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CellBuffer.h - Hosted on DriveHQ Cloud IT Platform
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Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\scintilla\src\CellBuffer.h
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// Scintilla source code edit control /** @file CellBuffer.h ** Manages the text of the document. **/ // Copyright 1998-2004 by Neil Hodgson
// The License.txt file describes the conditions under which this software may be distributed. #ifndef CELLBUFFER_H #define CELLBUFFER_H #ifdef SCI_NAMESPACE namespace Scintilla { #endif /** * This holds the marker identifier and the marker type to display. * MarkerHandleNumbers are members of lists. */ struct MarkerHandleNumber { int handle; int number; MarkerHandleNumber *next; }; /** * A marker handle set contains any number of MarkerHandleNumbers. */ class MarkerHandleSet { MarkerHandleNumber *root; public: MarkerHandleSet(); ~MarkerHandleSet(); int Length() const; int NumberFromHandle(int handle) const; int MarkValue() const; ///< Bit set of marker numbers. bool Contains(int handle) const; bool InsertHandle(int handle, int markerNum); void RemoveHandle(int handle); bool RemoveNumber(int markerNum); void CombineWith(MarkerHandleSet *other); }; /** * The line vector contains information about each of the lines in a cell buffer. */ class LineVector { Partitioning starts; SplitVector
markers; SplitVector
levels; /// Handles are allocated sequentially and should never have to be reused as 32 bit ints are very big. int handleCurrent; public: LineVector(); ~LineVector(); void Init(); void ExpandLevels(int sizeNew=-1); void ClearLevels(); int SetLevel(int line, int level); int GetLevel(int line); void InsertText(int line, int delta); void InsertLine(int line, int position); void SetLineStart(int line, int position); void RemoveLine(int line); int Lines() const { return starts.Partitions(); } int LineFromPosition(int pos); int LineStart(int line) const { return starts.PositionFromPartition(line); } int MarkValue(int line); int AddMark(int line, int marker); void MergeMarkers(int pos); void DeleteMark(int line, int markerNum, bool all); void DeleteMarkFromHandle(int markerHandle); int LineFromHandle(int markerHandle); }; enum actionType { insertAction, removeAction, startAction }; /** * Actions are used to store all the information required to perform one undo/redo step. */ class Action { public: actionType at; int position; char *data; int lenData; bool mayCoalesce; Action(); ~Action(); void Create(actionType at_, int position_=0, char *data_=0, int lenData_=0, bool mayCoalesce_=true); void Destroy(); void Grab(Action *source); }; /** * */ class UndoHistory { Action *actions; int lenActions; int maxAction; int currentAction; int undoSequenceDepth; int savePoint; void EnsureUndoRoom(); public: UndoHistory(); ~UndoHistory(); void AppendAction(actionType at, int position, char *data, int length, bool &startSequence); void BeginUndoAction(); void EndUndoAction(); void DropUndoSequence(); void DeleteUndoHistory(); /// The save point is a marker in the undo stack where the container has stated that /// the buffer was saved. Undo and redo can move over the save point. void SetSavePoint(); bool IsSavePoint() const; /// To perform an undo, StartUndo is called to retrieve the number of steps, then UndoStep is /// called that many times. Similarly for redo. bool CanUndo() const; int StartUndo(); const Action &GetUndoStep() const; void CompletedUndoStep(); bool CanRedo() const; int StartRedo(); const Action &GetRedoStep() const; void CompletedRedoStep(); }; /** * Holder for an expandable array of characters that supports undo and line markers. * Based on article "Data Structures in a Bit-Mapped Text Editor" * by Wilfred J. Hansen, Byte January 1987, page 183. */ class CellBuffer { private: SplitVector
substance; SplitVector
style; bool readOnly; bool collectingUndo; UndoHistory uh; LineVector lv; SplitVector
lineStates; public: CellBuffer(); ~CellBuffer(); /// Retrieving positions outside the range of the buffer works and returns 0 char CharAt(int position) const; void GetCharRange(char *buffer, int position, int lengthRetrieve); char StyleAt(int position); int Length() const; void Allocate(int newSize); int Lines() const; int LineStart(int line) const; int LineFromPosition(int pos) { return lv.LineFromPosition(pos); } void InsertLine(int line, int position); void RemoveLine(int line); const char *InsertString(int position, const char *s, int insertLength, bool &startSequence); /// Setting styles for positions outside the range of the buffer is safe and has no effect. /// @return true if the style of a character is changed. bool SetStyleAt(int position, char styleValue, char mask='\377'); bool SetStyleFor(int position, int length, char styleValue, char mask); const char *DeleteChars(int position, int deleteLength, bool &startSequence); bool IsReadOnly(); void SetReadOnly(bool set); /// The save point is a marker in the undo stack where the container has stated that /// the buffer was saved. Undo and redo can move over the save point. void SetSavePoint(); bool IsSavePoint(); /// Line marker functions int AddMark(int line, int markerNum); void DeleteMark(int line, int markerNum); void DeleteMarkFromHandle(int markerHandle); int GetMark(int line); void DeleteAllMarks(int markerNum); int LineFromHandle(int markerHandle); /// Actions without undo void BasicInsertString(int position, const char *s, int insertLength); void BasicDeleteChars(int position, int deleteLength); bool SetUndoCollection(bool collectUndo); bool IsCollectingUndo(); void BeginUndoAction(); void EndUndoAction(); void DeleteUndoHistory(); /// To perform an undo, StartUndo is called to retrieve the number of steps, then UndoStep is /// called that many times. Similarly for redo. bool CanUndo(); int StartUndo(); const Action &GetUndoStep() const; void PerformUndoStep(); bool CanRedo(); int StartRedo(); const Action &GetRedoStep() const; void PerformRedoStep(); int SetLineState(int line, int state); int GetLineState(int line); int GetMaxLineState(); int SetLevel(int line, int level); int GetLevel(int line); void ClearLevels(); }; #ifdef SCI_NAMESPACE } #endif #endif
CellBuffer.h
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