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/*
* Copyright (C) 2005-2017 Apple Inc. All rights reserved.
*
* 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 INC. AND ITS CONTRIBUTORS ``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 INC. OR ITS 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 "RenderThemeIOS.h"
#if PLATFORM(IOS_FAMILY)
#import "BitmapImage.h"
#import "CSSPrimitiveValue.h"
#import "CSSToLengthConversionData.h"
#import "CSSValueKey.h"
#import "CSSValueKeywords.h"
#import "ColorIOS.h"
#import "DateComponents.h"
#import "Document.h"
#import "File.h"
#import "FloatRoundedRect.h"
#import "FontCache.h"
#import "FontCascade.h"
#import "Frame.h"
#import "FrameSelection.h"
#import "FrameView.h"
#import "GeometryUtilities.h"
#import "Gradient.h"
#import "GraphicsContext.h"
#import "GraphicsContextCG.h"
#import "HTMLAttachmentElement.h"
#import "HTMLInputElement.h"
#import "HTMLNames.h"
#import "HTMLSelectElement.h"
#import "IOSurface.h"
#import "Icon.h"
#import "LocalCurrentTraitCollection.h"
#import "LocalizedDateCache.h"
#import "NodeRenderStyle.h"
#import "Page.h"
#import "PaintInfo.h"
#import "PathUtilities.h"
#import "PlatformLocale.h"
#import "RenderAttachment.h"
#import "RenderObject.h"
#import "RenderProgress.h"
#import "RenderStyle.h"
#import "RenderView.h"
#import "RuntimeEnabledFeatures.h"
#import "UTIUtilities.h"
#import "UserAgentScripts.h"
#import "UserAgentStyleSheets.h"
#import "WebCoreThreadRun.h"
#import <CoreGraphics/CoreGraphics.h>
#import <CoreImage/CoreImage.h>
#import <objc/runtime.h>
#import <pal/ios/UIKitSoftLink.h>
#import <pal/spi/cocoa/CoreTextSPI.h>
#import <pal/spi/ios/UIKitSPI.h>
#import <wtf/NeverDestroyed.h>
#import <wtf/ObjCRuntimeExtras.h>
#import <wtf/RefPtr.h>
#import <wtf/StdLibExtras.h>
@interface WebCoreRenderThemeBundle : NSObject
@end
@implementation WebCoreRenderThemeBundle
@end
namespace WebCore {
using namespace HTMLNames;
const float ControlBaseHeight = 20;
const float ControlBaseFontSize = 11;
struct IOSGradient {
float* start; // points to static float[4]
float* end; // points to static float[4]
IOSGradient(float start[4], float end[4])
: start(start)
, end(end)
{
}
};
typedef IOSGradient* IOSGradientRef;
enum Interpolation
{
LinearInterpolation,
ExponentialInterpolation
};
static void interpolateLinearGradient(void *info, const CGFloat *inData, CGFloat *outData)
{
IOSGradientRef gradient = static_cast<IOSGradientRef>(info);
float alpha = inData[0];
float inverse = 1.0f - alpha;
outData[0] = inverse * gradient->start[0] + alpha * gradient->end[0];
outData[1] = inverse * gradient->start[1] + alpha * gradient->end[1];
outData[2] = inverse * gradient->start[2] + alpha * gradient->end[2];
outData[3] = inverse * gradient->start[3] + alpha * gradient->end[3];
}
static void interpolateExponentialGradient(void *info, const CGFloat *inData, CGFloat *outData)
{
IOSGradientRef gradient = static_cast<IOSGradientRef>(info);
float a = inData[0];
for (int paintInfo = 0; paintInfo < 4; ++paintInfo) {
float end = logf(std::max(gradient->end[paintInfo], 0.01f));
float start = logf(std::max(gradient->start[paintInfo], 0.01f));
outData[paintInfo] = expf(start - (end + start) * a);
}
}
static CGFunctionRef getSharedFunctionRef(IOSGradientRef gradient, Interpolation interpolation)
{
CGFunctionRef function = nullptr;
static HashMap<IOSGradientRef, CGFunctionRef>* linearFunctionRefs;
static HashMap<IOSGradientRef, CGFunctionRef>* exponentialFunctionRefs;
if (interpolation == LinearInterpolation) {
if (!linearFunctionRefs)
linearFunctionRefs = new HashMap<IOSGradientRef, CGFunctionRef>;
else
function = linearFunctionRefs->get(gradient);
if (!function) {
static struct CGFunctionCallbacks linearFunctionCallbacks = { 0, interpolateLinearGradient, 0 };
linearFunctionRefs->set(gradient, function = CGFunctionCreate(gradient, 1, nullptr, 4, nullptr, &linearFunctionCallbacks));
}
return function;
}
if (!exponentialFunctionRefs)
exponentialFunctionRefs = new HashMap<IOSGradientRef, CGFunctionRef>;
else
function = exponentialFunctionRefs->get(gradient);
if (!function) {
static struct CGFunctionCallbacks exponentialFunctionCallbacks = { 0, interpolateExponentialGradient, 0 };
exponentialFunctionRefs->set(gradient, function = CGFunctionCreate(gradient, 1, 0, 4, 0, &exponentialFunctionCallbacks));
}
return function;
}
static void drawAxialGradient(CGContextRef context, IOSGradientRef gradient, const FloatPoint& startPoint, const FloatPoint& stopPoint, Interpolation interpolation)
{
RetainPtr<CGShadingRef> shading = adoptCF(CGShadingCreateAxial(sRGBColorSpaceRef(), startPoint, stopPoint, getSharedFunctionRef(gradient, interpolation), false, false));
CGContextDrawShading(context, shading.get());
}
static void drawRadialGradient(CGContextRef context, IOSGradientRef gradient, const FloatPoint& startPoint, float startRadius, const FloatPoint& stopPoint, float stopRadius, Interpolation interpolation)
{
RetainPtr<CGShadingRef> shading = adoptCF(CGShadingCreateRadial(sRGBColorSpaceRef(), startPoint, startRadius, stopPoint, stopRadius, getSharedFunctionRef(gradient, interpolation), false, false));
CGContextDrawShading(context, shading.get());
}
enum IOSGradientType {
InsetGradient,
ShineGradient,
ShadeGradient,
ConvexGradient,
ConcaveGradient,
SliderTrackGradient,
ReadonlySliderTrackGradient,
SliderThumbOpaquePressedGradient,
};
static IOSGradientRef getInsetGradient()
{
static float end[4] = { 0 / 255.0, 0 / 255.0, 0 / 255.0, 0 };
static float start[4] = { 0 / 255.0, 0 / 255.0, 0 / 255.0, 0.2 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getShineGradient()
{
static float end[4] = { 1, 1, 1, 0.8 };
static float start[4] = { 1, 1, 1, 0 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getShadeGradient()
{
static float end[4] = { 178 / 255.0, 178 / 255.0, 178 / 255.0, 0.65 };
static float start[4] = { 252 / 255.0, 252 / 255.0, 252 / 255.0, 0.65 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getConvexGradient()
{
static float end[4] = { 255 / 255.0, 255 / 255.0, 255 / 255.0, 0.05 };
static float start[4] = { 255 / 255.0, 255 / 255.0, 255 / 255.0, 0.43 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getConcaveGradient()
{
static float end[4] = { 255 / 255.0, 255 / 255.0, 255 / 255.0, 0.46 };
static float start[4] = { 255 / 255.0, 255 / 255.0, 255 / 255.0, 0 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getSliderTrackGradient()
{
static float end[4] = { 132 / 255.0, 132 / 255.0, 132 / 255.0, 1 };
static float start[4] = { 74 / 255.0, 77 / 255.0, 80 / 255.0, 1 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getReadonlySliderTrackGradient()
{
static float end[4] = { 132 / 255.0, 132 / 255.0, 132 / 255.0, 0.4 };
static float start[4] = { 74 / 255.0, 77 / 255.0, 80 /255.0, 0.4 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef getSliderThumbOpaquePressedGradient()
{
static float end[4] = { 144 / 255.0, 144 / 255.0, 144 / 255.0, 1};
static float start[4] = { 55 / 255.0, 55 / 255.0, 55 / 255.0, 1 };
static NeverDestroyed<IOSGradient> gradient(start, end);
return &gradient.get();
}
static IOSGradientRef gradientWithName(IOSGradientType gradientType)
{
switch (gradientType) {
case InsetGradient:
return getInsetGradient();
case ShineGradient:
return getShineGradient();
case ShadeGradient:
return getShadeGradient();
case ConvexGradient:
return getConvexGradient();
case ConcaveGradient:
return getConcaveGradient();
case SliderTrackGradient:
return getSliderTrackGradient();
case ReadonlySliderTrackGradient:
return getReadonlySliderTrackGradient();
case SliderThumbOpaquePressedGradient:
return getSliderThumbOpaquePressedGradient();
}
ASSERT_NOT_REACHED();
return nullptr;
}
static void contentSizeCategoryDidChange(CFNotificationCenterRef, void*, CFStringRef name, const void*, CFDictionaryRef)
{
ASSERT_UNUSED(name, CFEqual(name, PAL::get_UIKit_UIContentSizeCategoryDidChangeNotification()));
WebThreadRun(^{
Page::updateStyleForAllPagesAfterGlobalChangeInEnvironment();
});
}
RenderThemeIOS::RenderThemeIOS()
{
CFNotificationCenterAddObserver(CFNotificationCenterGetLocalCenter(), this, contentSizeCategoryDidChange, (__bridge CFStringRef)PAL::get_UIKit_UIContentSizeCategoryDidChangeNotification(), 0, CFNotificationSuspensionBehaviorDeliverImmediately);
}
RenderTheme& RenderTheme::singleton()
{
static NeverDestroyed<RenderThemeIOS> theme;
return theme;
}
static String& _contentSizeCategory()
{
static NeverDestroyed<String> _contentSizeCategory;
return _contentSizeCategory.get();
}
CFStringRef RenderThemeIOS::contentSizeCategory()
{
if (!_contentSizeCategory().isNull())
return (__bridge CFStringRef)static_cast<NSString*>(_contentSizeCategory());
return (CFStringRef)[[PAL::getUIApplicationClass() sharedApplication] preferredContentSizeCategory];
}
void RenderThemeIOS::setContentSizeCategory(const String& contentSizeCategory)
{
_contentSizeCategory() = contentSizeCategory;
}
const Color& RenderThemeIOS::shadowColor() const
{
static NeverDestroyed<Color> color(0.0f, 0.0f, 0.0f, 0.7f);
return color;
}
FloatRect RenderThemeIOS::addRoundedBorderClip(const RenderObject& box, GraphicsContext& context, const IntRect& rect)
{
// To fix inner border bleeding issues <rdar://problem/9812507>, we clip to the outer border and assert that
// the border is opaque or transparent, unless we're checked because checked radio/checkboxes show no bleeding.
