/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsNativeThemeCocoa.h" #include #include "mozilla/gfx/2D.h" #include "mozilla/gfx/Helpers.h" #include "mozilla/gfx/PathHelpers.h" #include "nsChildView.h" #include "nsDeviceContext.h" #include "nsLayoutUtils.h" #include "nsObjCExceptions.h" #include "nsNumberControlFrame.h" #include "nsRangeFrame.h" #include "nsRect.h" #include "nsSize.h" #include "nsStyleConsts.h" #include "nsPresContext.h" #include "nsIContent.h" #include "mozilla/dom/Document.h" #include "nsIFrame.h" #include "nsAtom.h" #include "nsNameSpaceManager.h" #include "nsPresContext.h" #include "nsGkAtoms.h" #include "nsCocoaFeatures.h" #include "nsCocoaWindow.h" #include "nsNativeThemeColors.h" #include "nsIScrollableFrame.h" #include "mozilla/ClearOnShutdown.h" #include "mozilla/Range.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/HTMLMeterElement.h" #include "mozilla/layers/StackingContextHelper.h" #include "mozilla/StaticPrefs_layout.h" #include "mozilla/StaticPrefs_widget.h" #include "nsLookAndFeel.h" #include "MacThemeGeometryType.h" #include "SDKDeclarations.h" #include "VibrancyManager.h" #include "gfxContext.h" #include "gfxQuartzSurface.h" #include "gfxQuartzNativeDrawing.h" #include "gfxUtils.h" // for ToDeviceColor #include using namespace mozilla; using namespace mozilla::gfx; using mozilla::dom::HTMLMeterElement; #define DRAW_IN_FRAME_DEBUG 0 #define SCROLLBARS_VISUAL_DEBUG 0 // private Quartz routines needed here extern "C" { CG_EXTERN void CGContextSetCTM(CGContextRef, CGAffineTransform); CG_EXTERN void CGContextSetBaseCTM(CGContextRef, CGAffineTransform); typedef CFTypeRef CUIRendererRef; void CUIDraw(CUIRendererRef r, CGRect rect, CGContextRef ctx, CFDictionaryRef options, CFDictionaryRef* result); } // Workaround for NSCell control tint drawing // Without this workaround, NSCells are always drawn with the clear control tint // as long as they're not attached to an NSControl which is a subview of an active window. // XXXmstange Why doesn't Webkit need this? @implementation NSCell (ControlTintWorkaround) - (int)_realControlTint { return [self controlTint]; } @end // This is the window for our MOZCellDrawView. When an NSCell is drawn, some NSCell implementations // look at the draw view's window to determine whether the cell should draw with the active look. @interface MOZCellDrawWindow : NSWindow @property BOOL cellsShouldLookActive; @end @implementation MOZCellDrawWindow // Override three different methods, for good measure. The NSCell implementation could call any one // of them. - (BOOL)_hasActiveAppearance { return self.cellsShouldLookActive; } - (BOOL)hasKeyAppearance { return self.cellsShouldLookActive; } - (BOOL)_hasKeyAppearance { return self.cellsShouldLookActive; } @end // The purpose of this class is to provide objects that can be used when drawing // NSCells using drawWithFrame:inView: without causing any harm. Only a small // number of methods are called on the draw view, among those "isFlipped" and // "currentEditor": isFlipped needs to return YES in order to avoid drawing bugs // on 10.4 (see bug 465069); currentEditor (which isn't even a method of // NSView) will be called when drawing search fields, and we only provide it in // order to prevent "unrecognized selector" exceptions. // There's no need to pass the actual NSView that we're drawing into to // drawWithFrame:inView:. What's more, doing so even causes unnecessary // invalidations as soon as we draw a focusring! // This class needs to be an NSControl so that NSTextFieldCell (and // NSSearchFieldCell, which is a subclass of NSTextFieldCell) draws a focus ring. @interface MOZCellDrawView : NSControl // Called by NSTreeHeaderCell during drawing. @property BOOL _drawingEndSeparator; @end @implementation MOZCellDrawView - (BOOL)isFlipped { return YES; } - (NSText*)currentEditor { return nil; } @end static void DrawFocusRingForCellIfNeeded(NSCell* aCell, NSRect aWithFrame, NSView* aInView) { if ([aCell showsFirstResponder]) { CGContextRef cgContext = (CGContextRef)[[NSGraphicsContext currentContext] graphicsPort]; CGContextSaveGState(cgContext); // It's important to set the focus ring style before we enter the // transparency layer so that the transparency layer only contains // the normal button mask without the focus ring, and the conversion // to the focus ring shape happens only when the transparency layer is // ended. NSSetFocusRingStyle(NSFocusRingOnly); // We need to draw the whole button into a transparency layer because // many button types are composed of multiple parts, and if these parts // were drawn while the focus ring style was active, each individual part // would produce a focus ring for itself. But we only want one focus ring // for the whole button. The transparency layer is a way to merge the // individual button parts together before the focus ring shape is // calculated. CGContextBeginTransparencyLayerWithRect(cgContext, NSRectToCGRect(aWithFrame), 0); [aCell drawFocusRingMaskWithFrame:aWithFrame inView:aInView]; CGContextEndTransparencyLayer(cgContext); CGContextRestoreGState(cgContext); } } static void DrawCellIncludingFocusRing(NSCell* aCell, NSRect aWithFrame, NSView* aInView) { [aCell drawWithFrame:aWithFrame inView:aInView]; DrawFocusRingForCellIfNeeded(aCell, aWithFrame, aInView); } /** * NSProgressBarCell is used to draw progress bars of any size. */ @interface NSProgressBarCell : NSCell { /*All instance variables are private*/ double mValue; double mMax; bool mIsIndeterminate; bool mIsHorizontal; } - (void)setValue:(double)value; - (double)value; - (void)setMax:(double)max; - (double)max; - (void)setIndeterminate:(bool)aIndeterminate; - (bool)isIndeterminate; - (void)setHorizontal:(bool)aIsHorizontal; - (bool)isHorizontal; - (void)drawWithFrame:(NSRect)cellFrame inView:(NSView*)controlView; @end @implementation NSProgressBarCell - (void)setMax:(double)aMax { mMax = aMax; } - (double)max { return mMax; } - (void)setValue:(double)aValue { mValue = aValue; } - (double)value { return mValue; } - (void)setIndeterminate:(bool)aIndeterminate { mIsIndeterminate = aIndeterminate; } - (bool)isIndeterminate { return mIsIndeterminate; } - (void)setHorizontal:(bool)aIsHorizontal { mIsHorizontal = aIsHorizontal; } - (bool)isHorizontal { return mIsHorizontal; } - (void)drawWithFrame:(NSRect)cellFrame inView:(NSView*)controlView { CGContext* cgContext = (CGContextRef)[[NSGraphicsContext currentContext] graphicsPort]; HIThemeTrackDrawInfo tdi; tdi.version = 0; tdi.min = 0; tdi.value = INT32_MAX * (mValue / mMax); tdi.max = INT32_MAX; tdi.bounds = NSRectToCGRect(cellFrame); tdi.attributes = mIsHorizontal ? kThemeTrackHorizontal : 0; tdi.enableState = [self controlTint] == NSClearControlTint ? kThemeTrackInactive : kThemeTrackActive; NSControlSize size = [self controlSize]; if (size == NSControlSizeRegular) { tdi.kind = mIsIndeterminate ? kThemeLargeIndeterminateBar : kThemeLargeProgressBar; } else { NS_ASSERTION(size == NSControlSizeSmall, "We shouldn't have another size than small and regular for the moment"); tdi.kind = mIsIndeterminate ? kThemeMediumIndeterminateBar : kThemeMediumProgressBar; } int32_t stepsPerSecond = mIsIndeterminate ? 60 : 30; int32_t milliSecondsPerStep = 1000 / stepsPerSecond; tdi.trackInfo.progress.phase = uint8_t(PR_IntervalToMilliseconds(PR_IntervalNow()) / milliSecondsPerStep); HIThemeDrawTrack(&tdi, NULL, cgContext, kHIThemeOrientationNormal); } @end @interface MOZSearchFieldCell : NSSearchFieldCell @property BOOL shouldUseToolbarStyle; @end @implementation MOZSearchFieldCell - (instancetype)init { // We would like to render a search field which has the magnifying glass icon at the start of the // search field, and no cancel button. // On 10.12 and 10.13, empty search fields render the magnifying glass icon in the middle of the // field. So in order to get the icon to show at the start of the field, we need to give the field // some content. We achieve this with a single space character. self = [super initTextCell:@" "]; // However, because the field is now non-empty, by default it shows a cancel button. To hide the // cancel button, override it with a custom NSButtonCell which renders nothing. NSButtonCell* invisibleCell = [[NSButtonCell alloc] initImageCell:nil]; invisibleCell.bezeled = NO; invisibleCell.bordered = NO; self.cancelButtonCell = invisibleCell; [invisibleCell release]; return self; } - (BOOL)_isToolbarMode { return self.shouldUseToolbarStyle; } @end #define HITHEME_ORIENTATION kHIThemeOrientationNormal static CGFloat kMaxFocusRingWidth = 0; // initialized by the nsNativeThemeCocoa constructor // These enums are for indexing into the margin array. enum { leopardOSorlater = 0, // 10.6 - 10.9 yosemiteOSorlater = 1 // 10.10+ }; enum { miniControlSize, smallControlSize, regularControlSize }; enum { leftMargin, topMargin, rightMargin, bottomMargin }; static size_t EnumSizeForCocoaSize(NSControlSize cocoaControlSize) { if (cocoaControlSize == NSControlSizeMini) return miniControlSize; else if (cocoaControlSize == NSControlSizeSmall) return smallControlSize; else return regularControlSize; } static NSControlSize CocoaSizeForEnum(int32_t enumControlSize) { if (enumControlSize == miniControlSize) return NSControlSizeMini; else if (enumControlSize == smallControlSize) return NSControlSizeSmall; else return NSControlSizeRegular; } static NSString* CUIControlSizeForCocoaSize(NSControlSize aControlSize) { if (aControlSize == NSControlSizeRegular) return @"regular"; else if (aControlSize == NSControlSizeSmall) return @"small"; else return @"mini"; } static void InflateControlRect(NSRect* rect, NSControlSize cocoaControlSize, const float marginSet[][3][4]) { if (!marginSet) return; static int osIndex = yosemiteOSorlater; size_t controlSize = EnumSizeForCocoaSize(cocoaControlSize); const float* buttonMargins = marginSet[osIndex][controlSize]; rect->origin.x -= buttonMargins[leftMargin]; rect->origin.y -= buttonMargins[bottomMargin]; rect->size.width += buttonMargins[leftMargin] + buttonMargins[rightMargin]; rect->size.height += buttonMargins[bottomMargin] + buttonMargins[topMargin]; } static NSWindow* NativeWindowForFrame(nsIFrame* aFrame, nsIWidget** aTopLevelWidget = NULL) { if (!aFrame) return nil; nsIWidget* widget = aFrame->GetNearestWidget(); if (!widget) return nil; nsIWidget* topLevelWidget = widget->GetTopLevelWidget(); if (aTopLevelWidget) *aTopLevelWidget = topLevelWidget; return (NSWindow*)topLevelWidget->GetNativeData(NS_NATIVE_WINDOW); } static NSSize WindowButtonsSize(nsIFrame* aFrame) { NSWindow* window = NativeWindowForFrame(aFrame); if (!window) { // Return fallback values. return NSMakeSize(54, 16); } NSRect buttonBox = NSZeroRect; NSButton* closeButton = [window standardWindowButton:NSWindowCloseButton]; if (closeButton) { buttonBox = NSUnionRect(buttonBox, [closeButton frame]); } NSButton* minimizeButton = [window standardWindowButton:NSWindowMiniaturizeButton]; if (minimizeButton) { buttonBox = NSUnionRect(buttonBox, [minimizeButton frame]); } NSButton* zoomButton = [window standardWindowButton:NSWindowZoomButton]; if (zoomButton) { buttonBox = NSUnionRect(buttonBox, [zoomButton frame]); } return buttonBox.size; } static BOOL FrameIsInActiveWindow(nsIFrame* aFrame) { nsIWidget* topLevelWidget = NULL; NSWindow* win = NativeWindowForFrame(aFrame, &topLevelWidget); if (!topLevelWidget || !win) return YES; // XUL popups, e.g. the toolbar customization popup, can't become key windows, // but controls in these windows should still get the active look. if (topLevelWidget->WindowType() == eWindowType_popup) return YES; if ([win isSheet]) return [win isKeyWindow]; return [win isMainWindow] && ![win attachedSheet]; } // Toolbar controls and content controls respond to different window // activeness states. static BOOL IsActive(nsIFrame* aFrame, BOOL aIsToolbarControl) { if (aIsToolbarControl) return [NativeWindowForFrame(aFrame) isMainWindow]; return FrameIsInActiveWindow(aFrame); } static bool IsInSourceList(nsIFrame* aFrame) { for (nsIFrame* frame = aFrame->GetParent(); frame; frame = nsLayoutUtils::GetCrossDocParentFrameInProcess(frame)) { if (frame->StyleDisplay()->EffectiveAppearance() == StyleAppearance::MozMacSourceList) { return true; } } return false; } NS_IMPL_ISUPPORTS_INHERITED(nsNativeThemeCocoa, nsNativeTheme, nsITheme) nsNativeThemeCocoa::nsNativeThemeCocoa() : ThemeCocoa(ScrollbarStyle()) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; kMaxFocusRingWidth = 7; // provide a local autorelease pool, as this is called during startup // before the main event-loop pool is in place nsAutoreleasePool pool; mDisclosureButtonCell = [[NSButtonCell alloc] initTextCell:@""]; [mDisclosureButtonCell setBezelStyle:NSRoundedDisclosureBezelStyle]; [mDisclosureButtonCell setButtonType:NSPushOnPushOffButton]; [mDisclosureButtonCell setHighlightsBy:NSPushInCellMask]; mHelpButtonCell = [[NSButtonCell alloc] initTextCell:@""]; [mHelpButtonCell setBezelStyle:NSHelpButtonBezelStyle]; [mHelpButtonCell setButtonType:NSMomentaryPushInButton]; [mHelpButtonCell setHighlightsBy:NSPushInCellMask]; mPushButtonCell = [[NSButtonCell alloc] initTextCell:@""]; [mPushButtonCell setButtonType:NSMomentaryPushInButton]; [mPushButtonCell setHighlightsBy:NSPushInCellMask]; mRadioButtonCell = [[NSButtonCell alloc] initTextCell:@""]; [mRadioButtonCell setButtonType:NSRadioButton]; mCheckboxCell = [[NSButtonCell alloc] initTextCell:@""]; [mCheckboxCell setButtonType:NSSwitchButton]; [mCheckboxCell setAllowsMixedState:YES]; mTextFieldCell = [[NSTextFieldCell alloc] initTextCell:@""]; [mTextFieldCell setBezeled:YES]; [mTextFieldCell setEditable:YES]; [mTextFieldCell setFocusRingType:NSFocusRingTypeExterior]; mSearchFieldCell = [[MOZSearchFieldCell alloc] init]; [mSearchFieldCell setBezelStyle:NSTextFieldRoundedBezel]; [mSearchFieldCell setBezeled:YES]; [mSearchFieldCell setEditable:YES]; [mSearchFieldCell setFocusRingType:NSFocusRingTypeExterior]; mDropdownCell = [[NSPopUpButtonCell alloc] initTextCell:@"" pullsDown:NO]; mComboBoxCell = [[NSComboBoxCell alloc] initTextCell:@""]; [mComboBoxCell