/* * Do anything associated with a new dungeon level * * @(#)new_level.c 9.0 (rdk) 7/17/84 * * Super-Rogue * Copyright (C) 1984 Robert D. Kindelberger * All rights reserved. * * Based on "Rogue: Exploring the Dungeons of Doom" * Copyright (C) 1980, 1981 Michael Toy, Ken Arnold and Glenn Wichman * All rights reserved. * * See the file LICENSE.TXT for full copyright and licensing information. */ #include "rogue.h" #include "rogue.ext" void put_things(void); /* * new_level: * Dig and draw a new level */ void new_level(int ltype) { register int i; register char ch; struct coord traploc; struct room *rp; if (level > max_level) max_level = level; wclear(cw); wclear(mw); clear(); isfight = FALSE; levtype = ltype; free_list(mlist); /* free monster list */ if (levtype == POSTLEV) do_post(); else { lev_mon(); /* fill in monster list */ if (levtype == MAZELEV) do_maze(); else { /* normal levels */ do_rooms(); /* Draw rooms */ do_passages(); /* Draw passages */ } no_food++; put_things(); /* Place objects (if any) */ } /* * Place the staircase down. */ stairs = *rnd_pos(&rooms[rnd_room()]); mvaddch(stairs.y, stairs.x, STAIRS); ntraps = 0; if (levtype == NORMLEV) { struct trap *trp, *maxtrp; /* Place the traps for normal levels only */ if (rnd(10) < level) { ntraps = rnd(level / 4) + 1; if (ntraps > MAXTRAPS) ntraps = MAXTRAPS; maxtrp = &traps[ntraps]; for (trp = &traps[0]; trp < maxtrp; trp++) { again: switch(rnd(TYPETRAPS + 1)) { case 0: if (rnd(100) > 25) goto again; else ch = POST; when 1: ch = TRAPDOOR; when 2: ch = BEARTRAP; when 3: ch = SLEEPTRAP; when 4: ch = ARROWTRAP; when 5: ch = TELTRAP; when 6: ch = DARTTRAP; when 7: ch = MAZETRAP; when 8: case 9: if (rnd(100) > 80) goto again; else ch = POOL; } trp->tr_flags = 0; traploc = *rnd_pos(&rooms[rnd_room()]); mvaddch(traploc.y,traploc.x,ch); trp->tr_type = ch; trp->tr_pos = traploc; if (ch == POOL || ch == POST) trp->tr_flags |= ISFOUND; if (ch==TELTRAP && rnd(100)<20 && trptr_goto = newloc; trp++; trp->tr_goto = traploc; trp->tr_type = TELTRAP; trp->tr_pos = newloc; mvaddch(newloc.y, newloc.x, TELTRAP); } else trp->tr_goto = rndspot; } } } do { rp = &rooms[rnd_room()]; hero = *rnd_pos(rp); } while(levtype==MAZELEV&&DISTANCE(hero.y,hero.x,stairs.y,stairs.x)<10); player.t_room = rp; player.t_oldch = mvinch(hero.y, hero.x); light(&hero); mvwaddch(cw,hero.y,hero.x,PLAYER); nochange = FALSE; } /* * rnd_room: * Pick a room that is really there */ int rnd_room(void) { register int rm; if (levtype != NORMLEV) rm = 0; else { do { rm = rnd(MAXROOMS); } while (rf_on(&rooms[rm],ISGONE)); } return rm; } /* * put_things: * put potions and scrolls on this level */ void put_things(void) { register int i, cnt, rm; struct linked_list *item; struct object *cur; struct coord tp; /* Throw away stuff left on the previous level (if anything) */ free_list(lvl_obj); /* The only way to get new stuff is to go down into the dungeon. */ if (goingup()) return; /* Do MAXOBJ attempts to put things on a level */ for (i = 0; i < MAXOBJ; i++) { if (rnd(100) < 40) { item = new_thing(FALSE, ANYTHING); attach(lvl_obj, item); cur = OBJPTR(item); cnt = 0; do { /* skip treasure rooms */ rm = rnd_room(); if (++cnt > 500) break; } while(rf_on(&rooms[rm],ISTREAS) && levtype!=MAZELEV); tp = *rnd_pos(&rooms[rm]); mvaddch(tp.y, tp.x, cur->o_type); cur->o_pos = tp; } } /* * If he is really deep in the dungeon and he hasn't found the * amulet yet, put it somewhere on the ground */ if (level >= AMLEVEL && !amulet && rnd(100) < 70) { item = new_thing(FALSE, AMULET, 0); attach(lvl_obj, item); cur = OBJPTR(item); rm = rnd_room(); tp = *rnd_pos(&rooms[rm]); mvaddch(tp.y, tp.x, cur->o_type); cur->o_pos = tp; } for (i = 0; i < MAXROOMS; i++) /* loop through all */ { if (rf_on(&rooms[i],ISTREAS)) /* treasure rooms */ { int numthgs, isfood; numthgs = rnd(level / 3) + 6; while (numthgs-- >= 0) { isfood = TRUE; do { item = new_thing(TRUE, ANYTHING); cur = OBJPTR(item); /* dont create food for */ if (cur->o_type == FOOD) discard(item); /* treasure rooms */ else isfood = FALSE; } while (isfood); attach(lvl_obj, item); tp = *rnd_pos(&rooms[i]); mvaddch(tp.y, tp.x, cur->o_type); cur->o_pos = tp; } } } }