auto& style = box.style();
RoundedRect border = isChecked(box) ? style.getRoundedInnerBorderFor(rect) : style.getRoundedBorderFor(rect);
if (border.isRounded())
context.clipRoundedRect(FloatRoundedRect(border));
else
context.clip(border.rect());
if (isChecked(box)) {
ASSERT(style.visitedDependentColor(CSSPropertyBorderTopColor).alpha() % 255 == 0);
ASSERT(style.visitedDependentColor(CSSPropertyBorderRightColor).alpha() % 255 == 0);
ASSERT(style.visitedDependentColor(CSSPropertyBorderBottomColor).alpha() % 255 == 0);
ASSERT(style.visitedDependentColor(CSSPropertyBorderLeftColor).alpha() % 255 == 0);
}
return border.rect();
}
void RenderThemeIOS::adjustCheckboxStyle(RenderStyle& style, const Element*) const
{
if (!style.width().isIntrinsicOrAuto() && !style.height().isAuto())
return;
int size = std::max(style.computedFontPixelSize(), 10U);
style.setWidth({ size, Fixed });
style.setHeight({ size, Fixed });
}
static CGPoint shortened(CGPoint start, CGPoint end, float width)
{
float x = end.x - start.x;
float y = end.y - start.y;
float ratio = (!x && !y) ? 0 : width / std::hypot(x, y);
return CGPointMake(start.x + x * ratio, start.y + y * ratio);
}
static void drawJoinedLines(CGContextRef context, const Vector<CGPoint>& points, CGLineCap lineCap, float lineWidth, Color strokeColor)
{
CGContextSetLineWidth(context, lineWidth);
CGContextSetStrokeColorWithColor(context, cachedCGColor(strokeColor));
CGContextSetShouldAntialias(context, true);
CGContextBeginPath(context);
CGContextSetLineCap(context, lineCap);
CGContextMoveToPoint(context, points[0].x, points[0].y);
for (unsigned i = 1; i < points.size(); ++i)
CGContextAddLineToPoint(context, points[i].x, points[i].y);
CGContextStrokePath(context);
}
bool RenderThemeIOS::paintCheckboxDecorations(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
bool checked = isChecked(box);
bool indeterminate = isIndeterminate(box);
CGContextRef cgContext = paintInfo.context().platformContext();
GraphicsContextStateSaver stateSaver { paintInfo.context() };
if (checked || indeterminate) {
auto border = box.style().getRoundedBorderFor(rect);
paintInfo.context().fillRoundedRect(border.pixelSnappedRoundedRectForPainting(box.document().deviceScaleFactor()), Color(0.0f, 0.0f, 0.0f, 0.8f));
auto clip = addRoundedBorderClip(box, paintInfo.context(), rect);
auto width = clip.width();
auto height = clip.height();
drawAxialGradient(cgContext, gradientWithName(ConcaveGradient), clip.location(), FloatPoint { clip.x(), clip.maxY() }, LinearInterpolation);
constexpr float thicknessRatio = 2 / 14.0;
float lineWidth = std::min(width, height) * 2.0f * thicknessRatio;
Vector<CGPoint, 3> line;
Vector<CGPoint, 3> shadow;
if (checked) {
constexpr CGSize size { 14.0f, 14.0f };
constexpr CGPoint pathRatios[] = {
{ 2.5f / size.width, 7.5f / size.height },
{ 5.5f / size.width, 10.5f / size.height },
{ 11.5f / size.width, 2.5f / size.height }
};
line.uncheckedAppend(CGPointMake(clip.x() + width * pathRatios[0].x, clip.y() + height * pathRatios[0].y));
line.uncheckedAppend(CGPointMake(clip.x() + width * pathRatios[1].x, clip.y() + height * pathRatios[1].y));
line.uncheckedAppend(CGPointMake(clip.x() + width * pathRatios[2].x, clip.y() + height * pathRatios[2].y));
shadow.uncheckedAppend(shortened(line[0], line[1], lineWidth / 4.0f));
shadow.uncheckedAppend(line[1]);
shadow.uncheckedAppend(shortened(line[2], line[1], lineWidth / 4.0f));
} else {
line.uncheckedAppend(CGPointMake(clip.x() + 3.5, clip.center().y()));
line.uncheckedAppend(CGPointMake(clip.maxX() - 3.5, clip.center().y()));
shadow.uncheckedAppend(shortened(line[0], line[1], lineWidth / 4.0f));
shadow.uncheckedAppend(shortened(line[1], line[0], lineWidth / 4.0f));
}
lineWidth = std::max<float>(lineWidth, 1);
drawJoinedLines(cgContext, Vector<CGPoint> { WTFMove(shadow) }, kCGLineCapSquare, lineWidth, Color { 0.0f, 0.0f, 0.0f, 0.7f });
lineWidth = std::max<float>(std::min(width, height) * thicknessRatio, 1);
drawJoinedLines(cgContext, Vector<CGPoint> { WTFMove(line) }, kCGLineCapButt, lineWidth, Color { 1.0f, 1.0f, 1.0f, 240 / 255.0f });
} else {
auto clip = addRoundedBorderClip(box, paintInfo.context(), rect);
auto width = clip.width();
auto height = clip.height();
FloatPoint bottomCenter { clip.x() + width / 2.0f, clip.maxY() };
drawAxialGradient(cgContext, gradientWithName(ShadeGradient), clip.location(), FloatPoint { clip.x(), clip.maxY() }, LinearInterpolation);
drawRadialGradient(cgContext, gradientWithName(ShineGradient), bottomCenter, 0, bottomCenter, sqrtf((width * width) / 4.0f + height * height), ExponentialInterpolation);
}
return false;
}
int RenderThemeIOS::baselinePosition(const RenderBox& box) const
{
if (box.style().appearance() == CheckboxPart || box.style().appearance() == RadioPart)
return box.marginTop() + box.height() - 2; // The baseline is 2px up from the bottom of the checkbox/radio in AppKit.
if (box.style().appearance() == MenulistPart)
return box.marginTop() + box.height() - 5; // This is to match AppKit. There might be a better way to calculate this though.
return RenderTheme::baselinePosition(box);
}
bool RenderThemeIOS::isControlStyled(const RenderStyle& style, const RenderStyle& userAgentStyle) const
{
// Buttons and MenulistButtons are styled if they contain a background image.
if (style.appearance() == PushButtonPart || style.appearance() == MenulistButtonPart)
return !style.visitedDependentColor(CSSPropertyBackgroundColor).isVisible() || style.backgroundLayers().hasImage();
if (style.appearance() == TextFieldPart || style.appearance() == TextAreaPart)
return style.backgroundLayers() != userAgentStyle.backgroundLayers();
return RenderTheme::isControlStyled(style, userAgentStyle);
}
void RenderThemeIOS::adjustRadioStyle(RenderStyle& style, const Element*) const
{
if (!style.width().isIntrinsicOrAuto() && !style.height().isAuto())
return;
int size = std::max(style.computedFontPixelSize(), 10U);
style.setWidth({ size, Fixed });
style.setHeight({ size, Fixed });
style.setBorderRadius({ size / 2, size / 2 });
}
bool RenderThemeIOS::paintRadioDecorations(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
CGContextRef cgContext = paintInfo.context().platformContext();
auto drawShadeAndShineGradients = [&](auto clip) {
FloatPoint bottomCenter(clip.x() + clip.width() / 2.0, clip.maxY());
drawAxialGradient(cgContext, gradientWithName(ShadeGradient), clip.location(), FloatPoint(clip.x(), clip.maxY()), LinearInterpolation);
drawRadialGradient(cgContext, gradientWithName(ShineGradient), bottomCenter, 0, bottomCenter, std::max(clip.width(), clip.height()), ExponentialInterpolation);
};
if (isChecked(box)) {
auto border = box.style().getRoundedBorderFor(rect);
paintInfo.context().fillRoundedRect(border.pixelSnappedRoundedRectForPainting(box.document().deviceScaleFactor()), Color(0.0f, 0.0f, 0.0f, 0.8f));
auto clip = addRoundedBorderClip(box, paintInfo.context(), rect);
drawAxialGradient(cgContext, gradientWithName(ConcaveGradient), clip.location(), FloatPoint(clip.x(), clip.maxY()), LinearInterpolation);
// The inner circle is 6 / 14 the size of the surrounding circle,
// leaving 8 / 14 around it. (8 / 14) / 2 = 2 / 7.
static const float InnerInverseRatio = 2 / 7.0;
clip.inflateX(-clip.width() * InnerInverseRatio);
clip.inflateY(-clip.height() * InnerInverseRatio);
paintInfo.context().drawRaisedEllipse(clip, Color::white, shadowColor());
FloatSize radius(clip.width() / 2.0f, clip.height() / 2.0f);
paintInfo.context().clipRoundedRect(FloatRoundedRect(clip, radius, radius, radius, radius));
drawShadeAndShineGradients(clip);
} else {
auto clip = addRoundedBorderClip(box, paintInfo.context(), rect);
drawShadeAndShineGradients(clip);
}
return false;
}
bool RenderThemeIOS::paintTextFieldDecorations(const RenderObject& box, const PaintInfo& paintInfo, const FloatRect& rect)
{
auto& style = box.style();
FloatPoint point(rect.x() + style.borderLeftWidth(), rect.y() + style.borderTopWidth());
GraphicsContextStateSaver stateSaver(paintInfo.context());
paintInfo.context().clipRoundedRect(style.getRoundedBorderFor(LayoutRect(rect)).pixelSnappedRoundedRectForPainting(box.document().deviceScaleFactor()));
// This gradient gets drawn black when printing.
// Do not draw the gradient if there is no visible top border.
bool topBorderIsInvisible = !style.hasBorder() || !style.borderTopWidth() || style.borderTopIsTransparent();
if (!box.view().printing() && !topBorderIsInvisible)
drawAxialGradient(paintInfo.context().platformContext(), gradientWithName(InsetGradient), point, FloatPoint(CGPointMake(point.x(), point.y() + 3.0f)), LinearInterpolation);
return false;
}
bool RenderThemeIOS::paintTextAreaDecorations(const RenderObject& box, const PaintInfo& paintInfo, const FloatRect& rect)
{
return paintTextFieldDecorations(box, paintInfo, rect);
}
const int MenuListMinHeight = 15;
const float MenuListBaseHeight = 20;
const float MenuListBaseFontSize = 11;
const float MenuListArrowWidth = 7;
const float MenuListArrowHeight = 6;
const float MenuListButtonPaddingAfter = 19;
LengthBox RenderThemeIOS::popupInternalPaddingBox(const RenderStyle& style) const
{
if (style.appearance() == MenulistButtonPart) {
if (style.direction() == TextDirection::RTL)
return { 0, 0, 0, static_cast<int>(MenuListButtonPaddingAfter + style.borderTopWidth()) };
return { 0, static_cast<int>(MenuListButtonPaddingAfter + style.borderTopWidth()), 0, 0 };
}
return { 0, 0, 0, 0 };
}
void RenderThemeIOS::adjustRoundBorderRadius(RenderStyle& style, RenderBox& box)
{
if (style.appearance() == NoControlPart || style.backgroundLayers().hasImage())
return;
// FIXME: We should not be relying on border radius for the appearance of our controls <rdar://problem/7675493>.
style.setBorderRadius({ { std::min(box.width(), box.height()) / 2, Fixed }, { box.height() / 2, Fixed } });
}
static void applyCommonButtonPaddingToStyle(RenderStyle& style, const Element& element)
{
Document& document = element.document();
auto emSize = CSSPrimitiveValue::create(0.5, CSSUnitType::CSS_EMS);
int pixels = emSize->computeLength<int>(CSSToLengthConversionData(&style, document.renderStyle(), document.renderView(), document.frame()->pageZoomFactor()));
style.setPaddingBox(LengthBox(0, pixels, 0, pixels));
}
static void adjustSelectListButtonStyle(RenderStyle& style, const Element& element)
{
// Enforce "padding: 0 0.5em".
applyCommonButtonPaddingToStyle(style, element);
// Enforce "line-height: normal".
style.setLineHeight(Length(-100.0, Percent));
}
class RenderThemeMeasureTextClient : public MeasureTextClient {
public:
RenderThemeMeasureTextClient(const FontCascade& font, const RenderStyle& style)
: m_font(font)
, m_style(style)
{
}
float measureText(const String& string) const override
{
TextRun run = RenderBlock::constructTextRun(string, m_style);
return m_font.width(run);
}
private:
const FontCascade& m_font;
const RenderStyle& m_style;
};
static void adjustInputElementButtonStyle(RenderStyle& style, const HTMLInputElement& inputElement)
{
// Always Enforce "padding: 0 0.5em".
applyCommonButtonPaddingToStyle(style, inputElement);
// Don't adjust the style if the width is specified.
if (style.width().isFixed() && style.width().value() > 0)
return;
// Don't adjust for unsupported date input types.
