1: \ definitions needed for interpreter only
2:
3: \ Copyright (C) 1995-2000,2004,2005,2007 Free Software Foundation, Inc.
4:
5: \ This file is part of Gforth.
6:
7: \ Gforth is free software; you can redistribute it and/or
8: \ modify it under the terms of the GNU General Public License
9: \ as published by the Free Software Foundation; either version 2
10: \ of the License, or (at your option) any later version.
11:
12: \ This program is distributed in the hope that it will be useful,
13: \ but WITHOUT ANY WARRANTY; without even the implied warranty of
14: \ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15: \ GNU General Public License for more details.
16:
17: \ You should have received a copy of the GNU General Public License
18: \ along with this program; if not, write to the Free Software
19: \ Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA.
20:
21: \ \ Revision-Log
22:
23: \ put in seperate file 14sep97jaw
24:
25: \ \ input stream primitives 23feb93py
26:
27: require ./basics.fs \ bounds decimal hex ...
28: require ./io.fs \ type ...
29: require ./nio.fs \ . <# ...
30: require ./errore.fs \ .error ...
31: require kernel/version.fs \ version-string
32:
33: has? new-input 0= [IF]
34: : tib ( -- c-addr ) \ core-ext t-i-b
35: \G @i{c-addr} is the address of the Terminal Input Buffer.
36: \G OBSOLESCENT: @code{source} superceeds the function of this word.
37: >tib @ ;
38:
39: Defer source ( -- c-addr u ) \ core
40: \ used by dodefer:, must be defer
41: \G @i{c-addr} is the address of the input buffer and @i{u} is the
42: \G number of characters in it.
43:
44: : (source) ( -- c-addr u )
45: tib #tib @ ;
46: ' (source) IS source
47: [THEN]
48:
49: : (word) ( addr1 n1 char -- addr2 n2 )
50: dup >r skip 2dup r> scan nip - ;
51:
52: \ (word) should fold white spaces
53: \ this is what (parse-white) does
54:
55: \ word parse 23feb93py
56:
57: : sword ( char -- addr len ) \ gforth-obsolete s-word
58: \G Parses like @code{word}, but the output is like @code{parse} output.
59: \G @xref{core-idef}.
60: \ this word was called PARSE-WORD until 0.3.0, but Open Firmware and
61: \ dpANS6 A.6.2.2008 have a word with that name that behaves
62: \ differently (like NAME).
63: source 2dup >r >r >in @ over min /string
64: rot dup bl = IF
65: drop (parse-white)
66: ELSE
67: (word)
68: THEN
69: [ has? new-input [IF] ]
70: 2dup input-lexeme!
71: [ [THEN] ]
72: 2dup + r> - 1+ r> min >in ! ;
73:
74: : word ( char "<chars>ccc<char>-- c-addr ) \ core
75: \G Skip leading delimiters. Parse @i{ccc}, delimited by
76: \G @i{char}, in the parse area. @i{c-addr} is the address of a
77: \G transient region containing the parsed string in
78: \G counted-string format. If the parse area was empty or
79: \G contained no characters other than delimiters, the resulting
80: \G string has zero length. A program may replace characters within
81: \G the counted string. OBSOLESCENT: the counted string has a
82: \G trailing space that is not included in its length.
83: sword here place bl here count + c! here ;
84:
85: : parse ( char "ccc<char>" -- c-addr u ) \ core-ext
86: \G Parse @i{ccc}, delimited by @i{char}, in the parse
87: \G area. @i{c-addr u} specifies the parsed string within the
88: \G parse area. If the parse area was empty, @i{u} is 0.
89: >r source >in @ over min /string ( c-addr1 u1 )
90: over swap r> scan >r
91: over - dup r> IF 1+ THEN >in +!
92: [ has? new-input [IF] ]
93: 2dup input-lexeme!
94: [ [THEN] ] ;
95:
96: \ name 13feb93py
97:
98: [IFUNDEF] (name) \ name might be a primitive
99:
100: : (name) ( -- c-addr count ) \ gforth
101: source 2dup >r >r >in @ /string (parse-white)
102: [ has? new-input [IF] ]
103: 2dup input-lexeme!
104: [ [THEN] ]
105: 2dup + r> - 1+ r> min >in ! ;
106: \ name count ;
107: [THEN]
108:
109: : name-too-short? ( c-addr u -- c-addr u )
110: dup 0= -&16 and throw ;
111:
112: : name-too-long? ( c-addr u -- c-addr u )
113: dup lcount-mask u> -&19 and throw ;
114:
115: \ \ Number parsing 23feb93py
116:
117: \ number? number 23feb93py
118:
119: hex
120: const Create bases 0A , 10 , 2 , 0A ,
121: \ 10 16 2 10
122:
123: \ !! protect BASE saving wrapper against exceptions
124: : getbase ( addr u -- addr' u' )
125: 2dup s" 0x" string-prefix? >r
126: 2dup s" 0X" string-prefix? r> or
127: base @ &34 < and if
128: hex 2 /string
129: endif
130: over c@ [char] # - dup 4 u<
131: IF
132: cells bases + @ base ! 1 /string
133: ELSE
134: drop
135: THEN ;
136:
137: : sign? ( addr u -- addr1 u1 flag )
138: over c@ [char] - = dup >r
139: IF
140: 1 /string
141: THEN
142: r> ;
143:
144: : ?dnegate ( d1 f -- d2 )
145: if
146: dnegate
147: then ;
148:
149: has? os 0= [IF]
150: : x@+/string ( addr u -- addr' u' c )
151: over c@ >r 1 /string r> ;
152: [THEN]
153:
154: : s'>unumber? ( addr u -- ud flag )
155: \ convert string "C" or "C'" to character code
156: dup 0= if
157: false exit
158: endif
159: x@+/string 0 s" '" 2rot string-prefix? ;
160:
161: : s>unumber? ( c-addr u -- ud flag ) \ gforth
162: \G converts string c-addr u into ud, flag indicates success
163: dpl on
164: over c@ '' = if
165: 1 /string s'>unumber? exit
166: endif
167: base @ >r getbase sign? >r
168: 0. 2swap
169: BEGIN ( d addr len )
170: dup >r >number dup
171: WHILE \ there are characters left
172: dup r> -
173: WHILE \ the last >number parsed something
174: dup 1- dpl ! over c@ [char] . =
175: WHILE \ the current char is '.'
