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Unified Diff: src/preparser.h

Issue 158913003: Traitify ParserBase and move functions there. (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge
Patch Set: Created 6 years, 10 months ago
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Index: src/preparser.h
diff --git a/src/preparser.h b/src/preparser.h
index bcaab743e5ad28e903bdd297154fd6fb7519e593..b6a9e8422151cc5ce12308ebd71714039cb53d56 100644
--- a/src/preparser.h
+++ b/src/preparser.h
@@ -36,18 +36,19 @@ namespace v8 {
namespace internal {
// Common base class shared between parser and pre-parser.
-class ParserBase {
+template <typename Traits>
+class ParserBase : public Traits {
public:
- ParserBase(Scanner* scanner, uintptr_t stack_limit)
- : scanner_(scanner),
+ ParserBase(Scanner* scanner, uintptr_t stack_limit,
+ typename Traits::ParserType this_object)
+ : Traits(this_object),
+ scanner_(scanner),
stack_limit_(stack_limit),
stack_overflow_(false),
allow_lazy_(false),
allow_natives_syntax_(false),
allow_generators_(false),
allow_for_of_(false) { }
- // TODO(mstarzinger): Only virtual until message reporting has been unified.
- virtual ~ParserBase() { }
// Getters that indicate whether certain syntactical constructs are
// allowed to be parsed by this instance of the parser.
@@ -87,8 +88,6 @@ class ParserBase {
bool stack_overflow() const { return stack_overflow_; }
void set_stack_overflow() { stack_overflow_ = true; }
- virtual bool is_classic_mode() = 0;
-
INLINE(Token::Value peek()) {
if (stack_overflow_) return Token::ILLEGAL;
return scanner()->peek();
@@ -132,25 +131,99 @@ class ParserBase {
}
}
- bool peek_any_identifier();
- void ExpectSemicolon(bool* ok);
- bool CheckContextualKeyword(Vector<const char> keyword);
- void ExpectContextualKeyword(Vector<const char> keyword, bool* ok);
+ void ExpectSemicolon(bool* ok) {
+ // Check for automatic semicolon insertion according to
+ // the rules given in ECMA-262, section 7.9, page 21.
+ Token::Value tok = peek();
+ if (tok == Token::SEMICOLON) {
+ Next();
+ return;
+ }
+ if (scanner()->HasAnyLineTerminatorBeforeNext() ||
+ tok == Token::RBRACE ||
+ tok == Token::EOS) {
+ return;
+ }
+ Expect(Token::SEMICOLON, ok);
+ }
+
+ bool peek_any_identifier() {
+ Token::Value next = peek();
+ return next == Token::IDENTIFIER ||
+ next == Token::FUTURE_RESERVED_WORD ||
+ next == Token::FUTURE_STRICT_RESERVED_WORD ||
+ next == Token::YIELD;
+ }
- // Strict mode octal literal validation.
- void CheckOctalLiteral(int beg_pos, int end_pos, bool* ok);
+ bool CheckContextualKeyword(Vector<const char> keyword) {
+ if (peek() == Token::IDENTIFIER &&
+ scanner()->is_next_contextual_keyword(keyword)) {
+ Consume(Token::IDENTIFIER);
+ return true;
+ }
+ return false;
+ }
+
+ void ExpectContextualKeyword(Vector<const char> keyword, bool* ok) {
+ Expect(Token::IDENTIFIER, ok);
+ if (!*ok) return;
+ if (!scanner()->is_literal_contextual_keyword(keyword)) {
+ ReportUnexpectedToken(scanner()->current_token());
+ *ok = false;
+ }
+ }
+
+ // Checks whether an octal literal was last seen between beg_pos and end_pos.
+ // If so, reports an error. Only called for strict mode.
+ void CheckOctalLiteral(int beg_pos, int end_pos, bool* ok) {
+ Scanner::Location octal = scanner()->octal_position();
+ if (octal.IsValid() && beg_pos <= octal.beg_pos &&
+ octal.end_pos <= end_pos) {
+ ReportMessageAt(octal, "strict_octal_literal");
+ scanner()->clear_octal_position();
+ *ok = false;
+ }
+ }
// Determine precedence of given token.
- static int Precedence(Token::Value token, bool accept_IN);
+ static int Precedence(Token::Value token, bool accept_IN) {
+ if (token == Token::IN && !accept_IN)
+ return 0; // 0 precedence will terminate binary expression parsing
+ return Token::Precedence(token);
+ }
// Report syntax errors.
