gecko-dev/layout/style/nsStyleStruct.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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/. */
/*
* structs that contain the data provided by nsStyleContext, the
* internal API for computed style data for an element
*/
#ifndef nsStyleStruct_h___
#define nsStyleStruct_h___
#include "mozilla/ArenaObjectID.h"
#include "mozilla/Attributes.h"
#include "mozilla/CSSVariableValues.h"
#include "mozilla/Maybe.h"
#include "mozilla/SheetType.h"
#include "mozilla/StaticPtr.h"
#include "mozilla/StyleComplexColor.h"
#include "mozilla/UniquePtr.h"
#include "nsColor.h"
#include "nsCoord.h"
#include "nsMargin.h"
#include "nsFont.h"
#include "nsStyleAutoArray.h"
#include "nsStyleCoord.h"
#include "nsStyleConsts.h"
#include "nsChangeHint.h"
#include "nsPresContext.h"
#include "nsCOMPtr.h"
#include "nsCOMArray.h"
#include "nsTArray.h"
#include "nsCSSValue.h"
#include "imgRequestProxy.h"
#include "Orientation.h"
#include "CounterStyleManager.h"
#include <cstddef> // offsetof()
#include <utility>
#include "X11UndefineNone.h"
class nsIFrame;
class nsIURI;
class nsStyleContext;
class nsTextFrame;
class imgIContainer;
struct nsStyleVisibility;
namespace mozilla {
namespace dom {
class ImageTracker;
} // namespace dom
} // namespace mozilla
// Includes nsStyleStructID.
#include "nsStyleStructFwd.h"
// Bits for each struct.
// NS_STYLE_INHERIT_BIT defined in nsStyleStructFwd.h
#define NS_STYLE_INHERIT_MASK 0x000ffffff
// Bits for inherited structs.
#define NS_STYLE_INHERITED_STRUCT_MASK \
((nsStyleStructID_size_t(1) << nsStyleStructID_Inherited_Count) - 1)
// Bits for reset structs.
#define NS_STYLE_RESET_STRUCT_MASK \
(((nsStyleStructID_size_t(1) << nsStyleStructID_Reset_Count) - 1) \
<< nsStyleStructID_Inherited_Count)
// Additional bits for nsStyleContext's mBits:
// See nsStyleContext::HasTextDecorationLines
#define NS_STYLE_HAS_TEXT_DECORATION_LINES 0x001000000
// See nsStyleContext::HasPseudoElementData.
#define NS_STYLE_HAS_PSEUDO_ELEMENT_DATA 0x002000000
// See nsStyleContext::RelevantLinkIsVisited
#define NS_STYLE_RELEVANT_LINK_VISITED 0x004000000
// See nsStyleContext::IsStyleIfVisited
#define NS_STYLE_IS_STYLE_IF_VISITED 0x008000000
// See nsStyleContext::HasChildThatUsesGrandancestorStyle
#define NS_STYLE_CHILD_USES_GRANDANCESTOR_STYLE 0x010000000
// See nsStyleContext::IsShared
#define NS_STYLE_IS_SHARED 0x020000000
// See nsStyleContext::AssertStructsNotUsedElsewhere
// (This bit is currently only used in #ifdef DEBUG code.)
#define NS_STYLE_IS_GOING_AWAY 0x040000000
// See nsStyleContext::ShouldSuppressLineBreak
#define NS_STYLE_SUPPRESS_LINEBREAK 0x080000000
// See nsStyleContext::IsInDisplayNoneSubtree
#define NS_STYLE_IN_DISPLAY_NONE_SUBTREE 0x100000000
// See nsStyleContext::FindChildWithRules
#define NS_STYLE_INELIGIBLE_FOR_SHARING 0x200000000
// See nsStyleContext::HasChildThatUsesResetStyle
#define NS_STYLE_HAS_CHILD_THAT_USES_RESET_STYLE 0x400000000
// See nsStyleContext::IsTextCombined
#define NS_STYLE_IS_TEXT_COMBINED 0x800000000
// Whether a style context is a Gecko or Servo context
#define NS_STYLE_CONTEXT_IS_GECKO 0x1000000000
// See nsStyleContext::GetPseudoEnum
#define NS_STYLE_CONTEXT_TYPE_SHIFT 37
// Additional bits for nsRuleNode's mDependentBits:
#define NS_RULE_NODE_IS_ANIMATION_RULE 0x01000000
// Free bit 0x02000000
#define NS_RULE_NODE_USED_DIRECTLY 0x04000000
#define NS_RULE_NODE_IS_IMPORTANT 0x08000000
#define NS_RULE_NODE_LEVEL_MASK 0xf0000000
#define NS_RULE_NODE_LEVEL_SHIFT 28
// Additional bits for nsRuleNode's mNoneBits:
#define NS_RULE_NODE_HAS_ANIMATION_DATA 0x80000000
static_assert(int(mozilla::SheetType::Count) - 1 <=
(NS_RULE_NODE_LEVEL_MASK >> NS_RULE_NODE_LEVEL_SHIFT),
"NS_RULE_NODE_LEVEL_MASK cannot fit SheetType");
static_assert(NS_STYLE_INHERIT_MASK == (1 << nsStyleStructID_Length) - 1,
"NS_STYLE_INHERIT_MASK is not correct");
static_assert((NS_RULE_NODE_IS_ANIMATION_RULE & NS_STYLE_INHERIT_MASK) == 0,
"NS_RULE_NODE_IS_ANIMATION_RULE must not overlap the style struct bits.");
namespace mozilla {
struct Position {
using Coord = nsStyleCoord::CalcValue;
Coord mXPosition, mYPosition;
// Initialize nothing
Position() {}
// Sets both mXPosition and mYPosition to the given percent value for the
// initial property-value (e.g. 0.0f for "0% 0%", or 0.5f for "50% 50%")
void SetInitialPercentValues(float aPercentVal);
// Sets both mXPosition and mYPosition to 0 (app units) for the
// initial property-value as a length with no percentage component.
void SetInitialZeroValues();
// True if the effective background image position described by this depends
// on the size of the corresponding frame.
bool DependsOnPositioningAreaSize() const {
return mXPosition.mPercent != 0.0f || mYPosition.mPercent != 0.0f;
}
bool operator==(const Position& aOther) const {
return mXPosition == aOther.mXPosition &&
mYPosition == aOther.mYPosition;
}
bool operator!=(const Position& aOther) const {
return !(*this == aOther);
}
};
} // namespace mozilla
// The lifetime of these objects is managed by the presshell's arena.
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleFont
{
nsStyleFont(const nsFont& aFont, const nsPresContext* aContext);
nsStyleFont(const nsStyleFont& aStyleFont);
explicit nsStyleFont(const nsPresContext* aContext);
~nsStyleFont() {
MOZ_COUNT_DTOR(nsStyleFont);
}
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
nsChangeHint CalcDifference(const nsStyleFont& aNewData) const;
/**
* Return aSize multiplied by the current text zoom factor (in aPresContext).
* aSize is allowed to be negative, but the caller is expected to deal with
* negative results. The result is clamped to nscoord_MIN .. nscoord_MAX.
*/
static nscoord ZoomText(const nsPresContext* aPresContext, nscoord aSize);
/**
* Return aSize divided by the current text zoom factor (in aPresContext).
* aSize is allowed to be negative, but the caller is expected to deal with
* negative results. The result is clamped to nscoord_MIN .. nscoord_MAX.
*/
static nscoord UnZoomText(nsPresContext* aPresContext, nscoord aSize);
static already_AddRefed<nsIAtom> GetLanguage(const nsPresContext* aPresContext);
void* operator new(size_t sz, nsStyleFont* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleFont, sz);
}
void Destroy(nsPresContext* aContext);
void EnableZoom(nsPresContext* aContext, bool aEnable);
nsFont mFont; // [inherited]
nscoord mSize; // [inherited] Our "computed size". Can be different
// from mFont.size which is our "actual size" and is
// enforced to be >= the user's preferred min-size.
// mFont.size should be used for display purposes
// while mSize is the value to return in
// getComputedStyle() for example.
uint8_t mGenericID; // [inherited] generic CSS font family, if any;
// value is a kGenericFont_* constant, see nsFont.h.
// MathML scriptlevel support
int8_t mScriptLevel; // [inherited]
// MathML mathvariant support
uint8_t mMathVariant; // [inherited]
// MathML displaystyle support
uint8_t mMathDisplay; // [inherited]
// allow different min font-size for certain cases
uint8_t mMinFontSizeRatio; // [inherited] percent * 100
// was mLanguage set based on a lang attribute in the document?
bool mExplicitLanguage; // [inherited]
// should calls to ZoomText() and UnZoomText() be made to the font
// size on this nsStyleFont?
bool mAllowZoom; // [inherited]
// The value mSize would have had if scriptminsize had never been applied
nscoord mScriptUnconstrainedSize;
nscoord mScriptMinSize; // [inherited] length
float mScriptSizeMultiplier; // [inherited]
nsCOMPtr<nsIAtom> mLanguage; // [inherited]
};
struct nsStyleGradientStop
{
nsStyleCoord mLocation; // percent, coord, calc, none
nscolor mColor;
bool mIsInterpolationHint;
// Use ==/!= on nsStyleGradient instead of on the gradient stop.
bool operator==(const nsStyleGradientStop&) const = delete;
bool operator!=(const nsStyleGradientStop&) const = delete;
};
class nsStyleGradient final
{
public:
nsStyleGradient();
uint8_t mShape; // NS_STYLE_GRADIENT_SHAPE_*
uint8_t mSize; // NS_STYLE_GRADIENT_SIZE_*;
// not used (must be FARTHEST_CORNER) for linear shape
bool mRepeating;
bool mLegacySyntax; // If true, serialization should use a vendor prefix.
// XXXdholbert This will hopefully be going away soon, if bug 1337655 sticks:
bool mMozLegacySyntax; // (Only makes sense when mLegacySyntax is true.)
// If true, serialization should use -moz prefix.
// Else, serialization should use -webkit prefix.
nsStyleCoord mBgPosX; // percent, coord, calc, none
nsStyleCoord mBgPosY; // percent, coord, calc, none
nsStyleCoord mAngle; // none, angle
nsStyleCoord mRadiusX; // percent, coord, calc, none
nsStyleCoord mRadiusY; // percent, coord, calc, none
// stops are in the order specified in the stylesheet
nsTArray<nsStyleGradientStop> mStops;
bool operator==(const nsStyleGradient& aOther) const;
bool operator!=(const nsStyleGradient& aOther) const {
return !(*this == aOther);
}
bool IsOpaque();
bool HasCalc();
uint32_t Hash(PLDHashNumber aHash);
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsStyleGradient)
private:
// Private destructor, to discourage deletion outside of Release():
~nsStyleGradient() {}
nsStyleGradient(const nsStyleGradient& aOther) = delete;
nsStyleGradient& operator=(const nsStyleGradient& aOther) = delete;
};
/**
* A wrapper for an imgRequestProxy that supports off-main-thread creation
* and equality comparison.
*
* An nsStyleImageRequest can be created in two ways:
*
* 1. Using the constructor that takes an imgRequestProxy. This must
* be called from the main thread. The nsStyleImageRequest is
* immediately considered "resolved", and the get() method that
* returns the imgRequestProxy can be called.
*
* 2. Using the constructor that takes the URL, base URI, referrer
* and principal that can be used to inititiate an image load and
* produce an imgRequestProxy later. This can be called from
* any thread. The nsStyleImageRequest is not considered "resolved"
* at this point, and the Resolve() method must be called later
* to initiate the image load and make calls to get() valid.
*
* Calls to TrackImage(), UntrackImage(), LockImage(), UnlockImage() and
* RequestDiscard() are made to the imgRequestProxy and ImageTracker as
* appropriate, according to the mode flags passed in to the constructor.
*
* The main thread constructor takes a pointer to the css::ImageValue that
* is the specified url() value, while the off-main-thread constructor
* creates a new css::ImageValue to represent the url() information passed
* to the constructor. This ImageValue is held on to for the comparisons done
* in DefinitelyEquals(), so that we don't need to call into the non-OMT-safe
* Equals() on the nsIURI objects returned from imgRequestProxy::GetURI().
*/
class nsStyleImageRequest
{
public:
typedef mozilla::css::URLValueData URLValueData;
// Flags describing whether the imgRequestProxy must be tracked in the
// ImageTracker, whether LockImage/UnlockImage calls will be made
// when obtaining and releasing the imgRequestProxy, and whether
// RequestDiscard will be called on release.
enum class Mode : uint8_t {
// The imgRequestProxy will be added to the ImageTracker when resolved
// Without this flag, the nsStyleImageRequest itself will call LockImage/
// UnlockImage on the imgRequestProxy, rather than leaving locking to the
// ImageTracker to manage.
//
// This flag is currently used by all nsStyleImageRequests except
// those for list-style-image and cursor.
Track = 0x1,
// The imgRequestProxy will have its RequestDiscard method called when
// the nsStyleImageRequest is going away.
//
// This is currently used only for cursor images.
Discard = 0x2,
};
// Must be called from the main thread.
//
// aImageTracker must be non-null iff aModeFlags contains Track.
nsStyleImageRequest(Mode aModeFlags,
imgRequestProxy* aRequestProxy,
mozilla::css::ImageValue* aImageValue,
mozilla::dom::ImageTracker* aImageTracker);
// Can be called from any thread, but Resolve() must be called later
// on the main thread before get() can be used.
nsStyleImageRequest(
Mode aModeFlags,
mozilla::css::ImageValue* aImageValue);
bool Resolve(nsPresContext* aPresContext);
bool IsResolved() const { return mResolved; }
imgRequestProxy* get() {
MOZ_ASSERT(IsResolved(), "Resolve() must be called first");
MOZ_ASSERT(NS_IsMainThread());
return mRequestProxy.get();
}
const imgRequestProxy* get() const {
return const_cast<nsStyleImageRequest*>(this)->get();
}
// Returns whether the ImageValue objects in the two nsStyleImageRequests
// return true from URLValueData::DefinitelyEqualURIs.
bool DefinitelyEquals(const nsStyleImageRequest& aOther) const;
mozilla::css::ImageValue* GetImageValue() const { return mImageValue; }
already_AddRefed<nsIURI> GetImageURI() const;
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsStyleImageRequest);
private:
~nsStyleImageRequest();
nsStyleImageRequest& operator=(const nsStyleImageRequest& aOther) = delete;
void MaybeTrackAndLock();
RefPtr<imgRequestProxy> mRequestProxy;
RefPtr<mozilla::css::ImageValue> mImageValue;
RefPtr<mozilla::dom::ImageTracker> mImageTracker;
// Cache DocGroup for dispatching events in the destructor.
RefPtr<mozilla::dom::DocGroup> mDocGroup;
Mode mModeFlags;
bool mResolved;
};
MOZ_MAKE_ENUM_CLASS_BITWISE_OPERATORS(nsStyleImageRequest::Mode)
enum nsStyleImageType {
eStyleImageType_Null,
eStyleImageType_Image,
eStyleImageType_Gradient,
eStyleImageType_Element,
eStyleImageType_URL
};
struct CachedBorderImageData
{
// Caller are expected to ensure that the value of aSVGViewportSize is
// different from the cached one since the method won't do the check.
void SetCachedSVGViewportSize(const mozilla::Maybe<nsSize>& aSVGViewportSize);
const mozilla::Maybe<nsSize>& GetCachedSVGViewportSize();
void PurgeCachedImages();
void SetSubImage(uint8_t aIndex, imgIContainer* aSubImage);
imgIContainer* GetSubImage(uint8_t aIndex);
private:
// If this is a SVG border-image, we save the size of the SVG viewport that
// we used when rasterizing any cached border-image subimages. (The viewport
// size matters for percent-valued sizes & positions in inner SVG doc).
mozilla::Maybe<nsSize> mCachedSVGViewportSize;
nsCOMArray<imgIContainer> mSubImages;
};
/**
* Represents a paintable image of one of the following types.
* (1) A real image loaded from an external source.
* (2) A CSS linear or radial gradient.
* (3) An element within a document, or an <img>, <video>, or <canvas> element
* not in a document.
* (*) Optionally a crop rect can be set to paint a partial (rectangular)
* region of an image. (Currently, this feature is only supported with an
* image of type (1)).
