#include "AIController.hpp"
+#include "ChaseState.hpp"
+#include "FleeState.hpp"
+#include "IdleState.hpp"
+#include "RoamState.hpp"
#include "../model/geometry.hpp"
#include "../rand/GaloisLFSR.hpp"
namespace blank {
-AIController::AIController(GaloisLFSR &rand)
-: random(rand)
-, chase_speed(2.0f)
-, flee_speed(-5.0f)
-, stop_dist(10.0f)
-, flee_dist(5.0f)
+namespace {
+
+ChaseState chase;
+FleeState flee;
+IdleState idle;
+RoamState roam;
+
+}
+
+AIController::AIController(World &world, GaloisLFSR &rand)
+: world(world)
+, random(rand)
+, state(&idle)
+, sight_dist(64.0f)
+, sight_angle(0.707f)
+, think_timer(0.5f)
+, decision_timer(1.0f)
+, halted(false)
+, halt_speed(1.0f)
+, fleeing(false)
+, flee_target(nullptr)
+, flee_speed(5.0f)
+, seeking(false)
+, seek_target(nullptr)
+, seek_speed(5.0f)
+, evading(false)
+, evade_target(nullptr)
+, evade_speed(5.0f)
+, pursuing(false)
+, pursuit_target(nullptr)
+, pursuit_speed(5.0f)
+, wandering(false)
, wander_pos(1.0f, 0.0f, 0.0f)
+, wander_speed(1.0f)
, wander_dist(2.0f)
-, wander_radius(1.0f)
-, wander_disp(1.0f)
-, wander_speed(1.0f) {
-
+, wander_radius(1.5f)
+, wander_disp(1.0f) {
+ think_timer.Start();
+ state->Enter(*this);
}
AIController::~AIController() {
+ state->Exit(*this);
+}
+void AIController::SetState(const AIState &s) {
+ state->Exit(*this);
+ state = &s;
+ state->Enter(*this);
}
void AIController::Update(Entity &e, float dt) {
- // movement: for now, wander only
- glm::vec3 displacement(
- random.SNorm() * wander_disp,
- random.SNorm() * wander_disp,
- random.SNorm() * wander_disp
- );
- if (dot(displacement, displacement) > std::numeric_limits<float>::epsilon()) {
- wander_pos = normalize(wander_pos + displacement * dt) * wander_radius;
+ think_timer.Update(dt);
+ decision_timer.Update(dt);
+ state->Update(*this, e, dt);
+
+ if (wandering) {
+ glm::vec3 displacement(
+ random.SNorm() * wander_disp,
+ random.SNorm() * wander_disp,
+ random.SNorm() * wander_disp
+ );
+ if (!iszero(displacement)) {
+ wander_pos = normalize(wander_pos + displacement * dt) * wander_radius;
+ }
}
if (e.Moving()) {
}
}
-glm::vec3 AIController::ControlForce(const EntityState &state) const {
- return (Heading(state) * wander_dist + wander_pos) * wander_speed;
+glm::vec3 AIController::ControlForce(const Entity &entity, const EntityState &state) const {
+ if (IsHalted()) {
+ return GetHaltForce(state);
+ }
+ glm::vec3 force(0.0f);
+ if (IsFleeing()) {
+ if (MaxOutForce(force, GetFleeForce(state), entity.MaxControlForce())) {
+ return force;
+ }
+ }
+ if (IsSeeking()) {
+ if (MaxOutForce(force, GetSeekForce(state), entity.MaxControlForce())) {
+ return force;
+ }
+ }
+ if (IsEvading()) {
+ if (MaxOutForce(force, GetEvadeForce(state), entity.MaxControlForce())) {
+ return force;
+ }
+ }
+ if (IsPursuing()) {
+ if (MaxOutForce(force, GetPursuitForce(state), entity.MaxControlForce())) {
+ return force;
+ }
+ }
+ if (IsWandering()) {
+ if (MaxOutForce(force, GetWanderForce(state), entity.MaxControlForce())) {
+ return force;
+ }
+ }
+ return force;
}
glm::vec3 AIController::Heading(const EntityState &state) noexcept {
}
}
+Player *AIController::ClosestVisiblePlayer(const Entity &e) noexcept {
+ Player *target = nullptr;
+ float distance = sight_dist;
