mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
519 lines
16 KiB
C++
519 lines
16 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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/**
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* @file ExpressionClasses.cpp
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* @author Christian <c@ethdev.com>
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* @date 2015
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* Container for equivalence classes of expressions for use in common subexpression elimination.
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*/
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#include <libevmasm/ExpressionClasses.h>
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#include <utility>
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#include <tuple>
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#include <functional>
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#include <boost/range/adaptor/reversed.hpp>
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#include <boost/noncopyable.hpp>
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#include <libevmasm/Assembly.h>
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#include <libevmasm/CommonSubexpressionEliminator.h>
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using namespace std;
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using namespace dev;
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using namespace dev::eth;
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bool ExpressionClasses::Expression::operator<(ExpressionClasses::Expression const& _other) const
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{
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assertThrow(!!item && !!_other.item, OptimizerException, "");
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auto type = item->type();
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auto otherType = _other.item->type();
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return std::tie(type, item->data(), arguments, sequenceNumber) <
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std::tie(otherType, _other.item->data(), _other.arguments, _other.sequenceNumber);
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}
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ExpressionClasses::Id ExpressionClasses::find(
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AssemblyItem const& _item,
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Ids const& _arguments,
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bool _copyItem,
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unsigned _sequenceNumber
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)
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{
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Expression exp;
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exp.id = Id(-1);
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exp.item = &_item;
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exp.arguments = _arguments;
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exp.sequenceNumber = _sequenceNumber;
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if (SemanticInformation::isCommutativeOperation(_item))
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sort(exp.arguments.begin(), exp.arguments.end());
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if (SemanticInformation::isDeterministic(_item))
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{
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auto it = m_expressions.find(exp);
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if (it != m_expressions.end())
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return it->id;
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}
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if (_copyItem)
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exp.item = storeItem(_item);
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ExpressionClasses::Id id = tryToSimplify(exp);
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if (id < m_representatives.size())
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exp.id = id;
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else
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{
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exp.id = m_representatives.size();
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m_representatives.push_back(exp);
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}
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m_expressions.insert(exp);
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return exp.id;
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}
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void ExpressionClasses::forceEqual(
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ExpressionClasses::Id _id,
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AssemblyItem const& _item,
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ExpressionClasses::Ids const& _arguments,
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bool _copyItem
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)
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{
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Expression exp;
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exp.id = _id;
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exp.item = &_item;
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exp.arguments = _arguments;
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if (SemanticInformation::isCommutativeOperation(_item))
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sort(exp.arguments.begin(), exp.arguments.end());
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if (_copyItem)
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exp.item = storeItem(_item);
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m_expressions.insert(exp);
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}
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ExpressionClasses::Id ExpressionClasses::newClass(SourceLocation const& _location)
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{
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Expression exp;
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exp.id = m_representatives.size();
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exp.item = storeItem(AssemblyItem(UndefinedItem, (u256(1) << 255) + exp.id, _location));
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m_representatives.push_back(exp);
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m_expressions.insert(exp);
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return exp.id;
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}
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bool ExpressionClasses::knownToBeDifferent(ExpressionClasses::Id _a, ExpressionClasses::Id _b)
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{
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// Try to simplify "_a - _b" and return true iff the value is a non-zero constant.
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return knownNonZero(find(Instruction::SUB, {_a, _b}));
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}
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bool ExpressionClasses::knownToBeDifferentBy32(ExpressionClasses::Id _a, ExpressionClasses::Id _b)
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{
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// Try to simplify "_a - _b" and return true iff the value is at least 32 away from zero.