setBezeled:YES]; [mComboBoxCell setEditable:YES]; [mComboBoxCell setFocusRingType:NSFocusRingTypeExterior]; mProgressBarCell = [[NSProgressBarCell alloc] init]; mMeterBarCell = [[NSLevelIndicatorCell alloc] initWithLevelIndicatorStyle:NSContinuousCapacityLevelIndicatorStyle]; mTreeHeaderCell = [[NSTableHeaderCell alloc] init]; mCellDrawView = [[MOZCellDrawView alloc] init]; if (XRE_IsParentProcess()) { // Put the cell draw view into a window that is never shown. // This allows us to convince some NSCell implementations (such as NSButtonCell for default // buttons) to draw with the active appearance. Another benefit of putting the draw view in a // window is the fact that it lets NSTextFieldCell (and its subclass NSSearchFieldCell) inherit // the current NSApplication effectiveAppearance automatically, so the field adapts to Dark Mode // correctly. // We don't create this window when the native theme is used in the content process because // NSWindow creation runs into the sandbox and because we never run default buttons in content // processes anyway. mCellDrawWindow = [[MOZCellDrawWindow alloc] initWithContentRect:NSZeroRect styleMask:NSWindowStyleMaskBorderless backing:NSBackingStoreBuffered defer:NO]; [mCellDrawWindow.contentView addSubview:mCellDrawView]; } NS_OBJC_END_TRY_IGNORE_BLOCK; } nsNativeThemeCocoa::~nsNativeThemeCocoa() { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; [mMeterBarCell release]; [mProgressBarCell release]; [mDisclosureButtonCell release]; [mHelpButtonCell release]; [mPushButtonCell release]; [mRadioButtonCell release]; [mCheckboxCell release]; [mTextFieldCell release]; [mSearchFieldCell release]; [mDropdownCell release]; [mComboBoxCell release]; [mTreeHeaderCell release]; [mCellDrawWindow release]; [mCellDrawView release]; NS_OBJC_END_TRY_IGNORE_BLOCK; } // Limit on the area of the target rect (in pixels^2) in // DrawCellWithScaling() and DrawButton() and above which we // don't draw the object into a bitmap buffer. This is to avoid crashes in // [NSGraphicsContext graphicsContextWithGraphicsPort:flipped:] and // CGContextDrawImage(), and also to avoid very poor drawing performance in // CGContextDrawImage() when it scales the bitmap (particularly if xscale or // yscale is less than but near 1 -- e.g. 0.9). This value was determined // by trial and error, on OS X 10.4.11 and 10.5.4, and on systems with // different amounts of RAM. #define BITMAP_MAX_AREA 500000 static int GetBackingScaleFactorForRendering(CGContextRef cgContext) { CGAffineTransform ctm = CGContextGetUserSpaceToDeviceSpaceTransform(cgContext); CGRect transformedUserSpacePixel = CGRectApplyAffineTransform(CGRectMake(0, 0, 1, 1), ctm); float maxScale = std::max(fabs(transformedUserSpacePixel.size.width), fabs(transformedUserSpacePixel.size.height)); return maxScale > 1.0 ? 2 : 1; } /* * Draw the given NSCell into the given cgContext. * * destRect - the size and position of the resulting control rectangle * controlSize - the NSControlSize which will be given to the NSCell before * asking it to render * naturalSize - The natural dimensions of this control. * If the control rect size is not equal to either of these, a scale * will be applied to the context so that rendering the control at the * natural size will result in it filling the destRect space. * If a control has no natural dimensions in either/both axes, pass 0.0f. * minimumSize - The minimum dimensions of this control. * If the control rect size is less than the minimum for a given axis, * a scale will be applied to the context so that the minimum is used * for drawing. If a control has no minimum dimensions in either/both * axes, pass 0.0f. * marginSet - an array of margins; a multidimensional array of [2][3][4], * with the first dimension being the OS version (Tiger or Leopard), * the second being the control size (mini, small, regular), and the third * being the 4 margin values (left, top, right, bottom). * view - The NSView that we're drawing into. As far as I can tell, it doesn't * matter if this is really the right view; it just has to return YES when * asked for isFlipped. Otherwise we'll get drawing bugs on 10.4. * mirrorHorizontal - whether to mirror the cell horizontally */ static void DrawCellWithScaling(NSCell* cell, CGContextRef cgContext, const HIRect& destRect, NSControlSize controlSize, NSSize naturalSize, NSSize minimumSize, const float marginSet[][3][4], NSView* view, BOOL mirrorHorizontal) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; NSRect drawRect = NSMakeRect(destRect.origin.x, destRect.origin.y, destRect.size.width, destRect.size.height); if (naturalSize.width != 0.0f) drawRect.size.width = naturalSize.width; if (naturalSize.height != 0.0f) drawRect.size.height = naturalSize.height; // Keep aspect ratio when scaling if one dimension is free. if (naturalSize.width == 0.0f && naturalSize.height != 0.0f) drawRect.size.width = destRect.size.width * naturalSize.height / destRect.size.height; if (naturalSize.height == 0.0f && naturalSize.width != 0.0f) drawRect.size.height = destRect.size.height * naturalSize.width / destRect.size.width; // Honor minimum sizes. if (drawRect.size.width < minimumSize.width) drawRect.size.width = minimumSize.width; if (drawRect.size.height < minimumSize.height) drawRect.size.height = minimumSize.height; [NSGraphicsContext saveGraphicsState]; // Only skip the buffer if the area of our cell (in pixels^2) is too large. if (drawRect.size.width * drawRect.size.height > BITMAP_MAX_AREA) { // Inflate the rect Gecko gave us by the margin for the control. InflateControlRect(&drawRect, controlSize, marginSet); NSGraphicsContext* savedContext = [NSGraphicsContext currentContext]; [NSGraphicsContext setCurrentContext:[NSGraphicsContext graphicsContextWithGraphicsPort:cgContext flipped:YES]]; DrawCellIncludingFocusRing(cell, drawRect, view); [NSGraphicsContext setCurrentContext:savedContext]; } else { float w = ceil(drawRect.size.width); float h = ceil(drawRect.size.height); NSRect tmpRect = NSMakeRect(kMaxFocusRingWidth, kMaxFocusRingWidth, w, h); // inflate to figure out the frame we need to tell NSCell to draw in, to get something that's // 0,0,w,h InflateControlRect(&tmpRect, controlSize, marginSet); // and then, expand by kMaxFocusRingWidth size to make sure we can capture any focus ring w += kMaxFocusRingWidth * 2.0; h += kMaxFocusRingWidth * 2.0; int backingScaleFactor = GetBackingScaleFactorForRendering(cgContext); CGColorSpaceRef rgb = CGColorSpaceCreateDeviceRGB(); CGContextRef ctx = CGBitmapContextCreate( NULL, (int)w * backingScaleFactor, (int)h * backingScaleFactor, 8, (int)w * backingScaleFactor * 4, rgb, kCGImageAlphaPremultipliedFirst); CGColorSpaceRelease(rgb); // We need to flip the image twice in order to avoid drawing bugs on 10.4, see bug 465069. // This is the first flip transform, applied to cgContext. CGContextScaleCTM(cgContext, 1.0f, -1.0f); CGContextTranslateCTM(cgContext, 0.0f, -(2.0 * destRect.origin.y + destRect.size.height)); if (mirrorHorizontal) { CGContextScaleCTM(cgContext, -1.0f, 1.0f); CGContextTranslateCTM(cgContext, -(2.0 * destRect.origin.x + destRect.size.width), 0.0f); } NSGraphicsContext* savedContext = [NSGraphicsContext currentContext]; [NSGraphicsContext setCurrentContext:[NSGraphicsContext graphicsContextWithGraphicsPort:ctx flipped:YES]]; CGContextScaleCTM(ctx, backingScaleFactor, backingScaleFactor); // Set the context's "base transform" to in order to get correctly-sized focus rings. CGContextSetBaseCTM(ctx, CGAffineTransformMakeScale(backingScaleFactor, backingScaleFactor)); // This is the second flip transform, applied to ctx. CGContextScaleCTM(ctx, 1.0f, -1.0f); CGContextTranslateCTM(ctx, 0.0f, -(2.0 * tmpRect.origin.y + tmpRect.size.height)); DrawCellIncludingFocusRing(cell, tmpRect, view); [NSGraphicsContext setCurrentContext:savedContext]; CGImageRef img = CGBitmapContextCreateImage(ctx); // Drop the image into the original destination rectangle, scaling to fit // Only scale kMaxFocusRingWidth by xscale/yscale when the resulting rect // doesn't extend beyond the overflow rect float xscale = destRect.size.width / drawRect.size.width; float yscale = destRect.size.height / drawRect.size.height; float scaledFocusRingX = xscale < 1.0f ? kMaxFocusRingWidth * xscale : kMaxFocusRingWidth; float scaledFocusRingY = yscale < 1.0f ? kMaxFocusRingWidth * yscale : kMaxFocusRingWidth; CGContextDrawImage( cgContext, CGRectMake(destRect.origin.x - scaledFocusRingX, destRect.origin.y - scaledFocusRingY, destRect.size.width + scaledFocusRingX * 2, destRect.size.height + scaledFocusRingY * 2), img); CGImageRelease(img); CGContextRelease(ctx); } [NSGraphicsContext restoreGraphicsState]; #if DRAW_IN_FRAME_DEBUG CGContextSetRGBFillColor(cgContext, 0.0, 0.0, 0.5, 0.25); CGContextFillRect(cgContext, destRect); #endif NS_OBJC_END_TRY_IGNORE_BLOCK; } struct CellRenderSettings { // The natural dimensions of the control. // If a control has no natural dimensions in either/both axes, set to 0.0f. NSSize naturalSizes[3]; // The minimum dimensions of the control. // If a control has no minimum dimensions in either/both axes, set to 0.0f. NSSize minimumSizes[3]; // A three-dimensional array, // with the first dimension being the OS version ([0] 10.6-10.9, [1] 10.10 and above), // the second being the control size (mini, small, regular), and the third // being the 4 margin values (left, top, right, bottom). float margins[2][3][4]; }; /* * This is a helper method that returns the required NSControlSize given a size * and the size of the three controls plus a tolerance. * size - The width or the height of the element to draw. * sizes - An array with the all the width/height of the element for its * different sizes. * tolerance - The tolerance as passed to DrawCellWithSnapping. * NOTE: returns NSControlSizeRegular if all values in 'sizes' are zero. */ static NSControlSize FindControlSize(CGFloat size, const CGFloat* sizes, CGFloat tolerance) { for (uint32_t i = miniControlSize; i <= regularControlSize; ++i) { if (sizes[i] == 0) { continue; } CGFloat next = 0; // Find next value. for (uint32_t j = i + 1; j <= regularControlSize; ++j) { if (sizes[j] != 0) { next = sizes[j]; break; } } // If it's the latest value, we pick it. if (next == 0) { return CocoaSizeForEnum(i); } if (size <= sizes[i] + tolerance && size < next) { return CocoaSizeForEnum(i); } } // If we are here, that means sizes[] was an array with only empty values // or the algorithm above is wrong. // The former can happen but the later would be wrong. NS_ASSERTION(sizes[0] == 0 && sizes[1] == 0 && sizes[2] == 0, "We found no control! We shouldn't be there!"); return CocoaSizeForEnum(regularControlSize); } /* * Draw the given NSCell into the given cgContext with a nice control size. * * This function is similar to DrawCellWithScaling, but it decides what * control size to use based on the destRect's size. * Scaling is only applied when the difference between the destRect's size * and the next smaller natural size is greater than snapTolerance. Otherwise * it snaps to the next smaller control size without scaling because unscaled * controls look nicer. */ static void DrawCellWithSnapping(NSCell* cell, CGContextRef cgContext, const HIRect& destRect, const CellRenderSettings settings, float verticalAlignFactor, NSView* view, BOOL mirrorHorizontal, float snapTolerance = 2.0f) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; const float rectWidth = destRect.size.width, rectHeight = destRect.size.height; const NSSize* sizes = settings.naturalSizes; const NSSize miniSize = sizes[EnumSizeForCocoaSize(NSControlSizeMini)]; const NSSize smallSize = sizes[EnumSizeForCocoaSize(NSControlSizeSmall)]; const NSSize regularSize = sizes[EnumSizeForCocoaSize(NSControlSizeRegular)]; HIRect drawRect = destRect; CGFloat controlWidths[3] = {miniSize.width, smallSize.width, regularSize.width}; NSControlSize controlSizeX = FindControlSize(rectWidth, controlWidths, snapTolerance); CGFloat controlHeights[3] = {miniSize.height, smallSize.height, regularSize.height}; NSControlSize controlSizeY = FindControlSize(rectHeight, controlHeights, snapTolerance); NSControlSize controlSize = NSControlSizeRegular; size_t sizeIndex = 0; // At some sizes, don't scale but snap. const NSControlSize smallerControlSize = EnumSizeForCocoaSize(controlSizeX) < EnumSizeForCocoaSize(controlSizeY) ? controlSizeX : controlSizeY; const size_t smallerControlSizeIndex = EnumSizeForCocoaSize(smallerControlSize); const NSSize size = sizes[smallerControlSizeIndex]; float diffWidth = size.width ? rectWidth - size.width : 0.0f; float diffHeight = size.height ? rectHeight - size.height : 0.0f; if (diffWidth >= 0.0f && diffHeight >= 0.0f && diffWidth <= snapTolerance && diffHeight <= snapTolerance) { // Snap to the smaller control size. controlSize = smallerControlSize; sizeIndex = smallerControlSizeIndex; MOZ_ASSERT(sizeIndex < ArrayLength(settings.naturalSizes)); // Resize and center the drawRect. if (sizes[sizeIndex].width) { drawRect.origin.x += ceil((destRect.size.width - sizes[sizeIndex].width) / 2); drawRect.size.width = sizes[sizeIndex].width; } if (sizes[sizeIndex].height) { drawRect.origin.y += floor((destRect.size.height - sizes[sizeIndex].height) * verticalAlignFactor); drawRect.size.height = sizes[sizeIndex].height; } } else { // Use the larger control size. controlSize = EnumSizeForCocoaSize(controlSizeX) > EnumSizeForCocoaSize(controlSizeY) ? controlSizeX : controlSizeY; sizeIndex = EnumSizeForCocoaSize(controlSize); } [cell setControlSize:controlSize]; MOZ_ASSERT(sizeIndex < ArrayLength(settings.minimumSizes)); const NSSize minimumSize = settings.minimumSizes[sizeIndex]; DrawCellWithScaling(cell, cgContext, drawRect, controlSize, sizes[sizeIndex], minimumSize, settings.margins, view, mirrorHorizontal); NS_OBJC_END_TRY_IGNORE_BLOCK; } @interface NSWindow (CoreUIRendererPrivate) + (CUIRendererRef)coreUIRenderer; @end @interface NSObject (NSAppearanceCoreUIRendering) - (void)_drawInRect:(CGRect)rect context:(CGContextRef)cgContext options:(id)options; @end static void