solidity/libsolidity/analysis/ReferencesResolver.cpp

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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 2015
* Component that resolves type names to types and annotates the AST accordingly.
*/
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#include <libsolidity/analysis/ReferencesResolver.h>
#include <libsolidity/ast/AST.h>
#include <libsolidity/analysis/NameAndTypeResolver.h>
#include <libsolidity/interface/Exceptions.h>
#include <libsolidity/analysis/ConstantEvaluator.h>
#include <libsolidity/inlineasm/AsmCodeGen.h>
#include <libsolidity/inlineasm/AsmData.h>
using namespace std;
using namespace dev;
using namespace dev::solidity;
bool ReferencesResolver::resolve(ASTNode const& _root)
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{
try
{
_root.accept(*this);
}
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catch (FatalError const&)
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{
solAssert(m_errorOccurred, "");
}
return !m_errorOccurred;
}
bool ReferencesResolver::visit(Identifier const& _identifier)
{
auto declarations = m_resolver.nameFromCurrentScope(_identifier.name());
if (declarations.empty())
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fatalDeclarationError(_identifier.location(), "Undeclared identifier.");
else if (declarations.size() == 1)
_identifier.annotation().referencedDeclaration = declarations.front();
else
_identifier.annotation().overloadedDeclarations =
m_resolver.cleanedDeclarations(_identifier, declarations);
return false;
}
bool ReferencesResolver::visit(ElementaryTypeName const& _typeName)
{
_typeName.annotation().type = Type::fromElementaryTypeName(_typeName.typeName());
return true;
}
void ReferencesResolver::endVisit(UserDefinedTypeName const& _typeName)
{
Declaration const* declaration = m_resolver.pathFromCurrentScope(_typeName.namePath());
if (!declaration)
fatalDeclarationError(_typeName.location(), "Identifier not found or not unique.");
_typeName.annotation().referencedDeclaration = declaration;
if (StructDefinition const* structDef = dynamic_cast<StructDefinition const*>(declaration))
_typeName.annotation().type = make_shared<StructType>(*structDef);
else if (EnumDefinition const* enumDef = dynamic_cast<EnumDefinition const*>(declaration))
_typeName.annotation().type = make_shared<EnumType>(*enumDef);
else if (ContractDefinition const* contract = dynamic_cast<ContractDefinition const*>(declaration))
_typeName.annotation().type = make_shared<ContractType>(*contract);
else
fatalTypeError(_typeName.location(), "Name has to refer to a struct, enum or contract.");
}
void ReferencesResolver::endVisit(Mapping const& _typeName)
{
TypePointer keyType = _typeName.keyType().annotation().type;
TypePointer valueType = _typeName.valueType().annotation().type;
// Convert key type to memory.
keyType = ReferenceType::copyForLocationIfReference(DataLocation::Memory, keyType);
// Convert value type to storage reference.
valueType = ReferenceType::copyForLocationIfReference(DataLocation::Storage, valueType);
_typeName.annotation().type = make_shared<MappingType>(keyType, valueType);
}
void ReferencesResolver::endVisit(ArrayTypeName const& _typeName)
{
TypePointer baseType = _typeName.baseType().annotation().type;
if (baseType->storageBytes() == 0)
fatalTypeError(_typeName.baseType().location(), "Illegal base type of storage size zero for array.");
if (Expression const* length = _typeName.length())
{
if (!length->annotation().type)
ConstantEvaluator e(*length);
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auto const* lengthType = dynamic_cast<RationalNumberType const*>(length->annotation().type.get());
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if (!lengthType || lengthType->isFractional())
fatalTypeError(length->location(), "Invalid array length, expected integer literal.");
else
_typeName.annotation().type = make_shared<ArrayType>(DataLocation::Storage, baseType, lengthType->literalValue(nullptr));
}
else
_typeName.annotation().type = make_shared<ArrayType>(DataLocation::Storage, baseType);
}
bool ReferencesResolver::visit(InlineAssembly const& _inlineAssembly)
{
// We need to perform a full code generation pass here as inline assembly does not distinguish
// reference resolution and code generation.
// Errors created in this stage are completely ignored because we do not yet know
// the type and size of external identifiers, which would result in false errors.
