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[/] [ion/] [trunk/] [src/] [adventure/] [misc.c] - Blame information for rev 177

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1 90 ja_rd 
#include "main.h"
2 
#include "misc.h"
3 
#include <stdio.h>
4 
 
5 
#include "../common/baremetal.h"
6 
#include "adv_baremetal.h"
7 
 
8 
#define TRUE  (0==0)
9 
#define FALSE (0!=0)
10 
 
11 
/*  I/O ROUTINES (SPEAK, PSPEAK, RSPEAK, SETPRM, GETIN, YES) */
12 
 
13 
#undef SPEAK
14 
void fSPEAK(N)long N; {
15 
long BLANK, CASE, I, K, L, NEG, NPARMS, PARM, PRMTYP, STATE;
16 
 
17 
/*  PRINT THE MESSAGE WHICH STARTS AT LINES(N).  PRECEDE IT WITH A BLANK LINE
18 
 *  UNLESS BLKLIN IS FALSE. */
19 
 
20 
 
21 
        if(N == 0)return;
22 
        BLANK=BLKLIN;
23 
        K=N;
24 
        NPARMS=1;
25 
L10:    L=IABS(LINES[K])-1;
26 
        K=K+1;
27 
        LNLENG=0;
28 
        LNPOSN=1;
29 
        STATE=0;
30 
        /* 20 */ for (I=K; I<=L; I++) {
31 
L20:    PUTTXT(LINES[I],STATE,2,I);
32 
        } /* end loop */
33 
        LNPOSN=0;
34 
L30:    LNPOSN=LNPOSN+1;
35 
L32:    if(LNPOSN > LNLENG) goto L40;
36 
        if(INLINE[LNPOSN] != 63) goto L30;
37 
        {long x = LNPOSN+1; PRMTYP=INLINE[x];}
38 
/*  63 IS A "%"; THE NEXT CHARACTER DETERMINE THE TYPE OF PARAMETER:  1 (!) =
39 
 *  SUPPRESS MESSAGE COMPLETELY, 29 (S) = NULL IF PARM=1, ELSE 'S' (OPTIONAL
40 
 *  PLURAL ENDING), 33 (W) = WORD (TWO 30-BIT VALUES) WITH TRAILING SPACES
41 
 *  SUPPRESSED, 22 (L) OR 31 (U) = WORD BUT MAP TO LOWER/UPPER CASE, 13 (C) =
42 
 *  WORD IN LOWER CASE WITH FIRST LETTER CAPITALISED, 30 (T) = TEXT ENDING
43 
 *  WITH A WORD OF -1, 65-73 (1-9) = NUMBER USING THAT MANY CHARACTERS,
44 
 *  12 (B) = VARIABLE NUMBER OF BLANKS. */
45 
        if(PRMTYP == 1)return;
46 
        if(PRMTYP == 29) goto L320;
47 
        if(PRMTYP == 30) goto L340;
48 
        if(PRMTYP == 12) goto L360;
49 
        if(PRMTYP == 33 || PRMTYP == 22 || PRMTYP == 31 || PRMTYP == 13) goto
50 
                L380;
51 
        PRMTYP=PRMTYP-64;
52 
        if(PRMTYP < 1 || PRMTYP > 9) goto L30;
53 
        SHFTXT(LNPOSN+2,PRMTYP-2);
54 
        LNPOSN=LNPOSN+PRMTYP;
55 
        PARM=IABS(PARMS[NPARMS]);
56 
        NEG=0;
57 
        if(PARMS[NPARMS] < 0)NEG=9;
58 
        /* 390 */ for (I=1; I<=PRMTYP; I++) {
59 
        LNPOSN=LNPOSN-1;
60 
        INLINE[LNPOSN]=MOD(PARM,10)+64;
61 
        if(I == 1 || PARM != 0) goto L390;
62 
        INLINE[LNPOSN]=NEG;
63 
        NEG=0;
64 
L390:   PARM=PARM/10;
65 
        } /* end loop */
66 
        LNPOSN=LNPOSN+PRMTYP;
67 
L395:   NPARMS=NPARMS+1;
68 
         goto L32;
69 
 
70 
L320:   SHFTXT(LNPOSN+2,-1);
71 
        INLINE[LNPOSN]=55;
72 
        if(PARMS[NPARMS] == 1)SHFTXT(LNPOSN+1,-1);
73 
         goto L395;
74 
 
75 
L340:   SHFTXT(LNPOSN+2,-2);
76 
        STATE=0;
77 
        CASE=2;
78 
L345:   if(PARMS[NPARMS] < 0) goto L395;
79 
        {long x = NPARMS+1; if(PARMS[x] < 0)CASE=0;}
80 
        PUTTXT(PARMS[NPARMS],STATE,CASE,0);
81 
        NPARMS=NPARMS+1;
82 
         goto L345;
83 
 
84 
L360:   PRMTYP=PARMS[NPARMS];
85 
        SHFTXT(LNPOSN+2,PRMTYP-2);
86 
        if(PRMTYP == 0) goto L395;
87 
        /* 365 */ for (I=1; I<=PRMTYP; I++) {
88 
        INLINE[LNPOSN]=0;
89 
L365:   LNPOSN=LNPOSN+1;
90 
        } /* end loop */
91 
         goto L395;
92 
 
93 
L380:   SHFTXT(LNPOSN+2,-2);
94 
        STATE=0;
95 
        CASE= -1;
96 
        if(PRMTYP == 31)CASE=1;
97 
        if(PRMTYP == 33)CASE=0;
98 
        I=LNPOSN;
99 
        PUTTXT(PARMS[NPARMS],STATE,CASE,0);
100 
        {long x = NPARMS+1; PUTTXT(PARMS[x],STATE,CASE,0);}
101 
        if(PRMTYP == 13 && INLINE[I] >= 37 && INLINE[I] <=
102 
                62)INLINE[I]=INLINE[I]-26;
103 
        NPARMS=NPARMS+2;
104 
         goto L32;
105 
 
106 
L40:    if(BLANK)TYPE0();
107 
        BLANK=FALSE;
108 
        TYPE();
109 
        K=L+1;
110 
        if(LINES[K] >= 0) goto L10;
111 
        return;
112 
}
113 
 
114 
 
115 
 
116 
#define SPEAK(N) fSPEAK(N)
117 
#undef PSPEAK
118 
void fPSPEAK(MSG,SKIP)long MSG, SKIP; {
119 
long I, M;
120 
 
121 
/*  FIND THE SKIP+1ST MESSAGE FROM MSG AND PRINT IT.  MSG SHOULD BE THE INDEX OF
122 
 *  THE INVENTORY MESSAGE FOR OBJECT.  (INVEN+N+1 MESSAGE IS PROP=N MESSAGE). */
123 
 
