RMIT
/
Major_Project_A


								#ifndef __TAA__

								#define __TAA__


								#pragma only_renderers ps4 xboxone d3d11 d3d9 xbox360 opengl glcore

								#pragma exclude_renderers gles


								#include "UnityCG.cginc"

								#include "Common.cginc"


								// -----------------------------------------------------------------------------

								// Solver


								#define TAA_USE_STABLE_BUT_GHOSTY_VARIANT 0


								#if !defined(TAA_DILATE_MOTION_VECTOR_SAMPLE)

								    #define TAA_DILATE_MOTION_VECTOR_SAMPLE 1

								#endif


								#define TAA_FRAGMENT_MOTION_HISTORY_DECAY 0.85


								#define TAA_FINAL_BLEND_STATIC_FACTOR _FinalBlendParameters.x

								#define TAA_FINAL_BLEND_DYNAMIC_FACTOR _FinalBlendParameters.y

								#define TAA_MOTION_AMPLIFICATION _FinalBlendParameters.z


								struct VaryingsSolver

								{

								    float4 vertex : SV_POSITION;

								    float4 uv : TEXCOORD0; // [xy: _MainTex.uv, zw: _HistoryTex.uv]

								};


								struct OutputSolver

								{

								    float4 destination : SV_Target0;

								    float4 history : SV_Target1;

								};


								sampler2D _HistoryTex;


								sampler2D _CameraMotionVectorsTexture;

								sampler2D _CameraDepthTexture;


								float4 _HistoryTex_TexelSize;

								float4 _CameraDepthTexture_TexelSize;


								float2 _Jitter;

								float4 _SharpenParameters;

								float4 _FinalBlendParameters;


								VaryingsSolver VertSolver(AttributesDefault input)

								{

								    VaryingsSolver output;


								    float4 vertex = UnityObjectToClipPos(input.vertex);


								    output.vertex = vertex;

								    output.uv = input.texcoord.xyxy;


								#if UNITY_UV_STARTS_AT_TOP

								    if (_MainTex_TexelSize.y < 0)

								        output.uv.y = 1.0 - input.texcoord.y;

								#endif


								    return output;

								}


								float2 GetClosestFragment(float2 uv)

								{

								    const float2 k = _CameraDepthTexture_TexelSize.xy;

								    const float4 neighborhood = float4(

								        SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, uv - k),

								        SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, uv + float2(k.x, -k.y)),

								        SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, uv + float2(-k.x, k.y)),

								        SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, uv + k)

								        );


								#if defined(UNITY_REVERSED_Z)

								    #define COMPARE_DEPTH(a, b) step(b, a)

								#else

								    #define COMPARE_DEPTH(a, b) step(a, b)

								#endif


								    float3 result = float3(0.0, 0.0, SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, uv));

								    result = lerp(result, float3(-1.0, -1.0, neighborhood.x), COMPARE_DEPTH(neighborhood.x, result.z));

								    result = lerp(result, float3( 1.0, -1.0, neighborhood.y), COMPARE_DEPTH(neighborhood.y, result.z));

								    result = lerp(result, float3(-1.0,  1.0, neighborhood.z), COMPARE_DEPTH(neighborhood.z, result.z));

								    result = lerp(result, float3( 1.0,  1.0, neighborhood.w), COMPARE_DEPTH(neighborhood.w, result.z));


								    return (uv + result.xy * k);

								}


								// Adapted from Playdead's TAA implementation

								// https://github.com/playdeadgames/temporal

								float4 ClipToAABB(float4 color, float p, float3 minimum, float3 maximum)

								{

								    // note: only clips towards aabb center (but fast!)

								    float3 center  = 0.5 * (maximum + minimum);

								    float3 extents = 0.5 * (maximum - minimum);


								    // This is actually `distance`, however the keyword is reserved

								    float4 offset = color - float4(center, p);

								    float3 repeat = abs(offset.xyz / extents);


								    repeat.x = max(repeat.x, max(repeat.y, repeat.z));


								    if (repeat.x > 1.0)

								    {

								        // `color` is not intersecting (nor inside) the AABB; it's clipped to the closest extent

								        return float4(center, p) + offset / repeat.x;

								    }

								    else

								    {

								        // `color` is intersecting (or inside) the AABB.