RenderWithCoreUI(CGRect aRect, CGContextRef cgContext, NSDictionary* aOptions, bool aSkipAreaCheck = false) { if (!aSkipAreaCheck && aRect.size.width * aRect.size.height > BITMAP_MAX_AREA) { return; } NSAppearance* appearance = NSAppearance.currentAppearance; if (appearance && [appearance respondsToSelector:@selector(_drawInRect:context:options:)]) { // Render through NSAppearance on Mac OS 10.10 and up. This will call // CUIDraw with a CoreUI renderer that will give us the correct 10.10 // style. Calling CUIDraw directly with [NSWindow coreUIRenderer] still // renders 10.9-style widgets on 10.10. [appearance _drawInRect:aRect context:cgContext options:aOptions]; } else { // 10.9 and below CUIRendererRef renderer = [NSWindow respondsToSelector:@selector(coreUIRenderer)] ? [NSWindow coreUIRenderer] : nil; CUIDraw(renderer, aRect, cgContext, (CFDictionaryRef)aOptions, NULL); } } static float VerticalAlignFactor(nsIFrame* aFrame) { if (!aFrame) return 0.5f; // default: center const auto& va = aFrame->StyleDisplay()->mVerticalAlign; auto kw = va.IsKeyword() ? va.AsKeyword() : StyleVerticalAlignKeyword::Middle; switch (kw) { case StyleVerticalAlignKeyword::Top: case StyleVerticalAlignKeyword::TextTop: return 0.0f; case StyleVerticalAlignKeyword::Sub: case StyleVerticalAlignKeyword::Super: case StyleVerticalAlignKeyword::Middle: case StyleVerticalAlignKeyword::MozMiddleWithBaseline: return 0.5f; case StyleVerticalAlignKeyword::Baseline: case StyleVerticalAlignKeyword::Bottom: case StyleVerticalAlignKeyword::TextBottom: return 1.0f; default: MOZ_ASSERT_UNREACHABLE("invalid vertical-align"); return 0.5f; } } static void ApplyControlParamsToNSCell(nsNativeThemeCocoa::ControlParams aControlParams, NSCell* aCell) { [aCell setEnabled:!aControlParams.disabled]; [aCell setShowsFirstResponder:(aControlParams.focused && !aControlParams.disabled && aControlParams.insideActiveWindow)]; [aCell setHighlighted:aControlParams.pressed]; } // These are the sizes that Gecko needs to request to draw if it wants // to get a standard-sized Aqua radio button drawn. Note that the rects // that draw these are actually a little bigger. static const CellRenderSettings radioSettings = {{ NSMakeSize(11, 11), // mini NSMakeSize(13, 13), // small NSMakeSize(16, 16) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {0, 0, 0, 0}, // mini {0, 1, 1, 1}, // small {0, 0, 0, 0} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {1, 1, 1, 2}, // small {0, 0, 0, 0} // regular }}}; static const CellRenderSettings checkboxSettings = {{ NSMakeSize(11, 11), // mini NSMakeSize(13, 13), // small NSMakeSize(16, 16) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {0, 1, 0, 0}, // mini {0, 1, 0, 1}, // small {0, 1, 0, 1} // regular }, { // Yosemite {0, 1, 0, 0}, // mini {0, 1, 0, 1}, // small {0, 1, 0, 1} // regular }}}; static NSCellStateValue CellStateForCheckboxOrRadioState( nsNativeThemeCocoa::CheckboxOrRadioState aState) { switch (aState) { case nsNativeThemeCocoa::CheckboxOrRadioState::eOff: return NSOffState; case nsNativeThemeCocoa::CheckboxOrRadioState::eOn: return NSOnState; case nsNativeThemeCocoa::CheckboxOrRadioState::eIndeterminate: return NSMixedState; } } void nsNativeThemeCocoa::DrawCheckboxOrRadio(CGContextRef cgContext, bool inCheckbox, const HIRect& inBoxRect, const CheckboxOrRadioParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; NSButtonCell* cell = inCheckbox ? mCheckboxCell : mRadioButtonCell; ApplyControlParamsToNSCell(aParams.controlParams, cell); [cell setState:CellStateForCheckboxOrRadioState(aParams.state)]; [cell setControlTint:(aParams.controlParams.insideActiveWindow ? [NSColor currentControlTint] : NSClearControlTint)]; // Ensure that the control is square. float length = std::min(inBoxRect.size.width, inBoxRect.size.height); HIRect drawRect = CGRectMake(inBoxRect.origin.x + (int)((inBoxRect.size.width - length) / 2.0f), inBoxRect.origin.y + (int)((inBoxRect.size.height - length) / 2.0f), length, length); if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aParams.controlParams.insideActiveWindow; } DrawCellWithSnapping(cell, cgContext, drawRect, inCheckbox ? checkboxSettings : radioSettings, aParams.verticalAlignFactor, mCellDrawView, NO); NS_OBJC_END_TRY_IGNORE_BLOCK; } static const CellRenderSettings searchFieldSettings = {{ NSMakeSize(0, 16), // mini NSMakeSize(0, 19), // small NSMakeSize(0, 22) // regular }, { NSMakeSize(32, 0), // mini NSMakeSize(38, 0), // small NSMakeSize(44, 0) // regular }, {{ // Leopard {0, 0, 0, 0}, // mini {0, 0, 0, 0}, // small {0, 0, 0, 0} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {0, 0, 0, 0}, // small {0, 0, 0, 0} // regular }}}; static bool IsToolbarStyleContainer(nsIFrame* aFrame) { nsIContent* content = aFrame->GetContent(); if (!content) { return false; } if (content->IsAnyOfXULElements(nsGkAtoms::toolbar, nsGkAtoms::toolbox, nsGkAtoms::statusbar)) { return true; } switch (aFrame->StyleDisplay()->EffectiveAppearance()) { case StyleAppearance::Toolbar: case StyleAppearance::Statusbar: return true; default: return false; } } static bool IsInsideToolbar(nsIFrame* aFrame) { for (nsIFrame* frame = aFrame; frame; frame = frame->GetParent()) { if (IsToolbarStyleContainer(frame)) { return true; } } return false; } nsNativeThemeCocoa::TextFieldParams nsNativeThemeCocoa::ComputeTextFieldParams( nsIFrame* aFrame, ElementState aEventState) { TextFieldParams params; params.insideToolbar = IsInsideToolbar(aFrame); params.disabled = aEventState.HasState(ElementState::DISABLED); // See ShouldUnconditionallyDrawFocusRingIfFocused. params.focused = aEventState.HasState(ElementState::FOCUS); params.rtl = IsFrameRTL(aFrame); params.verticalAlignFactor = VerticalAlignFactor(aFrame); return params; } void nsNativeThemeCocoa::DrawTextField(CGContextRef cgContext, const HIRect& inBoxRect, const TextFieldParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; NSTextFieldCell* cell = mTextFieldCell; [cell setEnabled:!aParams.disabled]; [cell setShowsFirstResponder:aParams.focused]; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = YES; // TODO: propagate correct activeness state } DrawCellWithSnapping(cell, cgContext, inBoxRect, searchFieldSettings, aParams.verticalAlignFactor, mCellDrawView, aParams.rtl); NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawSearchField(CGContextRef cgContext, const HIRect& inBoxRect, const TextFieldParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; mSearchFieldCell.enabled = !aParams.disabled; mSearchFieldCell.showsFirstResponder = aParams.focused; mSearchFieldCell.placeholderString = @""; mSearchFieldCell.shouldUseToolbarStyle = aParams.insideToolbar; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = YES; // TODO: propagate correct activeness state } DrawCellWithSnapping(mSearchFieldCell, cgContext, inBoxRect, searchFieldSettings, aParams.verticalAlignFactor, mCellDrawView, aParams.rtl); NS_OBJC_END_TRY_IGNORE_BLOCK; } static const NSSize kCheckmarkSize = NSMakeSize(11, 11); static const NSSize kMenuarrowSize = NSMakeSize(9, 10); static const NSSize kMenuScrollArrowSize = NSMakeSize(10, 8); static NSString* kCheckmarkImage = @"MenuOnState"; static NSString* kMenuarrowRightImage = @"MenuSubmenu"; static NSString* kMenuarrowLeftImage = @"MenuSubmenuLeft"; static NSString* kMenuDownScrollArrowImage = @"MenuScrollDown"; static NSString* kMenuUpScrollArrowImage = @"MenuScrollUp"; static const CGFloat kMenuIconIndent = 6.0f; NSString* nsNativeThemeCocoa::GetMenuIconName(const MenuIconParams& aParams) { switch (aParams.icon) { case MenuIcon::eCheckmark: return kCheckmarkImage; case MenuIcon::eMenuArrow: return aParams.rtl ? kMenuarrowLeftImage : kMenuarrowRightImage; case MenuIcon::eMenuDownScrollArrow: return kMenuDownScrollArrowImage; case MenuIcon::eMenuUpScrollArrow: return kMenuUpScrollArrowImage; } } NSSize nsNativeThemeCocoa::GetMenuIconSize(MenuIcon aIcon) { switch (aIcon) { case MenuIcon::eCheckmark: return kCheckmarkSize; case MenuIcon::eMenuArrow: return kMenuarrowSize; case MenuIcon::eMenuDownScrollArrow: case MenuIcon::eMenuUpScrollArrow: return kMenuScrollArrowSize; } } nsNativeThemeCocoa::MenuIconParams nsNativeThemeCocoa::ComputeMenuIconParams( nsIFrame* aFrame, ElementState aEventState, MenuIcon aIcon) { bool isDisabled = aEventState.HasState(ElementState::DISABLED); MenuIconParams params; params.icon = aIcon; params.disabled = isDisabled; params.insideActiveMenuItem = !isDisabled && CheckBooleanAttr(aFrame, nsGkAtoms::menuactive); params.centerHorizontally = true; params.rtl = IsFrameRTL(aFrame); return params; } void nsNativeThemeCocoa::DrawMenuIcon(CGContextRef cgContext, const CGRect& aRect, const MenuIconParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; NSSize size = GetMenuIconSize(aParams.icon); // Adjust size and position of our drawRect. CGFloat paddingX = std::max(CGFloat(0.0), aRect.size.width - size.width); CGFloat paddingY = std::max(CGFloat(0.0), aRect.size.height - size.height); CGFloat paddingStartX = std::min(paddingX, kMenuIconIndent); CGFloat paddingEndX = std::max(CGFloat(0.0), paddingX - kMenuIconIndent); CGRect drawRect = CGRectMake(aRect.origin.x + (aParams.centerHorizontally ? ceil(paddingX / 2) : aParams.rtl ? paddingEndX : paddingStartX), aRect.origin.y + ceil(paddingY / 2), size.width, size.height); NSString* state = aParams.disabled ? @"disabled" : (aParams.insideActiveMenuItem ? @"pressed" : @"normal"); NSString* imageName = GetMenuIconName(aParams); RenderWithCoreUI( drawRect, cgContext, [NSDictionary dictionaryWithObjectsAndKeys:@"kCUIBackgroundTypeMenu", @"backgroundTypeKey", imageName, @"imageNameKey", state, @"state", @"image", @"widget", [NSNumber numberWithBool:YES], @"is.flipped", nil]); #if DRAW_IN_FRAME_DEBUG CGContextSetRGBFillColor(cgContext, 0.0, 0.0, 0.5, 0.25); CGContextFillRect(cgContext, drawRect); #endif NS_OBJC_END_TRY_IGNORE_BLOCK; } nsNativeThemeCocoa::MenuItemParams nsNativeThemeCocoa::ComputeMenuItemParams( nsIFrame* aFrame, ElementState aEventState, bool aIsChecked) { bool isDisabled = aEventState.HasState(ElementState::DISABLED); MenuItemParams params; params.checked = aIsChecked; params.disabled = isDisabled; params.selected = !isDisabled && CheckBooleanAttr(aFrame, nsGkAtoms::menuactive); params.rtl = IsFrameRTL(aFrame); return params; } void nsNativeThemeCocoa::DrawMenuItem(CGContextRef cgContext, const CGRect& inBoxRect, const MenuItemParams& aParams) { if (aParams.checked) { MenuIconParams params; params.disabled = aParams.disabled; params.insideActiveMenuItem = aParams.selected; params.rtl = aParams.rtl; params.icon = MenuIcon::eCheckmark; DrawMenuIcon(cgContext, inBoxRect, params); } } void nsNativeThemeCocoa::DrawMenuSeparator(CGContextRef cgContext, const CGRect& inBoxRect, const MenuItemParams& aParams) { // Workaround for visual artifacts issues with // HIThemeDrawMenuSeparator on macOS Big Sur. if (nsCocoaFeatures::OnBigSurOrLater()) { CGRect separatorRect = inBoxRect; separatorRect.size.height = 1; separatorRect.size.width -= 42; separatorRect.origin.x += 21; // Use transparent black with an alpha similar to the native separator. // The values 231 (menu background) and 205 (separator color) have been // sampled from a window screenshot of a native context menu. CGContextSetRGBFillColor(cgContext, 0.0, 0.0, 0.0, (231 - 205) / 231.0); CGContextFillRect(cgContext, separatorRect); return; } ThemeMenuState menuState; if (aParams.disabled) { menuState = kThemeMenuDisabled; } else { menuState = aParams.selected ? kThemeMenuSelected : kThemeMenuActive; } HIThemeMenuItemDrawInfo midi = {0, kThemeMenuItemPlain, menuState}; HIThemeDrawMenuSeparator(&inBoxRect, &inBoxRect, &midi, cgContext, HITHEME_ORIENTATION); } static bool ShouldUnconditionallyDrawFocusRingIfFocused(nsIFrame* aFrame) { // Mac always draws focus rings for textboxes and lists. switch (aFrame->StyleDisplay()->EffectiveAppearance()) { case StyleAppearance::NumberInput: case StyleAppearance::Textfield: case StyleAppearance::Textarea: case StyleAppearance::Searchfield: case StyleAppearance::Listbox: return true; default: return false; } } nsNativeThemeCocoa::ControlParams nsNativeThemeCocoa::ComputeControlParams( nsIFrame* aFrame, ElementState aEventState) { ControlParams params; params.disabled = aEventState.HasState(ElementState::DISABLED); params.insideActiveWindow = FrameIsInActiveWindow(aFrame); params.pressed = aEventState.HasAllStates(ElementState::ACTIVE | ElementState::HOVER); params.focused = aEventState.HasState(ElementState::FOCUS) && (aEventState.HasState(ElementState::FOCUSRING) || ShouldUnconditionallyDrawFocusRingIfFocused(aFrame)); params.rtl = IsFrameRTL(aFrame); return params; } static const NSSize kHelpButtonSize = NSMakeSize(20, 20); static const NSSize kDisclosureButtonSize = NSMakeSize(21, 21); static const CellRenderSettings pushButtonSettings = {{ NSMakeSize(0, 16), // mini NSMakeSize(0, 19), // small NSMakeSize(0, 22) // regular }, { NSMakeSize(18, 0), // mini NSMakeSize(26, 0), // small NSMakeSize(30, 0) // regular }, {{ // Leopard {0, 0, 0, 0}, // mini {4, 0, 4, 1}, // small {5, 0, 5, 2} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {4, 0, 4, 1}, // small {5, 0, 5, 2} // regular }}}; // The height at which we start doing square buttons instead of rounded buttons // Rounded buttons look bad if drawn at a height greater than 26, so at that point // we switch over to doing square buttons which looks fine at any size. #define DO_SQUARE_BUTTON_HEIGHT 26 void nsNativeThemeCocoa::DrawPushButton(CGContextRef cgContext, const HIRect& inBoxRect, ButtonType aButtonType, ControlParams aControlParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; ApplyControlParamsToNSCell(aControlParams, mPushButtonCell); [mPushButtonCell setBezelStyle:NSRoundedBezelStyle]; mPushButtonCell.keyEquivalent = aButtonType == ButtonType::eDefaultPushButton ? @"\r" : @""; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aControlParams.insideActiveWindow; } DrawCellWithSnapping(mPushButtonCell, cgContext, inBoxRect, pushButtonSettings, 0.5f, mCellDrawView, aControlParams.rtl, 