DateComponents::Type dateType = inputElement.dateType();
if (dateType == DateComponents::Invalid || dateType == DateComponents::Week)
return;
// Enforce the width and set the box-sizing to content-box to not conflict with the padding.
FontCascade font = style.fontCascade();
float maximumWidth = localizedDateCache().maximumWidthForDateType(dateType, font, RenderThemeMeasureTextClient(font, style));
ASSERT(maximumWidth >= 0);
if (maximumWidth > 0) {
int width = static_cast<int>(maximumWidth + MenuListButtonPaddingAfter);
style.setWidth(Length(width, Fixed));
style.setBoxSizing(BoxSizing::ContentBox);
}
}
void RenderThemeIOS::adjustMenuListButtonStyle(RenderStyle& style, const Element* element) const
{
// Set the min-height to be at least MenuListMinHeight.
if (style.height().isAuto())
style.setMinHeight(Length(std::max(MenuListMinHeight, static_cast<int>(MenuListBaseHeight / MenuListBaseFontSize * style.fontDescription().computedSize())), Fixed));
else
style.setMinHeight(Length(MenuListMinHeight, Fixed));
if (!element)
return;
// Enforce some default styles in the case that this is a non-multiple <select> element,
// or a date input. We don't force these if this is just an element with
// "-webkit-appearance: menulist-button".
if (is<HTMLSelectElement>(*element) && !element->hasAttributeWithoutSynchronization(HTMLNames::multipleAttr))
adjustSelectListButtonStyle(style, *element);
else if (is<HTMLInputElement>(*element))
adjustInputElementButtonStyle(style, downcast<HTMLInputElement>(*element));
}
bool RenderThemeIOS::paintMenuListButtonDecorations(const RenderBox& box, const PaintInfo& paintInfo, const FloatRect& rect)
{
auto& style = box.style();
bool isRTL = style.direction() == TextDirection::RTL;
float borderTopWidth = style.borderTopWidth();
FloatRect clip(rect.x() + style.borderLeftWidth(), rect.y() + style.borderTopWidth(), rect.width() - style.borderLeftWidth() - style.borderRightWidth(), rect.height() - style.borderTopWidth() - style.borderBottomWidth());
CGContextRef cgContext = paintInfo.context().platformContext();
float adjustLeft = 0.5;
float adjustRight = 0.5;
float adjustTop = 0.5;
float adjustBottom = 0.5;
// Paint title portion.
{
float leftInset = isRTL ? MenuListButtonPaddingAfter : 0;
FloatRect titleClip(clip.x() + leftInset - adjustLeft, clip.y() - adjustTop, clip.width() - MenuListButtonPaddingAfter + adjustLeft, clip.height() + adjustTop + adjustBottom);
GraphicsContextStateSaver stateSaver(paintInfo.context());
FloatSize topLeftRadius;
FloatSize topRightRadius;
FloatSize bottomLeftRadius;
FloatSize bottomRightRadius;
if (isRTL) {
topRightRadius = FloatSize(valueForLength(style.borderTopRightRadius().width, rect.width()) - style.borderRightWidth(), valueForLength(style.borderTopRightRadius().height, rect.height()) - style.borderTopWidth());
bottomRightRadius = FloatSize(valueForLength(style.borderBottomRightRadius().width, rect.width()) - style.borderRightWidth(), valueForLength(style.borderBottomRightRadius().height, rect.height()) - style.borderBottomWidth());
} else {
topLeftRadius = FloatSize(valueForLength(style.borderTopLeftRadius().width, rect.width()) - style.borderLeftWidth(), valueForLength(style.borderTopLeftRadius().height, rect.height()) - style.borderTopWidth());
bottomLeftRadius = FloatSize(valueForLength(style.borderBottomLeftRadius().width, rect.width()) - style.borderLeftWidth(), valueForLength(style.borderBottomLeftRadius().height, rect.height()) - style.borderBottomWidth());
}
paintInfo.context().clipRoundedRect(FloatRoundedRect(titleClip,
topLeftRadius, topRightRadius,
bottomLeftRadius, bottomRightRadius));
drawAxialGradient(cgContext, gradientWithName(ShadeGradient), titleClip.location(), FloatPoint(titleClip.x(), titleClip.maxY()), LinearInterpolation);
drawAxialGradient(cgContext, gradientWithName(ShineGradient), FloatPoint(titleClip.x(), titleClip.maxY()), titleClip.location(), ExponentialInterpolation);
}
// Draw the separator after the initial padding.
float separatorPosition = isRTL ? (clip.x() + MenuListButtonPaddingAfter) : (clip.maxX() - MenuListButtonPaddingAfter);
box.drawLineForBoxSide(paintInfo.context(), FloatRect(FloatPoint(separatorPosition - borderTopWidth, clip.y()), FloatPoint(separatorPosition, clip.maxY())), BSRight, style.visitedDependentColor(CSSPropertyBorderTopColor), style.borderTopStyle(), 0, 0);
FloatRect buttonClip;
if (isRTL)
buttonClip = FloatRect(clip.x() - adjustTop, clip.y() - adjustTop, MenuListButtonPaddingAfter + adjustTop + adjustLeft, clip.height() + adjustTop + adjustBottom);
else
buttonClip = FloatRect(separatorPosition - adjustTop, clip.y() - adjustTop, MenuListButtonPaddingAfter + adjustTop + adjustRight, clip.height() + adjustTop + adjustBottom);
// Now paint the button portion.
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
FloatSize topLeftRadius;
FloatSize topRightRadius;
FloatSize bottomLeftRadius;
FloatSize bottomRightRadius;
if (isRTL) {
topLeftRadius = FloatSize(valueForLength(style.borderTopLeftRadius().width, rect.width()) - style.borderLeftWidth(), valueForLength(style.borderTopLeftRadius().height, rect.height()) - style.borderTopWidth());
bottomLeftRadius = FloatSize(valueForLength(style.borderBottomLeftRadius().width, rect.width()) - style.borderLeftWidth(), valueForLength(style.borderBottomLeftRadius().height, rect.height()) - style.borderBottomWidth());
} else {
topRightRadius = FloatSize(valueForLength(style.borderTopRightRadius().width, rect.width()) - style.borderRightWidth(), valueForLength(style.borderTopRightRadius().height, rect.height()) - style.borderTopWidth());
bottomRightRadius = FloatSize(valueForLength(style.borderBottomRightRadius().width, rect.width()) - style.borderRightWidth(), valueForLength(style.borderBottomRightRadius().height, rect.height()) - style.borderBottomWidth());
}
paintInfo.context().clipRoundedRect(FloatRoundedRect(buttonClip,
topLeftRadius, topRightRadius,
bottomLeftRadius, bottomRightRadius));
paintInfo.context().fillRect(buttonClip, style.visitedDependentColor(CSSPropertyBorderTopColor));
drawAxialGradient(cgContext, gradientWithName(isFocused(box) && !isReadOnlyControl(box) ? ConcaveGradient : ConvexGradient), buttonClip.location(), FloatPoint(buttonClip.x(), buttonClip.maxY()), LinearInterpolation);
}
// Paint Indicators.
if (box.isMenuList() && downcast<HTMLSelectElement>(box.element())->multiple()) {
int size = 2;
int count = 3;
int padding = 3;
FloatRect ellipse(buttonClip.x() + (buttonClip.width() - count * (size + padding) + padding) / 2.0, buttonClip.maxY() - 10.0, size, size);
for (int i = 0; i < count; ++i) {
paintInfo.context().drawRaisedEllipse(ellipse, Color::white, Color(0.0f, 0.0f, 0.0f, 0.5f));
ellipse.move(size + padding, 0);
}
} else {
float centerX = floorf(buttonClip.x() + buttonClip.width() / 2.0) - 0.5;
float centerY = floorf(buttonClip.y() + buttonClip.height() * 3.0 / 8.0);
Vector<FloatPoint> arrow = {
{ centerX - MenuListArrowWidth / 2, centerY },
{ centerX + MenuListArrowWidth / 2, centerY },
{ centerX, centerY + MenuListArrowHeight }
};
Vector<FloatPoint> shadow = {
{ arrow[0].x(), arrow[0].y() + 1 },
{ arrow[1].x(), arrow[1].y() + 1 },
{ arrow[2].x(), arrow[2].y() + 1 }
};
float opacity = isReadOnlyControl(box) ? 0.2 : 0.5;
paintInfo.context().setStrokeColor(Color(0.0f, 0.0f, 0.0f, opacity));
paintInfo.context().setFillColor(Color(0.0f, 0.0f, 0.0f, opacity));
paintInfo.context().drawPath(Path::polygonPathFromPoints(shadow));
paintInfo.context().setStrokeColor(Color::white);
paintInfo.context().setFillColor(Color::white);
paintInfo.context().drawPath(Path::polygonPathFromPoints(arrow));
}
return false;
}
const CGFloat kTrackThickness = 4.0;
const CGFloat kTrackRadius = kTrackThickness / 2.0;
const int kDefaultSliderThumbSize = 16;
void RenderThemeIOS::adjustSliderTrackStyle(RenderStyle& style, const Element* element) const
{
RenderTheme::adjustSliderTrackStyle(style, element);
// FIXME: We should not be relying on border radius for the appearance of our controls <rdar://problem/7675493>.
int radius = static_cast<int>(kTrackRadius);
style.setBorderRadius({ { radius, Fixed }, { radius, Fixed } });
}
bool RenderThemeIOS::paintSliderTrack(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
IntRect trackClip = rect;
auto& style = box.style();
bool isHorizontal = true;
switch (style.appearance()) {
case SliderHorizontalPart:
isHorizontal = true;
// Inset slightly so the thumb covers the edge.
if (trackClip.width() > 2) {
trackClip.setWidth(trackClip.width() - 2);
trackClip.setX(trackClip.x() + 1);
}
trackClip.setHeight(static_cast<int>(kTrackThickness));
trackClip.setY(rect.y() + rect.height() / 2 - kTrackThickness / 2);
break;
case SliderVerticalPart:
isHorizontal = false;
// Inset slightly so the thumb covers the edge.
if (trackClip.height() > 2) {
trackClip.setHeight(trackClip.height() - 2);
trackClip.setY(trackClip.y() + 1);
}
trackClip.setWidth(kTrackThickness);
trackClip.setX(rect.x() + rect.width() / 2 - kTrackThickness / 2);
break;
default:
ASSERT_NOT_REACHED();
}
ASSERT(trackClip.width() >= 0);
ASSERT(trackClip.height() >= 0);
CGFloat cornerWidth = trackClip.width() < kTrackThickness ? trackClip.width() / 2.0f : kTrackRadius;
CGFloat cornerHeight = trackClip.height() < kTrackThickness ? trackClip.height() / 2.0f : kTrackRadius;
bool readonly = isReadOnlyControl(box);
#if ENABLE(DATALIST_ELEMENT)
paintSliderTicks(box, paintInfo, trackClip);
#endif
// Draw the track gradient.