								        // Note: for whatever reason moving this return statement from this else into a higher

								        // scope makes the NVIDIA drivers go beyond bonkers

								        return color;

								    }

								}


								OutputSolver FragSolver(VaryingsSolver input)

								{

								#if TAA_DILATE_MOTION_VECTOR_SAMPLE

								    float2 motion = tex2D(_CameraMotionVectorsTexture, GetClosestFragment(input.uv.zw)).xy;

								#else

								    // Don't dilate in ortho !

								    float2 motion = tex2D(_CameraMotionVectorsTexture, input.uv.zw).xy;

								#endif


								    const float2 k = _MainTex_TexelSize.xy;

								    float2 uv = input.uv.xy;


								#if UNITY_UV_STARTS_AT_TOP

								    uv -= _MainTex_TexelSize.y < 0 ? _Jitter * float2(1.0, -1.0) : _Jitter;

								#else

								    uv -= _Jitter;

								#endif


								    float4 color = tex2D(_MainTex, uv);


								    float4 topLeft = tex2D(_MainTex, uv - k * 0.5);

								    float4 bottomRight = tex2D(_MainTex, uv + k * 0.5);


								    float4 corners = 4.0 * (topLeft + bottomRight) - 2.0 * color;


								    // Sharpen output

								    color += (color - (corners * 0.166667)) * 2.718282 * _SharpenParameters.x;

								    color = max(0.0, color);


								    // Tonemap color and history samples

								    float4 average = FastToneMap((corners + color) * 0.142857);


								    topLeft = FastToneMap(topLeft);

								    bottomRight = FastToneMap(bottomRight);


								    color = FastToneMap(color);


								    float4 history = tex2D(_HistoryTex, input.uv.zw - motion);


								// Only use this variant for arch viz or scenes that don't have any animated objects (camera animation is fine)

								#if TAA_USE_STABLE_BUT_GHOSTY_VARIANT

								    float4 luma = float4(Luminance(topLeft.rgb), Luminance(bottomRight.rgb), Luminance(average.rgb), Luminance(color.rgb));

								    float nudge = lerp(6.28318530718, 0.5, saturate(2.0 * history.a)) * max(abs(luma.z - luma.w), abs(luma.x - luma.y));


								    float4 minimum = lerp(bottomRight, topLeft, step(luma.x, luma.y)) - nudge;

								    float4 maximum = lerp(topLeft, bottomRight, step(luma.x, luma.y)) + nudge;

								#else

								    float2 luma = float2(Luminance(average.rgb), Luminance(color.rgb));

								    float nudge = 4.0 * abs(luma.x - luma.y);


								    float4 minimum = min(bottomRight, topLeft) - nudge;

								    float4 maximum = max(topLeft, bottomRight) + nudge;

								#endif


								    history = FastToneMap(history);


								    // Clip history samples

								    history = ClipToAABB(history, history.a, minimum.xyz, maximum.xyz);


								    // Store fragment motion history

								    color.a = saturate(smoothstep(0.002 * _MainTex_TexelSize.z, 0.0035 * _MainTex_TexelSize.z, length(motion)));


								    // Blend method

								    float weight = clamp(lerp(TAA_FINAL_BLEND_STATIC_FACTOR, TAA_FINAL_BLEND_DYNAMIC_FACTOR,

								        length(motion) * TAA_MOTION_AMPLIFICATION), TAA_FINAL_BLEND_DYNAMIC_FACTOR, TAA_FINAL_BLEND_STATIC_FACTOR);


								    color = FastToneUnmap(lerp(color, history, weight));


								    OutputSolver output;


								    output.destination = color;

								    color.a *= TAA_FRAGMENT_MOTION_HISTORY_DECAY;


								    output.history = color;


								    return output;

								}


								// -----------------------------------------------------------------------------

								// Alpha clearance


								float4 FragAlphaClear(VaryingsDefault input) : SV_Target

								{

								    return float4(tex2D(_MainTex, input.uv).rgb, 0.0);

								}


								#endif // __TAA__