// GENERATED FILE - DO NOT EDIT. // Generated by gen_vk_internal_shaders.py. // // Copyright 2018 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // shaders/gen/GenerateMipmap.comp.00000002.inc: // Pre-generated shader for the ANGLE Vulkan back-end. #pragma once constexpr uint8_t kGenerateMipmap_comp_00000002[] = { 0x1f,0x8b,0x08,0x00,0x00,0x00,0x00,0x00,0x02,0xff,0x7d,0x58,0x6d,0x8c,0x55,0xd5, 0x15,0x7d,0x6f,0x98,0x7b,0xee,0xbd,0xcf,0x81,0x51,0xa4,0xcc,0xc8,0xc7,0x44,0xf9, 0x48,0x85,0x01,0xb4,0x28,0x4d,0x0b,0x6a,0x25,0x8d,0x95,0x1a,0x48,0x6d,0x49,0xaa, 0x29,0xfd,0x51,0xd0,0x14,0x6b,0xc0,0xa6,0x85,0xd6,0x56,0xa9,0x68,0x1c,0x54,0x34, 0x94,0x50,0xb0,0xc6,0x10,0x1b,0xd3,0x40,0x9b,0x32,0xa4,0xc0,0x04,0x4b,0xd3,0x82, 0x51,0x2b,0x15,0x06,0x07,0xb4,0x6d,0x2c,0x43,0x91,0x8f,0x69,0xb4,0x65,0x14,0x0d, 0x26,0xc3,0xa7,0x25,0x3d,0x6b,0xd6,0xda,0xdc,0x3d,0xcf,0x11,0x92,0xcb,0xb9,0x7b, 0xed,0x7d,0xf6,0xd9,0x67,0xed,0xbd,0xcf,0xb9,0x6f,0x06,0xd4,0x8c,0x4e,0x4b,0xa5, 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float(a);} // vec2 AF2_x(float a){ return vec2(a, a);} // vec3 AF3_x(float a){ return vec3(a, a, a);} // vec4 AF4_x(float a){ return vec4(a, a, a, a);} // // uint AU1_x(uint a){ return uint(a);} // uvec2 AU2_x(uint a){ return uvec2(a, a);} // uvec3 AU3_x(uint a){ return uvec3(a, a, a);} // uvec4 AU4_x(uint a){ return uvec4(a, a, a, a);} // // uint AAbsSU1(uint a){ return uint(abs(int(a)));} // uvec2 AAbsSU2(uvec2 a){ return uvec2(abs(ivec2(a)));} // uvec3 AAbsSU3(uvec3 a){ return uvec3(abs(ivec3(a)));} // uvec4 AAbsSU4(uvec4 a){ return uvec4(abs(ivec4(a)));} // // uint ABfe(uint src, uint off, uint bits){ return bitfieldExtract(src, int(off), int(bits));} // uint ABfi(uint src, uint ins, uint mask){ return(ins & mask)|(src &(~ mask));} // // uint ABfiM(uint src, uint ins, uint bits){ return bitfieldInsert(src, ins, 0, int(bits));} // // float AFractF1(float x){ return fract(x);} // vec2 AFractF2(vec2 x){ return fract(x);} // vec3 AFractF3(vec3 x){ return fract(x);} // vec4 AFractF4(vec4 x){ return fract(x);} // // float ALerpF1(float x, float y, float a){ return mix(x, y, a);} // vec2 ALerpF2(vec2 x, vec2 y, vec2 a){ return mix(x, y, a);} // vec3 ALerpF3(vec3 x, vec3 y, vec3 a){ return mix(x, y, a);} // vec4 ALerpF4(vec4 x, vec4 y, vec4 a){ return mix(x, y, a);} // // float AMax3F1(float x, float y, float z){ return max(x, max(y, z));} // vec2 AMax3F2(vec2 x, vec2 y, vec2 z){ return max(x, max(y, z));} // vec3 AMax3F3(vec3 x, vec3 y, vec3 z){ return max(x, max(y, z));} // vec4 AMax3F4(vec4 x, vec4 y, vec4 z){ return max(x, max(y, z));} // // uint AMax3SU1(uint x, uint y, uint z){ return uint(max(int(x), max(int(y), int(z))));} // uvec2 AMax3SU2(uvec2 x, uvec2 y, uvec2 z){ return uvec2(max(ivec2(x), max(ivec2(y), ivec2(z))));} // uvec3 AMax3SU3(uvec3 x, uvec3 y, uvec3 z){ return uvec3(max(ivec3(x), max(ivec3(y), ivec3(z))));} // uvec4 AMax3SU4(uvec4 x, uvec4 y, uvec4 z){ return uvec4(max(ivec4(x), max(ivec4(y), ivec4(z))));} // // uint AMax3U1(uint x, uint y, uint z){ return max(x, max(y, z));} // uvec2 AMax3U2(uvec2 x, uvec2 y, uvec2 z){ return max(x, max(y, z));} // uvec3 AMax3U3(uvec3 x, uvec3 y, uvec3 z){ return max(x, max(y, z));} // uvec4 AMax3U4(uvec4 x, uvec4 y, uvec4 z){ return max(x, max(y, z));} // // uint AMaxSU1(uint a, uint b){ return uint(max(int(a), int(b)));} // uvec2 AMaxSU2(uvec2 a, uvec2 b){ return uvec2(max(ivec2(a), ivec2(b)));} // uvec3 AMaxSU3(uvec3 a, uvec3 b){ return uvec3(max(ivec3(a), ivec3(b)));} // uvec4 AMaxSU4(uvec4 a, uvec4 b){ return uvec4(max(ivec4(a), ivec4(b)));} // // float AMed3F1(float x, float y, float z){ return max(min(x, y), min(max(x, y), z));} // vec2 AMed3F2(vec2 x, vec2 y, vec2 z){ return max(min(x, y), min(max(x, y), z));} // vec3 AMed3F3(vec3 x, vec3 y, vec3 z){ return max(min(x, y), min(max(x, y), z));} // vec4 AMed3F4(vec4 x, vec4 y, vec4 z){ return max(min(x, y), min(max(x, y), z));} // // float AMin3F1(float x, float y, float z){ return min(x, min(y, z));} // vec2 AMin3F2(vec2 x, vec2 y, vec2 z){ return min(x, min(y, z));} // vec3 AMin3F3(vec3 x, vec3 y, vec3 z){ return min(x, min(y, z));} // vec4 AMin3F4(vec4 x, vec4 y, vec4 z){ return min(x, min(y, z));} // // uint AMin3SU1(uint x, uint y, uint z){ return uint(min(int(x), min(int(y), int(z))));} // uvec2 AMin3SU2(uvec2 x, uvec2 y, uvec2 z){ return uvec2(min(ivec2(x), min(ivec2(y), ivec2(z))));} // uvec3 AMin3SU3(uvec3 x, uvec3 y, uvec3 z){ return uvec3(min(ivec3(x), min(ivec3(y), ivec3(z))));} // uvec4 AMin3SU4(uvec4 x, uvec4 y, uvec4 z){ return uvec4(min(ivec4(x), min(ivec4(y), ivec4(z))));} // // uint AMin3U1(uint x, uint y, uint z){ return min(x, min(y, z));} // uvec2 AMin3U2(uvec2 x, uvec2 y, uvec2 z){ return min(x, min(y, z));} // uvec3 AMin3U3(uvec3 x, uvec3 y, uvec3 z){ return