xref: /freebsd/stand/ficl/dict.c (revision d8a0fe102c0cfdfcd5b818f850eff09d8536c9bc)
1 /*******************************************************************
2 ** d i c t . c
3 ** Forth Inspired Command Language - dictionary methods
4 ** Author: John Sadler (john_sadler@alum.mit.edu)
5 ** Created: 19 July 1997
6 ** $Id: dict.c,v 1.14 2001/12/05 07:21:34 jsadler Exp $
7 *******************************************************************/
8 /*
9 ** This file implements the dictionary -- FICL's model of
10 ** memory management. All FICL words are stored in the
11 ** dictionary. A word is a named chunk of data with its
12 ** associated code. FICL treats all words the same, even
13 ** precompiled ones, so your words become first-class
14 ** extensions of the language. You can even define new
15 ** control structures.
16 **
17 ** 29 jun 1998 (sadler) added variable sized hash table support
18 */
19 /*
20 ** Copyright (c) 1997-2001 John Sadler (john_sadler@alum.mit.edu)
21 ** All rights reserved.
22 **
23 ** Get the latest Ficl release at http://ficl.sourceforge.net
24 **
25 ** I am interested in hearing from anyone who uses ficl. If you have
26 ** a problem, a success story, a defect, an enhancement request, or
27 ** if you would like to contribute to the ficl release, please
28 ** contact me by email at the address above.
29 **
30 ** L I C E N S E  and  D I S C L A I M E R
31 **
32 ** Redistribution and use in source and binary forms, with or without
33 ** modification, are permitted provided that the following conditions
34 ** are met:
35 ** 1. Redistributions of source code must retain the above copyright
36 **    notice, this list of conditions and the following disclaimer.
37 ** 2. Redistributions in binary form must reproduce the above copyright
38 **    notice, this list of conditions and the following disclaimer in the
39 **    documentation and/or other materials provided with the distribution.
40 **
41 ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
42 ** ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
43 ** IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
44 ** ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
45 ** FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
46 ** DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
47 ** OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
48 ** HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
49 ** LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
50 ** OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
51 ** SUCH DAMAGE.
52 */
53 
54 /* $FreeBSD$ */
55 
56 #ifdef TESTMAIN
57 #include <stdio.h>
58 #include <ctype.h>
59 #else
60 #include <stand.h>
61 #endif
62 #include <string.h>
63 #include "ficl.h"
64 
65 /* Dictionary on-demand resizing control variables */
66 CELL dictThreshold;
67 CELL dictIncrease;
68 
69 
70 static char *dictCopyName(FICL_DICT *pDict, STRINGINFO si);
71 
72 /**************************************************************************
73                         d i c t A b o r t D e f i n i t i o n
74 ** Abort a definition in process: reclaim its memory and unlink it
75 ** from the dictionary list. Assumes that there is a smudged
76 ** definition in process...otherwise does nothing.
77 ** NOTE: this function is not smart enough to unlink a word that
78 ** has been successfully defined (ie linked into a hash). It
79 ** only works for defs in process. If the def has been unsmudged,
80 ** nothing happens.
81 **************************************************************************/
82 void dictAbortDefinition(FICL_DICT *pDict)
83 {
84     FICL_WORD *pFW;
85     ficlLockDictionary(TRUE);
86     pFW = pDict->smudge;
87 
88     if (pFW->flags & FW_SMUDGE)
89         pDict->here = (CELL *)pFW->name;
90 
91     ficlLockDictionary(FALSE);
92     return;
93 }
94 
95 
96 /**************************************************************************
97                         a l i g n P t r
98 ** Aligns the given pointer to FICL_ALIGN address units.
99 ** Returns the aligned pointer value.
