mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
432 lines
20 KiB
C++
432 lines
20 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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// SPDX-License-Identifier: GPL-3.0
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/**
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* Encodes Solidity into SMT expressions without creating
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* any verification targets.
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* Also implements the SSA scheme for branches.
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*/
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#pragma once
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#include <libsolidity/formal/EncodingContext.h>
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#include <libsolidity/formal/ModelCheckerSettings.h>
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#include <libsolidity/formal/SymbolicVariables.h>
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#include <libsolidity/formal/VariableUsage.h>
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#include <libsolidity/ast/AST.h>
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#include <libsolidity/ast/ASTVisitor.h>
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#include <libsolidity/interface/ReadFile.h>
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#include <liblangutil/ErrorReporter.h>
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#include <string>
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#include <unordered_map>
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#include <vector>
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#include <utility>
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namespace solidity::langutil
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{
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class ErrorReporter;
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struct SourceLocation;
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}
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namespace solidity::frontend
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{
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class SMTEncoder: public ASTConstVisitor
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{
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public:
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SMTEncoder(smt::EncodingContext& _context);
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/// @returns true if engine should proceed with analysis.
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bool analyze(SourceUnit const& _sources);
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/// @returns the leftmost identifier in a multi-d IndexAccess.
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static Expression const* leftmostBase(IndexAccess const& _indexAccess);
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/// @returns the key type in _type.
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/// _type must allow IndexAccess, that is,
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/// it must be either ArrayType or MappingType
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static TypePointer keyType(TypePointer _type);
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/// @returns the innermost element in a chain of 1-tuples if applicable,
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/// otherwise _expr.
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static Expression const* innermostTuple(Expression const& _expr);
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/// @returns the FunctionDefinition of a FunctionCall
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/// if possible or nullptr.
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/// @param _scopeContract is the contract that contains the function currently being
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/// analyzed, if applicable.
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/// @param _contextContract is the most derived contract currently being analyzed.
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/// The difference between the two parameters appears in the case of inheritance.
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/// Let A and B be two contracts so that B derives from A, and A defines a function `f`
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/// that `B` does not override. Function `f` is visited twice:
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/// - Once when A is the most derived contract, where both _scopeContract and _contextContract are A.
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/// - Once when B is the most derived contract, where _scopeContract is A and _contextContract is B.
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static FunctionDefinition const* functionCallToDefinition(
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FunctionCall const& _funCall,
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ContractDefinition const* _scopeContract,
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ContractDefinition const* _contextContract
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);
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static std::vector<VariableDeclaration const*> stateVariablesIncludingInheritedAndPrivate(ContractDefinition const& _contract);
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static std::vector<VariableDeclaration const*> stateVariablesIncludingInheritedAndPrivate(FunctionDefinition const& _function);
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static std::vector<VariableDeclaration const*> localVariablesIncludingModifiers(FunctionDefinition const& _function, ContractDefinition const* _contract);
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static std::vector<VariableDeclaration const*> modifiersVariables(FunctionDefinition const& _function, ContractDefinition const* _contract);
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static std::vector<VariableDeclaration const*> tryCatchVariables(FunctionDefinition const& _function);
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/// @returns the ModifierDefinition of a ModifierInvocation if possible, or nullptr.
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static ModifierDefinition const* resolveModifierInvocation(ModifierInvocation const& _invocation, ContractDefinition const* _contract);
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/// @returns the SourceUnit that contains _scopable.
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static SourceUnit const* sourceUnitContaining(Scopable const& _scopable);
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/// @returns the arguments for each base constructor call in the hierarchy of @a _contract.
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std::map<ContractDefinition const*, std::vector<ASTPointer<frontend::Expression>>> baseArguments(ContractDefinition const& _contract);
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/// @returns a valid RationalNumberType pointer if _expr has type
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/// RationalNumberType or can be const evaluated, and nullptr otherwise.
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static RationalNumberType const* isConstant(Expression const& _expr);
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static std::set<FunctionCall const*> collectABICalls(ASTNode const* _node);
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protected:
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// TODO: Check that we do not have concurrent reads and writes to a variable,
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// because the order of expression evaluation is undefined
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// TODO: or just force a certain order, but people might have a different idea about that.