- void ReportUnexpectedToken(Token::Value token);
- void ReportMessageAt(Scanner::Location location, const char* type) {
- ReportMessageAt(location, type, Vector<const char*>::empty());
+ void ReportMessage(const char* message, Vector<const char*> args) {
+ Scanner::Location source_location = scanner()->location();
+ Traits::ReportMessageAt(source_location, message, args);
}
- virtual void ReportMessageAt(Scanner::Location source_location,
- const char* message,
- Vector<const char*> args) = 0;
+
+ void ReportMessageAt(Scanner::Location location, const char* message) {
+ Traits::ReportMessageAt(location, message, Vector<const char*>::empty());
+ }
+
+ void ReportUnexpectedToken(Token::Value token);
+
+ // Recursive descent functions:
+
+ // Parses an identifier that is valid for the current scope, in particular it
+ // fails on strict mode future reserved keywords in a strict scope. If
+ // allow_eval_or_arguments is kAllowEvalOrArguments, we allow "eval" or
+ // "arguments" as identifier even in strict mode (this is needed in cases like
+ // "var foo = eval;").
+ typename Traits::IdentifierType ParseIdentifier(
+ AllowEvalOrArgumentsAsIdentifier,
+ bool* ok);
+ // Parses an identifier or a strict mode future reserved word, and indicate
+ // whether it is strict mode future reserved.
+ typename Traits::IdentifierType ParseIdentifierOrStrictReservedWord(
+ bool* is_strict_reserved,
+ bool* ok);
+ typename Traits::IdentifierType ParseIdentifierName(bool* ok);
+ // Parses an identifier and determines whether or not it is 'get' or 'set'.
+ typename Traits::IdentifierType ParseIdentifierNameOrGetOrSet(bool* is_get,
+ bool* is_set,
+ bool* ok);
// Used to detect duplicates in object literals. Each of the values
// kGetterProperty, kSetterProperty and kValueProperty represents
@@ -218,6 +291,176 @@ class ParserBase {
};
+class PreParserIdentifier {
+ public:
+ static PreParserIdentifier Default() {
+ return PreParserIdentifier(kUnknownIdentifier);
+ }
+ static PreParserIdentifier Eval() {
+ return PreParserIdentifier(kEvalIdentifier);
+ }
+ static PreParserIdentifier Arguments() {
+ return PreParserIdentifier(kArgumentsIdentifier);
+ }
+ static PreParserIdentifier FutureReserved() {
+ return PreParserIdentifier(kFutureReservedIdentifier);
+ }
+ static PreParserIdentifier FutureStrictReserved() {
+ return PreParserIdentifier(kFutureStrictReservedIdentifier);
+ }
+ static PreParserIdentifier Yield() {
+ return PreParserIdentifier(kYieldIdentifier);
+ }
+ bool IsEval() { return type_ == kEvalIdentifier; }
+ bool IsArguments() { return type_ == kArgumentsIdentifier; }
+ bool IsEvalOrArguments() { return type_ >= kEvalIdentifier; }
+ bool IsYield() { return type_ == kYieldIdentifier; }
+ bool IsFutureReserved() { return type_ == kFutureReservedIdentifier; }
+ bool IsFutureStrictReserved() {
+ return type_ == kFutureStrictReservedIdentifier;
+ }
+ bool IsValidStrictVariable() { return type_ == kUnknownIdentifier; }
+
+ private:
+ enum Type {
+ kUnknownIdentifier,
+ kFutureReservedIdentifier,
+ kFutureStrictReservedIdentifier,
+ kYieldIdentifier,
+ kEvalIdentifier,
+ kArgumentsIdentifier
+ };
+ explicit PreParserIdentifier(Type type) : type_(type) {}
+ Type type_;
+
+ friend class PreParserExpression;
+};
+
+
+// Bits 0 and 1 are used to identify the type of expression:
+// If bit 0 is set, it's an identifier.
+// if bit 1 is set, it's a string literal.
+// If neither is set, it's no particular type, and both set isn't
+// use yet.
