games/adventure/subr.c

1.13  dholland /*	$NetBSD: subr.c,v 1.13 2009/08/25 06:56:52 dholland Exp $	*/
 1.2       cgd
 1.1       jtc /*-
 1.1       jtc  * Copyright (c) 1991, 1993
 1.1       jtc  *	The Regents of the University of California.  All rights reserved.
 1.1       jtc  *
 1.1       jtc  * The game adventure was originally written in Fortran by Will Crowther
 1.1       jtc  * and Don Woods.  It was later translated to C and enhanced by Jim
 1.1       jtc  * Gillogly.  This code is derived from software contributed to Berkeley
 1.1       jtc  * by Jim Gillogly at The Rand Corporation.
 1.1       jtc  *
 1.1       jtc  * Redistribution and use in source and binary forms, with or without
 1.1       jtc  * modification, are permitted provided that the following conditions
 1.1       jtc  * are met:
 1.1       jtc  * 1. Redistributions of source code must retain the above copyright
 1.1       jtc  *    notice, this list of conditions and the following disclaimer.
 1.1       jtc  * 2. Redistributions in binary form must reproduce the above copyright
 1.1       jtc  *    notice, this list of conditions and the following disclaimer in the
 1.1       jtc  *    documentation and/or other materials provided with the distribution.
1.10       agc  * 3. Neither the name of the University nor the names of its contributors
 1.1       jtc  *    may be used to endorse or promote products derived from this software
 1.1       jtc  *    without specific prior written permission.
 1.1       jtc  *
 1.1       jtc  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 1.1       jtc  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 1.1       jtc  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.1       jtc  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 1.1       jtc  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1       jtc  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1       jtc  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1       jtc  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1       jtc  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1       jtc  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1       jtc  * SUCH DAMAGE.
 1.1       jtc  */
 1.1       jtc
 1.3  christos #include <sys/cdefs.h>
 1.1       jtc #ifndef lint
 1.2       cgd #if 0
 1.1       jtc static char sccsid[] = "@(#)subr.c	8.1 (Berkeley) 5/31/93";
 1.2       cgd #else
1.13  dholland __RCSID("$NetBSD: subr.c,v 1.13 2009/08/25 06:56:52 dholland Exp $");
 1.2       cgd #endif
 1.5     lukem #endif				/* not lint */
 1.1       jtc
 1.1       jtc /*      Re-coding of advent in C: subroutines from main                 */
 1.1       jtc
 1.3  christos #include <stdio.h>
 1.9      matt #include <stdlib.h>
 1.3  christos #include "hdr.h"
 1.3  christos #include "extern.h"
 1.1       jtc
1.12  dholland static void badmove(void);
1.12  dholland static int bitset(int, int);
1.12  dholland static int dropper(void);
1.12  dholland static int liq2(int);
1.12  dholland static int mback(void);
1.12  dholland static int specials(void);
1.12  dholland static int trbridge(void);
1.12  dholland
 1.1       jtc /*              Statement functions     */
 1.3  christos int
1.11       jmc toting(int objj)
 1.5     lukem {
 1.5     lukem 	if (place[objj] == -1)
 1.5     lukem 		return (TRUE);
 1.5     lukem 	else
 1.5     lukem 		return (FALSE);
 1.1       jtc }
 1.1       jtc
 1.3  christos int
1.11       jmc here(int objj)
 1.5     lukem {
 1.5     lukem 	if (place[objj] == loc || toting(objj))
 1.5     lukem 		return (TRUE);
 1.5     lukem 	else
 1.5     lukem 		return (FALSE);
 1.1       jtc }
 1.1       jtc
 1.3  christos int
1.11       jmc at(int objj)
 1.5     lukem {
 1.5     lukem 	if (place[objj] == loc || fixed[objj] == loc)
 1.5     lukem 		return (TRUE);
 1.5     lukem 	else
 1.5     lukem 		return (FALSE);
 1.1       jtc }
 1.1       jtc
1.12  dholland static int
1.11       jmc liq2(int pbotl)
 1.5     lukem {
 1.5     lukem 	return ((1 - pbotl) * water + (pbotl / 2) * (water + oil));
 1.1       jtc }
 1.1       jtc
 1.3  christos int
1.11       jmc liq(void)
 1.5     lukem {
 1.5     lukem 	int     i;
 1.5     lukem 	i = prop[bottle];
 1.5     lukem 	if (i > -1 - i)
 1.5     lukem 		return (liq2(i));
 1.5     lukem 	else
 1.5     lukem 		return (liq2(-1 - i));
 1.1       jtc }
 1.1       jtc
1.11       jmc /* may want to clean this one up a bit */
 1.3  christos int
1.11       jmc liqloc(int locc)
 1.5     lukem {
 1.5     lukem 	int     i, j, l;
 1.5     lukem 	i = cond[locc] / 2;
 1.5     lukem 	j = ((i * 2) % 8) - 5;