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bool visit(ContractDefinition const& _node) override;
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void endVisit(ContractDefinition const& _node) override;
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void endVisit(VariableDeclaration const& _node) override;
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bool visit(ModifierDefinition const& _node) override;
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bool visit(FunctionDefinition const& _node) override;
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void endVisit(FunctionDefinition const& _node) override;
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bool visit(Block const& _node) override;
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void endVisit(Block const& _node) override;
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bool visit(PlaceholderStatement const& _node) override;
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bool visit(IfStatement const&) override { return false; }
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bool visit(WhileStatement const&) override { return false; }
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bool visit(ForStatement const&) override { return false; }
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void endVisit(VariableDeclarationStatement const& _node) override;
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bool visit(Assignment const& _node) override;
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void endVisit(Assignment const& _node) override;
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void endVisit(TupleExpression const& _node) override;
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bool visit(UnaryOperation const& _node) override;
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void endVisit(UnaryOperation const& _node) override;
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bool visit(BinaryOperation const& _node) override;
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void endVisit(BinaryOperation const& _node) override;
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bool visit(Conditional const& _node) override;
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void endVisit(FunctionCall const& _node) override;
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bool visit(ModifierInvocation const& _node) override;
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void endVisit(Identifier const& _node) override;
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void endVisit(ElementaryTypeNameExpression const& _node) override;
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void endVisit(Literal const& _node) override;
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void endVisit(Return const& _node) override;
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bool visit(MemberAccess const& _node) override;
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void endVisit(IndexAccess const& _node) override;
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void endVisit(IndexRangeAccess const& _node) override;
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bool visit(InlineAssembly const& _node) override;
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void endVisit(Break const&) override {}
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void endVisit(Continue const&) override {}
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bool visit(TryStatement const&) override { return false; }
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virtual void pushInlineFrame(CallableDeclaration const&);
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virtual void popInlineFrame(CallableDeclaration const&);
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/// Do not visit subtree if node is a RationalNumber.
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/// Symbolic _expr is the rational literal.
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bool shortcutRationalNumber(Expression const& _expr);
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void arithmeticOperation(BinaryOperation const& _op);
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/// @returns _op(_left, _right) with and without modular arithmetic.
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/// Used by the function above, compound assignments and
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/// unary increment/decrement.
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virtual std::pair<smtutil::Expression, smtutil::Expression> arithmeticOperation(
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Token _op,
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smtutil::Expression const& _left,
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smtutil::Expression const& _right,
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TypePointer const& _commonType,
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Expression const& _expression
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);
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smtutil::Expression bitwiseOperation(
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Token _op,
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smtutil::Expression const& _left,
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smtutil::Expression const& _right,
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TypePointer const& _commonType
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);
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void compareOperation(BinaryOperation const& _op);
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void booleanOperation(BinaryOperation const& _op);
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void bitwiseOperation(BinaryOperation const& _op);
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void bitwiseNotOperation(UnaryOperation const& _op);
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void initContract(ContractDefinition const& _contract);
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void initFunction(FunctionDefinition const& _function);
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void visitAssert(FunctionCall const& _funCall);
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void visitRequire(FunctionCall const& _funCall);
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void visitABIFunction(FunctionCall const& _funCall);
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void visitCryptoFunction(FunctionCall const& _funCall);
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void visitGasLeft(FunctionCall const& _funCall);
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virtual void visitAddMulMod(FunctionCall const& _funCall);
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void visitObjectCreation(FunctionCall const& _funCall);
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void visitTypeConversion(FunctionCall const& _funCall);
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void visitStructConstructorCall(FunctionCall const& _funCall);
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void visitFunctionIdentifier(Identifier const& _identifier);
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void visitPublicGetter(FunctionCall const& _funCall);
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bool isPublicGetter(Expression const& _expr);
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/// Encodes a modifier or function body according to the modifier
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/// visit depth.
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void visitFunctionOrModifier();
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/// Inlines a modifier or base constructor call.
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void inlineModifierInvocation(ModifierInvocation const* _invocation, CallableDeclaration const* _definition);
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/// Inlines the constructor hierarchy into a single constructor.
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void inlineConstructorHierarchy(ContractDefinition const& _contract);
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/// Defines a new global variable or function.
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void defineGlobalVariable(std::string const& _name, Expression const& _expr, bool _increaseIndex = false);
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/// Handles the side effects of assignment
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/// to variable of some SMT array type
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/// while aliasing is not supported.
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void arrayAssignment();
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/// Handles assignments to index or member access.
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void indexOrMemberAssignment(Expression const& _expr, smtutil::Expression const& _rightHandSide);
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void arrayPush(FunctionCall const& _funCall);
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void arrayPop(FunctionCall const& _funCall);
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void arrayPushPopAssign(Expression const& _expr, smtutil::Expression const& _array);
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/// Allows BMC and CHC to create verification targets for popping
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/// an empty array.
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virtual void makeArrayPopVerificationTarget(FunctionCall const&) {}
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void addArrayLiteralAssertions(
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smt::SymbolicArrayVariable& _symArray,
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std::vector<smtutil::Expression> const& _elementValues
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);
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/// @returns a pair of expressions representing _left / _right and _left mod _right, respectively.
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/// Uses slack variables and additional constraints to express the results using only operations
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/// more friendly to the SMT solver (multiplication, addition, subtraction and comparison).
