mirror of
https://github.com/RHeavenStudioPlus/HeavenStudioPlus.git
synced 2024-11-14 13:45:10 +00:00
f14d2a423f
* Super Retro VFX! * Updated Screen Jump default * also airboarder works now --------- Co-authored-by: minenice55 <star.elementa@gmail.com>
466 lines
12 KiB
HLSL
466 lines
12 KiB
HLSL
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#include "Sampling.hlsl"
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//Always present in every shader
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TEXTURE2D_SAMPLER2D(_MainTex, sampler_MainTex); //Present in every shader
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TEXTURE2D_SAMPLER2D(_CameraDepthNormalsTexture, sampler_CameraDepthNormalsTexture);
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float4 _MainTex_TexelSize;
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#define fixed half
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#define fixed2 half2
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#define fixed3 half3
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#define fixed4 half4
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#define fixed4x4 half4x4
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#define fixed3x3 half3x3
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#define fixed2x2 half2x2
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#define sampler2D_half sampler2D
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#define sampler2D_float sampler2D
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#define samplerCUBE_half samplerCUBE
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#define samplerCUBE_float samplerCUBE
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//------------------------------------------------------------------------------------------------------
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// Blend Functions
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//------------------------------------------------------------------------------------------------------
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half4 BlendOperation_Burn(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = 1.0 - (1.0 - Blend) / Base;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Darken(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = min(Blend, Base);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Difference(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = abs(Blend - Base);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Dodge(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Base / (1.0 - Blend);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Divide(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Base / (Blend + 0.000000000001);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Exclusion(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Blend + Base - (2.0 * Blend * Base);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_HardLight(half4 Base, half4 Blend, half Opacity)
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{
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float4 result1 = 1.0 - 2.0 * (1.0 - Base) * (1.0 - Blend);
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float4 result2 = 2.0 * Base * Blend;
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float4 zeroOrOne = step(Blend, 0.5);
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half4 Out = result2 * zeroOrOne + (1 - zeroOrOne) * result1;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_HardMix(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = step(1 - Base, Blend);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Lighten(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = max(Blend, Base);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_LinearBurn(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Base + Blend - 1.0;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_LinearDodge(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Base + Blend;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_LinearLight(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Blend < 0.5 ? max(Base + (2 * Blend) - 1, 0): min(Base + 2 * (Blend - 0.5), 1);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_LinearLightAddSub(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Blend + 2.0 * Base - 1.0;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Multiply(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Base * Blend;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Negation(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = 1.0 - abs(1.0 - Blend - Base);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Overlay(half4 Base, half4 Blend, half Opacity)
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{
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half4 result1 = 1.0 - 2.0 * (1.0 - Base) * (1.0 - Blend);
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half4 result2 = 2.0 * Base * Blend;
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half4 zeroOrOne = step(Base, 0.5);
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half4 Out = result2 * zeroOrOne + (1 - zeroOrOne) * result1;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_PinLight(half4 Base, half4 Blend, half Opacity)
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{
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half4 check = step(0.5, Blend);
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half4 result1 = check * max(2.0 * (Base - 0.5), Blend);
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half4 Out = result1 + (1.0 - check) * min(2.0 * Base, Blend);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Screen(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = 1.0 - (1.0 - Blend) * (1.0 - Base);
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_SoftLight(half4 Base, half4 Blend, half Opacity)
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{
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half4 result1 = 2.0 * Base * Blend + Base * Base * (1.0 - 2.0 * Blend);
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half4 result2 = sqrt(Base) * (2.0 * Blend - 1.0) + 2.0 * Base * (1.0 - Blend);
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half4 zeroOrOne = step(0.5, Blend);
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half4 Out = result2 * zeroOrOne + (1 - zeroOrOne) * result1;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Subtract(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = Base - Blend;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_VividLight(half4 Base, half4 Blend, half Opacity)
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{
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half4 result1 = 1.0 - (1.0 - Blend) / (2.0 * Base);
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half4 result2 = Blend / (2.0 * (1.0 - Base));
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half4 zeroOrOne = step(0.5, Base);
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half4 Out = result2 * zeroOrOne + (1 - zeroOrOne) * result1;
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Out = lerp(Base, Out, Opacity);
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return Out;
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}
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half4 BlendOperation_Overwrite(half4 Base, half4 Blend, half Opacity)
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{
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half4 Out = lerp(Base, Blend, Opacity);
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return Out;
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}
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//------------------------------------------------------------------------------------------------------
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// Generic functions
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//------------------------------------------------------------------------------------------------------
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float rand(float n)
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{
