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-rw-r--r--src/crepe/system/CollisionSystem.cpp295
-rw-r--r--src/crepe/system/CollisionSystem.h42
-rw-r--r--src/crepe/system/ParticleSystem.cpp3
-rw-r--r--src/crepe/system/RenderSystem.cpp2
4 files changed, 170 insertions, 172 deletions
diff --git a/src/crepe/system/CollisionSystem.cpp b/src/crepe/system/CollisionSystem.cpp
index ceacda2..0b9ea61 100644
--- a/src/crepe/system/CollisionSystem.cpp
+++ b/src/crepe/system/CollisionSystem.cpp
@@ -26,12 +26,12 @@ using namespace crepe;
using enum Rigidbody::BodyType;
CollisionSystem::CollisionInfo CollisionSystem::CollisionInfo::operator-() const {
- return {
- .self = this->other,
+ return {
+ .self = this->other,
.other = this->self,
.resolution = -this->resolution,
.resolution_direction = this->resolution_direction,
- };
+ };
}
void CollisionSystem::update() {
@@ -52,8 +52,7 @@ void CollisionSystem::update() {
if (!boxcollider.active) continue;
all_colliders.push_back({.id = id,
.collider = collider_variant{boxcollider},
- .info = {transform,rigidbody, metadata}
- });
+ .info = {transform, rigidbody, metadata}});
}
// Check if the circlecollider is active and has the same id as the rigidbody.
RefVector<CircleCollider> circlecolliders
@@ -63,8 +62,7 @@ void CollisionSystem::update() {
if (!circlecollider.active) continue;
all_colliders.push_back({.id = id,
.collider = collider_variant{circlecollider},
- .info = {transform,rigidbody, metadata}
- });
+ .info = {transform, rigidbody, metadata}});
}
}
@@ -75,13 +73,14 @@ void CollisionSystem::update() {
// For the object convert the info and call the collision handler if needed
for (auto & collision_pair : collided) {
// Convert internal struct to external struct
- CollisionInfo info = this->get_collision_info(collision_pair.first, collision_pair.second);
+ CollisionInfo info
+ = this->get_collision_info(collision_pair.first, collision_pair.second);
// Determine if and/or what collison handler is needed.
this->determine_collision_handler(info);
}
}
-// Below is for collision detection
+// Below is for collision detection
std::vector<std::pair<CollisionSystem::CollisionInternal, CollisionSystem::CollisionInternal>>
CollisionSystem::gather_collisions(std::vector<CollisionInternal> & colliders) {
@@ -101,17 +100,18 @@ CollisionSystem::gather_collisions(std::vector<CollisionInternal> & colliders) {
for (size_t j = i + 1; j < colliders.size(); ++j) {
if (colliders[i].id == colliders[j].id) continue;
if (!should_collide(colliders[i], colliders[j])) continue;
- CollisionInternalType type = get_collider_type(colliders[i].collider, colliders[j].collider);
- if (!detect_collision(colliders[i],colliders[j],type)) continue;
- //fet
- collisions_ret.emplace_back(colliders[i], colliders[j]);
+ CollisionInternalType type
+ = get_collider_type(colliders[i].collider, colliders[j].collider);
+ if (!detect_collision(colliders[i], colliders[j], type)) continue;
+ //fet
+ collisions_ret.emplace_back(colliders[i], colliders[j]);
}
}
return collisions_ret;
}
-
-bool CollisionSystem::should_collide(const CollisionInternal & self, const CollisionInternal & other) const{
+bool CollisionSystem::should_collide(const CollisionInternal & self,
+ const CollisionInternal & other) const {
const Rigidbody::Data & self_rigidbody = self.info.rigidbody.data;
const Rigidbody::Data & other_rigidbody = other.info.rigidbody.data;
@@ -119,21 +119,20 @@ bool CollisionSystem::should_collide(const CollisionInternal & self, const Colli
const Metadata & other_metadata = other.info.metadata;
// Check collision layers
- if(self_rigidbody.collision_layers.contains(other_rigidbody.collision_layer)) return true;