min(x, min(y, z));} // uvec4 AMin3U4(uvec4 x, uvec4 y, uvec4 z){ return min(x, min(y, z));} // // uint AMinSU1(uint a, uint b){ return uint(min(int(a), int(b)));} // uvec2 AMinSU2(uvec2 a, uvec2 b){ return uvec2(min(ivec2(a), ivec2(b)));} // uvec3 AMinSU3(uvec3 a, uvec3 b){ return uvec3(min(ivec3(a), ivec3(b)));} // uvec4 AMinSU4(uvec4 a, uvec4 b){ return uvec4(min(ivec4(a), ivec4(b)));} // // float ANCosF1(float x){ return cos(x * AF1_x(float(6.28318530718)));} // vec2 ANCosF2(vec2 x){ return cos(x * AF2_x(float(6.28318530718)));} // vec3 ANCosF3(vec3 x){ return cos(x * AF3_x(float(6.28318530718)));} // vec4 ANCosF4(vec4 x){ return cos(x * AF4_x(float(6.28318530718)));} // // float ANSinF1(float x){ return sin(x * AF1_x(float(6.28318530718)));} // vec2 ANSinF2(vec2 x){ return sin(x * AF2_x(float(6.28318530718)));} // vec3 ANSinF3(vec3 x){ return sin(x * AF3_x(float(6.28318530718)));} // vec4 ANSinF4(vec4 x){ return sin(x * AF4_x(float(6.28318530718)));} // // float ARcpF1(float x){ return AF1_x(float(1.0))/ x;} // vec2 ARcpF2(vec2 x){ return AF2_x(float(1.0))/ x;} // vec3 ARcpF3(vec3 x){ return AF3_x(float(1.0))/ x;} // vec4 ARcpF4(vec4 x){ return AF4_x(float(1.0))/ x;} // // float ARsqF1(float x){ return AF1_x(float(1.0))/ sqrt(x);} // vec2 ARsqF2(vec2 x){ return AF2_x(float(1.0))/ sqrt(x);} // vec3 ARsqF3(vec3 x){ return AF3_x(float(1.0))/ sqrt(x);} // vec4 ARsqF4(vec4 x){ return AF4_x(float(1.0))/ sqrt(x);} // // float ASatF1(float x){ return clamp(x, AF1_x(float(0.0)), AF1_x(float(1.0)));} // vec2 ASatF2(vec2 x){ return clamp(x, AF2_x(float(0.0)), AF2_x(float(1.0)));} // vec3 ASatF3(vec3 x){ return clamp(x, AF3_x(float(0.0)), AF3_x(float(1.0)));} // vec4 ASatF4(vec4 x){ return clamp(x, AF4_x(float(0.0)), AF4_x(float(1.0)));} // // uint AShrSU1(uint a, uint b){ return uint(int(a)>> int(b));} // uvec2 AShrSU2(uvec2 a, uvec2 b){ return uvec2(ivec2(a)>> ivec2(b));} // uvec3 AShrSU3(uvec3 a, uvec3 b){ return uvec3(ivec3(a)>> ivec3(b));} // uvec4 AShrSU4(uvec4 a, uvec4 b){ return uvec4(ivec4(a)>> ivec4(b));} // // f16vec4 AH4_AU2_x(uvec2 x){ return f16vec4(unpackFloat2x16(x . x), unpackFloat2x16(x . y));} // // uvec2 AU2_AH4_x(f16vec4 x){ return uvec2(packFloat2x16(x . xy), packFloat2x16(x . zw));} // // float16_t AH1_x(float16_t a){ return float16_t(a);} // f16vec2 AH2_x(float16_t a){ return f16vec2(a, a);} // f16vec3 AH3_x(float16_t a){ return f16vec3(a, a, a);} // f16vec4 AH4_x(float16_t a){ return f16vec4(a, a, a, a);} // // uint16_t AW1_x(uint16_t a){ return uint16_t(a);} // u16vec2 AW2_x(uint16_t a){ return u16vec2(a, a);} // u16vec3 AW3_x(uint16_t a){ return u16vec3(a, a, a);} // u16vec4 AW4_x(uint16_t a){ return u16vec4(a, a, a, a);} // // uint16_t AAbsSW1(uint16_t a){ return uint16_t(abs(int16_t(a)));} // u16vec2 AAbsSW2(u16vec2 a){ return u16vec2(abs(i16vec2(a)));} // u16vec3 AAbsSW3(u16vec3 a){ return u16vec3(abs(i16vec3(a)));} // u16vec4 AAbsSW4(u16vec4 a){ return u16vec4(abs(i16vec4(a)));} // // float16_t AFractH1(float16_t x){ return fract(x);} // f16vec2 AFractH2(f16vec2 x){ return fract(x);} // f16vec3 AFractH3(f16vec3 x){ return fract(x);} // f16vec4 AFractH4(f16vec4 x){ return fract(x);} // // float16_t ALerpH1(float16_t x, float16_t y, float16_t a){ return mix(x, y, a);} // f16vec2 ALerpH2(f16vec2 x, f16vec2 y, f16vec2 a){ return mix(x, y, a);} // f16vec3 ALerpH3(f16vec3 x, f16vec3 y, f16vec3 a){ return mix(x, y, a);} // f16vec4 ALerpH4(f16vec4 x, f16vec4 y, f16vec4 a){ return mix(x, y, a);} // // float16_t AMax3H1(float16_t x, float16_t y, float16_t z){ return max(x, max(y, z));} // f16vec2 AMax3H2(f16vec2 x, f16vec2 y, f16vec2 z){ return max(x, max(y, z));} // f16vec3 AMax3H3(f16vec3 x, f16vec3 y, f16vec3 z){ return max(x, max(y, z));} // f16vec4 AMax3H4(f16vec4 x, f16vec4 y, f16vec4 z){ return max(x, max(y, z));} // // uint16_t AMaxSW1(uint16_t a, uint16_t b){ return uint16_t(max(int(a), int(b)));} // u16vec2 AMaxSW2(u16vec2 a, u16vec2 b){ return u16vec2(max(ivec2(a), ivec2(b)));} // u16vec3 AMaxSW3(u16vec3 a, u16vec3 b){ return u16vec3(max(ivec3(a), ivec3(b)));} // u16vec4 AMaxSW4(u16vec4 a, u16vec4 b){ return u16vec4(max(ivec4(a), ivec4(b)));} // // float16_t AMin3H1(float16_t x, float16_t y, float16_t z){ return min(x, min(y, z));} // f16vec2 AMin3H2(f16vec2 x, f16vec2 y, f16vec2 z){ return min(x, min(y, z));} // f16vec3 AMin3H3(f16vec3 x, f16vec3 y, f16vec3 z){ return min(x, min(y, z));} // f16vec4 AMin3H4(f16vec4 x, f16vec4 y, f16vec4 z){ return min(x, min(y, z));} // // uint16_t AMinSW1(uint16_t a, uint16_t b){ return uint16_t(min(int(a), int(b)));} // u16vec2 AMinSW2(u16vec2 a, u16vec2 b){ return u16vec2(min(ivec2(a), ivec2(b)));} // u16vec3 AMinSW3(u16vec3 a, u16vec3 b){ return u16vec3(min(ivec3(a), ivec3(b)));} // u16vec4 AMinSW4(u16vec4 a, u16vec4 b){ return