xref: /freebsd/stand/ficl/tools.c (revision eb69d1f144a6fcc765d1b9d44a5ae8082353e70b)
1 /*******************************************************************
2 ** t o o l s . c
3 ** Forth Inspired Command Language - programming tools
4 ** Author: John Sadler (john_sadler@alum.mit.edu)
5 ** Created: 20 June 2000
6 ** $Id: tools.c,v 1.11 2001/12/05 07:21:34 jsadler Exp $
7 *******************************************************************/
8 /*
9 ** Copyright (c) 1997-2001 John Sadler (john_sadler@alum.mit.edu)
10 ** All rights reserved.
11 **
12 ** Get the latest Ficl release at http://ficl.sourceforge.net
13 **
14 ** I am interested in hearing from anyone who uses ficl. If you have
15 ** a problem, a success story, a defect, an enhancement request, or
16 ** if you would like to contribute to the ficl release, please
17 ** contact me by email at the address above.
18 **
19 ** L I C E N S E  and  D I S C L A I M E R
20 **
21 ** Redistribution and use in source and binary forms, with or without
22 ** modification, are permitted provided that the following conditions
23 ** are met:
24 ** 1. Redistributions of source code must retain the above copyright
25 **    notice, this list of conditions and the following disclaimer.
26 ** 2. Redistributions in binary form must reproduce the above copyright
27 **    notice, this list of conditions and the following disclaimer in the
28 **    documentation and/or other materials provided with the distribution.
29 **
30 ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
31 ** ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
32 ** IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
33 ** ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
34 ** FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
35 ** DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
36 ** OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
37 ** HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
38 ** LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
39 ** OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
40 ** SUCH DAMAGE.
41 */
42 
43 /*
44 ** NOTES:
45 ** SEE needs information about the addresses of functions that
46 ** are the CFAs of colon definitions, constants, variables, DOES>
47 ** words, and so on. It gets this information from a table and supporting
48 ** functions in words.c.
49 ** colonParen doDoes createParen variableParen userParen constantParen
50 **
51 ** Step and break debugger for Ficl
52 ** debug  ( xt -- )   Start debugging an xt
53 ** Set a breakpoint
54 ** Specify breakpoint default action
55 */
56 
57 /* $FreeBSD$ */
58 
59 #ifdef TESTMAIN
60 #include <stdlib.h>
61 #include <stdio.h>          /* sprintf */
62 #include <ctype.h>
63 #else
64 #include <stand.h>
65 #endif
66 #include <string.h>
67 #include "ficl.h"
68 
69 
70 #if 0
71 /*
72 ** nBREAKPOINTS sizes the breakpoint array. One breakpoint (bp 0) is reserved
73 ** for the STEP command. The rest are user programmable.
74 */
75 #define nBREAKPOINTS 32
76 
77 #endif
78 
79 
80 /**************************************************************************
81                         v m S e t B r e a k
82 ** Set a breakpoint at the current value of IP by
83 ** storing that address in a BREAKPOINT record
84 **************************************************************************/
85 static void vmSetBreak(FICL_VM *pVM, FICL_BREAKPOINT *pBP)
86 {
87     FICL_WORD *pStep = ficlLookup(pVM->pSys, "step-break");
88     assert(pStep);
89 
90     pBP->address = pVM->ip;
91     pBP->origXT = *pVM->ip;
92     *pVM->ip = pStep;
93 }
94 
95 
96 /**************************************************************************
97 **                      d e b u g P r o m p t
98 **************************************************************************/
99 static void debugPrompt(FICL_VM *pVM)
100 {
101         vmTextOut(pVM, "dbg> ", 0);
102 }
103 
104 
105 /**************************************************************************
106 **                      i s A F i c l W o r d
107 ** Vet a candidate pointer carefully to make sure
108 ** it's not some chunk o' inline data...
109 ** It has to have a name, and it has to look
110 ** like it's in the dictionary address range.
