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https://github.com/yuzu-emu/yuzu.git
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Merge pull request #10693 from liamwhite/f64-to-f32
shader_recompiler: translate f64 to f32 when unsupported on host
This commit is contained in:
commit
ad8f122ab1
@ -223,6 +223,7 @@ add_library(shader_recompiler STATIC
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ir_opt/identity_removal_pass.cpp
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ir_opt/layer_pass.cpp
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ir_opt/lower_fp16_to_fp32.cpp
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ir_opt/lower_fp64_to_fp32.cpp
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ir_opt/lower_int64_to_int32.cpp
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ir_opt/passes.h
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ir_opt/position_pass.cpp
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@ -280,6 +280,9 @@ IR::Program TranslateProgram(ObjectPool<IR::Inst>& inst_pool, ObjectPool<IR::Blo
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RemoveUnreachableBlocks(program);
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// Replace instructions before the SSA rewrite
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if (!host_info.support_float64) {
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Optimization::LowerFp64ToFp32(program);
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}
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if (!host_info.support_float16) {
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Optimization::LowerFp16ToFp32(program);
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}
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@ -10,6 +10,7 @@ namespace Shader {
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/// Misc information about the host
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struct HostTranslateInfo {
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bool support_float64{}; ///< True when the device supports 64-bit floats
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bool support_float16{}; ///< True when the device supports 16-bit floats
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bool support_int64{}; ///< True when the device supports 64-bit integers
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bool needs_demote_reorder{}; ///< True when the device needs DemoteToHelperInvocation reordered
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185
src/shader_recompiler/ir_opt/lower_fp64_to_fp32.cpp
Normal file
185
src/shader_recompiler/ir_opt/lower_fp64_to_fp32.cpp
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@ -0,0 +1,185 @@
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// SPDX-FileCopyrightText: Copyright 2023 yuzu Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "shader_recompiler/frontend/ir/ir_emitter.h"
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#include "shader_recompiler/frontend/ir/opcodes.h"
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#include "shader_recompiler/frontend/ir/value.h"
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#include "shader_recompiler/ir_opt/passes.h"
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namespace Shader::Optimization {
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namespace {
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constexpr s32 F64ToF32Exp = +1023 - 127;
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constexpr s32 F32ToF64Exp = +127 - 1023;
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IR::F32 PackedF64ToF32(IR::IREmitter& ir, const IR::Value& packed) {
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const IR::U32 lo{ir.CompositeExtract(packed, 0)};
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const IR::U32 hi{ir.CompositeExtract(packed, 1)};
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const IR::U32 sign{ir.BitFieldExtract(hi, ir.Imm32(31), ir.Imm32(1))};
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const IR::U32 exp{ir.BitFieldExtract(hi, ir.Imm32(20), ir.Imm32(11))};
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const IR::U32 mantissa_hi{ir.BitFieldExtract(hi, ir.Imm32(0), ir.Imm32(20))};
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const IR::U32 mantissa_lo{ir.BitFieldExtract(lo, ir.Imm32(29), ir.Imm32(3))};
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const IR::U32 mantissa{
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ir.BitwiseOr(ir.ShiftLeftLogical(mantissa_hi, ir.Imm32(3)), mantissa_lo)};
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const IR::U32 exp_if_subnorm{
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ir.Select(ir.IEqual(exp, ir.Imm32(0)), ir.Imm32(0), ir.IAdd(exp, ir.Imm32(F64ToF32Exp)))};
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const IR::U32 exp_if_infnan{
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ir.Select(ir.IEqual(exp, ir.Imm32(0x7ff)), ir.Imm32(0xff), exp_if_subnorm)};
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const IR::U32 result{
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ir.BitwiseOr(ir.ShiftLeftLogical(sign, ir.Imm32(31)),
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ir.BitwiseOr(ir.ShiftLeftLogical(exp_if_infnan, ir.Imm32(23)), mantissa))};
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return ir.BitCast<IR::F32>(result);
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}
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IR::Value F32ToPackedF64(IR::IREmitter& ir, const IR::Value& raw) {
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const IR::U32 value{ir.BitCast<IR::U32>(IR::F32(raw))};
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const IR::U32 sign{ir.BitFieldExtract(value, ir.Imm32(31), ir.Imm32(1))};
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const IR::U32 exp{ir.BitFieldExtract(value, ir.Imm32(23), ir.Imm32(8))};
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const IR::U32 mantissa{ir.BitFieldExtract(value, ir.Imm32(0), ir.Imm32(23))};
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const IR::U32 mantissa_hi{ir.BitFieldExtract(mantissa, ir.Imm32(3), ir.Imm32(20))};
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const IR::U32 mantissa_lo{ir.BitFieldExtract(mantissa, ir.Imm32(0), ir.Imm32(3))};
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const IR::U32 exp_if_subnorm{
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ir.Select(ir.IEqual(exp, ir.Imm32(0)), ir.Imm32(0), ir.IAdd(exp, ir.Imm32(F32ToF64Exp)))};
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const IR::U32 exp_if_infnan{
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ir.Select(ir.IEqual(exp, ir.Imm32(0xff)), ir.Imm32(0x7ff), exp_if_subnorm)};
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const IR::U32 lo{ir.ShiftLeftLogical(mantissa_lo, ir.Imm32(29))};
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const IR::U32 hi{
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ir.BitwiseOr(ir.ShiftLeftLogical(sign, ir.Imm32(31)),
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ir.BitwiseOr(ir.ShiftLeftLogical(exp_if_infnan, ir.Imm32(20)), mantissa_hi))};