*/
struct nsStyleImage
{
typedef mozilla::css::URLValue URLValue;
typedef mozilla::css::URLValueData URLValueData;
nsStyleImage();
~nsStyleImage();
nsStyleImage(const nsStyleImage& aOther);
nsStyleImage& operator=(const nsStyleImage& aOther);
void SetNull();
void SetImageRequest(already_AddRefed<nsStyleImageRequest> aImage);
void SetGradientData(nsStyleGradient* aGradient);
void SetElementId(already_AddRefed<nsIAtom> aElementId);
void SetCropRect(mozilla::UniquePtr<nsStyleSides> aCropRect);
void SetURLValue(already_AddRefed<URLValue> aData);
void ResolveImage(nsPresContext* aContext) {
MOZ_ASSERT(mType != eStyleImageType_Image || mImage);
if (mType == eStyleImageType_Image && !mImage->IsResolved()) {
mImage->Resolve(aContext);
}
}
nsStyleImageType GetType() const {
return mType;
}
nsStyleImageRequest* GetImageRequest() const {
MOZ_ASSERT(mType == eStyleImageType_Image, "Data is not an image!");
MOZ_ASSERT(mImage);
return mImage;
}
imgRequestProxy* GetImageData() const {
return GetImageRequest()->get();
}
nsStyleGradient* GetGradientData() const {
NS_ASSERTION(mType == eStyleImageType_Gradient, "Data is not a gradient!");
return mGradient;
}
bool IsResolved() const {
return mType != eStyleImageType_Image || GetImageRequest()->IsResolved();
}
const nsIAtom* GetElementId() const {
NS_ASSERTION(mType == eStyleImageType_Element, "Data is not an element!");
return mElementId;
}
const mozilla::UniquePtr<nsStyleSides>& GetCropRect() const {
NS_ASSERTION(mType == eStyleImageType_Image,
"Only image data can have a crop rect");
return mCropRect;
}
already_AddRefed<nsIURI> GetImageURI() const;
URLValueData* GetURLValue() const;
/**
* Compute the actual crop rect in pixels, using the source image bounds.
* The computation involves converting percentage unit to pixel unit and
* clamping each side value to fit in the source image bounds.
* @param aActualCropRect the computed actual crop rect.
* @param aIsEntireImage true iff |aActualCropRect| is identical to the
* source image bounds.
* @return true iff |aActualCropRect| holds a meaningful value.
*/
bool ComputeActualCropRect(nsIntRect& aActualCropRect,
bool* aIsEntireImage = nullptr) const;
/**
* Starts the decoding of a image. Returns true if the current frame of the
* image is complete. The return value is intended to be used instead of
* IsComplete because IsComplete may not be up to date if notifications
* from decoding are pending because they are being sent async.
*/
bool StartDecoding() const;
/**
* @return true if the item is definitely opaque --- i.e., paints every
* pixel within its bounds opaquely, and the bounds contains at least a pixel.
*/
bool IsOpaque() const;
/**
* @return true if this image is fully loaded, and its size is calculated;
* always returns true if |mType| is |eStyleImageType_Gradient| or
* |eStyleImageType_Element|.
*/
bool IsComplete() const;
/**
* @return true if this image is loaded without error;
* always returns true if |mType| is |eStyleImageType_Gradient| or
* |eStyleImageType_Element|.
*/
bool IsLoaded() const;
/**
* @return true if it is 100% confident that this image contains no pixel
* to draw.
*/
bool IsEmpty() const {
// There are some other cases when the image will be empty, for example
// when the crop rect is empty. However, checking the emptiness of crop
// rect is non-trivial since each side value can be specified with
// percentage unit, which can not be evaluated until the source image size
// is available. Therefore, we currently postpone the evaluation of crop
// rect until the actual rendering time --- alternatively until GetOpaqueRegion()
// is called.
return mType == eStyleImageType_Null;
}
bool operator==(const nsStyleImage& aOther) const;
bool operator!=(const nsStyleImage& aOther) const {
return !(*this == aOther);
}
bool ImageDataEquals(const nsStyleImage& aOther) const
{
return GetType() == eStyleImageType_Image &&
aOther.GetType() == eStyleImageType_Image &&
GetImageData() == aOther.GetImageData();
}
// These methods are used for the caller to caches the sub images created
// during a border-image paint operation
inline void SetSubImage(uint8_t aIndex, imgIContainer* aSubImage) const;
inline imgIContainer* GetSubImage(uint8_t aIndex) const;
void PurgeCacheForViewportChange(
const mozilla::Maybe<nsSize>& aSVGViewportSize,
const bool aHasIntrinsicRatio) const;
private:
void DoCopy(const nsStyleImage& aOther);
void EnsureCachedBIData() const;
// This variable keeps some cache data for border image and is lazily
// allocated since it is only used in border image case.
mozilla::UniquePtr<CachedBorderImageData> mCachedBIData;
nsStyleImageType mType;
union {
nsStyleImageRequest* mImage;
nsStyleGradient* mGradient;
URLValue* mURLValue; // See the comment in SetStyleImage's 'case
// eCSSUnit_URL' section to know why we need to
// store URLValues separately from mImage.
nsIAtom* mElementId;
};
// This is _currently_ used only in conjunction with eStyleImageType_Image.
mozilla::UniquePtr<nsStyleSides> mCropRect;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleColor
{
explicit nsStyleColor(const nsPresContext* aContext);
nsStyleColor(const nsStyleColor& aOther);
~nsStyleColor() {
MOZ_COUNT_DTOR(nsStyleColor);
}
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
nscolor CalcComplexColor(const mozilla::StyleComplexColor& aColor) const {
return mozilla::LinearBlendColors(aColor.mColor, mColor,
aColor.mForegroundRatio);
}
nsChangeHint CalcDifference(const nsStyleColor& aNewData) const;
void* operator new(size_t sz, nsStyleColor* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleColor, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleColor();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleColor, this);
}
// Don't add ANY members to this struct! We can achieve caching in the rule
// tree (rather than the style tree) by letting color stay by itself! -dwh
nscolor mColor; // [inherited]
};
struct nsStyleImageLayers {
// Indices into kBackgroundLayerTable and kMaskLayerTable
enum {
shorthand = 0,
color,
image,
repeat,
positionX,
positionY,
clip,
origin,
size,
attachment,
maskMode,
composite
};
enum class LayerType : uint8_t {
Background = 0,
Mask
};
explicit nsStyleImageLayers(LayerType aType);
nsStyleImageLayers(const nsStyleImageLayers &aSource);
~nsStyleImageLayers() {
MOZ_COUNT_DTOR(nsStyleImageLayers);
}
static bool IsInitialPositionForLayerType(mozilla::Position aPosition, LayerType aType);
struct Size;
friend struct Size;
struct Size {
struct Dimension : public nsStyleCoord::CalcValue {
nscoord ResolveLengthPercentage(nscoord aAvailable) const {
double d = double(mPercent) * double(aAvailable) + double(mLength);
if (d < 0.0) {
return 0;
}
return NSToCoordRoundWithClamp(float(d));
}
};
Dimension mWidth, mHeight;
bool IsInitialValue() const {
return mWidthType == eAuto && mHeightType == eAuto;
}
nscoord ResolveWidthLengthPercentage(const nsSize& aBgPositioningArea) const {
MOZ_ASSERT(mWidthType == eLengthPercentage,
"resolving non-length/percent dimension!");
return mWidth.ResolveLengthPercentage(aBgPositioningArea.width);
}
nscoord ResolveHeightLengthPercentage(const nsSize& aBgPositioningArea) const {
MOZ_ASSERT(mHeightType == eLengthPercentage,
"resolving non-length/percent dimension!");
return mHeight.ResolveLengthPercentage(aBgPositioningArea.height);
}
// Except for eLengthPercentage, Dimension types which might change
// how a layer is painted when the corresponding frame's dimensions
// change *must* precede all dimension types which are agnostic to
// frame size; see DependsOnDependsOnPositioningAreaSizeSize.
enum DimensionType {
// If one of mWidth and mHeight is eContain or eCover, then both are.
// NOTE: eContain and eCover *must* be equal to NS_STYLE_BG_SIZE_CONTAIN
// and NS_STYLE_BG_SIZE_COVER (in kBackgroundSizeKTable).
eContain, eCover,
eAuto,
eLengthPercentage,
eDimensionType_COUNT
};
uint8_t mWidthType, mHeightType;
// True if the effective image size described by this depends on the size of
// the corresponding frame, when aImage (which must not have null type) is
// the background image.
bool DependsOnPositioningAreaSize(const nsStyleImage& aImage) const;
// Initialize nothing
Size() {}
// Initialize to initial values
void SetInitialValues();
bool operator==(const Size& aOther) const;
bool operator!=(const Size& aOther) const {
return !(*this == aOther);
}
};
struct Repeat;
friend struct Repeat;
struct Repeat {
mozilla::StyleImageLayerRepeat mXRepeat, mYRepeat;
// Initialize nothing
Repeat() {}
bool IsInitialValue() const {
return mXRepeat == mozilla::StyleImageLayerRepeat::Repeat &&
mYRepeat == mozilla::StyleImageLayerRepeat::Repeat;
}
bool DependsOnPositioningAreaSize() const {
return mXRepeat == mozilla::StyleImageLayerRepeat::Space ||
mYRepeat == mozilla::StyleImageLayerRepeat::Space;
}
// Initialize to initial values
void SetInitialValues() {
mXRepeat = mozilla::StyleImageLayerRepeat::Repeat;
mYRepeat = mozilla::StyleImageLayerRepeat::Repeat;
}
bool operator==(const Repeat& aOther) const {
return mXRepeat == aOther.mXRepeat &&
mYRepeat == aOther.mYRepeat;
}
bool operator!=(const Repeat& aOther) const {
return !(*this == aOther);
}
};
struct Layer;
friend struct Layer;
struct Layer {
typedef mozilla::StyleGeometryBox StyleGeometryBox;
nsStyleImage mImage; // [reset]
mozilla::Position mPosition; // [reset]
Size mSize; // [reset]
StyleGeometryBox mClip; // [reset] See nsStyleConsts.h
MOZ_INIT_OUTSIDE_CTOR
StyleGeometryBox mOrigin; // [reset] See nsStyleConsts.h
uint8_t mAttachment; // [reset] See nsStyleConsts.h
// background-only property
// This property is used for background layer
// only. For a mask layer, it should always
// be the initial value, which is
// NS_STYLE_IMAGELAYER_ATTACHMENT_SCROLL.
uint8_t mBlendMode; // [reset] See nsStyleConsts.h
// background-only property
// This property is used for background layer
// only. For a mask layer, it should always
// be the initial value, which is
// NS_STYLE_BLEND_NORMAL.
uint8_t mComposite; // [reset] See nsStyleConsts.h
// mask-only property
// This property is used for mask layer only.
// For a background layer, it should always
// be the initial value, which is
// NS_STYLE_COMPOSITE_MODE_ADD.
uint8_t mMaskMode; // [reset] See nsStyleConsts.h
// mask-only property
// This property is used for mask layer only.
// For a background layer, it should always
// be the initial value, which is
// NS_STYLE_MASK_MODE_MATCH_SOURCE.
Repeat mRepeat; // [reset] See nsStyleConsts.h
// This constructor does not initialize mRepeat or mOrigin and Initialize()
// must be called to do that.
Layer();
~Layer();
// Initialize mRepeat and mOrigin by specified layer type
void Initialize(LayerType aType);
void ResolveImage(nsPresContext* aContext) {
if (mImage.GetType() == eStyleImageType_Image) {
mImage.ResolveImage(aContext);
}
}
// True if the rendering of this layer might change when the size
// of the background positioning area changes. This is true for any
// non-solid-color background whose position or size depends on
// the size of the positioning area. It's also true for SVG images
// whose root <svg> node has a viewBox.
bool RenderingMightDependOnPositioningAreaSizeChange() const;
// Compute the change hint required by changes in just this layer.
nsChangeHint CalcDifference(const Layer& aNewLayer) const;
// An equality operator that compares the images using URL-equality
// rather than pointer-equality.
bool operator==(const Layer& aOther) const;
bool operator!=(const Layer& aOther) const {
return !(*this == aOther);
}
};
// The (positive) number of computed values of each property, since
// the lengths of the lists are independent.
uint32_t mAttachmentCount,
mClipCount,
mOriginCount,
mRepeatCount,
mPositionXCount,
mPositionYCount,
mImageCount,
mSizeCount,
mMaskModeCount,
mBlendModeCount,
mCompositeCount;
// Layers are stored in an array, matching the top-to-bottom order in
// which they are specified in CSS. The number of layers to be used
// should come from the background-image property. We create
// additional |Layer| objects for *any* property, not just
// background-image. This means that the bottommost layer that
// callers in layout care about (which is also the one whose
// background-clip applies to the background-color) may not be last
// layer. In layers below the bottom layer, properties will be
// uninitialized unless their count, above, indicates that they are
// present.
nsStyleAutoArray<Layer> mLayers;
const Layer& BottomLayer() const { return mLayers[mImageCount - 1]; }
void ResolveImages(nsPresContext* aContext) {
for (uint32_t i = 0; i < mImageCount; ++i) {
mLayers[i].ResolveImage(aContext);
}
}
nsChangeHint CalcDifference(const nsStyleImageLayers& aNewLayers,
nsStyleImageLayers::LayerType aType) const;
nsStyleImageLayers& operator=(const nsStyleImageLayers& aOther);
nsStyleImageLayers& operator=(nsStyleImageLayers&& aOther);
bool operator==(const nsStyleImageLayers& aOther) const;
static const nsCSSPropertyID kBackgroundLayerTable[];
static const nsCSSPropertyID kMaskLayerTable[];
#define NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT(var_, layers_) \
for (uint32_t var_ = (layers_).mImageCount; var_-- != 0; )
#define NS_FOR_VISIBLE_IMAGE_LAYERS_BACK_TO_FRONT_WITH_RANGE(var_, layers_, start_, count_) \
NS_ASSERTION((int32_t)(start_) >= 0 && (uint32_t)(start_) < (layers_).mImageCount, "Invalid layer start!"); \
NS_ASSERTION((count_) > 0 && (count_) <= (start_) + 1, "Invalid layer range!"); \
for (uint32_t var_ = (start_) + 1; var_-- != (uint32_t)((start_) + 1 - (count_)); )
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleBackground {
explicit nsStyleBackground(const nsPresContext* aContext);
nsStyleBackground(const nsStyleBackground& aOther);
~nsStyleBackground();
// Resolves and tracks the images in mImage. Only called with a Servo-backed
// style system, where those images must be resolved later than the OMT
// nsStyleBackground constructor call.
void FinishStyle(nsPresContext* aPresContext);
const static bool kHasFinishStyle = true;
void* operator new(size_t sz, nsStyleBackground* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleBackground, sz);
}
void Destroy(nsPresContext* aContext);
nsChangeHint CalcDifference(const nsStyleBackground& aNewData) const;
// Return the background color as nscolor.
nscolor BackgroundColor(const nsIFrame* aFrame) const;
nscolor BackgroundColor(nsStyleContext* aContext) const;
// True if this background is completely transparent.
bool IsTransparent(const nsIFrame* aFrame) const;
bool IsTransparent(nsStyleContext* aContext) const;
// We have to take slower codepaths for fixed background attachment,
// but we don't want to do that when there's no image.
// Not inline because it uses an nsCOMPtr<imgIRequest>
// FIXME: Should be in nsStyleStructInlines.h.
bool HasFixedBackground(nsIFrame* aFrame) const;
// Checks to see if this has a non-empty image with "local" attachment.
// This is defined in nsStyleStructInlines.h.
inline bool HasLocalBackground() const;
const nsStyleImageLayers::Layer& BottomLayer() const { return mImage.BottomLayer(); }
nsStyleImageLayers mImage;
mozilla::StyleComplexColor mBackgroundColor; // [reset]
};
#define NS_SPACING_MARGIN 0
#define NS_SPACING_PADDING 1
#define NS_SPACING_BORDER 2
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleMargin
{
explicit nsStyleMargin(const nsPresContext* aContext);
nsStyleMargin(const nsStyleMargin& aMargin);
~nsStyleMargin() {
MOZ_COUNT_DTOR(nsStyleMargin);
}
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleMargin* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleMargin, sz);
}
void Destroy(nsPresContext* aContext);
nsChangeHint CalcDifference(const nsStyleMargin& aNewData) const;
bool GetMargin(nsMargin& aMargin) const
{
if (!mMargin.ConvertsToLength()) {
return false;
}
NS_FOR_CSS_SIDES(side) {
aMargin.Side(side) = mMargin.ToLength(side);
}
return true;
}
// Return true if either the start or end side in the axis is 'auto'.
