mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
453 lines
16 KiB
C++
453 lines
16 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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/**
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* Component that verifies overloads, abstract contracts, function clashes and others
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* checks at contract or function level.
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*/
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#include <libsolidity/analysis/ContractLevelChecker.h>
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#include <libsolidity/ast/AST.h>
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#include <liblangutil/ErrorReporter.h>
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#include <boost/range/adaptor/reversed.hpp>
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using namespace std;
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using namespace dev;
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using namespace langutil;
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using namespace dev::solidity;
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bool ContractLevelChecker::check(ContractDefinition const& _contract)
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{
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checkDuplicateFunctions(_contract);
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checkDuplicateEvents(_contract);
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checkIllegalOverrides(_contract);
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checkAbstractFunctions(_contract);
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checkBaseConstructorArguments(_contract);
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checkConstructor(_contract);
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checkFallbackFunction(_contract);
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checkExternalTypeClashes(_contract);
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checkHashCollisions(_contract);
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checkLibraryRequirements(_contract);
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return Error::containsOnlyWarnings(m_errorReporter.errors());
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}
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void ContractLevelChecker::checkDuplicateFunctions(ContractDefinition const& _contract)
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{
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/// Checks that two functions with the same name defined in this contract have different
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/// argument types and that there is at most one constructor.
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map<string, vector<FunctionDefinition const*>> functions;
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FunctionDefinition const* constructor = nullptr;
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FunctionDefinition const* fallback = nullptr;
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for (FunctionDefinition const* function: _contract.definedFunctions())
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if (function->isConstructor())
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{
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if (constructor)
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m_errorReporter.declarationError(
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function->location(),
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SecondarySourceLocation().append("Another declaration is here:", constructor->location()),
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"More than one constructor defined."
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);
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constructor = function;
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}
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else if (function->isFallback())
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{
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if (fallback)
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m_errorReporter.declarationError(
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function->location(),
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SecondarySourceLocation().append("Another declaration is here:", fallback->location()),
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"Only one fallback function is allowed."
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);
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fallback = function;
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}
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else
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{
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solAssert(!function->name().empty(), "");
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functions[function->name()].push_back(function);
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}
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findDuplicateDefinitions(functions, "Function with same name and arguments defined twice.");
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}
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void ContractLevelChecker::checkDuplicateEvents(ContractDefinition const& _contract)
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{
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/// Checks that two events with the same name defined in this contract have different
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/// argument types
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map<string, vector<EventDefinition const*>> events;
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for (EventDefinition const* event: _contract.events())
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events[event->name()].push_back(event);
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findDuplicateDefinitions(events, "Event with same name and arguments defined twice.");
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}
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template <class T>
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void ContractLevelChecker::findDuplicateDefinitions(map<string, vector<T>> const& _definitions, string _message)
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{
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for (auto const& it: _definitions)
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{
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vector<T> const& overloads = it.second;
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set<size_t> reported;
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for (size_t i = 0; i < overloads.size() && !reported.count(i); ++i)
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{
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SecondarySourceLocation ssl;
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for (size_t j = i + 1; j < overloads.size(); ++j)
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if (FunctionType(*overloads[i]).asCallableFunction(false)->hasEqualParameterTypes(
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*FunctionType(*overloads[j]).asCallableFunction(false))
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)
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{
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ssl.append("Other declaration is here:", overloads[j]->location());
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reported.insert(j);
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}
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if (ssl.infos.size() > 0)
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{
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ssl.limitSize(_message);
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m_errorReporter.declarationError(
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overloads[i]->location(),
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ssl,
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_message
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);
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}
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}
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}
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}
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void ContractLevelChecker::checkIllegalOverrides(ContractDefinition const& _contract)
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{
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// TODO unify this at a later point. for this we need to put the constness and the access specifier
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// into the types
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map<string, vector<FunctionDefinition const*>> functions;
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map<string, ModifierDefinition const*> modifiers;
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// We search from derived to base, so the stored item causes the error.
