Source:NetHack 3.4.3/src/mondata.c
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Below is the full text to src/mondata.c from NetHack 3.4.3. To link to a particular line, write [[mondata.c#line123]], for example.
Contents
- 1 Top of file
- 2 set_mon_data
- 3 attacktype_fordmg
- 4 attacktype
- 5 poly_when_stoned
- 6 resists_drli
- 7 resists_magm
- 8 resists_blnd
- 9 can_blnd
- 10 ranged_attk
- 11 hates_silver
- 12 passes_bars
- 13 can_track
- 14 sliparm
- 15 breakarm
- 16 sticks
- 17 num_horns
- 18 dmgtype_fromattack
- 19 dmgtype
- 20 max_passive_dmg
- 21 monsndx
- 22 name_to_mon
- 23 gender
- 24 pronoun_gender
- 25 levl_follower
- 26 grownups-array
- 27 little_to_big
- 28 big_to_little
- 29 raceptr
- 30 locomotion
- 31 stagger
- 32 on_fire
Top of file
1. /* SCCS Id: @(#)mondata.c 3.4 2003/06/02 */ 2. /* Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */ 3. /* NetHack may be freely redistributed. See license for details. */ 4.
The NetHack General Public License applies to screenshots, source code and other content from NetHack.
This content was modified from the original NetHack source code distribution (by splitting up NetHack content between wiki pages, and possibly further editing). See the page history for a list of who changed it, and on what dates.
5. #include "hack.h" 6. #include "eshk.h" 7. #include "epri.h" 8. 9. /* These routines provide basic data for any type of monster. */ 10. 11. #ifdef OVLB 12.
set_mon_data
13. void 14. set_mon_data(mon, ptr, flag) 15. struct monst *mon; 16. struct permonst *ptr; 17. int flag; 18. { 19. mon->data = ptr; 20. if (flag == -1) return; /* "don't care" */ 21. 22. if (flag == 1) 23. mon->mintrinsics |= (ptr->mresists & 0x00FF); 24. else 25. mon->mintrinsics = (ptr->mresists & 0x00FF); 26. return; 27. } 28. 29. #endif /* OVLB */ 30. #ifdef OVL0 31.
attacktype_fordmg
32. struct attack * 33. attacktype_fordmg(ptr, atyp, dtyp) 34. struct permonst *ptr; 35. int atyp, dtyp; 36. { 37. struct attack *a; 38. 39. for (a = &ptr->mattk[0]; a < &ptr->mattk[NATTK]; a++) 40. if (a->aatyp == atyp && (dtyp == AD_ANY || a->adtyp == dtyp)) 41. return a; 42. 43. return (struct attack *)0; 44. } 45.
attacktype
46. boolean 47. attacktype(ptr, atyp) 48. struct permonst *ptr; 49. int atyp; 50. { 51. return attacktype_fordmg(ptr, atyp, AD_ANY) ? TRUE : FALSE; 52. } 53. 54. #endif /* OVL0 */ 55. #ifdef OVLB 56.
poly_when_stoned
57. boolean 58. poly_when_stoned(ptr) 59. struct permonst *ptr; 60. { 61. return((boolean)(is_golem(ptr) && ptr != &mons[PM_STONE_GOLEM] && 62. !(mvitals[PM_STONE_GOLEM].mvflags & G_GENOD))); 63. /* allow G_EXTINCT */ 64. } 65.
resists_drli
66. boolean 67. resists_drli(mon) /* returns TRUE if monster is drain-life resistant */ 68. struct monst *mon; 69. { 70. struct permonst *ptr = mon->data; 71. struct obj *wep = ((mon == &youmonst) ? uwep : MON_WEP(mon)); 72. 73. return (boolean)(is_undead(ptr) || is_demon(ptr) || is_were(ptr) || 74. ptr == &mons[PM_DEATH] || 75. (wep && wep->oartifact && defends(AD_DRLI, wep))); 76. } 77.
