gecko-dev/editor/libeditor/WSRunObject.h

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/* -*- 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 WSRunObject_h
#define WSRunObject_h
#include "nsCOMPtr.h"
#include "nsIEditor.h" // for EDirection
#include "nsINode.h"
#include "nscore.h"
#include "mozilla/Attributes.h"
#include "mozilla/dom/Text.h"
class nsIDOMNode;
namespace mozilla {
class HTMLEditor;
class HTMLEditRules;
struct EditorDOMPoint;
// class WSRunObject represents the entire whitespace situation
// around a given point. It collects up a list of nodes that contain
// whitespace and categorizes in up to 3 different WSFragments (detailed
// below). Each WSFragment is a collection of whitespace that is
// either all insignificant, or that is significant. A WSFragment could
// consist of insignificant whitespace because it is after a block
// boundary or after a break. Or it could be insignificant because it
// is before a block. Or it could be significant because it is
// surrounded by text, or starts and ends with nbsps, etc.
// Throughout I refer to LeadingWS, NormalWS, TrailingWS. LeadingWS & TrailingWS
// are runs of ascii ws that are insignificant (do not render) because they
// are adjacent to block boundaries, or after a break. NormalWS is ws that
// does cause soem rendering. Note that not all the ws in a NormalWS run need
// render. For example, two ascii spaces surrounded by text on both sides
// will only render as one space (in non-preformatted stlye html), yet both
// spaces count as NormalWS. Together, they render as the one visible space.
/**
* A type-safe bitfield indicating various types of whitespace or other things.
* Used as a member variable in WSRunObject and WSFragment.
*
* XXX: If this idea is useful in other places, we should generalize it using a
* template.
*/
class WSType
{
public:
enum Enum
{
none = 0,
leadingWS = 1, // leading insignificant ws, ie, after block or br
trailingWS = 1 << 1, // trailing insignificant ws, ie, before block
normalWS = 1 << 2, // normal significant ws, ie, after text, image, ...
text = 1 << 3, // indicates regular (non-ws) text
special = 1 << 4, // indicates an inline non-container, like image
br = 1 << 5, // indicates a br node
otherBlock = 1 << 6, // indicates a block other than one ws run is in
thisBlock = 1 << 7, // indicates the block ws run is in
block = otherBlock | thisBlock // block found
};
/**
* Implicit constructor, because the enums are logically just WSTypes
* themselves, and are only a separate type because there's no other obvious
* way to name specific WSType values.
*/
MOZ_IMPLICIT WSType(const Enum& aEnum = none)
: mEnum(aEnum)
{}
// operator==, &, and | need to access mEnum
friend bool operator==(const WSType& aLeft, const WSType& aRight);
friend const WSType operator&(const WSType& aLeft, const WSType& aRight);
friend const WSType operator|(const WSType& aLeft, const WSType& aRight);
WSType& operator=(const WSType& aOther)
{
// This handles self-assignment fine
mEnum = aOther.mEnum;
return *this;
}
WSType& operator&=(const WSType& aOther)
{
mEnum &= aOther.mEnum;
return *this;
}
WSType& operator|=(const WSType& aOther)
{
mEnum |= aOther.mEnum;
return *this;
}
private:
uint16_t mEnum;
void bool_conversion_helper() {}
public:
// Allow boolean conversion with no numeric conversion
typedef void (WSType::*bool_type)();
operator bool_type() const
{
return mEnum ? &WSType::bool_conversion_helper : nullptr;
}
};
/**
* These are declared as global functions so "WSType::Enum == WSType" et al.
* will work using the implicit constructor.
*/
inline bool operator==(const WSType& aLeft, const WSType& aRight)
{
return aLeft.mEnum == aRight.mEnum;
}
inline bool operator!=(const WSType& aLeft, const WSType& aRight)
{
return !(aLeft == aRight);
}
inline const WSType operator&(const WSType& aLeft, const WSType& aRight)
{
WSType ret;
ret.mEnum = aLeft.mEnum & aRight.mEnum;
return ret;
}
inline const WSType operator|(const WSType& aLeft, const WSType& aRight)
{
WSType ret;
ret.mEnum = aLeft.mEnum | aRight.mEnum;
return ret;
}
/**
* Make sure that & and | of WSType::Enum creates a WSType instead of an int,
* because operators between WSType and int shouldn't work
*/
inline const WSType operator&(const WSType::Enum& aLeft,
const WSType::Enum& aRight)
{
return WSType(aLeft) & WSType(aRight);
}
inline const WSType operator|(const WSType::Enum& aLeft,
const WSType::Enum& aRight)
{
return WSType(aLeft) | WSType(aRight);
}
class MOZ_STACK_CLASS WSRunObject final
{
public:
enum BlockBoundary
{
kBeforeBlock,
kBlockStart,
kBlockEnd,
kAfterBlock
};
enum {eBefore = 1};
enum {eAfter = 1 << 1};
enum {eBoth = eBefore | eAfter};
WSRunObject(HTMLEditor* aHTMLEditor, nsINode* aNode, int32_t aOffset);
WSRunObject(HTMLEditor* aHTMLEditor, nsIDOMNode* aNode, int32_t aOffset);
~WSRunObject();
// ScrubBlockBoundary removes any non-visible whitespace at the specified
// location relative to a block node.