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for (ContractDefinition const* contract: _contract.annotation().linearizedBaseContracts)
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{
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for (FunctionDefinition const* function: contract->definedFunctions())
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{
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if (function->isConstructor())
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continue; // constructors can neither be overridden nor override anything
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string const& name = function->name();
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if (modifiers.count(name))
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m_errorReporter.typeError(modifiers[name]->location(), "Override changes function to modifier.");
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for (FunctionDefinition const* overriding: functions[name])
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checkFunctionOverride(*overriding, *function);
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functions[name].push_back(function);
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}
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for (ModifierDefinition const* modifier: contract->functionModifiers())
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{
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string const& name = modifier->name();
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ModifierDefinition const*& override = modifiers[name];
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if (!override)
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override = modifier;
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else if (ModifierType(*override) != ModifierType(*modifier))
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m_errorReporter.typeError(override->location(), "Override changes modifier signature.");
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if (!functions[name].empty())
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m_errorReporter.typeError(override->location(), "Override changes modifier to function.");
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}
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}
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}
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void ContractLevelChecker::checkFunctionOverride(FunctionDefinition const& _function, FunctionDefinition const& _super)
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{
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FunctionTypePointer functionType = FunctionType(_function).asCallableFunction(false);
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FunctionTypePointer superType = FunctionType(_super).asCallableFunction(false);
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if (!functionType->hasEqualParameterTypes(*superType))
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return;
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if (!functionType->hasEqualReturnTypes(*superType))
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overrideError(_function, _super, "Overriding function return types differ.");
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if (!_function.annotation().superFunction)
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_function.annotation().superFunction = &_super;
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if (_function.visibility() != _super.visibility())
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{
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// Visibility change from external to public is fine.
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// Any other change is disallowed.
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if (!(
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_super.visibility() == FunctionDefinition::Visibility::External &&
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_function.visibility() == FunctionDefinition::Visibility::Public
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))
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overrideError(_function, _super, "Overriding function visibility differs.");
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}
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if (_function.stateMutability() != _super.stateMutability())
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overrideError(
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_function,
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_super,
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"Overriding function changes state mutability from \"" +
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stateMutabilityToString(_super.stateMutability()) +
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"\" to \"" +
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stateMutabilityToString(_function.stateMutability()) +
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"\"."
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);
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}
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void ContractLevelChecker::overrideError(FunctionDefinition const& function, FunctionDefinition const& super, string message)
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{
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m_errorReporter.typeError(
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function.location(),
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SecondarySourceLocation().append("Overridden function is here:", super.location()),
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message
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);
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}
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void ContractLevelChecker::checkAbstractFunctions(ContractDefinition const& _contract)
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{
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// Mapping from name to function definition (exactly one per argument type equality class) and
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// flag to indicate whether it is fully implemented.
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using FunTypeAndFlag = std::pair<FunctionTypePointer, bool>;
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map<string, vector<FunTypeAndFlag>> functions;
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// Search from base to derived
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for (ContractDefinition const* contract: boost::adaptors::reverse(_contract.annotation().linearizedBaseContracts))
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for (FunctionDefinition const* function: contract->definedFunctions())
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{
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// Take constructors out of overload hierarchy
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if (function->isConstructor())
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continue;
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auto& overloads = functions[function->name()];
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FunctionTypePointer funType = make_shared<FunctionType>(*function)->asCallableFunction(false);
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auto it = find_if(overloads.begin(), overloads.end(), [&](FunTypeAndFlag const& _funAndFlag)
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{
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return funType->hasEqualParameterTypes(*_funAndFlag.first);
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});
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if (it == overloads.end())
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overloads.push_back(make_pair(funType, function->isImplemented()));
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else if (it->second)
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{
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if (!function->isImplemented())
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m_errorReporter.typeError(function->location(), "Redeclaring an already implemented function as abstract");
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}
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else if (function->isImplemented())
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it->second = true;
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}
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// Set to not fully implemented if at least one flag is false.
