154 lines
5.2 KiB
C++
154 lines
5.2 KiB
C++
/* --------------------------------------------------------------------
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Microsoft OS/2 LAN Manager
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Copyright(c) Microsoft Corp., 1990
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RPC - Written by Dov Harel
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This file contains the definition for splay tree self
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adjusting binary trees
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-------------------------------------------------------------------- */
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#ifndef __DICT_HXX__
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#define __DICT_HXX__
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#if 0
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#include "objidl.h"
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#include "common.h"
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#endif // 0
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extern "C"
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{
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#include "string.h"
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}
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#ifndef Nil
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#define Nil 0
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#endif
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#ifndef DICT_MYSPLAY
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#define VIRT_SPLAY
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#else
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#define VIRT_SPLAY virtual
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#endif
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typedef void * pUserType;
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class TreeNode {
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public:
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TreeNode *left; /* left child pointer */
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TreeNode *right; /* right child pointer */
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pUserType item; /* pointer to some structure */
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TreeNode(pUserType itemI)
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{
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left = right = Nil;
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item = itemI;
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}
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};
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typedef int (* CompareFN)(pUserType, pUserType);
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typedef void (* PrintFN)(pUserType);
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typedef enum {
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SUCCESS,
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ITEM_ALREADY_PRESENT,
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ITEM_NOT_FOUND,
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FIRST_ITEM,
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LAST_ITEM,
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EMPTY_DICTIONARY,
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NULL_ITEM
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} Dict_Status;
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class Dictionary {
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TreeNode * root; // pointer to the root of a SAT
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long fCompare; // value of last compare
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pUserType itemCur; // the current item
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long size; // number of records in dictionary/
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public:
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Dictionary()
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{
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root = Nil;
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size = 0;
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}
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long SplayUserType(pUserType);
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// default comparison is (signed) comparison of pointers to entries
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virtual
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int Compare (pUserType p1, pUserType p2)
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{
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long l1 = (long)p1;
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long l2 = (long)p2;
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return l1 - l2;
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}
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virtual
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void Print(pUserType pItem)
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{
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}
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pUserType Dict_Curr_Item ()
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{ // return the top of the tree
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return ((root)? root->item: Nil);
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}
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pUserType Dict_Item ()
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{ // return item from Find/Next/Prev methods
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return (itemCur);
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}
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long Dict_Empty ()
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{ // Is the tree empty
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return (root == Nil);
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}
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// internal print routine
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void PrinTree( int lmargin, TreeNode *np );
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// printout the tree, requires print function
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void Dict_Print(long indent = 1);
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Dict_Status Dict_Find(pUserType); // Item searched for
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Dict_Status Dict_Init() // First item of a Type
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{
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return Dict_Next( (pUserType) 0 );
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}
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Dict_Status Dict_Next(pUserType = Nil); // Next item of a Type
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Dict_Status Dict_Prev(pUserType = Nil); // Previous item of a Type
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Dict_Status Dict_Insert(pUserType); // Add a new item to the tree
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Dict_Status Dict_Delete(pUserType *); // Delete an item form the tree
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// returns the item just deleted
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pUserType Dict_Delete_One(); // Delete any convenient node from the tree
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// and return the deleted node
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Dict_Status Dict_Discard() // Delete the dictionary ( but not the user items )
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{
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while ( Dict_Delete_One() )
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;
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return EMPTY_DICTIONARY;
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}
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};
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// dictionary of strings ( compare function compares strings )
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class STRING_DICT : public Dictionary
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{
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public:
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virtual
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int Compare (pUserType p1, pUserType p2)
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{
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return strcmp( (char *)p1, (char *)p2 );
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}
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};
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#endif // __DICT_HXX__
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