xref: /illumos-gate/usr/src/common/ficl/ficl.h (revision 9c2acf00e275b6b2125a306f33cdddcc58393220)
1 /*
2  * f i c l . h
3  * Forth Inspired Command Language
4  * Author: John Sadler (john_sadler@alum.mit.edu)
5  * Created: 19 July 1997
6  * Dedicated to RHS, in loving memory
7  * $Id: ficl.h,v 1.25 2010/10/03 09:52:12 asau Exp $
8  */
9 /*
10  * Copyright (c) 1997-2001 John Sadler (john_sadler@alum.mit.edu)
11  * All rights reserved.
12  *
13  * Get the latest Ficl release at http://ficl.sourceforge.net
14  *
15  * I am interested in hearing from anyone who uses Ficl. If you have
16  * a problem, a success story, a defect, an enhancement request, or
17  * if you would like to contribute to the Ficl release, please
18  * contact me by email at the address above.
19  *
20  * L I C E N S E  and  D I S C L A I M E R
21  *
22  * Redistribution and use in source and binary forms, with or without
23  * modification, are permitted provided that the following conditions
24  * are met:
25  * 1. Redistributions of source code must retain the above copyright
26  *    notice, this list of conditions and the following disclaimer.
27  * 2. Redistributions in binary form must reproduce the above copyright
28  *    notice, this list of conditions and the following disclaimer in the
29  *    documentation and/or other materials provided with the distribution.
30  *
31  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
32  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
33  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
34  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
35  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
36  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
37  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
38  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
39  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
40  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
41  * SUCH DAMAGE.
42  */
43 
44 #ifndef	_FICL_H
45 #define	_FICL_H
46 /*
47  * Ficl (Forth-inspired command language) is an ANS Forth
48  * interpreter written in C. Unlike traditional Forths, this
49  * interpreter is designed to be embedded into other systems
50  * as a command/macro/development prototype language.
51  *
52  * Where Forths usually view themselves as the center of the system
53  * and expect the rest of the system to be coded in Forth, Ficl
54  * acts as a component of the system. It is easy to export
55  * code written in C or ASM to Ficl in the style of TCL, or to invoke
56  * Ficl code from a compiled module. This allows you to do incremental
57  * development in a way that combines the best features of threaded
58  * languages (rapid development, quick code/test/debug cycle,
59  * reasonably fast) with the best features of C (everyone knows it,
60  * easier to support large blocks of code, efficient, type checking).
61  *
62  * Ficl provides facilities for interoperating
63  * with programs written in C: C functions can be exported to Ficl,
64  * and Ficl commands can be executed via a C calling interface. The
65  * interpreter is re-entrant, so it can be used in multiple instances
66  * in a multitasking system. Unlike Forth, Ficl's outer interpreter
67  * expects a text block as input, and returns to the caller after each
68  * text block, so the "data pump" is somewhere in external code. This
69  * is more like TCL than Forth, which usually expects to be at the center
70  * of the system, requesting input at its convenience. Each Ficl virtual
71  * machine can be bound to a different I/O channel, and is independent
72  * of all others in in the same address space except that all virtual
73  * machines share a common dictionary (a sort or open symbol table that
74  * defines all of the elements of the language).
75  *
76  * Code is written in ANSI C for portability.
77  *
78  * Summary of Ficl features and constraints:
79  * - Standard: Implements the ANSI Forth CORE word set and part
80  *   of the CORE EXT word-set, SEARCH and SEARCH EXT, TOOLS and
81  *   TOOLS EXT, LOCAL and LOCAL ext and various extras.
82  * - Extensible: you can export code written in Forth, C,
83  *   or asm in a straightforward way. Ficl provides open
84  *   facilities for extending the language in an application
85  *   specific way. You can even add new control structures!
86  * - Ficl and C can interact in two ways: Ficl can encapsulate
87  *   C code, or C code can invoke Ficl code.
88  * - Thread-safe, re-entrant: The shared system dictionary
89  *   uses a locking mechanism that you can either supply
90  *   or stub out to provide exclusive access. Each Ficl
91  *   virtual machine has an otherwise complete state, and
92  *   each can be bound to a separate I/O channel (or none at all).
93  * - Simple encapsulation into existing systems: a basic implementation
94  *   requires three function calls (see the example program in testmain.c).
95  * - ROMable: Ficl is designed to work in RAM-based and ROM code / RAM data
96  *   environments. It does require somewhat more memory than a pure
97  *   ROM implementation because it builds its system dictionary in
98  *   RAM at startup time.
99  * - Written an ANSI C to be as simple as I can make it to understand,
100  *   support, debug, and port. Compiles without complaint at /Az /W4
101  *   (require ANSI C, max warnings) under Microsoft VC++ 5.
102  * - Does full 32 bit math (but you need to implement
103  *   two mixed precision math primitives (see sysdep.c))
104  * - Indirect threaded interpreter is not the fastest kind of
105  *   Forth there is (see pForth 68K for a really fast subroutine
106  *   threaded interpreter), but it's the cleanest match to a
107  *   pure C implementation.
108  *
109  * P O R T I N G   F i c l
110  *
111  * To install Ficl on your target system, you need an ANSI C compiler
112  * and its runtime library. Inspect the system dependent macros and
113  * functions in sysdep.h and sysdep.c and edit them to suit your
114  * system. For example, INT16 is a short on some compilers and an
115  * int on others. Check the default CELL alignment controlled by
116  * FICL_ALIGN. If necessary, add new definitions of ficlMalloc, ficlFree,
117  * ficlLockDictionary, and ficlCallbackDefaultTextOut to work with your
118  * operating system.  Finally, use testmain.c as a guide to installing the
119  * Ficl system and one or more virtual machines into your code. You do not
120  * need to include testmain.c in your build.
121  *
122  * T o   D o   L i s t
123  *
124  * 1. Unimplemented system dependent CORE word: key
125  * 2. Ficl uses the PAD in some CORE words - this violates the standard,
126  *    but it's cleaner for a multithreaded system. I'll have to make a
127  *    second pad for reference by the word PAD to fix this.
128  *
129  * F o r   M o r e   I n f o r m a t i o n
130  *
131  * Web home of Ficl
132  *   http://ficl.sourceforge.net
133  * Check this website for Forth literature (including the ANSI standard)
134  *   http://www.taygeta.com/forthlit.html
135  * and here for software and more links
136  *   http://www.taygeta.com/forth.html
137  */
138 
139 #ifdef __cplusplus
140 extern "C" {
141 #endif
142 
143 #ifdef _STANDALONE
144 #include <stand.h>
145 #include <sys/stdint.h>
146 #include <sys/linker_set.h>
147 #else
148 #include <ctype.h>
149 #include <stdio.h>
150 #include <stdlib.h>
151 #include <stdint.h>
152 #include <string.h>
153 
154 extern void pager_open(void);
155 extern int pager_output(const char *);
156 extern void pager_close(void);
157 #endif
158 #include <setjmp.h>
159 #include <stdarg.h>
160 
161 /*
162  * Put all your local defines in ficllocal.h,
163  * rather than editing the makefile/project/etc.
164  * ficllocal.h will always ship as an inert file.
165  */
166 
167 #include "ficllocal.h"
168 #include "ficlplatform/unix.h"
169 
170 /*
171  *
172  * B U I L D   C O N T R O L S
173  *
174  * First, the FICL_WANT_* settings.
175  * These are all optional settings that you may or may not
176  * want Ficl to use.
177  *
178  */
179 
180 /*
181  * FICL_WANT_MINIMAL
182  * If set to nonzero, build the smallest possible Ficl interpreter.
183  */
184 #if !defined(FICL_WANT_MINIMAL)
185 #define	FICL_WANT_MINIMAL		(0)
186 #endif
187 
188 #if FICL_WANT_MINIMAL
189 #define	FICL_WANT_SOFTWORDS		(0)
190 #define	FICL_WANT_FILE			(0)
191 #define	FICL_WANT_FLOAT			(0)
192 #define	FICL_WANT_USER			(0)
193 #define	FICL_WANT_LOCALS		(0)
194 #define	FICL_WANT_DEBUGGER		(0)
195 #define	FICL_WANT_OOP			(0)
196 #define	FICL_WANT_PLATFORM		(0)
197 #define	FICL_WANT_MULTITHREADED		(0)
198 #define	FICL_WANT_EXTENDED_PREFIX	(0)
199 
200 #define	FICL_ROBUST			(0)
201 
202 #endif /* FICL_WANT_MINIMAL */
203 
204 /*
205  * FICL_WANT_PLATFORM
206  * Includes words defined in ficlCompilePlatform
207  * (see ficlplatform/win32.c and ficlplatform/unix.c for example)
208  */
209 #if !defined(FICL_WANT_PLATFORM)
210 #define	FICL_WANT_PLATFORM	(1)
211 #endif /* FICL_WANT_PLATFORM */
212 
213 /*
214  * FICL_WANT_LZ4_SOFTCORE
215  * If nonzero, the softcore words are stored compressed
216  * with patent-unencumbered LZ4 compression.
217  * This results in a smaller Ficl interpreter, and adds
218  * only a *tiny* runtime speed hit.
219  *
220  * Original LZ77 contributed by Larry Hastings.
221  * Updated to LZ4 which is even more space efficient.
222  */
223 #if !defined(FICL_WANT_LZ4_SOFTCORE)
224 #define	FICL_WANT_LZ4_SOFTCORE	(1)
225 #endif /* FICL_WANT_LZ4_SOFTCORE */
226 
227 /*
228  * FICL_WANT_FILE
229  * Includes the FILE and FILE-EXT wordset and associated code.
230  * Turn this off if you do not have a file system!
231  * Contributed by Larry Hastings
232  */
233 #if !defined(FICL_WANT_FILE)
234 #define	FICL_WANT_FILE	(0)
235 #endif /* FICL_WANT_FILE */
236 
237 /*
238  * FICL_WANT_FLOAT
239  * Includes a floating point stack for the VM, and words to do float operations.
240  * Contributed by Guy Carver
241  */
242 #if !defined(FICL_WANT_FLOAT)
243 #define	FICL_WANT_FLOAT	(1)
244 #endif /* FICL_WANT_FLOAT */
245 
246 /*
247  * FICL_WANT_DEBUGGER
248  * Inludes a simple source level debugger
249  */
250 #if !defined(FICL_WANT_DEBUGGER)
251 #define	FICL_WANT_DEBUGGER	(1)
252 #endif /* FICL_WANT_DEBUGGER */
253 
254 /*
255  * FICL_EXTENDED_PREFIX
256  * Enables a bunch of extra prefixes in prefix.c
257  * and prefix.fr (if included as part of softcore.c)
258  */
259 #if !defined(FICL_WANT_EXTENDED_PREFIX)
260 #define	FICL_WANT_EXTENDED_PREFIX	(1)
261 #endif /* FICL_WANT_EXTENDED_PREFIX */
262 
263 /*
264  * FICL_WANT_USER
265  * Enables user variables: per-instance variables bound to the VM.
