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/* This file is part of the KDE libraries
Copyright (C) 2003 Hamish Rodda <[email protected]>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License version 2 as published by the Free Software Foundation.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#ifndef KATESUPERCURSOR_H
#define KATESUPERCURSOR_H
#include "katecursor.h"
class KateDocument;
class KateView;
/**
* Possible additional features:
* - Notification when a cursor enters or exits a view
* - suggest something :)
*
* Unresolved issues:
* - testing, testing, testing
* - ie. everything which hasn't already been tested, you can see that which has inside the #ifdefs
* - api niceness
*/
/**
* A cursor which updates and gives off various interesting signals.
*
* This aims to be a working version of what KateCursor was originally intended to be.
*
* @author Hamish Rodda
**/
class KateSuperCursor : public TQObject, public KateDocCursor, public Kate::Cursor
{
TQ_OBJECT
public:
/**
* bool privateC says: if private, than don't show to apps using the cursorinterface in the list,
* all internally only used SuperCursors should be private or people could modify them from the
* outside breaking kate's internals
*/
KateSuperCursor(KateDocument* doc, bool privateC, const KateTextCursor& cursor, TQObject* parent = 0L, const char* name = 0L);
KateSuperCursor(KateDocument* doc, bool privateC, int lineNum = 0, int col = 0, TQObject* parent = 0L, const char* name = 0L);
~KateSuperCursor ();
public:
// KTextEditor::Cursor interface
void position(uint *line, uint *col) const;
bool setPosition(uint line, uint col);
bool insertText(const TQString& text);
bool removeText(uint numberOfCharacters);
TQChar currentChar() const;
/**
* @returns true if the cursor is situated at the start of the line, false if it isn't.
*/
bool atStartOfLine() const;
/**
* @returns true if the cursor is situated at the end of the line, false if it isn't.
*/
bool atEndOfLine() const;
/**
* Returns how this cursor behaves when text is inserted at the cursor.
* Defaults to not moving on insert.
*/
bool moveOnInsert() const;
/**
* Change the behavior of the cursor when text is inserted at the cursor.
*
* If @p moveOnInsert is true, the cursor will end up at the end of the insert.
*/
void setMoveOnInsert(bool moveOnInsert);
/**
* Debug: output the position.
*/
operator TQString();
// Reimplementations;
virtual void setLine(int lineNum);
virtual void setCol(int colNum);
virtual void setPos(const KateTextCursor& pos);
virtual void setPos(int lineNum, int colNum);
signals:
/**
* The cursor's position was directly changed by the program.
*/
void positionDirectlyChanged();
/**
* The cursor's position was changed.
*/
void positionChanged();
/**
* Athough an edit took place, the cursor's position was unchanged.
*/
void positionUnChanged();
/**
* The cursor's surrounding characters were both deleted simultaneously.
* The cursor is automatically placed at the start of the deleted region.
*/
void positionDeleted();
/**
* A character was inserted immediately before the cursor.
*
* Whether the char was inserted before or after this cursor depends on
* moveOnInsert():
* @li true -> the char was inserted before
* @li false -> the char was inserted after
*/
void charInsertedAt();
/**
* The character immediately before the cursor was deleted.
*/
void charDeletedBefore();
/**
* The character immediately after the cursor was deleted.
*/
void charDeletedAfter();
//BEGIN METHODES TO CALL FROM KATE DOCUMENT TO KEEP CURSOR UP TO DATE
public:
void editTextInserted ( uint line, uint col, uint len);
void editTextRemoved ( uint line, uint col, uint len);
void editLineWrapped ( uint line, uint col, bool newLine = true );
void editLineUnWrapped ( uint line, uint col, bool removeLine = true, uint length = 0 );
void editLineInserted ( uint line );
void editLineRemoved ( uint line );
//END
private:
KateDocument *m_doc;
bool m_moveOnInsert : 1;
bool m_lineRemoved : 1;
bool m_privateCursor : 1;
};
/**
* Represents a range of text, from the start() to the end().
*
* Also tracks its position and emits useful signals.
*/
class KateSuperRange : public TQObject, public KateRange
{
friend class KateSuperRangeList;
TQ_OBJECT
public:
/// Determine how the range reacts to characters inserted immediately outside the range.
enum InsertBehaviour {
/// Don't expand to encapsulate new characters in either direction. This is the default.
DoNotExpand = 0,
/// Expand to encapsulate new characters to the left of the range.
ExpandLeft = 0x1,
/// Expand to encapsulate new characters to the right of the range.
ExpandRight = 0x2
};
/**
* Constructor. Takes posession of @p start and @p end.
*/
KateSuperRange(KateSuperCursor* start, KateSuperCursor* end, TQObject* parent = 0L, const char* name = 0L);
KateSuperRange(KateDocument* doc, const KateRange& range, TQObject* parent = 0L, const char* name = 0L);
KateSuperRange(KateDocument* doc, const KateTextCursor& start, const KateTextCursor& end, TQObject* parent = 0L, const char* name = 0L);
virtual ~KateSuperRange();
// fulfill KateRange requirements
virtual KateTextCursor& start();
virtual KateTextCursor& end();
virtual const KateTextCursor& start() const;
virtual const KateTextCursor& end() const;
void allowZeroLength(bool yes=true){m_allowZeroLength=yes;}
/**
* Returns the super start cursor.
*/
KateSuperCursor& superStart();
const KateSuperCursor& superStart() const;
/**
* Returns the super end cursor.
*/
KateSuperCursor& superEnd();
const KateSuperCursor& superEnd() const;
/**
* Returns how this range reacts to characters inserted immediately outside the range.
*/
int behaviour() const;
/**
* Determine how the range should react to characters inserted immediately outside the range.
