A single header implementation of ECS. Since there isn’t a strict definition of what an ECS is, this library follows the definition presented in this GDC 2017 talk on the implementation used in Overwatch. By this definition an Entity is just an id (aliased to uint32_t by default), a Component has no functionality, a System holds no data, and a World is a collection of Entities, Systems and Components.
This library is probably best used as a reference for learning, since if you’re implementing a game engine you’ll likely want to implement your own ECS anyways. The library is written in C++11 and does not use RTTI or exceptions.
For the complete API documentation see the docs. For a more complete example see the SDL2 implemementation of a simple particle system.
Any struct that is copy constructible and copy assignable can be used as a component. Components do not need to be registered before they are used.
struct Transform {
float x, y;
};
struct Velocity {
float x, y;
};class MoveSystem : public two::System {
public:
void update(two::World *world, float dt) override {
// Returns all entities that have both a Transform and
// a Velocity component.
world->each<Transform, Velocity>([dt](Transform &tf, Velocity &vel) {
tf.x += vel.x * dt;
tf.y += vel.y * dt;
});
}
// May also override System::load(World *), System::draw(World *),
// and System::unload(World *)
};Alternative to world->each:
void draw(two::World *world) override {
// Alternative to the callback based world->each
for (auto entity : world->view<Transform>()) {
auto &tf = world->unpack<Transform>(entity);
printf("(%f, %f)\n", tf.x, tf.y);
}
}Worlds manage systems, entities, components and events. Worlds can be used to load/unload game assets and setup entities and systems.
class MainWorld : public two::World {
public:
void load() override {
// This will call System::load(world)
make_system<MoveSystem>();
auto entity = make_entity();
pack(entity, Transform{0.0f, 0.0f}, Velocity{0.1f, 0.2f});
}
void update(float dt) override {
// This may be done in your engine if all systems
// are updated in the same way.
for (auto *system : systems()) {
system->update(this, dt);
}
}
// May also override World::unload()
};
int main() {
MainWorld world;
world.load();
for (int frame = 0; frame < 100000; ++i) {
// Handle events
// ...
// Update world
world.update(1.0f / 60.0f);
// Render
for (auto *system : world.systems()) {
system->draw(&world);
}
world.collect_unused_entities();
}
world.destroy_systems();
world.unload();
return 0;
}Events can be used to communicate between systems. Each world has independent event channels. Just like components, any data type can be used as an event.
struct KeyDown {
int key;
};
int main() {
two::World world;
world.bind<KeyDown>([](const KeyDown &event) {
printf("Key <%d> was pressed\n", event.key);
return true;
});
world.emit(KeyDown{0x20});
return 0;
}Given that the entity system is unlikely to be the bottleneck in an engine, this library prioritizes flexibility in the API over being as fast as possible.