void engine::parse_goal_from_config( readonly_context &context, const config &cfg, std::back_insert_iterator<std::vector< goal_ptr > > b )
{
engine_ptr eng = context.get_engine_by_cfg(cfg);
if (eng){
//do not override that method in subclasses which cannot create goals
eng->do_parse_goal_from_config(cfg, b);
}
}
remove_wrong_targets(const readonly_context &context)
:avoid_(context.get_avoid()), map_(resources::gameboard->map())
{
}
void attack_analysis::analyze(const gamemap& map, unit_map& units,
const readonly_context& ai_obj,
const move_map& dstsrc, const move_map& srcdst,
const move_map& enemy_dstsrc, double aggression)
{
const unit_map::const_iterator defend_it = units.find(target);
assert(defend_it != units.end());
// See if the target is a threat to our leader or an ally's leader.
map_location adj[6];
get_adjacent_tiles(target,adj);
size_t tile;
for(tile = 0; tile != 6; ++tile) {
const unit_map::const_iterator leader = units.find(adj[tile]);
if(leader != units.end() && leader->can_recruit() && !ai_obj.current_team().is_enemy(leader->side())) {
break;
}
}
leader_threat = (tile != 6);
uses_leader = false;
target_value = defend_it->cost();
target_value += (double(defend_it->experience())/
double(defend_it->max_experience()))*target_value;
target_starting_damage = defend_it->max_hitpoints() -
defend_it->hitpoints();
// Calculate the 'alternative_terrain_quality' -- the best possible defensive values
// the attacking units could hope to achieve if they didn't attack and moved somewhere.
// This is used for comparative purposes, to see just how vulnerable the AI is
// making itself.
alternative_terrain_quality = 0.0;
double cost_sum = 0.0;
for(size_t i = 0; i != movements.size(); ++i) {
const unit_map::const_iterator att = units.find(movements[i].first);
const double cost = att->cost();
cost_sum += cost;
alternative_terrain_quality += cost*ai_obj.best_defensive_position(movements[i].first,dstsrc,srcdst,enemy_dstsrc).chance_to_hit;
}
alternative_terrain_quality /= cost_sum*100;
avg_damage_inflicted = 0.0;
avg_damage_taken = 0.0;
resources_used = 0.0;
terrain_quality = 0.0;
avg_losses = 0.0;
chance_to_kill = 0.0;
double def_avg_experience = 0.0;
double first_chance_kill = 0.0;
double prob_dead_already = 0.0;
assert(!movements.empty());
std::vector<std::pair<map_location,map_location> >::const_iterator m;
battle_context *prev_bc = NULL;
const combatant *prev_def = NULL;
for (m = movements.begin(); m != movements.end(); ++m) {
// We fix up units map to reflect what this would look like.
unit_ptr up = units.extract(m->first);
up->set_location(m->second);
units.insert(up);
double m_aggression = aggression;
if (up->can_recruit()) {
uses_leader = true;
// FIXME: suokko's r29531 omitted this line
leader_threat = false;
m_aggression = ai_obj.get_leader_aggression();
}
bool from_cache = false;
battle_context *bc;
// This cache is only about 99% correct, but speeds up evaluation by about 1000 times.
// We recalculate when we actually attack.
const readonly_context::unit_stats_cache_t::key_type cache_key = std::make_pair(target, &up->type());
const readonly_context::unit_stats_cache_t::iterator usc = ai_obj.unit_stats_cache().find(cache_key);
// Just check this attack is valid for this attacking unit (may be modified)
if (usc != ai_obj.unit_stats_cache().end() &&
usc->second.first.attack_num <
static_cast<int>(up->attacks().size())) {
from_cache = true;
bc = new battle_context(usc->second.first, usc->second.second);
} else {
bc = new battle_context(units, m->second, target, -1, -1, m_aggression, prev_def);
}
const combatant &att = bc->get_attacker_combatant(prev_def);
const combatant &def = bc->get_defender_combatant(prev_def);
delete prev_bc;
prev_bc = bc;
prev_def = &bc->get_defender_combatant(prev_def);
if ( !from_cache ) {
ai_obj.unit_stats_cache().insert(
std::make_pair(cache_key, std::make_pair(bc->get_attacker_stats(),
bc->get_defender_stats())));
}
// Note we didn't fight at all if defender is already dead.
double prob_fought = (1.0 - prob_dead_already);
/** @todo 1.9 add combatant.prob_killed */
double prob_killed = def.hp_dist[0] - prob_dead_already;
prob_dead_already = def.hp_dist[0];
double prob_died = att.hp_dist[0];
double prob_survived = (1.0 - prob_died) * prob_fought;
double cost = up->cost();
const bool on_village = map.is_village(m->second);
// Up to double the value of a unit based on experience
cost += (double(up->experience()) / up->max_experience())*cost;
resources_used += cost;
avg_losses += cost * prob_died;
// add half of cost for poisoned unit so it might get chance to heal
avg_losses += cost * up->get_state(unit::STATE_POISONED) /2;
if (!bc->get_defender_stats().is_poisoned) {
avg_damage_inflicted += game_config::poison_amount * 2 * bc->get_defender_combatant().poisoned * (1 - prob_killed);
}
// Double reward to emphasize getting onto villages if they survive.
if (on_village) {
avg_damage_taken -= game_config::poison_amount*2 * prob_survived;
}
terrain_quality += (double(bc->get_defender_stats().chance_to_hit)/100.0)*cost * (on_village ? 0.5 : 1.0);
double advance_prob = 0.0;
// The reward for advancing a unit is to get a 'negative' loss of that unit
if (!up->advances_to().empty()) {
int xp_for_advance = up->max_experience() - up->experience();
// See bug #6272... in some cases, unit already has got enough xp to advance,
// but hasn't (bug elsewhere?). Can cause divide by zero.
if (xp_for_advance <= 0)
xp_for_advance = 1;
int fight_xp = defend_it->level();
int kill_xp = game_config::kill_xp(fight_xp);
if (fight_xp >= xp_for_advance) {
advance_prob = prob_fought;
avg_losses -= up->cost() * prob_fought;
} else if (kill_xp >= xp_for_advance) {
advance_prob = prob_killed;
avg_losses -= up->cost() * prob_killed;
// The reward for getting a unit closer to advancement
// (if it didn't advance) is to get the proportion of
// remaining experience needed, and multiply it by
// a quarter of the unit cost.