 1.5     lukem 	l = cond[locc] / 4;
 1.5     lukem 	l = l % 2;
 1.5     lukem 	return (liq2(j * l + 1));
 1.1       jtc }
 1.1       jtc
1.12  dholland static int
1.11       jmc bitset(int l, int n)
 1.5     lukem {
 1.5     lukem 	if (cond[l] & setbit[n])
 1.5     lukem 		return (TRUE);
 1.5     lukem 	return (FALSE);
 1.1       jtc }
 1.1       jtc
 1.3  christos int
1.11       jmc forced(int locc)
 1.5     lukem {
 1.5     lukem 	if (cond[locc] == 2)
 1.5     lukem 		return (TRUE);
 1.5     lukem 	return (FALSE);
 1.1       jtc }
 1.1       jtc
 1.3  christos int
1.11       jmc dark(void)
 1.5     lukem {
 1.5     lukem 	if ((cond[loc] % 2) == 0 && (prop[lamp] == 0 || !here(lamp)))
 1.5     lukem 		return (TRUE);
 1.5     lukem 	return (FALSE);
 1.1       jtc }
 1.1       jtc
 1.3  christos int
1.11       jmc pct(int n)
 1.5     lukem {
 1.5     lukem 	if (ran(100) < n)
 1.5     lukem 		return (TRUE);
 1.5     lukem 	return (FALSE);
 1.1       jtc }
 1.1       jtc
 1.1       jtc
 1.3  christos int
1.11       jmc fdwarf(void)
 1.5     lukem {				/* 71 */
 1.5     lukem 	int     i, j;
 1.4     lukem 	struct travlist *kk;
 1.1       jtc
 1.5     lukem 	if (newloc != loc && !forced(loc) && !bitset(loc, 3)) {
 1.5     lukem 		for (i = 1; i <= 5; i++) {
 1.5     lukem 			if (odloc[i] != newloc || !dseen[i])
 1.5     lukem 				continue;
 1.5     lukem 			newloc = loc;
 1.1       jtc 			rspeak(2);
 1.1       jtc 			break;
 1.1       jtc 		}
 1.1       jtc 	}
 1.5     lukem 	loc = newloc;		/* 74 */
 1.5     lukem 	if (loc == 0 || forced(loc) || bitset(newloc, 3))
 1.5     lukem 		return (2000);
 1.5     lukem 	if (dflag == 0) {
 1.5     lukem 		if (loc >= 15)
 1.5     lukem 			dflag = 1;
 1.5     lukem 		return (2000);
 1.5     lukem 	}
 1.5     lukem 	if (dflag == 1) {	/* 6000 */
 1.5     lukem 		if (loc < 15 || pct(95))
 1.5     lukem 			return (2000);
 1.5     lukem 		dflag = 2;
 1.5     lukem 		for (i = 1; i <= 2; i++) {
 1.5     lukem 			j = 1 + ran(5);
 1.5     lukem 			if (pct(50) && saved == -1)
 1.5     lukem 				dloc[j] = 0;	/* 6001 */
 1.5     lukem 		}
 1.5     lukem 		for (i = 1; i <= 5; i++) {
 1.5     lukem 			if (dloc[i] == loc)
1.13  dholland 				dloc[i] = daltloc;
 1.5     lukem 			odloc[i] = dloc[i];	/* 6002 */
 1.1       jtc 		}
 1.1       jtc 		rspeak(3);
 1.5     lukem 		drop(axe, loc);
 1.5     lukem 		return (2000);
 1.1       jtc 	}
 1.5     lukem 	dtotal = attack = stick = 0;	/* 6010 */
 1.5     lukem 	for (i = 1; i <= 6; i++) {	/* loop to 6030 */
 1.5     lukem 		if (dloc[i] == 0)
 1.5     lukem 			continue;
 1.5     lukem 		j = 1;
 1.5     lukem 		for (kk = travel[dloc[i]]; kk != 0; kk = kk->next) {
 1.5     lukem 			newloc = kk->tloc;
 1.5     lukem 			if (newloc > 300 || newloc < 15 || newloc == odloc[i]
 1.5     lukem 			    || (j > 1 && newloc == tk[j - 1]) || j >= 20
 1.5     lukem 			    || newloc == dloc[i] || forced(newloc)
 1.5     lukem 			    || (i == 6 && bitset(newloc, 3))
 1.5     lukem 			    || kk->conditions == 100)
 1.5     lukem 				continue;
 1.5     lukem 			tk[j++] = newloc;
 1.5     lukem 		}
 1.5     lukem 		tk[j] = odloc[i];	/* 6016 */
 1.5     lukem 		if (j >= 2)
 1.5     lukem 			j--;
 1.5     lukem 		j = 1 + ran(j);
 1.5     lukem 		odloc[i] = dloc[i];
 1.5     lukem 		dloc[i] = tk[j];
1.11       jmc 		dseen[i] = (dseen[i] && loc >= 15) ||
1.11       jmc 		    (dloc[i] == loc || odloc[i] == loc);
 1.5     lukem 		if (!dseen[i])
 1.5     lukem 			continue;	/* i.e. goto 6030 */
 1.5     lukem 		dloc[i] = loc;
 1.5     lukem 		if (i == 6) {	/* pirate's spotted him */
 1.5     lukem 			if (loc == chloc || prop[chest] >= 0)
 1.5     lukem 				continue;
 1.5     lukem 			k = 0;
1.11       jmc 			for (j = 50; j <= maxtrs; j++) { /* loop to 6020 */
1.13  dholland 				if (j == pyramid && (loc == plac[pyramid]
1.13  dholland 					|| loc == plac[emerald]))
 1.5     lukem 					goto l6020;
 1.5     lukem 				if (toting(j))
 1.5     lukem 					goto l6022;
 1.5     lukem 		l6020:		if (here(j))
 1.5     lukem 					k = 1;
 1.5     lukem 			}	/* 6020 */
 1.5     lukem 			if (tally == tally2 + 1 && k == 0 && place[chest] == 0
 1.5     lukem 			    && here(lamp) && prop[lamp] == 1)
 1.5     lukem 				goto l6025;
 1.5     lukem 			if (odloc[6] != dloc[6] && pct(20))
 1.1       jtc 				rspeak(127);
 1.5     lukem 			continue;	/* to 6030 */
 1.5     lukem 	l6022:		rspeak(128);
1.13  dholland 			if (place[message] == 0)
 1.5     lukem 				move(chest, chloc);
1.13  dholland 			move(message, chloc2);
1.11       jmc 			for (j = 50; j <= maxtrs; j++) { /* loop to 6023 */
1.13  dholland 				if (j == pyramid && (loc == plac[pyramid]