- if(other_rigidbody.collision_layers.contains(self_rigidbody.collision_layer)) return true;
+ if (self_rigidbody.collision_layers.contains(other_rigidbody.collision_layer)) return true;
+ if (other_rigidbody.collision_layers.contains(self_rigidbody.collision_layer)) return true;
// Check names
- if(self_rigidbody.collision_names.contains(other_metadata.name)) return true;
- if(other_rigidbody.collision_names.contains(self_metadata.name)) return true;
+ if (self_rigidbody.collision_names.contains(other_metadata.name)) return true;
+ if (other_rigidbody.collision_names.contains(self_metadata.name)) return true;
// Check tags
- if(self_rigidbody.collision_tags.contains(other_metadata.tag)) return true;
- if(other_rigidbody.collision_tags.contains(self_metadata.tag)) return true;
+ if (self_rigidbody.collision_tags.contains(other_metadata.tag)) return true;
+ if (other_rigidbody.collision_tags.contains(self_metadata.tag)) return true;
return false;
}
-
CollisionSystem::CollisionInternalType
CollisionSystem::get_collider_type(const collider_variant & collider1,
const collider_variant & collider2) const {
@@ -152,40 +151,36 @@ CollisionSystem::get_collider_type(const collider_variant & collider1,
}
}
-bool CollisionSystem::detect_collision(CollisionInternal & self,CollisionInternal & other,const CollisionInternalType & type) {
+bool CollisionSystem::detect_collision(CollisionInternal & self, CollisionInternal & other,
+ const CollisionInternalType & type) {
vec2 resolution;
switch (type) {
- case CollisionInternalType::BOX_BOX: {
+ case CollisionInternalType::BOX_BOX: {
// Box-Box collision detection
- const BoxColliderInternal BOX1 = {
- .collider = std::get<std::reference_wrapper<BoxCollider>>(self.collider),
- .transform = self.info.transform,
- .rigidbody = self.info.rigidbody
- };
- const BoxColliderInternal BOX2 = {
- .collider = std::get<std::reference_wrapper<BoxCollider>>(other.collider),
- .transform = other.info.transform,
- .rigidbody = other.info.rigidbody
- };
+ const BoxColliderInternal BOX1
+ = {.collider = std::get<std::reference_wrapper<BoxCollider>>(self.collider),
+ .transform = self.info.transform,
+ .rigidbody = self.info.rigidbody};
+ const BoxColliderInternal BOX2
+ = {.collider = std::get<std::reference_wrapper<BoxCollider>>(other.collider),
+ .transform = other.info.transform,
+ .rigidbody = other.info.rigidbody};
// Get resolution vector from box-box collision detection
resolution = this->get_box_box_detection(BOX1, BOX2);
// If no collision (NaN values), return false
if(resolution.is_nan()) return false;
break;
-
}
case CollisionInternalType::BOX_CIRCLE: {
// Box-Circle collision detection
- const BoxColliderInternal BOX1 = {
- .collider = std::get<std::reference_wrapper<BoxCollider>>(self.collider),
- .transform = self.info.transform,
- .rigidbody = self.info.rigidbody
- };
+ const BoxColliderInternal BOX1
+ = {.collider = std::get<std::reference_wrapper<BoxCollider>>(self.collider),
+ .transform = self.info.transform,
+ .rigidbody = self.info.rigidbody};
const CircleColliderInternal CIRCLE2 = {
.collider = std::get<std::reference_wrapper<CircleCollider>>(other.collider),
.transform = other.info.transform,
- .rigidbody = other.info.rigidbody
- };
+ .rigidbody = other.info.rigidbody};
// Get resolution vector from box-circle collision detection
resolution = this->get_box_circle_detection(BOX1, CIRCLE2);
// If no collision (NaN values), return false
@@ -194,36 +189,32 @@ bool CollisionSystem::detect_collision(CollisionInternal & self,CollisionInterna
resolution = -resolution;
break;
}
- case CollisionInternalType::CIRCLE_CIRCLE: {