+class PreParserExpression {
+ public:
+ static PreParserExpression Default() {
+ return PreParserExpression(kUnknownExpression);
+ }
+
+ static PreParserExpression FromIdentifier(PreParserIdentifier id) {
+ return PreParserExpression(kIdentifierFlag |
+ (id.type_ << kIdentifierShift));
+ }
+
+ static PreParserExpression StringLiteral() {
+ return PreParserExpression(kUnknownStringLiteral);
+ }
+
+ static PreParserExpression UseStrictStringLiteral() {
+ return PreParserExpression(kUseStrictString);
+ }
+
+ static PreParserExpression This() {
+ return PreParserExpression(kThisExpression);
+ }
+
+ static PreParserExpression ThisProperty() {
+ return PreParserExpression(kThisPropertyExpression);
+ }
+
+ static PreParserExpression StrictFunction() {
+ return PreParserExpression(kStrictFunctionExpression);
+ }
+
+ bool IsIdentifier() { return (code_ & kIdentifierFlag) != 0; }
+
+ // Only works corretly if it is actually an identifier expression.
+ PreParserIdentifier AsIdentifier() {
+ return PreParserIdentifier(
+ static_cast<PreParserIdentifier::Type>(code_ >> kIdentifierShift));
+ }
+
+ bool IsStringLiteral() { return (code_ & kStringLiteralFlag) != 0; }
+
+ bool IsUseStrictLiteral() {
+ return (code_ & kStringLiteralMask) == kUseStrictString;
+ }
+
+ bool IsThis() { return code_ == kThisExpression; }
+
+ bool IsThisProperty() { return code_ == kThisPropertyExpression; }
+
+ bool IsStrictFunction() { return code_ == kStrictFunctionExpression; }
+
+ private:
+ // First two/three bits are used as flags.
+ // Bit 0 and 1 represent identifiers or strings literals, and are
+ // mutually exclusive, but can both be absent.
+ enum {
+ kUnknownExpression = 0,
+ // Identifiers
+ kIdentifierFlag = 1, // Used to detect labels.
+ kIdentifierShift = 3,
+
+ kStringLiteralFlag = 2, // Used to detect directive prologue.
+ kUnknownStringLiteral = kStringLiteralFlag,
+ kUseStrictString = kStringLiteralFlag | 8,
+ kStringLiteralMask = kUseStrictString,
+
+ // Below here applies if neither identifier nor string literal.
+ kThisExpression = 4,
+ kThisPropertyExpression = 8,
+ kStrictFunctionExpression = 12
+ };
+
+ explicit PreParserExpression(int expression_code) : code_(expression_code) {}
+
+ int code_;
+};
+
+class PreParser;
+
+
+class PreParserTraits {
+ public:
+ typedef PreParser* ParserType;
+ // Return types for traversing functions.
+ typedef PreParserIdentifier IdentifierType;
+
+ explicit PreParserTraits(PreParser* pre_parser) : pre_parser_(pre_parser) {}
+
+ // Helper functions for recursive descent.
+ bool is_classic_mode() const;
+ bool is_generator() const;
+ static bool IsEvalOrArguments(IdentifierType identifier) {
+ return identifier.IsEvalOrArguments();
+ }
+
+ // Reporting errors.
+ void ReportMessageAt(Scanner::Location location,
+ const char* message,
+ Vector<const char*> args);
+ void ReportMessageAt(Scanner::Location location,
+ const char* type,
+ const char* name_opt);
+ void ReportMessageAt(int start_pos,
+ int end_pos,
+ const char* type,
+ const char* name_opt);
+
+ // Identifiers:
+ static IdentifierType EmptyIdentifier() {
+ return PreParserIdentifier::Default();
+ }
+
+ IdentifierType GetSymbol();
+
+ private:
+ PreParser* pre_parser_;
+};
+
+
// Preparsing checks a JavaScript program and emits preparse-data that helps
// a later parsing to be faster.
// See preparse-data-format.h for the data format.
@@ -230,8 +473,11 @@ class ParserBase {
// rather it is to speed up properly written and correct programs.
// That means that contextual checks (like a label being declared where
// it is used) are generally omitted.
