont(style))[bottomPadding] * style->effectiveZoom(); if (style->appearance() == MenulistButtonPart) return styledPopupPaddingBottom * style->effectiveZoom(); return 0; } void RenderThemeMac::adjustMenuListButtonStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { float fontScale = style->fontSize() / baseFontSize; style->resetPadding(); style->setBorderRadius(IntSize(int(baseBorderRadius + fontScale - 1), int(baseBorderRadius + fontScale - 1))); // FIXME: Round up? const int minHeight = 15; style->setMinHeight(Length(minHeight, Fixed)); style->setLineHeight(RenderStyle::initialLineHeight()); } void RenderThemeMac::setPopupButtonCellState(const RenderObject* o, const IntRect& r) { NSPopUpButtonCell* popupButton = this->popupButton(); // Set the control size based off the rectangle we're painting into. setControlSize(popupButton, popupButtonSizes(), r.size(), o->style()->effectiveZoom()); // Update the various states we respond to. updateActiveState(popupButton, o); updateCheckedState(popupButton, o); updateEnabledState(popupButton, o); updatePressedState(popupButton, o); updateFocusedState(popupButton, o); } const IntSize* RenderThemeMac::menuListSizes() const { static const IntSize sizes[3] = { IntSize(9, 0), IntSize(5, 0), IntSize(0, 0) }; return sizes; } int RenderThemeMac::minimumMenuListSize(RenderStyle* style) const { return sizeForSystemFont(style, menuListSizes()).width(); } const int trackWidth = 5; const int trackRadius = 2; void RenderThemeMac::adjustSliderTrackStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { style->setBoxShadow(0); } bool RenderThemeMac::paintSliderTrack(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { IntRect bounds = r; float zoomLevel = o->style()->effectiveZoom(); float zoomedTrackWidth = trackWidth * zoomLevel; if (o->style()->appearance() == SliderHorizontalPart || o->style()->appearance() == MediaSliderPart) { bounds.setHeight(zoomedTrackWidth); bounds.setY(r.y() + r.height() / 2 - zoomedTrackWidth / 2); } else if (o->style()->appearance() == SliderVerticalPart) { bounds.setWidth(zoomedTrackWidth); bounds.setX(r.x() + r.width() / 2 - zoomedTrackWidth / 2); } LocalCurrentGraphicsContext localContext(paintInfo.context); CGContextRef context = paintInfo.context->platformContext(); CGColorSpaceRef cspace = deviceRGBColorSpaceRef(); paintInfo.context->save(); CGContextClipToRect(context, bounds); struct CGFunctionCallbacks mainCallbacks = { 0, TrackGradientInterpolate, NULL }; RetainPtr<CGFunctionRef> mainFunction(AdoptCF, CGFunctionCreate(NULL, 1, NULL, 4, NULL, &mainCallbacks)); RetainPtr<CGShadingRef> mainShading; if (o->style()->appearance() == SliderVerticalPart) mainShading.adoptCF(CGShadingCreateAxial(cspace, CGPointMake(bounds.x(), bounds.maxY()), CGPointMake(bounds.maxX(), bounds.maxY()), mainFunction.get(), false, false)); else mainShading.adoptCF(CGShadingCreateAxial(cspace, CGPointMake(bounds.x(), bounds.y()), CGPointMake(bounds.x(), bounds.maxY()), mainFunction.get(), false, false)); IntSize radius(trackRadius, trackRadius); paintInfo.context->addRoundedRectClip(RoundedIntRect(bounds, radius, radius, radius, radius)); CGContextDrawShading(context, mainShading.get()); paintInfo.context->restore(); return false; } void RenderThemeMac::adjustSliderThumbStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { style->setBoxShadow(0); } const float verticalSliderHeightPadding = 0.1f; bool RenderThemeMac::paintSliderThumb(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { ASSERT(o->parent()->isSlider()); NSSliderCell* sliderThumbCell = o->style()->appearance() == SliderThumbVerticalPart ? sliderThumbVertical() : sliderThumbHorizontal(); LocalCurrentGraphicsContext localContext(paintInfo.context); // Update the various states we respond to. updateActiveState(sliderThumbCell, o->parent()); updateEnabledState(sliderThumbCell, o->parent()); updateFocusedState(sliderThumbCell, o->parent()); // Update the pressed state using the NSCell tracking methods, since that's how NSSliderCell keeps track of it. bool oldPressed; if (o->style()->appearance() == SliderThumbVerticalPart) oldPressed = m_isSliderThumbVerticalPressed; else oldPressed = m_isSliderThumbHorizontalPressed; bool