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286 lines
6.5 KiB
286 lines
6.5 KiB
/*
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* @doc INTERNAL
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*
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* @module HASH.C -- RTF control word cache |
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* #ifdef'ed with RTF_HASHCACHE
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*
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* Owner: <nl>
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* Jon Matousek <nl>
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*
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* History: <nl>
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* 8/15/95 jonmat first hash-cache for RTF using Brent's Method.
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*/
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#include "_common.h"
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#ifdef RTF_HASHCACHE
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#include "hash.h"
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ASSERTDATA
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extern KEYWORD rgKeyword[]; // All of the RTF control words.
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#define MAX_INAME 3
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typedef struct {
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const KEYWORD *token;
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BOOL passBit;
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} HashEntry;
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static HashEntry *(hashtbl[HASHSIZE]);
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static HashEntry *storage; // Dynamically alloc for cKeywords.
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BOOL _rtfHashInited = FALSE;
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static INT HashKeyword_Key( const CHAR *szKeyword );
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/*
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* HashKeyword_Insert()
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*
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* @func
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* Insert a KEYWORD into the RTF hash table.
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* @comm
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* This function uses the the % for MOD
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* in order to validate MOD257.
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*/
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VOID HashKeyword_Insert (
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const KEYWORD *token )//@parm pointer to KEYWORD token to insert.
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{
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TRACEBEGIN(TRCSUBSYSDISP, TRCSCOPEINTERN, "HashKeyword_Insert");
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INT index, step, position,
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cost, source, sink, index1,
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step1, temp;
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BOOL tmpPassBit;
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static INT totalKeys = 0;
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CHAR *szKeyword;
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HashEntry *np;
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AssertSz ( _rtfHashInited, "forgot to call HashKeyword_Init()");
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AssertSz ( totalKeys <= HASHSIZE * 0.7, "prime not large enough to hold total keys");
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szKeyword = token->szKeyword;
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np = &storage[totalKeys++];
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np->token = token;
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index = HashKeyword_Key(szKeyword) % HASHSIZE; // Get keys.
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step = 1 + (HashKeyword_Key(szKeyword) % (HASHSIZE-1));
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position = 1;
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cost = HASHSIZE; // The max collisions for any.
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while(hashtbl[index]!=NULL) // Find empty slot.
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{
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position++; // How many collisions.
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// For the keyword stored here, calc # times before it is found.
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temp=1;
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step1= 1+(HashKeyword_Key(hashtbl[index]->token->szKeyword) % (HASHSIZE-1));
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index1= (index+step1)%HASHSIZE;
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while(hashtbl[index1] !=NULL)
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{
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index1=(index1+step1)%HASHSIZE;
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temp++;
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}
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// Incremental cost computation, minimizes average # of collisions
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// for both keywords.
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if (cost>position+temp)
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{
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source=index;
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sink=index1;
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cost=position+temp;
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}
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// There will be something stored beyound here, set the passBit.
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hashtbl[index]->passBit=1;
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// Next index to search for empty slot.
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index=(index+step)%HASHSIZE;
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}
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if (position<=cost)
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{
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source=sink=index;
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cost=position;
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}
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hashtbl[sink] = hashtbl[source];
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hashtbl[source] = np;
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if (hashtbl[sink] && hashtbl[source]) // jOn hack, we didn't really
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{ // want to swap pass bits.
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tmpPassBit = hashtbl[sink]->passBit;
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hashtbl[sink]->passBit = hashtbl[source]->passBit;
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hashtbl[source]->passBit = tmpPassBit;
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}
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}
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/*
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* static HashKeyword_Key()
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*
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* @func
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* Calculate the hash key.
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* @comm
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* Just add up the first few characters.
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* @rdesc
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* The hash Key for calculating the index and step.
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*/
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static INT HashKeyword_Key(
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const CHAR *szKeyword ) //@parm C string to create hash key for.
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{
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TRACEBEGIN(TRCSUBSYSDISP, TRCSCOPEINTERN, "HashKeyword_Key");
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INT i, tot = 0;
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/* Just add up first few characters. */
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for (i = 0; i < MAX_INAME && *szKeyword; szKeyword++, i++)
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tot += (UCHAR) *szKeyword;
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return tot;
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}
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/*
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* HashKeyword_Fetch()
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*
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* @func
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* Look up a KEYWORD with the given szKeyword.
