Exemplo n.º 1
0
/**
 * Describe random powers on ego items
 *
 * \param tb is the description textblock we're building
 * \param ego is the ego type we're analysing
 */
static bool describe_ego(textblock *tb, const struct ego_item *ego)
{
	if (ego && ego->num_randlines) {
		int i, of_type, tot = 0;
		bitflag f[OF_SIZE];

		for (i = 0; i < ego->num_randlines; i++) {
			/* See whether we recognise the flagset for this choice */
			of_type = obj_flag_type(of_next(ego->randmask[i], FLAG_START));
			create_mask(f, FALSE, of_type, OFT_MAX);

			if (of_is_equal(f, ego->randmask[i])) {
				textblock_append(tb, "It provides %s random %s.  ",
					ego->num_randflags[i] > 1 ? "more than one" : "one",
					obj_flagtype_name(of_type));
			} else /* We don't, so count the number for later */
				tot += ego->num_randflags[i];
		}
		if (tot)
			textblock_append(tb, "It provides %s random power.  ",
				tot > 1 ? "more than one" : "one");

		return TRUE;
	}

	return FALSE;
}
Exemplo n.º 2
0
/**
 * Add power for non-derived flags (derived flags have flag_power 0)
 */
static int flags_power(const object_type *obj, int p, int verbose,
					   ang_file *log_file, bool known)
{
	size_t i, j;
	int q;
	bitflag flags[OF_SIZE];

	/* Extract the flags */
	if (known)
		object_flags(obj, flags);
	else
		object_flags_known(obj, flags);

	/* Log the flags in human-readable form */
	if (verbose)
		log_flags(flags, log_file);

	/* Zero the flag counts */
	for (i = 0; i < N_ELEMENTS(flag_sets); i++)
		flag_sets[i].count = 0;

	for (i = of_next(flags, FLAG_START); i != FLAG_END; 
		 i = of_next(flags, i + 1)) {
		if (flag_power(i)) {
			q = (flag_power(i) * flag_slot_mult(i, wield_slot(obj)));
			p += q;
			log_obj(format("Add %d power for %s, total is %d\n", 
						   q, flag_name(i), p));
		}

		/* Track combinations of flag types */
		for (j = 0; j < N_ELEMENTS(flag_sets); j++)
			if (flag_sets[j].type == obj_flag_type(i))
				flag_sets[j].count++;
	}

	/* Add extra power for multiple flags of the same type */
	for (i = 0; i < N_ELEMENTS(flag_sets); i++) {
		if (flag_sets[i].count > 1) {
			q = (flag_sets[i].factor * flag_sets[i].count * flag_sets[i].count);
			p += q;
			log_obj(format("Add %d power for multiple %s, total is %d\n",
						   q, flag_sets[i].desc, p));
		}

		/* Add bonus if item has a full set of these flags */
		if (flag_sets[i].count == flag_sets[i].size) {
			q = flag_sets[i].bonus;
			p += q;
			log_obj(format("Add %d power for full set of %s, total is %d\n", 
						   q, flag_sets[i].desc, p));
		}
	}

	return p;
}
Exemplo n.º 3
0
/*
 * Print an item's flavour text.
 *
 * \param tb is the textblock to which we are adding.
 * \param o_ptr is the object we are describing.
 * \param ego is whether we're describing an ego template (as opposed to a
 * real object)
 */
static void describe_flavor_text(textblock *tb, const object_type *o_ptr,
	oinfo_detail_t mode)
{
	int i, count = 0;
	bool ego = mode & OINFO_EGO;
	bool subj = mode & OINFO_SUBJ;

	/* Display the known artifact description */
	if (!OPT(birth_randarts) && o_ptr->artifact &&
			object_is_known(o_ptr) && o_ptr->artifact->text)
		textblock_append(tb, "%s\n\n", o_ptr->artifact->text);

	else if (o_ptr->theme && o_ptr->theme->text &&
			object_theme_is_known(o_ptr))
		textblock_append(tb, "%s\n\n", o_ptr->theme->text);

	/* Display the known object description */
	else if (object_flavor_is_aware(o_ptr) || object_is_known(o_ptr) || ego) {
		bool did_desc = FALSE;

		if (!ego && o_ptr->kind->text) {
			textblock_append(tb, "%s", o_ptr->kind->text);
			did_desc = TRUE;
		}

