1 /* Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */
2 /* hack.mkmaze.c - version 1.0.2 */
3 /* $FreeBSD: src/games/hack/hack.mkmaze.c,v 1.4 1999/11/16 10:26:37 marcel Exp $ */
4 /* $DragonFly: src/games/hack/hack.mkmaze.c,v 1.2 2003/06/17 04:25:24 dillon Exp $ */
7 #include "def.mkroom.h" /* not really used */
8 extern struct monst *makemon();
9 extern struct permonst pm_wizard;
10 extern struct obj *mkobj_at();
11 extern coord mazexy();
12 struct permonst hell_hound =
13 { "hell hound", 'd', 12, 14, 2, 3, 6, 0 };
20 boolean al = (dlevel >= 30 && !flags.made_amulet);
22 for(x = 2; x < COLNO-1; x++)
23 for(y = 2; y < ROWNO-1; y++)
24 levl[x][y].typ = (x%2 && y%2) ? 0 : HWALL;
30 for(x = zx-2; x < zx+4; x++) for(y = zy-2; y <= zy+2; y++) {
32 (y == zy-2 || y == zy+2 || x == zx-2 || x == zx+3) ? POOL :
33 (y == zy-1 || y == zy+1 || x == zx-1 || x == zx+2) ? HWALL:
36 (void) mkobj_at(AMULET_SYM, zx, zy);
37 flags.made_amulet = 1;
39 if(mtmp = makemon(&hell_hound, zx, zy))
41 if(mtmp = makemon(PM_WIZARD, zx+1, zy)) {
43 flags.no_of_wizards = 1;
50 (void) mksobj_at(WAN_WISHING, zx, zy);
51 (void) mkobj_at(ROCK_SYM, zx, zy); /* put a rock on top of it */
54 for(x = 2; x < COLNO-1; x++)
55 for(y = 2; y < ROWNO-1; y++) {
56 switch(levl[x][y].typ) {
58 levl[x][y].scrsym = '-';
61 levl[x][y].scrsym = '.';
65 for(x = rn1(8,11); x; x--) {
67 (void) mkobj_at(rn2(2) ? GEM_SYM : 0, mm.x, mm.y);
69 for(x = rn1(10,2); x; x--) {
71 (void) mkobj_at(ROCK_SYM, mm.x, mm.y);
74 (void) makemon(PM_MINOTAUR, mm.x, mm.y);
75 for(x = rn1(5,7); x; x--) {
77 (void) makemon((struct permonst *) 0, mm.x, mm.y);
79 for(x = rn1(6,7); x; x--) {
83 for(x = rn1(6,7); x; x--)
84 mktrap(0,1,(struct mkroom *) 0);
86 levl[(xupstair = mm.x)][(yupstair = mm.y)].scrsym = '<';
87 levl[xupstair][yupstair].typ = STAIRS;
88 xdnstair = ydnstair = 0;
91 walkfrom(x,y) int x,y; {
94 levl[x][y].typ = ROOM;
97 for(a = 0; a < 4; a++)
98 if(okay(x,y,a)) dirs[q++]= a;
102 levl[x][y].typ = ROOM;
113 case 0: --(*y); break;
114 case 1: (*x)++; break;
115 case 2: (*y)++; break;
116 case 3: --(*x); break;
126 if(x<3 || y<3 || x>COLNO-3 || y>ROWNO-3 || levl[x][y].typ != 0)
135 mm.x = 3 + 2*rn2(COLNO/2 - 2);
136 mm.y = 3 + 2*rn2(ROWNO/2 - 2);