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u256 const* v = knownConstant(find(Instruction::SUB, {_a, _b}));
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// forbidden interval is ["-31", 31]
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return v && *v + 31 > u256(62);
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}
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bool ExpressionClasses::knownZero(Id _c)
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{
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return Pattern(u256(0)).matches(representative(_c), *this);
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}
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bool ExpressionClasses::knownNonZero(Id _c)
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{
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return Pattern(u256(0)).matches(representative(find(Instruction::ISZERO, {_c})), *this);
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}
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u256 const* ExpressionClasses::knownConstant(Id _c)
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{
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map<unsigned, Expression const*> matchGroups;
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Pattern constant(Push);
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constant.setMatchGroup(1, matchGroups);
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if (!constant.matches(representative(_c), *this))
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return nullptr;
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return &constant.d();
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}
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AssemblyItem const* ExpressionClasses::storeItem(AssemblyItem const& _item)
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{
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m_spareAssemblyItems.push_back(make_shared<AssemblyItem>(_item));
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return m_spareAssemblyItems.back().get();
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}
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string ExpressionClasses::fullDAGToString(ExpressionClasses::Id _id) const
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{
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Expression const& expr = representative(_id);
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stringstream str;
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str << dec << expr.id << ":";
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if (expr.item)
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{
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str << *expr.item << "(";
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for (Id arg: expr.arguments)
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str << fullDAGToString(arg) << ",";
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str << ")";
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}
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else
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str << " UNIQUE";
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return str.str();
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}
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class Rules: public boost::noncopyable
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{
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public:
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Rules();
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void resetMatchGroups() { m_matchGroups.clear(); }
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vector<pair<Pattern, function<Pattern()>>> rules() const { return m_rules; }
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private:
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using Expression = ExpressionClasses::Expression;
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map<unsigned, Expression const*> m_matchGroups;
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vector<pair<Pattern, function<Pattern()>>> m_rules;
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};
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template <class S> S divWorkaround(S const& _a, S const& _b)
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{
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return (S)(bigint(_a) / bigint(_b));
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}
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template <class S> S modWorkaround(S const& _a, S const& _b)
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{
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return (S)(bigint(_a) % bigint(_b));
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}
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Rules::Rules()
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{
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// Multiple occurences of one of these inside one rule must match the same equivalence class.
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// Constants.
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Pattern A(Push);
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Pattern B(Push);
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Pattern C(Push);
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// Anything.
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Pattern X;
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Pattern Y;
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Pattern Z;
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A.setMatchGroup(1, m_matchGroups);
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B.setMatchGroup(2, m_matchGroups);
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C.setMatchGroup(3, m_matchGroups);
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X.setMatchGroup(4, m_matchGroups);
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Y.setMatchGroup(5, m_matchGroups);
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Z.setMatchGroup(6, m_matchGroups);
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m_rules = vector<pair<Pattern, function<Pattern()>>>{
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// arithmetics on constants
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{{Instruction::ADD, {A, B}}, [=]{ return A.d() + B.d(); }},
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{{Instruction::MUL, {A, B}}, [=]{ return A.d() * B.d(); }},
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{{Instruction::SUB, {A, B}}, [=]{ return A.d() - B.d(); }},
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{{Instruction::DIV, {A, B}}, [=]{ return B.d() == 0 ? 0 : divWorkaround(A.d(), B.d()); }},
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{{Instruction::SDIV, {A, B}}, [=]{ return B.d() == 0 ? 0 : s2u(divWorkaround(u2s(A.d()), u2s(B.d()))); }},
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{{Instruction::MOD, {A, B}}, [=]{ return B.d() == 0 ? 0 : modWorkaround(A.d(), B.d()); }},
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{{Instruction::SMOD, {A, B}}, [=]{ return B.d() == 0 ? 0 : s2u(modWorkaround(u2s(A.d()), u2s(B.d()))); }},
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{{Instruction::EXP, {A, B}}, [=]{ return u256(boost::multiprecision::powm(bigint(A.d()), bigint(B.d()), bigint(1) << 256)); }},
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{{Instruction::NOT, {A}}, [=]{ return ~A.d(); }},
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{{Instruction::LT, {A, B}}, [=]() { return A.d() < B.d() ? u256(1) : 0; }},