		/* Display additional affix descriptions */
		for (i = 0; i < MAX_AFFIXES && o_ptr->affix[i]; i++)
			if (o_ptr->affix[i]->text && (ego ||
					object_affix_is_known(o_ptr, o_ptr->affix[i]->eidx))) {
				if (did_desc)
					textblock_append(tb, " ");
				textblock_append(tb, "%s", o_ptr->affix[i]->text);
				did_desc = TRUE;
			}

		if (did_desc)
			textblock_append(tb, "\n\n");
	}

	/* List the affixes on the item */
	for (i = 0; i < MAX_AFFIXES && o_ptr->affix[i]; i++)
		if (object_affix_is_known(o_ptr, o_ptr->affix[i]->eidx)) {
			if (count == 0)
				textblock_append(tb, "This item's known properties are: ");
			else
				textblock_append(tb, ", ");
			textblock_append(tb, "%s", o_ptr->affix[i]->name);
			count++;
		}
	if (count)
		textblock_append(tb, ".\n\n");

	if (!ego && subj && o_ptr->origin != ORIGIN_STORE) {
		/* List the item's known runes */
		count = 0;
		for (i = 0; i < OF_MAX; i++)
			if (of_has(o_ptr->flags, i) && of_has(p_ptr->known_runes, i) &&
					obj_flag_type(i) != OFT_INT && obj_flag_type(i) != OFT_NONE) {
				if (count == 0)
					textblock_append(tb, "This item's known runes are: ");
				else
					textblock_append(tb, ", ");
				textblock_append(tb, "%s", flag_name(i));
				count++;
			}
		if (count)
			textblock_append(tb, ".\n\n");

		/* List the item's unknown runes */
		count = 0;
		for (i = 0; i < OF_MAX; i++)
			if (of_has(o_ptr->flags, i) && !of_has(p_ptr->known_runes, i) &&
					obj_flag_type(i) != OFT_INT && obj_flag_type(i) != OFT_NONE) {
				if (count == 0)
					textblock_append(tb, "This item's unknown runes are: ");
				else
					textblock_append(tb, ", ");
				textblock_append(tb, "%s", flag_rune(i));
				count++;
			}
		if (count)
			textblock_append(tb, ".\n\n");
	}
}
Exemplo n.º 4
0
/*
 * Evaluate the object's overall power level.
 */
s32b object_power(const object_type* o_ptr, int verbose, ang_file *log_file,
	bool known)
{
	s32b p = 0, q = 0, slay_pwr = 0;
	unsigned int i, j;
	int extra_stat_bonus = 0, mult = 1, num_slays = 0, k = 1;
	bitflag flags[OF_SIZE], mask[OF_SIZE];

	/* Zero the flag counts */
	for (i = 0; i < N_ELEMENTS(sets); i++)
		sets[i].count = 0;

	/* Extract the flags */
	if (known) {
		file_putf(log_file, "Object is deemed known\n");
		object_flags(o_ptr, flags);
	} else {
		file_putf(log_file, "Object may not be fully known\n");
		object_flags_known(o_ptr, flags);
	}

	/* Log the flags in human-readable form */
	if (verbose)
		log_flags(flags, log_file);

	/* Get the slay power and number of slay/brand types */
	create_mask(mask, FALSE, OFT_SLAY, OFT_KILL, OFT_BRAND, OFT_MAX);
	num_slays = list_slays(flags, mask, NULL, NULL, NULL, TRUE);
	if (num_slays)
		slay_pwr = slay_power(o_ptr, verbose, log_file, known);

	/* Start with any damage boost from the item itself */
	p += (o_ptr->to_d * DAMAGE_POWER / 2);
	file_putf(log_file, "Adding power from to_dam, total is %d\n", p);

	/* Add damage from dice for any wieldable weapon or ammo */
	if (wield_slot(o_ptr) == INVEN_WIELD || obj_is_ammo(o_ptr)) {
		p += (o_ptr->dd * (o_ptr->ds + 1) * DAMAGE_POWER / 4);
		file_putf(log_file, "Adding power for dam dice, total is %d\n", p);
	/* Add 2nd lot of damage power for nonweapons */
	} else if (wield_slot(o_ptr) != INVEN_BOW) {
		p += (o_ptr->to_d * DAMAGE_POWER);
		file_putf(log_file, "Adding power from nonweap to_dam, total is %d\n", p);
		/* Add power boost for nonweapons with combat flags */
		if (num_slays || of_has(flags, OF_BLOWS) || of_has(flags, OF_SHOTS) ||
				of_has(flags, OF_MIGHT)) {
			p += (WEAP_DAMAGE * DAMAGE_POWER);
			file_putf(log_file, "Adding power for nonweap combat flags, total is %d\n", p);
		}
	}