resists_magm
78. boolean 79. resists_magm(mon) /* TRUE if monster is magic-missile resistant */ 80. struct monst *mon; 81. { 82. struct permonst *ptr = mon->data; 83. struct obj *o; 84. 85. /* as of 3.2.0: gray dragons, Angels, Oracle, Yeenoghu */ 86. if (dmgtype(ptr, AD_MAGM) || ptr == &mons[PM_BABY_GRAY_DRAGON] || 87. dmgtype(ptr, AD_RBRE)) /* Chromatic Dragon */ 88. return TRUE; 89. /* check for magic resistance granted by wielded weapon */ 90. o = (mon == &youmonst) ? uwep : MON_WEP(mon); 91. if (o && o->oartifact && defends(AD_MAGM, o)) 92. return TRUE; 93. /* check for magic resistance granted by worn or carried items */ 94. o = (mon == &youmonst) ? invent : mon->minvent; 95. for ( ; o; o = o->nobj) 96. if ((o->owornmask && objects[o->otyp].oc_oprop == ANTIMAGIC) || 97. (o->oartifact && protects(AD_MAGM, o))) 98. return TRUE; 99. return FALSE; 100. } 101.
resists_blnd
102. /* TRUE iff monster is resistant to light-induced blindness */ 103. boolean 104. resists_blnd(mon) 105. struct monst *mon; 106. { 107. struct permonst *ptr = mon->data; 108. boolean is_you = (mon == &youmonst); 109. struct obj *o; 110. 111. if (is_you ? (Blind || u.usleep) : 112. (mon->mblinded || !mon->mcansee || !haseyes(ptr) || 113. /* BUG: temporary sleep sets mfrozen, but since 114. paralysis does too, we can't check it */ 115. mon->msleeping)) 116. return TRUE; 117. /* yellow light, Archon; !dust vortex, !cobra, !raven */ 118. if (dmgtype_fromattack(ptr, AD_BLND, AT_EXPL) || 119. dmgtype_fromattack(ptr, AD_BLND, AT_GAZE)) 120. return TRUE; 121. o = is_you ? uwep : MON_WEP(mon); 122. if (o && o->oartifact && defends(AD_BLND, o)) 123. return TRUE; 124. o = is_you ? invent : mon->minvent; 125. for ( ; o; o = o->nobj) 126. if ((o->owornmask && objects[o->otyp].oc_oprop == BLINDED) || 127. (o->oartifact && protects(AD_BLND, o))) 128. return TRUE; 129. return FALSE; 130. } 131.
can_blnd
132. /* TRUE iff monster can be blinded by the given attack */ 133. /* Note: may return TRUE when mdef is blind (e.g. new cream-pie attack) */ 134. boolean 135. can_blnd(magr, mdef, aatyp, obj) 136. struct monst *magr; /* NULL == no specific aggressor */ 137. struct monst *mdef; 138. uchar aatyp; 139. struct obj *obj; /* aatyp == AT_WEAP, AT_SPIT */ 140. { 141. boolean is_you = (mdef == &youmonst); 142. boolean check_visor = FALSE; 143. struct obj *o; 144. const char *s; 145. 146. /* no eyes protect against all attacks for now */ 147. if (!haseyes(mdef->data)) 148. return FALSE; 149. 150. switch(aatyp) { 151. case AT_EXPL: case AT_BOOM: case AT_GAZE: case AT_MAGC: 152. case AT_BREA: /* assumed to be lightning */ 153. /* light-based attacks may be cancelled or resisted */ 154. if (magr && magr->mcan) 155. return FALSE; 156. return !resists_blnd(mdef); 157. 158. case AT_WEAP: case AT_SPIT: case AT_NONE: 159. /* an object is used (thrown/spit/other) */ 160. if (obj && (obj->otyp == CREAM_PIE)) { 161. if (is_you && Blindfolded) 162. return FALSE; 163. } else if (obj && (obj->otyp == BLINDING_VENOM)) { 164. /* all ublindf, including LENSES, protect, cream-pies too */ 165. if (is_you && (ublindf || u.ucreamed)) 166. return FALSE; 167. check_visor = TRUE; 168. } else if (obj && (obj->otyp == POT_BLINDNESS)) { 169. return TRUE; /* no defense */ 170. } else 171. return FALSE; /* other objects cannot cause blindness yet */ 172. if ((magr == &youmonst) && u.uswallow) 173. return FALSE; /* can't affect eyes while inside monster */ 174. break; 175. 