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
IntSize cornerSize(cornerWidth, cornerHeight);
FloatRoundedRect innerBorder(trackClip, cornerSize, cornerSize, cornerSize, cornerSize);
paintInfo.context().clipRoundedRect(innerBorder);
CGContextRef cgContext = paintInfo.context().platformContext();
IOSGradientRef gradient = readonly ? gradientWithName(ReadonlySliderTrackGradient) : gradientWithName(SliderTrackGradient);
if (isHorizontal)
drawAxialGradient(cgContext, gradient, trackClip.location(), FloatPoint(trackClip.x(), trackClip.maxY()), LinearInterpolation);
else
drawAxialGradient(cgContext, gradient, trackClip.location(), FloatPoint(trackClip.maxX(), trackClip.y()), LinearInterpolation);
}
// Draw the track border.
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
CGContextRef cgContext = paintInfo.context().platformContext();
if (readonly)
paintInfo.context().setStrokeColor(Color(178, 178, 178));
else
paintInfo.context().setStrokeColor(Color(76, 76, 76));
RetainPtr<CGMutablePathRef> roundedRectPath = adoptCF(CGPathCreateMutable());
CGPathAddRoundedRect(roundedRectPath.get(), 0, trackClip, cornerWidth, cornerHeight);
CGContextAddPath(cgContext, roundedRectPath.get());
CGContextSetLineWidth(cgContext, 1);
CGContextStrokePath(cgContext);
}
return false;
}
void RenderThemeIOS::adjustSliderThumbSize(RenderStyle& style, const Element*) const
{
if (style.appearance() != SliderThumbHorizontalPart && style.appearance() != SliderThumbVerticalPart)
return;
// Enforce "border-radius: 50%".
style.setBorderRadius({ { 50, Percent }, { 50, Percent } });
// Enforce a 16x16 size if no size is provided.
if (style.width().isIntrinsicOrAuto() || style.height().isAuto()) {
style.setWidth({ kDefaultSliderThumbSize, Fixed });
style.setHeight({ kDefaultSliderThumbSize, Fixed });
}
}
bool RenderThemeIOS::paintSliderThumbDecorations(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
FloatRect clip = addRoundedBorderClip(box, paintInfo.context(), rect);
CGContextRef cgContext = paintInfo.context().platformContext();
FloatPoint bottomCenter(clip.x() + clip.width() / 2.0f, clip.maxY());
if (isPressed(box))
drawAxialGradient(cgContext, gradientWithName(SliderThumbOpaquePressedGradient), clip.location(), FloatPoint(clip.x(), clip.maxY()), LinearInterpolation);
else {
drawAxialGradient(cgContext, gradientWithName(ShadeGradient), clip.location(), FloatPoint(clip.x(), clip.maxY()), LinearInterpolation);
drawRadialGradient(cgContext, gradientWithName(ShineGradient), bottomCenter, 0.0f, bottomCenter, std::max(clip.width(), clip.height()), ExponentialInterpolation);
}
return false;
}
Seconds RenderThemeIOS::animationRepeatIntervalForProgressBar(RenderProgress&) const
{
return 0_s;
}
Seconds RenderThemeIOS::animationDurationForProgressBar(RenderProgress&) const
{
return 0_s;
}
bool RenderThemeIOS::paintProgressBar(const RenderObject& renderer, const PaintInfo& paintInfo, const IntRect& rect)
{
if (!is<RenderProgress>(renderer))
return true;
const int progressBarHeight = 9;
const float verticalOffset = (rect.height() - progressBarHeight) / 2.0;
GraphicsContextStateSaver stateSaver(paintInfo.context());
if (rect.width() < 10 || rect.height() < 9) {
// The rect is smaller than the standard progress bar. We clip to the element's rect to avoid
// leaking pixels outside the repaint rect.
paintInfo.context().clip(rect);
}
// 1) Draw the progress bar track.
// 1.1) Draw the white background with grey gradient border.
GraphicsContext& context = paintInfo.context();
context.setStrokeThickness(0.68);
context.setStrokeStyle(SolidStroke);
const float verticalRenderingPosition = rect.y() + verticalOffset;
auto strokeGradient = Gradient::create(Gradient::LinearData { FloatPoint(rect.x(), verticalRenderingPosition), FloatPoint(rect.x(), verticalRenderingPosition + progressBarHeight - 1) });
strokeGradient->addColorStop(0.0, Color(0x8d, 0x8d, 0x8d));
strokeGradient->addColorStop(0.45, Color(0xee, 0xee, 0xee));
strokeGradient->addColorStop(0.55, Color(0xee, 0xee, 0xee));
strokeGradient->addColorStop(1.0, Color(0x8d, 0x8d, 0x8d));
context.setStrokeGradient(WTFMove(strokeGradient));
context.setFillColor(Color(255, 255, 255));
Path trackPath;
FloatRect trackRect(rect.x() + 0.25, verticalRenderingPosition + 0.25, rect.width() - 0.5, progressBarHeight - 0.5);
FloatSize roundedCornerRadius(5, 4);
trackPath.addRoundedRect(trackRect, roundedCornerRadius);
context.drawPath(trackPath);
// 1.2) Draw top gradient on the upper half. It is supposed to overlay the fill from the background and darker the stroked path.
FloatRect border(rect.x(), rect.y() + verticalOffset, rect.width(), progressBarHeight);
paintInfo.context().clipRoundedRect(FloatRoundedRect(border, roundedCornerRadius, roundedCornerRadius, roundedCornerRadius, roundedCornerRadius));
float upperGradientHeight = progressBarHeight / 2.;
auto upperGradient = Gradient::create(Gradient::LinearData { FloatPoint(rect.x(), verticalRenderingPosition + 0.5), FloatPoint(rect.x(), verticalRenderingPosition + upperGradientHeight - 1.5) });
upperGradient->addColorStop(0.0, Color(133, 133, 133, 188));
upperGradient->addColorStop(1.0, Color(18, 18, 18, 51));
context.setFillGradient(WTFMove(upperGradient));
context.fillRect(FloatRect(rect.x(), verticalRenderingPosition, rect.width(), upperGradientHeight));
const auto& renderProgress = downcast<RenderProgress>(renderer);
if (renderProgress.isDeterminate()) {
// 2) Draw the progress bar.
double position = clampTo(renderProgress.position(), 0.0, 1.0);
double barWidth = position * rect.width();
auto barGradient = Gradient::create(Gradient::LinearData { FloatPoint(rect.x(), verticalRenderingPosition + 0.5), FloatPoint(rect.x(), verticalRenderingPosition + progressBarHeight - 1) });
barGradient->addColorStop(0.0, Color(195, 217, 247));
barGradient->addColorStop(0.45, Color(118, 164, 228));
barGradient->addColorStop(0.49, Color(118, 164, 228));
barGradient->addColorStop(0.51, Color(36, 114, 210));
barGradient->addColorStop(0.55, Color(36, 114, 210));
barGradient->addColorStop(1.0, Color(57, 142, 244));
context.setFillGradient(WTFMove(barGradient));
auto barStrokeGradient = Gradient::create(Gradient::LinearData { FloatPoint(rect.x(), verticalRenderingPosition), FloatPoint(rect.x(), verticalRenderingPosition + progressBarHeight - 1) });
barStrokeGradient->addColorStop(0.0, Color(95, 107, 183));
barStrokeGradient->addColorStop(0.5, Color(66, 106, 174, 240));
barStrokeGradient->addColorStop(1.0, Color(38, 104, 166));
context.setStrokeGradient(WTFMove(barStrokeGradient));
Path barPath;
int left = rect.x();
if (!renderProgress.style().isLeftToRightDirection())
left = rect.maxX() - barWidth;
FloatRect barRect(left + 0.25, verticalRenderingPosition + 0.25, std::max(barWidth - 0.5, 0.0), progressBarHeight - 0.5);
barPath.addRoundedRect(barRect, roundedCornerRadius);
context.drawPath(barPath);
}
return false;
}
#if ENABLE(DATALIST_ELEMENT)
IntSize RenderThemeIOS::sliderTickSize() const
{
// FIXME: <rdar://problem/12271791> MERGEBOT: Correct values for slider tick of <input type="range"> elements (requires ENABLE_DATALIST_ELEMENT)
return IntSize(1, 3);
}
int RenderThemeIOS::sliderTickOffsetFromTrackCenter() const
{
// FIXME: <rdar://problem/12271791> MERGEBOT: Correct values for slider tick of <input type="range"> elements (requires ENABLE_DATALIST_ELEMENT)
return -9;
}
#endif
void RenderThemeIOS::adjustSearchFieldStyle(RenderStyle& style, const Element* element) const
{
RenderTheme::adjustSearchFieldStyle(style, element);
if (!element)
return;
if (!style.hasBorder())
return;
RenderBox* box = element->renderBox();
if (!box)
return;
adjustRoundBorderRadius(style, *box);
}
bool RenderThemeIOS::paintSearchFieldDecorations(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
return paintTextFieldDecorations(box, paintInfo, rect);
}
void RenderThemeIOS::adjustButtonStyle(RenderStyle& style, const Element* element) const
{
RenderTheme::adjustButtonStyle(style, element);
#if ENABLE(INPUT_TYPE_COLOR)
if (style.appearance() == ColorWellPart)
return;
#endif
// Set padding: 0 1.0em; on buttons.
// CSSPrimitiveValue::computeLengthInt only needs the element's style to calculate em lengths.
// Since the element might not be in a document, just pass nullptr for the root element style
// and the render view.
auto emSize = CSSPrimitiveValue::create(1.0, CSSUnitType::CSS_EMS);
int pixels = emSize->computeLength<int>(CSSToLengthConversionData(&style, nullptr, nullptr, 1.0, false));
style.setPaddingBox(LengthBox(0, pixels, 0, pixels));
if (!element)
return;
RenderBox* box = element->renderBox();
if (!box)
return;
adjustRoundBorderRadius(style, *box);
}
bool RenderThemeIOS::paintButtonDecorations(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
return paintPushButtonDecorations(box, paintInfo, rect);
}
bool RenderThemeIOS::paintPushButtonDecorations(const RenderObject& box, const PaintInfo& paintInfo, const IntRect& rect)
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
FloatRect clip = addRoundedBorderClip(box, paintInfo.context(), rect);
CGContextRef cgContext = paintInfo.context().platformContext();
if (box.style().visitedDependentColor(CSSPropertyBackgroundColor).isDark())
drawAxialGradient(cgContext, gradientWithName(ConvexGradient), clip.location(), FloatPoint(clip.x(), clip.maxY()), LinearInterpolation);
else {
drawAxialGradient(cgContext, gradientWithName(ShadeGradient), clip.location(), FloatPoint(clip.x(), clip.maxY()), LinearInterpolation);
drawAxialGradient(cgContext, gradientWithName(ShineGradient), FloatPoint(clip.x(), clip.maxY()), clip.location(), ExponentialInterpolation);
}
return false;
}
void RenderThemeIOS::setButtonSize(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.
style.setHeight(Length(static_cast<int>(ControlBaseHeight / ControlBaseFontSize * style.fontDescription().computedSize()), Fixed));
}
const int kThumbnailBorderStrokeWidth = 1;
const int kThumbnailBorderCornerRadius = 1;
const int kVisibleBackgroundImageWidth = 1;
const int kMultipleThumbnailShrinkSize = 2;
bool RenderThemeIOS::paintFileUploadIconDecorations(const RenderObject&, const RenderObject& buttonRenderer, const PaintInfo& paintInfo, const IntRect& rect, Icon* icon, FileUploadDecorations fileUploadDecorations)
{
GraphicsContextStateSaver stateSaver(paintInfo.context());
IntSize cornerSize(kThumbnailBorderCornerRadius, kThumbnailBorderCornerRadius);
Color pictureFrameColor = buttonRenderer.style().visitedDependentColor(CSSPropertyBorderTopColor);
IntRect thumbnailPictureFrameRect = rect;
IntRect thumbnailRect = rect;
thumbnailRect.contract(2 * kThumbnailBorderStrokeWidth, 2 * kThumbnailBorderStrokeWidth);
thumbnailRect.move(kThumbnailBorderStrokeWidth, kThumbnailBorderStrokeWidth);
if (fileUploadDecorations == MultipleFiles) {
// Smaller thumbnails for multiple selection appearance.
thumbnailPictureFrameRect.contract(kMultipleThumbnailShrinkSize, kMultipleThumbnailShrinkSize);
thumbnailRect.contract(kMultipleThumbnailShrinkSize, kMultipleThumbnailShrinkSize);
// Background picture frame and simple background icon with a gradient matching the button.
