struct InstanceInput { @location(2) position: vec2, @location(3) velocity: vec2, @location(4) rotation_0: vec2, @location(5) rotation_1: vec2, @location(6) size: f32, @location(7) created: f32, @location(8) expires: f32, @location(9) texture_index: u32, }; struct VertexInput { @location(0) position: vec3, @location(1) texture_coords: vec2, } struct VertexOutput { @builtin(position) position: vec4, @location(0) texture_coords: vec2, @location(1) texture_index: u32, } @group(1) @binding(0) var global: GlobalUniform; struct GlobalUniform { camera_position: vec2, camera_zoom: vec2, camera_zoom_limits: vec2, window_size: vec2, window_aspect: vec2, starfield_texture: vec2, starfield_tile_size: vec2, starfield_size_limits: vec2, current_time: vec2, }; @group(0) @binding(0) var texture_array: binding_array>; @group(0) @binding(1) var sampler_array: binding_array; @vertex fn vertex_main( vertex: VertexInput, instance: InstanceInput, ) -> VertexOutput { var out: VertexOutput; out.texture_coords = vertex.texture_coords; out.texture_index = instance.texture_index; if instance.expires < global.current_time.x { out.position = vec4(2.0, 2.0, 0.0, 1.0); return out; } let age = instance.created - global.current_time.x; let rotation = mat2x2(instance.rotation_0, instance.rotation_1); var scale: f32 = instance.size / global.camera_zoom.x; var pos: vec2 = vec2(vertex.position.x, vertex.position.y); pos = pos * vec2( 1.0 * scale / global.window_aspect.x, scale ); pos = rotation * pos; var ipos: vec2 = ( vec2(instance.position.x, instance.position.y) + (instance.velocity * age) - global.camera_position ); pos = pos + vec2( ipos.x / (global.camera_zoom.x/2.0) / global.window_aspect.x, ipos.y / (global.camera_zoom.x/2.0) ); out.position = vec4(pos, 0.0, 1.0); return out; } @fragment fn fragment_main(in: VertexOutput) -> @location(0) vec4 { return textureSampleLevel( texture_array[in.texture_index], sampler_array[0], in.texture_coords, 0.0 ).rgba; }