gecko-dev/layout/svg/nsSVGTextFrame2.h

710 lines
24 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef NS_SVGTEXTFRAME2_H
#define NS_SVGTEXTFRAME2_H
#include "mozilla/Attributes.h"
#include "mozilla/RefPtr.h"
#include "mozilla/gfx/2D.h"
#include "gfxMatrix.h"
#include "gfxRect.h"
#include "gfxSVGGlyphs.h"
#include "nsIContent.h"
#include "nsStubMutationObserver.h"
#include "nsSVGPaintServerFrame.h"
class nsDisplaySVGText;
class nsRenderingContext;
class nsSVGTextFrame2;
class nsTextFrame;
typedef nsSVGDisplayContainerFrame nsSVGTextFrame2Base;
namespace mozilla {
class CharIterator;
class nsISVGPoint;
class TextFrameIterator;
class TextNodeCorrespondenceRecorder;
struct TextRenderedRun;
class TextRenderedRunIterator;
namespace dom {
class SVGIRect;
}
/**
* Information about the positioning for a single character in an SVG <text>
* element.
*
* During SVG text layout, we use infinity values to represent positions and
* rotations that are not explicitly specified with x/y/rotate attributes.
*/
struct CharPosition
{
CharPosition()
: mAngle(0),
mHidden(false),
mUnaddressable(false),
mClusterOrLigatureGroupMiddle(false),
mRunBoundary(false),
mStartOfChunk(false)
{
}
CharPosition(gfxPoint aPosition, double aAngle)
: mPosition(aPosition),
mAngle(aAngle),
mHidden(false),
mUnaddressable(false),
mClusterOrLigatureGroupMiddle(false),
mRunBoundary(false),
mStartOfChunk(false)
{
}
static CharPosition Unspecified(bool aUnaddressable)
{
CharPosition cp(UnspecifiedPoint(), UnspecifiedAngle());
cp.mUnaddressable = aUnaddressable;
return cp;
}
bool IsAngleSpecified() const
{
return mAngle != UnspecifiedAngle();
}
bool IsXSpecified() const
{
return mPosition.x != UnspecifiedCoord();
}
bool IsYSpecified() const
{
return mPosition.y != UnspecifiedCoord();
}
gfxPoint mPosition;
double mAngle;
// not displayed due to falling off the end of a <textPath>
bool mHidden;
// skipped in positioning attributes due to being collapsed-away white space
bool mUnaddressable;
// a preceding character is what positioning attributes address
bool mClusterOrLigatureGroupMiddle;
// rendering is split here since an explicit position or rotation was given
bool mRunBoundary;
// an anchored chunk begins here
bool mStartOfChunk;
private:
static gfxFloat UnspecifiedCoord()
{
return std::numeric_limits<gfxFloat>::infinity();
}
static double UnspecifiedAngle()
{
return std::numeric_limits<double>::infinity();
}
static gfxPoint UnspecifiedPoint()
{
return gfxPoint(UnspecifiedCoord(), UnspecifiedCoord());
}
};
/**
* A runnable to mark glyph positions as needing to be recomputed
* and to invalid the bounds of the nsSVGTextFrame2 frame.