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{{Instruction::GT, {A, B}}, [=]() -> u256 { return A.d() > B.d() ? 1 : 0; }},
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{{Instruction::SLT, {A, B}}, [=]() -> u256 { return u2s(A.d()) < u2s(B.d()) ? 1 : 0; }},
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{{Instruction::SGT, {A, B}}, [=]() -> u256 { return u2s(A.d()) > u2s(B.d()) ? 1 : 0; }},
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{{Instruction::EQ, {A, B}}, [=]() -> u256 { return A.d() == B.d() ? 1 : 0; }},
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{{Instruction::ISZERO, {A}}, [=]() -> u256 { return A.d() == 0 ? 1 : 0; }},
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{{Instruction::AND, {A, B}}, [=]{ return A.d() & B.d(); }},
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{{Instruction::OR, {A, B}}, [=]{ return A.d() | B.d(); }},
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{{Instruction::XOR, {A, B}}, [=]{ return A.d() ^ B.d(); }},
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{{Instruction::BYTE, {A, B}}, [=]{ return A.d() >= 32 ? 0 : (B.d() >> unsigned(8 * (31 - A.d()))) & 0xff; }},
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{{Instruction::ADDMOD, {A, B, C}}, [=]{ return C.d() == 0 ? 0 : u256((bigint(A.d()) + bigint(B.d())) % C.d()); }},
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{{Instruction::MULMOD, {A, B, C}}, [=]{ return C.d() == 0 ? 0 : u256((bigint(A.d()) * bigint(B.d())) % C.d()); }},
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{{Instruction::MULMOD, {A, B, C}}, [=]{ return A.d() * B.d(); }},
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{{Instruction::SIGNEXTEND, {A, B}}, [=]() -> u256 {
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if (A.d() >= 31)
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return B.d();
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unsigned testBit = unsigned(A.d()) * 8 + 7;
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u256 mask = (u256(1) << testBit) - 1;
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return u256(boost::multiprecision::bit_test(B.d(), testBit) ? B.d() | ~mask : B.d() & mask);
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}},
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// invariants involving known constants
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{{Instruction::ADD, {X, 0}}, [=]{ return X; }},
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{{Instruction::SUB, {X, 0}}, [=]{ return X; }},
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{{Instruction::MUL, {X, 1}}, [=]{ return X; }},
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{{Instruction::DIV, {X, 1}}, [=]{ return X; }},
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{{Instruction::SDIV, {X, 1}}, [=]{ return X; }},
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{{Instruction::OR, {X, 0}}, [=]{ return X; }},
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{{Instruction::XOR, {X, 0}}, [=]{ return X; }},
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{{Instruction::AND, {X, ~u256(0)}}, [=]{ return X; }},
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{{Instruction::AND, {X, 0}}, [=]{ return u256(0); }},
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{{Instruction::MUL, {X, 0}}, [=]{ return u256(0); }},
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{{Instruction::DIV, {X, 0}}, [=]{ return u256(0); }},
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{{Instruction::MOD, {X, 0}}, [=]{ return u256(0); }},
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{{Instruction::MOD, {0, X}}, [=]{ return u256(0); }},
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{{Instruction::OR, {X, ~u256(0)}}, [=]{ return ~u256(0); }},
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{{Instruction::EQ, {X, 0}}, [=]() -> Pattern { return {Instruction::ISZERO, {X}}; } },
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// operations involving an expression and itself
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{{Instruction::AND, {X, X}}, [=]{ return X; }},
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{{Instruction::OR, {X, X}}, [=]{ return X; }},
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{{Instruction::XOR, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::SUB, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::EQ, {X, X}}, [=]{ return u256(1); }},
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{{Instruction::LT, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::SLT, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::GT, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::SGT, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::MOD, {X, X}}, [=]{ return u256(0); }},
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{{Instruction::NOT, {{Instruction::NOT, {X}}}}, [=]{ return X; }},
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};
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// Double negation of opcodes with binary result
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for (auto const& op: vector<Instruction>{
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Instruction::EQ,
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Instruction::LT,
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Instruction::SLT,
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Instruction::GT,
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Instruction::SGT
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})
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m_rules.push_back({
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{Instruction::ISZERO, {{Instruction::ISZERO, {{op, {X, Y}}}}}},
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[=]() -> Pattern { return {op, {X, Y}}; }
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});
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m_rules.push_back({
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{Instruction::ISZERO, {{Instruction::ISZERO, {{Instruction::ISZERO, {X}}}}}},
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[=]() -> Pattern { return {Instruction::ISZERO, {X}}; }
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});
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m_rules.push_back({
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{Instruction::ISZERO, {{Instruction::XOR, {X, Y}}}},
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[=]() -> Pattern { return { Instruction::EQ, {X, Y} }; }
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});
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// Associative operations
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for (auto const& opFun: vector<pair<Instruction,function<u256(u256 const&,u256 const&)>>>{
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{Instruction::ADD, plus<u256>()},
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{Instruction::MUL, multiplies<u256>()},
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{Instruction::AND, bit_and<u256>()},
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{Instruction::OR, bit_or<u256>()},
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{Instruction::XOR, bit_xor<u256>()}
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})
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{
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auto op = opFun.first;
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auto fun = opFun.second;
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// Moving constants to the outside, order matters here!