111 ** NOTE: this excludes :noname words!
112 **************************************************************************/
113 int isAFiclWord(FICL_DICT *pd, FICL_WORD *pFW)
114 {
115 
116     if (!dictIncludes(pd, pFW))
117        return 0;
118 
119     if (!dictIncludes(pd, pFW->name))
120         return 0;
121 
122 	if ((pFW->link != NULL) && !dictIncludes(pd, pFW->link))
123 		return 0;
124 
125     if ((pFW->nName <= 0) || (pFW->name[pFW->nName] != '\0'))
126 		return 0;
127 
128 	if (strlen(pFW->name) != pFW->nName)
129 		return 0;
130 
131 	return 1;
132 }
133 
134 
135 #if 0
136 static int isPrimitive(FICL_WORD *pFW)
137 {
138     WORDKIND wk = ficlWordClassify(pFW);
139     return ((wk != COLON) && (wk != DOES));
140 }
141 #endif
142 
143 
144 /**************************************************************************
145                         f i n d E n c l o s i n g W o r d
146 ** Given a pointer to something, check to make sure it's an address in the
147 ** dictionary. If so, search backwards until we find something that looks
148 ** like a dictionary header. If successful, return the address of the
149 ** FICL_WORD found. Otherwise return NULL.
150 ** nSEARCH_CELLS sets the maximum neighborhood this func will search before giving up
151 **************************************************************************/
152 #define nSEARCH_CELLS 100
153 
154 static FICL_WORD *findEnclosingWord(FICL_VM *pVM, CELL *cp)
155 {
156     FICL_WORD *pFW;
157     FICL_DICT *pd = vmGetDict(pVM);
158     int i;
159 
160     if (!dictIncludes(pd, (void *)cp))
161         return NULL;
162 
163     for (i = nSEARCH_CELLS; i > 0; --i, --cp)
164     {
165         pFW = (FICL_WORD *)(cp + 1 - (sizeof (FICL_WORD) / sizeof (CELL)));
166         if (isAFiclWord(pd, pFW))
167             return pFW;
168     }
169 
170     return NULL;
171 }
172 
173 
174 /**************************************************************************
175                         s e e
176 ** TOOLS ( "<spaces>name" -- )
177 ** Display a human-readable representation of the named word's definition.
178 ** The source of the representation (object-code decompilation, source
179 ** block, etc.) and the particular form of the display is implementation
180 ** defined.
181 **************************************************************************/
182 /*
183 ** seeColon (for proctologists only)
184 ** Walks a colon definition, decompiling
185 ** on the fly. Knows about primitive control structures.
186 */
187 static void seeColon(FICL_VM *pVM, CELL *pc)
188 {
189 	char *cp;
190     CELL *param0 = pc;
191     FICL_DICT *pd = vmGetDict(pVM);
192 	FICL_WORD *pSemiParen = ficlLookup(pVM->pSys, "(;)");
193     assert(pSemiParen);
194 
195     for (; pc->p != pSemiParen; pc++)
196     {
197         FICL_WORD *pFW = (FICL_WORD *)(pc->p);
198 
199         cp = pVM->pad;
200 		if ((void *)pc == (void *)pVM->ip)
201 			*cp++ = '>';
202 		else
203 			*cp++ = ' ';
204         cp += sprintf(cp, "%3d   ", (int)(pc-param0));
205 
206         if (isAFiclWord(pd, pFW))
207         {
208             WORDKIND kind = ficlWordClassify(pFW);
209             CELL c;
210 
211             switch (kind)
212             {
213             case LITERAL:
214                 c = *++pc;
215                 if (isAFiclWord(pd, c.p))
216                 {
