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Consolidate and rename newton_fractal shader

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Grant Sanderson 2021-10-15 12:00:29 -07:00
parent e10a752c00
commit 14fbed76da
4 changed files with 25 additions and 146 deletions
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115
manimlib/shaders/meta_poly_fractal/frag.glsl
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@ -1,115 +0,0 @@
#version 330
uniform vec3 light_source_position;
uniform float gloss;
uniform float shadow;
uniform float focal_distance;
uniform vec4 color0;
uniform vec4 color1;
uniform vec4 color2;
uniform vec2 root0;
uniform vec2 root1;
// uniform vec2 coef0;
// uniform vec2 coef1;
// uniform vec2 coef2;
// uniform vec2 coef3;
uniform vec2 z0;
uniform float n_roots;
uniform float n_steps;
uniform float julia_highlight;
uniform float color_mult;
uniform vec2 frame_shape;
in vec3 xyz_coords;
out vec4 frag_color;
#INSERT finalize_color.glsl
#INSERT complex_functions.glsl
const int MAX_DEGREE = 3;
vec2 poly(vec2 z, vec2[MAX_DEGREE + 1] coefs){
vec2 result = vec2(0.0);
for(int n = 0; n < int(n_roots) + 1; n++){
result += complex_mult(coefs[n], complex_pow(z, n));
}
return result;
}
vec2 dpoly(vec2 z, vec2[MAX_DEGREE + 1] coefs){
vec2 result = vec2(0.0);
for(int n = 1; n < int(n_roots) + 1; n++){
result += n * complex_mult(coefs[n], complex_pow(z, n - 1));
}
return result;
}
vec2 seek_root(vec2 z, vec2[MAX_DEGREE + 1] coefs, int max_steps, out float n_iters){
float last_len;
float curr_len;
float threshold = 1e-3;
for(int i = 0; i < max_steps; i++){
last_len = curr_len;
n_iters = float(i);
vec2 step = complex_div(poly(z, coefs), dpoly(z, coefs));
curr_len = length(step);
if(curr_len < threshold){
break;
}
z = z - step;
}
n_iters -= clamp((threshold - curr_len) / (last_len - curr_len), 0.0, 1.0);
return z;
}
void main() {
vec2 root2 = xyz_coords.xy;
vec2 coef0 = -complex_mult(complex_mult(root0, root1), root2);
vec2 coef1 = complex_mult(root0, root1) + complex_mult(root0, root2) + complex_mult(root1, root2);
vec2 coef2 = -(root0 + root1 + root2);
vec2 coef3 = vec2(1.0, 0.0);
vec2[MAX_DEGREE + 1] coefs = vec2[MAX_DEGREE + 1](coef0, coef1, coef2, coef3);
vec2[MAX_DEGREE] roots = vec2[MAX_DEGREE](root0, root1, root2);
vec4[MAX_DEGREE] colors = vec4[MAX_DEGREE](color0, color1, color2);
// vec2 z = z0;
vec2 z = -coef2 / 3.0;
float n_iters;
vec2 found_root = seek_root(z, coefs, int(n_steps), n_iters);
vec4 color = vec4(0.0);
float min_dist = 1e10;
float dist;
for(int i = 0; i < int(n_roots); i++){
dist = distance(roots[i], found_root);
if(dist < min_dist){
min_dist = dist;
color = colors[i];
}
}
// color *= (1.0 + (color_mult - 1) * (n_iters - 5));
if (min_dist > 1e-2){
color = vec4(0.0, 0.0, 0.0, 1.0);
}
frag_color = finalize_color(
color,
xyz_coords,
vec3(0.0, 0.0, 1.0),
light_source_position,
gloss,
shadow
);
}

39
manimlib/shaders/poly_fractal/frag.glsl → manimlib/shaders/newton_fractal/frag.glsl
View file

