gecko-dev/layout/generic/TextOverflow.h

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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set shiftwidth=2 tabstop=8 autoindent cindent expandtab: */
/* 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 TextOverflow_h_
#define TextOverflow_h_
#include "nsDisplayList.h"
#include "nsLineBox.h"
#include "nsStyleStruct.h"
#include "nsTHashtable.h"
#include "mozilla/Likely.h"
#include <algorithm>
class nsIScrollableFrame;
class gfxTextRun;
namespace mozilla {
namespace css {
/**
* A class for rendering CSS3 text-overflow.
* Usage:
* 1. allocate an object using WillProcessLines
* 2. then call ProcessLine for each line you are building display lists for
*/
class TextOverflow {
public:
/**
* Allocate an object for text-overflow processing.
* @return nullptr if no processing is necessary. The caller owns the object.
*/
static TextOverflow* WillProcessLines(nsDisplayListBuilder* aBuilder,
nsIFrame* aBlockFrame);
/**
* Analyze the display lists for text overflow and what kind of item is at
* the content edges. Add display items for text-overflow markers as needed
* and remove or clip items that would overlap a marker.
*/
void ProcessLine(const nsDisplayListSet& aLists, nsLineBox* aLine);
/**
* Get the resulting text-overflow markers (the list may be empty).
* @return a DisplayList containing any text-overflow markers.
*/
nsDisplayList& GetMarkers() { return mMarkerList; }
/**
* @return true if aBlockFrame needs analysis for text overflow.
*/
static bool CanHaveTextOverflow(nsDisplayListBuilder* aBuilder,
nsIFrame* aBlockFrame);
typedef nsTHashtable<nsPtrHashKey<nsIFrame> > FrameHashtable;
protected:
TextOverflow() {}
void Init(nsDisplayListBuilder* aBuilder,
nsIFrame* aBlockFrame);
struct AlignmentEdges {
AlignmentEdges() : mAssigned(false) {}
void Accumulate(const nsRect& aRect) {
if (MOZ_LIKELY(mAssigned)) {
x = std::min(x, aRect.X());
xmost = std::max(xmost, aRect.XMost());
} else {
x = aRect.X();
xmost = aRect.XMost();
mAssigned = true;
}
}
nscoord Width() { return xmost - x; }
nscoord x;
nscoord xmost;
bool mAssigned;
};
struct InnerClipEdges {
InnerClipEdges() : mAssignedLeft(false), mAssignedRight(false) {}
void AccumulateLeft(const nsRect& aRect) {
if (MOZ_LIKELY(mAssignedLeft)) {
mLeft = std::max(mLeft, aRect.X());
} else {
mLeft = aRect.X();
mAssignedLeft = true;
}
}
void AccumulateRight(const nsRect& aRect) {
if (MOZ_LIKELY(mAssignedRight)) {
mRight = std::min(mRight, aRect.XMost());
} else {
mRight = aRect.XMost();
mAssignedRight = true;
}
}
nscoord mLeft;
nscoord mRight;
bool mAssignedLeft;
bool mAssignedRight;
};
/**
* Examines frames on the line to determine whether we should draw a left
* and/or right marker, and if so, which frames should be completely hidden
* and the bounds of what will be displayed between the markers.
* @param aLine the line we're processing
* @param aFramesToHide frames that should have their display items removed
* @param aAlignmentEdges the outermost edges of all text and atomic
* inline-level frames that are inside the area between the markers
*/
void ExamineLineFrames(nsLineBox* aLine,
FrameHashtable* aFramesToHide,
AlignmentEdges* aAlignmentEdges);
/**
* LineHasOverflowingText calls this to analyze edges, both the block's
* content edges and the hypothetical marker edges aligned at the block edges.