1.13  dholland 					|| loc == plac[emerald]))
 1.5     lukem 					continue;
 1.5     lukem 				if (at(j) && fixed[j] == 0)
 1.5     lukem 					carry(j, loc);
 1.5     lukem 				if (toting(j))
 1.5     lukem 					drop(j, chloc);
 1.1       jtc 			}
 1.5     lukem 	l6024:		dloc[6] = odloc[6] = chloc;
 1.5     lukem 			dseen[6] = FALSE;
 1.1       jtc 			continue;
 1.5     lukem 	l6025:		rspeak(186);
 1.5     lukem 			move(chest, chloc);
1.13  dholland 			move(message, chloc2);
 1.1       jtc 			goto l6024;
 1.1       jtc 		}
 1.5     lukem 		dtotal++;	/* 6027 */
 1.5     lukem 		if (odloc[i] != dloc[i])
 1.5     lukem 			continue;
 1.1       jtc 		attack++;
 1.5     lukem 		if (knfloc >= 0)
 1.5     lukem 			knfloc = loc;
 1.5     lukem 		if (ran(1000) < 95 * (dflag - 2))
 1.5     lukem 			stick++;
 1.5     lukem 	}			/* 6030 */
 1.5     lukem 	if (dtotal == 0)
 1.5     lukem 		return (2000);
 1.5     lukem 	if (dtotal != 1) {
 1.5     lukem 		printf("There are %d threatening little dwarves ", dtotal);
 1.1       jtc 		printf("in the room with you.\n");
 1.5     lukem 	} else
 1.5     lukem 		rspeak(4);
 1.5     lukem 	if (attack == 0)
 1.5     lukem 		return (2000);
 1.5     lukem 	if (dflag == 2)
 1.5     lukem 		dflag = 3;
 1.5     lukem 	if (saved != -1)
 1.5     lukem 		dflag = 20;
 1.5     lukem 	if (attack != 1) {
 1.5     lukem 		printf("%d of them throw knives at you!\n", attack);
 1.5     lukem 		k = 6;
 1.5     lukem l82:		if (stick <= 1) {	/* 82 */
 1.5     lukem 			rspeak(k + stick);
 1.5     lukem 			if (stick == 0)
 1.5     lukem 				return (2000);
 1.5     lukem 		} else
 1.5     lukem 			printf("%d of them get you!\n", stick);	/* 83 */
1.13  dholland 		oldloc2 = loc;
 1.5     lukem 		return (99);
 1.1       jtc 	}
 1.1       jtc 	rspeak(5);
 1.5     lukem 	k = 52;
 1.1       jtc 	goto l82;
 1.1       jtc }
 1.1       jtc
 1.1       jtc
1.11       jmc /* label 8              */
 1.3  christos int
1.11       jmc march(void)
1.11       jmc {
 1.5     lukem 	int     ll1, ll2;
 1.5     lukem
 1.5     lukem 	if ((tkk = travel[newloc = loc]) == 0)
 1.5     lukem 		bug(26);
 1.5     lukem 	if (k == null)
 1.5     lukem 		return (2);
 1.5     lukem 	if (k == cave) {	/* 40                   */
 1.5     lukem 		if (loc < 8)
 1.5     lukem 			rspeak(57);
 1.5     lukem 		if (loc >= 8)
 1.5     lukem 			rspeak(58);
 1.5     lukem 		return (2);
 1.5     lukem 	}
 1.5     lukem 	if (k == look) {	/* 30                   */
 1.5     lukem 		if (detail++ < 3)
 1.5     lukem 			rspeak(15);
1.13  dholland 		wasdark = FALSE;
 1.5     lukem 		abb[loc] = 0;
 1.5     lukem 		return (2);
 1.5     lukem 	}
 1.5     lukem 	if (k == back) {	/* 20                   */
 1.5     lukem 		switch (mback()) {
 1.5     lukem 		case 2:
 1.5     lukem 			return (2);
 1.5     lukem 		case 9:
 1.5     lukem 			goto l9;
 1.5     lukem 		default:
 1.5     lukem 			bug(100);
 1.1       jtc 		}
 1.1       jtc 	}
1.13  dholland 	oldloc2 = oldloc;
 1.5     lukem 	oldloc = loc;
 1.1       jtc l9:
 1.5     lukem 	for (; tkk != 0; tkk = tkk->next)
 1.5     lukem 		if (tkk->tverb == 1 || tkk->tverb == k)
 1.5     lukem 			break;
 1.5     lukem 	if (tkk == 0) {
 1.5     lukem 		badmove();
 1.5     lukem 		return (2);
 1.5     lukem 	}
 1.5     lukem l11:	ll1 = tkk->conditions;	/* 11                   */
 1.5     lukem 	ll2 = tkk->tloc;
 1.5     lukem 	newloc = ll1;		/* newloc=conditions    */
 1.5     lukem 	k = newloc % 100;	/* k used for prob      */
 1.5     lukem 	if (newloc <= 300) {
 1.5     lukem 		if (newloc <= 100) {	/* 13                   */
 1.5     lukem 			if (newloc != 0 && !pct(newloc))
 1.5     lukem 				goto l12;	/* 14   */
 1.5     lukem 	l16:		newloc = ll2;	/* newloc=location      */
 1.5     lukem 			if (newloc <= 300)
 1.5     lukem 				return (2);
 1.5     lukem 			if (newloc <= 500)
 1.5     lukem 				switch (specials()) {	/* to 30000           */
 1.5     lukem 				case 2:
 1.5     lukem 					return (2);
 1.5     lukem 				case 12:
 1.5     lukem 					goto l12;
 1.5     lukem 				case 99:
 1.5     lukem 					return (99);
 1.5     lukem 				default:
 1.5     lukem 					bug(101);
 1.1       jtc 				}
 1.5     lukem 			rspeak(newloc - 500);
 1.5     lukem 			newloc = loc;
 1.5     lukem 			return (2);
 1.1       jtc 		}
 1.5     lukem 		if (toting(k) || (newloc > 200 && at(k)))
 1.5     lukem 			goto l16;
 1.1       jtc 		goto l12;
 1.1       jtc 	}
 1.5     lukem 	if (prop[k] != (newloc / 100) - 3)
 1.5     lukem 		goto l16;	/* newloc still conditions */
 1.5     lukem l12:				/* alternative to probability move      */
 1.5     lukem 	for (; tkk != 0; tkk = tkk->next)