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return ir.CompositeConstruct(lo, hi);
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}
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IR::Opcode Replace(IR::Opcode op) {
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switch (op) {
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case IR::Opcode::FPAbs64:
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return IR::Opcode::FPAbs32;
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case IR::Opcode::FPAdd64:
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return IR::Opcode::FPAdd32;
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case IR::Opcode::FPCeil64:
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return IR::Opcode::FPCeil32;
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case IR::Opcode::FPFloor64:
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return IR::Opcode::FPFloor32;
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case IR::Opcode::FPFma64:
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return IR::Opcode::FPFma32;
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case IR::Opcode::FPMul64:
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return IR::Opcode::FPMul32;
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case IR::Opcode::FPNeg64:
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return IR::Opcode::FPNeg32;
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case IR::Opcode::FPRoundEven64:
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return IR::Opcode::FPRoundEven32;
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case IR::Opcode::FPSaturate64:
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return IR::Opcode::FPSaturate32;
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case IR::Opcode::FPClamp64:
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return IR::Opcode::FPClamp32;
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case IR::Opcode::FPTrunc64:
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return IR::Opcode::FPTrunc32;
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case IR::Opcode::CompositeConstructF64x2:
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return IR::Opcode::CompositeConstructF32x2;
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case IR::Opcode::CompositeConstructF64x3:
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return IR::Opcode::CompositeConstructF32x3;
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case IR::Opcode::CompositeConstructF64x4:
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return IR::Opcode::CompositeConstructF32x4;
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case IR::Opcode::CompositeExtractF64x2:
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return IR::Opcode::CompositeExtractF32x2;
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case IR::Opcode::CompositeExtractF64x3:
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return IR::Opcode::CompositeExtractF32x3;
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case IR::Opcode::CompositeExtractF64x4:
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return IR::Opcode::CompositeExtractF32x4;
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case IR::Opcode::CompositeInsertF64x2:
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return IR::Opcode::CompositeInsertF32x2;
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case IR::Opcode::CompositeInsertF64x3:
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return IR::Opcode::CompositeInsertF32x3;
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case IR::Opcode::CompositeInsertF64x4:
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return IR::Opcode::CompositeInsertF32x4;
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case IR::Opcode::FPOrdEqual64:
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return IR::Opcode::FPOrdEqual32;
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case IR::Opcode::FPUnordEqual64:
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return IR::Opcode::FPUnordEqual32;
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case IR::Opcode::FPOrdNotEqual64:
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return IR::Opcode::FPOrdNotEqual32;
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case IR::Opcode::FPUnordNotEqual64:
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return IR::Opcode::FPUnordNotEqual32;
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case IR::Opcode::FPOrdLessThan64:
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return IR::Opcode::FPOrdLessThan32;
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case IR::Opcode::FPUnordLessThan64:
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return IR::Opcode::FPUnordLessThan32;
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case IR::Opcode::FPOrdGreaterThan64:
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return IR::Opcode::FPOrdGreaterThan32;
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case IR::Opcode::FPUnordGreaterThan64:
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return IR::Opcode::FPUnordGreaterThan32;
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case IR::Opcode::FPOrdLessThanEqual64:
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return IR::Opcode::FPOrdLessThanEqual32;
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case IR::Opcode::FPUnordLessThanEqual64:
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return IR::Opcode::FPUnordLessThanEqual32;
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case IR::Opcode::FPOrdGreaterThanEqual64:
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return IR::Opcode::FPOrdGreaterThanEqual32;
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case IR::Opcode::FPUnordGreaterThanEqual64:
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return IR::Opcode::FPUnordGreaterThanEqual32;
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case IR::Opcode::FPIsNan64:
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return IR::Opcode::FPIsNan32;
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case IR::Opcode::ConvertS16F64:
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return IR::Opcode::ConvertS16F32;
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case IR::Opcode::ConvertS32F64:
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return IR::Opcode::ConvertS32F32;
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case IR::Opcode::ConvertS64F64:
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return IR::Opcode::ConvertS64F32;
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case IR::Opcode::ConvertU16F64:
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return IR::Opcode::ConvertU16F32;
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case IR::Opcode::ConvertU32F64:
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return IR::Opcode::ConvertU32F32;
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case IR::Opcode::ConvertU64F64:
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return IR::Opcode::ConvertU64F32;
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case IR::Opcode::ConvertF32F64:
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return IR::Opcode::Identity;
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case IR::Opcode::ConvertF64F32:
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return IR::Opcode::Identity;
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case IR::Opcode::ConvertF64S8:
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return IR::Opcode::ConvertF32S8;
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case IR::Opcode::ConvertF64S16:
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return IR::Opcode::ConvertF32S16;
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case IR::Opcode::ConvertF64S32:
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return IR::Opcode::ConvertF32S32;
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case IR::Opcode::ConvertF64S64:
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return IR::Opcode::ConvertF32S64;
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case IR::Opcode::ConvertF64U8:
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return IR::Opcode::ConvertF32U8;
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case IR::Opcode::ConvertF64U16:
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return IR::Opcode::ConvertF32U16;
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case IR::Opcode::ConvertF64U32:
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return IR::Opcode::ConvertF32U32;
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case IR::Opcode::ConvertF64U64:
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return IR::Opcode::ConvertF32U64;
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default:
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return op;
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}
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}
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void Lower(IR::Block& block, IR::Inst& inst) {
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switch (inst.GetOpcode()) {
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case IR::Opcode::PackDouble2x32: {
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IR::IREmitter ir(block, IR::Block::InstructionList::s_iterator_to(inst));
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inst.ReplaceUsesWith(PackedF64ToF32(ir, inst.Arg(0)));
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break;
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}
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case IR::Opcode::UnpackDouble2x32: {
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IR::IREmitter ir(block, IR::Block::InstructionList::s_iterator_to(inst));
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inst.ReplaceUsesWith(F32ToPackedF64(ir, inst.Arg(0)));
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break;
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}
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default:
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inst.ReplaceOpcode(Replace(inst.GetOpcode()));
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break;
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}
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}
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} // Anonymous namespace
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void LowerFp64ToFp32(IR::Program& program) {
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for (IR::Block* const block : program.blocks) {
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for (IR::Inst& inst : block->Instructions()) {
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Lower(*block, inst);
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}
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}
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}
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} // namespace Shader::Optimization
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@ -17,6 +17,7 @@ void ConstantPropagationPass(Environment& env, IR::Program& program);
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void DeadCodeEliminationPass(IR::Program& program);
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void GlobalMemoryToStorageBufferPass(IR::Program& program);
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void IdentityRemovalPass(IR::Program& program);
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void LowerFp64ToFp32(IR::Program& program);
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void LowerFp16ToFp32(IR::Program& program);
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void LowerInt64ToInt32(IR::Program& program);
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void RescalingPass(IR::Program& program);
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@ -232,6 +232,7 @@ ShaderCache::ShaderCache(RasterizerOpenGL& rasterizer_, Core::Frontend::EmuWindo
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.gl_max_compute_smem_size = device.GetMaxComputeSharedMemorySize(),
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},
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host_info{
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.support_float64 = true,
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.support_float16 = false,
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.support_int64 = device.HasShaderInt64(),
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.needs_demote_reorder = device.IsAmd(),
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@ -350,6 +350,7 @@ PipelineCache::PipelineCache(RasterizerVulkan& rasterizer_, const Device& device
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.has_broken_spirv_subgroup_mask_vector_extract_dynamic =
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driver_id == VK_DRIVER_ID_QUALCOMM_PROPRIETARY};
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host_info = Shader::HostTranslateInfo{
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.support_float64 = device.IsFloat64Supported(),
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.support_float16 = device.IsFloat16Supported(),
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.support_int64 = device.IsShaderInt64Supported(),
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.needs_demote_reorder =
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@ -300,6 +300,11 @@ public:
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return GetDriverID() != VK_DRIVER_ID_QUALCOMM_PROPRIETARY;
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}
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/// Returns true if the device suppors float64 natively.
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bool IsFloat64Supported() const {
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return features.features.shaderFloat64;
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}
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/// Returns true if the device supports float16 natively.
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bool IsFloat16Supported() const {
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return features.shader_float16_int8.shaderFloat16;
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