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532 lines
18 KiB
C++
532 lines
18 KiB
C++
// Copyright 2021 yuzu Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <algorithm>
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#include <array>
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#include <optional>
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#include <ranges>
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#include <string>
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#include <utility>
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#include <fmt/format.h>
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#include "shader_recompiler/exception.h"
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#include "shader_recompiler/frontend/maxwell/control_flow.h"
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#include "shader_recompiler/frontend/maxwell/decode.h"
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#include "shader_recompiler/frontend/maxwell/location.h"
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namespace Shader::Maxwell::Flow {
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namespace {
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struct Compare {
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bool operator()(const Block& lhs, Location rhs) const noexcept {
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return lhs.begin < rhs;
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}
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bool operator()(Location lhs, const Block& rhs) const noexcept {
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return lhs < rhs.begin;
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}
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bool operator()(const Block& lhs, const Block& rhs) const noexcept {
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return lhs.begin < rhs.begin;
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}
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};
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} // Anonymous namespace
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static u32 BranchOffset(Location pc, Instruction inst) {
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return pc.Offset() + inst.branch.Offset() + 8;
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}
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static void Split(Block* old_block, Block* new_block, Location pc) {
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if (pc <= old_block->begin || pc >= old_block->end) {
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throw InvalidArgument("Invalid address to split={}", pc);
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}
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*new_block = Block{
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.begin{pc},
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.end{old_block->end},
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.end_class{old_block->end_class},
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.stack{old_block->stack},
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.cond{old_block->cond},
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.branch_true{old_block->branch_true},
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.branch_false{old_block->branch_false},
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.ir{nullptr},
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};
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*old_block = Block{
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.begin{old_block->begin},
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.end{pc},
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.end_class{EndClass::Branch},
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.stack{std::move(old_block->stack)},
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.cond{IR::Condition{true}},
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.branch_true{new_block},
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.branch_false{nullptr},
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.ir{nullptr},
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};
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}
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static Token OpcodeToken(Opcode opcode) {
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switch (opcode) {
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case Opcode::PBK:
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case Opcode::BRK:
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return Token::PBK;
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case Opcode::PCNT:
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case Opcode::CONT:
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return Token::PBK;
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case Opcode::PEXIT:
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case Opcode::EXIT:
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return Token::PEXIT;
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case Opcode::PLONGJMP:
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case Opcode::LONGJMP:
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return Token::PLONGJMP;
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case Opcode::PRET:
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case Opcode::RET:
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case Opcode::CAL:
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return Token::PRET;
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case Opcode::SSY:
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case Opcode::SYNC:
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return Token::SSY;
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default:
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throw InvalidArgument("{}", opcode);
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}
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}
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static bool IsAbsoluteJump(Opcode opcode) {
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switch (opcode) {
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case Opcode::JCAL:
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case Opcode::JMP:
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case Opcode::JMX:
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return true;
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default:
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return false;
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}
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}
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static bool HasFlowTest(Opcode opcode) {
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switch (opcode) {
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case Opcode::BRA:
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case Opcode::BRX:
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case Opcode::EXIT:
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case Opcode::JMP:
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case Opcode::JMX:
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case Opcode::BRK:
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case Opcode::CONT:
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case Opcode::LONGJMP:
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case Opcode::RET:
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case Opcode::SYNC:
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return true;
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case Opcode::CAL:
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case Opcode::JCAL:
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return false;
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default:
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throw InvalidArgument("Invalid branch {}", opcode);
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}
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}
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static std::string NameOf(const Block& block) {
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if (block.begin.IsVirtual()) {
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return fmt::format("\"Virtual {}\"", block.begin);
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} else {
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return fmt::format("\"{}\"", block.begin);
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}
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}
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void Stack::Push(Token token, Location target) {
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entries.push_back({
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.token{token},
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.target{target},
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});
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}
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std::pair<Location, Stack> Stack::Pop(Token token) const {
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const std::optional<Location> pc{Peek(token)};
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if (!pc) {
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throw LogicError("Token could not be found");
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}
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return {*pc, Remove(token)};
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}
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std::optional<Location> Stack::Peek(Token token) const {