217                     FICL_WORD *pLit = (FICL_WORD *)c.p;
218                     sprintf(cp, "%.*s ( %#lx literal )",
219                         pLit->nName, pLit->name, (unsigned long)c.u);
220                 }
221                 else
222                     sprintf(cp, "literal %ld (%#lx)",
223                         (long)c.i, (unsigned long)c.u);
224                 break;
225             case STRINGLIT:
226                 {
227                     FICL_STRING *sp = (FICL_STRING *)(void *)++pc;
228                     pc = (CELL *)alignPtr(sp->text + sp->count + 1) - 1;
229                     sprintf(cp, "s\" %.*s\"", sp->count, sp->text);
230                 }
231                 break;
232             case CSTRINGLIT:
233                 {
234                     FICL_STRING *sp = (FICL_STRING *)(void *)++pc;
235                     pc = (CELL *)alignPtr(sp->text + sp->count + 1) - 1;
236                     sprintf(cp, "c\" %.*s\"", sp->count, sp->text);
237                 }
238                 break;
239             case IF:
240                 c = *++pc;
241                 if (c.i > 0)
242                     sprintf(cp, "if / while (branch %d)", (int)(pc+c.i-param0));
243                 else
244                     sprintf(cp, "until (branch %d)",      (int)(pc+c.i-param0));
245                 break;
246             case BRANCH:
247                 c = *++pc;
248                 if (c.i == 0)
249                     sprintf(cp, "repeat (branch %d)",     (int)(pc+c.i-param0));
250                 else if (c.i == 1)
251                     sprintf(cp, "else (branch %d)",       (int)(pc+c.i-param0));
252                 else
253                     sprintf(cp, "endof (branch %d)",      (int)(pc+c.i-param0));
254                 break;
255 
256             case OF:
257                 c = *++pc;
258                 sprintf(cp, "of (branch %d)",       (int)(pc+c.i-param0));
259                 break;
260 
261             case QDO:
262                 c = *++pc;
263                 sprintf(cp, "?do (leave %d)",  (int)((CELL *)c.p-param0));
264                 break;
265             case DO:
266                 c = *++pc;
267                 sprintf(cp, "do (leave %d)", (int)((CELL *)c.p-param0));
268                 break;
269             case LOOP:
270                 c = *++pc;
271                 sprintf(cp, "loop (branch %d)", (int)(pc+c.i-param0));
272                 break;
273             case PLOOP:
274                 c = *++pc;
275                 sprintf(cp, "+loop (branch %d)", (int)(pc+c.i-param0));
276                 break;
277             default:
278                 sprintf(cp, "%.*s", pFW->nName, pFW->name);
279                 break;
280             }
281 
282         }
283         else /* probably not a word - punt and print value */
284         {
285             sprintf(cp, "%ld ( %#lx )", (long)pc->i, (unsigned long)pc->u);
286         }
287 
288 		vmTextOut(pVM, pVM->pad, 1);
289     }
290 
291     vmTextOut(pVM, ";", 1);
292 }
293 
294 /*
295 ** Here's the outer part of the decompiler. It's
296 ** just a big nested conditional that checks the
297 ** CFA of the word to decompile for each kind of
298 ** known word-builder code, and tries to do
299 ** something appropriate. If the CFA is not recognized,
300 ** just indicate that it is a primitive.