176. case AT_ENGL: 177. if (is_you && (Blindfolded || u.usleep || u.ucreamed)) 178. return FALSE; 179. if (!is_you && mdef->msleeping) 180. return FALSE; 181. break; 182. 183. case AT_CLAW: 184. /* e.g. raven: all ublindf, including LENSES, protect */ 185. if (is_you && ublindf) 186. return FALSE; 187. if ((magr == &youmonst) && u.uswallow) 188. return FALSE; /* can't affect eyes while inside monster */ 189. check_visor = TRUE; 190. break; 191. 192. case AT_TUCH: case AT_STNG: 193. /* some physical, blind-inducing attacks can be cancelled */ 194. if (magr && magr->mcan) 195. return FALSE; 196. break; 197. 198. default: 199. break; 200. } 201. 202. /* check if wearing a visor (only checked if visor might help) */ 203. if (check_visor) { 204. o = (mdef == &youmonst) ? invent : mdef->minvent; 205. for ( ; o; o = o->nobj) 206. if ((o->owornmask & W_ARMH) && 207. (s = OBJ_DESCR(objects[o->otyp])) != (char *)0 && 208. !strcmp(s, "visored helmet")) 209. return FALSE; 210. } 211. 212. return TRUE; 213. } 214. 215. #endif /* OVLB */ 216. #ifdef OVL0 217.
ranged_attk
218. boolean 219. ranged_attk(ptr) /* returns TRUE if monster can attack at range */ 220. struct permonst *ptr; 221. { 222. register int i, atyp; 223. long atk_mask = (1L << AT_BREA) | (1L << AT_SPIT) | (1L << AT_GAZE); 224. 225. /* was: (attacktype(ptr, AT_BREA) || attacktype(ptr, AT_WEAP) || 226. attacktype(ptr, AT_SPIT) || attacktype(ptr, AT_GAZE) || 227. attacktype(ptr, AT_MAGC)); 228. but that's too slow -dlc 229. */ 230. for (i = 0; i < NATTK; i++) { 231. atyp = ptr->mattk[i].aatyp; 232. if (atyp >= AT_WEAP) return TRUE; 233. /* assert(atyp < 32); */ 234. if ((atk_mask & (1L << atyp)) != 0L) return TRUE; 235. } 236. 237. return FALSE; 238. } 239.
hates_silver
240. boolean 241. hates_silver(ptr) 242. register struct permonst *ptr; 243. /* returns TRUE if monster is especially affected by silver weapons */ 244. { 245. return((boolean)(is_were(ptr) || ptr->mlet==S_VAMPIRE || is_demon(ptr) || 246. ptr == &mons[PM_SHADE] || 247. (ptr->mlet==S_IMP && ptr != &mons[PM_TENGU]))); 248. } 249.
passes_bars
250. /* true iff the type of monster pass through iron bars */ 251. boolean 252. passes_bars(mptr) 253. struct permonst *mptr; 254. { 255. return (boolean) (passes_walls(mptr) || amorphous(mptr) || 256. is_whirly(mptr) || verysmall(mptr) || 257. (slithy(mptr) && !bigmonst(mptr))); 258. } 259. 260. #endif /* OVL0 */ 261. #ifdef OVL1 262.
can_track
263. boolean 264. can_track(ptr) /* returns TRUE if monster can track well */ 265. register struct permonst *ptr; 266. { 267. if (uwep && uwep->oartifact == ART_EXCALIBUR) 268. return TRUE; 269. else 270. return((boolean)haseyes(ptr)); 271. } 272. 273. #endif /* OVL1 */ 274. #ifdef OVLB 275.
sliparm
276. boolean 277. sliparm(ptr) /* creature will slide out of armor */ 278. register struct permonst *ptr; 279. { 280. return((boolean)(is_whirly(ptr) || ptr->msize <= MZ_SMALL || 281. noncorporeal(ptr))); 282. } 283.
breakarm
284. boolean 285. breakarm(ptr) /* creature will break out of armor */ 286. register struct permonst *ptr; 287. { 288. return ((bigmonst(ptr) || (ptr->msize > MZ_SMALL && !humanoid(ptr)) || 289. /* special cases of humanoids that cannot wear body armor */ 290. ptr == &mons[PM_MARILITH] || ptr == &mons[PM_WINGED_GARGOYLE]) 291. && !sliparm(ptr)); 292. } 293. #endif /* OVLB */ 294. #ifdef OVL1 295.
