/* * Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */ #ifndef lint static char rcsid[] = "$NetBSD: hack.makemon.c,v 1.3 1995/03/23 08:30:38 cgd Exp $"; #endif /* not lint */ #include "hack.h" extern char fut_geno[]; extern struct obj *mkobj_at(); struct monst zeromonst; /* * called with [x,y] = coordinates; * [0,0] means anyplace * [u.ux,u.uy] means: call mnexto (if !in_mklev) * * In case we make an Orc or killer bee, we make an entire horde (swarm); * note that in this case we return only one of them (the one at [x,y]). */ struct monst * makemon(ptr,x,y) register struct permonst *ptr; { register struct monst *mtmp; register tmp, ct; boolean anything = (!ptr); extern boolean in_mklev; if(x != 0 || y != 0) if(m_at(x,y)) return((struct monst *) 0); if(ptr){ if(strchr(fut_geno, ptr->mlet)) return((struct monst *) 0); } else { ct = CMNUM - strlen(fut_geno); if(strchr(fut_geno, 'm')) ct++; /* make only 1 minotaur */ if(strchr(fut_geno, '@')) ct++; if(ct <= 0) return(0); /* no more monsters! */ tmp = rn2(ct*dlevel/24 + 7); if(tmp < dlevel - 4) tmp = rn2(ct*dlevel/24 + 12); if(tmp >= ct) tmp = rn1(ct - ct/2, ct/2); for(ct = 0; ct < CMNUM; ct++){ ptr = &mons[ct]; if(strchr(fut_geno, ptr->mlet)) continue; if(!tmp--) goto gotmon; } panic("makemon?"); } gotmon: mtmp = newmonst(ptr->pxlth); *mtmp = zeromonst; /* clear all entries in structure */ for(ct = 0; ct < ptr->pxlth; ct++) ((char *) &(mtmp->mextra[0]))[ct] = 0; mtmp->nmon = fmon; fmon = mtmp; mtmp->m_id = flags.ident++; mtmp->data = ptr; mtmp->mxlth = ptr->pxlth; if(ptr->mlet == 'D') mtmp->mhpmax = mtmp->mhp = 80; else if(!ptr->mlevel) mtmp->mhpmax = mtmp->mhp = rnd(4); else mtmp->mhpmax = mtmp->mhp = d(ptr->mlevel, 8); mtmp->mx = x; mtmp->my = y; mtmp->mcansee = 1; if(ptr->mlet == 'M'){ mtmp->mimic = 1; mtmp->mappearance = ']'; } if(!in_mklev) { if(x == u.ux && y == u.uy && ptr->mlet != ' ') mnexto(mtmp); if(x == 0 && y == 0) rloc(mtmp); } if(ptr->mlet == 's' || ptr->mlet == 'S') { mtmp->mhide = mtmp->mundetected = 1; if(in_mklev) if(mtmp->mx && mtmp->my) (void) mkobj_at(0, mtmp->mx, mtmp->my); } if(ptr->mlet == ':') { mtmp->cham = 1; (void) newcham(mtmp, &mons[dlevel+14+rn2(CMNUM-14-dlevel)]); } if(ptr->mlet == 'I' || ptr->mlet == ';') mtmp->minvis = 1; if(ptr->mlet == 'L' || ptr->mlet == 'N' || (in_mklev && strchr("&w;", ptr->mlet) && rn2(5)) ) mtmp->msleep = 1; #ifndef NOWORM if(ptr->mlet == 'w' && getwn(mtmp)) initworm(mtmp); #endif NOWORM if(anything) if(ptr->mlet == 'O' || ptr->mlet == 'k') { coord enexto(); coord mm; register int cnt = rnd(10); mm.x = x; mm.y = y; while(cnt--) { mm = enexto(mm.x, mm.y); (void) makemon(ptr, mm.x, mm.y); } } return(mtmp); } coord enexto(xx,yy) register xchar xx,yy; { register xchar x,y; coord foo[15], *tfoo; int range; tfoo = foo; range = 1; do { /* full kludge action. */ for(x = xx-range; x <= xx+range; x++) if(goodpos(x, yy-range)) { tfoo->x = x; tfoo++->y = yy-range; if(tfoo == &foo[15]) goto foofull; } for(x = xx-range; x <= xx+range; x++) if(goodpos(x,yy+range)) { tfoo->x = x; tfoo++->y = yy+range; if(tfoo == &foo[15]) goto foofull; } for(y = yy+1-range; y < yy+range; y++) if(goodpos(xx-range,y)) { tfoo->x = xx-range; tfoo++->y = y; if(tfoo == &foo[15]) goto foofull; } for(y = yy+1-range; y < yy+range; y++) if(goodpos(xx+range,y)) { tfoo->x = xx+range; tfoo++->y = y; if(tfoo == &foo[15]) goto foofull; } range++; } while(tfoo == foo); foofull: return( foo[rn2(tfoo-foo)] ); } goodpos(x,y) /* used only in mnexto and rloc */ { return( ! (x < 1 || x > COLNO-2 || y < 1 || y > ROWNO-2 || m_at(x,y) || !ACCESSIBLE(levl[x][y].typ) || (x == u.ux && y == u.uy) || sobj_at(ENORMOUS_ROCK, x, y) )); } rloc(mtmp) struct monst *mtmp; { register tx,ty; register char ch = mtmp->data->mlet; #ifndef NOWORM if(ch == 'w' && mtmp->mx) return; /* do not relocate worms */ #endif NOWORM do { tx = rn1(COLNO-3,2); ty = rn2(ROWNO); } while(!goodpos(tx,ty)); mtmp->mx = tx; mtmp->my = ty; if(u.ustuck == mtmp){ if(u.uswallow) { u.ux = tx; u.uy = ty; docrt(); } else u.ustuck = 0; } pmon(mtmp); } struct monst * mkmon_at(let,x,y) char let; register int x,y; { register int ct; register struct permonst *ptr; for(ct = 0; ct < CMNUM; ct++) { ptr = &mons[ct]; if(ptr->mlet == let) return(makemon(ptr,x,y)); } return(0); }