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authorJAROWMR <jarorutjes07@gmail.com>2024-12-14 11:40:33 +0100
committerJAROWMR <jarorutjes07@gmail.com>2024-12-14 11:40:33 +0100
commit061b2b8ab9aba67c1467cdd163fb7a04de95f4f1 (patch)
treee1960a83461e0d83a7027a88404af1a7c70f6dcd /src/crepe/system/AISystem.cpp
parentfd2ebb54d0c2b269c15fc84a4ac77993efc917d7 (diff)
parentb9fc66f6922b1f40f2dbe14e8dfc4caa469654bc (diff)
Merge branch 'master' of github.com:lonkaars/crepe into jaro/collision-system
Diffstat (limited to 'src/crepe/system/AISystem.cpp')
-rw-r--r--src/crepe/system/AISystem.cpp186
1 files changed, 186 insertions, 0 deletions
diff --git a/src/crepe/system/AISystem.cpp b/src/crepe/system/AISystem.cpp
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+#include <algorithm>
+#include <cmath>
+
+#include "manager/ComponentManager.h"
+#include "manager/LoopTimerManager.h"
+#include "manager/Mediator.h"
+
+#include "AISystem.h"
+
+using namespace crepe;
+using namespace std::chrono;
+
+void AISystem::update() {
+ const Mediator & mediator = this->mediator;
+ ComponentManager & mgr = mediator.component_manager;
+ LoopTimerManager & loop_timer = mediator.loop_timer;
+ RefVector<AI> ai_components = mgr.get_components_by_type<AI>();
+
+ float dt = loop_timer.get_scaled_fixed_delta_time().count();
+
+ // Loop through all AI components
+ for (AI & ai : ai_components) {
+ if (!ai.active) {
+ continue;
+ }
+
+ RefVector<Rigidbody> rigidbodies
+ = mgr.get_components_by_id<Rigidbody>(ai.game_object_id);
+ if (rigidbodies.empty()) {
+ throw std::runtime_error(
+ "AI component must be attached to a GameObject with a Rigidbody component");
+ }
+ Rigidbody & rigidbody = rigidbodies.front().get();
+ if (!rigidbody.active) {
+ continue;
+ }
+ if (rigidbody.data.mass <= 0) {
+ throw std::runtime_error("Mass must be greater than 0");
+ }
+
+ // Calculate the force to apply to the entity
+ vec2 force = this->calculate(ai, rigidbody);
+ // Calculate the acceleration (using the above calculated force)
+ vec2 acceleration = force / rigidbody.data.mass;
+ // Finally, update Rigidbody's velocity
+ rigidbody.data.linear_velocity += acceleration * dt;
+ }
+}
+
+vec2 AISystem::calculate(AI & ai, const Rigidbody & rigidbody) {
+ const Mediator & mediator = this->mediator;
+ ComponentManager & mgr = mediator.component_manager;
+ RefVector<Transform> transforms = mgr.get_components_by_id<Transform>(ai.game_object_id);
+ Transform & transform = transforms.front().get();
+
+ vec2 force;
+
+ // Run all the behaviors that are on, and stop if the force gets too high
+ if (ai.on(AI::BehaviorTypeMask::FLEE)) {
+ vec2 force_to_add = this->flee(ai, rigidbody, transform);
+
+ if (!this->accumulate_force(ai, force, force_to_add)) {
+ return force;
+ }
+ }
+ if (ai.on(AI::BehaviorTypeMask::ARRIVE)) {
+ vec2 force_to_add = this->arrive(ai, rigidbody, transform);
+
+ if (!this->accumulate_force(ai, force, force_to_add)) {
+ return force;
+ }
+ }
+ if (ai.on(AI::BehaviorTypeMask::SEEK)) {
+ vec2 force_to_add = this->seek(ai, rigidbody, transform);
+
+ if (!this->accumulate_force(ai, force, force_to_add)) {
+ return force;
+ }
+ }
+ if (ai.on(AI::BehaviorTypeMask::PATH_FOLLOW)) {
+ vec2 force_to_add = this->path_follow(ai, rigidbody, transform);
+
+ if (!this->accumulate_force(ai, force, force_to_add)) {