+ case CollisionInternalType::CIRCLE_CIRCLE: {
// Circle-Circle collision detection
- const CircleColliderInternal CIRCLE1 = {
- .collider = std::get<std::reference_wrapper<CircleCollider>>(self.collider),
- .transform = self.info.transform,
- .rigidbody = self.info.rigidbody
- };
+ const CircleColliderInternal CIRCLE1
+ = {.collider = std::get<std::reference_wrapper<CircleCollider>>(self.collider),
+ .transform = self.info.transform,
+ .rigidbody = self.info.rigidbody};
const CircleColliderInternal CIRCLE2 = {
.collider = std::get<std::reference_wrapper<CircleCollider>>(other.collider),
.transform = other.info.transform,
- .rigidbody = other.info.rigidbody
- };
+ .rigidbody = other.info.rigidbody};
// Get resolution vector from circle-circle collision detection
- resolution = this->get_circle_circle_detection(CIRCLE1,CIRCLE2);
+ resolution = this->get_circle_circle_detection(CIRCLE1, CIRCLE2);
// If no collision (NaN values), return false
if(resolution.is_nan()) return false;
break;
}
- case CollisionInternalType::CIRCLE_BOX: {
+ case CollisionInternalType::CIRCLE_BOX: {
// Circle-Box collision detection
- const CircleColliderInternal CIRCLE1 = {
- .collider = std::get<std::reference_wrapper<CircleCollider>>(self.collider),
- .transform = self.info.transform,
- .rigidbody = self.info.rigidbody
- };
- const BoxColliderInternal BOX2 = {
- .collider = std::get<std::reference_wrapper<BoxCollider>>(other.collider),
- .transform = other.info.transform,
- .rigidbody = other.info.rigidbody
- };
+ const CircleColliderInternal CIRCLE1
+ = {.collider = std::get<std::reference_wrapper<CircleCollider>>(self.collider),
+ .transform = self.info.transform,
+ .rigidbody = self.info.rigidbody};
+ const BoxColliderInternal BOX2
+ = {.collider = std::get<std::reference_wrapper<BoxCollider>>(other.collider),
+ .transform = other.info.transform,
+ .rigidbody = other.info.rigidbody};
// Get resolution vector from box-circle collision detection (order swapped)
resolution = this->get_box_circle_detection(BOX2, CIRCLE1);
// If no collision (NaN values), return false
@@ -231,14 +222,15 @@ bool CollisionSystem::detect_collision(CollisionInternal & self,CollisionInterna
break;
}
case CollisionInternalType::NONE:
- // No collision detection needed if the type is NONE
- return false;
- break;
+ // No collision detection needed if the type is NONE
+ return false;
+ break;
}
- // Store the calculated resolution vector for the 'self' collider
+ // Store the calculated resolution vector for the 'self' collider
self.resolution = resolution;
// Calculate the resolution direction based on the rigidbody data
- self.resolution_direction = this->resolution_correction(self.resolution, self.info.rigidbody.data);
+ self.resolution_direction
+ = this->resolution_correction(self.resolution, self.info.rigidbody.data);
// For the 'other' collider, the resolution is the opposite direction of 'self'
other.resolution = -self.resolution;
other.resolution_direction = self.resolution_direction;
@@ -250,15 +242,14 @@ bool CollisionSystem::detect_collision(CollisionInternal & self,CollisionInterna
vec2 CollisionSystem::get_box_box_detection(const BoxColliderInternal & box1, const BoxColliderInternal & box2) const {
vec2 resolution{NAN, NAN};
// Get current positions of colliders
- vec2 pos1 = AbsolutePosition::get_position(box1.transform, box1.collider.offset);
- vec2 pos2 = AbsolutePosition::get_position(box2.transform, box2.collider.offset);
+ vec2 pos1 = AbsolutePosition::get_position(box1.transform, box1.collider.offset);
+ vec2 pos2 = AbsolutePosition::get_position(box2.transform, box2.collider.offset);
// Scale dimensions