266  * Kind of like thread-local storage. Could be implemented in a
267  * VM private dictionary, but I've chosen the lower overhead
268  * approach of an array of CELLs instead.
269  */
270 #if !defined(FICL_WANT_USER)
271 #define	FICL_WANT_USER	(1)
272 #endif /* FICL_WANT_USER */
273 
274 /*
275  * FICL_WANT_LOCALS
276  * Controls the creation of the LOCALS wordset
277  * and a private dictionary for local variable compilation.
278  */
279 #if !defined FICL_WANT_LOCALS
280 #define	FICL_WANT_LOCALS	(1)
281 #endif /* FICL_WANT_LOCALS */
282 
283 /*
284  * FICL_WANT_OOP
285  * Inludes object oriented programming support (in softwords)
286  * OOP support requires locals and user variables!
287  */
288 #if !defined(FICL_WANT_OOP)
289 #define	FICL_WANT_OOP	((FICL_WANT_LOCALS) && (FICL_WANT_USER))
290 #endif /* FICL_WANT_OOP */
291 
292 /*
293  * FICL_WANT_SOFTWORDS
294  * Controls inclusion of all softwords in softcore.c.
295  */
296 #if !defined(FICL_WANT_SOFTWORDS)
297 #define	FICL_WANT_SOFTWORDS	(1)
298 #endif /* FICL_WANT_SOFTWORDS */
299 
300 /*
301  * FICL_WANT_MULTITHREADED
302  * Enables dictionary mutual exclusion wia the
303  * ficlLockDictionary() system dependent function.
304  *
305  * Note: this implementation is experimental and poorly
306  * tested. Further, it's unnecessary unless you really
307  * intend to have multiple SESSIONS (poor choice of name
308  * on my part) - that is, threads that modify the dictionary
309  * at the same time.
310  */
311 #if !defined FICL_WANT_MULTITHREADED
312 #define	FICL_WANT_MULTITHREADED	(0)
313 #endif /* FICL_WANT_MULTITHREADED */
314 
315 /*
316  * FICL_WANT_OPTIMIZE
317  * Do you want to optimize for size, or for speed?
318  * Note that this doesn't affect Ficl very much one way
319  * or the other at the moment.
320  * Contributed by Larry Hastings
321  */
322 #define	FICL_OPTIMIZE_FOR_SPEED	(1)
323 #define	FICL_OPTIMIZE_FOR_SIZE	(2)
324 #if !defined(FICL_WANT_OPTIMIZE)
325 #define	FICL_WANT_OPTIMIZE FICL_OPTIMIZE_FOR_SPEED
326 #endif /* FICL_WANT_OPTIMIZE */
327 
328 /*
329  * FICL_WANT_VCALL
330  * Ficl OO support for calling vtable methods.  Win32 only.
331  * Contributed by Guy Carver
332  */
333 #if !defined(FICL_WANT_VCALL)
334 #define	FICL_WANT_VCALL	(0)
335 #endif /* FICL_WANT_VCALL */
336 
337 /*
338  * P L A T F O R M   S E T T I N G S
339  *
340  * The FICL_PLATFORM_* settings.
341  * These indicate attributes about the local platform.
342  */
343 
344 /*
345  * FICL_PLATFORM_OS
346  * String constant describing the current hardware architecture.
347  */
348 #if !defined(FICL_PLATFORM_ARCHITECTURE)
349 #define	FICL_PLATFORM_ARCHITECTURE	"unknown"
350 #endif
351 
352 /*
353  * FICL_PLATFORM_OS
354  * String constant describing the current operating system.
355  */
356 #if !defined(FICL_PLATFORM_OS)
357 #define	FICL_PLATFORM_OS	"unknown"
358 #endif
359 
360 /*
361  * FICL_PLATFORM_HAS_2INTEGER
362  * Indicates whether or not the current architecture
363  * supports a native double-width integer type.
364  * If you set this to 1 in your ficlplatform/ *.h file,
365  * you *must* create typedefs for the following two types:
366  *        ficl2Unsigned
367  *        ficl2Integer
368  * If this is set to 0, Ficl will implement double-width
369  * integer math in C, which is both bigger *and* slower
370  * (the double whammy!).  Make sure your compiler really
371  * genuinely doesn't support native double-width integers
372  * before setting this to 0.
373  */
374 #if !defined(FICL_PLATFORM_HAS_2INTEGER)
375 #define	FICL_PLATFORM_HAS_2INTEGER	(0)
376 #endif
377 
378 /*
379  * FICL_PLATFORM_HAS_FTRUNCATE
380  * Indicates whether or not the current platform provides
381  * the ftruncate() function (available on most UNIXes).
382  * This function is necessary to provide the complete
383  * File-Access wordset.
384  *
385  * If your platform does not have ftruncate() per se,
386  * but does have some method of truncating files, you
387  * should be able to implement ftruncate() yourself and
388  * set this constant to 1.  For an example of this see
389  * "ficlplatform/win32.c".
390  */
391 #if !defined(FICL_PLATFORM_HAS_FTRUNCATE)
392 #define	FICL_PLATFORM_HAS_FTRUNCATE	(0)
393 #endif
394 
395 /*
396  * FICL_PLATFORM_INLINE
397  * Must be defined, should be a function prototype type-modifying
398  * keyword that makes a function "inline".  Ficl does not assume
399  * that the local platform supports inline functions; it therefore
400  * only uses "inline" where "static" would also work, and uses "static"
401  * in the absence of another keyword.
402  */
403 #if !defined FICL_PLATFORM_INLINE
404 #define	FICL_PLATFORM_INLINE	inline
405 #endif /* !defined FICL_PLATFORM_INLINE */
406 
407 /*
408  * FICL_PLATFORM_EXTERN
409  * Must be defined, should be a keyword used to declare
410  * a function prototype as being a genuine prototype.
411  * You should only have to fiddle with this setting if
412  * you're not using an ANSI-compliant compiler, in which
413  * case, good luck!
414  */
415 #if !defined FICL_PLATFORM_EXTERN
416 #define	FICL_PLATFORM_EXTERN	extern
417 #endif /* !defined FICL_PLATFORM_EXTERN */
418 
419 /*
420  * FICL_PLATFORM_BASIC_TYPES
421  *
422  * If not defined yet,
423  */
424 #if !defined(FICL_PLATFORM_BASIC_TYPES)
425 typedef char ficlInteger8;
426 typedef unsigned char ficlUnsigned8;
427 typedef short ficlInteger16;
428 typedef unsigned short ficlUnsigned16;
429 typedef long ficlInteger32;
430 typedef unsigned long ficlUnsigned32;
431 
432 typedef ficlInteger32 ficlInteger;
433 typedef ficlUnsigned32 ficlUnsigned;
434 typedef float ficlFloat;
435 
436 #endif /* !defined(FICL_PLATFORM_BASIC_TYPES) */
437 
438 /*
439  * FICL_ROBUST enables bounds checking of stacks and the dictionary.
440  * This will detect stack over and underflows and dictionary overflows.
441  * Any exceptional condition will result in an assertion failure.
442  * (As generated by the ANSI assert macro)
443  * FICL_ROBUST == 1 --> stack checking in the outer interpreter
444  * FICL_ROBUST == 2 also enables checking in many primitives
445  */
446 
447 #if !defined FICL_ROBUST
448 #define	FICL_ROBUST	(2)
449 #endif /* FICL_ROBUST */
450 
451 /*
452  * FICL_DEFAULT_STACK_SIZE Specifies the default size (in CELLs) of
453  * a new virtual machine's stacks, unless overridden at
454  * create time.
455  */
456 #if !defined FICL_DEFAULT_STACK_SIZE
457 #define	FICL_DEFAULT_STACK_SIZE	(128)
458 #endif
459 
460 /*
461  * FICL_DEFAULT_DICTIONARY_SIZE specifies the number of ficlCells to allocate
462  * for the system dictionary by default. The value
463  * can be overridden at startup time as well.
464  */
465 #if !defined FICL_DEFAULT_DICTIONARY_SIZE
466 #define	FICL_DEFAULT_DICTIONARY_SIZE	(12288)
467 #endif
468 
469 /*
470  * FICL_DEFAULT_ENVIRONMENT_SIZE specifies the number of cells
471  * to allot for the environment-query dictionary.
472  */
473 #if !defined FICL_DEFAULT_ENVIRONMENT_SIZE
474 #define	FICL_DEFAULT_ENVIRONMENT_SIZE	(512)
475 #endif
476 
477 /*
478  * FICL_MAX_WORDLISTS specifies the maximum number of wordlists in
479  * the dictionary search order. See Forth DPANS sec 16.3.3
480  * (file://dpans16.htm#16.3.3)
481  */
482 #if !defined FICL_MAX_WORDLISTS
483 #define	FICL_MAX_WORDLISTS	(16)
484 #endif
485 
486 /*
487  * FICL_MAX_PARSE_STEPS controls the size of an array in the FICL_SYSTEM
488  * structure that stores pointers to parser extension functions. I would
489  * never expect to have more than 8 of these, so that's the default limit.
490  * Too many of these functions will probably exact a nasty performance penalty.
491  */
492 #if !defined FICL_MAX_PARSE_STEPS
493 #define	FICL_MAX_PARSE_STEPS	(8)
494 #endif
495 
496 /*
497  * Maximum number of local variables per definition.
498  * This only affects the size of the locals dictionary,
499  * and there's only one per entire ficlSystem, so it
500  * doesn't make sense to be a piker here.
501  */
502 #if (!defined(FICL_MAX_LOCALS)) && FICL_WANT_LOCALS
503 #define	FICL_MAX_LOCALS	(64)
504 #endif
505 
506 /*
507  * The pad is a small scratch area for text manipulation. ANS Forth
508  * requires it to hold at least 84 characters.
509  */
510 #if !defined FICL_PAD_SIZE
511 #define	FICL_PAD_SIZE	(256)
512 #endif
513 
514 /*
515  * ANS Forth requires that a word's name contain {1..31} characters.
516  */
517 #if !defined FICL_NAME_LENGTH
518 #define	FICL_NAME_LENGTH	(31)
519 #endif
520 
521 /*
522  * Default size of hash table. For most uniform
523  * performance, use a prime number!
524  */
525 #if !defined FICL_HASH_SIZE
526 #define	FICL_HASH_SIZE	(241)
527 #endif
528 
529 /*
530  * Default number of USER flags.
531  */
532 #if (!defined(FICL_USER_CELLS)) && FICL_WANT_USER
533 #define	FICL_USER_CELLS	(16)
534 #endif
535 
536 /*
537  * Forward declarations... read on.
538  */
539 struct ficlWord;
540 typedef struct ficlWord ficlWord;
541 struct ficlVm;
542 typedef struct ficlVm ficlVm;
543 struct ficlDictionary;
544 typedef struct ficlDictionary ficlDictionary;
545 struct ficlSystem;
546 typedef struct ficlSystem ficlSystem;
547 struct ficlSystemInformation;
548 typedef struct ficlSystemInformation ficlSystemInformation;
549 struct ficlCallback;
550 typedef struct ficlCallback ficlCallback;
551 struct ficlCountedString;
552 typedef struct ficlCountedString ficlCountedString;
553 struct ficlString;
554 typedef struct ficlString ficlString;
555 
556 
557 /*
558  * System dependent routines:
559  * Edit the implementations in your appropriate ficlplatform/ *.c to be
560  * compatible with your runtime environment.
