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dynarmic/src/frontend/ir/basic_block.cpp

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* This software may be used and distributed according to the terms of the GNU
* General Public License version 2 or any later version.
*/
#include <algorithm>
#include <initializer_list>
#include <map>
#include <string>
#include "common/assert.h"
#include "common/string_util.h"
#include "frontend/ir/basic_block.h"
#include "frontend/ir/opcodes.h"
namespace Dynarmic {
namespace IR {
void Block::AppendNewInst(Opcode opcode, std::initializer_list<IR::Value> args) {
IR::Inst* inst = new(instruction_alloc_pool->Alloc()) IR::Inst(opcode);
DEBUG_ASSERT(args.size() == inst->NumArgs());
std::for_each(args.begin(), args.end(), [&inst, index = size_t(0)](const auto& arg) mutable {
inst->SetArg(index, arg);
index++;
});
instructions.push_back(inst);
}
Arm::LocationDescriptor Block::Location() const {
return location;
}
Arm::Cond Block::GetCondition() const {
return cond;
}
void Block::SetCondition(Arm::Cond condition) {
cond = condition;
}
Arm::LocationDescriptor Block::ConditionFailedLocation() const {
return cond_failed.get();
}
void Block::SetConditionFailedLocation(Arm::LocationDescriptor location) {
cond_failed = location;
}
size_t& Block::ConditionFailedCycleCount() {
return cond_failed_cycle_count;
}
const size_t& Block::ConditionFailedCycleCount() const {
return cond_failed_cycle_count;
}
bool Block::HasConditionFailedLocation() const {
return cond_failed.is_initialized();
}
Block::InstructionList& Block::Instructions() {
return instructions;
}
const Block::InstructionList& Block::Instructions() const {
return instructions;
}
Terminal Block::GetTerminal() const {
return terminal;
}
void Block::SetTerminal(Terminal term) {
ASSERT_MSG(!HasTerminal(), "Terminal has already been set.");
terminal = term;
}
bool Block::HasTerminal() const {
return terminal.which() != 0;
}
size_t& Block::CycleCount() {
return cycle_count;
}
const size_t& Block::CycleCount() const {
return cycle_count;
}
static std::string LocDescToString(const Arm::LocationDescriptor& loc) {
return Common::StringFromFormat("{%u,%s,%s,%u}",
loc.PC(),
loc.TFlag() ? "T" : "!T",
loc.EFlag() ? "E" : "!E",
loc.FPSCR().Value());
}
static std::string TerminalToString(const Terminal& terminal_variant) {
switch (terminal_variant.which()) {
case 1: {
auto terminal = boost::get<IR::Term::Interpret>(terminal_variant);
return Common::StringFromFormat("Interpret{%s}", LocDescToString(terminal.next).c_str());
}
case 2: {
return Common::StringFromFormat("ReturnToDispatch{}");
}
case 3: {
auto terminal = boost::get<IR::Term::LinkBlock>(terminal_variant);
return Common::StringFromFormat("LinkBlock{%s}", LocDescToString(terminal.next).c_str());
}
case 4: {
auto terminal = boost::get<IR::Term::LinkBlockFast>(terminal_variant);
return Common::StringFromFormat("LinkBlockFast{%s}", LocDescToString(terminal.next).c_str());
}
case 5: {
return Common::StringFromFormat("PopRSBHint{}");
}
case 6: {
auto terminal = boost::get<IR::Term::If>(terminal_variant);
return Common::StringFromFormat("If{%s, %s, %s}", CondToString(terminal.if_), TerminalToString(terminal.then_).c_str(), TerminalToString(terminal.else_).c_str());
}
case 7: {
auto terminal = boost::get<IR::Term::CheckHalt>(terminal_variant);
return Common::StringFromFormat("CheckHalt{%s}", TerminalToString(terminal.else_).c_str());
}
default:
return "<invalid terminal>";
}
}
std::string DumpBlock(const IR::Block& block) {
std::string ret;
ret += Common::StringFromFormat("Block: location=%s\n", LocDescToString(block.Location()).c_str());
ret += Common::StringFromFormat("cycles=%zu", block.CycleCount());
ret += Common::StringFromFormat(", entry_cond=%s", Arm::CondToString(block.GetCondition(), true));
if (block.GetCondition() != Arm::Cond::AL) {
ret += Common::StringFromFormat(", cond_fail=%s", LocDescToString(block.ConditionFailedLocation()).c_str());
}
ret += "\n";
std::map<const IR::Inst*, size_t> inst_to_index;
size_t index = 0;
const auto arg_to_string = [&inst_to_index](const IR::Value& arg) -> std::string {
if (arg.IsEmpty()) {
return "<null>";
} else if (!arg.IsImmediate()) {
return Common::StringFromFormat("%%%zu", inst_to_index.at(arg.GetInst()));
}
switch (arg.GetType()) {
case Type::U1:
return Common::StringFromFormat("#%s", arg.GetU1() ? "1" : "0");
case Type::U8:
return Common::StringFromFormat("#%u", arg.GetU8());
case Type::U32:
return Common::StringFromFormat("#%#x", arg.GetU32());
case Type::RegRef:
return Arm::RegToString(arg.GetRegRef());
case Type::ExtRegRef:
return Arm::ExtRegToString(arg.GetExtRegRef());
default:
return "<unknown immediate type>";
}
};
for (const auto& inst : block) {
const Opcode op = inst.GetOpcode();
if (GetTypeOf(op) != Type::Void) {
ret += Common::StringFromFormat("%%%-5zu = ", index);
} else {
ret += " "; // '%00000 = ' -> 1 + 5 + 3 = 9 spaces
}
ret += GetNameOf(op);
const size_t arg_count = GetNumArgsOf(op);
for (size_t arg_index = 0; arg_index < arg_count; arg_index++) {
const Value arg = inst.GetArg(arg_index);
ret += arg_index != 0 ? ", " : " ";
ret += arg_to_string(arg);
Type actual_type = arg.GetType();
Type expected_type = GetArgTypeOf(op, arg_index);
if (!AreTypesCompatible(actual_type, expected_type)) {
ret += Common::StringFromFormat("<type error: %s != %s>", GetNameOf(actual_type), GetNameOf(expected_type));
}
}
ret += "\n";
inst_to_index[&inst] = index++;
}
ret += "terminal = " + TerminalToString(block.GetTerminal()) + "\n";
return ret;
}
} // namespace IR
} // namespace Dynarmic
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