124 
 
125 
        M=PTEXT[MSG];
126 
        if(SKIP < 0) goto L9;
127 
        /* 3 */ for (I=0; I<=SKIP; I++) {
128 
L1:     M=IABS(LINES[M]);
129 
        if(LINES[M] >= 0) goto L1;
130 
L3:     /*etc*/ ;
131 
        } /* end loop */
132 
L9:     SPEAK(M);
133 
        return;
134 
}
135 
 
136 
 
137 
 
138 
#define PSPEAK(MSG,SKIP) fPSPEAK(MSG,SKIP)
139 
#undef RSPEAK
140 
void fRSPEAK(I)long I; {
141 
;
142 
 
143 
/*  PRINT THE I-TH "RANDOM" MESSAGE (SECTION 6 OF DATABASE). */
144 
 
145 
 
146 
        if(I != 0)SPEAK(RTEXT[I]);
147 
        return;
148 
}
149 
 
150 
 
151 
 
152 
#define RSPEAK(I) fRSPEAK(I)
153 
#undef SETPRM
154 
void fSETPRM(FIRST,P1,P2)long FIRST, P1, P2; {
155 
;
156 
 
157 
/*  STORES PARAMETERS INTO THE PRMCOM PARMS ARRAY FOR USE BY SPEAK.  P1 AND P2
158 
 *  ARE STORED INTO PARMS(FIRST) AND PARMS(FIRST+1). */
159 
 
160 
 
161 
        if(FIRST >= 25)BUG(29);
162 
        PARMS[FIRST]=P1;
163 
        {long x = FIRST+1; PARMS[x]=P2;}
164 
        return;
165 
}
166 
 
167 
 
168 
 
169 
#define SETPRM(FIRST,P1,P2) fSETPRM(FIRST,P1,P2)
170 
#undef GETIN
171 
#define WORD1 (*wORD1)
172 
#define WORD1X (*wORD1X)
173 
#define WORD2 (*wORD2)
174 
#define WORD2X (*wORD2X)
175 
void fGETIN(wORD1,wORD1X,wORD2,wORD2X)long *wORD1, *wORD1X, *wORD2, *wORD2X; {
176 
long JUNK;
177 
 
178 
/*  GET A COMMAND FROM THE ADVENTURER.  SNARF OUT THE FIRST WORD, PAD IT WITH
179 
 *  BLANKS, AND RETURN IT IN WORD1.  CHARS 6 THRU 10 ARE RETURNED IN WORD1X, IN
180 
 *  CASE WE NEED TO PRINT OUT THE WHOLE WORD IN AN ERROR MESSAGE.  ANY NUMBER OF
181 
 *  BLANKS MAY FOLLOW THE WORD.  IF A SECOND WORD APPEARS, IT IS RETURNED IN
182 
 *  WORD2 (CHARS 6 THRU 10 IN WORD2X), ELSE WORD2 IS -1. */
183 
 
184 
 
185 
L10:    if(BLKLIN)TYPE0();
186 
        MAPLIN(FALSE);
187 
        WORD1=GETTXT(TRUE,TRUE,TRUE,0);
188 
        if(BLKLIN && WORD1 < 0) goto L10;
189 
        WORD1X=GETTXT(FALSE,TRUE,TRUE,0);
190 
L12:    JUNK=GETTXT(FALSE,TRUE,TRUE,0);
191 
        if(JUNK > 0) goto L12;
192 
        WORD2=GETTXT(TRUE,TRUE,TRUE,0);
193 
        WORD2X=GETTXT(FALSE,TRUE,TRUE,0);
194 
L22:    JUNK=GETTXT(FALSE,TRUE,TRUE,0);
195 
        if(JUNK > 0) goto L22;
196 
        if(GETTXT(TRUE,TRUE,TRUE,0) <= 0)return;
197 
        RSPEAK(53);
198 
         goto L10;
199 
}
200 
 
201 
 
202 
 
203 
#undef WORD1
204 
#undef WORD1X
205 
#undef WORD2
206 
#undef WORD2X
207 
#define GETIN(WORD1,WORD1X,WORD2,WORD2X) fGETIN(&WORD1,&WORD1X,&WORD2,&WORD2X)
208 
#undef YES
209 
long fYES(X,Y,Z)long X, Y, Z; {
210 
 
211 
long YES, REPLY, JUNK1, JUNK2, JUNK3;
212 
 
213 
/*  PRINT MESSAGE X, WAIT FOR YES/NO ANSWER.  IF YES, PRINT Y AND RETURN TRUE;
214 
 *  IF NO, PRINT Z AND RETURN FALSE. */
215 
 
216 
L1:     RSPEAK(X);
217 
        GETIN(REPLY,JUNK1,JUNK2,JUNK3);
218 
        if(REPLY == MAKEWD(250519) || REPLY == MAKEWD(25)) goto L10;
219 
        if(REPLY == MAKEWD(1415) || REPLY == MAKEWD(14)) goto L20;
220 
        RSPEAK(185);
221 
         goto L1;
222 
L10:    YES=TRUE;
223 
        RSPEAK(Y);
224 
        return(YES);
225 
L20:    YES=FALSE;
226 
        RSPEAK(Z);
227 
        return(YES);
228 
}
229 
 
230 
 
231 
 
232 
 
233 
 
234 
/*  LINE-PARSING ROUTINES (GETNUM, GETTXT, MAKEWD, PUTTXT, SHFTXT, TYPE0)
235 
                */
236 
 
237 
/*  THE ROUTINES ON THIS PAGE HANDLE ALL THE STUFF THAT WOULD NORMALLY BE
238 
 *  TAKEN CARE OF BY FORMAT STATEMENTS.  WE DO IT THIS WAY INSTEAD SO THAT
239 
 *  WE CAN HANDLE TEXTUAL DATA IN A MACHINE INDEPENDENT FASHION.  ALL THE
240 
 *  MACHINE DEPENDENT I/O STUFF IS ON THE FOLLOWING PAGE.  SEE THAT PAGE
241 
 *  FOR A DESCRIPTION OF MAPCOM'S INLINE ARRAY. */
242 
 
243 
#define YES(X,Y,Z) fYES(X,Y,Z)
244 
#undef GETNUM
245 
long fGETNUM(K)long K; {
246 
long DIGIT, GETNUM, SIGN;
247 
 
248 
/*  OBTAIN THE NEXT INTEGER FROM AN INPUT LINE.  IF K>0, WE FIRST READ A
249 
 *  NEW INPUT LINE FROM A FILE; IF K<0, WE READ A LINE FROM THE KEYBOARD;
250 
 *  IF K=0 WE USE A LINE THAT HAS ALREADY BEEN READ (AND PERHAPS PARTIALLY
251 
 *  SCANNED).  IF WE'RE AT THE END OF THE LINE OR ENCOUNTER AN ILLEGAL
252 
 *  CHARACTER (NOT A DIGIT, HYPHEN, OR BLANK), WE RETURN 0. */
253 
 