+ const glm::ivec3 &reference(e.ChunkCoords());
+ Ray aim(e.Aim(reference));
+ for (Player &p : world.Players()) {
+ const Entity &pe = p.GetEntity();
+
+ // distance test
+ const glm::vec3 diff(pe.AbsoluteDifference(e));
+ float dist = length_squared(diff);
+ if (dist > distance) continue;
+
+ // FOV test, 45° in each direction
+ if (dot(normalize(diff), aim.dir) < sight_angle) {
+ continue;
+ }
+
+ // LOS test, assumes all entities are see-through
+ WorldCollision col;
+ if (world.Intersection(aim, glm::mat4(1.0f), reference, col) && col.depth * col.depth < dist) {
+ continue;
+ }
+
+ // we got a match
+ target = &p;
+ distance = dist;
+ }
+ return target;
+}
+
+bool AIController::LineOfSight(const Entity &from, const Entity &to) const noexcept {
+ const glm::ivec3 &reference(from.ChunkCoords());
+ Ray aim(from.Aim(reference));
+ const glm::vec3 diff(to.AbsoluteDifference(from));
+ float dist = length(diff);
+ if (dist > sight_dist || dot(diff / dist, aim.dir) < sight_angle) {
+ return false;
+ }
+ WorldCollision col;
+ if (world.Intersection(aim, glm::mat4(1.0f), reference, col) && col.depth < dist) {
+ return false;
+ }
+ return true;
+}
+
+// think
+
+bool AIController::MayThink() const noexcept {
+ return think_timer.Hit();
+}
+
+void AIController::SetThinkInterval(float i) noexcept {
+ think_timer = FineTimer(i);
+ think_timer.Start();
+}
+
+// decide
+
+void AIController::CueDecision(
+ float minimum,
+ float variance
+) noexcept {
+ decision_timer = FineTimer(minimum + variance * random.SNorm());
+ decision_timer.Start();
+}
+
+bool AIController::DecisionDue() const noexcept {
+ return decision_timer.HitOnce();
+}
+
+unsigned int AIController::Decide(unsigned int num_choices) noexcept {
+ return random.Next<unsigned int>() % num_choices;
+}
+
+// halt
+
+void AIController::EnterHalt() noexcept {
+ halted = true;
+}
+
+void AIController::ExitHalt() noexcept {
+ halted = false;
+}
+
+bool AIController::IsHalted() const noexcept {
+ return halted;
+}
+
+void AIController::SetHaltSpeed(float speed) noexcept {
+ halt_speed = speed;
+}
+
+glm::vec3 AIController::GetHaltForce(const EntityState &state) const noexcept {
+ return Halt(state, halt_speed);
+}
+
+// flee
+
+void AIController::StartFleeing() noexcept {
+ fleeing = true;
+}
+
+void AIController::StopFleeing() noexcept {
+ fleeing = false;
+ if (flee_target) {
+ flee_target->UnRef();
+ flee_target = nullptr;
+ }
+}
+
+bool AIController::IsFleeing() const noexcept {
+ return fleeing && flee_target;
+}
+
+void AIController::SetFleeTarget(Entity &e) noexcept {
+ if (flee_target) {
+ flee_target->UnRef();
+ }
+ flee_target = &e;
+ flee_target->Ref();
+}
+
+void AIController::SetFleeSpeed(float speed) noexcept {
+ flee_speed = speed;
+}
+
+Entity &AIController::GetFleeTarget() noexcept {
+ return *flee_target;
+}
+
+const Entity &AIController::GetFleeTarget() const noexcept {
+ return *flee_target;
+}
+
+glm::vec3 AIController::GetFleeForce(const EntityState &state) const noexcept {
+ return Flee(state, GetFleeTarget().GetState(), flee_speed, 2.0f);
+}
+
+// seek
+
+void AIController::StartSeeking() noexcept {
+ seeking = true;
+}
+
+void AIController::StopSeeking() noexcept {
+ seeking = false;
+ if (seek_target) {
+ seek_target->UnRef();
