view srogue/monsters.c @ 296:000b1c5b8d63

UltraRogue: fix inventory collision after save and restore. Inventory letters are based on "identifiers" stored in objects' o_ident field. Identifiers are allocated by get_ident(), which keeps a list of objects that have them, to avoid giving the same identifier to multiple objects. The list is not stored in the savefile, so after restore, get_ident() was not aware of existing identifiers. This resulted in picked-up objects having the same inventory letters as objects restored from the file. The restore code now adds all objects with identifiers to the list.
author John "Elwin" Edwards
date Mon, 15 Jan 2018 20:20:35 -0500
parents e7aab31362af
children e52a8a7ad4c5
line wrap: on
line source

/*
 * File with various monster functions in it
 *
 * @(#)monsters.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 <string.h>
#include "rogue.h"
#include <ctype.h>
#include "rogue.ext"

/*
 * rnd_mon:
 *	Pick a monster to show up.  The lower the level,
 *	the meaner the monster.
 */
char
rnd_mon(bool wander, bool baddie)
{
	/* baddie; TRUE when from a polymorph stick */
	reg int i, ok, cnt;

	cnt = 0;
	if (levcount == 0)			/* if only asmodeus possible */
		return(MAXMONS);
	if (baddie) {
		while (1) {
			i = rnd(MAXMONS);					/* pick ANY monster */
			if (monsters[i].m_lev.l_lev < 0)	/* skip genocided ones */
				continue;
			return i;
		}
	}
	ok = FALSE;
	do {
		/*
		 * get a random monster from this range
		 */
		i = rnd(levcount);
		/*
		 * Only create a wandering monster if we want one
		 * (or the count is exceeded)
		 */
		if (!wander || mtlev[i]->m_lev.d_wand || ++cnt > 500)
			ok = TRUE;
	} while(!ok);
	return (midx(mtlev[i]->m_show));
}

/*
 * lev_mon:
 *	This gets all monsters possible on this level
 */
void
lev_mon(void)
{
	reg int i;
	reg struct monster *mm;

	levcount = 0;
	for (i = 0; i < MAXMONS; i++) {
		mm = &monsters[i];
		if (mm->m_lev.h_lev >= level && mm->m_lev.l_lev <= level) {
			mtlev[levcount] = mm;
			if (++levcount >= MONRANGE)
				break;
		}
	}
	if (levcount == 0)					/* if no monsters are possible */
		mtlev[0] = &monsters[MAXMONS];	/* then asmodeus 'A' */
}

/*
 * new_monster:
 *	Pick a new monster and add it to the list
 */
struct linked_list *
new_monster(char type, struct coord *cp, bool treas)
{
	reg struct linked_list *item;
	reg struct thing *tp;
	reg struct monster *mp;
	reg struct stats *st;
	float killexp;		/* experience gotten for killing him */

	item = new_item(sizeof(struct thing));
	attach(mlist, item);
	tp = THINGPTR(item);
	st = &tp->t_stats;
	mp = &monsters[type];		/* point to this monsters structure */
	tp->t_type = mp->m_show;
	tp->t_indx = type;
	tp->t_pos = *cp;
	tp->t_room = roomin(cp);
	tp->t_oldch = mvwinch(cw, cp->y, cp->x);
	tp->t_nomove = 0;
	tp->t_nocmd = 0;
	mvwaddch(mw, cp->y, cp->x, tp->t_type);

	/*
	 * copy monster data
	 */
	tp->t_stats = mp->m_stats;

	/*
	 * If below amulet level, make the monsters meaner the
	 * deeper the hero goes.
	 */
	if (level > AMLEVEL)
		st->s_lvl += ((level - AMLEVEL) / 4);

	/*
	 * If monster in treasure room, then tougher.
	 */
	if (treas)
		st->s_lvl += 1;
	if (levtype == MAZELEV)
		st->s_lvl += 1;
	/*
	 * If the hero is going back up, then the monsters are more
	 * prepared for him, so tougher.
	 */
	if (goingup())
		st->s_lvl += 1;