sticks
296. boolean 297. sticks(ptr) /* creature sticks other creatures it hits */ 298. register struct permonst *ptr; 299. { 300. return((boolean)(dmgtype(ptr,AD_STCK) || dmgtype(ptr,AD_WRAP) || 301. attacktype(ptr,AT_HUGS))); 302. } 303.
num_horns
304. /* number of horns this type of monster has on its head */ 305. int 306. num_horns(ptr) 307. struct permonst *ptr; 308. { 309. switch (monsndx(ptr)) { 310. case PM_HORNED_DEVIL: /* ? "more than one" */ 311. case PM_MINOTAUR: 312. case PM_ASMODEUS: 313. case PM_BALROG: 314. return 2; 315. case PM_WHITE_UNICORN: 316. case PM_GRAY_UNICORN: 317. case PM_BLACK_UNICORN: 318. case PM_KI_RIN: 319. return 1; 320. default: 321. break; 322. } 323. return 0; 324. } 325.
dmgtype_fromattack
326. struct attack * 327. dmgtype_fromattack(ptr, dtyp, atyp) 328. struct permonst *ptr; 329. int dtyp, atyp; 330. { 331. struct attack *a; 332. 333. for (a = &ptr->mattk[0]; a < &ptr->mattk[NATTK]; a++) 334. if (a->adtyp == dtyp && (atyp == AT_ANY || a->aatyp == atyp)) 335. return a; 336. 337. return (struct attack *)0; 338. } 339.
dmgtype
340. boolean 341. dmgtype(ptr, dtyp) 342. struct permonst *ptr; 343. int dtyp; 344. { 345. return dmgtype_fromattack(ptr, dtyp, AT_ANY) ? TRUE : FALSE; 346. } 347.
max_passive_dmg
348. /* returns the maximum damage a defender can do to the attacker via 349. * a passive defense */ 350. int 351. max_passive_dmg(mdef, magr) 352. register struct monst *mdef, *magr; 353. { 354. int i, dmg = 0; 355. uchar adtyp; 356. 357. for(i = 0; i < NATTK; i++) 358. if(mdef->data->mattk[i].aatyp == AT_NONE || 359. mdef->data->mattk[i].aatyp == AT_BOOM) { 360. adtyp = mdef->data->mattk[i].adtyp; 361. if ((adtyp == AD_ACID && !resists_acid(magr)) || 362. (adtyp == AD_COLD && !resists_cold(magr)) || 363. (adtyp == AD_FIRE && !resists_fire(magr)) || 364. (adtyp == AD_ELEC && !resists_elec(magr)) || 365. adtyp == AD_PHYS) { 366. dmg = mdef->data->mattk[i].damn; 367. if(!dmg) dmg = mdef->data->mlevel+1; 368. dmg *= mdef->data->mattk[i].damd; 369. } else dmg = 0; 370. 371. return dmg; 372. } 373. return 0; 374. } 375. 376. #endif /* OVL1 */ 377. #ifdef OVL0 378.
monsndx
379. int 380. monsndx(ptr) /* return an index into the mons array */ 381. struct permonst *ptr; 382. { 383. register int i; 384. 385. i = (int)(ptr - &mons[0]); 386. if (i < LOW_PM || i >= NUMMONS) { 387. /* ought to switch this to use `fmt_ptr' */ 388. panic("monsndx - could not index monster (%lx)", 389. (unsigned long)ptr); 390. return NON_PM; /* will not get here */ 391. } 392. 393. return(i); 394. } 395. 396. #endif /* OVL0 */ 397. #ifdef OVL1 398. 399.