301 */
302 static void seeXT(FICL_VM *pVM)
303 {
304     FICL_WORD *pFW;
305     WORDKIND kind;
306 
307     pFW = (FICL_WORD *)stackPopPtr(pVM->pStack);
308     kind = ficlWordClassify(pFW);
309 
310     switch (kind)
311     {
312     case COLON:
313         sprintf(pVM->pad, ": %.*s", pFW->nName, pFW->name);
314         vmTextOut(pVM, pVM->pad, 1);
315         seeColon(pVM, pFW->param);
316         break;
317 
318     case DOES:
319         vmTextOut(pVM, "does>", 1);
320         seeColon(pVM, (CELL *)pFW->param->p);
321         break;
322 
323     case CREATE:
324         vmTextOut(pVM, "create", 1);
325         break;
326 
327     case VARIABLE:
328         sprintf(pVM->pad, "variable = %ld (%#lx)",
329             (long)pFW->param->i, (unsigned long)pFW->param->u);
330         vmTextOut(pVM, pVM->pad, 1);
331         break;
332 
333 #if FICL_WANT_USER
334     case USER:
335         sprintf(pVM->pad, "user variable %ld (%#lx)",
336             (long)pFW->param->i, (unsigned long)pFW->param->u);
337         vmTextOut(pVM, pVM->pad, 1);
338         break;
339 #endif
340 
341     case CONSTANT:
342         sprintf(pVM->pad, "constant = %ld (%#lx)",
343             (long)pFW->param->i, (unsigned long)pFW->param->u);
344         vmTextOut(pVM, pVM->pad, 1);
345 
346     default:
347         sprintf(pVM->pad, "%.*s is a primitive", pFW->nName, pFW->name);
348         vmTextOut(pVM, pVM->pad, 1);
349         break;
350     }
351 
352     if (pFW->flags & FW_IMMEDIATE)
353     {
354         vmTextOut(pVM, "immediate", 1);
355     }
356 
357     if (pFW->flags & FW_COMPILE)
358     {
359         vmTextOut(pVM, "compile-only", 1);
360     }
361 
362     return;
363 }
364 
365 
366 static void see(FICL_VM *pVM)
367 {
368     ficlTick(pVM);
369     seeXT(pVM);
370     return;
371 }
372 
373 
374 /**************************************************************************
375                         f i c l D e b u g X T
376 ** debug  ( xt -- )
377 ** Given an xt of a colon definition or a word defined by DOES>, set the
378 ** VM up to debug the word: push IP, set the xt as the next thing to execute,
379 ** set a breakpoint at its first instruction, and run to the breakpoint.
380 ** Note: the semantics of this word are equivalent to "step in"
381 **************************************************************************/
382 void ficlDebugXT(FICL_VM *pVM)
383 {
384     FICL_WORD *xt    = stackPopPtr(pVM->pStack);
385     WORDKIND   wk    = ficlWordClassify(xt);
386 
387     stackPushPtr(pVM->pStack, xt);
388     seeXT(pVM);
389 
390     switch (wk)
391     {
392     case COLON:
393     case DOES:
394         /*
395         ** Run the colon code and set a breakpoint at the next instruction
396         */
397         vmExecute(pVM, xt);
398         vmSetBreak(pVM, &(pVM->pSys->bpStep));
399         break;
400 
401     default:
402         vmExecute(pVM, xt);
403         break;
404     }
405 
406     return;
407 }
408 
409 
410 /**************************************************************************
411                         s t e p I n
412 ** FICL
413 ** Execute the next instruction, stepping into it if it's a colon definition
414 ** or a does> word. This is the easy kind of step.
415 **************************************************************************/
416 void stepIn(FICL_VM *pVM)
417 {
418     /*
419     ** Do one step of the inner loop
420     */
421     {
422         M_VM_STEP(pVM)
423     }
424 
425     /*
426     ** Now set a breakpoint at the next instruction
427     */
428     vmSetBreak(pVM, &(pVM->pSys->bpStep));
429 
430     return;
431 }
432 
433 
434 /**************************************************************************
435                         s t e p O v e r
436 ** FICL
437 ** Execute the next instruction atomically. This requires some insight into
438 ** the memory layout of compiled code. Set a breakpoint at the next instruction
439 ** in this word, and run until we hit it
440 **************************************************************************/
441 void stepOver(FICL_VM *pVM)
442 {
443     FICL_WORD *pFW;
444     WORDKIND kind;
445     FICL_WORD *pStep = ficlLookup(pVM->pSys, "step-break");
446     assert(pStep);
447 
448     pFW = *pVM->ip;
449     kind = ficlWordClassify(pFW);
450 
451     switch (kind)
452     {
453     case COLON:
454     case DOES:
455         /*
456         ** assume that the next cell holds an instruction
457         ** set a breakpoint there and return to the inner interp
458         */
459         pVM->pSys->bpStep.address = pVM->ip + 1;
460         pVM->pSys->bpStep.origXT =  pVM->ip[1];
461         pVM->ip[1] = pStep;
462         break;
463 
464     default:
465         stepIn(pVM);
466         break;
467     }
468 
469     return;
470 }
471 
472 
473 /**************************************************************************
474                         s t e p - b r e a k
475 ** FICL
476 ** Handles breakpoints for stepped execution.