// (defined in WritingModes.h since we need the full WritingMode type)
inline bool HasBlockAxisAuto(mozilla::WritingMode aWM) const;
inline bool HasInlineAxisAuto(mozilla::WritingMode aWM) const;
nsStyleSides mMargin; // [reset] coord, percent, calc, auto
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStylePadding
{
explicit nsStylePadding(const nsPresContext* aContext);
nsStylePadding(const nsStylePadding& aPadding);
~nsStylePadding() {
MOZ_COUNT_DTOR(nsStylePadding);
}
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStylePadding* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStylePadding, sz);
}
void Destroy(nsPresContext* aContext);
nsChangeHint CalcDifference(const nsStylePadding& aNewData) const;
nsStyleSides mPadding; // [reset] coord, percent, calc
bool IsWidthDependent() const {
return !mPadding.ConvertsToLength();
}
bool GetPadding(nsMargin& aPadding) const
{
if (!mPadding.ConvertsToLength()) {
return false;
}
NS_FOR_CSS_SIDES(side) {
// Clamp negative calc() to 0.
aPadding.Side(side) = std::max(mPadding.ToLength(side), 0);
}
return true;
}
};
struct nsBorderColors
{
nsBorderColors* mNext;
nscolor mColor;
nsBorderColors() : mNext(nullptr), mColor(NS_RGB(0,0,0)) {}
explicit nsBorderColors(const nscolor& aColor) : mNext(nullptr), mColor(aColor) {}
~nsBorderColors();
nsBorderColors* Clone() const { return Clone(true); }
static bool Equal(const nsBorderColors* c1,
const nsBorderColors* c2) {
if (c1 == c2) {
return true;
}
while (c1 && c2) {
if (c1->mColor != c2->mColor) {
return false;
}
c1 = c1->mNext;
c2 = c2->mNext;
}
// both should be nullptr if these are equal, otherwise one
// has more colors than another
return !c1 && !c2;
}
private:
nsBorderColors* Clone(bool aDeep) const;
};
struct nsCSSShadowItem
{
nscoord mXOffset;
nscoord mYOffset;
nscoord mRadius;
nscoord mSpread;
nscolor mColor;
bool mHasColor; // Whether mColor should be used
bool mInset;
nsCSSShadowItem() : mHasColor(false) {
MOZ_COUNT_CTOR(nsCSSShadowItem);
}
~nsCSSShadowItem() {
MOZ_COUNT_DTOR(nsCSSShadowItem);
}
bool operator==(const nsCSSShadowItem& aOther) const {
return (mXOffset == aOther.mXOffset &&
mYOffset == aOther.mYOffset &&
mRadius == aOther.mRadius &&
mHasColor == aOther.mHasColor &&
mSpread == aOther.mSpread &&
mInset == aOther.mInset &&
(!mHasColor || mColor == aOther.mColor));
}
bool operator!=(const nsCSSShadowItem& aOther) const {
return !(*this == aOther);
}
};
class nsCSSShadowArray final
{
public:
void* operator new(size_t aBaseSize, uint32_t aArrayLen) {
// We can allocate both this nsCSSShadowArray and the
// actual array in one allocation. The amount of memory to
// allocate is equal to the class's size + the number of bytes for all
// but the first array item (because aBaseSize includes one
// item, see the private declarations)
return ::operator new(aBaseSize +
(aArrayLen - 1) * sizeof(nsCSSShadowItem));
}
void operator delete(void* aPtr) { ::operator delete(aPtr); }
explicit nsCSSShadowArray(uint32_t aArrayLen) :
mLength(aArrayLen)
{
for (uint32_t i = 1; i < mLength; ++i) {
// Make sure we call the constructors of each nsCSSShadowItem
// (the first one is called for us because we declared it under private)
new (&mArray[i]) nsCSSShadowItem();
}
}
private:
// Private destructor, to discourage deletion outside of Release():
~nsCSSShadowArray() {
for (uint32_t i = 1; i < mLength; ++i) {
mArray[i].~nsCSSShadowItem();
}
}
public:
uint32_t Length() const { return mLength; }
nsCSSShadowItem* ShadowAt(uint32_t i) {
MOZ_ASSERT(i < mLength, "Accessing too high an index in the text shadow array!");
return &mArray[i];
}
const nsCSSShadowItem* ShadowAt(uint32_t i) const {
MOZ_ASSERT(i < mLength, "Accessing too high an index in the text shadow array!");
return &mArray[i];
}
bool HasShadowWithInset(bool aInset) {
for (uint32_t i = 0; i < mLength; ++i) {
if (mArray[i].mInset == aInset) {
return true;
}
}
return false;
}
bool operator==(const nsCSSShadowArray& aOther) const {
if (mLength != aOther.Length()) {
return false;
}
for (uint32_t i = 0; i < mLength; ++i) {
if (ShadowAt(i) != aOther.ShadowAt(i)) {
return false;
}
}
return true;
}
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsCSSShadowArray)
private:
uint32_t mLength;
nsCSSShadowItem mArray[1]; // This MUST be the last item
};
// Border widths are rounded to the nearest-below integer number of pixels,
// but values between zero and one device pixels are always rounded up to
// one device pixel.
#define NS_ROUND_BORDER_TO_PIXELS(l,tpp) \
((l) == 0) ? 0 : std::max((tpp), (l) / (tpp) * (tpp))
// Outline offset is rounded to the nearest integer number of pixels, but values
// between zero and one device pixels are always rounded up to one device pixel.
// Note that the offset can be negative.
#define NS_ROUND_OFFSET_TO_PIXELS(l,tpp) \
(((l) == 0) ? 0 : \
((l) > 0) ? std::max( (tpp), ((l) + ((tpp) / 2)) / (tpp) * (tpp)) : \
std::min(-(tpp), ((l) - ((tpp) / 2)) / (tpp) * (tpp)))
// Returns if the given border style type is visible or not
static bool IsVisibleBorderStyle(uint8_t aStyle)
{
return (aStyle != NS_STYLE_BORDER_STYLE_NONE &&
aStyle != NS_STYLE_BORDER_STYLE_HIDDEN);
}
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleBorder
{
explicit nsStyleBorder(const nsPresContext* aContext);
nsStyleBorder(const nsStyleBorder& aBorder);
~nsStyleBorder();
// Resolves and tracks mBorderImageSource. Only called with a Servo-backed
// style system, where those images must be resolved later than the OMT
// nsStyleBorder constructor call.
void FinishStyle(nsPresContext* aPresContext);
const static bool kHasFinishStyle = true;
void* operator new(size_t sz, nsStyleBorder* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleBorder, sz);
}
void Destroy(nsPresContext* aContext);
nsChangeHint CalcDifference(const nsStyleBorder& aNewData) const;
void EnsureBorderColors() {
if (!mBorderColors) {
mBorderColors = new nsBorderColors*[4];
if (mBorderColors) {
for (int32_t i = 0; i < 4; i++) {
mBorderColors[i] = nullptr;
}
}
}
}
void ClearBorderColors(mozilla::Side aSide) {
if (mBorderColors && mBorderColors[aSide]) {
delete mBorderColors[aSide];
mBorderColors[aSide] = nullptr;
}
}
void CopyBorderColorsFrom(const nsBorderColors* aSrcBorderColors, mozilla::Side aSide) {
if (aSrcBorderColors) {
EnsureBorderColors();
ClearBorderColors(aSide);
mBorderColors[aSide] = aSrcBorderColors->Clone();
}
}
// Return whether aStyle is a visible style. Invisible styles cause
// the relevant computed border width to be 0.
// Note that this does *not* consider the effects of 'border-image':
// if border-style is none, but there is a loaded border image,
// HasVisibleStyle will be false even though there *is* a border.
bool HasVisibleStyle(mozilla::Side aSide) const
{
return IsVisibleBorderStyle(mBorderStyle[aSide]);
}
// aBorderWidth is in twips
void SetBorderWidth(mozilla::Side aSide, nscoord aBorderWidth)
{
nscoord roundedWidth =
NS_ROUND_BORDER_TO_PIXELS(aBorderWidth, mTwipsPerPixel);
mBorder.Side(aSide) = roundedWidth;
if (HasVisibleStyle(aSide)) {
mComputedBorder.Side(aSide) = roundedWidth;
}
}
// Get the computed border (plus rounding). This does consider the
// effects of 'border-style: none', but does not consider
// 'border-image'.
const nsMargin& GetComputedBorder() const
{
return mComputedBorder;
}
bool HasBorder() const
{
return mComputedBorder != nsMargin(0,0,0,0) || !mBorderImageSource.IsEmpty();
}
// Get the actual border width for a particular side, in appunits. Note that
// this is zero if and only if there is no border to be painted for this
// side. That is, this value takes into account the border style and the
// value is rounded to the nearest device pixel by NS_ROUND_BORDER_TO_PIXELS.
nscoord GetComputedBorderWidth(mozilla::Side aSide) const
{
return GetComputedBorder().Side(aSide);
}
uint8_t GetBorderStyle(mozilla::Side aSide) const
{
NS_ASSERTION(aSide <= mozilla::eSideLeft, "bad side");
return mBorderStyle[aSide];
}
void SetBorderStyle(mozilla::Side aSide, uint8_t aStyle)
{
NS_ASSERTION(aSide <= mozilla::eSideLeft, "bad side");
mBorderStyle[aSide] = aStyle;
mComputedBorder.Side(aSide) =
(HasVisibleStyle(aSide) ? mBorder.Side(aSide) : 0);
}
inline bool IsBorderImageLoaded() const
{
return mBorderImageSource.IsLoaded();
}
void ResolveImage(nsPresContext* aContext)
{
if (mBorderImageSource.GetType() == eStyleImageType_Image) {
mBorderImageSource.ResolveImage(aContext);
}
}
nsMargin GetImageOutset() const;
void GetCompositeColors(int32_t aIndex, nsBorderColors** aColors) const
{
if (!mBorderColors) {
*aColors = nullptr;
} else {
*aColors = mBorderColors[aIndex];
}
}
void AppendBorderColor(int32_t aIndex, nscolor aColor)
{
NS_ASSERTION(aIndex >= 0 && aIndex <= 3, "bad side for composite border color");
nsBorderColors* colorEntry = new nsBorderColors(aColor);
if (!mBorderColors[aIndex]) {
mBorderColors[aIndex] = colorEntry;
} else {
nsBorderColors* last = mBorderColors[aIndex];
while (last->mNext) {
last = last->mNext;
}
last->mNext = colorEntry;
}
}
imgIRequest* GetBorderImageRequest() const
{
if (mBorderImageSource.GetType() == eStyleImageType_Image) {
return mBorderImageSource.GetImageData();
}
return nullptr;
}
public:
nsBorderColors** mBorderColors; // [reset] composite (stripe) colors
nsStyleCorners mBorderRadius; // [reset] coord, percent
nsStyleImage mBorderImageSource; // [reset]
nsStyleSides mBorderImageSlice; // [reset] factor, percent
nsStyleSides mBorderImageWidth; // [reset] length, factor, percent, auto
nsStyleSides mBorderImageOutset; // [reset] length, factor
uint8_t mBorderImageFill; // [reset]
uint8_t mBorderImageRepeatH; // [reset] see nsStyleConsts.h
uint8_t mBorderImageRepeatV; // [reset]
mozilla::StyleFloatEdge mFloatEdge; // [reset]
mozilla::StyleBoxDecorationBreak mBoxDecorationBreak; // [reset]
protected:
uint8_t mBorderStyle[4]; // [reset] See nsStyleConsts.h
public:
// [reset] the colors to use for a simple border.
// not used for -moz-border-colors
union {
struct {
mozilla::StyleComplexColor mBorderTopColor;
mozilla::StyleComplexColor mBorderRightColor;
mozilla::StyleComplexColor mBorderBottomColor;
mozilla::StyleComplexColor mBorderLeftColor;
};
mozilla::StyleComplexColor mBorderColor[4];
};
static mozilla::StyleComplexColor nsStyleBorder::*
BorderColorFieldFor(mozilla::Side aSide) {
switch (aSide) {
case mozilla::eSideTop:
return &nsStyleBorder::mBorderTopColor;
case mozilla::eSideRight:
return &nsStyleBorder::mBorderRightColor;
case mozilla::eSideBottom:
return &nsStyleBorder::mBorderBottomColor;
case mozilla::eSideLeft:
return &nsStyleBorder::mBorderLeftColor;
}
MOZ_ASSERT_UNREACHABLE("Unknown side");
return nullptr;
}
protected:
// mComputedBorder holds the CSS2.1 computed border-width values.
// In particular, these widths take into account the border-style
// for the relevant side, and the values are rounded to the nearest
// device pixel (which is not part of the definition of computed
// values). The presence or absence of a border-image does not
// affect border-width values.
nsMargin mComputedBorder;
// mBorder holds the nscoord values for the border widths as they
// would be if all the border-style values were visible (not hidden
// or none). This member exists so that when we create structs
// using the copy constructor during style resolution the new
// structs will know what the specified values of the border were in
// case they have more specific rules setting the border style.
//
// Note that this isn't quite the CSS specified value, since this
// has had the enumerated border widths converted to lengths, and
// all lengths converted to twips. But it's not quite the computed
// value either. The values are rounded to the nearest device pixel.
nsMargin mBorder;
private:
nscoord mTwipsPerPixel;
nsStyleBorder& operator=(const nsStyleBorder& aOther) = delete;
};
#define ASSERT_BORDER_COLOR_FIELD(side_) \
static_assert(offsetof(nsStyleBorder, mBorder##side_##Color) == \
offsetof(nsStyleBorder, mBorderColor) + \
size_t(mozilla::eSide##side_) * \
sizeof(mozilla::StyleComplexColor), \
"mBorder" #side_ "Color must be at same offset " \
"as mBorderColor[mozilla::eSide" #side_ "]")
ASSERT_BORDER_COLOR_FIELD(Top);
ASSERT_BORDER_COLOR_FIELD(Right);
ASSERT_BORDER_COLOR_FIELD(Bottom);
ASSERT_BORDER_COLOR_FIELD(Left);
#undef ASSERT_BORDER_COLOR_FIELD
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleOutline
{
explicit nsStyleOutline(const nsPresContext* aContext);
nsStyleOutline(const nsStyleOutline& aOutline);
~nsStyleOutline() {
MOZ_COUNT_DTOR(nsStyleOutline);
}
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleOutline* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleOutline, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleOutline();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleOutline, this);
}
void RecalcData();
nsChangeHint CalcDifference(const nsStyleOutline& aNewData) const;
nsStyleCorners mOutlineRadius; // [reset] coord, percent, calc
// This is the specified value of outline-width, but with length values
// computed to absolute. mActualOutlineWidth stores the outline-width
// value used by layout. (We must store mOutlineWidth for the same
// style struct resolution reasons that we do nsStyleBorder::mBorder;
// see that field's comment.)
nscoord mOutlineWidth; // [reset] coord, enum (see nsStyleConsts.h)
nscoord mOutlineOffset; // [reset]
mozilla::StyleComplexColor mOutlineColor; // [reset]
uint8_t mOutlineStyle; // [reset] See nsStyleConsts.h
nscoord GetOutlineWidth() const
{
return mActualOutlineWidth;
}
bool ShouldPaintOutline() const
{
return mOutlineStyle == NS_STYLE_BORDER_STYLE_AUTO ||
(GetOutlineWidth() > 0 &&
mOutlineStyle != NS_STYLE_BORDER_STYLE_NONE);
}
protected:
// The actual value of outline-width is the computed value (an absolute
// length, forced to zero when outline-style is none) rounded to device
// pixels. This is the value used by layout.
nscoord mActualOutlineWidth;
nscoord mTwipsPerPixel;
};
/**
* An object that allows sharing of arrays that store 'quotes' property
* values. This is particularly important for inheritance, where we want
* to share the same 'quotes' value with a parent style context.