561  *
562  * ficlCallbackDefaultTextOut sends a zero-terminated string to the
563  *	default output device - used for system error messages.
564  *
565  * ficlMalloc(), ficlRealloc() and ficlFree() have the same semantics
566  * as the functions malloc(), realloc(), and free() from the standard C library.
567  */
568 FICL_PLATFORM_EXTERN void ficlCallbackDefaultTextOut(ficlCallback *callback,
569     char *text);
570 FICL_PLATFORM_EXTERN void *ficlMalloc(size_t size);
571 FICL_PLATFORM_EXTERN void  ficlFree(void *p);
572 FICL_PLATFORM_EXTERN void *ficlRealloc(void *p, size_t size);
573 
574 /*
575  * the Good Stuff starts here...
576  */
577 #define	FICL_VERSION	"4.1.0"
578 #define	FICL_VERSION_MAJOR	4
579 #define	FICL_VERSION_MINOR	1
580 
581 #if !defined(FICL_PROMPT)
582 #define	FICL_PROMPT		"ok> "
583 #endif
584 
585 /*
586  * ANS Forth requires false to be zero, and true to be the ones
587  * complement of false... that unifies logical and bitwise operations
588  * nicely.
589  */
590 #define	FICL_TRUE	((unsigned long)~(0L))
591 #define	FICL_FALSE	(0)
592 #define	FICL_BOOL(x)	((x) ? FICL_TRUE : FICL_FALSE)
593 
594 
595 #if !defined FICL_IGNORE	/* Macro to silence unused param warnings */
596 #define	FICL_IGNORE(x)	(void)x
597 #endif /*  !defined FICL_IGNORE */
598 
599 #if !defined NULL
600 #define	NULL	((void *)0)
601 #endif
602 
603 /*
604  * 2integer structures
605  */
606 #if FICL_PLATFORM_HAS_2INTEGER
607 
608 #define	FICL_2INTEGER_SET(high, low, doublei)	\
609 	((doublei) = (ficl2Integer)(((ficlUnsigned)(low)) | \
610 	(((ficl2Integer)(high)) << FICL_BITS_PER_CELL)))
611 #define	FICL_2UNSIGNED_SET(high, low, doubleu)	\
612 	((doubleu) = ((ficl2Unsigned)(low)) | \
613 	(((ficl2Unsigned)(high)) << FICL_BITS_PER_CELL))
614 #define	FICL_2UNSIGNED_GET_LOW(doubleu)	\
615 	((ficlUnsigned)(doubleu & ((((ficl2Integer)1) << \
616 	FICL_BITS_PER_CELL) - 1)))
617 #define	FICL_2UNSIGNED_GET_HIGH(doubleu)	\
618 	((ficlUnsigned)(doubleu >> FICL_BITS_PER_CELL))
619 #define	FICL_2UNSIGNED_NOT_ZERO(doubleu)	((doubleu) != 0)
620 
621 #define	FICL_INTEGER_TO_2INTEGER(i, doublei)	((doublei) = (i))
622 #define	FICL_UNSIGNED_TO_2UNSIGNED(u, doubleu)	((doubleu) = (u))
623 
624 #define	ficl2IntegerIsNegative(doublei)	((doublei) < 0)
625 #define	ficl2IntegerNegate(doublei)	(-(doublei))
626 
627 #define	ficl2IntegerMultiply(x, y)	\
628 	(((ficl2Integer)(x)) * ((ficl2Integer)(y)))
629 #define	ficl2IntegerDecrement(x)	(((ficl2Integer)(x)) - 1)
630 
631 #define	ficl2UnsignedAdd(x, y)	(((ficl2Unsigned)(x)) + ((ficl2Unsigned)(y)))
632 #define	ficl2UnsignedSubtract(x, y)	\
633 	(((ficl2Unsigned)(x)) - ((ficl2Unsigned)(y)))
634 #define	ficl2UnsignedMultiply(x, y)	\
635 	(((ficl2Unsigned)(x)) * ((ficl2Unsigned)(y)))
636 #define	ficl2UnsignedMultiplyAccumulate(u, mul, add)	(((u) * (mul)) + (add))
637 #define	ficl2UnsignedArithmeticShiftLeft(x)	((x) << 1)
638 #define	ficl2UnsignedArithmeticShiftRight(x)	((x) >> 1)
639 #define	ficl2UnsignedCompare(x, y)	ficl2UnsignedSubtract(x, y)
640 #define	ficl2UnsignedOr(x, y)	((x) | (y))
641 
642 #else /* FICL_PLATFORM_HAS_2INTEGER */
643 
644 typedef struct
645 {
646 	ficlUnsigned high;
647 	ficlUnsigned low;
648 } ficl2Unsigned;
649 
650 typedef struct
651 {
652 	ficlInteger high;
653 	ficlInteger low;
654 } ficl2Integer;
655 
656 
657 #define	FICL_2INTEGER_SET(hi, lo, doublei)	\
658 	{ ficl2Integer x; x.low = (lo); x.high = (hi); (doublei) = x; }
659 #define	FICL_2UNSIGNED_SET(hi, lo, doubleu)	\
660 	{ ficl2Unsigned x; x.low = (lo); x.high = (hi); (doubleu) = x; }
661 #define	FICL_2UNSIGNED_GET_LOW(doubleu)	((doubleu).low)
662 #define	FICL_2UNSIGNED_GET_HIGH(doubleu)	((doubleu).high)
663 #define	FICL_2UNSIGNED_NOT_ZERO(doubleu) ((doubleu).high || (doubleu).low)
664 
665 #define	FICL_INTEGER_TO_2INTEGER(i, doublei)	\
666 	{ ficlInteger __x = (ficlInteger)(i);	\
667 	FICL_2INTEGER_SET((__x < 0) ? -1L : 0, __x, doublei) }
668 #define	FICL_UNSIGNED_TO_2UNSIGNED(u, doubleu)	\
669 	FICL_2UNSIGNED_SET(0, u, doubleu)
670 
671 FICL_PLATFORM_EXTERN int ficl2IntegerIsNegative(ficl2Integer x);
672 FICL_PLATFORM_EXTERN ficl2Integer ficl2IntegerNegate(ficl2Integer x);
673 
674 FICL_PLATFORM_EXTERN ficl2Integer ficl2IntegerMultiply(ficlInteger x,
675     ficlInteger y);
676 FICL_PLATFORM_EXTERN ficl2Integer ficl2IntegerDecrement(ficl2Integer x);
677 
678 FICL_PLATFORM_EXTERN ficl2Unsigned ficl2UnsignedAdd(ficl2Unsigned x,
679     ficl2Unsigned y);
680 FICL_PLATFORM_EXTERN ficl2Unsigned ficl2UnsignedSubtract(ficl2Unsigned x,
681     ficl2Unsigned y);
682 FICL_PLATFORM_EXTERN ficl2Unsigned ficl2UnsignedMultiply(ficlUnsigned x,
683     ficlUnsigned y);
684 FICL_PLATFORM_EXTERN ficl2Unsigned
685     ficl2UnsignedMultiplyAccumulate(ficl2Unsigned u, ficlUnsigned mul,
686     ficlUnsigned add);
687 FICL_PLATFORM_EXTERN ficl2Unsigned
688     ficl2UnsignedArithmeticShiftLeft(ficl2Unsigned x);
689 FICL_PLATFORM_EXTERN ficl2Unsigned
690     ficl2UnsignedArithmeticShiftRight(ficl2Unsigned x);
691 FICL_PLATFORM_EXTERN int ficl2UnsignedCompare(ficl2Unsigned x,
692     ficl2Unsigned y);
693 FICL_PLATFORM_EXTERN ficl2Unsigned
694     ficl2UnsignedOr(ficl2Unsigned x, ficl2Unsigned y);
695 
696 #endif /* FICL_PLATFORM_HAS_2INTEGER */
697 
698 /*
699  * These structures represent the result of division.
700  */
701 typedef struct
702 {
703 	ficl2Unsigned quotient;
704 	ficlUnsigned remainder;
705 } __attribute__((may_alias)) ficl2UnsignedQR;
706 
707 typedef struct
708 {
709 	ficl2Integer quotient;
710 	ficlInteger remainder;
711 } __attribute__((may_alias)) ficl2IntegerQR;
712 
713 
714 #define	FICL_2INTEGERQR_TO_2UNSIGNEDQR(doubleiqr)	\
715 	(*(ficl2UnsignedQR *)(&(doubleiqr)))
716 #define	FICL_2UNSIGNEDQR_TO_2INTEGERQR(doubleuqr)	\
717 	(*(ficl2IntegerQR *)(&(doubleuqr)))
718 
719 /*
720  * 64 bit integer math support routines: multiply two UNS32s
721  * to get a 64 bit product, & divide the product by an UNS32
722  * to get an UNS32 quotient and remainder. Much easier in asm
723  * on a 32 bit CPU than in C, which usually doesn't support
724  * the double length result (but it should).
725  */
726 FICL_PLATFORM_EXTERN ficl2IntegerQR
727     ficl2IntegerDivideFloored(ficl2Integer num, ficlInteger den);
728 FICL_PLATFORM_EXTERN ficl2IntegerQR
729     ficl2IntegerDivideSymmetric(ficl2Integer num, ficlInteger den);
730 
731 FICL_PLATFORM_EXTERN ficl2UnsignedQR
732     ficl2UnsignedDivide(ficl2Unsigned q, ficlUnsigned y);
733 
734 /*
735  * A ficlCell is the main storage type. It must be large enough
736  * to contain a pointer or a scalar. In order to accommodate
737  * 32 bit and 64 bit processors, use abstract types for int,
738  * unsigned, and float.
739  *
740  * A ficlUnsigned, ficlInteger, and ficlFloat *MUST* be the same
741  * size as a "void *" on the target system.  (Sorry, but that's
742  * a design constraint of FORTH.)
743  */
744 typedef union ficlCell
745 {
746     ficlInteger i;
747     ficlUnsigned u;
748 #if (FICL_WANT_FLOAT)
749     ficlFloat f;
750 #endif
751     void *p;
752     void (*fn)(void);
753 } __attribute__((may_alias)) ficlCell;
754 
755 
756 #define	FICL_BITS_PER_CELL	(sizeof (ficlCell) * 8)
757 
758 /*
759  * FICL_PLATFORM_ALIGNMENT is the number of bytes to which
760  * the dictionary pointer address must be aligned. This value
761  * is usually either 2 or 4, depending on the memory architecture
762  * of the target system; 4 is safe on any 16 or 32 bit
763  * machine.  8 would be appropriate for a 64 bit machine.