100 **************************************************************************/
101 void *alignPtr(void *ptr)
102 {
103 #if FICL_ALIGN > 0
104     char *cp;
105     CELL c;
106     cp = (char *)ptr + FICL_ALIGN_ADD;
107     c.p = (void *)cp;
108     c.u = c.u & (~FICL_ALIGN_ADD);
109     ptr = (CELL *)c.p;
110 #endif
111     return ptr;
112 }
113 
114 
115 /**************************************************************************
116                         d i c t A l i g n
117 ** Align the dictionary's free space pointer
118 **************************************************************************/
119 void dictAlign(FICL_DICT *pDict)
120 {
121     pDict->here = alignPtr(pDict->here);
122 }
123 
124 
125 /**************************************************************************
126                         d i c t A l l o t
127 ** Allocate or remove n chars of dictionary space, with
128 ** checks for underrun and overrun
129 **************************************************************************/
130 int dictAllot(FICL_DICT *pDict, int n)
131 {
132     char *cp = (char *)pDict->here;
133 #if FICL_ROBUST
134     if (n > 0)
135     {
136         if ((unsigned)n <= dictCellsAvail(pDict) * sizeof (CELL))
137             cp += n;
138         else
139             return 1;       /* dict is full */
140     }
141     else
142     {
143         n = -n;
144         if ((unsigned)n <= dictCellsUsed(pDict) * sizeof (CELL))
145             cp -= n;
146         else                /* prevent underflow */
147             cp -= dictCellsUsed(pDict) * sizeof (CELL);
148     }
149 #else
150     cp += n;
151 #endif
152     pDict->here = PTRtoCELL cp;
153     return 0;
154 }
155 
156 
157 /**************************************************************************
158                         d i c t A l l o t C e l l s
159 ** Reserve space for the requested number of cells in the
160 ** dictionary. If nCells < 0 , removes space from the dictionary.
161 **************************************************************************/
162 int dictAllotCells(FICL_DICT *pDict, int nCells)
163 {
164 #if FICL_ROBUST
165     if (nCells > 0)
166     {
167         if (nCells <= dictCellsAvail(pDict))
168             pDict->here += nCells;
169         else
170             return 1;       /* dict is full */
171     }
172     else
173     {
174         nCells = -nCells;
175         if (nCells <= dictCellsUsed(pDict))
176             pDict->here -= nCells;
177         else                /* prevent underflow */
178             pDict->here -= dictCellsUsed(pDict);
179     }
180 #else
181     pDict->here += nCells;
182 #endif
183     return 0;
184 }
185 
186 
187 /**************************************************************************
188                         d i c t A p p e n d C e l l
189 ** Append the specified cell to the dictionary
190 **************************************************************************/
191 void dictAppendCell(FICL_DICT *pDict, CELL c)
192 {
193     *pDict->here++ = c;
194     return;
195 }
196 
197 
198 /**************************************************************************
199                         d i c t A p p e n d C h a r
200 ** Append the specified char to the dictionary
201 **************************************************************************/
202 void dictAppendChar(FICL_DICT *pDict, char c)
203 {
204     char *cp = (char *)pDict->here;
205     *cp++ = c;
206     pDict->here = PTRtoCELL cp;
207     return;
208 }
209 
210 
211 /**************************************************************************
212                         d i c t A p p e n d W o r d
213 ** Create a new word in the dictionary with the specified
214 ** name, code, and flags. Name must be NULL-terminated.
215 **************************************************************************/
216 FICL_WORD *dictAppendWord(FICL_DICT *pDict,
217                           char *name,
218                           FICL_CODE pCode,
219                           UNS8 flags)
220 {
221     STRINGINFO si;
222     SI_SETLEN(si, strlen(name));
223     SI_SETPTR(si, name);
224     return dictAppendWord2(pDict, si, pCode, flags);
225 }
226 
227 
228 /**************************************************************************
229                         d i c t A p p e n d W o r d 2
230 ** Create a new word in the dictionary with the specified
231 ** STRINGINFO, code, and flags. Does not require a NULL-terminated
232 ** name.
233 **************************************************************************/
234 FICL_WORD *dictAppendWord2(FICL_DICT *pDict,
235                            STRINGINFO si,
236                            FICL_CODE pCode,
237                            UNS8 flags)
238 {
239     FICL_COUNT len  = (FICL_COUNT)SI_COUNT(si);
240     char *pName;
241     FICL_WORD *pFW;
242 
243     ficlLockDictionary(TRUE);
244 
245     /*
246     ** NOTE: dictCopyName advances "here" as a side-effect.