176: 1 /string
177: REPEAT THEN \ there are unparseable characters left
178: 2drop rdrop false
179: ELSE
180: rdrop 2drop r> ?dnegate true
181: THEN
182: r> base ! ;
183:
184: \ ouch, this is complicated; there must be a simpler way - anton
185: : s>number? ( addr u -- d f ) \ gforth
186: \G converts string addr u into d, flag indicates success
187: sign? >r
188: s>unumber?
189: 0= IF
190: rdrop false
191: ELSE \ no characters left, all ok
192: r> ?dnegate
193: true
194: THEN ;
195:
196: : s>number ( addr len -- d )
197: \ don't use this, there is no way to tell success
198: s>number? drop ;
199:
200: : snumber? ( c-addr u -- 0 / n -1 / d 0> )
201: s>number? 0=
202: IF
203: 2drop false EXIT
204: THEN
205: dpl @ dup 0< IF
206: nip
207: ELSE
208: 1+
209: THEN ;
210:
211: : number? ( string -- string 0 / n -1 / d 0> )
212: dup >r count snumber? dup if
213: rdrop
214: else
215: r> swap
216: then ;
217:
218: : number ( string -- d )
219: number? ?dup 0= abort" ?" 0<
220: IF
221: s>d
222: THEN ;
223:
224: \ \ Comments ( \ \G
225:
226: : ( ( compilation 'ccc<close-paren>' -- ; run-time -- ) \ thisone- core,file paren
227: \G ** this will not get annotated. The alias in glocals.fs will instead **
228: \G It does not work to use "wordset-" prefix since this file is glossed
229: \G by cross.fs which doesn't have the same functionalty as makedoc.fs
230: [char] ) parse 2drop ; immediate
231:
232: : \ ( compilation 'ccc<newline>' -- ; run-time -- ) \ thisone- core-ext,block-ext backslash
233: \G ** this will not get annotated. The alias in glocals.fs will instead **
234: \G It does not work to use "wordset-" prefix since this file is glossed
235: \G by cross.fs which doesn't have the same functionalty as makedoc.fs
236: [ has? file [IF] ]
237: blk @
238: IF
239: >in @ c/l / 1+ c/l * >in !
240: EXIT
241: THEN
242: [ [THEN] ]
243: source >in ! drop ; immediate
244:
245: : \G ( compilation 'ccc<newline>' -- ; run-time -- ) \ gforth backslash-gee
246: \G Equivalent to @code{\} but used as a tag to annotate definition
247: \G comments into documentation.
248: POSTPONE \ ; immediate
249:
250: has? ec [IF]
251: AVariable forth-wordlist
252: : find-name ( c-addr u -- nt | 0 ) \ gforth
253: \g Find the name @i{c-addr u} in the current search
254: \g order. Return its @i{nt}, if found, otherwise 0.
255: forth-wordlist (f83find) ;
256: [ELSE]
257: \ \ object oriented search list 17mar93py
258:
259: \ word list structure:
260:
261: struct
262: cell% field find-method \ xt: ( c_addr u wid -- nt )
263: cell% field reveal-method \ xt: ( nt wid -- ) \ used by dofield:, must be field
264: cell% field rehash-method \ xt: ( wid -- ) \ re-initializes a "search-data" (hashtables)
265: cell% field hash-method \ xt: ( wid -- ) \ initializes ""
266: \ \ !! what else
267: end-struct wordlist-map-struct
268:
269: struct
270: cell% field wordlist-map \ pointer to a wordlist-map-struct
271: cell% field wordlist-id \ linked list of words (for WORDS etc.)
272: cell% field wordlist-link \ link field to other wordlists
273: cell% field wordlist-extend \ wordlist extensions (eg bucket offset)
274: end-struct wordlist-struct
275:
276: has? f83headerstring [IF]
277: : f83find ( addr len wordlist -- nt / false )
278: wordlist-id @ (f83find) ;
279: [ELSE]
280: : f83find ( addr len wordlist -- nt / false )
281: wordlist-id @ (listlfind) ;
282: [THEN]
283:
284: : initvoc ( wid -- )
285: dup wordlist-map @ hash-method perform ;
286:
287: \ Search list table: find reveal
288: Create f83search ( -- wordlist-map )
289: ' f83find A, ' drop A, ' drop A, ' drop A,
290:
291: here G f83search T A, NIL A, NIL A, NIL A,
292: AValue forth-wordlist \ variable, will be redefined by search.fs
293:
294: AVariable lookup forth-wordlist lookup !