	/*
	 * Get hit points for monster depending on his experience
	 */
	st->s_hpt = roll(st->s_lvl, 8);
	st->s_maxhp = st->s_hpt;
	/*
	 * Adjust experience point we get for killing it by the
	 *  strength of this particular monster by ~~ +- 50%
	 */
	killexp = mp->m_stats.s_exp * (0.47 + (float)st->s_hpt /
		(8 * (float)st->s_lvl));

	st->s_exp = killexp;			/* use float for accuracy */
	if(st->s_exp < 1)
		st->s_exp = 1;				/* minimum 1 experience point */
	tp->t_flags = mp->m_flags;
	/*
	 * If monster in treasure room, then MEAN
	 */
	if (treas || levtype == MAZELEV)
		tp->t_flags |= ISMEAN;
	tp->t_turn = TRUE;
	tp->t_pack = NULL;
	/*
	 * Dont wander if treas room
	 */
	if (iswearing(R_AGGR) && !treas)
		runto(cp, &hero);
	if (tp->t_type == 'M') {
		char mch;

		if (tp->t_pack != NULL)
			mch = (OBJPTR(tp->t_pack))->o_type;
		else {
			switch (rnd(level >= AMLEVEL ? 9 : 8)) {
				case 0: mch = GOLD;
				when 1: mch = POTION;
				when 2: mch = SCROLL;
				when 3: mch = STAIRS;
				when 4: mch = WEAPON;
				when 5: mch = ARMOR;
				when 6: mch = RING;
				when 7: mch = STICK;
				when 8: mch = AMULET;
			}
		}
		if (treas)
			mch = 'M';		/* no disguise in treasure room */
		tp->t_disguise = mch;
	}
	return item;
}

/*
 * wanderer:
 *	A wandering monster has awakened and is headed for the player
 */
void
wanderer(void)
{
	reg int ch = '-';
	reg struct room *rp, *hr = player.t_room;
	reg struct linked_list *item;
	reg struct thing *tp;
	struct coord mp;

	do {
		rp = &rooms[rnd_room()];
		if (rp != hr || levtype == MAZELEV) {
			mp = *rnd_pos(rp);
			ch = mvinch(mp.y, mp.x);
		}
	} while (!step_ok(ch));
	item = new_monster(rnd_mon(TRUE,FALSE), &mp, FALSE);
	tp = THINGPTR(item);
	tp->t_flags |= ISRUN;
	tp->t_dest = &hero;
}

/*
 * wake_monster:
 *	What to do when the hero steps next to a monster
 */
struct linked_list *
wake_monster(int y, int x)
{
	reg struct thing *tp;
	reg struct linked_list *it;
	reg struct room *rp;
	reg char ch;
	bool treas = FALSE;

	if ((it = find_mons(y, x)) == NULL)
		return NULL;
	tp = THINGPTR(it);
	ch = tp->t_type;
	/*
	 * Every time he sees mean monster, it might start chasing him
	 */
	rp = player.t_room;
	if (rp != NULL && rf_on(rp,ISTREAS)) {
		tp->t_flags &= ~ISHELD;
		treas = TRUE;
	}
	if (treas || (rnd(100) > 33 && on(*tp,ISMEAN) && off(*tp,ISHELD) &&
	  !iswearing(R_STEALTH))) {
		tp->t_dest = &hero;
		tp->t_flags |= ISRUN;
	}
	if (ch == 'U' && pl_off(ISBLIND)) {
		if ((rp != NULL && !rf_on(rp,ISDARK) && levtype != MAZELEV)
		  || DISTANCE(y, x, hero.y, hero.x) < 3) {
			if (off(*tp,ISFOUND) && !save(VS_PETRIFICATION)
			  && !iswearing(R_SUSAB) && pl_off(ISINVINC)) {
				msg("The umber hulk's gaze has confused you.");
				if (pl_on(ISHUH))
					lengthen(unconfuse,rnd(20)+HUHDURATION);
				else
					fuse(unconfuse,TRUE,rnd(20)+HUHDURATION);
				player.t_flags |= ISHUH;
			}
			tp->t_flags |= ISFOUND;
		}
	}
	/*
	 * Hide invisible monsters
	 */
	if ((tp->t_flags & ISINVIS) && pl_off(CANSEE))
		ch = mvinch(y, x);
	/*
	 * Let greedy ones guard gold
	 */
	if (on(*tp, ISGREED) && off(*tp, ISRUN)) {
		if (rp != NULL && rp->r_goldval) {
			tp->t_dest = &rp->r_gold;
			tp->t_flags |= ISRUN;
		}
	}
	return it;
}