static nsresult ScrubBlockBoundary(HTMLEditor* aHTMLEditor,
BlockBoundary aBoundary,
nsINode* aBlock,
int32_t aOffset = -1);
// PrepareToJoinBlocks fixes up ws at the end of aLeftBlock and the
// beginning of aRightBlock in preperation for them to be joined. Example
// of fixup: trailingws in aLeftBlock needs to be removed.
static nsresult PrepareToJoinBlocks(HTMLEditor* aHTMLEditor,
dom::Element* aLeftBlock,
dom::Element* aRightBlock);
// PrepareToDeleteRange fixes up ws before {aStartNode,aStartOffset}
// and after {aEndNode,aEndOffset} in preperation for content
// in that range to be deleted. Note that the nodes and offsets
// are adjusted in response to any dom changes we make while
// adjusting ws.
// example of fixup: trailingws before {aStartNode,aStartOffset}
// needs to be removed.
static nsresult PrepareToDeleteRange(HTMLEditor* aHTMLEditor,
nsCOMPtr<nsINode>* aStartNode,
int32_t* aStartOffset,
nsCOMPtr<nsINode>* aEndNode,
int32_t* aEndOffset);
// PrepareToDeleteNode fixes up ws before and after aContent in preparation
// for aContent to be deleted. Example of fixup: trailingws before
// aContent needs to be removed.
static nsresult PrepareToDeleteNode(HTMLEditor* aHTMLEditor,
nsIContent* aContent);
// PrepareToSplitAcrossBlocks fixes up ws before and after
// {aSplitNode,aSplitOffset} in preparation for a block parent to be split.
// Note that the aSplitNode and aSplitOffset are adjusted in response to
// any DOM changes we make while adjusting ws. Example of fixup: normalws
// before {aSplitNode,aSplitOffset} needs to end with nbsp.
static nsresult PrepareToSplitAcrossBlocks(HTMLEditor* aHTMLEditor,
nsCOMPtr<nsINode>* aSplitNode,
int32_t* aSplitOffset);
// InsertBreak inserts a br node at {aInOutParent,aInOutOffset}
// and makes any needed adjustments to ws around that point.
// example of fixup: normalws after {aInOutParent,aInOutOffset}
// needs to begin with nbsp.
already_AddRefed<dom::Element> InsertBreak(nsCOMPtr<nsINode>* aInOutParent,
int32_t* aInOutOffset,
nsIEditor::EDirection aSelect);
// InsertText inserts a string at {aInOutParent,aInOutOffset} and makes any
// needed adjustments to ws around that point. Example of fixup:
// trailingws before {aInOutParent,aInOutOffset} needs to be removed.
nsresult InsertText(const nsAString& aStringToInsert,
nsCOMPtr<nsINode>* aInOutNode,
int32_t* aInOutOffset,
nsIDocument* aDoc);
// DeleteWSBackward deletes a single visible piece of ws before the ws
// point (the point to create the wsRunObject, passed to its constructor).
// It makes any needed conversion to adjacent ws to retain its
// significance.
nsresult DeleteWSBackward();
// DeleteWSForward deletes a single visible piece of ws after the ws point
// (the point to create the wsRunObject, passed to its constructor). It
// makes any needed conversion to adjacent ws to retain its significance.
nsresult DeleteWSForward();
// PriorVisibleNode returns the first piece of visible thing before
// {aNode,aOffset}. If there is no visible ws qualifying it returns what
// is before the ws run. Note that {outVisNode,outVisOffset} is set to
// just AFTER the visible object.
void PriorVisibleNode(nsINode* aNode,
int32_t aOffset,
nsCOMPtr<nsINode>* outVisNode,
int32_t* outVisOffset,
WSType* outType);
// NextVisibleNode returns the first piece of visible thing after
// {aNode,aOffset}. If there is no visible ws qualifying it returns what
// is after the ws run. Note that {outVisNode,outVisOffset} is set to just
// BEFORE the visible object.
void NextVisibleNode(nsINode* aNode,
int32_t aOffset,
nsCOMPtr<nsINode>* outVisNode,
int32_t* outVisOffset,
WSType* outType);
// AdjustWhitespace examines the ws object for nbsp's that can
// be safely converted to regular ascii space and converts them.
nsresult AdjustWhitespace();
protected:
// WSFragment represents a single run of ws (all leadingws, or all normalws,
// or all trailingws, or all leading+trailingws). Note that this single run
// may still span multiple nodes.
struct WSFragment final
{
nsCOMPtr<nsINode> mStartNode; // node where ws run starts
nsCOMPtr<nsINode> mEndNode; // node where ws run ends
int32_t mStartOffset; // offset where ws run starts
int32_t mEndOffset; // offset where ws run ends
// type of ws, and what is to left and right of it
WSType mType, mLeftType, mRightType;
// other ws runs to left or right. may be null.