247     ** It must execute before pFW is initialized.
248     */
249     pName         = dictCopyName(pDict, si);
250     pFW           = (FICL_WORD *)pDict->here;
251     pDict->smudge = pFW;
252     pFW->hash     = hashHashCode(si);
253     pFW->code     = pCode;
254     pFW->flags    = (UNS8)(flags | FW_SMUDGE);
255     pFW->nName    = (char)len;
256     pFW->name     = pName;
257     /*
258     ** Point "here" to first cell of new word's param area...
259     */
260     pDict->here   = pFW->param;
261 
262     if (!(flags & FW_SMUDGE))
263         dictUnsmudge(pDict);
264 
265     ficlLockDictionary(FALSE);
266     return pFW;
267 }
268 
269 
270 /**************************************************************************
271                         d i c t A p p e n d U N S
272 ** Append the specified FICL_UNS to the dictionary
273 **************************************************************************/
274 void dictAppendUNS(FICL_DICT *pDict, FICL_UNS u)
275 {
276     *pDict->here++ = LVALUEtoCELL(u);
277     return;
278 }
279 
280 
281 /**************************************************************************
282                         d i c t C e l l s A v a i l
283 ** Returns the number of empty cells left in the dictionary
284 **************************************************************************/
285 int dictCellsAvail(FICL_DICT *pDict)
286 {
287     return pDict->size - dictCellsUsed(pDict);
288 }
289 
290 
291 /**************************************************************************
292                         d i c t C e l l s U s e d
293 ** Returns the number of cells consumed in the dicionary
294 **************************************************************************/
295 int dictCellsUsed(FICL_DICT *pDict)
296 {
297     return pDict->here - pDict->dict;
298 }
299 
300 
301 /**************************************************************************
302                         d i c t C h e c k
303 ** Checks the dictionary for corruption and throws appropriate
304 ** errors.
305 ** Input: +n number of ADDRESS UNITS (not Cells) proposed to allot
306 **        -n number of ADDRESS UNITS proposed to de-allot
307 **         0 just do a consistency check
308 **************************************************************************/
309 void dictCheck(FICL_DICT *pDict, FICL_VM *pVM, int n)
310 {
311     if ((n >= 0) && (dictCellsAvail(pDict) * (int)sizeof(CELL) < n))
312     {
313         vmThrowErr(pVM, "Error: dictionary full");
314     }
315 
316     if ((n <= 0) && (dictCellsUsed(pDict) * (int)sizeof(CELL) < -n))
317     {
318         vmThrowErr(pVM, "Error: dictionary underflow");
319     }
320 
321     if (pDict->nLists > FICL_DEFAULT_VOCS)
322     {
323         dictResetSearchOrder(pDict);
324         vmThrowErr(pVM, "Error: search order overflow");
325     }
326     else if (pDict->nLists < 0)
327     {
328         dictResetSearchOrder(pDict);
329         vmThrowErr(pVM, "Error: search order underflow");
330     }
331 
332     return;
333 }
334 
335 
336 /**************************************************************************
337                         d i c t C o p y N a m e
338 ** Copy up to nFICLNAME characters of the name specified by si into
339 ** the dictionary starting at "here", then NULL-terminate the name,
340 ** point "here" to the next available byte, and return the address of
341 ** the beginning of the name. Used by dictAppendWord.
342 ** N O T E S :
343 ** 1. "here" is guaranteed to be aligned after this operation.
