hack.mklev.c revision 1.2
1 1.2 mycroft /* 2 1.2 mycroft * Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. 3 1.2 mycroft */ 4 1.2 mycroft 5 1.2 mycroft #ifndef lint 6 1.2 mycroft static char rcsid[] = "$Id: hack.mklev.c,v 1.2 1993/08/02 17:17:23 mycroft Exp $"; 7 1.2 mycroft #endif /* not lint */ 8 1.1 cgd 9 1.1 cgd #include "hack.h" 10 1.1 cgd 11 1.1 cgd extern char *getlogin(), *getenv(); 12 1.1 cgd extern struct monst *makemon(); 13 1.1 cgd extern struct obj *mkobj_at(); 14 1.1 cgd extern struct trap *maketrap(); 15 1.1 cgd 16 1.1 cgd #define somex() ((random()%(croom->hx-croom->lx+1))+croom->lx) 17 1.1 cgd #define somey() ((random()%(croom->hy-croom->ly+1))+croom->ly) 18 1.1 cgd 19 1.1 cgd #include "def.mkroom.h" 20 1.1 cgd #define XLIM 4 /* define minimum required space around a room */ 21 1.1 cgd #define YLIM 3 22 1.1 cgd boolean secret; /* TRUE while making a vault: increase [XY]LIM */ 23 1.1 cgd struct mkroom rooms[MAXNROFROOMS+1]; 24 1.1 cgd int smeq[MAXNROFROOMS+1]; 25 1.1 cgd coord doors[DOORMAX]; 26 1.1 cgd int doorindex; 27 1.1 cgd struct rm zerorm; 28 1.1 cgd int comp(); 29 1.1 cgd schar nxcor; 30 1.1 cgd boolean goldseen; 31 1.1 cgd int nroom; 32 1.1 cgd xchar xdnstair,xupstair,ydnstair,yupstair; 33 1.1 cgd 34 1.1 cgd /* Definitions used by makerooms() and addrs() */ 35 1.1 cgd #define MAXRS 50 /* max lth of temp rectangle table - arbitrary */ 36 1.1 cgd struct rectangle { 37 1.1 cgd xchar rlx,rly,rhx,rhy; 38 1.1 cgd } rs[MAXRS+1]; 39 1.1 cgd int rscnt,rsmax; /* 0..rscnt-1: currently under consideration */ 40 1.1 cgd /* rscnt..rsmax: discarded */ 41 1.1 cgd 42 1.1 cgd makelevel() 43 1.1 cgd { 44 1.1 cgd register struct mkroom *croom, *troom; 45 1.1 cgd register unsigned tryct; 46 1.1 cgd register x,y; 47 1.1 cgd 48 1.1 cgd nroom = 0; 49 1.1 cgd doorindex = 0; 50 1.1 cgd rooms[0].hx = -1; /* in case we are in a maze */ 51 1.1 cgd 52 1.1 cgd for(x=0; x<COLNO; x++) for(y=0; y<ROWNO; y++) 53 1.1 cgd levl[x][y] = zerorm; 54 1.1 cgd 55 1.1 cgd oinit(); /* assign level dependent obj probabilities */ 56 1.1 cgd 57 1.1 cgd if(dlevel >= rn1(3, 26)) { /* there might be several mazes */ 58 1.1 cgd makemaz(); 59 1.1 cgd return; 60 1.1 cgd } 61 1.1 cgd 62 1.1 cgd /* construct the rooms */ 63 1.1 cgd nroom = 0; 64 1.1 cgd secret = FALSE; 65 1.1 cgd (void) makerooms(); 66 1.1 cgd 67 1.1 cgd /* construct stairs (up and down in different rooms if possible) */ 68 1.1 cgd croom = &rooms[rn2(nroom)]; 69 1.1 cgd xdnstair = somex(); 70 1.1 cgd ydnstair = somey(); 71 1.1 cgd levl[xdnstair][ydnstair].scrsym ='>'; 72 1.1 cgd levl[xdnstair][ydnstair].typ = STAIRS; 73 1.1 cgd if(nroom > 1) { 74 1.1 cgd troom = croom; 75 1.1 cgd croom = &rooms[rn2(nroom-1)]; 76 1.1 cgd if(croom >= troom) croom++; 77 1.1 cgd } 78 1.1 cgd xupstair = somex(); /* %% < and > might be in the same place */ 79 1.1 cgd yupstair = somey(); 80 1.1 cgd levl[xupstair][yupstair].scrsym ='<'; 81 1.1 cgd levl[xupstair][yupstair].typ = STAIRS; 82 1.1 cgd 83 1.1 cgd /* for each room: put things inside */ 84 1.1 cgd for(croom = rooms; croom->hx > 0; croom++) { 85 1.1 cgd 86 1.1 cgd /* put a sleeping monster inside */ 87 1.1 cgd /* Note: monster may be on the stairs. This cannot be 88 1.1 cgd avoided: maybe the player fell through a trapdoor 89 1.1 cgd while a monster was on the stairs. Conclusion: 90 1.1 cgd we have to check for monsters on the stairs anyway. */ 91 1.1 cgd if(!rn2(3)) (void) 92 1.1 cgd makemon((struct permonst *) 0, somex(), somey()); 93 1.1 cgd 94 1.1 cgd /* put traps and mimics inside */ 95 1.1 cgd goldseen = FALSE; 96 1.1 cgd while(!rn2(8-(dlevel/6))) mktrap(0,0,croom); 97 1.1 cgd if(!goldseen && !rn2(3)) mkgold(0L,somex(),somey()); 98 1.1 cgd if(!rn2(3)) { 99 1.1 cgd (void) mkobj_at(0, somex(), somey()); 100 1.1 cgd tryct = 0; 101 1.1 cgd while(!rn2(5)) { 102 1.1 cgd if(++tryct > 100){ 103 1.1 cgd printf("tryct overflow4\n"); 104 1.1 cgd break; 105 1.1 cgd } 106 1.1 cgd (void) mkobj_at(0, somex(), somey()); 107 1.1 cgd } 108 1.1 cgd } 109 1.1 cgd } 110 1.1 cgd 111 1.1 cgd qsort((char *) rooms, nroom, sizeof(struct mkroom), comp); 112 1.1 cgd makecorridors(); 113 1.1 cgd make_niches(); 114 1.1 cgd 115 1.1 cgd /* make a secret treasure vault, not connected to the rest */ 116 1.1 cgd if(nroom <= (2*MAXNROFROOMS/3)) if(rn2(3)) { 117 1.1 cgd troom = &rooms[nroom]; 118 1.1 cgd secret = TRUE; 119 1.1 cgd if(makerooms()) { 120 1.1 cgd troom->rtype = VAULT; /* treasure vault */ 121 1.1 cgd for(x = troom->lx; x <= troom->hx; x++) 122 1.1 cgd for(y = troom->ly; y <= troom->hy; y++) 123 1.1 cgd mkgold((long)(rnd(dlevel*100) + 50), x, y); 124 1.1 cgd if(!rn2(3)) 125 1.1 cgd makevtele(); 126 1.1 cgd } 127 1.1 cgd } 128 1.1 cgd 129 1.1 cgd #ifndef QUEST 130 1.1 cgd #ifdef WIZARD 131 1.1 cgd if(wizard && getenv("SHOPTYPE")) mkshop(); else 132 1.1 cgd #endif WIZARD 133 1.1 cgd if(dlevel > 1 && dlevel < 20 && rn2(dlevel) < 3) mkshop(); 134 1.1 cgd else 135 1.1 cgd if(dlevel > 6 && !rn2(7)) mkzoo(ZOO); 136 1.1 cgd else 137 1.1 cgd if(dlevel > 9 && !rn2(5)) mkzoo(BEEHIVE); 138 1.1 cgd else 139 1.1 cgd if(dlevel > 11 && !rn2(6)) mkzoo(MORGUE); 140 1.1 cgd else 141 1.1 cgd if(dlevel > 18 && !rn2(6)) mkswamp(); 142 1.1 cgd #endif QUEST 143 1.1 cgd } 144 1.1 cgd 145 1.1 cgd makerooms() { 146 1.1 cgd register struct rectangle *rsp; 147 1.1 cgd register int lx, ly, hx, hy, lowx, lowy, hix, hiy, dx, dy; 148 1.1 cgd int tryct = 0, xlim, ylim; 149 1.1 cgd 150 1.1 cgd /* init */ 151 1.1 cgd xlim = XLIM + secret; 152 1.1 cgd ylim = YLIM + secret; 153 1.1 cgd if(nroom == 0) { 154 1.1 cgd rsp = rs; 155 1.1 cgd rsp->rlx = rsp->rly = 0; 156 1.1 cgd rsp->rhx = COLNO-1; 157 1.1 cgd rsp->rhy = ROWNO-1; 158 1.1 cgd rsmax = 1; 159 1.1 cgd } 160 1.1 cgd rscnt = rsmax; 161 1.1 cgd 162 1.1 cgd /* make rooms until satisfied */ 163 1.1 cgd while(rscnt > 0 && nroom < MAXNROFROOMS-1) { 164 1.1 cgd if(!secret && nroom > (MAXNROFROOMS/3) && 165 1.1 cgd !rn2((MAXNROFROOMS-nroom)*(MAXNROFROOMS-nroom))) 166 1.1 cgd return(0); 167 1.1 cgd 168 1.1 cgd /* pick a rectangle */ 169 1.1 cgd rsp = &rs[rn2(rscnt)]; 170 1.1 cgd hx = rsp->rhx; 171 1.1 cgd hy = rsp->rhy; 172 1.1 cgd lx = rsp->rlx; 173 1.1 cgd ly = rsp->rly; 174 1.1 cgd 175 1.1 cgd /* find size of room */ 176 1.1 cgd if(secret) 177 1.1 cgd dx = dy = 1; 178 1.1 cgd else { 179 1.1 cgd dx = 2 + rn2((hx-lx-8 > 20) ? 