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// we need actions that return expressions (or patterns?) here, and we need also reversed rules
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// (X+A)+B -> X+(A+B)
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m_rules += vector<pair<Pattern, function<Pattern()>>>{{
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{op, {{op, {X, A}}, B}},
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[=]() -> Pattern { return {op, {X, fun(A.d(), B.d())}}; }
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}, {
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// X+(Y+A) -> (X+Y)+A
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{op, {{op, {X, A}}, Y}},
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[=]() -> Pattern { return {op, {{op, {X, Y}}, A}}; }
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}, {
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// For now, we still need explicit commutativity for the inner pattern
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{op, {{op, {A, X}}, B}},
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[=]() -> Pattern { return {op, {X, fun(A.d(), B.d())}}; }
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}, {
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{op, {{op, {A, X}}, Y}},
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[=]() -> Pattern { return {op, {{op, {X, Y}}, A}}; }
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}};
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}
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// move constants across subtractions
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m_rules += vector<pair<Pattern, function<Pattern()>>>{
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{
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// X - A -> X + (-A)
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{Instruction::SUB, {X, A}},
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[=]() -> Pattern { return {Instruction::ADD, {X, 0 - A.d()}}; }
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}, {
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// (X + A) - Y -> (X - Y) + A
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{Instruction::SUB, {{Instruction::ADD, {X, A}}, Y}},
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[=]() -> Pattern { return {Instruction::ADD, {{Instruction::SUB, {X, Y}}, A}}; }
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}, {
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// (A + X) - Y -> (X - Y) + A
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{Instruction::SUB, {{Instruction::ADD, {A, X}}, Y}},
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[=]() -> Pattern { return {Instruction::ADD, {{Instruction::SUB, {X, Y}}, A}}; }
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}, {
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// X - (Y + A) -> (X - Y) + (-A)
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{Instruction::SUB, {X, {Instruction::ADD, {Y, A}}}},
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[=]() -> Pattern { return {Instruction::ADD, {{Instruction::SUB, {X, Y}}, 0 - A.d()}}; }
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}, {
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// X - (A + Y) -> (X - Y) + (-A)
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{Instruction::SUB, {X, {Instruction::ADD, {A, Y}}}},
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[=]() -> Pattern { return {Instruction::ADD, {{Instruction::SUB, {X, Y}}, 0 - A.d()}}; }
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}
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};
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}
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ExpressionClasses::Id ExpressionClasses::tryToSimplify(Expression const& _expr, bool _secondRun)
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{
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static Rules rules;
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if (
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!_expr.item ||
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_expr.item->type() != Operation ||
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!SemanticInformation::isDeterministic(*_expr.item)
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)
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return -1;
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for (auto const& rule: rules.rules())
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{
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rules.resetMatchGroups();
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if (rule.first.matches(_expr, *this))
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{
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// Debug info
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//cout << "Simplifying " << *_expr.item << "(";
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//for (Id arg: _expr.arguments)
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// cout << fullDAGToString(arg) << ", ";
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//cout << ")" << endl;
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//cout << "with rule " << rule.first.toString() << endl;
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//ExpressionTemplate t(rule.second());
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//cout << "to " << rule.second().toString() << endl;
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return rebuildExpression(ExpressionTemplate(rule.second(), _expr.item->location()));
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}
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}
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if (!_secondRun && _expr.arguments.size() == 2 && SemanticInformation::isCommutativeOperation(*_expr.item))
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{