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return frac(sin(n) * 13758.5453123 * 0.01);
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}
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float rand(float2 n)
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{
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return frac(sin(dot(n, float2(12.9898, 78.233))) * 43758.5453);
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}
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float2 RotateUV(float2 uv, float rotation)
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{
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float cosine = cos(rotation);
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float sine = sin(rotation);
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float2 pivot = float2(0.5, 0.5);
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float2 rotator = (mul(uv - pivot, float2x2(cosine, -sine, sine, cosine)) + pivot);
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return saturate(rotator);
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}
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float3 ChromaticAberration(TEXTURE2D_ARGS(tex, samplerTex), float4 texelSize, float2 uv, float amount)
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{
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float2 direction = normalize((float2(0.5, 0.5) - uv));
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float3 distortion = float3(-texelSize.x * amount, 0, texelSize.x * amount);
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float red = SAMPLE_TEXTURE2D(tex, samplerTex, uv + direction * distortion.r).r;
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float green = SAMPLE_TEXTURE2D(tex, samplerTex, uv + direction * distortion.g).g;
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float blue = SAMPLE_TEXTURE2D(tex, samplerTex, uv + direction * distortion.b).b;
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return float3(red, green, blue);
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}
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/*
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float3 PositionFromDepth(float depth, float2 uv, float4 inverseViewMatrix) {
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float4 clip = float4((uv.xy * 2.0f - 1.0f) * float2(1, -1), 0.0f, 1.0f);
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float3 worldDirection = mul(inverseViewMatrix, clip) - _WorldSpaceCameraPos;
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float3 worldspace = worldDirection * depth + _WorldSpaceCameraPos;
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return float3(frac((worldspace.rgb)) + float3(0, 0, 0.1));
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}
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*/
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// (returns 1.0 when orthographic)
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float CheckPerspective(float x)
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{
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return lerp(x, 1.0, unity_OrthoParams.w);
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}
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// Reconstruct view-space position from UV and depth.
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float3 ReconstructViewPos(float2 uv, float depth)
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{
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float3 worldPos = float3(0, 0, 0);
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worldPos.xy = (uv.xy * 2.0 - 1.0 - float2(unity_CameraProjection._13, unity_CameraProjection._23)) / float2(unity_CameraProjection._11, unity_CameraProjection._22) * CheckPerspective(depth);
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worldPos.z = depth;
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return worldPos;
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}
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float2 FisheyeUV(half2 uv, half amount, half zoom)
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{
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half2 center = uv.xy - half2(0.5, 0.5);
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half CdotC = dot(center, center);
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half f = 1.0 + CdotC * (amount * sqrt(CdotC));
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return f * zoom * center + 0.5;
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}
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float2 Distort(float2 uv)
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{
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#if DISTORT
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{
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uv = (uv - 0.5) * _Distortion_Amount.z + 0.5;
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float2 ruv = _Distortion_CenterScale.zw * (uv - 0.5 - _Distortion_CenterScale.xy);
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float ru = length(float2(ruv));
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UNITY_BRANCH
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if (_Distortion_Amount.w > 0.0)
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{
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float wu = ru * _Distortion_Amount.x;
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ru = tan(wu) * (1.0 / (ru * _Distortion_Amount.y));
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uv = uv + ruv * (ru - 1.0);
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}
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else
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{
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ru = (1.0 / ru) * _Distortion_Amount.x * atan(ru * _Distortion_Amount.y);
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uv = uv + ruv * (ru - 1.0);
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}
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}
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#endif
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return uv;
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}
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//----------------------------------------------------------------
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// Common vertex functions
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//--------------------------------------------------------------
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float4 _BlurOffsets;
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struct v2fGaussian
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{
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float4 pos: POSITION;
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float2 uv: TEXCOORD0;
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float4 uv01: TEXCOORD1;
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float4 uv23: TEXCOORD2;
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float4 uv45: TEXCOORD3;
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};
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v2fGaussian VertGaussian(AttributesDefault v)
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{
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v2fGaussian o;
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o.pos = float4(v.vertex.xy, 0, 1);
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o.uv.xy = TransformTriangleVertexToUV(o.pos.xy);
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#if UNITY_UV_STARTS_AT_TOP
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o.uv = o.uv * float2(1.0, -1.0) + float2(0.0, 1.0);
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#endif
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//UNITY_SINGLE_PASS_STEREO
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o.uv = TransformStereoScreenSpaceTex(o.uv, 1.0);
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o.uv01 = o.uv.xyxy + _BlurOffsets.xyxy * float4(1, 1, -1, -1);