764  */
765 #if !defined FICL_PLATFORM_ALIGNMENT
766 #define	FICL_PLATFORM_ALIGNMENT	(4)
767 #endif
768 
769 /*
770  * PTRtoCELL is a cast through void * intended to satisfy the
771  * most outrageously pedantic compiler... (I won't mention
772  * its name)
773  */
774 #define	FICL_POINTER_TO_CELL(p)	((ficlCell *)(void *)p)
775 
776 /*
777  * FORTH defines the "counted string" data type.  This is
778  * a "Pascal-style" string, where the first byte is an unsigned
779  * count of characters, followed by the characters themselves.
780  * The Ficl structure for this is ficlCountedString.
781  * Ficl also often zero-terminates them so that they work with the
782  * usual C runtime library string functions... strlen(), strcmp(),
783  * and the like.  (Belt & suspenders?  You decide.)
784  *
785  * The problem is, this limits strings to 255 characters, which
786  * can be a bit constricting to us wordy types.  So FORTH only
787  * uses counted strings for backwards compatibility, and all new
788  * words are "c-addr u" style, where the address and length are
789  * stored separately, and the length is a full unsigned "cell" size.
790  * (For more on this trend, see DPANS94 section A.3.1.3.4.)
791  * Ficl represents this with the ficlString structure.  Note that
792  * these are frequently *not* zero-terminated!  Don't depend on
793  * it--that way lies madness.
794  */
795 
796 struct ficlCountedString
797 {
798     ficlUnsigned8 length;
799     char text[1];
800 };
801 
802 #define	FICL_COUNTED_STRING_GET_LENGTH(cs)	((cs).length)
803 #define	FICL_COUNTED_STRING_GET_POINTER(cs)	((cs).text)
804 
805 #define	FICL_COUNTED_STRING_MAX	(256)
806 #define	FICL_POINTER_TO_COUNTED_STRING(p)	((ficlCountedString *)(void *)p)
807 
808 struct ficlString
809 {
810     ficlUnsigned length;
811     char *text;
812 };
813 
814 
815 #define	FICL_STRING_GET_LENGTH(fs)	((fs).length)
816 #define	FICL_STRING_GET_POINTER(fs)	((fs).text)
817 #define	FICL_STRING_SET_LENGTH(fs, l)	((fs).length = (ficlUnsigned)(l))
818 #define	FICL_STRING_SET_POINTER(fs, p)	((fs).text = (char *)(p))
819 #define	FICL_STRING_SET_FROM_COUNTED_STRING(string, countedstring)	\
820 	{(string).text = (countedstring).text;	\
821 	(string).length = (countedstring).length; }
822 /*
823  * Init a FICL_STRING from a pointer to a zero-terminated string
824  */
825 #define	FICL_STRING_SET_FROM_CSTRING(string, cstring) \
826 	{(string).text = (cstring); (string).length = strlen(cstring); }
827 
828 /*
829  * Ficl uses this little structure to hold the address of
830  * the block of text it's working on and an index to the next
831  * unconsumed character in the string. Traditionally, this is
832  * done by a Text Input Buffer, so I've called this struct TIB.
833  *
834  * Since this structure also holds the size of the input buffer,
835  * and since evaluate requires that, let's put the size here.
836  * The size is stored as an end-pointer because that is what the
837  * null-terminated string aware functions find most easy to deal
838  * with.
839  * Notice, though, that nobody really uses this except evaluate,
840  * so it might just be moved to ficlVm instead. (sobral)
841  */
842 typedef struct
843 {
844     ficlInteger index;
845     char *end;
846     char *text;
847 } ficlTIB;
848 
849 /*
850  * Stacks get heavy use in Ficl and Forth...
851  * Each virtual machine implements two of them:
852  * one holds parameters (data), and the other holds return
853  * addresses and control flow information for the virtual
854  * machine. (Note: C's automatic stack is implicitly used,
855  * but not modeled because it doesn't need to be...)
856  * Here's an abstract type for a stack
857  */
858 typedef struct ficlStack
859 {
860     ficlUnsigned size;	/* size of the stack, in cells */
861     ficlCell *frame;	/* link reg for stack frame */
862     ficlCell *top;	/* stack pointer */
863     ficlVm *vm;		/* used for debugging */
864     char *name;		/* used for debugging */
865     ficlCell base[1];	/* Top of stack */
866 } ficlStack;
867 
868 /*
869  * Stack methods... many map closely to required Forth words.
870  */
871 FICL_PLATFORM_EXTERN ficlStack *
872     ficlStackCreate(ficlVm *vm, char *name, unsigned nCells);
873 FICL_PLATFORM_EXTERN void ficlStackDestroy(ficlStack *stack);
874 FICL_PLATFORM_EXTERN int ficlStackDepth(ficlStack *stack);
875 FICL_PLATFORM_EXTERN void ficlStackDrop(ficlStack *stack, int n);
876 FICL_PLATFORM_EXTERN ficlCell ficlStackFetch(ficlStack *stack, int n);
877 FICL_PLATFORM_EXTERN ficlCell ficlStackGetTop(ficlStack *stack);
878 FICL_PLATFORM_EXTERN void ficlStackPick(ficlStack *stack, int n);
879 FICL_PLATFORM_EXTERN ficlCell ficlStackPop(ficlStack *stack);
880 FICL_PLATFORM_EXTERN void ficlStackPush(ficlStack *stack, ficlCell c);
881 FICL_PLATFORM_EXTERN void ficlStackReset(ficlStack *stack);
882 FICL_PLATFORM_EXTERN void ficlStackRoll(ficlStack *stack, int n);
883 FICL_PLATFORM_EXTERN void ficlStackSetTop(ficlStack *stack, ficlCell c);
884 FICL_PLATFORM_EXTERN void ficlStackStore(ficlStack *stack, int n, ficlCell c);
885 
886 #if FICL_WANT_LOCALS
887 FICL_PLATFORM_EXTERN void ficlStackLink(ficlStack *stack, int nCells);
888 FICL_PLATFORM_EXTERN void ficlStackUnlink(ficlStack *stack);
889 #endif /* FICL_WANT_LOCALS */
890 
891 FICL_PLATFORM_EXTERN void *ficlStackPopPointer(ficlStack *stack);
892 FICL_PLATFORM_EXTERN ficlUnsigned ficlStackPopUnsigned(ficlStack *stack);
893 FICL_PLATFORM_EXTERN ficlInteger ficlStackPopInteger(ficlStack *stack);
894 FICL_PLATFORM_EXTERN void ficlStackPushPointer(ficlStack *stack, void *ptr);
895 FICL_PLATFORM_EXTERN void
896 	ficlStackPushUnsigned(ficlStack *stack, ficlUnsigned u);
897 FICL_PLATFORM_EXTERN void ficlStackPushInteger(ficlStack *stack, ficlInteger i);
898 
899 #if (FICL_WANT_FLOAT)
900 FICL_PLATFORM_EXTERN ficlFloat ficlStackPopFloat(ficlStack *stack);
901 FICL_PLATFORM_EXTERN void ficlStackPushFloat(ficlStack *stack, ficlFloat f);
902 #endif
903 
904 FICL_PLATFORM_EXTERN void
905 	ficlStackPush2Integer(ficlStack *stack, ficl2Integer i64);
906 FICL_PLATFORM_EXTERN ficl2Integer ficlStackPop2Integer(ficlStack *stack);
907 FICL_PLATFORM_EXTERN void
908 	ficlStackPush2Unsigned(ficlStack *stack, ficl2Unsigned u64);
909 FICL_PLATFORM_EXTERN ficl2Unsigned ficlStackPop2Unsigned(ficlStack *stack);
910 
911 #if FICL_ROBUST >= 1
912 FICL_PLATFORM_EXTERN void
913 	ficlStackCheck(ficlStack *stack, int popCells, int pushCells);
914 #define	FICL_STACK_CHECK(stack, popCells, pushCells)	\
915 	ficlStackCheck(stack, popCells, pushCells)
916 #else /* FICL_ROBUST >= 1 */
917 #define	FICL_STACK_CHECK(stack, popCells, pushCells)
918 #endif /* FICL_ROBUST >= 1 */
919 
920 typedef ficlInteger (*ficlStackWalkFunction)(void *constant, ficlCell *cell);
921 FICL_PLATFORM_EXTERN void
922 	ficlStackWalk(ficlStack *stack, ficlStackWalkFunction callback,
923 	void *context, ficlInteger bottomToTop);
924 FICL_PLATFORM_EXTERN void ficlStackDisplay(ficlStack *stack,
925 	ficlStackWalkFunction callback, void *context);
926 
927 typedef ficlWord **ficlIp; /* the VM's instruction pointer */
928 typedef void (*ficlPrimitive)(ficlVm *vm);
929 typedef void (*ficlOutputFunction)(ficlCallback *callback, char *text);
930 
931 /*
932  * Each VM has a placeholder for an output function -
933  * this makes it possible to have each VM do I/O
934  * through a different device. If you specify no
935  * ficlOutputFunction, it defaults to ficlCallbackDefaultTextOut.
936  *
937  * You can also set a specific handler just for errors.
938  * If you don't specify one, it defaults to using textOut.
939  */
940 
941 struct ficlCallback
942 {
943     void *context;
944     ficlOutputFunction textOut;
945     ficlOutputFunction errorOut;
946     ficlSystem *system;
947     ficlVm *vm;
948 };
949 
950 FICL_PLATFORM_EXTERN void
951     ficlCallbackTextOut(ficlCallback *callback, char *text);
952 FICL_PLATFORM_EXTERN void
953     ficlCallbackErrorOut(ficlCallback *callback, char *text);
954 
955 /*
956  * For backwards compatibility.
957  */
958 typedef void
959 (*ficlCompatibilityOutputFunction)(ficlVm *vm, char *text, int newline);
960 FICL_PLATFORM_EXTERN void
961     ficlCompatibilityTextOutCallback(ficlCallback *callback, char *text,
962     ficlCompatibilityOutputFunction oldFunction);
963 
964 /*
965  * Starting with Ficl 4.0, Ficl uses a "switch-threaded" inner loop,
966  * where each primitive word is represented with a numeric constant,
967  * and words are (more or less) arrays of these constants.  In Ficl
968  * these constants are an enumerated type called ficlInstruction.
969  */
970 enum ficlInstruction
971 {
972 #define	FICL_TOKEN(token, description) token,
973 #define	FICL_INSTRUCTION_TOKEN(token, description, flags) token,
974 #include "ficltokens.h"
975 #undef	FICL_TOKEN
976 #undef	FICL_INSTRUCTION_TOKEN
977 
978 	ficlInstructionLast,
979 
980 	ficlInstructionFourByteTrick = 0x10000000
981 };
982 typedef intptr_t ficlInstruction;
983 
984 /*
985  * The virtual machine (VM) contains the state for one interpreter.
