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/*
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* Copyright ( c ) 2020 , Stephan Unverwerth < s . unverwerth @ serenityos . org >
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* Copyright ( c ) 2020 - 2021 , Linus Groh < linusg @ serenityos . org >
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* Copyright ( c ) 2021 , David Tuin < davidot @ serenityos . org >
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* Copyright ( c ) 2021 , Ali Mohammad Pur < mpfard @ serenityos . org >
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* Copyright ( c ) 2021 , Idan Horowitz < idan . horowitz @ serenityos . org >
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*
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* SPDX - License - Identifier : BSD - 2 - Clause
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*/
# include "Parser.h"
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# include <AK/Array.h>
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# include <AK/CharacterTypes.h>
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# include <AK/HashTable.h>
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# include <AK/ScopeGuard.h>
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# include <AK/StdLibExtras.h>
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# include <AK/TemporaryChange.h>
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# include <LibJS/Runtime/RegExpObject.h>
# include <LibRegex/Regex.h>
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namespace JS {
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class ScopePusher {
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private :
ScopePusher ( Parser & parser , ScopeNode * node , bool is_top_level )
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: m_parser ( parser )
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, m_is_top_level ( is_top_level )
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{
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m_parent_scope = exchange ( m_parser . m_state . current_scope_pusher , this ) ;
VERIFY ( node | | ( m_parent_scope & & ! is_top_level ) ) ;
if ( ! node )
m_node = m_parent_scope - > m_node ;
else
m_node = node ;
VERIFY ( m_node ) ;
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if ( ! is_top_level )
m_top_level_scope = m_parent_scope - > m_top_level_scope ;
else
m_top_level_scope = this ;
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}
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public :
static ScopePusher function_scope ( Parser & parser , FunctionBody & function_body , Vector < FunctionDeclaration : : Parameter > const & parameters )
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{
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ScopePusher scope_pusher ( parser , & function_body , true ) ;
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scope_pusher . m_function_parameters = parameters ;
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for ( auto & parameter : parameters ) {
parameter . binding . visit (
[ & ] ( FlyString const & name ) {
scope_pusher . m_forbidden_lexical_names . set ( name ) ;
} ,
[ & ] ( NonnullRefPtr < BindingPattern > const & binding_pattern ) {
binding_pattern - > for_each_bound_name ( [ & ] ( auto const & name ) {
scope_pusher . m_forbidden_lexical_names . set ( name ) ;
} ) ;
} ) ;
}
return scope_pusher ;
}
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static ScopePusher program_scope ( Parser & parser , Program & program )
{
return ScopePusher ( parser , & program , true ) ;
}
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static ScopePusher block_scope ( Parser & parser , ScopeNode & node )
{
return ScopePusher ( parser , & node , false ) ;
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}
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static ScopePusher for_loop_scope ( Parser & parser , RefPtr < ASTNode > const & init )
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{
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ScopePusher scope_pusher ( parser , nullptr , false ) ;
if ( init & & is < VariableDeclaration > ( * init ) ) {
auto & variable_declaration = static_cast < VariableDeclaration const & > ( * init ) ;
if ( variable_declaration . declaration_kind ( ) ! = DeclarationKind : : Var ) {
variable_declaration . for_each_bound_name ( [ & ] ( auto const & name ) {
scope_pusher . m_forbidden_var_names . set ( name ) ;
} ) ;
}
}
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return scope_pusher ;
}
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static ScopePusher catch_scope ( Parser & parser , RefPtr < BindingPattern > const & pattern , FlyString const & parameter )
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{
ScopePusher scope_pusher ( parser , nullptr , false ) ;
if ( pattern ) {
pattern - > for_each_bound_name ( [ & ] ( auto const & name ) {
scope_pusher . m_forbidden_var_names . set ( name ) ;
} ) ;
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} else if ( ! parameter . is_empty ( ) ) {
scope_pusher . m_var_names . set ( parameter ) ;
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}
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return scope_pusher ;
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}
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static ScopePusher static_init_block_scope ( Parser & parser , ScopeNode & node )
{
return ScopePusher ( parser , & node , true ) ;
}
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static ScopePusher class_field_scope ( Parser & parser )
{
return ScopePusher ( parser , nullptr , false ) ;
}
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void add_declaration ( NonnullRefPtr < Declaration > declaration )
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{
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if ( declaration - > is_lexical_declaration ( ) ) {
declaration - > for_each_bound_name ( [ & ] ( auto const & name ) {
if ( m_var_names . contains ( name ) | | m_forbidden_lexical_names . contains ( name ) | | m_function_names . contains ( name ) )
throw_identifier_declared ( name , declaration ) ;
if ( m_lexical_names . set ( name ) ! = AK : : HashSetResult : : InsertedNewEntry )
throw_identifier_declared ( name , declaration ) ;
} ) ;
m_node - > add_lexical_declaration ( move ( declaration ) ) ;
} else if ( ! declaration - > is_function_declaration ( ) ) {
declaration - > for_each_bound_name ( [ & ] ( auto const & name ) {
ScopePusher * pusher = this ;
while ( true ) {
if ( pusher - > m_lexical_names . contains ( name )
| | pusher - > m_function_names . contains ( name )
| | pusher - > m_forbidden_var_names . contains ( name ) )
throw_identifier_declared ( name , declaration ) ;
pusher - > m_var_names . set ( name ) ;
if ( pusher - > m_is_top_level )
break ;
VERIFY ( pusher - > m_parent_scope ! = nullptr ) ;
pusher = pusher - > m_parent_scope ;
}
VERIFY ( pusher - > m_is_top_level & & pusher - > m_node ) ;
pusher - > m_node - > add_var_scoped_declaration ( declaration ) ;
} ) ;
VERIFY ( m_top_level_scope ) ;
m_top_level_scope - > m_node - > add_var_scoped_declaration ( move ( declaration ) ) ;
} else {
if ( m_is_top_level ) {
declaration - > for_each_bound_name ( [ & ] ( auto const & name ) {
m_var_names . set ( name ) ;
} ) ;
m_node - > add_var_scoped_declaration ( move ( declaration ) ) ;
} else {
VERIFY ( is < FunctionDeclaration > ( * declaration ) ) ;
auto & function_declaration = static_cast < FunctionDeclaration const & > ( * declaration ) ;
auto & function_name = function_declaration . name ( ) ;
if ( m_var_names . contains ( function_name ) | | m_lexical_names . contains ( function_name ) )
throw_identifier_declared ( function_name , declaration ) ;
if ( function_declaration . kind ( ) ! = FunctionKind : : Regular | | m_parser . m_state . strict_mode ) {
if ( m_function_names . contains ( function_name ) )
throw_identifier_declared ( function_name , declaration ) ;
m_lexical_names . set ( function_name ) ;
m_node - > add_lexical_declaration ( move ( declaration ) ) ;
return ;
}
m_function_names . set ( function_name ) ;
if ( ! m_lexical_names . contains ( function_name ) )
m_functions_to_hoist . append ( static_ptr_cast < FunctionDeclaration > ( declaration ) ) ;
m_node - > add_lexical_declaration ( move ( declaration ) ) ;
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}
}
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}
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ScopePusher const * last_function_scope ( ) const
{
for ( auto scope_ptr = this ; scope_ptr ; scope_ptr = scope_ptr - > m_parent_scope ) {
if ( scope_ptr - > m_function_parameters . has_value ( ) )
return scope_ptr ;
}
return nullptr ;
}
Vector < FunctionDeclaration : : Parameter > const & function_parameters ( ) const
{
return * m_function_parameters ;
}
ScopePusher * parent_scope ( ) { return m_parent_scope ; }
ScopePusher const * parent_scope ( ) const { return m_parent_scope ; }
[[nodiscard]] bool has_declaration ( StringView name ) const
{
return m_lexical_names . contains ( name ) | | m_var_names . contains ( name ) | | ! m_functions_to_hoist . find_if ( [ & name ] ( auto & function ) { return function - > name ( ) = = name ; } ) . is_end ( ) ;
}
bool contains_direct_call_to_eval ( ) const { return m_contains_direct_call_to_eval ; }
bool contains_access_to_arguments_object ( ) const { return m_contains_access_to_arguments_object ; }
void set_contains_direct_call_to_eval ( ) { m_contains_direct_call_to_eval = true ; }
void set_contains_access_to_arguments_object ( ) { m_contains_access_to_arguments_object = true ; }
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~ ScopePusher ( )
{
VERIFY ( m_is_top_level | | m_parent_scope ) ;
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if ( ! m_contains_access_to_arguments_object ) {
for ( auto & it : m_identifier_and_argument_index_associations ) {
for ( auto & identifier : it . value ) {
if ( ! has_declaration ( identifier . string ( ) ) )
identifier . set_lexically_bound_function_argument_index ( it . key ) ;
}
}
}
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for ( size_t i = 0 ; i < m_functions_to_hoist . size ( ) ; i + + ) {
auto const & function_declaration = m_functions_to_hoist [ i ] ;
if ( m_lexical_names . contains ( function_declaration . name ( ) ) | | m_forbidden_var_names . contains ( function_declaration . name ( ) ) )
continue ;
if ( m_is_top_level )
m_node - > add_hoisted_function ( move ( m_functions_to_hoist [ i ] ) ) ;
else
m_parent_scope - > m_functions_to_hoist . append ( move ( m_functions_to_hoist [ i ] ) ) ;
}
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if ( m_parent_scope & & ! m_function_parameters . has_value ( ) ) {
m_parent_scope - > m_contains_access_to_arguments_object | = m_contains_access_to_arguments_object ;
m_parent_scope - > m_contains_direct_call_to_eval | = m_contains_direct_call_to_eval ;
}
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VERIFY ( m_parser . m_state . current_scope_pusher = = this ) ;
m_parser . m_state . current_scope_pusher = m_parent_scope ;
}
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void associate_identifier_with_argument_index ( NonnullRefPtr < Identifier > identifier , size_t index )
{
m_identifier_and_argument_index_associations . ensure ( index ) . append ( move ( identifier ) ) ;
}
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private :
void throw_identifier_declared ( FlyString const & name , NonnullRefPtr < Declaration > const & declaration )
{
m_parser . syntax_error ( String : : formatted ( " Identifier '{}' already declared " , name ) , declaration - > source_range ( ) . start ) ;
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}
Parser & m_parser ;
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ScopeNode * m_node { nullptr } ;
bool m_is_top_level { false } ;
ScopePusher * m_parent_scope { nullptr } ;
ScopePusher * m_top_level_scope { nullptr } ;
HashTable < FlyString > m_lexical_names ;
HashTable < FlyString > m_var_names ;
HashTable < FlyString > m_function_names ;
HashTable < FlyString > m_forbidden_lexical_names ;
HashTable < FlyString > m_forbidden_var_names ;
NonnullRefPtrVector < FunctionDeclaration > m_functions_to_hoist ;
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Optional < Vector < FunctionDeclaration : : Parameter > > m_function_parameters ;
HashMap < size_t , NonnullRefPtrVector < Identifier > > m_identifier_and_argument_index_associations ;
bool m_contains_access_to_arguments_object { false } ;
bool m_contains_direct_call_to_eval { false } ;
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} ;
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class OperatorPrecedenceTable {
public :
constexpr OperatorPrecedenceTable ( )
: m_token_precedence ( )
{
for ( size_t i = 0 ; i < array_size ( m_operator_precedence ) ; + + i ) {
auto & op = m_operator_precedence [ i ] ;
m_token_precedence [ static_cast < size_t > ( op . token ) ] = op . precedence ;
}
}
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constexpr int get ( TokenType token ) const
{
int p = m_token_precedence [ static_cast < size_t > ( token ) ] ;
if ( p = = 0 ) {
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warnln ( " Internal Error: No precedence for operator {} " , Token : : name ( token ) ) ;
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VERIFY_NOT_REACHED ( ) ;
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return - 1 ;
}
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return p ;
}
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private :
int m_token_precedence [ cs_num_of_js_tokens ] ;
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struct OperatorPrecedence {
TokenType token ;
int precedence ;
} ;
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// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Operator_Precedence
static constexpr const OperatorPrecedence m_operator_precedence [ ] = {
{ TokenType : : Period , 20 } ,
{ TokenType : : BracketOpen , 20 } ,
{ TokenType : : ParenOpen , 20 } ,
{ TokenType : : QuestionMarkPeriod , 20 } ,
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{ TokenType : : New , 19 } ,
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{ TokenType : : PlusPlus , 18 } ,
{ TokenType : : MinusMinus , 18 } ,
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{ TokenType : : ExclamationMark , 17 } ,
{ TokenType : : Tilde , 17 } ,
{ TokenType : : Typeof , 17 } ,
{ TokenType : : Void , 17 } ,
{ TokenType : : Delete , 17 } ,
{ TokenType : : Await , 17 } ,
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{ TokenType : : DoubleAsterisk , 16 } ,
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{ TokenType : : Asterisk , 15 } ,
{ TokenType : : Slash , 15 } ,
{ TokenType : : Percent , 15 } ,
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{ TokenType : : Plus , 14 } ,
{ TokenType : : Minus , 14 } ,
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{ TokenType : : ShiftLeft , 13 } ,
{ TokenType : : ShiftRight , 13 } ,
{ TokenType : : UnsignedShiftRight , 13 } ,
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{ TokenType : : LessThan , 12 } ,
{ TokenType : : LessThanEquals , 12 } ,
{ TokenType : : GreaterThan , 12 } ,
{ TokenType : : GreaterThanEquals , 12 } ,
{ TokenType : : In , 12 } ,
{ TokenType : : Instanceof , 12 } ,
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{ TokenType : : EqualsEquals , 11 } ,
{ TokenType : : ExclamationMarkEquals , 11 } ,
{ TokenType : : EqualsEqualsEquals , 11 } ,
{ TokenType : : ExclamationMarkEqualsEquals , 11 } ,
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{ TokenType : : Ampersand , 10 } ,
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{ TokenType : : Caret , 9 } ,
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{ TokenType : : Pipe , 8 } ,
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{ TokenType : : DoubleQuestionMark , 7 } ,
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{ TokenType : : DoubleAmpersand , 6 } ,
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{ TokenType : : DoublePipe , 5 } ,
{ TokenType : : QuestionMark , 4 } ,
{ TokenType : : Equals , 3 } ,
{ TokenType : : PlusEquals , 3 } ,
{ TokenType : : MinusEquals , 3 } ,
{ TokenType : : DoubleAsteriskEquals , 3 } ,
{ TokenType : : AsteriskEquals , 3 } ,
{ TokenType : : SlashEquals , 3 } ,
{ TokenType : : PercentEquals , 3 } ,
{ TokenType : : ShiftLeftEquals , 3 } ,
{ TokenType : : ShiftRightEquals , 3 } ,
{ TokenType : : UnsignedShiftRightEquals , 3 } ,
{ TokenType : : AmpersandEquals , 3 } ,
{ TokenType : : CaretEquals , 3 } ,
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{ TokenType : : PipeEquals , 3 } ,
{ TokenType : : DoubleAmpersandEquals , 3 } ,
{ TokenType : : DoublePipeEquals , 3 } ,
{ TokenType : : DoubleQuestionMarkEquals , 3 } ,
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{ TokenType : : Yield , 2 } ,
{ TokenType : : Comma , 1 } ,
} ;
} ;
constexpr OperatorPrecedenceTable g_operator_precedence ;
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Parser : : ParserState : : ParserState ( Lexer l , Program : : Type program_type )
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: lexer ( move ( l ) )
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{
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if ( program_type = = Program : : Type : : Module )
lexer . disallow_html_comments ( ) ;
current_token = lexer . next ( ) ;
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}
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Parser : : Parser ( Lexer lexer , Program : : Type program_type )
: m_state ( move ( lexer ) , program_type )
, m_program_type ( program_type )
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{
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}
Associativity Parser : : operator_associativity ( TokenType type ) const
{
switch ( type ) {
case TokenType : : Period :
case TokenType : : BracketOpen :
case TokenType : : ParenOpen :
case TokenType : : QuestionMarkPeriod :
case TokenType : : Asterisk :
case TokenType : : Slash :
case TokenType : : Percent :
case TokenType : : Plus :
case TokenType : : Minus :
case TokenType : : ShiftLeft :
case TokenType : : ShiftRight :
case TokenType : : UnsignedShiftRight :
case TokenType : : LessThan :
case TokenType : : LessThanEquals :
case TokenType : : GreaterThan :
case TokenType : : GreaterThanEquals :
case TokenType : : In :
case TokenType : : Instanceof :
case TokenType : : EqualsEquals :
case TokenType : : ExclamationMarkEquals :
case TokenType : : EqualsEqualsEquals :
case TokenType : : ExclamationMarkEqualsEquals :
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case TokenType : : Typeof :
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case TokenType : : Void :
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case TokenType : : Delete :
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case TokenType : : Await :
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case TokenType : : Ampersand :
case TokenType : : Caret :
case TokenType : : Pipe :
case TokenType : : DoubleQuestionMark :
case TokenType : : DoubleAmpersand :
case TokenType : : DoublePipe :
case TokenType : : Comma :
return Associativity : : Left ;
default :
return Associativity : : Right ;
}
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}
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bool Parser : : parse_directive ( ScopeNode & body )
{
bool found_use_strict = false ;
while ( ! done ( ) & & match ( TokenType : : StringLiteral ) ) {
// It cannot be a labelled function since we hit a string literal.