1.0f); NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawSquareBezelPushButton(CGContextRef cgContext, const HIRect& inBoxRect, ControlParams aControlParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; ApplyControlParamsToNSCell(aControlParams, mPushButtonCell); [mPushButtonCell setBezelStyle:NSShadowlessSquareBezelStyle]; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aControlParams.insideActiveWindow; } DrawCellWithScaling(mPushButtonCell, cgContext, inBoxRect, NSControlSizeRegular, NSZeroSize, NSMakeSize(14, 0), NULL, mCellDrawView, aControlParams.rtl); NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawHelpButton(CGContextRef cgContext, const HIRect& inBoxRect, ControlParams aControlParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; ApplyControlParamsToNSCell(aControlParams, mHelpButtonCell); if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aControlParams.insideActiveWindow; } DrawCellWithScaling(mHelpButtonCell, cgContext, inBoxRect, NSControlSizeRegular, NSZeroSize, kHelpButtonSize, NULL, mCellDrawView, false); // Don't mirror icon in RTL. NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawDisclosureButton(CGContextRef cgContext, const HIRect& inBoxRect, ControlParams aControlParams, NSCellStateValue aCellState) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; ApplyControlParamsToNSCell(aControlParams, mDisclosureButtonCell); [mDisclosureButtonCell setState:aCellState]; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aControlParams.insideActiveWindow; } DrawCellWithScaling(mDisclosureButtonCell, cgContext, inBoxRect, NSControlSizeRegular, NSZeroSize, kDisclosureButtonSize, NULL, mCellDrawView, false); // Don't mirror icon in RTL. NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawFocusOutline(CGContextRef cgContext, const HIRect& inBoxRect) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; NSGraphicsContext* savedContext = [NSGraphicsContext currentContext]; [NSGraphicsContext setCurrentContext:[NSGraphicsContext graphicsContextWithGraphicsPort:cgContext flipped:YES]]; CGContextSaveGState(cgContext); NSSetFocusRingStyle(NSFocusRingOnly); NSRectFill(NSRectFromCGRect(inBoxRect)); CGContextRestoreGState(cgContext); [NSGraphicsContext setCurrentContext:savedContext]; NS_OBJC_END_TRY_IGNORE_BLOCK; } typedef void (*RenderHIThemeControlFunction)(CGContextRef cgContext, const HIRect& aRenderRect, void* aData); static void RenderTransformedHIThemeControl(CGContextRef aCGContext, const HIRect& aRect, RenderHIThemeControlFunction aFunc, void* aData, BOOL mirrorHorizontally = NO) { CGAffineTransform savedCTM = CGContextGetCTM(aCGContext); CGContextTranslateCTM(aCGContext, aRect.origin.x, aRect.origin.y); bool drawDirect; HIRect drawRect = aRect; drawRect.origin = CGPointZero; if (!mirrorHorizontally && savedCTM.a == 1.0f && savedCTM.b == 0.0f && savedCTM.c == 0.0f && (savedCTM.d == 1.0f || savedCTM.d == -1.0f)) { drawDirect = TRUE; } else { drawDirect = FALSE; } // Fall back to no bitmap buffer if the area of our control (in pixels^2) // is too large. if (drawDirect || (aRect.size.width * aRect.size.height > BITMAP_MAX_AREA)) { aFunc(aCGContext, drawRect, aData); } else { // Inflate the buffer to capture focus rings. int w = ceil(drawRect.size.width) + 2 * kMaxFocusRingWidth; int h = ceil(drawRect.size.height) + 2 * kMaxFocusRingWidth; int backingScaleFactor = GetBackingScaleFactorForRendering(aCGContext); CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB(); CGContextRef bitmapctx = CGBitmapContextCreate( NULL, w * backingScaleFactor, h * backingScaleFactor, 8, w * backingScaleFactor * 4, colorSpace, kCGImageAlphaPremultipliedFirst); CGColorSpaceRelease(colorSpace); CGContextScaleCTM(bitmapctx, backingScaleFactor, backingScaleFactor); CGContextTranslateCTM(bitmapctx, kMaxFocusRingWidth, kMaxFocusRingWidth); // Set the context's "base transform" to in order to get correctly-sized focus rings. CGContextSetBaseCTM(bitmapctx, CGAffineTransformMakeScale(backingScaleFactor, backingScaleFactor)); // HITheme always wants to draw into a flipped context, or things // get confused. CGContextTranslateCTM(bitmapctx, 0.0f, aRect.size.height); CGContextScaleCTM(bitmapctx, 1.0f, -1.0f); aFunc(bitmapctx, drawRect, aData); CGImageRef bitmap = CGBitmapContextCreateImage(bitmapctx); CGAffineTransform ctm = CGContextGetCTM(aCGContext); // We need to unflip, so that we can do a DrawImage without getting a flipped image. CGContextTranslateCTM(aCGContext, 0.0f, aRect.size.height); CGContextScaleCTM(aCGContext, 1.0f, -1.0f); if (mirrorHorizontally) { CGContextTranslateCTM(aCGContext, aRect.size.width, 0); CGContextScaleCTM(aCGContext, -1.0f, 1.0f); } HIRect inflatedDrawRect = CGRectMake(-kMaxFocusRingWidth, -kMaxFocusRingWidth, w, h); CGContextDrawImage(aCGContext, inflatedDrawRect, bitmap); CGContextSetCTM(aCGContext, ctm); CGImageRelease(bitmap); CGContextRelease(bitmapctx); } CGContextSetCTM(aCGContext, savedCTM); } static void RenderButton(CGContextRef cgContext, const HIRect& aRenderRect, void* aData) { HIThemeButtonDrawInfo* bdi = (HIThemeButtonDrawInfo*)aData; HIThemeDrawButton(&aRenderRect, bdi, cgContext, kHIThemeOrientationNormal, NULL); } static ThemeDrawState ToThemeDrawState(const nsNativeThemeCocoa::ControlParams& aParams) { if (aParams.disabled) { return kThemeStateUnavailable; } if (aParams.pressed) { return kThemeStatePressed; } return kThemeStateActive; } void nsNativeThemeCocoa::DrawHIThemeButton(CGContextRef cgContext, const HIRect& aRect, ThemeButtonKind aKind, ThemeButtonValue aValue, ThemeDrawState aState, ThemeButtonAdornment aAdornment, const ControlParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; HIThemeButtonDrawInfo bdi; bdi.version = 0; bdi.kind = aKind; bdi.value = aValue; bdi.state = aState; bdi.adornment = aAdornment; if (aParams.focused && aParams.insideActiveWindow) { bdi.adornment |= kThemeAdornmentFocus; } RenderTransformedHIThemeControl(cgContext, aRect, RenderButton, &bdi, aParams.rtl); #if DRAW_IN_FRAME_DEBUG CGContextSetRGBFillColor(cgContext, 0.0, 0.0, 0.5, 0.25); CGContextFillRect(cgContext, inBoxRect); #endif NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawButton(CGContextRef cgContext, const HIRect& inBoxRect, const ButtonParams& aParams) { ControlParams controlParams = aParams.controlParams; switch (aParams.button) { case ButtonType::eRegularPushButton: case ButtonType::eDefaultPushButton: DrawPushButton(cgContext, inBoxRect, aParams.button, controlParams); return; case ButtonType::eSquareBezelPushButton: DrawSquareBezelPushButton(cgContext, inBoxRect, controlParams); return; case ButtonType::eArrowButton: DrawHIThemeButton(cgContext, inBoxRect, kThemeArrowButton, kThemeButtonOn, kThemeStateUnavailable, kThemeAdornmentArrowDownArrow, controlParams); return; case ButtonType::eHelpButton: DrawHelpButton(cgContext, inBoxRect, controlParams); return; case ButtonType::eTreeTwistyPointingRight: DrawHIThemeButton(cgContext, inBoxRect, kThemeDisclosureButton, kThemeDisclosureRight, ToThemeDrawState(controlParams), kThemeAdornmentNone, controlParams); return; case ButtonType::eTreeTwistyPointingDown: DrawHIThemeButton(cgContext, inBoxRect, kThemeDisclosureButton, kThemeDisclosureDown, ToThemeDrawState(controlParams), kThemeAdornmentNone, controlParams); return; case ButtonType::eDisclosureButtonClosed: DrawDisclosureButton(cgContext, inBoxRect, controlParams, NSOffState); return; case ButtonType::eDisclosureButtonOpen: DrawDisclosureButton(cgContext, inBoxRect, controlParams, NSOnState); return; } } nsNativeThemeCocoa::TreeHeaderCellParams nsNativeThemeCocoa::ComputeTreeHeaderCellParams( nsIFrame* aFrame, ElementState aEventState) { TreeHeaderCellParams params; params.controlParams = ComputeControlParams(aFrame, aEventState); params.sortDirection = GetTreeSortDirection(aFrame); params.lastTreeHeaderCell = IsLastTreeHeaderCell(aFrame); return params; } @interface NSTableHeaderCell (NSTableHeaderCell_setSortable) // This method has been present in the same form since at least macOS 10.4. - (void)_setSortable:(BOOL)arg1 showSortIndicator:(BOOL)arg2 ascending:(BOOL)arg3 priority:(NSInteger)arg4 highlightForSort:(BOOL)arg5; @end void nsNativeThemeCocoa::DrawTreeHeaderCell(CGContextRef cgContext, const HIRect& inBoxRect, const TreeHeaderCellParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; // Without clearing the cell's title, it takes on a default value of "Field", // which is displayed underneath the title set in the front-end. NSCell* cell = (NSCell*)mTreeHeaderCell; cell.title = @""; if ([mTreeHeaderCell respondsToSelector:@selector (_setSortable:showSortIndicator:ascending:priority:highlightForSort:)]) { switch (aParams.sortDirection) { case eTreeSortDirection_Ascending: [mTreeHeaderCell _setSortable:YES showSortIndicator:YES ascending:YES priority:0 highlightForSort:YES]; break; case eTreeSortDirection_Descending: [mTreeHeaderCell _setSortable:YES showSortIndicator:YES ascending:NO priority:0 highlightForSort:YES]; break; default: // eTreeSortDirection_Natural [mTreeHeaderCell _setSortable:YES showSortIndicator:NO ascending:YES priority:0 highlightForSort:NO]; break; } } mTreeHeaderCell.enabled = !aParams.controlParams.disabled; mTreeHeaderCell.state = (mTreeHeaderCell.enabled && aParams.controlParams.pressed) ? NSOnState : NSOffState; mCellDrawView._drawingEndSeparator = !aParams.lastTreeHeaderCell; NSGraphicsContext* savedContext = NSGraphicsContext.currentContext; NSGraphicsContext.currentContext = [NSGraphicsContext graphicsContextWithCGContext:cgContext flipped:YES]; DrawCellIncludingFocusRing(mTreeHeaderCell, inBoxRect, mCellDrawView); NSGraphicsContext.currentContext = savedContext; #if DRAW_IN_FRAME_DEBUG CGContextSetRGBFillColor(cgContext, 0.0, 0.0, 0.5, 0.25); CGContextFillRect(cgContext, inBoxRect); #endif NS_OBJC_END_TRY_IGNORE_BLOCK; } static const CellRenderSettings dropdownSettings = {{ NSMakeSize(0, 16), // mini NSMakeSize(0, 19), // small NSMakeSize(0, 22) // regular }, { NSMakeSize(18, 0), // mini NSMakeSize(38, 0), // small NSMakeSize(44, 0) // regular }, {{ // Leopard {1, 1, 2, 1}, // mini {3, 0, 3, 1}, // small {3, 0, 3, 0} // regular }, { // Yosemite {1, 1, 2, 1}, // mini {3, 0, 3, 1}, // small {3, 0, 3, 0} // regular }}}; static const CellRenderSettings editableMenulistSettings = {{ NSMakeSize(0, 15), // mini NSMakeSize(0, 18), // small NSMakeSize(0, 21) // regular }, { NSMakeSize(18, 0), // mini NSMakeSize(38, 0), // small NSMakeSize(44, 0) // regular }, {{ // Leopard {0, 0, 2, 2}, // mini {0, 0, 3, 2}, // small {0, 1, 3, 3} // regular }, { // Yosemite {0, 0, 2, 2}, // mini {0, 0, 3, 2}, // small {0, 1, 3, 3} // regular }}}; void nsNativeThemeCocoa::DrawDropdown(CGContextRef cgContext, const HIRect& inBoxRect, const DropdownParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; [mDropdownCell setPullsDown:aParams.pullsDown]; NSCell* cell = aParams.editable ? (NSCell*)mComboBoxCell : (NSCell*)mDropdownCell; ApplyControlParamsToNSCell(aParams.controlParams, cell); if (aParams.controlParams.insideActiveWindow) { [cell setControlTint:[NSColor currentControlTint]]; } else { [cell setControlTint:NSClearControlTint]; } const CellRenderSettings& settings = aParams.editable ? editableMenulistSettings : dropdownSettings; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aParams.controlParams.insideActiveWindow; } DrawCellWithSnapping(cell, cgContext, inBoxRect, settings, 0.5f, mCellDrawView, aParams.controlParams.rtl); NS_OBJC_END_TRY_IGNORE_BLOCK; } static const CellRenderSettings spinnerSettings = { { NSMakeSize(11, 16), // mini (width trimmed by 2px to reduce blank border) NSMakeSize(15, 22), // small NSMakeSize(19, 27) // regular }, { NSMakeSize(11, 16), // mini (width trimmed by 2px to reduce blank border) NSMakeSize(15, 22), // small NSMakeSize(19, 27) // regular }, {{ // Leopard {0, 0, 0, 0}, // mini {0, 0, 0, 0}, // small {0, 0, 0, 0} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {0, 0, 0, 0}, // small {0, 0, 0, 0} // regular }}}; HIThemeButtonDrawInfo nsNativeThemeCocoa::SpinButtonDrawInfo(ThemeButtonKind aKind, const SpinButtonParams& aParams) { HIThemeButtonDrawInfo bdi; bdi.version = 0; bdi.kind = aKind; bdi.value = kThemeButtonOff; bdi.adornment = kThemeAdornmentNone; if (aParams.disabled) { bdi.state = kThemeStateUnavailable; } else if (aParams.insideActiveWindow && aParams.pressedButton) { if (*aParams.pressedButton == SpinButton::eUp) { bdi.state = kThemeStatePressedUp; } else { bdi.state = kThemeStatePressedDown; } } else { bdi.state = kThemeStateActive; } return bdi; } void nsNativeThemeCocoa::DrawSpinButtons(CGContextRef cgContext, const HIRect& inBoxRect, const SpinButtonParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; HIThemeButtonDrawInfo bdi = SpinButtonDrawInfo(kThemeIncDecButton, aParams); HIThemeDrawButton(&inBoxRect, &bdi, cgContext, HITHEME_ORIENTATION, NULL); NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawSpinButton(CGContextRef cgContext, const HIRect& inBoxRect, SpinButton aDrawnButton, const SpinButtonParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; HIThemeButtonDrawInfo bdi = SpinButtonDrawInfo(kThemeIncDecButtonMini, aParams); // Cocoa only allows kThemeIncDecButton to paint the up and down spin buttons // together as a single unit (presumably because when one button is active, // the appearance of both changes (in different ways)). Here we have to paint // both buttons, using clip to hide the one we don't want to paint. HIRect drawRect = inBoxRect; drawRect.size.height *= 2; if (aDrawnButton == SpinButton::eDown) { drawRect.origin.y -= inBoxRect.size.height; } // Shift the drawing a little to the left, since cocoa paints with more // blank space around the visual buttons than we'd like: drawRect.origin.x -= 1; CGContextSaveGState(cgContext); CGContextClipToRect(cgContext, inBoxRect); HIThemeDrawButton(&drawRect, &bdi, cgContext, HITHEME_ORIENTATION, NULL); CGContextRestoreGState(cgContext); NS_OBJC_END_TRY_IGNORE_BLOCK; } static const CellRenderSettings progressSettings[2][2] = { // Vertical progress bar. {// Determined settings. {{ NSZeroSize, // mini NSMakeSize(10, 