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suyu/src/shader_recompiler/ir_opt/ssa_rewrite_pass.cpp

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// Copyright 2021 yuzu Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
// This file implements the SSA rewriting algorithm proposed in
//
// Simple and Efficient Construction of Static Single Assignment Form.
// Braun M., Buchwald S., Hack S., Leiba R., Mallon C., Zwinkau A. (2013)
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// In: Jhala R., De Bosschere K. (eds)
// Compiler Construction. CC 2013.
// Lecture Notes in Computer Science, vol 7791.
// Springer, Berlin, Heidelberg
//
// https://link.springer.com/chapter/10.1007/978-3-642-37051-9_6
//
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#include <ranges>
#include <span>
#include <variant>
#include <vector>
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#include <boost/container/flat_map.hpp>
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#include <boost/container/flat_set.hpp>
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#include "shader_recompiler/frontend/ir/basic_block.h"
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#include "shader_recompiler/frontend/ir/opcodes.h"
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#include "shader_recompiler/frontend/ir/pred.h"
#include "shader_recompiler/frontend/ir/reg.h"
#include "shader_recompiler/frontend/ir/value.h"
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#include "shader_recompiler/ir_opt/passes.h"
namespace Shader::Optimization {
namespace {
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struct FlagTag {
auto operator<=>(const FlagTag&) const noexcept = default;
};
struct ZeroFlagTag : FlagTag {};
struct SignFlagTag : FlagTag {};
struct CarryFlagTag : FlagTag {};
struct OverflowFlagTag : FlagTag {};
struct GotoVariable : FlagTag {
GotoVariable() = default;
explicit GotoVariable(u32 index_) : index{index_} {}
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auto operator<=>(const GotoVariable&) const noexcept = default;
u32 index;
};
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struct IndirectBranchVariable {
auto operator<=>(const IndirectBranchVariable&) const noexcept = default;
};
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using Variant = std::variant<IR::Reg, IR::Pred, ZeroFlagTag, SignFlagTag, CarryFlagTag,
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OverflowFlagTag, GotoVariable, IndirectBranchVariable>;
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using ValueMap = boost::container::flat_map<IR::Block*, IR::Value, std::less<IR::Block*>>;
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struct DefTable {
const IR::Value& Def(IR::Block* block, IR::Reg variable) noexcept {
return block->SsaRegValue(variable);
}
void SetDef(IR::Block* block, IR::Reg variable, const IR::Value& value) noexcept {
block->SetSsaRegValue(variable, value);
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}
const IR::Value& Def(IR::Block* block, IR::Pred variable) noexcept {
return preds[IR::PredIndex(variable)][block];
}
void SetDef(IR::Block* block, IR::Pred variable, const IR::Value& value) noexcept {
preds[IR::PredIndex(variable)].insert_or_assign(block, value);
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}
const IR::Value& Def(IR::Block* block, GotoVariable variable) noexcept {
return goto_vars[variable.index][block];
}
void SetDef(IR::Block* block, GotoVariable variable, const IR::Value& value) noexcept {
goto_vars[variable.index].insert_or_assign(block, value);
}
const IR::Value& Def(IR::Block* block, IndirectBranchVariable) noexcept {
return indirect_branch_var[block];
}
void SetDef(IR::Block* block, IndirectBranchVariable, const IR::Value& value) noexcept {
indirect_branch_var.insert_or_assign(block, value);
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}
const IR::Value& Def(IR::Block* block, ZeroFlagTag) noexcept {
return zero_flag[block];
}
void SetDef(IR::Block* block, ZeroFlagTag, const IR::Value& value) noexcept {
zero_flag.insert_or_assign(block, value);
}
const IR::Value& Def(IR::Block* block, SignFlagTag) noexcept {
return sign_flag[block];
}
void SetDef(IR::Block* block, SignFlagTag, const IR::Value& value) noexcept {
sign_flag.insert_or_assign(block, value);
}
const IR::Value& Def(IR::Block* block, CarryFlagTag) noexcept {
return carry_flag[block];
}
void SetDef(IR::Block* block, CarryFlagTag, const IR::Value& value) noexcept {
carry_flag.insert_or_assign(block, value);
}
const IR::Value& Def(IR::Block* block, OverflowFlagTag) noexcept {
return overflow_flag[block];
}
void SetDef(IR::Block* block, OverflowFlagTag, const IR::Value& value) noexcept {
overflow_flag.insert_or_assign(block, value);
}
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std::array<ValueMap, IR::NUM_USER_PREDS> preds;
boost::container::flat_map<u32, ValueMap> goto_vars;