344 ** 2. If the string has zero length, align and return "here"
345 **************************************************************************/
346 static char *dictCopyName(FICL_DICT *pDict, STRINGINFO si)
347 {
348     char *oldCP    = (char *)pDict->here;
349     char *cp       = oldCP;
350     char *name     = SI_PTR(si);
351     int   i        = SI_COUNT(si);
352 
353     if (i == 0)
354     {
355         dictAlign(pDict);
356         return (char *)pDict->here;
357     }
358 
359     if (i > nFICLNAME)
360         i = nFICLNAME;
361 
362     for (; i > 0; --i)
363     {
364         *cp++ = *name++;
365     }
366 
367     *cp++ = '\0';
368 
369     pDict->here = PTRtoCELL cp;
370     dictAlign(pDict);
371     return oldCP;
372 }
373 
374 
375 /**************************************************************************
376                         d i c t C r e a t e
377 ** Create and initialize a dictionary with the specified number
378 ** of cells capacity, and no hashing (hash size == 1).
379 **************************************************************************/
380 FICL_DICT  *dictCreate(unsigned nCells)
381 {
382     return dictCreateHashed(nCells, 1);
383 }
384 
385 
386 FICL_DICT  *dictCreateHashed(unsigned nCells, unsigned nHash)
387 {
388     FICL_DICT *pDict;
389     size_t nAlloc;
390 
391     nAlloc =  sizeof (FICL_HASH) + nCells      * sizeof (CELL)
392                                  + (nHash - 1) * sizeof (FICL_WORD *);
393 
394     pDict = ficlMalloc(sizeof (FICL_DICT));
395     assert(pDict);
396     memset(pDict, 0, sizeof (FICL_DICT));
397     pDict->dict = ficlMalloc(nAlloc);
398     assert(pDict->dict);
399 
400     pDict->size = nCells;
401     dictEmpty(pDict, nHash);
402     return pDict;
403 }
404 
405 
406 /**************************************************************************
407                         d i c t C r e a t e W o r d l i s t
408 ** Create and initialize an anonymous wordlist
409 **************************************************************************/
410 FICL_HASH *dictCreateWordlist(FICL_DICT *dp, int nBuckets)
411 {
412     FICL_HASH *pHash;
413 
414     dictAlign(dp);
415     pHash    = (FICL_HASH *)dp->here;
416     dictAllot(dp, sizeof (FICL_HASH)
417         + (nBuckets-1) * sizeof (FICL_WORD *));
418 
419     pHash->size = nBuckets;
420     hashReset(pHash);
421     return pHash;
422 }
423 
424 
425 /**************************************************************************
426                         d i c t D e l e t e
427 ** Free all memory allocated for the given dictionary
428 **************************************************************************/
429 void dictDelete(FICL_DICT *pDict)
430 {
431     assert(pDict);
432     ficlFree(pDict);
433     return;
434 }
435 
436 
437 /**************************************************************************
438                         d i c t E m p t y
439 ** Empty the dictionary, reset its hash table, and reset its search order.
440 ** Clears and (re-)creates the hash table with the size specified by nHash.
441 **************************************************************************/
442 void dictEmpty(FICL_DICT *pDict, unsigned nHash)
443 {
444     FICL_HASH *pHash;
445 
446     pDict->here = pDict->dict;
447 
448     dictAlign(pDict);
449     pHash = (FICL_HASH *)pDict->here;
450     dictAllot(pDict,
451               sizeof (FICL_HASH) + (nHash - 1) * sizeof (FICL_WORD *));
452 
453     pHash->size = nHash;
454     hashReset(pHash);
455 
456     pDict->pForthWords = pHash;
457     pDict->smudge = NULL;
458     dictResetSearchOrder(pDict);
459     return;
460 }
461 
462 
463 /**************************************************************************
464                         d i c t H a s h S u m m a r y
465 ** Calculate a figure of merit for the dictionary hash table based
466 ** on the average search depth for all the words in the dictionary,
467 ** assuming uniform distribution of target keys. The figure of merit
468 ** is the ratio of the total search depth for all keys in the table
469 ** versus a theoretical optimum that would be achieved if the keys
470 ** were distributed into the table as evenly as possible.
471 ** The figure would be worse if the hash table used an open
472 ** addressing scheme (i.e. collisions resolved by searching the
473 ** table for an empty slot) for a given size table.