name_to_mon
400. int 401. name_to_mon(in_str) 402. const char *in_str; 403. { 404. /* Be careful. We must check the entire string in case it was 405. * something such as "ettin zombie corpse". The calling routine 406. * doesn't know about the "corpse" until the monster name has 407. * already been taken off the front, so we have to be able to 408. * read the name with extraneous stuff such as "corpse" stuck on 409. * the end. 410. * This causes a problem for names which prefix other names such 411. * as "ettin" on "ettin zombie". In this case we want the _longest_ 412. * name which exists. 413. * This also permits plurals created by adding suffixes such as 's' 414. * or 'es'. Other plurals must still be handled explicitly. 415. */ 416. register int i; 417. register int mntmp = NON_PM; 418. register char *s, *str, *term; 419. char buf[BUFSZ]; 420. int len, slen; 421. 422. str = strcpy(buf, in_str); 423. 424. if (!strncmp(str, "a ", 2)) str += 2; 425. else if (!strncmp(str, "an ", 3)) str += 3; 426. 427. slen = strlen(str); 428. term = str + slen; 429. 430. if ((s = strstri(str, "vortices")) != 0) 431. Strcpy(s+4, "ex"); 432. /* be careful with "ies"; "priest", "zombies" */ 433. else if (slen > 3 && !strcmpi(term-3, "ies") && 434. (slen < 7 || strcmpi(term-7, "zombies"))) 435. Strcpy(term-3, "y"); 436. /* luckily no monster names end in fe or ve with ves plurals */ 437. else if (slen > 3 && !strcmpi(term-3, "ves")) 438. Strcpy(term-3, "f"); 439. 440. slen = strlen(str); /* length possibly needs recomputing */ 441. 442. { 443. static const struct alt_spl { const char* name; short pm_val; } 444. names[] = { 445. /* Alternate spellings */ 446. { "grey dragon", PM_GRAY_DRAGON }, 447. { "baby grey dragon", PM_BABY_GRAY_DRAGON }, 448. { "grey unicorn", PM_GRAY_UNICORN }, 449. { "grey ooze", PM_GRAY_OOZE }, 450. { "gray-elf", PM_GREY_ELF }, 451. /* Hyphenated names */ 452. { "ki rin", PM_KI_RIN }, 453. { "uruk hai", PM_URUK_HAI }, 454. { "orc captain", PM_ORC_CAPTAIN }, 455. { "woodland elf", PM_WOODLAND_ELF }, 456. { "green elf", PM_GREEN_ELF }, 457. { "grey elf", PM_GREY_ELF }, 458. { "gray elf", PM_GREY_ELF }, 459. { "elf lord", PM_ELF_LORD }, 460. #if 0 /* OBSOLETE */ 461. { "high elf", PM_HIGH_ELF }, 462. #endif 463. { "olog hai", PM_OLOG_HAI }, 464. { "arch lich", PM_ARCH_LICH }, 465. /* Some irregular plurals */ 466. { "incubi", PM_INCUBUS }, 467. { "succubi", PM_SUCCUBUS }, 468. { "violet fungi", PM_VIOLET_FUNGUS }, 469. { "homunculi", PM_HOMUNCULUS }, 470. { "baluchitheria", PM_BALUCHITHERIUM }, 471. { "lurkers above", PM_LURKER_ABOVE }, 472. { "cavemen", PM_CAVEMAN }, 473. { "cavewomen", PM_CAVEWOMAN }, 474. { "djinn", PM_DJINNI }, 475. { "mumakil", PM_MUMAK }, 476. { "erinyes", PM_ERINYS }, 477. /* falsely caught by -ves check above */ 478. { "master of thief", PM_MASTER_OF_THIEVES }, 479. /* end of list */ 480. { 0, 0 } 481. }; 482. register const struct alt_spl *namep; 483. 484. for (namep = names; namep->name; namep++) 485. if (!strncmpi(str, namep->name, (int)strlen(namep->name))) 486. return namep->pm_val; 487. } 488. 489. for (len = 0, i = LOW_PM; i < NUMMONS; i++) { 490. register int m_i_len = strlen(mons[i].mname); 491. if (m_i_len > len && !strncmpi(mons[i].mname, str, m_i_len)) { 492. if (m_i_len == slen) return i; /* exact match */ 493. else if (slen > m_i_len && 494. (str[m_i_len] == ' ' || 495. !strcmpi(&str[m_i_len], "s") || 496. !strncmpi(&str[m_i_len], "s ", 2) || 497. !strcmpi(&str[m_i_len], "'") || 498. !strncmpi(&str[m_i_len], "' ", 2) || 499. !strcmpi(&str[m_i_len], "'s") || 500. !strncmpi(&str[m_i_len], "'s ", 3) || 501. !strcmpi(&str[m_i_len], "es") || 502. !strncmpi(&str[m_i_len], "es ", 3))) { 503. mntmp = i; 504. len = m_i_len; 505. } 506. } 507. } 508. if (mntmp == NON_PM) mntmp = title_to_mon(str, (int *)0, (int *)0); 509. return mntmp; 510. } 511. 512. #endif /* OVL1 */ 513. #ifdef OVL2 514.