ErrorList errorsIgnored;
assembly::CodeGenerator codeGen(_inlineAssembly.operations(), errorsIgnored);
codeGen.typeCheck([&](assembly::Identifier const& _identifier, eth::Assembly&, assembly::CodeGenerator::IdentifierContext) {
auto declarations = m_resolver.nameFromCurrentScope(_identifier.name);
if (declarations.size() != 1)
return false;
_inlineAssembly.annotation().externalReferences[&_identifier] = declarations.front();
// At this stage we neither know the code to generate nor the stack size of the identifier,
// so we do not modify assembly.
return true;
});
return false;
}
bool ReferencesResolver::visit(Return const& _return)
{
_return.annotation().functionReturnParameters = m_returnParameters;
return true;
}
void ReferencesResolver::endVisit(VariableDeclaration const& _variable)
{
if (_variable.annotation().type)
return;
TypePointer type;
if (_variable.typeName())
{
type = _variable.typeName()->annotation().type;
using Location = VariableDeclaration::Location;
Location varLoc = _variable.referenceLocation();
DataLocation typeLoc = DataLocation::Memory;
// References are forced to calldata for external function parameters (not return)
// and memory for parameters (also return) of publicly visible functions.
// They default to memory for function parameters and storage for local variables.
// As an exception, "storage" is allowed for library functions.
if (auto ref = dynamic_cast<ReferenceType const*>(type.get()))
{
bool isPointer = true;
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if (_variable.isExternalCallableParameter())
{
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auto const& contract = dynamic_cast<ContractDefinition const&>(
*dynamic_cast<Declaration const&>(*_variable.scope()).scope()
);
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if (contract.isLibrary())
{
if (varLoc == Location::Memory)
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fatalTypeError(_variable.location(),
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"Location has to be calldata or storage for external "
"library functions (remove the \"memory\" keyword)."
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);
}
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else
{
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// force location of external function parameters (not return) to calldata
if (varLoc != Location::Default)
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fatalTypeError(_variable.location(),
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"Location has to be calldata for external functions "
"(remove the \"memory\" or \"storage\" keyword)."
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);
}
if (varLoc == Location::Default)
typeLoc = DataLocation::CallData;
else
typeLoc = varLoc == Location::Memory ? DataLocation::Memory : DataLocation::Storage;
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}
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else if (_variable.isCallableParameter() && dynamic_cast<Declaration const&>(*_variable.scope()).isPublic())
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{
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auto const& contract = dynamic_cast<ContractDefinition const&>(
*dynamic_cast<Declaration const&>(*_variable.scope()).scope()
);
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// force locations of public or external function (return) parameters to memory
if (varLoc == Location::Storage && !contract.isLibrary())
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fatalTypeError(_variable.location(),
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"Location has to be memory for publicly visible functions "
"(remove the \"storage\" keyword)."
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);
if (varLoc == Location::Default || !contract.isLibrary())
typeLoc = DataLocation::Memory;
else
typeLoc = varLoc == Location::Memory ? DataLocation::Memory : DataLocation::Storage;
}
else
{
if (_variable.isConstant())
{
if (varLoc != Location::Default && varLoc != Location::Memory)
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fatalTypeError(
_variable.location(),
"Storage location has to be \"memory\" (or unspecified) for constants."
);
typeLoc = DataLocation::Memory;
}
else if (varLoc == Location::Default)
typeLoc = _variable.isCallableParameter() ? DataLocation::Memory : DataLocation::Storage;
else
typeLoc = varLoc == Location::Memory ? DataLocation::Memory : DataLocation::Storage;
isPointer = !_variable.isStateVariable();
}
type = ref->copyForLocation(typeLoc, isPointer);
}
else if (varLoc != Location::Default && !ref)
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fatalTypeError(_variable.location(), "Storage location can only be given for array or struct types.");
if (!type)
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fatalTypeError(_variable.location(), "Invalid type name.");
}
else if (!_variable.canHaveAutoType())
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fatalTypeError(_variable.location(), "Explicit type needed.");
// otherwise we have a "var"-declaration whose type is resolved by the first assignment
_variable.annotation().type = type;
}
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void ReferencesResolver::typeError(SourceLocation const& _location, string const& _description)
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{
auto err = make_shared<Error>(Error::Type::TypeError);
*err << errinfo_sourceLocation(_location) << errinfo_comment(_description);
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m_errorOccurred = true;
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m_errors.push_back(err);
}
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void ReferencesResolver::fatalTypeError(SourceLocation const& _location, string const& _description)
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{
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typeError(_location, _description);
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BOOST_THROW_EXCEPTION(FatalError());
}
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void ReferencesResolver::declarationError(SourceLocation const& _location, string const& _description)
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{
auto err = make_shared<Error>(Error::Type::DeclarationError);
*err << errinfo_sourceLocation(_location) << errinfo_comment(_description);
m_errorOccurred = true;
m_errors.push_back(err);
}
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void ReferencesResolver::fatalDeclarationError(SourceLocation const& _location, string const& _description)
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{
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declarationError(_location, _description);
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BOOST_THROW_EXCEPTION(FatalError());
}
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