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o.uv23 = o.uv.xyxy + _BlurOffsets.xyxy * float4(1, 1, -1, -1) * 2.0;
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o.uv45 = o.uv.xyxy + _BlurOffsets.xyxy * float4(1, 1, -1, -1) * 6.0;
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return o;
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}
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float4 FragBlurBox(VaryingsDefault i): SV_Target
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{
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return DownsampleBox4Tap(TEXTURE2D_PARAM(_MainTex, sampler_MainTex), i.texcoord, _BlurOffsets.xy).rgba;
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}
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float4 FragBlurGaussian(v2fGaussian i): SV_Target
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{
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half4 color = float4(0, 0, 0, 0);
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color += 0.40 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv);
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color += 0.15 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv01.xy);
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color += 0.15 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv01.zw);
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color += 0.10 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv23.xy);
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color += 0.10 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv23.zw);
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color += 0.05 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv45.xy);
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color += 0.05 * SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.uv45.zw);
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return color;
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}
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half simpleNoise(half x, half y, half seed, half phase)
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{
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half n = x * y * phase * seed;
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return fmod(n, 13) * fmod(n, 123);
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}
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half3 Lut2D(TEXTURE2D_ARGS(tex, samplerTex), float3 uvw, float2 texelSize, half tileAmount)
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{
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uvw.z *= tileAmount;
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float shift = floor(uvw.z);
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uvw.xy = uvw.xy * tileAmount * texelSize.xy + texelSize.xy * 0.5;
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uvw.x += shift * texelSize.y;
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uvw.xyz = lerp(
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SAMPLE_TEXTURE2D(tex, samplerTex, uvw.xy).rgb,
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SAMPLE_TEXTURE2D(tex, samplerTex, uvw.xy + float2(texelSize.y, 0.0)).rgb,
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uvw.z - shift
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);
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return uvw;
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}
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half3 Lut2D_InvertY(TEXTURE2D_ARGS(tex, samplerTex), float3 uvw, float2 texelSize, half tileAmount)
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{
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// Strip format where `height = sqrt(width)`
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uvw.z *= tileAmount;
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float shift = floor(uvw.z);
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uvw.xy = uvw.xy * tileAmount * texelSize.xy + texelSize.xy * 0.5;
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uvw.x += shift * texelSize.y;
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//uvw.y = 1 - uvw.y;
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uvw.xyz = lerp(
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SAMPLE_TEXTURE2D(tex, samplerTex, uvw.xy).rgb,
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SAMPLE_TEXTURE2D(tex, samplerTex, uvw.xy + float2(texelSize.y, 0.0)).rgb,
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uvw.z - shift
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);
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return uvw;
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}
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//-------------------------------------------------------------------------------------------
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// Lift, Gamma (pre-inverted), Gain tuned for HDR use - best used with the ACES tonemapper as
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// negative values will creep in the result
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// Expected workspace: ACEScg (linear)
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//-------------------------------------------------------------------------------------------
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half3 LiftGammaGain_HDR(half3 c, half3 lift, float3 invgamma, half3 gain)
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{
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c = c * gain + lift;
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// ACEScg will output negative values, as clamping to 0 will lose precious information we'll
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// mirror the gamma function instead
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return FastSign(c) * pow(abs(c), invgamma);
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}
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half3 Luminance_V1(half3 color)
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{
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return(color.r * 0.3 + color.g * 0.59 + color.b * 0.11);
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}
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half Luminance_V2(half3 color)
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{
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return dot(color, half3(0.222, 0.707, 0.071));
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}
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half4 LuminanceThreshold(half4 color, half threshold)
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{
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half br = Max3(color.r, color.g, color.b);
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half contrib = max(0, br - threshold);
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contrib /= max(br, 0.001);
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return color * contrib;
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}
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float4 GetDepthNormal_ViewSpace(float2 uv)
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{
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float4 cdn = SAMPLE_TEXTURE2D(_CameraDepthNormalsTexture, sampler_CameraDepthNormalsTexture, uv);
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float4 Normal_ViewSpace = float4(DecodeViewNormalStereo(cdn), 1);
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return Normal_ViewSpace;
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}
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float GetSinusoidWave(float len, float pi, float time)
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{
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float wave = sin(8.0f * pi * len + time);
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wave = 0.5 * wave + 0.2;
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wave *= wave * wave;
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return wave;
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}
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