Merge pull request #14566 from ethereum/new-analysis-defining-builtins

Defining built-ins in experimental analysis
This commit is contained in:
Kamil Śliwak 2023-09-28 21:10:16 +02:00 committed by GitHub
commit bdd2f02c83
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17 changed files with 287 additions and 128 deletions

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@ -269,17 +269,13 @@ namespace solidity::langutil
T(Leave, "leave", 0) \
\
T(NonExperimentalEnd, nullptr, 0) /* used as non-experimental enum end marker */ \
/* Experimental Solidity specific keywords. */ \
/* Experimental Solidity specific keywords. */ \
K(Class, "class", 0) \
K(Instantiation, "instantiation", 0) \
K(Word, "word", 0) \
K(Integer, "integer", 0) \
K(Integer, "Integer", 0) \
K(Itself, "itself", 0) \
K(Void, "void", 0) \
K(Pair, "pair", 0) \
K(Fun, "fun", 0) \
K(Unit, "unit", 0) \
K(StaticAssert, "static_assert", 0) \
K(Builtin, "__builtin", 0) \
T(ExperimentalEnd, nullptr, 0) /* used as experimental enum end marker */ \
\
/* Illegal token - not able to scan. */ \
@ -304,12 +300,7 @@ namespace TokenTraits
constexpr size_t count() { return static_cast<size_t>(Token::NUM_TOKENS); }
// Predicates
constexpr bool isElementaryTypeName(Token tok)
{
return (Token::Int <= tok && tok < Token::TypesEnd) ||
tok == Token::Word || tok == Token::Void || tok == Token::Integer ||
tok == Token::Pair || tok == Token::Unit || tok == Token::Fun;
}
constexpr bool isElementaryTypeName(Token tok) { return Token::Int <= tok && tok < Token::TypesEnd; }
constexpr bool isAssignmentOp(Token tok) { return Token::Assign <= tok && tok <= Token::AssignMod; }
constexpr bool isBinaryOp(Token op) { return Token::Comma <= op && op <= Token::Exp; }
constexpr bool isCommutativeOp(Token op) { return op == Token::BitOr || op == Token::BitXor || op == Token::BitAnd ||
@ -350,7 +341,7 @@ namespace TokenTraits
{
return tok == Token::Assembly || tok == Token::Contract || tok == Token::External || tok == Token::Fallback ||
tok == Token::Pragma || tok == Token::Import || tok == Token::As || tok == Token::Function || tok == Token::Let ||
tok == Token::Return || tok == Token::Type || tok == Token::Bool || tok == Token::If || tok == Token::Else ||
tok == Token::Return || tok == Token::Type || tok == Token::If || tok == Token::Else ||
tok == Token::Do || tok == Token::While || tok == Token::For || tok == Token::Continue || tok == Token::Break ||
(tok > Token::NonExperimentalEnd && tok < Token::ExperimentalEnd);
}

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@ -2596,6 +2596,35 @@ private:
std::variant<Token, ASTPointer<IdentifierPath>> m_name;
};
class Builtin: public Expression
{
public:
Builtin(
int64_t _id,
SourceLocation _location,
ASTPointer<ASTString> _nameParameter,
SourceLocation _nameParameterLocation
):
Expression(_id, std::move(_location)),
m_nameParameter(std::move(_nameParameter)),
m_nameParameterLocation(std::move(_nameParameterLocation))
{
solAssert(m_nameParameter);
}
void accept(ASTVisitor& _visitor) override;
void accept(ASTConstVisitor& _visitor) const override;
bool experimentalSolidityOnly() const override { return true; }
ASTString const& nameParameter() const { return *m_nameParameter; }
SourceLocation const& nameParameterLocation() const { return m_nameParameterLocation; }
private:
ASTPointer<ASTString> m_nameParameter;
SourceLocation m_nameParameterLocation;
};
/// @}
}