u16vec4(min(ivec4(a), ivec4(b)));} // // float16_t ARcpH1(float16_t x){ return AH1_x(float16_t(1.0))/ x;} // f16vec2 ARcpH2(f16vec2 x){ return AH2_x(float16_t(1.0))/ x;} // f16vec3 ARcpH3(f16vec3 x){ return AH3_x(float16_t(1.0))/ x;} // f16vec4 ARcpH4(f16vec4 x){ return AH4_x(float16_t(1.0))/ x;} // // float16_t ARsqH1(float16_t x){ return AH1_x(float16_t(1.0))/ sqrt(x);} // f16vec2 ARsqH2(f16vec2 x){ return AH2_x(float16_t(1.0))/ sqrt(x);} // f16vec3 ARsqH3(f16vec3 x){ return AH3_x(float16_t(1.0))/ sqrt(x);} // f16vec4 ARsqH4(f16vec4 x){ return AH4_x(float16_t(1.0))/ sqrt(x);} // // float16_t ASatH1(float16_t x){ return clamp(x, AH1_x(float16_t(0.0)), AH1_x(float16_t(1.0)));} // f16vec2 ASatH2(f16vec2 x){ return clamp(x, AH2_x(float16_t(0.0)), AH2_x(float16_t(1.0)));} // f16vec3 ASatH3(f16vec3 x){ return clamp(x, AH3_x(float16_t(0.0)), AH3_x(float16_t(1.0)));} // f16vec4 ASatH4(f16vec4 x){ return clamp(x, AH4_x(float16_t(0.0)), AH4_x(float16_t(1.0)));} // // uint16_t AShrSW1(uint16_t a, uint16_t b){ return uint16_t(int16_t(a)>> int16_t(b));} // u16vec2 AShrSW2(u16vec2 a, u16vec2 b){ return u16vec2(i16vec2(a)>> i16vec2(b));} // u16vec3 AShrSW3(u16vec3 a, u16vec3 b){ return u16vec3(i16vec3(a)>> i16vec3(b));} // u16vec4 AShrSW4(u16vec4 a, u16vec4 b){ return u16vec4(i16vec4(a)>> i16vec4(b));} // // float ACpySgnF1(float d, float s){ return uintBitsToFloat(uint(floatBitsToUint(float(d))|(floatBitsToUint(float(s))& AU1_x(uint(0x80000000u)))));} // vec2 ACpySgnF2(vec2 d, vec2 s){ return uintBitsToFloat(uvec2(floatBitsToUint(vec2(d))|(floatBitsToUint(vec2(s))& AU2_x(uint(0x80000000u)))));} // vec3 ACpySgnF3(vec3 d, vec3 s){ return uintBitsToFloat(uvec3(floatBitsToUint(vec3(d))|(floatBitsToUint(vec3(s))& AU3_x(uint(0x80000000u)))));} // vec4 ACpySgnF4(vec4 d, vec4 s){ return uintBitsToFloat(uvec4(floatBitsToUint(vec4(d))|(floatBitsToUint(vec4(s))& AU4_x(uint(0x80000000u)))));} // // float ASignedF1(float m){ return ASatF1(m * AF1_x(float(uintBitsToFloat(uint(0x7f800000u)))));} // vec2 ASignedF2(vec2 m){ return ASatF2(m * AF2_x(float(uintBitsToFloat(uint(0x7f800000u)))));} // vec3 ASignedF3(vec3 m){ return ASatF3(m * AF3_x(float(uintBitsToFloat(uint(0x7f800000u)))));} // vec4 ASignedF4(vec4 m){ return ASatF4(m * AF4_x(float(uintBitsToFloat(uint(0x7f800000u)))));} // // float16_t ACpySgnH1(float16_t d, float16_t s){ return uint16BitsToHalf(uint16_t(halfBitsToUint16(float16_t(d))|(halfBitsToUint16(float16_t(s))& AW1_x(uint16_t(0x8000u)))));} // f16vec2 ACpySgnH2(f16vec2 d, f16vec2 s){ return uint16BitsToHalf(u16vec2(halfBitsToUint16(f16vec2(d))|(halfBitsToUint16(f16vec2(s))& AW2_x(uint16_t(0x8000u)))));} // f16vec3 ACpySgnH3(f16vec3 d, f16vec3 s){ return uint16BitsToHalf(u16vec3(halfBitsToUint16(f16vec3(d))|(halfBitsToUint16(f16vec3(s))& AW3_x(uint16_t(0x8000u)))));} // f16vec4 ACpySgnH4(f16vec4 d, f16vec4 s){ return uint16BitsToHalf(u16vec4(halfBitsToUint16(f16vec4(d))|(halfBitsToUint16(f16vec4(s))& AW4_x(uint16_t(0x8000u)))));} // // float16_t ASignedH1(float16_t m){ return ASatH1(m * AH1_x(float16_t(uint16BitsToHalf(uint16_t(0x7c00u)))));} // f16vec2 ASignedH2(f16vec2 m){ return ASatH2(m * AH2_x(float16_t(uint16BitsToHalf(uint16_t(0x7c00u)))));} // f16vec3 ASignedH3(f16vec3 m){ return ASatH3(m * AH3_x(float16_t(uint16BitsToHalf(uint16_t(0x7c00u)))));} // f16vec4 ASignedH4(f16vec4 m){ return ASatH4(m * AH4_x(float16_t(uint16BitsToHalf(uint16_t(0x7c00u)))));} // // float16_t APrxLoSqrtH1(float16_t a){ return uint16BitsToHalf(uint16_t((halfBitsToUint16(float16_t(a))>> AW1_x(uint16_t(1)))+ AW1_x(uint16_t(0x1de2))));} // f16vec2 APrxLoSqrtH2(f16vec2 a){ return uint16BitsToHalf(u16vec2((halfBitsToUint16(f16vec2(a))>> AW2_x(uint16_t(1)))+ AW2_x(uint16_t(0x1de2))));} // // float16_t APrxLoRcpH1(float16_t a){ return uint16BitsToHalf(uint16_t(AW1_x(uint16_t(0x7784))- halfBitsToUint16(float16_t(a))));} // f16vec2 APrxLoRcpH2(f16vec2 a){ return uint16BitsToHalf(u16vec2(AW2_x(uint16_t(0x7784))- halfBitsToUint16(f16vec2(a))));} // // float16_t APrxMedRcpH1(float16_t a){ float16_t b = uint16BitsToHalf(uint16_t(AW1_x(uint16_t(0x778d))- halfBitsToUint16(float16_t(a))));return b *(- b * a + AH1_x(float16_t(2.0)));} // f16vec2 APrxMedRcpH2(f16vec2 a){ f16vec2 b = uint16BitsToHalf(u16vec2(AW2_x(uint16_t(0x778d))- halfBitsToUint16(f16vec2(a))));return b *(- b * a + AH2_x(float16_t(2.0)));} // // float16_t APrxLoRsqH1(float16_t a){ return uint16BitsToHalf(uint16_t(AW1_x(uint16_t(0x59a3))-(halfBitsToUint16(float16_t(a))>> AW1_x(uint16_t(1)))));} // f16vec2 APrxLoRsqH2(f16vec2 a){ return uint16BitsToHalf(u16vec2(AW2_x(uint16_t(0x59a3))-(halfBitsToUint16(f16vec2(a))>> AW2_x(uint16_t(1)))));} // // float APrxLoSqrtF1(float a){ return uintBitsToFloat(uint((floatBitsToUint(float(a))>> AU1_x(uint(1)))+ AU1_x(uint(0x1fbc4639))));} // float