Source:SLASH'EM 0.0.7E7F2/hacklib.c
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Below is the full text to hacklib.c from the source code of SLASH'EM 0.0.7E7F2. To link to a particular line, write [[Source:SLASH'EM 0.0.7E7F2/hacklib.c#line123]], for example.
Source code for vanilla NetHack is at Source code.
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1. /* SCCS Id: @(#)hacklib.c 3.4 2002/12/13 */ 2. /* Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */ 3. /* Copyright (c) Robert Patrick Rankin, 1991 */ 4. /* NetHack may be freely redistributed. See license for details. */ 5. 6. /* We could include only config.h, except for the overlay definitions... */ 7. #include "hack.h" 8. /*= 9. Assorted 'small' utility routines. They're virtually independent of 10. NetHack, except that rounddiv may call panic(). 11. 12. return type routine name argument type(s) 13. boolean digit (char) 14. boolean letter (char) 15. char highc (char) 16. char lowc (char) 17. char * lcase (char *) 18. char * upstart (char *) 19. char * mungspaces (char *) 20. char * eos (char *) 21. char * strkitten (char *,char) 22. char * s_suffix (const char *) 23. char * xcrypt (const char *, char *) 24. boolean onlyspace (const char *) 25. char * tabexpand (char *) 26. char * visctrl (char) 27. const char * ordin (int) 28. char * sitoa (int) 29. int sgn (int) 30. int rounddiv (long, int) 31. int distmin (int, int, int, int) 32. int dist2 (int, int, int, int) 33. boolean online2 (int, int) 34. boolean pmatch (const char *, const char *) 35. int strncmpi (const char *, const char *, int) 36. char * strstri (const char *, const char *) 37. boolean fuzzymatch (const char *,const char *,const char *,boolean) 38. void setrandom (void) 39. int getyear (void) 40. char * yymmdd (time_t) 41. long yyyymmdd (time_t) 42. int phase_of_the_moon (void) 43. boolean friday_13th (void) 44. int night (void) 45. int midnight (void) 46. =*/ 47. #ifdef LINT 48. # define Static /* pacify lint */ 49. #else 50. # define Static static 51. #endif 52. 53. #ifdef OVLB 54. boolean 55. digit(c) /* is 'c' a digit? */ 56. char c; 57. { 58. return((boolean)('0' <= c && c <= '9')); 59. } 60. 61. boolean 62. letter(c) /* is 'c' a letter? note: '@' classed as letter */ 63. char c; 64. { 65. return((boolean)(('@' <= c && c <= 'Z') || ('a' <= c && c <= 'z'))); 66. } 67. #endif /* OVLB */ 68. 69. #ifdef OVL1 70. char 71. highc(c) /* force 'c' into uppercase */ 72. char c; 73. { 74. return((char)(('a' <= c && c <= 'z') ? (c & ~040) : c)); 75. } 76. 77. char 78. lowc(c) /* force 'c' into lowercase */ 79. char c; 80. { 81. return((char)(('A' <= c && c <= 'Z') ? (c | 040) : c)); 82. } 83. #endif /* OVL1 */ 84. 85. #ifdef OVLB 86. char * 87. lcase(s) /* convert a string into all lowercase */ 88. char *s; 89. { 90. register char *p; 91. 92. for (p = s; *p; p++) 93. if ('A' <= *p && *p <= 'Z') *p |= 040; 94. return s; 95. } 96. 97. char * 98. upstart(s) /* convert first character of a string to uppercase */ 99. char *s; 100. { 101. if (s) *s = highc(*s); 102. return s; 103. } 104. 105. /* remove excess whitespace from a string buffer (in place) */ 106. char * 107. mungspaces(bp) 108. char *bp; 109. { 110. register char c, *p, *p2; 111. boolean was_space = TRUE; 112. 113. for (p = p2 = bp; (c = *p) != '\0'; p++) { 114. if (c == '\t') c = ' '; 115. if (c != ' ' || !was_space) *p2++ = c; 116. was_space = (c == ' '); 117. } 118. if (was_space && p2 > bp) p2--; 119. *p2 = '\0'; 120. return bp; 121. } 122. 