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@ -105,6 +105,7 @@ class TypeClassDefinition;
class TypeClassInstantiation;
class TypeClassName;
class TypeDefinition;
class Builtin;
/// @}
class VariableScope;

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@ -115,6 +115,7 @@ public:
virtual bool visit(TypeClassInstantiation& _node) { return visitNode(_node); }
virtual bool visit(TypeDefinition& _node) { return visitNode(_node); }
virtual bool visit(TypeClassName& _node) { return visitNode(_node); }
virtual bool visit(Builtin& _node) { return visitNode(_node); }
/// @}
virtual void endVisit(SourceUnit& _node) { endVisitNode(_node); }
@ -178,6 +179,7 @@ public:
virtual void endVisit(TypeClassInstantiation& _node) { endVisitNode(_node); }
virtual void endVisit(TypeDefinition& _node) { endVisitNode(_node); }
virtual void endVisit(TypeClassName& _node) { endVisitNode(_node); }
virtual void endVisit(Builtin& _node) { endVisitNode(_node); }
/// @}
protected:
@ -263,6 +265,7 @@ public:
virtual bool visit(TypeClassInstantiation const& _node) { return visitNode(_node); }
virtual bool visit(TypeDefinition const& _node) { return visitNode(_node); }
virtual bool visit(TypeClassName const& _node) { return visitNode(_node); }
virtual bool visit(Builtin const& _node) { return visitNode(_node); }
/// @}
virtual void endVisit(SourceUnit const& _node) { endVisitNode(_node); }
@ -326,6 +329,7 @@ public:
virtual void endVisit(TypeClassInstantiation const& _node) { endVisitNode(_node); }
virtual void endVisit(TypeDefinition const& _node) { endVisitNode(_node); }
virtual void endVisit(TypeClassName const& _node) { endVisitNode(_node); }
virtual void endVisit(Builtin const& _node) { endVisitNode(_node); }
/// @}
protected:

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@ -1128,6 +1128,18 @@ void TypeClassName::accept(ASTConstVisitor& _visitor) const
}
_visitor.endVisit(*this);
}
void Builtin::accept(ASTVisitor& _visitor)
{
_visitor.visit(*this);
_visitor.endVisit(*this);
}
void Builtin::accept(ASTConstVisitor& _visitor) const
{
_visitor.visit(*this);
_visitor.endVisit(*this);
}
/// @}
}