vec2 scaled_box1 = box1.collider.dimensions * box1.transform.scale;
vec2 scaled_box2 = box2.collider.dimensions * box2.transform.scale;
vec2 delta = pos2 - pos1;
-
// Calculate half-extents (half width and half height)
float half_width1 = scaled_box1.x / 2.0;
float half_height1 = scaled_box1.y / 2.0;
@@ -266,67 +257,67 @@ vec2 CollisionSystem::get_box_box_detection(const BoxColliderInternal & box1, co
float half_height2 = scaled_box2.y / 2.0;
if (pos1.x + half_width1 > pos2.x - half_width2
- && pos1.x - half_width1 < pos2.x + half_width2
- && pos1.y + half_height1 > pos2.y - half_height2
- && pos1.y - half_height1 < pos2.y + half_height2)
- {
- resolution = {0,0};
+ && pos1.x - half_width1 < pos2.x + half_width2
+ && pos1.y + half_height1 > pos2.y - half_height2
+ && pos1.y - half_height1 < pos2.y + half_height2) {
+ resolution = {0, 0};
float overlap_x = (half_width1 + half_width2) - std::abs(delta.x);
float overlap_y = (half_height1 + half_height2) - std::abs(delta.y);
if (overlap_x > 0 && overlap_y > 0) {
- // Determine the direction of resolution
- if (overlap_x < overlap_y) {
- // Resolve along the X-axis (smallest overlap)
- resolution.x = (delta.x > 0) ? -overlap_x : overlap_x;
- } else if (overlap_y < overlap_x) {
- // Resolve along the Y-axis (smallest overlap)
- resolution.y = (delta.y > 0) ? -overlap_y : overlap_y;
- } else {
- // Equal overlap, resolve both directions with preference
- resolution.x = (delta.x > 0) ? -overlap_x : overlap_x;
- resolution.y = (delta.y > 0) ? -overlap_y : overlap_y;
+ // Determine the direction of resolution
+ if (overlap_x < overlap_y) {
+ // Resolve along the X-axis (smallest overlap)
+ resolution.x = (delta.x > 0) ? -overlap_x : overlap_x;
+ } else if (overlap_y < overlap_x) {
+ // Resolve along the Y-axis (smallest overlap)
+ resolution.y = (delta.y > 0) ? -overlap_y : overlap_y;
+ } else {
+ // Equal overlap, resolve both directions with preference
+ resolution.x = (delta.x > 0) ? -overlap_x : overlap_x;
+ resolution.y = (delta.y > 0) ? -overlap_y : overlap_y;
+ }
}
}
- }
return resolution;
}
-vec2 CollisionSystem::get_box_circle_detection(const BoxColliderInternal & box, const CircleColliderInternal & circle) const {
+vec2 CollisionSystem::get_box_circle_detection(const BoxColliderInternal & box,
+ const CircleColliderInternal & circle) const {
/// Get current positions of colliders
- vec2 box_pos = AbsolutePosition::get_position(box.transform, box.collider.offset);
- vec2 circle_pos = AbsolutePosition::get_position(circle.transform, circle.collider.offset);
+ vec2 box_pos = AbsolutePosition::get_position(box.transform, box.collider.offset);
+ vec2 circle_pos = AbsolutePosition::get_position(circle.transform, circle.collider.offset);
- // Scale dimensions
- vec2 scaled_box = box.collider.dimensions * box.transform.scale;
- float scaled_circle_radius = circle.collider.radius * circle.transform.scale;
+ // Scale dimensions
+ vec2 scaled_box = box.collider.dimensions * box.transform.scale;
+ float scaled_circle_radius = circle.collider.radius * circle.transform.scale;
- // Calculate box half-extents
- float half_width = scaled_box.x / 2.0f;
- float half_height = scaled_box.y / 2.0f;
+ // Calculate box half-extents
+ float half_width = scaled_box.x / 2.0f;
+ float half_height = scaled_box.y / 2.0f;
- // Find the closest point on the box to the circle's center
- float closest_x = std::max(box_pos.x - half_width, std::min(circle_pos.x, box_pos.x + half_width));
- float closest_y = std::max(box_pos.y - half_height, std::min(circle_pos.y, box_pos.y + half_height));
-
- float distance_x = circle_pos.x - closest_x;