0), // small NSMakeSize(16, 0) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {1, 1, 1, 1} // regular }}}, // There is no horizontal margin in regular undetermined size. {{ NSZeroSize, // mini NSMakeSize(10, 0), // small NSMakeSize(16, 0) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {1, 0, 1, 0} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {1, 0, 1, 0} // regular }}}}, // Horizontal progress bar. {// Determined settings. {{ NSZeroSize, // mini NSMakeSize(0, 10), // small NSMakeSize(0, 16) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {1, 1, 1, 1} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {1, 1, 1, 1} // regular }}}, // There is no horizontal margin in regular undetermined size. {{ NSZeroSize, // mini NSMakeSize(0, 10), // small NSMakeSize(0, 16) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {0, 1, 0, 1} // regular }, { // Yosemite {0, 0, 0, 0}, // mini {1, 1, 1, 1}, // small {0, 1, 0, 1} // regular }}}}}; nsNativeThemeCocoa::ProgressParams nsNativeThemeCocoa::ComputeProgressParams( nsIFrame* aFrame, ElementState aEventState, bool aIsHorizontal) { ProgressParams params; params.value = GetProgressValue(aFrame); params.max = GetProgressMaxValue(aFrame); params.verticalAlignFactor = VerticalAlignFactor(aFrame); params.insideActiveWindow = FrameIsInActiveWindow(aFrame); params.indeterminate = aEventState.HasState(ElementState::INDETERMINATE); params.horizontal = aIsHorizontal; params.rtl = IsFrameRTL(aFrame); return params; } void nsNativeThemeCocoa::DrawProgress(CGContextRef cgContext, const HIRect& inBoxRect, const ProgressParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; NSProgressBarCell* cell = mProgressBarCell; [cell setValue:aParams.value]; [cell setMax:aParams.max]; [cell setIndeterminate:aParams.indeterminate]; [cell setHorizontal:aParams.horizontal]; [cell setControlTint:(aParams.insideActiveWindow ? [NSColor currentControlTint] : NSClearControlTint)]; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = aParams.insideActiveWindow; } DrawCellWithSnapping(cell, cgContext, inBoxRect, progressSettings[aParams.horizontal][aParams.indeterminate], aParams.verticalAlignFactor, mCellDrawView, aParams.rtl); NS_OBJC_END_TRY_IGNORE_BLOCK; } static const CellRenderSettings meterSetting = {{ NSMakeSize(0, 16), // mini NSMakeSize(0, 16), // small NSMakeSize(0, 16) // regular }, {NSZeroSize, NSZeroSize, NSZeroSize}, {{ // Leopard {1, 1, 1, 1}, // mini {1, 1, 1, 1}, // small {1, 1, 1, 1} // regular }, { // Yosemite {1, 1, 1, 1}, // mini {1, 1, 1, 1}, // small {1, 1, 1, 1} // regular }}}; nsNativeThemeCocoa::MeterParams nsNativeThemeCocoa::ComputeMeterParams(nsIFrame* aFrame) { nsIContent* content = aFrame->GetContent(); if (!(content && content->IsHTMLElement(nsGkAtoms::meter))) { return MeterParams(); } HTMLMeterElement* meterElement = static_cast(content); MeterParams params; params.value = meterElement->Value(); params.min = meterElement->Min(); params.max = meterElement->Max(); ElementState states = meterElement->State(); if (states.HasState(ElementState::SUB_OPTIMUM)) { params.optimumState = OptimumState::eSubOptimum; } else if (states.HasState(ElementState::SUB_SUB_OPTIMUM)) { params.optimumState = OptimumState::eSubSubOptimum; } params.horizontal = !IsVerticalMeter(aFrame); params.verticalAlignFactor = VerticalAlignFactor(aFrame); params.rtl = IsFrameRTL(aFrame); return params; } void nsNativeThemeCocoa::DrawMeter(CGContextRef cgContext, const HIRect& inBoxRect, const MeterParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK NSLevelIndicatorCell* cell = mMeterBarCell; [cell setMinValue:aParams.min]; [cell setMaxValue:aParams.max]; [cell setDoubleValue:aParams.value]; /** * The way HTML and Cocoa defines the meter/indicator widget are different. * So, we are going to use a trick to get the Cocoa widget showing what we * are expecting: we set the warningValue or criticalValue to the current * value when we want to have the widget to be in the warning or critical * state. */ switch (aParams.optimumState) { case OptimumState::eOptimum: [cell setWarningValue:aParams.max + 1]; [cell setCriticalValue:aParams.max + 1]; break; case OptimumState::eSubOptimum: [cell setWarningValue:aParams.value]; [cell setCriticalValue:aParams.max + 1]; break; case OptimumState::eSubSubOptimum: [cell setWarningValue:aParams.max + 1]; [cell setCriticalValue:aParams.value]; break; } HIRect rect = CGRectStandardize(inBoxRect); BOOL vertical = !aParams.horizontal; CGContextSaveGState(cgContext); if (vertical) { /** * Cocoa doesn't provide a vertical meter bar so to show one, we have to * show a rotated horizontal meter bar. * Given that we want to show a vertical meter bar, we assume that the rect * has vertical dimensions but we can't correctly draw a meter widget inside * such a rectangle so we need to inverse width and height (and re-position) * to get a rectangle with horizontal dimensions. * Finally, we want to show a vertical meter so we want to rotate the result * so it is vertical. We do that by changing the context. */ CGFloat tmp = rect.size.width; rect.size.width = rect.size.height; rect.size.height = tmp; rect.origin.x += rect.size.height / 2.f - rect.size.width / 2.f; rect.origin.y += rect.size.width / 2.f - rect.size.height / 2.f; CGContextTranslateCTM(cgContext, CGRectGetMidX(rect), CGRectGetMidY(rect)); CGContextRotateCTM(cgContext, -M_PI / 2.f); CGContextTranslateCTM(cgContext, -CGRectGetMidX(rect), -CGRectGetMidY(rect)); } if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = YES; // TODO: propagate correct activeness state } DrawCellWithSnapping(cell, cgContext, rect, meterSetting, aParams.verticalAlignFactor, mCellDrawView, !vertical && aParams.rtl); CGContextRestoreGState(cgContext); NS_OBJC_END_TRY_IGNORE_BLOCK } void nsNativeThemeCocoa::DrawTabPanel(CGContextRef cgContext, const HIRect& inBoxRect, bool aIsInsideActiveWindow) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; HIThemeTabPaneDrawInfo tpdi; tpdi.version = 1; tpdi.state = aIsInsideActiveWindow ? kThemeStateActive : kThemeStateInactive; tpdi.direction = kThemeTabNorth; tpdi.size = kHIThemeTabSizeNormal; tpdi.kind = kHIThemeTabKindNormal; HIThemeDrawTabPane(&inBoxRect, &tpdi, cgContext, HITHEME_ORIENTATION); NS_OBJC_END_TRY_IGNORE_BLOCK; } Maybe nsNativeThemeCocoa::ComputeHTMLScaleParams( nsIFrame* aFrame, ElementState aEventState) { nsRangeFrame* rangeFrame = do_QueryFrame(aFrame); if (!rangeFrame) { return Nothing(); } bool isHorizontal = IsRangeHorizontal(aFrame); // ScaleParams requires integer min, max and value. This is purely for // drawing, so we normalize to a range 0-1000 here. ScaleParams params; params.value = int32_t(rangeFrame->GetValueAsFractionOfRange() * 1000); params.min = 0; params.max = 1000; params.reverse = !isHorizontal || rangeFrame->IsRightToLeft(); params.insideActiveWindow = FrameIsInActiveWindow(aFrame); params.focused = aEventState.HasState(ElementState::FOCUSRING); params.disabled = aEventState.HasState(ElementState::DISABLED); params.horizontal = isHorizontal; return Some(params); } void nsNativeThemeCocoa::DrawScale(CGContextRef cgContext, const HIRect& inBoxRect, const ScaleParams& aParams) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; HIThemeTrackDrawInfo tdi; tdi.version = 0; tdi.kind = kThemeMediumSlider; tdi.bounds = inBoxRect; tdi.min = aParams.min; tdi.max = aParams.max; tdi.value = aParams.value; tdi.attributes = kThemeTrackShowThumb; if (aParams.horizontal) { tdi.attributes |= kThemeTrackHorizontal; } if (aParams.reverse) { tdi.attributes |= kThemeTrackRightToLeft; } if (aParams.focused) { tdi.attributes |= kThemeTrackHasFocus; } if (aParams.disabled) { tdi.enableState = kThemeTrackDisabled; } else { tdi.enableState = aParams.insideActiveWindow ? kThemeTrackActive : kThemeTrackInactive; } tdi.trackInfo.slider.thumbDir = kThemeThumbPlain; tdi.trackInfo.slider.pressState = 0; HIThemeDrawTrack(&tdi, NULL, cgContext, HITHEME_ORIENTATION); NS_OBJC_END_TRY_IGNORE_BLOCK; } nsIFrame* nsNativeThemeCocoa::SeparatorResponsibility(nsIFrame* aBefore, nsIFrame* aAfter) { // Usually a separator is drawn by the segment to the right of the // separator, but pressed and selected segments have higher priority. if (!aBefore || !aAfter) return nullptr; if (IsSelectedButton(aAfter)) return aAfter; if (IsSelectedButton(aBefore) || IsPressedButton(aBefore)) return aBefore; return aAfter; } static CGRect SeparatorAdjustedRect(CGRect aRect, nsNativeThemeCocoa::SegmentParams aParams) { // A separator between two segments should always be located in the leftmost // pixel column of the segment to the right of the separator, regardless of // who ends up drawing it. // CoreUI draws the separators inside the drawing rect. if (!aParams.atLeftEnd && !aParams.drawsLeftSeparator) { // The segment to the left of us draws the separator, so we need to make // room for it. aRect.origin.x += 1; aRect.size.width -= 1; } if (aParams.drawsRightSeparator) { // We draw the right separator, so we need to extend the draw rect into the // segment to our right. aRect.size.width += 1; } return aRect; } static NSString* ToolbarButtonPosition(BOOL aIsFirst, BOOL aIsLast) { if (aIsFirst) { if (aIsLast) return @"kCUISegmentPositionOnly"; return @"kCUISegmentPositionFirst"; } if (aIsLast) return @"kCUISegmentPositionLast"; return @"kCUISegmentPositionMiddle"; } struct SegmentedControlRenderSettings { const CGFloat* heights; const NSString* widgetName; }; static const CGFloat tabHeights[3] = {17, 20, 23}; static const SegmentedControlRenderSettings tabRenderSettings = {tabHeights, @"tab"}; static const CGFloat toolbarButtonHeights[3] = {15, 18, 22}; static const SegmentedControlRenderSettings toolbarButtonRenderSettings = { toolbarButtonHeights, @"kCUIWidgetButtonSegmentedSCurve"}; nsNativeThemeCocoa::SegmentParams nsNativeThemeCocoa::ComputeSegmentParams( nsIFrame* aFrame, ElementState aEventState, SegmentType aSegmentType) { SegmentParams params; params.segmentType = aSegmentType; params.insideActiveWindow = FrameIsInActiveWindow(aFrame); params.pressed = IsPressedButton(aFrame); params.selected = IsSelectedButton(aFrame); params.focused = aEventState.HasState(ElementState::FOCUSRING); bool isRTL = IsFrameRTL(aFrame); nsIFrame* left = GetAdjacentSiblingFrameWithSameAppearance(aFrame, isRTL); nsIFrame* right = GetAdjacentSiblingFrameWithSameAppearance(aFrame, !isRTL); params.atLeftEnd = !left; params.atRightEnd = !right; params.drawsLeftSeparator = SeparatorResponsibility(left, aFrame) == aFrame; params.drawsRightSeparator = SeparatorResponsibility(aFrame, right) == aFrame; params.rtl = isRTL; return params; } static SegmentedControlRenderSettings RenderSettingsForSegmentType( nsNativeThemeCocoa::SegmentType aSegmentType) { switch (aSegmentType) { case nsNativeThemeCocoa::SegmentType::eToolbarButton: return toolbarButtonRenderSettings; case nsNativeThemeCocoa::SegmentType::eTab: return tabRenderSettings; } } void nsNativeThemeCocoa::DrawSegment(CGContextRef cgContext, const HIRect& inBoxRect, const SegmentParams& aParams) { SegmentedControlRenderSettings renderSettings = RenderSettingsForSegmentType(aParams.segmentType); NSControlSize controlSize = FindControlSize(inBoxRect.size.height, renderSettings.heights, 4.0f); CGRect drawRect = SeparatorAdjustedRect(inBoxRect, aParams); NSDictionary* dict = @{ @"widget" : renderSettings.widgetName, @"kCUIPresentationStateKey" : (aParams.insideActiveWindow ? @"kCUIPresentationStateActiveKey" : @"kCUIPresentationStateInactive"), @"kCUIPositionKey" : ToolbarButtonPosition(aParams.atLeftEnd, aParams.atRightEnd), @"kCUISegmentLeadingSeparatorKey" : [NSNumber numberWithBool:aParams.drawsLeftSeparator], @"kCUISegmentTrailingSeparatorKey" : [NSNumber numberWithBool:aParams.drawsRightSeparator], @"value" : [NSNumber numberWithBool:aParams.selected], @"state" : (aParams.pressed ? @"pressed" : (aParams.insideActiveWindow ? @"normal" : @"inactive")), @"focus" : [NSNumber numberWithBool:aParams.focused], @"size" : CUIControlSizeForCocoaSize(controlSize), @"is.flipped" : [NSNumber numberWithBool:YES], @"direction" : @"up" }; RenderWithCoreUI(drawRect, cgContext, dict); } void nsNativeThemeCocoa::DrawToolbar(CGContextRef cgContext, const CGRect& inBoxRect, bool aIsMain) { CGRect drawRect = inBoxRect; // top border drawRect.size.height = 1.0f; DrawNativeGreyColorInRect(cgContext, toolbarTopBorderGrey, drawRect, aIsMain); // background drawRect.origin.y += drawRect.size.height; drawRect.size.height = inBoxRect.size.height - 2.0f; DrawNativeGreyColorInRect(cgContext, toolbarFillGrey, drawRect, aIsMain); // bottom border drawRect.origin.y += drawRect.size.height; drawRect.size.height = 1.0f; DrawNativeGreyColorInRect(cgContext, toolbarBottomBorderGrey, drawRect, aIsMain); } static bool ToolbarCanBeUnified(const gfx::Rect& aRect, NSWindow* aWindow) { if (![aWindow isKindOfClass:[ToolbarWindow class]]) return false; ToolbarWindow* win = (ToolbarWindow*)aWindow; float unifiedToolbarHeight = [win unifiedToolbarHeight]; return aRect.X() == 0 && aRect.Width() >= [win frame].size.width && aRect.YMost() <= unifiedToolbarHeight; } void nsNativeThemeCocoa::DrawStatusBar(CGContextRef cgContext, const HIRect& inBoxRect, bool aIsMain) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; if (inBoxRect.size.height < 2.0f) return; CGContextSaveGState(cgContext); CGContextClipToRect(cgContext, inBoxRect); // kCUIWidgetWindowFrame draws a complete window frame with both title bar // and bottom bar. We only want the bottom bar, so we extend the draw rect // upwards to make space for the title bar, and then we clip it away. CGRect drawRect = inBoxRect; const int extendUpwards = 40; drawRect.origin.y -= extendUpwards; drawRect.size.height += extendUpwards; RenderWithCoreUI( drawRect, cgContext, [NSDictionary dictionaryWithObjectsAndKeys:@"kCUIWidgetWindowFrame", @"widget", @"regularwin", @"windowtype", (aIsMain ? @"normal" : @"inactive"), @"state", [NSNumber numberWithInt:inBoxRect.size.height], @"kCUIWindowFrameBottomBarHeightKey", [NSNumber numberWithBool:YES], @"kCUIWindowFrameDrawBottomBarSeparatorKey", [NSNumber