pressed = toRenderSlider(o->parent())->inDragMode(); if (o->style()->appearance() == SliderThumbVerticalPart) m_isSliderThumbVerticalPressed = pressed; else m_isSliderThumbHorizontalPressed = pressed; if (pressed != oldPressed) { if (pressed) [sliderThumbCell startTrackingAt:NSPoint() inView:nil]; else [sliderThumbCell stopTracking:NSPoint() at:NSPoint() inView:nil mouseIsUp:YES]; } FloatRect bounds = r; // Make the height of the vertical slider slightly larger so NSSliderCell will draw a vertical slider. if (o->style()->appearance() == SliderThumbVerticalPart) bounds.setHeight(bounds.height() + verticalSliderHeightPadding * o->style()->effectiveZoom()); paintInfo.context->save(); float zoomLevel = o->style()->effectiveZoom(); FloatRect unzoomedRect = bounds; if (zoomLevel != 1.0f) { unzoomedRect.setWidth(unzoomedRect.width() / zoomLevel); unzoomedRect.setHeight(unzoomedRect.height() / zoomLevel); paintInfo.context->translate(unzoomedRect.x(), unzoomedRect.y()); paintInfo.context->scale(FloatSize(zoomLevel, zoomLevel)); paintInfo.context->translate(-unzoomedRect.x(), -unzoomedRect.y()); } [sliderThumbCell drawWithFrame:unzoomedRect inView:documentViewFor(o)]; [sliderThumbCell setControlView:nil]; paintInfo.context->restore(); return false; } bool RenderThemeMac::paintSearchField(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { LocalCurrentGraphicsContext localContext(paintInfo.context); NSSearchFieldCell* search = this->search(); setSearchCellState(o, r); paintInfo.context->save(); float zoomLevel = o->style()->effectiveZoom(); IntRect unzoomedRect = r; if (zoomLevel != 1.0f) { unzoomedRect.setWidth(unzoomedRect.width() / zoomLevel); unzoomedRect.setHeight(unzoomedRect.height() / zoomLevel); paintInfo.context->translate(unzoomedRect.x(), unzoomedRect.y()); paintInfo.context->scale(FloatSize(zoomLevel, zoomLevel)); paintInfo.context->translate(-unzoomedRect.x(), -unzoomedRect.y()); } // Set the search button to nil before drawing. Then reset it so we can draw it later. [search setSearchButtonCell:nil]; [search drawWithFrame:NSRect(unzoomedRect) inView:documentViewFor(o)]; #ifdef BUILDING_ON_TIGER if ([search showsFirstResponder]) wkDrawTextFieldCellFocusRing(search, NSRect(unzoomedRect)); #endif [search setControlView:nil]; [search resetSearchButtonCell]; paintInfo.context->restore(); return false; } void RenderThemeMac::setSearchCellState(RenderObject* o, const IntRect&) { NSSearchFieldCell* search = this->search(); [search setControlSize:controlSizeForFont(o->style())]; // Update the various states we respond to. updateActiveState(search, o); updateEnabledState(search, o); updateFocusedState(search, o); } const IntSize* RenderThemeMac::searchFieldSizes() const { static const IntSize sizes[3] = { IntSize(0, 22), IntSize(0, 19), IntSize(0, 17) }; return sizes; } void RenderThemeMac::setSearchFieldSize(RenderStyle* style) const { // If the width and height are both specified, then we have nothing to do. if (!style->width().isIntrinsicOrAuto() && !style->height().isAuto()) return; // Use the font size to determine the intrinsic width of the control. setSizeFromFont(style, searchFieldSizes()); } void RenderThemeMac::adjustSearchFieldStyle(CSSStyleSelector* selector, RenderStyle* style, Element*) const { // Override border. style->resetBorder(); const short borderWidth = 2 * style->effectiveZoom(); style->setBorderLeftWidth(borderWidth); style->setBorderLeftStyle(INSET); style->setBorderRightWidth(borderWidth); style->setBorderRightStyle(INSET); style->setBorderBottomWidth(borderWidth); style->setBorderBottomStyle(INSET); style->setBorderTopWidth(borderWidth); style->setBorderTopStyle(INSET); // Override height. style->setHeight(Length(Auto)); setSearchFieldSize(style); // Override padding size to match AppKit text positioning. const int padding = 1 * style->effectiveZoom(); style->setPaddingLeft(Length(padding, Fixed)); style->setPaddingRight(Length(padding, Fixed)); style->setPaddingTop(Length(padding, Fixed)); style->setPaddingBottom(Length(padding, Fixed)); NSControlSize controlSize = controlSizeForFont(style); setFontFromControlSize(selector, style, controlSize); style->setBoxShadow(0); } bool