/* * all sorts of miscellaneous routines * * @(#)misc.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 #include "rogue.ext" /* * waste_time: * Do nothing but let other things happen */ void waste_time(void) { if (inwhgt) /* if from wghtchk, then done */ return; do_daemons(BEFORE); do_daemons(AFTER); do_fuses(); } /* * getindex: * Convert a type into an index for the things structures */ int getindex(char what) { int index = -1; switch (what) { case POTION: index = TYP_POTION; when SCROLL: index = TYP_SCROLL; when FOOD: index = TYP_FOOD; when RING: index = TYP_RING; when AMULET: index = TYP_AMULET; when ARMOR: index = TYP_ARMOR; when WEAPON: index = TYP_WEAPON; when STICK: index = TYP_STICK; } return index; } /* * tr_name: * print the name of a trap */ char * tr_name(char ch) { reg char *s; switch (ch) { case TRAPDOOR: s = "A trapdoor."; when BEARTRAP: s = "A beartrap."; when SLEEPTRAP: s = "A sleeping gas trap."; when ARROWTRAP: s = "An arrow trap."; when TELTRAP: s = "A teleport trap."; when DARTTRAP: s = "A dart trap."; when POOL: s = "A magic pool."; when POST: s = "A trading post."; when MAZETRAP: s = "A maze trap."; otherwise: s = "A bottomless pit."; /* shouldn't get here */ } return s; } /* * Look: * A quick glance all around the player */ void look(bool wakeup) { reg char ch; reg int oldx, oldy, y, x; reg struct room *rp; int ey, ex, oex, oey; int passcount = 0; bool inpass, blind; getyx(cw, oldy, oldx); oex = player.t_oldpos.x; oey = player.t_oldpos.y; blind = pl_on(ISBLIND); if ((oldrp != NULL && rf_on(oldrp,ISDARK)) || blind) { for (x = oex - 1; x <= oex + 1; x += 1) for (y = oey - 1; y <= oey + 1; y += 1) if ((y != hero.y || x != hero.x) && show(y, x) == FLOOR) mvwaddch(cw, y, x, ' '); } rp = player.t_room; inpass = (rp == NULL); /* TRUE when not in a room */ ey = hero.y + 1; ex = hero.x + 1; for (x = hero.x - 1; x <= ex; x += 1) { if (x >= 0 && x <= COLS - 1) { for (y = hero.y - 1; y <= ey; y += 1) { if (y <= 0 || y >= LINES - 2) continue; if (isalpha(mvwinch(mw, y, x))) { reg struct linked_list *it; reg struct thing *tp; if (wakeup || (!inpass && rf_on(rp, ISTREAS))) it = wake_monster(y, x); else it = find_mons(y, x); if (it == NULL) /* lost monster */ mvaddch(y, x, FLOOR); else { tp = THINGPTR(it); if (isatrap(tp->t_oldch = mvinch(y, x))) { struct trap *trp; if ((trp = trap_at(y,x)) == NULL) break; if (trp->tr_flags & ISFOUND) tp->t_oldch = trp->tr_type; else tp->t_oldch = FLOOR; } if (tp->t_oldch == FLOOR && rf_on(rp,ISDARK)) if (!blind) tp->t_oldch = ' '; } } /* * Secret doors show as walls */ if ((ch = show(y, x)) == SECRETDOOR) { if (inpass || y == rp->r_pos.y || y == rp->r_pos.y + rp->r_max.y - 1) ch = '-'; else ch = '|'; } /* * Don't show room walls if he is in a passage */ if (!blind) { if ((y == hero.y && x == hero.x) || (inpass && (ch == '-' || ch == '|'))) continue; } else ch = ' '; wmove(cw, y, x); waddch(cw, ch); if (door_stop && !firstmove && running) { switch (runch) { case 'h': if (x == ex) continue; when 'j': if (y == hero.y - 1) continue; when 'k': if (y == ey) continue; when 'l': if (x == hero.x - 1) continue; when 'y': if ((x + y) - (hero.x + hero.y) >= 1) continue; when 'u': if ((y - x) - (hero.y - hero.x) >= 1) continue; when 'n': if ((x + y) - (hero.x + hero.y) <= -1) continue; when 'b': if ((y - x) - (hero.y - hero.x) <= -1) continue; } switch (ch) { case DOOR: if (x == hero.x || y == hero.y) running = FALSE; break; case PASSAGE: if (x == hero.x || y == hero.y) passcount += 1; break; case FLOOR: case '|': case '-': case ' ': break; default: running = FALSE; break; } } } } } if (door_stop && !firstmove && passcount > 1) running = FALSE; mvwaddch(cw, hero.y, hero.x, PLAYER); wmove(cw, oldy, oldx); player.t_oldpos = hero; oldrp = rp; } /* * find_obj: * find the unclaimed object at y, x */ struct linked_list * find_obj(int y, int x) { reg struct linked_list *obj; reg struct object *op; for (obj = lvl_obj; obj != NULL; obj = next(obj)) { op = OBJPTR(obj); if (op->o_pos.y == y && op->o_pos.x == x) return obj; } return NULL; } /* * eat: * Let the hero eat some food. */ void eat(void) { reg struct linked_list *item; reg struct object *obj; reg int goodfood, cursed; if ((item = get_item("eat", FOOD)) == NULL) return; obj = OBJPTR(item); if (obj->o_type != FOOD) { msg("That's Inedible!"); after = FALSE; return; } cursed = 1; if (o_on(obj, ISCURSED)) cursed += 1; else if (o_on(obj, ISBLESS)) cursed -= 1; if (obj->o_which == FRUITFOOD) { msg("My, that was a yummy %s.", fruit); goodfood = 100; } else { if (rnd(100) > 80 || o_on(obj, ISCURSED)) { msg("Yuk, this food tastes like ARA."); goodfood = 300; him->s_exp += 1; check_level(); } else { msg("Yum, that tasted good."); goodfood = 200; } } goodfood *= cursed; if ((food_left += HUNGERTIME + rnd(400) - goodfood) > STOMACHSIZE) food_left = STOMACHSIZE; hungry_state = F_OKAY; updpack(); /* update pack */ if (obj == cur_weapon) cur_weapon = NULL; del_pack(item); /* get rid of the food */ } /* * aggravate: * aggravate all the monsters on this level */ void aggravate(void) { reg struct linked_list *mi; for (mi = mlist; mi != NULL; mi = next(mi)) runto(&(THINGPTR(mi))->t_pos, &hero); } /* * vowelstr: * If string starts with a vowel, return "n" for an "an" */ char * vowelstr(char *str) { switch (tolower(*str)) { case 'a': case 'e': case 'i': case 'o': case 'u': return "n"; default: return ""; } } /* * is_current: * See if the object is one of the currently used items */ bool is_current(struct object *obj) { if (obj == NULL) return FALSE; if (obj == cur_armor || obj == cur_weapon || obj == cur_ring[LEFT] || obj == cur_ring[RIGHT]) { msg("Already in use."); return TRUE; } return FALSE; } /* * get_dir: * Set up the direction coordinates */ bool get_dir(void) { reg char *prompt; reg bool gotit; prompt = "Direction: "; do { gotit = TRUE; switch (readchar()) { case 'h': case'H': delta.y = 0; delta.x = -1; when 'j': case'J': delta.y = 1; delta.x = 0; when 'k': case'K': delta.y = -1; delta.x = 0; when 'l': case'L': delta.y = 0; delta.x = 1; when 'y': case'Y': delta.y = -1; delta.x = -1; when 'u': case'U': delta.y = -1; delta.x = 1; when 'b': case'B': delta.y = 1; delta.x = -1; when 'n': case'N': delta.y = 1; delta.x = 1; when ESCAPE: return FALSE; otherwise: mpos = 0; msg(prompt); gotit = FALSE; } } until (gotit); if (pl_on(ISHUH) && rnd(100) > 80) { do { delta.y = rnd(3) - 1; delta.x = rnd(3) - 1; } while (delta.y == 0 && delta.x == 0); } mpos = 0; return TRUE; } /* * initfood: * Set up stuff for a food-type object */ void initfood(struct object *what) { what->o_type = FOOD; what->o_group = NORMFOOD; if (rnd(100) < 15) what->o_group = FRUITFOOD; what->o_which = what->o_group; what->o_count = 1 + extras(); what->o_flags = ISKNOW; what->o_weight = things[TYP_FOOD].mi_wght; what->o_typname = things[TYP_FOOD].mi_name; what->o_hplus = what->o_dplus = 0; what->o_vol = itemvol(what); }