numberWithBool:YES], @"is.flipped", nil]); CGContextRestoreGState(cgContext); NS_OBJC_END_TRY_IGNORE_BLOCK; } static void RenderResizer(CGContextRef cgContext, const HIRect& aRenderRect, void* aData) { HIThemeGrowBoxDrawInfo* drawInfo = (HIThemeGrowBoxDrawInfo*)aData; HIThemeDrawGrowBox(&CGPointZero, drawInfo, cgContext, kHIThemeOrientationNormal); } void nsNativeThemeCocoa::DrawResizer(CGContextRef cgContext, const HIRect& aRect, bool aIsRTL) { NS_OBJC_BEGIN_TRY_IGNORE_BLOCK; HIThemeGrowBoxDrawInfo drawInfo; drawInfo.version = 0; drawInfo.state = kThemeStateActive; drawInfo.kind = kHIThemeGrowBoxKindNormal; drawInfo.direction = kThemeGrowRight | kThemeGrowDown; drawInfo.size = kHIThemeGrowBoxSizeNormal; RenderTransformedHIThemeControl(cgContext, aRect, RenderResizer, &drawInfo, aIsRTL); NS_OBJC_END_TRY_IGNORE_BLOCK; } void nsNativeThemeCocoa::DrawMultilineTextField(CGContextRef cgContext, const CGRect& inBoxRect, bool aIsFocused) { mTextFieldCell.enabled = YES; mTextFieldCell.showsFirstResponder = aIsFocused; if (mCellDrawWindow) { mCellDrawWindow.cellsShouldLookActive = YES; } // DrawCellIncludingFocusRing draws into the current NSGraphicsContext, so do the usual // save+restore dance. NSGraphicsContext* savedContext = NSGraphicsContext.currentContext; NSGraphicsContext.currentContext = [NSGraphicsContext graphicsContextWithCGContext:cgContext flipped:YES]; DrawCellIncludingFocusRing(mTextFieldCell, inBoxRect, mCellDrawView); NSGraphicsContext.currentContext = savedContext; } void nsNativeThemeCocoa::DrawSourceListSelection(CGContextRef aContext, const CGRect& aRect, bool aWindowIsActive, bool aSelectionIsActive) { NSColor* fillColor; if (aSelectionIsActive) { // Active selection, blue or graphite. fillColor = ControlAccentColor(); } else { // Inactive selection, gray. if (aWindowIsActive) { fillColor = [NSColor colorWithWhite:0.871 alpha:1.0]; } else { fillColor = [NSColor colorWithWhite:0.808 alpha:1.0]; } } CGContextSetFillColorWithColor(aContext, [fillColor CGColor]); CGContextFillRect(aContext, aRect); } static bool IsHiDPIContext(nsDeviceContext* aContext) { return AppUnitsPerCSSPixel() >= 2 * aContext->AppUnitsPerDevPixelAtUnitFullZoom(); } Maybe nsNativeThemeCocoa::ComputeWidgetInfo( nsIFrame* aFrame, StyleAppearance aAppearance, const nsRect& aRect) { NS_OBJC_BEGIN_TRY_BLOCK_RETURN; // setup to draw into the correct port int32_t p2a = aFrame->PresContext()->AppUnitsPerDevPixel(); gfx::Rect nativeWidgetRect(aRect.x, aRect.y, aRect.width, aRect.height); nativeWidgetRect.Scale(1.0 / gfxFloat(p2a)); float originalHeight = nativeWidgetRect.Height(); nativeWidgetRect.Round(); if (nativeWidgetRect.IsEmpty()) { return Nothing(); // Don't attempt to draw invisible widgets. } bool hidpi = IsHiDPIContext(aFrame->PresContext()->DeviceContext()); if (hidpi) { // Use high-resolution drawing. nativeWidgetRect.Scale(0.5f); originalHeight *= 0.5f; } ElementState elementState = GetContentState(aFrame, aAppearance); switch (aAppearance) { case StyleAppearance::Menupopup: return Nothing(); case StyleAppearance::Menuarrow: return Some( WidgetInfo::MenuIcon(ComputeMenuIconParams(aFrame, elementState, MenuIcon::eMenuArrow))); case StyleAppearance::Menuitem: case StyleAppearance::Checkmenuitem: return Some(WidgetInfo::MenuItem(ComputeMenuItemParams( aFrame, elementState, aAppearance == StyleAppearance::Checkmenuitem))); case StyleAppearance::Menuseparator: return Some(WidgetInfo::MenuSeparator(ComputeMenuItemParams(aFrame, elementState, false))); case StyleAppearance::ButtonArrowUp: case StyleAppearance::ButtonArrowDown: { MenuIcon icon = aAppearance == StyleAppearance::ButtonArrowUp ? MenuIcon::eMenuUpScrollArrow : MenuIcon::eMenuDownScrollArrow; return Some(WidgetInfo::MenuIcon(ComputeMenuIconParams(aFrame, elementState, icon))); } case StyleAppearance::Tooltip: return Nothing(); case StyleAppearance::Checkbox: case StyleAppearance::Radio: { bool isCheckbox = (aAppearance == StyleAppearance::Checkbox); CheckboxOrRadioParams params; params.state = CheckboxOrRadioState::eOff; if (elementState.HasState(ElementState::INDETERMINATE)) { params.state = CheckboxOrRadioState::eIndeterminate; } else if (elementState.HasState(ElementState::CHECKED)) { params.state = CheckboxOrRadioState::eOn; } params.controlParams = ComputeControlParams(aFrame, elementState); params.verticalAlignFactor = VerticalAlignFactor(aFrame); if (isCheckbox) { return Some(WidgetInfo::Checkbox(params)); } return Some(WidgetInfo::Radio(params)); } case StyleAppearance::Button: if (IsDefaultButton(aFrame)) { // Check whether the default button is in a document that does not // match the :-moz-window-inactive pseudoclass. This activeness check // is different from the other "active window" checks in this file // because we absolutely need the button's default button appearance to // be in sync with its text color, and the text color is changed by // such a :-moz-window-inactive rule. (That's because on 10.10 and up, // default buttons in active windows have blue background and white // text, and default buttons in inactive windows have white background // and black text.) DocumentState docState = aFrame->GetContent()->OwnerDoc()->GetDocumentState(); ControlParams params = ComputeControlParams(aFrame, elementState); params.insideActiveWindow = !docState.HasState(DocumentState::WINDOW_INACTIVE); return Some(WidgetInfo::Button(ButtonParams{params, ButtonType::eDefaultPushButton})); } if (IsButtonTypeMenu(aFrame)) { ControlParams controlParams = ComputeControlParams(aFrame, elementState); controlParams.pressed = IsOpenButton(aFrame); DropdownParams params; params.controlParams = controlParams; params.pullsDown = true; params.editable = false; return Some(WidgetInfo::Dropdown(params)); } if (originalHeight > DO_SQUARE_BUTTON_HEIGHT) { // If the button is tall enough, draw the square button style so that // buttons with non-standard content look good. Otherwise draw normal // rounded aqua buttons. // This comparison is done based on the height that is calculated without // the top, because the snapped height can be affected by the top of the // rect and that may result in different height depending on the top value. return Some(WidgetInfo::Button(ButtonParams{ComputeControlParams(aFrame, elementState), ButtonType::eSquareBezelPushButton})); } return Some(WidgetInfo::Button(ButtonParams{ComputeControlParams(aFrame, elementState), ButtonType::eRegularPushButton})); case StyleAppearance::FocusOutline: return Some(WidgetInfo::FocusOutline()); case StyleAppearance::MozMacHelpButton: return Some(WidgetInfo::Button( ButtonParams{ComputeControlParams(aFrame, elementState), ButtonType::eHelpButton})); case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: { ButtonType buttonType = (aAppearance == StyleAppearance::MozMacDisclosureButtonClosed) ? ButtonType::eDisclosureButtonClosed : ButtonType::eDisclosureButtonOpen; return Some( WidgetInfo::Button(ButtonParams{ComputeControlParams(aFrame, elementState), buttonType})); } case StyleAppearance::Spinner: { bool isSpinner = (aAppearance == StyleAppearance::Spinner); nsIContent* content = aFrame->GetContent(); if (isSpinner && content->IsHTMLElement()) { // In HTML the theming for the spin buttons is drawn individually into // their own backgrounds instead of being drawn into the background of // their spinner parent as it is for XUL. break; } SpinButtonParams params; if (content->IsElement()) { if (content->AsElement()->AttrValueIs(kNameSpaceID_None, nsGkAtoms::state, u"up"_ns, eCaseMatters)) { params.pressedButton = Some(SpinButton::eUp); } else if (content->AsElement()->AttrValueIs(kNameSpaceID_None, nsGkAtoms::state, u"down"_ns, eCaseMatters)) { params.pressedButton = Some(SpinButton::eDown); } } params.disabled = elementState.HasState(ElementState::DISABLED); params.insideActiveWindow = FrameIsInActiveWindow(aFrame); return Some(WidgetInfo::SpinButtons(params)); } case StyleAppearance::SpinnerUpbutton: case StyleAppearance::SpinnerDownbutton: { nsNumberControlFrame* numberControlFrame = nsNumberControlFrame::GetNumberControlFrameForSpinButton(aFrame); if (numberControlFrame) { SpinButtonParams params; if (numberControlFrame->SpinnerUpButtonIsDepressed()) { params.pressedButton = Some(SpinButton::eUp); } else if (numberControlFrame->SpinnerDownButtonIsDepressed()) { params.pressedButton = Some(SpinButton::eDown); } params.disabled = elementState.HasState(ElementState::DISABLED); params.insideActiveWindow = FrameIsInActiveWindow(aFrame); if (aAppearance == StyleAppearance::SpinnerUpbutton) { return Some(WidgetInfo::SpinButtonUp(params)); } return Some(WidgetInfo::SpinButtonDown(params)); } } break; case StyleAppearance::Toolbarbutton: { SegmentParams params = ComputeSegmentParams(aFrame, elementState, SegmentType::eToolbarButton); params.insideActiveWindow = [NativeWindowForFrame(aFrame) isMainWindow]; return Some(WidgetInfo::Segment(params)); } case StyleAppearance::Separator: return Some(WidgetInfo::Separator()); case StyleAppearance::Toolbar: { NSWindow* win = NativeWindowForFrame(aFrame); bool isMain = [win isMainWindow]; if (ToolbarCanBeUnified(nativeWidgetRect, win)) { // Unified toolbars are drawn similar to vibrancy; we communicate their extents via the // theme geometry mechanism and then place native views under Gecko's rendering. So Gecko // just needs to be transparent in the place where the toolbar should be visible. return Nothing(); } return Some(WidgetInfo::Toolbar(isMain)); } case StyleAppearance::MozWindowTitlebar: { return Nothing(); } case StyleAppearance::Statusbar: return Some(WidgetInfo::StatusBar(IsActive(aFrame, YES))); case StyleAppearance::MenulistButton: case StyleAppearance::Menulist: { ControlParams controlParams = ComputeControlParams(aFrame, elementState); controlParams.pressed = IsOpenButton(aFrame); DropdownParams params; params.controlParams = controlParams; params.pullsDown = false; params.editable = false; return Some(WidgetInfo::Dropdown(params)); } case StyleAppearance::MozMenulistArrowButton: return Some(WidgetInfo::Button( ButtonParams{ComputeControlParams(aFrame, elementState), ButtonType::eArrowButton})); case StyleAppearance::Groupbox: return Some(WidgetInfo::GroupBox()); case StyleAppearance::Textfield: case StyleAppearance::NumberInput: return Some(WidgetInfo::TextField(ComputeTextFieldParams(aFrame, elementState))); case StyleAppearance::Searchfield: return Some(WidgetInfo::SearchField(ComputeTextFieldParams(aFrame, elementState))); case StyleAppearance::ProgressBar: { if (elementState.HasState(ElementState::INDETERMINATE)) { if (!QueueAnimatedContentForRefresh(aFrame->GetContent(), 30)) { NS_WARNING("Unable to animate progressbar!"); } } return Some(WidgetInfo::ProgressBar( ComputeProgressParams(aFrame, elementState, !IsVerticalProgress(aFrame)))); } case StyleAppearance::Meter: return Some(WidgetInfo::Meter(ComputeMeterParams(aFrame))); case StyleAppearance::Progresschunk: case StyleAppearance::Meterchunk: // Do nothing: progress and meter bars cases will draw chunks. break; case StyleAppearance::Treetwisty: return Some(WidgetInfo::Button(ButtonParams{ComputeControlParams(aFrame, elementState), ButtonType::eTreeTwistyPointingRight})); case StyleAppearance::Treetwistyopen: return Some(WidgetInfo::Button(ButtonParams{ComputeControlParams(aFrame, elementState), ButtonType::eTreeTwistyPointingDown})); case StyleAppearance::Treeheadercell: return Some(WidgetInfo::TreeHeaderCell(ComputeTreeHeaderCellParams(aFrame, elementState))); case StyleAppearance::Treeitem: case StyleAppearance::Treeview: return Some(WidgetInfo::ColorFill(sRGBColor(1.0, 1.0, 1.0, 1.0))); case StyleAppearance::Treeheader: // do nothing, taken care of by individual header cells case StyleAppearance::Treeheadersortarrow: // do nothing, taken care of by treeview header case StyleAppearance::Treeline: // do nothing, these lines don't exist on macos break; case StyleAppearance::Range: { Maybe params = ComputeHTMLScaleParams(aFrame, elementState); if (params) { return Some(WidgetInfo::Scale(*params)); } break; } case StyleAppearance::Textarea: return Some(WidgetInfo::MultilineTextField(elementState.HasState(ElementState::FOCUS))); case StyleAppearance::Listbox: return Some(WidgetInfo::ListBox()); case StyleAppearance::MozMacSourceList: { return Nothing(); } case StyleAppearance::MozMacSourceListSelection: case StyleAppearance::MozMacActiveSourceListSelection: { // We only support vibrancy for source list selections if we're inside // a source list, because we need the background to be transparent. if (IsInSourceList(aFrame)) { return Nothing(); } bool isInActiveWindow = FrameIsInActiveWindow(aFrame); if (aAppearance == StyleAppearance::MozMacActiveSourceListSelection) { return Some(WidgetInfo::ActiveSourceListSelection(isInActiveWindow)); } return Some(WidgetInfo::InactiveSourceListSelection(isInActiveWindow)); } case StyleAppearance::Tab: { SegmentParams params = ComputeSegmentParams(aFrame, elementState, SegmentType::eTab); params.pressed = params.pressed && !params.selected; return Some(WidgetInfo::Segment(params)); } case StyleAppearance::Tabpanels: return Some(WidgetInfo::TabPanel(FrameIsInActiveWindow(aFrame))); case StyleAppearance::Resizer: return Some(WidgetInfo::Resizer(IsFrameRTL(aFrame))); default: break; } return Nothing(); NS_OBJC_END_TRY_BLOCK_RETURN(Nothing()); } NS_IMETHODIMP nsNativeThemeCocoa::DrawWidgetBackground(gfxContext* aContext, nsIFrame* aFrame, StyleAppearance aAppearance, const nsRect& aRect, const nsRect& aDirtyRect, DrawOverflow aDrawOverflow) { NS_OBJC_BEGIN_TRY_BLOCK_RETURN; if (IsWidgetScrollbarPart(aAppearance)) { return ThemeCocoa::DrawWidgetBackground(aContext, aFrame, aAppearance, aRect, aDirtyRect, aDrawOverflow); } Maybe widgetInfo = ComputeWidgetInfo(aFrame, aAppearance, aRect); if (!widgetInfo) { return NS_OK; } int32_t p2a = aFrame->PresContext()->AppUnitsPerDevPixel(); gfx::Rect nativeWidgetRect = NSRectToRect(aRect, p2a); nativeWidgetRect.Round(); bool hidpi = IsHiDPIContext(aFrame->PresContext()->DeviceContext()); auto colorScheme = LookAndFeel::ColorSchemeForFrame(aFrame); RenderWidget(*widgetInfo, colorScheme, *aContext->GetDrawTarget(), nativeWidgetRect, NSRectToRect(aDirtyRect, p2a), hidpi ? 