123. #endif /* OVLB */ 124. 125. #ifdef OVL0 126. char * 127. eos(s) /* return the end of a string (pointing at '\0') */ 128. register char *s; 129. { 130. while (*s) s++; /* s += strlen(s); */ 131. return s; 132. } 133. 134. /* strcat(s, {c,'\0'}); */ 135. char * 136. strkitten(s, c) /* append a character to a string (in place) */ 137. char *s; 138. char c; 139. { 140. char *p = eos(s); 141. 142. *p++ = c; 143. *p = '\0'; 144. return s; 145. } 146. 147. char * 148. s_suffix(s) /* return a name converted to possessive */ 149. const char *s; 150. { 151. Static char buf[BUFSZ]; 152. 153. Strcpy(buf, s); 154. if(!strcmpi(buf, "it")) 155. Strcat(buf, "s"); 156. else if(*(eos(buf)-1) == 's') 157. Strcat(buf, "'"); 158. else 159. Strcat(buf, "'s"); 160. return buf; 161. } 162. 163. char * 164. xcrypt(str, buf) /* trivial text encryption routine (see makedefs) */ 165. const char *str; 166. char *buf; 167. { 168. register const char *p; 169. register char *q; 170. register int bitmask; 171. 172. for (bitmask = 1, p = str, q = buf; *p; q++) { 173. *q = *p++; 174. if (*q & (32|64)) *q ^= bitmask; 175. if ((bitmask <<= 1) >= 32) bitmask = 1; 176. } 177. *q = '\0'; 178. return buf; 179. } 180. #endif /* OVL0 */ 181. 182. #ifdef OVL2 183. boolean 184. onlyspace(s) /* is a string entirely whitespace? */ 185. const char *s; 186. { 187. for (; *s; s++) 188. if (*s != ' ' && *s != '\t') return FALSE; 189. return TRUE; 190. } 191. #endif /* OVL2 */ 192. 193. #ifdef OVLB 194. char * 195. tabexpand(sbuf) /* expand tabs into proper number of spaces */ 196. char *sbuf; 197. { 198. char buf[BUFSZ]; 199. register char *bp, *s = sbuf; 200. register int idx; 201. 202. if (!*s) return sbuf; 203. 204. /* warning: no bounds checking performed */ 205. for (bp = buf, idx = 0; *s; s++) 206. if (*s == '\t') { 207. do *bp++ = ' '; while (++idx % 8); 208. } else { 209. *bp++ = *s; 210. idx++; 211. } 212. *bp = 0; 213. return strcpy(sbuf, buf); 214. } 215. 216. char * 217. visctrl(c) /* make a displayable string from a character */ 218. char c; 219. { 220. Static char ccc[3]; 221. 222. c &= 0177; 223. 224. ccc[2] = '\0'; 225. if (c < 040) { 226. ccc[0] = '^'; 227. ccc[1] = c | 0100; /* letter */ 228. } else if (c == 0177) { 229. ccc[0] = '^'; 230. ccc[1] = c & ~0100; /* '?' */ 231. } else { 232. ccc[0] = c; /* printable character */ 233. ccc[1] = '\0'; 234. } 235. return ccc; 236. } 237. #endif /* OVLB */ 238. 239. #ifdef OVL2 240. const char * 241. ordin(n) /* return the ordinal suffix of a number */ 242. int n; /* note: should be non-negative */ 243. { 244. register int dd = n % 10; 245. 246. return (dd == 0 || dd > 3 || (n % 100) / 10 == 1) ? "th" : 247. (dd == 1) ? "st" : (dd == 2) ? "nd" : "rd"; 248. } 249. #endif /* OVL2 */ 250. 251. #ifdef OVL1 252. char * 253. sitoa(n) /* make a signed digit string from a number */ 254. int n; 255. { 256. Static char buf[13]; 257. 258. Sprintf(buf, (n < 0) ? "%d" : "+%d", n); 259. return buf; 260. } 261. 262. int 263. sgn(n) /* return the sign of a number: -1, 0, or 1 */ 264. int n; 265. { 266. return (n < 0) ? -1 : (n != 0); 267. } 268. #endif /* OVL1 */ 269. 270. #ifdef OVLB 271. int 272. rounddiv(x, y) /* calculate x/y, rounding as appropriate */ 273. long x; 274. int y; 275. { 276. int r, m; 277. int divsgn = 1; 278. 