auto statement = parse_statement ( AllowLabelledFunction : : No ) ;
body . append ( statement ) ;
VERIFY ( is < ExpressionStatement > ( * statement ) ) ;
auto & expression = static_cast < ExpressionStatement const & > ( * statement ) . expression ( ) ;
if ( ! is < StringLiteral > ( expression ) )
break ;
auto & string_literal = static_cast < StringLiteral const & > ( expression ) ;
if ( string_literal . is_use_strict_directive ( ) ) {
found_use_strict = true ;
if ( m_state . string_legacy_octal_escape_sequence_in_scope )
syntax_error ( " Octal escape sequence in string literal not allowed in strict mode " ) ;
break ;
}
}
m_state . string_legacy_octal_escape_sequence_in_scope = false ;
return found_use_strict ;
}
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NonnullRefPtr < Program > Parser : : parse_program ( bool starts_in_strict_mode )
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{
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auto rule_start = push_start ( ) ;
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auto program = adopt_ref ( * new Program ( { m_filename , rule_start . position ( ) , position ( ) } , m_program_type ) ) ;
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ScopePusher program_scope = ScopePusher : : program_scope ( * this , * program ) ;
if ( starts_in_strict_mode | | m_program_type = = Program : : Type : : Module )
m_state . strict_mode = true ;
bool has_use_strict = parse_directive ( program ) ;
if ( m_state . strict_mode | | has_use_strict ) {
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program - > set_strict_mode ( ) ;
m_state . strict_mode = true ;
}
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while ( ! done ( ) ) {
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parse_statement_list ( program , AllowLabelledFunction : : Yes ) ;
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if ( done ( ) )
break ;
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if ( match_export_or_import ( ) ) {
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VERIFY ( m_state . current_token . type ( ) = = TokenType : : Export | | m_state . current_token . type ( ) = = TokenType : : Import ) ;
if ( m_state . current_token . type ( ) = = TokenType : : Export )
program - > append_export ( parse_export_statement ( * program ) ) ;
else
program - > append_import ( parse_import_statement ( * program ) ) ;
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} else {
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expected ( " statement or declaration " ) ;
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consume ( ) ;
}
}
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program - > source_range ( ) . end = position ( ) ;
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return program ;
}
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NonnullRefPtr < Declaration > Parser : : parse_declaration ( )
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{
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auto rule_start = push_start ( ) ;
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if ( m_state . current_token . type ( ) = = TokenType : : Async & & next_token ( ) . type ( ) = = TokenType : : Function )
return parse_function_node < FunctionDeclaration > ( ) ;
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switch ( m_state . current_token . type ( ) ) {
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case TokenType : : Class :
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return parse_class_declaration ( ) ;
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case TokenType : : Function :
return parse_function_node < FunctionDeclaration > ( ) ;
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case TokenType : : Let :
case TokenType : : Const :
return parse_variable_declaration ( ) ;
default :
expected ( " declaration " ) ;
consume ( ) ;
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return create_ast_node < ErrorDeclaration > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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}
}
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NonnullRefPtr < Statement > Parser : : parse_statement ( AllowLabelledFunction allow_labelled_function )
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{
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auto rule_start = push_start ( ) ;
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auto type = m_state . current_token . type ( ) ;
switch ( type ) {
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case TokenType : : CurlyOpen :
return parse_block_statement ( ) ;
case TokenType : : Return :
return parse_return_statement ( ) ;
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case TokenType : : Var : {
auto declaration = parse_variable_declaration ( ) ;
m_state . current_scope_pusher - > add_declaration ( declaration ) ;
return declaration ;
}
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case TokenType : : For :
return parse_for_statement ( ) ;
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case TokenType : : If :
return parse_if_statement ( ) ;
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case TokenType : : Throw :
return parse_throw_statement ( ) ;
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case TokenType : : Try :
return parse_try_statement ( ) ;
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case TokenType : : Break :
return parse_break_statement ( ) ;
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case TokenType : : Continue :
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return parse_continue_statement ( ) ;
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case TokenType : : Switch :
return parse_switch_statement ( ) ;
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case TokenType : : Do :
return parse_do_while_statement ( ) ;
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case TokenType : : While :
return parse_while_statement ( ) ;
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case TokenType : : With :
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if ( m_state . strict_mode )
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syntax_error ( " 'with' statement not allowed in strict mode " ) ;
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return parse_with_statement ( ) ;
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case TokenType : : Debugger :
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return parse_debugger_statement ( ) ;
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case TokenType : : Semicolon :
consume ( ) ;
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return create_ast_node < EmptyStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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case TokenType : : Slash :
case TokenType : : SlashEquals :
m_state . current_token = m_state . lexer . force_slash_as_regex ( ) ;
[[fallthrough]] ;
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default :
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if ( match_invalid_escaped_keyword ( ) )
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syntax_error ( " Keyword must not contain escaped characters " ) ;
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if ( match_identifier_name ( ) ) {
auto result = try_parse_labelled_statement ( allow_labelled_function ) ;
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if ( ! result . is_null ( ) )
return result . release_nonnull ( ) ;
}
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if ( match_expression ( ) ) {
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if ( match ( TokenType : : Function ) | | ( match ( TokenType : : Async ) & & next_token ( ) . type ( ) = = TokenType : : Function ) | | match ( TokenType : : Class ) )
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syntax_error ( String : : formatted ( " {} declaration not allowed in single-statement context " , m_state . current_token . name ( ) ) ) ;
if ( match ( TokenType : : Let ) & & next_token ( ) . type ( ) = = TokenType : : BracketOpen )
syntax_error ( String : : formatted ( " let followed by [ is not allowed in single-statement context " ) ) ;
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auto expr = parse_expression ( 0 ) ;
consume_or_insert_semicolon ( ) ;
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return create_ast_node < ExpressionStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expr ) ) ;
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}
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expected ( " statement " ) ;
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consume ( ) ;
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return create_ast_node < ErrorStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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}
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}
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bool Parser : : match_invalid_escaped_keyword ( ) const
{
if ( m_state . current_token . type ( ) ! = TokenType : : EscapedKeyword )
return false ;
auto token_value = m_state . current_token . value ( ) ;
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if ( token_value = = " await " sv )
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return m_program_type = = Program : : Type : : Module | | m_state . await_expression_is_valid ;
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if ( token_value = = " async " sv )
return false ;
if ( token_value = = " yield " sv )
return m_state . in_generator_function_context ;
if ( m_state . strict_mode )
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return true ;
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return token_value ! = " let " sv ;
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}
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static constexpr AK : : Array < StringView , 9 > strict_reserved_words = { " implements " , " interface " , " let " , " package " , " private " , " protected " , " public " , " static " , " yield " } ;
static bool is_strict_reserved_word ( StringView str )
{
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return any_of ( strict_reserved_words , [ & str ] ( StringView word ) {
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return word = = str ;
} ) ;
}
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static bool is_simple_parameter_list ( Vector < FunctionNode : : Parameter > const & parameters )
{
return all_of ( parameters , [ ] ( FunctionNode : : Parameter const & parameter ) {
return ! parameter . is_rest & & parameter . default_value . is_null ( ) & & parameter . binding . has < FlyString > ( ) ;
} ) ;
}
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RefPtr < FunctionExpression > Parser : : try_parse_arrow_function_expression ( bool expect_parens , bool is_async )
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{
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if ( is_async )
VERIFY ( match ( TokenType : : Async ) ) ;
if ( ! expect_parens & & ! is_async ) {
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// NOTE: This is a fast path where we try to fail early in case this can't possibly
// be a match. The idea is to avoid the expensive parser state save/load mechanism.
// The logic is duplicated below in the "real" !expect_parens branch.
if ( ! match_identifier ( ) & & ! match ( TokenType : : Yield ) & & ! match ( TokenType : : Await ) )
return nullptr ;
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auto token = next_token ( ) ;
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if ( token . trivia_contains_line_terminator ( ) )
return nullptr ;
if ( token . type ( ) ! = TokenType : : Arrow )
return nullptr ;
}
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save_state ( ) ;
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auto rule_start = push_start ( ) ;
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ArmedScopeGuard state_rollback_guard = [ & ] {
load_state ( ) ;
} ;
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auto function_kind = FunctionKind : : Regular ;
if ( is_async ) {
consume ( TokenType : : Async ) ;
function_kind = FunctionKind : : Async ;
if ( m_state . current_token . trivia_contains_line_terminator ( ) )
return nullptr ;
// Since we have async it can be followed by paren open in the expect_parens case
// so we also consume that token.
if ( expect_parens ) {
VERIFY ( match ( TokenType : : ParenOpen ) ) ;
consume ( TokenType : : ParenOpen ) ;
}
}
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Vector < FunctionNode : : Parameter > parameters ;
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i32 function_length = - 1 ;
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if ( expect_parens ) {
// We have parens around the function parameters and can re-use the same parsing
// logic used for regular functions: multiple parameters, default values, rest
// parameter, maybe a trailing comma. If we have a new syntax error afterwards we
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// check if it's about a wrong token (something like duplicate parameter name must
// not abort), know parsing failed and rollback the parser state.
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auto previous_syntax_errors = m_state . errors . size ( ) ;
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TemporaryChange in_async_context ( m_state . await_expression_is_valid , is_async | | m_state . await_expression_is_valid ) ;
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parameters = parse_formal_parameters ( function_length , FunctionNodeParseOptions : : IsArrowFunction | ( is_async ? FunctionNodeParseOptions : : IsAsyncFunction : 0 ) ) ;
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if ( m_state . errors . size ( ) > previous_syntax_errors & & m_state . errors [ previous_syntax_errors ] . message . starts_with ( " Unexpected token " ) )
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return nullptr ;
if ( ! match ( TokenType : : ParenClose ) )
return nullptr ;
consume ( ) ;
} else {
// No parens - this must be an identifier followed by arrow. That's it.
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if ( ! match_identifier ( ) & & ! match ( TokenType : : Yield ) & & ! match ( TokenType : : Await ) )
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return nullptr ;
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auto token = consume_identifier_reference ( ) ;
if ( m_state . strict_mode & & token . value ( ) . is_one_of ( " arguments " sv , " eval " sv ) )
syntax_error ( " BindingIdentifier may not be 'arguments' or 'eval' in strict mode " ) ;
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if ( is_async & & token . value ( ) = = " await " sv )
syntax_error ( " 'await' is a reserved identifier in async functions " ) ;
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parameters . append ( { FlyString { token . value ( ) } , { } } ) ;
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}
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// If there's a newline between the closing paren and arrow it's not a valid arrow function,
// ASI should kick in instead (it'll then fail with "Unexpected token Arrow")
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if ( m_state . current_token . trivia_contains_line_terminator ( ) )
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return nullptr ;
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if ( ! match ( TokenType : : Arrow ) )
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return nullptr ;
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consume ( ) ;
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if ( function_length = = - 1 )
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function_length = parameters . size ( ) ;
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auto old_labels_in_scope = move ( m_state . labels_in_scope ) ;
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ScopeGuard guard ( [ & ] ( ) {
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m_state . labels_in_scope = move ( old_labels_in_scope ) ;
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} ) ;
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bool contains_direct_call_to_eval = false ;
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auto function_body_result = [ & ] ( ) - > RefPtr < FunctionBody > {
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TemporaryChange change ( m_state . in_arrow_function_context , true ) ;
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TemporaryChange async_context_change ( m_state . await_expression_is_valid , is_async ) ;
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TemporaryChange in_class_static_init_block_change ( m_state . in_class_static_init_block , false ) ;
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if ( match ( TokenType : : CurlyOpen ) ) {
// Parse a function body with statements
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return parse_function_body ( parameters , function_kind , contains_direct_call_to_eval ) ;
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}
if ( match_expression ( ) ) {
// Parse a function body which returns a single expression
// FIXME: We synthesize a block with a return statement
// for arrow function bodies which are a single expression.
// Esprima generates a single "ArrowFunctionExpression"
// with a "body" property.
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auto return_block = create_ast_node < FunctionBody > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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ScopePusher function_scope = ScopePusher : : function_scope ( * this , return_block , parameters ) ;
auto return_expression = parse_expression ( 2 ) ;
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return_block - > append < ReturnStatement > ( { m_filename , rule_start . position ( ) , position ( ) } , move ( return_expression ) ) ;
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if ( m_state . strict_mode )
return_block - > set_strict_mode ( ) ;
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contains_direct_call_to_eval = function_scope . contains_direct_call_to_eval ( ) ;
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return return_block ;
}
// Invalid arrow function body
return nullptr ;
} ( ) ;
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if ( function_body_result . is_null ( ) )
return nullptr ;
state_rollback_guard . disarm ( ) ;
discard_saved_state ( ) ;
auto body = function_body_result . release_nonnull ( ) ;
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if ( body - > in_strict_mode ( ) ) {
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for ( auto & parameter : parameters ) {
parameter . binding . visit (
[ & ] ( FlyString const & name ) {
check_identifier_name_for_assignment_validity ( name , true ) ;
} ,
[ & ] ( auto const & ) { } ) ;
}
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}
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return create_ast_node < FunctionExpression > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , " " , move ( body ) ,
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move ( parameters ) , function_length , function_kind , body - > in_strict_mode ( ) ,
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/* might_need_arguments_object */ false , contains_direct_call_to_eval , /* is_arrow_function */ true ) ;
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}
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RefPtr < Statement > Parser : : try_parse_labelled_statement ( AllowLabelledFunction allow_function )
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{
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{
// NOTE: This is a fast path where we try to fail early to avoid the expensive save_state+load_state.
