mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
367 lines
10 KiB
C++
367 lines
10 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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/** @file ConstantOptimiser.cpp
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* @author Christian <c@ethdev.com>
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* @date 2015
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*/
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#include <libevmasm/ConstantOptimiser.h>
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#include <libevmasm/Assembly.h>
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#include <libevmasm/GasMeter.h>
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using namespace solidity;
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using namespace solidity::evmasm;
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unsigned ConstantOptimisationMethod::optimiseConstants(
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bool _isCreation,
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size_t _runs,
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langutil::EVMVersion _evmVersion,
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Assembly& _assembly
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)
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{
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// TODO: design the optimiser in a way this is not needed
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AssemblyItems& _items = _assembly.items();
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unsigned optimisations = 0;
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std::map<AssemblyItem, size_t> pushes;
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for (AssemblyItem const& item: _items)
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if (item.type() == Push)
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pushes[item]++;
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std::map<u256, AssemblyItems> pendingReplacements;
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for (auto it: pushes)
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{
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AssemblyItem const& item = it.first;
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if (item.data() < 0x100)
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continue;
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Params params;
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params.multiplicity = it.second;
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params.isCreation = _isCreation;
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params.runs = _runs;
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params.evmVersion = _evmVersion;
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LiteralMethod lit(params, item.data());
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bigint literalGas = lit.gasNeeded();
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CodeCopyMethod copy(params, item.data());
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bigint copyGas = copy.gasNeeded();
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ComputeMethod compute(params, item.data());
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bigint computeGas = compute.gasNeeded();
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AssemblyItems replacement;
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if (copyGas < literalGas && copyGas < computeGas)
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{
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replacement = copy.execute(_assembly);
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optimisations++;
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}
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else if (computeGas < literalGas && computeGas <= copyGas)
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{
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replacement = compute.execute(_assembly);
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optimisations++;
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}
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if (!replacement.empty())
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pendingReplacements[item.data()] = replacement;
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}
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if (!pendingReplacements.empty())
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replaceConstants(_items, pendingReplacements);
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return optimisations;
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}
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bigint ConstantOptimisationMethod::simpleRunGas(AssemblyItems const& _items, langutil::EVMVersion _evmVersion)
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{
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bigint gas = 0;
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for (AssemblyItem const& item: _items)
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if (item.type() == Push)
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gas += GasMeter::pushGas(item.data(), _evmVersion);
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else if (item.type() == Operation)
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{
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if (item.instruction() == Instruction::EXP)
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gas += GasCosts::expGas;
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else
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gas += GasMeter::runGas(item.instruction(), _evmVersion);
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}
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return gas;
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}
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bigint ConstantOptimisationMethod::dataGas(bytes const& _data) const
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{
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assertThrow(_data.size() > 0, OptimizerException, "Empty bytecode generated.");
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return bigint(GasMeter::dataGas(_data, m_params.isCreation, m_params.evmVersion));
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}
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size_t ConstantOptimisationMethod::bytesRequired(AssemblyItems const& _items, langutil::EVMVersion _evmVersion)
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{
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return evmasm::bytesRequired(_items, 3, _evmVersion, Precision::Approximate); // assume 3 byte addresses
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}
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void ConstantOptimisationMethod::replaceConstants(
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AssemblyItems& _items,
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std::map<u256, AssemblyItems> const& _replacements
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)
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{
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AssemblyItems replaced;
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for (AssemblyItem const& item: _items)
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{
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if (item.type() == Push)
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{
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auto it = _replacements.find(item.data());
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if (it != _replacements.end())
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{
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replaced += it->second;
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continue;
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}
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}
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replaced.push_back(item);
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}
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_items = std::move(replaced);
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}
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bigint LiteralMethod::gasNeeded() const
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{
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return combineGas(
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simpleRunGas({Instruction::PUSH1}, m_params.evmVersion),
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// PUSHX plus data
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(m_params.isCreation ? GasCosts::txDataNonZeroGas(m_params.evmVersion) : GasCosts::createDataGas) + dataGas(toCompactBigEndian(m_value, 1)),
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0
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);
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}
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bigint CodeCopyMethod::gasNeeded() const
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{
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return combineGas(
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// Run gas: we ignore memory increase costs
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simpleRunGas(copyRoutine(), m_params.evmVersion) + GasCosts::copyGas,
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// Data gas for copy routines: Some bytes are zero, but we ignore them.