477 ** Upon entry, bpStep contains the address and replaced instruction
478 ** of the current breakpoint.
479 ** Clear the breakpoint
480 ** Get a command from the console.
481 ** i (step in) - execute the current instruction and set a new breakpoint
482 **    at the IP
483 ** o (step over) - execute the current instruction to completion and set
484 **    a new breakpoint at the IP
485 ** g (go) - execute the current instruction and exit
486 ** q (quit) - abort current word
487 ** b (toggle breakpoint)
488 **************************************************************************/
489 void stepBreak(FICL_VM *pVM)
490 {
491     STRINGINFO si;
492     FICL_WORD *pFW;
493     FICL_WORD *pOnStep;
494 
495     if (!pVM->fRestart)
496     {
497         assert(pVM->pSys->bpStep.address);
498         assert(pVM->pSys->bpStep.origXT);
499         /*
500         ** Clear the breakpoint that caused me to run
501         ** Restore the original instruction at the breakpoint,
502         ** and restore the IP
503         */
504         pVM->ip = (IPTYPE)(pVM->pSys->bpStep.address);
505         *pVM->ip = pVM->pSys->bpStep.origXT;
506 
507         /*
508         ** If there's an onStep, do it
509         */
510         pOnStep = ficlLookup(pVM->pSys, "on-step");
511         if (pOnStep)
512             ficlExecXT(pVM, pOnStep);
513 
514         /*
515         ** Print the name of the next instruction
516         */
517         pFW = pVM->pSys->bpStep.origXT;
518         sprintf(pVM->pad, "next: %.*s", pFW->nName, pFW->name);
519 #if 0
520         if (isPrimitive(pFW))
521         {
522             strcat(pVM->pad, " ( primitive )");
523         }
524 #endif
525 
526         vmTextOut(pVM, pVM->pad, 1);
527         debugPrompt(pVM);
528     }
529     else
530     {
531         pVM->fRestart = 0;
532     }
533 
534     si = vmGetWord(pVM);
535 
536     if      (!strincmp(si.cp, "i", si.count))
537     {
538         stepIn(pVM);
539     }
540     else if (!strincmp(si.cp, "g", si.count))
541     {
542         return;
543     }
544     else if (!strincmp(si.cp, "l", si.count))
545     {
546         FICL_WORD *xt;
547         xt = findEnclosingWord(pVM, (CELL *)(pVM->ip));
548         if (xt)
549         {
550             stackPushPtr(pVM->pStack, xt);
551             seeXT(pVM);
552         }
553         else
554         {
555             vmTextOut(pVM, "sorry - can't do that", 1);
556         }
557         vmThrow(pVM, VM_RESTART);
558     }
559     else if (!strincmp(si.cp, "o", si.count))
560     {
561         stepOver(pVM);
562     }
563     else if (!strincmp(si.cp, "q", si.count))
564     {
565         ficlTextOut(pVM, FICL_PROMPT, 0);
566         vmThrow(pVM, VM_ABORT);
567     }
568     else if (!strincmp(si.cp, "x", si.count))
569     {
570         /*
571         ** Take whatever's left in the TIB and feed it to a subordinate ficlExec
572         */
573         int ret;
574         char *cp = pVM->tib.cp + pVM->tib.index;
575         int count = pVM->tib.end - cp;
576         FICL_WORD *oldRun = pVM->runningWord;
577 
578         ret = ficlExecC(pVM, cp, count);
579 
580         if (ret == VM_OUTOFTEXT)
581         {
582             ret = VM_RESTART;
583             pVM->runningWord = oldRun;
584             vmTextOut(pVM, "", 1);
585         }
586 
587         vmThrow(pVM, ret);
588     }
589     else
590     {
591         vmTextOut(pVM, "i -- step In", 1);
592         vmTextOut(pVM, "o -- step Over", 1);
593         vmTextOut(pVM, "g -- Go (execute to completion)", 1);
594         vmTextOut(pVM, "l -- List source code", 1);
