/* Shader from Godot Shaders - the free shader library. godotshaders.com/shader/god-rays Feel free to use, improve and change this shader according to your needs and consider sharing the modified result on godotshaders.com. */ shader_type canvas_item; uniform float angle = -0.3; uniform float position = -0.2; uniform float spread : hint_range(0.0, 1.0) = 0.5; uniform float cutoff : hint_range(-1.0, 1.0) = 0.1; uniform float falloff : hint_range(0.0, 1.0) = 0.2; uniform float edge_fade : hint_range(0.0, 1.0) = 0.15; uniform float speed = 1.0; uniform float ray1_density = 8.0; uniform float ray2_density = 30.0; uniform float ray2_intensity : hint_range(0.0, 1.0) = 0.3; uniform vec4 color = vec4(1.0, 0.9, 0.65, 0.8); uniform bool hdr = false; uniform float seed = 5.0; uniform sampler2D SCREEN_TEXTURE : hint_screen_texture, filter_linear_mipmap; // Random and noise functions from Book of Shader's chapter on Noise. float random(vec2 _uv) { return fract(sin(dot(_uv.xy, vec2(12.9898, 78.233))) * 43758.5453123); } float noise (in vec2 uv) { vec2 i = floor(uv); vec2 f = fract(uv); // Four corners in 2D of a tile float a = random(i); float b = random(i + vec2(1.0, 0.0)); float c = random(i + vec2(0.0, 1.0)); float d = random(i + vec2(1.0, 1.0)); // Smooth Interpolation // Cubic Hermine Curve. Same as SmoothStep() vec2 u = f * f * (3.0-2.0 * f); // Mix 4 coorners percentages return mix(a, b, u.x) + (c - a)* u.y * (1.0 - u.x) + (d - b) * u.x * u.y; } mat2 rotate(float _angle){ return mat2(vec2(cos(_angle), -sin(_angle)), vec2(sin(_angle), cos(_angle))); } vec4 screen(vec4 base, vec4 blend){ return 1.0 - (1.0 - base) * (1.0 - blend); } void fragment() { // Rotate, skew and move the UVs vec2 transformed_uv = ( rotate(angle) * (UV - position) ) / ( (UV.y + spread) - (UV.y * spread) ); // Animate the ray according the the new transformed UVs vec2 ray1 = vec2(transformed_uv.x * ray1_density + sin(TIME * 0.1 * speed) * (ray1_density * 0.2) + seed, 1.0); vec2 ray2 = vec2(transformed_uv.x * ray2_density + sin(TIME * 0.2 * speed) * (ray1_density * 0.2) + seed, 1.0); // Cut off the ray's edges float cut = step(cutoff, transformed_uv.x) * step(cutoff, 1.0 - transformed_uv.x); ray1 *= cut; ray2 *= cut; // Apply the noise pattern (i.e. create the rays) float rays; if (hdr){ // This is not really HDR, but check this to not clamp the two merged rays making // their values go over 1.0. Can make for some nice effect rays = noise(ray1) + (noise(ray2) * ray2_intensity); } else{ rays = clamp(noise(ray1) + (noise(ray2) * ray2_intensity), 0., 1.); } // Fade out edges rays *= smoothstep(0.0, falloff, (1.0 - UV.y)); // Bottom rays *= smoothstep(0.0 + cutoff, edge_fade + cutoff, transformed_uv.x); // Left rays *= smoothstep(0.0 + cutoff, edge_fade + cutoff, 1.0 - transformed_uv.x); // Right // Color to the rays vec3 shine = vec3(rays) * color.rgb; // Try different blending modes for a nicer effect. "Screen" is included in the code, // but take a look at https://godotshaders.com/snippet/blending-modes/ for more. // With "Screen" blend mode: shine = screen(texture(SCREEN_TEXTURE, SCREEN_UV), vec4(color)).rgb; COLOR = vec4(shine, rays * color.a); }