use bevy_core::Byteable; use bevy_ecs::reflect::ReflectComponent; use bevy_reflect::Reflect; use bevy_render::color::Color; use bevy_transform::components::GlobalTransform; /// A point light #[derive(Debug, Reflect)] #[reflect(Component)] pub struct PointLight { pub color: Color, pub intensity: f32, pub range: f32, } impl Default for PointLight { fn default() -> Self { PointLight { color: Color::rgb(1.0, 1.0, 1.0), intensity: 200.0, range: 20.0, } } } #[repr(C)] #[derive(Debug, Clone, Copy)] pub(crate) struct PointLightUniform { pub pos: [f32; 4], pub color: [f32; 4], pub inverse_range_squared: f32, } unsafe impl Byteable for PointLightUniform {} impl PointLightUniform { pub fn from(light: &PointLight, global_transform: &GlobalTransform) -> PointLightUniform { let (x, y, z) = global_transform.translation.into(); // premultiply color by intensity // we don't use the alpha at all, so no reason to multiply only [0..3] let color: [f32; 4] = (light.color * light.intensity).into(); PointLightUniform { pos: [x, y, z, 1.0], color, inverse_range_squared: 1.0 / (light.range * light.range), } } } // Ambient light color. #[derive(Debug)] pub struct AmbientLight { pub color: Color, /// Color is premultiplied by brightness before being passed to the shader pub brightness: f32, } impl Default for AmbientLight { fn default() -> Self { Self { color: Color::rgb(1.0, 1.0, 1.0), brightness: 0.05, } } }