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if ( next_token ( ) . type ( ) ! = TokenType : : Colon )
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return { } ;
}
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save_state ( ) ;
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auto rule_start = push_start ( ) ;
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ArmedScopeGuard state_rollback_guard = [ & ] {
load_state ( ) ;
} ;
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if ( m_state . current_token . value ( ) = = " yield " sv & & ( m_state . strict_mode | | m_state . in_generator_function_context ) ) {
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return { } ;
}
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if ( m_state . current_token . value ( ) = = " await " sv & & ( m_program_type = = Program : : Type : : Module | | m_state . await_expression_is_valid | | m_state . in_class_static_init_block ) ) {
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return { } ;
}
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auto identifier = [ & ] {
if ( m_state . current_token . value ( ) = = " await " sv ) {
return consume ( ) . value ( ) ;
}
return consume_identifier_reference ( ) . value ( ) ;
} ( ) ;
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if ( ! match ( TokenType : : Colon ) )
return { } ;
consume ( TokenType : : Colon ) ;
if ( ! match_statement ( ) )
return { } ;
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state_rollback_guard . disarm ( ) ;
discard_saved_state ( ) ;
if ( m_state . strict_mode & & identifier = = " let " sv ) {
syntax_error ( " Strict mode reserved word 'let' is not allowed in label " , rule_start . position ( ) ) ;
return { } ;
}
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if ( match ( TokenType : : Function ) & & ( allow_function = = AllowLabelledFunction : : No | | m_state . strict_mode ) ) {
syntax_error ( " Not allowed to declare a function here " ) ;
return { } ;
}
if ( m_state . labels_in_scope . contains ( identifier ) )
syntax_error ( String : : formatted ( " Label '{}' has already been declared " , identifier ) ) ;
RefPtr < Statement > labelled_statement ;
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auto is_iteration_statement = false ;
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if ( match ( TokenType : : Function ) ) {
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m_state . labels_in_scope . set ( identifier , { } ) ;
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auto function_declaration = parse_function_node < FunctionDeclaration > ( ) ;
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VERIFY ( m_state . current_scope_pusher ) ;
m_state . current_scope_pusher - > add_declaration ( function_declaration ) ;
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if ( function_declaration - > kind ( ) = = FunctionKind : : Generator )
syntax_error ( " Generator functions cannot be defined in labelled statements " ) ;
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if ( function_declaration - > kind ( ) = = FunctionKind : : Async )
syntax_error ( " Async functions cannot be defined in labelled statements " ) ;
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labelled_statement = move ( function_declaration ) ;
} else {
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m_state . labels_in_scope . set ( identifier , { } ) ;
labelled_statement = parse_statement ( allow_function ) ;
if ( is < IterationStatement > ( * labelled_statement ) ) {
is_iteration_statement = true ;
static_cast < IterationStatement & > ( * labelled_statement ) . add_label ( identifier ) ;
} else if ( is < LabelableStatement > ( * labelled_statement ) ) {
static_cast < LabelableStatement & > ( * labelled_statement ) . add_label ( identifier ) ;
}
}
if ( ! is_iteration_statement ) {
if ( auto entry = m_state . labels_in_scope . find ( identifier ) ; entry ! = m_state . labels_in_scope . end ( ) & & entry - > value . has_value ( ) )
syntax_error ( " labelled continue statement cannot use non iterating statement " , m_state . labels_in_scope . get ( identifier ) . value ( ) ) ;
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}
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m_state . labels_in_scope . remove ( identifier ) ;
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return labelled_statement . release_nonnull ( ) ;
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}
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RefPtr < MetaProperty > Parser : : try_parse_new_target_expression ( )
{
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// Optimization which skips the save/load state.
if ( next_token ( ) . type ( ) ! = TokenType : : Period )
return { } ;
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save_state ( ) ;
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auto rule_start = push_start ( ) ;
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ArmedScopeGuard state_rollback_guard = [ & ] {
load_state ( ) ;
} ;
consume ( TokenType : : New ) ;
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consume ( TokenType : : Period ) ;
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if ( ! match ( TokenType : : Identifier ) )
return { } ;
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// The string 'target' cannot have escapes so we check original value.
if ( consume ( ) . original_value ( ) ! = " target " sv )
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return { } ;
state_rollback_guard . disarm ( ) ;
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discard_saved_state ( ) ;
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return create_ast_node < MetaProperty > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , MetaProperty : : Type : : NewTarget ) ;
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}
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RefPtr < MetaProperty > Parser : : try_parse_import_meta_expression ( )
{
// Optimization which skips the save/load state.
if ( next_token ( ) . type ( ) ! = TokenType : : Period )
return { } ;
save_state ( ) ;
auto rule_start = push_start ( ) ;
ArmedScopeGuard state_rollback_guard = [ & ] {
load_state ( ) ;
} ;
consume ( TokenType : : Import ) ;
consume ( TokenType : : Period ) ;
if ( ! match ( TokenType : : Identifier ) )
return { } ;
// The string 'meta' cannot have escapes so we check original value.
if ( consume ( ) . original_value ( ) ! = " meta " sv )
return { } ;
state_rollback_guard . disarm ( ) ;
discard_saved_state ( ) ;
return create_ast_node < MetaProperty > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , MetaProperty : : Type : : ImportMeta ) ;
}
NonnullRefPtr < ImportCall > Parser : : parse_import_call ( )
{
auto rule_start = push_start ( ) ;
// We use the extended definition:
// ImportCall[Yield, Await]:
// import(AssignmentExpression[+In, ?Yield, ?Await] ,opt)
// import(AssignmentExpression[+In, ?Yield, ?Await] ,AssignmentExpression[+In, ?Yield, ?Await] ,opt)
// From https://tc39.es/proposal-import-assertions/#sec-evaluate-import-call
consume ( TokenType : : Import ) ;
consume ( TokenType : : ParenOpen ) ;
auto argument = parse_expression ( 2 ) ;
RefPtr < Expression > options ;
if ( match ( TokenType : : Comma ) ) {
consume ( TokenType : : Comma ) ;
if ( ! match ( TokenType : : ParenClose ) ) {
options = parse_expression ( 2 ) ;
// Second optional comma
if ( match ( TokenType : : Comma ) )
consume ( TokenType : : Comma ) ;
}
}
consume ( TokenType : : ParenClose ) ;
return create_ast_node < ImportCall > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( argument ) , move ( options ) ) ;
}
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NonnullRefPtr < ClassDeclaration > Parser : : parse_class_declaration ( )
{
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auto rule_start = push_start ( ) ;
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return create_ast_node < ClassDeclaration > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , parse_class_expression ( true ) ) ;
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}
NonnullRefPtr < ClassExpression > Parser : : parse_class_expression ( bool expect_class_name )
{
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auto rule_start = push_start ( ) ;
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// Classes are always in strict mode.
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TemporaryChange strict_mode_rollback ( m_state . strict_mode , true ) ;
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consume ( TokenType : : Class ) ;
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NonnullRefPtrVector < ClassElement > elements ;
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RefPtr < Expression > super_class ;
RefPtr < FunctionExpression > constructor ;
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HashTable < FlyString > found_private_names ;
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String class_name = expect_class_name | | match_identifier ( ) | | match ( TokenType : : Yield ) | | match ( TokenType : : Await )
? consume_identifier_reference ( ) . value ( ) . to_string ( )
: " " ;
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check_identifier_name_for_assignment_validity ( class_name , true ) ;
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if ( m_state . in_class_static_init_block & & class_name = = " await " sv )
syntax_error ( " Identifier must not be a reserved word in modules ('await') " ) ;
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if ( match ( TokenType : : Extends ) ) {
consume ( ) ;
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auto [ expression , should_continue_parsing ] = parse_primary_expression ( ) ;
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// Basically a (much) simplified parse_secondary_expression().
for ( ; ; ) {
if ( match ( TokenType : : TemplateLiteralStart ) ) {
auto template_literal = parse_template_literal ( true ) ;
expression = create_ast_node < TaggedTemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expression ) , move ( template_literal ) ) ;
continue ;
}
if ( match ( TokenType : : BracketOpen ) | | match ( TokenType : : Period ) | | match ( TokenType : : ParenOpen ) ) {
auto precedence = g_operator_precedence . get ( m_state . current_token . type ( ) ) ;
expression = parse_secondary_expression ( move ( expression ) , precedence ) ;
continue ;
}
break ;
}
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super_class = move ( expression ) ;
( void ) should_continue_parsing ;
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}
consume ( TokenType : : CurlyOpen ) ;
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HashTable < StringView > referenced_private_names ;
HashTable < StringView > * outer_referenced_private_names = m_state . referenced_private_names ;
m_state . referenced_private_names = & referenced_private_names ;
ScopeGuard restore_private_name_table = [ & ] {
m_state . referenced_private_names = outer_referenced_private_names ;
} ;
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while ( ! done ( ) & & ! match ( TokenType : : CurlyClose ) ) {
RefPtr < Expression > property_key ;
bool is_static = false ;
bool is_constructor = false ;
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bool is_generator = false ;
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bool is_async = false ;
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auto method_kind = ClassMethod : : Kind : : Method ;
if ( match ( TokenType : : Semicolon ) ) {
consume ( ) ;
continue ;
}
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if ( match ( TokenType : : Async ) ) {
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auto lookahead_token = next_token ( ) ;
if ( lookahead_token . type ( ) ! = TokenType : : Semicolon & & lookahead_token . type ( ) ! = TokenType : : CurlyClose
& & ! lookahead_token . trivia_contains_line_terminator ( ) ) {
consume ( ) ;
is_async = true ;
}
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}
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if ( match ( TokenType : : Asterisk ) ) {
consume ( ) ;
is_generator = true ;
}
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StringView name ;
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if ( match_property_key ( ) | | match ( TokenType : : PrivateIdentifier ) ) {
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if ( ! is_generator & & ! is_async & & m_state . current_token . original_value ( ) = = " static " sv ) {
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if ( match ( TokenType : : Identifier ) ) {
consume ( ) ;
is_static = true ;
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if ( match ( TokenType : : Async ) ) {
consume ( ) ;
is_async = true ;
}
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if ( match ( TokenType : : Asterisk ) ) {
consume ( ) ;
is_generator = true ;
}
}
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}
if ( match ( TokenType : : Identifier ) ) {
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auto identifier_name = m_state . current_token . original_value ( ) ;
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if ( identifier_name = = " get " sv ) {
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method_kind = ClassMethod : : Kind : : Getter ;
consume ( ) ;
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} else if ( identifier_name = = " set " sv ) {
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method_kind = ClassMethod : : Kind : : Setter ;
consume ( ) ;
}
}
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if ( match_property_key ( ) | | match ( TokenType : : PrivateIdentifier ) ) {
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switch ( m_state . current_token . type ( ) ) {
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case TokenType : : Identifier :
name = consume ( ) . value ( ) ;
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property_key = create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , name ) ;
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break ;
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case TokenType : : PrivateIdentifier :
name = consume ( ) . value ( ) ;
if ( name = = " #constructor " )
syntax_error ( " Private property with name '#constructor' is not allowed " ) ;
if ( method_kind ! = ClassMethod : : Kind : : Method ) {
// It is a Syntax Error if PrivateBoundIdentifiers of ClassElementList contains any duplicate entries,
// unless the name is used once for a getter and once for a setter and in no other entries,
// and the getter and setter are either both static or both non-static.
for ( auto & element : elements ) {
auto private_name = element . private_bound_identifier ( ) ;
if ( ! private_name . has_value ( ) | | private_name . value ( ) ! = name )
continue ;
if ( element . class_element_kind ( ) ! = ClassElement : : ElementKind : : Method
| | element . is_static ( ) ! = is_static ) {
syntax_error ( String : : formatted ( " Duplicate private field or method named '{}' " , name ) ) ;
break ;
}
VERIFY ( is < ClassMethod > ( element ) ) ;
auto & class_method_element = static_cast < ClassMethod const & > ( element ) ;
if ( class_method_element . kind ( ) = = ClassMethod : : Kind : : Method | | class_method_element . kind ( ) = = method_kind ) {
syntax_error ( String : : formatted ( " Duplicate private field or method named '{}' " , name ) ) ;
break ;
}
}
found_private_names . set ( name ) ;
} else if ( found_private_names . set ( name ) ! = AK : : HashSetResult : : InsertedNewEntry ) {
syntax_error ( String : : formatted ( " Duplicate private field or method named '{}' " , name ) ) ;
}
property_key = create_ast_node < PrivateIdentifier > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , name ) ;
break ;
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case TokenType : : StringLiteral : {
auto string_literal = parse_string_literal ( consume ( ) ) ;
name = string_literal - > value ( ) ;
property_key = move ( string_literal ) ;
break ;
}
default :
property_key = parse_property_key ( ) ;
break ;
}
LibJS: Add an optimization to avoid needless arguments object creation
This gives FunctionNode a "might need arguments object" boolean flag and
sets it based on the simplest possible heuristic for this: if we
encounter an identifier called "arguments" or "eval" up to the next
(nested) function declaration or expression, we won't need an arguments
object. Otherwise, we *might* need one - the final decision is made in
the FunctionDeclarationInstantiation AO.
Now, this is obviously not perfect. Even if you avoid eval, something
like `foo.arguments` will still trigger a false positive - but it's a
start and already massively cuts down on needlessly allocated objects,
especially in real-world code that is often minified, and so a full
"arguments" identifier will be an actual arguments object more often
than not.
To illustrate the actual impact of this change, here's the number of
allocated arguments objects during a full test-js run:
Before:
- Unmapped arguments objects: 78765
- Mapped arguments objects: 2455
After:
- Unmapped arguments objects: 18
- Mapped arguments objects: 37
This results in a ~5% speedup of test-js on my Linux host machine, and
about 3.5% on i686 Serenity in QEMU (warm runs, average of 5).
The following microbenchmark (calling an empty function 1M times) runs
25% faster on Linux and 45% on Serenity:
function foo() {}
for (var i = 0; i < 1_000_000; ++i)
foo();
test262 reports no changes in either direction, apart from a speedup :^)
2021-10-05 07:44:58 +00:00
// https://tc39.es/ecma262/#sec-class-definitions-static-semantics-early-errors
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// ClassElement : static MethodDefinition
// It is a Syntax Error if PropName of MethodDefinition is "prototype".
if ( is_static & & name = = " prototype " sv )
syntax_error ( " Classes may not have a static property named 'prototype' " ) ;
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} else if ( ( match ( TokenType : : ParenOpen ) | | match ( TokenType : : Equals ) | | match ( TokenType : : Semicolon ) | | match ( TokenType : : CurlyClose ) ) & & ( is_static | | is_async | | method_kind ! = ClassMethod : : Kind : : Method ) ) {
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switch ( method_kind ) {
case ClassMethod : : Kind : : Method :
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if ( is_async ) {
name = " async " ;
is_async = false ;
} else {
VERIFY ( is_static ) ;
name = " static " ;
is_static = false ;
}
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break ;
case ClassMethod : : Kind : : Getter :
name = " get " ;
method_kind = ClassMethod : : Kind : : Method ;
break ;
case ClassMethod : : Kind : : Setter :
name = " set " ;
method_kind = ClassMethod : : Kind : : Method ;
break ;
}
property_key = create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , name ) ;
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} else if ( match ( TokenType : : CurlyOpen ) & & is_static ) {
auto static_start = push_start ( ) ;
consume ( TokenType : : CurlyOpen ) ;
auto static_init_block = create_ast_node < FunctionBody > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
TemporaryChange break_context_rollback ( m_state . in_break_context , false ) ;
TemporaryChange continue_context_rollback ( m_state . in_continue_context , false ) ;
TemporaryChange function_context_rollback ( m_state . in_function_context , false ) ;
TemporaryChange generator_function_context_rollback ( m_state . in_generator_function_context , false ) ;
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TemporaryChange async_function_context_rollback ( m_state . await_expression_is_valid , false ) ;
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TemporaryChange class_field_initializer_rollback ( m_state . in_class_field_initializer , true ) ;
TemporaryChange class_static_init_block_rollback ( m_state . in_class_static_init_block , true ) ;
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ScopePusher static_init_scope = ScopePusher : : static_init_block_scope ( * this , * static_init_block ) ;
parse_statement_list ( static_init_block ) ;
consume ( TokenType : : CurlyClose ) ;
elements . append ( create_ast_node < StaticInitializer > ( { m_state . current_token . filename ( ) , static_start . position ( ) , position ( ) } , move ( static_init_block ) , static_init_scope . contains_direct_call_to_eval ( ) ) ) ;
continue ;
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} else {
expected ( " property key " ) ;
}
// Constructor may be a StringLiteral or an Identifier.