295: \ !! last is user and lookup?! jaw
296: AVariable current ( -- addr ) \ gforth
297: \G @code{Variable} -- holds the @i{wid} of the compilation word list.
298: AVariable voclink forth-wordlist wordlist-link voclink !
299: \ lookup AValue context ( -- addr ) \ gforth
300: Defer context ( -- addr ) \ gforth
301: \G @code{context} @code{@@} is the @i{wid} of the word list at the
302: \G top of the search order.
303:
304: ' lookup is context
305: forth-wordlist current !
306:
307: : (search-wordlist) ( addr count wid -- nt | false )
308: dup wordlist-map @ find-method perform ;
309:
310: : search-wordlist ( c-addr count wid -- 0 | xt +-1 ) \ search
311: \G Search the word list identified by @i{wid} for the definition
312: \G named by the string at @i{c-addr count}. If the definition is
313: \G not found, return 0. If the definition is found return 1 (if
314: \G the definition is immediate) or -1 (if the definition is not
315: \G immediate) together with the @i{xt}. In Gforth, the @i{xt}
316: \G returned represents the interpretation semantics. ANS Forth
317: \G does not specify clearly what @i{xt} represents.
318: (search-wordlist) dup if
319: (name>intn)
320: then ;
321:
322: : find-name ( c-addr u -- nt | 0 ) \ gforth
323: \g Find the name @i{c-addr u} in the current search
324: \g order. Return its @i{nt}, if found, otherwise 0.
325: lookup @ (search-wordlist) ;
326: [THEN]
327:
328: \ \ header, finding, ticks 17dec92py
329:
330: \ The constants are defined as 32 bits, but then erased
331: \ and overwritten by the right ones
332:
333: has? f83headerstring [IF]
334: \ to save space, Gforth EC limits words to 31 characters
335: $80 constant alias-mask
336: $40 constant immediate-mask
337: $20 constant restrict-mask
338: $1f constant lcount-mask
339: [ELSE]
340: $80000000 constant alias-mask
341: 1 bits/char 1 - lshift
342: -1 cells allot bigendian [IF] c, 0 1 cells 1- times
343: [ELSE] 0 1 cells 1- times c, [THEN]
344: $40000000 constant immediate-mask
345: 1 bits/char 2 - lshift
346: -1 cells allot bigendian [IF] c, 0 1 cells 1- times
347: [ELSE] 0 1 cells 1- times c, [THEN]
348: $20000000 constant restrict-mask
349: 1 bits/char 3 - lshift
350: -1 cells allot bigendian [IF] c, 0 1 cells 1- times
351: [ELSE] 0 1 cells 1- times c, [THEN]
352: $1fffffff constant lcount-mask
353: 1 bits/char 3 - lshift 1 -
354: -1 cells allot bigendian [IF] c, -1 1 cells 1- times
355: [ELSE] -1 1 cells 1- times c, [THEN]
356: [THEN]
357:
358: \ higher level parts of find
359:
360: : flag-sign ( f -- 1|-1 )
361: \ true becomes 1, false -1
362: 0= 2* 1+ ;
363:
364: : ticking-compile-only-error ( ... -- )
365: -&2048 throw ;
366:
367: : compile-only-error ( ... -- )
368: -&14 throw ;
369:
370: : (cfa>int) ( cfa -- xt )
371: [ has? compiler [IF] ]
372: dup interpret/compile?
373: if
374: interpret/compile-int @
375: then
376: [ [THEN] ] ;
377:
378: : (x>int) ( cfa w -- xt )
379: \ get interpretation semantics of name
380: restrict-mask and [ has? rom [IF] ] 0= [ [THEN] ]
381: if
382: drop ['] compile-only-error
383: else
384: (cfa>int)
385: then ;
386:
387: has? f83headerstring [IF]
388: : name>string ( nt -- addr count ) \ gforth name-to-string
389: \g @i{addr count} is the name of the word represented by @i{nt}.
390: cell+ count lcount-mask and ;
391:
392: : ((name>)) ( nfa -- cfa )
393: name>string + cfaligned ;
394:
395: : (name>x) ( nfa -- cfa w )
396: \ cfa is an intermediate cfa and w is the flags cell of nfa
397: dup ((name>))
398: swap cell+ c@ dup alias-mask and 0=
399: IF
400: swap @ swap
401: THEN ;
402: [ELSE]
403: : name>string ( nt -- addr count ) \ gforth name-to-string
404: \g @i{addr count} is the name of the word represented by @i{nt}.
405: cell+ dup cell+ swap @ lcount-mask and ;
406:
407: : ((name>)) ( nfa -- cfa )
408: name>string + cfaligned ;
409:
410: : (name>x) ( nfa -- cfa w )
411: \ cfa is an intermediate cfa and w is the flags cell of nfa
412: dup ((name>))
413: swap cell+ @ dup alias-mask and 0=
414: IF
415: swap @ swap
416: THEN ;
417: [THEN]
418:
419: : name>int ( nt -- xt ) \ gforth name-to-int
420: \G @i{xt} represents the interpretation semantics of the word
421: \G @i{nt}. If @i{nt} has no interpretation semantics (i.e. is
422: \G @code{compile-only}), @i{xt} is the execution token for
423: \G @code{ticking-compile-only-error}, which performs @code{-2048 throw}.