 1.5     lukem 		if (tkk->tloc != ll2 || tkk->conditions != ll1)
 1.5     lukem 			break;
 1.5     lukem 	if (tkk == 0)
 1.5     lukem 		bug(25);
 1.1       jtc 	goto l11;
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 20                   */
1.12  dholland static int
1.11       jmc mback(void)
1.11       jmc {
 1.5     lukem 	struct travlist *tk2, *j;
 1.5     lukem 	int     ll;
 1.5     lukem 	if (forced(k = oldloc))
1.13  dholland 		k = oldloc2;	/* k=location           */
1.13  dholland 	oldloc2 = oldloc;
 1.5     lukem 	oldloc = loc;
 1.5     lukem 	tk2 = 0;
 1.5     lukem 	if (k == loc) {
 1.5     lukem 		rspeak(91);
 1.5     lukem 		return (2);
 1.5     lukem 	}
 1.5     lukem 	for (; tkk != 0; tkk = tkk->next) {	/* 21                   */
 1.5     lukem 		ll = tkk->tloc;
 1.5     lukem 		if (ll == k) {
 1.5     lukem 			k = tkk->tverb;	/* k back to verb       */
 1.5     lukem 			tkk = travel[loc];
 1.5     lukem 			return (9);
 1.5     lukem 		}
 1.5     lukem 		if (ll <= 300) {
 1.5     lukem 			j = travel[loc];
 1.5     lukem 			if (forced(ll) && k == j->tloc)
 1.5     lukem 				tk2 = tkk;
 1.5     lukem 		}
 1.5     lukem 	}
 1.5     lukem 	tkk = tk2;		/* 23                   */
 1.5     lukem 	if (tkk != 0) {
 1.5     lukem 		k = tkk->tverb;
 1.5     lukem 		tkk = travel[loc];
 1.5     lukem 		return (9);
 1.1       jtc 	}
 1.1       jtc 	rspeak(140);
 1.5     lukem 	return (2);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 30000                */
1.12  dholland static int
1.11       jmc specials(void)
1.11       jmc {
 1.5     lukem 	switch (newloc -= 300) {
 1.5     lukem 		case 1:		/* 30100                */
 1.5     lukem 		newloc = 99 + 100 - loc;
1.13  dholland 		if (holding == 0 || (holding == 1 && toting(emerald)))
 1.5     lukem 			return (2);
 1.5     lukem 		newloc = loc;
 1.1       jtc 		rspeak(117);
 1.5     lukem 		return (2);
 1.5     lukem 	case 2:		/* 30200                */
1.13  dholland 		drop(emerald, loc);
 1.5     lukem 		return (12);
 1.5     lukem 	case 3:		/* to 30300             */
 1.5     lukem 		return (trbridge());
 1.5     lukem 	default:
 1.5     lukem 		bug(29);
 1.1       jtc 	}
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 30300                */
1.12  dholland static int
1.11       jmc trbridge(void)
1.11       jmc {
 1.5     lukem 	if (prop[troll] == 1) {
 1.5     lukem 		pspeak(troll, 1);
 1.5     lukem 		prop[troll] = 0;
 1.5     lukem 		move(troll2, 0);
 1.5     lukem 		move(troll2 + 100, 0);
 1.5     lukem 		move(troll, plac[troll]);
 1.5     lukem 		move(troll + 100, fixd[troll]);
 1.1       jtc 		juggle(chasm);
 1.5     lukem 		newloc = loc;
 1.5     lukem 		return (2);
 1.1       jtc 	}
1.11       jmc 	newloc = plac[troll] + fixd[troll] - loc;	/* 30310    */
 1.5     lukem 	if (prop[troll] == 0)
 1.5     lukem 		prop[troll] = 1;
 1.5     lukem 	if (!toting(bear))
 1.5     lukem 		return (2);
 1.1       jtc 	rspeak(162);
 1.5     lukem 	prop[chasm] = 1;
 1.5     lukem 	prop[troll] = 2;
 1.5     lukem 	drop(bear, newloc);
 1.1       jtc 	fixed[bear] = -1;
 1.5     lukem 	prop[bear] = 3;
 1.5     lukem 	if (prop[spices] < 0)
 1.5     lukem 		tally2++;
1.13  dholland 	oldloc2 = newloc;
 1.5     lukem 	return (99);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 20                   */
1.12  dholland static void
1.11       jmc badmove(void)
1.11       jmc {
 1.5     lukem 	spk = 12;
 1.5     lukem 	if (k >= 43 && k <= 50)
 1.5     lukem 		spk = 9;
 1.5     lukem 	if (k == 29 || k == 30)
 1.5     lukem 		spk = 9;
 1.5     lukem 	if (k == 7 || k == 36 || k == 37)
 1.5     lukem 		spk = 10;
 1.5     lukem 	if (k == 11 || k == 19)
 1.5     lukem 		spk = 11;
 1.5     lukem 	if (verb == find || verb == invent)
 1.5     lukem 		spk = 59;
 1.5     lukem 	if (k == 62 || k == 65)
 1.5     lukem 		spk = 42;
 1.5     lukem 	if (k == 17)
 1.5     lukem 		spk = 80;
 1.1       jtc 	rspeak(spk);
 1.1       jtc }
 1.1       jtc
 1.7   hubertf void
1.11       jmc bug(int n)
 1.5     lukem {
 1.5     lukem 	printf("Please tell jim (at) rand.org that fatal bug %d happened.\n", n);
 1.8   hubertf 	exit(1);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 2600 &c              */
 1.7   hubertf void
1.11       jmc checkhints(void)
1.11       jmc {
 1.5     lukem 	int     hint;
1.13  dholland 	for (hint = 4; hint <= hintmax; hint++) {
 1.5     lukem 		if (hinted[hint])
 1.5     lukem 			continue;
 1.5     lukem 		if (!bitset(loc, hint))
 1.5     lukem 			hintlc[hint] = -1;
 1.1       jtc 		hintlc[hint]++;
 1.5     lukem 		if (hintlc[hint] < hints[hint][1])