@ -27,8 +27,9 @@ uniform vec2 root4;
uniform float n_roots; uniform float n_roots;
uniform float n_steps; uniform float n_steps;
uniform float julia_highlight; uniform float julia_highlight;
uniform float color_mult; uniform float saturation_factor;
uniform float black_for_cycles; uniform float black_for_cycles;
uniform float is_parameter_space;
uniform vec2 frame_shape; uniform vec2 frame_shape;
@ -40,6 +41,7 @@ out vec4 frag_color;
#INSERT complex_functions.glsl #INSERT complex_functions.glsl
const int MAX_DEGREE = 5; const int MAX_DEGREE = 5;
const float CLOSE_ENOUGH = 1e-3;
vec2 poly(vec2 z, vec2[MAX_DEGREE + 1] coefs){ vec2 poly(vec2 z, vec2[MAX_DEGREE + 1] coefs){
@ -61,7 +63,7 @@ vec2 dpoly(vec2 z, vec2[MAX_DEGREE + 1] coefs){
vec2 seek_root(vec2 z, vec2[MAX_DEGREE + 1] coefs, int max_steps, out float n_iters){ vec2 seek_root(vec2 z, vec2[MAX_DEGREE + 1] coefs, int max_steps, out float n_iters){
float last_len; float last_len;
float curr_len; float curr_len;
float threshold = 1e-3; float threshold = CLOSE_ENOUGH;
for(int i = 0; i < max_steps; i++){ for(int i = 0; i < max_steps; i++){
last_len = curr_len; last_len = curr_len;
@ -85,6 +87,24 @@ void main() {
vec4[MAX_DEGREE] colors = vec4[MAX_DEGREE](color0, color1, color2, color3, color4); vec4[MAX_DEGREE] colors = vec4[MAX_DEGREE](color0, color1, color2, color3, color4);
vec2 z = xyz_coords.xy; vec2 z = xyz_coords.xy;
if(is_parameter_space > 0){
// In this case, pixel should correspond to one of the roots
roots[2] = xyz_coords.xy;
vec2 r0 = roots[0];
vec2 r1 = roots[1];
vec2 r2 = roots[2];
// It is assumed that the polynomial is cubid...
coefs[0] = -complex_mult(complex_mult(r0, r1), r2);
coefs[1] = complex_mult(r0, r1) + complex_mult(r0, r2) + complex_mult(r1, r2);
coefs[2] = -(r0 + r1 + r2);
coefs[3] = vec2(1.0, 0.0);
// Seed value is always center of the roots
z = -coefs[2] / 3.0;
}
float n_iters; float n_iters;
vec2 found_root = seek_root(z, coefs, int(n_steps), n_iters); vec2 found_root = seek_root(z, coefs, int(n_steps), n_iters);
@ -98,23 +118,14 @@ void main() {
color = colors[i]; color = colors[i];
} }
} }
color *= (1.0 + (color_mult - 1) * (n_iters - 5)); color *= 1.0 + (0.01 * saturation_factor) * (n_iters - 5 * saturation_factor);
if(black_for_cycles > 0.0 && min_dist > 1e-2){ if(black_for_cycles > 0 && min_dist > CLOSE_ENOUGH){
color = vec4(0.0, 0.0, 0.0, 1.0); color = vec4(0.0, 0.0, 0.0, 1.0);
} }
// if(julia_highlight > 0.0){
// float factor = min_dist / distance(z, found_root);
// factor *= pow(2.0, n_iters);
// float t = smoothstep(0, 5, factor);
// t *= 2.0;
// // color = vec4(0.0) * (1 - t) * (1 - t) + 2 * color * (1 - t) * t + vec4(1.0) * t * t;
// color *= t;
// }
if(julia_highlight > 0.0){ if(julia_highlight > 0.0){
float radius = julia_highlight; // TODO float radius = julia_highlight;
vec2[4] samples = vec2[4]( vec2[4] samples = vec2[4](
z + vec2(radius, 0.0), z + vec2(radius, 0.0),
z + vec2(-radius, 0.0), z + vec2(-radius, 0.0),

0
manimlib/shaders/meta_poly_fractal/vert.glsl → manimlib/shaders/newton_fractal/vert.glsl
View file

17
manimlib/shaders/poly_fractal/vert.glsl
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@ -1,17 +0,0 @@
#version 330
#INSERT camera_uniform_declarations.glsl
in vec3 point;
out vec3 xyz_coords;
uniform float scale_factor;
uniform vec3 offset;
#INSERT position_point_into_frame.glsl
#INSERT get_gl_Position.glsl
void main(){
xyz_coords = (point - offset) / scale_factor;
gl_Position = get_gl_Position(position_point_into_frame(point));
}