RhythmGame/shaders/receptors.shader

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shader_type canvas_item;
render_mode blend_premul_alpha;
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const float TAU = 6.283185307;
const float PI = 3.1415926536;
const vec4 dbg_color = vec4(1.0, 0.0, 0.0, 1.0);
uniform int num_receptors = 8;
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uniform float receptor_offset = 0.0;
uniform vec4 line_color : hint_color = vec4(0.0, 0.0, 1.0, 1.0);
uniform vec4 dot_color : hint_color = vec4(0.0, 0.0, 1.0, 1.0);
uniform vec4 shadow_color : hint_color = vec4(0.0, 0.0, 0.0, 0.57);
//uniform float bps = 1.0;
uniform float line_thickness = 0.006;
uniform float dot_radius = 0.033;
uniform float shadow_thickness = 0.01;
uniform float px = 0.002; // Represents 1px in UV space, for AA purposes
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uniform float px2 = 0.004; // Represents 2px in UV space, for AA purposes
//void vertex() {
//}
float angle_diff(float a, float b) {
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float d = mod((a - b), TAU);
if (d > PI) d = TAU - d;
return d;
}
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vec2 line_alpha(float dist) {
// Returns [line, shadow]
float d = abs(dist - 1.0) - line_thickness;
return clamp(vec2(-1.0 - d/px, 1.0 - d/shadow_thickness), 0.0, 1.0);
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}
vec2 dot_alpha(vec2 uv) {
// Returns [dot, shadow]
vec2 output = vec2(0.0);
// Iterate over all the receptors and check distance to them
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float receptor_spacing = TAU/float(num_receptors);
for (float rads=receptor_offset; rads<TAU; rads+=receptor_spacing){
// Check for dot distance
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vec2 dot_uv = vec2(cos(rads), -sin(rads));
float d = distance(uv, dot_uv) - dot_radius;
output = clamp(vec2(-1.0 - d/px, 1.0 - d/shadow_thickness), output, vec2(1.0));
}
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return output;
}
void fragment() {
if (COLOR.rgba != dbg_color) { // Can't use return in fragment() function
COLOR.rgba = vec4(0.0);
lowp float dist = distance(UV, vec2(0.0));
lowp float angle = atan(-UV.y, UV.x);
vec4 lds_alpha = vec4(0.0);
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lds_alpha.yw = dot_alpha(UV);
lds_alpha.xz = clamp(line_alpha(dist), vec2(0.0), vec2(1.0-lds_alpha.y));
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lds_alpha.z += lds_alpha.w*(1.0-lds_alpha.z);
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lds_alpha = clamp(lds_alpha, 0.0, 1.0);
lds_alpha.z *= 1.0-min(dot(lds_alpha.xy, vec2(1.0)), 1.0);
lds_alpha.z = max(pow(lds_alpha.z, 2.0)-0.125, 0.0);
lds_alpha.z *= shadow_color.a;
COLOR.rgb = (line_color.rgb*lds_alpha.x) + (dot_color.rgb*lds_alpha.y) + (shadow_color.rgb*lds_alpha.z);
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COLOR.a = lds_alpha.y + lds_alpha.x*(1.0-lds_alpha.y);
COLOR.a += lds_alpha.z*(1.0-COLOR.a);
COLOR = clamp(COLOR, 0.0, 1.0); }
}