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@ -125,22 +125,6 @@ TypeInference::TypeInference(Analysis& _analysis):
defineBinaryCompareOperator(BuiltinClass::LessOrEqual, Token::LessThanOrEqual, "leq");
defineBinaryCompareOperator(BuiltinClass::Greater, Token::GreaterThan, "gt");
defineBinaryCompareOperator(BuiltinClass::GreaterOrEqual, Token::GreaterThanOrEqual, "geq");
{
auto [members, newlyInserted] = annotation().members.emplace(m_typeSystem.constructor(PrimitiveType::Bool), std::map<std::string, TypeMember>{});
solAssert(newlyInserted);
members->second.emplace("abs", TypeMember{helper.functionType(m_wordType, m_boolType)});
members->second.emplace("rep", TypeMember{helper.functionType(m_boolType, m_wordType)});
}
{
Type first = m_typeSystem.freshTypeVariable({});
Type second = m_typeSystem.freshTypeVariable({});
Type pairType = m_typeSystem.type(PrimitiveType::Pair, {first, second});
auto [members, newlyInserted] = annotation().members.emplace(m_typeSystem.constructor(PrimitiveType::Pair), std::map<std::string, TypeMember>{});
solAssert(newlyInserted);
members->second.emplace("first", TypeMember{helper.functionType(pairType, first)});
members->second.emplace("second", TypeMember{helper.functionType(pairType, second)});
}
}
bool TypeInference::analyze(SourceUnit const& _sourceUnit)
@ -307,48 +291,6 @@ bool TypeInference::visit(InlineAssembly const& _inlineAssembly)
return false;
}
bool TypeInference::visit(ElementaryTypeNameExpression const& _expression)
{
auto& expressionAnnotation = annotation(_expression);
solAssert(!expressionAnnotation.type);
switch (m_expressionContext)
{
case ExpressionContext::Term:
case ExpressionContext::Type:
if (auto constructor = m_analysis.annotation<TypeRegistration>(_expression).typeConstructor)
{
std::vector<Type> arguments;
std::generate_n(std::back_inserter(arguments), m_typeSystem.constructorInfo(*constructor).arguments(), [&]() {
return m_typeSystem.freshTypeVariable({});
});
// TODO: get rid of the distinction (assign a function on unit for the empty case)? Ambiguity?
if (arguments.empty() || m_expressionContext == ExpressionContext::Term)
expressionAnnotation.type = m_typeSystem.type(*constructor, arguments);
else
{
TypeSystemHelpers helper{m_typeSystem};
expressionAnnotation.type =
helper.typeFunctionType(
helper.tupleType(arguments),
m_typeSystem.type(*constructor, arguments)
);
}
}
else
{
m_errorReporter.typeError(4107_error, _expression.location(), "No type constructor registered for elementary type name.");
expressionAnnotation.type = m_typeSystem.freshTypeVariable({});
}
break;
case ExpressionContext::Sort:
m_errorReporter.typeError(2024_error, _expression.location(), "Elementary type name expression not supported in sort context.");
expressionAnnotation.type = m_typeSystem.freshTypeVariable({});
break;
}
return false;
}
bool TypeInference::visit(BinaryOperation const& _binaryOperation)
{
auto& operationAnnotation = annotation(_binaryOperation);
@ -825,6 +767,8 @@ void TypeInference::endVisit(MemberAccess const& _memberAccess)
bool TypeInference::visit(TypeDefinition const& _typeDefinition)
{
bool isBuiltIn = dynamic_cast<Builtin const*>(_typeDefinition.typeExpression());
TypeSystemHelpers helper{m_typeSystem};
auto& typeDefinitionAnnotation = annotation(_typeDefinition);
if (typeDefinitionAnnotation.type)
@ -833,14 +777,6 @@ bool TypeInference::visit(TypeDefinition const& _typeDefinition)
if (_typeDefinition.arguments())
_typeDefinition.arguments()->accept(*this);
std::optional<Type> underlyingType;
if (_typeDefinition.typeExpression())
{
ScopedSaveAndRestore expressionContext{m_expressionContext, ExpressionContext::Type};
_typeDefinition.typeExpression()->accept(*this);
underlyingType = annotation(*_typeDefinition.typeExpression()).type;
}
std::vector<Type> arguments;
if (_typeDefinition.arguments())
for (size_t i = 0; i < _typeDefinition.arguments()->parameters().size(); ++i)
@ -852,6 +788,19 @@ bool TypeInference::visit(TypeDefinition const& _typeDefinition)
else
typeDefinitionAnnotation.type = helper.typeFunctionType(helper.tupleType(arguments), definedType);
std::optional<Type> underlyingType;
if (isBuiltIn)
// TODO: This special case should eventually become user-definable.
underlyingType = m_wordType;
else if (_typeDefinition.typeExpression())
{
ScopedSaveAndRestore expressionContext{m_expressionContext, ExpressionContext::Type};
_typeDefinition.typeExpression()->accept(*this);
underlyingType = annotation(*_typeDefinition.typeExpression()).type;
}
TypeConstructor constructor = typeConstructor(&_typeDefinition);
auto [members, newlyInserted] = annotation().members.emplace(constructor, std::map<std::string, TypeMember>{});
solAssert(newlyInserted, fmt::format("Members of type '{}' are already defined.", m_typeSystem.constructorInfo(constructor).name));
@ -860,6 +809,15 @@ bool TypeInference::visit(TypeDefinition const& _typeDefinition)
members->second.emplace("abs", TypeMember{helper.functionType(*underlyingType, definedType)});
members->second.emplace("rep", TypeMember{helper.functionType(definedType, *underlyingType)});
}
if (helper.isPrimitiveType(definedType, PrimitiveType::Pair))
{
solAssert(isBuiltIn);
solAssert(arguments.size() == 2);
members->second.emplace("first", TypeMember{helper.functionType(definedType, arguments[0])});
members->second.emplace("second", TypeMember{helper.functionType(definedType, arguments[1])});
}
return false;
}