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const auto reverse_entries{entries | std::views::reverse};
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const auto it{std::ranges::find(reverse_entries, token, &StackEntry::token)};
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if (it == reverse_entries.end()) {
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return std::nullopt;
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}
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return it->target;
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}
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Stack Stack::Remove(Token token) const {
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const auto reverse_entries{entries | std::views::reverse};
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const auto it{std::ranges::find(reverse_entries, token, &StackEntry::token)};
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const auto pos{std::distance(reverse_entries.begin(), it)};
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Stack result;
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result.entries.insert(result.entries.end(), entries.begin(), entries.end() - pos - 1);
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return result;
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}
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bool Block::Contains(Location pc) const noexcept {
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return pc >= begin && pc < end;
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}
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Function::Function(Location start_address)
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: entrypoint{start_address}, labels{{
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.address{start_address},
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.block{nullptr},
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.stack{},
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}} {}
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CFG::CFG(Environment& env_, ObjectPool<Block>& block_pool_, Location start_address)
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: env{env_}, block_pool{block_pool_} {
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functions.emplace_back(start_address);
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functions.back().labels.back().block = block_pool.Create(Block{
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.begin{start_address},
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.end{start_address},
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.end_class{EndClass::Branch},
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.stack{},
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.cond{IR::Condition{true}},
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.branch_true{nullptr},
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.branch_false{nullptr},
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.ir{nullptr},
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});
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for (FunctionId function_id = 0; function_id < functions.size(); ++function_id) {
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while (!functions[function_id].labels.empty()) {
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Function& function{functions[function_id]};
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Label label{function.labels.back()};
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function.labels.pop_back();
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AnalyzeLabel(function_id, label);
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}
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}
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}
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void CFG::AnalyzeLabel(FunctionId function_id, Label& label) {
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if (InspectVisitedBlocks(function_id, label)) {
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// Label address has been visited
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return;
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}
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// Try to find the next block
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Function* const function{&functions[function_id]};
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Location pc{label.address};
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const auto next_it{function->blocks.upper_bound(pc, Compare{})};
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const bool is_last{next_it == function->blocks.end()};
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Block* const next{is_last ? nullptr : &*next_it};
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// Insert before the next block
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Block* const block{label.block};
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// Analyze instructions until it reaches an already visited block or there's a branch
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bool is_branch{false};
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while (!next || pc < next->begin) {
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is_branch = AnalyzeInst(block, function_id, pc) == AnalysisState::Branch;
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if (is_branch) {
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break;
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}
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++pc;
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}
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if (!is_branch) {
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// If the block finished without a branch,
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// it means that the next instruction is already visited, jump to it
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block->end = pc;
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block->cond = IR::Condition{true};
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block->branch_true = next;
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block->branch_false = nullptr;
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}
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// Function's pointer might be invalid, resolve it again
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// Insert the new block
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functions[function_id].blocks.insert(*block);
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}
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bool CFG::InspectVisitedBlocks(FunctionId function_id, const Label& label) {
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const Location pc{label.address};
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Function& function{functions[function_id]};
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const auto it{
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std::ranges::find_if(function.blocks, [pc](auto& block) { return block.Contains(pc); })};
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if (it == function.blocks.end()) {
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// Address has not been visited
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return false;
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}
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Block* const visited_block{&*it};
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if (visited_block->begin == pc) {
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throw LogicError("Dangling block");
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}
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Block* const new_block{label.block};
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Split(visited_block, new_block, pc);
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function.blocks.insert(it, *new_block);
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return true;
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}
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CFG::AnalysisState CFG::AnalyzeInst(Block* block, FunctionId function_id, Location pc) {
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const Instruction inst{env.ReadInstruction(pc.Offset())};
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const Opcode opcode{Decode(inst.raw)};
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switch (opcode) {
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case Opcode::BRA:
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case Opcode::BRX:
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case Opcode::JMP:
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case Opcode::JMX:
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case Opcode::RET:
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if (!AnalyzeBranch(block, function_id, pc, inst, opcode)) {
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return AnalysisState::Continue;
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}
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switch (opcode) {
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case Opcode::BRA:
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case Opcode::JMP:
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AnalyzeBRA(block, function_id, pc, inst, IsAbsoluteJump(opcode));
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break;
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case Opcode::BRX:
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case Opcode::JMX:
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AnalyzeBRX(block, pc, inst, IsAbsoluteJump(opcode));
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break;
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case Opcode::RET:
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block->end_class = EndClass::Return;
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break;
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default:
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break;
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}
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block->end = pc;
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return AnalysisState::Branch;
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case Opcode::BRK:
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case Opcode::CONT:
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case Opcode::LONGJMP:
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case Opcode::SYNC: {
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if (!AnalyzeBranch(block, function_id, pc, inst, opcode)) {
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return AnalysisState::Continue;
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}
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const auto [stack_pc, new_stack]{block->stack.Pop(OpcodeToken(opcode))};
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block->branch_true = AddLabel(block, new_stack, stack_pc, function_id);
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block->end = pc;
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return AnalysisState::Branch;
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}
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case Opcode::PBK:
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case Opcode::PCNT:
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case Opcode::PEXIT:
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case Opcode::PLONGJMP:
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case Opcode::SSY:
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block->stack.Push(OpcodeToken(opcode), BranchOffset(pc, inst));
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return AnalysisState::Continue;
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case Opcode::EXIT:
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return AnalyzeEXIT(block, function_id, pc, inst);
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case Opcode::PRET:
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throw NotImplementedException("PRET flow analysis");
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case Opcode::CAL:
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case Opcode::JCAL: {
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const bool is_absolute{IsAbsoluteJump(opcode)};
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const Location cal_pc{is_absolute ? inst.branch.Absolute() : BranchOffset(pc, inst)};
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// Technically CAL pushes into PRET, but that's implicit in the function call for us
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// Insert the function into the list if it doesn't exist
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if (std::ranges::find(functions, cal_pc, &Function::entrypoint) == functions.end()) {
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functions.emplace_back(cal_pc);
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}
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// Handle CAL like a regular instruction
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break;
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}
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default:
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break;
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}
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const Predicate pred{inst.Pred()};
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if (pred == Predicate{true} || pred == Predicate{false}) {
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return AnalysisState::Continue;
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}
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const IR::Condition cond{static_cast<IR::Pred>(pred.index), pred.negated};
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AnalyzeCondInst(block, function_id, pc, EndClass::Branch, cond, true);
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return AnalysisState::Branch;
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}
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void CFG::AnalyzeCondInst(Block* block, FunctionId function_id, Location pc,
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EndClass insn_end_class, IR::Condition cond,
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bool visit_conditional_inst) {
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if (block->begin != pc) {
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// If the block doesn't start in the conditional instruction
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// mark it as a label to visit it later
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block->end = pc;
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block->cond = IR::Condition{true};
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block->branch_true = AddLabel(block, block->stack, pc, function_id);
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block->branch_false = nullptr;
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return;
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}
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// Create a virtual block and a conditional block
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Block* const conditional_block{block_pool.Create()};
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Block virtual_block{
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.begin{block->begin.Virtual()},
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.end{block->begin.Virtual()},
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.end_class{EndClass::Branch},
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.stack{block->stack},
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.cond{cond},
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.branch_true{conditional_block},
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.branch_false{nullptr},
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.ir{nullptr},
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};
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// Save the contents of the visited block in the conditional block
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*conditional_block = std::move(*block);
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// Impersonate the visited block with a virtual block
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*block = std::move(virtual_block);
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// Set the end properties of the conditional instruction
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conditional_block->end = visit_conditional_inst ? (pc + 1) : pc;
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conditional_block->end_class = insn_end_class;
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// Add a label to the instruction after the conditional instruction
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Block* const endif_block{AddLabel(conditional_block, block->stack, pc + 1, function_id)};
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// Branch to the next instruction from the virtual block
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block->branch_false = endif_block;
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// And branch to it from the conditional instruction if it is a branch
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if (insn_end_class == EndClass::Branch) {
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conditional_block->cond = IR::Condition{true};
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conditional_block->branch_true = endif_block;
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conditional_block->branch_false = nullptr;
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}
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// Finally insert the condition block into the list of blocks
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functions[function_id].blocks.insert(*conditional_block);
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}
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bool CFG::AnalyzeBranch(Block* block, FunctionId function_id, Location pc, Instruction inst,
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Opcode opcode) {
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if (inst.branch.is_cbuf) {
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throw NotImplementedException("Branch with constant buffer offset");
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}
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const Predicate pred{inst.Pred()};
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if (pred == Predicate{false}) {
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return false;
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}
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const bool has_flow_test{HasFlowTest(opcode)};
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const IR::FlowTest flow_test{has_flow_test ? inst.branch.flow_test.Value() : IR::FlowTest::T};
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if (pred != Predicate{true} || flow_test != IR::FlowTest::T) {
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block->cond = IR::Condition(flow_test, static_cast<IR::Pred>(pred.index), pred.negated);