12 : 8); 180 1.1 cgd dy = 2 + rn2(4); 181 1.1 cgd if(dx*dy > 50) 182 1.1 cgd dy = 50/dx; 183 1.1 cgd } 184 1.1 cgd 185 1.1 cgd /* look whether our room will fit */ 186 1.1 cgd if(hx-lx < dx + dx/2 + 2*xlim || hy-ly < dy + dy/3 + 2*ylim) { 187 1.1 cgd /* no, too small */ 188 1.1 cgd /* maybe we throw this area out */ 189 1.1 cgd if(secret || !rn2(MAXNROFROOMS+1-nroom-tryct)) { 190 1.1 cgd rscnt--; 191 1.1 cgd rs[rsmax] = *rsp; 192 1.1 cgd *rsp = rs[rscnt]; 193 1.1 cgd rs[rscnt] = rs[rsmax]; 194 1.1 cgd tryct = 0; 195 1.1 cgd } else 196 1.1 cgd tryct++; 197 1.1 cgd continue; 198 1.1 cgd } 199 1.1 cgd 200 1.1 cgd lowx = lx + xlim + rn2(hx - lx - dx - 2*xlim + 1); 201 1.1 cgd lowy = ly + ylim + rn2(hy - ly - dy - 2*ylim + 1); 202 1.1 cgd hix = lowx + dx; 203 1.1 cgd hiy = lowy + dy; 204 1.1 cgd 205 1.1 cgd if(maker(lowx, dx, lowy, dy)) { 206 1.1 cgd if(secret) 207 1.1 cgd return(1); 208 1.1 cgd addrs(lowx-1, lowy-1, hix+1, hiy+1); 209 1.1 cgd tryct = 0; 210 1.1 cgd } else 211 1.1 cgd if(tryct++ > 100) 212 1.1 cgd break; 213 1.1 cgd } 214 1.1 cgd return(0); /* failed to make vault - very strange */ 215 1.1 cgd } 216 1.1 cgd 217 1.1 cgd addrs(lowx,lowy,hix,hiy) 218 1.1 cgd register int lowx,lowy,hix,hiy; 219 1.1 cgd { 220 1.1 cgd register struct rectangle *rsp; 221 1.1 cgd register int lx,ly,hx,hy,xlim,ylim; 222 1.1 cgd boolean discarded; 223 1.1 cgd 224 1.1 cgd xlim = XLIM + secret; 225 1.1 cgd ylim = YLIM + secret; 226 1.1 cgd 227 1.1 cgd /* walk down since rscnt and rsmax change */ 228 1.1 cgd for(rsp = &rs[rsmax-1]; rsp >= rs; rsp--) { 229 1.1 cgd 230 1.1 cgd if((lx = rsp->rlx) > hix || (ly = rsp->rly) > hiy || 231 1.1 cgd (hx = rsp->rhx) < lowx || (hy = rsp->rhy) < lowy) 232 1.1 cgd continue; 233 1.1 cgd if((discarded = (rsp >= &rs[rscnt]))) { 234 1.1 cgd *rsp = rs[--rsmax]; 235 1.1 cgd } else { 236 1.1 cgd rsmax--; 237 1.1 cgd rscnt--; 238 1.1 cgd *rsp = rs[rscnt]; 239 1.1 cgd if(rscnt != rsmax) 240 1.1 cgd rs[rscnt] = rs[rsmax]; 241 1.1 cgd } 242 1.1 cgd if(lowy - ly > 2*ylim + 4) 243 1.1 cgd addrsx(lx,ly,hx,lowy-2,discarded); 244 1.1 cgd if(lowx - lx > 2*xlim + 4) 245 1.1 cgd addrsx(lx,ly,lowx-2,hy,discarded); 246 1.1 cgd if(hy - hiy > 2*ylim + 4) 247 1.1 cgd addrsx(lx,hiy+2,hx,hy,discarded); 248 1.1 cgd if(hx - hix > 2*xlim + 4) 249 1.1 cgd addrsx(hix+2,ly,hx,hy,discarded); 250 1.1 cgd } 251 1.1 cgd } 252 1.1 cgd 253 1.1 cgd addrsx(lx,ly,hx,hy,discarded) 254 1.1 cgd register int lx,ly,hx,hy; 255 1.1 cgd boolean discarded; /* piece of a discarded area */ 256 1.1 cgd { 257 1.1 cgd register struct rectangle *rsp; 258 1.1 cgd 259 1.1 cgd /* check inclusions */ 260 1.1 cgd for(rsp = rs; rsp < &rs[rsmax]; rsp++) { 261 1.1 cgd if(lx >= rsp->rlx && hx <= rsp->rhx && 262 1.1 cgd ly >= rsp->rly && hy <= rsp->rhy) 263 1.1 cgd return; 264 1.1 cgd } 265 1.1 cgd 266 1.1 cgd /* make a new entry */ 267 1.1 cgd