mirror of
https://github.com/Ttanasart-pt/Pixel-Composer.git
synced 2024-12-26 06:56:45 +01:00
206 lines
5.2 KiB
GLSL
206 lines
5.2 KiB
GLSL
//
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// Simple passthrough fragment shader
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//
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varying vec2 v_vTexcoord;
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varying vec4 v_vColour;
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#define GRADIENT_LIMIT 128
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uniform float seed;
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uniform float strength;
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uniform float dist;
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uniform int useMap;
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uniform sampler2D strengthMap;
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uniform int gradient_blend;
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uniform vec4 gradient_color[GRADIENT_LIMIT];
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uniform float gradient_time[GRADIENT_LIMIT];
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uniform int gradient_keys;
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uniform float alpha_curve[64];
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uniform int curve_amount;
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uniform float randomAmount;
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float eval_curve_segment_t(in float _y0, in float ax0, in float ay0, in float bx1, in float by1, in float _y1, in float prog) {
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return _y0 * pow(1. - prog, 3.) +
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ay0 * 3. * pow(1. - prog, 2.) * prog +
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by1 * 3. * (1. - prog) * pow(prog, 2.) +
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_y1 * pow(prog, 3.);
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}
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float eval_curve_segment_x(in float _y0, in float ax0, in float ay0, in float bx1, in float by1, in float _y1, in float _x) {
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float st = 0.;
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float ed = 1.;
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float _prec = 0.0001;
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float _xt = _x;
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int _binRep = 8;
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if(_x <= 0.) return _y0;
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if(_x >= 1.) return _y1;
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if(_y0 == ay0 && _y0 == by1 && _y0 == _y1) return _y0;
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for(int i = 0; i < _binRep; i++) {
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float _ftx = 3. * pow(1. - _xt, 2.) * _xt * ax0
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+ 3. * (1. - _xt) * pow(_xt, 2.) * bx1
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+ pow(_xt, 3.);
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if(abs(_ftx - _x) < _prec)
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return eval_curve_segment_t(_y0, ax0, ay0, bx1, by1, _y1, _xt);
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if(_xt < _x) st = _xt;
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else ed = _xt;
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_xt = (st + ed) / 2.;
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}
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int _newRep = 8;
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for(int i = 0; i < _newRep; i++) {
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float slope = (9. * ax0 - 9. * bx1 + 3.) * _xt * _xt
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+ (-12. * ax0 + 6. * bx1) * _xt
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+ 3. * ax0;
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float _ftx = 3. * pow(1. - _xt, 2.) * _xt * ax0
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+ 3. * (1. - _xt) * pow(_xt, 2.) * bx1
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+ pow(_xt, 3.)
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- _x;
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_xt -= _ftx / slope;
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if(abs(_ftx) < _prec)
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break;
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}
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_xt = clamp(_xt, 0., 1.);
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return eval_curve_segment_t(_y0, ax0, ay0, bx1, by1, _y1, _xt);
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}
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float curveEval(in float _x) {
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_x = clamp(_x, 0., 1.);
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int segments = curve_amount / 6 - 1;
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for( int i = 0; i < segments; i++ ) {
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int ind = i * 6;
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float _x0 = alpha_curve[ind + 2];
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float _y0 = alpha_curve[ind + 3];
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//float bx0 = _x0 + alpha_curve[ind + 0];
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//float by0 = _y0 + alpha_curve[ind + 1];
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float ax0 = _x0 + alpha_curve[ind + 4];
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float ay0 = _y0 + alpha_curve[ind + 5];
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float _x1 = alpha_curve[ind + 6 + 2];
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float _y1 = alpha_curve[ind + 6 + 3];
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float bx1 = _x1 + alpha_curve[ind + 6 + 0];
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float by1 = _y1 + alpha_curve[ind + 6 + 1];
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//float ax1 = _x1 + alpha_curve[ind + 6 + 4];
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//float ay1 = _y1 + alpha_curve[ind + 6 + 5];
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if(_x < _x0) continue;
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if(_x > _x1) continue;
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return eval_curve_segment_x(_y0, ax0, ay0, bx1, by1, _y1, (_x - _x0) / (_x1 - _x0));
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}
