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https://github.com/yuzu-emu/yuzu-mainline
synced 2024-11-22 10:33:54 +00:00
Update FSR to 1.0.2
Updates yuzu's FSR implementation to 1.0.2
This commit is contained in:
parent
2136ebccd6
commit
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2 changed files with 19 additions and 19 deletions
36
externals/FidelityFX-FSR/ffx-fsr/ffx_fsr1.h
vendored
36
externals/FidelityFX-FSR/ffx-fsr/ffx_fsr1.h
vendored
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@ -747,12 +747,12 @@ AF1 sharpness){
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// Immediate constants for peak range.
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// Immediate constants for peak range.
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AF2 peakC=AF2(1.0,-1.0*4.0);
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AF2 peakC=AF2(1.0,-1.0*4.0);
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// Limiters, these need to be high precision RCPs.
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// Limiters, these need to be high precision RCPs.
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AF1 hitMinR=mn4R*ARcpF1(AF1_(4.0)*mx4R);
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AF1 hitMinR=min(mn4R,eR)*ARcpF1(AF1_(4.0)*mx4R);
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AF1 hitMinG=mn4G*ARcpF1(AF1_(4.0)*mx4G);
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AF1 hitMinG=min(mn4G,eG)*ARcpF1(AF1_(4.0)*mx4G);
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AF1 hitMinB=mn4B*ARcpF1(AF1_(4.0)*mx4B);
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AF1 hitMinB=min(mn4B,eB)*ARcpF1(AF1_(4.0)*mx4B);
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AF1 hitMaxR=(peakC.x-mx4R)*ARcpF1(AF1_(4.0)*mn4R+peakC.y);
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AF1 hitMaxR=(peakC.x-max(mx4R,eR))*ARcpF1(AF1_(4.0)*mn4R+peakC.y);
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AF1 hitMaxG=(peakC.x-mx4G)*ARcpF1(AF1_(4.0)*mn4G+peakC.y);
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AF1 hitMaxG=(peakC.x-max(mx4G,eG))*ARcpF1(AF1_(4.0)*mn4G+peakC.y);
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AF1 hitMaxB=(peakC.x-mx4B)*ARcpF1(AF1_(4.0)*mn4B+peakC.y);
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AF1 hitMaxB=(peakC.x-max(mx4B,eB))*ARcpF1(AF1_(4.0)*mn4B+peakC.y);
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AF1 lobeR=max(-hitMinR,hitMaxR);
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AF1 lobeR=max(-hitMinR,hitMaxR);
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AF1 lobeG=max(-hitMinG,hitMaxG);
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AF1 lobeG=max(-hitMinG,hitMaxG);
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AF1 lobeB=max(-hitMinB,hitMaxB);
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AF1 lobeB=max(-hitMinB,hitMaxB);
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@ -845,12 +845,12 @@ AF1 sharpness){
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// Immediate constants for peak range.
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// Immediate constants for peak range.
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AH2 peakC=AH2(1.0,-1.0*4.0);
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AH2 peakC=AH2(1.0,-1.0*4.0);
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// Limiters, these need to be high precision RCPs.
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// Limiters, these need to be high precision RCPs.
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AH1 hitMinR=mn4R*ARcpH1(AH1_(4.0)*mx4R);
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AH1 hitMinR=min(mn4R,eR)*ARcpH1(AH1_(4.0)*mx4R);
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AH1 hitMinG=mn4G*ARcpH1(AH1_(4.0)*mx4G);
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AH1 hitMinG=min(mn4G,eG)*ARcpH1(AH1_(4.0)*mx4G);
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AH1 hitMinB=mn4B*ARcpH1(AH1_(4.0)*mx4B);
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AH1 hitMinB=min(mn4B,eB)*ARcpH1(AH1_(4.0)*mx4B);
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AH1 hitMaxR=(peakC.x-mx4R)*ARcpH1(AH1_(4.0)*mn4R+peakC.y);
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AH1 hitMaxR=(peakC.x-max(mx4R,eR))*ARcpH1(AH1_(4.0)*mn4R+peakC.y);
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AH1 hitMaxG=(peakC.x-mx4G)*ARcpH1(AH1_(4.0)*mn4G+peakC.y);
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AH1 hitMaxG=(peakC.x-max(mx4G,eG))*ARcpH1(AH1_(4.0)*mn4G+peakC.y);
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AH1 hitMaxB=(peakC.x-mx4B)*ARcpH1(AH1_(4.0)*mn4B+peakC.y);
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AH1 hitMaxB=(peakC.x-max(mx4B,eB))*ARcpH1(AH1_(4.0)*mn4B+peakC.y);
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AH1 lobeR=max(-hitMinR,hitMaxR);
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AH1 lobeR=max(-hitMinR,hitMaxR);
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AH1 lobeG=max(-hitMinG,hitMaxG);
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AH1 lobeG=max(-hitMinG,hitMaxG);
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AH1 lobeB=max(-hitMinB,hitMaxB);
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AH1 lobeB=max(-hitMinB,hitMaxB);
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@ -963,12 +963,12 @@ AF1 sharpness){
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// Immediate constants for peak range.
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// Immediate constants for peak range.
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AH2 peakC=AH2(1.0,-1.0*4.0);
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AH2 peakC=AH2(1.0,-1.0*4.0);
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// Limiters, these need to be high precision RCPs.
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// Limiters, these need to be high precision RCPs.
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AH2 hitMinR=mn4R*ARcpH2(AH2_(4.0)*mx4R);
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AH2 hitMinR=min(mn4R,eR)*ARcpH2(AH2_(4.0)*mx4R);
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AH2 hitMinG=mn4G*ARcpH2(AH2_(4.0)*mx4G);
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AH2 hitMinG=min(mn4G,eG)*ARcpH2(AH2_(4.0)*mx4G);
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AH2 hitMinB=mn4B*ARcpH2(AH2_(4.0)*mx4B);
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AH2 hitMinB=min(mn4B,eB)*ARcpH2(AH2_(4.0)*mx4B);
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AH2 hitMaxR=(peakC.x-mx4R)*ARcpH2(AH2_(4.0)*mn4R+peakC.y);
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AH2 hitMaxR=(peakC.x-max(mx4R,eR))*ARcpH2(AH2_(4.0)*mn4R+peakC.y);
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AH2 hitMaxG=(peakC.x-mx4G)*ARcpH2(AH2_(4.0)*mn4G+peakC.y);
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AH2 hitMaxG=(peakC.x-max(mx4G,eG))*ARcpH2(AH2_(4.0)*mn4G+peakC.y);
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AH2 hitMaxB=(peakC.x-mx4B)*ARcpH2(AH2_(4.0)*mn4B+peakC.y);
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AH2 hitMaxB=(peakC.x-max(mx4B,eB))*ARcpH2(AH2_(4.0)*mn4B+peakC.y);
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AH2 lobeR=max(-hitMinR,hitMaxR);
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AH2 lobeR=max(-hitMinR,hitMaxR);
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AH2 lobeG=max(-hitMinG,hitMaxG);
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AH2 lobeG=max(-hitMinG,hitMaxG);
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AH2 lobeB=max(-hitMinB,hitMaxB);
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AH2 lobeB=max(-hitMinB,hitMaxB);
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@ -429,7 +429,7 @@
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</item>
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</item>
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<item>
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<item>
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<property name="text">
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<property name="text">
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<string>AMD FidelityFX™️ Super Resolution [Vulkan Only]</string>
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<string>AMD FidelityFX™️ Super Resolution (Vulkan Only)</string>
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</property>
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</property>
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</item>
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</item>
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</widget>
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</widget>
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