986  * Defined operations include:
987  * Create & initialize
988  * Delete
989  * Execute a block of text
990  * Parse a word out of the input stream
991  * Call return, and branch
992  * Text output
993  * Throw an exception
994  */
995 
996 struct ficlVm
997 {
998 	ficlCallback callback;
999 	ficlVm *link;		/* Ficl keeps a VM list for simple teardown */
1000 	jmp_buf *exceptionHandler; /* crude exception mechanism... */
1001 	short restart;		/* Set TRUE to restart runningWord */
1002 	ficlIp ip;		/* instruction pointer */
1003 		/* address of currently running word (often just *(ip-1) ) */
1004 	ficlWord *runningWord;
1005 	ficlUnsigned state;	/* compiling or interpreting */
1006 	ficlUnsigned base;	/* number conversion base */
1007 	ficlStack *dataStack;
1008 	ficlStack *returnStack;	/* return stack */
1009 #if FICL_WANT_FLOAT
1010 	ficlStack *floatStack;	/* float stack (optional) */
1011 #endif
1012 	ficlCell sourceId; /* -1 if EVALUATE, 0 if normal input, >0 if a file */
1013 	ficlTIB	 tib;		/* address of incoming text string  */
1014 #if FICL_WANT_USER
1015 	ficlCell user[FICL_USER_CELLS];
1016 #endif
1017 	char pad[FICL_PAD_SIZE];	/* the scratch area (see above) */
1018 };
1019 
1020 /*
1021  * Each VM operates in one of two non-error states: interpreting
1022  * or compiling. When interpreting, words are simply executed.
1023  * When compiling, most words in the input stream have their
1024  * addresses inserted into the word under construction. Some words
1025  * (known as IMMEDIATE) are executed in the compile state, too.
1026  */
1027 /* values of STATE */
1028 #define	FICL_VM_STATE_INTERPRET	(0)
1029 #define	FICL_VM_STATE_COMPILE	(1)
1030 
1031 /*
1032  * Exit codes for vmThrow
1033  */
1034 /* tell ficlVmExecuteXT to exit inner loop */
1035 #define	FICL_VM_STATUS_INNER_EXIT	(-256)
1036 /* hungry - normal exit */
1037 #define	FICL_VM_STATUS_OUT_OF_TEXT	(-257)
1038 /* word needs more text to succeed -- re-run it */
1039 #define	FICL_VM_STATUS_RESTART		(-258)
1040 /* user wants to quit */
1041 #define	FICL_VM_STATUS_USER_EXIT	(-259)
1042 /* interpreter found an error */
1043 #define	FICL_VM_STATUS_ERROR_EXIT	(-260)
1044 /* debugger breakpoint */
1045 #define	FICL_VM_STATUS_BREAK		(-261)
1046 /* like FICL_VM_STATUS_ERROR_EXIT -- abort */
1047 #define	FICL_VM_STATUS_ABORT		(-1)
1048 /* like FICL_VM_STATUS_ERROR_EXIT -- abort" */
1049 #define	FICL_VM_STATUS_ABORTQ		(-2)
1050 /* like FICL_VM_STATUS_ERROR_EXIT, but leave dataStack & base alone */
1051 #define	FICL_VM_STATUS_QUIT		(-56)
1052 
1053 FICL_PLATFORM_EXTERN void ficlVmBranchRelative(ficlVm *vm, int offset);
1054 FICL_PLATFORM_EXTERN ficlVm *
1055 ficlVmCreate(ficlVm *vm, unsigned nPStack, unsigned nRStack);
1056 FICL_PLATFORM_EXTERN void ficlVmDestroy(ficlVm *vm);
1057 FICL_PLATFORM_EXTERN ficlDictionary *ficlVmGetDictionary(ficlVm *vm);
1058 FICL_PLATFORM_EXTERN char *
1059 ficlVmGetString(ficlVm *vm, ficlCountedString *spDest, char delimiter);
1060 FICL_PLATFORM_EXTERN ficlString ficlVmGetWord(ficlVm *vm);
1061 FICL_PLATFORM_EXTERN ficlString ficlVmGetWord0(ficlVm *vm);
1062 FICL_PLATFORM_EXTERN int ficlVmGetWordToPad(ficlVm *vm);
1063 FICL_PLATFORM_EXTERN void ficlVmInnerLoop(ficlVm *vm, ficlWord *word);
1064 FICL_PLATFORM_EXTERN ficlString ficlVmParseString(ficlVm *vm, char delimiter);
1065 FICL_PLATFORM_EXTERN ficlString
1066 ficlVmParseStringEx(ficlVm *vm, char delimiter, char fSkipLeading);
1067 FICL_PLATFORM_EXTERN ficlCell ficlVmPop(ficlVm *vm);
1068 FICL_PLATFORM_EXTERN void ficlVmPush(ficlVm *vm, ficlCell c);
1069 FICL_PLATFORM_EXTERN void ficlVmPopIP(ficlVm *vm);
1070 FICL_PLATFORM_EXTERN void ficlVmPushIP(ficlVm *vm, ficlIp newIP);
1071 FICL_PLATFORM_EXTERN void ficlVmQuit(ficlVm *vm);
1072 FICL_PLATFORM_EXTERN void ficlVmReset(ficlVm *vm);
1073 FICL_PLATFORM_EXTERN void
1074 ficlVmSetTextOut(ficlVm *vm, ficlOutputFunction textOut);
1075 FICL_PLATFORM_EXTERN void ficlVmThrow(ficlVm *vm, int except);
1076 FICL_PLATFORM_EXTERN void ficlVmThrowError(ficlVm *vm, char *fmt, ...);
1077 FICL_PLATFORM_EXTERN void
1078 ficlVmThrowErrorVararg(ficlVm *vm, char *fmt, va_list list);
1079 FICL_PLATFORM_EXTERN void ficlVmTextOut(ficlVm *vm, char *text);
1080 FICL_PLATFORM_EXTERN void ficlVmErrorOut(ficlVm *vm, char *text);
1081 
1082 #define	ficlVmGetContext(vm)		((vm)->callback.context)
1083 #define	ficlVmGetDataStack(vm)		((vm)->dataStack)
1084 #define	ficlVmGetFloatStack(vm)		((vm)->floatStack)
1085 #define	ficlVmGetReturnStack(vm)	((vm)->returnStack)
1086 #define	ficlVmGetRunningWord(vm)	((vm)->runningWord)
1087 
1088 FICL_PLATFORM_EXTERN void ficlVmDisplayDataStack(ficlVm *vm);
1089 FICL_PLATFORM_EXTERN void ficlVmDisplayDataStackSimple(ficlVm *vm);
1090 FICL_PLATFORM_EXTERN void ficlVmDisplayReturnStack(ficlVm *vm);
1091 #if FICL_WANT_FLOAT
1092 FICL_PLATFORM_EXTERN void ficlVmDisplayFloatStack(ficlVm *vm);
1093 #endif /* FICL_WANT_FLOAT */
1094 
1095 /*
1096  * f i c l E v a l u a t e
1097  * Evaluates a block of input text in the context of the
1098  * specified interpreter. Also sets SOURCE-ID properly.
1099  *
1100  * PLEASE USE THIS FUNCTION when throwing a hard-coded
1101  * string to the Ficl interpreter.
1102  */
1103 FICL_PLATFORM_EXTERN int ficlVmEvaluate(ficlVm *vm, char *s);
1104 
1105 /*
1106  * f i c l V m E x e c *
1107  * Evaluates a block of input text in the context of the
1108  * specified interpreter. Emits any requested output to the
1109  * interpreter's output function. If the input string is NULL
1110  * terminated, you can pass -1 as nChars rather than count it.
1111  * Execution returns when the text block has been executed,
1112  * or an error occurs.
1113  * Returns one of the FICL_VM_STATUS_... codes defined in ficl.h:
1114  * FICL_VM_STATUS_OUT_OF_TEXT is the normal exit condition
1115  * FICL_VM_STATUS_ERROR_EXIT means that the interpreter encountered a syntax
1116  *	error and the vm has been reset to recover (some or all
1117  *      of the text block got ignored
1118  * FICL_VM_STATUS_USER_EXIT means that the user executed the "bye" command
1119  *      to shut down the interpreter. This would be a good
1120  *      time to delete the vm, etc -- or you can ignore this
1121  *      signal.
1122  * FICL_VM_STATUS_ABORT and FICL_VM_STATUS_ABORTQ are generated by 'abort'
1123  *	 and 'abort"' commands.
1124  * Preconditions: successful execution of ficlInitSystem,
1125  *      Successful creation and init of the VM by ficlNewVM (or equivalent)
1126  *
1127  * If you call ficlExec() or one of its brothers, you MUST
1128  * ensure vm->sourceId was set to a sensible value.
1129  * ficlExec() explicitly DOES NOT manage SOURCE-ID for you.
1130  */
1131 FICL_PLATFORM_EXTERN int ficlVmExecuteString(ficlVm *vm, ficlString s);
1132 FICL_PLATFORM_EXTERN int ficlVmExecuteXT(ficlVm *vm, ficlWord *pWord);
1133 FICL_PLATFORM_EXTERN void
1134 ficlVmExecuteInstruction(ficlVm *vm, ficlInstruction i);
1135 FICL_PLATFORM_EXTERN void ficlVmExecuteWord(ficlVm *vm, ficlWord *pWord);
1136 FICL_PLATFORM_EXTERN int ficlExecFD(ficlVm *vm, int fd);
1137 
1138 FICL_PLATFORM_EXTERN void
1139 ficlVmDictionaryAllot(ficlVm *vm, ficlDictionary *dictionary, int n);
1140 FICL_PLATFORM_EXTERN void
1141 ficlVmDictionaryAllotCells(ficlVm *vm, ficlDictionary *dictionary, int cells);
1142 
1143 FICL_PLATFORM_EXTERN int ficlVmParseWord(ficlVm *vm, ficlString s);
1144 
1145 /*
1146  * TIB access routines...
1147  * ANS forth seems to require the input buffer to be represented
1148  * as a pointer to the start of the buffer, and an index to the
1149  * next character to read.