*/
class GlyphMetricsUpdater : public nsRunnable {
public:
NS_DECL_NSIRUNNABLE
GlyphMetricsUpdater(nsSVGTextFrame2* aFrame) : mFrame(aFrame) { }
static void Run(nsSVGTextFrame2* aFrame);
void Revoke() { mFrame = nullptr; }
private:
nsSVGTextFrame2* mFrame;
};
// Slightly horrible callback for deferring application of opacity
struct SVGTextContextPaint : public gfxTextContextPaint {
already_AddRefed<gfxPattern> GetFillPattern(float aOpacity,
const gfxMatrix& aCTM) MOZ_OVERRIDE;
already_AddRefed<gfxPattern> GetStrokePattern(float aOpacity,
const gfxMatrix& aCTM) MOZ_OVERRIDE;
void SetFillOpacity(float aOpacity) { mFillOpacity = aOpacity; }
float GetFillOpacity() MOZ_OVERRIDE { return mFillOpacity; }
void SetStrokeOpacity(float aOpacity) { mStrokeOpacity = aOpacity; }
float GetStrokeOpacity() MOZ_OVERRIDE { return mStrokeOpacity; }
struct Paint {
Paint() : mPaintType(eStyleSVGPaintType_None) {}
void SetPaintServer(nsIFrame *aFrame, const gfxMatrix& aContextMatrix,
nsSVGPaintServerFrame *aPaintServerFrame) {
mPaintType = eStyleSVGPaintType_Server;
mPaintDefinition.mPaintServerFrame = aPaintServerFrame;
mFrame = aFrame;
mContextMatrix = aContextMatrix;
}
void SetColor(const nscolor &aColor) {
mPaintType = eStyleSVGPaintType_Color;
mPaintDefinition.mColor = aColor;
}
void SetContextPaint(gfxTextContextPaint *aContextPaint,
nsStyleSVGPaintType aPaintType) {
NS_ASSERTION(aPaintType == eStyleSVGPaintType_ContextFill ||
aPaintType == eStyleSVGPaintType_ContextStroke,
"Invalid context paint type");
mPaintType = aPaintType;
mPaintDefinition.mContextPaint = aContextPaint;
}
union {
nsSVGPaintServerFrame *mPaintServerFrame;
gfxTextContextPaint *mContextPaint;
nscolor mColor;
} mPaintDefinition;
nsIFrame *mFrame;
// CTM defining the user space for the pattern we will use.
gfxMatrix mContextMatrix;
nsStyleSVGPaintType mPaintType;
// Device-space-to-pattern-space
gfxMatrix mPatternMatrix;
nsRefPtrHashtable<nsFloatHashKey, gfxPattern> mPatternCache;
already_AddRefed<gfxPattern> GetPattern(float aOpacity,
nsStyleSVGPaint nsStyleSVG::*aFillOrStroke,
const gfxMatrix& aCTM);
};
Paint mFillPaint;
Paint mStrokePaint;
float mFillOpacity;
float mStrokeOpacity;
};
} // namespace mozilla
/**
* Frame class for SVG <text> elements, used when the
* layout.svg.css-text.enabled is true.
*
* An nsSVGTextFrame2 manages SVG text layout, painting and interaction for
* all descendent text content elements. The frame tree will look like this:
*
* nsSVGTextFrame2 -- for <text>
* <anonymous block frame>
* ns{Block,Inline,Text}Frames -- for text nodes, <tspan>s, <a>s, etc.
*
* SVG text layout is done by:
*
* 1. Reflowing the anonymous block frame.
* 2. Inspecting the (app unit) positions of the glyph for each character in
* the nsTextFrames underneath the anonymous block frame.
* 3. Determining the (user unit) positions for each character in the <text>
* using the x/y/dx/dy/rotate attributes on all the text content elements,
* and using the step 2 results to fill in any gaps.
* 4. Applying any other SVG specific text layout (anchoring and text paths)
* to the positions computed in step 3.
*
* Rendering of the text is done by splitting up each nsTextFrame into ranges
* that can be contiguously painted. (For example <text x="10 20">abcd</text>
* would have two contiguous ranges: one for the "a" and one for the "bcd".)
* Each range is called a "text rendered run", represented by a TextRenderedRun
* object. The TextRenderedRunIterator class performs that splitting and
* returns a TextRenderedRun for each bit of text to be painted separately.
*
* Each rendered run is painted by calling nsTextFrame::PaintText. If the text
* formatting is simple enough (solid fill, no stroking, etc.), PaintText will
* itself do the painting. Otherwise, a DrawPathCallback is passed to
* PaintText so that we can fill the text geometry with SVG paint servers.