APrxLoRcpF1(float a){ return uintBitsToFloat(uint(AU1_x(uint(0x7ef07ebb))- floatBitsToUint(float(a))));} // float APrxMedRcpF1(float a){ float b = uintBitsToFloat(uint(AU1_x(uint(0x7ef19fff))- floatBitsToUint(float(a))));return b *(- b * a + AF1_x(float(2.0)));} // float APrxLoRsqF1(float a){ return uintBitsToFloat(uint(AU1_x(uint(0x5f347d74))-(floatBitsToUint(float(a))>> AU1_x(uint(1)))));} // // float APSinF1(float x){ return x * abs(x)- x;} // float APCosF1(float x){ x = AFractF1(x * AF1_x(float(0.5))+ AF1_x(float(0.75)));x = x * AF1_x(float(2.0))- AF1_x(float(1.0));return APSinF1(x);} // // f16vec2 APSinH2(f16vec2 x){ return x * abs(x)- x;} // f16vec2 APCosH2(f16vec2 x){ x = AFractH2(x * AH2_x(float16_t(0.5))+ AH2_x(float16_t(0.75)));x = x * AH2_x(float16_t(2.0))- AH2_x(float16_t(1.0));return APSinH2(x);} // // float ATo709F1(float c){ return max(min(c * AF1_x(float(4.5)), AF1_x(float(0.018))), AF1_x(float(1.099))* pow(c, AF1_x(float(0.45)))- AF1_x(float(0.099)));} // // float AToGammaF1(float c, float rcpX){ return pow(c, rcpX);} // // float AToPqF1(float x){ float p = pow(x, AF1_x(float(0.159302))); // return pow((AF1_x(float(0.835938))+ AF1_x(float(18.8516))* p)/(AF1_x(float(1.0))+ AF1_x(float(18.6875))* p), AF1_x(float(78.8438)));} // // float AToSrgbF1(float c){ return max(min(c * AF1_x(float(12.92)), AF1_x(float(0.0031308))), AF1_x(float(1.055))* pow(c, AF1_x(float(0.41666)))- AF1_x(float(0.055)));} // // float AToTwoF1(float c){ return sqrt(c);} // // float AFrom709F1(float c){ return max(min(c * AF1_x(float(1.0 / 4.5)), AF1_x(float(0.081))), // pow((c + AF1_x(float(0.099)))*(AF1_x(float(1.0))/(AF1_x(float(1.099)))), AF1_x(float(1.0 / 0.45))));} // // float AFromGammaF1(float c, float x){ return pow(c, x);} // // float AFromPqF1(float x){ float p = pow(x, AF1_x(float(0.0126833))); // return pow(ASatF1(p - AF1_x(float(0.835938)))/(AF1_x(float(18.8516))- AF1_x(float(18.6875))* p), AF1_x(float(6.27739)));} // // float AFromSrgbF1(float c){ return max(min(c * AF1_x(float(1.0 / 12.92)), AF1_x(float(0.04045))), // pow((c + AF1_x(float(0.055)))*(AF1_x(float(1.0))/ AF1_x(float(1.055))), AF1_x(float(2.4))));} // // float AFromTwoF1(float c){ return c * c;} // // f16vec2 ATo709H2(f16vec2 c){ return max(min(c * AH2_x(float16_t(4.5)), AH2_x(float16_t(0.018))), AH2_x(float16_t(1.099))* pow(c, AH2_x(float16_t(0.45)))- AH2_x(float16_t(0.099)));} // // f16vec2 AToGammaH2(f16vec2 c, float16_t rcpX){ return pow(c, AH2_x(float16_t(rcpX)));} // // f16vec2 AToSrgbH2(f16vec2 c){ return max(min(c * AH2_x(float16_t(12.92)), AH2_x(float16_t(0.0031308))), AH2_x(float16_t(1.055))* pow(c, AH2_x(float16_t(0.41666)))- AH2_x(float16_t(0.055)));} // // f16vec2 AToTwoH2(f16vec2 c){ return sqrt(c);} // // f16vec2 AFrom709H2(f16vec2 c){ return max(min(c * AH2_x(float16_t(1.0 / 4.5)), AH2_x(float16_t(0.081))), // pow((c + AH2_x(float16_t(0.099)))*(AH2_x(float16_t(1.0))/(AH2_x(float16_t(1.099)))), AH2_x(float16_t(1.0 / 0.45))));} // // f16vec2 AFromGammaH2(f16vec2 c, float16_t x){ return pow(c, AH2_x(float16_t(x)));} // // f16vec2 AFromSrgbH2(f16vec2 c){ return max(min(c * AH2_x(float16_t(1.0 / 12.92)), AH2_x(float16_t(0.04045))), // pow((c + AH2_x(float16_t(0.055)))*(AH2_x(float16_t(1.0))/ AH2_x(float16_t(1.055))), AH2_x(float16_t(2.4))));} // // f16vec2 AFromTwoH2(f16vec2 c){ return c * c;} // // uvec2 ARmp8x8(uint a){ return uvec2(ABfe(a, 1u, 3u), ABfiM(ABfe(a, 3u, 3u), a, 1u));} // // uvec2 ARmpRed8x8(uint a){ return uvec2(ABfiM(ABfe(a, 2u, 3u), a, 1u), ABfiM(ABfe(a, 3u, 3u), ABfe(a, 1u, 2u), 2u));} // // vec2 opAAbsF2(out vec2 d, in vec2 a){ d = abs(a);return d;} // vec3 opAAbsF3(out vec3 d, in vec3 a){ d = abs(a);return d;} // vec4 opAAbsF4(out vec4 d, in vec4 a){ d = abs(a);return d;} // // vec2 opAAddF2(out vec2 d, in vec2 a, in vec2 b){ d = a + b;return d;} // vec3 opAAddF3(out vec3 d, in vec3 a, in vec3 b){ d = a + b;return d;} // vec4 opAAddF4(out vec4 d, in vec4 a, in vec4 b){ d = a + b;return d;} // // vec2 opACpyF2(out vec2 d, in vec2 a){ d = a;return d;} // vec3 opACpyF3(out vec3 d, in vec3 a){ d = a;return d;} // vec4 opACpyF4(out vec4 d, in vec4 a){ d = a;return d;} // // vec2 opALerpF2(out vec2 d, in vec2 a, in vec2 b, in vec2 c){ d = ALerpF2(a, b, c);return d;} // vec3 opALerpF3(out vec3 d, in vec3 a, in vec3 b, in vec3 c){ d = ALerpF3(a, b, c);return d;} // vec4 opALerpF4(out vec4 d, in vec4 a, in vec4 b, in vec4 c){ d = ALerpF4(a, b, c);return d;} // // vec2 opALerpOneF2(out vec2 d, in vec2 a, in vec2 b, float c){ d = ALerpF2(a, b, AF2_x(float(c)));return d;} // vec3 opALerpOneF3(out vec3 d, in vec3 a, in vec3 b, float c){ d = ALerpF3(a, b, AF3_x(float(c)));return d;} // vec4 opALerpOneF4(out vec4 d, in vec4 a, in vec4 b, float c){ d = ALerpF4(a, b, AF4_x(float(c)));return d;} // // vec2 opAMaxF2(out vec2 