Color backgroundImageColor = Color(buttonRenderer.style().visitedDependentColor(CSSPropertyBackgroundColor).rgb());
paintInfo.context().fillRoundedRect(FloatRoundedRect(thumbnailPictureFrameRect, cornerSize, cornerSize, cornerSize, cornerSize), pictureFrameColor);
paintInfo.context().fillRect(thumbnailRect, backgroundImageColor);
{
GraphicsContextStateSaver stateSaver2(paintInfo.context());
CGContextRef cgContext = paintInfo.context().platformContext();
paintInfo.context().clip(thumbnailRect);
if (backgroundImageColor.isDark())
drawAxialGradient(cgContext, gradientWithName(ConvexGradient), thumbnailRect.location(), FloatPoint(thumbnailRect.x(), thumbnailRect.maxY()), LinearInterpolation);
else {
drawAxialGradient(cgContext, gradientWithName(ShadeGradient), thumbnailRect.location(), FloatPoint(thumbnailRect.x(), thumbnailRect.maxY()), LinearInterpolation);
drawAxialGradient(cgContext, gradientWithName(ShineGradient), FloatPoint(thumbnailRect.x(), thumbnailRect.maxY()), thumbnailRect.location(), ExponentialInterpolation);
}
}
// Move the rects for the Foreground picture frame and icon.
int inset = kVisibleBackgroundImageWidth + kThumbnailBorderStrokeWidth;
thumbnailPictureFrameRect.move(inset, inset);
thumbnailRect.move(inset, inset);
}
// Foreground picture frame and icon.
paintInfo.context().fillRoundedRect(FloatRoundedRect(thumbnailPictureFrameRect, cornerSize, cornerSize, cornerSize, cornerSize), pictureFrameColor);
icon->paint(paintInfo.context(), thumbnailRect);
return false;
}
Color RenderThemeIOS::platformActiveSelectionBackgroundColor(OptionSet<StyleColor::Options>) const
{
return Color::transparent;
}
Color RenderThemeIOS::platformInactiveSelectionBackgroundColor(OptionSet<StyleColor::Options>) const
{
return Color::transparent;
}
static Optional<Color>& cachedFocusRingColor()
{
static NeverDestroyed<Optional<Color>> color;
return color;
}
#if ENABLE(FULL_KEYBOARD_ACCESS)
Color RenderThemeIOS::platformFocusRingColor(OptionSet<StyleColor::Options>) const
{
if (cachedFocusRingColor().hasValue())
return *cachedFocusRingColor();
// FIXME: Should be using -keyboardFocusIndicatorColor. For now, work around <rdar://problem/50838886>.
return colorFromUIColor([PAL::getUIColorClass() systemBlueColor]);
}
#endif
bool RenderThemeIOS::shouldHaveSpinButton(const HTMLInputElement&) const
{
return false;
}
bool RenderThemeIOS::supportsFocusRing(const RenderStyle&) const
{
return false;
}
FontCascadeDescription& RenderThemeIOS::cachedSystemFontDescription(CSSValueID valueID) const
{
static NeverDestroyed<FontCascadeDescription> systemFont;
static NeverDestroyed<FontCascadeDescription> headlineFont;
static NeverDestroyed<FontCascadeDescription> bodyFont;
static NeverDestroyed<FontCascadeDescription> subheadlineFont;
static NeverDestroyed<FontCascadeDescription> footnoteFont;
static NeverDestroyed<FontCascadeDescription> caption1Font;
static NeverDestroyed<FontCascadeDescription> caption2Font;
static NeverDestroyed<FontCascadeDescription> shortHeadlineFont;
static NeverDestroyed<FontCascadeDescription> shortBodyFont;
static NeverDestroyed<FontCascadeDescription> shortSubheadlineFont;
static NeverDestroyed<FontCascadeDescription> shortFootnoteFont;
static NeverDestroyed<FontCascadeDescription> shortCaption1Font;
static NeverDestroyed<FontCascadeDescription> tallBodyFont;
#if HAVE(SYSTEM_FONT_STYLE_TITLE_0)
static NeverDestroyed<FontCascadeDescription> title0Font;
#endif
static NeverDestroyed<FontCascadeDescription> title1Font;
static NeverDestroyed<FontCascadeDescription> title2Font;
static NeverDestroyed<FontCascadeDescription> title3Font;
#if HAVE(SYSTEM_FONT_STYLE_TITLE_4)
static NeverDestroyed<FontCascadeDescription> title4Font;
#endif
static CFStringRef userTextSize = contentSizeCategory();
if (userTextSize != contentSizeCategory()) {
userTextSize = contentSizeCategory();
headlineFont.get().setIsAbsoluteSize(false);
bodyFont.get().setIsAbsoluteSize(false);
subheadlineFont.get().setIsAbsoluteSize(false);
footnoteFont.get().setIsAbsoluteSize(false);
caption1Font.get().setIsAbsoluteSize(false);
caption2Font.get().setIsAbsoluteSize(false);
shortHeadlineFont.get().setIsAbsoluteSize(false);
shortBodyFont.get().setIsAbsoluteSize(false);
shortSubheadlineFont.get().setIsAbsoluteSize(false);
shortFootnoteFont.get().setIsAbsoluteSize(false);
shortCaption1Font.get().setIsAbsoluteSize(false);
tallBodyFont.get().setIsAbsoluteSize(false);
}
switch (valueID) {
case CSSValueAppleSystemHeadline:
return headlineFont;
case CSSValueAppleSystemBody:
return bodyFont;
#if HAVE(SYSTEM_FONT_STYLE_TITLE_0)
case CSSValueAppleSystemTitle0:
return title0Font;
#endif
case CSSValueAppleSystemTitle1:
return title1Font;
case CSSValueAppleSystemTitle2:
return title2Font;
case CSSValueAppleSystemTitle3:
return title3Font;
#if HAVE(SYSTEM_FONT_STYLE_TITLE_4)
case CSSValueAppleSystemTitle4:
return title4Font;
#endif
case CSSValueAppleSystemSubheadline:
return subheadlineFont;
case CSSValueAppleSystemFootnote:
return footnoteFont;
case CSSValueAppleSystemCaption1:
return caption1Font;
case CSSValueAppleSystemCaption2:
return caption2Font;
// Short version.
case CSSValueAppleSystemShortHeadline:
return shortHeadlineFont;
case CSSValueAppleSystemShortBody:
return shortBodyFont;
case CSSValueAppleSystemShortSubheadline:
return shortSubheadlineFont;
case CSSValueAppleSystemShortFootnote:
return shortFootnoteFont;
case CSSValueAppleSystemShortCaption1:
return shortCaption1Font;
// Tall version.
case CSSValueAppleSystemTallBody:
return tallBodyFont;
default:
return systemFont;
}
}
static inline FontSelectionValue cssWeightOfSystemFont(CTFontRef font)
{
RetainPtr<CFDictionaryRef> traits = adoptCF(CTFontCopyTraits(font));
CFNumberRef resultRef = (CFNumberRef)CFDictionaryGetValue(traits.get(), kCTFontWeightTrait);
float result = 0;
CFNumberGetValue(resultRef, kCFNumberFloatType, &result);
// These numbers were experimentally gathered from weights of the system font.
static float weightThresholds[] = { -0.6, -0.365, -0.115, 0.130, 0.235, 0.350, 0.5, 0.7 };
for (unsigned i = 0; i < WTF_ARRAY_LENGTH(weightThresholds); ++i) {
if (result < weightThresholds[i])
return FontSelectionValue((static_cast<int>(i) + 1) * 100);
}
return FontSelectionValue(900);
}
void RenderThemeIOS::updateCachedSystemFontDescription(CSSValueID valueID, FontCascadeDescription& fontDescription) const
{
RetainPtr<CTFontDescriptorRef> fontDescriptor;
CFStringRef textStyle;
switch (valueID) {
case CSSValueAppleSystemHeadline:
textStyle = kCTUIFontTextStyleHeadline;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemBody:
textStyle = kCTUIFontTextStyleBody;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
#if HAVE(SYSTEM_FONT_STYLE_TITLE_0)
case CSSValueAppleSystemTitle0:
textStyle = kCTUIFontTextStyleTitle0;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
#endif
case CSSValueAppleSystemTitle1:
textStyle = kCTUIFontTextStyleTitle1;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemTitle2:
textStyle = kCTUIFontTextStyleTitle2;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemTitle3:
textStyle = kCTUIFontTextStyleTitle3;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
#if HAVE(SYSTEM_FONT_STYLE_TITLE_4)
case CSSValueAppleSystemTitle4:
textStyle = kCTUIFontTextStyleTitle4;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
#endif
case CSSValueAppleSystemSubheadline:
textStyle = kCTUIFontTextStyleSubhead;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemFootnote:
textStyle = kCTUIFontTextStyleFootnote;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemCaption1:
textStyle = kCTUIFontTextStyleCaption1;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemCaption2:
textStyle = kCTUIFontTextStyleCaption2;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
// Short version.
case CSSValueAppleSystemShortHeadline:
textStyle = kCTUIFontTextStyleShortHeadline;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemShortBody:
textStyle = kCTUIFontTextStyleShortBody;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemShortSubheadline:
textStyle = kCTUIFontTextStyleShortSubhead;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemShortFootnote:
textStyle = kCTUIFontTextStyleShortFootnote;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
case CSSValueAppleSystemShortCaption1:
textStyle = kCTUIFontTextStyleShortCaption1;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
// Tall version.