*/
class nsSVGTextFrame2 : public nsSVGTextFrame2Base
{
friend nsIFrame*
NS_NewSVGTextFrame2(nsIPresShell* aPresShell, nsStyleContext* aContext);
friend class mozilla::CharIterator;
friend class mozilla::GlyphMetricsUpdater;
friend class mozilla::TextFrameIterator;
friend class mozilla::TextNodeCorrespondenceRecorder;
friend struct mozilla::TextRenderedRun;
friend class mozilla::TextRenderedRunIterator;
friend class MutationObserver;
friend class nsDisplaySVGText;
typedef mozilla::gfx::Path Path;
typedef mozilla::SVGTextContextPaint SVGTextContextPaint;
protected:
nsSVGTextFrame2(nsStyleContext* aContext)
: nsSVGTextFrame2Base(aContext),
mFontSizeScaleFactor(1.0f),
mLastContextScale(1.0f),
mLengthAdjustScaleFactor(1.0f)
{
AddStateBits(NS_STATE_SVG_POSITIONING_DIRTY);
}
public:
NS_DECL_QUERYFRAME_TARGET(nsSVGTextFrame2)
NS_DECL_QUERYFRAME
NS_DECL_FRAMEARENA_HELPERS
// nsIFrame:
virtual void Init(nsIContent* aContent,
nsIFrame* aParent,
nsIFrame* aPrevInFlow) MOZ_OVERRIDE;
NS_IMETHOD AttributeChanged(int32_t aNamespaceID,
nsIAtom* aAttribute,
int32_t aModType) MOZ_OVERRIDE;
virtual nsIFrame* GetContentInsertionFrame() MOZ_OVERRIDE
{
return GetFirstPrincipalChild()->GetContentInsertionFrame();
}
virtual void BuildDisplayList(nsDisplayListBuilder* aBuilder,
const nsRect& aDirtyRect,
const nsDisplayListSet& aLists) MOZ_OVERRIDE;
/**
* Get the "type" of the frame
*
* @see nsGkAtoms::svgTextFrame2
*/
virtual nsIAtom* GetType() const MOZ_OVERRIDE;
#ifdef DEBUG
NS_IMETHOD GetFrameName(nsAString& aResult) const MOZ_OVERRIDE
{
return MakeFrameName(NS_LITERAL_STRING("SVGText2"), aResult);
}
#endif
virtual void DidSetStyleContext(nsStyleContext* aOldStyleContext) MOZ_OVERRIDE;
/**
* Finds the nsTextFrame for the closest rendered run to the specified point.
*/
virtual void FindCloserFrameForSelection(nsPoint aPoint,
FrameWithDistance* aCurrentBestFrame) MOZ_OVERRIDE;
// nsISVGChildFrame interface:
virtual void NotifySVGChanged(uint32_t aFlags) MOZ_OVERRIDE;
NS_IMETHOD PaintSVG(nsRenderingContext* aContext,
const nsIntRect* aDirtyRect,
nsIFrame* aTransformRoot = nullptr) MOZ_OVERRIDE;
NS_IMETHOD_(nsIFrame*) GetFrameForPoint(const nsPoint& aPoint) MOZ_OVERRIDE;
virtual void ReflowSVG() MOZ_OVERRIDE;
NS_IMETHOD_(nsRect) GetCoveredRegion() MOZ_OVERRIDE;
virtual SVGBBox GetBBoxContribution(const gfxMatrix& aToBBoxUserspace,
uint32_t aFlags) MOZ_OVERRIDE;
// nsSVGContainerFrame methods:
virtual gfxMatrix GetCanvasTM(uint32_t aFor,
nsIFrame* aTransformRoot = nullptr) MOZ_OVERRIDE;
// SVG DOM text methods:
uint32_t GetNumberOfChars(nsIContent* aContent);
float GetComputedTextLength(nsIContent* aContent);
nsresult SelectSubString(nsIContent* aContent, uint32_t charnum, uint32_t nchars);
nsresult GetSubStringLength(nsIContent* aContent, uint32_t charnum,
uint32_t nchars, float* aResult);
int32_t GetCharNumAtPosition(nsIContent* aContent, mozilla::nsISVGPoint* point);
nsresult GetStartPositionOfChar(nsIContent* aContent, uint32_t aCharNum,
mozilla::nsISVGPoint** aResult);
nsresult GetEndPositionOfChar(nsIContent* aContent, uint32_t aCharNum,
mozilla::nsISVGPoint** aResult);
nsresult GetExtentOfChar(nsIContent* aContent, uint32_t aCharNum,
mozilla::dom::SVGIRect** aResult);
nsresult GetRotationOfChar(nsIContent* aContent, uint32_t aCharNum,
float* aResult);
// nsSVGTextFrame2 methods:
/**
* Schedules mPositions to be recomputed and the covered region to be
* updated.