-class PreParser : public ParserBase {
+class PreParser : public ParserBase<PreParserTraits> {
public:
+ typedef PreParserIdentifier Identifier;
+ typedef PreParserExpression Expression;
+
enum PreParseResult {
kPreParseStackOverflow,
kPreParseSuccess
@@ -240,7 +486,7 @@ class PreParser : public ParserBase {
PreParser(Scanner* scanner,
ParserRecorder* log,
uintptr_t stack_limit)
- : ParserBase(scanner, stack_limit),
+ : ParserBase<PreParserTraits>(scanner, stack_limit, this),
log_(log),
scope_(NULL),
parenthesized_function_(false) { }
@@ -278,6 +524,8 @@ class PreParser : public ParserBase {
ParserRecorder* log);
private:
+ friend class PreParserTraits;
+
// These types form an algebra over syntactic categories that is just
// rich enough to let us recognize and propagate the constructs that
// are either being counted in the preparser data, or is important
@@ -300,142 +548,6 @@ class PreParser : public ParserBase {
kHasNoInitializers
};
- class Expression;
-
- class Identifier {
- public:
- static Identifier Default() {
- return Identifier(kUnknownIdentifier);
- }
- static Identifier Eval() {
- return Identifier(kEvalIdentifier);
- }
- static Identifier Arguments() {
- return Identifier(kArgumentsIdentifier);
- }
- static Identifier FutureReserved() {
- return Identifier(kFutureReservedIdentifier);
- }
- static Identifier FutureStrictReserved() {
- return Identifier(kFutureStrictReservedIdentifier);
- }
- static Identifier Yield() {
- return Identifier(kYieldIdentifier);
- }
- bool IsEval() { return type_ == kEvalIdentifier; }
- bool IsArguments() { return type_ == kArgumentsIdentifier; }
- bool IsEvalOrArguments() { return type_ >= kEvalIdentifier; }
- bool IsYield() { return type_ == kYieldIdentifier; }
- bool IsFutureReserved() { return type_ == kFutureReservedIdentifier; }
- bool IsFutureStrictReserved() {
- return type_ == kFutureStrictReservedIdentifier;
- }
- bool IsValidStrictVariable() { return type_ == kUnknownIdentifier; }
-
- private:
- enum Type {
- kUnknownIdentifier,
- kFutureReservedIdentifier,
- kFutureStrictReservedIdentifier,
- kYieldIdentifier,
- kEvalIdentifier,
- kArgumentsIdentifier
- };
- explicit Identifier(Type type) : type_(type) { }
- Type type_;
-
- friend class Expression;
- };
-
- // Bits 0 and 1 are used to identify the type of expression:
- // If bit 0 is set, it's an identifier.
- // if bit 1 is set, it's a string literal.
- // If neither is set, it's no particular type, and both set isn't
- // use yet.
- class Expression {
- public:
- static Expression Default() {
- return Expression(kUnknownExpression);
- }
-
- static Expression FromIdentifier(Identifier id) {
- return Expression(kIdentifierFlag | (id.type_ << kIdentifierShift));
- }
-
- static Expression StringLiteral() {
- return Expression(kUnknownStringLiteral);
- }
-
- static Expression UseStrictStringLiteral() {
- return Expression(kUseStrictString);
- }
-
- static Expression This() {
- return Expression(kThisExpression);
- }
-
- static Expression ThisProperty() {
- return Expression(kThisPropertyExpression);
- }
-
- static Expression StrictFunction() {
- return Expression(kStrictFunctionExpression);
- }
-
- bool IsIdentifier() {
- return (code_ & kIdentifierFlag) != 0;
- }
-
- // Only works corretly if it is actually an identifier expression.
- PreParser::Identifier AsIdentifier() {
- return PreParser::Identifier(
- static_cast<PreParser::Identifier::Type>(code_ >> kIdentifierShift));
- }
-
- bool IsStringLiteral() { return (code_ & kStringLiteralFlag) != 0; }
-
- bool IsUseStrictLiteral() {
- return (code_ & kStringLiteralMask) == kUseStrictString;
- }
-
- bool IsThis() {
- return code_ == kThisExpression;
- }
-
- bool IsThisProperty() {
- return code_ == kThisPropertyExpression;
- }
-
- bool IsStrictFunction() {
- return code_ == kStrictFunctionExpression;
- }
-
- private:
- // First two/three bits are used as flags.
- // Bit 0 and 1 represent identifiers or strings literals, and are
- // mutually exclusive, but can both be absent.
- enum {
- kUnknownExpression = 0,
- // Identifiers
- kIdentifierFlag = 1, // Used to detect labels.
- kIdentifierShift = 3,
-
- kStringLiteralFlag = 2, // Used to detect directive prologue.