254 
 
255 
        if(K != 0)MAPLIN(K > 0);
256 
        GETNUM=0;
257 
L10:    if(LNPOSN > LNLENG)return(GETNUM);
258 
        if(INLINE[LNPOSN] != 0) goto L20;
259 
        LNPOSN=LNPOSN+1;
260 
         goto L10;
261 
 
262 
L20:    SIGN=1;
263 
        if(INLINE[LNPOSN] != 9) goto L32;
264 
        SIGN= -1;
265 
L30:    LNPOSN=LNPOSN+1;
266 
L32:    if(LNPOSN > LNLENG || INLINE[LNPOSN] == 0) goto L42;
267 
        DIGIT=INLINE[LNPOSN]-64;
268 
        if(DIGIT < 0 || DIGIT > 9) goto L40;
269 
        GETNUM=GETNUM*10+DIGIT;
270 
         goto L30;
271 
 
272 
L40:    GETNUM=0;
273 
L42:    GETNUM=GETNUM*SIGN;
274 
        LNPOSN=LNPOSN+1;
275 
        return(GETNUM);
276 
}
277 
 
278 
 
279 
 
280 
#define GETNUM(K) fGETNUM(K)
281 
#undef GETTXT
282 
long fGETTXT(SKIP,ONEWRD,UPPER,HASH)long HASH, ONEWRD, SKIP, UPPER; {
283 
long CHAR, GETTXT, I; static long SPLITTING = -1;
284 
 
285 
/*  TAKE CHARACTERS FROM AN INPUT LINE AND PACK THEM INTO 30-BIT WORDS.
286 
 *  SKIP SAYS TO SKIP LEADING BLANKS.  ONEWRD SAYS STOP IF WE COME TO A
287 
 *  BLANK.  UPPER SAYS TO MAP ALL LETTERS TO UPPERCASE.  HASH MAY BE USED
288 
 *  AS A PARAMETER FOR ENCRYPTING THE TEXT IF DESIRED; HOWEVER, A HASH OF 0
289 
 *  SHOULD RESULT IN UNMODIFIED BYTES BEING PACKED.  IF WE REACH THE
290 
 *  END OF THE LINE, THE WORD IS FILLED UP WITH BLANKS (WHICH ENCODE AS 0'S).
291 
 *  IF WE'RE ALREADY AT END OF LINE WHEN GETTXT IS CALLED, WE RETURN -1. */
292 
 
293 
        if(LNPOSN != SPLITTING)SPLITTING = -1;
294 
        GETTXT= -1;
295 
L10:    if(LNPOSN > LNLENG)return(GETTXT);
296 
        if((!SKIP) || INLINE[LNPOSN] != 0) goto L11;
297 
        LNPOSN=LNPOSN+1;
298 
         goto L10;
299 
 
300 
L11:    GETTXT=0;
301 
        /* 15 */ for (I=1; I<=5; I++) {
302 
        GETTXT=GETTXT*64;
303 
        if(LNPOSN > LNLENG || (ONEWRD && INLINE[LNPOSN] == 0)) goto L15;
304 
        CHAR=INLINE[LNPOSN];
305 
        if(CHAR >= 63) goto L12;
306 
        SPLITTING = -1;
307 
        if(UPPER && CHAR >= 37)CHAR=CHAR-26;
308 
        GETTXT=GETTXT+CHAR;
309 
         goto L14;
310 
 
311 
L12:    if(SPLITTING == LNPOSN) goto L13;
312 
        GETTXT=GETTXT+63;
313 
        SPLITTING = LNPOSN;
314 
         goto L15;
315 
 
316 
L13:    GETTXT=GETTXT+CHAR-63;
317 
        SPLITTING = -1;
318 
L14:    LNPOSN=LNPOSN+1;
319 
L15:    /*etc*/ ;
320 
        } /* end loop */
321 
 
322 
        if(HASH)GETTXT=GETTXT+MOD(HASH*13579L+5432L,97531L)*12345L+HASH;
323 
        return(GETTXT);
324 
}
325 
 
326 
 
327 
 
328 
#define GETTXT(SKIP,ONEWRD,UPPER,HASH) fGETTXT(SKIP,ONEWRD,UPPER,HASH)
329 
#undef MAKEWD
330 
long fMAKEWD(LETTRS)long LETTRS; {
331 
long I, L, MAKEWD;
332 
 
333 
/*  COMBINE FIVE UPPERCASE LETTERS (REPRESENTED BY PAIRS OF DECIMAL DIGITS
334 
 *  IN LETTRS) TO FORM A 30-BIT VALUE MATCHING THE ONE THAT GETTXT WOULD
335 
 *  RETURN GIVEN THOSE CHARACTERS PLUS TRAILING BLANKS AND HASH=0.  CAUTION:
336 
 *  LETTRS WILL OVERFLOW 31 BITS IF 5-LETTER WORD STARTS WITH V-Z.  AS A
337 
 *  KLUDGEY WORKAROUND, YOU CAN INCREMENT A LETTER BY 5 BY ADDING 50 TO
338 
 *  THE NEXT PAIR OF DIGITS. */
339 
 
340 
 
341 
        MAKEWD=0;
342 
        I=1;
343 
        L=LETTRS;
344 
L10:    MAKEWD=MAKEWD+I*(MOD(L,50)+10);
345 
        I=I*64;
346 
        if(MOD(L,100) > 50)MAKEWD=MAKEWD+I*5;
347 
        L=L/100;
348 
        if(L != 0) goto L10;
349 
        I=64L*64L*64L*64L*64L/I;
350 
        MAKEWD=MAKEWD*I;
351 
        return(MAKEWD);
352 
}
353 
 
354 
 
355 
 
356 
#define MAKEWD(LETTRS) fMAKEWD(LETTRS)
357 
#undef PUTTXT
358 
#define STATE (*sTATE)
359 
void fPUTTXT(WORD,sTATE,CASE,HASH)long CASE, HASH, *sTATE, WORD; {
360 
long ALPH1, ALPH2, BYTE, DIV, I, W;
361 
 
362 
/*  UNPACK THE 30-BIT VALUE IN WORD TO OBTAIN UP TO 5 INTEGER-ENCODED CHARS,
363 
 *  AND STORE THEM IN INLINE STARTING AT LNPOSN.  IF LNLENG>=LNPOSN, SHIFT
364 
 *  EXISTING CHARACTERS TO THE RIGHT TO MAKE ROOM.  HASH MUST BE THE SAME
365 
 *  AS IT WAS WHEN GETTXT CREATED THE 30-BIT WORD.  STATE WILL BE ZERO WHEN
366 
 *  PUTTXT IS CALLED WITH THE FIRST OF A SEQUENCE OF WORDS, BUT IS THEREAFTER
367 
 *  UNCHANGED BY THE CALLER, SO PUTTXT CAN USE IT TO MAINTAIN STATE ACROSS
368 
 *  CALLS.  LNPOSN AND LNLENG ARE INCREMENTED BY THE NUMBER OF CHARS STORED.
369 
 *  IF CASE=1, ALL LETTERS ARE MADE UPPERCASE; IF -1, LOWERCASE; IF 0, AS IS.
370 
 *  ANY OTHER VALUE FOR CASE IS THE SAME AS 0 BUT ALSO CAUSES TRAILING BLANKS
371 
 *  TO BE INCLUDED (IN ANTICIPATION OF SUBSEQUENT ADDITIONAL TEXT). */
372 
 