d, in vec2 a, in vec2 b){ d = max(a, b);return d;} // vec3 opAMaxF3(out vec3 d, in vec3 a, in vec3 b){ d = max(a, b);return d;} // vec4 opAMaxF4(out vec4 d, in vec4 a, in vec4 b){ d = max(a, b);return d;} // // vec2 opAMinF2(out vec2 d, in vec2 a, in vec2 b){ d = min(a, b);return d;} // vec3 opAMinF3(out vec3 d, in vec3 a, in vec3 b){ d = min(a, b);return d;} // vec4 opAMinF4(out vec4 d, in vec4 a, in vec4 b){ d = min(a, b);return d;} // // vec2 opAMulF2(out vec2 d, in vec2 a, in vec2 b){ d = a * b;return d;} // vec3 opAMulF3(out vec3 d, in vec3 a, in vec3 b){ d = a * b;return d;} // vec4 opAMulF4(out vec4 d, in vec4 a, in vec4 b){ d = a * b;return d;} // // vec2 opAMulOneF2(out vec2 d, in vec2 a, float b){ d = a * AF2_x(float(b));return d;} // vec3 opAMulOneF3(out vec3 d, in vec3 a, float b){ d = a * AF3_x(float(b));return d;} // vec4 opAMulOneF4(out vec4 d, in vec4 a, float b){ d = a * AF4_x(float(b));return d;} // // vec2 opANegF2(out vec2 d, in vec2 a){ d = - a;return d;} // vec3 opANegF3(out vec3 d, in vec3 a){ d = - a;return d;} // vec4 opANegF4(out vec4 d, in vec4 a){ d = - a;return d;} // // vec2 opARcpF2(out vec2 d, in vec2 a){ d = ARcpF2(a);return d;} // vec3 opARcpF3(out vec3 d, in vec3 a){ d = ARcpF3(a);return d;} // vec4 opARcpF4(out vec4 d, in vec4 a){ d = ARcpF4(a);return d;} // // #line 70 "shaders/src/GenerateMipmap.comp" // // shared f16vec4 spd_intermediate[16][16]; // // shared uint spd_counter; // // f16vec4 SpdLoadSourceImageH(ivec2 p) // { // vec2 textureCoord = p * params . invSrcExtent + params . invSrcExtent; // return f16vec4(texture(src, textureCoord)); // } // // f16vec4 SpdLoadH(ivec2 p) // { // return f16vec4(0); // } // // void SpdStoreH(ivec2 p, f16vec4 value, uint mip) // { // imageStore(dst[mip], p, vec4(value)); // } // // f16vec4 SpdLoadIntermediateH(uint x, uint y) // { // return spd_intermediate[x][y]; // } // void SpdStoreIntermediateH(uint x, uint y, f16vec4 value) // { // spd_intermediate[x][y]= value; // } // // f16vec4 SpdReduce4H(f16vec4 v0, f16vec4 v1, f16vec4 v2, f16vec4 v3) // { // return(v0 + v1 + v2 + v3)* float16_t(0.25); // } // // #line 1 "shaders/src/third_party/ffx_spd/ffx_spd.h" // // vec4 SpdLoadSourceImage(ivec2 p){ return vec4(0.0, 0.0, 0.0, 0.0);} // vec4 SpdLoad(ivec2 p){ return vec4(0.0, 0.0, 0.0, 0.0);} // void SpdStore(ivec2 p, vec4 value, uint mip){ } // vec4 SpdLoadIntermediate(uint x, uint y){ return vec4(0.0, 0.0, 0.0, 0.0);} // void SpdStoreIntermediate(uint x, uint y, vec4 value){ } // vec4 SpdReduce4(vec4 v0, vec4 v1, vec4 v2, vec4 v3){ return vec4(0.0, 0.0, 0.0, 0.0);} // // void SpdWorkgroupShuffleBarrier(){ // // barrier(); // // } // // bool SpdExitWorkgroup(uint numWorkGroups, uint localInvocationIndex) // { // // if(localInvocationIndex == 0) // { // ; // } // SpdWorkgroupShuffleBarrier(); // return(0 !=(numWorkGroups - 1)); // } // // vec4 SpdReduceQuad(vec4 v) // { // // return AF4_x(0.0); // } // // vec4 SpdReduceIntermediate(uvec2 i0, uvec2 i1, uvec2 i2, uvec2 i3) // { // vec4 v0 = SpdLoadIntermediate(i0 . x, i0 . y); // vec4 v1 = SpdLoadIntermediate(i1 . x, i1 . y); // vec4 v2 = SpdLoadIntermediate(i2 . x, i2 . y); // vec4 v3 = SpdLoadIntermediate(i3 . x, i3 . y); // return SpdReduce4(v0, v1, v2, v3); // } // // vec4 SpdReduceLoad4(uvec2 i0, uvec2 i1, uvec2 i2, uvec2 i3) // { // vec4 v0 = SpdLoad(ivec2(i0)); // vec4 v1 = SpdLoad(ivec2(i1)); // vec4 v2 = SpdLoad(ivec2(i2)); // vec4 v3 = SpdLoad(ivec2(i3)); // return SpdReduce4(v0, v1, v2, v3); // } // // vec4 SpdReduceLoad4(uvec2 base) // { // return SpdReduceLoad4( // uvec2(base + uvec2(0, 0)), // uvec2(base + uvec2(0, 1)), // uvec2(base + uvec2(1, 0)), // uvec2(base + uvec2(1, 1))); // } // // vec4 SpdReduceLoadSourceImage4(uvec2 i0, uvec2 i1, uvec2 i2, uvec2 i3) // { // vec4 v0 = SpdLoadSourceImage(ivec2(i0)); // vec4 v1 = SpdLoadSourceImage(ivec2(i1)); // vec4 v2 = SpdLoadSourceImage(ivec2(i2)); // vec4 v3 = SpdLoadSourceImage(ivec2(i3)); // return SpdReduce4(v0, v1, v2, v3); // } // // vec4 SpdReduceLoadSourceImage4(uvec2 base) // { // // return SpdLoadSourceImage(ivec2(base)); // // } // // void SpdDownsampleMips_0_1_Intrinsics(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // vec4 v[4]; // // ivec2 tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2); // ivec2 pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y); // v[0]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[0], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y); // v[1]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[1], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y + 16); // v[2]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[2], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y + 16); // v[3]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[3], 