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ICS-SCADA-APP-SIU/Library/PackageCache/com.unity.mathematics/Unity.Mathematics/Noise/cellular2D.cs

cellular2D.cs 2.7KB
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  1. // Cellular noise ("Worley noise") in 2D in GLSL.

  2. // Copyright (c) Stefan Gustavson 2011-04-19. All rights reserved.

  3. // This code is released under the conditions of the MIT license.

  4. // See LICENSE file for details.

  5. // https://github.com/stegu/webgl-noise

  6. 

  7. using static Unity.Mathematics.math;

  8. 

  9. namespace Unity.Mathematics

  10. {

  11.     public static partial class noise

  12.     {

  13.         /// <summary>

  14.         /// 2D Cellular noise ("Worley noise") with standard 3x3 search window for good feature point values.

  15.         /// </summary>

  16.         /// <param name="P">A point in 2D space.</param>

  17.         /// <returns>Feature points. F1 is in the x component, F2 in the y component.</returns>

  18.         public static float2 cellular(float2 P)

  19.         {

  20.             const float K = 0.142857142857f; // 1/7

  21.             const float Ko = 0.428571428571f; // 3/7

  22.             const float jitter = 1.0f; // Less gives more regular pattern

  23. 

  24.             float2 Pi = mod289(floor(P));

  25.             float2 Pf = frac(P);

  26.             float3 oi = float3(-1.0f, 0.0f, 1.0f);

  27.             float3 of = float3(-0.5f, 0.5f, 1.5f);

  28.             float3 px = permute(Pi.x + oi);

  29.             float3 p = permute(px.x + Pi.y + oi); // p11, p12, p13

  30.             float3 ox = frac(p * K) - Ko;

  31.             float3 oy = mod7(floor(p * K)) * K - Ko;

  32.             float3 dx = Pf.x + 0.5f + jitter * ox;

  33.             float3 dy = Pf.y - of + jitter * oy;

  34.             float3 d1 = dx * dx + dy * dy; // d11, d12 and d13, squared

  35.             p = permute(px.y + Pi.y + oi); // p21, p22, p23

  36.             ox = frac(p * K) - Ko;

  37.             oy = mod7(floor(p * K)) * K - Ko;

  38.             dx = Pf.x - 0.5f + jitter * ox;

  39.             dy = Pf.y - of + jitter * oy;

  40.             float3 d2 = dx * dx + dy * dy; // d21, d22 and d23, squared

  41.             p = permute(px.z + Pi.y + oi); // p31, p32, p33

  42.             ox = frac(p * K) - Ko;

  43.             oy = mod7(floor(p * K)) * K - Ko;

  44.             dx = Pf.x - 1.5f + jitter * ox;

  45.             dy = Pf.y - of + jitter * oy;

  46.             float3 d3 = dx * dx + dy * dy; // d31, d32 and d33, squared

  47.             // Sort out the two smallest distances (F1, F2)

  48.             float3 d1a = min(d1, d2);

  49.             d2 = max(d1, d2); // Swap to keep candidates for F2

  50.             d2 = min(d2, d3); // neither F1 nor F2 are now in d3

  51.             d1 = min(d1a, d2); // F1 is now in d1

  52.             d2 = max(d1a, d2); // Swap to keep candidates for F2

  53.             d1.xy = (d1.x < d1.y) ? d1.xy : d1.yx; // Swap if smaller

  54.             d1.xz = (d1.x < d1.z) ? d1.xz : d1.zx; // F1 is in d1.x

  55.             d1.yz = min(d1.yz, d2.yz); // F2 is now not in d2.yz

  56.             d1.y = min(d1.y, d1.z); // nor in  d1.z

  57.             d1.y = min(d1.y, d2.x); // F2 is in d1.y, we're done.

  58.             return sqrt(d1.xy);

  59.         }

  60.     }

  61. }