freebsd-dev/games/hack/hack.mkshop.c
Jordan K. Hubbard 554eb505f8 Bring in the 4.4 Lite games directory, modulo man page changes and segregation
of the x11 based games.  I'm not going to tag the originals with bsd_44_lite
and do this in two stages since it's just not worth it for this collection,
and I've got directory renames to deal with that way.  Bleah.
Submitted by:	jkh
1994-09-04 04:03:31 +00:00

275 lines
6.6 KiB
C

/* Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */
/* hack.mkshop.c - version 1.0.3 */
#ifndef QUEST
#include "hack.h"
#include "def.mkroom.h"
#include "def.eshk.h"
#include <stdlib.h>
#define ESHK ((struct eshk *)(&(shk->mextra[0])))
extern struct monst *makemon();
extern struct obj *mkobj_at();
extern int nroom;
extern char shtypes[]; /* = "=/)%?!["; 8 types: 7 specialized, 1 mixed */
schar shprobs[] = { 3,3,5,5,10,10,14,50 }; /* their probabilities */
mkshop(){
register struct mkroom *sroom;
register int sh,sx,sy,i = -1;
register char let;
int roomno;
register struct monst *shk;
#ifdef WIZARD
/* first determine shoptype */
if(wizard){
register char *ep = getenv("SHOPTYPE");
if(ep){
if(*ep == 'z' || *ep == 'Z'){
mkzoo(ZOO);
return;
}
if(*ep == 'm' || *ep == 'M'){
mkzoo(MORGUE);
return;
}
if(*ep == 'b' || *ep == 'B'){
mkzoo(BEEHIVE);
return;
}
if(*ep == 's' || *ep == 'S'){
mkswamp();
return;
}
for(i=0; shtypes[i]; i++)
if(*ep == shtypes[i]) break;
goto gottype;
}
}
gottype:
#endif WIZARD
for(sroom = &rooms[0], roomno = 0; ; sroom++, roomno++){
if(sroom->hx < 0) return;
if(sroom - rooms >= nroom) {
pline("rooms not closed by -1?");
return;
}
if(sroom->rtype) continue;
if(!sroom->rlit || has_dnstairs(sroom) || has_upstairs(sroom))
continue;
if(
#ifdef WIZARD
(wizard && getenv("SHOPTYPE") && sroom->doorct != 0) ||
#endif WIZARD
sroom->doorct <= 2 && sroom->doorct > 0) break;
}
if(i < 0) { /* shoptype not yet determined */
register int j;
for(j = rn2(100), i = 0; (j -= shprobs[i])>= 0; i++)
if(!shtypes[i]) break; /* superfluous */
if(isbig(sroom) && i + SHOPBASE == WANDSHOP)
i = GENERAL-SHOPBASE;
}
sroom->rtype = i + SHOPBASE;
let = shtypes[i];
sh = sroom->fdoor;
sx = doors[sh].x;
sy = doors[sh].y;
if(sx == sroom->lx-1) sx++; else
if(sx == sroom->hx+1) sx--; else
if(sy == sroom->ly-1) sy++; else
if(sy == sroom->hy+1) sy--; else {
#ifdef WIZARD
/* This is said to happen sometimes, but I've never seen it. */
if(wizard) {
register int j = sroom->doorct;
extern int doorindex;
pline("Where is shopdoor?");
pline("Room at (%d,%d),(%d,%d).", sroom->lx, sroom->ly,
sroom->hx, sroom->hy);
pline("doormax=%d doorct=%d fdoor=%d",
doorindex, sroom->doorct, sh);
while(j--) {
pline("door [%d,%d]", doors[sh].x, doors[sh].y);
sh++;
}
more();
}
#endif WIZARD
return;
}
if(!(shk = makemon(PM_SHK,sx,sy))) return;
shk->isshk = shk->mpeaceful = 1;
shk->msleep = 0;
shk->mtrapseen = ~0; /* we know all the traps already */
ESHK->shoproom = roomno;
ESHK->shoplevel = dlevel;
ESHK->shd = doors[sh];
ESHK->shk.x = sx;
ESHK->shk.y = sy;
ESHK->robbed = 0;
ESHK->visitct = 0;
ESHK->following = 0;
shk->mgold = 1000 + 30*rnd(100); /* initial capital */
ESHK->billct = 0;
findname(ESHK->shknam, let);
for(sx = sroom->lx; sx <= sroom->hx; sx++)
for(sy = sroom->ly; sy <= sroom->hy; sy++){
register struct monst *mtmp;
if((sx == sroom->lx && doors[sh].x == sx-1) ||
(sx == sroom->hx && doors[sh].x == sx+1) ||