 1.5     lukem 			continue;
 1.5     lukem 		switch (hint) {
 1.5     lukem 		case 4:	/* 40400 */
 1.5     lukem 			if (prop[grate] == 0 && !here(keys))
 1.5     lukem 				goto l40010;
 1.1       jtc 			goto l40020;
 1.5     lukem 		case 5:	/* 40500 */
 1.5     lukem 			if (here(bird) && toting(rod) && obj == bird)
 1.5     lukem 				goto l40010;
 1.5     lukem 			continue;	/* i.e. goto l40030 */
 1.5     lukem 		case 6:	/* 40600 */
 1.5     lukem 			if (here(snake) && !here(bird))
 1.5     lukem 				goto l40010;
 1.1       jtc 			goto l40020;
 1.5     lukem 		case 7:	/* 40700 */
 1.5     lukem 			if (atloc[loc] == 0 && atloc[oldloc] == 0
1.13  dholland 			    && atloc[oldloc2] == 0 && holding > 1)
 1.5     lukem 				goto l40010;
 1.1       jtc 			goto l40020;
 1.5     lukem 		case 8:	/* 40800 */
1.13  dholland 			if (prop[emerald] != -1 && prop[pyramid] == -1)
 1.5     lukem 				goto l40010;
 1.1       jtc 			goto l40020;
 1.5     lukem 		case 9:
 1.5     lukem 			goto l40010;	/* 40900 */
 1.5     lukem 		default:
 1.5     lukem 			bug(27);
 1.1       jtc 		}
 1.5     lukem l40010:	hintlc[hint] = 0;
 1.5     lukem 		if (!yes(hints[hint][3], 0, 54))
 1.5     lukem 			continue;
 1.1       jtc 		printf("I am prepared to give you a hint, but it will ");
 1.5     lukem 		printf("cost you %d points.\n", hints[hint][2]);
 1.5     lukem 		hinted[hint] = yes(175, hints[hint][4], 54);
 1.5     lukem l40020:	hintlc[hint] = 0;
 1.1       jtc 	}
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9030                 */
 1.3  christos int
1.11       jmc trsay(void)
1.11       jmc {
 1.5     lukem 	int     i;
 1.5     lukem 	if (*wd2 != 0)
 1.5     lukem 		copystr(wd2, wd1);
 1.5     lukem 	i = vocab(wd1, -1, 0);
 1.5     lukem 	if (i == 62 || i == 65 || i == 71 || i == 2025) {
 1.5     lukem 		*wd2 = 0;
 1.5     lukem 		obj = 0;
 1.5     lukem 		return (2630);
 1.5     lukem 	}
 1.5     lukem 	printf("\nOkay, \"%s\".\n", wd2);
 1.5     lukem 	return (2012);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9010                 */
 1.3  christos int
1.11       jmc trtake(void)
1.11       jmc {
 1.5     lukem 	if (toting(obj))
 1.5     lukem 		return (2011);	/* 9010 */
 1.5     lukem 	spk = 25;
 1.5     lukem 	if (obj == plant && prop[plant] <= 0)
 1.5     lukem 		spk = 115;
 1.5     lukem 	if (obj == bear && prop[bear] == 1)
 1.5     lukem 		spk = 169;
 1.5     lukem 	if (obj == chain && prop[bear] != 0)
 1.5     lukem 		spk = 170;
 1.5     lukem 	if (fixed[obj] != 0)
 1.5     lukem 		return (2011);
 1.5     lukem 	if (obj == water || obj == oil) {
 1.6   hubertf 		if (here(bottle) && liq() == obj) {
 1.5     lukem 			obj = bottle;
 1.1       jtc 			goto l9017;
 1.1       jtc 		}
 1.5     lukem 		obj = bottle;
 1.5     lukem 		if (toting(bottle) && prop[bottle] == 1)
 1.5     lukem 			return (9220);
 1.5     lukem 		if (prop[bottle] != 1)
 1.5     lukem 			spk = 105;
 1.5     lukem 		if (!toting(bottle))
 1.5     lukem 			spk = 104;
 1.5     lukem 		return (2011);
 1.5     lukem 	}
1.13  dholland l9017:	if (holding >= 7) {
 1.5     lukem 		rspeak(92);
 1.5     lukem 		return (2012);
 1.5     lukem 	}
 1.5     lukem 	if (obj == bird) {
 1.5     lukem 		if (prop[bird] != 0)
 1.5     lukem 			goto l9014;
 1.5     lukem 		if (toting(rod)) {
 1.5     lukem 			rspeak(26);
 1.5     lukem 			return (2012);
 1.1       jtc 		}
 1.5     lukem 		if (!toting(cage)) {	/* 9013 */
 1.5     lukem 			rspeak(27);
 1.5     lukem 			return (2012);
 1.1       jtc 		}
 1.5     lukem 		prop[bird] = 1;	/* 9015 */
 1.1       jtc 	}
 1.5     lukem l9014:	if ((obj == bird || obj == cage) && prop[bird] != 0)
 1.5     lukem 		carry(bird + cage - obj, loc);
 1.5     lukem 	carry(obj, loc);
 1.6   hubertf 	k = liq();
 1.5     lukem 	if (obj == bottle && k != 0)
 1.5     lukem 		place[k] = -1;
 1.5     lukem 	return (2009);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9021                 */
1.12  dholland static int
1.11       jmc dropper(void)
1.11       jmc {
 1.6   hubertf 	k = liq();
 1.5     lukem 	if (k == obj)
 1.5     lukem 		obj = bottle;
 1.5     lukem 	if (obj == bottle && k != 0)
 1.5     lukem 		place[k] = 0;
 1.5     lukem 	if (obj == cage && prop[bird] != 0)
 1.5     lukem 		drop(bird, loc);
 1.5     lukem 	if (obj == bird)
 1.5     lukem 		prop[bird] = 0;
 1.5     lukem 	drop(obj, loc);
 1.5     lukem 	return (2012);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9020                 */
 1.3  christos int
1.11       jmc trdrop(void)
1.11       jmc {
 1.5     lukem 	if (toting(rod2) && obj == rod && !toting(rod))
 1.5     lukem 		obj = rod2;
 1.5     lukem 	if (!toting(obj))
