Buckets:
| import { | |
| mx_perlin_noise_float, mx_perlin_noise_vec3, | |
| mx_worley_noise_float as worley_noise_float, mx_worley_noise_vec2 as worley_noise_vec2, mx_worley_noise_vec3 as worley_noise_vec3, | |
| mx_cell_noise_float as cell_noise_float, | |
| mx_fractal_noise_float as fractal_noise_float, mx_fractal_noise_vec2 as fractal_noise_vec2, mx_fractal_noise_vec3 as fractal_noise_vec3, mx_fractal_noise_vec4 as fractal_noise_vec4 | |
| } from './lib/mx_noise.js'; | |
| import { mx_hsvtorgb, mx_rgbtohsv } from './lib/mx_hsv.js'; | |
| import { mx_srgb_texture_to_lin_rec709 } from './lib/mx_transform_color.js'; | |
| import { mix, smoothstep } from '../math/MathNode.js'; | |
| import { uv } from '../accessors/UV.js'; | |
| import { float, vec2, vec4, int } from '../tsl/TSLBase.js'; | |
| export const mx_aastep = ( threshold, value ) => { | |
| threshold = float( threshold ); | |
| value = float( value ); | |
| const afwidth = vec2( value.dFdx(), value.dFdy() ).length().mul( 0.70710678118654757 ); | |
| return smoothstep( threshold.sub( afwidth ), threshold.add( afwidth ), value ); | |
| }; | |
| const _ramp = ( a, b, uv, p ) => mix( a, b, uv[ p ].clamp() ); | |
| export const mx_ramplr = ( valuel, valuer, texcoord = uv() ) => _ramp( valuel, valuer, texcoord, 'x' ); | |
| export const mx_ramptb = ( valuet, valueb, texcoord = uv() ) => _ramp( valuet, valueb, texcoord, 'y' ); | |
| const _split = ( a, b, center, uv, p ) => mix( a, b, mx_aastep( center, uv[ p ] ) ); | |
| export const mx_splitlr = ( valuel, valuer, center, texcoord = uv() ) => _split( valuel, valuer, center, texcoord, 'x' ); | |
| export const mx_splittb = ( valuet, valueb, center, texcoord = uv() ) => _split( valuet, valueb, center, texcoord, 'y' ); | |
| export const mx_transform_uv = ( uv_scale = 1, uv_offset = 0, uv_geo = uv() ) => uv_geo.mul( uv_scale ).add( uv_offset ); | |
| export const mx_safepower = ( in1, in2 = 1 ) => { | |
| in1 = float( in1 ); | |
| return in1.abs().pow( in2 ).mul( in1.sign() ); | |
| }; | |
| export const mx_contrast = ( input, amount = 1, pivot = .5 ) => float( input ).sub( pivot ).mul( amount ).add( pivot ); | |
| export const mx_noise_float = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => mx_perlin_noise_float( texcoord.convert( 'vec2|vec3' ) ).mul( amplitude ).add( pivot ); | |
| //export const mx_noise_vec2 = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => mx_perlin_noise_vec3( texcoord.convert( 'vec2|vec3' ) ).mul( amplitude ).add( pivot ); | |
| export const mx_noise_vec3 = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => mx_perlin_noise_vec3( texcoord.convert( 'vec2|vec3' ) ).mul( amplitude ).add( pivot ); | |
| export const mx_noise_vec4 = ( texcoord = uv(), amplitude = 1, pivot = 0 ) => { | |
| texcoord = texcoord.convert( 'vec2|vec3' ); // overloading type | |
| const noise_vec4 = vec4( mx_perlin_noise_vec3( texcoord ), mx_perlin_noise_float( texcoord.add( vec2( 19, 73 ) ) ) ); | |
| return noise_vec4.mul( amplitude ).add( pivot ); | |
| }; | |
| export const mx_worley_noise_float = ( texcoord = uv(), jitter = 1 ) => worley_noise_float( texcoord.convert( 'vec2|vec3' ), jitter, int( 1 ) ); | |
| export const mx_worley_noise_vec2 = ( texcoord = uv(), jitter = 1 ) => worley_noise_vec2( texcoord.convert( 'vec2|vec3' ), jitter, int( 1 ) ); | |
| export const mx_worley_noise_vec3 = ( texcoord = uv(), jitter = 1 ) => worley_noise_vec3( texcoord.convert( 'vec2|vec3' ), jitter, int( 1 ) ); | |
| export const mx_cell_noise_float = ( texcoord = uv() ) => cell_noise_float( texcoord.convert( 'vec2|vec3' ) ); | |
| export const mx_fractal_noise_float = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => fractal_noise_float( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); | |
| export const mx_fractal_noise_vec2 = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => fractal_noise_vec2( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); | |
| export const mx_fractal_noise_vec3 = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => fractal_noise_vec3( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); | |
| export const mx_fractal_noise_vec4 = ( position = uv(), octaves = 3, lacunarity = 2, diminish = .5, amplitude = 1 ) => fractal_noise_vec4( position, int( octaves ), lacunarity, diminish ).mul( amplitude ); | |
| export { mx_hsvtorgb, mx_rgbtohsv, mx_srgb_texture_to_lin_rec709 }; | |
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- 4.25 kB
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