gender
515. /* returns 3 values (0=male, 1=female, 2=none) */ 516. int 517. gender(mtmp) 518. register struct monst *mtmp; 519. { 520. if (is_neuter(mtmp->data)) return 2; 521. return mtmp->female; 522. } 523.
pronoun_gender
524. /* Like gender(), but lower animals and such are still "it". */ 525. /* This is the one we want to use when printing messages. */ 526. int 527. pronoun_gender(mtmp) 528. register struct monst *mtmp; 529. { 530. if (is_neuter(mtmp->data) || !canspotmon(mtmp)) return 2; 531. return (humanoid(mtmp->data) || (mtmp->data->geno & G_UNIQ) || 532. type_is_pname(mtmp->data)) ? (int)mtmp->female : 2; 533. } 534. 535. #endif /* OVL2 */ 536. #ifdef OVLB 537.
levl_follower
538. /* used for nearby monsters when you go to another level */ 539. boolean 540. levl_follower(mtmp) 541. struct monst *mtmp; 542. { 543. /* monsters with the Amulet--even pets--won't follow across levels */ 544. if (mon_has_amulet(mtmp)) return FALSE; 545. 546. /* some monsters will follow even while intending to flee from you */ 547. if (mtmp->mtame || mtmp->iswiz || is_fshk(mtmp)) return TRUE; 548. 549. /* stalking types follow, but won't when fleeing unless you hold 550. the Amulet */ 551. return (boolean)((mtmp->data->mflags2 & M2_STALK) && 552. (!mtmp->mflee || u.uhave.amulet)); 553. } 554.
grownups-array
555. static const short grownups[][2] = { 556. {PM_CHICKATRICE, PM_COCKATRICE}, 557. {PM_LITTLE_DOG, PM_DOG}, {PM_DOG, PM_LARGE_DOG}, 558. {PM_HELL_HOUND_PUP, PM_HELL_HOUND}, 559. {PM_WINTER_WOLF_CUB, PM_WINTER_WOLF}, 560. {PM_KITTEN, PM_HOUSECAT}, {PM_HOUSECAT, PM_LARGE_CAT}, 561. {PM_PONY, PM_HORSE}, {PM_HORSE, PM_WARHORSE}, 562. {PM_KOBOLD, PM_LARGE_KOBOLD}, {PM_LARGE_KOBOLD, PM_KOBOLD_LORD}, 563. {PM_GNOME, PM_GNOME_LORD}, {PM_GNOME_LORD, PM_GNOME_KING}, 564. {PM_DWARF, PM_DWARF_LORD}, {PM_DWARF_LORD, PM_DWARF_KING}, 565. {PM_MIND_FLAYER, PM_MASTER_MIND_FLAYER}, 566. {PM_ORC, PM_ORC_CAPTAIN}, {PM_HILL_ORC, PM_ORC_CAPTAIN}, 567. {PM_MORDOR_ORC, PM_ORC_CAPTAIN}, {PM_URUK_HAI, PM_ORC_CAPTAIN}, 568. {PM_SEWER_RAT, PM_GIANT_RAT}, 569. {PM_CAVE_SPIDER, PM_GIANT_SPIDER}, 570. {PM_OGRE, PM_OGRE_LORD}, {PM_OGRE_LORD, PM_OGRE_KING}, 571. {PM_ELF, PM_ELF_LORD}, {PM_WOODLAND_ELF, PM_ELF_LORD}, 572. {PM_GREEN_ELF, PM_ELF_LORD}, {PM_GREY_ELF, PM_ELF_LORD}, 573. {PM_ELF_LORD, PM_ELVENKING}, 