 1.5     lukem 		return (2011);
 1.5     lukem 	if (obj == bird && here(snake)) {
 1.5     lukem 		rspeak(30);
 1.5     lukem 		if (closed)
 1.5     lukem 			return (19000);
1.13  dholland 		destroy(snake);
 1.5     lukem 		prop[snake] = 1;
 1.5     lukem 		return (dropper());
 1.1       jtc 	}
 1.5     lukem 	if (obj == coins && here(vend)) {	/* 9024                 */
1.13  dholland 		destroy(coins);
 1.5     lukem 		drop(batter, loc);
 1.5     lukem 		pspeak(batter, 0);
 1.5     lukem 		return (2012);
 1.1       jtc 	}
1.11       jmc 	if (obj == bird && at(dragon) && prop[dragon] == 0) {	/* 9025 */
 1.5     lukem 		rspeak(154);
1.13  dholland 		destroy(bird);
 1.5     lukem 		prop[bird] = 0;
 1.5     lukem 		if (place[snake] == plac[snake])
 1.5     lukem 			tally2--;
 1.5     lukem 		return (2012);
 1.5     lukem 	}
 1.5     lukem 	if (obj == bear && at(troll)) {	/* 9026                 */
 1.5     lukem 		rspeak(163);
 1.5     lukem 		move(troll, 0);
 1.5     lukem 		move(troll + 100, 0);
 1.5     lukem 		move(troll2, plac[troll]);
 1.5     lukem 		move(troll2 + 100, fixd[troll]);
 1.1       jtc 		juggle(chasm);
 1.5     lukem 		prop[troll] = 2;
 1.5     lukem 		return (dropper());
 1.1       jtc 	}
1.11       jmc 	if (obj != vase || loc == plac[pillow]) { /* 9027       */
 1.5     lukem 		rspeak(54);
 1.5     lukem 		return (dropper());
 1.5     lukem 	}
 1.5     lukem 	prop[vase] = 2;		/* 9028                 */
 1.5     lukem 	if (at(pillow))
 1.5     lukem 		prop[vase] = 0;
 1.5     lukem 	pspeak(vase, prop[vase] + 1);
 1.5     lukem 	if (prop[vase] != 0)
 1.5     lukem 		fixed[vase] = -1;
 1.5     lukem 	return (dropper());
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9040                 */
 1.3  christos int
1.11       jmc tropen(void)
1.11       jmc {
 1.5     lukem 	if (obj == clam || obj == oyster) {
 1.5     lukem 		k = 0;		/* 9046                 */
 1.5     lukem 		if (obj == oyster)
 1.5     lukem 			k = 1;
 1.5     lukem 		spk = 124 + k;
 1.5     lukem 		if (toting(obj))
 1.5     lukem 			spk = 120 + k;
1.13  dholland 		if (!toting(trident))
 1.5     lukem 			spk = 122 + k;
 1.5     lukem 		if (verb == lock)
 1.5     lukem 			spk = 61;
 1.5     lukem 		if (spk != 124)
 1.5     lukem 			return (2011);
1.13  dholland 		destroy(clam);
 1.5     lukem 		drop(oyster, loc);
 1.5     lukem 		drop(pearl, 105);
 1.5     lukem 		return (2011);
 1.5     lukem 	}
 1.5     lukem 	if (obj == door)
 1.5     lukem 		spk = 111;
 1.5     lukem 	if (obj == door && prop[door] == 1)
 1.5     lukem 		spk = 54;
 1.5     lukem 	if (obj == cage)
 1.5     lukem 		spk = 32;
 1.5     lukem 	if (obj == keys)
 1.5     lukem 		spk = 55;
 1.5     lukem 	if (obj == grate || obj == chain)
 1.5     lukem 		spk = 31;
 1.5     lukem 	if (spk != 31 || !here(keys))
 1.5     lukem 		return (2011);
 1.5     lukem 	if (obj == chain) {
 1.5     lukem 		if (verb == lock) {
 1.5     lukem 			spk = 172;	/* 9049: lock           */
 1.5     lukem 			if (prop[chain] != 0)
 1.5     lukem 				spk = 34;
 1.5     lukem 			if (loc != plac[chain])
 1.5     lukem 				spk = 173;
 1.5     lukem 			if (spk != 172)
 1.5     lukem 				return (2011);
 1.5     lukem 			prop[chain] = 2;
 1.5     lukem 			if (toting(chain))
 1.5     lukem 				drop(chain, loc);
 1.5     lukem 			fixed[chain] = -1;
 1.5     lukem 			return (2011);
 1.5     lukem 		}
 1.5     lukem 		spk = 171;
 1.5     lukem 		if (prop[bear] == 0)
 1.5     lukem 			spk = 41;
 1.5     lukem 		if (prop[chain] == 0)
 1.5     lukem 			spk = 37;
 1.5     lukem 		if (spk != 171)
 1.5     lukem 			return (2011);
 1.5     lukem 		prop[chain] = 0;
 1.5     lukem 		fixed[chain] = 0;
 1.5     lukem 		if (prop[bear] != 3)
 1.5     lukem 			prop[bear] = 2;
 1.5     lukem 		fixed[bear] = 2 - prop[bear];
 1.5     lukem 		return (2011);
 1.5     lukem 	}
1.13  dholland 	if (isclosing) {
 1.5     lukem 		k = 130;
 1.5     lukem 		if (!panic)
 1.5     lukem 			clock2 = 15;
 1.5     lukem 		panic = TRUE;
 1.5     lukem 		return (2010);
 1.5     lukem 	}
 1.5     lukem 	k = 34 + prop[grate];	/* 9043                 */
 1.5     lukem 	prop[grate] = 1;
 1.5     lukem 	if (verb == lock)
 1.5     lukem 		prop[grate] = 0;
 1.5     lukem 	k = k + 2 * prop[grate];
 1.5     lukem 	return (2010);
 1.5     lukem }
 1.5     lukem
1.11       jmc /* 9120                         */
 1.5     lukem int
1.11       jmc trkill(void)
1.11       jmc {
 1.5     lukem 	int     i;
 1.5     lukem 	for (i = 1; i <= 5; i++)
 1.5     lukem 		if (dloc[i] == loc && dflag >= 2)
 1.5     lukem 			break;
 1.5     lukem 	if (i == 6)
 1.5     lukem 		i = 0;