- float distance_y = circle_pos.y - closest_y;
- float distance_squared = distance_x * distance_x + distance_y * distance_y;
- if(distance_squared < scaled_circle_radius * scaled_circle_radius){
- vec2 delta = circle_pos - box_pos;
+ // Find the closest point on the box to the circle's center
+ float closest_x
+ = std::max(box_pos.x - half_width, std::min(circle_pos.x, box_pos.x + half_width));
+ float closest_y
+ = std::max(box_pos.y - half_height, std::min(circle_pos.y, box_pos.y + half_height));
- // Clamp circle center to the nearest point on the box
- vec2 closest_point;
- closest_point.x = std::clamp(delta.x, -half_width, half_width);
- closest_point.y = std::clamp(delta.y, -half_height, half_height);
+ float distance_x = circle_pos.x - closest_x;
+ float distance_y = circle_pos.y - closest_y;
+ float distance_squared = distance_x * distance_x + distance_y * distance_y;
+ if (distance_squared < scaled_circle_radius * scaled_circle_radius) {
+ vec2 delta = circle_pos - box_pos;
- // Find the vector from the circle center to the closest point
- vec2 closest_delta = delta - closest_point;
+ // Clamp circle center to the nearest point on the box
+ vec2 closest_point;
+ closest_point.x = std::clamp(delta.x, -half_width, half_width);
+ closest_point.y = std::clamp(delta.y, -half_height, half_height);
- float distance = std::sqrt(closest_delta.x * closest_delta.x + closest_delta.y * closest_delta.y);
- vec2 collision_normal = closest_delta / distance;
+ // Find the vector from the circle center to the closest point
+ vec2 closest_delta = delta - closest_point;
- // Compute penetration depth
- float penetration_depth = scaled_circle_radius - distance;
+ float distance
+ = std::sqrt(closest_delta.x * closest_delta.x + closest_delta.y * closest_delta.y);
+ vec2 collision_normal = closest_delta / distance;
// Compute the resolution vector
return vec2{collision_normal * penetration_depth};
@@ -335,10 +326,13 @@ vec2 CollisionSystem::get_box_circle_detection(const BoxColliderInternal & box,
return vec2{NAN, NAN};;
}
-vec2 CollisionSystem::get_circle_circle_detection(const CircleColliderInternal & circle1, const CircleColliderInternal & circle2) const {
+vec2 CollisionSystem::get_circle_circle_detection(
+ const CircleColliderInternal & circle1, const CircleColliderInternal & circle2) const {
// Get current positions of colliders
- vec2 final_position1 = AbsolutePosition::get_position(circle1.transform, circle1.collider.offset);
- vec2 final_position2 = AbsolutePosition::get_position(circle2.transform, circle2.collider.offset);
+ vec2 final_position1
+ = AbsolutePosition::get_position(circle1.transform, circle1.collider.offset);
+ vec2 final_position2
+ = AbsolutePosition::get_position(circle2.transform, circle2.collider.offset);
// Scale dimensions
float scaled_circle1 = circle1.collider.radius * circle1.transform.scale;
@@ -376,7 +370,8 @@ vec2 CollisionSystem::get_circle_circle_detection(const CircleColliderInternal &
return vec2{NAN, NAN};;
}
-CollisionSystem::Direction CollisionSystem::resolution_correction(vec2 & resolution,const Rigidbody::Data & rigidbody) {
+CollisionSystem::Direction
+CollisionSystem::resolution_correction(vec2 & resolution, const Rigidbody::Data & rigidbody) {
// Calculate the other value to move back correctly
// If only X or Y has a value determine what is should be to move back.
@@ -384,63 +379,64 @@ CollisionSystem::Direction CollisionSystem::resolution_correction(vec2 & resolut
// If both are not zero a perfect corner has been hit
if (resolution.x != 0 && resolution.y != 0) {
resolution_direction = Direction::BOTH;
- // If x is not zero a horizontal action was latest action.