2.0f : 1.0f); return NS_OK; NS_OBJC_END_TRY_BLOCK_RETURN(NS_ERROR_FAILURE); } void nsNativeThemeCocoa::RenderWidget(const WidgetInfo& aWidgetInfo, LookAndFeel::ColorScheme aScheme, DrawTarget& aDrawTarget, const gfx::Rect& aWidgetRect, const gfx::Rect& aDirtyRect, float aScale) { // Some of the drawing below uses NSAppearance.currentAppearance behind the scenes. // Set it to the appearance we want, the same way as nsLookAndFeel::NativeGetColor. NSAppearance.currentAppearance = NSAppearanceForColorScheme(aScheme); // Also set the cell draw window's appearance; this is respected by NSTextFieldCell (and its // subclass NSSearchFieldCell). if (mCellDrawWindow) { mCellDrawWindow.appearance = NSAppearance.currentAppearance; } const Widget widget = aWidgetInfo.Widget(); // Some widgets render using DrawTarget, and some using CGContext. switch (widget) { case Widget::eColorFill: { sRGBColor color = aWidgetInfo.Params(); aDrawTarget.FillRect(aWidgetRect, ColorPattern(ToDeviceColor(color))); break; } default: { AutoRestoreTransform autoRestoreTransform(&aDrawTarget); gfx::Rect widgetRect = aWidgetRect; gfx::Rect dirtyRect = aDirtyRect; dirtyRect.Scale(1.0f / aScale); widgetRect.Scale(1.0f / aScale); aDrawTarget.SetTransform(aDrawTarget.GetTransform().PreScale(aScale, aScale)); // The remaining widgets require a CGContext. CGRect macRect = CGRectMake(widgetRect.X(), widgetRect.Y(), widgetRect.Width(), widgetRect.Height()); gfxQuartzNativeDrawing nativeDrawing(aDrawTarget, dirtyRect); CGContextRef cgContext = nativeDrawing.BeginNativeDrawing(); if (cgContext == nullptr) { // The Quartz surface handles 0x0 surfaces by internally // making all operations no-ops; there's no cgcontext created for them. // Unfortunately, this means that callers that want to render // directly to the CGContext need to be aware of this quirk. return; } // Set the context's "base transform" to in order to get correctly-sized focus rings. CGContextSetBaseCTM(cgContext, CGAffineTransformMakeScale(aScale, aScale)); switch (widget) { case Widget::eColorFill: MOZ_CRASH("already handled in outer switch"); break; case Widget::eMenuIcon: { MenuIconParams params = aWidgetInfo.Params(); DrawMenuIcon(cgContext, macRect, params); break; } case Widget::eMenuItem: { MenuItemParams params = aWidgetInfo.Params(); DrawMenuItem(cgContext, macRect, params); break; } case Widget::eMenuSeparator: { MenuItemParams params = aWidgetInfo.Params(); DrawMenuSeparator(cgContext, macRect, params); break; } case Widget::eCheckbox: { CheckboxOrRadioParams params = aWidgetInfo.Params(); DrawCheckboxOrRadio(cgContext, true, macRect, params); break; } case Widget::eRadio: { CheckboxOrRadioParams params = aWidgetInfo.Params(); DrawCheckboxOrRadio(cgContext, false, macRect, params); break; } case Widget::eButton: { ButtonParams params = aWidgetInfo.Params(); DrawButton(cgContext, macRect, params); break; } case Widget::eDropdown: { DropdownParams params = aWidgetInfo.Params(); DrawDropdown(cgContext, macRect, params); break; } case Widget::eFocusOutline: { DrawFocusOutline(cgContext, macRect); break; } case Widget::eSpinButtons: { SpinButtonParams params = aWidgetInfo.Params(); DrawSpinButtons(cgContext, macRect, params); break; } case Widget::eSpinButtonUp: { SpinButtonParams params = aWidgetInfo.Params(); DrawSpinButton(cgContext, macRect, SpinButton::eUp, params); break; } case Widget::eSpinButtonDown: { SpinButtonParams params = aWidgetInfo.Params(); DrawSpinButton(cgContext, macRect, SpinButton::eDown, params); break; } case Widget::eSegment: { SegmentParams params = aWidgetInfo.Params(); DrawSegment(cgContext, macRect, params); break; } case Widget::eSeparator: { HIThemeSeparatorDrawInfo sdi = {0, kThemeStateActive}; HIThemeDrawSeparator(&macRect, &sdi, cgContext, HITHEME_ORIENTATION); break; } case Widget::eToolbar: { bool isMain = aWidgetInfo.Params(); DrawToolbar(cgContext, macRect, isMain); break; } case Widget::eStatusBar: { bool isMain = aWidgetInfo.Params(); DrawStatusBar(cgContext, macRect, isMain); break; } case Widget::eGroupBox: { HIThemeGroupBoxDrawInfo gdi = {0, kThemeStateActive, kHIThemeGroupBoxKindPrimary}; HIThemeDrawGroupBox(&macRect, &gdi, cgContext, HITHEME_ORIENTATION); break; } case Widget::eTextField: { TextFieldParams params = aWidgetInfo.Params(); DrawTextField(cgContext, macRect, params); break; } case Widget::eSearchField: { TextFieldParams params = aWidgetInfo.Params(); DrawSearchField(cgContext, macRect, params); break; } case Widget::eProgressBar: { ProgressParams params = aWidgetInfo.Params(); DrawProgress(cgContext, macRect, params); break; } case Widget::eMeter: { MeterParams params = aWidgetInfo.Params(); DrawMeter(cgContext, macRect, params); break; } case Widget::eTreeHeaderCell: { TreeHeaderCellParams params = aWidgetInfo.Params(); DrawTreeHeaderCell(cgContext, macRect, params); break; } case Widget::eScale: { ScaleParams params = aWidgetInfo.Params(); DrawScale(cgContext, macRect, params); break; } case Widget::eMultilineTextField: { bool isFocused = aWidgetInfo.Params(); DrawMultilineTextField(cgContext, macRect, isFocused); break; } case Widget::eListBox: { // Fill the content with the control background color. CGContextSetFillColorWithColor(cgContext, [NSColor.controlBackgroundColor CGColor]); CGContextFillRect(cgContext, macRect); // Draw the frame using kCUIWidgetScrollViewFrame. This is what NSScrollView uses in // -[NSScrollView drawRect:] if you give it a borderType of NSBezelBorder. RenderWithCoreUI( macRect, cgContext, @{ @"widget" : @"kCUIWidgetScrollViewFrame", @"kCUIIsFlippedKey" : @YES, @"kCUIVariantMetal" : @NO, }); break; } case Widget::eActiveSourceListSelection: case Widget::eInactiveSourceListSelection: { bool isInActiveWindow = aWidgetInfo.Params(); bool isActiveSelection = aWidgetInfo.Widget() == Widget::eActiveSourceListSelection; DrawSourceListSelection(cgContext, macRect, isInActiveWindow, isActiveSelection); break; } case Widget::eTabPanel: { bool isInsideActiveWindow = aWidgetInfo.Params(); DrawTabPanel(cgContext, macRect, isInsideActiveWindow); break; } case Widget::eResizer: { bool isRTL = aWidgetInfo.Params(); DrawResizer(cgContext, macRect, isRTL); break; } } // Reset the base CTM. CGContextSetBaseCTM(cgContext, CGAffineTransformIdentity); nativeDrawing.EndNativeDrawing(); } } } bool nsNativeThemeCocoa::CreateWebRenderCommandsForWidget( mozilla::wr::DisplayListBuilder& aBuilder, mozilla::wr::IpcResourceUpdateQueue& aResources, const mozilla::layers::StackingContextHelper& aSc, mozilla::layers::RenderRootStateManager* aManager, nsIFrame* aFrame, StyleAppearance aAppearance, const nsRect& aRect) { if (IsWidgetScrollbarPart(aAppearance)) { return ThemeCocoa::CreateWebRenderCommandsForWidget(aBuilder, aResources, aSc, aManager, aFrame, aAppearance, aRect); } // This list needs to stay consistent with the list in DrawWidgetBackground. // For every switch case in DrawWidgetBackground, there are three choices: // - If the case in DrawWidgetBackground draws nothing for the given widget // type, then don't list it here. We will hit the "default: return true;" // case. // - If the case in DrawWidgetBackground draws something simple for the given // widget type, imitate that drawing using WebRender commands. // - If the case in DrawWidgetBackground draws something complicated for the // given widget type, return false here. switch (aAppearance) { case StyleAppearance::Menuarrow: case StyleAppearance::Menuitem: case StyleAppearance::Checkmenuitem: case StyleAppearance::Menuseparator: case StyleAppearance::ButtonArrowUp: case StyleAppearance::ButtonArrowDown: case StyleAppearance::Checkbox: case StyleAppearance::Radio: case StyleAppearance::Button: case StyleAppearance::FocusOutline: case StyleAppearance::MozMacHelpButton: case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: case StyleAppearance::Spinner: case StyleAppearance::SpinnerUpbutton: case StyleAppearance::SpinnerDownbutton: case StyleAppearance::Toolbarbutton: case StyleAppearance::Separator: case StyleAppearance::Toolbar: case StyleAppearance::MozWindowTitlebar: case StyleAppearance::Statusbar: case StyleAppearance::Menulist: case StyleAppearance::MenulistButton: case StyleAppearance::MozMenulistArrowButton: case StyleAppearance::Groupbox: case StyleAppearance::Textfield: case StyleAppearance::NumberInput: case StyleAppearance::Searchfield: case StyleAppearance::ProgressBar: case StyleAppearance::Meter: case StyleAppearance::Treeheadercell: case StyleAppearance::Treetwisty: case StyleAppearance::Treetwistyopen: case StyleAppearance::Treeitem: case StyleAppearance::Treeview: case StyleAppearance::Range: return false; case StyleAppearance::Textarea: case StyleAppearance::Listbox: case StyleAppearance::Tab: case StyleAppearance::Tabpanels: case StyleAppearance::Resizer: return false; default: return true; } } LayoutDeviceIntMargin nsNativeThemeCocoa::DirectionAwareMargin(const LayoutDeviceIntMargin& aMargin, nsIFrame* aFrame) { // Assuming aMargin was originally specified for a horizontal LTR context, // reinterpret the values as logical, and then map to physical coords // according to aFrame's actual writing mode. WritingMode wm = aFrame->GetWritingMode(); nsMargin m = LogicalMargin(wm, aMargin.top, aMargin.right, aMargin.bottom, aMargin.left) .GetPhysicalMargin(wm); return LayoutDeviceIntMargin(m.top, m.right, m.bottom, m.left); } static const LayoutDeviceIntMargin kAquaDropdownBorder(1, 22, 2, 5); static const LayoutDeviceIntMargin kAquaComboboxBorder(3, 20, 3, 4); static const LayoutDeviceIntMargin kAquaSearchfieldBorder(3, 5, 2, 19); static const LayoutDeviceIntMargin kAquaSearchfieldBorderBigSur(5, 5, 4, 26); LayoutDeviceIntMargin nsNativeThemeCocoa::GetWidgetBorder(nsDeviceContext* aContext, nsIFrame* aFrame, StyleAppearance aAppearance) { LayoutDeviceIntMargin result; NS_OBJC_BEGIN_TRY_BLOCK_RETURN; switch (aAppearance) { case StyleAppearance::Button: { if (IsButtonTypeMenu(aFrame)) { result = DirectionAwareMargin(kAquaDropdownBorder, aFrame); } else { result = DirectionAwareMargin(LayoutDeviceIntMargin(1, 7, 3, 7), aFrame); } break; } case StyleAppearance::Toolbarbutton: { result = DirectionAwareMargin(LayoutDeviceIntMargin(1, 4, 1, 4), aFrame); break; } case StyleAppearance::Checkbox: case StyleAppearance::Radio: { // nsCheckboxRadioFrame::GetIntrinsicWidth and nsCheckboxRadioFrame::GetIntrinsicHeight // assume a border width of 2px. result.SizeTo(2, 2, 2, 2); break; } case StyleAppearance::Menulist: case StyleAppearance::MenulistButton: case StyleAppearance::MozMenulistArrowButton: result = DirectionAwareMargin(kAquaDropdownBorder, aFrame); break; case StyleAppearance::Menuarrow: if (nsCocoaFeatures::OnBigSurOrLater()) { result.SizeTo(0, 0, 0, 28); } break; case StyleAppearance::NumberInput: case StyleAppearance::Textfield: { SInt32 frameOutset = 0; ::GetThemeMetric(kThemeMetricEditTextFrameOutset, &frameOutset); SInt32 textPadding = 0; ::GetThemeMetric(kThemeMetricEditTextWhitespace, &textPadding); frameOutset += textPadding; result.SizeTo(frameOutset, frameOutset, frameOutset, frameOutset); break; } case StyleAppearance::Textarea: result.SizeTo(1, 1, 1, 1); break; case StyleAppearance::Searchfield: { auto border = nsCocoaFeatures::OnBigSurOrLater() ? kAquaSearchfieldBorderBigSur : kAquaSearchfieldBorder; result = DirectionAwareMargin(border, aFrame); break; } case StyleAppearance::Listbox: { SInt32 frameOutset = 0; ::GetThemeMetric(kThemeMetricListBoxFrameOutset, &frameOutset); result.SizeTo(frameOutset, frameOutset, frameOutset, frameOutset); break; } case StyleAppearance::Statusbar: result.SizeTo(1, 0, 0, 0); break; default: break; } if (IsHiDPIContext(aContext)) { result = result + result; // doubled } NS_OBJC_END_TRY_BLOCK_RETURN(result); } // Return false here to indicate that CSS padding values should be used. There is // no reason to make a distinction between padding and border values, just specify // whatever values you want in GetWidgetBorder and only use this to return true // if you want to override CSS padding values. bool nsNativeThemeCocoa::GetWidgetPadding(nsDeviceContext* aContext, nsIFrame* aFrame, StyleAppearance aAppearance, LayoutDeviceIntMargin* aResult) { // We don't want CSS padding being used for certain widgets. // See bug 381639 for an example of why. switch (aAppearance) { // Radios and checkboxes return a fixed size in GetMinimumWidgetSize // and have a meaningful baseline, so they can't have // author-specified padding. case StyleAppearance::Checkbox: case StyleAppearance::Radio: aResult->SizeTo(0, 0, 0, 0); return true; case StyleAppearance::Menuarrow: case StyleAppearance::Searchfield: if (nsCocoaFeatures::OnBigSurOrLater()) { return true; } break; default: break; } return false; } bool nsNativeThemeCocoa::GetWidgetOverflow(nsDeviceContext* aContext, nsIFrame* aFrame, StyleAppearance aAppearance, nsRect* aOverflowRect) { nsIntMargin overflow; switch (aAppearance) { case StyleAppearance::Button: case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: case StyleAppearance::MozMacHelpButton: case StyleAppearance::Toolbarbutton: case StyleAppearance::NumberInput: case StyleAppearance::Textfield: case StyleAppearance::Textarea: case StyleAppearance::Searchfield: case StyleAppearance::Listbox: case StyleAppearance::Menulist: case StyleAppearance::MenulistButton: case StyleAppearance::MozMenulistArrowButton: case StyleAppearance::Checkbox: case StyleAppearance::Radio: case StyleAppearance::Tab: case StyleAppearance::FocusOutline: { overflow.SizeTo(kMaxFocusRingWidth, kMaxFocusRingWidth, kMaxFocusRingWidth, kMaxFocusRingWidth); break; } case StyleAppearance::ProgressBar: { // Progress bars draw a 2 pixel white shadow under their progress indicators. overflow.bottom = 2; break; } case StyleAppearance::Meter: { // Meter bars overflow their boxes by about 2 pixels. overflow.SizeTo(2, 2, 2, 2); break; } default: break; } if (IsHiDPIContext(aContext)) { // Double the number of device pixels. overflow += overflow; } if (overflow != nsIntMargin()) { int32_t p2a = aFrame->PresContext()->AppUnitsPerDevPixel(); aOverflowRect->Inflate(nsMargin( NSIntPixelsToAppUnits(overflow.top, p2a), NSIntPixelsToAppUnits(overflow.right, p2a), NSIntPixelsToAppUnits(overflow.bottom, p2a), NSIntPixelsToAppUnits(overflow.left, p2a))); return true; } return false; } LayoutDeviceIntSize nsNativeThemeCocoa::GetMinimumWidgetSize(nsPresContext* aPresContext, nsIFrame* aFrame, StyleAppearance aAppearance) { NS_OBJC_BEGIN_TRY_BLOCK_RETURN; if (IsWidgetScrollbarPart(aAppearance)) { return ThemeCocoa::GetMinimumWidgetSize(aPresContext, aFrame, aAppearance); } LayoutDeviceIntSize result; switch (aAppearance) { case StyleAppearance::Button: { result.SizeTo(pushButtonSettings.minimumSizes[miniControlSize].width, pushButtonSettings.naturalSizes[miniControlSize].height); break; } case StyleAppearance::ButtonArrowUp: case StyleAppearance::ButtonArrowDown: { result.SizeTo(kMenuScrollArrowSize.width, kMenuScrollArrowSize.height); break; } case StyleAppearance::Menuarrow: { result.SizeTo(kMenuarrowSize.width, kMenuarrowSize.height); break; } case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: { result.SizeTo(kDisclosureButtonSize.width, kDisclosureButtonSize.height); break; } case StyleAppearance::MozMacHelpButton: { result.SizeTo(kHelpButtonSize.width, kHelpButtonSize.height); break; } case StyleAppearance::Toolbarbutton: { result.SizeTo(0, toolbarButtonHeights[miniControlSize]); break; } case StyleAppearance::Spinner: case StyleAppearance::SpinnerUpbutton: case StyleAppearance::SpinnerDownbutton: { SInt32 buttonHeight = 0, buttonWidth = 0; if (aFrame->GetContent()->IsXULElement()) { ::GetThemeMetric(kThemeMetricLittleArrowsWidth, &buttonWidth); ::GetThemeMetric(kThemeMetricLittleArrowsHeight, &buttonHeight); } else { NSSize size = spinnerSettings.minimumSizes[EnumSizeForCocoaSize(NSControlSizeMini)]; buttonWidth = size.width; buttonHeight = size.height; if (aAppearance != StyleAppearance::Spinner) { // the buttons are half the height of the spinner buttonHeight /= 2; } } result.SizeTo(buttonWidth, buttonHeight); break; } case StyleAppearance::Menulist: case StyleAppearance::MenulistButton: { SInt32 popupHeight = 0; ::GetThemeMetric(kThemeMetricPopupButtonHeight, &popupHeight); result.SizeTo(0, popupHeight); break; } case StyleAppearance::NumberInput: case StyleAppearance::Textfield: case StyleAppearance::Textarea: case StyleAppearance::Searchfield: { // at minimum, we should be tall enough for 9pt text. // I'm using hardcoded values here because the appearance manager // values for the frame size are incorrect. result.SizeTo(0, (2 + 2) /* top */ + 9 + (1 + 1) /* bottom */); break; } case StyleAppearance::MozWindowButtonBox: { NSSize size = WindowButtonsSize(aFrame); result.SizeTo(size.width, size.height); break; } case StyleAppearance::ProgressBar: { SInt32 barHeight = 0; ::GetThemeMetric(kThemeMetricNormalProgressBarThickness, &barHeight); result.SizeTo(0, barHeight); break; } case StyleAppearance::Separator: { result.SizeTo(1, 1); break; } case StyleAppearance::Treetwisty: case StyleAppearance::Treetwistyopen: { SInt32 twistyHeight = 0, twistyWidth = 0; ::GetThemeMetric(kThemeMetricDisclosureButtonWidth, &twistyWidth); ::GetThemeMetric(kThemeMetricDisclosureButtonHeight, &twistyHeight); result.SizeTo(twistyWidth, twistyHeight); break; } case StyleAppearance::Treeheader: case StyleAppearance::Treeheadercell: { SInt32 headerHeight = 0; ::GetThemeMetric(kThemeMetricListHeaderHeight, &headerHeight); result.SizeTo(0, headerHeight); break; } case StyleAppearance::Tab: { result.SizeTo(0, tabHeights[miniControlSize]); break; } case StyleAppearance::RangeThumb: { SInt32 width = 0; SInt32 height = 0; ::GetThemeMetric(kThemeMetricSliderMinThumbWidth, &width); ::GetThemeMetric(kThemeMetricSliderMinThumbHeight, &height); result.SizeTo(width, height); break; } case StyleAppearance::MozMenulistArrowButton: return ThemeCocoa::GetMinimumWidgetSize(aPresContext, aFrame, aAppearance); case StyleAppearance::Resizer: { HIThemeGrowBoxDrawInfo drawInfo; drawInfo.version = 0; drawInfo.state = kThemeStateActive; drawInfo.kind = kHIThemeGrowBoxKindNormal; drawInfo.direction = kThemeGrowRight | kThemeGrowDown; drawInfo.size = kHIThemeGrowBoxSizeNormal; HIPoint pnt = {0, 0}; HIRect bounds; HIThemeGetGrowBoxBounds(&pnt, &drawInfo, &bounds); result.SizeTo(bounds.size.width, bounds.size.height); break; } default: break; } if (IsHiDPIContext(aPresContext->DeviceContext())) { result = result * 2; } return result; NS_OBJC_END_TRY_BLOCK_RETURN(LayoutDeviceIntSize()); } NS_IMETHODIMP nsNativeThemeCocoa::WidgetStateChanged(nsIFrame* aFrame, StyleAppearance aAppearance, nsAtom* aAttribute, bool* aShouldRepaint, const nsAttrValue* aOldValue) { // Some widget types just never change state. switch (aAppearance) { case StyleAppearance::MozWindowTitlebar: case StyleAppearance::Toolbox: case StyleAppearance::Toolbar: case StyleAppearance::Statusbar: case StyleAppearance::Statusbarpanel: case StyleAppearance::Resizerpanel: case StyleAppearance::Tooltip: case StyleAppearance::Tabpanels: case StyleAppearance::Tabpanel: case StyleAppearance::Dialog: case StyleAppearance::Menupopup: case StyleAppearance::Groupbox: case StyleAppearance::Progresschunk: case StyleAppearance::ProgressBar: case StyleAppearance::Meter: case StyleAppearance::Meterchunk: *aShouldRepaint = false; return NS_OK; default: break; } // XXXdwh Not sure what can really be done here. Can at least guess for // specific widgets that they're highly unlikely to have certain states. // For example, a toolbar doesn't care about any states. if (!aAttribute) { // Hover/focus/active changed. Always repaint. *aShouldRepaint = true; } else { // Check the attribute to see if it's relevant. // disabled, checked, dlgtype, default, etc. *aShouldRepaint = false; if (aAttribute == nsGkAtoms::disabled || aAttribute == nsGkAtoms::checked || aAttribute == nsGkAtoms::selected || aAttribute == nsGkAtoms::visuallyselected || aAttribute == nsGkAtoms::menuactive || aAttribute == nsGkAtoms::sortDirection || aAttribute == nsGkAtoms::focused || aAttribute == nsGkAtoms::_default || aAttribute == nsGkAtoms::open || aAttribute == nsGkAtoms::hover) *aShouldRepaint = true; } return NS_OK; } NS_IMETHODIMP nsNativeThemeCocoa::ThemeChanged() { // This is unimplemented because we don't care if gecko changes its theme // and macOS system appearance changes are handled by // nsLookAndFeel::SystemWantsDarkTheme. return NS_OK; } bool nsNativeThemeCocoa::ThemeSupportsWidget(nsPresContext* aPresContext, nsIFrame* aFrame, StyleAppearance aAppearance) { if (IsWidgetScrollbarPart(aAppearance)) { return ThemeCocoa::ThemeSupportsWidget(aPresContext, aFrame, aAppearance); } // if this is a dropdown button in a combobox the answer is always no if (aAppearance == StyleAppearance::MozMenulistArrowButton) { nsIFrame* parentFrame = aFrame->GetParent(); if (parentFrame && parentFrame->IsComboboxControlFrame()) return false; } switch (aAppearance) { // Combobox dropdowns don't support native theming in vertical mode. case StyleAppearance::Menulist: case StyleAppearance::MenulistButton: case StyleAppearance::MozMenulistArrowButton: case StyleAppearance::MenulistText: if (aFrame && aFrame->GetWritingMode().IsVertical()) { return false; } [[fallthrough]]; case StyleAppearance::Listbox: case StyleAppearance::Dialog: case StyleAppearance::Window: case StyleAppearance::MozWindowButtonBox: case StyleAppearance::MozWindowTitlebar: case StyleAppearance::Checkmenuitem: case StyleAppearance::Menupopup: case StyleAppearance::Menuarrow: case StyleAppearance::Menuitem: case StyleAppearance::Menuseparator: case StyleAppearance::Tooltip: case StyleAppearance::Checkbox: case StyleAppearance::CheckboxContainer: case StyleAppearance::Radio: case StyleAppearance::RadioContainer: case StyleAppearance::Groupbox: case StyleAppearance::MozMacHelpButton: case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: case StyleAppearance::Button: case StyleAppearance::ButtonArrowUp: case StyleAppearance::ButtonArrowDown: case StyleAppearance::Toolbarbutton: case StyleAppearance::Spinner: case StyleAppearance::SpinnerUpbutton: case StyleAppearance::SpinnerDownbutton: case StyleAppearance::Toolbar: case StyleAppearance::Statusbar: case StyleAppearance::NumberInput: case StyleAppearance::Textfield: case StyleAppearance::Textarea: case StyleAppearance::Searchfield: case StyleAppearance::Toolbox: case StyleAppearance::ProgressBar: case StyleAppearance::Progresschunk: case StyleAppearance::Meter: case StyleAppearance::Meterchunk: case StyleAppearance::Separator: case StyleAppearance::Tabpanels: case StyleAppearance::Tab: case StyleAppearance::Treetwisty: case StyleAppearance::Treetwistyopen: case StyleAppearance::Treeview: case StyleAppearance::Treeheader: case StyleAppearance::Treeheadercell: case StyleAppearance::Treeheadersortarrow: case StyleAppearance::Treeitem: case StyleAppearance::Treeline: case StyleAppearance::MozMacSourceList: case StyleAppearance::MozMacSourceListSelection: case StyleAppearance::MozMacActiveSourceListSelection: case StyleAppearance::Range: return !IsWidgetStyled(aPresContext, aFrame, aAppearance); case StyleAppearance::Resizer: { nsIFrame* parentFrame = aFrame->GetParent(); if (!parentFrame || !parentFrame->IsScrollFrame()) return true; // Note that IsWidgetStyled is not called for resizers on Mac. This is // because for scrollable containers, the native resizer looks better // when (non-overlay) scrollbars are present even when the style is // overriden, and the custom transparent resizer looks better when // scrollbars are not present. nsIScrollableFrame* scrollFrame = do_QueryFrame(parentFrame); return (!LookAndFeel::UseOverlayScrollbars() && scrollFrame && (!scrollFrame->GetScrollbarVisibility().isEmpty())); } case StyleAppearance::FocusOutline: return true; default: break; } return false; } bool nsNativeThemeCocoa::WidgetIsContainer(StyleAppearance aAppearance) { // flesh this out at some point switch (aAppearance) { case StyleAppearance::MozMenulistArrowButton: case StyleAppearance::Radio: case StyleAppearance::Checkbox: case StyleAppearance::ProgressBar: case StyleAppearance::Meter: case StyleAppearance::Range: case StyleAppearance::MozMacHelpButton: case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: return false; default: break; } return true; } bool nsNativeThemeCocoa::ThemeDrawsFocusForWidget(nsIFrame*, StyleAppearance aAppearance) { switch (aAppearance) { case StyleAppearance::Textarea: case StyleAppearance::Textfield: case StyleAppearance::Searchfield: case StyleAppearance::NumberInput: case StyleAppearance::Menulist: case StyleAppearance::MenulistButton: case StyleAppearance::Button: case StyleAppearance::MozMacHelpButton: case StyleAppearance::MozMacDisclosureButtonOpen: case StyleAppearance::MozMacDisclosureButtonClosed: case StyleAppearance::Radio: case StyleAppearance::Range: case StyleAppearance::Checkbox: return true; default: return false; } } bool nsNativeThemeCocoa::ThemeNeedsComboboxDropmarker() { return false; } bool nsNativeThemeCocoa::WidgetAppearanceDependsOnWindowFocus(StyleAppearance aAppearance) { switch (aAppearance) { case StyleAppearance::Dialog: case StyleAppearance::Groupbox: case StyleAppearance::Tabpanels: case StyleAppearance::ButtonArrowUp: case StyleAppearance::ButtonArrowDown: case StyleAppearance::Checkmenuitem: case StyleAppearance::Menupopup: case StyleAppearance::Menuarrow: case StyleAppearance::Menuitem: case StyleAppearance::Menuseparator: case StyleAppearance::Tooltip: case StyleAppearance::Spinner: case StyleAppearance::SpinnerUpbutton: case StyleAppearance::SpinnerDownbutton: case StyleAppearance::Separator: case StyleAppearance::Toolbox: case StyleAppearance::NumberInput: case StyleAppearance::Textfield: case StyleAppearance::Treeview: case StyleAppearance::Treeline: case StyleAppearance::Textarea: case StyleAppearance::Listbox: case StyleAppearance::Resizer: return false; default: return true; } } nsITheme::ThemeGeometryType nsNativeThemeCocoa::ThemeGeometryTypeForWidget( nsIFrame* aFrame, StyleAppearance aAppearance) { switch (aAppearance) { case StyleAppearance::MozWindowTitlebar: return eThemeGeometryTypeTitlebar; case StyleAppearance::Toolbar: return eThemeGeometryTypeToolbar; case StyleAppearance::Toolbox: return eThemeGeometryTypeToolbox; case StyleAppearance::MozWindowButtonBox: return eThemeGeometryTypeWindowButtons; case StyleAppearance::Tooltip: return eThemeGeometryTypeTooltip; case StyleAppearance::Menupopup: return eThemeGeometryTypeMenu; case StyleAppearance::Menuitem: case StyleAppearance::Checkmenuitem: { ElementState elementState = GetContentState(aFrame, aAppearance); bool isDisabled = elementState.HasState(ElementState::DISABLED); bool isSelected = !isDisabled && CheckBooleanAttr(aFrame, nsGkAtoms::menuactive); return isSelected ? eThemeGeometryTypeHighlightedMenuItem : eThemeGeometryTypeMenu; } case StyleAppearance::MozMacSourceList: return eThemeGeometryTypeSourceList; case StyleAppearance::MozMacSourceListSelection: return IsInSourceList(aFrame) ? eThemeGeometryTypeSourceListSelection : eThemeGeometryTypeUnknown; case StyleAppearance::MozMacActiveSourceListSelection: return IsInSourceList(aFrame) ? eThemeGeometryTypeActiveSourceListSelection : eThemeGeometryTypeUnknown; default: return eThemeGeometryTypeUnknown; } } nsITheme::Transparency nsNativeThemeCocoa::GetWidgetTransparency(nsIFrame* aFrame, StyleAppearance aAppearance) { if (IsWidgetScrollbarPart(aAppearance)) { return ThemeCocoa::GetWidgetTransparency(aFrame, aAppearance); } switch (aAppearance) { case StyleAppearance::Menupopup: case StyleAppearance::Tooltip: case StyleAppearance::Dialog: case StyleAppearance::Toolbar: return eTransparent; case StyleAppearance::Statusbar: // Knowing that scrollbars and statusbars are opaque improves // performance, because we create layers for them. return eOpaque; default: return eUnknownTransparency; } } already_AddRefed do_CreateNativeThemeDoNotUseDirectly() { return do_AddRef(new nsNativeThemeCocoa()); }