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ValueMap indirect_branch_var;
ValueMap zero_flag;
ValueMap sign_flag;
ValueMap carry_flag;
ValueMap overflow_flag;
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};
IR::Opcode UndefOpcode(IR::Reg) noexcept {
return IR::Opcode::UndefU32;
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}
IR::Opcode UndefOpcode(IR::Pred) noexcept {
return IR::Opcode::UndefU1;
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}
IR::Opcode UndefOpcode(const FlagTag&) noexcept {
return IR::Opcode::UndefU1;
}
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IR::Opcode UndefOpcode(IndirectBranchVariable) noexcept {
return IR::Opcode::UndefU32;
}
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[[nodiscard]] bool IsPhi(const IR::Inst& inst) noexcept {
return inst.GetOpcode() == IR::Opcode::Phi;
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}
enum class Status {
Start,
SetValue,
PreparePhiArgument,
PushPhiArgument,
};
template <typename Type>
struct ReadState {
ReadState(IR::Block* block_) : block{block_} {}
ReadState() = default;
IR::Block* block{};
IR::Value result{};
IR::Inst* phi{};
IR::Block* const* pred_it{};
IR::Block* const* pred_end{};
Status pc{Status::Start};
};
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class Pass {
public:
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template <typename Type>
void WriteVariable(Type variable, IR::Block* block, const IR::Value& value) {
current_def.SetDef(block, variable, value);
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}
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template <typename Type>
IR::Value ReadVariable(Type variable, IR::Block* root_block) {
boost::container::small_vector<ReadState<Type>, 64> stack{
ReadState<Type>(nullptr),
ReadState<Type>(root_block),
};
const auto prepare_phi_operand{[&] {
if (stack.back().pred_it == stack.back().pred_end) {
IR::Inst* const phi{stack.back().phi};
IR::Block* const block{stack.back().block};
const IR::Value result{TryRemoveTrivialPhi(*phi, block, UndefOpcode(variable))};
stack.pop_back();
stack.back().result = result;
WriteVariable(variable, block, result);
} else {
IR::Block* const imm_pred{*stack.back().pred_it};
stack.back().pc = Status::PushPhiArgument;
stack.emplace_back(imm_pred);
}
}};
do {
IR::Block* const block{stack.back().block};
switch (stack.back().pc) {
case Status::Start: {
if (const IR::Value& def = current_def.Def(block, variable); !def.IsEmpty()) {
stack.back().result = def;
} else if (!block->IsSsaSealed()) {
// Incomplete CFG
IR::Inst* phi{&*block->PrependNewInst(block->begin(), IR::Opcode::Phi)};
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phi->SetFlags(IR::TypeOf(UndefOpcode(variable)));
incomplete_phis[block].insert_or_assign(variable, phi);
stack.back().result = IR::Value{&*phi};
} else if (const std::span imm_preds{block->ImmediatePredecessors()};
imm_preds.size() == 1) {
// Optimize the common case of one predecessor: no phi needed
stack.back().pc = Status::SetValue;
stack.emplace_back(imm_preds.front());
break;
} else {
// Break potential cycles with operandless phi
IR::Inst* const phi{&*block->PrependNewInst(block->begin(), IR::Opcode::Phi)};
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phi->SetFlags(IR::TypeOf(UndefOpcode(variable)));
WriteVariable(variable, block, IR::Value{phi});
stack.back().phi = phi;
stack.back().pred_it = imm_preds.data();
stack.back().pred_end = imm_preds.data() + imm_preds.size();
prepare_phi_operand();
break;
}
}
[[fallthrough]];
case Status::SetValue: {
const IR::Value result{stack.back().result};
WriteVariable(variable, block, result);
stack.pop_back();
stack.back().result = result;
break;
}
case Status::PushPhiArgument: {
IR::Inst* const phi{stack.back().phi};
phi->AddPhiOperand(*stack.back().pred_it, stack.back().result);
++stack.back().pred_it;
}
[[fallthrough]];
case Status::PreparePhiArgument:
prepare_phi_operand();
break;
}
} while (stack.size() > 1);
return stack.back().result;
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}
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void SealBlock(IR::Block* block) {
const auto it{incomplete_phis.find(block)};
if (it != incomplete_phis.end()) {
for (auto& [variant, phi] : it->second) {
std::visit([&](auto& variable) { AddPhiOperands(variable, *phi, block); }, variant);
}
}
block->SsaSeal();
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}
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private:
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template <typename Type>
IR::Value AddPhiOperands(Type variable, IR::Inst& phi, IR::Block* block) {
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for (IR::Block* const imm_pred : block->ImmediatePredecessors()) {
phi.AddPhiOperand(imm_pred, ReadVariable(variable, imm_pred));
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}
return TryRemoveTrivialPhi(phi, block, UndefOpcode(variable));