+ // If x is not zero a horizontal action was latest action.
} else if (resolution.x != 0) {
resolution_direction = Direction::X_DIRECTION;
// If both are 0 resolution y should not be changed (y_velocity can be 0 by kinematic object movement)
if (rigidbody.linear_velocity.x != 0 && rigidbody.linear_velocity.y != 0)
- resolution.y = -rigidbody.linear_velocity.y * (resolution.x / rigidbody.linear_velocity.x);
+ resolution.y
+ = -rigidbody.linear_velocity.y * (resolution.x / rigidbody.linear_velocity.x);
} else if (resolution.y != 0) {
resolution_direction = Direction::Y_DIRECTION;
// If both are 0 resolution x should not be changed (x_velocity can be 0 by kinematic object movement)
if (rigidbody.linear_velocity.x != 0 && rigidbody.linear_velocity.y != 0)
- resolution.x = -rigidbody.linear_velocity.x * (resolution.y / rigidbody.linear_velocity.y);
+ resolution.x
+ = -rigidbody.linear_velocity.x * (resolution.y / rigidbody.linear_velocity.y);
}
return resolution_direction;
}
-CollisionSystem::CollisionInfo CollisionSystem::get_collision_info(const CollisionInternal & in_self, const CollisionInternal & in_other) const{
+CollisionSystem::CollisionInfo
+CollisionSystem::get_collision_info(const CollisionInternal & in_self,
+ const CollisionInternal & in_other) const {
- crepe::CollisionSystem::ColliderInfo self {
- .transform = in_self.info.transform,
- .rigidbody = in_self.info.rigidbody,
- .metadata = in_self.info.metadata,
+ crepe::CollisionSystem::ColliderInfo self{
+ .transform = in_self.info.transform,
+ .rigidbody = in_self.info.rigidbody,
+ .metadata = in_self.info.metadata,
};
- crepe::CollisionSystem::ColliderInfo other {
- .transform = in_other.info.transform,
- .rigidbody = in_other.info.rigidbody,
- .metadata = in_other.info.metadata,
+ crepe::CollisionSystem::ColliderInfo other{
+ .transform = in_other.info.transform,
+ .rigidbody = in_other.info.rigidbody,
+ .metadata = in_other.info.metadata,
};
- struct CollisionInfo collision_info{
- .self = self,
- .other = other,
- .resolution = in_self.resolution,
+ struct CollisionInfo collision_info {
+ .self = self, .other = other, .resolution = in_self.resolution,
.resolution_direction = in_self.resolution_direction,
};
return collision_info;
}
void CollisionSystem::determine_collision_handler(const CollisionInfo & info) {
- Rigidbody::BodyType self_type = info.self.rigidbody.data.body_type;
- Rigidbody::BodyType other_type = info.other.rigidbody.data.body_type;
+ Rigidbody::BodyType self_type = info.self.rigidbody.data.body_type;
+ Rigidbody::BodyType other_type = info.other.rigidbody.data.body_type;
bool self_kinematic = info.self.rigidbody.data.kinematic_collision;
bool other_kinematic = info.other.rigidbody.data.kinematic_collision;
// Inverted collision info
CollisionInfo inverted = -info;
// If both objects are static skip handle call collision script
- if (self_type == STATIC
- && other_type == STATIC)
- return;
+ if (self_type == STATIC && other_type == STATIC) return;
// First body is not dynamic
if (self_type != DYNAMIC) {
bool static_collision = self_type == STATIC && other_type == DYNAMIC;
- bool kinematic_collision = self_type == KINEMATIC && other_type == DYNAMIC && self_kinematic;
+ bool kinematic_collision
+ = self_type == KINEMATIC && other_type == DYNAMIC && self_kinematic;
- // Handle collision
+ // Handle collision
if (static_collision || kinematic_collision) this->static_collision_handler(inverted);
// Call scripts
this->call_collision_events(inverted);
@@ -451,7 +447,7 @@ void CollisionSystem::determine_collision_handler(const CollisionInfo & info) {
if (other_type != DYNAMIC) {