case CSSValueAppleSystemTallBody:
textStyle = kCTUIFontTextStyleTallBody;
fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(textStyle, contentSizeCategory(), nullptr));
break;
default:
textStyle = kCTFontDescriptorTextStyleEmphasized;
fontDescriptor = adoptCF(CTFontDescriptorCreateForUIType(kCTFontUIFontSystem, 0, nullptr));
}
ASSERT(fontDescriptor);
RetainPtr<CTFontRef> font = adoptCF(CTFontCreateWithFontDescriptor(fontDescriptor.get(), 0, nullptr));
fontDescription.setIsAbsoluteSize(true);
fontDescription.setOneFamily(textStyle);
fontDescription.setSpecifiedSize(CTFontGetSize(font.get()));
fontDescription.setWeight(cssWeightOfSystemFont(font.get()));
fontDescription.setItalic(normalItalicValue());
}
String RenderThemeIOS::mediaControlsStyleSheet()
{
if (m_legacyMediaControlsStyleSheet.isEmpty())
m_legacyMediaControlsStyleSheet = [NSString stringWithContentsOfFile:[[NSBundle bundleForClass:[WebCoreRenderThemeBundle class]] pathForResource:@"mediaControlsiOS" ofType:@"css"] encoding:NSUTF8StringEncoding error:nil];
return m_legacyMediaControlsStyleSheet;
}
String RenderThemeIOS::modernMediaControlsStyleSheet()
{
if (RuntimeEnabledFeatures::sharedFeatures().modernMediaControlsEnabled()) {
if (m_mediaControlsStyleSheet.isEmpty())
m_mediaControlsStyleSheet = [NSString stringWithContentsOfFile:[[NSBundle bundleForClass:[WebCoreRenderThemeBundle class]] pathForResource:@"modern-media-controls" ofType:@"css" inDirectory:@"modern-media-controls"] encoding:NSUTF8StringEncoding error:nil];
return m_mediaControlsStyleSheet;
}
return emptyString();
}
void RenderThemeIOS::purgeCaches()
{
m_legacyMediaControlsScript.clearImplIfNotShared();
m_mediaControlsScript.clearImplIfNotShared();
m_legacyMediaControlsStyleSheet.clearImplIfNotShared();
m_mediaControlsStyleSheet.clearImplIfNotShared();
}
String RenderThemeIOS::mediaControlsScript()
{
if (RuntimeEnabledFeatures::sharedFeatures().modernMediaControlsEnabled()) {
if (m_mediaControlsScript.isEmpty()) {
NSBundle *bundle = [NSBundle bundleForClass:[WebCoreRenderThemeBundle class]];
StringBuilder scriptBuilder;
scriptBuilder.append("window.isIOSFamily = true;");
scriptBuilder.append([NSString stringWithContentsOfFile:[bundle pathForResource:@"modern-media-controls-localized-strings" ofType:@"js"] encoding:NSUTF8StringEncoding error:nil]);
scriptBuilder.append([NSString stringWithContentsOfFile:[bundle pathForResource:@"modern-media-controls" ofType:@"js" inDirectory:@"modern-media-controls"] encoding:NSUTF8StringEncoding error:nil]);
m_mediaControlsScript = scriptBuilder.toString();
}
return m_mediaControlsScript;
}
if (m_legacyMediaControlsScript.isEmpty()) {
NSBundle *bundle = [NSBundle bundleForClass:[WebCoreRenderThemeBundle class]];
StringBuilder scriptBuilder;
scriptBuilder.append([NSString stringWithContentsOfFile:[bundle pathForResource:@"mediaControlsLocalizedStrings" ofType:@"js"] encoding:NSUTF8StringEncoding error:nil]);
scriptBuilder.append([NSString stringWithContentsOfFile:[bundle pathForResource:@"mediaControlsApple" ofType:@"js"] encoding:NSUTF8StringEncoding error:nil]);
scriptBuilder.append([NSString stringWithContentsOfFile:[bundle pathForResource:@"mediaControlsiOS" ofType:@"js"] encoding:NSUTF8StringEncoding error:nil]);
m_legacyMediaControlsScript = scriptBuilder.toString();
}
return m_legacyMediaControlsScript;
}
String RenderThemeIOS::mediaControlsBase64StringForIconNameAndType(const String& iconName, const String& iconType)
{
if (!RuntimeEnabledFeatures::sharedFeatures().modernMediaControlsEnabled())
return emptyString();
String directory = "modern-media-controls/images";
NSBundle *bundle = [NSBundle bundleForClass:[WebCoreRenderThemeBundle class]];
return [[NSData dataWithContentsOfFile:[bundle pathForResource:iconName ofType:iconType inDirectory:directory]] base64EncodedStringWithOptions:0];
}
struct CSSValueIDAndSelector {
CSSValueID cssValueID;
SEL selector;
};
static const Vector<CSSValueIDAndSelector>& cssValueIDSelectorList()
{
static NeverDestroyed<Vector<CSSValueIDAndSelector>> cssValueIDSelectorList;
static std::once_flag initializeOnce;
std::call_once(
initializeOnce,
[] {
cssValueIDSelectorList.get() = Vector(std::initializer_list<CSSValueIDAndSelector> {
#if HAVE(OS_DARK_MODE_SUPPORT)
{ CSSValueText, @selector(labelColor) },
{ CSSValueAppleSystemLabel, @selector(labelColor) },
{ CSSValueAppleSystemHeaderText, @selector(labelColor) },
{ CSSValueAppleSystemSecondaryLabel, @selector(secondaryLabelColor) },
{ CSSValueAppleSystemTertiaryLabel, @selector(tertiaryLabelColor) },
{ CSSValueAppleSystemQuaternaryLabel, @selector(quaternaryLabelColor) },
{ CSSValueAppleSystemPlaceholderText, @selector(placeholderTextColor) },
{ CSSValueWebkitControlBackground, @selector(systemBackgroundColor) },
{ CSSValueAppleSystemControlBackground, @selector(systemBackgroundColor) },
{ CSSValueAppleSystemTextBackground, @selector(systemBackgroundColor) },
{ CSSValueAppleSystemBackground, @selector(systemBackgroundColor) },
{ CSSValueAppleSystemSecondaryBackground, @selector(secondarySystemBackgroundColor) },
{ CSSValueAppleSystemTertiaryBackground, @selector(tertiarySystemBackgroundColor) },
{ CSSValueAppleSystemGroupedBackground, @selector(systemGroupedBackgroundColor) },
{ CSSValueAppleSystemSecondaryGroupedBackground, @selector(secondarySystemGroupedBackgroundColor) },
{ CSSValueAppleSystemTertiaryGroupedBackground, @selector(tertiarySystemGroupedBackgroundColor) },
{ CSSValueAppleSystemGrid, @selector(separatorColor) },
{ CSSValueAppleSystemSeparator, @selector(separatorColor) },
{ CSSValueAppleSystemContainerBorder, @selector(separatorColor) },
{ CSSValueAppleSystemSelectedContentBackground, @selector(tableCellDefaultSelectionTintColor) },
{ CSSValueAppleSystemUnemphasizedSelectedContentBackground, @selector(tableCellDefaultSelectionTintColor) },
{ CSSValueAppleSystemBrown, @selector(systemBrownColor) },
{ CSSValueAppleSystemIndigo, @selector(systemIndigoColor) },
#endif
{ CSSValueAppleSystemTeal, @selector(systemTealColor) },
{ CSSValueAppleWirelessPlaybackTargetActive, @selector(systemBlueColor) },
{ CSSValueAppleSystemBlue, @selector(systemBlueColor) },
{ CSSValueAppleSystemGray, @selector(systemGrayColor) },
{ CSSValueAppleSystemGreen, @selector(systemGreenColor) },
{ CSSValueAppleSystemOrange, @selector(systemOrangeColor) },
{ CSSValueAppleSystemPink, @selector(systemPinkColor) },
{ CSSValueAppleSystemPurple, @selector(systemPurpleColor) },
{ CSSValueAppleSystemRed, @selector(systemRedColor) },
{ CSSValueAppleSystemYellow, @selector(systemYellowColor) }
});
});
return cssValueIDSelectorList;
}
static Optional<Color> systemColorFromCSSValueID(CSSValueID cssValueID, bool useDarkAppearance, bool useElevatedUserInterfaceLevel)
{
LocalCurrentTraitCollection localTraitCollection(useDarkAppearance, useElevatedUserInterfaceLevel);
auto cssColorToSelector = [cssValueID] () -> SEL {
for (auto& cssValueIDSelector : cssValueIDSelectorList()) {
if (cssValueIDSelector.cssValueID == cssValueID)
return cssValueIDSelector.selector;
}
return nullptr;
};
if (auto selector = cssColorToSelector()) {
if (auto color = wtfObjCMsgSend<UIColor *>(PAL::getUIColorClass(), selector))
return Color(color.CGColor, Color::Semantic);
}
return WTF::nullopt;
}
static RenderThemeIOS::CSSValueToSystemColorMap& globalCSSValueToSystemColorMap()
{
static NeverDestroyed<RenderThemeIOS::CSSValueToSystemColorMap> colorMap;
return colorMap;
}
const RenderThemeIOS::CSSValueToSystemColorMap& RenderThemeIOS::cssValueToSystemColorMap()
{
static NeverDestroyed<CSSValueToSystemColorMap> map;
static std::once_flag onceFlag;
std::call_once(
onceFlag,
[] {
for (auto& cssValueIDSelector : cssValueIDSelectorList()) {
for (bool useDarkAppearance : { false, true }) {
for (bool useElevatedUserInterfaceLevel : { false, true }) {
if (auto color = systemColorFromCSSValueID(cssValueIDSelector.cssValueID, useDarkAppearance, useElevatedUserInterfaceLevel))
map.get().add(CSSValueKey { cssValueIDSelector.cssValueID, useDarkAppearance, useElevatedUserInterfaceLevel }, *color);
}
}
}
});
return map;
}
void RenderThemeIOS::setCSSValueToSystemColorMap(CSSValueToSystemColorMap&& colorMap)
{
globalCSSValueToSystemColorMap() = WTFMove(colorMap);
}
void RenderThemeIOS::setFocusRingColor(const Color& color)
{
cachedFocusRingColor() = color;
}
Color RenderThemeIOS::systemColor(CSSValueID cssValueID, OptionSet<StyleColor::Options> options) const
{
const bool forVisitedLink = options.contains(StyleColor::Options::ForVisitedLink);
// The system color cache below can't handle visited links. The only color value
// that cares about visited links is CSSValueWebkitLink, so handle it here by
// calling through to RenderTheme's base implementation.