1150  * PushTib points the VM to a new input string and optionally
1151  *  returns a copy of the current state
1152  * PopTib restores the TIB state given a saved TIB from PushTib
1153  * GetInBuf returns a pointer to the next unused char of the TIB
1154  */
1155 FICL_PLATFORM_EXTERN void
1156 ficlVmPushTib(ficlVm *vm, char *text, ficlInteger nChars, ficlTIB *pSaveTib);
1157 FICL_PLATFORM_EXTERN void ficlVmPopTib(ficlVm *vm, ficlTIB *pTib);
1158 #define	ficlVmGetInBuf(vm)	((vm)->tib.text + (vm)->tib.index)
1159 #define	ficlVmGetInBufLen(vm)	((vm)->tib.end - (vm)->tib.text)
1160 #define	ficlVmGetInBufEnd(vm)	((vm)->tib.end)
1161 #define	ficlVmGetTibIndex(vm)	((vm)->tib.index)
1162 #define	ficlVmSetTibIndex(vm, i)	((vm)->tib.index = i)
1163 #define	ficlVmUpdateTib(vm, str)	\
1164 	((vm)->tib.index = (str) - (vm)->tib.text)
1165 
1166 #if FICL_ROBUST >= 1
1167 FICL_PLATFORM_EXTERN void
1168 ficlVmDictionaryCheck(ficlVm *vm, ficlDictionary *dictionary, int n);
1169 FICL_PLATFORM_EXTERN void
1170 ficlVmDictionarySimpleCheck(ficlVm *vm, ficlDictionary *dictionary, int n);
1171 #define	FICL_VM_DICTIONARY_CHECK(vm, dictionary, n)	\
1172 	ficlVmDictionaryCheck(vm, dictionary, n)
1173 #define	FICL_VM_DICTIONARY_SIMPLE_CHECK(vm, dictionary, n)	\
1174 	ficlVmDictionarySimpleCheck(vm, dictionary, n)
1175 #else
1176 #define	FICL_VM_DICTIONARY_CHECK(vm, dictionary, n)
1177 #define	FICL_VM_DICTIONARY_SIMPLE_CHECK(vm, dictionary, n)
1178 #endif /* FICL_ROBUST >= 1 */
1179 
1180 FICL_PLATFORM_EXTERN void ficlPrimitiveLiteralIm(ficlVm *vm);
1181 
1182 /*
1183  * A FICL_CODE points to a function that gets called to help execute
1184  * a word in the dictionary. It always gets passed a pointer to the
1185  * running virtual machine, and from there it can get the address
1186  * of the parameter area of the word it's supposed to operate on.
1187  * For precompiled words, the code is all there is. For user defined
1188  * words, the code assumes that the word's parameter area is a list
1189  * of pointers to the code fields of other words to execute, and
1190  * may also contain inline data. The first parameter is always
1191  * a pointer to a code field.
1192  */
1193 
1194 /*
1195  * Ficl models memory as a contiguous space divided into
1196  * words in a linked list called the dictionary.
1197  * A ficlWord starts each entry in the list.
1198  * Version 1.02: space for the name characters is allotted from
1199  * the dictionary ahead of the word struct, rather than using
1200  * a fixed size array for each name.
1201  */
1202 struct ficlWord
1203 {
1204     struct ficlWord *link;	/* Previous word in the dictionary */
1205     ficlUnsigned16 hash;
1206 		/* Immediate, Smudge, Compile-only, IsOjbect, Instruction */
1207     ficlUnsigned8 flags;
1208     ficlUnsigned8 length;	/* Number of chars in word name */
1209     char *name;			/* First nFICLNAME chars of word name */
1210     ficlPrimitive code;		/* Native code to execute the word */
1211     ficlInstruction semiParen;	/* Native code to execute the word */
1212     ficlCell param[1];		/* First data cell of the word */
1213 };
1214 
1215 /*
1216  * ficlWord.flag bitfield values:
1217  */
1218 
1219 /*
1220  * FICL_WORD_IMMEDIATE:
1221  * This word is always executed immediately when
1222  * encountered, even when compiling.
1223  */
1224 #define	FICL_WORD_IMMEDIATE	(1)
1225 
1226 /*
1227  * FICL_WORD_COMPILE_ONLY:
1228  * This word is only valid during compilation.
1229  * Ficl will throw a runtime error if this word executed
1230  * while not compiling.
1231  */
1232 #define	FICL_WORD_COMPILE_ONLY	(2)
1233 
1234 /*
1235  * FICL_WORD_SMUDGED
1236  * This word's definition is in progress.
1237  * The word is hidden from dictionary lookups
1238  * until it is "un-smudged".
1239  */
1240 #define	FICL_WORD_SMUDGED	(4)
1241 
1242 /*
1243  * FICL_WORD_OBJECT
1244  * This word is an object or object member variable.
1245  * (Currently only used by "my=[".)
1246  */
1247 #define	FICL_WORD_OBJECT	(8)
1248 
1249 /*
1250  * FICL_WORD_INSTRUCTION
1251  * This word represents a ficlInstruction, not a normal word.
1252  * param[0] is the instruction.
1253  * When compiled, Ficl will simply copy over the instruction,
1254  * rather than executing the word as normal.
1255  *
1256  * (Do *not* use this flag for words that need their PFA pushed
1257  * before executing!)
1258  */
1259 #define	FICL_WORD_INSTRUCTION	(16)
1260 
1261 /*
1262  * FICL_WORD_COMPILE_ONLY_IMMEDIATE
1263  * Most words that are "immediate" are also
1264  * "compile-only".
1265  */
1266 #define	FICL_WORD_COMPILE_ONLY_IMMEDIATE	\
1267 	(FICL_WORD_IMMEDIATE | FICL_WORD_COMPILE_ONLY)
1268 #define	FICL_WORD_DEFAULT	(0)
1269 
1270 /*
1271  * Worst-case size of a word header: FICL_NAME_LENGTH chars in name
1272  */
1273 #define	FICL_CELLS_PER_WORD	\
1274 	((sizeof (ficlWord) + FICL_NAME_LENGTH + sizeof (ficlCell)) \
1275 	/ (sizeof (ficlCell)))
1276 
1277 FICL_PLATFORM_EXTERN int ficlWordIsImmediate(ficlWord *word);
1278 FICL_PLATFORM_EXTERN int ficlWordIsCompileOnly(ficlWord *word);
1279 
1280 #if FICL_ROBUST >= 1
1281 FICL_PLATFORM_EXTERN void
1282 ficlCallbackAssert(ficlCallback *callback, int expression,
1283     char *expressionString, char *filename, int line);
1284 #define	FICL_ASSERT(callback, expression)	\
1285 (ficlCallbackAssert((callback), (expression) != 0, \
1286 #expression, __FILE__, __LINE__))
1287 #else
1288 #define	FICL_ASSERT(callback, expression)
1289 #endif /* FICL_ROBUST >= 1 */
1290 
1291 #define	FICL_VM_ASSERT(vm, expression)	\
1292 	FICL_ASSERT((ficlCallback *)(vm), (expression))
1293 #define	FICL_SYSTEM_ASSERT(system, expression)	\
1294 	FICL_ASSERT((ficlCallback *)(system), (expression))
1295 
1296 /*
1297  * Generally useful string manipulators omitted by ANSI C...
1298  * ltoa complements strtol
1299  */
1300 
1301 FICL_PLATFORM_EXTERN int ficlIsPowerOfTwo(ficlUnsigned u);
1302 FICL_PLATFORM_EXTERN char *
1303 ficlLtoa(ficlInteger value, char *string, int radix);
1304 FICL_PLATFORM_EXTERN char *
1305 ficlUltoa(ficlUnsigned value, char *string, int radix);
1306 FICL_PLATFORM_EXTERN char ficlDigitToCharacter(int value);
1307 FICL_PLATFORM_EXTERN char *ficlStringReverse(char *string);
1308 FICL_PLATFORM_EXTERN char *ficlStringSkipSpace(char *s, char *end);
1309 FICL_PLATFORM_EXTERN char *ficlStringCaseFold(char *s);
1310 FICL_PLATFORM_EXTERN int ficlStrincmp(char *s1, char *s2, ficlUnsigned length);
1311 FICL_PLATFORM_EXTERN void *ficlAlignPointer(void *ptr);
1312 
1313 /*
1314  * Ficl hash table - variable size.
1315  * assert(size > 0)
1316  * If size is 1, the table degenerates into a linked list.
1317  * A WORDLIST (see the search order word set in DPANS) is
1318  * just a pointer to a FICL_HASH in this implementation.
1319  */
1320 typedef struct ficlHash
1321 {
1322     struct ficlHash *link;	/* link to parent class wordlist for OO */
1323     char *name;		/* optional pointer to \0 terminated wordlist name */
1324     unsigned size;		/* number of buckets in the hash */
1325     ficlWord *table[1];
1326 } ficlHash;
1327 
1328 FICL_PLATFORM_EXTERN void ficlHashForget(ficlHash *hash, void *where);
1329 FICL_PLATFORM_EXTERN ficlUnsigned16 ficlHashCode(ficlString s);
1330 FICL_PLATFORM_EXTERN void ficlHashInsertWord(ficlHash *hash, ficlWord *word);
1331 FICL_PLATFORM_EXTERN ficlWord *
1332 ficlHashLookup(ficlHash *hash, ficlString name, ficlUnsigned16 hashCode);
1333 FICL_PLATFORM_EXTERN void ficlHashReset(ficlHash *hash);
1334 
1335 /*
1336  * A Dictionary is a linked list of FICL_WORDs. It is also Ficl's
1337  * memory model. Description of fields:
1338  *
1339  * here -- points to the next free byte in the dictionary. This
1340  *	pointer is forced to be CELL-aligned before a definition is added.
1341  *	Do not assume any specific alignment otherwise - Use dictAlign().
1342  *
1343  * smudge -- pointer to word currently being defined (or last defined word)
1344  *	If the definition completes successfully, the word will be
1345  *	linked into the hash table. If unsuccessful, dictUnsmudge
1346  *	uses this pointer to restore the previous state of the dictionary.
1347  *	Smudge prevents unintentional recursion as a side-effect: the
1348  *	dictionary search algo examines only completed definitions, so a
1349  *	word cannot invoke itself by name. See the Ficl word "recurse".
1350  *	NOTE: smudge always points to the last word defined. IMMEDIATE
1351  *	makes use of this fact. Smudge is initially NULL.
1352  *
1353  * forthWordlist -- pointer to the default wordlist (FICL_HASH).
1354  *	This is the initial compilation list, and contains all
1355  *	Ficl's precompiled words.
1356  *
1357  * compilationWordlist -- compilation wordlist - initially equal to
1358  * forthWordlist wordlists  -- array of pointers to wordlists.
1359  *	Managed as a stack.
1360  *	Highest index is the first list in the search order.
1361  * wordlistCount   -- number of lists in wordlists. wordlistCount-1 is the
1362  *	highest filled slot in wordlists, and points to the first wordlist
1363  *	in the search order
1364  * size -- number of cells in the dictionary (total)
1365  * base -- start of data area. Must be at the end of the struct.