*/
class nsStyleQuoteValues
{
public:
typedef nsTArray<std::pair<nsString, nsString>> QuotePairArray;
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(nsStyleQuoteValues);
QuotePairArray mQuotePairs;
private:
~nsStyleQuoteValues() {}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleList
{
explicit nsStyleList(const nsPresContext* aContext);
nsStyleList(const nsStyleList& aStyleList);
~nsStyleList();
void FinishStyle(nsPresContext* aPresContext);
const static bool kHasFinishStyle = true;
void* operator new(size_t sz, nsStyleList* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleList, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleList();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleList, this);
}
nsChangeHint CalcDifference(const nsStyleList& aNewData,
const nsStyleDisplay* aOldDisplay) const;
static void Shutdown() {
sInitialQuotes = nullptr;
sNoneQuotes = nullptr;
}
imgRequestProxy* GetListStyleImage() const
{
return mListStyleImage ? mListStyleImage->get() : nullptr;
}
already_AddRefed<nsIURI> GetListStyleImageURI() const;
const nsStyleQuoteValues::QuotePairArray& GetQuotePairs() const;
void SetQuotesInherit(const nsStyleList* aOther);
void SetQuotesInitial();
void SetQuotesNone();
void SetQuotes(nsStyleQuoteValues::QuotePairArray&& aValues);
uint8_t mListStylePosition; // [inherited]
RefPtr<nsStyleImageRequest> mListStyleImage; // [inherited]
mozilla::CounterStylePtr mCounterStyle; // [inherited]
private:
RefPtr<nsStyleQuoteValues> mQuotes; // [inherited]
nsStyleList& operator=(const nsStyleList& aOther) = delete;
public:
nsRect mImageRegion; // [inherited] the rect to use within an image
private:
// nsStyleQuoteValues objects representing two common values, for sharing.
static mozilla::StaticRefPtr<nsStyleQuoteValues> sInitialQuotes;
static mozilla::StaticRefPtr<nsStyleQuoteValues> sNoneQuotes;
};
struct nsStyleGridLine
{
// http://dev.w3.org/csswg/css-grid/#typedef-grid-line
// XXXmats we could optimize memory size here
bool mHasSpan;
int32_t mInteger; // 0 means not provided
nsString mLineName; // Empty string means not provided.
// These are the limits that we choose to clamp grid line numbers to.
// http://dev.w3.org/csswg/css-grid/#overlarge-grids
// mInteger is clamped to this range:
static const int32_t kMinLine = -10000;
static const int32_t kMaxLine = 10000;
nsStyleGridLine()
: mHasSpan(false)
, mInteger(0)
// mLineName get its default constructor, the empty string
{
}
nsStyleGridLine(const nsStyleGridLine& aOther)
{
(*this) = aOther;
}
void operator=(const nsStyleGridLine& aOther)
{
mHasSpan = aOther.mHasSpan;
mInteger = aOther.mInteger;
mLineName = aOther.mLineName;
}
bool operator!=(const nsStyleGridLine& aOther) const
{
return mHasSpan != aOther.mHasSpan ||
mInteger != aOther.mInteger ||
mLineName != aOther.mLineName;
}
void SetToInteger(uint32_t value)
{
mHasSpan = false;
mInteger = value;
mLineName.Truncate();
}
void SetAuto()
{
mHasSpan = false;
mInteger = 0;
mLineName.Truncate();
}
bool IsAuto() const
{
bool haveInitialValues = mInteger == 0 && mLineName.IsEmpty();
MOZ_ASSERT(!(haveInitialValues && mHasSpan),
"should not have 'span' when other components are "
"at their initial values");
return haveInitialValues;
}
};
// Computed value of the grid-template-columns or grid-template-rows property
// (but *not* grid-template-areas.)
// http://dev.w3.org/csswg/css-grid/#track-sizing
//
// This represents either:
// * none:
// mIsSubgrid is false, all three arrays are empty
// * <track-list>:
// mIsSubgrid is false,
// mMinTrackSizingFunctions and mMaxTrackSizingFunctions
// are of identical non-zero size,
// and mLineNameLists is one element longer than that.
// (Delimiting N columns requires N+1 lines:
// one before each track, plus one at the very end.)
//
// An omitted <line-names> is still represented in mLineNameLists,
// as an empty sub-array.
//
// A <track-size> specified as a single <track-breadth> is represented
// as identical min and max sizing functions.
// A 'fit-content(size)' <track-size> is represented as eStyleUnit_None
// in the min sizing function and 'size' in the max sizing function.
//
// The units for nsStyleCoord are:
// * eStyleUnit_Percent represents a <percentage>
// * eStyleUnit_FlexFraction represents a <flex> flexible fraction
// * eStyleUnit_Coord represents a <length>
// * eStyleUnit_Enumerated represents min-content or max-content
// * subgrid <line-name-list>?:
// mIsSubgrid is true,
// mLineNameLists may or may not be empty,
// mMinTrackSizingFunctions and mMaxTrackSizingFunctions are empty.
//
// If mRepeatAutoIndex != -1 then that index is an <auto-repeat> and
// mIsAutoFill == true means it's an 'auto-fill', otherwise 'auto-fit'.
// mRepeatAutoLineNameListBefore is the list of line names before the track
// size, mRepeatAutoLineNameListAfter the names after. (They are empty
// when there is no <auto-repeat> track, i.e. when mRepeatAutoIndex == -1).
// When mIsSubgrid is true, mRepeatAutoLineNameListBefore contains the line
// names and mRepeatAutoLineNameListAfter is empty.
struct nsStyleGridTemplate
{
nsTArray<nsTArray<nsString>> mLineNameLists;
nsTArray<nsStyleCoord> mMinTrackSizingFunctions;
nsTArray<nsStyleCoord> mMaxTrackSizingFunctions;
nsTArray<nsString> mRepeatAutoLineNameListBefore;
nsTArray<nsString> mRepeatAutoLineNameListAfter;
int16_t mRepeatAutoIndex; // -1 or the track index for an auto-fill/fit track
bool mIsAutoFill : 1;
bool mIsSubgrid : 1;
nsStyleGridTemplate()
: mRepeatAutoIndex(-1)
, mIsAutoFill(false)
, mIsSubgrid(false)
{
}
inline bool operator==(const nsStyleGridTemplate& aOther) const {
return
mIsSubgrid == aOther.mIsSubgrid &&
mLineNameLists == aOther.mLineNameLists &&
mMinTrackSizingFunctions == aOther.mMinTrackSizingFunctions &&
mMaxTrackSizingFunctions == aOther.mMaxTrackSizingFunctions &&
mIsAutoFill == aOther.mIsAutoFill &&
mRepeatAutoIndex == aOther.mRepeatAutoIndex &&
mRepeatAutoLineNameListBefore == aOther.mRepeatAutoLineNameListBefore &&
mRepeatAutoLineNameListAfter == aOther.mRepeatAutoLineNameListAfter;
}
bool HasRepeatAuto() const {
return mRepeatAutoIndex != -1;
}
bool IsRepeatAutoIndex(uint32_t aIndex) const {
MOZ_ASSERT(aIndex < uint32_t(2*nsStyleGridLine::kMaxLine));
return int32_t(aIndex) == mRepeatAutoIndex;
}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStylePosition
{
explicit nsStylePosition(const nsPresContext* aContext);
nsStylePosition(const nsStylePosition& aOther);
~nsStylePosition();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStylePosition* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStylePosition, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStylePosition();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStylePosition, this);
}
nsChangeHint CalcDifference(const nsStylePosition& aNewData,
const nsStyleVisibility* aOldStyleVisibility) const;
/**
* Return the used value for 'align-self' given our parent StyleContext
* aParent (or null for the root).
*/
uint8_t UsedAlignSelf(nsStyleContext* aParent) const;
/**
* Return the used value for 'justify-self' given our parent StyleContext
* aParent (or null for the root).
*/
uint8_t UsedJustifySelf(nsStyleContext* aParent) const;
mozilla::Position mObjectPosition; // [reset]
nsStyleSides mOffset; // [reset] coord, percent, calc, auto
nsStyleCoord mWidth; // [reset] coord, percent, enum, calc, auto
nsStyleCoord mMinWidth; // [reset] coord, percent, enum, calc
nsStyleCoord mMaxWidth; // [reset] coord, percent, enum, calc, none
nsStyleCoord mHeight; // [reset] coord, percent, calc, auto
nsStyleCoord mMinHeight; // [reset] coord, percent, calc
nsStyleCoord mMaxHeight; // [reset] coord, percent, calc, none
nsStyleCoord mFlexBasis; // [reset] coord, percent, enum, calc, auto
nsStyleCoord mGridAutoColumnsMin; // [reset] coord, percent, enum, calc, flex
nsStyleCoord mGridAutoColumnsMax; // [reset] coord, percent, enum, calc, flex
nsStyleCoord mGridAutoRowsMin; // [reset] coord, percent, enum, calc, flex
nsStyleCoord mGridAutoRowsMax; // [reset] coord, percent, enum, calc, flex
uint8_t mGridAutoFlow; // [reset] enumerated. See nsStyleConsts.h
mozilla::StyleBoxSizing mBoxSizing; // [reset] see nsStyleConsts.h
uint16_t mAlignContent; // [reset] fallback value in the high byte
uint8_t mAlignItems; // [reset] see nsStyleConsts.h
uint8_t mAlignSelf; // [reset] see nsStyleConsts.h
uint16_t mJustifyContent; // [reset] fallback value in the high byte
// We cascade mSpecifiedJustifyItems, to handle the auto value, but store the
// computed value in mJustifyItems.
//
// They're effectively only different in this regard: mJustifyItems is set to
// mSpecifiedJustifyItems, except when the latter is AUTO -- in that case,
// mJustifyItems is set to NORMAL, or to the parent style context's
// mJustifyItems if it has the legacy flag.
//
// This last part happens in nsStyleContext::ApplyStyleFixups.
uint8_t mSpecifiedJustifyItems; // [reset] see nsStyleConsts.h
uint8_t mJustifyItems; // [reset] see nsStyleConsts.h
uint8_t mJustifySelf; // [reset] see nsStyleConsts.h
uint8_t mFlexDirection; // [reset] see nsStyleConsts.h
uint8_t mFlexWrap; // [reset] see nsStyleConsts.h
uint8_t mObjectFit; // [reset] see nsStyleConsts.h
int32_t mOrder; // [reset] integer
float mFlexGrow; // [reset] float
float mFlexShrink; // [reset] float
nsStyleCoord mZIndex; // [reset] integer, auto
mozilla::UniquePtr<nsStyleGridTemplate> mGridTemplateColumns;
mozilla::UniquePtr<nsStyleGridTemplate> mGridTemplateRows;
// nullptr for 'none'
RefPtr<mozilla::css::GridTemplateAreasValue> mGridTemplateAreas;
nsStyleGridLine mGridColumnStart;
nsStyleGridLine mGridColumnEnd;
nsStyleGridLine mGridRowStart;
nsStyleGridLine mGridRowEnd;
nsStyleCoord mGridColumnGap; // [reset] coord, percent, calc
nsStyleCoord mGridRowGap; // [reset] coord, percent, calc
// FIXME: Logical-coordinate equivalents to these WidthDepends... and
// HeightDepends... methods have been introduced (see below); we probably
// want to work towards removing the physical methods, and using the logical
// ones in all cases.
bool WidthDependsOnContainer() const
{
return mWidth.GetUnit() == eStyleUnit_Auto ||
WidthCoordDependsOnContainer(mWidth);
}
// NOTE: For a flex item, "min-width:auto" is supposed to behave like
// "min-content", which does depend on the container, so you might think we'd
// need a special case for "flex item && min-width:auto" here. However,
// we don't actually need that special-case code, because flex items are
// explicitly supposed to *ignore* their min-width (i.e. behave like it's 0)
// until the flex container explicitly considers it. So -- since the flex
// container doesn't rely on this method, we don't need to worry about
// special behavior for flex items' "min-width:auto" values here.
bool MinWidthDependsOnContainer() const
{ return WidthCoordDependsOnContainer(mMinWidth); }
bool MaxWidthDependsOnContainer() const
{ return WidthCoordDependsOnContainer(mMaxWidth); }
// Note that these functions count 'auto' as depending on the
// container since that's the case for absolutely positioned elements.
// However, some callers do not care about this case and should check
// for it, since it is the most common case.
// FIXME: We should probably change the assumption to be the other way
// around.
// Consider this as part of moving to the logical-coordinate APIs.
bool HeightDependsOnContainer() const
{
return mHeight.GetUnit() == eStyleUnit_Auto || // CSS 2.1, 10.6.4, item (5)
HeightCoordDependsOnContainer(mHeight);
}
// NOTE: The comment above MinWidthDependsOnContainer about flex items
// applies here, too.
bool MinHeightDependsOnContainer() const
{ return HeightCoordDependsOnContainer(mMinHeight); }
bool MaxHeightDependsOnContainer() const
{ return HeightCoordDependsOnContainer(mMaxHeight); }
bool OffsetHasPercent(mozilla::Side aSide) const
{
return mOffset.Get(aSide).HasPercent();
}
// Logical-coordinate accessors for width and height properties,
// given a WritingMode value. The definitions of these methods are
// found in WritingModes.h (after the WritingMode class is fully
// declared).
inline nsStyleCoord& ISize(mozilla::WritingMode aWM);
inline nsStyleCoord& MinISize(mozilla::WritingMode aWM);
inline nsStyleCoord& MaxISize(mozilla::WritingMode aWM);
inline nsStyleCoord& BSize(mozilla::WritingMode aWM);
inline nsStyleCoord& MinBSize(mozilla::WritingMode aWM);
inline nsStyleCoord& MaxBSize(mozilla::WritingMode aWM);
inline const nsStyleCoord& ISize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MinISize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MaxISize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& BSize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MinBSize(mozilla::WritingMode aWM) const;
inline const nsStyleCoord& MaxBSize(mozilla::WritingMode aWM) const;
inline bool ISizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MinISizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MaxISizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool BSizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MinBSizeDependsOnContainer(mozilla::WritingMode aWM) const;
inline bool MaxBSizeDependsOnContainer(mozilla::WritingMode aWM) const;
const nsStyleGridTemplate& GridTemplateColumns() const;
const nsStyleGridTemplate& GridTemplateRows() const;
private:
static bool WidthCoordDependsOnContainer(const nsStyleCoord &aCoord);
static bool HeightCoordDependsOnContainer(const nsStyleCoord &aCoord)
{ return aCoord.HasPercent(); }
};
struct nsStyleTextOverflowSide
{
nsStyleTextOverflowSide() : mType(NS_STYLE_TEXT_OVERFLOW_CLIP) {}
bool operator==(const nsStyleTextOverflowSide& aOther) const {
return mType == aOther.mType &&
(mType != NS_STYLE_TEXT_OVERFLOW_STRING ||
mString == aOther.mString);
}
bool operator!=(const nsStyleTextOverflowSide& aOther) const {
return !(*this == aOther);
}
nsString mString;
uint8_t mType;
};
struct nsStyleTextOverflow
{
nsStyleTextOverflow() : mLogicalDirections(true) {}
bool operator==(const nsStyleTextOverflow& aOther) const {
return mLeft == aOther.mLeft && mRight == aOther.mRight;
}
bool operator!=(const nsStyleTextOverflow& aOther) const {
return !(*this == aOther);
}
// Returns the value to apply on the left side.
const nsStyleTextOverflowSide& GetLeft(uint8_t aDirection) const {
NS_ASSERTION(aDirection == NS_STYLE_DIRECTION_LTR ||
aDirection == NS_STYLE_DIRECTION_RTL, "bad direction");
return !mLogicalDirections || aDirection == NS_STYLE_DIRECTION_LTR ?
mLeft : mRight;
}
// Returns the value to apply on the right side.
const nsStyleTextOverflowSide& GetRight(uint8_t aDirection) const {
NS_ASSERTION(aDirection == NS_STYLE_DIRECTION_LTR ||
aDirection == NS_STYLE_DIRECTION_RTL, "bad direction");
return !mLogicalDirections || aDirection == NS_STYLE_DIRECTION_LTR ?
mRight : mLeft;
}
// Returns the first value that was specified.
const nsStyleTextOverflowSide* GetFirstValue() const {
return mLogicalDirections ? &mRight : &mLeft;
}
// Returns the second value, or null if there was only one value specified.
const nsStyleTextOverflowSide* GetSecondValue() const {
return mLogicalDirections ? nullptr : &mRight;
}
nsStyleTextOverflowSide mLeft; // start side when mLogicalDirections is true
nsStyleTextOverflowSide mRight; // end side when mLogicalDirections is true
bool mLogicalDirections; // true when only one value was specified
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleTextReset
{
explicit nsStyleTextReset(const nsPresContext* aContext);
nsStyleTextReset(const nsStyleTextReset& aOther);
~nsStyleTextReset();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleTextReset* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleTextReset, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleTextReset();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleTextReset, this);
}
// Note the difference between this and
// nsStyleContext::HasTextDecorationLines.