+ return force;
+ }
+ }
+
+ return force;
+}
+
+bool AISystem::accumulate_force(const AI & ai, vec2 & running_total, vec2 & force_to_add) {
+ float magnitude = running_total.length();
+ float magnitude_remaining = ai.max_force - magnitude;
+
+ if (magnitude_remaining <= 0.0f) {
+ // If the force is already at/above the max force, return false
+ return false;
+ }
+
+ float magnitude_to_add = force_to_add.length();
+ if (magnitude_to_add < magnitude_remaining) {
+ // If the force to add is less than the remaining force, add it
+ running_total += force_to_add;
+ } else {
+ // If the force to add is greater than the remaining force, add a fraction of it
+ force_to_add.normalize();
+ running_total += force_to_add * magnitude_remaining;
+ }
+
+ return true;
+}
+
+vec2 AISystem::seek(const AI & ai, const Rigidbody & rigidbody,
+ const Transform & transform) const {
+ // Calculate the desired velocity
+ vec2 desired_velocity = ai.seek_target - transform.position;
+ desired_velocity.normalize();
+ desired_velocity *= rigidbody.data.max_linear_velocity;
+
+ return desired_velocity - rigidbody.data.linear_velocity;
+}
+
+vec2 AISystem::flee(const AI & ai, const Rigidbody & rigidbody,
+ const Transform & transform) const {
+ // Calculate the desired velocity if the entity is within the panic distance
+ vec2 desired_velocity = transform.position - ai.flee_target;
+ if (desired_velocity.length_squared() > ai.square_flee_panic_distance) {
+ return vec2{0, 0};
+ }
+ desired_velocity.normalize();
+ desired_velocity *= rigidbody.data.max_linear_velocity;
+
+ return desired_velocity - rigidbody.data.linear_velocity;
+}
+
+vec2 AISystem::arrive(const AI & ai, const Rigidbody & rigidbody,
+ const Transform & transform) const {
+ // Calculate the desired velocity (taking into account the deceleration rate)
+ vec2 to_target = ai.arrive_target - transform.position;
+ float distance = to_target.length();
+ if (distance > 0.0f) {
+ if (ai.arrive_deceleration <= 0.0f) {
+ throw std::runtime_error("Deceleration rate must be greater than 0");
+ }
+
+ float speed = distance / ai.arrive_deceleration;
+ speed = std::min(speed, rigidbody.data.max_linear_velocity);
+ vec2 desired_velocity = to_target * (speed / distance);
+
+ return desired_velocity - rigidbody.data.linear_velocity;
+ }
+
+ return vec2{0, 0};
+}
+
+vec2 AISystem::path_follow(AI & ai, const Rigidbody & rigidbody, const Transform & transform) {
+ if (ai.path.empty()) {
+ return vec2{0, 0};
+ }
+
+ // Get the target node
+ vec2 target = ai.path.at(ai.path_index);
+ // Calculate the force to apply to the entity
+ vec2 to_target = target - transform.position;
+ if (to_target.length_squared() > ai.path_node_distance * ai.path_node_distance) {
+ // If the entity is not close enough to the target node, seek it
+ ai.seek_target = target;
+ ai.arrive_target = target;
+ } else {
+ // If the entity is close enough to the target node, move to the next node
+ ai.path_index++;
+ if (ai.path_index >= ai.path.size()) {
+ if (ai.path_loop) {
+ // If the path is looping, reset the path index
+ ai.path_index = 0;
+ } else {
+ // If the path is not looping, arrive at the last node
+ ai.path_index = ai.path.size() - 1;
+ return this->arrive(ai, rigidbody, transform);
+ }
+ }
+ }
+
+ // Seek the target node
+ return this->seek(ai, rigidbody, transform);
+}