/*
 * genocide:
 *	Eradicate a monster forevermore
 */
void
genocide(void)
{
	reg struct linked_list *ip, *nip;
	reg struct thing *mp;
	struct monster *mm;
	reg int i, ii, c;

	if (levcount == 0) {
		mpos = 0;
		msg("You cannot genocide Asmodeus !!");
		return;
	}
tryagain:
	i = TRUE;		/* assume an error now */
	while (i) {
		msg("Which monster (remember UPPER & lower case)?");
		c = readchar();		/* get a char */
		if (c == ESCAPE) {	/* he can abort (the fool) */
			msg("");
			return;
		}
		if (isalpha(c))		/* valid char here */
			i = FALSE;		/* exit the loop */
		else {				/* he didn't type a letter */
			mpos = 0;
			msg("Please specify a letter between 'A' and 'z'");
		}
	}
	i = midx(c);						/* get index to monster */
	mm = &monsters[i];
	if (mm->m_lev.l_lev < 0) {
		mpos = 0;
		msg("You have already eliminated the %s.",mm->m_name);
		goto tryagain;
	}
	for (ip = mlist; ip != NULL; ip = nip) {
		mp = THINGPTR(ip);
		nip = next(ip);
		if (mp->t_type == c)
			remove_monster(&mp->t_pos, ip);
	}
	mm->m_lev.l_lev = -1;				/* get rid of it */
	mm->m_lev.h_lev = -1;
	lev_mon();							/* redo monster list */
	mpos = 0;
	msg("You have wiped out the %s.",mm->m_name);
}

/*
 * unhold:
 *	Release the player from being held
 */
void
unhold(char whichmon)
{
	struct linked_list *item;
	struct thing *mon;

	switch (whichmon) {
		case 'F':
			fung_hit = 0;
			for (item = mlist; item != NULL; item = next(item)) {
				mon = THINGPTR(item);
				if (mon->t_type == 'F')
					strcpy(mon->t_stats.s_dmg, "000d0");
			}
		case 'd':
			player.t_flags &= ~ISHELD;
	}
}

/*
 * midx:
 *	This returns an index to 'whichmon'
 */
int
midx(char whichmon)
{
	if (isupper(whichmon))
		return(whichmon - 'A');			/* 0 to 25 for uppercase */
	else if (islower(whichmon))
		return(whichmon - 'a' + 26);	/* 26 to 51 for lowercase */
	else
		return(MAXMONS);				/* 52 for Asmodeus */
}

/*
 * monhurt:
 *	See when monster should run or fight. Return
 *	TRUE if hit points less than acceptable.
 */
bool
monhurt(struct thing *th)
{
	reg int ewis, crithp, f1, f2;
	reg struct stats *st;

	st = &th->t_stats;
	ewis = st->s_ef.a_wis;
	if (ewis <= MONWIS)				/* stupid monsters dont know */
		return FALSE;
	f1 = st->s_maxhp / 4;			/* base hpt for being hurt */
	f2 = (ewis - MONWIS) * 5 / 3;	/* bonus for smart monsters */
	if (th->t_flags & ISWOUND)		/* if recovering from being */
		f1 *= 2;					/* wounded, then double the base */
	crithp = f1 + f2;				/* get critical hpt for hurt */
	if (crithp > st->s_maxhp)		/* only up to max hpt */
		crithp = st->s_maxhp;
	if (st->s_hpt < crithp)			/* if < critical, then still hurt */
		return TRUE;
	return FALSE;
}