1366  */
1367 struct ficlDictionary
1368 {
1369     ficlCell *here;
1370     void *context; /* for your use, particularly with ficlDictionaryLock() */
1371     ficlWord *smudge;
1372     ficlHash *forthWordlist;
1373     ficlHash *compilationWordlist;
1374     ficlHash *wordlists[FICL_MAX_WORDLISTS];
1375     int wordlistCount;
1376     unsigned size;		/* Number of cells in dictionary (total) */
1377     ficlSystem *system;		/* used for debugging */
1378     ficlCell base[1];		/* Base of dictionary memory */
1379 };
1380 
1381 FICL_PLATFORM_EXTERN void
1382 ficlDictionaryAbortDefinition(ficlDictionary *dictionary);
1383 FICL_PLATFORM_EXTERN void ficlDictionaryAlign(ficlDictionary *dictionary);
1384 FICL_PLATFORM_EXTERN void
1385 ficlDictionaryAllot(ficlDictionary *dictionary, int n);
1386 FICL_PLATFORM_EXTERN void
1387 ficlDictionaryAllotCells(ficlDictionary *dictionary, int nCells);
1388 FICL_PLATFORM_EXTERN void
1389 ficlDictionaryAppendCell(ficlDictionary *dictionary, ficlCell c);
1390 FICL_PLATFORM_EXTERN void
1391 ficlDictionaryAppendCharacter(ficlDictionary *dictionary, char c);
1392 FICL_PLATFORM_EXTERN void
1393 ficlDictionaryAppendUnsigned(ficlDictionary *dictionary, ficlUnsigned u);
1394 FICL_PLATFORM_EXTERN void *
1395 ficlDictionaryAppendData(ficlDictionary *dictionary, void *data,
1396     ficlInteger length);
1397 FICL_PLATFORM_EXTERN char *
1398 ficlDictionaryAppendString(ficlDictionary *dictionary, ficlString s);
1399 FICL_PLATFORM_EXTERN ficlWord *
1400 ficlDictionaryAppendWord(ficlDictionary *dictionary, ficlString name,
1401     ficlPrimitive pCode, ficlUnsigned8 flags);
1402 FICL_PLATFORM_EXTERN ficlWord *
1403 ficlDictionaryAppendPrimitive(ficlDictionary *dictionary, char *name,
1404     ficlPrimitive pCode, ficlUnsigned8 flags);
1405 FICL_PLATFORM_EXTERN ficlWord *
1406 ficlDictionaryAppendInstruction(ficlDictionary *dictionary, char *name,
1407     ficlInstruction i, ficlUnsigned8 flags);
1408 
1409 FICL_PLATFORM_EXTERN ficlWord *
1410 ficlDictionaryAppendConstantInstruction(ficlDictionary *dictionary,
1411     ficlString name, ficlInstruction instruction, ficlInteger value);
1412 FICL_PLATFORM_EXTERN ficlWord *
1413 ficlDictionaryAppend2ConstantInstruction(ficlDictionary *dictionary,
1414     ficlString name, ficlInstruction instruction, ficl2Integer value);
1415 
1416 FICL_PLATFORM_EXTERN ficlWord *
1417 ficlDictionaryAppendConstant(ficlDictionary *dictionary, char *name,
1418     ficlInteger value);
1419 FICL_PLATFORM_EXTERN ficlWord *
1420 ficlDictionaryAppend2Constant(ficlDictionary *dictionary, char *name,
1421     ficl2Integer value);
1422 #define	ficlDictionaryAppendConstantPointer(dictionary, name, pointer)	\
1423 	(ficlDictionaryAppendConstant(dictionary, name, (ficlInteger)pointer))
1424 #if FICL_WANT_FLOAT
1425 FICL_PLATFORM_EXTERN ficlWord *
1426 ficlDictionaryAppendFConstant(ficlDictionary *dictionary, char *name,
1427     ficlFloat value);
1428 FICL_PLATFORM_EXTERN ficlWord *
1429 ficlDictionaryAppendF2Constant(ficlDictionary *dictionary, char *name,
1430     ficlFloat value);
1431 #endif /* FICL_WANT_FLOAT */
1432 
1433 
1434 FICL_PLATFORM_EXTERN ficlWord *
1435 ficlDictionarySetConstantInstruction(ficlDictionary *dictionary,
1436     ficlString name, ficlInstruction instruction, ficlInteger value);
1437 FICL_PLATFORM_EXTERN ficlWord *
1438 ficlDictionarySet2ConstantInstruction(ficlDictionary *dictionary,
1439     ficlString name, ficlInstruction instruction, ficl2Integer value);
1440 
1441 FICL_PLATFORM_EXTERN ficlWord *
1442 ficlDictionarySetConstant(ficlDictionary *dictionary, char *name,
1443     ficlInteger value);
1444 #define	ficlDictionarySetConstantPointer(dictionary, name, pointer) \
1445 	(ficlDictionarySetConstant(dictionary, name, (ficlInteger)pointer))
1446 
1447 FICL_PLATFORM_EXTERN ficlWord *
1448 ficlDictionarySet2Constant(ficlDictionary *dictionary, char *name,
1449     ficl2Integer value);
1450 FICL_PLATFORM_EXTERN ficlWord *
1451 ficlDictionarySetConstantString(ficlDictionary *dictionary, char *name,
1452     char *value);
1453 FICL_PLATFORM_EXTERN ficlWord *
1454 ficlDictionarySetPrimitive(ficlDictionary *dictionary, char *name,
1455     ficlPrimitive code, ficlUnsigned8 flags);
1456 FICL_PLATFORM_EXTERN ficlWord *
1457 ficlDictionarySetInstruction(ficlDictionary *dictionary, char *name,
1458     ficlInstruction i, ficlUnsigned8 flags);
1459 #if FICL_WANT_FLOAT
1460 FICL_PLATFORM_EXTERN ficlWord *
1461 ficlDictionarySetFConstant(ficlDictionary *dictionary, char *name,
1462     ficlFloat value);
1463 FICL_PLATFORM_EXTERN ficlWord *
1464 ficlDictionarySetF2Constant(ficlDictionary *dictionary, char *name,
1465     ficlFloat value);
1466 #endif /* FICL_WANT_FLOAT */
1467 
1468 FICL_PLATFORM_EXTERN int
1469 ficlDictionaryCellsAvailable(ficlDictionary *dictionary);
1470 FICL_PLATFORM_EXTERN int ficlDictionaryCellsUsed(ficlDictionary *dictionary);
1471 FICL_PLATFORM_EXTERN ficlDictionary *
1472 ficlDictionaryCreate(ficlSystem *system, unsigned nCELLS);
1473 FICL_PLATFORM_EXTERN ficlDictionary *
1474 ficlDictionaryCreateHashed(ficlSystem *system, unsigned nCells, unsigned nHash);
1475 FICL_PLATFORM_EXTERN ficlHash *
1476 ficlDictionaryCreateWordlist(ficlDictionary *dictionary, int nBuckets);
1477 FICL_PLATFORM_EXTERN void ficlDictionaryDestroy(ficlDictionary *dictionary);
1478 FICL_PLATFORM_EXTERN void
1479 ficlDictionaryEmpty(ficlDictionary *dictionary, unsigned nHash);
1480 FICL_PLATFORM_EXTERN int
1481 ficlDictionaryIncludes(ficlDictionary *dictionary, void *p);
1482 FICL_PLATFORM_EXTERN ficlWord *
1483 ficlDictionaryLookup(ficlDictionary *dictionary, ficlString name);
1484 FICL_PLATFORM_EXTERN void
1485 ficlDictionaryResetSearchOrder(ficlDictionary *dictionary);
1486 FICL_PLATFORM_EXTERN void
1487 ficlDictionarySetFlags(ficlDictionary *dictionary, ficlUnsigned8 set);
1488 FICL_PLATFORM_EXTERN void
1489 ficlDictionaryClearFlags(ficlDictionary *dictionary, ficlUnsigned8 clear);
1490 FICL_PLATFORM_EXTERN void
1491 ficlDictionarySetImmediate(ficlDictionary *dictionary);
1492 FICL_PLATFORM_EXTERN void
1493 ficlDictionaryUnsmudge(ficlDictionary *dictionary);
1494 FICL_PLATFORM_EXTERN ficlCell *ficlDictionaryWhere(ficlDictionary *dictionary);
1495 
1496 FICL_PLATFORM_EXTERN int
1497 ficlDictionaryIsAWord(ficlDictionary *dictionary, ficlWord *word);
1498 FICL_PLATFORM_EXTERN void
1499 ficlDictionarySee(ficlDictionary *dictionary, ficlWord *word,
1500     ficlCallback *callback);
1501 FICL_PLATFORM_EXTERN ficlWord *
1502 ficlDictionaryFindEnclosingWord(ficlDictionary *dictionary, ficlCell *cell);
1503 
1504 /*
1505  * Stub function for dictionary access control - does nothing
1506  * by default, user can redefine to guarantee exclusive dictionary
1507  * access to a single thread for updates. All dictionary update code
1508  * must be bracketed as follows:
1509  * ficlLockDictionary(dictionary, FICL_TRUE); // any non-zero value will do
1510  * <code that updates dictionary>
1511  * ficlLockDictionary(dictionary, FICL_FALSE);
1512  *
1513  * Returns zero if successful, nonzero if unable to acquire lock
1514  * before timeout (optional - could also block forever)
1515  *
1516  * NOTE: this function must be implemented with lock counting
1517  * semantics: nested calls must behave properly.
1518  */
1519 #if FICL_MULTITHREAD
1520 FICL_PLATFORM_EXTERN int
1521 	ficlDictionaryLock(ficlDictionary *dictionary, short lockIncrement);
1522 #else
1523 #define	ficlDictionaryLock(dictionary, lock) (void)0 /* ignore */
1524 #endif
1525 
1526 /*
1527  * P A R S E   S T E P
1528  * (New for 2.05)
1529  * See words.c: interpWord
1530  * By default, Ficl goes through two attempts to parse each token from its
1531  * input stream: it first attempts to match it with a word in the dictionary,
1532  * and if that fails, it attempts to convert it into a number. This mechanism
1533  * is now extensible by additional steps. This allows extensions like floating
1534  * point and double number support to be factored cleanly.
1535  *
1536  * Each parse step is a function that receives the next input token as a
1537  * STRINGINFO. If the parse step matches the token, it must apply semantics
1538  * to the token appropriate to the present value of VM.state (compiling or
1539  * interpreting), and return FICL_TRUE.
1540  * Otherwise it returns FICL_FALSE. See words.c: isNumber for an example
1541  *
1542  * Note: for the sake of efficiency, it's a good idea both to limit the number
1543  * of parse steps and to code each parse step so that it rejects tokens that
1544  * do not match as quickly as possible.
1545  */
1546 
1547 typedef int (*ficlParseStep)(ficlVm *vm, ficlString s);
1548 
1549 /*
1550  * FICL_BREAKPOINT record.
1551  * oldXT - if NULL, this breakpoint is unused. Otherwise it stores the xt
1552  * that the breakpoint overwrote. This is restored to the dictionary when the
1553  * BP executes or gets cleared
1554  * address - the location of the breakpoint (address of the instruction that
1555  *           has been replaced with the breakpoint trap
1556  * oldXT  - The original contents of the location with the breakpoint
1557  * Note: address is NULL when this breakpoint is empty
1558  */
1559 typedef struct ficlBreakpoint
1560 {
1561 	void *address;
1562 	ficlWord *oldXT;
1563 } ficlBreakpoint;
1564 
1565 
1566 /*
1567  * F I C L _ S Y S T E M
1568  * The top level data structure of the system - ficl_system ties a list of
1569  * virtual machines with their corresponding dictionaries. Ficl 3.0 added
1570  * support for multiple Ficl systems, allowing multiple concurrent sessions
1571  * to separate dictionaries with some constraints.
1572  * Note: the context pointer is there to provide context for applications.
1573  * It is copied to each VM's context field as that VM is created.