424: (name>x) (x>int) ;
425:
426: : name?int ( nt -- xt ) \ gforth name-question-int
427: \G Like @code{name>int}, but perform @code{-2048 throw} if @i{nt}
428: \G has no interpretation semantics.
429: (name>x) restrict-mask and [ has? rom [IF] ] 0= [ [THEN] ]
430: if
431: ticking-compile-only-error \ does not return
432: then
433: (cfa>int) ;
434:
435: : (name>comp) ( nt -- w +-1 ) \ gforth
436: \G @i{w xt} is the compilation token for the word @i{nt}.
437: (name>x) >r
438: [ has? compiler [IF] ]
439: dup interpret/compile?
440: if
441: interpret/compile-comp @
442: then
443: [ [THEN] ]
444: r> immediate-mask and [ has? rom [IF] ] 0= [ [THEN] ] flag-sign
445: ;
446:
447: : (name>intn) ( nfa -- xt +-1 )
448: (name>x) tuck (x>int) ( w xt )
449: swap immediate-mask and [ has? rom [IF] ] 0= [ [THEN] ] flag-sign ;
450:
451: const Create ??? 0 , 3 , char ? c, char ? c, char ? c,
452: \ ??? is used by dovar:, must be created/:dovar
453:
454: [IFDEF] forthstart
455: \ if we have a forthstart we can define head? with it
456: \ otherwise leave out the head? check
457:
458: : head? ( addr -- f )
459: \G heuristic check whether addr is a name token; may deliver false
460: \G positives; addr must be a valid address; returns 1 for
461: \G particularly unsafe positives
462: \ we follow the link fields and check for plausibility; two
463: \ iterations should catch most false addresses: on the first
464: \ iteration, we may get an xt, on the second a code address (or
465: \ some code), which is typically not in the dictionary.
466: \ we added a third iteration for working with code and ;code words.
467: 3 0 do
468: dup dup aligned <> if \ protect @ against unaligned accesses
469: drop false unloop exit
470: then
471: dup @ dup
472: if ( addr addr1 )
473: dup rot forthstart within
474: if \ addr1 is outside forthstart..addr, not a head
475: drop false unloop exit
476: then ( addr1 )
477: else \ 0 in the link field, no further checks
478: 2drop 1 unloop exit \ this is very unsure, so return 1
479: then
480: loop
481: \ in dubio pro:
482: drop true ;
483:
484: : >head-noprim ( cfa -- nt ) \ gforth to-head-noprim
485: \ also heuristic
486: dup forthstart - max-name-length @
487: [ has? float [IF] ] float+ [ [ELSE] ] cell+ [ [THEN] ] cell+ min
488: cell max cell ?do ( cfa )
489: dup i - dup @ [ alias-mask lcount-mask or ] literal
490: [ 1 bits/char 3 - lshift 1 - 1 bits/char 1 - lshift or
491: -1 cells allot bigendian [IF] c, -1 1 cells 1- times
492: [ELSE] -1 1 cells 1- times c, [THEN] ]
493: and ( cfa len|alias )
494: swap + cell+ cfaligned over alias-mask + =
495: if ( cfa )
496: dup i - cell - dup head?
497: if
498: nip unloop exit
499: then
500: drop
501: then
502: cell +loop
503: drop ??? ( wouldn't 0 be better? ) ;
504:
505: [ELSE]
506:
507: : >head-noprim ( cfa -- nt ) \ gforth to-head-noprim
508: $25 cell do ( cfa )
509: dup i - dup @ [ alias-mask lcount-mask or ] literal
510: [ 1 bits/char 3 - lshift 1 - 1 bits/char 1 - lshift or
511: -1 cells allot bigendian [IF] c, -1 1 cells 1- times
512: [ELSE] -1 1 cells 1- times c, [THEN] ]
513: and ( cfa len|alias )
514: swap + cell + cfaligned over alias-mask + =
515: if ( cfa ) i - cell - unloop exit
516: then
517: cell +loop
518: drop ??? ( wouldn't 0 be better? ) ;
519:
520: [THEN]
521:
522: cell% 2* 0 0 field >body ( xt -- a_addr ) \ core to-body
523: \G Get the address of the body of the word represented by @i{xt} (the
524: \G address of the word's data field).
525: drop drop
526:
527: cell% -2 * 0 0 field body> ( xt -- a_addr )
528: drop drop
529:
530: has? standardthreading has? compiler and [IF]
531:
532: ' @ alias >code-address ( xt -- c_addr ) \ gforth
533: \G @i{c-addr} is the code address of the word @i{xt}.
534:
535: : >does-code ( xt -- a_addr ) \ gforth
536: \G If @i{xt} is the execution token of a child of a @code{DOES>} word,
537: \G @i{a-addr} is the start of the Forth code after the @code{DOES>};
538: \G Otherwise @i{a-addr} is 0.
539: dup @ dodoes: = if
540: cell+ @
541: else
542: drop 0
543: endif ;
544:
545: has? prims [IF]
546: : flash! ! ;
547: : flashc! c! ;
548: [THEN]
549:
550: has? flash [IF] ' flash! [ELSE] ' ! [THEN]
551: alias code-address! ( c_addr xt -- ) \ gforth
552: \G Create a code field with code address @i{c-addr} at @i{xt}.
553:
554: : does-code! ( a_addr xt -- ) \ gforth
555: \G Create a code field at @i{xt} for a child of a @code{DOES>}-word;
556: \G @i{a-addr} is the start of the Forth code after @code{DOES>}.