279. if (y == 0) 280. panic("division by zero in rounddiv"); 281. else if (y < 0) { 282. divsgn = -divsgn; y = -y; 283. } 284. if (x < 0) { 285. divsgn = -divsgn; x = -x; 286. } 287. r = x / y; 288. m = x % y; 289. if (2*m >= y) r++; 290. 291. return divsgn * r; 292. } 293. #endif /* OVLB */ 294. 295. #ifdef OVL0 296. int 297. distmin(x0, y0, x1, y1) /* distance between two points, in moves */ 298. int x0, y0, x1, y1; 299. { 300. register int dx = x0 - x1, dy = y0 - y1; 301. if (dx < 0) dx = -dx; 302. if (dy < 0) dy = -dy; 303. /* The minimum number of moves to get from (x0,y0) to (x1,y1) is the 304. : larger of the [absolute value of the] two deltas. 305. */ 306. return (dx < dy) ? dy : dx; 307. } 308. 309. int 310. dist2(x0, y0, x1, y1) /* square of euclidean distance between pair of pts */ 311. int x0, y0, x1, y1; 312. { 313. register int dx = x0 - x1, dy = y0 - y1; 314. return dx * dx + dy * dy; 315. } 316. 317. boolean 318. online2(x0, y0, x1, y1) /* are two points lined up (on a straight line)? */ 319. int x0, y0, x1, y1; 320. { 321. int dx = x0 - x1, dy = y0 - y1; 322. /* If either delta is zero then they're on an orthogonal line, 323. * else if the deltas are equal (signs ignored) they're on a diagonal. 324. */ 325. return((boolean)(!dy || !dx || (dy == dx) || (dy + dx == 0))); /* (dy == -dx) */ 326. } 327. 328. #endif /* OVL0 */ 329. #ifdef OVLB 330. 331. boolean 332. pmatch(patrn, strng) /* match a string against a pattern */ 333. const char *patrn, *strng; 334. { 335. char s, p; 336. /* 337. : Simple pattern matcher: '*' matches 0 or more characters, '?' matches 338. : any single character. Returns TRUE if 'strng' matches 'patrn'. 339. */ 340. pmatch_top: 341. s = *strng++; p = *patrn++; /* get next chars and pre-advance */ 342. if (!p) /* end of pattern */ 343. return((boolean)(s == '\0')); /* matches iff end of string too */ 344. else if (p == '*') /* wildcard reached */ 345. return((boolean)((!*patrn || pmatch(patrn, strng-1)) ? TRUE : 346. s ? pmatch(patrn-1, strng) : FALSE)); 347. else if (p != s && (p != '?' || !s)) /* check single character */ 348. return FALSE; /* doesn't match */ 349. else /* return pmatch(patrn, strng); */ 350. goto pmatch_top; /* optimize tail recursion */ 351. } 352. #endif /* OVLB */ 353. 354. #ifdef OVL2 355. #ifndef STRNCMPI 356. int 357. strncmpi(s1, s2, n) /* case insensitive counted string comparison */ 358. register const char *s1, *s2; 359. register int n; /*(should probably be size_t, which is usually unsigned)*/ 360. { /*{ aka strncasecmp }*/ 361. register char t1, t2; 362. 363. while (n--) { 364. if (!*s2) return (*s1 != 0); /* s1 >= s2 */ 365. else if (!*s1) return -1; /* s1 < s2 */ 366. t1 = lowc(*s1++); 367. t2 = lowc(*s2++); 368. if (t1 != t2) return (t1 > t2) ? 1 : -1; 369. } 370. return 0; /* s1 == s2 */ 371. } 372. #endif /* STRNCMPI */ 373. #endif /* OVL2 */ 374. 375. #ifdef OVLB 376. #ifndef STRSTRI 377. 378. char * 379. strstri(str, sub) /* case insensitive substring search */ 380. const char *str; 381. const char *sub; 382. { 383. register const char *s1, *s2; 384. register int i, k; 385. # define TABSIZ 0x20 /* 0x40 would be case-sensitive */ 386. char tstr[TABSIZ], tsub[TABSIZ]; /* nibble count tables */ 387. # if 0 388. assert( (TABSIZ & ~(TABSIZ-1)) == TABSIZ ); /* must be exact power of 2 */ 389. assert( &lowc != 0 ); /* can't be unsafe macro */ 390. # endif 391. 