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if ( ! is_static & & name = = " constructor " sv ) {
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if ( method_kind ! = ClassMethod : : Kind : : Method )
syntax_error ( " Class constructor may not be an accessor " ) ;
if ( ! constructor . is_null ( ) )
syntax_error ( " Classes may not have more than one constructor " ) ;
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if ( is_generator )
syntax_error ( " Class constructor may not be a generator " ) ;
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if ( is_async )
syntax_error ( " Class constructor may not be async " ) ;
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is_constructor = true ;
}
}
if ( match ( TokenType : : ParenOpen ) ) {
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u8 parse_options = FunctionNodeParseOptions : : AllowSuperPropertyLookup ;
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if ( ! super_class . is_null ( ) & & ! is_static & & is_constructor )
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parse_options | = FunctionNodeParseOptions : : AllowSuperConstructorCall ;
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if ( method_kind = = ClassMethod : : Kind : : Getter )
parse_options | = FunctionNodeParseOptions : : IsGetterFunction ;
if ( method_kind = = ClassMethod : : Kind : : Setter )
parse_options | = FunctionNodeParseOptions : : IsSetterFunction ;
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if ( is_generator )
parse_options | = FunctionNodeParseOptions : : IsGeneratorFunction ;
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if ( is_async )
parse_options | = FunctionNodeParseOptions : : IsAsyncFunction ;
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auto function = parse_function_node < FunctionExpression > ( parse_options ) ;
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if ( is_constructor ) {
constructor = move ( function ) ;
} else if ( ! property_key . is_null ( ) ) {
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elements . append ( create_ast_node < ClassMethod > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , property_key . release_nonnull ( ) , move ( function ) , method_kind , is_static ) ) ;
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} else {
syntax_error ( " No key for class method " ) ;
}
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} else if ( is_generator | | is_async ) {
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expected ( " ParenOpen " ) ;
consume ( ) ;
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} else if ( property_key . is_null ( ) ) {
expected ( " property key " ) ;
consume ( ) ;
} else {
if ( name = = " constructor " sv )
syntax_error ( " Class cannot have field named 'constructor' " ) ;
RefPtr < Expression > initializer ;
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bool contains_direct_call_to_eval = false ;
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if ( match ( TokenType : : Equals ) ) {
consume ( ) ;
TemporaryChange super_property_access_rollback ( m_state . allow_super_property_lookup , true ) ;
TemporaryChange field_initializer_rollback ( m_state . in_class_field_initializer , true ) ;
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auto class_field_scope = ScopePusher : : class_field_scope ( * this ) ;
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initializer = parse_expression ( 2 ) ;
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contains_direct_call_to_eval = class_field_scope . contains_direct_call_to_eval ( ) ;
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}
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elements . append ( create_ast_node < ClassField > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , property_key . release_nonnull ( ) , move ( initializer ) , contains_direct_call_to_eval , is_static ) ) ;
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consume_or_insert_semicolon ( ) ;
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}
}
consume ( TokenType : : CurlyClose ) ;
if ( constructor . is_null ( ) ) {
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auto constructor_body = create_ast_node < BlockStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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if ( ! super_class . is_null ( ) ) {
// Set constructor to the result of parsing the source text
// constructor(... args){ super (...args);}
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auto super_call = create_ast_node < SuperCall > (
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{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
Vector { CallExpression : : Argument { create_ast_node < Identifier > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , " args " ) , true } } ) ;
constructor_body - > append ( create_ast_node < ExpressionStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( super_call ) ) ) ;
2020-06-08 18:31:21 +00:00
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constructor = create_ast_node < FunctionExpression > (
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{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , class_name , move ( constructor_body ) ,
LibJS: Add an optimization to avoid needless arguments object creation
This gives FunctionNode a "might need arguments object" boolean flag and
sets it based on the simplest possible heuristic for this: if we
encounter an identifier called "arguments" or "eval" up to the next
(nested) function declaration or expression, we won't need an arguments
object. Otherwise, we *might* need one - the final decision is made in
the FunctionDeclarationInstantiation AO.
Now, this is obviously not perfect. Even if you avoid eval, something
like `foo.arguments` will still trigger a false positive - but it's a
start and already massively cuts down on needlessly allocated objects,
especially in real-world code that is often minified, and so a full
"arguments" identifier will be an actual arguments object more often
than not.
To illustrate the actual impact of this change, here's the number of
allocated arguments objects during a full test-js run:
Before:
- Unmapped arguments objects: 78765
- Mapped arguments objects: 2455
After:
- Unmapped arguments objects: 18
- Mapped arguments objects: 37
This results in a ~5% speedup of test-js on my Linux host machine, and
about 3.5% on i686 Serenity in QEMU (warm runs, average of 5).
The following microbenchmark (calling an empty function 1M times) runs
25% faster on Linux and 45% on Serenity:
function foo() {}
for (var i = 0; i < 1_000_000; ++i)
foo();
test262 reports no changes in either direction, apart from a speedup :^)
2021-10-05 07:44:58 +00:00
Vector { FunctionNode : : Parameter { FlyString { " args " } , nullptr , true } } , 0 , FunctionKind : : Regular ,
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/* is_strict_mode */ true , /* might_need_arguments_object */ false , /* contains_direct_call_to_eval */ false ) ;
2020-06-08 18:31:21 +00:00
} else {
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constructor = create_ast_node < FunctionExpression > (
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{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , class_name , move ( constructor_body ) ,
LibJS: Add an optimization to avoid needless arguments object creation
This gives FunctionNode a "might need arguments object" boolean flag and
sets it based on the simplest possible heuristic for this: if we
encounter an identifier called "arguments" or "eval" up to the next
(nested) function declaration or expression, we won't need an arguments
object. Otherwise, we *might* need one - the final decision is made in
the FunctionDeclarationInstantiation AO.
Now, this is obviously not perfect. Even if you avoid eval, something
like `foo.arguments` will still trigger a false positive - but it's a
start and already massively cuts down on needlessly allocated objects,
especially in real-world code that is often minified, and so a full
"arguments" identifier will be an actual arguments object more often
than not.
To illustrate the actual impact of this change, here's the number of
allocated arguments objects during a full test-js run:
Before:
- Unmapped arguments objects: 78765
- Mapped arguments objects: 2455
After:
- Unmapped arguments objects: 18
- Mapped arguments objects: 37
This results in a ~5% speedup of test-js on my Linux host machine, and
about 3.5% on i686 Serenity in QEMU (warm runs, average of 5).
The following microbenchmark (calling an empty function 1M times) runs
25% faster on Linux and 45% on Serenity:
function foo() {}
for (var i = 0; i < 1_000_000; ++i)
foo();
test262 reports no changes in either direction, apart from a speedup :^)
2021-10-05 07:44:58 +00:00
Vector < FunctionNode : : Parameter > { } , 0 , FunctionKind : : Regular ,
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/* is_strict_mode */ true , /* might_need_arguments_object */ false , /* contains_direct_call_to_eval */ false ) ;
2020-06-08 18:31:21 +00:00
}
}
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// We could be in a subclass defined within the main class so must move all non declared private names to outer.
for ( auto & private_name : referenced_private_names ) {
if ( found_private_names . contains ( private_name ) )
continue ;
if ( outer_referenced_private_names )
outer_referenced_private_names - > set ( private_name ) ;
else // FIXME: Make these error appear in the appropriate places.
syntax_error ( String : : formatted ( " Reference to undeclared private field or method '{}' " , private_name ) ) ;
}
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return create_ast_node < ClassExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( class_name ) , move ( constructor ) , move ( super_class ) , move ( elements ) ) ;
2020-06-08 18:31:21 +00:00
}
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Parser : : PrimaryExpressionParseResult Parser : : parse_primary_expression ( )
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{
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auto rule_start = push_start ( ) ;
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if ( match_unary_prefixed_expression ( ) )
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return { parse_unary_prefixed_expression ( ) } ;
2020-03-25 08:51:54 +00:00
2021-11-14 23:47:16 +00:00
auto try_arrow_function_parse_or_fail = [ this ] ( Position const & position , bool expect_paren , bool is_async = false ) - > RefPtr < FunctionExpression > {
if ( try_parse_arrow_function_expression_failed_at_position ( position ) )
return nullptr ;
auto arrow_function = try_parse_arrow_function_expression ( expect_paren , is_async ) ;
if ( arrow_function )
return arrow_function ;
set_try_parse_arrow_function_expression_failed_at_position ( position , true ) ;
return nullptr ;
} ;
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switch ( m_state . current_token . type ( ) ) {
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case TokenType : : ParenOpen : {
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auto paren_position = position ( ) ;
2020-03-11 18:27:43 +00:00
consume ( TokenType : : ParenOpen ) ;
2021-11-14 23:47:16 +00:00
if ( ( match ( TokenType : : ParenClose ) | | match_identifier ( ) | | match ( TokenType : : TripleDot ) | | match ( TokenType : : CurlyOpen ) | | match ( TokenType : : BracketOpen ) ) ) {
if ( auto arrow_function_result = try_arrow_function_parse_or_fail ( paren_position , true ) )
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return { arrow_function_result . release_nonnull ( ) , false } ;
2020-03-30 13:26:09 +00:00
}
2020-03-12 22:02:41 +00:00
auto expression = parse_expression ( 0 ) ;
2020-03-11 18:27:43 +00:00
consume ( TokenType : : ParenClose ) ;
2021-03-22 11:44:07 +00:00
if ( is < FunctionExpression > ( * expression ) ) {
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auto & function = static_cast < FunctionExpression & > ( * expression ) ;
if ( function . kind ( ) = = FunctionKind : : Generator & & function . name ( ) = = " yield " sv )
syntax_error ( " function is not allowed to be called 'yield' in this context " , function . source_range ( ) . start ) ;
2021-11-09 18:39:22 +00:00
if ( function . kind ( ) = = FunctionKind : : Async & & function . name ( ) = = " await " sv )
syntax_error ( " function is not allowed to be called 'await' in this context " , function . source_range ( ) . start ) ;
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}
2021-06-14 11:16:41 +00:00
return { move ( expression ) } ;
2020-03-11 18:27:43 +00:00
}
2020-04-12 22:42:14 +00:00
case TokenType : : This :
consume ( ) ;
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return { create_ast_node < ThisExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) } ;
2020-06-08 18:31:21 +00:00
case TokenType : : Class :
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return { parse_class_expression ( false ) } ;
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case TokenType : : Super :
consume ( ) ;
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if ( ! m_state . allow_super_property_lookup )
2020-06-08 18:31:21 +00:00
syntax_error ( " 'super' keyword unexpected here " ) ;
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return { create_ast_node < SuperExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) } ;
2021-08-21 09:27:20 +00:00
case TokenType : : EscapedKeyword :
2021-11-26 22:25:10 +00:00
if ( match_invalid_escaped_keyword ( ) )
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syntax_error ( " Keyword must not contain escaped characters " ) ;
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[[fallthrough]] ;
2020-03-30 13:26:09 +00:00
case TokenType : : Identifier : {
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read_as_identifier : ;
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if ( auto arrow_function_result = try_arrow_function_parse_or_fail ( position ( ) , false ) )
return { arrow_function_result . release_nonnull ( ) , false } ;
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2021-08-28 15:04:37 +00:00
auto string = m_state . current_token . value ( ) ;
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// This could be 'eval' or 'arguments' and thus needs a custom check (`eval[1] = true`)
if ( m_state . strict_mode & & ( string = = " let " | | is_strict_reserved_word ( string ) ) )
syntax_error ( String : : formatted ( " Identifier must not be a reserved word in strict mode ('{}') " , string ) ) ;
2021-08-28 15:04:37 +00:00
return { parse_identifier ( ) } ;
2020-03-30 13:26:09 +00:00
}
2020-03-11 18:27:43 +00:00
case TokenType : : NumericLiteral :
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return { create_ast_node < NumericLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume_and_validate_numeric_literal ( ) . double_value ( ) ) } ;
2020-06-06 00:14:10 +00:00
case TokenType : : BigIntLiteral :
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return { create_ast_node < BigIntLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . value ( ) ) } ;
2020-03-11 18:27:43 +00:00
case TokenType : : BoolLiteral :
2021-06-19 12:43:09 +00:00
return { create_ast_node < BooleanLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . bool_value ( ) ) } ;
2020-03-12 12:05:06 +00:00
case TokenType : : StringLiteral :
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return { parse_string_literal ( consume ( ) ) } ;
2020-03-15 21:32:34 +00:00
case TokenType : : NullLiteral :
consume ( ) ;
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return { create_ast_node < NullLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) } ;
2020-03-11 18:27:43 +00:00
case TokenType : : CurlyOpen :
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return { parse_object_expression ( ) } ;
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case TokenType : : Async : {
auto lookahead_token = next_token ( ) ;
// No valid async function (arrow or not) can have a line terminator after the async since asi would kick in.
if ( lookahead_token . trivia_contains_line_terminator ( ) )
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goto read_as_identifier ;
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if ( lookahead_token . type ( ) = = TokenType : : Function )
return { parse_function_node < FunctionExpression > ( ) } ;
if ( lookahead_token . type ( ) = = TokenType : : ParenOpen ) {
if ( auto arrow_function_result = try_arrow_function_parse_or_fail ( position ( ) , true , true ) )
return { arrow_function_result . release_nonnull ( ) , false } ;
} else if ( lookahead_token . is_identifier_name ( ) ) {
if ( auto arrow_function_result = try_arrow_function_parse_or_fail ( position ( ) , false , true ) )
return { arrow_function_result . release_nonnull ( ) , false } ;
}
goto read_as_identifier ;
}
2020-03-19 10:52:56 +00:00
case TokenType : : Function :
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return { parse_function_node < FunctionExpression > ( ) } ;
2020-03-20 19:29:57 +00:00
case TokenType : : BracketOpen :
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return { parse_array_expression ( ) } ;
2020-06-03 23:05:49 +00:00
case TokenType : : RegexLiteral :
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return { parse_regexp_literal ( ) } ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
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case TokenType : : TemplateLiteralStart :
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return { parse_template_literal ( false ) } ;
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case TokenType : : New : {
auto new_start = position ( ) ;
auto new_target_result = try_parse_new_target_expression ( ) ;
if ( ! new_target_result . is_null ( ) ) {
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if ( ! m_state . in_function_context )
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syntax_error ( " 'new.target' not allowed outside of a function " , new_start ) ;
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return { new_target_result . release_nonnull ( ) } ;
2020-11-02 21:27:42 +00:00
}
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return { parse_new_expression ( ) } ;
2020-11-02 21:27:42 +00:00
}
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case TokenType : : Import : {
auto lookahead_token = next_token ( ) ;
VERIFY ( lookahead_token . type ( ) = = TokenType : : Period | | lookahead_token . type ( ) = = TokenType : : ParenOpen ) ;
if ( lookahead_token . type ( ) = = TokenType : : ParenOpen )
return { parse_import_call ( ) } ;
if ( auto import_meta = try_parse_import_meta_expression ( ) ) {
if ( m_program_type ! = Program : : Type : : Module )
syntax_error ( " import.meta is only allowed in modules " ) ;
return { import_meta . release_nonnull ( ) } ;
}
break ;
}
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case TokenType : : Yield :
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if ( ! m_state . in_generator_function_context )
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goto read_as_identifier ;
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return { parse_yield_expression ( ) , false } ;
2021-11-09 20:52:21 +00:00
case TokenType : : Await :
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if ( ! m_state . await_expression_is_valid )
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goto read_as_identifier ;
return { parse_await_expression ( ) } ;
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case TokenType : : PrivateIdentifier :
VERIFY ( next_token ( ) . type ( ) = = TokenType : : In ) ;
if ( ! is_private_identifier_valid ( ) )
syntax_error ( String : : formatted ( " Reference to undeclared private field or method '{}' " , m_state . current_token . value ( ) ) ) ;
return { create_ast_node < PrivateIdentifier > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . value ( ) ) } ;
2020-03-11 18:27:43 +00:00
default :
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if ( match_identifier_name ( ) )
goto read_as_identifier ;
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break ;
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}
2021-11-26 22:45:10 +00:00
expected ( " primary expression " ) ;
consume ( ) ;
return { create_ast_node < ErrorExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) } ;
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}
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NonnullRefPtr < RegExpLiteral > Parser : : parse_regexp_literal ( )
{
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auto rule_start = push_start ( ) ;
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auto pattern = consume ( ) . value ( ) ;
// Remove leading and trailing slash.