*/
void NotifyGlyphMetricsChange();
/**
* Calls ScheduleReflowSVGNonDisplayText if this is a non-display frame,
* and nsSVGUtils::ScheduleReflowSVG otherwise.
*/
void ScheduleReflowSVG();
/**
* Reflows the anonymous block frame of this non-display nsSVGTextFrame2.
*
* When we are under nsSVGDisplayContainerFrame::ReflowSVG, we need to
* reflow any nsSVGTextFrame2 frames in the subtree in case they are
* being observed (by being for example in a <mask>) and the change
* that caused the reflow would not already have caused a reflow.
*
* Note that displayed nsSVGTextFrame2s are reflowed as needed, when PaintSVG
* is called or some SVG DOM method is called on the element.
*/
void ReflowSVGNonDisplayText();
/**
* This is a function that behaves similarly to nsSVGUtils::ScheduleReflowSVG,
* but which will skip over any ancestor non-display container frames on the
* way to the nsSVGOuterSVGFrame. It exists for the situation where a
* non-display <text> element has changed and needs to ensure ReflowSVG will
* be called on its closest display container frame, so that
* nsSVGDisplayContainerFrame::ReflowSVG will call ReflowSVGNonDisplayText on
* it.
*
* The only case where we have to do this is in response to a style change on
* a non-display <text>; the only caller of ScheduleReflowSVGNonDisplayText
* currently is nsSVGTextFrame2::DidSetStyleContext.
*/
void ScheduleReflowSVGNonDisplayText();
/**
* Updates the mFontSizeScaleFactor value by looking at the range of
* font-sizes used within the <text>.
*
* @return Whether mFontSizeScaleFactor changed.
*/
bool UpdateFontSizeScaleFactor();
double GetFontSizeScaleFactor() const;
/**
* Takes a point from the <text> element's user space and
* converts it to the appropriate frame user space of aChildFrame,
* according to which rendered run the point hits.
*/
gfxPoint TransformFramePointToTextChild(const gfxPoint& aPoint,
nsIFrame* aChildFrame);
/**
* Takes a rectangle, aRect, in the <text> element's user space, and
* returns a rectangle in aChildFrame's frame user space that
* covers intersections of aRect with each rendered run for text frames
* within aChildFrame.
*/
gfxRect TransformFrameRectToTextChild(const gfxRect& aRect,
nsIFrame* aChildFrame);
/**
* Takes an app unit rectangle in the coordinate space of a given descendant
* frame of this frame, and returns a rectangle in the <text> element's user
* space that covers all parts of rendered runs that intersect with the
* rectangle.
*/
gfxRect TransformFrameRectFromTextChild(const nsRect& aRect,
nsIFrame* aChildFrame);
private:
/**
* Mutation observer used to watch for text positioning attribute changes
* on descendent text content elements (like <tspan>s).
*/
class MutationObserver : public nsStubMutationObserver {
public:
MutationObserver()
: mFrame(nullptr)
{
}
void StartObserving(nsSVGTextFrame2* aFrame)
{
NS_ASSERTION(!mFrame, "should not be observing yet!");
mFrame = aFrame;
aFrame->GetContent()->AddMutationObserver(this);
}
virtual ~MutationObserver()
{
if (mFrame) {
mFrame->GetContent()->RemoveMutationObserver(this);
}
}
// nsISupports
NS_DECL_ISUPPORTS
// nsIMutationObserver
NS_DECL_NSIMUTATIONOBSERVER_CONTENTAPPENDED
NS_DECL_NSIMUTATIONOBSERVER_CONTENTINSERTED
NS_DECL_NSIMUTATIONOBSERVER_CONTENTREMOVED
NS_DECL_NSIMUTATIONOBSERVER_CHARACTERDATACHANGED
NS_DECL_NSIMUTATIONOBSERVER_ATTRIBUTECHANGED
private:
nsSVGTextFrame2* mFrame;
};
/**
* Reflows the anonymous block child if it is dirty or has dirty
* children, or if the nsSVGTextFrame2 itself is dirty.