+ seek_target = nullptr;
+ }
+}
+
+bool AIController::IsSeeking() const noexcept {
+ return seeking && seek_target;
+}
+
+void AIController::SetSeekTarget(Entity &e) noexcept {
+ if (seek_target) {
+ seek_target->UnRef();
+ }
+ seek_target = &e;
+ seek_target->Ref();
+}
+
+void AIController::SetSeekSpeed(float speed) noexcept {
+ seek_speed = speed;
+}
+
+Entity &AIController::GetSeekTarget() noexcept {
+ return *seek_target;
+}
+
+const Entity &AIController::GetSeekTarget() const noexcept {
+ return *seek_target;
+}
+
+glm::vec3 AIController::GetSeekForce(const EntityState &state) const noexcept {
+ return Seek(state, GetSeekTarget().GetState(), seek_speed, 2.0f);
+}
+
+// evade
+
+void AIController::StartEvading() noexcept {
+ evading = true;
+}
+
+void AIController::StopEvading() noexcept {
+ evading = false;
+ if (evade_target) {
+ evade_target->UnRef();
+ evade_target = nullptr;
+ }
+}
+
+bool AIController::IsEvading() const noexcept {
+ return evading && evade_target;
+}
+
+void AIController::SetEvadeTarget(Entity &e) noexcept {
+ if (evade_target) {
+ evade_target->UnRef();
+ }
+ evade_target = &e;
+ evade_target->Ref();
+}
+
+void AIController::SetEvadeSpeed(float speed) noexcept {
+ evade_speed = speed;
+}
+
+Entity &AIController::GetEvadeTarget() noexcept {
+ return *evade_target;
+}
+
+const Entity &AIController::GetEvadeTarget() const noexcept {
+ return *evade_target;
+}
+
+glm::vec3 AIController::GetEvadeForce(const EntityState &state) const noexcept{
+ glm::vec3 cur_diff(state.Diff(GetEvadeTarget().GetState()));
+ float time_estimate = length(cur_diff) / evade_speed;
+ EntityState pred_state(GetEvadeTarget().GetState());
+ pred_state.block_pos += pred_state.velocity * time_estimate;
+ return Flee(state, pred_state, evade_speed, 2.0f);
+}
+
+// pursuit
+
+void AIController::StartPursuing() noexcept {
+ pursuing = true;
+}
+
+void AIController::StopPursuing() noexcept {
+ pursuing = false;
+ if (pursuit_target) {
+ pursuit_target->UnRef();
+ pursuit_target = nullptr;
+ }
+}
+
+bool AIController::IsPursuing() const noexcept {
+ return pursuing && pursuit_target;
+}
+
+void AIController::SetPursuitTarget(Entity &e) noexcept {
+ if (pursuit_target) {
+ pursuit_target->UnRef();
+ }
+ pursuit_target = &e;
+ pursuit_target->Ref();
+}
+
+void AIController::SetPursuitSpeed(float speed) noexcept {
+ pursuit_speed = speed;
+}
+
+Entity &AIController::GetPursuitTarget() noexcept {
+ return *pursuit_target;
+}
+
+const Entity &AIController::GetPursuitTarget() const noexcept {
+ return *pursuit_target;
+}
+
+glm::vec3 AIController::GetPursuitForce(const EntityState &state) const noexcept {
+ glm::vec3 cur_diff(state.Diff(GetPursuitTarget().GetState()));
+ float time_estimate = length(cur_diff) / pursuit_speed;
+ EntityState pred_state(GetPursuitTarget().GetState());
+ pred_state.block_pos += pred_state.velocity * time_estimate;
+ return Seek(state, pred_state, pursuit_speed, 2.0f);
+}
+
+// wander
+
+void AIController::StartWandering() noexcept {
+ wandering = true;
+}
+
+void AIController::StopWandering() noexcept {
+ wandering = false;
+}
+
+bool AIController::IsWandering() const noexcept {
+ return wandering;
+}
+
+void AIController::SetWanderParams(
+ float speed,
+ float distance,