// This will cause the AI to heavily favor
// getting xp for close-to-advance units.
avg_losses -= up->cost() * 0.25 *
fight_xp * (prob_fought - prob_killed)
/ xp_for_advance;
} else {
avg_losses -= up->cost() * 0.25 *
(kill_xp * prob_killed + fight_xp * (prob_fought - prob_killed))
/ xp_for_advance;
}
// The reward for killing with a unit that plagues
// is to get a 'negative' loss of that unit.
if (bc->get_attacker_stats().plagues) {
avg_losses -= prob_killed * up->cost();
}
}
// If we didn't advance, we took this damage.
avg_damage_taken += (up->hitpoints() - att.average_hp()) * (1.0 - advance_prob);
/**
* @todo 1.9: attack_prediction.cpp should understand advancement
* directly. For each level of attacker def gets 1 xp or
* kill_experience.
*/
int fight_xp = up->level();
int kill_xp = game_config::kill_xp(fight_xp);
def_avg_experience += fight_xp * (1.0 - att.hp_dist[0]) + kill_xp * att.hp_dist[0];
if (m == movements.begin()) {
first_chance_kill = def.hp_dist[0];
}
}
if (!defend_it->advances_to().empty() &&
def_avg_experience >= defend_it->max_experience() - defend_it->experience()) {
// It's likely to advance: only if we can kill with first blow.
chance_to_kill = first_chance_kill;
// Negative average damage (it will advance).
avg_damage_inflicted += defend_it->hitpoints() - defend_it->max_hitpoints();
} else {
chance_to_kill = prev_def->hp_dist[0];
avg_damage_inflicted += defend_it->hitpoints() - prev_def->average_hp(map.gives_healing(defend_it->get_location()));
}
delete prev_bc;
terrain_quality /= resources_used;
// Restore the units to their original positions.
for (m = movements.begin(); m != movements.end(); ++m) {
units.move(m->second, m->first);
}
}
double attack_analysis::rating(double aggression, const readonly_context& ai_obj) const
{
if(leader_threat) {
aggression = 1.0;
}
if(uses_leader) {
aggression = ai_obj.get_leader_aggression();
}
double value = chance_to_kill*target_value - avg_losses*(1.0-aggression);
if(terrain_quality > alternative_terrain_quality) {
// This situation looks like it might be a bad move:
// we are moving our attackers out of their optimal terrain
// into sub-optimal terrain.
// Calculate the 'exposure' of our units to risk.
#ifdef SUOKKO
//FIXME: this code was in sukko's r29531 Correct?
const double exposure_mod = uses_leader ? ai_obj.current_team().caution()* 8.0 : ai_obj.current_team().caution() * 4.0;
const double exposure = exposure_mod*resources_used*((terrain_quality - alternative_terrain_quality)/10)*vulnerability/std::max<double>(0.01,support);
#else
const double exposure_mod = uses_leader ? 2.0 : ai_obj.get_caution();
const double exposure = exposure_mod*resources_used*(terrain_quality - alternative_terrain_quality)*vulnerability/std::max<double>(0.01,support);
#endif
LOG_AI << "attack option has base value " << value << " with exposure " << exposure << ": "
<< vulnerability << "/" << support << " = " << (vulnerability/std::max<double>(support,0.1)) << "\n";
value -= exposure*(1.0-aggression);
}
// Prefer to attack already damaged targets.
value += ((target_starting_damage/3 + avg_damage_inflicted) - (1.0-aggression)*avg_damage_taken)/10.0;
// If the unit is surrounded and there is no support,
// or if the unit is surrounded and the average damage is 0,
// the unit skips its sanity check and tries to break free as good as possible.
if(!is_surrounded || (support != 0 && avg_damage_taken != 0))
{
// Sanity check: if we're putting ourselves at major risk,
// and have no chance to kill, and we're not aiding our allies
// who are also attacking, then don't do it.
if(vulnerability > 50.0 && vulnerability > support*2.0
&& chance_to_kill < 0.02 && aggression < 0.75
&& !attack_close(target)) {
return -1.0;
}
}
if(!leader_threat && vulnerability*terrain_quality > 0.0 && !is_surrounded) {
value *= support/(vulnerability*terrain_quality);
}
value /= ((resources_used/2) + (resources_used/2)*terrain_quality);
if(leader_threat) {
value *= 5.0;
}
LOG_AI << "attack on " << target << ": attackers: " << movements.size()
<< " value: " << value << " chance to kill: " << chance_to_kill
<< " damage inflicted: " << avg_damage_inflicted
<< " damage taken: " << avg_damage_taken
<< " vulnerability: " << vulnerability
<< " support: " << support
<< " quality: " << terrain_quality
<< " alternative quality: " << alternative_terrain_quality << "\n";
return value;
}
remove_wrong_targets(const readonly_context &context)
:avoid_(context.get_avoid()), map_(*resources::game_map)
{
}