bool HasTextDecorationLines() const {
return mTextDecorationLine != NS_STYLE_TEXT_DECORATION_LINE_NONE &&
mTextDecorationLine != NS_STYLE_TEXT_DECORATION_LINE_OVERRIDE_ALL;
}
nsChangeHint CalcDifference(const nsStyleTextReset& aNewData) const;
nsStyleTextOverflow mTextOverflow; // [reset] enum, string
uint8_t mTextDecorationLine; // [reset] see nsStyleConsts.h
uint8_t mTextDecorationStyle; // [reset] see nsStyleConsts.h
uint8_t mUnicodeBidi; // [reset] see nsStyleConsts.h
nscoord mInitialLetterSink; // [reset] 0 means normal
float mInitialLetterSize; // [reset] 0.0f means normal
mozilla::StyleComplexColor mTextDecorationColor; // [reset]
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleText
{
explicit nsStyleText(const nsPresContext* aContext);
nsStyleText(const nsStyleText& aOther);
~nsStyleText();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleText* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleText, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleText();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleText, this);
}
nsChangeHint CalcDifference(const nsStyleText& aNewData) const;
uint8_t mTextAlign; // [inherited] see nsStyleConsts.h
uint8_t mTextAlignLast; // [inherited] see nsStyleConsts.h
bool mTextAlignTrue : 1; // [inherited] see nsStyleConsts.h
bool mTextAlignLastTrue : 1; // [inherited] see nsStyleConsts.h
mozilla::StyleTextJustify mTextJustify; // [inherited]
uint8_t mTextTransform; // [inherited] see nsStyleConsts.h
mozilla::StyleWhiteSpace mWhiteSpace; // [inherited] see nsStyleConsts.h
uint8_t mWordBreak; // [inherited] see nsStyleConsts.h
uint8_t mOverflowWrap; // [inherited] see nsStyleConsts.h
mozilla::StyleHyphens mHyphens; // [inherited] see nsStyleConsts.h
uint8_t mRubyAlign; // [inherited] see nsStyleConsts.h
uint8_t mRubyPosition; // [inherited] see nsStyleConsts.h
uint8_t mTextSizeAdjust; // [inherited] see nsStyleConsts.h
uint8_t mTextCombineUpright; // [inherited] see nsStyleConsts.h
uint8_t mControlCharacterVisibility; // [inherited] see nsStyleConsts.h
uint8_t mTextEmphasisPosition; // [inherited] see nsStyleConsts.h
uint8_t mTextEmphasisStyle; // [inherited] see nsStyleConsts.h
uint8_t mTextRendering; // [inherited] see nsStyleConsts.h
mozilla::StyleComplexColor mTextEmphasisColor; // [inherited]
mozilla::StyleComplexColor mWebkitTextFillColor; // [inherited]
mozilla::StyleComplexColor mWebkitTextStrokeColor; // [inherited]
nsStyleCoord mTabSize; // [inherited] coord, factor, calc
nsStyleCoord mWordSpacing; // [inherited] coord, percent, calc
nsStyleCoord mLetterSpacing; // [inherited] coord, normal
nsStyleCoord mLineHeight; // [inherited] coord, factor, normal
nsStyleCoord mTextIndent; // [inherited] coord, percent, calc
nscoord mWebkitTextStrokeWidth; // [inherited] coord
RefPtr<nsCSSShadowArray> mTextShadow; // [inherited] nullptr in case of a zero-length
nsString mTextEmphasisStyleString; // [inherited]
bool WhiteSpaceIsSignificant() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreSpace;
}
bool NewlineIsSignificantStyle() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreLine;
}
bool WhiteSpaceOrNewlineIsSignificant() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreLine ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreSpace;
}
bool TabIsSignificant() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Pre ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap;
}
bool WhiteSpaceCanWrapStyle() const {
return mWhiteSpace == mozilla::StyleWhiteSpace::Normal ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreWrap ||
mWhiteSpace == mozilla::StyleWhiteSpace::PreLine;
}
bool WordCanWrapStyle() const {
return WhiteSpaceCanWrapStyle() &&
mOverflowWrap == NS_STYLE_OVERFLOWWRAP_BREAK_WORD;
}
bool HasTextEmphasis() const {
return !mTextEmphasisStyleString.IsEmpty();
}
bool HasWebkitTextStroke() const {
return mWebkitTextStrokeWidth > 0;
}
// These are defined in nsStyleStructInlines.h.
inline bool HasTextShadow() const;
inline nsCSSShadowArray* GetTextShadow() const;
// The aContextFrame argument on each of these is the frame this
// style struct is for. If the frame is for SVG text or inside ruby,
// the return value will be massaged to be something that makes sense
// for those cases.
inline bool NewlineIsSignificant(const nsTextFrame* aContextFrame) const;
inline bool WhiteSpaceCanWrap(const nsIFrame* aContextFrame) const;
inline bool WordCanWrap(const nsIFrame* aContextFrame) const;
mozilla::LogicalSide TextEmphasisSide(mozilla::WritingMode aWM) const;
};
struct nsStyleImageOrientation
{
static nsStyleImageOrientation CreateAsAngleAndFlip(double aRadians,
bool aFlip) {
uint8_t orientation(0);
// Compute the final angle value, rounding to the closest quarter turn.
double roundedAngle = fmod(aRadians, 2 * M_PI);
if (roundedAngle < 0) {
roundedAngle = roundedAngle + 2 * M_PI;
}
if (roundedAngle < 0.25 * M_PI) { orientation = ANGLE_0; }
else if (roundedAngle < 0.75 * M_PI) { orientation = ANGLE_90; }
else if (roundedAngle < 1.25 * M_PI) { orientation = ANGLE_180;}
else if (roundedAngle < 1.75 * M_PI) { orientation = ANGLE_270;}
else { orientation = ANGLE_0; }
// Add a bit for 'flip' if needed.
if (aFlip) {
orientation |= FLIP_MASK;
}
return nsStyleImageOrientation(orientation);
}
static nsStyleImageOrientation CreateAsOrientationAndFlip(uint8_t aOrientation,
bool aFlip) {
MOZ_ASSERT(aOrientation <= ANGLE_270);
if (aFlip) {
aOrientation |= FLIP_MASK;
}
return nsStyleImageOrientation(aOrientation);
}
static nsStyleImageOrientation CreateAsFlip() {
return nsStyleImageOrientation(FLIP_MASK);
}
static nsStyleImageOrientation CreateAsFromImage() {
return nsStyleImageOrientation(FROM_IMAGE_MASK);
}
// The default constructor yields 0 degrees of rotation and no flip.
nsStyleImageOrientation() : mOrientation(0) { }
bool IsDefault() const { return mOrientation == 0; }
bool IsFlipped() const { return mOrientation & FLIP_MASK; }
bool IsFromImage() const { return mOrientation & FROM_IMAGE_MASK; }
bool SwapsWidthAndHeight() const {
uint8_t angle = mOrientation & ORIENTATION_MASK;
return (angle == ANGLE_90) || (angle == ANGLE_270);
}
mozilla::image::Angle Angle() const {
switch (mOrientation & ORIENTATION_MASK) {
case ANGLE_0: return mozilla::image::Angle::D0;
case ANGLE_90: return mozilla::image::Angle::D90;
case ANGLE_180: return mozilla::image::Angle::D180;
case ANGLE_270: return mozilla::image::Angle::D270;
default:
NS_NOTREACHED("Unexpected angle");
return mozilla::image::Angle::D0;
}
}
nsStyleCoord AngleAsCoord() const {
switch (mOrientation & ORIENTATION_MASK) {
case ANGLE_0: return nsStyleCoord(0.0f, eStyleUnit_Degree);
case ANGLE_90: return nsStyleCoord(90.0f, eStyleUnit_Degree);
case ANGLE_180: return nsStyleCoord(180.0f, eStyleUnit_Degree);
case ANGLE_270: return nsStyleCoord(270.0f, eStyleUnit_Degree);
default:
NS_NOTREACHED("Unexpected angle");
return nsStyleCoord();
}
}
bool operator==(const nsStyleImageOrientation& aOther) const {
return aOther.mOrientation == mOrientation;
}
bool operator!=(const nsStyleImageOrientation& aOther) const {
return !(*this == aOther);
}
protected:
enum Bits {
ORIENTATION_MASK = 0x1 | 0x2, // The bottom two bits are the angle.
FLIP_MASK = 0x4, // Whether the image should be flipped.
FROM_IMAGE_MASK = 0x8, // Whether the image's inherent orientation
}; // should be used.
enum Angles {
ANGLE_0 = 0,
ANGLE_90 = 1,
ANGLE_180 = 2,
ANGLE_270 = 3,
};
explicit nsStyleImageOrientation(uint8_t aOrientation)
: mOrientation(aOrientation)
{ }
uint8_t mOrientation;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleVisibility
{
explicit nsStyleVisibility(const nsPresContext* aContext);
nsStyleVisibility(const nsStyleVisibility& aVisibility);
~nsStyleVisibility() {
MOZ_COUNT_DTOR(nsStyleVisibility);
}
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleVisibility* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleVisibility, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleVisibility();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleVisibility, this);
}
nsChangeHint CalcDifference(const nsStyleVisibility& aNewData) const;
nsStyleImageOrientation mImageOrientation; // [inherited]
uint8_t mDirection; // [inherited] see nsStyleConsts.h NS_STYLE_DIRECTION_*
uint8_t mVisible; // [inherited]
uint8_t mImageRendering; // [inherited] see nsStyleConsts.h
uint8_t mWritingMode; // [inherited] see nsStyleConsts.h
uint8_t mTextOrientation; // [inherited] see nsStyleConsts.h
uint8_t mColorAdjust; // [inherited] see nsStyleConsts.h
bool IsVisible() const {
return (mVisible == NS_STYLE_VISIBILITY_VISIBLE);
}
bool IsVisibleOrCollapsed() const {
return ((mVisible == NS_STYLE_VISIBILITY_VISIBLE) ||
(mVisible == NS_STYLE_VISIBILITY_COLLAPSE));
}
};
struct nsTimingFunction
{
enum class Type {
Ease, // ease
Linear, // linear
EaseIn, // ease-in
EaseOut, // ease-out
EaseInOut, // ease-in-out
StepStart, // step-start and steps(..., start)
StepEnd, // step-end, steps(..., end) and steps(...)
CubicBezier, // cubic-bezier()
Frames, // frames()
};
// Whether the timing function type is represented by a spline,
// and thus will have mFunc filled in.
static bool IsSplineType(Type aType)
{
return aType != Type::StepStart &&
aType != Type::StepEnd &&
aType != Type::Frames;
}
explicit nsTimingFunction(int32_t aTimingFunctionType
= NS_STYLE_TRANSITION_TIMING_FUNCTION_EASE)
{
AssignFromKeyword(aTimingFunctionType);
}
nsTimingFunction(float x1, float y1, float x2, float y2)
: mType(Type::CubicBezier)
{
mFunc.mX1 = x1;
mFunc.mY1 = y1;
mFunc.mX2 = x2;
mFunc.mY2 = y2;
}
enum class Keyword { Implicit, Explicit };
nsTimingFunction(Type aType, uint32_t aStepsOrFrames)
: mType(aType)
{
MOZ_ASSERT(mType == Type::StepStart ||
mType == Type::StepEnd ||
mType == Type::Frames,
"wrong type");
mStepsOrFrames = aStepsOrFrames;
}
nsTimingFunction(const nsTimingFunction& aOther)
{
*this = aOther;
}
Type mType;
union {
struct {
float mX1;
float mY1;
float mX2;
float mY2;
} mFunc;
struct {
uint32_t mStepsOrFrames;
};
};
nsTimingFunction&
operator=(const nsTimingFunction& aOther)
{
if (&aOther == this) {
return *this;
}
mType = aOther.mType;
if (HasSpline()) {
mFunc.mX1 = aOther.mFunc.mX1;
mFunc.mY1 = aOther.mFunc.mY1;
mFunc.mX2 = aOther.mFunc.mX2;
mFunc.mY2 = aOther.mFunc.mY2;
} else {
mStepsOrFrames = aOther.mStepsOrFrames;
}
return *this;
}
bool operator==(const nsTimingFunction& aOther) const
{
if (mType != aOther.mType) {
return false;
}
if (HasSpline()) {
return mFunc.mX1 == aOther.mFunc.mX1 && mFunc.mY1 == aOther.mFunc.mY1 &&
mFunc.mX2 == aOther.mFunc.mX2 && mFunc.mY2 == aOther.mFunc.mY2;
}
return mStepsOrFrames == aOther.mStepsOrFrames;
}
bool operator!=(const nsTimingFunction& aOther) const
{
return !(*this == aOther);
}
bool HasSpline() const { return IsSplineType(mType); }
private:
void AssignFromKeyword(int32_t aTimingFunctionType);
};
namespace mozilla {
struct StyleTransition
{
StyleTransition() { /* leaves uninitialized; see also SetInitialValues */ }
explicit StyleTransition(const StyleTransition& aCopy);
void SetInitialValues();
// Delay and Duration are in milliseconds
const nsTimingFunction& GetTimingFunction() const { return mTimingFunction; }
float GetDelay() const { return mDelay; }
float GetDuration() const { return mDuration; }
nsCSSPropertyID GetProperty() const { return mProperty; }
nsIAtom* GetUnknownProperty() const { return mUnknownProperty; }
float GetCombinedDuration() const {
// http://dev.w3.org/csswg/css-transitions/#combined-duration
return std::max(mDuration, 0.0f) + mDelay;
}
void SetTimingFunction(const nsTimingFunction& aTimingFunction)
{ mTimingFunction = aTimingFunction; }
void SetDelay(float aDelay) { mDelay = aDelay; }
void SetDuration(float aDuration) { mDuration = aDuration; }
void SetProperty(nsCSSPropertyID aProperty)
{
NS_ASSERTION(aProperty != eCSSProperty_UNKNOWN &&
aProperty != eCSSPropertyExtra_variable,
"invalid property");
mProperty = aProperty;
}
void SetUnknownProperty(nsCSSPropertyID aProperty,
const nsAString& aPropertyString);
void SetUnknownProperty(nsCSSPropertyID aProperty,
nsIAtom* aPropertyString);
void CopyPropertyFrom(const StyleTransition& aOther)
{
mProperty = aOther.mProperty;
mUnknownProperty = aOther.mUnknownProperty;
}
nsTimingFunction& TimingFunctionSlot() { return mTimingFunction; }
bool operator==(const StyleTransition& aOther) const;
bool operator!=(const StyleTransition& aOther) const
{ return !(*this == aOther); }
private:
nsTimingFunction mTimingFunction;
float mDuration;
float mDelay;
nsCSSPropertyID mProperty;
nsCOMPtr<nsIAtom> mUnknownProperty; // used when mProperty is
// eCSSProperty_UNKNOWN or
// eCSSPropertyExtra_variable
};
struct StyleAnimation
{
StyleAnimation() { /* leaves uninitialized; see also SetInitialValues */ }
explicit StyleAnimation(const StyleAnimation& aCopy);
void SetInitialValues();
// Delay and Duration are in milliseconds
const nsTimingFunction& GetTimingFunction() const { return mTimingFunction; }
float GetDelay() const { return mDelay; }
float GetDuration() const { return mDuration; }
const nsString& GetName() const { return mName; }
dom::PlaybackDirection GetDirection() const { return mDirection; }
dom::FillMode GetFillMode() const { return mFillMode; }
uint8_t GetPlayState() const { return mPlayState; }
float GetIterationCount() const { return mIterationCount; }
void SetTimingFunction(const nsTimingFunction& aTimingFunction)
{ mTimingFunction = aTimingFunction; }
void SetDelay(float aDelay) { mDelay = aDelay; }
void SetDuration(float aDuration) { mDuration = aDuration; }
void SetName(const nsAString& aName) { mName = aName; }
void SetDirection(dom::PlaybackDirection aDirection) { mDirection = aDirection; }
void SetFillMode(dom::FillMode aFillMode) { mFillMode = aFillMode; }
void SetPlayState(uint8_t aPlayState) { mPlayState = aPlayState; }
void SetIterationCount(float aIterationCount)
{ mIterationCount = aIterationCount; }
nsTimingFunction& TimingFunctionSlot() { return mTimingFunction; }
bool operator==(const StyleAnimation& aOther) const;
bool operator!=(const StyleAnimation& aOther) const
{ return !(*this == aOther); }
private:
nsTimingFunction mTimingFunction;
float mDuration;
float mDelay;
nsString mName; // empty string for 'none'
dom::PlaybackDirection mDirection;
dom::FillMode mFillMode;
uint8_t mPlayState;
float mIterationCount; // mozilla::PositiveInfinity<float>() means infinite
};
class StyleBasicShape final
{
public:
explicit StyleBasicShape(StyleBasicShapeType type)
: mType(type),
mFillRule(StyleFillRule::Nonzero)
{
mPosition.SetInitialPercentValues(0.5f);
}
StyleBasicShapeType GetShapeType() const { return mType; }
nsCSSKeyword GetShapeTypeName() const;
StyleFillRule GetFillRule() const { return mFillRule; }
void SetFillRule(StyleFillRule aFillRule)
{
MOZ_ASSERT(mType == StyleBasicShapeType::Polygon, "expected polygon");
mFillRule = aFillRule;
}
Position& GetPosition() {
MOZ_ASSERT(mType == StyleBasicShapeType::Circle ||
mType == StyleBasicShapeType::Ellipse,
"expected circle or ellipse");
return mPosition;
}
const Position& GetPosition() const {
MOZ_ASSERT(mType == StyleBasicShapeType::Circle ||
mType == StyleBasicShapeType::Ellipse,
"expected circle or ellipse");
return mPosition;
}
bool HasRadius() const {
MOZ_ASSERT(mType == StyleBasicShapeType::Inset, "expected inset");
nsStyleCoord zero;
zero.SetCoordValue(0);
NS_FOR_CSS_HALF_CORNERS(corner) {
if (mRadius.Get(corner) != zero) {
return true;
}
}
return false;
}
nsStyleCorners& GetRadius() {
MOZ_ASSERT(mType == StyleBasicShapeType::Inset, "expected inset");
return mRadius;
}
const nsStyleCorners& GetRadius() const {
MOZ_ASSERT(mType == StyleBasicShapeType::Inset, "expected inset");
return mRadius;
}
// mCoordinates has coordinates for polygon or radii for
// ellipse and circle.
nsTArray<nsStyleCoord>& Coordinates()
{
return mCoordinates;
}
const nsTArray<nsStyleCoord>& Coordinates() const
{
return mCoordinates;
}
bool operator==(const StyleBasicShape& aOther) const
{
return mType == aOther.mType &&
mFillRule == aOther.mFillRule &&
mCoordinates == aOther.mCoordinates &&
mPosition == aOther.mPosition &&
mRadius == aOther.mRadius;
}
bool operator!=(const StyleBasicShape& aOther) const {
return !(*this == aOther);
}
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(StyleBasicShape);
private:
~StyleBasicShape() {}
StyleBasicShapeType mType;
StyleFillRule mFillRule;
// mCoordinates has coordinates for polygon or radii for
// ellipse and circle.