if(rsmax >= MAXRS) { 268 1.1 cgd #ifdef WIZARD 269 1.1 cgd if(wizard) pline("MAXRS may be too small."); 270 1.1 cgd #endif WIZARD 271 1.1 cgd return; 272 1.1 cgd } 273 1.1 cgd rsmax++; 274 1.1 cgd if(!discarded) { 275 1.1 cgd *rsp = rs[rscnt]; 276 1.1 cgd rsp = &rs[rscnt]; 277 1.1 cgd rscnt++; 278 1.1 cgd } 279 1.1 cgd rsp->rlx = lx; 280 1.1 cgd rsp->rly = ly; 281 1.1 cgd rsp->rhx = hx; 282 1.1 cgd rsp->rhy = hy; 283 1.1 cgd } 284 1.1 cgd 285 1.1 cgd comp(x,y) 286 1.1 cgd register struct mkroom *x,*y; 287 1.1 cgd { 288 1.1 cgd if(x->lx < y->lx) return(-1); 289 1.1 cgd return(x->lx > y->lx); 290 1.1 cgd } 291 1.1 cgd 292 1.1 cgd coord 293 1.1 cgd finddpos(xl,yl,xh,yh) { 294 1.1 cgd coord ff; 295 1.1 cgd register x,y; 296 1.1 cgd 297 1.1 cgd x = (xl == xh) ? xl : (xl + rn2(xh-xl+1)); 298 1.1 cgd y = (yl == yh) ? yl : (yl + rn2(yh-yl+1)); 299 1.1 cgd if(okdoor(x, y)) 300 1.1 cgd goto gotit; 301 1.1 cgd 302 1.1 cgd for(x = xl; x <= xh; x++) for(y = yl; y <= yh; y++) 303 1.1 cgd if(okdoor(x, y)) 304 1.1 cgd goto gotit; 305 1.1 cgd 306 1.1 cgd for(x = xl; x <= xh; x++) for(y = yl; y <= yh; y++) 307 1.1 cgd if(levl[x][y].typ == DOOR || levl[x][y].typ == SDOOR) 308 1.1 cgd goto gotit; 309 1.1 cgd /* cannot find something reasonable -- strange */ 310 1.1 cgd x = xl; 311 1.1 cgd y = yh; 312 1.1 cgd gotit: 313 1.1 cgd ff.x = x; 314 1.1 cgd ff.y = y; 315 1.1 cgd return(ff); 316 1.1 cgd } 317 1.1 cgd 318 1.1 cgd /* see whether it is allowable to create a door at [x,y] */ 319 1.1 cgd okdoor(x,y) 320 1.1 cgd register x,y; 321 1.1 cgd { 322 1.1 cgd if(levl[x-1][y].typ == DOOR || levl[x+1][y].typ == DOOR || 323 1.1 cgd levl[x][y+1].typ == DOOR || levl[x][y-1].typ == DOOR || 324 1.1 cgd levl[x-1][y].typ == SDOOR || levl[x+1][y].typ == SDOOR || 325 1.1 cgd levl[x][y-1].typ == SDOOR || levl[x][y+1].typ == SDOOR || 326 1.1 cgd (levl[x][y].typ != HWALL && levl[x][y].typ != VWALL) || 327 1.1 cgd doorindex >= DOORMAX) 328 1.1 cgd return(0); 329 1.1 cgd return(1); 330 1.1 cgd } 331 1.1 cgd 332 1.1 cgd dodoor(x,y,aroom) 333 1.1 cgd register x,y; 334 1.1 cgd register struct mkroom *aroom; 335 1.1 cgd { 336 1.1 cgd if(doorindex >= DOORMAX) { 337 1.1 cgd impossible("DOORMAX exceeded?"); 338 1.1 cgd return; 339 1.1 cgd } 340 1.1 cgd if(!okdoor(x,y) && nxcor) 341 1.1 cgd return; 342 1.1 cgd dosdoor(x,y,aroom,rn2(8) ? DOOR : SDOOR); 343 1.1 cgd } 344 1.1 cgd 345 1.1 cgd dosdoor(x,y,aroom,type) 346 1.1 cgd register x,y; 347 1.1 cgd register struct mkroom *aroom; 348 1.1 cgd register type; 349 1.1 cgd { 350 1.1 cgd register struct mkroom *broom; 351 1.1 cgd register tmp; 352 1.1 cgd 353 1.1 cgd if(!IS_WALL(levl[x][y].typ)) /* avoid SDOORs with '+' as scrsym */ 354 1.1 cgd type = DOOR; 355 1.1 cgd levl[x][y].typ = type; 356 1.1 cgd if(type == DOOR) 357 1.1 cgd levl[x][y].scrsym = '+'; 358 1.1 cgd aroom->doorct++; 359 1.1 cgd broom = aroom+1; 360 1.1 cgd if(broom->hx < 0) tmp = doorindex; else 361 1.1 cgd for(tmp = doorindex; tmp > broom->fdoor; tmp--) 362 1.1 cgd doors[tmp] = doors[tmp-1]; 363 1.1 cgd doorindex++; 364 1.1 cgd