595         vmTextOut(pVM, "q -- Quit (stop debugging and abort)", 1);
596         vmTextOut(pVM, "x -- eXecute the rest of the line as ficl words", 1);
597         debugPrompt(pVM);
598         vmThrow(pVM, VM_RESTART);
599     }
600 
601     return;
602 }
603 
604 
605 /**************************************************************************
606                         b y e
607 ** TOOLS
608 ** Signal the system to shut down - this causes ficlExec to return
609 ** VM_USEREXIT. The rest is up to you.
610 **************************************************************************/
611 static void bye(FICL_VM *pVM)
612 {
613     vmThrow(pVM, VM_USEREXIT);
614     return;
615 }
616 
617 
618 /**************************************************************************
619                         d i s p l a y S t a c k
620 ** TOOLS
621 ** Display the parameter stack (code for ".s")
622 **************************************************************************/
623 static void displayPStack(FICL_VM *pVM)
624 {
625     FICL_STACK *pStk = pVM->pStack;
626     int d = stackDepth(pStk);
627     int i;
628     CELL *pCell;
629 
630     vmCheckStack(pVM, 0, 0);
631 
632     if (d == 0)
633         vmTextOut(pVM, "(Stack Empty) ", 0);
634     else
635     {
636         pCell = pStk->base;
637         for (i = 0; i < d; i++)
638         {
639             vmTextOut(pVM, ltoa((*pCell++).i, pVM->pad, pVM->base), 0);
640             vmTextOut(pVM, " ", 0);
641         }
642     }
643     return;
644 }
645 
646 
647 static void displayRStack(FICL_VM *pVM)
648 {
649     FICL_STACK *pStk = pVM->rStack;
650     int d = stackDepth(pStk);
651     int i;
652     CELL *pCell;
653     FICL_DICT *dp = vmGetDict(pVM);
654 
655     vmCheckStack(pVM, 0, 0);
656 
657     if (d == 0)
658         vmTextOut(pVM, "(Stack Empty) ", 0);
659     else
660     {
661         pCell = pStk->base;
662         for (i = 0; i < d; i++)
663         {
664             CELL c = *pCell++;
665             /*
666             ** Attempt to find the word that contains the
667             ** stacked address (as if it is part of a colon definition).
668             ** If this works, print the name of the word. Otherwise print
669             ** the value as a number.
670             */
671             if (dictIncludes(dp, c.p))
672             {
673                 FICL_WORD *pFW = findEnclosingWord(pVM, c.p);
674                 if (pFW)
675                 {
676                     int offset = (CELL *)c.p - &pFW->param[0];
677                     sprintf(pVM->pad, "%s+%d ", pFW->name, offset);
678                     vmTextOut(pVM, pVM->pad, 0);
679                     continue;  /* no need to print the numeric value */
680                 }
681             }
682             vmTextOut(pVM, ltoa(c.i, pVM->pad, pVM->base), 0);
683             vmTextOut(pVM, " ", 0);
684         }
685     }
686 
687     return;
688 }
689 
690 
691 /**************************************************************************
692                         f o r g e t - w i d
693 **
694 **************************************************************************/
695 static void forgetWid(FICL_VM *pVM)
696 {
697     FICL_DICT *pDict = vmGetDict(pVM);
698     FICL_HASH *pHash;
699 
700     pHash = (FICL_HASH *)stackPopPtr(pVM->pStack);
701     hashForget(pHash, pDict->here);
702 
703     return;
704 }
705 
706 
707 /**************************************************************************
708                         f o r g e t
709 ** TOOLS EXT  ( "<spaces>name" -- )
710 ** Skip leading space delimiters. Parse name delimited by a space.