	/* Add ammo damage for launchers, get multiplier and rescale */
	if (wield_slot(o_ptr) == INVEN_BOW) {
		p += (archery[o_ptr->sval / 10].ammo_dam * DAMAGE_POWER / 2);
		file_putf(log_file, "Adding power from ammo, total is %d\n", p);

		mult = bow_multiplier(o_ptr->sval);
		file_putf(log_file, "Base mult for this weapon is %d\n", mult);
	}

	/* Add launcher bonus for ego ammo, multiply for launcher and rescale */
	if (obj_is_ammo(o_ptr)) {
		if (o_ptr->ego)
			p += (archery[o_ptr->tval - TV_SHOT].launch_dam * DAMAGE_POWER / 2);
		p = p * archery[o_ptr->tval - TV_SHOT].launch_mult / (2 * MAX_BLOWS);
		file_putf(log_file, "After multiplying ammo and rescaling, power is %d\n", p);
	}

	/* Add power for extra blows */
	if (of_has(flags, OF_BLOWS)) {
		j = which_pval(o_ptr, OF_BLOWS);
		if (known || object_this_pval_is_visible(o_ptr, j)) {
			if (o_ptr->pval[j] >= INHIBIT_BLOWS) {
				p += INHIBIT_POWER;
				file_putf(log_file, "INHIBITING - too many extra blows\n");
			} else {
				p = p * (MAX_BLOWS + o_ptr->pval[j]) / MAX_BLOWS;
				/* Add boost for assumed off-weapon damage */
				p += (NONWEAP_DAMAGE * o_ptr->pval[j] * DAMAGE_POWER / 2);
				file_putf(log_file, "Adding power for extra blows, total is %d\n", p);
			}
		}
	}

	/* Add power for extra shots - note that we cannot handle negative shots */
	if (of_has(flags, OF_SHOTS)) {
		j = which_pval(o_ptr, OF_SHOTS);
		if (known || object_this_pval_is_visible(o_ptr, j)) {
			if (o_ptr->pval[j] >= INHIBIT_SHOTS) {
				p += INHIBIT_POWER;
				file_putf(log_file, "INHIBITING - too many extra shots\n");
			} else if (o_ptr->pval[j] > 0) {
				p = (p * (1 + o_ptr->pval[j]));
				file_putf(log_file, "Extra shots: multiplying power by 1 + %d, total is %d\n", o_ptr->pval[j], p);
			}
		}
	}

	/* Add power for extra might */
	if (of_has(flags, OF_MIGHT)) {
		j = which_pval(o_ptr, OF_MIGHT);
		if (known || object_this_pval_is_visible(o_ptr, j)) {
			if (o_ptr->pval[j] >= INHIBIT_MIGHT) {
				p += INHIBIT_POWER;
				mult = 1;	/* don't overflow */
				file_putf(log_file, "INHIBITING - too much extra might\n");
			} else
				mult += o_ptr->pval[j];
			file_putf(log_file, "Mult after extra might is %d\n", mult);
		}
	}
	p *= mult;
	file_putf(log_file, "After multiplying power for might, total is %d\n", p);

	/* Apply the correct slay multiplier */
	if (slay_pwr) {
		p = (p * (slay_pwr / 10)) / (tot_mon_power / 10);
		file_putf(log_file, "Adjusted for slay power, total is %d\n", p);
	}

	/* Melee weapons assume MAX_BLOWS per turn, so we must divide by MAX_BLOWS
     * to get equal ratings for launchers. */
	if (wield_slot(o_ptr) == INVEN_BOW) {
		p /= MAX_BLOWS;
		file_putf(log_file, "Rescaling bow power, total is %d\n", p);
	}

	/* Add power for +to_hit */
	p += (o_ptr->to_h * TO_HIT_POWER / 2);
	file_putf(log_file, "Adding power for to hit, total is %d\n", p);

	/* Add power for base AC and adjust for weight */
	if (o_ptr->ac) {
		q += BASE_ARMOUR_POWER;
		q += (o_ptr->ac * BASE_AC_POWER / 2);
		file_putf(log_file, "Adding %d power for base AC value\n", q);

		/* Add power for AC per unit weight */
		if (o_ptr->weight > 0) {
			i = 800 * (o_ptr->ac + o_ptr->to_a) / o_ptr->weight;