doors[tmp].x = x; 365 1.1 cgd doors[tmp].y = y; 366 1.1 cgd for( ; broom->hx >= 0; broom++) broom->fdoor++; 367 1.1 cgd } 368 1.1 cgd 369 1.1 cgd /* Only called from makerooms() */ 370 1.1 cgd maker(lowx,ddx,lowy,ddy) 371 1.1 cgd schar lowx,ddx,lowy,ddy; 372 1.1 cgd { 373 1.1 cgd register struct mkroom *croom; 374 1.1 cgd register x, y, hix = lowx+ddx, hiy = lowy+ddy; 375 1.1 cgd register xlim = XLIM + secret, ylim = YLIM + secret; 376 1.1 cgd 377 1.1 cgd if(nroom >= MAXNROFROOMS) return(0); 378 1.1 cgd if(lowx < XLIM) lowx = XLIM; 379 1.1 cgd if(lowy < YLIM) lowy = YLIM; 380 1.1 cgd if(hix > COLNO-XLIM-1) hix = COLNO-XLIM-1; 381 1.1 cgd if(hiy > ROWNO-YLIM-1) hiy = ROWNO-YLIM-1; 382 1.1 cgd chk: 383 1.1 cgd if(hix <= lowx || hiy <= lowy) return(0); 384 1.1 cgd 385 1.1 cgd /* check area around room (and make room smaller if necessary) */ 386 1.1 cgd for(x = lowx - xlim; x <= hix + xlim; x++) { 387 1.1 cgd for(y = lowy - ylim; y <= hiy + ylim; y++) { 388 1.1 cgd if(levl[x][y].typ) { 389 1.1 cgd #ifdef WIZARD 390 1.1 cgd if(wizard && !secret) 391 1.1 cgd pline("Strange area [%d,%d] in maker().",x,y); 392 1.1 cgd #endif WIZARD 393 1.1 cgd if(!rn2(3)) return(0); 394 1.1 cgd if(x < lowx) 395 1.1 cgd lowx = x+xlim+1; 396 1.1 cgd else 397 1.1 cgd hix = x-xlim-1; 398 1.1 cgd if(y < lowy) 399 1.1 cgd lowy = y+ylim+1; 400 1.1 cgd else 401 1.1 cgd hiy = y-ylim-1; 402 1.1 cgd goto chk; 403 1.1 cgd } 404 1.1 cgd } 405 1.1 cgd } 406 1.1 cgd 407 1.1 cgd croom = &rooms[nroom]; 408 1.1 cgd 409 1.1 cgd /* on low levels the room is lit (usually) */ 410 1.1 cgd /* secret vaults are always lit */ 411 1.1 cgd if((rnd(dlevel) < 10 && rn2(77)) || (ddx == 1 && ddy == 1)) { 412 1.1 cgd for(x = lowx-1; x <= hix+1; x++) 413 1.1 cgd for(y = lowy-1; y <= hiy+1; y++) 414 1.1 cgd levl[x][y].lit = 1; 415 1.1 cgd croom->rlit = 1; 416 1.1 cgd } else 417 1.1 cgd croom->rlit = 0; 418 1.1 cgd croom->lx = lowx; 419 1.1 cgd croom->hx = hix; 420 1.1 cgd croom->ly = lowy; 421 1.1 cgd croom->hy = hiy; 422 1.1 cgd croom->rtype = croom->doorct = croom->fdoor = 0; 423 1.1 cgd 424 1.1 cgd for(x = lowx-1; x <= hix+1; x++) 425 1.1 cgd for(y = lowy-1; y <= hiy+1; y += (hiy-lowy+2)) { 426 1.1 cgd levl[x][y].scrsym = '-'; 427 1.1 cgd levl[x][y].typ = HWALL; 428 1.1 cgd } 429 1.1 cgd for(x = lowx-1; x <= hix+1; x += (hix-lowx+2)) 430 1.1 cgd for(y = lowy; y <= hiy; y++) { 431 1.1 cgd levl[x][y].scrsym = '|'; 432 1.1 cgd levl[x][y].typ = VWALL; 433 1.1 cgd } 434 1.1 cgd for(x = lowx; x <= hix; x++) 435 1.1 cgd for(y = lowy; y <= hiy; y++) { 436 1.1 cgd levl[x][y].scrsym = '.'; 437 1.1 cgd levl[x][y].typ = ROOM; 438 1.1 cgd } 439 1.1 cgd 440 1.1 cgd smeq[nroom] = nroom; 441 1.1 cgd croom++; 442 1.1 cgd croom->hx = -1; 443 1.1 cgd nroom++; 444 1.1 cgd return(1); 445 1.1 cgd } 446 1.1 cgd 447 1.1 cgd makecorridors() { 448 1.1 cgd register a,b; 449 1.1 cgd 450 1.1 cgd nxcor = 0; 451 1.1 cgd for(a = 0; a < nroom-1; a++) 452 1.1 cgd join(a, a+1); 453 1.1 cgd for(a = 0; a < nroom-2; a++) 454 1.1 cgd if(smeq[a] != smeq[a+2]) 455 1.1 cgd join(a, a+2); 456 1.1 cgd