474 **************************************************************************/
475 #if FICL_WANT_FLOAT
476 void dictHashSummary(FICL_VM *pVM)
477 {
478     FICL_DICT *dp = vmGetDict(pVM);
479     FICL_HASH *pFHash;
480     FICL_WORD **pHash;
481     unsigned size;
482     FICL_WORD *pFW;
483     unsigned i;
484     int nMax = 0;
485     int nWords = 0;
486     int nFilled;
487     double avg = 0.0;
488     double best;
489     int nAvg, nRem, nDepth;
490 
491     dictCheck(dp, pVM, 0);
492 
493     pFHash = dp->pSearch[dp->nLists - 1];
494     pHash  = pFHash->table;
495     size   = pFHash->size;
496     nFilled = size;
497 
498     for (i = 0; i < size; i++)
499     {
500         int n = 0;
501         pFW = pHash[i];
502 
503         while (pFW)
504         {
505             ++n;
506             ++nWords;
507             pFW = pFW->link;
508         }
509 
510         avg += (double)(n * (n+1)) / 2.0;
511 
512         if (n > nMax)
513             nMax = n;
514         if (n == 0)
515             --nFilled;
516     }
517 
518     /* Calc actual avg search depth for this hash */
519     avg = avg / nWords;
520 
521     /* Calc best possible performance with this size hash */
522     nAvg = nWords / size;
523     nRem = nWords % size;
524     nDepth = size * (nAvg * (nAvg+1))/2 + (nAvg+1)*nRem;
525     best = (double)nDepth/nWords;
526 
527     sprintf(pVM->pad,
528         "%d bins, %2.0f%% filled, Depth: Max=%d, Avg=%2.1f, Best=%2.1f, Score: %2.0f%%",
529         size,
530         (double)nFilled * 100.0 / size, nMax,
531         avg,
532         best,
533         100.0 * best / avg);
534 
535     ficlTextOut(pVM, pVM->pad, 1);
536 
537     return;
538 }
539 #endif
540 
541 /**************************************************************************
542                         d i c t I n c l u d e s
543 ** Returns TRUE iff the given pointer is within the address range of
544 ** the dictionary.
545 **************************************************************************/
546 int dictIncludes(FICL_DICT *pDict, void *p)
547 {
548     return ((p >= (void *) &pDict->dict)
549         &&  (p <  (void *)(&pDict->dict + pDict->size))
550            );
551 }
552 
553 /**************************************************************************
554                         d i c t L o o k u p
555 ** Find the FICL_WORD that matches the given name and length.
556 ** If found, returns the word's address. Otherwise returns NULL.
557 ** Uses the search order list to search multiple wordlists.
558 **************************************************************************/
559 FICL_WORD *dictLookup(FICL_DICT *pDict, STRINGINFO si)
560 {
561     FICL_WORD *pFW = NULL;
562     FICL_HASH *pHash;
563     int i;
564     UNS16 hashCode   = hashHashCode(si);
565 
566     assert(pDict);
567 
568     ficlLockDictionary(1);
569 
570     for (i = (int)pDict->nLists - 1; (i >= 0) && (!pFW); --i)
571     {
572         pHash = pDict->pSearch[i];
573         pFW = hashLookup(pHash, si, hashCode);
574     }
575 
576     ficlLockDictionary(0);
577     return pFW;
578 }
579 
580 
581 /**************************************************************************
582                         f i c l L o o k u p L o c
583 ** Same as dictLookup, but looks in system locals dictionary first...
584 ** Assumes locals dictionary has only one wordlist...
585 **************************************************************************/
586 #if FICL_WANT_LOCALS
587 FICL_WORD *ficlLookupLoc(FICL_SYSTEM *pSys, STRINGINFO si)
588 {
589     FICL_WORD *pFW = NULL;
590 	FICL_DICT *pDict = pSys->dp;
591     FICL_HASH *pHash = ficlGetLoc(pSys)->pForthWords;
592     int i;
593     UNS16 hashCode   = hashHashCode(si);
594 
595     assert(pHash);
596     assert(pDict);
597 
598     ficlLockDictionary(1);
599     /*
600     ** check the locals dict first...