574. {PM_LICH, PM_DEMILICH}, {PM_DEMILICH, PM_MASTER_LICH}, 575. {PM_MASTER_LICH, PM_ARCH_LICH}, 576. {PM_VAMPIRE, PM_VAMPIRE_LORD}, {PM_BAT, PM_GIANT_BAT}, 577. {PM_BABY_GRAY_DRAGON, PM_GRAY_DRAGON}, 578. {PM_BABY_SILVER_DRAGON, PM_SILVER_DRAGON}, 579. #if 0 /* DEFERRED */ 580. {PM_BABY_SHIMMERING_DRAGON, PM_SHIMMERING_DRAGON}, 581. #endif 582. {PM_BABY_RED_DRAGON, PM_RED_DRAGON}, 583. {PM_BABY_WHITE_DRAGON, PM_WHITE_DRAGON}, 584. {PM_BABY_ORANGE_DRAGON, PM_ORANGE_DRAGON}, 585. {PM_BABY_BLACK_DRAGON, PM_BLACK_DRAGON}, 586. {PM_BABY_BLUE_DRAGON, PM_BLUE_DRAGON}, 587. {PM_BABY_GREEN_DRAGON, PM_GREEN_DRAGON}, 588. {PM_BABY_YELLOW_DRAGON, PM_YELLOW_DRAGON}, 589. {PM_RED_NAGA_HATCHLING, PM_RED_NAGA}, 590. {PM_BLACK_NAGA_HATCHLING, PM_BLACK_NAGA}, 591. {PM_GOLDEN_NAGA_HATCHLING, PM_GOLDEN_NAGA}, 592. {PM_GUARDIAN_NAGA_HATCHLING, PM_GUARDIAN_NAGA}, 593. {PM_SMALL_MIMIC, PM_LARGE_MIMIC}, {PM_LARGE_MIMIC, PM_GIANT_MIMIC}, 594. {PM_BABY_LONG_WORM, PM_LONG_WORM}, 595. {PM_BABY_PURPLE_WORM, PM_PURPLE_WORM}, 596. {PM_BABY_CROCODILE, PM_CROCODILE}, 597. {PM_SOLDIER, PM_SERGEANT}, 598. {PM_SERGEANT, PM_LIEUTENANT}, 599. {PM_LIEUTENANT, PM_CAPTAIN}, 600. {PM_WATCHMAN, PM_WATCH_CAPTAIN}, 601. {PM_ALIGNED_PRIEST, PM_HIGH_PRIEST}, 602. {PM_STUDENT, PM_ARCHEOLOGIST}, 603. {PM_ATTENDANT, PM_HEALER}, 604. {PM_PAGE, PM_KNIGHT}, 605. {PM_ACOLYTE, PM_PRIEST}, 606. {PM_APPRENTICE, PM_WIZARD}, 607. {PM_MANES,PM_LEMURE}, 608. #ifdef KOPS 609. {PM_KEYSTONE_KOP, PM_KOP_SERGEANT}, 610. {PM_KOP_SERGEANT, PM_KOP_LIEUTENANT}, 611. {PM_KOP_LIEUTENANT, PM_KOP_KAPTAIN}, 612. #endif 613. {NON_PM,NON_PM} 614. }; 615.
little_to_big
616. int 617. little_to_big(montype) 618. int montype; 619. { 620. #ifndef AIXPS2_BUG 621. register int i; 622. 623. for (i = 0; grownups[i][0] >= LOW_PM; i++) 624. if(montype == grownups[i][0]) return grownups[i][1]; 625. return montype; 626. #else 627. /* AIX PS/2 C-compiler 1.1.1 optimizer does not like the above for loop, 628. * and causes segmentation faults at runtime. (The problem does not 629. * occur if -O is not used.) 630. * lehtonen@cs.Helsinki.FI (Tapio Lehtonen) 28031990 631. */ 632. int i; 633. int monvalue; 634. 635. monvalue = montype; 636. for (i = 0; grownups[i][0] >= LOW_PM; i++) 637. if(montype == grownups[i][0]) monvalue = grownups[i][1]; 638. 639. return monvalue; 640. #endif 641. } 642.
