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/*
    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 <http://www.gnu.org/licenses/>.
*/
/**
 * @author Christian <c@ethdev.com>
 * @date 2014
 * Solidity data types
 */

#include <libdevcore/CommonIO.h>
#include <libdevcore/CommonData.h>
#include <libsolidity/Types.h>
#include <libsolidity/AST.h>

using namespace std;

namespace dev
{
namespace solidity
{

shared_ptr<Type> Type::fromElementaryTypeName(Token::Value _typeToken)
{
    if (asserts(Token::isElementaryTypeName(_typeToken)))
        BOOST_THROW_EXCEPTION(InternalCompilerError());

    if (Token::INT <= _typeToken && _typeToken <= Token::HASH256)
    {
        int offset = _typeToken - Token::INT;
        int bytes = offset % 33;
        if (bytes == 0)
            bytes = 32;
        int modifier = offset / 33;
        return make_shared<IntegerType>(bytes * 8,
                                        modifier == 0 ? IntegerType::Modifier::SIGNED :
                                        modifier == 1 ? IntegerType::Modifier::UNSIGNED :
                                        IntegerType::Modifier::HASH);
    }
    else if (_typeToken == Token::ADDRESS)
        return make_shared<IntegerType>(0, IntegerType::Modifier::ADDRESS);
    else if (_typeToken == Token::BOOL)
        return make_shared<BoolType>();
    else
        BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unable to convert elementary typename " +
                                                                         std::string(Token::toString(_typeToken)) + " to type."));
}

shared_ptr<Type> Type::fromUserDefinedTypeName(UserDefinedTypeName const& _typeName)
{
    Declaration const* declaration = _typeName.getReferencedDeclaration();
    if (StructDefinition const* structDef = dynamic_cast<StructDefinition const*>(declaration))
        return make_shared<StructType>(*structDef);
    else if (FunctionDefinition const* function = dynamic_cast<FunctionDefinition const*>(declaration))
        return make_shared<FunctionType>(*function);
    else if (ContractDefinition const* contract = dynamic_cast<ContractDefinition const*>(declaration))
        return make_shared<ContractType>(*contract);
    return shared_ptr<Type>();
}

shared_ptr<Type> Type::fromMapping(Mapping const& _typeName)
{
    shared_ptr<Type const> keyType = _typeName.getKeyType().toType();
    if (!keyType)
        BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Error resolving type name."));
    shared_ptr<Type const> valueType = _typeName.getValueType().toType();
    if (!valueType)
        BOOST_THROW_EXCEPTION(_typeName.getValueType().createTypeError("Invalid type name"));
    return make_shared<MappingType>(keyType, valueType);
}

shared_ptr<Type> Type::forLiteral(Literal const& _literal)
{
    switch (_literal.getToken())
    {
    case Token::TRUE_LITERAL:
    case Token::FALSE_LITERAL:
        return make_shared<BoolType>();
    case Token::NUMBER:
        return IntegerType::smallestTypeForLiteral(_literal.getValue());
    case Token::STRING_LITERAL:
        return shared_ptr<Type>(); // @todo add string literals
    default:
        return shared_ptr<Type>();
    }
}

const MemberList Type::EmptyMemberList = MemberList();

shared_ptr<IntegerType> IntegerType::smallestTypeForLiteral(string const& _literal)
{
    bigint value(_literal);
    bool isSigned = value < 0 || (!_literal.empty() && _literal.front() == '-');
    if (isSigned)
        // convert to positive number of same bit requirements
        value = ((-value) - 1) << 1;
    unsigned bytes = max(bytesRequired(value), 1u);
    if (bytes > 32)
        return shared_ptr<IntegerType>();
    return make_shared<IntegerType>(bytes * 8, isSigned ? Modifier::SIGNED : Modifier::UNSIGNED);
}

IntegerType::IntegerType(int _bits, IntegerType::Modifier _modifier):
    m_bits(_bits), m_modifier(_modifier)
{
    if (isAddress())
        m_bits = 160;
    if (asserts(m_bits > 0 && m_bits <= 256 && m_bits % 8 == 0))
        BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Invalid bit number for integer type: " + dev::toString(_bits)));
}

bool IntegerType::isImplicitlyConvertibleTo(Type const& _convertTo) const
{
    if (_convertTo.getCategory() != getCategory())
        return false;
    IntegerType const& convertTo = dynamic_cast<IntegerType const&>(_convertTo);
    if (convertTo.m_bits < m_bits)
        return false;
    if (isAddress())
        return convertTo.isAddress();
    else if (isHash())
        return convertTo.isHash();
    else if (isSigned())
        return convertTo.isSigned();
    else
        return !convertTo.isSigned() || convertTo.m_bits > m_bits;
}