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@ -79,7 +79,6 @@ public:
bool visit(MemberAccess const& _memberAccess) override;
void endVisit(MemberAccess const& _memberAccess) override;
bool visit(ElementaryTypeNameExpression const& _expression) override;
bool visit(TypeClassDefinition const& _typeClassDefinition) override;
bool visit(TypeClassInstantiation const& _typeClassInstantiation) override;

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@ -56,32 +56,30 @@ bool TypeRegistration::visit(TypeClassDefinition const& _typeClassDefinition)
return true;
}
bool TypeRegistration::visit(ElementaryTypeName const& _typeName)
bool TypeRegistration::visit(Builtin const& _builtin)
{
if (annotation(_typeName).typeConstructor)
if (annotation(_builtin).typeConstructor)
return false;
annotation(_typeName).typeConstructor = [&]() -> std::optional<TypeConstructor> {
switch (_typeName.typeName().token())
{
case Token::Void:
return m_typeSystem.constructor(PrimitiveType::Void);
case Token::Fun:
return m_typeSystem.constructor(PrimitiveType::Function);
case Token::Unit:
return m_typeSystem.constructor(PrimitiveType::Unit);
case Token::Pair:
return m_typeSystem.constructor(PrimitiveType::Pair);
case Token::Word:
return m_typeSystem.constructor(PrimitiveType::Word);
case Token::Integer:
return m_typeSystem.constructor(PrimitiveType::Integer);
case Token::Bool:
return m_typeSystem.constructor(PrimitiveType::Bool);
default:
m_errorReporter.fatalTypeError(7758_error, _typeName.location(), "Expected primitive type.");
return std::nullopt;
}
}();
auto primitiveType = [&](std::string _name) -> std::optional<PrimitiveType> {
if (_name == "void") return PrimitiveType::Void;
if (_name == "fun") return PrimitiveType::Function;
if (_name == "unit") return PrimitiveType::Unit;
if (_name == "pair") return PrimitiveType::Pair;
if (_name == "word") return PrimitiveType::Word;
if (_name == "integer") return PrimitiveType::Integer;
if (_name == "bool") return PrimitiveType::Bool;
return std::nullopt;
}(_builtin.nameParameter());
if (!primitiveType.has_value())
m_errorReporter.fatalTypeError(
7758_error,
_builtin.location(),
"Expected the name of a built-in primitive type."
);
annotation(_builtin).typeConstructor = m_typeSystem.constructor(primitiveType.value());
return true;
}
@ -165,15 +163,41 @@ bool TypeRegistration::visit(TypeClassInstantiation const& _typeClassInstantiati
bool TypeRegistration::visit(TypeDefinition const& _typeDefinition)
{
if (annotation(_typeDefinition).typeConstructor)
return false;
annotation(_typeDefinition).typeConstructor = m_typeSystem.declareTypeConstructor(
_typeDefinition.name(),
"t_" + *_typeDefinition.annotation().canonicalName + "_" + util::toString(_typeDefinition.id()),
_typeDefinition.arguments() ? _typeDefinition.arguments()->parameters().size() : 0,
&_typeDefinition
);
return true;
return !annotation(_typeDefinition).typeConstructor.has_value();
}
void TypeRegistration::endVisit(TypeDefinition const& _typeDefinition)
{
if (annotation(_typeDefinition).typeConstructor.has_value())
return;
if (auto const* builtin = dynamic_cast<Builtin const*>(_typeDefinition.typeExpression()))
{
auto [previousDefinitionIt, inserted] = annotation().builtinTypeDefinitions.try_emplace(
builtin->nameParameter(),
&_typeDefinition
);
if (inserted)
annotation(_typeDefinition).typeConstructor = annotation(*builtin).typeConstructor;
else
{
auto const& [builtinName, previousDefinition] = *previousDefinitionIt;
m_errorReporter.typeError(
9609_error,
_typeDefinition.location(),
SecondarySourceLocation{}.append("Previous definition:", previousDefinition->location()),
"Duplicate builtin type definition."
);
}
}
else
annotation(_typeDefinition).typeConstructor = m_typeSystem.declareTypeConstructor(
_typeDefinition.name(),
"t_" + *_typeDefinition.annotation().canonicalName + "_" + util::toString(_typeDefinition.id()),
_typeDefinition.arguments() ? _typeDefinition.arguments()->parameters().size() : 0,
&_typeDefinition
);
}
TypeRegistration::Annotation& TypeRegistration::annotation(ASTNode const& _node)