for(a = 0; a < nroom; a++) 457 1.1 cgd for(b = 0; b < nroom; b++) 458 1.1 cgd if(smeq[a] != smeq[b]) 459 1.1 cgd join(a, b); 460 1.1 cgd if(nroom > 2) 461 1.1 cgd for(nxcor = rn2(nroom) + 4; nxcor; nxcor--) { 462 1.1 cgd a = rn2(nroom); 463 1.1 cgd b = rn2(nroom-2); 464 1.1 cgd if(b >= a) b += 2; 465 1.1 cgd join(a, b); 466 1.1 cgd } 467 1.1 cgd } 468 1.1 cgd 469 1.1 cgd join(a,b) 470 1.1 cgd register a,b; 471 1.1 cgd { 472 1.1 cgd coord cc,tt; 473 1.1 cgd register tx, ty, xx, yy; 474 1.1 cgd register struct rm *crm; 475 1.1 cgd register struct mkroom *croom, *troom; 476 1.1 cgd register dx, dy, dix, diy, cct; 477 1.1 cgd 478 1.1 cgd croom = &rooms[a]; 479 1.1 cgd troom = &rooms[b]; 480 1.1 cgd 481 1.1 cgd /* find positions cc and tt for doors in croom and troom 482 1.1 cgd and direction for a corridor between them */ 483 1.1 cgd 484 1.1 cgd if(troom->hx < 0 || croom->hx < 0 || doorindex >= DOORMAX) return; 485 1.1 cgd if(troom->lx > croom->hx) { 486 1.1 cgd dx = 1; 487 1.1 cgd dy = 0; 488 1.1 cgd xx = croom->hx+1; 489 1.1 cgd tx = troom->lx-1; 490 1.1 cgd cc = finddpos(xx,croom->ly,xx,croom->hy); 491 1.1 cgd tt = finddpos(tx,troom->ly,tx,troom->hy); 492 1.1 cgd } else if(troom->hy < croom->ly) { 493 1.1 cgd dy = -1; 494 1.1 cgd dx = 0; 495 1.1 cgd yy = croom->ly-1; 496 1.1 cgd cc = finddpos(croom->lx,yy,croom->hx,yy); 497 1.1 cgd ty = troom->hy+1; 498 1.1 cgd tt = finddpos(troom->lx,ty,troom->hx,ty); 499 1.1 cgd } else if(troom->hx < croom->lx) { 500 1.1 cgd dx = -1; 501 1.1 cgd dy = 0; 502 1.1 cgd xx = croom->lx-1; 503 1.1 cgd tx = troom->hx+1; 504 1.1 cgd cc = finddpos(xx,croom->ly,xx,croom->hy); 505 1.1 cgd tt = finddpos(tx,troom->ly,tx,troom->hy); 506 1.1 cgd } else { 507 1.1 cgd dy = 1; 508 1.1 cgd dx = 0; 509 1.1 cgd yy = croom->hy+1; 510 1.1 cgd ty = troom->ly-1; 511 1.1 cgd cc = finddpos(croom->lx,yy,croom->hx,yy); 512 1.1 cgd tt = finddpos(troom->lx,ty,troom->hx,ty); 513 1.1 cgd } 514 1.1 cgd xx = cc.x; 515 1.1 cgd yy = cc.y; 516 1.1 cgd tx = tt.x - dx; 517 1.1 cgd ty = tt.y - dy; 518 1.1 cgd if(nxcor && levl[xx+dx][yy+dy].typ) 519 1.1 cgd return; 520 1.1 cgd dodoor(xx,yy,croom); 521 1.1 cgd 522 1.1 cgd cct = 0; 523 1.1 cgd while(xx != tx || yy != ty) { 524 1.1 cgd xx += dx; 525 1.1 cgd yy += dy; 526 1.1 cgd 527 1.1 cgd /* loop: dig corridor at [xx,yy] and find new [xx,yy] */ 528 1.1 cgd if(cct++ > 500 || (nxcor && !rn2(35))) 529 1.1 cgd return; 530 1.1 cgd 531 1.1 cgd if(xx == COLNO-1 || xx == 0 || yy == 0 || yy == ROWNO-1) 532 1.1 cgd return; /* impossible */ 533 1.1 cgd 534 1.1 cgd crm = &levl[xx][yy]; 535 1.1 cgd if(!(crm->typ)) { 536 1.1 cgd if(rn2(100)) { 537 1.1 cgd crm->typ = CORR; 538 1.1 cgd crm->scrsym = CORR_SYM; 539 1.1 cgd if(nxcor && !rn2(50)) 540 1.1 cgd (void) mkobj_at(ROCK_SYM, xx, yy); 541 1.1 cgd } else { 542 1.1 cgd crm->typ = SCORR; 543 1.1 cgd crm->scrsym = ' '; 544 1.1 cgd } 545 1.1 cgd } else 546 1.1 cgd if(crm->typ != CORR && crm->typ != SCORR) { 547 1.1 cgd /* strange ... */ 548 1.1 cgd return; 549 1.1 cgd } 550 1.1 cgd 551 1.1 cgd /* find next corridor position */ 552 1.1 cgd dix = abs(xx-tx); 553 1.1 cgd diy = abs(yy-ty); 554 1.1 cgd 555 1.1 cgd /* do we have to change direction ? */ 556 1.1 cgd if(dy && dix > diy) { 557 1.1 cgd register ddx = (xx > tx) ? -1 : 1; 558 1.1 cgd 559 1.1 cgd crm = &levl[xx+ddx][yy]; 560 1.1 cgd if(!crm->typ || crm->typ == CORR || crm->typ == SCORR) { 561 1.1 cgd dx = ddx; 562 1.1 cgd dy = 0; 563 1.1 cgd continue; 564 1.1 cgd } 565 1.1 cgd } else if(dx && diy > dix) { 566 1.1 cgd register ddy = (yy > ty) ? -1 : 1; 567 1.1 cgd 568 1.1 cgd crm = &levl[xx][yy+ddy]; 569 1.1 cgd if(!crm->typ || crm->typ == CORR || crm->typ == SCORR) { 570 1.1 cgd dy = ddy; 571 1.1 cgd dx = 0; 572 1.1 cgd continue; 573 1.1 cgd } 574 1.1 cgd } 575 1.1 cgd 576 1.1 cgd /* continue straight on? */ 577 1.1 cgd crm = &levl[xx+dx][yy+dy]; 578 1.1 cgd if(!crm->typ || crm->typ == CORR || crm->typ == SCORR) 579 1.1 cgd continue; 580 1.1 cgd 581 1.1 cgd /* no, what must we do now?? */ 582 1.1 cgd if(dx) { 583 1.1 cgd dx = 0; 584 1.1 cgd dy = (ty < yy) ? -1 : 1; 585 1.1 cgd crm = &levl[xx+dx][yy+dy]; 586 1.1 cgd if(!crm->typ || crm->typ == CORR || crm->typ == SCORR) 587 1.1 cgd continue; 588 1.1 cgd dy = -dy; 589 1.1 cgd continue; 590 1.1 cgd } else { 591 1.1 cgd dy = 0; 592 1.1 cgd dx = (tx < xx) ? -1 : 1; 593 1.1 cgd crm = &levl[xx+dx][yy+dy]; 594 1.1 cgd if(!crm->typ || crm->typ == CORR || crm->typ == SCORR) 595 1.1 cgd continue; 596 1.1 cgd dx = -dx; 597 1.1 cgd continue; 598 1.1 cgd } 599 1.1 cgd } 600 1.1 cgd 601 1.1 cgd /* we succeeded in digging the corridor */ 602 1.1 cgd dodoor(tt.x, tt.y, troom); 603 1.1 cgd 604 1.1 cgd if(smeq[a] < smeq[b]) 605 1.1 cgd smeq[b] = smeq[a]; 606 1.1 cgd else 607 1.1 cgd smeq[a] = smeq[b]; 608 1.1 cgd } 609 1.1 cgd 610 1.1 cgd make_niches() 611 1.1 cgd { 612 1.1 cgd register int ct = rnd(nroom/2 + 1); 613 1.1 cgd while(ct--) makeniche(FALSE); 614 1.1 cgd } 615 1.1 cgd 616 1.1 cgd makevtele() 617 1.1 cgd { 618 1.1 cgd makeniche(TRUE); 619 1.1 cgd } 620 1.1 cgd 621 1.1 cgd makeniche(with_trap) 622 1.1 cgd boolean with_trap; 623 1.1 cgd { 624 1.1 cgd register struct mkroom *aroom; 625 1.1 cgd register struct rm *rm; 626 1.1 cgd register int vct = 8; 627 1.1 cgd coord dd; 628 1.1 cgd register dy,xx,yy; 629 1.1 cgd register struct trap *ttmp; 630 1.1 cgd 631 1.1 cgd if(doorindex < DOORMAX) 632 1.1 cgd while(vct--) { 633 1.1 cgd aroom = &rooms[rn2(nroom-1)]; 634 1.1 cgd if(aroom->rtype != 0) continue; /* not an ordinary room */ 635 1.1 cgd if(aroom->doorct == 1 && rn2(5)) continue; 636 1.1 cgd if(rn2(2)) { 637 1.1 cgd dy = 1; 638 1.1 cgd dd = finddpos(aroom->lx,aroom->hy+1,aroom->hx,aroom->hy+1); 639 1.1 cgd } else { 640 1.1 cgd dy = -1; 641 1.1 cgd dd = finddpos(aroom->lx,aroom->ly-1,aroom->hx,aroom->ly-1); 642 1.1 cgd } 643 1.1 cgd xx = dd.x; 644 1.1 cgd yy = dd.y; 645 1.1 cgd if((rm = &levl[xx][yy+dy])->typ) continue; 646 1.1 cgd if(with_trap || !rn2(4)) { 647 1.1 cgd rm->typ = SCORR; 648 1.1 cgd rm->scrsym = ' '; 649 1.1 cgd if(with_trap) { 650 1.1 cgd ttmp = maketrap(xx, yy+dy, TELEP_TRAP); 651 1.1 cgd ttmp->once = 1; 652 