711 ** Find name, then delete name from the dictionary along with all
712 ** words added to the dictionary after name. An ambiguous
713 ** condition exists if name cannot be found.
714 **
715 ** If the Search-Order word set is present, FORGET searches the
716 ** compilation word list. An ambiguous condition exists if the
717 ** compilation word list is deleted.
718 **************************************************************************/
719 static void forget(FICL_VM *pVM)
720 {
721     void *where;
722     FICL_DICT *pDict = vmGetDict(pVM);
723     FICL_HASH *pHash = pDict->pCompile;
724 
725     ficlTick(pVM);
726     where = ((FICL_WORD *)stackPopPtr(pVM->pStack))->name;
727     hashForget(pHash, where);
728     pDict->here = PTRtoCELL where;
729 
730     return;
731 }
732 
733 
734 /**************************************************************************
735                         l i s t W o r d s
736 **
737 **************************************************************************/
738 #define nCOLWIDTH 8
739 static void listWords(FICL_VM *pVM)
740 {
741     FICL_DICT *dp = vmGetDict(pVM);
742     FICL_HASH *pHash = dp->pSearch[dp->nLists - 1];
743     FICL_WORD *wp;
744     int nChars = 0;
745     int len;
746     int y = 0;
747     unsigned i;
748     int nWords = 0;
749     char *cp;
750     char *pPad = pVM->pad;
751 
752     for (i = 0; i < pHash->size; i++)
753     {
754         for (wp = pHash->table[i]; wp != NULL; wp = wp->link, nWords++)
755         {
756             if (wp->nName == 0) /* ignore :noname defs */
757                 continue;
758 
759             cp = wp->name;
760             nChars += sprintf(pPad + nChars, "%s", cp);
761 
762             if (nChars > 70)
763             {
764                 pPad[nChars] = '\0';
765                 nChars = 0;
766                 y++;
767                 if(y>23) {
768                         y=0;
769                         vmTextOut(pVM, "--- Press Enter to continue ---",0);
770                         getchar();
771                         vmTextOut(pVM,"\r",0);
772                 }
773                 vmTextOut(pVM, pPad, 1);
774             }
775             else
776             {
777                 len = nCOLWIDTH - nChars % nCOLWIDTH;
778                 while (len-- > 0)
779                     pPad[nChars++] = ' ';
780             }
781 
782             if (nChars > 70)
783             {
784                 pPad[nChars] = '\0';
785                 nChars = 0;
786                 y++;
787                 if(y>23) {
788                         y=0;
789                         vmTextOut(pVM, "--- Press Enter to continue ---",0);
790                         getchar();
791                         vmTextOut(pVM,"\r",0);
792                 }
793                 vmTextOut(pVM, pPad, 1);
794             }
795         }
796     }
797 
798     if (nChars > 0)
799     {
800         pPad[nChars] = '\0';
801         nChars = 0;
802         vmTextOut(pVM, pPad, 1);
803     }
804 
805     sprintf(pVM->pad, "Dictionary: %d words, %ld cells used of %u total",
806         nWords, (long) (dp->here - dp->dict), dp->size);
807     vmTextOut(pVM, pVM->pad, 1);
808     return;
809 }
810 
811 
812 /**************************************************************************
813                         l i s t E n v
814 ** Print symbols defined in the environment
815 **************************************************************************/
816 static void listEnv(FICL_VM *pVM)
817 {
818     FICL_DICT *dp = pVM->pSys->envp;
819     FICL_HASH *pHash = dp->pForthWords;
820     FICL_WORD *wp;
821     unsigned i;
822     int nWords = 0;
823 
824     for (i = 0; i < pHash->size; i++)
825     {
826         for (wp = pHash->table[i]; wp != NULL; wp = wp->link, nWords++)
827         {
828             vmTextOut(pVM, wp->name, 1);
829         }
830     }
831 
832     sprintf(pVM->pad, "Environment: %d words, %ld cells used of %u total",
833         nWords, (long) (dp->here - dp->dict), dp->size);
834     vmTextOut(pVM, pVM->pad, 1);
835     return;
836 }
837 
838 
839 /**************************************************************************
840                         e n v C o n s t a n t
841 ** Ficl interface to ficlSetEnv and ficlSetEnvD - allow ficl code to set
842 ** environment constants...