bool static_collision = other_type == STATIC;
bool kinematic_collision = other_type == KINEMATIC && other_kinematic;
- // Handle collision
+ // Handle collision
if (static_collision || kinematic_collision) this->static_collision_handler(info);
// Call scripts
this->call_collision_events(info);
@@ -459,18 +455,18 @@ void CollisionSystem::determine_collision_handler(const CollisionInfo & info) {
}
// Dynamic
- // Handle collision
+ // Handle collision
this->dynamic_collision_handler(info);
// Call scripts
this->call_collision_events(info);
}
void CollisionSystem::static_collision_handler(const CollisionInfo & info) {
-
+
vec2 & transform_pos = info.self.transform.position;
float elasticity = info.self.rigidbody.data.elasticity_coefficient;
vec2 & rigidbody_vel = info.self.rigidbody.data.linear_velocity;
-
+
// Move object back using calculate move back value
transform_pos += info.resolution;
@@ -588,10 +584,5 @@ void CollisionSystem::call_collision_events(const CollisionInfo & info) {
CollisionEvent data_inverted(-info);
EventManager & emgr = this->mediator.event_manager;
emgr.trigger_event<CollisionEvent>(data, info.self.transform.game_object_id);
- emgr.trigger_event<CollisionEvent>(data_inverted,
- -info.self.transform.game_object_id);
+ emgr.trigger_event<CollisionEvent>(data_inverted, -info.self.transform.game_object_id);
}
-
-
-
-
diff --git a/src/crepe/system/CollisionSystem.h b/src/crepe/system/CollisionSystem.h
index b7808f1..7be280a 100644
--- a/src/crepe/system/CollisionSystem.h
+++ b/src/crepe/system/CollisionSystem.h
@@ -21,6 +21,7 @@ namespace crepe {
class CollisionSystem : public System {
public:
using System::System;
+
private:
//! Enum representing movement directions during collision resolution.
enum class Direction {
@@ -33,13 +34,13 @@ private:
//! Movement in both X and Y directions.
BOTH,
};
+
public:
-
//! Structure representing components of the collider
struct ColliderInfo {
- Transform & transform;
- Rigidbody & rigidbody;
- Metadata & metadata;
+ Transform & transform;
+ Rigidbody & rigidbody;
+ Metadata & metadata;
};
/**
@@ -54,7 +55,7 @@ public:
vec2 resolution;
//! The direction of movement for resolving the collision.
Direction resolution_direction = Direction::NONE;
- CollisionInfo operator - () const;
+ CollisionInfo operator-() const;
};
private:
@@ -90,9 +91,9 @@ private:
//! Structure of a collider with additional components
template <typename ColliderType>
struct ColliderInternal {
- ColliderType& collider;
- Transform& transform;
- Rigidbody& rigidbody;
+ ColliderType & collider;
+ Transform & transform;
+ Rigidbody & rigidbody;
};
//! Predefined BoxColliderInternal. (System is only made for this type)
using BoxColliderInternal = ColliderInternal<BoxCollider>;
@@ -113,7 +114,8 @@ private:
* \param collider2 Second collider variant (BoxCollider or CircleCollider).
* \return The combined type of the two colliders.
*/
- CollisionInternalType get_collider_type(const collider_variant & collider1, const collider_variant & collider2) const;
+ CollisionInternalType get_collider_type(const collider_variant & collider1,
+ const collider_variant & collider2) const;
private:
/**
@@ -126,8 +128,8 @@ private:
* \param data1 Collision data for the first collider.
* \param data2 Collision data for the second collider.
*/
- CollisionInfo get_collision_info(const CollisionInternal & data1, const CollisionInternal & data2) const;
-
+ CollisionInfo get_collision_info(const CollisionInternal & data1,
+ const CollisionInternal & data2) const;
/**
* \brief Corrects the collision resolution vector and determines its direction.
