227 lines
5.7 KiB
Plaintext
227 lines
5.7 KiB
Plaintext
// INCLUDE: global uniform header
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struct InstanceInput {
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@location(2) texture_index: vec2<u32>,
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@location(3) texture_fade: f32,
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@location(4) object_index: u32,
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@location(5) color: vec4<f32>,
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};
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struct VertexInput {
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@location(0) position: vec3<f32>,
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@location(1) texture_coords: vec2<f32>,
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};
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struct VertexOutput {
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@builtin(position) position: vec4<f32>,
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@location(0) tween: f32,
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@location(1) texture_index_a: u32,
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@location(2) texture_coords_a: vec2<f32>,
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@location(3) texture_index_b: u32,
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@location(4) texture_coords_b: vec2<f32>,
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@location(5) color: vec4<f32>,
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};
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@group(0) @binding(0)
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var texture_array: binding_array<texture_2d<f32>>;
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@group(0) @binding(1)
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var sampler_array: binding_array<sampler>;
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fn transform_vertex(obj: ObjectData, vertex_position: vec2<f32>, texture_index: u32) -> vec4<f32> {
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// Object scale
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var scale: f32 = obj.size / (global_data.camera_zoom * obj.zpos);
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if obj.is_child == 1u {
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scale /= objects[obj.parent].zpos;
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}
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let texture = global_atlas[texture_index];
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// Apply scale and sprite aspect
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// Note that our mesh starts centered at (0, 0). This is important!
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var pos: vec2<f32> = vec2(
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vertex_position.x * scale * (texture.width / texture.height),
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vertex_position.y * scale
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);
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// Apply rotation
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pos = mat2x2(
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vec2(cos(obj.angle - 1.5708), sin(obj.angle - 1.5708)),
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vec2(-sin(obj.angle - 1.5708), cos(obj.angle - 1.5708))
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) * pos;
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// Correct for screen aspect, preserving height
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// This must be done AFTER rotation.
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// (It's thus done later if this is a child)
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if obj.is_child == u32(0) {
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pos = vec2(
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pos.x / global_data.window_aspect,
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pos.y
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);
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}
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// Translate
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//
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// Note that we divide camera zoom by two.
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// The height of the viewport is `zoom` in game units,
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// but it's 2 in screen units (since coordinates range from -1 to 1)
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if obj.is_child == u32(0) {
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let trans = (
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vec2(obj.xpos, obj.ypos) -
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vec2(global_data.camera_position_x, global_data.camera_position_y)
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) / obj.zpos;
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pos = pos + vec2(
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trans.x / (global_data.camera_zoom / 2.0) / global_data.window_aspect,
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trans.y / (global_data.camera_zoom / 2.0)
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);
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}
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if obj.is_child == u32(1) {
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let parent = objects[obj.parent];
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// Apply translation relative to parent
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// Note that obj.zpos is ignored
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pos = pos + vec2(
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obj.xpos / (global_data.camera_zoom / 2.0) / global_data.window_aspect,
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obj.ypos / (global_data.camera_zoom / 2.0)
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) / parent.zpos;
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// Apply parent's rotation
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pos = mat2x2(
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vec2(cos(parent.angle - 1.5708), sin(parent.angle - 1.5708)),
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vec2(-sin(parent.angle - 1.5708), cos(parent.angle - 1.5708))
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) * pos;
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// Correct for screen aspect, preserving height
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pos = vec2(
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pos.x / global_data.window_aspect,
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pos.y
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);
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// Apply parent's translation
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let ptrans = (
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vec2(parent.xpos, parent.ypos) -
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vec2(global_data.camera_position_x, global_data.camera_position_y)
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) / parent.zpos;
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pos = pos + vec2(
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ptrans.x / (global_data.camera_zoom / 2.0) / global_data.window_aspect,
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ptrans.y / (global_data.camera_zoom / 2.0)
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);
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}
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return vec4<f32>(pos, 0.0, 1.0);
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}
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@vertex
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fn vertex_main(
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vertex: VertexInput,
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instance: InstanceInput,
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) -> VertexOutput {
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var out: VertexOutput;
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// Pick texture size by the size of the visible texture
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// (texture index 0 is special, it's the "hidden" texture)
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if instance.texture_index.x == 0u && instance.texture_index.y == 0u {
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out.position = vec4<f32>(0.0, 0.0, 0.0, 1.0);
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} else if instance.texture_index.x == 0u {
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out.position = transform_vertex(
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objects[instance.object_index],
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vertex.position.xy,
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instance.texture_index.y
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);
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} else if instance.texture_index.y == 0u {
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out.position = transform_vertex(
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objects[instance.object_index],
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vertex.position.xy,
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instance.texture_index.x
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);
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} else {
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out.position = transform_vertex(
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objects[instance.object_index],
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vertex.position.xy,
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instance.texture_index.x
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);
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}
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out.color = instance.color;
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out.tween = instance.texture_fade;
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// Texture 0 is special, it's the empty texture
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if instance.texture_index.x == 0u {
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out.texture_index_a = 0u;
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out.texture_coords_a = vec2(0.0, 0.0);
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} else {
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let t = global_atlas[instance.texture_index.x];
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out.texture_index_a = t.atlas_texture;
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out.texture_coords_a = vec2(t.xpos, t.ypos);
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if vertex.texture_coords.x == 1.0 {
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out.texture_coords_a = out.texture_coords_a + vec2(t.width, 0.0);
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}
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if vertex.texture_coords.y == 1.0 {
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out.texture_coords_a = out.texture_coords_a + vec2(0.0, t.height);
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}
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}
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if instance.texture_index.y == 0u {
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out.texture_index_b = u32(0u);
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out.texture_coords_b = vec2(0.0, 0.0);
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} else {
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let b = global_atlas[instance.texture_index.y];
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out.texture_index_b = u32(b.atlas_texture);
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out.texture_coords_b = vec2(b.xpos, b.ypos);
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if vertex.texture_coords.x == 1.0 {
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out.texture_coords_b = out.texture_coords_b + vec2(b.width, 0.0);
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}
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if vertex.texture_coords.y == 1.0 {
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out.texture_coords_b = out.texture_coords_b + vec2(0.0, b.height);
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}
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}
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return out;
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}
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@fragment
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fn fragment_main(in: VertexOutput) -> @location(0) vec4<f32> {
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var texture_a: vec4<f32> = vec4(0.0, 0.0, 0.0, 0.0);
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if !(
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(in.texture_index_a == 0u) &&
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(in.texture_coords_a.x == 0.0) &&
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(in.texture_coords_a.y == 0.0)
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) {
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texture_a = textureSampleLevel(
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texture_array[in.texture_index_a],
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sampler_array[0],
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in.texture_coords_a,
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0.0
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).rgba;
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}
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var texture_b: vec4<f32> = vec4(0.0, 0.0, 0.0, 0.0);
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if !(
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(in.texture_index_b == 0u) &&
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(in.texture_coords_b.x == 0.0) &&
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(in.texture_coords_b.y == 0.0)
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) {
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texture_b = textureSampleLevel(
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texture_array[in.texture_index_b],
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sampler_array[0],
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in.texture_coords_b,
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0.0
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).rgba;
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}
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let color = mix(
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texture_a,
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texture_b,
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in.tween
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) * in.color;
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return color;
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}
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