2019-05-15 08:33:35 +00:00
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/*
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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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/**
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* Optimisation stage that replaces constants by expressions that compute them.
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*/
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2019-05-28 10:57:15 +00:00
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#include <libyul/backends/evm/ConstantOptimiser.h>
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2019-05-15 08:33:35 +00:00
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#include <libyul/optimiser/ASTCopier.h>
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2019-05-28 10:57:15 +00:00
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#include <libyul/backends/evm/EVMMetrics.h>
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2019-05-15 08:33:35 +00:00
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#include <libyul/AsmData.h>
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#include <libyul/Utilities.h>
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#include <libdevcore/CommonData.h>
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using namespace std;
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using namespace dev;
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using namespace yul;
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using Representation = ConstantOptimiser::Representation;
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2019-05-20 14:23:59 +00:00
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namespace
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{
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struct MiniEVMInterpreter: boost::static_visitor<u256>
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{
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explicit MiniEVMInterpreter(EVMDialect const& _dialect): m_dialect(_dialect) {}
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u256 eval(Expression const& _expr)
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{
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return boost::apply_visitor(*this, _expr);
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}
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u256 eval(dev::eth::Instruction _instr, vector<Expression> const& _arguments)
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{
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vector<u256> args;
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for (auto const& arg: _arguments)
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args.emplace_back(eval(arg));
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switch (_instr)
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{
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case eth::Instruction::ADD:
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return args.at(0) + args.at(1);
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case eth::Instruction::SUB:
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return args.at(0) - args.at(1);
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case eth::Instruction::MUL:
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return args.at(0) * args.at(1);
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case eth::Instruction::EXP:
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return exp256(args.at(0), args.at(1));
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case eth::Instruction::SHL:
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return args.at(0) > 255 ? 0 : (args.at(1) << unsigned(args.at(0)));
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case eth::Instruction::NOT:
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return ~args.at(0);
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default:
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yulAssert(false, "Invalid operation generated in constant optimizer.");
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}
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return 0;
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}
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u256 operator()(FunctionalInstruction const& _instr)
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{
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return eval(_instr.instruction, _instr.arguments);
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}
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u256 operator()(FunctionCall const& _funCall)
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{
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BuiltinFunctionForEVM const* fun = m_dialect.builtin(_funCall.functionName.name);
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yulAssert(fun, "Expected builtin function.");
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yulAssert(fun->instruction, "Expected EVM instruction.");
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return eval(*fun->instruction, _funCall.arguments);
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}
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u256 operator()(Literal const& _literal)
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{
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return valueOfLiteral(_literal);
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}
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u256 operator()(Identifier const&) { yulAssert(false, ""); }
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EVMDialect const& m_dialect;
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};
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}
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2019-05-15 08:33:35 +00:00
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void ConstantOptimiser::visit(Expression& _e)
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{
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if (_e.type() == typeid(Literal))
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{
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Literal const& literal = boost::get<Literal>(_e);
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if (literal.kind != LiteralKind::Number)
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return;
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if (
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Expression const* repr =
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RepresentationFinder(m_dialect, m_meter, locationOf(_e), m_cache)
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.tryFindRepresentation(valueOfLiteral(literal))
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)
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_e = ASTCopier{}.translate(*repr);
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}
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else
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ASTModifier::visit(_e);
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}
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Expression const* RepresentationFinder::tryFindRepresentation(dev::u256 const& _value)
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{
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if (_value < 0x10000)
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return nullptr;
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Representation const& repr = findRepresentation(_value);
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if (repr.expression->type() == typeid(Literal))
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return nullptr;
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else
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return repr.expression.get();
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}
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Representation const& RepresentationFinder::findRepresentation(dev::u256 const& _value)
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{
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if (m_cache.count(_value))
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return m_cache.at(_value);
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Representation routine = represent(_value);
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if (dev::bytesRequired(~_value) < dev::bytesRequired(_value))
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// Negated is shorter to represent
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routine = min(move(routine), represent("not"_yulstring, findRepresentation(~_value)));
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// Decompose value into a * 2**k + b where abs(b) << 2**k
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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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Representation newRoutine;
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if (m_dialect.evmVersion().hasBitwiseShifting())
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newRoutine = represent("shl"_yulstring, represent(bits), findRepresentation(upperPart));
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else
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{
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newRoutine = represent("exp"_yulstring, represent(2), represent(bits));
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if (upperPart != 1)
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newRoutine = represent("mul"_yulstring, findRepresentation(upperPart), newRoutine);
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}
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if (newRoutine.cost >= routine.cost)
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continue;
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if (lowerPart > 0)
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newRoutine = represent("add"_yulstring, newRoutine, findRepresentation(u256(abs(lowerPart))));
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else if (lowerPart < 0)
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newRoutine = represent("sub"_yulstring, newRoutine, findRepresentation(u256(abs(lowerPart))));
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if (m_maxSteps > 0)
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m_maxSteps--;
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routine = min(move(routine), move(newRoutine));
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}
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2019-05-20 14:23:59 +00:00
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yulAssert(MiniEVMInterpreter{m_dialect}.eval(*routine.expression) == _value, "Invalid expression generated.");
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2019-05-15 08:33:35 +00:00
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return m_cache[_value] = move(routine);
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}
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Representation RepresentationFinder::represent(dev::u256 const& _value) const
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{
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Representation repr;
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repr.expression = make_unique<Expression>(Literal{m_location, LiteralKind::Number, YulString{formatNumber(_value)}, {}});
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repr.cost = m_meter.costs(*repr.expression);
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return repr;
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}
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Representation RepresentationFinder::represent(
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YulString _instruction,
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Representation const& _argument
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) const
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{
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Representation repr;
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repr.expression = make_unique<Expression>(FunctionCall{
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m_location,
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Identifier{m_location, _instruction},
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{ASTCopier{}.translate(*_argument.expression)}
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});
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repr.cost = _argument.cost + m_meter.instructionCosts(*m_dialect.builtin(_instruction)->instruction);
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return repr;
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}
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Representation RepresentationFinder::represent(
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YulString _instruction,
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Representation const& _arg1,
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Representation const& _arg2
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) const
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{
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Representation repr;
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repr.expression = make_unique<Expression>(FunctionCall{
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m_location,
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Identifier{m_location, _instruction},
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{ASTCopier{}.translate(*_arg1.expression), ASTCopier{}.translate(*_arg2.expression)}
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});
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repr.cost = m_meter.instructionCosts(*m_dialect.builtin(_instruction)->instruction) + _arg1.cost + _arg2.cost;
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return repr;
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}
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Representation RepresentationFinder::min(Representation _a, Representation _b)
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{
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if (_a.cost <= _b.cost)
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return _a;
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else
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return _b;
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}
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