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return alpha_curve[0];
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}
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vec3 rgb2hsv(vec3 c) {
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vec4 K = vec4(0.0, -1.0 / 3.0, 2.0 / 3.0, -1.0);
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vec4 p = mix(vec4(c.bg, K.wz), vec4(c.gb, K.xy), step(c.b, c.g));
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vec4 q = mix(vec4(p.xyw, c.r), vec4(c.r, p.yzx), step(p.x, c.r));
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float d = q.x - min(q.w, q.y);
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float e = 0.0000000001;
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return vec3(abs(q.z + (q.w - q.y) / (6.0 * d + e)), d / (q.x + e), q.x);
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}
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vec3 hsv2rgb(vec3 c) {
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vec4 K = vec4(1.0, 2.0 / 3.0, 1.0 / 3.0, 3.0);
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vec3 p = abs(fract(c.xxx + K.xyz) * 6.0 - K.www);
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return c.z * mix(K.xxx, clamp(p - K.xxx, 0.0, 1.0), c.y);
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}
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float hueDist(float a0, float a1, float t) {
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float da = fract(a1 - a0);
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float ds = fract(2. * da) - da;
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return a0 + ds * t;
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}
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vec3 hsvMix(vec3 c1, vec3 c2, float t) {
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vec3 h1 = rgb2hsv(c1);
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vec3 h2 = rgb2hsv(c2);
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vec3 h = vec3(0.);
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h.x = h.x + hueDist(h1.x, h2.x, t);
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h.y = mix(h1.y, h2.y, t);
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h.z = mix(h1.z, h2.z, t);
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return hsv2rgb(h);
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}
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vec4 gradientEval(in float prog) {
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vec4 col = vec4(0.);
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for(int i = 0; i < GRADIENT_LIMIT; i++) {
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if(gradient_time[i] == prog) {
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col = gradient_color[i];
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break;
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} else if(gradient_time[i] > prog) {
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if(i == 0)
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col = gradient_color[i];
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else {
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float t = (prog - gradient_time[i - 1]) / (gradient_time[i] - gradient_time[i - 1]);
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if(gradient_blend == 0)
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col = mix(gradient_color[i - 1], gradient_color[i], t);
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else if(gradient_blend == 1)
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col = gradient_color[i - 1];
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else if(gradient_blend == 2)
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col = vec4(hsvMix(gradient_color[i - 1].rgb, gradient_color[i].rgb, t), 1.);
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}
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break;
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}
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if(i >= gradient_keys - 1) {
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col = gradient_color[gradient_keys - 1];
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break;
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}
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}
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return col;
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}
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float frandom (in vec2 st, in float _seed) {
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float f = fract(sin(dot(st.xy, vec2(12.9898, 78.233)) * mod(15.15 + seed, 32.156 + _seed) * 12.588) * 43758.5453123);
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return mix(-1., 1., f);
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}
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vec2 vrandom (in vec2 st) {
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return vec2(frandom(st, 165.874), frandom(st, 98.601));
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}
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void main() {
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vec2 _pos = v_vTexcoord;
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float str = strength;
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vec2 _vec = vrandom(_pos) * str * dist;
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if(useMap == 1) {
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vec4 _map = texture2D( strengthMap, _pos);
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_vec.x *= _map.r;
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_vec.y *= _map.g;
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str *= dot(_map.rg, _map.rg);
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}
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str += frandom(_pos, 12.01) * abs(.1) * str;
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vec2 _new_pos = _pos - _vec;
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vec4 _col = vec4(0.);
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if(_new_pos.x >= 0. && _new_pos.x <= 1. && _new_pos.y >= 0. && _new_pos.y <= 1.) {
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_col = texture2D( gm_BaseTexture, _new_pos );
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_col.rgb *= gradientEval(str + frandom(_pos, 1.235) * randomAmount).rgb;
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_col.a *= curveEval(str + frandom(_pos, 2.984) * randomAmount);
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}
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gl_FragColor = _col;
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}
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