/* * Draw the nine rooms on the screen * * @(#)rooms.c 3.8 (Berkeley) 6/15/81 * * 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 #include "curses.h" #include "rogue.h" void do_rooms() { int i; struct room *rp; struct linked_list *item; struct thing *tp; int left_out; coord top; coord bsze; coord mp; /* * bsze is the maximum room size */ bsze.x = COLS/3; bsze.y = LINES/3; /* * Clear things for a new level */ for (rp = rooms; rp <= &rooms[MAXROOMS-1]; rp++) rp->r_goldval = rp->r_nexits = rp->r_flags = 0; /* * Put the gone rooms, if any, on the level */ left_out = rnd(4); for (i = 0; i < left_out; i++) rooms[rnd_room()].r_flags |= ISGONE; /* * dig and populate all the rooms on the level */ for (i = 0, rp = rooms; i < MAXROOMS; rp++, i++) { /* * Find upper left corner of box that this room goes in */ top.x = (i%3)*bsze.x + 1; top.y = i/3*bsze.y; if (rp->r_flags & ISGONE) { /* * Place a gone room. Make certain that there is a blank line * for passage drawing. */ do { rp->r_pos.x = top.x + rnd(bsze.x-2) + 1; rp->r_pos.y = top.y + rnd(bsze.y-2) + 1; rp->r_max.x = -COLS; rp->r_max.y = -LINES; } until(rp->r_pos.y > 0 && rp->r_pos.y < LINES-1); continue; } if (rnd(10) < level-1) rp->r_flags |= ISDARK; /* * Find a place and size for a random room */ do { rp->r_max.x = rnd(bsze.x - 4) + 4; rp->r_max.y = rnd(bsze.y - 4) + 4; rp->r_pos.x = top.x + rnd(bsze.x - rp->r_max.x); rp->r_pos.y = top.y + rnd(bsze.y - rp->r_max.y); } until (rp->r_pos.y != 0); /* * Put the gold in */ if (rnd(100) < 50 && (!amulet || level >= max_level)) { rp->r_goldval = GOLDCALC; rnd_pos(rp, &rp->r_gold); if (roomin(&rp->r_gold) != rp) endwin(), abort(); } draw_room(rp); /* * Put the monster in */ if (rnd(100) < (rp->r_goldval > 0 ? 80 : 25)) { item = new_item(sizeof *tp); tp = (struct thing *) ldata(item); do { rnd_pos(rp, &mp); } until(mvwinch(stdscr, mp.y, mp.x) == FLOOR); new_monster(item, randmonster(FALSE), &mp); /* * See if we want to give it a treasure to carry around. */ if (rnd(100) < monsters[tp->t_type-'A'].m_carry) attach(tp->t_pack, new_thing()); } } } /* * Draw a box around a room */ void draw_room(struct room *rp) { int j, k; move(rp->r_pos.y, rp->r_pos.x+1); vert(rp->r_max.y-2); /* Draw left side */ move(rp->r_pos.y+rp->r_max.y-1, rp->r_pos.x); horiz(rp->r_max.x); /* Draw bottom */ move(rp->r_pos.y, rp->r_pos.x); horiz(rp->r_max.x); /* Draw top */ vert(rp->r_max.y-2); /* Draw right side */ /* * Put the floor down */ for (j = 1; j < rp->r_max.y-1; j++) { move(rp->r_pos.y + j, rp->r_pos.x+1); for (k = 1; k < rp->r_max.x-1; k++) addch(FLOOR); } /* * Put the gold there */ if (rp->r_goldval) mvaddch(rp->r_gold.y, rp->r_gold.x, GOLD); } /* * horiz: * draw a horizontal line */ void horiz(int cnt) { while (cnt--) addch('-'); } /* * vert: * draw a vertical line */ void vert(int cnt) { int x, y; getyx(stdscr, y, x); x--; while (cnt--) { move(++y, x); addch('|'); } } /* * rnd_pos: * pick a random spot in a room */ void rnd_pos(struct room *rp, coord *cp) { cp->x = rp->r_pos.x + rnd(rp->r_max.x-2) + 1; cp->y = rp->r_pos.y + rnd(rp->r_max.y-2) + 1; }