*
* TODO does this need a custom function to enable determining of the behavior based on the
* text that is inserted / deleted?
*
* @sa InsertBehaviour
*/
void setBehaviour(int behaviour);
/**
* Start and end must be valid and start <= end.
*/
virtual bool isValid() const;
/**
* This is for use where the ranges are used in a heirachy,
* ie. their parents are KateSuperRanges which completely
* encapsulate them.
*
* @todo constrain children when their position changes deliberately;
* eliminate() children when they are equivalent to their parents
*
* @returns true if the range contains the cursor and no children
* also contain it; false otherwise.
*/
bool owns(const KateTextCursor& cursor) const;
/**
* Returns true if the range includes @p cursor 's character.
* Returns false if @p cursor == end().
*/
bool includes(const KateTextCursor& cursor) const;
/**
* Returns true if the range includes @p line
*/
bool includes(uint lineNum) const;
/**
* Returns true if the range totally encompasses @p line
*/
bool includesWholeLine(uint lineNum) const;
/**
* Returns whether @p cursor is the site of a boundary of this range.
*/
bool boundaryAt(const KateTextCursor& cursor) const;
/**
* Returns whether there is a boundary of this range on @p line.
*/
bool boundaryOn(uint lineNum) const;
signals:
/**
* More interesting signals that aren't worth implementing here:
* firstCharDeleted: start()::charDeleted()
* lastCharDeleted: end()::previousCharDeleted()
*/
/**
* The range's position changed.
*/
void positionChanged();
/**
* The range's position was unchanged.
*/
void positionUnChanged();
/**
* The contents of the range changed.
*/
void contentsChanged();
/**
* Either cursor's surrounding characters were both deleted.
*/
void boundaryDeleted();
/**
* The range now contains no characters (ie. the start and end cursors are the same).
*
* To eliminate this range under different conditions, connect the other signal directly
* to this signal.
*/
void eliminated();
/**
* Indicates the region needs re-drawing.
*/
void tagRange(KateSuperRange* range);
public slots:
void slotTagRange();
private slots:
void slotEvaluateChanged();
void slotEvaluateUnChanged();
private:
void init();
void evaluateEliminated();
void evaluatePositionChanged();
KateSuperCursor* m_start;
KateSuperCursor* m_end;
bool m_evaluate;
bool m_startChanged;
bool m_endChanged;
bool m_deleteCursors;
bool m_allowZeroLength;
};
class KateSuperCursorList : public TQPtrList<KateSuperCursor>
{
protected:
virtual int compareItems(TQPtrCollection::Item item1, TQPtrCollection::Item item2);
};
class KateSuperRangeList : public TQObject, public TQPtrList<KateSuperRange>
{
TQ_OBJECT
public:
/**
* @sa autoManage()
*/
KateSuperRangeList(bool autoManage = true, TQObject* parent = 0L, const char* name = 0L);
/**
* Semi-copy constructor.
*
* Does not copy auto-manage value, as that would make it too easy to perform
* double-deletions.
*
* Also, does not connect signals and slots to save time, as this is mainly
* used by the document itself while drawing (call connectAll() to re-constitute)
*/
KateSuperRangeList(const TQPtrList<KateSuperRange>& rangeList, TQObject* parent = 0L, const char* name = 0L);
virtual ~KateSuperRangeList() {}
/**
* Append another list.
* If this object was created by the semi-copy constructor, it may not connect items
* (unless connectAll() has already been called), call connectAll().
*/
void appendList(const TQPtrList<KateSuperRange>& rangeList);
/**
* Connect items that are not connected. This only needs to be called once,
* and only if this was created with the semi-copy constructor.
*/
void connectAll();
/**
* Override to emit rangeEliminated() signals.
*/
virtual void clear();
/**
* Automanage is a combination of autodeleting of the objects and
* removing of any eliminated() ranges.
*/
bool autoManage() const;
/**
* @sa autoManage()
*/
void setAutoManage(bool autoManage);
/**
* This is just a straight-forward list so that there is no confusion about whether
* this list should be auto-managed (ie. it shouldn't, to avoid double deletions).
*/
TQPtrList<KateSuperRange> rangesIncluding(const KateTextCursor& cursor);
TQPtrList<KateSuperRange> rangesIncluding(uint line);
/**
* @retval true if one of the ranges in the list includes @p cursor
* @retval false otherwise
*/
bool rangesInclude(const KateTextCursor& cursor);
/**
* Construct a list of boundaries, and return the first, or 0L if there are none.
* If @p start is defined, the first boundary returned will be at or after @p start.
*
* @returns the first boundary location
*/
KateSuperCursor* firstBoundary(const KateTextCursor* start = 0L);
/**
* @returns the next boundary, or 0L if there are no more.
*/
KateSuperCursor* nextBoundary();
/**
* @returns the current boundary
*/
KateSuperCursor* currentBoundary();
signals:
/**
* The range now contains no characters (ie. the start and end cursors are the same).
* If autoManage() is true, the range will be deleted after the signal has processed.
*/
void rangeEliminated(KateSuperRange* range);
/**
* There are no ranges left.
*/
void listEmpty();
/**
* Connected to all ranges if connect()ed.
*/
void tagRange(KateSuperRange* range);
protected:
/**
* internal reimplementation
*/
virtual int compareItems(TQPtrCollection::Item item1, TQPtrCollection::Item item2);
/**
* internal reimplementation
*/
virtual TQPtrCollection::Item newItem(TQPtrCollection::Item d);
private slots:
void slotEliminated();
void slotDeleted(TQObject* range);
private:
bool m_autoManage;
bool m_connect;
KateSuperCursorList m_columnBoundaries;
bool m_trackingBoundaries;
};
#endif
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