601     */
602     pFW = hashLookup(pHash, si, hashCode);
603 
604     /*
605     ** If no joy, (!pFW) --------------------------v
606     ** iterate over the search list in the main dict
607     */
608     for (i = (int)pDict->nLists - 1; (i >= 0) && (!pFW); --i)
609     {
610         pHash = pDict->pSearch[i];
611         pFW = hashLookup(pHash, si, hashCode);
612     }
613 
614     ficlLockDictionary(0);
615     return pFW;
616 }
617 #endif
618 
619 
620 /**************************************************************************
621                     d i c t R e s e t S e a r c h O r d e r
622 ** Initialize the dictionary search order list to sane state
623 **************************************************************************/
624 void dictResetSearchOrder(FICL_DICT *pDict)
625 {
626     assert(pDict);
627     pDict->pCompile = pDict->pForthWords;
628     pDict->nLists = 1;
629     pDict->pSearch[0] = pDict->pForthWords;
630     return;
631 }
632 
633 
634 /**************************************************************************
635                         d i c t S e t F l a g s
636 ** Changes the flags field of the most recently defined word:
637 ** Set all bits that are ones in the set parameter, clear all bits
638 ** that are ones in the clr parameter. Clear wins in case the same bit
639 ** is set in both parameters.
640 **************************************************************************/
641 void dictSetFlags(FICL_DICT *pDict, UNS8 set, UNS8 clr)
642 {
643     assert(pDict->smudge);
644     pDict->smudge->flags |= set;
645     pDict->smudge->flags &= ~clr;
646     return;
647 }
648 
649 
650 /**************************************************************************
651                         d i c t S e t I m m e d i a t e
652 ** Set the most recently defined word as IMMEDIATE
653 **************************************************************************/
654 void dictSetImmediate(FICL_DICT *pDict)
655 {
656     assert(pDict->smudge);
657     pDict->smudge->flags |= FW_IMMEDIATE;
658     return;
659 }
660 
661 
662 /**************************************************************************
663                         d i c t U n s m u d g e
664 ** Completes the definition of a word by linking it
665 ** into the main list
666 **************************************************************************/
667 void dictUnsmudge(FICL_DICT *pDict)
668 {
669     FICL_WORD *pFW = pDict->smudge;
670     FICL_HASH *pHash = pDict->pCompile;
671 
672     assert(pHash);
673     assert(pFW);
674     /*
675     ** :noname words never get linked into the list...
676     */
677     if (pFW->nName > 0)
678         hashInsertWord(pHash, pFW);
679     pFW->flags &= ~(FW_SMUDGE);
680     return;
681 }
682 
683 
684 /**************************************************************************
685                         d i c t W h e r e
686 ** Returns the value of the HERE pointer -- the address
687 ** of the next free cell in the dictionary
688 **************************************************************************/
689 CELL *dictWhere(FICL_DICT *pDict)
690 {
691     return pDict->here;
692 }
693 
694 
695 /**************************************************************************
696                         h a s h F o r g e t
697 ** Unlink all words in the hash that have addresses greater than or
698 ** equal to the address supplied. Implementation factor for FORGET
699 ** and MARKER.
700 **************************************************************************/
701 void hashForget(FICL_HASH *pHash, void *where)
702 {
703     FICL_WORD *pWord;
704     unsigned i;
705 
706     assert(pHash);
707     assert(where);
708 
709     for (i = 0; i < pHash->size; i++)
710     {
711         pWord = pHash->table[i];
712 
713         while ((void *)pWord >= where)
714         {
715             pWord = pWord->link;
716         }
717 
718         pHash->table[i] = pWord;
719     }
720 
721     return;
722 }
723 
724 
725 /**************************************************************************
726                         h a s h H a s h C o d e
727 **
728 ** Generate a 16 bit hashcode from a character string using a rolling
729 ** shift and add stolen from PJ Weinberger of Bell Labs fame. Case folds
730 ** the name before hashing it...
731 ** N O T E : If string has zero length, returns zero.