pattern = pattern . substring_view ( 1 , pattern . length ( ) - 2 ) ;
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2021-05-10 11:01:38 +00:00
auto flags = String : : empty ( ) ;
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auto parsed_flags = RegExpObject : : default_flags ;
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if ( match ( TokenType : : RegexFlags ) ) {
auto flags_start = position ( ) ;
flags = consume ( ) . value ( ) ;
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auto parsed_flags_or_error = regex_flags_from_string ( flags ) ;
if ( parsed_flags_or_error . is_error ( ) )
syntax_error ( parsed_flags_or_error . release_error ( ) , flags_start ) ;
else
parsed_flags = parsed_flags_or_error . release_value ( ) ;
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}
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auto parsed_pattern = parse_regex_pattern ( pattern , parsed_flags . has_flag_set ( ECMAScriptFlags : : Unicode ) ) ;
auto parsed_regex = Regex < ECMA262 > : : parse_pattern ( parsed_pattern , parsed_flags ) ;
if ( parsed_regex . error ! = regex : : Error : : NoError )
syntax_error ( String : : formatted ( " RegExp compile error: {} " , Regex < ECMA262 > ( parsed_regex , parsed_pattern , parsed_flags ) . error_string ( ) ) , rule_start . position ( ) ) ;
SourceRange range { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ;
return create_ast_node < RegExpLiteral > ( move ( range ) , move ( parsed_regex ) , move ( parsed_pattern ) , move ( parsed_flags ) , pattern . to_string ( ) , move ( flags ) ) ;
2020-06-03 23:05:49 +00:00
}
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NonnullRefPtr < Expression > Parser : : parse_unary_prefixed_expression ( )
2020-03-14 18:45:51 +00:00
{
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auto rule_start = push_start ( ) ;
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auto precedence = g_operator_precedence . get ( m_state . current_token . type ( ) ) ;
auto associativity = operator_associativity ( m_state . current_token . type ( ) ) ;
switch ( m_state . current_token . type ( ) ) {
2020-04-29 20:39:00 +00:00
case TokenType : : PlusPlus : {
consume ( ) ;
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auto rhs_start = position ( ) ;
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auto rhs = parse_expression ( precedence , associativity ) ;
2020-09-16 19:03:06 +00:00
// FIXME: Apparently for functions this should also not be enforced on a parser level,
// other engines throw ReferenceError for ++foo()
2021-01-01 18:34:07 +00:00
if ( ! is < Identifier > ( * rhs ) & & ! is < MemberExpression > ( * rhs ) )
2020-11-02 21:03:19 +00:00
syntax_error ( String : : formatted ( " Right-hand side of prefix increment operator must be identifier or member expression, got {} " , rhs - > class_name ( ) ) , rhs_start ) ;
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if ( m_state . strict_mode & & is < Identifier > ( * rhs ) ) {
auto & identifier = static_cast < Identifier & > ( * rhs ) ;
auto & name = identifier . string ( ) ;
check_identifier_name_for_assignment_validity ( name ) ;
}
2021-06-19 12:43:09 +00:00
return create_ast_node < UpdateExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UpdateOp : : Increment , move ( rhs ) , true ) ;
2020-04-29 20:39:00 +00:00
}
case TokenType : : MinusMinus : {
consume ( ) ;
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auto rhs_start = position ( ) ;
2020-04-29 20:39:00 +00:00
auto rhs = parse_expression ( precedence , associativity ) ;
2020-09-16 19:03:06 +00:00
// FIXME: Apparently for functions this should also not be enforced on a parser level,
// other engines throw ReferenceError for --foo()
2021-01-01 18:34:07 +00:00
if ( ! is < Identifier > ( * rhs ) & & ! is < MemberExpression > ( * rhs ) )
2020-11-02 21:03:19 +00:00
syntax_error ( String : : formatted ( " Right-hand side of prefix decrement operator must be identifier or member expression, got {} " , rhs - > class_name ( ) ) , rhs_start ) ;
2021-07-11 23:27:35 +00:00
if ( m_state . strict_mode & & is < Identifier > ( * rhs ) ) {
auto & identifier = static_cast < Identifier & > ( * rhs ) ;
auto & name = identifier . string ( ) ;
check_identifier_name_for_assignment_validity ( name ) ;
}
2021-06-19 12:43:09 +00:00
return create_ast_node < UpdateExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UpdateOp : : Decrement , move ( rhs ) , true ) ;
2020-04-29 20:39:00 +00:00
}
2020-03-14 18:45:51 +00:00
case TokenType : : ExclamationMark :
consume ( ) ;
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return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : Not , parse_expression ( precedence , associativity ) ) ;
2020-03-14 18:45:51 +00:00
case TokenType : : Tilde :
consume ( ) ;
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return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : BitwiseNot , parse_expression ( precedence , associativity ) ) ;
2020-04-02 16:58:39 +00:00
case TokenType : : Plus :
consume ( ) ;
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return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : Plus , parse_expression ( precedence , associativity ) ) ;
2020-04-02 16:58:39 +00:00
case TokenType : : Minus :
consume ( ) ;
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return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : Minus , parse_expression ( precedence , associativity ) ) ;
2020-03-17 19:33:32 +00:00
case TokenType : : Typeof :
consume ( ) ;
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return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : Typeof , parse_expression ( precedence , associativity ) ) ;
2020-04-15 16:55:03 +00:00
case TokenType : : Void :
consume ( ) ;
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return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : Void , parse_expression ( precedence , associativity ) ) ;
2021-07-11 23:32:24 +00:00
case TokenType : : Delete : {
2020-04-26 11:53:40 +00:00
consume ( ) ;
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auto rhs_start = position ( ) ;
auto rhs = parse_expression ( precedence , associativity ) ;
if ( is < Identifier > ( * rhs ) & & m_state . strict_mode ) {
syntax_error ( " Delete of an unqualified identifier in strict mode. " , rhs_start ) ;
}
2021-10-12 20:45:52 +00:00
if ( is < MemberExpression > ( * rhs ) ) {
auto & member_expression = static_cast < MemberExpression const & > ( * rhs ) ;
if ( member_expression . ends_in_private_name ( ) )
syntax_error ( " Private fields cannot be deleted " ) ;
}
2021-07-11 23:32:24 +00:00
return create_ast_node < UnaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UnaryOp : : Delete , move ( rhs ) ) ;
}
2020-03-14 18:45:51 +00:00
default :
2020-10-22 22:30:07 +00:00
expected ( " primary expression " ) ;
2020-03-14 18:45:51 +00:00
consume ( ) ;
2021-06-19 12:43:09 +00:00
return create_ast_node < ErrorExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
2020-03-14 18:45:51 +00:00
}
}
2020-06-08 18:31:21 +00:00
NonnullRefPtr < Expression > Parser : : parse_property_key ( )
{
2020-12-28 17:15:22 +00:00
auto rule_start = push_start ( ) ;
2020-06-08 18:31:21 +00:00
if ( match ( TokenType : : StringLiteral ) ) {
return parse_string_literal ( consume ( ) ) ;
} else if ( match ( TokenType : : NumericLiteral ) ) {
2021-06-19 12:43:09 +00:00
return create_ast_node < NumericLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . double_value ( ) ) ;
2020-06-08 18:31:21 +00:00
} else if ( match ( TokenType : : BigIntLiteral ) ) {
2021-06-19 12:43:09 +00:00
return create_ast_node < BigIntLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . value ( ) ) ;
2020-06-08 18:31:21 +00:00
} else if ( match ( TokenType : : BracketOpen ) ) {
consume ( TokenType : : BracketOpen ) ;
2021-06-11 15:43:28 +00:00
auto result = parse_expression ( 2 ) ;
2020-06-08 18:31:21 +00:00
consume ( TokenType : : BracketClose ) ;
return result ;
} else {
if ( ! match_identifier_name ( ) )
expected ( " IdentifierName " ) ;
2021-06-19 12:43:09 +00:00
return create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . value ( ) ) ;
2020-06-08 18:31:21 +00:00
}
}
2020-03-18 10:23:53 +00:00
NonnullRefPtr < ObjectExpression > Parser : : parse_object_expression ( )
2020-03-11 18:27:43 +00:00
{
2020-12-28 17:15:22 +00:00
auto rule_start = push_start ( ) ;
2020-03-11 18:27:43 +00:00
consume ( TokenType : : CurlyOpen ) ;
2020-03-21 00:29:00 +00:00
2020-05-29 05:50:06 +00:00
NonnullRefPtrVector < ObjectProperty > properties ;
ObjectProperty : : Type property_type ;
2021-07-11 10:18:30 +00:00
Optional < SourceRange > invalid_object_literal_property_range ;
2020-05-29 05:50:06 +00:00
auto skip_to_next_property = [ & ] {
while ( ! done ( ) & & ! match ( TokenType : : Comma ) & & ! match ( TokenType : : CurlyOpen ) )
consume ( ) ;
} ;
2020-05-22 00:28:28 +00:00
2021-07-11 23:32:01 +00:00
// It is a Syntax Error if PropertyNameList of PropertyDefinitionList contains any duplicate
// entries for "__proto__" and at least two of those entries were obtained from productions of
2021-10-24 14:01:24 +00:00
// the form PropertyDefinition : PropertyKey : AssignmentExpression .
2021-07-11 23:32:01 +00:00
bool has_direct_proto_property = false ;
2020-04-07 17:29:37 +00:00
while ( ! done ( ) & & ! match ( TokenType : : CurlyClose ) ) {
2020-05-29 05:50:06 +00:00
property_type = ObjectProperty : : Type : : KeyValue ;
RefPtr < Expression > property_name ;
2020-04-23 18:37:53 +00:00
RefPtr < Expression > property_value ;
2021-06-14 10:22:59 +00:00
FunctionKind function_kind { FunctionKind : : Regular } ;
2020-04-28 04:52:47 +00:00
2020-05-29 05:50:06 +00:00
if ( match ( TokenType : : TripleDot ) ) {
consume ( ) ;
property_name = parse_expression ( 4 ) ;
2021-06-19 12:43:09 +00:00
properties . append ( create_ast_node < ObjectProperty > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , * property_name , nullptr , ObjectProperty : : Type : : Spread , false ) ) ;
2020-05-29 05:50:06 +00:00
if ( ! match ( TokenType : : Comma ) )
break ;
consume ( TokenType : : Comma ) ;
continue ;
}
2021-07-11 23:32:01 +00:00
auto type = m_state . current_token . type ( ) ;
2021-11-15 00:53:24 +00:00
if ( match ( TokenType : : Async ) ) {
auto lookahead_token = next_token ( ) ;
2021-11-26 15:40:27 +00:00
if ( lookahead_token . type ( ) ! = TokenType : : ParenOpen & & lookahead_token . type ( ) ! = TokenType : : Colon
2021-11-26 22:36:43 +00:00
& & lookahead_token . type ( ) ! = TokenType : : Comma & & lookahead_token . type ( ) ! = TokenType : : CurlyClose
& & lookahead_token . type ( ) ! = TokenType : : Async
2021-11-26 15:40:27 +00:00
& & ! lookahead_token . trivia_contains_line_terminator ( ) ) {
2021-11-15 00:53:24 +00:00
consume ( TokenType : : Async ) ;
function_kind = FunctionKind : : Async ;
}
}
2021-06-14 10:22:59 +00:00
if ( match ( TokenType : : Asterisk ) ) {
consume ( ) ;
property_type = ObjectProperty : : Type : : KeyValue ;
property_name = parse_property_key ( ) ;
2021-11-15 00:53:24 +00:00
VERIFY ( function_kind = = FunctionKind : : Regular | | function_kind = = FunctionKind : : Async ) ;
function_kind = function_kind = = FunctionKind : : Regular ? FunctionKind : : Generator : FunctionKind : : AsyncGenerator ;
2021-07-28 23:45:55 +00:00
} else if ( match_identifier ( ) ) {
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auto identifier = consume ( ) ;
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if ( identifier . original_value ( ) = = " get " sv & & match_property_key ( ) ) {
2020-05-29 05:50:06 +00:00
property_type = ObjectProperty : : Type : : Getter ;
property_name = parse_property_key ( ) ;
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} else if ( identifier . original_value ( ) = = " set " sv & & match_property_key ( ) ) {
2020-05-29 05:50:06 +00:00
property_type = ObjectProperty : : Type : : Setter ;
property_name = parse_property_key ( ) ;
} else {
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property_name = create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , identifier . value ( ) ) ;
property_value = create_ast_node < Identifier > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , identifier . value ( ) ) ;
2020-05-22 00:28:28 +00:00
}
2020-04-06 20:17:05 +00:00
} else {
2020-05-29 05:50:06 +00:00
property_name = parse_property_key ( ) ;
}
2021-07-11 23:32:01 +00:00
bool is_proto = ( type = = TokenType : : StringLiteral | | type = = TokenType : : Identifier ) & & is < StringLiteral > ( * property_name ) & & static_cast < StringLiteral const & > ( * property_name ) . value ( ) = = " __proto__ " ;
2020-05-29 05:50:06 +00:00
if ( property_type = = ObjectProperty : : Type : : Getter | | property_type = = ObjectProperty : : Type : : Setter ) {
if ( ! match ( TokenType : : ParenOpen ) ) {
2021-07-11 19:00:55 +00:00
expected ( " '(' for object getter or setter property " ) ;
2020-05-29 05:50:06 +00:00
skip_to_next_property ( ) ;
2020-05-22 00:28:28 +00:00
continue ;
}
2020-04-06 20:17:05 +00:00
}
2021-07-11 10:18:30 +00:00
if ( match ( TokenType : : Equals ) ) {
// Not a valid object literal, but a valid assignment target
consume ( ) ;
// Parse the expression and throw it away
auto expression = parse_expression ( 2 ) ;
if ( ! invalid_object_literal_property_range . has_value ( ) )
invalid_object_literal_property_range = expression - > source_range ( ) ;
} else if ( match ( TokenType : : ParenOpen ) ) {
2021-02-23 19:42:32 +00:00
VERIFY ( property_name ) ;
2020-10-20 17:32:51 +00:00
u8 parse_options = FunctionNodeParseOptions : : AllowSuperPropertyLookup ;
if ( property_type = = ObjectProperty : : Type : : Getter )
parse_options | = FunctionNodeParseOptions : : IsGetterFunction ;
if ( property_type = = ObjectProperty : : Type : : Setter )
parse_options | = FunctionNodeParseOptions : : IsSetterFunction ;
2021-11-15 00:53:24 +00:00
if ( function_kind = = FunctionKind : : Generator | | function_kind = = FunctionKind : : AsyncGenerator )
2021-06-14 10:22:59 +00:00
parse_options | = FunctionNodeParseOptions : : IsGeneratorFunction ;
2021-11-15 00:53:24 +00:00
if ( function_kind = = FunctionKind : : Async | | function_kind = = FunctionKind : : AsyncGenerator )
2021-11-09 18:39:22 +00:00
parse_options | = FunctionNodeParseOptions : : IsAsyncFunction ;
2020-10-20 17:32:51 +00:00
auto function = parse_function_node < FunctionExpression > ( parse_options ) ;
2021-06-19 12:43:09 +00:00
properties . append ( create_ast_node < ObjectProperty > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , * property_name , function , property_type , true ) ) ;
2020-05-29 05:50:06 +00:00
} else if ( match ( TokenType : : Colon ) ) {
2020-06-01 14:08:34 +00:00
if ( ! property_name ) {
2021-07-11 19:00:55 +00:00
expected ( " a property name " ) ;
2020-06-01 14:08:34 +00:00
skip_to_next_property ( ) ;
continue ;
}
2020-05-29 05:50:06 +00:00
consume ( ) ;
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if ( is_proto ) {
if ( has_direct_proto_property )
syntax_error ( " Property name '__proto__' must not appear more than once in object literal " ) ;
has_direct_proto_property = true ;
}
2021-06-19 12:43:09 +00:00
properties . append ( create_ast_node < ObjectProperty > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , * property_name , parse_expression ( 2 ) , property_type , false ) ) ;
2020-06-01 14:08:34 +00:00
} else if ( property_name & & property_value ) {
2021-11-26 22:36:43 +00:00
if ( m_state . strict_mode & & is < StringLiteral > ( * property_name ) ) {
auto & string_literal = static_cast < StringLiteral const & > ( * property_name ) ;
if ( is_strict_reserved_word ( string_literal . value ( ) ) )
syntax_error ( String : : formatted ( " '{}' is a reserved keyword " , string_literal . value ( ) ) ) ;
}
2021-06-19 12:43:09 +00:00
properties . append ( create_ast_node < ObjectProperty > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , * property_name , * property_value , property_type , false ) ) ;
2020-06-01 14:08:34 +00:00
} else {
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expected ( " a property " ) ;
2020-06-01 14:08:34 +00:00
skip_to_next_property ( ) ;
continue ;
2020-03-21 00:29:00 +00:00
}
if ( ! match ( TokenType : : Comma ) )
break ;
consume ( TokenType : : Comma ) ;
}
2020-03-11 18:27:43 +00:00
consume ( TokenType : : CurlyClose ) ;
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return create_ast_node < ObjectExpression > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
move ( properties ) ,
move ( invalid_object_literal_property_range ) ) ;
2020-03-11 18:27:43 +00:00
}
2020-03-20 19:29:57 +00:00
NonnullRefPtr < ArrayExpression > Parser : : parse_array_expression ( )
{
2020-12-28 17:15:22 +00:00
auto rule_start = push_start ( ) ;
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consume ( TokenType : : BracketOpen ) ;
2020-04-15 19:09:06 +00:00
Vector < RefPtr < Expression > > elements ;
2020-04-27 06:05:37 +00:00
while ( match_expression ( ) | | match ( TokenType : : TripleDot ) | | match ( TokenType : : Comma ) ) {
2020-04-15 19:09:06 +00:00
RefPtr < Expression > expression ;
2020-04-27 06:05:37 +00:00
if ( match ( TokenType : : TripleDot ) ) {
consume ( TokenType : : TripleDot ) ;
2021-06-19 12:43:09 +00:00
expression = create_ast_node < SpreadExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , parse_expression ( 2 ) ) ;
2020-04-27 06:05:37 +00:00
} else if ( match_expression ( ) ) {
2020-05-11 16:27:31 +00:00
expression = parse_expression ( 2 ) ;
2020-04-27 06:05:37 +00:00
}
2020-04-15 19:09:06 +00:00
elements . append ( expression ) ;
2020-03-20 19:29:57 +00:00
if ( ! match ( TokenType : : Comma ) )
break ;
consume ( TokenType : : Comma ) ;
}
consume ( TokenType : : BracketClose ) ;
2021-06-19 12:43:09 +00:00
return create_ast_node < ArrayExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( elements ) ) ;
2020-03-20 19:29:57 +00:00
}
2021-02-24 08:58:24 +00:00
NonnullRefPtr < StringLiteral > Parser : : parse_string_literal ( const Token & token , bool in_template_literal )
2020-05-17 06:27:25 +00:00
{
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auto rule_start = push_start ( ) ;
2020-05-17 06:27:25 +00:00
auto status = Token : : StringValueStatus : : Ok ;
auto string = token . string_value ( status ) ;
if ( status ! = Token : : StringValueStatus : : Ok ) {
String message ;
2020-10-24 12:30:57 +00:00
if ( status = = Token : : StringValueStatus : : LegacyOctalEscapeSequence ) {
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m_state . string_legacy_octal_escape_sequence_in_scope = true ;
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if ( in_template_literal )
message = " Octal escape sequence not allowed in template literal " ;
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else if ( m_state . strict_mode )
2020-10-24 12:30:57 +00:00
message = " Octal escape sequence in string literal not allowed in strict mode " ;
} else if ( status = = Token : : StringValueStatus : : MalformedHexEscape | | status = = Token : : StringValueStatus : : MalformedUnicodeEscape ) {
2020-05-17 06:27:25 +00:00
auto type = status = = Token : : StringValueStatus : : MalformedUnicodeEscape ? " unicode " : " hexadecimal " ;
2020-10-04 13:53:15 +00:00
message = String : : formatted ( " Malformed {} escape sequence " , type ) ;
2020-05-17 06:27:25 +00:00
} else if ( status = = Token : : StringValueStatus : : UnicodeEscapeOverflow ) {
2020-08-05 20:31:20 +00:00
message = " Unicode code_point must not be greater than 0x10ffff in escape sequence " ;
2020-10-24 12:30:57 +00:00
} else {
2021-02-23 19:42:32 +00:00
VERIFY_NOT_REACHED ( ) ;
2020-05-17 06:27:25 +00:00
}
2020-10-24 11:48:25 +00:00
if ( ! message . is_empty ( ) )
2020-11-02 21:03:19 +00:00
syntax_error ( message , Position { token . line_number ( ) , token . line_column ( ) } ) ;
2020-05-17 06:27:25 +00:00
}
2020-05-28 05:22:08 +00:00
2020-11-01 21:49:25 +00:00
auto is_use_strict_directive = ! in_template_literal & & ( token . value ( ) = = " 'use strict' " | | token . value ( ) = = " \" use strict \" " ) ;
2020-10-24 12:30:57 +00:00
2021-06-19 12:43:09 +00:00
return create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , string , is_use_strict_directive ) ;
2020-05-17 06:27:25 +00:00
}
2020-05-06 23:34:14 +00:00
NonnullRefPtr < TemplateLiteral > Parser : : parse_template_literal ( bool is_tagged )
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
{