373 
 
374 
        ALPH1=13*CASE+24;
375 
        ALPH2=26*IABS(CASE)+ALPH1;
376 
        if(IABS(CASE) > 1)ALPH1=ALPH2;
377 
/*  ALPH1&2 DEFINE RANGE OF WRONG-CASE CHARS, 11-36 OR 37-62 OR EMPTY. */
378 
        DIV=64L*64L*64L*64L;
379 
        W=WORD;
380 
        if(HASH)W=W-MOD(HASH*13579L+5432L,97531L)*12345L-HASH;
381 
        /* 18 */ for (I=1; I<=5; I++) {
382 
        if(W <= 0 && STATE == 0 && IABS(CASE) <= 1)return;
383 
        BYTE=W/DIV;
384 
        if(STATE != 0 || BYTE != 63) goto L12;
385 
        STATE=63;
386 
         goto L18;
387 
 
388 
L12:    SHFTXT(LNPOSN,1);
389 
        STATE=STATE+BYTE;
390 
        if(STATE < ALPH2 && STATE >= ALPH1)STATE=STATE-26*CASE;
391 
        INLINE[LNPOSN]=STATE;
392 
        LNPOSN=LNPOSN+1;
393 
        STATE=0;
394 
L18:    W=(W-BYTE*DIV)*64;
395 
        } /* end loop */
396 
        return;
397 
}
398 
 
399 
 
400 
 
401 
#undef STATE
402 
#define PUTTXT(WORD,STATE,CASE,HASH) fPUTTXT(WORD,&STATE,CASE,HASH)
403 
#undef SHFTXT
404 
void fSHFTXT(FROM,DELTA)long DELTA, FROM; {
405 
long I, II, JJ;
406 
 
407 
/*  MOVE INLINE(N) TO INLINE(N+DELTA) FOR N=FROM,LNLENG.  DELTA CAN BE
408 
 *  NEGATIVE.  LNLENG IS UPDATED; LNPOSN IS NOT CHANGED. */
409 
 
410 
 
411 
        if(LNLENG < FROM || DELTA == 0) goto L2;
412 
        /* 1 */ for (I=FROM; I<=LNLENG; I++) {
413 
        II=I;
414 
        if(DELTA > 0)II=FROM+LNLENG-I;
415 
        JJ=II+DELTA;
416 
L1:     INLINE[JJ]=INLINE[II];
417 
        } /* end loop */
418 
L2:     LNLENG=LNLENG+DELTA;
419 
        return;
420 
}
421 
 
422 
 
423 
 
424 
#define SHFTXT(FROM,DELTA) fSHFTXT(FROM,DELTA)
425 
#undef TYPE0
426 
void fTYPE0() {
427 
long TEMP;
428 
 
429 
/*  TYPE A BLANK LINE.  THIS PROCEDURE IS PROVIDED AS A CONVENIENCE FOR CALLERS
430 
 *  WHO OTHERWISE HAVE NO USE FOR MAPCOM. */
431 
 
432 
 
433 
        TEMP=LNLENG;
434 
        LNLENG=0;
435 
        TYPE();
436 
        LNLENG=TEMP;
437 
        return;
438 
}
439 
 
440 
 
441 
 
442 
#define TYPE0() fTYPE0()
443 
 
444 
 
445 
/*  SUSPEND/RESUME I/O ROUTINES (SAVWDS, SAVARR, SAVWRD) */
446 
 
447 
#undef SAVWDS
448 
void fSAVWDS(W1,W2,W3,W4,W5,W6,W7)long *W1, *W2, *W3, *W4, *W5, *W6, *W7; {
449 
;
450 
 
451 
/*  WRITE OR READ 7 VARIABLES.  SEE SAVWRD. */
452 
 
453 
 
454 
        SAVWRD(0,(*W1));
455 
        SAVWRD(0,(*W2));
456 
        SAVWRD(0,(*W3));
457 
        SAVWRD(0,(*W4));
458 
        SAVWRD(0,(*W5));
459 
        SAVWRD(0,(*W6));
460 
        SAVWRD(0,(*W7));
461 
        return;
462 
}
463 
 
464 
 
465 
#define SAVWDS(W1,W2,W3,W4,W5,W6,W7) fSAVWDS(&W1,&W2,&W3,&W4,&W5,&W6,&W7)
466 
#undef SAVARR
467 
void fSAVARR(ARR,N)long ARR[], N; {
468 
long I;
469 
 
470 
/*  WRITE OR READ AN ARRAY OF N WORDS.  SEE SAVWRD. */
471 
 
472 
 
473 
        /* 1 */ for (I=1; I<=N; I++) {
474 
L1:     SAVWRD(0,ARR[I]);
475 
        } /* end loop */
476 
        return;
477 
}
478 
 
479 
 
480 
 
481 
#define SAVARR(ARR,N) fSAVARR(ARR,N)
482 
#undef SAVWRD
483 
#define WORD (*wORD)
484 
void fSAVWRD(OP,wORD)long OP, *wORD; {
485 
static long BUF[250], CKSUM = 0, H1, HASH = 0, N = 0, STATE = 0;
486 
 
487 
/*  IF OP<0, START WRITING A FILE, USING WORD TO INITIALISE ENCRYPTION; SAVE
488 
 *  WORD IN THE FILE.  IF OP>0, START READING A FILE; READ THE FILE TO FIND
489 
 *  THE VALUE WITH WHICH TO DECRYPT THE REST.  IN EITHER CASE, IF A FILE IS
490 
 *  ALREADY OPEN, FINISH WRITING/READING IT AND DON'T START A NEW ONE.  IF OP=0,
491 
 *  READ/WRITE A SINGLE WORD.  WORDS ARE BUFFERED IN CASE THAT MAKES FOR MORE
492 
 *  EFFICIENT DISK USE.  WE ALSO COMPUTE A SIMPLE CHECKSUM TO CATCH ELEMENTARY
493 
 *  POKING WITHIN THE SAVED FILE.  WHEN WE FINISH READING/WRITING THE FILE,
494 
 *  WE STORE ZERO INTO WORD IF THERE'S NO CHECKSUM ERROR, ELSE NONZERO. */
495 
 