 1.5     lukem 	if (obj == 0) {		/* 9122                         */
 1.5     lukem 		if (i != 0)
 1.5     lukem 			obj = dwarf;
 1.5     lukem 		if (here(snake))
 1.5     lukem 			obj = obj * 100 + snake;
 1.5     lukem 		if (at(dragon) && prop[dragon] == 0)
 1.5     lukem 			obj = obj * 100 + dragon;
 1.5     lukem 		if (at(troll))
 1.5     lukem 			obj = obj * 100 + troll;
 1.5     lukem 		if (here(bear) && prop[bear] == 0)
 1.5     lukem 			obj = obj * 100 + bear;
 1.5     lukem 		if (obj > 100)
 1.5     lukem 			return (8000);
 1.5     lukem 		if (obj == 0) {
 1.5     lukem 			if (here(bird) && verb != throw)
 1.5     lukem 				obj = bird;
 1.5     lukem 			if (here(clam) || here(oyster))
 1.5     lukem 				obj = 100 * obj + clam;
 1.5     lukem 			if (obj > 100)
 1.5     lukem 				return (8000);
 1.5     lukem 		}
 1.5     lukem 	}
 1.5     lukem 	if (obj == bird) {	/* 9124                         */
 1.5     lukem 		spk = 137;
 1.5     lukem 		if (closed)
 1.5     lukem 			return (2011);
1.13  dholland 		destroy(bird);
 1.5     lukem 		prop[bird] = 0;
 1.5     lukem 		if (place[snake] == plac[snake])
 1.5     lukem 			tally2++;
 1.5     lukem 		spk = 45;
 1.5     lukem 	}
 1.5     lukem 	if (obj == 0)
 1.5     lukem 		spk = 44;	/* 9125                         */
 1.5     lukem 	if (obj == clam || obj == oyster)
 1.5     lukem 		spk = 150;
 1.5     lukem 	if (obj == snake)
 1.5     lukem 		spk = 46;
 1.5     lukem 	if (obj == dwarf)
 1.5     lukem 		spk = 49;
 1.5     lukem 	if (obj == dwarf && closed)
 1.5     lukem 		return (19000);
 1.5     lukem 	if (obj == dragon)
 1.5     lukem 		spk = 147;
 1.5     lukem 	if (obj == troll)
 1.5     lukem 		spk = 157;
 1.5     lukem 	if (obj == bear)
 1.5     lukem 		spk = 165 + (prop[bear] + 1) / 2;
 1.5     lukem 	if (obj != dragon || prop[dragon] != 0)
 1.5     lukem 		return (2011);
 1.1       jtc 	rspeak(49);
 1.5     lukem 	verb = 0;
 1.5     lukem 	obj = 0;
 1.5     lukem 	getin(&wd1, &wd2);
 1.5     lukem 	if (!weq(wd1, "y") && !weq(wd1, "yes"))
 1.5     lukem 		return (2608);
 1.5     lukem 	pspeak(dragon, 1);
 1.5     lukem 	prop[dragon] = 2;
 1.5     lukem 	prop[rug] = 0;
 1.5     lukem 	k = (plac[dragon] + fixd[dragon]) / 2;
 1.5     lukem 	move(dragon + 100, -1);
 1.5     lukem 	move(rug + 100, 0);
 1.5     lukem 	move(dragon, k);
 1.5     lukem 	move(rug, k);
 1.5     lukem 	for (obj = 1; obj <= 100; obj++)
 1.5     lukem 		if (place[obj] == plac[dragon] || place[obj] == fixd[dragon])
 1.5     lukem 			move(obj, k);
 1.5     lukem 	loc = k;
 1.5     lukem 	k = null;
 1.5     lukem 	return (8);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9170: throw                  */
 1.3  christos int
1.11       jmc trtoss(void)
1.11       jmc {
 1.5     lukem 	int     i;
 1.5     lukem 	if (toting(rod2) && obj == rod && !toting(rod))
 1.5     lukem 		obj = rod2;
 1.5     lukem 	if (!toting(obj))
 1.5     lukem 		return (2011);
 1.5     lukem 	if (obj >= 50 && obj <= maxtrs && at(troll)) {
 1.5     lukem 		spk = 159;	/* 9178                 */
 1.5     lukem 		drop(obj, 0);
 1.5     lukem 		move(troll, 0);
 1.5     lukem 		move(troll + 100, 0);
 1.5     lukem 		drop(troll2, plac[troll]);
 1.5     lukem 		drop(troll2 + 100, fixd[troll]);
 1.1       jtc 		juggle(chasm);
 1.5     lukem 		return (2011);
 1.1       jtc 	}
 1.5     lukem 	if (obj == food && here(bear)) {
 1.5     lukem 		obj = bear;	/* 9177                 */
 1.5     lukem 		return (9210);
 1.5     lukem 	}
 1.5     lukem 	if (obj != axe)
 1.5     lukem 		return (9020);
 1.5     lukem 	for (i = 1; i <= 5; i++) {
 1.5     lukem 		if (dloc[i] == loc) {
 1.5     lukem 			spk = 48;	/* 9172                 */
 1.5     lukem 			if (ran(3) == 0 || saved != -1)
 1.5     lukem 	l9175:		{
 1.5     lukem 				rspeak(spk);
 1.5     lukem 				drop(axe, loc);
 1.5     lukem 				k = null;
 1.5     lukem 				return (8);
 1.1       jtc 			}
 1.5     lukem 			dseen[i] = FALSE;
 1.5     lukem 			dloc[i] = 0;
 1.5     lukem 			spk = 47;
 1.1       jtc 			dkill++;
 1.5     lukem 			if (dkill == 1)
 1.5     lukem 				spk = 149;
 1.1       jtc 			goto l9175;
 1.1       jtc 		}
 1.1       jtc 	}
 1.5     lukem 	spk = 152;
 1.5     lukem 	if (at(dragon) && prop[dragon] == 0)
 1.5     lukem 		goto l9175;
 1.5     lukem 	spk = 158;
 1.5     lukem 	if (at(troll))
 1.1       jtc 		goto l9175;
 1.5     lukem 	if (here(bear) && prop[bear] == 0) {
 1.5     lukem 		spk = 164;
 1.5     lukem 		drop(axe, loc);
 1.5     lukem 		fixed[axe] = -1;
 1.5     lukem 		prop[axe] = 1;
 1.1       jtc 		juggle(bear);
 1.5     lukem 		return (2011);
 1.1       jtc 	}