}
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IR::Value TryRemoveTrivialPhi(IR::Inst& phi, IR::Block* block, IR::Opcode undef_opcode) {
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IR::Value same;
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const size_t num_args{phi.NumArgs()};
for (size_t arg_index = 0; arg_index < num_args; ++arg_index) {
const IR::Value& op{phi.Arg(arg_index)};
if (op.Resolve() == same.Resolve() || op == IR::Value{&phi}) {
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// Unique value or self-reference
continue;
}
if (!same.IsEmpty()) {
// The phi merges at least two values: not trivial
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return IR::Value{&phi};
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}
same = op;
}
if (same.IsEmpty()) {
// The phi is unreachable or in the start block
// First remove the phi node from the block, it will be reinserted
IR::Block::InstructionList& list{block->Instructions()};
list.erase(IR::Block::InstructionList::s_iterator_to(phi));
// Insert an undef instruction after all phi nodes (to keep phi instructions on top)
const auto first_not_phi{std::ranges::find_if_not(list, IsPhi)};
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same = IR::Value{&*block->PrependNewInst(first_not_phi, undef_opcode)};
// Insert the phi node after the undef opcode, this will be replaced with an identity
list.insert(first_not_phi, phi);
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}
// Reroute all uses of phi to same and remove phi
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phi.ReplaceUsesWith(same);
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// TODO: Try to recursively remove all phi users, which might have become trivial
return same;
}
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boost::container::flat_map<IR::Block*, boost::container::flat_map<Variant, IR::Inst*>>
incomplete_phis;
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DefTable current_def;
};
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void VisitInst(Pass& pass, IR::Block* block, IR::Inst& inst) {
switch (inst.GetOpcode()) {
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case IR::Opcode::SetRegister:
if (const IR::Reg reg{inst.Arg(0).Reg()}; reg != IR::Reg::RZ) {
pass.WriteVariable(reg, block, inst.Arg(1));
}
break;
case IR::Opcode::SetPred:
if (const IR::Pred pred{inst.Arg(0).Pred()}; pred != IR::Pred::PT) {
pass.WriteVariable(pred, block, inst.Arg(1));
}
break;
case IR::Opcode::SetGotoVariable:
pass.WriteVariable(GotoVariable{inst.Arg(0).U32()}, block, inst.Arg(1));
break;
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case IR::Opcode::SetIndirectBranchVariable:
pass.WriteVariable(IndirectBranchVariable{}, block, inst.Arg(0));
break;
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case IR::Opcode::SetZFlag:
pass.WriteVariable(ZeroFlagTag{}, block, inst.Arg(0));
break;
case IR::Opcode::SetSFlag:
pass.WriteVariable(SignFlagTag{}, block, inst.Arg(0));
break;
case IR::Opcode::SetCFlag:
pass.WriteVariable(CarryFlagTag{}, block, inst.Arg(0));
break;
case IR::Opcode::SetOFlag:
pass.WriteVariable(OverflowFlagTag{}, block, inst.Arg(0));
break;
case IR::Opcode::GetRegister:
if (const IR::Reg reg{inst.Arg(0).Reg()}; reg != IR::Reg::RZ) {
inst.ReplaceUsesWith(pass.ReadVariable(reg, block));
}
break;
case IR::Opcode::GetPred:
if (const IR::Pred pred{inst.Arg(0).Pred()}; pred != IR::Pred::PT) {
inst.ReplaceUsesWith(pass.ReadVariable(pred, block));
}
break;
case IR::Opcode::GetGotoVariable:
inst.ReplaceUsesWith(pass.ReadVariable(GotoVariable{inst.Arg(0).U32()}, block));
break;
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case IR::Opcode::GetIndirectBranchVariable:
inst.ReplaceUsesWith(pass.ReadVariable(IndirectBranchVariable{}, block));
break;
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case IR::Opcode::GetZFlag:
inst.ReplaceUsesWith(pass.ReadVariable(ZeroFlagTag{}, block));
break;
case IR::Opcode::GetSFlag:
inst.ReplaceUsesWith(pass.ReadVariable(SignFlagTag{}, block));
break;
case IR::Opcode::GetCFlag:
inst.ReplaceUsesWith(pass.ReadVariable(CarryFlagTag{}, block));
break;
case IR::Opcode::GetOFlag:
inst.ReplaceUsesWith(pass.ReadVariable(OverflowFlagTag{}, block));
break;
default:
break;
}
}
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void VisitBlock(Pass& pass, IR::Block* block) {
for (IR::Inst& inst : block->Instructions()) {
VisitInst(pass, block, inst);
}
pass.SealBlock(block);
}
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} // Anonymous namespace
void SsaRewritePass(IR::Program& program) {
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Pass pass;
for (IR::Block* const block : program.post_order_blocks | std::views::reverse) {
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VisitBlock(pass, block);
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}
}
} // namespace Shader::Optimization