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for (auto const& it: functions)
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for (auto const& funAndFlag: it.second)
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if (!funAndFlag.second)
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{
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FunctionDefinition const* function = dynamic_cast<FunctionDefinition const*>(&funAndFlag.first->declaration());
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solAssert(function, "");
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_contract.annotation().unimplementedFunctions.push_back(function);
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break;
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}
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}
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void ContractLevelChecker::checkBaseConstructorArguments(ContractDefinition const& _contract)
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{
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vector<ContractDefinition const*> const& bases = _contract.annotation().linearizedBaseContracts;
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// Determine the arguments that are used for the base constructors.
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for (ContractDefinition const* contract: bases)
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{
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if (FunctionDefinition const* constructor = contract->constructor())
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for (auto const& modifier: constructor->modifiers())
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if (auto baseContract = dynamic_cast<ContractDefinition const*>(
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modifier->name()->annotation().referencedDeclaration
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))
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{
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if (modifier->arguments())
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{
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if (baseContract->constructor())
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annotateBaseConstructorArguments(_contract, baseContract->constructor(), modifier.get());
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}
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else
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m_errorReporter.declarationError(
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modifier->location(),
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"Modifier-style base constructor call without arguments."
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);
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}
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for (ASTPointer<InheritanceSpecifier> const& base: contract->baseContracts())
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{
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ContractDefinition const* baseContract = dynamic_cast<ContractDefinition const*>(
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base->name().annotation().referencedDeclaration
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);
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solAssert(baseContract, "");
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if (baseContract->constructor() && base->arguments() && !base->arguments()->empty())
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annotateBaseConstructorArguments(_contract, baseContract->constructor(), base.get());
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}
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}
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// check that we get arguments for all base constructors that need it.
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// If not mark the contract as abstract (not fully implemented)
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for (ContractDefinition const* contract: bases)
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if (FunctionDefinition const* constructor = contract->constructor())
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if (contract != &_contract && !constructor->parameters().empty())
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if (!_contract.annotation().baseConstructorArguments.count(constructor))
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_contract.annotation().unimplementedFunctions.push_back(constructor);
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}
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void ContractLevelChecker::annotateBaseConstructorArguments(
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ContractDefinition const& _currentContract,
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FunctionDefinition const* _baseConstructor,
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ASTNode const* _argumentNode
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)
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{
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solAssert(_baseConstructor, "");
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solAssert(_argumentNode, "");
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auto insertionResult = _currentContract.annotation().baseConstructorArguments.insert(
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std::make_pair(_baseConstructor, _argumentNode)
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);
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if (!insertionResult.second)
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{
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ASTNode const* previousNode = insertionResult.first->second;
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SourceLocation const* mainLocation = nullptr;
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SecondarySourceLocation ssl;
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if (
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_currentContract.location().contains(previousNode->location()) ||
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_currentContract.location().contains(_argumentNode->location())
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)
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{
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mainLocation = &previousNode->location();
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ssl.append("Second constructor call is here:", _argumentNode->location());
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}
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else
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{
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mainLocation = &_currentContract.location();
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ssl.append("First constructor call is here: ", _argumentNode->location());
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ssl.append("Second constructor call is here: ", previousNode->location());
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}
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m_errorReporter.declarationError(
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*mainLocation,
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ssl,
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"Base constructor arguments given twice."
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);
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}
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}
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void ContractLevelChecker::checkConstructor(ContractDefinition const& _contract)
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{
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FunctionDefinition const* constructor = _contract.constructor();
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if (!constructor)
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return;
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if (!constructor->returnParameters().empty())
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m_errorReporter.typeError(constructor->returnParameterList()->location(), "Non-empty \"returns\" directive for constructor.");
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if (constructor->stateMutability() != StateMutability::NonPayable && constructor->stateMutability() != StateMutability::Payable)
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m_errorReporter.typeError(
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constructor->location(),
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"Constructor must be payable or non-payable, but is \"" +
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stateMutabilityToString(constructor->stateMutability()) +
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"\"."