 1.5     lukem 	obj = 0;
 1.5     lukem 	return (9120);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9210                 */
 1.3  christos int
1.11       jmc trfeed(void)
1.11       jmc {
 1.5     lukem 	if (obj == bird) {
 1.5     lukem 		spk = 100;
 1.5     lukem 		return (2011);
 1.1       jtc 	}
 1.5     lukem 	if (obj == snake || obj == dragon || obj == troll) {
 1.5     lukem 		spk = 102;
 1.5     lukem 		if (obj == dragon && prop[dragon] != 0)
 1.5     lukem 			spk = 110;
 1.5     lukem 		if (obj == troll)
 1.5     lukem 			spk = 182;
 1.5     lukem 		if (obj != snake || closed || !here(bird))
 1.5     lukem 			return (2011);
 1.5     lukem 		spk = 101;
1.13  dholland 		destroy(bird);
 1.5     lukem 		prop[bird] = 0;
 1.1       jtc 		tally2++;
 1.5     lukem 		return (2011);
 1.1       jtc 	}
 1.5     lukem 	if (obj == dwarf) {
 1.5     lukem 		if (!here(food))
 1.5     lukem 			return (2011);
 1.5     lukem 		spk = 103;
 1.1       jtc 		dflag++;
 1.5     lukem 		return (2011);
 1.1       jtc 	}
 1.5     lukem 	if (obj == bear) {
 1.5     lukem 		if (prop[bear] == 0)
 1.5     lukem 			spk = 102;
 1.5     lukem 		if (prop[bear] == 3)
 1.5     lukem 			spk = 110;
 1.5     lukem 		if (!here(food))
 1.5     lukem 			return (2011);
1.13  dholland 		destroy(food);
 1.5     lukem 		prop[bear] = 1;
 1.5     lukem 		fixed[axe] = 0;
 1.5     lukem 		prop[axe] = 0;
 1.5     lukem 		spk = 168;
 1.5     lukem 		return (2011);
 1.5     lukem 	}
 1.5     lukem 	spk = 14;
 1.5     lukem 	return (2011);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 9220 */
 1.3  christos int
1.11       jmc trfill(void)
1.11       jmc {
 1.5     lukem 	if (obj == vase) {
 1.5     lukem 		spk = 29;
 1.5     lukem 		if (liqloc(loc) == 0)
 1.5     lukem 			spk = 144;
 1.5     lukem 		if (liqloc(loc) == 0 || !toting(vase))
 1.5     lukem 			return (2011);
 1.1       jtc 		rspeak(145);
 1.5     lukem 		prop[vase] = 2;
 1.5     lukem 		fixed[vase] = -1;
 1.5     lukem 		return (9020);	/* advent/10 goes to 9024 */
 1.5     lukem 	}
 1.5     lukem 	if (obj != 0 && obj != bottle)
 1.5     lukem 		return (2011);
 1.5     lukem 	if (obj == 0 && !here(bottle))
 1.5     lukem 		return (8000);
 1.5     lukem 	spk = 107;
 1.5     lukem 	if (liqloc(loc) == 0)
 1.5     lukem 		spk = 106;
 1.6   hubertf 	if (liq() != 0)
 1.5     lukem 		spk = 105;
 1.5     lukem 	if (spk != 107)
 1.5     lukem 		return (2011);
 1.5     lukem 	prop[bottle] = ((cond[loc] % 4) / 2) * 2;
 1.6   hubertf 	k = liq();
 1.5     lukem 	if (toting(bottle))
 1.5     lukem 		place[k] = -1;
 1.5     lukem 	if (k == oil)
 1.5     lukem 		spk = 108;
 1.5     lukem 	return (2011);
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 10000 */
 1.7   hubertf void
1.11       jmc closing(void)
1.11       jmc {
 1.5     lukem 	int     i;
 1.5     lukem
1.13  dholland 	prop[grate] = prop[fissure] = 0;
 1.5     lukem 	for (i = 1; i <= 6; i++) {
 1.5     lukem 		dseen[i] = FALSE;
 1.5     lukem 		dloc[i] = 0;
 1.5     lukem 	}
 1.5     lukem 	move(troll, 0);
 1.5     lukem 	move(troll + 100, 0);
 1.5     lukem 	move(troll2, plac[troll]);
 1.5     lukem 	move(troll2 + 100, fixd[troll]);
 1.1       jtc 	juggle(chasm);
 1.5     lukem 	if (prop[bear] != 3)
1.13  dholland 		destroy(bear);
 1.5     lukem 	prop[chain] = 0;
 1.5     lukem 	fixed[chain] = 0;
 1.5     lukem 	prop[axe] = 0;
 1.5     lukem 	fixed[axe] = 0;
 1.1       jtc 	rspeak(129);
 1.1       jtc 	clock1 = -1;
1.13  dholland 	isclosing = TRUE;
 1.1       jtc }
 1.1       jtc
1.11       jmc /* 11000 */
 1.7   hubertf void
1.11       jmc caveclose(void)
1.11       jmc {
 1.5     lukem 	int     i;
 1.5     lukem 	prop[bottle] = put(bottle, 115, 1);
 1.5     lukem 	prop[plant] = put(plant, 115, 0);
 1.5     lukem 	prop[oyster] = put(oyster, 115, 0);
 1.5     lukem 	prop[lamp] = put(lamp, 115, 0);
 1.5     lukem 	prop[rod] = put(rod, 115, 0);
 1.5     lukem 	prop[dwarf] = put(dwarf, 115, 0);
 1.5     lukem 	loc = 115;
 1.5     lukem 	oldloc = 115;
 1.5     lukem 	newloc = 115;
 1.5     lukem
 1.5     lukem 	put(grate, 116, 0);
 1.5     lukem 	prop[snake] = put(snake, 116, 1);
 1.5     lukem 	prop[bird] = put(bird, 116, 1);
 1.5     lukem 	prop[cage] = put(cage, 116, 0);
 1.5     lukem 	prop[rod2] = put(rod2, 116, 0);
 1.5     lukem 	prop[pillow] = put(pillow, 116, 0);
 1.5     lukem
 1.5     lukem 	prop[mirror] = put(mirror, 115, 0);
 1.5     lukem 	fixed[mirror] = 116;
 1.5     lukem
 1.5     lukem 	for (i = 1; i <= 100; i++)
 1.5     lukem 		if (toting(i))
1.13  dholland 			destroy(i);
 1.1       jtc 	rspeak(132);
 1.5     lukem 	closed = TRUE;
 1.1       jtc }