*/
void MaybeReflowAnonymousBlockChild();
/**
* Performs the actual work of reflowing the anonymous block child.
*/
void DoReflow();
/**
* Recomputes mPositions by calling DoGlyphPositioning if this information
* is out of date.
*/
void UpdateGlyphPositioning();
/**
* Populates mPositions with positioning information for each character
* within the <text>.
*/
void DoGlyphPositioning();
/**
* Converts the specified index into mPositions to an addressable
* character index (as can be used with the SVG DOM text methods)
* relative to the specified text child content element.
*
* @param aIndex The global character index.
* @param aContent The descendant text child content element that
* the returned addressable index will be relative to; null
* means the same as the <text> element.
* @return The addressable index, or -1 if the index cannot be
* represented as an addressable index relative to aContent.
*/
int32_t
ConvertTextElementCharIndexToAddressableIndex(int32_t aIndex,
nsIContent* aContent);
/**
* Recursive helper for ResolvePositions below.
*
* @param aContent The current node.
* @param aIndex The current character index.
* @param aInTextPath Whether we are currently under a <textPath> element.
* @param aForceStartOfChunk Whether the next character we find should start a
* new anchored chunk.
* @return The character index we got up to.
*/
uint32_t ResolvePositions(nsIContent* aContent, uint32_t aIndex,
bool aInTextPath, bool& aForceStartOfChunk,
nsTArray<gfxPoint>& aDeltas);
/**
* Initializes mPositions with character position information based on
* x/y/rotate attributes, leaving unspecified values in the array if a position
* was not given for that character. Also fills aDeltas with values based on
* dx/dy attributes.
*
* @param aRunPerGlyph Whether mPositions should record that a new run begins
* at each glyph.
* @return True if we recorded any positions.
*/
bool ResolvePositions(nsTArray<gfxPoint>& aDeltas, bool aRunPerGlyph);
/**
* Determines the position, in app units, of each character in the <text> as
* laid out by reflow, and appends them to aPositions. Any characters that
* are undisplayed or trimmed away just get the last position.
*/
void DetermineCharPositions(nsTArray<nsPoint>& aPositions);
/**
* Sets mStartOfChunk to true for each character in mPositions that starts a
* line of text.
*/
void AdjustChunksForLineBreaks();
/**
* Adjusts recorded character positions in mPositions to account for glyph
* boundaries. Four things are done:
*
* 1. mClusterOrLigatureGroupMiddle is set to true for all such characters.
*
* 2. Any run and anchored chunk boundaries that begin in the middle of a
* cluster/ligature group get moved to the start of the next
* cluster/ligature group.
*
* 3. The position of any character in the middle of a cluster/ligature
* group is updated to take into account partial ligatures and any
* rotation the glyph as a whole has. (The values that come out of
* DetermineCharPositions which then get written into mPositions in
* ResolvePositions store the same position value for each part of the
* ligature.)
*
* 4. The rotation of any character in the middle of a cluster/ligature
* group is set to the rotation of the first character.
*/
void AdjustPositionsForClusters();
/**
* Updates the character positions stored in mPositions to account for
* text anchoring.
*/
void DoAnchoring();
/**
* Updates character positions in mPositions for those characters inside a
* <textPath>.
*/
void DoTextPathLayout();
/**
* Returns whether we need to render the text using
* nsTextFrame::DrawPathCallbacks rather than directly painting
* the text frames.
*
* @param aShouldPaintSVGGlyphs (out) Whether SVG glyphs in the text
* should be painted.
