/*
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 .
*/
#include
#include
#include
#include
using namespace std;
using namespace dev;
using namespace dev::solidity::smt;
SymbolicVariable::SymbolicVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
m_type(move(_type)),
m_uniqueName(move(_uniqueName)),
m_interface(_interface),
m_ssa(make_unique())
{
solAssert(m_type, "");
m_sort = smtSort(*m_type);
solAssert(m_sort, "");
}
SymbolicVariable::SymbolicVariable(
SortPointer _sort,
string _uniqueName,
SolverInterface& _interface
):
m_sort(move(_sort)),
m_uniqueName(move(_uniqueName)),
m_interface(_interface),
m_ssa(make_unique())
{
solAssert(m_sort, "");
}
Expression SymbolicVariable::currentValue() const
{
return valueAtIndex(m_ssa->index());
}
string SymbolicVariable::currentName() const
{
return uniqueSymbol(m_ssa->index());
}
Expression SymbolicVariable::valueAtIndex(int _index) const
{
return m_interface.newVariable(uniqueSymbol(_index), m_sort);
}
string SymbolicVariable::uniqueSymbol(unsigned _index) const
{
return m_uniqueName + "_" + to_string(_index);
}
Expression SymbolicVariable::increaseIndex()
{
++(*m_ssa);
return currentValue();
}
SymbolicBoolVariable::SymbolicBoolVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface)
{
solAssert(m_type->category() == solidity::Type::Category::Bool, "");
}
SymbolicIntVariable::SymbolicIntVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface)
{
solAssert(isNumber(m_type->category()), "");
}
SymbolicAddressVariable::SymbolicAddressVariable(
string _uniqueName,
SolverInterface& _interface
):
SymbolicIntVariable(TypeProvider::uint(160), move(_uniqueName), _interface)
{
}
SymbolicFixedBytesVariable::SymbolicFixedBytesVariable(
unsigned _numBytes,
string _uniqueName,
SolverInterface& _interface
):
SymbolicIntVariable(TypeProvider::uint(_numBytes * 8), move(_uniqueName), _interface)
{
}
SymbolicFunctionVariable::SymbolicFunctionVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface),
m_declaration(m_interface.newVariable(currentName(), m_sort))
{
solAssert(m_type->category() == solidity::Type::Category::Function, "");
}
void SymbolicFunctionVariable::resetDeclaration()
{
m_declaration = m_interface.newVariable(currentName(), m_sort);
}
Expression SymbolicFunctionVariable::increaseIndex()
{
++(*m_ssa);
resetDeclaration();
return currentValue();
}
Expression SymbolicFunctionVariable::operator()(vector _arguments) const
{
return m_declaration(_arguments);
}
SymbolicMappingVariable::SymbolicMappingVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface)
{
solAssert(isMapping(m_type->category()), "");
}
SymbolicArrayVariable::SymbolicArrayVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface)
{
solAssert(isArray(m_type->category()), "");
}
SymbolicEnumVariable::SymbolicEnumVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface)
{
solAssert(isEnum(m_type->category()), "");
}
SymbolicTupleVariable::SymbolicTupleVariable(
solidity::TypePointer _type,
string _uniqueName,
SolverInterface& _interface
):
SymbolicVariable(move(_type), move(_uniqueName), _interface)
{
solAssert(isTuple(m_type->category()), "");
}
void SymbolicTupleVariable::setComponents(vector> _components)
{
solAssert(m_components.empty(), "");
auto const& tupleType = dynamic_cast(m_type);
solAssert(_components.size() == tupleType->components().size(), "");
m_components = move(_components);
}