//+------------------------------------------------------------------------- // // Microsoft Windows // // Copyright (C) Microsoft Corporation, 1990 - 1999 // // File: sdict.cxx // //-------------------------------------------------------------------------- /* -------------------------------------------------------------------- File : sdict.cxx Title : A simple dictionary. Description : History : mikemon ??-??-?? Beginning of time. mikemon 10-30-90 Fixed the dictionary size. -------------------------------------------------------------------- */ #include SIMPLE_DICT::SIMPLE_DICT() { ALLOCATE_THIS(SIMPLE_DICT); cDictSize = 0; cDictSlots = INITIALDICTSLOTS; DictSlots = InitialDictSlots; memset(DictSlots, 0, sizeof(void *) * cDictSlots); } SIMPLE_DICT::~SIMPLE_DICT() { if (DictSlots != InitialDictSlots) delete DictSlots; } int SIMPLE_DICT::Insert ( void *Item ) { int iDictSlots; BOOL Res; for (iDictSlots = 0; iDictSlots < cDictSlots; iDictSlots++) if (DictSlots[iDictSlots] == Nil) { DictSlots[iDictSlots] = Item; cDictSize += 1; return(iDictSlots); } // If we fell through to here, it must mean that the dictionary is // full; hence we need to allocate more space and copy the old // dictionary into it. Res = ExpandToSize(cDictSlots * 2); if (!Res) return (-1); DictSlots[iDictSlots] = Item; cDictSize += 1; return(iDictSlots); } void * SIMPLE_DICT::DeleteItemByBruteForce( void * Item ) { if (Item == 0) { return (0); } for (int i = 0; i < cDictSlots; i++) { if (DictSlots[i] == Item) { DictSlots[i] = Nil; cDictSize -= 1; return (Item); } } return (0); } void * SIMPLE_DICT::Delete ( int Key ) { void *Item; if (Key >= cDictSlots) { return(Nil); } Item = DictSlots[Key]; ASSERT((DictSlots[Key])); cDictSize -= 1; DictSlots[Key] = Nil; return(Item); } int SIMPLE_DICT::ExpandToSize ( int Size ) { void * * NewDictSlots; if (Size <= cDictSlots) return cDictSlots; // cDictSlots is simply a quick non-zero value NewDictSlots = (void * *) new char[sizeof(void *) * Size]; if (!NewDictSlots) return(0); RpcpMemoryCopy(NewDictSlots, DictSlots, sizeof(void *) * cDictSlots); RpcpMemorySet(NewDictSlots + cDictSlots, 0, sizeof(void *) * (Size - cDictSlots)); if (DictSlots != InitialDictSlots) delete DictSlots; DictSlots = NewDictSlots; cDictSlots = Size; return cDictSlots; // cDictSlots is simply a quick non-zero value } void SIMPLE_DICT::DeleteAll ( void ) { RpcpMemorySet(DictSlots, 0, cDictSlots * sizeof(void *)); } void * SIMPLE_DICT::Next (DictionaryCursor &cursor ) { for ( ; cursor < cDictSlots; cursor++) { if (DictSlots[cursor]) return(DictSlots[cursor++]); } cursor = Nil; return(Nil); } void *SIMPLE_DICT::RemoveNext(DictionaryCursor &cursor) { for ( ; cursor < cDictSlots; cursor++) { if (DictSlots[cursor]) { void *Item = DictSlots[cursor]; cDictSize -= 1; DictSlots[cursor] = Nil; cursor++; return(Item); } } cursor = Nil; return(Nil); } void *SIMPLE_DICT::NextWithKey (DictionaryCursor &cursor, int *Key) { for ( ; cursor < cDictSlots; cursor++) { if (DictSlots[cursor]) { *Key = cursor; return(DictSlots[cursor++]); } } cursor = Nil; return(Nil); }