2020-12-28 17:15:22 +00:00
auto rule_start = push_start ( ) ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
consume ( TokenType : : TemplateLiteralStart ) ;
NonnullRefPtrVector < Expression > expressions ;
2020-05-06 23:34:14 +00:00
NonnullRefPtrVector < Expression > raw_strings ;
2020-12-28 17:15:22 +00:00
auto append_empty_string = [ this , & rule_start , & expressions , & raw_strings , is_tagged ] ( ) {
2021-06-19 12:43:09 +00:00
auto string_literal = create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , " " ) ;
2020-05-06 23:34:14 +00:00
expressions . append ( string_literal ) ;
if ( is_tagged )
raw_strings . append ( string_literal ) ;
} ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
2020-05-06 09:17:35 +00:00
if ( ! match ( TokenType : : TemplateLiteralString ) )
2020-05-06 23:34:14 +00:00
append_empty_string ( ) ;
2020-05-06 09:17:35 +00:00
2020-06-03 22:36:25 +00:00
while ( ! done ( ) & & ! match ( TokenType : : TemplateLiteralEnd ) & & ! match ( TokenType : : UnterminatedTemplateLiteral ) ) {
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
if ( match ( TokenType : : TemplateLiteralString ) ) {
2020-05-06 23:34:14 +00:00
auto token = consume ( ) ;
2020-10-24 12:30:57 +00:00
expressions . append ( parse_string_literal ( token , true ) ) ;
2020-05-06 23:34:14 +00:00
if ( is_tagged )
2021-09-01 16:34:19 +00:00
raw_strings . append ( create_ast_node < StringLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , token . raw_template_value ( ) ) ) ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
} else if ( match ( TokenType : : TemplateLiteralExprStart ) ) {
consume ( TokenType : : TemplateLiteralExprStart ) ;
if ( match ( TokenType : : TemplateLiteralExprEnd ) ) {
syntax_error ( " Empty template literal expression block " ) ;
2021-06-19 12:43:09 +00:00
return create_ast_node < TemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , expressions ) ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
}
expressions . append ( parse_expression ( 0 ) ) ;
if ( match ( TokenType : : UnterminatedTemplateLiteral ) ) {
syntax_error ( " Unterminated template literal " ) ;
2021-06-19 12:43:09 +00:00
return create_ast_node < TemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , expressions ) ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
}
consume ( TokenType : : TemplateLiteralExprEnd ) ;
2020-05-06 09:17:35 +00:00
if ( ! match ( TokenType : : TemplateLiteralString ) )
2020-05-06 23:34:14 +00:00
append_empty_string ( ) ;
2020-06-03 22:36:25 +00:00
} else {
expected ( " Template literal string or expression " ) ;
break ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
}
}
if ( match ( TokenType : : UnterminatedTemplateLiteral ) ) {
syntax_error ( " Unterminated template literal " ) ;
} else {
consume ( TokenType : : TemplateLiteralEnd ) ;
}
2020-05-06 23:34:14 +00:00
if ( is_tagged )
2021-06-19 12:43:09 +00:00
return create_ast_node < TemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , expressions , raw_strings ) ;
return create_ast_node < TemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , expressions ) ;
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
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}
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NonnullRefPtr < Expression > Parser : : parse_expression ( int min_precedence , Associativity associativity , const Vector < TokenType > & forbidden )
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{
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auto rule_start = push_start ( ) ;
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auto [ expression , should_continue_parsing ] = parse_primary_expression ( ) ;
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auto check_for_invalid_object_property = [ & ] ( auto & expression ) {
if ( is < ObjectExpression > ( * expression ) ) {
if ( auto range = static_cast < ObjectExpression & > ( * expression ) . invalid_property_range ( ) ; range . has_value ( ) )
syntax_error ( " Invalid property in object literal " , range - > start ) ;
}
} ;
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if ( is < Identifier > ( * expression ) & & m_state . current_scope_pusher ) {
auto identifier_instance = static_ptr_cast < Identifier > ( expression ) ;
auto function_scope = m_state . current_scope_pusher - > last_function_scope ( ) ;
auto function_parent_scope = function_scope ? function_scope - > parent_scope ( ) : nullptr ;
bool has_not_been_declared_as_variable = true ;
for ( auto scope = m_state . current_scope_pusher ; scope ! = function_parent_scope ; scope = scope - > parent_scope ( ) ) {
if ( scope - > has_declaration ( identifier_instance - > string ( ) ) ) {
has_not_been_declared_as_variable = false ;
break ;
}
}
if ( has_not_been_declared_as_variable ) {
if ( identifier_instance - > string ( ) = = " arguments " sv )
m_state . current_scope_pusher - > set_contains_access_to_arguments_object ( ) ;
}
}
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while ( match ( TokenType : : TemplateLiteralStart ) ) {
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auto template_literal = parse_template_literal ( true ) ;
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expression = create_ast_node < TaggedTemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expression ) , move ( template_literal ) ) ;
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}
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if ( should_continue_parsing ) {
while ( match_secondary_expression ( forbidden ) ) {
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int new_precedence = g_operator_precedence . get ( m_state . current_token . type ( ) ) ;
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if ( new_precedence < min_precedence )
break ;
if ( new_precedence = = min_precedence & & associativity = = Associativity : : Left )
break ;
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check_for_invalid_object_property ( expression ) ;
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Associativity new_associativity = operator_associativity ( m_state . current_token . type ( ) ) ;
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expression = parse_secondary_expression ( move ( expression ) , new_precedence , new_associativity ) ;
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while ( match ( TokenType : : TemplateLiteralStart ) & & ! is < UpdateExpression > ( * expression ) ) {
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auto template_literal = parse_template_literal ( true ) ;
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expression = create_ast_node < TaggedTemplateLiteral > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expression ) , move ( template_literal ) ) ;
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}
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}
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}
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if ( is < SuperExpression > ( * expression ) )
syntax_error ( " 'super' keyword unexpected here " ) ;
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check_for_invalid_object_property ( expression ) ;
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if ( is < CallExpression > ( * expression ) & & m_state . current_scope_pusher ) {
auto & callee = static_ptr_cast < CallExpression > ( expression ) - > callee ( ) ;
if ( is < Identifier > ( callee ) ) {
auto & identifier_instance = static_cast < Identifier const & > ( callee ) ;
if ( identifier_instance . string ( ) = = " eval " sv ) {
bool has_not_been_declared_as_variable = true ;
for ( auto scope = m_state . current_scope_pusher ; scope ; scope = scope - > parent_scope ( ) ) {
if ( scope - > has_declaration ( identifier_instance . string ( ) ) ) {
has_not_been_declared_as_variable = false ;
break ;
}
}
if ( has_not_been_declared_as_variable )
m_state . current_scope_pusher - > set_contains_direct_call_to_eval ( ) ;
}
}
}
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if ( match ( TokenType : : Comma ) & & min_precedence < = 1 ) {
NonnullRefPtrVector < Expression > expressions ;
expressions . append ( expression ) ;
while ( match ( TokenType : : Comma ) ) {
consume ( ) ;
expressions . append ( parse_expression ( 2 ) ) ;
}
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expression = create_ast_node < SequenceExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expressions ) ) ;
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}
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return expression ;
}
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NonnullRefPtr < Expression > Parser : : parse_secondary_expression ( NonnullRefPtr < Expression > lhs , int min_precedence , Associativity associativity )
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{
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auto rule_start = push_start ( ) ;
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switch ( m_state . current_token . type ( ) ) {
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case TokenType : : Plus :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : Addition , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : PlusEquals :
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return parse_assignment_expression ( AssignmentOp : : AdditionAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Minus :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : Subtraction , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : MinusEquals :
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return parse_assignment_expression ( AssignmentOp : : SubtractionAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Asterisk :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : Multiplication , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : AsteriskEquals :
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return parse_assignment_expression ( AssignmentOp : : MultiplicationAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Slash :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : Division , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : SlashEquals :
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return parse_assignment_expression ( AssignmentOp : : DivisionAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Percent :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : Modulo , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : PercentEquals :
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return parse_assignment_expression ( AssignmentOp : : ModuloAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : DoubleAsterisk :
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consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : Exponentiation , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : DoubleAsteriskEquals :
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return parse_assignment_expression ( AssignmentOp : : ExponentiationAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : GreaterThan :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : GreaterThan , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : GreaterThanEquals :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : GreaterThanEquals , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : LessThan :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : LessThan , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : LessThanEquals :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : LessThanEquals , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : EqualsEqualsEquals :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : StrictlyEquals , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : ExclamationMarkEqualsEquals :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : StrictlyInequals , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : EqualsEquals :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : LooselyEquals , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : ExclamationMarkEquals :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : LooselyInequals , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : In :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : In , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : Instanceof :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : InstanceOf , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : Ampersand :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : BitwiseAnd , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : AmpersandEquals :
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return parse_assignment_expression ( AssignmentOp : : BitwiseAndAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Pipe :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : BitwiseOr , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : PipeEquals :
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return parse_assignment_expression ( AssignmentOp : : BitwiseOrAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Caret :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : BitwiseXor , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : CaretEquals :
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return parse_assignment_expression ( AssignmentOp : : BitwiseXorAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : ShiftLeft :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : LeftShift , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : ShiftLeftEquals :
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return parse_assignment_expression ( AssignmentOp : : LeftShiftAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : ShiftRight :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : RightShift , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : ShiftRightEquals :
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return parse_assignment_expression ( AssignmentOp : : RightShiftAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : UnsignedShiftRight :
consume ( ) ;
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return create_ast_node < BinaryExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , BinaryOp : : UnsignedRightShift , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : UnsignedShiftRightEquals :
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return parse_assignment_expression ( AssignmentOp : : UnsignedRightShiftAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : ParenOpen :
return parse_call_expression ( move ( lhs ) ) ;
case TokenType : : Equals :
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return parse_assignment_expression ( AssignmentOp : : Assignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : Period :
consume ( ) ;
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if ( match ( TokenType : : PrivateIdentifier ) ) {
if ( ! is_private_identifier_valid ( ) )
syntax_error ( String : : formatted ( " Reference to undeclared private field or method '{}' " , m_state . current_token . value ( ) ) ) ;
else if ( is < SuperExpression > ( * lhs ) )
syntax_error ( String : : formatted ( " Cannot access private field or method '{}' on super " , m_state . current_token . value ( ) ) ) ;
return create_ast_node < MemberExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( lhs ) , create_ast_node < PrivateIdentifier > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . value ( ) ) ) ;
} else if ( ! match_identifier_name ( ) ) {
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expected ( " IdentifierName " ) ;
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}
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return create_ast_node < MemberExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( lhs ) , create_ast_node < Identifier > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , consume ( ) . value ( ) ) ) ;
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case TokenType : : BracketOpen : {
consume ( TokenType : : BracketOpen ) ;
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auto expression = create_ast_node < MemberExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( lhs ) , parse_expression ( 0 ) , true ) ;
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consume ( TokenType : : BracketClose ) ;
return expression ;
}
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case TokenType : : PlusPlus :
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// FIXME: Apparently for functions this should also not be enforced on a parser level,
// other engines throw ReferenceError for foo()++
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if ( ! is < Identifier > ( * lhs ) & & ! is < MemberExpression > ( * lhs ) )
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syntax_error ( String : : formatted ( " Left-hand side of postfix increment operator must be identifier or member expression, got {} " , lhs - > class_name ( ) ) ) ;
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if ( m_state . strict_mode & & is < Identifier > ( * lhs ) ) {
auto & identifier = static_cast < Identifier & > ( * lhs ) ;
auto & name = identifier . string ( ) ;
check_identifier_name_for_assignment_validity ( name ) ;
}
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consume ( ) ;
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return create_ast_node < UpdateExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UpdateOp : : Increment , move ( lhs ) ) ;
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case TokenType : : MinusMinus :
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// FIXME: Apparently for functions this should also not be enforced on a parser level,
// other engines throw ReferenceError for foo()--
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if ( ! is < Identifier > ( * lhs ) & & ! is < MemberExpression > ( * lhs ) )
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syntax_error ( String : : formatted ( " Left-hand side of postfix increment operator must be identifier or member expression, got {} " , lhs - > class_name ( ) ) ) ;
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if ( m_state . strict_mode & & is < Identifier > ( * lhs ) ) {
auto & identifier = static_cast < Identifier & > ( * lhs ) ;
auto & name = identifier . string ( ) ;
check_identifier_name_for_assignment_validity ( name ) ;
}
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consume ( ) ;
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return create_ast_node < UpdateExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , UpdateOp : : Decrement , move ( lhs ) ) ;
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case TokenType : : DoubleAmpersand :
consume ( ) ;
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return create_ast_node < LogicalExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , LogicalOp : : And , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : DoubleAmpersandEquals :
return parse_assignment_expression ( AssignmentOp : : AndAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : DoublePipe :
consume ( ) ;
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return create_ast_node < LogicalExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , LogicalOp : : Or , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : DoublePipeEquals :
return parse_assignment_expression ( AssignmentOp : : OrAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : DoubleQuestionMark :
consume ( ) ;
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return create_ast_node < LogicalExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , LogicalOp : : NullishCoalescing , move ( lhs ) , parse_expression ( min_precedence , associativity ) ) ;
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case TokenType : : DoubleQuestionMarkEquals :
return parse_assignment_expression ( AssignmentOp : : NullishAssignment , move ( lhs ) , min_precedence , associativity ) ;
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case TokenType : : QuestionMark :
return parse_conditional_expression ( move ( lhs ) ) ;
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case TokenType : : QuestionMarkPeriod :
// FIXME: This should allow `(new Foo)?.bar', but as our parser strips parenthesis,
// we can't really tell if `lhs' was parenthesized at this point.