(sy == sroom->ly && doors[sh].y == sy-1) ||
(sy == sroom->hy && doors[sh].y == sy+1)) continue;
if(rn2(100) < dlevel && !m_at(sx,sy) &&
(mtmp = makemon(PM_MIMIC, sx, sy))){
mtmp->mimic = 1;
mtmp->mappearance =
(let && rn2(10) < dlevel) ? let : ']';
continue;
}
(void) mkobj_at(let, sx, sy);
}
}
mkzoo(type)
int type;
{
register struct mkroom *sroom;
register struct monst *mon;
register int sh,sx,sy,i;
int goldlim = 500 * dlevel;
int moct = 0;
struct permonst *morguemon();
i = nroom;
for(sroom = &rooms[rn2(nroom)]; ; sroom++) {
if(sroom == &rooms[nroom])
sroom = &rooms[0];
if(!i-- || sroom->hx < 0)
return;
if(sroom->rtype)
continue;
if(type == MORGUE && sroom->rlit)
continue;
if(has_upstairs(sroom) || (has_dnstairs(sroom) && rn2(3)))
continue;
if(sroom->doorct == 1 || !rn2(5))
break;
}
sroom->rtype = type;
sh = sroom->fdoor;
for(sx = sroom->lx; sx <= sroom->hx; sx++)
for(sy = sroom->ly; sy <= sroom->hy; sy++){
if((sx == sroom->lx && doors[sh].x == sx-1) ||
(sx == sroom->hx && doors[sh].x == sx+1) ||
(sy == sroom->ly && doors[sh].y == sy-1) ||
(sy == sroom->hy && doors[sh].y == sy+1)) continue;
mon = makemon(
(type == MORGUE) ? morguemon() :
(type == BEEHIVE) ? PM_KILLER_BEE : (struct permonst *) 0,
sx, sy);
if(mon) mon->msleep = 1;
switch(type) {
case ZOO:
i = sq(dist2(sx,sy,doors[sh].x,doors[sh].y));
if(i >= goldlim) i = 5*dlevel;
goldlim -= i;
mkgold((long)(10 + rn2(i)), sx, sy);
break;
case MORGUE:
/* Usually there is one dead body in the morgue */
if(!moct && rn2(3)) {
mksobj_at(CORPSE, sx, sy);
moct++;
}
break;
case BEEHIVE:
if(!rn2(3)) mksobj_at(LUMP_OF_ROYAL_JELLY, sx, sy);
break;
}
}
}
struct permonst *
morguemon()
{
extern struct permonst pm_ghost;
register int i = rn2(100), hd = rn2(dlevel);
if(hd > 10 && i < 10) return(PM_DEMON);
if(hd > 8 && i > 85) return(PM_VAMPIRE);
return((i < 40) ? PM_GHOST : (i < 60) ? PM_WRAITH : PM_ZOMBIE);
}
mkswamp() /* Michiel Huisjes & Fred de Wilde */
{
register struct mkroom *sroom;
register int sx,sy,i,eelct = 0;
extern struct permonst pm_eel;
for(i=0; i<5; i++) { /* 5 tries */
sroom = &rooms[rn2(nroom)];
if(sroom->hx < 0 || sroom->rtype ||
has_upstairs(sroom) || has_dnstairs(sroom))
continue;
/* satisfied; make a swamp */
sroom->rtype = SWAMP;
for(sx = sroom->lx; sx <= sroom->hx; sx++)
for(sy = sroom->ly; sy <= sroom->hy; sy++)
if((sx+sy)%2 && !o_at(sx,sy) && !t_at(sx,sy)
&& !m_at(sx,sy) && !nexttodoor(sx,sy)){
levl[sx][sy].typ = POOL;
levl[sx][sy].scrsym = POOL_SYM;
if(!eelct || !rn2(4)) {
(void) makemon(PM_EEL, sx, sy);
eelct++;
}
}
}
}
nexttodoor(sx,sy)
register sx,sy;
{
register dx,dy;
register struct rm *lev;
for(dx = -1; dx <= 1; dx++) for(dy = -1; dy <= 1; dy++)
if((lev = &levl[sx+dx][sy+dy])->typ == DOOR ||
lev->typ == SDOOR || lev->typ == LDOOR)
return(1);
return(0);
}
has_dnstairs(sroom)
register struct mkroom *sroom;
{
return(sroom->lx <= xdnstair && xdnstair <= sroom->hx &&
sroom->ly <= ydnstair && ydnstair <= sroom->hy);
}
has_upstairs(sroom)
register struct mkroom *sroom;
{
return(sroom->lx <= xupstair && xupstair <= sroom->hx &&
sroom->ly <= yupstair && yupstair <= sroom->hy);
}
isbig(sroom)
register struct mkroom *sroom;
{
register int area = (sroom->hx - sroom->lx) * (sroom->hy - sroom->ly);
return( area > 20 );
}
dist2(x0,y0,x1,y1){
return((x0-x1)*(x0-x1) + (y0-y1)*(y0-y1));
}
sq(a) int a; {
return(a*a);
}
#endif QUEST