/* 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 . */ #pragma once #include #include #include #include #include namespace dev { namespace solidity { namespace smt { class EncodingContext; class Type; /** * This abstract class represents the symbolic version of a program variable. */ class SymbolicVariable { public: SymbolicVariable( solidity::TypePointer _type, solidity::TypePointer _originalType, std::string _uniqueName, EncodingContext& _context ); SymbolicVariable( SortPointer _sort, std::string _uniqueName, EncodingContext& _context ); virtual ~SymbolicVariable() = default; virtual Expression currentValue(solidity::TypePointer const& _targetType = TypePointer{}) const; std::string currentName() const; virtual Expression valueAtIndex(int _index) const; virtual std::string nameAtIndex(int _index) const; virtual Expression resetIndex(); virtual Expression increaseIndex(); virtual Expression operator()(std::vector /*_arguments*/) const { solAssert(false, "Function application to non-function."); } unsigned index() const { return m_ssa->index(); } unsigned& index() { return m_ssa->index(); } SortPointer const& sort() const { return m_sort; } solidity::TypePointer const& type() const { return m_type; } solidity::TypePointer const& originalType() const { return m_originalType; } protected: std::string uniqueSymbol(unsigned _index) const; /// SMT sort. SortPointer m_sort; /// Solidity type, used for size and range in number types. solidity::TypePointer m_type; /// Solidity original type, used for type conversion if necessary. solidity::TypePointer m_originalType; std::string m_uniqueName; EncodingContext& m_context; std::unique_ptr m_ssa; }; /** * Specialization of SymbolicVariable for Bool */ class SymbolicBoolVariable: public SymbolicVariable { public: SymbolicBoolVariable( solidity::TypePointer _type, std::string _uniqueName, EncodingContext& _context ); }; /** * Specialization of SymbolicVariable for Integers */ class SymbolicIntVariable: public SymbolicVariable { public: SymbolicIntVariable( solidity::TypePointer _type, solidity::TypePointer _originalType, std::string _uniqueName, EncodingContext& _context ); }; /** * Specialization of SymbolicVariable for Address */ class SymbolicAddressVariable: public SymbolicIntVariable { public: SymbolicAddressVariable( std::string _uniqueName, EncodingContext& _context ); }; /** * Specialization of SymbolicVariable for FixedBytes */ class SymbolicFixedBytesVariable: public SymbolicIntVariable { public: SymbolicFixedBytesVariable( solidity::TypePointer _originalType, unsigned _numBytes, std::string _uniqueName, EncodingContext& _context ); }; /** * Specialization of SymbolicVariable for FunctionType. * Besides containing a symbolic function declaration, * it also has an integer used as abstraction. * By default, the abstract representation is used when * values are requested, and the function declaration is * used when operator() is applied over arguments. */ class SymbolicFunctionVariable: public SymbolicVariable { public: SymbolicFunctionVariable( solidity::TypePointer _type, std::string _uniqueName, EncodingContext& _context ); SymbolicFunctionVariable( SortPointer _sort, std::string _uniqueName, EncodingContext& _context ); Expression currentValue(solidity::TypePointer const& _targetType = TypePointer{}) const override; // Explicit request the function declaration. Expression currentFunctionValue() const; Expression valueAtIndex(int _index) const override; // Explicit request the function declaration. Expression functionValueAtIndex(int _index) const; Expression resetIndex() override; Expression increaseIndex() override; Expression operator()(std::vector _arguments) const override; private: /// Creates a new function declaration. void resetDeclaration(); /// Stores the current function declaration. Expression m_declaration; /// Abstract representation. SymbolicIntVariable m_abstract{ TypeProvider::uint256(), TypeProvider::uint256(), m_uniqueName + "_abstract", m_context }; }; /** * Specialization of SymbolicVariable for Mapping */ class SymbolicMappingVariable: public SymbolicVariable { public: SymbolicMappingVariable( solidity::TypePointer _type, std::string _uniqueName, EncodingContext& _context ); }; /** * Specialization of SymbolicVariable for Array */ class SymbolicArrayVariable: public SymbolicVariable { public: SymbolicArrayVariable( solidity::TypePointer _type, solidity::TypePointer _originalTtype, std::string _uniqueName, EncodingContext& _context ); Expression currentValue(solidity::TypePointer const& _targetType = TypePointer{}) const override; }; /** * Specialization of SymbolicVariable for Enum */ class SymbolicEnumVariable: public SymbolicVariable { public: SymbolicEnumVariable( solidity::TypePointer _type, std::string _uniqueName, EncodingContext& _context ); }; /** * Specialization of SymbolicVariable for Tuple */ class SymbolicTupleVariable: public SymbolicVariable { public: SymbolicTupleVariable( solidity::TypePointer _type, std::string _uniqueName, EncodingContext& _context ); std::vector> const& components() { return m_components; } void setComponents(std::vector> _components); private: std::vector> m_components; }; } } }