496 
 
497 
        if(OP != 0){long ifvar; ifvar=(STATE); switch (ifvar<0? -1 : ifvar>0? 1 :
498 
                0) { case -1: goto L30; case 0: goto L10; case 1: goto L30; }}
499 
        if(STATE == 0)return;
500 
        if(N == 250)SAVEIO(1,STATE > 0,BUF);
501 
        N=MOD(N,250)+1;
502 
        H1=MOD(HASH*1093L+221573L,1048576L);
503 
        HASH=MOD(H1*1093L+221573L,1048576L);
504 
        H1=MOD(H1,1234)*765432+MOD(HASH,123);
505 
        N--;
506 
        if(STATE > 0)WORD=BUF[N]+H1;
507 
        BUF[N]=WORD-H1;
508 
        N++;
509 
        CKSUM=MOD(CKSUM*13+WORD,1000000000L);
510 
        return;
511 
 
512 
L10:    STATE=OP;
513 
        SAVEIO(0,STATE > 0,BUF);
514 
        N=1;
515 
        if(STATE > 0) goto L15;
516 
        HASH=MOD(WORD,1048576L);
517 
        BUF[0]=1234L*5678L-HASH;
518 
L13:    CKSUM=BUF[0];
519 
        return;
520 
 
521 
L15:    SAVEIO(1,TRUE,BUF);
522 
        HASH=MOD(1234L*5678L-BUF[0],1048576L);
523 
         goto L13;
524 
 
525 
L30:    if(N == 250)SAVEIO(1,STATE > 0,BUF);
526 
        N=MOD(N,250)+1;
527 
        if(STATE > 0) goto L32;
528 
        N--; BUF[N]=CKSUM; N++;
529 
        SAVEIO(1,FALSE,BUF);
530 
L32:    N--; WORD=BUF[N]-CKSUM; N++;
531 
        SAVEIO(-1,STATE > 0,BUF);
532 
        STATE=0;
533 
        return;
534 
}
535 
 
536 
 
537 
 
538 
 
539 
 
540 
/*  DATA STRUC. ROUTINES (VOCAB, DSTROY, JUGGLE, MOVE, PUT, CARRY, DROP, ATDWRF)
541 
                */
542 
 
543 
#undef WORD
544 
#define SAVWRD(OP,WORD) fSAVWRD(OP,&WORD)
545 
#undef VOCAB
546 
long fVOCAB(ID,INIT)long ID, INIT; {
547 
long HASH, I, VOCAB;
548 
 
549 
/*  LOOK UP ID IN THE VOCABULARY (ATAB) AND RETURN ITS "DEFINITION" (KTAB), OR
550 
 *  -1 IF NOT FOUND.  IF INIT IS POSITIVE, THIS IS AN INITIALISATION CALL SETTING
551 
 *  UP A KEYWORD VARIABLE, AND NOT FINDING IT CONSTITUTES A BUG.  IT ALSO MEANS
552 
 *  THAT ONLY KTAB VALUES WHICH TAKEN OVER 1000 EQUAL INIT MAY BE CONSIDERED.
553 
 *  (THUS "STEPS", WHICH IS A MOTION VERB AS WELL AS AN OBJECT, MAY BE LOCATED
554 
 *  AS AN OBJECT.)  AND IT ALSO MEANS THE KTAB VALUE IS TAKEN MOD 1000. */
555 
 
556 
        HASH=10000;
557 
        /* 1 */ for (I=1; I<=TABSIZ; I++) {
558 
        if(KTAB[I] == -1) goto L2;
559 
        HASH=HASH+7;
560 
        if(INIT >= 0 && KTAB[I]/1000 != INIT) goto L1;
561 
        if(ATAB[I] == ID+HASH*HASH) goto L3;
562 
L1:     /*etc*/ ;
563 
        } /* end loop */
564 
        BUG(21);
565 
 
566 
L2:     VOCAB= -1;
567 
        if(INIT < 0)return(VOCAB);
568 
        BUG(5);
569 
 
570 
L3:     VOCAB=KTAB[I];
571 
        if(INIT >= 0)VOCAB=MOD(VOCAB,1000);
572 
        return(VOCAB);
573 
}
574 
 
575 
 
576 
 
577 
#define VOCAB(ID,INIT) fVOCAB(ID,INIT)
578 
#undef DSTROY
579 
void fDSTROY(OBJECT)long OBJECT; {
580 
;
581 
 
582 
/*  PERMANENTLY ELIMINATE "OBJECT" BY MOVING TO A NON-EXISTENT LOCATION. */
583 
 
584 
 
585 
        MOVE(OBJECT,0);
586 
        return;
587 
}
588 
 
589 
 
590 
 
591 
#define DSTROY(OBJECT) fDSTROY(OBJECT)
592 
#undef JUGGLE
593 
void fJUGGLE(OBJECT)long OBJECT; {
594 
long I, J;
595 
 
596 
/*  JUGGLE AN OBJECT BY PICKING IT UP AND PUTTING IT DOWN AGAIN, THE PURPOSE
597 
 *  BEING TO GET THE OBJECT TO THE FRONT OF THE CHAIN OF THINGS AT ITS LOC. */
598 
 
599 
 
600 
        I=PLACE[OBJECT];
601 
        J=FIXED[OBJECT];
602 
        MOVE(OBJECT,I);
603 
        MOVE(OBJECT+100,J);
604 
        return;
605 
}
606 
 
607 
 
608 
 
609 
#define JUGGLE(OBJECT) fJUGGLE(OBJECT)
610 
#undef MOVE
611 
void fMOVE(OBJECT,WHERE)long OBJECT, WHERE; {
612 
long FROM;
613 
 
614 
/*  PLACE ANY OBJECT ANYWHERE BY PICKING IT UP AND DROPPING IT.  MAY ALREADY BE
615 
 *  TOTING, IN WHICH CASE THE CARRY IS A NO-OP.  MUSTN'T PICK UP OBJECTS WHICH
616 
 *  ARE NOT AT ANY LOC, SINCE CARRY WANTS TO REMOVE OBJECTS FROM ATLOC CHAINS. */
617 
 
618 
 
619 
        if(OBJECT > 100) goto L1;
620 
        FROM=PLACE[OBJECT];
621 
         goto L2;
622 
L1:     {long x = OBJECT-100; FROM=FIXED[x];}
623 
L2:     if(FROM > 0 && FROM <= 300)CARRY(OBJECT,FROM);
624 
        DROP(OBJECT,WHERE);
625 
        return;
626 
}
627 
 
628 
 
629 
 
630 
#define MOVE(OBJECT,WHERE) fMOVE(OBJECT,WHERE)
631 
#undef PUT
632 
long fPUT(OBJECT,WHERE,PVAL)long OBJECT, PVAL, WHERE; {
633 
long PUT;
634 
 