557: [ has? flash [IF] ]
558: dodoes: over flash! cell+ flash!
559: [ [ELSE] ]
560: dodoes: over ! cell+ !
561: [ [THEN] ] ;
562:
563: ' drop alias does-handler! ( a_addr -- ) \ gforth
564: \G Create a @code{DOES>}-handler at address @i{a-addr}. Normally,
565: \G @i{a-addr} points just behind a @code{DOES>}.
566:
567: 2 cells constant /does-handler ( -- n ) \ gforth
568: \G The size of a @code{DOES>}-handler (includes possible padding).
569:
570: [THEN]
571:
572: : sfind ( c-addr u -- 0 / xt +-1 ) \ gforth-obsolete
573: find-name dup
574: if ( nt )
575: state @
576: if
577: (name>comp)
578: else
579: (name>intn)
580: then
581: then ;
582:
583: : find ( c-addr -- xt +-1 | c-addr 0 ) \ core,search
584: \G Search all word lists in the current search order for the
585: \G definition named by the counted string at @i{c-addr}. If the
586: \G definition is not found, return 0. If the definition is found
587: \G return 1 (if the definition has non-default compilation
588: \G semantics) or -1 (if the definition has default compilation
589: \G semantics). The @i{xt} returned in interpret state represents
590: \G the interpretation semantics. The @i{xt} returned in compile
591: \G state represented either the compilation semantics (for
592: \G non-default compilation semantics) or the run-time semantics
593: \G that the compilation semantics would @code{compile,} (for
594: \G default compilation semantics). The ANS Forth standard does
595: \G not specify clearly what the returned @i{xt} represents (and
596: \G also talks about immediacy instead of non-default compilation
597: \G semantics), so this word is questionable in portable programs.
598: \G If non-portability is ok, @code{find-name} and friends are
599: \G better (@pxref{Name token}).
600: dup count sfind dup
601: if
602: rot drop
603: then ;
604:
605: \ ticks in interpreter
606:
607: : (') ( "name" -- nt ) \ gforth
608: parse-name name-too-short?
609: find-name dup 0=
610: IF
611: drop -&13 throw
612: THEN ;
613:
614: : ' ( "name" -- xt ) \ core tick
615: \g @i{xt} represents @i{name}'s interpretation
616: \g semantics. Perform @code{-14 throw} if the word has no
617: \g interpretation semantics.
618: (') name?int ;
619:
620: has? compiler 0= [IF] \ interpreter only version of IS and TO
621:
622: : IS ' >body ! ;
623: ' IS Alias TO
624:
625: [THEN]
626:
627: \ \ the interpreter loop mar92py
628:
629: \ interpret 10mar92py
630:
631: Defer parser1 ( c-addr u -- ... xt)
632: \ "... xt" is the action to be performed by the text-interpretation of c-addr u
633:
634: : parser ( c-addr u -- ... )
635: \ text-interpret the word/number c-addr u, possibly producing a number
636: parser1 execute ;
637:
638: has? ec [IF]
639: ' (name) Alias parse-name
640: : no.extensions 2drop -&13 throw ;
641: ' no.extensions Alias compiler-notfound1
642: ' no.extensions Alias interpreter-notfound1
643: [ELSE]
644: Defer parse-name ( "name" -- c-addr u ) \ gforth
645: \G Get the next word from the input buffer
646: ' (name) IS parse-name
647:
648: ' parse-name alias parse-word ( -- c-addr u ) \ gforth-obsolete
649: \G old name for @code{parse-name}
650:
651: ' parse-name alias name ( -- c-addr u ) \ gforth-obsolete
652: \G old name for @code{parse-name}
653:
654: Defer compiler-notfound1 ( c-addr count -- ... xt )
655: Defer interpreter-notfound1 ( c-addr count -- ... xt )
656:
657: : no.extensions ( addr u -- )
658: 2drop -&13 throw ;
659: ' no.extensions IS compiler-notfound1
660: ' no.extensions IS interpreter-notfound1
661:
662: Defer before-word ( -- ) \ gforth
663: \ called before the text interpreter parses the next word
664: ' noop IS before-word
665: [THEN]
666:
667: has? backtrace [IF]
668: : interpret1 ( ... -- ... )
669: rp@ backtrace-rp0 !
670: BEGIN
671: ?stack [ has? EC 0= [IF] ] before-word [ [THEN] ] parse-name dup
672: WHILE
673: parser1 execute
674: REPEAT
675: 2drop ;
676:
677: : interpret ( ?? -- ?? ) \ gforth
678: \ interpret/compile the (rest of the) input buffer
679: backtrace-rp0 @ >r
680: ['] interpret1 catch
681: r> backtrace-rp0 !
682: throw ;
683: [ELSE]
684: : interpret ( ... -- ... )
685: BEGIN
686: ?stack [ has? EC 0= [IF] ] before-word [ [THEN] ] parse-name dup
687: WHILE
688: parser1 execute
689: REPEAT
690: 2drop ;
691: [THEN]
692:
693: \ interpreter 30apr92py
694:
695: \ not the most efficient implementations of interpreter and compiler
696: : interpreter1 ( c-addr u -- ... xt )
697: 2dup find-name dup
698: if
699: nip nip name>int
700: else
701: drop
702: 2dup 2>r snumber?