@@ -142,8 +144,7 @@ private:
* \param rigidbody rigidbody data used to correct resolution
* \return A Direction indicating the resolution direction
*/
- Direction resolution_correction(vec2 & resolution,const Rigidbody::Data & rigidbody);
-
+ Direction resolution_correction(vec2 & resolution, const Rigidbody::Data & rigidbody);
/**
* \brief Determines the appropriate collision handler for a given collision event.
@@ -220,7 +221,8 @@ private:
* \param other_metadata Rigidbody of second object
* \return Returns true if there is at least one comparison found.
*/
- bool should_collide(const CollisionInternal & self, const CollisionInternal & other) const; //done
+ bool should_collide(const CollisionInternal & self,
+ const CollisionInternal & other) const; //done
/**
* \brief Checks for collision between two colliders.
@@ -234,7 +236,8 @@ private:
* \param type The type of collider pair.
* \return True if a collision is detected, otherwise false.
*/
- bool detect_collision(CollisionInternal & first_info, CollisionInternal & second_info, const CollisionInternalType & type);
+ bool detect_collision(CollisionInternal & first_info, CollisionInternal & second_info,
+ const CollisionInternalType & type);
/**
* \brief Detects collisions between two BoxColliders.
@@ -247,7 +250,8 @@ private:
* \param box2 Information about the second BoxCollider.
* \return If colliding, returns the resolution vector; otherwise, returns {NaN, NaN}.
*/
- vec2 get_box_box_detection(const BoxColliderInternal & box1, const BoxColliderInternal & box2) const;
+ vec2 get_box_box_detection(const BoxColliderInternal & box1,
+ const BoxColliderInternal & box2) const;
/**
* \brief Check collision for box on circle collider
@@ -260,7 +264,8 @@ private:
* \param circle2 Information about the circleCollider.
* \return If colliding, returns the resolution vector; otherwise, returns {NaN, NaN}.
*/
- vec2 get_box_circle_detection(const BoxColliderInternal & box1, const CircleColliderInternal & circle2) const;
+ vec2 get_box_circle_detection(const BoxColliderInternal & box1,
+ const CircleColliderInternal & circle2) const;
/**
* \brief Check collision for circle on circle collider
@@ -273,7 +278,8 @@ private:
* \param circle2 Information about the second circleCollider.
* \return If colliding, returns the resolution vector; otherwise, returns {NaN, NaN}.
*/
- vec2 get_circle_circle_detection(const CircleColliderInternal & circle1, const CircleColliderInternal & circle2) const;
+ vec2 get_circle_circle_detection(const CircleColliderInternal & circle1,
+ const CircleColliderInternal & circle2) const;
};
/**
diff --git a/src/crepe/system/ParticleSystem.cpp b/src/crepe/system/ParticleSystem.cpp
index 31c1800..e66c603 100644
--- a/src/crepe/system/ParticleSystem.cpp
+++ b/src/crepe/system/ParticleSystem.cpp
@@ -51,7 +51,8 @@ void ParticleSystem::emit_particle(ParticleEmitter & emitter, const Transform &
vec2 initial_position = AbsolutePosition::get_position(transform, emitter.data.offset);
float random_angle
- = this->generate_random_angle(emitter.data.min_angle+transform.rotation, emitter.data.max_angle+transform.rotation);
+ = this->generate_random_angle(emitter.data.min_angle + transform.rotation,
+ emitter.data.max_angle + transform.rotation);
float random_speed
= this->generate_random_speed(emitter.data.min_speed, emitter.data.max_speed);
diff --git a/src/crepe/system/RenderSystem.cpp b/src/crepe/system/RenderSystem.cpp
index 9d8e683..8c31743 100644
--- a/src/crepe/system/RenderSystem.cpp
+++ b/src/crepe/system/RenderSystem.cpp
@@ -16,9 +16,9 @@
#include "../facade/Texture.h"
#include "../manager/ComponentManager.h"
#include "../manager/ResourceManager.h"
-#include "util/AbsolutePosition.h"
#include "api/Text.h"
#include "facade/Font.h"
+#include "util/AbsolutePosition.h"
#include "RenderSystem.h"
#include "types.h"