RenderThemeMac::paintSearchFieldCancelButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* input = o->node()->shadowAncestorNode(); if (!input->renderer()->isBox()) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); setSearchCellState(input->renderer(), r); NSSearchFieldCell* search = this->search(); updateActiveState([search cancelButtonCell], o); updatePressedState([search cancelButtonCell], o); paintInfo.context->save(); float zoomLevel = o->style()->effectiveZoom(); FloatRect localBounds = [search cancelButtonRectForBounds:NSRect(input->renderBox()->borderBoxRect())]; #if ENABLE(INPUT_SPEECH) // Take care of cases where the cancel button was not aligned with the right border of the input element (for e.g. // when speech input is enabled for the input element. IntRect absBoundingBox = input->renderer()->absoluteBoundingBoxRect(); int absRight = absBoundingBox.x() + absBoundingBox.width() - input->renderBox()->paddingRight() - input->renderBox()->borderRight(); int spaceToRightOfCancelButton = absRight - (r.x() + r.width()); localBounds.setX(localBounds.x() - spaceToRightOfCancelButton); #endif localBounds = convertToPaintingRect(input->renderer(), o, localBounds, r); FloatRect unzoomedRect(localBounds); if (zoomLevel != 1.0f) { unzoomedRect.setWidth(unzoomedRect.width() / zoomLevel); unzoomedRect.setHeight(unzoomedRect.height() / zoomLevel); paintInfo.context->translate(unzoomedRect.x(), unzoomedRect.y()); paintInfo.context->scale(FloatSize(zoomLevel, zoomLevel)); paintInfo.context->translate(-unzoomedRect.x(), -unzoomedRect.y()); } [[search cancelButtonCell] drawWithFrame:unzoomedRect inView:documentViewFor(o)]; [[search cancelButtonCell] setControlView:nil]; paintInfo.context->restore(); return false; } const IntSize* RenderThemeMac::cancelButtonSizes() const { static const IntSize sizes[3] = { IntSize(16, 13), IntSize(13, 11), IntSize(13, 9) }; return sizes; } void RenderThemeMac::adjustSearchFieldCancelButtonStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { IntSize size = sizeForSystemFont(style, cancelButtonSizes()); style->setWidth(Length(size.width(), Fixed)); style->setHeight(Length(size.height(), Fixed)); style->setBoxShadow(0); } const IntSize* RenderThemeMac::resultsButtonSizes() const { static const IntSize sizes[3] = { IntSize(19, 13), IntSize(17, 11), IntSize(17, 9) }; return sizes; } const int emptyResultsOffset = 9; void RenderThemeMac::adjustSearchFieldDecorationStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { IntSize size = sizeForSystemFont(style, resultsButtonSizes()); style->setWidth(Length(size.width() - emptyResultsOffset, Fixed)); style->setHeight(Length(size.height(), Fixed)); style->setBoxShadow(0); } bool RenderThemeMac::paintSearchFieldDecoration(RenderObject*, const PaintInfo&, const IntRect&) { return false; } void RenderThemeMac::adjustSearchFieldResultsDecorationStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { IntSize size = sizeForSystemFont(style, resultsButtonSizes()); style->setWidth(Length(size.width(), Fixed)); style->setHeight(Length(size.height(), Fixed)); style->setBoxShadow(0); } bool RenderThemeMac::paintSearchFieldResultsDecoration(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* input = o->node()->shadowAncestorNode(); if (!input->renderer()->isBox()) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); setSearchCellState(input->renderer(), r); NSSearchFieldCell* search = this->search(); if ([search searchMenuTemplate] != nil) [search setSearchMenuTemplate:nil]; updateActiveState([search searchButtonCell], o); FloatRect localBounds = [search searchButtonRectForBounds:NSRect(input->renderBox()->borderBoxRect())]; localBounds = convertToPaintingRect(input->renderer(), o, localBounds, r); [[search searchButtonCell] drawWithFrame:localBounds inView:documentViewFor(o)]; [[search searchButtonCell] setControlView:nil]; return false; } const int resultsArrowWidth = 5; void RenderThemeMac::adjustSearchFieldResultsButtonStyle(CSSStyleSelector*, RenderStyle* style, Element*) const { IntSize size = sizeForSystemFont(style, resultsButtonSizes()); style->setWidth(Length(size.width() + resultsArrowWidth, Fixed)); style->setHeight(Length(size.height(), Fixed)); style->setBoxShadow(0); } bool