mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
6f97e6153c
Co-authored-by: Kamil Śliwak <kamil.sliwak@codepoets.it>
397 lines
13 KiB
C++
397 lines
13 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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// SPDX-License-Identifier: GPL-3.0
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/**
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* Yul dialects for EVM.
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*/
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#include <libyul/backends/evm/EVMDialect.h>
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#include <libyul/AsmAnalysisInfo.h>
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#include <libyul/AsmData.h>
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#include <libyul/Object.h>
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#include <libyul/Exceptions.h>
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#include <libyul/AsmParser.h>
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#include <libyul/backends/evm/AbstractAssembly.h>
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#include <libevmasm/SemanticInformation.h>
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#include <libevmasm/Instruction.h>
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#include <liblangutil/Exceptions.h>
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#include <boost/range/adaptor/reversed.hpp>
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using namespace std;
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using namespace solidity;
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using namespace solidity::yul;
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using namespace solidity::util;
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namespace
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{
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void visitArguments(
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AbstractAssembly& _assembly,
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FunctionCall const& _call,
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function<void(Expression const&)> _visitExpression
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)
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{
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for (auto const& arg: _call.arguments | boost::adaptors::reversed)
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_visitExpression(arg);
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_assembly.setSourceLocation(_call.location);
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}
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pair<YulString, BuiltinFunctionForEVM> createEVMFunction(
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string const& _name,
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evmasm::Instruction _instruction
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)
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{
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evmasm::InstructionInfo info = evmasm::instructionInfo(_instruction);
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BuiltinFunctionForEVM f;
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f.name = YulString{_name};
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f.parameters.resize(static_cast<size_t>(info.args));
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f.returns.resize(static_cast<size_t>(info.ret));
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f.sideEffects = EVMDialect::sideEffectsOfInstruction(_instruction);
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f.controlFlowSideEffects.terminates = evmasm::SemanticInformation::terminatesControlFlow(_instruction);
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f.controlFlowSideEffects.reverts = evmasm::SemanticInformation::reverts(_instruction);
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f.isMSize = _instruction == evmasm::Instruction::MSIZE;
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f.literalArguments.reset();
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f.instruction = _instruction;
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f.generateCode = [_instruction](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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std::function<void(Expression const&)> _visitExpression
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) {
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visitArguments(_assembly, _call, _visitExpression);
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_assembly.appendInstruction(_instruction);
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};
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return {f.name, move(f)};
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}
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pair<YulString, BuiltinFunctionForEVM> createFunction(
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string _name,
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size_t _params,
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size_t _returns,
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SideEffects _sideEffects,
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vector<bool> _literalArguments,
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std::function<void(FunctionCall const&, AbstractAssembly&, BuiltinContext&, std::function<void(Expression const&)>)> _generateCode
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)
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{
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yulAssert(_literalArguments.size() == _params || _literalArguments.empty(), "");
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YulString name{std::move(_name)};
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BuiltinFunctionForEVM f;
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f.name = name;
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f.parameters.resize(_params);
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f.returns.resize(_returns);
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f.sideEffects = std::move(_sideEffects);
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if (!_literalArguments.empty())
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f.literalArguments = std::move(_literalArguments);
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else
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f.literalArguments.reset();
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f.isMSize = false;
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f.instruction = {};
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f.generateCode = std::move(_generateCode);
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return {name, f};
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}
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map<YulString, BuiltinFunctionForEVM> createBuiltins(langutil::EVMVersion _evmVersion, bool _objectAccess)
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{
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map<YulString, BuiltinFunctionForEVM> builtins;
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// NOTE: Parser::instructions() will filter JUMPDEST and PUSHnn too
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for (auto const& instr: Parser::instructions())
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if (
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!evmasm::isDupInstruction(instr.second) &&
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!evmasm::isSwapInstruction(instr.second) &&
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!evmasm::isPushInstruction(instr.second) &&
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instr.second != evmasm::Instruction::JUMP &&
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instr.second != evmasm::Instruction::JUMPI &&
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instr.second != evmasm::Instruction::JUMPDEST &&
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_evmVersion.hasOpcode(instr.second)
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)
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builtins.emplace(createEVMFunction(instr.first, instr.second));
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if (_objectAccess)
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{
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builtins.emplace(createFunction("linkersymbol", 1, 1, SideEffects{}, {true}, [](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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function<void(Expression const&)>
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) {
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yulAssert(_call.arguments.size() == 1, "");
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Expression const& arg = _call.arguments.front();
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_assembly.appendLinkerSymbol(std::get<Literal>(arg).value.str());
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}));
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builtins.emplace(createFunction("datasize", 1, 1, SideEffects{}, {true}, [](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext& _context,
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std::function<void(Expression const&)> const&
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) {
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yulAssert(_context.currentObject, "No object available.");
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yulAssert(_call.arguments.size() == 1, "");
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Expression const& arg = _call.arguments.front();
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YulString dataName = std::get<Literal>(arg).value;
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if (_context.currentObject->name == dataName)
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_assembly.appendAssemblySize();
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else
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{
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vector<size_t> subIdPath =
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_context.subIDs.count(dataName) == 0 ?
