/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** * @file ExpressionClasses.h * @author Christian * @date 2015 * Container for equivalence classes of expressions for use in common subexpression elimination. */ #pragma once #include #include #include #include #include namespace dev { namespace eth { class Pattern; struct ExpressionTemplate; /** * Collection of classes of equivalent expressions that can also determine the class of an expression. * Identifiers are contiguously assigned to new classes starting from zero. */ class ExpressionClasses { public: using Id = unsigned; using Ids = std::vector; struct Expression { Id id; AssemblyItem const* item; Ids arguments; unsigned sequenceNumber; ///< Storage modification sequence, only used for SLOAD/SSTORE instructions. /// Behaves as if this was a tuple of (item->type(), item->data(), arguments, sequenceNumber). bool operator<(Expression const& _other) const; }; /// Retrieves the id of the expression equivalence class resulting from the given item applied to the /// given classes, might also create a new one. /// @param _copyItem if true, copies the assembly item to an internal storage instead of just /// keeping a pointer. /// The @a _sequenceNumber indicates the current storage or memory access sequence. Id find( AssemblyItem const& _item, Ids const& _arguments = {}, bool _copyItem = true, unsigned _sequenceNumber = 0 ); /// @returns the canonical representative of an expression class. Expression const& representative(Id _id) const { return m_representatives.at(_id); } /// @returns the number of classes. Id size() const { return m_representatives.size(); } /// @returns true if the values of the given classes are known to be different (on every input). /// @note that this function might still return false for some different inputs. bool knownToBeDifferent(Id _a, Id _b); /// Similar to @a knownToBeDifferent but require that abs(_a - b) >= 32. bool knownToBeDifferentBy32(Id _a, Id _b); /// @returns true if the value of the given class is known to be zero. /// @note that this is not the negation of knownNonZero bool knownZero(Id _c); /// @returns true if the value of the given class is known to be nonzero. /// @note that this is not the negation of knownZero bool knownNonZero(Id _c); /// @returns a pointer to the value if the given class is known to be a constant, /// and a nullptr otherwise. u256 const* knownConstant(Id _c); std::string fullDAGToString(Id _id) const; private: /// Tries to simplify the given expression. /// @returns its class if it possible or Id(-1) otherwise. /// @param _secondRun is set to true for the second run where arguments of commutative expressions are reversed Id tryToSimplify(Expression const& _expr, bool _secondRun = false); /// Rebuilds an expression from a (matched) pattern. Id rebuildExpression(ExpressionTemplate const& _template); std::vector>> createRules() const; /// Expression equivalence class representatives - we only store one item of an equivalence. std::vector m_representatives; /// All expression ever encountered. std::set m_expressions; std::vector> m_spareAssemblyItem; }; /** * Pattern to match against an expression. * Also stores matched expressions to retrieve them later, for constructing new expressions using * ExpressionTemplate. */ class Pattern { public: using Expression = ExpressionClasses::Expression; using Id = ExpressionClasses::Id; // Matches a specific constant value. Pattern(unsigned _value): Pattern(u256(_value)) {} // Matches a specific constant value. Pattern(u256 const& _value): m_type(Push), m_requireDataMatch(true), m_data(_value) {} // Matches a specific assembly item type or anything if not given. Pattern(AssemblyItemType _type = UndefinedItem): m_type(_type) {} // Matches a given instruction with given arguments Pattern(Instruction _instruction, std::vector const& _arguments = {}); /// Sets this pattern to be part of the match group with the identifier @a _group. /// Inside one rule, all patterns in the same match group have to match expressions from the /// same expression equivalence class. void setMatchGroup(unsigned _group, std::map& _matchGroups); unsigned matchGroup() const { return m_matchGroup; } bool matches(Expression const& _expr, ExpressionClasses const& _classes) const; AssemblyItem toAssemblyItem() const { return AssemblyItem(m_type, m_data); } std::vector arguments() const { return m_arguments; } /// @returns the id of the matched expression if this pattern is part of a match group. Id id() const { return matchGroupValue().id; } /// @returns the data of the matched expression if this pattern is part of a match group. u256 const& d() const { return matchGroupValue().item->data(); } std::string toString() const; private: bool matchesBaseItem(AssemblyItem const& _item) const; Expression const& matchGroupValue() const; AssemblyItemType m_type; bool m_requireDataMatch = false; u256 m_data = 0; std::vector m_arguments; unsigned m_matchGroup = 0; std::map* m_matchGroups = nullptr; }; /** * Template for a new expression that can be built from matched patterns. */ struct ExpressionTemplate { using Expression = ExpressionClasses::Expression; using Id = ExpressionClasses::Id; explicit ExpressionTemplate(Pattern const& _pattern); std::string toString() const; bool hasId = false; /// Id of the matched expression, if available. Id id = Id(-1); // Otherwise, assembly item. AssemblyItem item = UndefinedItem; std::vector arguments; }; } }