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std::pair<smtutil::Expression, smtutil::Expression> divModWithSlacks(
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smtutil::Expression _left,
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smtutil::Expression _right,
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IntegerType const& _type
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);
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/// Handles the actual assertion of the new value to the encoding context.
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/// Other assignment methods should use this one in the end.
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virtual void assignment(smt::SymbolicVariable& _symVar, smtutil::Expression const& _value);
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void assignment(VariableDeclaration const& _variable, Expression const& _value);
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/// Handles assignments to variables of different types.
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void assignment(VariableDeclaration const& _variable, smtutil::Expression const& _value);
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/// Handles assignments between generic expressions.
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/// Will also be used for assignments of tuple components.
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void assignment(
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Expression const& _left,
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smtutil::Expression const& _right,
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TypePointer const& _type
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);
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/// Handle assignments between tuples.
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void tupleAssignment(Expression const& _left, Expression const& _right);
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/// Computes the right hand side of a compound assignment.
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smtutil::Expression compoundAssignment(Assignment const& _assignment);
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/// Handles assignment of an expression to a tuple of variables.
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void expressionToTupleAssignment(std::vector<std::shared_ptr<VariableDeclaration>> const& _variables, Expression const& _rhs);
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/// Maps a variable to an SSA index.
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using VariableIndices = std::unordered_map<VariableDeclaration const*, int>;
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/// Visits the branch given by the statement, pushes and pops the current path conditions.
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/// @param _condition if present, asserts that this condition is true within the branch.
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/// @returns the variable indices after visiting the branch and the expression representing
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/// the path condition at the end of the branch.
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std::pair<VariableIndices, smtutil::Expression> visitBranch(ASTNode const* _statement, smtutil::Expression const* _condition = nullptr);
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std::pair<VariableIndices, smtutil::Expression> visitBranch(ASTNode const* _statement, smtutil::Expression _condition);
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using CallStackEntry = std::pair<CallableDeclaration const*, ASTNode const*>;
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void createStateVariables(ContractDefinition const& _contract);
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void initializeStateVariables(ContractDefinition const& _contract);
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void createLocalVariables(FunctionDefinition const& _function);
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void initializeLocalVariables(FunctionDefinition const& _function);
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void initializeFunctionCallParameters(CallableDeclaration const& _function, std::vector<smtutil::Expression> const& _callArgs);
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void resetStateVariables();
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void resetStorageVariables();
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void resetMemoryVariables();
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/// Resets all references/pointers that have the same type or have
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/// a subexpression of the same type as _varDecl.
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void resetReferences(VariableDeclaration const& _varDecl);
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/// Resets all references/pointers that have type _type.
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void resetReferences(TypePointer _type);
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/// @returns the type without storage pointer information if it has it.
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TypePointer typeWithoutPointer(TypePointer const& _type);
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/// @returns whether _a or a subtype of _a is the same as _b.
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bool sameTypeOrSubtype(TypePointer _a, TypePointer _b);
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/// Given two different branches and the touched variables,
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/// merge the touched variables into after-branch ite variables
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/// using the branch condition as guard.
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void mergeVariables(std::set<VariableDeclaration const*> const& _variables, smtutil::Expression const& _condition, VariableIndices const& _indicesEndTrue, VariableIndices const& _indicesEndFalse);
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/// Tries to create an uninitialized variable and returns true on success.
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bool createVariable(VariableDeclaration const& _varDecl);
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/// @returns an expression denoting the value of the variable declared in @a _decl
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/// at the current point.
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smtutil::Expression currentValue(VariableDeclaration const& _decl);
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/// @returns an expression denoting the value of the variable declared in @a _decl
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/// at the given index. Does not ensure that this index exists.
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smtutil::Expression valueAtIndex(VariableDeclaration const& _decl, unsigned _index);
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/// Returns the expression corresponding to the AST node.
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/// If _targetType is not null apply conversion.
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/// Throws if the expression does not exist.
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smtutil::Expression expr(Expression const& _e, TypePointer _targetType = nullptr);
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/// Creates the expression (value can be arbitrary)
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void createExpr(Expression const& _e);
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/// Creates the expression and sets its value.
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void defineExpr(Expression const& _e, smtutil::Expression _value);
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/// Overwrites the current path condition
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void setPathCondition(smtutil::Expression const& _e);
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/// Adds a new path condition
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void pushPathCondition(smtutil::Expression const& _e);
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/// Remove the last path condition
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void popPathCondition();
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/// Returns the conjunction of all path conditions or True if empty
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smtutil::Expression currentPathConditions();
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/// @returns a human-readable call stack. Used for models.
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langutil::SecondarySourceLocation callStackMessage(std::vector<CallStackEntry> const& _callStack);
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/// Copies and pops the last called node.
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CallStackEntry popCallStack();
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/// Adds (_definition, _node) to the callstack.