635 
/*  PUT IS THE SAME AS MOVE, EXCEPT IT RETURNS A VALUE USED TO SET UP THE
636 
 *  NEGATED PROP VALUES FOR THE REPOSITORY OBJECTS. */
637 
 
638 
 
639 
        MOVE(OBJECT,WHERE);
640 
        PUT=(-1)-PVAL;
641 
        return(PUT);
642 
}
643 
 
644 
 
645 
 
646 
#define PUT(OBJECT,WHERE,PVAL) fPUT(OBJECT,WHERE,PVAL)
647 
#undef CARRY
648 
void fCARRY(OBJECT,WHERE)long OBJECT, WHERE; {
649 
long TEMP;
650 
 
651 
/*  START TOTING AN OBJECT, REMOVING IT FROM THE LIST OF THINGS AT ITS FORMER
652 
 *  LOCATION.  INCR HOLDNG UNLESS IT WAS ALREADY BEING TOTED.  IF OBJECT>100
653 
 *  (MOVING "FIXED" SECOND LOC), DON'T CHANGE PLACE OR HOLDNG. */
654 
 
655 
 
656 
        if(OBJECT > 100) goto L5;
657 
        if(PLACE[OBJECT] == -1)return;
658 
        PLACE[OBJECT]= -1;
659 
        HOLDNG=HOLDNG+1;
660 
L5:     if(ATLOC[WHERE] != OBJECT) goto L6;
661 
        ATLOC[WHERE]=LINK[OBJECT];
662 
        return;
663 
L6:     TEMP=ATLOC[WHERE];
664 
L7:     if(LINK[TEMP] == OBJECT) goto L8;
665 
        TEMP=LINK[TEMP];
666 
         goto L7;
667 
L8:     LINK[TEMP]=LINK[OBJECT];
668 
        return;
669 
}
670 
 
671 
 
672 
 
673 
#define CARRY(OBJECT,WHERE) fCARRY(OBJECT,WHERE)
674 
#undef DROP
675 
void fDROP(OBJECT,WHERE)long OBJECT, WHERE; {
676 
;
677 
 
678 
/*  PLACE AN OBJECT AT A GIVEN LOC, PREFIXING IT ONTO THE ATLOC LIST.  DECR
679 
 *  HOLDNG IF THE OBJECT WAS BEING TOTED. */
680 
 
681 
 
682 
        if(OBJECT > 100) goto L1;
683 
        if(PLACE[OBJECT] == -1)HOLDNG=HOLDNG-1;
684 
        PLACE[OBJECT]=WHERE;
685 
         goto L2;
686 
L1:     {long x = OBJECT-100; FIXED[x]=WHERE;}
687 
L2:     if(WHERE <= 0)return;
688 
        LINK[OBJECT]=ATLOC[WHERE];
689 
        ATLOC[WHERE]=OBJECT;
690 
        return;
691 
}
692 
 
693 
 
694 
 
695 
#define DROP(OBJECT,WHERE) fDROP(OBJECT,WHERE)
696 
#undef ATDWRF
697 
long fATDWRF(WHERE)long WHERE; {
698 
long ATDWRF, I;
699 
 
700 
/*  RETURN THE INDEX OF FIRST DWARF AT THE GIVEN LOCATION, ZERO IF NO DWARF IS
701 
 *  THERE (OR IF DWARVES NOT ACTIVE YET), -1 IF ALL DWARVES ARE DEAD.  IGNORE
702 
 *  THE PIRATE (6TH DWARF). */
703 
 
704 
 
705 
        ATDWRF=0;
706 
        if(DFLAG < 2)return(ATDWRF);
707 
        ATDWRF= -1;
708 
        /* 1 */ for (I=1; I<=5; I++) {
709 
        if(DLOC[I] == WHERE) goto L2;
710 
L1:     if(DLOC[I] != 0)ATDWRF=0;
711 
        } /* end loop */
712 
        return(ATDWRF);
713 
 
714 
L2:     ATDWRF=I;
715 
        return(ATDWRF);
716 
}
717 
 
718 
 
719 
 
720 
 
721 
#define ATDWRF(WHERE) fATDWRF(WHERE)
722 
 
723 
 
724 
 
725 
/*  UTILITY ROUTINES (SETBIT, TSTBIT, RAN, RNDVOC, BUG) */
726 
 
727 
#undef SETBIT
728 
long fSETBIT(BIT)long BIT; {
729 
long I, SETBIT;
730 
 
731 
/*  RETURNS 2**BIT FOR USE IN CONSTRUCTING BIT-MASKS. */
732 
 
733 
 
734 
        SETBIT=1;
735 
        if(BIT <= 0)return(SETBIT);
736 
        /* 1 */ for (I=1; I<=BIT; I++) {
737 
L1:     SETBIT=SETBIT+SETBIT;
738 
        } /* end loop */
739 
        return(SETBIT);
740 
}
741 
 
742 
 
743 
 
744 
#define SETBIT(BIT) fSETBIT(BIT)
745 
#undef TSTBIT
746 
long fTSTBIT(MASK,BIT)long BIT, MASK; {
747 
long TSTBIT;
748 
 
749 
/*  RETURNS TRUE IF THE SPECIFIED BIT IS SET IN THE MASK. */
750 
 
751 
 
752 
        TSTBIT=MOD(MASK/SETBIT(BIT),2) != 0;
753 
        return(TSTBIT);
754 
}
755 
 
756 
 
757 
 
758 
#define TSTBIT(MASK,BIT) fTSTBIT(MASK,BIT)
759 
#undef RAN
760 
long fRAN(RANGE)long RANGE; {
761 
static long D, R = 0, RAN, T;
762 
 
763 
/*  SINCE THE RAN FUNCTION IN LIB40 SEEMS TO BE A REAL LOSE, WE'LL USE ONE OF
764 
 *  OUR OWN.  IT'S BEEN RUN THROUGH MANY OF THE TESTS IN KNUTH VOL. 2 AND
765 
 *  SEEMS TO BE QUITE RELIABLE.  RAN RETURNS A VALUE UNIFORMLY SELECTED
766 
 *  BETWEEN 0 AND RANGE-1. */
767 
 
768 
 
769 
        D=1;
770 
        if(R != 0 && RANGE >= 0) goto L1;
771 
        DATIME(D,T);
772 
        R=MOD(T+5,1048576L);
773 
        D=1000+MOD(D,1000);
774 
L1:     /* 2 */ for (T=1; T<=D; T++) {
775 
L2:     R=MOD(R*1093L+221587L,1048576L);
776 
        } /* end loop */
777 
        RAN=(RANGE*R)/1048576;
778 
        return(RAN);
779 
}
780 
 
781 
 
782 
 
783 
#define RAN(RANGE) fRAN(RANGE)
784 
#undef RNDVOC
785 
long fRNDVOC(CHAR,FORCE)long CHAR, FORCE; {
786 
long DIV, I, J, RNDVOC;
787 
 