RenderThemeMac::paintSearchFieldResultsButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* input = o->node()->shadowAncestorNode(); if (!input->renderer()->isBox()) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); setSearchCellState(input->renderer(), r); NSSearchFieldCell* search = this->search(); updateActiveState([search searchButtonCell], o); if (![search searchMenuTemplate]) [search setSearchMenuTemplate:searchMenuTemplate()]; paintInfo.context->save(); float zoomLevel = o->style()->effectiveZoom(); FloatRect localBounds = [search searchButtonRectForBounds:NSRect(input->renderBox()->borderBoxRect())]; localBounds = convertToPaintingRect(input->renderer(), o, localBounds, r); IntRect unzoomedRect(localBounds); if (zoomLevel != 1.0f) { unzoomedRect.setWidth(unzoomedRect.width() / zoomLevel); unzoomedRect.setHeight(unzoomedRect.height() / zoomLevel); paintInfo.context->translate(unzoomedRect.x(), unzoomedRect.y()); paintInfo.context->scale(FloatSize(zoomLevel, zoomLevel)); paintInfo.context->translate(-unzoomedRect.x(), -unzoomedRect.y()); } [[search searchButtonCell] drawWithFrame:unzoomedRect inView:documentViewFor(o)]; [[search searchButtonCell] setControlView:nil]; paintInfo.context->restore(); return false; } #if ENABLE(VIDEO) typedef enum { MediaControllerThemeClassic = 1, MediaControllerThemeQuickTime = 2 } MediaControllerThemeStyle; static int mediaControllerTheme() { static int controllerTheme = -1; if (controllerTheme != -1) return controllerTheme; controllerTheme = MediaControllerThemeClassic; Boolean validKey; Boolean useQTMediaUIPref = CFPreferencesGetAppBooleanValue(CFSTR("UseQuickTimeMediaUI"), CFSTR("com.apple.WebCore"), &validKey); #if !defined(BUILDING_ON_TIGER) if (validKey && !useQTMediaUIPref) return controllerTheme; #else if (!validKey || !useQTMediaUIPref) return controllerTheme; #endif controllerTheme = MediaControllerThemeQuickTime; return controllerTheme; } #endif const int sliderThumbWidth = 15; const int sliderThumbHeight = 15; const int mediaSliderThumbWidth = 13; const int mediaSliderThumbHeight = 14; void RenderThemeMac::adjustSliderThumbSize(RenderObject* o) const { float zoomLevel = o->style()->effectiveZoom(); if (o->style()->appearance() == SliderThumbHorizontalPart || o->style()->appearance() == SliderThumbVerticalPart) { o->style()->setWidth(Length(static_cast<int>(sliderThumbWidth * zoomLevel), Fixed)); o->style()->setHeight(Length(static_cast<int>(sliderThumbHeight * zoomLevel), Fixed)); } #if ENABLE(VIDEO) adjustMediaSliderThumbSize(o); #endif } #if ENABLE(VIDEO) void RenderThemeMac::adjustMediaSliderThumbSize(RenderObject* o) const { ControlPart part = o->style()->appearance(); if (part == MediaSliderThumbPart || part == MediaVolumeSliderThumbPart) { int width = mediaSliderThumbWidth; int height = mediaSliderThumbHeight; if (mediaControllerTheme() == MediaControllerThemeQuickTime) { CGSize size; wkMeasureMediaUIPart(part == MediaSliderThumbPart ? MediaSliderThumb : MediaVolumeSliderThumb, MediaControllerThemeQuickTime, NULL, &size); width = size.width; height = size.height; } float zoomLevel = o->style()->effectiveZoom(); o->style()->setWidth(Length(static_cast<int>(width * zoomLevel), Fixed)); o->style()->setHeight(Length(static_cast<int>(height * zoomLevel), Fixed)); } } enum WKMediaControllerThemeState { MediaUIPartDisabledFlag = 1 << 0, MediaUIPartPressedFlag = 1 << 1, MediaUIPartDrawEndCapsFlag = 1 << 3, }; static unsigned getMediaUIPartStateFlags(Node* node) { unsigned flags = 0; if (node->disabled()) flags |= MediaUIPartDisabledFlag; else if (node->active()) flags |= MediaUIPartPressedFlag; return flags; } // Utility to scale when the UI part are not scaled by wkDrawMediaUIPart static FloatRect getUnzoomedRectAndAdjustCurrentContext(RenderObject* o, const PaintInfo& paintInfo, const IntRect &originalRect) { float zoomLevel = o->style()->effectiveZoom(); FloatRect unzoomedRect(originalRect); if (zoomLevel != 1.0f && mediaControllerTheme() == MediaControllerThemeQuickTime) { unzoomedRect.setWidth(unzoomedRect.width() / zoomLevel); unzoomedRect.setHeight(unzoomedRect.height() / zoomLevel); paintInfo.context->translate(unzoomedRect.x(), unzoomedRect.y()); paintInfo.context->scale(FloatSize(zoomLevel, zoomLevel)); paintInfo.context->translate(-unzoomedRect.x(), -unzoomedRect.y()); } return unzoomedRect; } bool RenderThemeMac::paintMediaFullscreenButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaFullscreenButton, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaMuteButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); Node* mediaNode = node ? node->shadowAncestorNode() : 0; if (!mediaNode || (!mediaNode->hasTagName(videoTag) && !mediaNode->hasTagName(audioTag))) return false; if (MediaControlMuteButtonElement* btn = static_cast<MediaControlMuteButtonElement*>(node)) { LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(btn->displayType(), mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); } return false; } bool RenderThemeMac::paintMediaPlayButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); Node* mediaNode = node ? node->shadowAncestorNode() : 0; if (!mediaNode || (!mediaNode->hasTagName(videoTag) && !mediaNode->hasTagName(audioTag))) return false; if (MediaControlPlayButtonElement* btn = static_cast<MediaControlPlayButtonElement*>(node)) { LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(btn->displayType(), mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); } return false; } bool RenderThemeMac::paintMediaSeekBackButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaSeekBackButton, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaSeekForwardButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaSeekForwardButton, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaSliderTrack(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); Node* mediaNode = node ? node->shadowAncestorNode() : 0; if (!mediaNode || (!mediaNode->hasTagName(videoTag) && !mediaNode->hasTagName(audioTag))) return false; HTMLMediaElement* mediaElement = static_cast<HTMLMediaElement*>(mediaNode); if (!mediaElement) return false; RefPtr<TimeRanges> timeRanges = mediaElement->buffered(); ExceptionCode ignoredException; float timeLoaded = timeRanges->length() ? timeRanges->end(0, ignoredException) : 0; float currentTime = mediaElement->currentTime(); float duration = mediaElement->duration(); if (isnan(duration)) duration = 0; paintInfo.context->save(); FloatRect unzoomedRect = getUnzoomedRectAndAdjustCurrentContext(o, paintInfo, r); wkDrawMediaSliderTrack(mediaControllerTheme(), paintInfo.context->platformContext(), unzoomedRect, timeLoaded, currentTime, duration, getMediaUIPartStateFlags(node)); paintInfo.context->restore(); return false; } bool RenderThemeMac::paintMediaSliderThumb(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaSliderThumb, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaRewindButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaRewindButton, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaReturnToRealtimeButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaReturnToRealtimeButton, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaToggleClosedCaptionsButton(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { HTMLInputElement* node = static_cast<HTMLInputElement*>(o->node()); if (!node) return false; MediaControlToggleClosedCaptionsButtonElement* btn = static_cast<MediaControlToggleClosedCaptionsButtonElement*>(node); if (!btn) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(btn->displayType(), mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaControlsBackground(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaTimelineContainer, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaCurrentTime(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; paintInfo.context->save(); FloatRect unzoomedRect = getUnzoomedRectAndAdjustCurrentContext(o, paintInfo, r); wkDrawMediaUIPart(MediaCurrentTimeDisplay, mediaControllerTheme(), paintInfo.context->platformContext(), unzoomedRect, getMediaUIPartStateFlags(node)); paintInfo.context->restore(); return false; } bool RenderThemeMac::paintMediaTimeRemaining(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; paintInfo.context->save(); FloatRect unzoomedRect = getUnzoomedRectAndAdjustCurrentContext(o, paintInfo, r); wkDrawMediaUIPart(MediaTimeRemainingDisplay, mediaControllerTheme(), paintInfo.context->platformContext(), unzoomedRect, getMediaUIPartStateFlags(node)); paintInfo.context->restore(); return false; } bool RenderThemeMac::paintMediaVolumeSliderContainer(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaVolumeSliderContainer, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaVolumeSliderTrack(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaVolumeSlider, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } bool RenderThemeMac::paintMediaVolumeSliderThumb(RenderObject* o, const PaintInfo& paintInfo, const IntRect& r) { Node* node = o->node(); if (!node) return false; LocalCurrentGraphicsContext localContext(paintInfo.context); wkDrawMediaUIPart(MediaVolumeSliderThumb, mediaControllerTheme(), paintInfo.context->platformContext(), r, getMediaUIPartStateFlags(node)); return false; } String RenderThemeMac::extraMediaControlsStyleSheet() { #if PLATFORM(MAC) if (mediaControllerTheme() == MediaControllerThemeQuickTime) return String(mediaControlsQuickTimeUserAgentStyleSheet, sizeof(mediaControlsQuickTimeUserAgentStyleSheet)); return String(); #else ASSERT_NOT_REACHED(); return String(); #endif } #if ENABLE(FULLSCREEN_API) String RenderThemeMac::extraFullScreenStyleSheet() { #if PLATFORM(MAC) if (mediaControllerTheme() == MediaControllerThemeQuickTime) return String(fullscreenQuickTimeUserAgentStyleSheet, sizeof(fullscreenQuickTimeUserAgentStyleSheet)); return String(); #else ASSERT_NOT_REACHED(); return String(); #endif } #endif bool RenderThemeMac::hasOwnDisabledStateHandlingFor(ControlPart part) const { if (part == MediaMuteButtonPart) return false; return mediaControllerTheme() == MediaControllerThemeClassic; } bool RenderThemeMac::usesMediaControlStatusDisplay() { return mediaControllerTheme() == MediaControllerThemeQuickTime; } bool RenderThemeMac::usesMediaControlVolumeSlider() const { return mediaControllerTheme() == MediaControllerThemeQuickTime; } IntPoint RenderThemeMac::volumeSliderOffsetFromMuteButton(RenderBox* muteButtonBox, const IntSize& size) const { return RenderMediaControls::volumeSliderOffsetFromMuteButton(muteButtonBox, size); } bool RenderThemeMac::shouldShowPlaceholderWhenFocused() const { #if !defined(BUILDING_ON_TIGER) && !defined(BUILDING_ON_LEOPARD) && !defined(BUILDING_ON_SNOW_LEOPARD) return true; #else return false; #endif } #endif // ENABLE(VIDEO) NSPopUpButtonCell* RenderThemeMac::popupButton() const { if (!m_popupButton) { m_popupButton.adoptNS([[NSPopUpButtonCell alloc] initTextCell:@"" pullsDown:NO]); [m_popupButton.get() setUsesItemFromMenu:NO]; [m_popupButton.get() setFocusRingType:NSFocusRingTypeExterior]; } return m_popupButton.get(); } NSSearchFieldCell* RenderThemeMac::search() const { if (!m_search) { m_search.adoptNS([[NSSearchFieldCell alloc] initTextCell:@""]); [m_search.get() setBezelStyle:NSTextFieldRoundedBezel]; [m_search.get() setBezeled:YES]; [m_search.get() setEditable:YES]; [m_search.get() setFocusRingType:NSFocusRingTypeExterior]; } return m_search.get(); } NSMenu* RenderThemeMac::searchMenuTemplate() const { if (!m_searchMenuTemplate) m_searchMenuTemplate.adoptNS([[NSMenu alloc] initWithTitle:@""]); return m_searchMenuTemplate.get(); } NSSliderCell* RenderThemeMac::sliderThumbHorizontal() const { if (!m_sliderThumbHorizontal) { m_sliderThumbHorizontal.adoptNS([[NSSliderCell alloc] init]); [m_sliderThumbHorizontal.get() setTitle:nil]; [m_sliderThumbHorizontal.get() setSliderType:NSLinearSlider]; [m_sliderThumbHorizontal.get() setControlSize:NSSmallControlSize]; [m_sliderThumbHorizontal.get() setFocusRingType:NSFocusRingTypeExterior]; } return m_sliderThumbHorizontal.get(); } NSSliderCell* RenderThemeMac::sliderThumbVertical() const { if (!m_sliderThumbVertical) { m_sliderThumbVertical.adoptNS([[NSSliderCell alloc] init]); [m_sliderThumbVertical.get() setTitle:nil]; [m_sliderThumbVertical.get() setSliderType:NSLinearSlider]; [m_sliderThumbVertical.get() setControlSize:NSSmallControlSize]; [m_sliderThumbVertical.get() setFocusRingType:NSFocusRingTypeExterior]; } return m_sliderThumbVertical.get(); } } // namespace WebCore