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);
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if (constructor->visibility() != FunctionDefinition::Visibility::Public && constructor->visibility() != FunctionDefinition::Visibility::Internal)
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m_errorReporter.typeError(constructor->location(), "Constructor must be public or internal.");
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}
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void ContractLevelChecker::checkFallbackFunction(ContractDefinition const& _contract)
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{
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FunctionDefinition const* fallback = _contract.fallbackFunction();
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if (!fallback)
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return;
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if (_contract.isLibrary())
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m_errorReporter.typeError(fallback->location(), "Libraries cannot have fallback functions.");
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if (fallback->stateMutability() != StateMutability::NonPayable && fallback->stateMutability() != StateMutability::Payable)
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m_errorReporter.typeError(
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fallback->location(),
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"Fallback function must be payable or non-payable, but is \"" +
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stateMutabilityToString(fallback->stateMutability()) +
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"\"."
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);
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if (!fallback->parameters().empty())
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m_errorReporter.typeError(fallback->parameterList().location(), "Fallback function cannot take parameters.");
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if (!fallback->returnParameters().empty())
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m_errorReporter.typeError(fallback->returnParameterList()->location(), "Fallback function cannot return values.");
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if (fallback->visibility() != FunctionDefinition::Visibility::External)
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m_errorReporter.typeError(fallback->location(), "Fallback function must be defined as \"external\".");
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}
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void ContractLevelChecker::checkExternalTypeClashes(ContractDefinition const& _contract)
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{
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map<string, vector<pair<Declaration const*, FunctionTypePointer>>> externalDeclarations;
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for (ContractDefinition const* contract: _contract.annotation().linearizedBaseContracts)
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{
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for (FunctionDefinition const* f: contract->definedFunctions())
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if (f->isPartOfExternalInterface())
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{
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auto functionType = make_shared<FunctionType>(*f);
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// under non error circumstances this should be true
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if (functionType->interfaceFunctionType())
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externalDeclarations[functionType->externalSignature()].push_back(
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make_pair(f, functionType->asCallableFunction(false))
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);
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}
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for (VariableDeclaration const* v: contract->stateVariables())
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if (v->isPartOfExternalInterface())
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{
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auto functionType = make_shared<FunctionType>(*v);
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// under non error circumstances this should be true
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if (functionType->interfaceFunctionType())
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externalDeclarations[functionType->externalSignature()].push_back(
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make_pair(v, functionType->asCallableFunction(false))
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);
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}
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}
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for (auto const& it: externalDeclarations)
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for (size_t i = 0; i < it.second.size(); ++i)
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for (size_t j = i + 1; j < it.second.size(); ++j)
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if (!it.second[i].second->hasEqualParameterTypes(*it.second[j].second))
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m_errorReporter.typeError(
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it.second[j].first->location(),
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"Function overload clash during conversion to external types for arguments."
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);
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}
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void ContractLevelChecker::checkHashCollisions(ContractDefinition const& _contract)
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{
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set<FixedHash<4>> hashes;
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for (auto const& it: _contract.interfaceFunctionList())
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{
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FixedHash<4> const& hash = it.first;
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if (hashes.count(hash))
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m_errorReporter.typeError(
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_contract.location(),
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string("Function signature hash collision for ") + it.second->externalSignature()
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);
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hashes.insert(hash);
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}
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}
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void ContractLevelChecker::checkLibraryRequirements(ContractDefinition const& _contract)
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{
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if (!_contract.isLibrary())
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return;
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if (!_contract.baseContracts().empty())
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m_errorReporter.typeError(_contract.location(), "Library is not allowed to inherit.");
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for (auto const& var: _contract.stateVariables())
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if (!var->isConstant())
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m_errorReporter.typeError(var->location(), "Library cannot have non-constant state variables");
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}
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