yuzu/src/shader_recompiler/backend/spirv/emit_spirv.cpp

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// Copyright 2021 yuzu Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#include <numeric>
#include <type_traits>
#include "shader_recompiler/backend/spirv/emit_spirv.h"
#include "shader_recompiler/frontend/ir/basic_block.h"
#include "shader_recompiler/frontend/ir/function.h"
#include "shader_recompiler/frontend/ir/microinstruction.h"
#include "shader_recompiler/frontend/ir/program.h"
namespace Shader::Backend::SPIRV {
EmitContext::EmitContext(IR::Program& program) {
AddCapability(spv::Capability::Shader);
AddCapability(spv::Capability::Float16);
AddCapability(spv::Capability::Float64);
void_id = TypeVoid();
u1 = Name(TypeBool(), "u1");
f32.Define(*this, TypeFloat(32), "f32");
u32.Define(*this, TypeInt(32, false), "u32");
f16.Define(*this, TypeFloat(16), "f16");
f64.Define(*this, TypeFloat(64), "f64");
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true_value = ConstantTrue(u1);
false_value = ConstantFalse(u1);
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for (const IR::Function& function : program.functions) {
for (IR::Block* const block : function.blocks) {
block_label_map.emplace_back(block, OpLabel());
}
}
std::ranges::sort(block_label_map, {}, &std::pair<IR::Block*, Id>::first);
}
EmitContext::~EmitContext() = default;
EmitSPIRV::EmitSPIRV(IR::Program& program) {
EmitContext ctx{program};
const Id void_function{ctx.TypeFunction(ctx.void_id)};
// FIXME: Forward declare functions (needs sirit support)
Id func{};
for (IR::Function& function : program.functions) {
func = ctx.OpFunction(ctx.void_id, spv::FunctionControlMask::MaskNone, void_function);
for (IR::Block* const block : function.blocks) {
ctx.AddLabel(ctx.BlockLabel(block));
for (IR::Inst& inst : block->Instructions()) {
EmitInst(ctx, &inst);
}
}
ctx.OpFunctionEnd();
}
ctx.AddEntryPoint(spv::ExecutionModel::GLCompute, func, "main");
std::vector<u32> result{ctx.Assemble()};
std::FILE* file{std::fopen("shader.spv", "wb")};
std::fwrite(result.data(), sizeof(u32), result.size(), file);
std::fclose(file);
std::system("spirv-dis shader.spv");
std::system("spirv-val shader.spv");
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std::system("spirv-cross shader.spv");
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}
template <auto method, typename... Args>
static void SetDefinition(EmitSPIRV& emit, EmitContext& ctx, IR::Inst* inst, Args... args) {
const Id forward_id{inst->Definition<Id>()};
const bool has_forward_id{Sirit::ValidId(forward_id)};
Id current_id{};
if (has_forward_id) {
current_id = ctx.ExchangeCurrentId(forward_id);
}
const Id new_id{(emit.*method)(ctx, std::forward<Args>(args)...)};
if (has_forward_id) {
ctx.ExchangeCurrentId(current_id);
} else {
inst->SetDefinition<Id>(new_id);
}
}
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template <auto method>
static void Invoke(EmitSPIRV& emit, EmitContext& ctx, IR::Inst* inst) {
using M = decltype(method);
using std::is_invocable_r_v;
if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&>) {
SetDefinition<method>(emit, ctx, inst);
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, Id>) {
SetDefinition<method>(emit, ctx, inst, ctx.Def(inst->Arg(0)));
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, Id, Id>) {
SetDefinition<method>(emit, ctx, inst, ctx.Def(inst->Arg(0)), ctx.Def(inst->Arg(1)));
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, Id, Id, Id>) {
SetDefinition<method>(emit, ctx, inst, ctx.Def(inst->Arg(0)), ctx.Def(inst->Arg(1)),
ctx.Def(inst->Arg(2)));
} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, IR::Inst*>) {
SetDefinition<method>(emit, ctx, inst, inst);
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, IR::Inst*, Id, Id>) {
SetDefinition<method>(emit, ctx, inst, inst, ctx.Def(inst->Arg(0)), ctx.Def(inst->Arg(1)));
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, IR::Inst*, Id, Id, Id>) {
SetDefinition<method>(emit, ctx, inst, inst, ctx.Def(inst->Arg(0)), ctx.Def(inst->Arg(1)),