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bytesRequired(copyRoutine(), m_params.evmVersion) * (m_params.isCreation ? GasCosts::txDataNonZeroGas(m_params.evmVersion) : GasCosts::createDataGas),
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// Data gas for data itself
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dataGas(toBigEndian(m_value))
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);
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}
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AssemblyItems CodeCopyMethod::execute(Assembly& _assembly) const
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{
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bytes data = toBigEndian(m_value);
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assertThrow(data.size() == 32, OptimizerException, "Invalid number encoding.");
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AssemblyItem newPushData = _assembly.newData(data);
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return copyRoutine(&newPushData);
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}
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AssemblyItems CodeCopyMethod::copyRoutine(AssemblyItem* _pushData) const
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{
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if (_pushData)
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assertThrow(_pushData->type() == PushData, OptimizerException, "Invalid Assembly Item.");
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AssemblyItem dataUsed = _pushData ? *_pushData : AssemblyItem(PushData, u256(1) << 16);
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// PUSH0 is cheaper than PUSHn/DUP/SWAP.
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if (m_params.evmVersion.hasPush0())
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{
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// This costs ~29 gas.
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AssemblyItems copyRoutine{
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// back up memory
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// mload(0)
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u256(0),
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Instruction::MLOAD,
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// codecopy(0, <offset>, 32)
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u256(32),
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dataUsed,
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u256(0),
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Instruction::CODECOPY,
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// mload(0)
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u256(0),
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Instruction::MLOAD,
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// restore original memory
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// mstore(0, x)
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Instruction::SWAP1,
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u256(0),
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Instruction::MSTORE
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};
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return copyRoutine;
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}
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else
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{
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// This costs ~33 gas.
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AssemblyItems copyRoutine{
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// constant to be reused 3+ times
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u256(0),
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// back up memory
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// mload(0)
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Instruction::DUP1,
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Instruction::MLOAD,
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// codecopy(0, <offset>, 32)
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u256(32),
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dataUsed,
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Instruction::DUP4,
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Instruction::CODECOPY,
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// mload(0)
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Instruction::DUP2,
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Instruction::MLOAD,
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// restore original memory
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// mstore(0, x)
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Instruction::SWAP2,
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Instruction::MSTORE
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};
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return copyRoutine;
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}
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}
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AssemblyItems ComputeMethod::findRepresentation(u256 const& _value)
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{
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if (_value < 0x10000)
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// Very small value, not worth computing
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return AssemblyItems{_value};
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else if (numberEncodingSize(~_value) < numberEncodingSize(_value))
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// Negated is shorter to represent
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return findRepresentation(~_value) + AssemblyItems{Instruction::NOT};
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else
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{
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// Decompose value into a * 2**k + b where abs(b) << 2**k
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// Is not always better, try literal and decomposition method.