bool IntegerType::isExplicitlyConvertibleTo(Type const& _convertTo) const
{
    return _convertTo.getCategory() == getCategory() || _convertTo.getCategory() == Category::CONTRACT;
}

bool IntegerType::acceptsBinaryOperator(Token::Value _operator) const
{
    if (isAddress())
        return Token::isCompareOp(_operator);
    else if (isHash())
        return Token::isCompareOp(_operator) || Token::isBitOp(_operator);
    else
        return true;
}

bool IntegerType::acceptsUnaryOperator(Token::Value _operator) const
{
    if (_operator == Token::DELETE)
        return true;
    if (isAddress())
        return false;
    if (_operator == Token::BIT_NOT)
        return true;
    if (isHash())
        return false;
    return _operator == Token::ADD || _operator == Token::SUB ||
           _operator == Token::INC || _operator == Token::DEC;
}

bool IntegerType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    IntegerType const& other = dynamic_cast<IntegerType const&>(_other);
    return other.m_bits == m_bits && other.m_modifier == m_modifier;
}

string IntegerType::toString() const
{
    if (isAddress())
        return "address";
    string prefix = isHash() ? "hash" : (isSigned() ? "int" : "uint");
    return prefix + dev::toString(m_bits);
}

u256 IntegerType::literalValue(Literal const& _literal) const
{
    bigint value(_literal.getValue());
    return u256(value);
}

const MemberList IntegerType::AddressMemberList =
        MemberList({{"balance", make_shared<IntegerType const>(256)},
                    {"send", make_shared<FunctionType const>(TypePointers({make_shared<IntegerType const>(256)}),
                                                             TypePointers(), FunctionType::Location::SEND)}});

bool BoolType::isExplicitlyConvertibleTo(Type const& _convertTo) const
{
    // conversion to integer is fine, but not to address
    // this is an example of explicit conversions being not transitive (though implicit should be)
    if (_convertTo.getCategory() == getCategory())
    {
        IntegerType const& convertTo = dynamic_cast<IntegerType const&>(_convertTo);
        if (!convertTo.isAddress())
            return true;
    }
    return isImplicitlyConvertibleTo(_convertTo);
}

u256 BoolType::literalValue(Literal const& _literal) const
{
    if (_literal.getToken() == Token::TRUE_LITERAL)
        return u256(1);
    else if (_literal.getToken() == Token::FALSE_LITERAL)
        return u256(0);
    else
        BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Bool type constructed from non-boolean literal."));
}

bool ContractType::isExplicitlyConvertibleTo(Type const& _convertTo) const
{
    if (isImplicitlyConvertibleTo(_convertTo))
        return true;
    if (_convertTo.getCategory() == Category::INTEGER)
        return dynamic_cast<IntegerType const&>(_convertTo).isAddress();
    return false;
}

bool ContractType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    ContractType const& other = dynamic_cast<ContractType const&>(_other);
    return other.m_contract == m_contract;
}

u256 ContractType::getStorageSize() const
{
    u256 size = 0;
    for (ASTPointer<VariableDeclaration> const& variable: m_contract.getStateVariables())
        size += variable->getType()->getStorageSize();
    return max<u256>(1, size);
}

string ContractType::toString() const
{
    return "contract " + m_contract.getName();
}

MemberList const& ContractType::getMembers() const
{
    // We need to lazy-initialize it because of recursive references.
    if (!m_members)
    {
        map<string, shared_ptr<Type const>> members;
        for (FunctionDefinition const* function: m_contract.getInterfaceFunctions())
            members[function->getName()] = make_shared<FunctionType>(*function, false);
        m_members.reset(new MemberList(members));
    }
    return *m_members;
}

unsigned ContractType::getFunctionIndex(string const& _functionName) const
{
    unsigned index = 0;
    for (FunctionDefinition const* function: m_contract.getInterfaceFunctions())
    {
        if (function->getName() == _functionName)
            return index;
        ++index;
    }
    BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Index of non-existing contract function requested."));
}

bool StructType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    StructType const& other = dynamic_cast<StructType const&>(_other);
    return other.m_struct == m_struct;
}

u256 StructType::getStorageSize() const
{
    u256 size = 0;
    for (pair<string, shared_ptr<Type const>> const& member: getMembers())
        size += member.second->getStorageSize();
    return max<u256>(1, size);
}

bool StructType::canLiveOutsideStorage() const
{
    for (pair<string, shared_ptr<Type const>> const& member: getMembers())
        if (!member.second->canLiveOutsideStorage())
            return false;
    return true;
}

string StructType::toString() const
{
    return string("struct ") + m_struct.getName();
}