			/* Avoid overpricing Elven Cloaks */
			if (i > 450) i = 450;

			q *= i;
			q /= 100;

		/* Weightless (ethereal) armour items get fixed boost */
		} else
			q *= 5;
		p += q;
		file_putf(log_file, "Adding power for AC per unit weight, now %d\n", p);
	}
	/* Add power for +to_ac */
	p += (o_ptr->to_a * TO_AC_POWER / 2);
	file_putf(log_file, "Adding power for to_ac of %d, total is %d\n", o_ptr->to_a, p);
	if (o_ptr->to_a > HIGH_TO_AC) {
		p += ((o_ptr->to_a - (HIGH_TO_AC - 1)) * TO_AC_POWER);
		file_putf(log_file, "Adding power for high to_ac value, total is %d\n", p);
	}
	if (o_ptr->to_a > VERYHIGH_TO_AC) {
		p += ((o_ptr->to_a - (VERYHIGH_TO_AC -1)) * TO_AC_POWER * 2);
		file_putf(log_file, "Adding power for very high to_ac value, total is %d\n", p);
	}
	if (o_ptr->to_a >= INHIBIT_AC) {
		p += INHIBIT_POWER;
		file_putf(log_file, "INHIBITING: AC bonus too high\n");
	}


	/* Add power for light sources by radius XXX Hack - rewrite calc_torch! */
	if (wield_slot(o_ptr) == INVEN_LIGHT) {
		p += BASE_LIGHT_POWER;

		/* Artifact lights have larger radius so add more */
		if (o_ptr->artifact)
			p += BASE_LIGHT_POWER;

		file_putf(log_file, "Adding power for light radius, total is %d\n", p);
	}

	/* Add base power for jewelry */
	if (object_is_jewelry(o_ptr)) {
		p += BASE_JEWELRY_POWER;
		file_putf(log_file, "Adding power for jewelry, total is %d\n", p);
	}

	/* Add power for non-derived flags (derived flags have flag_power 0) */
	for (i = 0; i < OF_MAX; i++) {
		if (of_has(flags, i)) {
			if (flag_uses_pval(i)) {
				j = which_pval(o_ptr, i);
				if (known || object_this_pval_is_visible(o_ptr, j)) {
					k = o_ptr->pval[j];
					extra_stat_bonus += (k * pval_mult(i));
				}
			} else
				k = 1;

			if (flag_power(i)) {
				p += (k * flag_power(i) * slot_mult(i, wield_slot(o_ptr)));
				file_putf(log_file, "Adding power for %s, total is %d\n", flag_name(i), p);
			}

			/* Track combinations of flag types - note we ignore SUST_CHR */
			for (j = 0; j < N_ELEMENTS(sets); j++)
				if ((sets[j].type == obj_flag_type(i)) && (i != OF_SUST_CHR))
					sets[j].count++;
		}
	}

	/* Add extra power term if there are a lot of ability bonuses */
	if (extra_stat_bonus > 249) {
		file_putf(log_file, "Inhibiting!  (Total ability bonus of %d is too high)\n", extra_stat_bonus);
		p += INHIBIT_POWER;
	} else {
		p += ability_power[extra_stat_bonus / 10];
		file_putf(log_file, "Adding power for pval total of %d, total is %d\n", extra_stat_bonus, p);
	}

	/* Add extra power for multiple flags of the same type */
	for (i = 0; i < N_ELEMENTS(sets); i++) {
		if (sets[i].count > 1) {
			p += (sets[i].factor * sets[i].count * sets[i].count);
			file_putf(log_file, "Adding power for multiple flags of type %d, total is %d\n", i, p);
		}

		/* Add bonus if item has a full set of these flags */
		if (sets[i].count == sets[i].size) {
			p += sets[i].bonus;
			file_putf(log_file, "Adding power for full set of type %d, total is %d\n", i, p);
		}
	}

	/* add power for effect */
	if (known || object_effect_is_known(o_ptr))	{
		if (o_ptr->artifact && o_ptr->artifact->effect) {
			p += effect_power(o_ptr->artifact->effect);
			file_putf(log_file, "Adding power for artifact activation, total is %d\n", p);
		} else {
			p += effect_power(o_ptr->kind->effect);
			file_putf(log_file, "Adding power for item activation, total is %d\n", p);
		}
	}

	file_putf(log_file, "FINAL POWER IS %d\n", p);

	return p;
}