703: IF
704: 2rdrop ['] noop
705: ELSE
706: 2r> interpreter-notfound1
707: THEN
708: then ;
709:
710: ' interpreter1 IS parser1
711:
712: \ \ Query Evaluate 07apr93py
713:
714: has? file 0= [IF]
715: : sourceline# ( -- n ) 1 ;
716: [ELSE]
717: has? new-input 0= [IF]
718: Variable #fill-bytes
719: \G number of bytes read via (read-line) by the last refill
720: [THEN]
721: [THEN]
722:
723: has? new-input 0= [IF]
724: : input-start-line ( -- ) >in off ;
725: : refill ( -- flag ) \ core-ext,block-ext,file-ext
726: \G Attempt to fill the input buffer from the input source. When
727: \G the input source is the user input device, attempt to receive
728: \G input into the terminal input device. If successful, make the
729: \G result the input buffer, set @code{>IN} to 0 and return true;
730: \G otherwise return false. When the input source is a block, add 1
731: \G to the value of @code{BLK} to make the next block the input
732: \G source and current input buffer, and set @code{>IN} to 0;
733: \G return true if the new value of @code{BLK} is a valid block
734: \G number, false otherwise. When the input source is a text file,
735: \G attempt to read the next line from the file. If successful,
736: \G make the result the current input buffer, set @code{>IN} to 0
737: \G and return true; otherwise, return false. A successful result
738: \G includes receipt of a line containing 0 characters.
739: [ has? file [IF] ]
740: blk @ IF 1 blk +! true EXIT THEN
741: [ [THEN] ]
742: tib /line
743: [ has? file [IF] ]
744: loadfile @ ?dup
745: IF (read-line) throw #fill-bytes !
746: ELSE
747: [ [THEN] ]
748: sourceline# 0< IF 2drop false EXIT THEN
749: accept eof @ 0=
750: [ has? file [IF] ]
751: THEN
752: 1 loadline +!
753: [ [THEN] ]
754: swap #tib !
755: input-start-line ;
756:
757: : query ( -- ) \ core-ext
758: \G Make the user input device the input source. Receive input into
759: \G the Terminal Input Buffer. Set @code{>IN} to zero. OBSOLESCENT:
760: \G superceeded by @code{accept}.
761: [ has? file [IF] ]
762: blk off loadfile off
763: [ [THEN] ]
764: refill drop ;
765: [THEN]
766:
767: \ save-mem extend-mem
768:
769: has? os [IF]
770: : save-mem ( addr1 u -- addr2 u ) \ gforth
771: \g copy a memory block into a newly allocated region in the heap
772: swap >r
773: dup allocate throw
774: swap 2dup r> -rot move ;
775:
776: : free-mem-var ( addr -- )
777: \ addr is the address of a 2variable containing address and size
778: \ of a memory range; frees memory and clears the 2variable.
779: dup 2@ drop dup
780: if ( addr mem-start )
781: free throw
782: 0 0 rot 2!
783: else
784: 2drop
785: then ;
786:
787: : extend-mem ( addr1 u1 u -- addr addr2 u2 )
788: \ extend memory block allocated from the heap by u aus
789: \ the (possibly reallocated) piece is addr2 u2, the extension is at addr
790: over >r + dup >r resize throw
791: r> over r> + -rot ;
792: [THEN]
793:
794: \ EVALUATE 17may93jaw
795:
796: has? file 0= has? new-input 0= and [IF]
797: : push-file ( -- ) r>
798: tibstack @ >r >tib @ >r #tib @ >r
799: >tib @ tibstack @ = IF r@ tibstack +! THEN
800: tibstack @ >tib ! >in @ >r >r ;
801:
802: : pop-file ( throw-code -- throw-code )
803: r>
804: r> >in ! r> #tib ! r> >tib ! r> tibstack ! >r ;
805: [THEN]
806:
807: has? new-input 0= [IF]
808: : evaluate ( c-addr u -- ) \ core,block
809: \G Save the current input source specification. Store @code{-1} in
810: \G @code{source-id} and @code{0} in @code{blk}. Set @code{>IN} to
811: \G @code{0} and make the string @i{c-addr u} the input source
812: \G and input buffer. Interpret. When the parse area is empty,
813: \G restore the input source specification.
814: [ has? file [IF] ]
815: s" *evaluated string*" loadfilename>r
816: [ [THEN] ]
817: push-file #tib ! >tib !
818: input-start-line
819: [ has? file [IF] ]
820: blk off loadfile off -1 loadline !
821: [ [THEN] ]
822: ['] interpret catch
823: pop-file
824: [ has? file [IF] ]
825: r>loadfilename
826: [ [THEN] ]
827: throw ;
828: [THEN]
829:
830: \ \ Quit 13feb93py
831:
832: Defer 'quit
833:
834: has? os [IF]
835: Defer .status
836: [ELSE]
837: : (bye) ( 0 -- ) \ back to DOS
838: drop 5 emit ;
839:
840: : bye ( -- ) 0 (bye) ;
841: [THEN]
842:
843: : prompt state @ IF ." compiled" EXIT THEN ." ok" ;
844:
845: : (quit) ( -- )
846: \ exits only through THROW etc.
847: BEGIN
848: [ has? ec [IF] ] cr [ [ELSE] ]
849: .status ['] cr catch if
850: [ has? OS [IF] ] >stderr [ [THEN] ]
851: cr ." Can't print to stdout, leaving" cr
852: \ if stderr does not work either, already DoError causes a hang
853: 2 (bye)
854: endif [ [THEN] ]
855: refill WHILE
856: interpret prompt
857: REPEAT
858: bye ;
859:
860: ' (quit) IS 'quit
861:
862: \ \ DOERROR (DOERROR) 13jun93jaw
863:
864: has? os [IF]
865: 8 Constant max-errors
866: 5 has? file 2 and + Constant /error
867: Variable error-stack 0 error-stack !
