/* This file is part of solidity. solidity 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. solidity 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 solidity. If not, see . */ // SPDX-License-Identifier: GPL-3.0 #pragma once #include #include #include #include #include #include namespace solidity::frontend { enum class PredicateType { Interface, NondetInterface, ConstructorSummary, FunctionSummary, FunctionBlock, InternalCall, ExternalCallTrusted, ExternalCallUntrusted, Error, Custom }; /** * Represents a predicate used by the CHC engine. */ class Predicate { public: static Predicate const* create( smtutil::SortPointer _sort, std::string _name, PredicateType _type, smt::EncodingContext& _context, ASTNode const* _node = nullptr ); Predicate( smt::SymbolicFunctionVariable&& _predicate, PredicateType _type, ASTNode const* _node = nullptr ); /// Predicate should not be copiable. Predicate(Predicate const&) = delete; Predicate& operator=(Predicate const&) = delete; /// @returns the Predicate associated with _name. static Predicate const* predicate(std::string const& _name); /// Resets all the allocated predicates. static void reset(); /// @returns a function application of the predicate over _args. smtutil::Expression operator()(std::vector const& _args) const; /// @returns the function declaration of the predicate. smtutil::Expression functor() const; /// @returns the function declaration of the predicate with index _idx. smtutil::Expression functor(unsigned _idx) const; /// Increases the index of the function declaration of the predicate. void newFunctor(); /// @returns the program node this predicate represents. ASTNode const* programNode() const; /// @returns the ContractDefinition that this predicate represents /// or nullptr otherwise. ContractDefinition const* programContract() const; /// @returns the FunctionDefinition that this predicate represents /// or nullptr otherwise. FunctionDefinition const* programFunction() const; /// @returns the FunctionCall that this predicate represents /// or nullptr otherwise. FunctionCall const* programFunctionCall() const; /// @returns the program state variables in the scope of this predicate. std::optional> stateVariables() const; /// @returns true if this predicate represents a summary. bool isSummary() const; /// @returns true if this predicate represents a function summary. bool isFunctionSummary() const; /// @returns true if this predicate represents an internal function call. bool isInternalCall() const; /// @returns true if this predicate represents a trusted external function call. bool isExternalCallTrusted() const; /// @returns true if this predicate represents an untrusted external function call. bool isExternalCallUntrusted() const; /// @returns true if this predicate represents a constructor summary. bool isConstructorSummary() const; /// @returns true if this predicate represents an interface. bool isInterface() const; PredicateType type() const { return m_type; } /// @returns a formatted string representing a call to this predicate /// with _args. std::string formatSummaryCall(std::vector const& _args) const; /// @returns the values of the state variables from _args at the point /// where this summary was reached. std::vector> summaryStateValues(std::vector const& _args) const; /// @returns the values of the function input variables from _args at the point /// where this summary was reached. std::vector> summaryPostInputValues(std::vector const& _args) const; /// @returns the values of the function output variables from _args at the point /// where this summary was reached. std::vector> summaryPostOutputValues(std::vector const& _args) const; private: /// @returns the formatted version of the given SMT expressions. Those expressions must be SMT constants. std::vector> formatExpressions(std::vector const& _exprs, std::vector const& _types) const; /// @returns a string representation of the SMT expression based on a Solidity type. std::optional expressionToString(smtutil::Expression const& _expr, TypePointer _type) const; /// Recursively fills _array from _expr. /// _expr should have the form `store(store(...(const_array(x_0), i_0, e_0), i_m, e_m), i_k, e_k)`. /// @returns true if the construction worked, /// and false if at least one element could not be built. bool fillArray(smtutil::Expression const& _expr, std::vector& _array, ArrayType const& _type) const; std::map> readTxVars(smtutil::Expression const& _tx) const; /// The actual SMT expression. smt::SymbolicFunctionVariable m_predicate; /// The type of this predicate. PredicateType m_type; /// The ASTNode that this predicate represents. /// nullptr if this predicate is not associated with a specific program AST node. ASTNode const* m_node = nullptr; /// Maps the name of the predicate to the actual Predicate. /// Used in counterexample generation. static std::map m_predicates; }; }