*/
bool ShouldRenderAsPath(nsRenderingContext* aContext, nsTextFrame* aFrame,
bool& aShouldPaintSVGGlyphs);
// Methods to get information for a <textPath> frame.
nsIFrame* GetTextPathPathFrame(nsIFrame* aTextPathFrame);
mozilla::TemporaryRef<Path> GetTextPath(nsIFrame* aTextPathFrame);
gfxFloat GetOffsetScale(nsIFrame* aTextPathFrame);
gfxFloat GetStartOffset(nsIFrame* aTextPathFrame);
DrawMode SetupCairoState(gfxContext* aContext,
nsIFrame* aFrame,
gfxTextContextPaint* aOuterContextPaint,
gfxTextContextPaint** aThisContextPaint);
/**
* Sets up the stroke style for |aFrame| in |aContext| and stores stroke
* pattern information in |aThisContextPaint|.
*/
bool SetupCairoStroke(gfxContext* aContext,
nsIFrame* aFrame,
gfxTextContextPaint* aOuterContextPaint,
SVGTextContextPaint* aThisContextPaint);
/**
* Sets up the fill style for |aFrame| in |aContext| and stores fill pattern
* information in |aThisContextPaint|.
*/
bool SetupCairoFill(gfxContext* aContext,
nsIFrame* aFrame,
gfxTextContextPaint* aOuterContextPaint,
SVGTextContextPaint* aThisContextPaint);
/**
* Sets the current pattern for |aFrame| to the fill or stroke style of the
* outer text context. Will also set the paint opacity to transparent if the
* paint is set to "none".
*/
bool SetupContextPaint(gfxContext* aContext,
nsIFrame* aFrame,
nsStyleSVGPaint nsStyleSVG::*aFillOrStroke,
float& aOpacity,
gfxTextContextPaint* aContextPaint);
/**
* Stores in |aTargetPaint| information on how to reconstruct the current
* fill or stroke pattern. Will also set the paint opacity to transparent if
* the paint is set to "none".
* @param aOuterContextPaint pattern information from the outer text context
* @param aTargetPaint where to store the current pattern information
* @param aFillOrStroke member pointer to the paint we are setting up
* @param aProperty the frame property descriptor of the fill or stroke paint
* server frame
*/
void SetupInheritablePaint(gfxContext* aContext,
nsIFrame* aFrame,
float& aOpacity,
gfxTextContextPaint* aOuterContextPaint,
SVGTextContextPaint::Paint& aTargetPaint,
nsStyleSVGPaint nsStyleSVG::*aFillOrStroke,
const FramePropertyDescriptor* aProperty);
/**
* The MutationObserver we have registered for the <text> element subtree.
*/
MutationObserver mMutationObserver;
/**
* Cached canvasTM value.
*/
nsAutoPtr<gfxMatrix> mCanvasTM;
/**
* The number of characters in the DOM after the final nsTextFrame. For
* example, with
*
* <text>abcd<tspan display="none">ef</tspan></text>
*
* mTrailingUndisplayedCharacters would be 2.
*/
uint32_t mTrailingUndisplayedCharacters;
/**
* Computed position information for each DOM character within the <text>.
*/
nsTArray<mozilla::CharPosition> mPositions;
/**
* mFontSizeScaleFactor is used to cause the nsTextFrames to create text
* runs with a font size different from the actual font-size property value.
* This is used so that, for example with:
*
* <svg>
* <g transform="scale(2)">
* <text font-size="10">abc</text>
* </g>
* </svg>
*
* a font size of 20 would be used. It's preferable to use a font size that
* is identical or close to the size that the text will appear on the screen,
* because at very small or large font sizes, text metrics will be computed
* differently due to the limited precision that text runs have.
*
* mFontSizeScaleFactor is the amount the actual font-size property value
* should be multiplied by to cause the text run font size to (a) be within a
* "reasonable" range, and (b) be close to the actual size to be painted on
* screen. (The "reasonable" range as determined by some #defines in
* nsSVGTextFrame2.cpp is 8..200.)
*/
float mFontSizeScaleFactor;
/**
* The scale of the context that we last used to compute mFontSizeScaleFactor.
* We record this so that we can tell when our scale transform has changed
* enough to warrant reflowing the text.
*/
float mLastContextScale;
/**
* The amount that we need to scale each rendered run to account for
* lengthAdjust="spacingAndGlyphs".
*/
float mLengthAdjustScaleFactor;
};
#endif