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block->branch_false = AddLabel(block, block->stack, pc + 1, function_id);
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} else {
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block->cond = IR::Condition{true};
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}
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return true;
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}
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void CFG::AnalyzeBRA(Block* block, FunctionId function_id, Location pc, Instruction inst,
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bool is_absolute) {
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const Location bra_pc{is_absolute ? inst.branch.Absolute() : BranchOffset(pc, inst)};
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block->branch_true = AddLabel(block, block->stack, bra_pc, function_id);
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}
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void CFG::AnalyzeBRX(Block*, Location, Instruction, bool is_absolute) {
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throw NotImplementedException("{}", is_absolute ? "JMX" : "BRX");
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}
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void CFG::AnalyzeCAL(Location pc, Instruction inst, bool is_absolute) {
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const Location cal_pc{is_absolute ? inst.branch.Absolute() : BranchOffset(pc, inst)};
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// Technically CAL pushes into PRET, but that's implicit in the function call for us
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// Insert the function to the function list if it doesn't exist
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const auto it{std::ranges::find(functions, cal_pc, &Function::entrypoint)};
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if (it == functions.end()) {
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functions.emplace_back(cal_pc);
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}
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}
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CFG::AnalysisState CFG::AnalyzeEXIT(Block* block, FunctionId function_id, Location pc,
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Instruction inst) {
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const IR::FlowTest flow_test{inst.branch.flow_test};
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const Predicate pred{inst.Pred()};
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if (pred == Predicate{false} || flow_test == IR::FlowTest::F) {
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// EXIT will never be taken
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return AnalysisState::Continue;
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}
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if (pred != Predicate{true} || flow_test != IR::FlowTest::T) {
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if (block->stack.Peek(Token::PEXIT).has_value()) {
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throw NotImplementedException("Conditional EXIT with PEXIT token");
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}
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const IR::Condition cond{flow_test, static_cast<IR::Pred>(pred.index), pred.negated};
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AnalyzeCondInst(block, function_id, pc, EndClass::Exit, cond, false);
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return AnalysisState::Branch;
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}
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if (const std::optional<Location> exit_pc{block->stack.Peek(Token::PEXIT)}) {
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const Stack popped_stack{block->stack.Remove(Token::PEXIT)};
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block->cond = IR::Condition{true};
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block->branch_true = AddLabel(block, popped_stack, *exit_pc, function_id);
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block->branch_false = nullptr;
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return AnalysisState::Branch;
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}
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block->end = pc;
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block->end_class = EndClass::Exit;
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return AnalysisState::Branch;
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}
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Block* CFG::AddLabel(Block* block, Stack stack, Location pc, FunctionId function_id) {
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Function& function{functions[function_id]};
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if (block->begin == pc) {
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// Jumps to itself
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return block;
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}
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if (const auto it{function.blocks.find(pc, Compare{})}; it != function.blocks.end()) {
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// Block already exists and it has been visited
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return &*it;
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}
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// TODO: FIX DANGLING BLOCKS
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Block* const new_block{block_pool.Create(Block{
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.begin{pc},
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.end{pc},
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.end_class{EndClass::Branch},
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.stack{stack},
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.cond{IR::Condition{true}},
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.branch_true{nullptr},
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.branch_false{nullptr},
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.ir{nullptr},
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})};
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function.labels.push_back(Label{
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.address{pc},
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.block{new_block},
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.stack{std::move(stack)},
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});
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return new_block;
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}
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std::string CFG::Dot() const {
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int node_uid{0};
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std::string dot{"digraph shader {\n"};
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for (const Function& function : functions) {
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dot += fmt::format("\tsubgraph cluster_{} {{\n", function.entrypoint);
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dot += fmt::format("\t\tnode [style=filled];\n");
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for (const Block& block : function.blocks) {
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const std::string name{NameOf(block)};
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const auto add_branch = [&](Block* branch, bool add_label) {
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dot += fmt::format("\t\t{}->{}", name, NameOf(*branch));
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if (add_label && block.cond != IR::Condition{true} &&
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block.cond != IR::Condition{false}) {
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dot += fmt::format(" [label=\"{}\"]", block.cond);
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}
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dot += '\n';
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};
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dot += fmt::format("\t\t{};\n", name);
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switch (block.end_class) {
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case EndClass::Branch:
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if (block.cond != IR::Condition{false}) {
|
|
add_branch(block.branch_true, true);
|
|
}
|
|
if (block.cond != IR::Condition{true}) {
|
|
add_branch(block.branch_false, false);
|
|
}
|
|
break;
|
|
case EndClass::Exit:
|
|
dot += fmt::format("\t\t{}->N{};\n", name, node_uid);
|
|
dot += fmt::format("\t\tN{} [label=\"Exit\"][shape=square][style=stripped];\n",
|
|
node_uid);
|
|
++node_uid;
|
|
break;
|
|
case EndClass::Return:
|
|
dot += fmt::format("\t\t{}->N{};\n", name, node_uid);
|
|
dot += fmt::format("\t\tN{} [label=\"Return\"][shape=square][style=stripped];\n",
|
|
node_uid);
|
|
++node_uid;
|
|
break;
|
|
}
|
|
}
|
|
if (function.entrypoint == 8) {
|
|
dot += fmt::format("\t\tlabel = \"main\";\n");
|
|
} else {
|
|
dot += fmt::format("\t\tlabel = \"Function {}\";\n", function.entrypoint);
|
|
}
|
|
dot += "\t}\n";
|
|
}
|
|
if (!functions.empty()) {
|
|
auto& function{functions.front()};
|
|
if (function.blocks.empty()) {
|
|
dot += "Start;\n";
|
|
} else {
|
|
dot += fmt::format("\tStart -> {};\n", NameOf(*function.blocks.begin()));
|
|
}
|
|
dot += fmt::format("\tStart [shape=diamond];\n");
|
|
}
|
|
dot += "}\n";
|
|
return dot;
|
|
}
|
|
|
|
} // namespace Shader::Maxwell::Flow
|