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@ -35,13 +35,14 @@ public:
{
// For type class definitions.
TypeClassInstantiations instantiations;
// For type definitions, type class definitions, type names and type name expressions.
// For builtins, type definitions, type class definitions, type names and type name expressions.
std::optional<TypeConstructor> typeConstructor;
};
struct GlobalAnnotation
{
std::map<PrimitiveClass, TypeClassInstantiations> primitiveClassInstantiations;
std::map<BuiltinClass, TypeClassInstantiations> builtinClassInstantiations;
std::map<std::string, TypeDefinition const*> builtinTypeDefinitions;
};
TypeRegistration(Analysis& _analysis);
@ -50,9 +51,10 @@ private:
bool visit(TypeClassDefinition const& _typeClassDefinition) override;
bool visit(TypeClassInstantiation const& _typeClassInstantiation) override;
bool visit(TypeDefinition const& _typeDefinition) override;
void endVisit(TypeDefinition const& _typeDefinition) override;
bool visit(UserDefinedTypeName const& _typeName) override;
void endVisit(ElementaryTypeNameExpression const& _typeName) override;
bool visit(ElementaryTypeName const& _typeName) override;
bool visit(Builtin const& _builtin) override;
Annotation& annotation(ASTNode const& _node);
GlobalAnnotation& annotation();

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@ -66,7 +66,7 @@ std::optional<TypeConstructor> experimental::typeConstructorFromToken(Analysis c
return typeSystem.builtinConstructor(BuiltinType::Pair);
case Token::Word:
return typeSystem.builtinConstructor(BuiltinType::Word);
case Token::Integer:
case Token::IntegerType:
return typeSystem.builtinConstructor(BuiltinType::Integer);
case Token::Bool:
return typeSystem.builtinConstructor(BuiltinType::Bool);
@ -224,6 +224,14 @@ bool TypeSystemHelpers::isTypeConstant(Type _type) const
}, _type);
}
bool TypeSystemHelpers::isPrimitiveType(Type _type, PrimitiveType _primitiveType) const
{
if (!isTypeConstant(_type))
return false;
auto constructor = std::get<0>(destTypeConstant(_type));
return constructor == typeSystem.constructor(_primitiveType);
}
experimental::Type TypeSystemHelpers::functionType(experimental::Type _argType, experimental::Type _resultType) const
{
return typeSystem.type(PrimitiveType::Function, {_argType, _resultType});
@ -239,10 +247,7 @@ std::tuple<experimental::Type, experimental::Type> TypeSystemHelpers::destFuncti
bool TypeSystemHelpers::isFunctionType(Type _type) const
{
if (!isTypeConstant(_type))
return false;
auto constructor = std::get<0>(destTypeConstant(_type));
return constructor == typeSystem.constructor(PrimitiveType::Function);
return isPrimitiveType(_type, PrimitiveType::Function);
}
experimental::Type TypeSystemHelpers::typeFunctionType(experimental::Type _argType, experimental::Type _resultType) const
@ -260,10 +265,7 @@ std::tuple<experimental::Type, experimental::Type> TypeSystemHelpers::destTypeFu
bool TypeSystemHelpers::isTypeFunctionType(Type _type) const
{
if (!isTypeConstant(_type))
return false;
auto constructor = std::get<0>(destTypeConstant(_type));
return constructor == typeSystem.constructor(PrimitiveType::TypeFunction);
return isPrimitiveType(_type, PrimitiveType::TypeFunction);
}
std::vector<experimental::Type> TypeEnvironmentHelpers::typeVars(Type _type) const