big_to_little
643. int 644. big_to_little(montype) 645. int montype; 646. { 647. register int i; 648. 649. for (i = 0; grownups[i][0] >= LOW_PM; i++) 650. if(montype == grownups[i][1]) return grownups[i][0]; 651. return montype; 652. } 653.
raceptr
654. /* 655. * Return the permonst ptr for the race of the monster. 656. * Returns correct pointer for non-polymorphed and polymorphed 657. * player. It does not return a pointer to player role character. 658. */ 659. const struct permonst * 660. raceptr(mtmp) 661. struct monst *mtmp; 662. { 663. if (mtmp == &youmonst && !Upolyd) return(&mons[urace.malenum]); 664. else return(mtmp->data); 665. } 666.
locomotion
667. static const char *levitate[4] = { "float", "Float", "wobble", "Wobble" }; 668. static const char *flys[4] = { "fly", "Fly", "flutter", "Flutter" }; 669. static const char *flyl[4] = { "fly", "Fly", "stagger", "Stagger" }; 670. static const char *slither[4] = { "slither", "Slither", "falter", "Falter" }; 671. static const char *ooze[4] = { "ooze", "Ooze", "tremble", "Tremble" }; 672. static const char *immobile[4] = { "wiggle", "Wiggle", "pulsate", "Pulsate" }; 673. static const char *crawl[4] = { "crawl", "Crawl", "falter", "Falter" }; 674. 675. const char * 676. locomotion(ptr, def) 677. const struct permonst *ptr; 678. const char *def; 679. { 680. int capitalize = (*def == highc(*def)); 681. 682. return ( 683. is_floater(ptr) ? levitate[capitalize] : 684. (is_flyer(ptr) && ptr->msize <= MZ_SMALL) ? flys[capitalize] : 685. (is_flyer(ptr) && ptr->msize > MZ_SMALL) ? flyl[capitalize] : 686. slithy(ptr) ? slither[capitalize] : 687. amorphous(ptr) ? ooze[capitalize] : 688. !ptr->mmove ? immobile[capitalize] : 689. nolimbs(ptr) ? crawl[capitalize] : 690. def 691. ); 692. 693. } 694.
stagger
695. const char * 696. stagger(ptr, def) 697. const struct permonst *ptr; 698. const char *def; 699. { 700. int capitalize = 2 + (*def == highc(*def)); 701. 702. return ( 703. is_floater(ptr) ? levitate[capitalize] : 704. (is_flyer(ptr) && ptr->msize <= MZ_SMALL) ? flys[capitalize] : 705. (is_flyer(ptr) && ptr->msize > MZ_SMALL) ? flyl[capitalize] : 706. slithy(ptr) ? slither[capitalize] : 707. amorphous(ptr) ? ooze[capitalize] : 708. !ptr->mmove ? immobile[capitalize] : 709. nolimbs(ptr) ? crawl[capitalize] : 710. def 711. ); 712. 713. } 714.
on_fire
715. /* return a phrase describing the effect of fire attack on a type of monster */ 716. const char * 717. on_fire(mptr, mattk) 718. struct permonst *mptr; 719. struct attack *mattk; 720. { 721. const char *what; 722. 723. switch (monsndx(mptr)) { 724. case PM_FLAMING_SPHERE: 725. case PM_FIRE_VORTEX: 726. case PM_FIRE_ELEMENTAL: 727. case PM_SALAMANDER: 728. what = "already on fire"; 729. break; 730. case PM_WATER_ELEMENTAL: 731. case PM_FOG_CLOUD: 732. case PM_STEAM_VORTEX: 733. what = "boiling"; 734. break; 735. case PM_ICE_VORTEX: 736. case PM_GLASS_GOLEM: 737. what = "melting"; 738. break; 739. case PM_STONE_GOLEM: 740. case PM_CLAY_GOLEM: 741. case PM_GOLD_GOLEM: 742. case PM_AIR_ELEMENTAL: 743. case PM_EARTH_ELEMENTAL: 744. case PM_DUST_VORTEX: 745. case PM_ENERGY_VORTEX: 746. what = "heating up"; 747. break; 748. default: 749. what = (mattk->aatyp == AT_HUGS) ? "being roasted" : "on fire"; 750. break; 751. } 752. return what; 753. } 754. 755. #endif /* OVLB */ 756. 757. /*mondata.c*/