// (top, right, bottom, left) for inset
nsTArray<nsStyleCoord> mCoordinates;
// position of center for ellipse or circle
Position mPosition;
// corner radii for inset (0 if not set)
nsStyleCorners mRadius;
};
struct StyleShapeSource
{
StyleShapeSource()
: mURL(nullptr)
{}
StyleShapeSource(const StyleShapeSource& aSource)
: StyleShapeSource()
{
if (aSource.mType == StyleShapeSourceType::URL) {
SetURL(aSource.mURL);
} else if (aSource.mType == StyleShapeSourceType::Shape) {
SetBasicShape(aSource.mBasicShape, aSource.mReferenceBox);
} else if (aSource.mType == StyleShapeSourceType::Box) {
SetReferenceBox(aSource.mReferenceBox);
}
}
~StyleShapeSource()
{
ReleaseRef();
}
StyleShapeSource& operator=(const StyleShapeSource& aOther)
{
if (this == &aOther) {
return *this;
}
if (aOther.mType == StyleShapeSourceType::URL) {
SetURL(aOther.mURL);
} else if (aOther.mType == StyleShapeSourceType::Shape) {
SetBasicShape(aOther.mBasicShape, aOther.mReferenceBox);
} else if (aOther.mType == StyleShapeSourceType::Box) {
SetReferenceBox(aOther.mReferenceBox);
} else {
ReleaseRef();
mReferenceBox = StyleGeometryBox::NoBox;
mType = StyleShapeSourceType::None;
}
return *this;
}
bool operator==(const StyleShapeSource& aOther) const
{
return EqualsInternal<true>(aOther);
}
bool DefinitelyEquals(const StyleShapeSource& aOther) const
{
return EqualsInternal<false>(aOther);
}
template<bool aPrecise>
bool EqualsInternal(const StyleShapeSource& aOther) const
{
if (mType != aOther.mType) {
return false;
}
if (mType == StyleShapeSourceType::URL) {
return aPrecise ? mURL->Equals(*aOther.mURL)
: mURL->DefinitelyEqualURIs(*aOther.mURL);
} else if (mType == StyleShapeSourceType::Shape) {
return *mBasicShape == *aOther.mBasicShape &&
mReferenceBox == aOther.mReferenceBox;
} else if (mType == StyleShapeSourceType::Box) {
return mReferenceBox == aOther.mReferenceBox;
}
return true;
}
bool operator!=(const StyleShapeSource& aOther) const
{
return !(*this == aOther);
}
StyleShapeSourceType GetType() const
{
return mType;
}
css::URLValue* GetURL() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::URL, "Wrong shape source type!");
return mURL;
}
bool SetURL(css::URLValue* aValue)
{
MOZ_ASSERT(aValue);
ReleaseRef();
mURL = aValue;
mURL->AddRef();
mType = StyleShapeSourceType::URL;
return true;
}
StyleBasicShape* GetBasicShape() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::Shape, "Wrong shape source type!");
return mBasicShape;
}
void SetBasicShape(StyleBasicShape* aBasicShape,
StyleGeometryBox aReferenceBox)
{
NS_ASSERTION(aBasicShape, "expected pointer");
ReleaseRef();
mBasicShape = aBasicShape;
mBasicShape->AddRef();
mReferenceBox = aReferenceBox;
mType = StyleShapeSourceType::Shape;
}
StyleGeometryBox GetReferenceBox() const
{
MOZ_ASSERT(mType == StyleShapeSourceType::Box ||
mType == StyleShapeSourceType::Shape,
"Wrong shape source type!");
return mReferenceBox;
}
void SetReferenceBox(StyleGeometryBox aReferenceBox)
{
ReleaseRef();
mReferenceBox = aReferenceBox;
mType = StyleShapeSourceType::Box;
}
private:
void ReleaseRef()
{
if (mType == StyleShapeSourceType::Shape) {
NS_ASSERTION(mBasicShape, "expected pointer");
mBasicShape->Release();
} else if (mType == StyleShapeSourceType::URL) {
NS_ASSERTION(mURL, "expected pointer");
mURL->Release();
}
// Both mBasicShape and mURL are pointers in a union. Nulling one of them
// nulls both of them.
mURL = nullptr;
}
void* operator new(size_t) = delete;
union {
StyleBasicShape* mBasicShape;
css::URLValue* mURL;
};
StyleShapeSourceType mType = StyleShapeSourceType::None;
StyleGeometryBox mReferenceBox = StyleGeometryBox::NoBox;
};
} // namespace mozilla
// Consumers expect to be able to null-test mBinding to determine whether there
// is a valid binding URI. Since we can't do URL resolution during parallel
// style struct computation, we can't just null out the binding if the URL turns
// out to be invalid. As such, we use this wrapper class to maintain this
// behavior dynamically.
class BindingHolder {
public:
BindingHolder() {}
explicit BindingHolder(mozilla::css::URLValue* aPtr) : mPtr(aPtr) {}
operator mozilla::css::URLValue*() const { return Get(); }
mozilla::css::URLValue* operator->() const { return Get(); }
mozilla::css::URLValue* Get() const { return (mPtr && mPtr->GetURI()) ? mPtr.get() : nullptr; }
mozilla::css::URLValue* ForceGet() const { return mPtr.get(); }
void Set(mozilla::css::URLValue* aPtr) { mPtr = aPtr; }
private:
RefPtr<mozilla::css::URLValue> mPtr;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleDisplay
{
typedef mozilla::StyleGeometryBox StyleGeometryBox;
explicit nsStyleDisplay(const nsPresContext* aContext);
nsStyleDisplay(const nsStyleDisplay& aOther);
~nsStyleDisplay();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleDisplay* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleDisplay, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleDisplay();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleDisplay, this);
}
nsChangeHint CalcDifference(const nsStyleDisplay& aNewData) const;
// We guarantee that if mBinding is non-null, so are mBinding->GetURI() and
// mBinding->mOriginPrincipal.
BindingHolder mBinding; // [reset]
mozilla::StyleDisplay mDisplay; // [reset] see nsStyleConsts.h StyleDisplay
mozilla::StyleDisplay mOriginalDisplay; // [reset] saved mDisplay for
// position:absolute/fixed
// and float:left/right;
// otherwise equal to
// mDisplay
uint8_t mContain; // [reset] see nsStyleConsts.h NS_STYLE_CONTAIN_*
uint8_t mAppearance; // [reset]
uint8_t mPosition; // [reset] see nsStyleConsts.h
// [reset] See StyleFloat in nsStyleConsts.h.
mozilla::StyleFloat mFloat;
// [reset] Save mFloat for position:absolute/fixed; otherwise equal to mFloat.
mozilla::StyleFloat mOriginalFloat;
mozilla::StyleClear mBreakType; // [reset]
uint8_t mBreakInside; // [reset] NS_STYLE_PAGE_BREAK_AUTO/AVOID
bool mBreakBefore; // [reset]
bool mBreakAfter; // [reset]
uint8_t mOverflowX; // [reset] see nsStyleConsts.h
uint8_t mOverflowY; // [reset] see nsStyleConsts.h
uint8_t mOverflowClipBox; // [reset] see nsStyleConsts.h
uint8_t mResize; // [reset] see nsStyleConsts.h
mozilla::StyleOrient mOrient; // [reset] see nsStyleConsts.h
uint8_t mIsolation; // [reset] see nsStyleConsts.h
uint8_t mTopLayer; // [reset] see nsStyleConsts.h
uint8_t mWillChangeBitField; // [reset] see nsStyleConsts.h. Stores a
// bitfield representation of the properties
// that are frequently queried. This should
// match mWillChange. Also tracks if any of the
// properties in the will-change list require
// a stacking context.
nsCOMArray<nsIAtom> mWillChange;
uint8_t mTouchAction; // [reset] see nsStyleConsts.h
uint8_t mScrollBehavior; // [reset] see nsStyleConsts.h NS_STYLE_SCROLL_BEHAVIOR_*
uint8_t mScrollSnapTypeX; // [reset] see nsStyleConsts.h NS_STYLE_SCROLL_SNAP_TYPE_*
uint8_t mScrollSnapTypeY; // [reset] see nsStyleConsts.h NS_STYLE_SCROLL_SNAP_TYPE_*
nsStyleCoord mScrollSnapPointsX; // [reset]
nsStyleCoord mScrollSnapPointsY; // [reset]
mozilla::Position mScrollSnapDestination; // [reset]
nsTArray<mozilla::Position> mScrollSnapCoordinate; // [reset]
// mSpecifiedTransform is the list of transform functions as
// specified, or null to indicate there is no transform. (inherit or
// initial are replaced by an actual list of transform functions, or
// null, as appropriate.)
uint8_t mBackfaceVisibility;
uint8_t mTransformStyle;
StyleGeometryBox mTransformBox; // [reset] see nsStyleConsts.h
RefPtr<nsCSSValueSharedList> mSpecifiedTransform; // [reset]
nsStyleCoord mTransformOrigin[3]; // [reset] percent, coord, calc, 3rd param is coord, calc only
nsStyleCoord mChildPerspective; // [reset] none, coord
nsStyleCoord mPerspectiveOrigin[2]; // [reset] percent, coord, calc
nsStyleCoord mVerticalAlign; // [reset] coord, percent, calc, enum (see nsStyleConsts.h)
nsStyleAutoArray<mozilla::StyleTransition> mTransitions; // [reset]
// The number of elements in mTransitions that are not from repeating
// a list due to another property being longer.
uint32_t mTransitionTimingFunctionCount,
mTransitionDurationCount,
mTransitionDelayCount,
mTransitionPropertyCount;
nsStyleAutoArray<mozilla::StyleAnimation> mAnimations; // [reset]
// The number of elements in mAnimations that are not from repeating
// a list due to another property being longer.
uint32_t mAnimationTimingFunctionCount,
mAnimationDurationCount,
mAnimationDelayCount,
mAnimationNameCount,
mAnimationDirectionCount,
mAnimationFillModeCount,
mAnimationPlayStateCount,
mAnimationIterationCountCount;
mozilla::StyleShapeSource mShapeOutside; // [reset]
bool IsBlockInsideStyle() const {
return mozilla::StyleDisplay::Block == mDisplay ||
mozilla::StyleDisplay::ListItem == mDisplay ||
mozilla::StyleDisplay::InlineBlock == mDisplay ||
mozilla::StyleDisplay::TableCaption == mDisplay ||
mozilla::StyleDisplay::FlowRoot == mDisplay;
// Should TABLE_CELL be included here? They have
// block frames nested inside of them.
// (But please audit all callers before changing.)
}
bool IsBlockOutsideStyle() const {
return mozilla::StyleDisplay::Block == mDisplay ||
mozilla::StyleDisplay::Flex == mDisplay ||
mozilla::StyleDisplay::WebkitBox == mDisplay ||
mozilla::StyleDisplay::Grid == mDisplay ||
mozilla::StyleDisplay::ListItem == mDisplay ||
mozilla::StyleDisplay::Table == mDisplay ||
mozilla::StyleDisplay::FlowRoot == mDisplay;
}
static bool IsDisplayTypeInlineOutside(mozilla::StyleDisplay aDisplay) {
return mozilla::StyleDisplay::Inline == aDisplay ||
mozilla::StyleDisplay::InlineBlock == aDisplay ||
mozilla::StyleDisplay::InlineTable == aDisplay ||
mozilla::StyleDisplay::MozInlineBox == aDisplay ||
mozilla::StyleDisplay::InlineFlex == aDisplay ||
mozilla::StyleDisplay::WebkitInlineBox == aDisplay ||
mozilla::StyleDisplay::InlineGrid == aDisplay ||
mozilla::StyleDisplay::MozInlineGrid == aDisplay ||
mozilla::StyleDisplay::MozInlineStack == aDisplay ||
mozilla::StyleDisplay::Ruby == aDisplay ||
mozilla::StyleDisplay::RubyBase == aDisplay ||
mozilla::StyleDisplay::RubyBaseContainer == aDisplay ||
mozilla::StyleDisplay::RubyText == aDisplay ||
mozilla::StyleDisplay::RubyTextContainer == aDisplay ||
mozilla::StyleDisplay::Contents == aDisplay;
}
bool IsInlineOutsideStyle() const {
return IsDisplayTypeInlineOutside(mDisplay);
}
bool IsOriginalDisplayInlineOutsideStyle() const {
return IsDisplayTypeInlineOutside(mOriginalDisplay);
}
bool IsInnerTableStyle() const {
return mozilla::StyleDisplay::TableCaption == mDisplay ||
mozilla::StyleDisplay::TableCell == mDisplay ||
mozilla::StyleDisplay::TableRow == mDisplay ||
mozilla::StyleDisplay::TableRowGroup == mDisplay ||
mozilla::StyleDisplay::TableHeaderGroup == mDisplay ||
mozilla::StyleDisplay::TableFooterGroup == mDisplay ||
mozilla::StyleDisplay::TableColumn == mDisplay ||
mozilla::StyleDisplay::TableColumnGroup == mDisplay;
}
bool IsFloatingStyle() const {
return mozilla::StyleFloat::None != mFloat;
}
bool IsAbsolutelyPositionedStyle() const {
return NS_STYLE_POSITION_ABSOLUTE == mPosition ||
NS_STYLE_POSITION_FIXED == mPosition;
}
bool IsRelativelyPositionedStyle() const {
return NS_STYLE_POSITION_RELATIVE == mPosition ||
NS_STYLE_POSITION_STICKY == mPosition;
}
bool IsPositionForcingStackingContext() const {
return NS_STYLE_POSITION_STICKY == mPosition ||
NS_STYLE_POSITION_FIXED == mPosition;
}
static bool IsRubyDisplayType(mozilla::StyleDisplay aDisplay) {
return mozilla::StyleDisplay::Ruby == aDisplay ||
mozilla::StyleDisplay::RubyBase == aDisplay ||
mozilla::StyleDisplay::RubyBaseContainer == aDisplay ||
mozilla::StyleDisplay::RubyText == aDisplay ||
mozilla::StyleDisplay::RubyTextContainer == aDisplay;
}
bool IsRubyDisplayType() const {
return IsRubyDisplayType(mDisplay);
}
bool IsOutOfFlowStyle() const {
return (IsAbsolutelyPositionedStyle() || IsFloatingStyle());
}
bool IsScrollableOverflow() const {
// mOverflowX and mOverflowY always match when one of them is
// NS_STYLE_OVERFLOW_VISIBLE or NS_STYLE_OVERFLOW_CLIP.
return mOverflowX != NS_STYLE_OVERFLOW_VISIBLE &&
mOverflowX != NS_STYLE_OVERFLOW_CLIP;
}
bool IsContainPaint() const {
return NS_STYLE_CONTAIN_PAINT & mContain;
}
/* Returns whether the element has the -moz-transform property
* or a related property. */
bool HasTransformStyle() const {
return mSpecifiedTransform != nullptr ||
mTransformStyle == NS_STYLE_TRANSFORM_STYLE_PRESERVE_3D ||
(mWillChangeBitField & NS_STYLE_WILL_CHANGE_TRANSFORM);
}
bool HasPerspectiveStyle() const {
return mChildPerspective.GetUnit() == eStyleUnit_Coord;
}
bool BackfaceIsHidden() const {
return mBackfaceVisibility == NS_STYLE_BACKFACE_VISIBILITY_HIDDEN;
}
// These are defined in nsStyleStructInlines.h.