- kUnknownStringLiteral = kStringLiteralFlag,
- kUseStrictString = kStringLiteralFlag | 8,
- kStringLiteralMask = kUseStrictString,
-
- // Below here applies if neither identifier nor string literal.
- kThisExpression = 4,
- kThisPropertyExpression = 8,
- kStrictFunctionExpression = 12
- };
-
- explicit Expression(int expression_code) : code_(expression_code) { }
-
- int code_;
- };
-
class Statement {
public:
static Statement Default() {
@@ -546,27 +658,6 @@ class PreParser : public ParserBase {
bool is_generator_;
};
- // Report syntax error
- void ReportMessageAt(Scanner::Location location,
- const char* message,
- Vector<const char*> args) {
- ReportMessageAt(location.beg_pos,
- location.end_pos,
- message,
- args.length() > 0 ? args[0] : NULL);
- }
- void ReportMessageAt(Scanner::Location location,
- const char* type,
- const char* name_opt) {
- log_->LogMessage(location.beg_pos, location.end_pos, type, name_opt);
- }
- void ReportMessageAt(int start_pos,
- int end_pos,
- const char* type,
- const char* name_opt) {
- log_->LogMessage(start_pos, end_pos, type, name_opt);
- }
-
// All ParseXXX functions take as the last argument an *ok parameter
// which is set to false if parsing failed; it is unchanged otherwise.
// By making the 'exception handling' explicit, we are forced to check
@@ -622,18 +713,8 @@ class PreParser : public ParserBase {
bool* ok);
void ParseLazyFunctionLiteralBody(bool* ok);
- Identifier ParseIdentifier(AllowEvalOrArgumentsAsIdentifier, bool* ok);
- Identifier ParseIdentifierOrStrictReservedWord(bool* is_strict_reserved,
- bool* ok);
- Identifier ParseIdentifierName(bool* ok);
- Identifier ParseIdentifierNameOrGetOrSet(bool* is_get,
- bool* is_set,
- bool* ok);
-
// Logs the currently parsed literal as a symbol in the preparser data.
void LogSymbol();
- // Log the currently parsed identifier.
- Identifier GetIdentifierSymbol();
// Log the currently parsed string literal.
Expression GetStringSymbol();
@@ -641,10 +722,6 @@ class PreParser : public ParserBase {
scope_->set_language_mode(language_mode);
}
- virtual bool is_classic_mode() {
- return scope_->language_mode() == CLASSIC_MODE;
- }
-
bool is_extended_mode() {
return scope_->language_mode() == EXTENDED_MODE;
}
@@ -658,6 +735,154 @@ class PreParser : public ParserBase {
bool parenthesized_function_;
};
+
+template<class Traits>
+void ParserBase<Traits>::ReportUnexpectedToken(Token::Value token) {
+ // We don't report stack overflows here, to avoid increasing the
+ // stack depth even further. Instead we report it after parsing is
+ // over, in ParseProgram.
+ if (token == Token::ILLEGAL && stack_overflow()) {
+ return;
+ }
+ Scanner::Location source_location = scanner()->location();
+
+ // Four of the tokens are treated specially
+ switch (token) {
+ case Token::EOS:
+ return ReportMessageAt(source_location, "unexpected_eos");
+ case Token::NUMBER:
+ return ReportMessageAt(source_location, "unexpected_token_number");
+ case Token::STRING:
+ return ReportMessageAt(source_location, "unexpected_token_string");
+ case Token::IDENTIFIER:
+ return ReportMessageAt(source_location, "unexpected_token_identifier");
+ case Token::FUTURE_RESERVED_WORD:
+ return ReportMessageAt(source_location, "unexpected_reserved");
+ case Token::YIELD:
+ case Token::FUTURE_STRICT_RESERVED_WORD:
+ return ReportMessageAt(
+ source_location,
+ this->is_classic_mode() ? "unexpected_token_identifier"
+ : "unexpected_strict_reserved");
+ default:
+ const char* name = Token::String(token);
+ ASSERT(name != NULL);
+ Traits::ReportMessageAt(
+ source_location, "unexpected_token", Vector<const char*>(&name, 1));