392. /* special case: empty substring */ 393. if (!*sub) return (char *) str; 394. 395. /* do some useful work while determining relative lengths */ 396. for (i = 0; i < TABSIZ; i++) tstr[i] = tsub[i] = 0; /* init */ 397. for (k = 0, s1 = str; *s1; k++) tstr[*s1++ & (TABSIZ-1)]++; 398. for ( s2 = sub; *s2; --k) tsub[*s2++ & (TABSIZ-1)]++; 399. 400. /* evaluate the info we've collected */ 401. if (k < 0) return (char *) 0; /* sub longer than str, so can't match */ 402. for (i = 0; i < TABSIZ; i++) /* does sub have more 'x's than str? */ 403. if (tsub[i] > tstr[i]) return (char *) 0; /* match not possible */ 404. 405. /* now actually compare the substring repeatedly to parts of the string */ 406. for (i = 0; i <= k; i++) { 407. s1 = &str[i]; 408. s2 = sub; 409. while (lowc(*s1++) == lowc(*s2++)) 410. if (!*s2) return (char *) &str[i]; /* full match */ 411. } 412. return (char *) 0; /* not found */ 413. } 414. #endif /* STRSTRI */ 415. 416. /* compare two strings for equality, ignoring the presence of specified 417. characters (typically whitespace) and possibly ignoring case */ 418. boolean 419. fuzzymatch(s1, s2, ignore_chars, caseblind) 420. const char *s1, *s2; 421. const char *ignore_chars; 422. boolean caseblind; 423. { 424. register char c1, c2; 425. 426. do { 427. while ((c1 = *s1++) != '\0' && index(ignore_chars, c1) != 0) continue; 428. while ((c2 = *s2++) != '\0' && index(ignore_chars, c2) != 0) continue; 429. if (!c1 || !c2) break; /* stop when end of either string is reached */ 430. 431. if (caseblind) { 432. c1 = lowc(c1); 433. c2 = lowc(c2); 434. } 435. } while (c1 == c2); 436. 437. /* match occurs only when the end of both strings has been reached */ 438. return (boolean)(!c1 && !c2); 439. } 440. 441. #endif /* OVLB */ 442. #ifdef OVL2 443. 444. /* 445. * Time routines 446. * 447. * The time is used for: 448. * - seed for rand() 449. * - year on tombstone and yyyymmdd in record file 450. * - phase of the moon (various monsters react to NEW_MOON or FULL_MOON) 451. * - night and midnight (the undead are dangerous at midnight) 452. * - determination of what files are "very old" 453. */ 454. 455. #if defined(AMIGA) && !defined(AZTEC_C) && !defined(__SASC_60) && !defined(_DCC) && !defined(__GNUC__) 456. extern struct tm *FDECL(localtime,(time_t *)); 457. #endif 458. static struct tm *NDECL(getlt); 459. 460. void 461. setrandom() 462. { 463. /* the types are different enough here that sweeping the different 464. * routine names into one via #defines is even more confusing 465. */ 466. #ifdef RANDOM /* srandom() from sys/share/random.c */ 467. srandom((unsigned int) time((time_t *)0)); 468. #else 469. # if defined(BSD) || defined(LINUX) || defined(ULTRIX) || defined(CYGWIN32) /* system srandom() */ 470. # if defined(BSD) && !defined(POSIX_TYPES) 471. # if defined(SUNOS4) 472. (void) 473. # endif 474. srandom((int) time((long *)0)); 475. # else 476. srandom((int) time((time_t *)0)); 477. # endif 478. # else 479. # ifdef UNIX /* system srand48() */ 480. srand48((long) time((time_t *)0)); 481. # else /* poor quality system routine */ 482. srand((int) time((time_t *)0)); 483. # endif 484. # endif 485. #endif 486. } 487. 488. static struct tm * 489. getlt() 490. { 491. time_t date; 492. 493. #if defined(BSD) && !defined(POSIX_TYPES) 494. (void) time((long *)(&date)); 495. #else 496. (void) time(&date); 497. #endif 498. #if (defined(ULTRIX) && !