use crate::terrain::TerrainGrid; use crate::{ comp::{self, agent::Activity, Agent, Alignment, Controller, MountState, Pos, Stats}, path::Chaser, state::Time, sync::UidAllocator, vol::ReadVol, }; use rand::{thread_rng, Rng}; use specs::{ saveload::{Marker, MarkerAllocator}, Entities, Join, Read, ReadExpect, ReadStorage, System, WriteStorage, }; use vek::*; /// This system will allow NPCs to modify their controller pub struct Sys; impl<'a> System<'a> for Sys { type SystemData = ( Read<'a, UidAllocator>, Read<'a, Time>, Entities<'a>, ReadStorage<'a, Pos>, ReadStorage<'a, Stats>, ReadExpect<'a, TerrainGrid>, ReadStorage<'a, Alignment>, WriteStorage<'a, Agent>, WriteStorage<'a, Controller>, ReadStorage<'a, MountState>, ); fn run( &mut self, ( uid_allocator, time, entities, positions, stats, terrain, alignments, mut agents, mut controllers, mount_states, ): Self::SystemData, ) { for (entity, pos, alignment, agent, controller, mount_state) in ( &entities, &positions, alignments.maybe(), &mut agents, &mut controllers, mount_states.maybe(), ) .join() { // Skip mounted entities if mount_state .map(|ms| { if let MountState::Unmounted = ms { false } else { true } }) .unwrap_or(false) { continue; } controller.reset(); let mut inputs = &mut controller.inputs; const AVG_FOLLOW_DIST: f32 = 6.0; const MAX_FOLLOW_DIST: f32 = 12.0; const MAX_CHASE_DIST: f32 = 24.0; const SEARCH_DIST: f32 = 30.0; const SIGHT_DIST: f32 = 64.0; const MIN_ATTACK_DIST: f32 = 3.25; let mut do_idle = false; let mut choose_target = false; 'activity: { match &mut agent.activity { Activity::Idle(bearing) => { *bearing += Vec2::new( thread_rng().gen::() - 0.5, thread_rng().gen::() - 0.5, ) * 0.1 - *bearing * 0.01 - if let Some(patrol_origin) = agent.patrol_origin { Vec2::::from(pos.0 - patrol_origin) * 0.0002 } else { Vec2::zero() }; // Stop if we're too close to a wall *bearing *= 0.1 + if terrain .ray( pos.0 + Vec3::unit_z(), pos.0 + Vec3::from(*bearing).normalized() * 1.5 + Vec3::unit_z(), ) .until(|block| block.is_solid()) .cast() .1 .map(|b| b.is_none()) .unwrap_or(true) { 0.9 } else { 0.0 }; if bearing.magnitude_squared() > 0.25f32.powf(2.0) { inputs.move_dir = bearing.try_normalized().unwrap_or(Vec2::zero()) * 0.65; } // Sometimes try searching for new targets if thread_rng().gen::() < 0.1 { choose_target = true; } } Activity::Follow(target, chaser) => { if let (Some(tgt_pos), _tgt_stats) = (positions.get(*target), stats.get(*target)) { let dist_sqrd = pos.0.distance_squared(tgt_pos.0); // Follow, or return to idle if dist_sqrd > AVG_FOLLOW_DIST.powf(2.0) { if let Some(bearing) = chaser.chase(&*terrain, pos.0, tgt_pos.0, AVG_FOLLOW_DIST) { inputs.move_dir = Vec2::from(bearing) .try_normalized() .unwrap_or(Vec2::zero()); inputs.jump.set_state(bearing.z > 1.0); } } else { do_idle = true; } } else { do_idle = true; } } Activity::Attack { target, chaser, been_close, .. } => { if let (Some(tgt_pos), _tgt_stats, tgt_alignment) = ( positions.get(*target), stats.get(*target), alignments .get(*target) .copied() .unwrap_or(Alignment::Owned(*target)), ) { // Don't attack entities we are passive towards // TODO: This is here, it's a bit of a hack if let Some(alignment) = alignment { if (*alignment).passive_towards(tgt_alignment) { do_idle = true; break 'activity; } } let dist_sqrd = pos.0.distance_squared(tgt_pos.0); if dist_sqrd < MIN_ATTACK_DIST.powf(2.0) { // Close-range attack inputs.look_dir = tgt_pos.0 - pos.0; inputs.move_dir = Vec2::from(tgt_pos.0 - pos.0) .try_normalized() .unwrap_or(Vec2::unit_y()) * 0.01; inputs.primary.set_state(true); } else if dist_sqrd < MAX_CHASE_DIST.powf(2.0) || (dist_sqrd < SIGHT_DIST.powf(2.0) && !