ctx.Def(inst->Arg(2)));
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, Id, u32>) {
SetDefinition<method>(emit, ctx, inst, ctx.Def(inst->Arg(0)), inst->Arg(1).U32());
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, const IR::Value&>) {
SetDefinition<method>(emit, ctx, inst, inst->Arg(0));
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} else if constexpr (is_invocable_r_v<Id, M, EmitSPIRV&, EmitContext&, const IR::Value&,
const IR::Value&>) {
SetDefinition<method>(emit, ctx, inst, inst->Arg(0), inst->Arg(1));
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} else if constexpr (is_invocable_r_v<void, M, EmitSPIRV&, EmitContext&, IR::Inst*>) {
(emit.*method)(ctx, inst);
} else if constexpr (is_invocable_r_v<void, M, EmitSPIRV&, EmitContext&>) {
(emit.*method)(ctx);
} else {
static_assert(false, "Bad format");
}
}
void EmitSPIRV::EmitInst(EmitContext& ctx, IR::Inst* inst) {
switch (inst->Opcode()) {
#define OPCODE(name, result_type, ...) \
case IR::Opcode::name: \
return Invoke<&EmitSPIRV::Emit##name>(*this, ctx, inst);
#include "shader_recompiler/frontend/ir/opcodes.inc"
#undef OPCODE
}
throw LogicError("Invalid opcode {}", inst->Opcode());
}
static Id TypeId(const EmitContext& ctx, IR::Type type) {
switch (type) {
case IR::Type::U1:
return ctx.u1;
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case IR::Type::U32:
return ctx.u32[1];
default:
throw NotImplementedException("Phi node type {}", type);
}
}
Id EmitSPIRV::EmitPhi(EmitContext& ctx, IR::Inst* inst) {
const size_t num_args{inst->NumArgs()};
boost::container::small_vector<Id, 32> operands;
operands.reserve(num_args * 2);
for (size_t index = 0; index < num_args; ++index) {
// Phi nodes can have forward declarations, if an argument is not defined provide a forward
// declaration of it. Invoke will take care of giving it the right definition when it's
// actually defined.
const IR::Value arg{inst->Arg(index)};
Id def{};
if (arg.IsImmediate()) {
// Let the context handle immediate definitions, as it already knows how
def = ctx.Def(arg);
} else {
IR::Inst* const arg_inst{arg.Inst()};
def = arg_inst->Definition<Id>();
if (!Sirit::ValidId(def)) {
// If it hasn't been defined, get a forward declaration
def = ctx.ForwardDeclarationId();
arg_inst->SetDefinition<Id>(def);
}
}
IR::Block* const phi_block{inst->PhiBlock(index)};
operands.push_back(def);
operands.push_back(ctx.BlockLabel(phi_block));
}
const Id result_type{TypeId(ctx, inst->Arg(0).Type())};
return ctx.OpPhi(result_type, std::span(operands.data(), operands.size()));
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}
void EmitSPIRV::EmitVoid(EmitContext&) {}
void EmitSPIRV::EmitIdentity(EmitContext&) {
throw NotImplementedException("SPIR-V Instruction");
}
// FIXME: Move to its own file
void EmitSPIRV::EmitBranch(EmitContext& ctx, IR::Inst* inst) {
ctx.OpBranch(ctx.BlockLabel(inst->Arg(0).Label()));
}
void EmitSPIRV::EmitBranchConditional(EmitContext& ctx, IR::Inst* inst) {
ctx.OpBranchConditional(ctx.Def(inst->Arg(0)), ctx.BlockLabel(inst->Arg(1).Label()),
ctx.BlockLabel(inst->Arg(2).Label()));
}
void EmitSPIRV::EmitLoopMerge(EmitContext& ctx, IR::Inst* inst) {
ctx.OpLoopMerge(ctx.BlockLabel(inst->Arg(0).Label()), ctx.BlockLabel(inst->Arg(1).Label()),
spv::LoopControlMask::MaskNone);
}
void EmitSPIRV::EmitSelectionMerge(EmitContext& ctx, IR::Inst* inst) {
ctx.OpSelectionMerge(ctx.BlockLabel(inst->Arg(0).Label()), spv::SelectionControlMask::MaskNone);
}
void EmitSPIRV::EmitReturn(EmitContext& ctx) {
ctx.OpReturn();
}
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void EmitSPIRV::EmitGetZeroFromOp(EmitContext&) {
throw LogicError("Unreachable instruction");
}
void EmitSPIRV::EmitGetSignFromOp(EmitContext&) {
throw LogicError("Unreachable instruction");
}
void EmitSPIRV::EmitGetCarryFromOp(EmitContext&) {
throw LogicError("Unreachable instruction");
}
void EmitSPIRV::EmitGetOverflowFromOp(EmitContext&) {
throw LogicError("Unreachable instruction");
}
} // namespace Shader::Backend::SPIRV