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* @devnote
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* We have a hash table of size 257. This allows for
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* the use of very fast routines to calculate a MOD 257.
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* This gives us a significant increase in performance
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* over a binary search.
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* @rdesc
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* A pointer to the KEYWORD, or NULL if not found.
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*/
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const KEYWORD *HashKeyword_Fetch (
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const CHAR *szKeyword ) //@parm C string to search for.
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{
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TRACEBEGIN(TRCSUBSYSDISP, TRCSCOPEINTERN, "HashKeyword_Fetch");
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INT index, step;
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HashEntry * hashTblPtr;
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BYTE * pchCandidate;
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BYTE * pchKeyword;
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INT nComp;
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CHAR firstChar;
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INT hashKey;
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AssertSz( HASHSIZE == 257, "Remove custom MOD257.");
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firstChar = *szKeyword;
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hashKey = HashKeyword_Key(szKeyword); // For calc'ing 'index' and 'step'
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//index = hashKey%HASHSIZE; // First entry to search.
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index = MOD257(hashKey); // This formula gives us 18% perf.
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hashTblPtr = hashtbl[index]; // Get first entry.
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if ( hashTblPtr != NULL ) // Something there?
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{
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// Compare 2 C strings.
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pchCandidate = (BYTE *)hashTblPtr->token->szKeyword;
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if ( firstChar == *pchCandidate )
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{
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pchKeyword = (BYTE *)szKeyword;
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while (!(nComp = *pchKeyword - *pchCandidate) // Be sure to match
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&& *pchKeyword) // terminating 0's
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{
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pchKeyword++;
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pchCandidate++;
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}
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// Matched?
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if ( 0 == nComp )
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return hashTblPtr->token;
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}
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if ( hashTblPtr->passBit==1 ) // passBit=>another entry to test
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{
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// step = 1+(hashKey%(HASHSIZE-1));// Calc 'step'
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step = 1 + MOD257_1(hashKey);
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// Get second entry to check.
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index += step;
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index = MOD257(index);
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hashTblPtr = hashtbl[index];
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while (hashTblPtr != NULL ) // While something there.
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{
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// Compare 2 C strings.
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pchCandidate = (BYTE *)hashTblPtr->token->szKeyword;
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if ( firstChar == *pchCandidate )
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{
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pchKeyword = (BYTE *)szKeyword;
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while (!(nComp = *pchKeyword - *pchCandidate)
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&& *pchKeyword)
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{
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pchKeyword++;
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pchCandidate++;
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}
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// Matched?
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if ( 0 == nComp )
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return hashTblPtr->token;
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}
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if ( !hashTblPtr->passBit )// Done searching?
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break;
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// Get next entry.
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index += step;
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index = MOD257(index);
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hashTblPtr = hashtbl[index];
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}
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}
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}
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return NULL;
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}
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/*
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* HashKeyword_Init()
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*
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* @func
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* Load up and init the hash table with RTF control words.
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* @devnote
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* _rtfHashInited will be FALSE if anything here fails.
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*/
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VOID HashKeyword_Init( )
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{
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TRACEBEGIN(TRCSUBSYSDISP, TRCSCOPEINTERN, "HashKeyword_Init");
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extern SHORT cKeywords; // How many RTF keywords we currently recognize.
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INT i;
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AssertSz( _rtfHashInited == FALSE, "Only need to init this once.");
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// Create enough storage for cKeywords
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storage = (HashEntry *) PvAlloc( sizeof(HashEntry) * cKeywords, fZeroFill );
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// Load in all of the RTF control words.
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if ( storage )
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{
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_rtfHashInited = TRUE;
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for (i = 0; i < cKeywords; i++ )
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{
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HashKeyword_Insert(&rgKeyword[i]);
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}
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#ifdef DEBUG // Make sure we can fetch all these keywords.
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for (i = 0; i < cKeywords; i++ )
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{
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AssertSz ( &rgKeyword[i] == HashKeyword_Fetch ( rgKeyword[i].szKeyword ),
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"Keyword Hash is not working.");
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}
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#endif
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}
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}
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#endif // RTF_HASHCACHE
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