if (forVisitedLink && cssValueID == CSSValueWebkitLink)
return RenderTheme::systemColor(cssValueID, options);
ASSERT(!forVisitedLink);
auto& cache = colorCache(options);
return cache.systemStyleColors.ensure(cssValueID, [this, cssValueID, options] () -> Color {
const bool useDarkAppearance = options.contains(StyleColor::Options::UseDarkAppearance);
const bool useElevatedUserInterfaceLevel = options.contains(StyleColor::Options::UseElevatedUserInterfaceLevel);
if (!globalCSSValueToSystemColorMap().isEmpty()) {
auto it = globalCSSValueToSystemColorMap().find(CSSValueKey { cssValueID, useDarkAppearance, useElevatedUserInterfaceLevel });
if (it == globalCSSValueToSystemColorMap().end())
return RenderTheme::systemColor(cssValueID, options);
return Color(it->value.rgb(), Color::Semantic);
}
auto color = systemColorFromCSSValueID(cssValueID, useDarkAppearance, useElevatedUserInterfaceLevel);
if (color)
return *color;
return RenderTheme::systemColor(cssValueID, options);
}).iterator->value;
}
#if ENABLE(ATTACHMENT_ELEMENT)
const CGSize attachmentSize = { 160, 119 };
const CGFloat attachmentBorderRadius = 16;
static Color attachmentBorderColor() { return Color(204, 204, 204); }
static CGFloat attachmentBorderThickness = 1;
static Color attachmentProgressColor() { return Color(222, 222, 222); }
const CGFloat attachmentProgressBorderThickness = 3;
const CGFloat attachmentProgressSize = 36;
const CGFloat attachmentIconSize = 48;
const CGFloat attachmentItemMargin = 8;
const CGFloat attachmentWrappingTextMaximumWidth = 140;
const CFIndex attachmentWrappingTextMaximumLineCount = 2;
static RetainPtr<CTFontRef> attachmentActionFont()
{
RetainPtr<CTFontDescriptorRef> fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(kCTUIFontTextStyleShortFootnote, RenderThemeIOS::contentSizeCategory(), 0));
RetainPtr<CTFontDescriptorRef> emphasizedFontDescriptor = adoptCF(CTFontDescriptorCreateCopyWithAttributes(fontDescriptor.get(),
(CFDictionaryRef)@{
(id)kCTFontDescriptorTextStyleAttribute: (id)kCTFontDescriptorTextStyleEmphasized
}));
return adoptCF(CTFontCreateWithFontDescriptor(emphasizedFontDescriptor.get(), 0, nullptr));
}
static UIColor *attachmentActionColor(const RenderAttachment& attachment)
{
return [PAL::getUIColorClass() colorWithCGColor:cachedCGColor(attachment.style().visitedDependentColor(CSSPropertyColor))];
}
static RetainPtr<CTFontRef> attachmentTitleFont()
{
RetainPtr<CTFontDescriptorRef> fontDescriptor = adoptCF(CTFontDescriptorCreateWithTextStyle(kCTUIFontTextStyleShortCaption1, RenderThemeIOS::contentSizeCategory(), 0));
return adoptCF(CTFontCreateWithFontDescriptor(fontDescriptor.get(), 0, nullptr));
}
static UIColor *attachmentTitleColor() { return [PAL::getUIColorClass() systemGrayColor]; }
static RetainPtr<CTFontRef> attachmentSubtitleFont() { return attachmentTitleFont(); }
static UIColor *attachmentSubtitleColor() { return [PAL::getUIColorClass() systemGrayColor]; }
struct RenderAttachmentInfo {
explicit RenderAttachmentInfo(const RenderAttachment&);
FloatRect iconRect;
FloatRect attachmentRect;
FloatRect progressRect;
BOOL hasProgress { NO };
float progress;
RetainPtr<UIImage> icon;
int baseline { 0 };
struct LabelLine {
FloatRect rect;
RetainPtr<CTLineRef> line;
};
Vector<LabelLine> lines;
CGFloat contentYOrigin { 0 };
private:
void buildWrappedLines(const String&, CTFontRef, UIColor *, unsigned maximumLineCount);
void buildSingleLine(const String&, CTFontRef, UIColor *);
void addLine(CTLineRef);
};
void RenderAttachmentInfo::addLine(CTLineRef line)
{
CGRect lineBounds = CTLineGetBoundsWithOptions(line, kCTLineBoundsExcludeTypographicLeading);
CGFloat trailingWhitespaceWidth = CTLineGetTrailingWhitespaceWidth(line);
CGFloat lineWidthIgnoringTrailingWhitespace = lineBounds.size.width - trailingWhitespaceWidth;
CGFloat lineHeight = CGCeiling(lineBounds.size.height + lineBounds.origin.y);
CGFloat xOffset = (attachmentRect.width() / 2) - (lineWidthIgnoringTrailingWhitespace / 2);
LabelLine labelLine;
labelLine.line = line;
labelLine.rect = FloatRect(xOffset, 0, lineWidthIgnoringTrailingWhitespace, lineHeight);
lines.append(labelLine);
}
void RenderAttachmentInfo::buildWrappedLines(const String& text, CTFontRef font, UIColor *color, unsigned maximumLineCount)
{
if (text.isEmpty())
return;
NSDictionary *textAttributes = @{
(id)kCTFontAttributeName: (id)font,
(id)kCTForegroundColorAttributeName: color
};
RetainPtr<NSAttributedString> attributedText = adoptNS([[NSAttributedString alloc] initWithString:text attributes:textAttributes]);
RetainPtr<CTFramesetterRef> framesetter = adoptCF(CTFramesetterCreateWithAttributedString((CFAttributedStringRef)attributedText.get()));
CFRange fitRange;
CGSize textSize = CTFramesetterSuggestFrameSizeWithConstraints(framesetter.get(), CFRangeMake(0, 0), nullptr, CGSizeMake(attachmentWrappingTextMaximumWidth, CGFLOAT_MAX), &fitRange);
RetainPtr<CGPathRef> textPath = adoptCF(CGPathCreateWithRect(CGRectMake(0, 0, textSize.width, textSize.height), nullptr));
RetainPtr<CTFrameRef> textFrame = adoptCF(CTFramesetterCreateFrame(framesetter.get(), fitRange, textPath.get(), nullptr));
CFArrayRef ctLines = CTFrameGetLines(textFrame.get());
CFIndex lineCount = CFArrayGetCount(ctLines);
if (!lineCount)
return;
// Lay out and record the first (maximumLineCount - 1) lines.
CFIndex lineIndex = 0;
CFIndex nonTruncatedLineCount = std::min<CFIndex>(maximumLineCount - 1, lineCount);
for (; lineIndex < nonTruncatedLineCount; ++lineIndex)
addLine((CTLineRef)CFArrayGetValueAtIndex(ctLines, lineIndex));
if (lineIndex == lineCount)
return;
// We had text that didn't fit in the first (maximumLineCount - 1) lines.
// Combine it into one last line, and center-truncate it.
CTLineRef firstRemainingLine = (CTLineRef)CFArrayGetValueAtIndex(ctLines, lineIndex);
CFIndex remainingRangeStart = CTLineGetStringRange(firstRemainingLine).location;
CFRange remainingRange = CFRangeMake(remainingRangeStart, [attributedText length] - remainingRangeStart);
RetainPtr<CGPathRef> remainingPath = adoptCF(CGPathCreateWithRect(CGRectMake(0, 0, CGFLOAT_MAX, CGFLOAT_MAX), nullptr));
RetainPtr<CTFrameRef> remainingFrame = adoptCF(CTFramesetterCreateFrame(framesetter.get(), remainingRange, remainingPath.get(), nullptr));
RetainPtr<NSAttributedString> ellipsisString = adoptNS([[NSAttributedString alloc] initWithString:@"\u2026" attributes:textAttributes]);
RetainPtr<CTLineRef> ellipsisLine = adoptCF(CTLineCreateWithAttributedString((CFAttributedStringRef)ellipsisString.get()));
CTLineRef remainingLine = (CTLineRef)CFArrayGetValueAtIndex(CTFrameGetLines(remainingFrame.get()), 0);
RetainPtr<CTLineRef> truncatedLine = adoptCF(CTLineCreateTruncatedLine(remainingLine, attachmentWrappingTextMaximumWidth, kCTLineTruncationMiddle, ellipsisLine.get()));
if (!truncatedLine)
truncatedLine = remainingLine;
addLine(truncatedLine.get());
}
void RenderAttachmentInfo::buildSingleLine(const String& text, CTFontRef font, UIColor *color)
{
if (text.isEmpty())
return;
NSDictionary *textAttributes = @{
(id)kCTFontAttributeName: (id)font,
(id)kCTForegroundColorAttributeName: color
};
RetainPtr<NSAttributedString> attributedText = adoptNS([[NSAttributedString alloc] initWithString:text attributes:textAttributes]);
addLine(adoptCF(CTLineCreateWithAttributedString((CFAttributedStringRef)attributedText.get())).get());
}
static BOOL getAttachmentProgress(const RenderAttachment& attachment, float& progress)
{
auto& progressString = attachment.attachmentElement().attributeWithoutSynchronization(progressAttr);
if (progressString.isEmpty())
return NO;
bool validProgress;
progress = std::max<float>(std::min<float>(progressString.toFloat(&validProgress), 1), 0);
return validProgress;
}
static RetainPtr<UIImage> iconForAttachment(const RenderAttachment& attachment, FloatSize& size)
{
ALLOW_DEPRECATED_DECLARATIONS_BEGIN
auto documentInteractionController = adoptNS([PAL::allocUIDocumentInteractionControllerInstance() init]);
ALLOW_DEPRECATED_DECLARATIONS_END
String fileName;
if (File* file = attachment.attachmentElement().file())
fileName = file->name();
if (fileName.isEmpty())
fileName = attachment.attachmentElement().attachmentTitle();
[documentInteractionController setName:fileName];
String attachmentType = attachment.attachmentElement().attachmentType();
if (!attachmentType.isEmpty()) {
String UTI;
if (isDeclaredUTI(attachmentType))
UTI = attachmentType;
else
UTI = UTIFromMIMEType(attachmentType);
#if PLATFORM(IOS)
[documentInteractionController setUTI:static_cast<NSString *>(UTI)];
#endif
}
RetainPtr<UIImage> result;
#if PLATFORM(IOS)
NSArray *icons = [documentInteractionController icons];
if (!icons.count)
return nil;
result = icons.lastObject;
BOOL useHeightForClosestMatch = [result size].height > [result size].width;
CGFloat bestMatchRatio = -1;
for (UIImage *icon in icons) {
CGFloat iconSize = useHeightForClosestMatch ? icon.size.height : icon.size.width;
CGFloat matchRatio = (attachmentIconSize / iconSize) - 1.0f;
if (matchRatio < 0.3f) {
matchRatio = CGFAbs(matchRatio);
if ((bestMatchRatio == -1) || (matchRatio < bestMatchRatio)) {
result = icon;
bestMatchRatio = matchRatio;
}
}
}
#endif
CGFloat iconAspect = [result size].width / [result size].height;
size = largestRectWithAspectRatioInsideRect(iconAspect, FloatRect(0, 0, attachmentIconSize, attachmentIconSize)).size();
return result;
}
RenderAttachmentInfo::RenderAttachmentInfo(const RenderAttachment& attachment)
{
attachmentRect = FloatRect(0, 0, attachment.width().toFloat(), attachment.height().toFloat());
hasProgress = getAttachmentProgress(attachment, progress);
String title = attachment.attachmentElement().attachmentTitleForDisplay();
String action = attachment.attachmentElement().attributeWithoutSynchronization(actionAttr);
String subtitle = attachment.attachmentElement().attributeWithoutSynchronization(subtitleAttr);
CGFloat yOffset = 0;
if (hasProgress) {
progressRect = FloatRect((attachmentRect.width() / 2) - (attachmentProgressSize / 2), 0, attachmentProgressSize, attachmentProgressSize);
yOffset += attachmentProgressSize + attachmentItemMargin;
}
if (action.isEmpty() && !hasProgress) {
FloatSize iconSize;
icon = iconForAttachment(attachment, iconSize);
if (icon) {
iconRect = FloatRect(FloatPoint((attachmentRect.width() / 2) - (iconSize.width() / 2), 0), iconSize);
yOffset += iconRect.height() + attachmentItemMargin;
}
} else
buildWrappedLines(action, attachmentActionFont().get(), attachmentActionColor(attachment), attachmentWrappingTextMaximumLineCount);
bool forceSingleLineTitle = !action.isEmpty() || !subtitle.isEmpty() || hasProgress;
buildWrappedLines(title, attachmentTitleFont().get(), attachmentTitleColor(), forceSingleLineTitle ? 1 : attachmentWrappingTextMaximumLineCount);
buildSingleLine(subtitle, attachmentSubtitleFont().get(), attachmentSubtitleColor());
if (!lines.isEmpty()) {
for (auto& line : lines) {
line.rect.setY(yOffset);