868: max-errors /error * cells allot
869: \ format of one cell:
870: \ source ( c-addr u )
871: \ last parsed lexeme ( c-addr u )
872: \ line-number
873: \ Loadfilename ( addr u )
874:
875: : error> ( -- c-addr1 u1 c-addr2 u2 line# [addr u] )
876: -1 error-stack +!
877: error-stack dup @
878: /error * cells + cell+
879: /error cells bounds DO
880: I @
881: cell +LOOP ;
882:
883: : >error ( c-addr1 u1 c-addr2 u2 line# [addr u] -- )
884: error-stack dup @ dup 1+
885: max-errors 1- min error-stack !
886: /error * cells + cell+
887: /error 1- cells bounds swap DO
888: I !
889: -1 cells +LOOP ;
890:
891: : input-error-data ( -- c-addr1 u1 c-addr2 u2 line# [addr u] )
892: \ error data for the current input, to be used by >error or .error-frame
893: source input-lexeme 2@ sourceline#
894: [ has? file [IF] ] sourcefilename [ [THEN] ] ;
895:
896: : dec. ( n -- ) \ gforth
897: \G Display @i{n} as a signed decimal number, followed by a space.
898: \ !! not used...
899: base @ decimal swap . base ! ;
900:
901: : dec.r ( u n -- ) \ gforth
902: \G Display @i{u} as a unsigned decimal number in a field @i{n}
903: \G characters wide.
904: base @ >r decimal .r r> base ! ;
905:
906: : hex. ( u -- ) \ gforth
907: \G Display @i{u} as an unsigned hex number, prefixed with a "$" and
908: \G followed by a space.
909: \ !! not used...
910: [char] $ emit base @ swap hex u. base ! ;
911:
912: : -trailing ( c_addr u1 -- c_addr u2 ) \ string dash-trailing
913: \G Adjust the string specified by @i{c-addr, u1} to remove all
914: \G trailing spaces. @i{u2} is the length of the modified string.
915: BEGIN
916: dup
917: WHILE
918: 1- 2dup + c@ bl <>
919: UNTIL 1+ THEN ;
920:
921: DEFER DOERROR
922:
923: has? backtrace [IF]
924: Defer dobacktrace ( -- )
925: ' noop IS dobacktrace
926: [THEN]
927:
928: : .error-string ( throw-code -- )
929: dup -2 =
930: IF "error @ ?dup IF count type THEN drop
931: ELSE .error
932: THEN ;
933:
934: : umin ( u1 u2 -- u )
935: 2dup u>
936: if
937: swap
938: then
939: drop ;
940:
941: Defer mark-start
942: Defer mark-end
943:
944: :noname ." >>>" ; IS mark-start
945: :noname ." <<<" ; IS mark-end
946:
947: : part-type ( addr1 u1 u -- addr2 u2 )
948: \ print first u characters of addr1 u1, addr2 u2 is the rest
949: over umin 2 pick over type /string ;
950:
951: : .error-line ( c-addr1 u1 c-addr2 u2 -- )
952: \ print error in line c-addr1 u1, where the error-causing lexeme
953: \ is c-addr2 u2
954: >r 2 pick - part-type ( c-addr3 u3 R: u2 )
955: mark-start r> part-type mark-end ( c-addr4 u4 )
956: type ;
957:
958: : .error-frame ( throwcode addr1 u1 addr2 u2 n2 [addr3 u3] -- throwcode )
959: \ addr3 u3: filename of included file - optional
960: \ n2: line number
961: \ addr2 u2: parsed lexeme (should be marked as causing the error)
962: \ addr1 u1: input line
963: error-stack @
964: IF ( throwcode addr1 u1 n0 n1 n2 [addr2 u2] )
965: [ has? file [IF] ] \ !! unbalanced stack effect
966: over IF
967: cr ." in file included from "
968: type ." :"
969: 0 dec.r 2drop 2drop
970: ELSE
971: 2drop 2drop 2drop drop
972: THEN
973: [ [THEN] ] ( throwcode addr1 u1 n0 n1 n2 )
974: ELSE ( throwcode addr1 u1 n0 n1 n2 [addr2 u2] )
975: [ has? file [IF] ]
976: cr type ." :"
977: [ [THEN] ] ( throwcode addr1 u1 n0 n1 n2 )
978: dup 0 dec.r ." : " 5 pick .error-string
979: IF \ if line# non-zero, there is a line
980: cr .error-line
981: ELSE
982: 2drop 2drop
983: THEN
984: THEN ;
985:
986: : (DoError) ( throw-code -- )
987: [ has? os [IF] ]
988: >stderr
989: [ [THEN] ]
990: input-error-data .error-frame
991: error-stack @ 0 ?DO
992: error>
993: .error-frame
994: LOOP
995: drop
996: [ has? backtrace [IF] ]
997: dobacktrace
998: [ [THEN] ]
999: normal-dp dpp ! ;
1000:
1001: ' (DoError) IS DoError
1002:
1003: [ELSE]
1004: : dec. base @ >r decimal . r> base ! ;
1005: : DoError ( throw-code -- )
1006: cr source drop >in @ type ." <<< "
1007: dup -2 = IF "error @ type drop EXIT THEN
1008: .error ;
1009: [THEN]
1010:
1011: : quit ( ?? -- ?? ) \ core
1012: \G Empty the return stack, make the user input device
1013: \G the input source, enter interpret state and start
1014: \G the text interpreter.