WSFragment *mLeft, *mRight;
WSFragment()
: mStartOffset(0)
, mEndOffset(0)
, mLeft(nullptr)
, mRight(nullptr)
{}
};
// A WSPoint struct represents a unique location within the ws run. It is
// always within a textnode that is one of the nodes stored in the list
// in the wsRunObject. For convenience, the character at that point is also
// stored in the struct.
struct MOZ_STACK_CLASS WSPoint final
{
RefPtr<dom::Text> mTextNode;
uint32_t mOffset;
char16_t mChar;
WSPoint()
: mTextNode(0)
, mOffset(0)
, mChar(0)
{}
WSPoint(dom::Text* aTextNode, int32_t aOffset, char16_t aChar)
: mTextNode(aTextNode)
, mOffset(aOffset)
, mChar(aChar)
{}
};
enum AreaRestriction
{
eAnywhere, eOutsideUserSelectAll
};
/**
* Return the node which we will handle white-space under. This is the
* closest block within the DOM subtree we're editing, or if none is
* found, the (inline) root of the editable subtree.
*/
nsINode* GetWSBoundingParent();
nsresult GetWSNodes();
void GetRuns();
void ClearRuns();
void MakeSingleWSRun(WSType aType);
nsIContent* GetPreviousWSNodeInner(nsINode* aStartNode,
nsINode* aBlockParent);
nsIContent* GetPreviousWSNode(EditorDOMPoint aPoint, nsINode* aBlockParent);
nsIContent* GetNextWSNodeInner(nsINode* aStartNode, nsINode* aBlockParent);
nsIContent* GetNextWSNode(EditorDOMPoint aPoint, nsINode* aBlockParent);
nsresult PrepareToDeleteRangePriv(WSRunObject* aEndObject);
nsresult PrepareToSplitAcrossBlocksPriv();
nsresult DeleteChars(nsINode* aStartNode, int32_t aStartOffset,
nsINode* aEndNode, int32_t aEndOffset,
AreaRestriction aAR = eAnywhere);
WSPoint GetCharAfter(nsINode* aNode, int32_t aOffset);
WSPoint GetCharBefore(nsINode* aNode, int32_t aOffset);
WSPoint GetCharAfter(const WSPoint& aPoint);
WSPoint GetCharBefore(const WSPoint& aPoint);
nsresult ConvertToNBSP(WSPoint aPoint,
AreaRestriction aAR = eAnywhere);
void GetAsciiWSBounds(int16_t aDir, nsINode* aNode, int32_t aOffset,
dom::Text** outStartNode, int32_t* outStartOffset,
dom::Text** outEndNode, int32_t* outEndOffset);
void FindRun(nsINode* aNode, int32_t aOffset, WSFragment** outRun,
bool after);
char16_t GetCharAt(dom::Text* aTextNode, int32_t aOffset);
WSPoint GetWSPointAfter(nsINode* aNode, int32_t aOffset);
WSPoint GetWSPointBefore(nsINode* aNode, int32_t aOffset);
nsresult CheckTrailingNBSPOfRun(WSFragment *aRun);
nsresult CheckTrailingNBSP(WSFragment* aRun, nsINode* aNode,
int32_t aOffset);
nsresult CheckLeadingNBSP(WSFragment* aRun, nsINode* aNode,
int32_t aOffset);
nsresult Scrub();
bool IsBlockNode(nsINode* aNode);
// The node passed to our constructor.
nsCOMPtr<nsINode> mNode;
// The offset passed to our contructor.
int32_t mOffset;
// Together, the above represent the point at which we are building up ws info.
// true if we are in preformatted whitespace context.
bool mPRE;
// Node/offset where ws starts.
nsCOMPtr<nsINode> mStartNode;
int32_t mStartOffset;
// Reason why ws starts (eText, eOtherBlock, etc.).
WSType mStartReason;
// The node that implicated by start reason.
nsCOMPtr<nsINode> mStartReasonNode;
// Node/offset where ws ends.
nsCOMPtr<nsINode> mEndNode;
int32_t mEndOffset;
// Reason why ws ends (eText, eOtherBlock, etc.).
WSType mEndReason;
// The node that implicated by end reason.
nsCOMPtr<nsINode> mEndReasonNode;
// Location of first nbsp in ws run, if any.
RefPtr<dom::Text> mFirstNBSPNode;
int32_t mFirstNBSPOffset;
// Location of last nbsp in ws run, if any.
RefPtr<dom::Text> mLastNBSPNode;
int32_t mLastNBSPOffset;
// The list of nodes containing ws in this run.
nsTArray<RefPtr<dom::Text>> mNodeArray;
// The first WSFragment in the run.
WSFragment* mStartRun;
// The last WSFragment in the run, may be same as first.
WSFragment* mEndRun;
// Non-owning.
HTMLEditor* mHTMLEditor;
// Opening this class up for pillaging.
friend class HTMLEditRules;
// Opening this class up for more pillaging.
friend class HTMLEditor;
};
} // namespace mozilla
#endif // #ifndef WSRunObject_h