// The aContextFrame argument on each of these is the frame this
// style struct is for. If the frame is for SVG text, the return
// value will be massaged to be something that makes sense for
// SVG text.
inline bool IsBlockInside(const nsIFrame* aContextFrame) const;
inline bool IsBlockOutside(const nsIFrame* aContextFrame) const;
inline bool IsInlineOutside(const nsIFrame* aContextFrame) const;
inline bool IsOriginalDisplayInlineOutside(const nsIFrame* aContextFrame) const;
inline mozilla::StyleDisplay GetDisplay(const nsIFrame* aContextFrame) const;
inline bool IsFloating(const nsIFrame* aContextFrame) const;
inline bool IsRelativelyPositioned(const nsIFrame* aContextFrame) const;
inline bool IsAbsolutelyPositioned(const nsIFrame* aContextFrame) const;
// These methods are defined in nsStyleStructInlines.h.
/**
* Returns whether the element is a containing block for its
* absolutely positioned descendants.
* aContextFrame is the frame for which this is the nsStyleDisplay.
*/
inline bool IsAbsPosContainingBlock(const nsIFrame* aContextFrame) const;
/**
* The same as IsAbsPosContainingBlock, except skipping the tests that
* are based on the frame rather than the style context (thus
* potentially returning a false positive).
*/
template<class StyleContextLike>
inline bool IsAbsPosContainingBlockForAppropriateFrame(
StyleContextLike* aStyleContext) const;
/**
* Returns true when the element has the transform property
* or a related property, and supports CSS transforms.
* aContextFrame is the frame for which this is the nsStyleDisplay.
*/
inline bool HasTransform(const nsIFrame* aContextFrame) const;
/**
* Returns true when the element is a containing block for its fixed-pos
* descendants.
* aContextFrame is the frame for which this is the nsStyleDisplay.
*/
inline bool IsFixedPosContainingBlock(const nsIFrame* aContextFrame) const;
/**
* The same as IsFixedPosContainingBlock, except skipping the tests that
* are based on the frame rather than the style context (thus
* potentially returning a false positive).
*/
template<class StyleContextLike>
inline bool IsFixedPosContainingBlockForAppropriateFrame(
StyleContextLike* aStyleContext) const;
private:
// Helpers for above functions, which do some but not all of the tests
// for them (since transform must be tested separately for each).
template<class StyleContextLike>
inline bool HasAbsPosContainingBlockStyleInternal(
StyleContextLike* aStyleContext) const;
template<class StyleContextLike>
inline bool HasFixedPosContainingBlockStyleInternal(
StyleContextLike* aStyleContext) const;
public:
// Return the 'float' and 'clear' properties, with inline-{start,end} values
// resolved to {left,right} according to the given writing mode. These are
// defined in WritingModes.h.
inline mozilla::StyleFloat PhysicalFloats(mozilla::WritingMode aWM) const;
inline mozilla::StyleClear PhysicalBreakType(mozilla::WritingMode aWM) const;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleTable
{
explicit nsStyleTable(const nsPresContext* aContext);
nsStyleTable(const nsStyleTable& aOther);
~nsStyleTable();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleTable* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleTable, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleTable();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleTable, this);
}
nsChangeHint CalcDifference(const nsStyleTable& aNewData) const;
uint8_t mLayoutStrategy;// [reset] see nsStyleConsts.h NS_STYLE_TABLE_LAYOUT_*
int32_t mSpan; // [reset] the number of columns spanned by a colgroup or col
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleTableBorder
{
explicit nsStyleTableBorder(const nsPresContext* aContext);
nsStyleTableBorder(const nsStyleTableBorder& aOther);
~nsStyleTableBorder();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleTableBorder* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleTableBorder, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleTableBorder();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleTableBorder, this);
}
nsChangeHint CalcDifference(const nsStyleTableBorder& aNewData) const;
nscoord mBorderSpacingCol;// [inherited]
nscoord mBorderSpacingRow;// [inherited]
uint8_t mBorderCollapse;// [inherited]
uint8_t mCaptionSide; // [inherited]
uint8_t mEmptyCells; // [inherited]
};
enum nsStyleContentType {
eStyleContentType_String = 1,
eStyleContentType_Image = 10,
eStyleContentType_Attr = 20,
eStyleContentType_Counter = 30,
eStyleContentType_Counters = 31,
eStyleContentType_OpenQuote = 40,
eStyleContentType_CloseQuote = 41,
eStyleContentType_NoOpenQuote = 42,
eStyleContentType_NoCloseQuote = 43,
eStyleContentType_AltContent = 50,
eStyleContentType_Uninitialized
};
class nsStyleContentData
{
public:
nsStyleContentData()
: mType(eStyleContentType_Uninitialized)
{
MOZ_COUNT_CTOR(nsStyleContentData);
mContent.mString = nullptr;
}
nsStyleContentData(const nsStyleContentData&);
~nsStyleContentData();
nsStyleContentData& operator=(const nsStyleContentData& aOther);
bool operator==(const nsStyleContentData& aOther) const;
bool operator!=(const nsStyleContentData& aOther) const {
return !(*this == aOther);
}
nsStyleContentType GetType() const { return mType; }
char16_t* GetString() const
{
MOZ_ASSERT(mType == eStyleContentType_String ||
mType == eStyleContentType_Attr);
return mContent.mString;
}
struct CounterFunction
{
nsString mIdent;
// This is only used when it is a counters() function.
nsString mSeparator;
mozilla::CounterStylePtr mCounterStyle;
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(CounterFunction)
bool operator==(const CounterFunction& aOther) const;
bool operator!=(const CounterFunction& aOther) const {
return !(*this == aOther);
}
private:
~CounterFunction() {}
};
CounterFunction* GetCounters() const
{
MOZ_ASSERT(mType == eStyleContentType_Counter ||
mType == eStyleContentType_Counters);
MOZ_ASSERT(mContent.mCounters->mCounterStyle.IsResolved(),
"Counter style should have been resolved");
return mContent.mCounters;
}
nsStyleImageRequest* GetImageRequest() const
{
MOZ_ASSERT(mType == eStyleContentType_Image);
return mContent.mImage;
}
imgRequestProxy* GetImage() const
{
return GetImageRequest()->get();
}
void SetKeyword(nsStyleContentType aType)
{
MOZ_ASSERT(aType == eStyleContentType_OpenQuote ||
aType == eStyleContentType_CloseQuote ||
aType == eStyleContentType_NoOpenQuote ||
aType == eStyleContentType_NoCloseQuote ||
aType == eStyleContentType_AltContent);
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = aType;
}
void SetString(nsStyleContentType aType, const char16_t* aString)
{
MOZ_ASSERT(aType == eStyleContentType_String ||
aType == eStyleContentType_Attr);
MOZ_ASSERT(aString);
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = aType;
mContent.mString = NS_strdup(aString);
}
void SetCounters(nsStyleContentType aType,
already_AddRefed<CounterFunction> aCounterFunction)
{
MOZ_ASSERT(aType == eStyleContentType_Counter ||
aType == eStyleContentType_Counters);
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = aType;
mContent.mCounters = aCounterFunction.take();
MOZ_ASSERT(mContent.mCounters);
}
void SetImageRequest(already_AddRefed<nsStyleImageRequest> aRequest)
{
MOZ_ASSERT(mType == eStyleContentType_Uninitialized,
"should only initialize nsStyleContentData once");
mType = eStyleContentType_Image;
mContent.mImage = aRequest.take();
MOZ_ASSERT(mContent.mImage);
}
void Resolve(nsPresContext* aPresContext);
private:
nsStyleContentType mType;
union {
char16_t *mString;
nsStyleImageRequest* mImage;
CounterFunction* mCounters;
} mContent;
};
struct nsStyleCounterData
{
nsString mCounter;
int32_t mValue;
bool operator==(const nsStyleCounterData& aOther) const {
return mValue == aOther.mValue && mCounter == aOther.mCounter;
}
bool operator!=(const nsStyleCounterData& aOther) const {
return !(*this == aOther);
}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleContent
{
explicit nsStyleContent(const nsPresContext* aContext);
nsStyleContent(const nsStyleContent& aContent);
~nsStyleContent();
void FinishStyle(nsPresContext* aPresContext);
const static bool kHasFinishStyle = true;
void* operator new(size_t sz, nsStyleContent* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleContent, sz);
}
void Destroy(nsPresContext* aContext);
nsChangeHint CalcDifference(const nsStyleContent& aNewData) const;
uint32_t ContentCount() const { return mContents.Length(); } // [reset]
const nsStyleContentData& ContentAt(uint32_t aIndex) const {
return mContents[aIndex];
}
nsStyleContentData& ContentAt(uint32_t aIndex) { return mContents[aIndex]; }
void AllocateContents(uint32_t aCount) {
// We need to run the destructors of the elements of mContents, so we
// delete and reallocate even if aCount == mContentCount. (If
// nsStyleContentData had its members private and managed their
// ownership on setting, we wouldn't need this, but that seems
// unnecessary at this point.)
mContents.Clear();
mContents.SetLength(aCount);
}
uint32_t CounterIncrementCount() const { return mIncrements.Length(); } // [reset]
const nsStyleCounterData& CounterIncrementAt(uint32_t aIndex) const {
return mIncrements[aIndex];
}
void AllocateCounterIncrements(uint32_t aCount) {
mIncrements.Clear();
mIncrements.SetLength(aCount);
}
void SetCounterIncrementAt(uint32_t aIndex, const nsString& aCounter, int32_t aIncrement) {
mIncrements[aIndex].mCounter = aCounter;
mIncrements[aIndex].mValue = aIncrement;
}
uint32_t CounterResetCount() const { return mResets.Length(); } // [reset]
const nsStyleCounterData& CounterResetAt(uint32_t aIndex) const {
return mResets[aIndex];
}
void AllocateCounterResets(uint32_t aCount) {
mResets.Clear();
mResets.SetLength(aCount);
}
void SetCounterResetAt(uint32_t aIndex, const nsString& aCounter, int32_t aValue) {
mResets[aIndex].mCounter = aCounter;
mResets[aIndex].mValue = aValue;
}
protected:
nsTArray<nsStyleContentData> mContents;
nsTArray<nsStyleCounterData> mIncrements;
nsTArray<nsStyleCounterData> mResets;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleUIReset
{
explicit nsStyleUIReset(const nsPresContext* aContext);
nsStyleUIReset(const nsStyleUIReset& aOther);
~nsStyleUIReset();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleUIReset* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleUIReset, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleUIReset();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleUIReset, this);
}
nsChangeHint CalcDifference(const nsStyleUIReset& aNewData) const;
mozilla::StyleUserSelect mUserSelect; // [reset](selection-style)
uint8_t mForceBrokenImageIcon; // [reset] (0 if not forcing, otherwise forcing)
uint8_t mIMEMode; // [reset]
mozilla::StyleWindowDragging mWindowDragging; // [reset]
uint8_t mWindowShadow; // [reset]
float mWindowOpacity; // [reset]
RefPtr<nsCSSValueSharedList> mSpecifiedWindowTransform; // [reset]
nsStyleCoord mWindowTransformOrigin[2]; // [reset] percent, coord, calc
};
struct nsCursorImage
{
bool mHaveHotspot;
float mHotspotX, mHotspotY;
RefPtr<nsStyleImageRequest> mImage;
nsCursorImage();
nsCursorImage(const nsCursorImage& aOther);
nsCursorImage& operator=(const nsCursorImage& aOther);
bool operator==(const nsCursorImage& aOther) const;
bool operator!=(const nsCursorImage& aOther) const
{
return !(*this == aOther);
}
imgRequestProxy* GetImage() const {
return mImage->get();
}
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleUserInterface
{
explicit nsStyleUserInterface(const nsPresContext* aContext);
nsStyleUserInterface(const nsStyleUserInterface& aOther);
~nsStyleUserInterface();
void FinishStyle(nsPresContext* aPresContext);
const static bool kHasFinishStyle = true;
void* operator new(size_t sz, nsStyleUserInterface* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleUserInterface, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleUserInterface();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleUserInterface, this);
}
nsChangeHint CalcDifference(const nsStyleUserInterface& aNewData) const;
mozilla::StyleUserInput mUserInput; // [inherited]
mozilla::StyleUserModify mUserModify; // [inherited] (modify-content)
mozilla::StyleUserFocus mUserFocus; // [inherited] (auto-select)
uint8_t mPointerEvents; // [inherited] see nsStyleConsts.h
uint8_t mCursor; // [inherited] See nsStyleConsts.h
nsTArray<nsCursorImage> mCursorImages; // [inherited] images and coords
mozilla::StyleComplexColor mCaretColor; // [inherited]
inline uint8_t GetEffectivePointerEvents(nsIFrame* aFrame) const;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleXUL
{
explicit nsStyleXUL(const nsPresContext* aContext);
nsStyleXUL(const nsStyleXUL& aSource);
~nsStyleXUL();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleXUL* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleXUL, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleXUL();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleXUL, this);
}
nsChangeHint CalcDifference(const nsStyleXUL& aNewData) const;
float mBoxFlex; // [reset] see nsStyleConsts.h
uint32_t mBoxOrdinal; // [reset] see nsStyleConsts.h
mozilla::StyleBoxAlign mBoxAlign; // [reset]
mozilla::StyleBoxDirection mBoxDirection; // [reset]
mozilla::StyleBoxOrient mBoxOrient; // [reset]
mozilla::StyleBoxPack mBoxPack; // [reset]
mozilla::StyleStackSizing mStackSizing; // [reset] see nsStyleConsts.h
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleColumn
{
explicit nsStyleColumn(const nsPresContext* aContext);
nsStyleColumn(const nsStyleColumn& aSource);
~nsStyleColumn();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleColumn* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleColumn, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleColumn();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleColumn, this);
}
nsChangeHint CalcDifference(const nsStyleColumn& aNewData) const;
/**
* This is the maximum number of columns we can process. It's used in both
* nsColumnSetFrame and nsRuleNode.