if ( is < NewExpression > ( lhs . ptr ( ) ) ) {
syntax_error ( " 'new' cannot be used with optional chaining " , position ( ) ) ;
consume ( ) ;
return lhs ;
}
return parse_optional_chain ( move ( lhs ) ) ;
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default :
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expected ( " secondary expression " ) ;
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consume ( ) ;
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return create_ast_node < ErrorExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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}
}
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bool Parser : : is_private_identifier_valid ( ) const
{
VERIFY ( match ( TokenType : : PrivateIdentifier ) ) ;
if ( ! m_state . referenced_private_names )
return false ;
// We might not have hit the declaration yet so class will check this in the end
m_state . referenced_private_names - > set ( m_state . current_token . value ( ) ) ;
return true ;
}
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RefPtr < BindingPattern > Parser : : synthesize_binding_pattern ( Expression const & expression )
{
VERIFY ( is < ArrayExpression > ( expression ) | | is < ObjectExpression > ( expression ) ) ;
// Clear any syntax error that has occurred in the range that 'expression' spans.
m_state . errors . remove_all_matching ( [ range = expression . source_range ( ) ] ( auto const & error ) {
return error . position . has_value ( ) & & range . contains ( * error . position ) ;
} ) ;
// Make a parser and parse the source for this expression as a binding pattern.
auto source = m_state . lexer . source ( ) . substring_view ( expression . source_range ( ) . start . offset - 2 , expression . source_range ( ) . end . offset - expression . source_range ( ) . start . offset ) ;
Lexer lexer { source , m_state . lexer . filename ( ) , expression . source_range ( ) . start . line , expression . source_range ( ) . start . column } ;
Parser parser { lexer } ;
parser . m_state . strict_mode = m_state . strict_mode ;
parser . m_state . allow_super_property_lookup = m_state . allow_super_property_lookup ;
parser . m_state . allow_super_constructor_call = m_state . allow_super_constructor_call ;
parser . m_state . in_function_context = m_state . in_function_context ;
parser . m_state . in_formal_parameter_context = m_state . in_formal_parameter_context ;
parser . m_state . in_generator_function_context = m_state . in_generator_function_context ;
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parser . m_state . await_expression_is_valid = m_state . await_expression_is_valid ;
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parser . m_state . in_arrow_function_context = m_state . in_arrow_function_context ;
parser . m_state . in_break_context = m_state . in_break_context ;
parser . m_state . in_continue_context = m_state . in_continue_context ;
parser . m_state . string_legacy_octal_escape_sequence_in_scope = m_state . string_legacy_octal_escape_sequence_in_scope ;
parser . m_state . in_class_field_initializer = m_state . in_class_field_initializer ;
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parser . m_state . in_class_static_init_block = m_state . in_class_static_init_block ;
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parser . m_state . referenced_private_names = m_state . referenced_private_names ;
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auto result = parser . parse_binding_pattern ( AllowDuplicates : : Yes , AllowMemberExpressions : : Yes ) ;
if ( parser . has_errors ( ) )
m_state . errors . extend ( parser . errors ( ) ) ;
return result ;
}
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NonnullRefPtr < AssignmentExpression > Parser : : parse_assignment_expression ( AssignmentOp assignment_op , NonnullRefPtr < Expression > lhs , int min_precedence , Associativity associativity )
{
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auto rule_start = push_start ( ) ;
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VERIFY ( match ( TokenType : : Equals )
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| | match ( TokenType : : PlusEquals )
| | match ( TokenType : : MinusEquals )
| | match ( TokenType : : AsteriskEquals )
| | match ( TokenType : : SlashEquals )
| | match ( TokenType : : PercentEquals )
| | match ( TokenType : : DoubleAsteriskEquals )
| | match ( TokenType : : AmpersandEquals )
| | match ( TokenType : : PipeEquals )
| | match ( TokenType : : CaretEquals )
| | match ( TokenType : : ShiftLeftEquals )
| | match ( TokenType : : ShiftRightEquals )
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| | match ( TokenType : : UnsignedShiftRightEquals )
| | match ( TokenType : : DoubleAmpersandEquals )
| | match ( TokenType : : DoublePipeEquals )
| | match ( TokenType : : DoubleQuestionMarkEquals ) ) ;
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consume ( ) ;
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if ( assignment_op = = AssignmentOp : : Assignment ) {
if ( is < ArrayExpression > ( * lhs ) | | is < ObjectExpression > ( * lhs ) ) {
auto binding_pattern = synthesize_binding_pattern ( * lhs ) ;
if ( binding_pattern ) {
auto rhs = parse_expression ( min_precedence , associativity ) ;
return create_ast_node < AssignmentExpression > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
assignment_op ,
binding_pattern . release_nonnull ( ) ,
move ( rhs ) ) ;
}
}
}
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if ( ! is < Identifier > ( * lhs ) & & ! is < MemberExpression > ( * lhs ) & & ! is < CallExpression > ( * lhs ) ) {
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syntax_error ( " Invalid left-hand side in assignment " ) ;
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} else if ( m_state . strict_mode & & is < Identifier > ( * lhs ) ) {
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auto name = static_cast < const Identifier & > ( * lhs ) . string ( ) ;
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check_identifier_name_for_assignment_validity ( name ) ;
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} else if ( m_state . strict_mode & & is < CallExpression > ( * lhs ) ) {
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syntax_error ( " Cannot assign to function call " ) ;
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}
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auto rhs = parse_expression ( min_precedence , associativity ) ;
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return create_ast_node < AssignmentExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , assignment_op , move ( lhs ) , move ( rhs ) ) ;
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}
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NonnullRefPtr < Identifier > Parser : : parse_identifier ( )
{
auto identifier_start = position ( ) ;
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auto token = consume_identifier ( ) ;
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if ( m_state . in_class_field_initializer & & token . value ( ) = = " arguments " sv )
syntax_error ( " 'arguments' is not allowed in class field initializer " ) ;
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return create_ast_node < Identifier > (
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{ m_state . current_token . filename ( ) , identifier_start , position ( ) } ,
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token . value ( ) ) ;
}
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Vector < CallExpression : : Argument > Parser : : parse_arguments ( )
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{
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Vector < CallExpression : : Argument > arguments ;
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consume ( TokenType : : ParenOpen ) ;
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while ( match_expression ( ) | | match ( TokenType : : TripleDot ) ) {
if ( match ( TokenType : : TripleDot ) ) {
consume ( ) ;
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arguments . append ( { parse_expression ( 2 ) , true } ) ;
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} else {
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arguments . append ( { parse_expression ( 2 ) , false } ) ;
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}
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if ( ! match ( TokenType : : Comma ) )
break ;
consume ( ) ;
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}
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consume ( TokenType : : ParenClose ) ;
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return arguments ;
}
NonnullRefPtr < Expression > Parser : : parse_call_expression ( NonnullRefPtr < Expression > lhs )
{
auto rule_start = push_start ( ) ;
if ( ! m_state . allow_super_constructor_call & & is < SuperExpression > ( * lhs ) )
syntax_error ( " 'super' keyword unexpected here " ) ;
auto arguments = parse_arguments ( ) ;
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if ( is < SuperExpression > ( * lhs ) )
return create_ast_node < SuperCall > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( arguments ) ) ;
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return create_ast_node < CallExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( lhs ) , move ( arguments ) ) ;
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}
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NonnullRefPtr < NewExpression > Parser : : parse_new_expression ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : New ) ;
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auto callee = parse_expression ( g_operator_precedence . get ( TokenType : : New ) , Associativity : : Right , { TokenType : : ParenOpen , TokenType : : QuestionMarkPeriod } ) ;
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if ( is < ImportCall > ( * callee ) )
syntax_error ( " Cannot call new on dynamic import " , callee - > source_range ( ) . start ) ;
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Vector < CallExpression : : Argument > arguments ;
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if ( match ( TokenType : : ParenOpen ) ) {
consume ( TokenType : : ParenOpen ) ;
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while ( match_expression ( ) | | match ( TokenType : : TripleDot ) ) {
if ( match ( TokenType : : TripleDot ) ) {
consume ( ) ;
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arguments . append ( { parse_expression ( 2 ) , true } ) ;
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} else {
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arguments . append ( { parse_expression ( 2 ) , false } ) ;
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}
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if ( ! match ( TokenType : : Comma ) )
break ;
consume ( ) ;
}
consume ( TokenType : : ParenClose ) ;
}
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return create_ast_node < NewExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( callee ) , move ( arguments ) ) ;
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}
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NonnullRefPtr < YieldExpression > Parser : : parse_yield_expression ( )
{
auto rule_start = push_start ( ) ;
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if ( m_state . in_formal_parameter_context )
syntax_error ( " 'Yield' expression is not allowed in formal parameters of generator function " ) ;
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consume ( TokenType : : Yield ) ;
RefPtr < Expression > argument ;
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bool yield_from = false ;
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if ( ! m_state . current_token . trivia_contains_line_terminator ( ) ) {
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if ( match ( TokenType : : Asterisk ) ) {
consume ( ) ;
yield_from = true ;
}
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if ( yield_from | | match_expression ( ) | | match ( TokenType : : Class ) )
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argument = parse_expression ( 2 ) ;
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}
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return create_ast_node < YieldExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( argument ) , yield_from ) ;
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}
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NonnullRefPtr < AwaitExpression > Parser : : parse_await_expression ( )
{
auto rule_start = push_start ( ) ;
if ( m_state . in_formal_parameter_context )
syntax_error ( " 'Await' expression is not allowed in formal parameters of an async function " ) ;
consume ( TokenType : : Await ) ;
auto precedence = g_operator_precedence . get ( TokenType : : Await ) ;
auto associativity = operator_associativity ( TokenType : : Await ) ;
auto argument = parse_expression ( precedence , associativity ) ;
return create_ast_node < AwaitExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( argument ) ) ;
}
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NonnullRefPtr < ReturnStatement > Parser : : parse_return_statement ( )
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{
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auto rule_start = push_start ( ) ;
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if ( ! m_state . in_function_context & & ! m_state . in_arrow_function_context )
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syntax_error ( " 'return' not allowed outside of a function " ) ;
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consume ( TokenType : : Return ) ;
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// Automatic semicolon insertion: terminate statement when return is followed by newline
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if ( m_state . current_token . trivia_contains_line_terminator ( ) )
return create_ast_node < ReturnStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , nullptr ) ;
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if ( match_expression ( ) ) {
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auto expression = parse_expression ( 0 ) ;
consume_or_insert_semicolon ( ) ;
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return create_ast_node < ReturnStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expression ) ) ;
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}
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consume_or_insert_semicolon ( ) ;
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return create_ast_node < ReturnStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , nullptr ) ;
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}
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void Parser : : parse_statement_list ( ScopeNode & output_node , AllowLabelledFunction allow_labelled_functions )
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{
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while ( ! done ( ) ) {
if ( match_declaration ( ) ) {
auto declaration = parse_declaration ( ) ;
VERIFY ( m_state . current_scope_pusher ) ;
m_state . current_scope_pusher - > add_declaration ( declaration ) ;
output_node . append ( move ( declaration ) ) ;
} else if ( match_statement ( ) ) {
output_node . append ( parse_statement ( allow_labelled_functions ) ) ;
} else {
break ;
}
}
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}
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// FunctionBody, https://tc39.es/ecma262/#prod-FunctionBody
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NonnullRefPtr < FunctionBody > Parser : : parse_function_body ( Vector < FunctionDeclaration : : Parameter > const & parameters , FunctionKind function_kind , bool & contains_direct_call_to_eval )
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{
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auto rule_start = push_start ( ) ;
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auto function_body = create_ast_node < FunctionBody > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
ScopePusher function_scope = ScopePusher : : function_scope ( * this , function_body , parameters ) ; // FIXME <-
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consume ( TokenType : : CurlyOpen ) ;
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auto has_use_strict = parse_directive ( function_body ) ;
bool previous_strict_mode = m_state . strict_mode ;
if ( has_use_strict ) {
m_state . strict_mode = true ;
function_body - > set_strict_mode ( ) ;
if ( ! is_simple_parameter_list ( parameters ) )
syntax_error ( " Illegal 'use strict' directive in function with non-simple parameter list " ) ;
} else if ( previous_strict_mode ) {
function_body - > set_strict_mode ( ) ;
}
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parse_statement_list ( function_body ) ;
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// If the function contains 'use strict' we need to check the parameters (again).
if ( function_body - > in_strict_mode ( ) | | function_kind ! = FunctionKind : : Regular ) {
Vector < StringView > parameter_names ;
for ( auto & parameter : parameters ) {
parameter . binding . visit (
[ & ] ( FlyString const & parameter_name ) {
check_identifier_name_for_assignment_validity ( parameter_name , function_body - > in_strict_mode ( ) ) ;
if ( function_kind = = FunctionKind : : Generator & & parameter_name = = " yield " sv )
syntax_error ( " Parameter name 'yield' not allowed in this context " ) ;
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if ( function_kind = = FunctionKind : : Async & & parameter_name = = " await " sv )
syntax_error ( " Parameter name 'await' not allowed in this context " ) ;
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for ( auto & previous_name : parameter_names ) {
if ( previous_name = = parameter_name ) {
syntax_error ( String : : formatted ( " Duplicate parameter '{}' not allowed in strict mode " , parameter_name ) ) ;
}
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}
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parameter_names . append ( parameter_name ) ;
} ,
[ & ] ( NonnullRefPtr < BindingPattern > const & binding ) {
binding - > for_each_bound_name ( [ & ] ( auto & bound_name ) {
if ( function_kind = = FunctionKind : : Generator & & bound_name = = " yield " sv )
syntax_error ( " Parameter name 'yield' not allowed in this context " ) ;
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if ( function_kind = = FunctionKind : : Async & & bound_name = = " await " sv )
syntax_error ( " Parameter name 'await' not allowed in this context " ) ;
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for ( auto & previous_name : parameter_names ) {
if ( previous_name = = bound_name ) {
syntax_error ( String : : formatted ( " Duplicate parameter '{}' not allowed in strict mode " , bound_name ) ) ;
break ;
}
}
parameter_names . append ( bound_name ) ;
} ) ;
} ) ;
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}
}
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consume ( TokenType : : CurlyClose ) ;
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m_state . strict_mode = previous_strict_mode ;
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contains_direct_call_to_eval = function_scope . contains_direct_call_to_eval ( ) ;
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return function_body ;
}
NonnullRefPtr < BlockStatement > Parser : : parse_block_statement ( )
{
auto rule_start = push_start ( ) ;
auto block = create_ast_node < BlockStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
ScopePusher block_scope = ScopePusher : : block_scope ( * this , block ) ;
consume ( TokenType : : CurlyOpen ) ;
parse_statement_list ( block ) ;
consume ( TokenType : : CurlyClose ) ;
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return block ;
}
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template < typename FunctionNodeType >
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NonnullRefPtr < FunctionNodeType > Parser : : parse_function_node ( u8 parse_options )
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{
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auto rule_start = push_start ( ) ;
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VERIFY ( ! ( parse_options & FunctionNodeParseOptions : : IsGetterFunction & & parse_options & FunctionNodeParseOptions : : IsSetterFunction ) ) ;
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TemporaryChange super_property_access_rollback ( m_state . allow_super_property_lookup , ! ! ( parse_options & FunctionNodeParseOptions : : AllowSuperPropertyLookup ) ) ;
TemporaryChange super_constructor_call_rollback ( m_state . allow_super_constructor_call , ! ! ( parse_options & FunctionNodeParseOptions : : AllowSuperConstructorCall ) ) ;
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TemporaryChange break_context_rollback ( m_state . in_break_context , false ) ;
TemporaryChange continue_context_rollback ( m_state . in_continue_context , false ) ;
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TemporaryChange class_field_initializer_rollback ( m_state . in_class_field_initializer , false ) ;
LibJS: Add an optimization to avoid needless arguments object creation
This gives FunctionNode a "might need arguments object" boolean flag and
sets it based on the simplest possible heuristic for this: if we
encounter an identifier called "arguments" or "eval" up to the next
(nested) function declaration or expression, we won't need an arguments
object. Otherwise, we *might* need one - the final decision is made in
the FunctionDeclarationInstantiation AO.