788 
/*  SEARCHES THE VOCABULARY FOR A WORD WHOSE SECOND CHARACTER IS CHAR, AND
789 
 *  CHANGES THAT WORD SUCH THAT EACH OF THE OTHER FOUR CHARACTERS IS A
790 
 *  RANDOM LETTER.  IF FORCE IS NON-ZERO, IT IS USED AS THE NEW WORD.
791 
 *  RETURNS THE NEW WORD. */
792 
 
793 
 
794 
        RNDVOC=FORCE;
795 
        if(RNDVOC != 0) goto L3;
796 
        /* 1 */ for (I=1; I<=5; I++) {
797 
        J=11+RAN(26);
798 
        if(I == 2)J=CHAR;
799 
L1:     RNDVOC=RNDVOC*64+J;
800 
        } /* end loop */
801 
L3:     J=10000;
802 
        DIV=64L*64L*64L;
803 
        /* 5 */ for (I=1; I<=TABSIZ; I++) {
804 
        J=J+7;
805 
        if(MOD((ATAB[I]-J*J)/DIV,64L) == CHAR) goto L8;
806 
L5:     /*etc*/ ;
807 
        } /* end loop */
808 
        BUG(5);
809 
 
810 
L8:     ATAB[I]=RNDVOC+J*J;
811 
        return(RNDVOC);
812 
}
813 
 
814 
 
815 
 
816 
#define RNDVOC(CHAR,FORCE) fRNDVOC(CHAR,FORCE)
817 
#undef BUG
818 
void fBUG(NUM)long NUM; {
819 
 
820 
/*  THE FOLLOWING CONDITIONS ARE CURRENTLY CONSIDERED FATAL BUGS.  NUMBERS < 20
821 
 *  ARE DETECTED WHILE READING THE DATABASE; THE OTHERS OCCUR AT "RUN TIME".
822 
 *      0        MESSAGE LINE > 70 CHARACTERS
823 
 *      1       NULL LINE IN MESSAGE
824 
 *      2       TOO MANY WORDS OF MESSAGES
825 
 *      3       TOO MANY TRAVEL OPTIONS
826 
 *      4       TOO MANY VOCABULARY WORDS
827 
 *      5       REQUIRED VOCABULARY WORD NOT FOUND
828 
 *      6       TOO MANY RTEXT MESSAGES
829 
 *      7       TOO MANY HINTS
830 
 *      8       LOCATION HAS COND BIT BEING SET TWICE
831 
 *      9       INVALID SECTION NUMBER IN DATABASE
832 
 *      10      TOO MANY LOCATIONS
833 
 *      11      TOO MANY CLASS OR TURN MESSAGES
834 
 *      20      SPECIAL TRAVEL (500>L>300) EXCEEDS GOTO LIST
835 
 *      21      RAN OFF END OF VOCABULARY TABLE
836 
 *      22      VOCABULARY TYPE (N/1000) NOT BETWEEN 0 AND 3
837 
 *      23      INTRANSITIVE ACTION VERB EXCEEDS GOTO LIST
838 
 *      24      TRANSITIVE ACTION VERB EXCEEDS GOTO LIST
839 
 *      25      CONDITIONAL TRAVEL ENTRY WITH NO ALTERNATIVE
840 
 *      26      LOCATION HAS NO TRAVEL ENTRIES
841 
 *      27      HINT NUMBER EXCEEDS GOTO LIST
842 
 *      28      INVALID MONTH RETURNED BY DATE FUNCTION
843 
 *      29      TOO MANY PARAMETERS GIVEN TO SETPRM */
844 
 
845 177 ja_rd 
    printf("Fatal error %d. See source code for interpretation.\n", NUM);
846 90 ja_rd 
        exit(FALSE);
847 
}
848 
 
849 
 
850 
 
851 
 
852 
 
853 
/*  MACHINE DEPENDENT ROUTINES (MAPLIN, TYPE, MPINIT, SAVEIO) */
854 
 
855 
#define BUG(NUM) fBUG(NUM)
856 
#undef MAPLIN
857 
void fMAPLIN(FIL)long FIL; {
858 
long I, VAL; static MFILE *OPENED = NULL;
859 
 
860 
/*  READ A LINE OF INPUT, EITHER FROM A FILE (IF FIL=.TRUE.) OR FROM THE
861 
 *  KEYBOARD, TRANSLATE THE CHARS TO INTEGERS IN THE RANGE 0-126 AND STORE
862 
 *  THEM IN THE COMMON ARRAY "INLINE".  INTEGER VALUES ARE AS FOLLOWS:
863 
 *     0   = SPACE [ASCII CODE 40 OCTAL, 32 DECIMAL]
864 
 *    1-2  = !" [ASCII 41-42 OCTAL, 33-34 DECIMAL]
865 
 *    3-10 = '()*+,-. [ASCII 47-56 OCTAL, 39-46 DECIMAL]
866 
 *   11-36 = UPPER-CASE LETTERS
867 
 *   37-62 = LOWER-CASE LETTERS
868 
 *    63   = PERCENT (%) [ASCII 45 OCTAL, 37 DECIMAL]
869 
 *   64-73 = DIGITS, 0 THROUGH 9
870 
 *  REMAINING CHARACTERS CAN BE TRANSLATED ANY WAY THAT IS CONVENIENT;
871 
 *  THE "TYPE" ROUTINE BELOW IS USED TO MAP THEM BACK TO CHARACTERS WHEN
872 
 *  NECESSARY.  THE ABOVE MAPPINGS ARE REQUIRED SO THAT CERTAIN SPECIAL
873 
 *  CHARACTERS ARE KNOWN TO FIT IN 6 BITS AND/OR CAN BE EASILY SPOTTED.
874 
 *  ARRAY ELEMENTS BEYOND THE END OF THE LINE SHOULD BE FILLED WITH 0,
875 
 *  AND LNLENG SHOULD BE SET TO THE INDEX OF THE LAST CHARACTER.
876 
 *
877 
 *  IF THE DATA FILE USES A CHARACTER OTHER THAN SPACE (E.G., TAB) TO
878 
 *  SEPARATE NUMBERS, THAT CHARACTER SHOULD ALSO TRANSLATE TO 0.
879 
 *
880 
 *  THIS PROCEDURE MAY USE THE MAP1,MAP2 ARRAYS TO MAINTAIN STATIC DATA FOR
881 
 *  THE MAPPING.  MAP2(1) IS SET TO 0 WHEN THE PROGRAM STARTS
882 
 *  AND IS NOT CHANGED THEREAFTER UNLESS THE ROUTINES ON THIS PAGE CHOOSE
883 
 *  TO DO SO.
884 
 *
885 
 *  NOTE THAT MAPLIN IS EXPECTED TO OPEN THE FILE THE FIRST TIME IT IS
886 
 *  ASKED TO READ A LINE FROM IT.  THAT IS, THERE IS NO OTHER PLACE WHERE
887 
 *  THE DATA FILE IS OPENED. */
888 
 