1015: rp0 @ rp! handler off clear-tibstack
1016: [ has? new-input 0= [IF] ] >tib @ >r [ [THEN] ]
1017: BEGIN
1018: [ has? compiler [IF] ]
1019: [compile] [
1020: [ [THEN] ]
1021: \ stack depths may be arbitrary here
1022: ['] 'quit CATCH dup
1023: WHILE
1024: <# \ reset hold area, or we may get another error
1025: DoError
1026: \ stack depths may be arbitrary still (or again), so clear them
1027: clearstacks
1028: [ has? new-input [IF] ] clear-tibstack
1029: [ [ELSE] ] r@ >tib ! r@ tibstack !
1030: [ [THEN] ]
1031: REPEAT
1032: drop [ has? new-input [IF] ] clear-tibstack
1033: [ [ELSE] ] r> >tib !
1034: [ [THEN] ] ;
1035:
1036: \ \ Cold Boot 13feb93py
1037:
1038: : (bootmessage) ( -- )
1039: ." Gforth " version-string type
1040: ." , Copyright (C) 1995-2006,2007 Free Software Foundation, Inc." cr
1041: ." Gforth comes with ABSOLUTELY NO WARRANTY; for details type `license'"
1042: [ has? os [IF] ]
1043: cr ." Type `bye' to exit"
1044: [ [THEN] ] ;
1045:
1046: defer bootmessage ( -- ) \ gforth
1047: \G Hook (deferred word) executed right after interpreting the OS
1048: \G command-line arguments. Normally prints the Gforth startup
1049: \G message.
1050:
1051: has? file [IF]
1052: defer process-args
1053: [THEN]
1054:
1055: ' (bootmessage) IS bootmessage
1056:
1057: has? os [IF]
1058: Defer 'cold ( -- ) \ gforth tick-cold
1059: \G Hook (deferred word) for things to do right before interpreting the
1060: \G OS command-line arguments. Normally does some initializations that
1061: \G you also want to perform.
1062: ' noop IS 'cold
1063: [THEN]
1064:
1065: : cold ( -- ) \ gforth
1066: [ has? backtrace [IF] ]
1067: rp@ backtrace-rp0 !
1068: [ [THEN] ]
1069: [ has? file [IF] ]
1070: os-cold
1071: [ [THEN] ]
1072: [ has? os [IF] ]
1073: set-encoding-fixed-width
1074: 'cold
1075: [ [THEN] ]
1076: [ has? file [IF] ]
1077: process-args
1078: loadline off
1079: [ [THEN] ]
1080: bootmessage
1081: quit ;
1082:
1083: has? new-input 0= [IF]
1084: : clear-tibstack ( -- )
1085: [ has? glocals [IF] ]
1086: lp@ forthstart 7 cells + @ -
1087: [ [ELSE] ]
1088: [ has? os [IF] ]
1089: r0 @ forthstart 6 cells + @ -
1090: [ [ELSE] ]
1091: sp@ cell+
1092: [ [THEN] ]
1093: [ [THEN] ]
1094: dup >tib ! tibstack ! #tib off
1095: input-start-line ;
1096: [THEN]
1097:
1098: : boot ( path n **argv argc -- )
1099: [ has? no-userspace 0= [IF] ]
1100: main-task up!
1101: [ [THEN] ]
1102: [ has? os [IF] ]
1103: os-boot
1104: [ [THEN] ]
1105: [ has? rom [IF] ]
1106: ram-shadow dup @ dup -1 <> >r u> r> and IF
1107: ram-shadow 2@ ELSE
1108: ram-mirror ram-size THEN ram-start swap move
1109: [ [THEN] ]
1110: sp@ sp0 !
1111: [ has? peephole [IF] ]
1112: \ only needed for greedy static superinstruction selection
1113: \ primtable prepare-peephole-table TO peeptable
1114: [ [THEN] ]
1115: [ has? new-input [IF] ]
1116: current-input off
1117: [ [THEN] ]
1118: clear-tibstack
1119: 0 0 includefilename 2!
1120: rp@ rp0 !
1121: [ has? floating [IF] ]
1122: fp@ fp0 !
1123: [ [THEN] ]
1124: [ has? os [IF] ]
1125: handler off
1126: ['] cold catch dup -&2049 <> if \ broken pipe?
1127: DoError cr
1128: endif
1129: [ [ELSE] ]
1130: cold
1131: [ [THEN] ]
1132: [ has? os [IF] ]
1133: 1 (bye) \ !! determin exit code from throw code?
1134: [ [THEN] ]
1135: ;
1136:
1137: has? os [IF]
1138: : bye ( -- ) \ tools-ext
1139: [ has? file [IF] ]
1140: script? 0= IF cr THEN
1141: [ [ELSE] ]
1142: cr
1143: [ [THEN] ]
1144: 0 (bye) ;
1145: [THEN]
1146:
1147: \ **argv may be scanned by the C starter to get some important
1148: \ information, as -display and -geometry for an X client FORTH
1149: \ or space and stackspace overrides
1150:
1151: \ 0 arg contains, however, the name of the program.
1152:
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