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@ -35,6 +35,7 @@ struct TypeSystemHelpers
TypeSystem const& typeSystem;
std::tuple<TypeConstructor, std::vector<Type>> destTypeConstant(Type _type) const;
bool isTypeConstant(Type _type) const;
bool isPrimitiveType(Type _type, PrimitiveType _primitiveType) const;
Type tupleType(std::vector<Type> _elements) const;
std::vector<Type> destTupleType(Type _tupleType) const;
Type sumType(std::vector<Type> _elements) const;

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@ -1831,7 +1831,22 @@ ASTPointer<TypeDefinition> Parser::parseTypeDefinition()
if (m_scanner->currentToken() == Token::Assign)
{
expectToken(Token::Assign);
expression = parseExpression();
if (m_scanner->currentToken() != Token::Builtin)
expression = parseExpression();
else
{
expectToken(Token::Builtin);
expectToken(Token::LParen);
expression = nodeFactory.createNode<Builtin>(
std::make_shared<std::string>(m_scanner->currentLiteral()),
m_scanner->currentLocation()
);
expectToken(Token::StringLiteral);
expectToken(Token::RParen);
}
}
nodeFactory.markEndPosition();
expectToken(Token::Semicolon);

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@ -1,5 +1,9 @@
pragma experimental solidity;
type word = __builtin("word");
type bool = __builtin("bool");
type integer = __builtin("integer");
type uint256 = word;
instantiation uint256: + {
@ -34,7 +38,7 @@ instantiation word: * {
}
}
instantiation word: integer {
instantiation word: Integer {
function fromInteger(x:integer) -> word {
//x + x;
}

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@ -1,5 +1,8 @@
pragma experimental solidity;
type word = __builtin("word");
type bool = __builtin("bool");
type Cat = word;
type Dog = word;
@ -59,7 +62,6 @@ contract C {
// ====
// EVMVersion: >=constantinople
// ====
// compileViaYul: true
// ----
// () -> 1, 0

