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chromium / v8 / v8 / fb63e5cf55e93d7b4df51d3f382a6c84d25a5e86 / . / src / function-kind.h
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// Copyright 2019 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_FUNCTION_KIND_H_
#define V8_FUNCTION_KIND_H_
#include "src/utils.h"
namespace v8 {
namespace internal {
enum FunctionKind : uint8_t {
// BEGIN constructable functions
kNormalFunction,
kModule,
// BEGIN class constructors
// BEGIN base constructors
kBaseConstructor,
// BEGIN default constructors
kDefaultBaseConstructor,
// END base constructors
// BEGIN derived cosntructors
kDefaultDerivedConstructor,
// END default constructors
kDerivedConstructor,
// END derived costructors
// END class cosntructors
// END constructable functions.
// BEGIN accessors
kGetterFunction,
kSetterFunction,
// END accessors
// BEGIN arrow functions
kArrowFunction,
// BEGIN async functions
kAsyncArrowFunction,
// END arrow functions
kAsyncFunction,
// BEGIN concise methods 1
kAsyncConciseMethod,
// BEGIN generators
kAsyncConciseGeneratorMethod,
// END concise methods 1
kAsyncGeneratorFunction,
// END async functions
kGeneratorFunction,
// BEGIN concise methods 2
kConciseGeneratorMethod,
// END generators
kConciseMethod,
kClassMembersInitializerFunction,
// END concise methods 2
kLastFunctionKind = kClassMembersInitializerFunction,
};
inline bool IsArrowFunction(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kArrowFunction,
FunctionKind::kAsyncArrowFunction);
}
inline bool IsModule(FunctionKind kind) {
return kind == FunctionKind::kModule;
}
inline bool IsAsyncGeneratorFunction(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kAsyncConciseGeneratorMethod,
FunctionKind::kAsyncGeneratorFunction);
}
inline bool IsGeneratorFunction(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kAsyncConciseGeneratorMethod,
FunctionKind::kConciseGeneratorMethod);
}
inline bool IsAsyncFunction(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kAsyncArrowFunction,
FunctionKind::kAsyncGeneratorFunction);
}
inline bool IsResumableFunction(FunctionKind kind) {
return IsGeneratorFunction(kind) || IsAsyncFunction(kind) || IsModule(kind);
}
inline bool IsConciseMethod(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kAsyncConciseMethod,
FunctionKind::kAsyncConciseGeneratorMethod) ||
IsInRange(kind, FunctionKind::kConciseGeneratorMethod,
FunctionKind::kClassMembersInitializerFunction);
}
inline bool IsStrictFunctionWithoutPrototype(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kGetterFunction,
FunctionKind::kAsyncArrowFunction) ||
IsInRange(kind, FunctionKind::kAsyncConciseMethod,
FunctionKind::kAsyncConciseGeneratorMethod) ||
IsInRange(kind, FunctionKind::kConciseGeneratorMethod,
FunctionKind::kClassMembersInitializerFunction);
}
inline bool IsGetterFunction(FunctionKind kind) {
return kind == FunctionKind::kGetterFunction;
}
inline bool IsSetterFunction(FunctionKind kind) {
return kind == FunctionKind::kSetterFunction;
}
inline bool IsAccessorFunction(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kGetterFunction,
FunctionKind::kSetterFunction);
}
inline bool IsDefaultConstructor(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kDefaultBaseConstructor,
FunctionKind::kDefaultDerivedConstructor);
}
inline bool IsBaseConstructor(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kBaseConstructor,
FunctionKind::kDefaultBaseConstructor);
}
inline bool IsDerivedConstructor(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kDefaultDerivedConstructor,
FunctionKind::kDerivedConstructor);
}
inline bool IsClassConstructor(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kBaseConstructor,
FunctionKind::kDerivedConstructor);
}
inline bool IsClassMembersInitializerFunction(FunctionKind kind) {
return kind == FunctionKind::kClassMembersInitializerFunction;
}
inline bool IsConstructable(FunctionKind kind) {
return IsInRange(kind, FunctionKind::kNormalFunction,
FunctionKind::kDerivedConstructor);
}
inline std::ostream& operator<<(std::ostream& os, FunctionKind kind) {
switch (kind) {
case FunctionKind::kNormalFunction:
return os << "NormalFunction";
case FunctionKind::kArrowFunction:
return os << "ArrowFunction";
case FunctionKind::kGeneratorFunction:
return os << "GeneratorFunction";
case FunctionKind::kConciseMethod:
return os << "ConciseMethod";
case FunctionKind::kDerivedConstructor:
return os << "DerivedConstructor";
case FunctionKind::kBaseConstructor:
return os << "BaseConstructor";
case FunctionKind::kGetterFunction:
return os << "GetterFunction";
case FunctionKind::kSetterFunction:
return os << "SetterFunction";
case FunctionKind::kAsyncFunction:
return os << "AsyncFunction";
case FunctionKind::kModule:
return os << "Module";
case FunctionKind::kClassMembersInitializerFunction:
return os << "ClassMembersInitializerFunction";
case FunctionKind::kDefaultBaseConstructor:
return os << "DefaultBaseConstructor";
case FunctionKind::kDefaultDerivedConstructor:
return os << "DefaultDerivedConstructor";
case FunctionKind::kAsyncArrowFunction:
return os << "AsyncArrowFunction";
case FunctionKind::kAsyncConciseMethod:
return os << "AsyncConciseMethod";
case FunctionKind::kConciseGeneratorMethod:
return os << "ConciseGeneratorMethod";
case FunctionKind::kAsyncConciseGeneratorMethod:
return os << "AsyncConciseGeneratorMethod";
case FunctionKind::kAsyncGeneratorFunction:
return os << "AsyncGeneratorFunction";
}
UNREACHABLE();
}
} // namespace internal
} // namespace v8
#endif // V8_FUNCTION_KIND_H_