(defined(ULTRIX_PROTO) || defined(NHSTDC))) || (defined(BSD) && !defined(POSIX_TYPES)) 499. return(localtime((long *)(&date))); 500. #else 501. return(localtime(&date)); 502. #endif 503. } 504. 505. int 506. getyear() 507. { 508. return(1900 + getlt()->tm_year); 509. } 510. 511. /* KMH -- Used by gypsies */ 512. int 513. getmonth() 514. { 515. return (getlt()->tm_mon); 516. } 517. 518. #if 0 519. /* This routine is no longer used since in 2000 it will yield "100mmdd". */ 520. char * 521. yymmdd(date) 522. time_t date; 523. { 524. Static char datestr[10]; 525. struct tm *lt; 526. 527. if (date == 0) 528. lt = getlt(); 529. else 530. #if (defined(ULTRIX) && !(defined(ULTRIX_PROTO) || defined(NHSTDC))) || defined(BSD) 531. lt = localtime((long *)(&date)); 532. #else 533. lt = localtime(&date); 534. #endif 535. 536. Sprintf(datestr, "%02d%02d%02d", 537. lt->tm_year, lt->tm_mon + 1, lt->tm_mday); 538. return(datestr); 539. } 540. #endif 541. 542. long 543. yyyymmdd(date) 544. time_t date; 545. { 546. long datenum; 547. struct tm *lt; 548. 549. if (date == 0) 550. lt = getlt(); 551. else 552. #if (defined(ULTRIX) && !(defined(ULTRIX_PROTO) || defined(NHSTDC))) || (defined(BSD) && !defined(POSIX_TYPES)) 553. lt = localtime((long *)(&date)); 554. #else 555. lt = localtime(&date); 556. #endif 557. 558. /* just in case somebody's localtime supplies (year % 100) 559. rather than the expected (year - 1900) */ 560. if (lt->tm_year < 70) 561. datenum = (long)lt->tm_year + 2000L; 562. else 563. datenum = (long)lt->tm_year + 1900L; 564. /* yyyy --> yyyymm */ 565. datenum = datenum * 100L + (long)(lt->tm_mon + 1); 566. /* yyyymm --> yyyymmdd */ 567. datenum = datenum * 100L + (long)lt->tm_mday; 568. return datenum; 569. } 570. 571. /* 572. * moon period = 29.53058 days ~= 30, year = 365.2422 days 573. * days moon phase advances on first day of year compared to preceding year 574. * = 365.2422 - 12*29.53058 ~= 11 575. * years in Metonic cycle (time until same phases fall on the same days of 576. * the month) = 18.6 ~= 19 577. * moon phase on first day of year (epact) ~= (11*(year%19) + 29) % 30 578. * (29 as initial condition) 579. * current phase in days = first day phase + days elapsed in year 580. * 6 moons ~= 177 days 581. * 177 ~= 8 reported phases * 22 582. * + 11/22 for rounding 583. */ 584. int 585. phase_of_the_moon() /* 0-7, with 0: new, 4: full */ 586. { 587. register struct tm *lt = getlt(); 588. register int epact, diy, goldn; 589. 590. diy = lt->tm_yday; 591. goldn = (lt->tm_year % 19) + 1; 592. epact = (11 * goldn + 18) % 30; 593. if ((epact == 25 && goldn > 11) || epact == 24) 594. epact++; 595. 596. return( (((((diy + epact) * 6) + 11) % 177) / 22) & 7 ); 597. } 598. 599. boolean 600. friday_13th() 601. { 602. register struct tm *lt = getlt(); 603. 604. return((boolean)(lt->tm_wday == 5 /* friday */ && lt->tm_mday == 13)); 605. } 606. 607. boolean 608. groundhog_day() 609. { 610. register struct tm *lt = getlt(); 611. 612. /* KMH -- Groundhog Day is February 2 */ 613. return((boolean)(lt->tm_mon == 1 && lt->tm_mday == 2)); 614. } 615. 616. int 617. night() 618. { 619. register int hour = getlt()->tm_hour; 620. 621. return(hour < 6 || hour > 21); 622. } 623. 624. int 625. midnight() 626. { 627. return(getlt()->tm_hour == 0); 628. } 629. #endif /* OVL2 */ 630. 631. /*hacklib.c*/