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@ -0,0 +1,90 @@
pragma experimental solidity;
type void = __builtin("void");
type bool = __builtin("bool");
type word = __builtin("word");
type integer = __builtin("integer");
type unit = __builtin("unit");
type fun(T, U) = __builtin("fun");
type pair(T, U) = __builtin("pair");
contract C {
fallback() external {
let v: void;
let b: bool;
bool.abs(bool.rep(b));
let w: word;
let i: integer;
let u: unit;
let f: fun(word, bool);
b = f(w);
let p: pair(bool, word);
pair.first(p);
pair.second(p);
}
}
// ====
// EVMVersion: >=constantinople
// ----
// Warning 2264: (0-29): Experimental features are turned on. Do not use experimental features on live deployments.
// Info 4164: (31-61): Inferred type: void
// Info 4164: (63-93): Inferred type: bool
// Info 4164: (94-124): Inferred type: word
// Info 4164: (125-161): Inferred type: integer
// Info 4164: (162-192): Inferred type: ()
// Info 4164: (194-228): Inferred type: tfun(('u:type, 'v:type), 'u:type -> 'v:type)
// Info 4164: (202-208): Inferred type: ('s:type, 't:type)
// Info 4164: (203-204): Inferred type: 's:type
// Info 4164: (206-207): Inferred type: 't:type
// Info 4164: (229-265): Inferred type: tfun(('y:type, 'z:type), ('y:type, 'z:type))
// Info 4164: (238-244): Inferred type: ('w:type, 'x:type)
// Info 4164: (239-240): Inferred type: 'w:type
// Info 4164: (242-243): Inferred type: 'x:type
// Info 4164: (284-584): Inferred type: () -> ()
// Info 4164: (292-294): Inferred type: ()
// Info 4164: (318-325): Inferred type: void
// Info 4164: (321-325): Inferred type: void
// Info 4164: (340-347): Inferred type: bool
// Info 4164: (343-347): Inferred type: bool
// Info 4164: (357-378): Inferred type: bool
// Info 4164: (357-365): Inferred type: word -> bool
// Info 4164: (357-361): Inferred type: bool
// Info 4164: (366-377): Inferred type: word
// Info 4164: (366-374): Inferred type: bool -> word
// Info 4164: (366-370): Inferred type: bool
// Info 4164: (375-376): Inferred type: bool
// Info 4164: (393-400): Inferred type: word
// Info 4164: (396-400): Inferred type: word
// Info 4164: (414-424): Inferred type: integer
// Info 4164: (417-424): Inferred type: integer
// Info 4164: (438-445): Inferred type: ()
// Info 4164: (441-445): Inferred type: ()
// Info 4164: (460-478): Inferred type: word -> bool
// Info 4164: (463-478): Inferred type: word -> bool
// Info 4164: (463-466): Inferred type: tfun((word, bool), word -> bool)
// Info 4164: (467-471): Inferred type: word
// Info 4164: (473-477): Inferred type: bool
// Info 4164: (488-496): Inferred type: bool
// Info 4164: (488-489): Inferred type: bool
// Info 4164: (492-496): Inferred type: bool
// Info 4164: (492-493): Inferred type: word -> bool
// Info 4164: (494-495): Inferred type: word
// Info 4164: (511-530): Inferred type: (bool, word)
// Info 4164: (514-530): Inferred type: (bool, word)
// Info 4164: (514-518): Inferred type: tfun((bool, word), (bool, word))
// Info 4164: (519-523): Inferred type: bool
// Info 4164: (525-529): Inferred type: word
// Info 4164: (540-553): Inferred type: bool
// Info 4164: (540-550): Inferred type: (bool, word) -> bool
// Info 4164: (540-544): Inferred type: ('cb:type, 'cc:type)
// Info 4164: (551-552): Inferred type: (bool, word)
// Info 4164: (563-577): Inferred type: word
// Info 4164: (563-574): Inferred type: (bool, word) -> word
// Info 4164: (563-567): Inferred type: ('ci:type, 'cj:type)
// Info 4164: (575-576): Inferred type: (bool, word)

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@ -0,0 +1,17 @@
pragma experimental solidity;
type void1 = __builtin("void");
type void2 = __builtin("void");
type word1 = __builtin("word");
type word2 = __builtin("word");
type fun1(T, U) = __builtin("fun");
type fun2(T, U) = __builtin("fun");
// ====
// EVMVersion: >=constantinople
// ----
// Warning 2264: (0-29): Experimental features are turned on. Do not use experimental features on live deployments.
// TypeError 9609: (63-94): Duplicate builtin type definition.
// TypeError 9609: (128-159): Duplicate builtin type definition.
// TypeError 9609: (197-232): Duplicate builtin type definition.

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@ -0,0 +1,8 @@
pragma experimental solidity;
type someUnknownType = __builtin("someUnknownType");
// ====
// EVMVersion: >=constantinople
// ----
// Warning 2264: (0-29): Experimental features are turned on. Do not use experimental features on live deployments.
// TypeError 7758: (31-81): Expected the name of a built-in primitive type.