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Expression expr = _expr;
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swap(expr.arguments[0], expr.arguments[1]);
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return tryToSimplify(expr, true);
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}
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return -1;
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}
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ExpressionClasses::Id ExpressionClasses::rebuildExpression(ExpressionTemplate const& _template)
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{
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if (_template.hasId)
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return _template.id;
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Ids arguments;
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for (ExpressionTemplate const& t: _template.arguments)
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arguments.push_back(rebuildExpression(t));
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return find(_template.item, arguments);
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}
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Pattern::Pattern(Instruction _instruction, std::vector<Pattern> const& _arguments):
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m_type(Operation),
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m_requireDataMatch(true),
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m_data(_instruction),
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m_arguments(_arguments)
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{
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}
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void Pattern::setMatchGroup(unsigned _group, map<unsigned, Expression const*>& _matchGroups)
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{
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m_matchGroup = _group;
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m_matchGroups = &_matchGroups;
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}
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bool Pattern::matches(Expression const& _expr, ExpressionClasses const& _classes) const
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{
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if (!matchesBaseItem(_expr.item))
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return false;
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if (m_matchGroup)
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{
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if (!m_matchGroups->count(m_matchGroup))
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(*m_matchGroups)[m_matchGroup] = &_expr;
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else if ((*m_matchGroups)[m_matchGroup]->id != _expr.id)
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return false;
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}
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assertThrow(m_arguments.size() == 0 || _expr.arguments.size() == m_arguments.size(), OptimizerException, "");
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for (size_t i = 0; i < m_arguments.size(); ++i)
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if (!m_arguments[i].matches(_classes.representative(_expr.arguments[i]), _classes))
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return false;
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return true;
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}
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AssemblyItem Pattern::toAssemblyItem(SourceLocation const& _location) const
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{
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return AssemblyItem(m_type, m_data, _location);
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}
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string Pattern::toString() const
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{
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stringstream s;
|
|
switch (m_type)
|
|
{
|
|
case Operation:
|
|
s << instructionInfo(Instruction(unsigned(m_data))).name;
|
|
break;
|
|
case Push:
|
|
s << "PUSH " << hex << m_data;
|
|
break;
|
|
case UndefinedItem:
|
|
s << "ANY";
|
|
break;
|
|
default:
|
|
s << "t=" << dec << m_type << " d=" << hex << m_data;
|
|
break;
|
|
}
|
|
if (!m_requireDataMatch)
|
|
s << " ~";
|
|
if (m_matchGroup)
|
|
s << "[" << dec << m_matchGroup << "]";
|
|
s << "(";
|
|
for (Pattern const& p: m_arguments)
|
|
s << p.toString() << ", ";
|
|
s << ")";
|
|
return s.str();
|
|
}
|
|
|
|
bool Pattern::matchesBaseItem(AssemblyItem const* _item) const
|
|
{
|
|
if (m_type == UndefinedItem)
|
|
return true;
|
|
if (!_item)
|
|
return false;
|
|
if (m_type != _item->type())
|
|
return false;
|
|
if (m_requireDataMatch && m_data != _item->data())
|
|
return false;
|
|
return true;
|
|
}
|
|
|
|
Pattern::Expression const& Pattern::matchGroupValue() const
|
|
{
|
|
assertThrow(m_matchGroup > 0, OptimizerException, "");
|
|
assertThrow(!!m_matchGroups, OptimizerException, "");
|
|
assertThrow((*m_matchGroups)[m_matchGroup], OptimizerException, "");
|
|
return *(*m_matchGroups)[m_matchGroup];
|
|
}
|
|
|
|
|
|
ExpressionTemplate::ExpressionTemplate(Pattern const& _pattern, SourceLocation const& _location)
|
|
{
|
|
if (_pattern.matchGroup())
|
|
{
|
|
hasId = true;
|
|
id = _pattern.id();
|
|
}
|
|
else
|
|
{
|
|
hasId = false;
|
|
item = _pattern.toAssemblyItem(_location);
|
|
}
|
|
for (auto const& arg: _pattern.arguments())
|
|
arguments.push_back(ExpressionTemplate(arg, _location));
|
|
}
|
|
|
|
string ExpressionTemplate::toString() const
|
|
{
|
|
stringstream s;
|
|
if (hasId)
|
|
s << id;
|
|
else
|
|
s << item;
|
|
s << "(";
|
|
for (auto const& arg: arguments)
|
|
s << arg.toString();
|
|
s << ")";
|
|
return s.str();
|
|
}
|