843 **************************************************************************/
844 static void envConstant(FICL_VM *pVM)
845 {
846     unsigned value;
847 
848 #if FICL_ROBUST > 1
849     vmCheckStack(pVM, 1, 0);
850 #endif
851 
852     vmGetWordToPad(pVM);
853     value = POPUNS();
854     ficlSetEnv(pVM->pSys, pVM->pad, (FICL_UNS)value);
855     return;
856 }
857 
858 static void env2Constant(FICL_VM *pVM)
859 {
860     unsigned v1, v2;
861 
862 #if FICL_ROBUST > 1
863     vmCheckStack(pVM, 2, 0);
864 #endif
865 
866     vmGetWordToPad(pVM);
867     v2 = POPUNS();
868     v1 = POPUNS();
869     ficlSetEnvD(pVM->pSys, pVM->pad, v1, v2);
870     return;
871 }
872 
873 
874 /**************************************************************************
875                         f i c l C o m p i l e T o o l s
876 ** Builds wordset for debugger and TOOLS optional word set
877 **************************************************************************/
878 
879 void ficlCompileTools(FICL_SYSTEM *pSys)
880 {
881     FICL_DICT *dp = pSys->dp;
882     assert (dp);
883 
884     /*
885     ** TOOLS and TOOLS EXT
886     */
887     dictAppendWord(dp, ".s",        displayPStack,  FW_DEFAULT);
888     dictAppendWord(dp, "bye",       bye,            FW_DEFAULT);
889     dictAppendWord(dp, "forget",    forget,         FW_DEFAULT);
890     dictAppendWord(dp, "see",       see,            FW_DEFAULT);
891     dictAppendWord(dp, "words",     listWords,      FW_DEFAULT);
892 
893     /*
894     ** Set TOOLS environment query values
895     */
896     ficlSetEnv(pSys, "tools",            FICL_TRUE);
897     ficlSetEnv(pSys, "tools-ext",        FICL_FALSE);
898 
899     /*
900     ** Ficl extras
901     */
902     dictAppendWord(dp, "r.s",       displayRStack,  FW_DEFAULT); /* guy carver */
903     dictAppendWord(dp, ".env",      listEnv,        FW_DEFAULT);
904     dictAppendWord(dp, "env-constant",
905                                     envConstant,    FW_DEFAULT);
906     dictAppendWord(dp, "env-2constant",
907                                     env2Constant,   FW_DEFAULT);
908     dictAppendWord(dp, "debug-xt",  ficlDebugXT,    FW_DEFAULT);
909     dictAppendWord(dp, "parse-order",
910                                     ficlListParseSteps,
911                                                     FW_DEFAULT);
912     dictAppendWord(dp, "step-break",stepBreak,      FW_DEFAULT);
913     dictAppendWord(dp, "forget-wid",forgetWid,      FW_DEFAULT);
914     dictAppendWord(dp, "see-xt",    seeXT,          FW_DEFAULT);
915 
916     return;
917 }
918 
919