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_context.currentObject->pathToSubObject(dataName) :
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vector<size_t>{_context.subIDs.at(dataName)};
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yulAssert(!subIdPath.empty(), "Could not find assembly object <" + dataName.str() + ">.");
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_assembly.appendDataSize(subIdPath);
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}
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}));
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builtins.emplace(createFunction("dataoffset", 1, 1, SideEffects{}, {true}, [](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext& _context,
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std::function<void(Expression const&)> const&
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) {
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yulAssert(_context.currentObject, "No object available.");
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yulAssert(_call.arguments.size() == 1, "");
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Expression const& arg = _call.arguments.front();
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YulString dataName = std::get<Literal>(arg).value;
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if (_context.currentObject->name == dataName)
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_assembly.appendConstant(0);
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else
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{
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vector<size_t> subIdPath =
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_context.subIDs.count(dataName) == 0 ?
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_context.currentObject->pathToSubObject(dataName) :
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vector<size_t>{_context.subIDs.at(dataName)};
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yulAssert(!subIdPath.empty(), "Could not find assembly object <" + dataName.str() + ">.");
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_assembly.appendDataOffset(subIdPath);
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}
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}));
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builtins.emplace(createFunction(
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"datacopy",
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3,
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0,
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SideEffects{false, false, false, false, true},
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{},
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[](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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std::function<void(Expression const&)> _visitExpression
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) {
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visitArguments(_assembly, _call, _visitExpression);
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_assembly.appendInstruction(evmasm::Instruction::CODECOPY);
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}
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));
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builtins.emplace(createFunction(
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"setimmutable",
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2,
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0,
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SideEffects{false, false, false, false, true},
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{true, false},
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[](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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std::function<void(Expression const&)> _visitExpression
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) {
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yulAssert(_call.arguments.size() == 2, "");
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_visitExpression(_call.arguments[1]);
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_assembly.setSourceLocation(_call.location);
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YulString identifier = std::get<Literal>(_call.arguments.front()).value;
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_assembly.appendImmutableAssignment(identifier.str());
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}
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));
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builtins.emplace(createFunction(
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"loadimmutable",
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1,
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1,
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SideEffects{},
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{true},
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[](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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std::function<void(Expression const&)>
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) {
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yulAssert(_call.arguments.size() == 1, "");
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_assembly.appendImmutable(std::get<Literal>(_call.arguments.front()).value.str());
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}
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));
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}
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return builtins;
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}
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}
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EVMDialect::EVMDialect(langutil::EVMVersion _evmVersion, bool _objectAccess):
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m_objectAccess(_objectAccess),
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m_evmVersion(_evmVersion),
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m_functions(createBuiltins(_evmVersion, _objectAccess))
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{
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}
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BuiltinFunctionForEVM const* EVMDialect::builtin(YulString _name) const
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{
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auto it = m_functions.find(_name);
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if (it != m_functions.end())
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return &it->second;
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else
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return nullptr;
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}
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EVMDialect const& EVMDialect::strictAssemblyForEVM(langutil::EVMVersion _version)
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{
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static map<langutil::EVMVersion, unique_ptr<EVMDialect const>> dialects;
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static YulStringRepository::ResetCallback callback{[&] { dialects.clear(); }};
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if (!dialects[_version])
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dialects[_version] = make_unique<EVMDialect>(_version, false);
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return *dialects[_version];
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}
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EVMDialect const& EVMDialect::strictAssemblyForEVMObjects(langutil::EVMVersion _version)
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{
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static map<langutil::EVMVersion, unique_ptr<EVMDialect const>> dialects;
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static YulStringRepository::ResetCallback callback{[&] { dialects.clear(); }};
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if (!dialects[_version])
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dialects[_version] = make_unique<EVMDialect>(_version, true);
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return *dialects[_version];
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}
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SideEffects EVMDialect::sideEffectsOfInstruction(evmasm::Instruction _instruction)
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{
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return SideEffects{
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evmasm::SemanticInformation::movable(_instruction),
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evmasm::SemanticInformation::sideEffectFree(_instruction),
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evmasm::SemanticInformation::sideEffectFreeIfNoMSize(_instruction),
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evmasm::SemanticInformation::invalidatesStorage(_instruction),