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AssemblyItems routine{u256(_value)};
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bigint bestGas = gasNeeded(routine);
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for (unsigned bits = 255; bits > 8 && m_maxSteps > 0; --bits)
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{
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unsigned gapDetector = unsigned((_value >> (bits - 8)) & 0x1ff);
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if (gapDetector != 0xff && gapDetector != 0x100)
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continue;
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u256 powerOfTwo = u256(1) << bits;
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u256 upperPart = _value >> bits;
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bigint lowerPart = _value & (powerOfTwo - 1);
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if ((powerOfTwo - lowerPart) < lowerPart)
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{
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lowerPart = lowerPart - powerOfTwo; // make it negative
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upperPart++;
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}
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if (upperPart == 0)
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continue;
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if (abs(lowerPart) >= (powerOfTwo >> 8))
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continue;
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AssemblyItems newRoutine;
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if (lowerPart != 0)
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newRoutine += findRepresentation(u256(abs(lowerPart)));
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if (m_params.evmVersion.hasBitwiseShifting())
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{
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newRoutine += findRepresentation(upperPart);
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newRoutine += AssemblyItems{u256(bits), Instruction::SHL};
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}
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else
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{
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newRoutine += AssemblyItems{u256(bits), u256(2), Instruction::EXP};
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if (upperPart != 1)
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newRoutine += findRepresentation(upperPart) + AssemblyItems{Instruction::MUL};
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}
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if (lowerPart > 0)
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newRoutine += AssemblyItems{Instruction::ADD};
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else if (lowerPart < 0)
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newRoutine.push_back(Instruction::SUB);
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if (m_maxSteps > 0)
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m_maxSteps--;
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bigint newGas = gasNeeded(newRoutine);
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if (newGas < bestGas)
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{
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bestGas = std::move(newGas);
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routine = std::move(newRoutine);
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}
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}
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return routine;
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}
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}
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bool ComputeMethod::checkRepresentation(u256 const& _value, AssemblyItems const& _routine) const
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{
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// This is a tiny EVM that can only evaluate some instructions.
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std::vector<u256> stack;
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for (AssemblyItem const& item: _routine)
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{
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switch (item.type())
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{
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case Operation:
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{
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if (stack.size() < item.arguments())
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return false;
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u256* sp = &stack.back();
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switch (item.instruction())
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{
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case Instruction::MUL:
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sp[-1] = sp[0] * sp[-1];
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break;
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case Instruction::EXP:
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if (sp[-1] > 0xff)
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return false;
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sp[-1] = boost::multiprecision::pow(sp[0], unsigned(sp[-1]));
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break;
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case Instruction::ADD:
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sp[-1] = sp[0] + sp[-1];
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break;
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case Instruction::SUB:
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sp[-1] = sp[0] - sp[-1];
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break;
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case Instruction::NOT:
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sp[0] = ~sp[0];
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break;
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case Instruction::SHL:
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assertThrow(
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m_params.evmVersion.hasBitwiseShifting(),
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OptimizerException,
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"Shift generated for invalid EVM version."
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);
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assertThrow(sp[0] <= u256(255), OptimizerException, "Invalid shift generated.");
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sp[-1] = u256(bigint(sp[-1]) << unsigned(sp[0]));
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break;
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case Instruction::SHR:
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assertThrow(
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m_params.evmVersion.hasBitwiseShifting(),
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OptimizerException,
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"Shift generated for invalid EVM version."
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);
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assertThrow(sp[0] <= u256(255), OptimizerException, "Invalid shift generated.");
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sp[-1] = sp[-1] >> unsigned(sp[0]);
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break;
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default:
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return false;
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}
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stack.resize(stack.size() + item.deposit());
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break;
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}
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case Push:
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stack.push_back(item.data());
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break;
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default:
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return false;
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}
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}
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return stack.size() == 1 && stack.front() == _value;
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}
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bigint ComputeMethod::gasNeeded(AssemblyItems const& _routine) const
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{
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auto numExps = static_cast<size_t>(count(_routine.begin(), _routine.end(), Instruction::EXP));
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return combineGas(
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simpleRunGas(_routine, m_params.evmVersion) + numExps * (GasCosts::expGas + GasCosts::expByteGas(m_params.evmVersion)),
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// Data gas for routine: Some bytes are zero, but we ignore them.
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bytesRequired(_routine, m_params.evmVersion) * (m_params.isCreation ? GasCosts::txDataNonZeroGas(m_params.evmVersion) : GasCosts::createDataGas),
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0
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);
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}
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