*been_close) { if dist_sqrd < MAX_CHASE_DIST.powf(2.0) { *been_close = true; } // Long-range chase if let Some(bearing) = chaser.chase(&*terrain, pos.0, tgt_pos.0, 1.25) { inputs.move_dir = Vec2::from(bearing) .try_normalized() .unwrap_or(Vec2::zero()); inputs.jump.set_state(bearing.z > 1.0); } if dist_sqrd < (MAX_CHASE_DIST * 0.65).powf(2.0) && thread_rng().gen::() < 0.01 { inputs.roll.set_state(true); } } else { do_idle = true; } } else { do_idle = true; } } } } if do_idle { agent.activity = Activity::Idle(Vec2::zero()); } // Choose a new target to attack: only go out of our way to attack targets we are // hostile toward! if choose_target { // Search for new targets (this looks expensive, but it's only run occasionally) // TODO: Replace this with a better system that doesn't consider *all* entities let closest_entity = (&entities, &positions, &stats, alignments.maybe()) .join() .filter(|(e, e_pos, e_stats, e_alignment)| { e_pos.0.distance_squared(pos.0) < SEARCH_DIST.powf(2.0) && *e != entity && !e_stats.is_dead && alignment .and_then(|a| e_alignment.map(|b| a.hostile_towards(*b))) .unwrap_or(false) }) .min_by_key(|(_, e_pos, _, _)| (e_pos.0.distance_squared(pos.0) * 100.0) as i32) .map(|(e, _, _, _)| e); if let Some(target) = closest_entity { agent.activity = Activity::Attack { target, chaser: Chaser::default(), time: time.0, been_close: false, }; } } // --- Activity overrides (in reverse order of priority: most important goes last!) --- // Attack a target that's attacking us if let Some(stats) = stats.get(entity) { // Only if the attack was recent if stats.health.last_change.0 < 5.0 { if let comp::HealthSource::Attack { by } = stats.health.last_change.1.cause { if !agent.activity.is_attack() { if let Some(attacker) = uid_allocator.retrieve_entity_internal(by.id()) { agent.activity = Activity::Attack { target: attacker, chaser: Chaser::default(), time: time.0, been_close: false, }; } } } } } // Follow owner if we're too far, or if they're under attack if let Some(Alignment::Owned(owner)) = alignment.copied() { if let Some(owner_pos) = positions.get(owner) { let dist_sqrd = pos.0.distance_squared(owner_pos.0); if dist_sqrd > MAX_FOLLOW_DIST.powf(2.0) && !agent.activity.is_follow() { agent.activity = Activity::Follow(owner, Chaser::default()); } // Attack owner's attacker if let Some(owner_stats) = stats.get(owner) { if owner_stats.health.last_change.0 < 5.0 { if let comp::HealthSource::Attack { by } = owner_stats.health.last_change.1.cause { if !agent.activity.is_attack() { if let Some(attacker) = uid_allocator.retrieve_entity_internal(by.id()) { agent.activity = Activity::Attack { target: attacker, chaser: Chaser::default(), time: time.0, been_close: false, }; } } } } } } } debug_assert!(inputs.move_dir.map(|e| !e.is_nan()).reduce_and()); debug_assert!(inputs.look_dir.map(|e| !e.is_nan()).reduce_and()); } } }