* @param aFrame the descendant frame of mBlock that we're analyzing
* @param aContentArea the block's content area
* @param aInsideMarkersArea the rectangle between the markers
* @param aFramesToHide frames that should have their display items removed
* @param aAlignmentEdges the outermost edges of all text and atomic
* inline-level frames that are inside the area between the markers
* @param aFoundVisibleTextOrAtomic is set to true if a text or atomic
* inline-level frame is visible between the marker edges
* @param aClippedMarkerEdges the innermost edges of all text and atomic
* inline-level frames that are clipped by the current marker width
*/
void ExamineFrameSubtree(nsIFrame* aFrame,
const nsRect& aContentArea,
const nsRect& aInsideMarkersArea,
FrameHashtable* aFramesToHide,
AlignmentEdges* aAlignmentEdges,
bool* aFoundVisibleTextOrAtomic,
InnerClipEdges* aClippedMarkerEdges);
/**
* ExamineFrameSubtree calls this to analyze a frame against the hypothetical
* marker edges (aInsideMarkersArea) for text frames and atomic inline-level
* elements. A text frame adds its extent inside aInsideMarkersArea where
* grapheme clusters are fully visible. An atomic adds its border box if
* it's fully inside aInsideMarkersArea, otherwise the frame is added to
* aFramesToHide.
* @param aFrame the descendant frame of mBlock that we're analyzing
* @param aFrameType aFrame's frame type
* @param aInsideMarkersArea the rectangle between the markers
* @param aFramesToHide frames that should have their display items removed
* @param aAlignmentEdges the outermost edges of all text and atomic
* inline-level frames that are inside the area between the markers
* inside aInsideMarkersArea
* @param aFoundVisibleTextOrAtomic is set to true if a text or atomic
* inline-level frame is visible between the marker edges
* @param aClippedMarkerEdges the innermost edges of all text and atomic
* inline-level frames that are clipped by the current marker width
*/
void AnalyzeMarkerEdges(nsIFrame* aFrame,
const nsIAtom* aFrameType,
const nsRect& aInsideMarkersArea,
FrameHashtable* aFramesToHide,
AlignmentEdges* aAlignmentEdges,
bool* aFoundVisibleTextOrAtomic,
InnerClipEdges* aClippedMarkerEdges);
/**
* Clip or remove items given the final marker edges. ("clip" here just means
* assigning mLeftEdge/mRightEdge for any nsCharClipDisplayItem that needs it,
* see nsDisplayList.h for a description of that item).
* @param aFramesToHide remove display items for these frames
* @param aInsideMarkersArea is the area inside the markers
*/
void PruneDisplayListContents(nsDisplayList* aList,
const FrameHashtable& aFramesToHide,
const nsRect& aInsideMarkersArea);
/**
* ProcessLine calls this to create display items for the markers and insert
* them into mMarkerList.
* @param aLine the line we're processing
* @param aCreateLeft if true, create a marker on the left side
* @param aCreateRight if true, create a marker on the right side
* @param aInsideMarkersArea is the area inside the markers
*/
void CreateMarkers(const nsLineBox* aLine,
bool aCreateLeft,
bool aCreateRight,
const nsRect& aInsideMarkersArea);
nsRect mContentArea;
nsDisplayListBuilder* mBuilder;
nsIFrame* mBlock;
nsIScrollableFrame* mScrollableFrame;
nsDisplayList mMarkerList;
bool mBlockIsRTL;
bool mCanHaveHorizontalScrollbar;
bool mAdjustForPixelSnapping;
class Marker {
public:
void Init(const nsStyleTextOverflowSide& aStyle) {
mInitialized = false;
mWidth = 0;
mStyle = &aStyle;
}
/**
* Setup the marker string and calculate its size, if not done already.
*/
void SetupString(nsIFrame* aFrame);
bool IsNeeded() const {
return mHasOverflow;
}
void Reset() {
mHasOverflow = false;
}
// The current width of the marker, the range is [0 .. mIntrinsicWidth].
nscoord mWidth;
// The intrinsic width of the marker.
nscoord mIntrinsicWidth;
// The style for this side.
const nsStyleTextOverflowSide* mStyle;
// True if there is visible overflowing inline content on this side.
bool mHasOverflow;
// True if mMarkerString and mWidth have been setup from style.
bool mInitialized;
// True if the style is text-overflow:clip on this side and the marker
// won't cause the line to become empty.
bool mActive;
};
Marker mLeft; // the horizontal left marker
Marker mRight; // the horizontal right marker
};
} // namespace css
} // namespace mozilla
#endif /* !defined(TextOverflow_h_) */