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evmasm::SemanticInformation::invalidatesMemory(_instruction)
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};
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}
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EVMDialectTyped::EVMDialectTyped(langutil::EVMVersion _evmVersion, bool _objectAccess):
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EVMDialect(_evmVersion, _objectAccess)
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{
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defaultType = "u256"_yulstring;
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boolType = "bool"_yulstring;
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types = {defaultType, boolType};
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// Set all types to ``defaultType``
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for (auto& fun: m_functions)
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{
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for (auto& p: fun.second.parameters)
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p = defaultType;
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for (auto& r: fun.second.returns)
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r = defaultType;
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}
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m_functions["lt"_yulstring].returns = {"bool"_yulstring};
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m_functions["gt"_yulstring].returns = {"bool"_yulstring};
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m_functions["slt"_yulstring].returns = {"bool"_yulstring};
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m_functions["sgt"_yulstring].returns = {"bool"_yulstring};
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m_functions["eq"_yulstring].returns = {"bool"_yulstring};
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// "not" and "bitnot" replace "iszero" and "not"
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m_functions["bitnot"_yulstring] = m_functions["not"_yulstring];
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m_functions["bitnot"_yulstring].name = "bitnot"_yulstring;
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m_functions["not"_yulstring] = m_functions["iszero"_yulstring];
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m_functions["not"_yulstring].name = "not"_yulstring;
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m_functions["not"_yulstring].returns = {"bool"_yulstring};
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m_functions["not"_yulstring].parameters = {"bool"_yulstring};
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m_functions.erase("iszero"_yulstring);
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m_functions["bitand"_yulstring] = m_functions["and"_yulstring];
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m_functions["bitand"_yulstring].name = "bitand"_yulstring;
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m_functions["bitor"_yulstring] = m_functions["or"_yulstring];
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m_functions["bitor"_yulstring].name = "bitor"_yulstring;
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m_functions["bitxor"_yulstring] = m_functions["xor"_yulstring];
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m_functions["bitxor"_yulstring].name = "bitxor"_yulstring;
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m_functions["and"_yulstring].parameters = {"bool"_yulstring, "bool"_yulstring};
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m_functions["and"_yulstring].returns = {"bool"_yulstring};
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m_functions["or"_yulstring].parameters = {"bool"_yulstring, "bool"_yulstring};
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m_functions["or"_yulstring].returns = {"bool"_yulstring};
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m_functions["xor"_yulstring].parameters = {"bool"_yulstring, "bool"_yulstring};
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m_functions["xor"_yulstring].returns = {"bool"_yulstring};
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m_functions["popbool"_yulstring] = m_functions["pop"_yulstring];
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m_functions["popbool"_yulstring].name = "popbool"_yulstring;
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m_functions["popbool"_yulstring].parameters = {"bool"_yulstring};
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m_functions.insert(createFunction("bool_to_u256", 1, 1, {}, {}, [](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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std::function<void(Expression const&)> _visitExpression
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) {
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visitArguments(_assembly, _call, _visitExpression);
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}));
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m_functions["bool_to_u256"_yulstring].parameters = {"bool"_yulstring};
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m_functions["bool_to_u256"_yulstring].returns = {"u256"_yulstring};
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m_functions.insert(createFunction("u256_to_bool", 1, 1, {}, {}, [](
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FunctionCall const& _call,
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AbstractAssembly& _assembly,
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BuiltinContext&,
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std::function<void(Expression const&)> _visitExpression
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) {
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// A value larger than 1 causes an invalid instruction.
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visitArguments(_assembly, _call, _visitExpression);
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_assembly.appendConstant(2);
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_assembly.appendInstruction(evmasm::Instruction::DUP2);
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_assembly.appendInstruction(evmasm::Instruction::LT);
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AbstractAssembly::LabelID inRange = _assembly.newLabelId();
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_assembly.appendJumpToIf(inRange);
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_assembly.appendInstruction(evmasm::Instruction::INVALID);
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_assembly.appendLabel(inRange);
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}));
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m_functions["u256_to_bool"_yulstring].parameters = {"u256"_yulstring};
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m_functions["u256_to_bool"_yulstring].returns = {"bool"_yulstring};
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}
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BuiltinFunctionForEVM const* EVMDialectTyped::discardFunction(YulString _type) const
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{
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if (_type == "bool"_yulstring)
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return builtin("popbool"_yulstring);
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else
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{
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yulAssert(_type == defaultType, "");
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return builtin("pop"_yulstring);
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}
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}
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BuiltinFunctionForEVM const* EVMDialectTyped::equalityFunction(YulString _type) const
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{
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if (_type == "bool"_yulstring)
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return nullptr;
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else
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{
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yulAssert(_type == defaultType, "");
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return builtin("eq"_yulstring);
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}
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}
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EVMDialectTyped const& EVMDialectTyped::instance(langutil::EVMVersion _version)
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{
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static map<langutil::EVMVersion, unique_ptr<EVMDialectTyped const>> dialects;
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static YulStringRepository::ResetCallback callback{[&] { dialects.clear(); }};
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if (!dialects[_version])
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dialects[_version] = make_unique<EVMDialectTyped>(_version, true);
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return *dialects[_version];
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}
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