1574  */
1575 struct ficlSystemInformation
1576 {
1577     int size;			/* structure size tag for versioning */
1578 		/* Initializes VM's context pointer - for application use */
1579     void *context;
1580     int dictionarySize;		/* Size of system's Dictionary, in cells */
1581     int stackSize;		/* Size of all stacks created, in cells */
1582     ficlOutputFunction textOut;		/* default textOut function */
1583     ficlOutputFunction errorOut;	/* textOut function used for errors */
1584     int environmentSize;	/* Size of Environment dictionary, in cells */
1585 };
1586 
1587 #define	ficlSystemInformationInitialize(x)	\
1588 	{ memset((x), 0, sizeof (ficlSystemInformation)); \
1589 	(x)->size = sizeof (ficlSystemInformation); }
1590 
1591 struct ficlSystem
1592 {
1593     ficlCallback callback;
1594     ficlSystem *link;
1595     ficlVm *vmList;
1596     ficlDictionary *dictionary;
1597     ficlDictionary *environment;
1598 
1599     ficlWord *interpreterLoop[3];
1600     ficlWord *parseList[FICL_MAX_PARSE_STEPS];
1601 
1602     ficlWord *exitInnerWord;
1603     ficlWord *interpretWord;
1604 
1605 #if FICL_WANT_LOCALS
1606     ficlDictionary *locals;
1607     ficlInteger   localsCount;
1608     ficlCell *localsFixup;
1609 #endif
1610 
1611     ficlInteger stackSize;
1612 
1613     ficlBreakpoint breakpoint;
1614 };
1615 
1616 #define	ficlSystemGetContext(system)	((system)->context)
1617 
1618 /*
1619  * External interface to Ficl...
1620  */
1621 /*
1622  * f i c l S y s t e m C r e a t e
1623  * Binds a global dictionary to the interpreter system and initializes
1624  * the dictionary to contain the ANSI CORE wordset.
1625  * You can specify the address and size of the allocated area.
1626  * You can also specify the text output function at creation time.
1627  * After that, Ficl manages it.
1628  * First step is to set up the static pointers to the area.
1629  * Then write the "precompiled" portion of the dictionary in.
1630  * The dictionary needs to be at least large enough to hold the
1631  * precompiled part. Try 1K cells minimum. Use "words" to find
1632  * out how much of the dictionary is used at any time.
1633  */
1634 FICL_PLATFORM_EXTERN ficlSystem *ficlSystemCreate(ficlSystemInformation *fsi);
1635 
1636 /*
1637  * f i c l S y s t e m D e s t r o y
1638  * Deletes the system dictionary and all virtual machines that
1639  * were created with ficlNewVM (see below). Call this function to
1640  * reclaim all memory used by the dictionary and VMs.
1641  */
1642 FICL_PLATFORM_EXTERN void ficlSystemDestroy(ficlSystem *system);
1643 
1644 /*
1645  * Create a new VM from the heap, and link it into the system VM list.
1646  * Initializes the VM and binds default sized stacks to it. Returns the
1647  * address of the VM, or NULL if an error occurs.
1648  * Precondition: successful execution of ficlInitSystem
1649  */
1650 FICL_PLATFORM_EXTERN ficlVm   *ficlSystemCreateVm(ficlSystem *system);
1651 
1652 /*
1653  * Force deletion of a VM. You do not need to do this
1654  * unless you're creating and discarding a lot of VMs.
1655  * For systems that use a constant pool of VMs for the life
1656  * of the system, ficltermSystem takes care of VM cleanup
1657  * automatically.
1658  */
1659 FICL_PLATFORM_EXTERN void ficlSystemDestroyVm(ficlVm *vm);
1660 
1661 
1662 /*
1663  * Returns the address of the most recently defined word in the system
1664  * dictionary with the given name, or NULL if no match.
1665  * Precondition: successful execution of ficlInitSystem
1666  */
1667 FICL_PLATFORM_EXTERN ficlWord *ficlSystemLookup(ficlSystem *system, char *name);
1668 
1669 /*
1670  * f i c l G e t D i c t
1671  * Utility function - returns the address of the system dictionary.
1672  * Precondition: successful execution of ficlInitSystem
1673  */
1674 ficlDictionary *ficlSystemGetDictionary(ficlSystem *system);
1675 ficlDictionary *ficlSystemGetEnvironment(ficlSystem *system);
1676 #if FICL_WANT_LOCALS
1677 ficlDictionary *ficlSystemGetLocals(ficlSystem *system);
1678 #endif
1679 
1680 /*
1681  * f i c l C o m p i l e C o r e
1682  * Builds the ANS CORE wordset into the dictionary - called by
1683  * ficlInitSystem - no need to waste dictionary space by doing it again.
1684  */
1685 FICL_PLATFORM_EXTERN void ficlSystemCompileCore(ficlSystem *system);
1686 FICL_PLATFORM_EXTERN void ficlSystemCompilePrefix(ficlSystem *system);
1687 FICL_PLATFORM_EXTERN void ficlSystemCompileSearch(ficlSystem *system);
1688 FICL_PLATFORM_EXTERN void ficlSystemCompileSoftCore(ficlSystem *system);
1689 FICL_PLATFORM_EXTERN void ficlSystemCompileTools(ficlSystem *system);
1690 FICL_PLATFORM_EXTERN void ficlSystemCompileFile(ficlSystem *system);
1691 #if FICL_WANT_FLOAT
1692 FICL_PLATFORM_EXTERN void ficlSystemCompileFloat(ficlSystem *system);
1693 FICL_PLATFORM_EXTERN int ficlVmParseFloatNumber(ficlVm *vm, ficlString s);
1694 #endif /* FICL_WANT_FLOAT */
1695 #if FICL_WANT_PLATFORM
1696 FICL_PLATFORM_EXTERN void ficlSystemCompilePlatform(ficlSystem *system);
1697 #endif /* FICL_WANT_PLATFORM */
1698 FICL_PLATFORM_EXTERN void ficlSystemCompileExtras(ficlSystem *system);
1699 
1700 
1701 FICL_PLATFORM_EXTERN int ficlVmParsePrefix(ficlVm *vm, ficlString s);
1702 
1703 #if FICL_WANT_LOCALS
1704 FICL_PLATFORM_EXTERN ficlWord *ficlSystemLookupLocal(ficlSystem *system,
1705     ficlString name);
1706 #endif
1707 
1708 /*
1709  * from words.c...
1710  */
1711 FICL_PLATFORM_EXTERN int ficlVmParseNumber(ficlVm *vm, ficlString s);
1712 FICL_PLATFORM_EXTERN void ficlPrimitiveTick(ficlVm *vm);
1713 FICL_PLATFORM_EXTERN void ficlPrimitiveParseStepParen(ficlVm *vm);
1714 FICL_PLATFORM_EXTERN void ficlPrimitiveSiftingImpl(ficlVm *vm, char *ss);
1715 #if FICL_WANT_LOCALS
1716 FICL_PLATFORM_EXTERN void ficlLocalParen(ficlVm *vm, int isDouble, int isFloat);
1717 #endif /* FICL_WANT_LOCALS */
1718 
1719 /*
1720  * Appends a parse step function to the end of the parse list (see
1721  * FICL_PARSE_STEP notes in ficl.h for details). Returns 0 if successful,
1722  * nonzero if there's no more room in the list. Each parse step is a word in
1723  * the dictionary. Precompiled parse steps can use (PARSE-STEP) as their
1724  * CFA - see parenParseStep in words.c.
1725  */
1726 FICL_PLATFORM_EXTERN int ficlSystemAddParseStep(ficlSystem *system,
1727     ficlWord *word); /* ficl.c */
1728 FICL_PLATFORM_EXTERN void ficlSystemAddPrimitiveParseStep(ficlSystem *system,
1729     char *name, ficlParseStep pStep);
1730 
1731 /*
1732  * From tools.c
1733  */
1734 
1735 /*
1736  * The following supports SEE and the debugger.
1737  */
1738 typedef enum
1739 {
1740     FICL_WORDKIND_BRANCH,
1741     FICL_WORDKIND_BRANCH0,
1742     FICL_WORDKIND_COLON,
1743     FICL_WORDKIND_CONSTANT,
1744     FICL_WORDKIND_2CONSTANT,
1745     FICL_WORDKIND_CREATE,
1746     FICL_WORDKIND_DO,
1747     FICL_WORDKIND_DOES,
1748     FICL_WORDKIND_LITERAL,
1749     FICL_WORDKIND_2LITERAL,
1750 #if FICL_WANT_FLOAT
1751     FICL_WORDKIND_FLITERAL,
1752 #endif /* FICL_WANT_FLOAT */
1753     FICL_WORDKIND_LOOP,
1754     FICL_WORDKIND_OF,
1755     FICL_WORDKIND_PLOOP,
1756     FICL_WORDKIND_PRIMITIVE,
1757     FICL_WORDKIND_QDO,
1758     FICL_WORDKIND_STRING_LITERAL,
1759     FICL_WORDKIND_CSTRING_LITERAL,
1760 #if FICL_WANT_USER
1761     FICL_WORDKIND_USER,
1762 #endif
1763     FICL_WORDKIND_VARIABLE,
1764     FICL_WORDKIND_INSTRUCTION,
1765     FICL_WORDKIND_INSTRUCTION_WORD,
1766     FICL_WORDKIND_INSTRUCTION_WITH_ARGUMENT
1767 } ficlWordKind;
1768 
1769 ficlWordKind   ficlWordClassify(ficlWord *word);
1770 
1771 #if FICL_WANT_FILE
1772 /*
1773  * Used with File-Access wordset.
1774  */
1775 #define	FICL_FAM_READ	1
1776 #define	FICL_FAM_WRITE	2
1777 #define	FICL_FAM_APPEND	4
1778 #define	FICL_FAM_BINARY	8
1779 
1780 #define	FICL_FAM_OPEN_MODE(fam)	\
1781 	((fam) & (FICL_FAM_READ | FICL_FAM_WRITE | FICL_FAM_APPEND))
1782 
1783 typedef struct ficlFile
1784 {
1785     FILE *f;
1786     char filename[256];
1787 } ficlFile;
1788 
1789 #if defined(FICL_PLATFORM_HAS_FTRUNCATE)
1790 FICL_PLATFORM_EXTERN int ficlFileTruncate(ficlFile *ff, ficlUnsigned size);
1791 #endif
1792 
1793 FICL_PLATFORM_EXTERN int ficlFileStatus(char *filename, int *status);
1794 FICL_PLATFORM_EXTERN long ficlFileSize(ficlFile *ff);
1795 #endif
1796 
1797 /* Support for linker set inclusions. */
1798 #ifdef _STANDALONE
1799 typedef void ficlCompileFcn(ficlSystem *);
1800 
1801 #define	FICL_COMPILE_SET(func)  \
1802 	DATA_SET(Xficl_compile_set, func)
1803 SET_DECLARE(Xficl_compile_set, ficlCompileFcn);
1804 #endif	/* _STANDALONE */
1805 
1806 #ifdef __cplusplus
1807 }
1808 #endif
1809 
1810 #endif /* _FICL_H */
1811