Mercurial > hg > early-roguelike
view rogue3/chase.c @ 110:5f51f7d9805f
arogue5: fix some save/restore-related crashes.
The save/restore code took the pointer intended as an argument for the
doctor() daemon and wrote it to the savefile as an int. I don't know
why it took so long to fail horribly. The problem has been avoided by
replacing the value with &player when restoring. That seems to be the
only argument ever actually used.
The code also writes only four bytes for an unsigned long; if
sizeof(long) == 8, it casts to unsigned int first. It failed to do the
cast when reading back, with the result that four bytes were read and
the other half of the number was effectively uninitialized.
It apparently works now, but the save/restore code ought still to be
regarded as decidedly unfortunate.
author | John "Elwin" Edwards |
---|---|
date | Mon, 06 Jan 2014 15:57:17 -0500 |
parents | 527e2150eaf0 |
children | d9e44e18eeec |
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/* * Code for one object to chase another * * @(#)chase.c 3.17 (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 "curses.h" #include "rogue.h" coord ch_ret; /* Where chasing takes you */ /* * runners: * Make all the running monsters move. */ void runners() { struct linked_list *item; struct thing *tp; for (item = mlist; item != NULL;) { tp = (struct thing *) ldata(item); item = next(item); if (off(*tp, ISHELD) && on(*tp, ISRUN)) { if (off(*tp, ISSLOW) || tp->t_turn) if (do_chase(tp) == -1) continue; if (on(*tp, ISHASTE)) if (do_chase(tp) == -1) continue; tp->t_turn ^= TRUE; } } } /* * do_chase: * Make one thing chase another. */ int do_chase(struct thing *th) { struct room *rer, *ree; /* room of chaser, room of chasee */ int mindist = 32767, i, dist; int stoprun = FALSE; /* TRUE means we are there */ int sch; coord this; /* Temporary destination for chaser */ rer = roomin(&th->t_pos); /* Find room of chaser */ ree = roomin(th->t_dest); /* Find room of chasee */ /* * We don't count doors as inside rooms for this routine */ if (mvwinch(stdscr, th->t_pos.y, th->t_pos.x) == DOOR) rer = NULL; this = *th->t_dest; /* * If the object of our desire is in a different room, * than we are and we ar not in a corridor, run to the * door nearest to our goal. */ if (rer != NULL && rer != ree) for (i = 0; i < rer->r_nexits; i++) /* loop through doors */ { dist = DISTANCE(th->t_dest->y, th->t_dest->x, rer->r_exit[i].y, rer->r_exit[i].x); if (dist < mindist) /* minimize distance */ { this = rer->r_exit[i]; mindist = dist; } } /* * this now contains what we want to run to this time * so we run to it. If we hit it we either want to fight it * or stop running */ if (!chase(th, &this)) { if (ce(this, hero)) { return( attack(th) ); } else if (th->t_type != 'F') stoprun = TRUE; } else if (th->t_type == 'F') return(0); mvwaddch(cw, th->t_pos.y, th->t_pos.x, th->t_oldch); sch = mvwinch(cw, ch_ret.y, ch_ret.x); if (rer != NULL && (rer->r_flags & ISDARK) && sch == FLOOR && DISTANCE(ch_ret.y, ch_ret.x, th->t_pos.y, th->t_pos.x) < 3 && off(player, ISBLIND)) th->t_oldch = ' '; else th->t_oldch = sch; if (cansee(unc(ch_ret)) && !on(*th, ISINVIS)) mvwaddch(cw, ch_ret.y, ch_ret.x, th->t_type); mvwaddch(mw, th->t_pos.y, th->t_pos.x, ' '); mvwaddch(mw, ch_ret.y, ch_ret.x, th->t_type); th->t_pos = ch_ret; /* * And stop running if need be */ if (stoprun && ce(th->t_pos, *(th->t_dest))) th->t_flags &= ~ISRUN; return(0); } /* * runto: * Set a mosnter running after something * or stop it from running (for when it dies) */ void runto(coord *runner, coord *spot) { struct linked_list *item; struct thing *tp; /* * If we couldn't find him, something is funny */ if ((item = find_mons(runner->y, runner->x)) == NULL) { msg("CHASER '%s'", unctrl(winat(runner->y, runner->x))); return; } tp = (struct thing *) ldata(item); /* * Start the beastie running */ tp->t_dest = spot; tp->t_flags |= ISRUN; tp->t_flags &= ~ISHELD; } /* * chase: * Find the spot for the chaser(er) to move closer to the * chasee(ee). Returns TRUE if we want to keep on chasing later * FALSE if we reach the goal. */ int chase(struct thing *tp, coord *ee) { int x, y; int dist, thisdist; struct linked_list *item; struct object *obj; coord *er = &tp->t_pos; int ch; /* * If the thing is confused, let it move randomly. Invisible * Stalkers are slightly confused all of the time, and bats are * quite confused all the time */ if ((on(*tp, ISHUH) && rnd(10) < 8) || (tp->t_type == 'I' && rnd(100) < 20) || (tp->t_type == 'B' && rnd(100) < 50)) { /* * get a valid random move */ ch_ret = *rndmove(tp); dist = DISTANCE(ch_ret.y, ch_ret.x, ee->y, ee->x); /* * Small chance that it will become un-confused */ if (rnd(1000) < 50) tp->t_flags &= ~ISHUH; } /* * Otherwise, find the empty spot next to the chaser that is * closest to the chasee. */ else { int ey, ex; /* * This will eventually hold where we move to get closer * If we can't find an empty spot, we stay where we are. */ dist = DISTANCE(er->y, er->x, ee->y, ee->x); ch_ret = *er; ey = er->y + 1; ex = er->x + 1; for (x = er->x - 1; x <= ex; x++) for (y = er->y - 1; y <= ey; y++) { coord tryp; tryp.x = x; tryp.y = y; if (!diag_ok(er, &tryp)) continue; ch = winat(y, x); if (step_ok(ch)) { /* * If it is a scroll, it might be a scare monster scroll * so we need to look it up to see what type it is. */ if (ch == SCROLL) { for (item = lvl_obj; item != NULL; item = next(item)) { obj = (struct object *) ldata(item); if (y == obj->o_pos.y && x == obj->o_pos.x) break; } if (item != NULL && obj->o_which == S_SCARE) continue; } /* * If we didn't find any scrolls at this place or it * wasn't a scare scroll, then this place counts */ thisdist = DISTANCE(y, x, ee->y, ee->x); if (thisdist < dist) { ch_ret = tryp; dist = thisdist; } } } } return (dist != 0); } /* * roomin: * Find what room some coordinates are in. NULL means they aren't * in any room. */ struct room * roomin(coord *cp) { struct room *rp; for (rp = rooms; rp <= &rooms[MAXROOMS-1]; rp++) if (inroom(rp, cp)) return rp; return NULL; } /* * find_mons: * Find the monster from his corrdinates */ struct linked_list * find_mons(int y, int x) { struct linked_list *item; struct thing *th; for (item = mlist; item != NULL; item = next(item)) { th = (struct thing *) ldata(item); if (th->t_pos.y == y && th->t_pos.x == x) return item; } return NULL; } /* * diag_ok: * Check to see if the move is legal if it is diagonal */ int diag_ok(coord *sp, coord *ep) { if (ep->x == sp->x || ep->y == sp->y) return TRUE; return (step_ok(mvinch(ep->y, sp->x)) && step_ok(mvinch(sp->y, ep->x))); } /* * cansee: * returns true if the hero can see a certain coordinate. */ int cansee(int y, int x) { struct room *rer; coord tp; if (on(player, ISBLIND)) return FALSE; tp.y = y; tp.x = x; rer = roomin(&tp); /* * We can only see if the hero in the same room as * the coordinate and the room is lit or if it is close. */ return (rer != NULL && rer == roomin(&hero) && !(rer->r_flags&ISDARK)) || DISTANCE(y, x, hero.y, hero.x) < 3; }