*/
static const uint32_t kMaxColumnCount = 1000;
uint32_t mColumnCount; // [reset] see nsStyleConsts.h
nsStyleCoord mColumnWidth; // [reset] coord, auto
nsStyleCoord mColumnGap; // [reset] coord, normal
mozilla::StyleComplexColor mColumnRuleColor; // [reset]
uint8_t mColumnRuleStyle; // [reset]
uint8_t mColumnFill; // [reset] see nsStyleConsts.h
uint8_t mColumnSpan; // [reset] see nsStyleConsts.h
void SetColumnRuleWidth(nscoord aWidth) {
mColumnRuleWidth = NS_ROUND_BORDER_TO_PIXELS(aWidth, mTwipsPerPixel);
}
nscoord GetComputedColumnRuleWidth() const {
return (IsVisibleBorderStyle(mColumnRuleStyle) ? mColumnRuleWidth : 0);
}
protected:
nscoord mColumnRuleWidth; // [reset] coord
nscoord mTwipsPerPixel;
};
enum nsStyleSVGPaintType : uint8_t {
eStyleSVGPaintType_None = 1,
eStyleSVGPaintType_Color,
eStyleSVGPaintType_Server,
eStyleSVGPaintType_ContextFill,
eStyleSVGPaintType_ContextStroke
};
enum nsStyleSVGFallbackType : uint8_t {
eStyleSVGFallbackType_NotSet,
eStyleSVGFallbackType_None,
eStyleSVGFallbackType_Color,
};
enum nsStyleSVGOpacitySource : uint8_t {
eStyleSVGOpacitySource_Normal,
eStyleSVGOpacitySource_ContextFillOpacity,
eStyleSVGOpacitySource_ContextStrokeOpacity
};
class nsStyleSVGPaint
{
public:
explicit nsStyleSVGPaint(nsStyleSVGPaintType aType = nsStyleSVGPaintType(0));
nsStyleSVGPaint(const nsStyleSVGPaint& aSource);
~nsStyleSVGPaint();
nsStyleSVGPaint& operator=(const nsStyleSVGPaint& aOther);
nsStyleSVGPaintType Type() const { return mType; }
void SetNone();
void SetColor(nscolor aColor);
void SetPaintServer(mozilla::css::URLValue* aPaintServer,
nsStyleSVGFallbackType aFallbackType,
nscolor aFallbackColor);
void SetPaintServer(mozilla::css::URLValue* aPaintServer) {
SetPaintServer(aPaintServer, eStyleSVGFallbackType_NotSet,
NS_RGB(0, 0, 0));
}
void SetContextValue(nsStyleSVGPaintType aType,
nsStyleSVGFallbackType aFallbackType,
nscolor aFallbackColor);
void SetContextValue(nsStyleSVGPaintType aType) {
SetContextValue(aType, eStyleSVGFallbackType_NotSet, NS_RGB(0, 0, 0));
}
nscolor GetColor() const {
MOZ_ASSERT(mType == eStyleSVGPaintType_Color);
return mPaint.mColor;
}
mozilla::css::URLValue* GetPaintServer() const {
MOZ_ASSERT(mType == eStyleSVGPaintType_Server);
return mPaint.mPaintServer;
}
nsStyleSVGFallbackType GetFallbackType() const {
return mFallbackType;
}
nscolor GetFallbackColor() const {
MOZ_ASSERT(mType == eStyleSVGPaintType_Server ||
mType == eStyleSVGPaintType_ContextFill ||
mType == eStyleSVGPaintType_ContextStroke);
return mFallbackColor;
}
bool operator==(const nsStyleSVGPaint& aOther) const;
bool operator!=(const nsStyleSVGPaint& aOther) const {
return !(*this == aOther);
}
private:
void Reset();
void Assign(const nsStyleSVGPaint& aOther);
union {
nscolor mColor;
mozilla::css::URLValue* mPaintServer;
} mPaint;
nsStyleSVGPaintType mType;
nsStyleSVGFallbackType mFallbackType;
nscolor mFallbackColor;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleSVG
{
explicit nsStyleSVG(const nsPresContext* aContext);
nsStyleSVG(const nsStyleSVG& aSource);
~nsStyleSVG();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleSVG* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleSVG, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleSVG();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleSVG, this);
}
nsChangeHint CalcDifference(const nsStyleSVG& aNewData) const;
nsStyleSVGPaint mFill; // [inherited]
nsStyleSVGPaint mStroke; // [inherited]
RefPtr<mozilla::css::URLValue> mMarkerEnd; // [inherited]
RefPtr<mozilla::css::URLValue> mMarkerMid; // [inherited]
RefPtr<mozilla::css::URLValue> mMarkerStart; // [inherited]
nsTArray<nsStyleCoord> mStrokeDasharray; // [inherited] coord, percent, factor
nsTArray<nsCOMPtr<nsIAtom>> mContextProps;
nsStyleCoord mStrokeDashoffset; // [inherited] coord, percent, factor
nsStyleCoord mStrokeWidth; // [inherited] coord, percent, factor
float mFillOpacity; // [inherited]
float mStrokeMiterlimit; // [inherited]
float mStrokeOpacity; // [inherited]
mozilla::StyleFillRule mClipRule; // [inherited]
uint8_t mColorInterpolation; // [inherited] see nsStyleConsts.h
uint8_t mColorInterpolationFilters; // [inherited] see nsStyleConsts.h
mozilla::StyleFillRule mFillRule; // [inherited] see nsStyleConsts.h
uint8_t mPaintOrder; // [inherited] see nsStyleConsts.h
uint8_t mShapeRendering; // [inherited] see nsStyleConsts.h
uint8_t mStrokeLinecap; // [inherited] see nsStyleConsts.h
uint8_t mStrokeLinejoin; // [inherited] see nsStyleConsts.h
uint8_t mTextAnchor; // [inherited] see nsStyleConsts.h
uint8_t mContextPropsBits; // [inherited] see nsStyleConsts.h.
// Stores a bitfield representation of
// the specified properties.
/// Returns true if style has been set to expose the computed values of
/// certain properties (such as 'fill') to the contents of any linked images.
bool ExposesContextProperties() const {
return bool(mContextPropsBits);
}
nsStyleSVGOpacitySource FillOpacitySource() const {
uint8_t value = (mContextFlags & FILL_OPACITY_SOURCE_MASK) >>
FILL_OPACITY_SOURCE_SHIFT;
return nsStyleSVGOpacitySource(value);
}
nsStyleSVGOpacitySource StrokeOpacitySource() const {
uint8_t value = (mContextFlags & STROKE_OPACITY_SOURCE_MASK) >>
STROKE_OPACITY_SOURCE_SHIFT;
return nsStyleSVGOpacitySource(value);
}
bool StrokeDasharrayFromObject() const {
return mContextFlags & STROKE_DASHARRAY_CONTEXT;
}
bool StrokeDashoffsetFromObject() const {
return mContextFlags & STROKE_DASHOFFSET_CONTEXT;
}
bool StrokeWidthFromObject() const {
return mContextFlags & STROKE_WIDTH_CONTEXT;
}
void SetFillOpacitySource(nsStyleSVGOpacitySource aValue) {
mContextFlags = (mContextFlags & ~FILL_OPACITY_SOURCE_MASK) |
(aValue << FILL_OPACITY_SOURCE_SHIFT);
}
void SetStrokeOpacitySource(nsStyleSVGOpacitySource aValue) {
mContextFlags = (mContextFlags & ~STROKE_OPACITY_SOURCE_MASK) |
(aValue << STROKE_OPACITY_SOURCE_SHIFT);
}
void SetStrokeDasharrayFromObject(bool aValue) {
mContextFlags = (mContextFlags & ~STROKE_DASHARRAY_CONTEXT) |
(aValue ? STROKE_DASHARRAY_CONTEXT : 0);
}
void SetStrokeDashoffsetFromObject(bool aValue) {
mContextFlags = (mContextFlags & ~STROKE_DASHOFFSET_CONTEXT) |
(aValue ? STROKE_DASHOFFSET_CONTEXT : 0);
}
void SetStrokeWidthFromObject(bool aValue) {
mContextFlags = (mContextFlags & ~STROKE_WIDTH_CONTEXT) |
(aValue ? STROKE_WIDTH_CONTEXT : 0);
}
bool HasMarker() const {
return mMarkerStart || mMarkerMid || mMarkerEnd;
}
/**
* Returns true if the stroke is not "none" and the stroke-opacity is greater
* than zero. This ignores stroke-widths as that depends on the context.
*/
bool HasStroke() const {
return mStroke.Type() != eStyleSVGPaintType_None && mStrokeOpacity > 0;
}
/**
* Returns true if the fill is not "none" and the fill-opacity is greater
* than zero.
*/
bool HasFill() const {
return mFill.Type() != eStyleSVGPaintType_None && mFillOpacity > 0;
}
private:
// Flags to represent the use of context-fill and context-stroke
// for fill-opacity or stroke-opacity, and context-value for stroke-dasharray,
// stroke-dashoffset and stroke-width.
// fill-opacity: context-{fill,stroke}
static const uint8_t FILL_OPACITY_SOURCE_MASK = 0x03;
// stroke-opacity: context-{fill,stroke}
static const uint8_t STROKE_OPACITY_SOURCE_MASK = 0x0C;
// stroke-dasharray: context-value
static const uint8_t STROKE_DASHARRAY_CONTEXT = 0x10;
// stroke-dashoffset: context-value
static const uint8_t STROKE_DASHOFFSET_CONTEXT = 0x20;
// stroke-width: context-value
static const uint8_t STROKE_WIDTH_CONTEXT = 0x40;
static const uint8_t FILL_OPACITY_SOURCE_SHIFT = 0;
static const uint8_t STROKE_OPACITY_SOURCE_SHIFT = 2;
uint8_t mContextFlags; // [inherited]
};
struct nsStyleFilter
{
nsStyleFilter();
nsStyleFilter(const nsStyleFilter& aSource);
~nsStyleFilter();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
nsStyleFilter& operator=(const nsStyleFilter& aOther);
bool operator==(const nsStyleFilter& aOther) const;
bool operator!=(const nsStyleFilter& aOther) const {
return !(*this == aOther);
}
uint32_t GetType() const {
return mType;
}
const nsStyleCoord& GetFilterParameter() const {
NS_ASSERTION(mType != NS_STYLE_FILTER_DROP_SHADOW &&
mType != NS_STYLE_FILTER_URL &&
mType != NS_STYLE_FILTER_NONE, "wrong filter type");
return mFilterParameter;
}
void SetFilterParameter(const nsStyleCoord& aFilterParameter,
int32_t aType);
mozilla::css::URLValue* GetURL() const {
MOZ_ASSERT(mType == NS_STYLE_FILTER_URL, "wrong filter type");
return mURL;
}
bool SetURL(mozilla::css::URLValue* aValue);
nsCSSShadowArray* GetDropShadow() const {
NS_ASSERTION(mType == NS_STYLE_FILTER_DROP_SHADOW, "wrong filter type");
return mDropShadow;
}
void SetDropShadow(nsCSSShadowArray* aDropShadow);
private:
void ReleaseRef();
uint32_t mType; // see NS_STYLE_FILTER_* constants in nsStyleConsts.h
nsStyleCoord mFilterParameter; // coord, percent, factor, angle
union {
mozilla::css::URLValue* mURL;
nsCSSShadowArray* mDropShadow;
};
};
template<>
struct nsTArray_CopyChooser<nsStyleFilter>
{
typedef nsTArray_CopyWithConstructors<nsStyleFilter> Type;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleSVGReset
{
explicit nsStyleSVGReset(const nsPresContext* aContext);
nsStyleSVGReset(const nsStyleSVGReset& aSource);
~nsStyleSVGReset();
// Resolves and tracks the images in mMask. Only called with a Servo-backed
// style system, where those images must be resolved later than the OMT
// nsStyleSVGReset constructor call.
void FinishStyle(nsPresContext* aPresContext);
const static bool kHasFinishStyle = true;
void* operator new(size_t sz, nsStyleSVGReset* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleSVGReset, sz);
}
void Destroy(nsPresContext* aContext);
nsChangeHint CalcDifference(const nsStyleSVGReset& aNewData) const;
bool HasClipPath() const {
return mClipPath.GetType() != mozilla::StyleShapeSourceType::None;
}
bool HasMask() const;
bool HasNonScalingStroke() const {
return mVectorEffect == NS_STYLE_VECTOR_EFFECT_NON_SCALING_STROKE;
}
nsStyleImageLayers mMask;
mozilla::StyleShapeSource mClipPath;// [reset]
nscolor mStopColor; // [reset]
nscolor mFloodColor; // [reset]
nscolor mLightingColor; // [reset]
float mStopOpacity; // [reset]
float mFloodOpacity; // [reset]
uint8_t mDominantBaseline; // [reset] see nsStyleConsts.h
uint8_t mVectorEffect; // [reset] see nsStyleConsts.h
uint8_t mMaskType; // [reset] see nsStyleConsts.h
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleVariables
{
nsStyleVariables();
explicit nsStyleVariables(const nsPresContext* aContext);
nsStyleVariables(const nsStyleVariables& aSource);
~nsStyleVariables();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleVariables* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleVariables, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleVariables();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleVariables, this);
}
nsChangeHint CalcDifference(const nsStyleVariables& aNewData) const;
mozilla::CSSVariableValues mVariables;
};
struct MOZ_NEEDS_MEMMOVABLE_MEMBERS nsStyleEffects
{
explicit nsStyleEffects(const nsPresContext* aContext);
nsStyleEffects(const nsStyleEffects& aSource);
~nsStyleEffects();
void FinishStyle(nsPresContext* aPresContext) {}
const static bool kHasFinishStyle = false;
void* operator new(size_t sz, nsStyleEffects* aSelf) { return aSelf; }
void* operator new(size_t sz, nsPresContext* aContext) {
return aContext->PresShell()->
AllocateByObjectID(mozilla::eArenaObjectID_nsStyleEffects, sz);
}
void Destroy(nsPresContext* aContext) {
this->~nsStyleEffects();
aContext->PresShell()->
FreeByObjectID(mozilla::eArenaObjectID_nsStyleEffects, this);
}
nsChangeHint CalcDifference(const nsStyleEffects& aNewData) const;
bool HasFilters() const {
return !mFilters.IsEmpty();
}
nsTArray<nsStyleFilter> mFilters; // [reset]
RefPtr<nsCSSShadowArray> mBoxShadow; // [reset] nullptr for 'none'
nsRect mClip; // [reset] offsets from UL border edge
float mOpacity; // [reset]
uint8_t mClipFlags; // [reset] see nsStyleConsts.h
uint8_t mMixBlendMode; // [reset] see nsStyleConsts.h
};
#define STATIC_ASSERT_TYPE_LAYOUTS_MATCH(T1, T2) \
static_assert(sizeof(T1) == sizeof(T2), \
"Size mismatch between " #T1 " and " #T2); \
static_assert(alignof(T1) == alignof(T2), \
"Align mismatch between " #T1 " and " #T2); \
#define STATIC_ASSERT_FIELD_OFFSET_MATCHES(T1, T2, field) \
static_assert(offsetof(T1, field) == offsetof(T2, field), \
"Field offset mismatch of " #field " between " #T1 " and " #T2); \
/**
* These *_Simple types are used to map Gecko types to layout-equivalent but
* simpler Rust types, to aid Rust binding generation.
*
* If something in this types or the assertions below needs to change, ask
* bholley, heycam or emilio before!
*
* <div rustbindgen="true" replaces="nsPoint">
*/
struct nsPoint_Simple {
nscoord x, y;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsPoint, nsPoint_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsPoint, nsPoint_Simple, x);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsPoint, nsPoint_Simple, y);
/**
* <div rustbindgen="true" replaces="nsMargin">
*/
struct nsMargin_Simple {
nscoord top, right, bottom, left;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsMargin, nsMargin_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, top);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, right);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, bottom);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsMargin, nsMargin_Simple, left);
/**
* <div rustbindgen="true" replaces="nsRect">
*/
struct nsRect_Simple {
nscoord x, y, width, height;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsRect, nsRect_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, x);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, y);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, width);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsRect, nsRect_Simple, height);
/**
* <div rustbindgen="true" replaces="nsSize">
*/
struct nsSize_Simple {
nscoord width, height;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsSize, nsSize_Simple);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsSize, nsSize_Simple, width);
STATIC_ASSERT_FIELD_OFFSET_MATCHES(nsSize, nsSize_Simple, height);
/**
* <div rustbindgen="true" replaces="mozilla::UniquePtr">
*
* TODO(Emilio): This is a workaround and we should be able to get rid of this
* one.
*/
template<typename T, typename Deleter = mozilla::DefaultDelete<T>>
struct UniquePtr_Simple {
T* mPtr;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(mozilla::UniquePtr<int>, UniquePtr_Simple<int>);
/**
* <div rustbindgen replaces="nsTArray"></div>
*/
template<typename T>
class nsTArray_Simple {
T* mBuffer;
public:
// The existence of a destructor here prevents bindgen from deriving the Clone
// trait via a simple memory copy.
~nsTArray_Simple() {};
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsTArray<nsStyleImageLayers::Layer>,
nsTArray_Simple<nsStyleImageLayers::Layer>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsTArray<mozilla::StyleTransition>,
nsTArray_Simple<mozilla::StyleTransition>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsTArray<mozilla::StyleAnimation>,
nsTArray_Simple<mozilla::StyleAnimation>);
/**
* <div rustbindgen replaces="nsCOMArray"></div>
*
* mozilla::ArrayIterator doesn't work well with bindgen.
*/
template<typename T>
class nsCOMArray_Simple {
nsTArray<nsISupports*> mBuffer;
};
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsCOMArray<nsIContent>,
nsCOMArray_Simple<nsIContent>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsCOMArray<nsINode>,
nsCOMArray_Simple<nsINode>);
STATIC_ASSERT_TYPE_LAYOUTS_MATCH(nsCOMArray<imgIContainer>,
nsCOMArray_Simple<imgIContainer>);
#endif /* nsStyleStruct_h___ */