// Copyright 2006-2009 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_PARSING_FUNC_NAME_INFERRER_H_
#define V8_PARSING_FUNC_NAME_INFERRER_H_
#include <vector>
#include "src/base/macros.h"
#include "src/utils/pointer-with-payload.h"
namespace v8 {
namespace internal {
class AstConsString;
class AstRawString;
class AstValueFactory;
class FunctionLiteral;
enum class InferName { kYes, kNo };
template <>
struct PointerWithPayloadTraits<AstRawString> {
static constexpr int value = 2;
};
// FuncNameInferrer is a stateful class that is used to perform name
// inference for anonymous functions during static analysis of source code.
// Inference is performed in cases when an anonymous function is assigned
// to a variable or a property (see test-func-name-inference.cc for examples.)
//
// The basic idea is that during parsing of LHSs of certain expressions
// (assignments, declarations, object literals) we collect name strings,
// and during parsing of the RHS, a function literal can be collected. After
// parsing the RHS we can infer a name for function literals that do not have
// a name.
class FuncNameInferrer {
public:
explicit FuncNameInferrer(AstValueFactory* ast_value_factory);
FuncNameInferrer(const FuncNameInferrer&) = delete;
FuncNameInferrer& operator=(const FuncNameInferrer&) = delete;
// To enter function name inference state, put a FuncNameInferrer::State
// on the stack.
class State {
public:
explicit State(FuncNameInferrer* fni)
: fni_(fni), top_(fni->names_stack_.size()) {
++fni_->scope_depth_;
}
~State() {
DCHECK(fni_->IsOpen());
fni_->names_stack_.resize(top_);
--fni_->scope_depth_;
}
State(const State&) = delete;
State& operator=(const State&) = delete;
private:
FuncNameInferrer* fni_;
size_t top_;
};
// Returns whether we have entered name collection state.
bool IsOpen() const { return scope_depth_ > 0; }
// Pushes an enclosing the name of enclosing function onto names stack.
void PushEnclosingName(const AstRawString* name);
// Pushes an encountered name onto names stack when in collection state.
void PushLiteralName(const AstRawString* name);
void PushVariableName(const AstRawString* name);
// Adds a function to infer name for.
void AddFunction(FunctionLiteral* func_to_infer) {
if (IsOpen()) {
funcs_to_infer_.push_back(func_to_infer);
}
}
void RemoveLastFunction() {
if (IsOpen() && !funcs_to_infer_.empty()) funcs_to_infer_.pop_back();
}
void RemoveAsyncKeywordFromEnd();
// Infers a function name and leaves names collection state.
void Infer() {
DCHECK(IsOpen());
if (!funcs_to_infer_.empty()) InferFunctionsNames();
}
private:
enum NameType : uint8_t {
kEnclosingConstructorName,
kLiteralName,
kVariableName
};
struct Name {
// Needed for names_stack_.resize()
Name() { UNREACHABLE(); }
Name(const AstRawString* name, NameType type)
: name_and_type_(name, type) {}
PointerWithPayload<const AstRawString, NameType, 2> name_and_type_;
inline const AstRawString* name() const {
return name_and_type_.GetPointer();
}
inline NameType type() const { return name_and_type_.GetPayload(); }
};
// Constructs a full name in dotted notation from gathered names.
AstConsString* MakeNameFromStack();
// Performs name inferring for added functions.
void InferFunctionsNames();
AstValueFactory* ast_value_factory_;
std::vector<Name> names_stack_;
std::vector<FunctionLiteral*> funcs_to_infer_;
size_t scope_depth_ = 0;
};
} // namespace internal
} // namespace v8
#endif // V8_PARSING_FUNC_NAME_INFERRER_H_