0); // // if(mip <= 1) // return; // // v[0]= SpdReduceQuad(v[0]); // v[1]= SpdReduceQuad(v[1]); // v[2]= SpdReduceQuad(v[2]); // v[3]= SpdReduceQuad(v[3]); // // if((localInvocationIndex % 4)== 0) // { // SpdStore(ivec2(workGroupID . xy * 16)+ // ivec2(x / 2, y / 2), v[0], 1); // SpdStoreIntermediate( // x / 2, y / 2, v[0]); // // SpdStore(ivec2(workGroupID . xy * 16)+ // ivec2(x / 2 + 8, y / 2), v[1], 1); // SpdStoreIntermediate( // x / 2 + 8, y / 2, v[1]); // // SpdStore(ivec2(workGroupID . xy * 16)+ // ivec2(x / 2, y / 2 + 8), v[2], 1); // SpdStoreIntermediate( // x / 2, y / 2 + 8, v[2]); // // SpdStore(ivec2(workGroupID . xy * 16)+ // ivec2(x / 2 + 8, y / 2 + 8), v[3], 1); // SpdStoreIntermediate( // x / 2 + 8, y / 2 + 8, v[3]); // } // } // // void SpdDownsampleMips_0_1_LDS(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // vec4 v[4]; // // ivec2 tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2); // ivec2 pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y); // v[0]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[0], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y); // v[1]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[1], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y + 16); // v[2]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[2], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y + 16); // v[3]= SpdReduceLoadSourceImage4(tex); // SpdStore(pix, v[3], 0); // // if(mip <= 1) // return; // // for(int i = 0;i < 4;i ++) // { // SpdStoreIntermediate(x, y, v[i]); // SpdWorkgroupShuffleBarrier(); // if(localInvocationIndex < 64) // { // v[i]= SpdReduceIntermediate( // uvec2(x * 2 + 0, y * 2 + 0), // uvec2(x * 2 + 1, y * 2 + 0), // uvec2(x * 2 + 0, y * 2 + 1), // uvec2(x * 2 + 1, y * 2 + 1) // ); // SpdStore(ivec2(workGroupID . xy * 16)+ ivec2(x +(i % 2)* 8, y +(i / 2)* 8), v[i], 1); // } // SpdWorkgroupShuffleBarrier(); // } // // if(localInvocationIndex < 64) // { // SpdStoreIntermediate(x + 0, y + 0, v[0]); // SpdStoreIntermediate(x + 8, y + 0, v[1]); // SpdStoreIntermediate(x + 0, y + 8, v[2]); // SpdStoreIntermediate(x + 8, y + 8, v[3]); // } // } // // void SpdDownsampleMips_0_1(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // SpdDownsampleMips_0_1_LDS(x, y, workGroupID, localInvocationIndex, mip); // // } // // void SpdDownsampleMip_2(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 64) // { // vec4 v = SpdReduceIntermediate( // uvec2(x * 2 + 0 + 0, y * 2 + 0), // uvec2(x * 2 + 0 + 1, y * 2 + 0), // uvec2(x * 2 + 0 + 0, y * 2 + 1), // uvec2(x * 2 + 0 + 1, y * 2 + 1) // ); // SpdStore(ivec2(workGroupID . xy * 8)+ ivec2(x, y), v, mip); // // SpdStoreIntermediate(x * 2 + y % 2, y * 2, v); // } // // } // // void SpdDownsampleMip_3(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 16) // { // // vec4 v = SpdReduceIntermediate( // uvec2(x * 4 + 0 + 0, y * 4 + 0), // uvec2(x * 4 + 2 + 0, y * 4 + 0), // uvec2(x * 4 + 0 + 1, y * 4 + 2), // uvec2(x * 4 + 2 + 1, y * 4 + 2) // ); // SpdStore(ivec2(workGroupID . xy * 4)+ ivec2(x, y), v, mip); // // SpdStoreIntermediate(x * 4 + y, y * 4, v); // } // // } // // void SpdDownsampleMip_4(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 4) // { // // vec4 v = SpdReduceIntermediate( // uvec2(x * 8 + 0 + 0 + y * 2, y * 8 + 0), // uvec2(x * 8 + 4 + 0 + y * 2, y * 8 + 0), // uvec2(x * 8 + 0 + 1 + y * 2, y * 8 + 4), // uvec2(x * 8 + 4 + 1 + y * 2, y * 8 + 4) // ); // SpdStore(ivec2(workGroupID . xy * 2)+ ivec2(x, y), v, mip); // // SpdStoreIntermediate(x + y * 2, 0, v); // } // // } // // void SpdDownsampleMip_5(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 1) // { // // vec4 v = SpdReduceIntermediate( // uvec2(0, 0), // uvec2(1, 0), // uvec2(2, 0), // uvec2(3, 0) // ); // SpdStore(ivec2(workGroupID . xy), v, mip); // } // // } // // void SpdDownsampleMips_6_7(uint x, uint y, uint mips) // { // ivec2 tex = ivec2(x * 4 + 0, y * 4 + 0); // ivec2 pix = ivec2(x * 2 + 0, y * 2 + 0); // vec4 v0 = SpdReduceLoad4(tex); // SpdStore(pix, v0, 6); // // tex = ivec2(x * 4 + 2, y * 4 + 0); // pix = ivec2(x * 2 + 1, y * 2 + 0); // vec4 v1 = SpdReduceLoad4(tex); // SpdStore(pix, v1, 6); // // tex = ivec2(x * 4 + 0, y * 4 + 2); // pix = ivec2(x * 2 + 0, y * 2 + 1); // vec4 v2 = SpdReduceLoad4(tex); // SpdStore(pix, v2, 6); // // tex = ivec2(x * 4 + 2, y * 4 + 2); // pix = ivec2(x * 2 + 1, y * 2 + 1); // vec4 v3 = SpdReduceLoad4(tex); // SpdStore(pix, v3, 6); // // if(mips <= 7)return; // // vec4 v = SpdReduce4(v0, v1, v2, v3); // SpdStore(ivec2(x, y), v, 7); // SpdStoreIntermediate(x, y, v); // } // // void SpdDownsampleNextFour(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint baseMip, uint mips) // { // if(mips <= baseMip)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_2(x, y, workGroupID, localInvocationIndex, baseMip); // // if(mips <= baseMip + 1)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_3(x, y, workGroupID, localInvocationIndex, baseMip + 1); // // if(mips <= baseMip + 2)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_4(x, y, workGroupID, localInvocationIndex, baseMip + 2); // // if(mips <= baseMip + 3)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_5(x, y, workGroupID, localInvocationIndex, baseMip + 3); // } // // void SpdDownsample( // uvec2 workGroupID, // uint localInvocationIndex, // uint mips, // uint numWorkGroups // ){ // uvec2 sub_xy = ARmpRed8x8(localInvocationIndex % 64); // uint x = sub_xy . x + 8 *((localInvocationIndex >> 6)% 2); // uint y = sub_xy . y + 8 *((localInvocationIndex >> 7)); // SpdDownsampleMips_0_1(x, y, workGroupID, localInvocationIndex, mips); // // SpdDownsampleNextFour(x, y, workGroupID, localInvocationIndex, 2, mips); // // if(mips <= 6)return; // // if(SpdExitWorkgroup(numWorkGroups, localInvocationIndex))return; // // SpdDownsampleMips_6_7(x, y, mips); // // SpdDownsampleNextFour(x, y, uvec2(0, 0), localInvocationIndex, 8, mips); // } // // #extension GL_EXT_shader_subgroup_extended_types_float16 : require // // f16vec4 SpdReduceQuadH(f16vec4 v) // { // // return f16vec4(0.0, 0.0, 0.0, 0.0); // // } // // f16vec4 SpdReduceIntermediateH(uvec2 i0, uvec2 i1, uvec2 i2, uvec2 i3) // { // f16vec4 v0 = SpdLoadIntermediateH(i0 . x, i0 . y); // f16vec4 v1 = SpdLoadIntermediateH(i1 . x, i1 . y); // f16vec4 v2 = SpdLoadIntermediateH(i2 . x, i2 . y); // f16vec4 v3 = SpdLoadIntermediateH(i3 . x, i3 . y); // return SpdReduce4H(v0, v1, v2, v3); // } // // f16vec4 SpdReduceLoad4H(uvec2 i0, uvec2 i1, uvec2 i2, uvec2 i3) // { // f16vec4 v0 = SpdLoadH(ivec2(i0)); // f16vec4 v1 = SpdLoadH(ivec2(i1)); // f16vec4 v2 = SpdLoadH(ivec2(i2)); // f16vec4 v3 = SpdLoadH(ivec2(i3)); // return SpdReduce4H(v0, v1, v2, v3); // } // // f16vec4 SpdReduceLoad4H(uvec2 base) // { // return SpdReduceLoad4H( // uvec2(base + uvec2(0, 0)), // uvec2(base + uvec2(0, 1)), // uvec2(base + uvec2(1, 0)), // uvec2(base + uvec2(1, 1))); // } // // f16vec4 SpdReduceLoadSourceImage4H(uvec2 i0, uvec2 i1, uvec2 i2, uvec2 i3) // { // f16vec4 v0 = SpdLoadSourceImageH(ivec2(i0)); // f16vec4 v1 = SpdLoadSourceImageH(ivec2(i1)); // f16vec4 v2 = SpdLoadSourceImageH(ivec2(i2)); // f16vec4 v3 = SpdLoadSourceImageH(ivec2(i3)); // return SpdReduce4H(v0, v1, v2, v3); // } // // f16vec4 SpdReduceLoadSourceImage4H(uvec2 base) // { // // return SpdLoadSourceImageH(ivec2(base)); // // } // // void SpdDownsampleMips_0_1_IntrinsicsH(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mips) // { // f16vec4 v[4]; // // ivec2 tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2); // ivec2 pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y); // v[0]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[0], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y); // v[1]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[1], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y + 16); // v[2]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[2], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y + 16); // v[3]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[3], 0); // // if(mips <= 1) // return; // // v[0]= SpdReduceQuadH(v[0]); // v[1]= SpdReduceQuadH(v[1]); // v[2]= SpdReduceQuadH(v[2]); // v[3]= SpdReduceQuadH(v[3]); // // if((localInvocationIndex % 4)== 0) // { // SpdStoreH(ivec2(workGroupID . xy * 16)+ ivec2(x / 2, y / 2), v[0], 1); // SpdStoreIntermediateH(x / 2, y / 2, v[0]); // // SpdStoreH(ivec2(workGroupID . xy * 16)+ ivec2(x / 2 + 8, y / 2), v[1], 1); // SpdStoreIntermediateH(x / 2 + 8, y / 2, v[1]); // // SpdStoreH(ivec2(workGroupID . xy * 16)+ ivec2(x / 2, y / 2 + 8), v[2], 1); // SpdStoreIntermediateH(x / 2, y / 2 + 8, v[2]); // // SpdStoreH(ivec2(workGroupID . xy * 16)+ ivec2(x / 2 + 8, y / 2 + 8), v[3], 1); // SpdStoreIntermediateH(x / 2 + 8, y / 2 + 8, v[3]); // } // } // // void SpdDownsampleMips_0_1_LDSH(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mips) // { // f16vec4 v[4]; // // ivec2 tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2); // ivec2 pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y); // v[0]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[0], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y); // v[1]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[1], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x, y + 16); // v[2]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[2], 0); // // tex = ivec2(workGroupID . xy * 64)+ ivec2(x * 2 + 32, y * 2 + 32); // pix = ivec2(workGroupID . xy * 32)+ ivec2(x + 16, y + 16); // v[3]= SpdReduceLoadSourceImage4H(tex); // SpdStoreH(pix, v[3], 0); // // if(mips <= 