+ }
+}
+
+
+template<class Traits>
+typename Traits::IdentifierType ParserBase<Traits>::ParseIdentifier(
+ AllowEvalOrArgumentsAsIdentifier allow_eval_or_arguments,
+ bool* ok) {
+ Token::Value next = Next();
+ if (next == Token::IDENTIFIER) {
+ typename Traits::IdentifierType name = this->GetSymbol();
+ if (allow_eval_or_arguments == kDontAllowEvalOrArguments &&
+ !this->is_classic_mode() && this->IsEvalOrArguments(name)) {
+ ReportMessageAt(scanner()->location(), "strict_eval_arguments");
+ *ok = false;
+ }
+ return name;
+ } else if (this->is_classic_mode() &&
+ (next == Token::FUTURE_STRICT_RESERVED_WORD ||
+ (next == Token::YIELD && !this->is_generator()))) {
+ return this->GetSymbol();
+ } else {
+ this->ReportUnexpectedToken(next);
+ *ok = false;
+ return Traits::EmptyIdentifier();
+ }
+}
+
+
+template <class Traits>
+typename Traits::IdentifierType ParserBase<
+ Traits>::ParseIdentifierOrStrictReservedWord(bool* is_strict_reserved,
+ bool* ok) {
+ Token::Value next = Next();
+ if (next == Token::IDENTIFIER) {
+ *is_strict_reserved = false;
+ } else if (next == Token::FUTURE_STRICT_RESERVED_WORD ||
+ (next == Token::YIELD && !this->is_generator())) {
+ *is_strict_reserved = true;
+ } else {
+ ReportUnexpectedToken(next);
+ *ok = false;
+ return Traits::EmptyIdentifier();
+ }
+ return this->GetSymbol();
+}
+
+
+template <class Traits>
+typename Traits::IdentifierType ParserBase<Traits>::ParseIdentifierName(
+ bool* ok) {
+ Token::Value next = Next();
+ if (next != Token::IDENTIFIER && next != Token::FUTURE_RESERVED_WORD &&
+ next != Token::FUTURE_STRICT_RESERVED_WORD && !Token::IsKeyword(next)) {
+ this->ReportUnexpectedToken(next);
+ *ok = false;
+ return Traits::EmptyIdentifier();
+ }
+ return this->GetSymbol();
+}
+
+
+template <class Traits>
+typename Traits::IdentifierType
+ParserBase<Traits>::ParseIdentifierNameOrGetOrSet(bool* is_get,
+ bool* is_set,
+ bool* ok) {
+ typename Traits::IdentifierType result = ParseIdentifierName(ok);
+ if (!*ok) return Traits::EmptyIdentifier();
+ if (scanner()->is_literal_ascii() &&
+ scanner()->literal_length() == 3) {
+ const char* token = scanner()->literal_ascii_string().start();
+ *is_get = strncmp(token, "get", 3) == 0;
+ *is_set = !*is_get && strncmp(token, "set", 3) == 0;
+ }
+ return result;
+}
+
+
+template <typename Traits>
+void ParserBase<Traits>::ObjectLiteralChecker::CheckProperty(
+ Token::Value property,
+ PropertyKind type,
+ bool* ok) {
+ int old;
+ if (property == Token::NUMBER) {
+ old = finder_.AddNumber(scanner()->literal_ascii_string(), type);
+ } else if (scanner()->is_literal_ascii()) {
+ old = finder_.AddAsciiSymbol(scanner()->literal_ascii_string(), type);
+ } else {
+ old = finder_.AddUtf16Symbol(scanner()->literal_utf16_string(), type);
+ }
+ PropertyKind old_type = static_cast<PropertyKind>(old);
+ if (HasConflict(old_type, type)) {
+ if (IsDataDataConflict(old_type, type)) {
+ // Both are data properties.
+ if (language_mode_ == CLASSIC_MODE) return;
+ parser()->ReportMessageAt(scanner()->location(),
+ "strict_duplicate_property");
+ } else if (IsDataAccessorConflict(old_type, type)) {
+ // Both a data and an accessor property with the same name.
+ parser()->ReportMessageAt(scanner()->location(),
+ "accessor_data_property");
+ } else {
+ ASSERT(IsAccessorAccessorConflict(old_type, type));
+ // Both accessors of the same type.
+ parser()->ReportMessageAt(scanner()->location(),
+ "accessor_get_set");
+ }
+ *ok = false;
+ }
+}
+
+
} } // v8::internal
#endif // V8_PREPARSER_H
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