MemberList const& StructType::getMembers() const
{
    // We need to lazy-initialize it because of recursive references.
    if (!m_members)
    {
        map<string, shared_ptr<Type const>> members;
        for (ASTPointer<VariableDeclaration> const& variable: m_struct.getMembers())
            members[variable->getName()] = variable->getType();
        m_members.reset(new MemberList(members));
    }
    return *m_members;
}

u256 StructType::getStorageOffsetOfMember(string const& _name) const
{
    //@todo cache member offset?
    u256 offset;
    for (ASTPointer<VariableDeclaration> variable: m_struct.getMembers())
    {
        if (variable->getName() == _name)
            return offset;
        offset += variable->getType()->getStorageSize();
    }
    BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Storage offset of non-existing member requested."));
}

FunctionType::FunctionType(FunctionDefinition const& _function, bool _isInternal)
{
    TypePointers params;
    TypePointers retParams;
    params.reserve(_function.getParameters().size());
    for (ASTPointer<VariableDeclaration> const& var: _function.getParameters())
        params.push_back(var->getType());
    retParams.reserve(_function.getReturnParameters().size());
    for (ASTPointer<VariableDeclaration> const& var: _function.getReturnParameters())
        retParams.push_back(var->getType());
    swap(params, m_parameterTypes);
    swap(retParams, m_returnParameterTypes);
    m_location = _isInternal ? Location::INTERNAL : Location::EXTERNAL;
}

bool FunctionType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    FunctionType const& other = dynamic_cast<FunctionType const&>(_other);

    if (m_location != other.m_location)
        return false;
    if (m_parameterTypes.size() != other.m_parameterTypes.size() ||
            m_returnParameterTypes.size() != other.m_returnParameterTypes.size())
        return false;
    auto typeCompare = [](TypePointer const& _a, TypePointer const& _b) -> bool { return *_a == *_b; };

    if (!equal(m_parameterTypes.cbegin(), m_parameterTypes.cend(),
               other.m_parameterTypes.cbegin(), typeCompare))
        return false;
    if (!equal(m_returnParameterTypes.cbegin(), m_returnParameterTypes.cend(),
               other.m_returnParameterTypes.cbegin(), typeCompare))
        return false;
    return true;
}

string FunctionType::toString() const
{
    string name = "function (";
    for (auto it = m_parameterTypes.begin(); it != m_parameterTypes.end(); ++it)
        name += (*it)->toString() + (it + 1 == m_parameterTypes.end() ? "" : ",");
    name += ") returns (";
    for (auto it = m_returnParameterTypes.begin(); it != m_returnParameterTypes.end(); ++it)
        name += (*it)->toString() + (it + 1 == m_returnParameterTypes.end() ? "" : ",");
    return name + ")";
}

unsigned FunctionType::getSizeOnStack() const
{
    switch (m_location)
    {
    case Location::INTERNAL:
        return 1;
    case Location::EXTERNAL:
        return 2;
    default:
        return 0;
    }
}

bool MappingType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    MappingType const& other = dynamic_cast<MappingType const&>(_other);
    return *other.m_keyType == *m_keyType && *other.m_valueType == *m_valueType;
}

string MappingType::toString() const
{
    return "mapping(" + getKeyType()->toString() + " => " + getValueType()->toString() + ")";
}

bool TypeType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    TypeType const& other = dynamic_cast<TypeType const&>(_other);
    return *getActualType() == *other.getActualType();
}

MagicType::MagicType(MagicType::Kind _kind):
    m_kind(_kind)
{
    switch (m_kind)
    {
    case Kind::BLOCK:
        m_members = MemberList({{"coinbase", make_shared<IntegerType const>(0, IntegerType::Modifier::ADDRESS)},
                                {"timestamp", make_shared<IntegerType const>(256)},
                                {"prevhash", make_shared<IntegerType const>(256, IntegerType::Modifier::HASH)},
                                {"difficulty", make_shared<IntegerType const>(256)},
                                {"number", make_shared<IntegerType const>(256)},
                                {"gaslimit", make_shared<IntegerType const>(256)}});
        break;
    case Kind::MSG:
        m_members = MemberList({{"sender", make_shared<IntegerType const>(0, IntegerType::Modifier::ADDRESS)},
                                {"gas", make_shared<IntegerType const>(256)},
                                {"value", make_shared<IntegerType const>(256)}});
        break;
    case Kind::TX:
        m_members = MemberList({{"origin", make_shared<IntegerType const>(0, IntegerType::Modifier::ADDRESS)},
                                {"gasprice", make_shared<IntegerType const>(256)}});
        break;
    default:
        BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown kind of magic."));
    }
}

bool MagicType::operator==(Type const& _other) const
{
    if (_other.getCategory() != getCategory())
        return false;
    MagicType const& other = dynamic_cast<MagicType const&>(_other);
    return other.m_kind == m_kind;
}

string MagicType::toString() const
{
    switch (m_kind)
    {
    case Kind::BLOCK:
        return "block";
    case Kind::MSG:
        return "msg";
    case Kind::TX:
        return "tx";
    default:
        BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown kind of magic."));
    }
}

}
}