/* ********************************************************************** * Copyright (C) 1998-2004, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** */ #ifndef __LEINSERTIONLIST_H #define __LEINSERTIONLIST_H #include "LETypes.h" U_NAMESPACE_BEGIN struct InsertionRecord; /** * This class encapsulates the callback used by LEInsertionList * to apply an insertion from the insertion list. * * @internal */ class LEInsertionCallback { public: /** * This method will be called by LEInsertionList::applyInsertions for each * entry on the insertion list. * * @param atPosition the position of the insertion * @param count the number of glyphs to insert * @param newGlyphs the address of the glyphs to insert * * @return TRUE if LEInsertions::applyInsertions should * stop after applying this insertion. * * @internal */ virtual le_bool applyInsertion(le_int32 atPosition, le_int32 count, LEGlyphID newGlyphs[]) = 0; }; /** * This class is used to keep track of insertions to an array of * LEGlyphIDs. The insertions are kept on a linked * list of InsertionRecords so that the glyph array * doesn't have to be grown for each insertion. The insertions are * stored on the list from leftmost to rightmost to make it easier * to do the insertions. * * The insertions are applied to the array by calling the * applyInsertions method, which calls a client * supplied LEInsertionCallback object to actually * apply the individual insertions. * * @internal */ class LEInsertionList : public UObject { public: /** * Construct an empty insertion list. * * @param rightToLeft TRUE if the glyphs are stored * in the array in right to left order. * * @internal */ LEInsertionList(le_bool rightToLeft); /** * The destructor. */ ~LEInsertionList(); /** * Add an entry to the insertion list. * * @param position the glyph at this position in the array will be * replaced by the new glyphs. * @param count the number of new glyphs * * @return the address of an array in which to store the new glyphs. This will * not be in the glyph array. * * @internal */ LEGlyphID *insert(le_int32 position, le_int32 count); /** * Return the number of new glyphs that have been inserted. * * @return the number of new glyphs which have been inserted * * @internal */ le_int32 getGrowAmount(); /** * Call the LEInsertionCallback once for each * entry on the insertion list. * * @param callback the LEInsertionCallback to call for each insertion. * * @return TRUE if callback returned TRUE to * terminate the insertion list processing. * * @internal */ le_bool applyInsertions(LEInsertionCallback *callback); /** * Empty the insertion list and free all associated * storage. * * @internal */ void reset(); /** * ICU "poor man's RTTI", returns a UClassID for the actual class. * * @stable ICU 2.8 */ virtual UClassID getDynamicClassID() const; /** * ICU "poor man's RTTI", returns a UClassID for this class. * * @stable ICU 2.8 */ static UClassID getStaticClassID(); private: /** * The head of the insertion list. * * @internal */ InsertionRecord *head; /** * The tail of the insertion list. * * @internal */ InsertionRecord *tail; /** * The total number of new glyphs on the insertion list. * * @internal */ le_int32 growAmount; /** * Set to TRUE if the glyphs are in right * to left order. Since we want the rightmost insertion * to be first on the list, we need to append the * insertions in this case. Otherwise they're prepended. * * @internal */ le_bool append; }; U_NAMESPACE_END #endif