1) // return; // // for(int i = 0;i < 4;i ++) // { // SpdStoreIntermediateH(x, y, v[i]); // SpdWorkgroupShuffleBarrier(); // if(localInvocationIndex < 64) // { // v[i]= SpdReduceIntermediateH( // uvec2(x * 2 + 0, y * 2 + 0), // uvec2(x * 2 + 1, y * 2 + 0), // uvec2(x * 2 + 0, y * 2 + 1), // uvec2(x * 2 + 1, y * 2 + 1) // ); // SpdStoreH(ivec2(workGroupID . xy * 16)+ ivec2(x +(i % 2)* 8, y +(i / 2)* 8), v[i], 1); // } // SpdWorkgroupShuffleBarrier(); // } // // if(localInvocationIndex < 64) // { // SpdStoreIntermediateH(x + 0, y + 0, v[0]); // SpdStoreIntermediateH(x + 8, y + 0, v[1]); // SpdStoreIntermediateH(x + 0, y + 8, v[2]); // SpdStoreIntermediateH(x + 8, y + 8, v[3]); // } // } // // void SpdDownsampleMips_0_1H(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mips) // { // // SpdDownsampleMips_0_1_LDSH(x, y, workGroupID, localInvocationIndex, mips); // // } // // void SpdDownsampleMip_2H(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 64) // { // f16vec4 v = SpdReduceIntermediateH( // uvec2(x * 2 + 0 + 0, y * 2 + 0), // uvec2(x * 2 + 0 + 1, y * 2 + 0), // uvec2(x * 2 + 0 + 0, y * 2 + 1), // uvec2(x * 2 + 0 + 1, y * 2 + 1) // ); // SpdStoreH(ivec2(workGroupID . xy * 8)+ ivec2(x, y), v, mip); // // SpdStoreIntermediateH(x * 2 + y % 2, y * 2, v); // } // // } // // void SpdDownsampleMip_3H(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 16) // { // // f16vec4 v = SpdReduceIntermediateH( // uvec2(x * 4 + 0 + 0, y * 4 + 0), // uvec2(x * 4 + 2 + 0, y * 4 + 0), // uvec2(x * 4 + 0 + 1, y * 4 + 2), // uvec2(x * 4 + 2 + 1, y * 4 + 2) // ); // SpdStoreH(ivec2(workGroupID . xy * 4)+ ivec2(x, y), v, mip); // // SpdStoreIntermediateH(x * 4 + y, y * 4, v); // } // // } // // void SpdDownsampleMip_4H(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 4) // { // // f16vec4 v = SpdReduceIntermediateH( // uvec2(x * 8 + 0 + 0 + y * 2, y * 8 + 0), // uvec2(x * 8 + 4 + 0 + y * 2, y * 8 + 0), // uvec2(x * 8 + 0 + 1 + y * 2, y * 8 + 4), // uvec2(x * 8 + 4 + 1 + y * 2, y * 8 + 4) // ); // SpdStoreH(ivec2(workGroupID . xy * 2)+ ivec2(x, y), v, mip); // // SpdStoreIntermediateH(x + y * 2, 0, v); // } // // } // // void SpdDownsampleMip_5H(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint mip) // { // // if(localInvocationIndex < 1) // { // // f16vec4 v = SpdReduceIntermediateH( // uvec2(0, 0), // uvec2(1, 0), // uvec2(2, 0), // uvec2(3, 0) // ); // SpdStoreH(ivec2(workGroupID . xy), v, mip); // } // // } // // void SpdDownsampleMips_6_7H(uint x, uint y, uint mips) // { // ivec2 tex = ivec2(x * 4 + 0, y * 4 + 0); // ivec2 pix = ivec2(x * 2 + 0, y * 2 + 0); // f16vec4 v0 = SpdReduceLoad4H(tex); // SpdStoreH(pix, v0, 6); // // tex = ivec2(x * 4 + 2, y * 4 + 0); // pix = ivec2(x * 2 + 1, y * 2 + 0); // f16vec4 v1 = SpdReduceLoad4H(tex); // SpdStoreH(pix, v1, 6); // // tex = ivec2(x * 4 + 0, y * 4 + 2); // pix = ivec2(x * 2 + 0, y * 2 + 1); // f16vec4 v2 = SpdReduceLoad4H(tex); // SpdStoreH(pix, v2, 6); // // tex = ivec2(x * 4 + 2, y * 4 + 2); // pix = ivec2(x * 2 + 1, y * 2 + 1); // f16vec4 v3 = SpdReduceLoad4H(tex); // SpdStoreH(pix, v3, 6); // // if(mips < 8)return; // // f16vec4 v = SpdReduce4H(v0, v1, v2, v3); // SpdStoreH(ivec2(x, y), v, 7); // SpdStoreIntermediateH(x, y, v); // } // // void SpdDownsampleNextFourH(uint x, uint y, uvec2 workGroupID, uint localInvocationIndex, uint baseMip, uint mips) // { // if(mips <= baseMip)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_2H(x, y, workGroupID, localInvocationIndex, baseMip); // // if(mips <= baseMip + 1)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_3H(x, y, workGroupID, localInvocationIndex, baseMip + 1); // // if(mips <= baseMip + 2)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_4H(x, y, workGroupID, localInvocationIndex, baseMip + 2); // // if(mips <= baseMip + 3)return; // SpdWorkgroupShuffleBarrier(); // SpdDownsampleMip_5H(x, y, workGroupID, localInvocationIndex, baseMip + 3); // } // // void SpdDownsampleH( // uvec2 workGroupID, // uint localInvocationIndex, // uint mips, // uint numWorkGroups // ){ // uvec2 sub_xy = ARmpRed8x8(localInvocationIndex % 64); // uint x = sub_xy . x + 8 *((localInvocationIndex >> 6)% 2); // uint y = sub_xy . y + 8 *((localInvocationIndex >> 7)); // // SpdDownsampleMips_0_1H(x, y, workGroupID, localInvocationIndex, mips); // // SpdDownsampleNextFourH(x, y, workGroupID, localInvocationIndex, 2, mips); // // if(mips < 7)return; // // if(SpdExitWorkgroup(numWorkGroups, localInvocationIndex))return; // // SpdDownsampleMips_6_7H(x, y, mips); // // SpdDownsampleNextFourH(x, y, uvec2(0, 0), localInvocationIndex, 8, mips); // } // // #line 177 "shaders/src/GenerateMipmap.comp" // // void main() // { // // SpdDownsampleH(gl_WorkGroupID . xy, gl_LocalInvocationIndex, params . levelCount, 0); // // }