1.1 cgd make_engr_at(xx, yy-dy, "ad ae?ar um"); 653 1.1 cgd } 654 1.1 cgd dosdoor(xx, yy, aroom, SDOOR); 655 1.1 cgd } else { 656 1.1 cgd rm->typ = CORR; 657 1.1 cgd rm->scrsym = CORR_SYM; 658 1.1 cgd if(rn2(7)) 659 1.1 cgd dosdoor(xx, yy, aroom, rn2(5) ? SDOOR : DOOR); 660 1.1 cgd else { 661 1.1 cgd mksobj_at(SCR_TELEPORTATION, xx, yy+dy); 662 1.1 cgd if(!rn2(3)) (void) mkobj_at(0, xx, yy+dy); 663 1.1 cgd } 664 1.1 cgd } 665 1.1 cgd return; 666 1.1 cgd } 667 1.1 cgd } 668 1.1 cgd 669 1.1 cgd /* make a trap somewhere (in croom if mazeflag = 0) */ 670 1.1 cgd mktrap(num,mazeflag,croom) 671 1.1 cgd register num,mazeflag; 672 1.1 cgd register struct mkroom *croom; 673 1.1 cgd { 674 1.1 cgd register struct trap *ttmp; 675 1.1 cgd register int kind,nopierc,nomimic,fakedoor,fakegold,tryct = 0; 676 1.1 cgd register xchar mx,my; 677 1.1 cgd extern char fut_geno[]; 678 1.1 cgd 679 1.1 cgd if(!num || num >= TRAPNUM) { 680 1.1 cgd nopierc = (dlevel < 4) ? 1 : 0; 681 1.1 cgd nomimic = (dlevel < 9 || goldseen ) ? 1 : 0; 682 1.1 cgd if(index(fut_geno, 'M')) nomimic = 1; 683 1.1 cgd kind = rn2(TRAPNUM - nopierc - nomimic); 684 1.1 cgd /* note: PIERC = 7, MIMIC = 8, TRAPNUM = 9 */ 685 1.1 cgd } else kind = num; 686 1.1 cgd 687 1.1 cgd if(kind == MIMIC) { 688 1.1 cgd register struct monst *mtmp; 689 1.1 cgd 690 1.1 cgd fakedoor = (!rn2(3) && !mazeflag); 691 1.1 cgd fakegold = (!fakedoor && !rn2(2)); 692 1.1 cgd if(fakegold) goldseen = TRUE; 693 1.1 cgd do { 694 1.1 cgd if(++tryct > 200) return; 695 1.1 cgd if(fakedoor) { 696 1.1 cgd /* note: fakedoor maybe on actual door */ 697 1.1 cgd if(rn2(2)){ 698 1.1 cgd if(rn2(2)) 699 1.1 cgd mx = croom->hx+1; 700 1.1 cgd else mx = croom->lx-1; 701 1.1 cgd my = somey(); 702 1.1 cgd } else { 703 1.1 cgd if(rn2(2)) 704 1.1 cgd my = croom->hy+1; 705 1.1 cgd else my = croom->ly-1; 706 1.1 cgd mx = somex(); 707 1.1 cgd } 708 1.1 cgd } else if(mazeflag) { 709 1.1 cgd extern coord mazexy(); 710 1.1 cgd coord mm; 711 1.1 cgd mm = mazexy(); 712 1.1 cgd mx = mm.x; 713 1.1 cgd my = mm.y; 714 1.1 cgd } else { 715 1.1 cgd mx = somex(); 716 1.1 cgd my = somey(); 717 1.1 cgd } 718 1.1 cgd } while(m_at(mx,my) || levl[mx][my].typ == STAIRS); 719 1.1 cgd if(mtmp = makemon(PM_MIMIC,mx,my)) { 720 1.1 cgd mtmp->mimic = 1; 721 1.1 cgd mtmp->mappearance = 722 1.1 cgd fakegold ? '$' : fakedoor ? '+' : 723 1.1 cgd (mazeflag && rn2(2)) ? AMULET_SYM : 724 1.1 cgd "=/)%?![<>" [ rn2(9) ]; 725 1.1 cgd } 726 1.1 cgd return; 727 1.1 cgd } 728 1.1 cgd 729 1.1 cgd do { 730 1.1 cgd if(++tryct > 200) 731 1.1 cgd return; 732 1.1 cgd if(mazeflag){ 733 1.1 cgd extern coord mazexy(); 734 1.1 cgd coord mm; 735 1.1 cgd mm = mazexy(); 736 1.1 cgd mx = mm.x; 737 1.1 cgd my = mm.y; 738 1.1 cgd } else { 739 1.1 cgd mx = somex(); 740 1.1 cgd my = somey(); 741 1.1 cgd } 742 1.1 cgd } while(t_at(mx, my) || levl[mx][my].typ == STAIRS); 743 1.1 cgd ttmp = maketrap(mx, my, kind); 744 1.1 cgd if(mazeflag && !rn2(10) && ttmp->ttyp < PIERC) 745 1.1 cgd ttmp->tseen = 1; 746 1.1 cgd } 747
Indexes created Wed Sep 24 02:09:48 GMT 2025