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void pushCallStack(CallStackEntry _entry);
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/// Add to the solver: the given expression implied by the current path conditions
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void addPathImpliedExpression(smtutil::Expression const& _e);
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/// Copy the SSA indices of m_variables.
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VariableIndices copyVariableIndices();
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/// Resets the variable indices.
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void resetVariableIndices(VariableIndices const& _indices);
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/// Used when starting a new block.
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virtual void clearIndices(ContractDefinition const* _contract, FunctionDefinition const* _function = nullptr);
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/// @returns variables that are touched in _node's subtree.
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std::set<VariableDeclaration const*> touchedVariables(ASTNode const& _node);
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/// @returns the declaration referenced by _expr, if any,
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/// and nullptr otherwise.
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Declaration const* expressionToDeclaration(Expression const& _expr) const;
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/// @returns the VariableDeclaration referenced by an Expression or nullptr.
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VariableDeclaration const* identifierToVariable(Expression const& _expr) const;
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/// @returns the MemberAccess <expression>.push if _expr is an empty array push call,
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/// otherwise nullptr.
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MemberAccess const* isEmptyPush(Expression const& _expr) const;
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/// @returns true if the given identifier is a contract which is known and trusted.
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/// This means we don't have to abstract away effects of external function calls to this contract.
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static bool isTrustedExternalCall(Expression const* _expr);
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/// Creates symbolic expressions for the returned values
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/// and set them as the components of the symbolic tuple.
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void createReturnedExpressions(FunctionCall const& _funCall, ContractDefinition const* _contextContract);
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/// @returns the symbolic arguments for a function call,
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/// taking into account bound functions and
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/// type conversion.
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std::vector<smtutil::Expression> symbolicArguments(FunctionCall const& _funCall, ContractDefinition const* _contextContract);
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/// @returns a note to be added to warnings.
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std::string extraComment();
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struct VerificationTarget
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{
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VerificationTargetType type;
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smtutil::Expression value;
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smtutil::Expression constraints;
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};
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smt::VariableUsage m_variableUsage;
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bool m_arrayAssignmentHappened = false;
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// True if the "No SMT solver available" warning was already created.
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bool m_noSolverWarning = false;
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/// Stores the instances of an Uninterpreted Function applied to arguments.
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/// These may be direct application of UFs or Array index access.
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/// Used to retrieve models.
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std::set<Expression const*> m_uninterpretedTerms;
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std::vector<smtutil::Expression> m_pathConditions;
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/// Whether the currently visited block uses checked
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/// or unchecked arithmetic.
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bool m_checked = true;
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/// Local SMTEncoder ErrorReporter.
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/// This is necessary to show the "No SMT solver available"
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/// warning before the others in case it's needed.
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langutil::ErrorReporter m_errorReporter;
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langutil::ErrorList m_smtErrors;
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/// Stores the current function/modifier call/invocation path.
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std::vector<CallStackEntry> m_callStack;
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/// Returns true if the current function was not visited by
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/// a function call.
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bool isRootFunction();
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/// Returns true if _funDef was already visited.
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bool visitedFunction(FunctionDefinition const* _funDef);
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/// @returns the contract that contains the current FunctionDefinition that is being visited,
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/// or nullptr if the analysis is not inside a FunctionDefinition.
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ContractDefinition const* currentScopeContract();
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/// @returns FunctionDefinitions of the given contract (including its constructor and inherited methods),
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/// taking into account overriding of the virtual functions.
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std::set<FunctionDefinition const*, ASTNode::CompareByID> const& contractFunctions(ContractDefinition const& _contract);
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/// Cache for the method contractFunctions.
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std::map<ContractDefinition const*, std::set<FunctionDefinition const*, ASTNode::CompareByID>> m_contractFunctions;
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/// @returns FunctionDefinitions of the given contract (including its constructor and methods of bases),
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/// without taking into account overriding of the virtual functions.
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std::set<FunctionDefinition const*, ASTNode::CompareByID> const& contractFunctionsWithoutVirtual(ContractDefinition const& _contract);
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/// Cache for the method contractFunctionsWithoutVirtual.
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std::map<ContractDefinition const*, std::set<FunctionDefinition const*, ASTNode::CompareByID>> m_contractFunctionsWithoutVirtual;
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/// Depth of visit to modifiers.
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/// When m_modifierDepth == #modifiers the function can be visited
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/// when placeholder is visited.
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/// Needs to be a stack because of function calls.
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std::vector<int> m_modifierDepthStack;
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std::map<ContractDefinition const*, ModifierInvocation const*> m_baseConstructorCalls;
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ContractDefinition const* m_currentContract = nullptr;
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/// Stores the context of the encoding.
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smt::EncodingContext& m_context;
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smt::SymbolicState& state();
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};
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}
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