889 
 
890 
        if(MAP2[1] == 0)MPINIT();
891 
 
892 
        if(FIL) goto L15;
893 
        get_command(INLINE+1);
894 
        /* EMBEDDED: we don't support 'quitting by closing stdin' */
895 
        /* if(feof(stdin)) score(1); */
896 
    goto L20;
897 
 
898 
L15:    if(!OPENED){
899 
                OPENED=mopen("adventure.text","r" /* NOT binary */);
900 177 ja_rd 
                if(!OPENED){printf("Can't read adventure.text!\n"); exit(FALSE);}
901 90 ja_rd 
                }
902 
        mgets(INLINE+1,100,OPENED);
903 
 
904 
L20:    LNLENG=0;
905 
        /* 25 */ for (I=1; I<=100 && INLINE[I]!=0; I++) {
906 
        VAL=INLINE[I]+1;
907 
        INLINE[I]=MAP1[VAL];
908 
L25:    if(INLINE[I] != 0)LNLENG=I;
909 
        } /* end loop */
910 
        LNPOSN=1;
911 
        if(FIL && LNLENG == 0) goto L15;
912 
/*  ABOVE IS TO GET AROUND AN F40 COMPILER BUG WHEREIN IT READS A BLANK
913 
 *  LINE WHENEVER A CRLF IS BROKEN ACROSS A RECORD BOUNDARY. */
914 
        return;
915 
}
916 
 
917 
 
918 
 
919 
#define MAPLIN(FIL) fMAPLIN(FIL)
920 
#undef TYPE
921 
void fTYPE() {
922 
long I, VAL;
923 
 
924 
/*  TYPE THE FIRST "LNLENG" CHARACTERS STORED IN INLINE, MAPPING THEM
925 
 *  FROM INTEGERS TO TEXT PER THE RULES DESCRIBED ABOVE.  INLINE(I),
926 
 *  I=1,LNLENG MAY BE CHANGED BY THIS ROUTINE. */
927 
 
928 
 
929 
        if(LNLENG != 0) goto L10;
930 177 ja_rd 
        printf("\n");
931 90 ja_rd 
        return;
932 
 
933 
L10:    if(MAP2[1] == 0)MPINIT();
934 
        /* 20 */ for (I=1; I<=LNLENG; I++) {
935 
        VAL=INLINE[I];
936 
L20:    {long x = VAL+1; INLINE[I]=MAP2[x];}
937 
        } /* end loop */
938 
        {long x = LNLENG+1; INLINE[x]=0;}
939 177 ja_rd 
        printf(INLINE+1);
940 
        printf("\n");
941 90 ja_rd 
        return;
942 
}
943 
 
944 
 
945 
 
946 
#define TYPE() fTYPE()
947 
#undef MPINIT
948 
void fMPINIT() {
949 
long FIRST, I, J, LAST, VAL;
950 
static const long RUNS[7][2] = {32,34, 39,46, 65,90, 97,122, 37,37, 48,57, 0,126};
951 
 
952 
 
953 
        /* 10 */ for (I=1; I<=128; I++) {
954 
L10:    MAP1[I]= -1;
955 
        } /* end loop */
956 
        VAL=0;
957 
        /* 20 */ for (I=0; I<7; I++) {
958 
        FIRST=RUNS[I][0];
959 
        LAST=RUNS[I][1];
960 
        /* 22 */ for (J=FIRST; J<=LAST; J++) {
961 
        J++; if(MAP1[J] >= 0) goto L22;
962 
        MAP1[J]=VAL;
963 
        VAL=VAL+1;
964 
L22:    J--;
965 
        } /* end loop */
966 
L20:    /*etc*/ ;
967 
        } /* end loop */
968 
        MAP1[128]=MAP1[10];
969 
/*  FOR THIS VERSION, TAB (9) MAPS TO SPACE (32), SO DEL (127) USES TAB'S VALUE */
970 
        MAP1[10]=MAP1[33];
971 
        MAP1[11]=MAP1[33];
972 
 
973 
        /* 30 */ for (I=0; I<=126; I++) {
974 
        I++; VAL=MAP1[I]+1; I--;
975 
        MAP2[VAL]=I*('B'-'A');
976 
L30:    if(I >= 64)MAP2[VAL]=(I-64)*('B'-'A')+'@';
977 
        } /* end loop */
978 
 
979 
        return;
980 
}
981 
 
982 
 
983 
 
984 
#define MPINIT() fMPINIT()
985 
#undef SAVEIO
986 
void fSAVEIO(OP,IN,ARR)long ARR[], IN, OP; {
987 
static FILE *F; char NAME[50];
988 
 
989 
/*  IF OP=0, ASK FOR A FILE NAME AND OPEN A FILE.  (IF IN=.TRUE., THE FILE IS FOR
990 
 *  INPUT, ELSE OUTPUT.)  IF OP>0, READ/WRITE ARR FROM/INTO THE PREVIOUSLY-OPENED
991 
 *  FILE.  (ARR IS A 250-INTEGER ARRAY.)  IF OP<0, FINISH READING/WRITING THE
992 
 *  FILE.  (FINISHING WRITING CAN BE A NO-OP IF A "STOP" STATEMENT DOES IT
993 
 *  AUTOMATICALLY.  FINISHING READING CAN BE A NO-OP AS LONG AS A SUBSEQUENT
994 
 *  SAVEIO(0,.FALSE.,X) WILL STILL WORK.)  IF YOU CAN CATCH ERRORS (E.G., NO SUCH
995 
 *  FILE) AND TRY AGAIN, GREAT.  DEC F40 CAN'T. */
996 
 
997 
/* EMBEDDED version supports no saves */
998 
/*
999 
        {long ifvar; ifvar=(OP); switch (ifvar<0? -1 : ifvar>0? 1 : 0) { case -1:
1000 
                goto L10; case 0: goto L20; case 1: goto L30; }}
1001 
 
1002 
L10:    fclose(F);
1003 
        return;
1004 
 
1005 177 ja_rd 
L20:    printf("\nFile name: ");
1006 90 ja_rd 
        gets(NAME);
1007 
        F=mopen(NAME,(IN ? READ_MODE : WRITE_MODE));
1008 177 ja_rd 
        if(F == NULL) {printf("Can't open file, try again.\n"); goto L20;}
1009 90 ja_rd 
        return;
1010 
 
1011 
L30:    if(IN)fread(ARR,4,250,F);
1012 
        if(!IN)fwrite(ARR,4,250,F);
1013 
        return;
1014 
*/
1015 
return;
1016 
}
1017 
 
1018 
 
1019 
 
1020 
long fIABS(N)long N; {return(N<0? -N : N);}
1021 
long fMOD(N,M)long N, M; {return(N%M);}

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