732 **************************************************************************/
733 UNS16 hashHashCode(STRINGINFO si)
734 {
735     /* hashPJW */
736     UNS8 *cp;
737     UNS16 code = (UNS16)si.count;
738     UNS16 shift = 0;
739 
740     if (si.count == 0)
741         return 0;
742 
743     /* changed to run without errors under Purify -- lch */
744     for (cp = (UNS8 *)si.cp; si.count && *cp; cp++, si.count--)
745     {
746         code = (UNS16)((code << 4) + tolower(*cp));
747         shift = (UNS16)(code & 0xf000);
748         if (shift)
749         {
750             code ^= (UNS16)(shift >> 8);
751             code ^= (UNS16)shift;
752         }
753     }
754 
755     return (UNS16)code;
756 }
757 
758 
759 
760 
761 /**************************************************************************
762                         h a s h I n s e r t W o r d
763 ** Put a word into the hash table using the word's hashcode as
764 ** an index (modulo the table size).
765 **************************************************************************/
766 void hashInsertWord(FICL_HASH *pHash, FICL_WORD *pFW)
767 {
768     FICL_WORD **pList;
769 
770     assert(pHash);
771     assert(pFW);
772 
773     if (pHash->size == 1)
774     {
775         pList = pHash->table;
776     }
777     else
778     {
779         pList = pHash->table + (pFW->hash % pHash->size);
780     }
781 
782     pFW->link = *pList;
783     *pList = pFW;
784     return;
785 }
786 
787 
788 /**************************************************************************
789                         h a s h L o o k u p
790 ** Find a name in the hash table given the hashcode and text of the name.
791 ** Returns the address of the corresponding FICL_WORD if found,
792 ** otherwise NULL.
793 ** Note: outer loop on link field supports inheritance in wordlists.
794 ** It's not part of ANS Forth - ficl only. hashReset creates wordlists
795 ** with NULL link fields.
796 **************************************************************************/
797 FICL_WORD *hashLookup(FICL_HASH *pHash, STRINGINFO si, UNS16 hashCode)
798 {
799     FICL_UNS nCmp = si.count;
800     FICL_WORD *pFW;
801     UNS16 hashIdx;
802 
803     if (nCmp > nFICLNAME)
804         nCmp = nFICLNAME;
805 
806     for (; pHash != NULL; pHash = pHash->link)
807     {
808         if (pHash->size > 1)
809             hashIdx = (UNS16)(hashCode % pHash->size);
810         else            /* avoid the modulo op for single threaded lists */
811             hashIdx = 0;
812 
813         for (pFW = pHash->table[hashIdx]; pFW; pFW = pFW->link)
814         {
815             if ( (pFW->nName == si.count)
816                 && (!strincmp(si.cp, pFW->name, nCmp)) )
817                 return pFW;
818 #if FICL_ROBUST
819             assert(pFW != pFW->link);
820 #endif
821         }
822     }
823 
824     return NULL;
825 }
826 
827 
828 /**************************************************************************
829                              h a s h R e s e t
830 ** Initialize a FICL_HASH to empty state.
831 **************************************************************************/
832 void hashReset(FICL_HASH *pHash)
833 {
834     unsigned i;
835 
836     assert(pHash);
837 
838     for (i = 0; i < pHash->size; i++)
839     {
840         pHash->table[i] = NULL;
841     }
842 
843     pHash->link = NULL;
844     pHash->name = NULL;
845     return;
846 }
847 
848 /**************************************************************************
849                     d i c t C h e c k T h r e s h o l d
850 ** Verify if an increase in the dictionary size is warranted, and do it if
851 ** so.
852 **************************************************************************/
853 
854 void dictCheckThreshold(FICL_DICT* dp)
855 {
856     if( dictCellsAvail(dp) < dictThreshold.u ) {
857         dp->dict = ficlMalloc( dictIncrease.u * sizeof (CELL) );
858         assert(dp->dict);
859         dp->here = dp->dict;
860         dp->size = dictIncrease.u;
861         dictAlign(dp);
862     }
863 }
864 
865