yOffset += line.rect.height() + attachmentItemMargin;
}
}
yOffset -= attachmentItemMargin;
contentYOrigin = (attachmentRect.height() / 2) - (yOffset / 2);
}
LayoutSize RenderThemeIOS::attachmentIntrinsicSize(const RenderAttachment&) const
{
return LayoutSize(FloatSize(attachmentSize));
}
int RenderThemeIOS::attachmentBaseline(const RenderAttachment& attachment) const
{
RenderAttachmentInfo info(attachment);
return info.baseline;
}
static void paintAttachmentIcon(GraphicsContext& context, RenderAttachmentInfo& info)
{
if (!info.icon)
return;
auto iconImage = BitmapImage::create([info.icon CGImage]);
context.drawImage(iconImage.get(), info.iconRect);
}
static void paintAttachmentText(GraphicsContext& context, RenderAttachmentInfo& info)
{
for (const auto& line : info.lines) {
GraphicsContextStateSaver saver(context);
context.translate(toFloatSize(line.rect.minXMaxYCorner()));
context.scale(FloatSize(1, -1));
CGContextSetTextPosition(context.platformContext(), 0, 0);
CTLineDraw(line.line.get(), context.platformContext());
}
}
static void paintAttachmentProgress(GraphicsContext& context, RenderAttachmentInfo& info)
{
GraphicsContextStateSaver saver(context);
context.setStrokeThickness(attachmentProgressBorderThickness);
context.setStrokeColor(attachmentProgressColor());
context.setFillColor(attachmentProgressColor());
context.strokeEllipse(info.progressRect);
FloatPoint center = info.progressRect.center();
Path progressPath;
progressPath.moveTo(center);
progressPath.addLineTo(FloatPoint(center.x(), info.progressRect.y()));
progressPath.addArc(center, info.progressRect.width() / 2, -M_PI_2, info.progress * 2 * M_PI - M_PI_2, 0);
progressPath.closeSubpath();
context.fillPath(progressPath);
}
static Path attachmentBorderPath(RenderAttachmentInfo& info)
{
auto insetAttachmentRect = info.attachmentRect;
insetAttachmentRect.inflate(-attachmentBorderThickness / 2);
Path borderPath;
borderPath.addRoundedRect(insetAttachmentRect, FloatSize(attachmentBorderRadius, attachmentBorderRadius));
return borderPath;
}
static void paintAttachmentBorder(GraphicsContext& context, Path& borderPath)
{
context.setStrokeColor(attachmentBorderColor());
context.setStrokeThickness(attachmentBorderThickness);
context.strokePath(borderPath);
}
bool RenderThemeIOS::paintAttachment(const RenderObject& renderer, const PaintInfo& paintInfo, const IntRect& paintRect)
{
if (!is<RenderAttachment>(renderer))
return false;
const RenderAttachment& attachment = downcast<RenderAttachment>(renderer);
RenderAttachmentInfo info(attachment);
GraphicsContext& context = paintInfo.context();
GraphicsContextStateSaver saver(context);
context.translate(toFloatSize(paintRect.location()));
if (attachment.shouldDrawBorder()) {
auto borderPath = attachmentBorderPath(info);
paintAttachmentBorder(context, borderPath);
context.clipPath(borderPath);
}
context.translate(FloatSize(0, info.contentYOrigin));
if (info.hasProgress)
paintAttachmentProgress(context, info);
else if (info.icon)
paintAttachmentIcon(context, info);
paintAttachmentText(context, info);
return true;
}
#endif // ENABLE(ATTACHMENT_ELEMENT)
#if PLATFORM(WATCHOS)
String RenderThemeIOS::extraDefaultStyleSheet()
{
return "* { -webkit-text-size-adjust: auto; -webkit-hyphens: auto !important; }"_s;
}
#endif
#if USE(SYSTEM_PREVIEW)
static NSBundle *arKitBundle()
{
static NSBundle *arKitBundle = []() {
#if PLATFORM(IOS_FAMILY_SIMULATOR)
dlopen("/System/Library/PrivateFrameworks/AssetViewer.framework/AssetViewer", RTLD_NOW);
return [NSBundle bundleForClass:NSClassFromString(@"ASVThumbnailView")];
#else
return [NSBundle bundleWithURL:[NSURL fileURLWithPath:@"/System/Library/PrivateFrameworks/AssetViewer.framework"]];
#endif
}();
return arKitBundle;
}
static RetainPtr<CGPDFPageRef> loadARKitPDFPage(NSString *imageName)
{
NSURL *url = [arKitBundle() URLForResource:imageName withExtension:@"pdf"];
if (!url)
return nullptr;
auto document = adoptCF(CGPDFDocumentCreateWithURL((CFURLRef)url));
if (!document)
return nullptr;
if (!CGPDFDocumentGetNumberOfPages(document.get()))
return nullptr;
return CGPDFDocumentGetPage(document.get(), 1);
}
static CGPDFPageRef systemPreviewLogo()
{
static CGPDFPageRef logoPage = loadARKitPDFPage(@"ARKitBadge").leakRef();
return logoPage;
}
void RenderThemeIOS::paintSystemPreviewBadge(Image& image, const PaintInfo& paintInfo, const FloatRect& rect)
{
static const int largeBadgeDimension = 70;
static const int largeBadgeOffset = 20;
static const int smallBadgeDimension = 35;
static const int smallBadgeOffset = 8;
static const int minimumSizeForLargeBadge = 240;
bool useSmallBadge = rect.width() < minimumSizeForLargeBadge || rect.height() < minimumSizeForLargeBadge;
int badgeOffset = useSmallBadge ? smallBadgeOffset : largeBadgeOffset;
int badgeDimension = useSmallBadge ? smallBadgeDimension : largeBadgeDimension;
int minimumDimension = badgeDimension + 2 * badgeOffset;
if (rect.width() < minimumDimension || rect.height() < minimumDimension)
return;
CGRect absoluteBadgeRect = CGRectMake(rect.x() + rect.width() - badgeDimension - badgeOffset, rect.y() + badgeOffset, badgeDimension, badgeDimension);
CGRect insetBadgeRect = CGRectMake(rect.width() - badgeDimension - badgeOffset, badgeOffset, badgeDimension, badgeDimension);
CGRect badgeRect = CGRectMake(0, 0, badgeDimension, badgeDimension);
CIImage *inputImage = [CIImage imageWithCGImage:image.nativeImage().get()];
// Create a circle to be used for the clipping path in the badge, as well as the drop shadow.
RetainPtr<CGPathRef> circle = adoptCF(CGPathCreateWithRoundedRect(absoluteBadgeRect, badgeDimension / 2, badgeDimension / 2, nullptr));
auto& graphicsContext = paintInfo.context();
if (graphicsContext.paintingDisabled())
return;
GraphicsContextStateSaver stateSaver(graphicsContext);
CGContextRef ctx = graphicsContext.platformContext();
if (!ctx)
return;
CGContextSaveGState(ctx);
// Draw a drop shadow around the circle.
// Use the GraphicsContext function, because it calculates the blur radius in context space,
// rather than screen space.
Color shadowColor = Color { 0.f, 0.f, 0.f, 0.1f };
graphicsContext.setShadow(FloatSize { }, 16, shadowColor);
// The circle must have an alpha channel value of 1 for the shadow color to appear.
CGFloat circleColorComponents[4] = { 0, 0, 0, 1 };
RetainPtr<CGColorRef> circleColor = adoptCF(CGColorCreate(sRGBColorSpaceRef(), circleColorComponents));
CGContextSetFillColorWithColor(ctx, circleColor.get());
// Clip out the circle to only show the shadow.
CGContextBeginPath(ctx);
CGContextAddRect(ctx, rect);
CGContextAddPath(ctx, circle.get());
CGContextClosePath(ctx);
CGContextEOClip(ctx);
// Draw a slightly smaller circle with a shadow, otherwise we'll see a fringe of the solid
// black circle around the edges of the clipped path below.
CGContextBeginPath(ctx);
CGRect slightlySmallerAbsoluteBadgeRect = CGRectMake(absoluteBadgeRect.origin.x + 0.5, absoluteBadgeRect.origin.y + 0.5, badgeDimension - 1, badgeDimension - 1);
RetainPtr<CGPathRef> slightlySmallerCircle = adoptCF(CGPathCreateWithRoundedRect(slightlySmallerAbsoluteBadgeRect, slightlySmallerAbsoluteBadgeRect.size.width / 2, slightlySmallerAbsoluteBadgeRect.size.height / 2, nullptr));
CGContextAddPath(ctx, slightlySmallerCircle.get());
CGContextClosePath(ctx);
CGContextFillPath(ctx);
CGContextRestoreGState(ctx);
// Draw the blurred backdrop. Scale from intrinsic size to render size.
CGAffineTransform transform = CGAffineTransformIdentity;
transform = CGAffineTransformScale(transform, rect.width() / image.width(), rect.height() / image.height());
CIImage *scaledImage = [inputImage imageByApplyingTransform:transform];
// CoreImage coordinates are y-up, so we need to flip the badge rectangle within the image frame.
CGRect flippedInsetBadgeRect = CGRectMake(insetBadgeRect.origin.x, rect.height() - insetBadgeRect.origin.y - insetBadgeRect.size.height, badgeDimension, badgeDimension);
// Create a cropped region with pixel values extending outwards.
CIImage *clampedImage = [scaledImage imageByClampingToRect:flippedInsetBadgeRect];
// Blur.
CIImage *blurredImage = [clampedImage imageByApplyingGaussianBlurWithSigma:10];
// Saturate.
CIFilter *saturationFilter = [CIFilter filterWithName:@"CIColorControls"];
[saturationFilter setValue:blurredImage forKey:kCIInputImageKey];
[saturationFilter setValue:@1.8 forKey:kCIInputSaturationKey];
// Tint.
CIFilter *tintFilter1 = [CIFilter filterWithName:@"CIConstantColorGenerator"];
CIColor *tintColor1 = [CIColor colorWithRed:1 green:1 blue:1 alpha:0.18];
[tintFilter1 setValue:tintColor1 forKey:kCIInputColorKey];
// Blend the tint with the saturated output.
CIFilter *sourceOverFilter = [CIFilter filterWithName:@"CISourceOverCompositing"];
[sourceOverFilter setValue:tintFilter1.outputImage forKey:kCIInputImageKey];
[sourceOverFilter setValue:saturationFilter.outputImage forKey:kCIInputBackgroundImageKey];
if (!m_ciContext)
m_ciContext = [CIContext context];
RetainPtr<CGImageRef> cgImage;
#if HAVE(IOSURFACE_COREIMAGE_SUPPORT)
// Crop the result to the badge location.
CIImage *croppedImage = [sourceOverFilter.outputImage imageByCroppingToRect:flippedInsetBadgeRect];
CIImage *translatedImage = [croppedImage imageByApplyingTransform:CGAffineTransformMakeTranslation(-flippedInsetBadgeRect.origin.x, -flippedInsetBadgeRect.origin.y)];
IOSurfaceRef surface;
if (useSmallBadge) {
if (!m_smallBadgeSurface)
m_smallBadgeSurface = IOSurface::create({ smallBadgeDimension, smallBadgeDimension }, sRGBColorSpaceRef());
surface = m_smallBadgeSurface->surface();
} else {
if (!m_largeBadgeSurface)
m_largeBadgeSurface = IOSurface::create({ largeBadgeDimension, largeBadgeDimension }, sRGBColorSpaceRef());
surface = m_largeBadgeSurface->surface();
}
[m_ciContext.get() render:translatedImage toIOSurface:surface bounds:badgeRect colorSpace:sRGBColorSpaceRef()];
cgImage = useSmallBadge ? m_smallBadgeSurface->createImage() : m_largeBadgeSurface->createImage();
#else
cgImage = adoptCF([m_ciContext.get() createCGImage:sourceOverFilter.outputImage fromRect:flippedInsetBadgeRect]);
#endif
// Before we render the result, we should clip to a circle around the badge rectangle.
CGContextSaveGState(ctx);
CGContextBeginPath(ctx);
CGContextAddPath(ctx, circle.get());
CGContextClosePath(ctx);
CGContextClip(ctx);
CGContextTranslateCTM(ctx, absoluteBadgeRect.origin.x, absoluteBadgeRect.origin.y);
CGContextTranslateCTM(ctx, 0, badgeDimension);
CGContextScaleCTM(ctx, 1, -1);
CGContextDrawImage(ctx, badgeRect, cgImage.get());
if (auto logo = systemPreviewLogo()) {
CGSize pdfSize = CGPDFPageGetBoxRect(logo, kCGPDFMediaBox).size;
CGFloat scaleX = badgeDimension / pdfSize.width;
CGFloat scaleY = badgeDimension / pdfSize.height;
CGContextScaleCTM(ctx, scaleX, scaleY);
CGContextDrawPDFPage(ctx, logo);
}
CGContextFlush(ctx);
CGContextRestoreGState(ctx);
}
#endif
} // namespace WebCore
#endif //PLATFORM(IOS_FAMILY)