+ float radius,
+ float displacement
+) noexcept {
+ wander_speed = speed;
+ wander_dist = distance;
+ wander_radius = radius;
+ wander_disp = displacement;
+}
+
+glm::vec3 AIController::GetWanderForce(const EntityState &state) const noexcept {
+ glm::vec3 wander_target(normalize(Heading(state) * wander_dist + wander_pos) * wander_speed);
+ return TargetVelocity(wander_target, state, 0.5f);
+}
+
+
+// chase
+
+void ChaseState::Enter(AIController &ctrl) const {
+ ctrl.SetHaltSpeed(2.0f);
+ ctrl.SetPursuitSpeed(4.0f);
+ ctrl.StartPursuing();
+}
+
+void ChaseState::Update(AIController &ctrl, Entity &e, float dt) const {
+ // check if target still alive and in sight
+ if (ctrl.GetPursuitTarget().Dead()) {
+ ctrl.SetState(idle);
+ return;
+ }
+ if (!ctrl.LineOfSight(e, ctrl.GetPursuitTarget())) {
+ ctrl.SetState(idle);
+ return;
+ }
+ // halt if we're close enough, flee if we're too close
+ float dist_sq = length_squared(e.AbsoluteDifference(ctrl.GetPursuitTarget()));
+ if (dist_sq < 8.0f) {
+ ctrl.SetFleeTarget(ctrl.GetPursuitTarget());
+ ctrl.SetState(flee);
+ } else if (dist_sq < 25.0f) {
+ ctrl.EnterHalt();
+ } else {
+ ctrl.ExitHalt();
+ }
+}
+
+void ChaseState::Exit(AIController &ctrl) const {
+ ctrl.StopPursuing();
+ ctrl.ExitHalt();
+}
+
+// flee
+
+void FleeState::Enter(AIController &ctrl) const {
+ ctrl.CueDecision(6.0f, 3.0f);
+ ctrl.SetFleeSpeed(4.0f);
+ ctrl.StartFleeing();
+}
+
+void FleeState::Update(AIController &ctrl, Entity &e, float dt) const {
+ if (!ctrl.DecisionDue()) return;
+ ctrl.SetState(idle);
+}
+
+void FleeState::Exit(AIController &ctrl) const {
+ ctrl.StopFleeing();
+}
+
+// idle
+
+void IdleState::Enter(AIController &ctrl) const {
+ ctrl.SetHaltSpeed(0.5f);
+ ctrl.EnterHalt();
+ ctrl.SetWanderParams(0.001f, 1.1f);
+ ctrl.CueDecision(10.0f, 5.0f);
+}
+
+void IdleState::Update(AIController &ctrl, Entity &e, float dt) const {
+ if (ctrl.MayThink()) {
+ const Player *player = ctrl.ClosestVisiblePlayer(e);
+ if (player) {
+ ctrl.SetPursuitTarget(player->GetEntity());
+ ctrl.SetState(chase);
+ return;
+ }
+ }
+
+ if (!ctrl.DecisionDue()) return;
+
+ unsigned int d = ctrl.Decide(10);
+ if (d < 2) {
+ // .2 chance to start going
+ ctrl.SetState(roam);
+ } else if (d < 5) {
+ // .3 chance of looking around
+ ctrl.ExitHalt();
+ ctrl.StartWandering();
+ } else {
+ // .5 chance of doing nothing
+ ctrl.StopWandering();
+ ctrl.EnterHalt();
+ }
+ ctrl.CueDecision(10.0f, 5.0f);
+}
+
+void IdleState::Exit(AIController &ctrl) const {
+ ctrl.ExitHalt();
+ ctrl.StopWandering();
+}
+
+// roam
+
+void RoamState::Enter(AIController &ctrl) const {
+ ctrl.SetWanderParams(1.0f);
+ ctrl.StartWandering();
+ ctrl.CueDecision(10.0f, 5.0f);
+}
+
+void RoamState::Update(AIController &ctrl, Entity &e, float dt) const {
+ if (ctrl.MayThink()) {
+ const Player *player = ctrl.ClosestVisiblePlayer(e);
+ if (player) {
+ ctrl.SetPursuitTarget(player->GetEntity());
+ ctrl.SetState(chase);
+ return;
+ }
+ }
+
+ if (!ctrl.DecisionDue()) return;
+
+ unsigned int d = ctrl.Decide(10);
+ if (d == 0) {
+ // .1 chance of idling
+ ctrl.SetState(idle);
+ }
+ ctrl.CueDecision(10.0f, 5.0f);
+}
+
+void RoamState::Exit(AIController &ctrl) const {
+ ctrl.StopWandering();
+}
+
}
projects / blank.git / blobdiff