Now, this is obviously not perfect. Even if you avoid eval, something
like `foo.arguments` will still trigger a false positive - but it's a
start and already massively cuts down on needlessly allocated objects,
especially in real-world code that is often minified, and so a full
"arguments" identifier will be an actual arguments object more often
than not.
To illustrate the actual impact of this change, here's the number of
allocated arguments objects during a full test-js run:
Before:
- Unmapped arguments objects: 78765
- Mapped arguments objects: 2455
After:
- Unmapped arguments objects: 18
- Mapped arguments objects: 37
This results in a ~5% speedup of test-js on my Linux host machine, and
about 3.5% on i686 Serenity in QEMU (warm runs, average of 5).
The following microbenchmark (calling an empty function 1M times) runs
25% faster on Linux and 45% on Serenity:
function foo() {}
for (var i = 0; i < 1_000_000; ++i)
foo();
test262 reports no changes in either direction, apart from a speedup :^)
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TemporaryChange might_need_arguments_object_rollback ( m_state . function_might_need_arguments_object , false ) ;
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constexpr auto is_function_expression = IsSame < FunctionNodeType , FunctionExpression > ;
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FunctionKind function_kind ;
if ( ( parse_options & FunctionNodeParseOptions : : IsGeneratorFunction ) ! = 0 & & ( parse_options & FunctionNodeParseOptions : : IsAsyncFunction ) ! = 0 )
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function_kind = FunctionKind : : AsyncGenerator ;
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else if ( ( parse_options & FunctionNodeParseOptions : : IsGeneratorFunction ) ! = 0 )
function_kind = FunctionKind : : Generator ;
else if ( ( parse_options & FunctionNodeParseOptions : : IsAsyncFunction ) ! = 0 )
function_kind = FunctionKind : : Async ;
else
function_kind = FunctionKind : : Regular ;
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String name ;
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if ( parse_options & FunctionNodeParseOptions : : CheckForFunctionAndName ) {
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if ( function_kind = = FunctionKind : : Regular & & match ( TokenType : : Async ) & & ! next_token ( ) . trivia_contains_line_terminator ( ) ) {
function_kind = FunctionKind : : Async ;
consume ( TokenType : : Async ) ;
parse_options = parse_options | FunctionNodeParseOptions : : IsAsyncFunction ;
}
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consume ( TokenType : : Function ) ;
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if ( match ( TokenType : : Asterisk ) ) {
function_kind = function_kind = = FunctionKind : : Regular ? FunctionKind : : Generator : FunctionKind : : AsyncGenerator ;
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consume ( TokenType : : Asterisk ) ;
parse_options = parse_options | FunctionNodeParseOptions : : IsGeneratorFunction ;
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}
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if ( FunctionNodeType : : must_have_name ( ) | | match_identifier ( ) )
name = consume_identifier ( ) . value ( ) ;
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else if ( is_function_expression & & ( match ( TokenType : : Yield ) | | match ( TokenType : : Await ) ) )
name = consume ( ) . value ( ) ;
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check_identifier_name_for_assignment_validity ( name ) ;
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if ( m_state . in_class_static_init_block & & name = = " await " sv )
syntax_error ( " 'await' is a reserved word " ) ;
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}
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TemporaryChange class_static_initializer_rollback ( m_state . in_class_static_init_block , false ) ;
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TemporaryChange generator_change ( m_state . in_generator_function_context , function_kind = = FunctionKind : : Generator | | function_kind = = FunctionKind : : AsyncGenerator ) ;
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TemporaryChange async_change ( m_state . await_expression_is_valid , function_kind = = FunctionKind : : Async | | function_kind = = FunctionKind : : AsyncGenerator ) ;
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consume ( TokenType : : ParenOpen ) ;
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i32 function_length = - 1 ;
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auto parameters = parse_formal_parameters ( function_length , parse_options ) ;
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consume ( TokenType : : ParenClose ) ;
if ( function_length = = - 1 )
function_length = parameters . size ( ) ;
LibJS: Add an optimization to avoid needless arguments object creation
This gives FunctionNode a "might need arguments object" boolean flag and
sets it based on the simplest possible heuristic for this: if we
encounter an identifier called "arguments" or "eval" up to the next
(nested) function declaration or expression, we won't need an arguments
object. Otherwise, we *might* need one - the final decision is made in
the FunctionDeclarationInstantiation AO.
Now, this is obviously not perfect. Even if you avoid eval, something
like `foo.arguments` will still trigger a false positive - but it's a
start and already massively cuts down on needlessly allocated objects,
especially in real-world code that is often minified, and so a full
"arguments" identifier will be an actual arguments object more often
than not.
To illustrate the actual impact of this change, here's the number of
allocated arguments objects during a full test-js run:
Before:
- Unmapped arguments objects: 78765
- Mapped arguments objects: 2455
After:
- Unmapped arguments objects: 18
- Mapped arguments objects: 37
This results in a ~5% speedup of test-js on my Linux host machine, and
about 3.5% on i686 Serenity in QEMU (warm runs, average of 5).
The following microbenchmark (calling an empty function 1M times) runs
25% faster on Linux and 45% on Serenity:
function foo() {}
for (var i = 0; i < 1_000_000; ++i)
foo();
test262 reports no changes in either direction, apart from a speedup :^)
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TemporaryChange function_context_rollback ( m_state . in_function_context , true ) ;
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auto old_labels_in_scope = move ( m_state . labels_in_scope ) ;
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ScopeGuard guard ( [ & ] ( ) {
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m_state . labels_in_scope = move ( old_labels_in_scope ) ;
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} ) ;
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bool contains_direct_call_to_eval = false ;
auto body = parse_function_body ( parameters , function_kind , contains_direct_call_to_eval ) ;
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auto has_strict_directive = body - > in_strict_mode ( ) ;
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if ( has_strict_directive )
check_identifier_name_for_assignment_validity ( name , true ) ;
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return create_ast_node < FunctionNodeType > (
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{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
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name , move ( body ) , move ( parameters ) , function_length ,
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function_kind , has_strict_directive , m_state . function_might_need_arguments_object ,
contains_direct_call_to_eval ) ;
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}
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Vector < FunctionNode : : Parameter > Parser : : parse_formal_parameters ( int & function_length , u8 parse_options )
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{
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auto rule_start = push_start ( ) ;
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bool has_default_parameter = false ;
bool has_rest_parameter = false ;
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TemporaryChange formal_parameter_context_change { m_state . in_formal_parameter_context , true } ;
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Vector < FunctionNode : : Parameter > parameters ;
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auto consume_identifier_or_binding_pattern = [ & ] ( ) - > Variant < FlyString , NonnullRefPtr < BindingPattern > > {
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if ( auto pattern = parse_binding_pattern ( AllowDuplicates : : No , AllowMemberExpressions : : No ) )
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return pattern . release_nonnull ( ) ;
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auto token = consume_identifier ( ) ;
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auto parameter_name = token . value ( ) ;
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check_identifier_name_for_assignment_validity ( parameter_name ) ;
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for ( auto & parameter : parameters ) {
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bool has_same_name = parameter . binding . visit (
[ & ] ( FlyString const & name ) {
return name = = parameter_name ;
} ,
[ & ] ( NonnullRefPtr < BindingPattern > const & bindings ) {
bool found_duplicate = false ;
bindings - > for_each_bound_name ( [ & ] ( auto & bound_name ) {
if ( bound_name = = parameter_name )
found_duplicate = true ;
} ) ;
return found_duplicate ;
} ) ;
if ( ! has_same_name )
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continue ;
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String message ;
if ( parse_options & FunctionNodeParseOptions : : IsArrowFunction )
message = String : : formatted ( " Duplicate parameter '{}' not allowed in arrow function " , parameter_name ) ;
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else if ( m_state . strict_mode )
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message = String : : formatted ( " Duplicate parameter '{}' not allowed in strict mode " , parameter_name ) ;
else if ( has_default_parameter | | match ( TokenType : : Equals ) )
message = String : : formatted ( " Duplicate parameter '{}' not allowed in function with default parameter " , parameter_name ) ;
else if ( has_rest_parameter )
message = String : : formatted ( " Duplicate parameter '{}' not allowed in function with rest parameter " , parameter_name ) ;
if ( ! message . is_empty ( ) )
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syntax_error ( message , Position { token . line_number ( ) , token . line_column ( ) } ) ;
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break ;
}
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return FlyString { token . value ( ) } ;
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} ;
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while ( match ( TokenType : : CurlyOpen ) | | match ( TokenType : : BracketOpen ) | | match_identifier ( ) | | match ( TokenType : : TripleDot ) ) {
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if ( parse_options & FunctionNodeParseOptions : : IsGetterFunction )
syntax_error ( " Getter function must have no arguments " ) ;
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if ( parse_options & FunctionNodeParseOptions : : IsSetterFunction & & ( parameters . size ( ) > = 1 | | match ( TokenType : : TripleDot ) ) )
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syntax_error ( " Setter function must have one argument " ) ;
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auto is_rest = false ;
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if ( match ( TokenType : : TripleDot ) ) {
consume ( ) ;
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has_rest_parameter = true ;
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function_length = parameters . size ( ) ;
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is_rest = true ;
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}
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auto parameter = consume_identifier_or_binding_pattern ( ) ;
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RefPtr < Expression > default_value ;
if ( match ( TokenType : : Equals ) ) {
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consume ( ) ;
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if ( is_rest )
syntax_error ( " Rest parameter may not have a default initializer " ) ;
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TemporaryChange change ( m_state . in_function_context , true ) ;
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has_default_parameter = true ;
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function_length = parameters . size ( ) ;
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default_value = parse_expression ( 2 ) ;
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bool is_generator = parse_options & FunctionNodeParseOptions : : IsGeneratorFunction ;
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if ( ( is_generator | | m_state . strict_mode ) & & default_value & & default_value - > fast_is < Identifier > ( ) & & static_cast < Identifier & > ( * default_value ) . string ( ) = = " yield " sv )
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syntax_error ( " Generator function parameter initializer cannot contain a reference to an identifier named \" yield \" " ) ;
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}
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parameters . append ( { move ( parameter ) , default_value , is_rest } ) ;
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if ( match ( TokenType : : ParenClose ) | | is_rest )
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break ;
consume ( TokenType : : Comma ) ;
}
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if ( parse_options & FunctionNodeParseOptions : : IsSetterFunction & & parameters . is_empty ( ) )
syntax_error ( " Setter function must have one argument " ) ;
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return parameters ;
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}
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static constexpr AK : : Array < StringView , 36 > s_reserved_words = { " break " , " case " , " catch " , " class " , " const " , " continue " , " debugger " , " default " , " delete " , " do " , " else " , " enum " , " export " , " extends " , " false " , " finally " , " for " , " function " , " if " , " import " , " in " , " instanceof " , " new " , " null " , " return " , " super " , " switch " , " this " , " throw " , " true " , " try " , " typeof " , " var " , " void " , " while " , " with " } ;
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RefPtr < BindingPattern > Parser : : parse_binding_pattern ( Parser : : AllowDuplicates allow_duplicates , Parser : : AllowMemberExpressions allow_member_expressions )
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{
auto rule_start = push_start ( ) ;
TokenType closing_token ;
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bool is_object = true ;
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if ( match ( TokenType : : BracketOpen ) ) {
consume ( ) ;
closing_token = TokenType : : BracketClose ;
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is_object = false ;
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} else if ( match ( TokenType : : CurlyOpen ) ) {
consume ( ) ;
closing_token = TokenType : : CurlyClose ;
} else {
return { } ;
}
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Vector < BindingPattern : : BindingEntry > entries ;
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while ( ! match ( closing_token ) ) {
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if ( ! is_object & & match ( TokenType : : Comma ) ) {
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consume ( ) ;
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entries . append ( BindingPattern : : BindingEntry { } ) ;
continue ;
}
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auto is_rest = false ;
if ( match ( TokenType : : TripleDot ) ) {
consume ( ) ;
is_rest = true ;
}
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decltype ( BindingPattern : : BindingEntry : : name ) name = Empty { } ;
decltype ( BindingPattern : : BindingEntry : : alias ) alias = Empty { } ;
RefPtr < Expression > initializer = { } ;
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if ( is_object ) {
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bool needs_alias = false ;
if ( allow_member_expressions = = AllowMemberExpressions : : Yes & & is_rest ) {
auto expression_position = position ( ) ;
auto expression = parse_expression ( 2 , Associativity : : Right , { TokenType : : Equals } ) ;
if ( is < MemberExpression > ( * expression ) )
alias = static_ptr_cast < MemberExpression > ( expression ) ;
else if ( is < Identifier > ( * expression ) )
name = static_ptr_cast < Identifier > ( expression ) ;
else
syntax_error ( " Invalid destructuring assignment target " , expression_position ) ;
} else if ( match_identifier_name ( ) | | match ( TokenType : : StringLiteral ) | | match ( TokenType : : NumericLiteral ) ) {
if ( match ( TokenType : : StringLiteral ) | | match ( TokenType : : NumericLiteral ) )
needs_alias = true ;
if ( match ( TokenType : : StringLiteral ) ) {
auto token = consume ( TokenType : : StringLiteral ) ;
auto string_literal = parse_string_literal ( token ) ;
name = create_ast_node < Identifier > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
string_literal - > value ( ) ) ;
} else {
name = create_ast_node < Identifier > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
consume ( ) . value ( ) ) ;
}
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} else if ( match ( TokenType : : BracketOpen ) ) {
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consume ( ) ;
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auto expression = parse_expression ( 0 ) ;
name = move ( expression ) ;
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consume ( TokenType : : BracketClose ) ;
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} else {
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expected ( " identifier or computed property name " ) ;
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return { } ;
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}
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if ( ! is_rest & & match ( TokenType : : Colon ) ) {
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consume ( ) ;
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if ( allow_member_expressions = = AllowMemberExpressions : : Yes ) {
auto expression_position = position ( ) ;
auto expression = parse_expression ( 2 , Associativity : : Right , { TokenType : : Equals } ) ;
if ( is < ArrayExpression > ( * expression ) | | is < ObjectExpression > ( * expression ) ) {
if ( auto synthesized_binding_pattern = synthesize_binding_pattern ( * expression ) )
alias = synthesized_binding_pattern . release_nonnull ( ) ;
else
syntax_error ( " Invalid destructuring assignment target " , expression_position ) ;
} else if ( is < MemberExpression > ( * expression ) ) {
alias = static_ptr_cast < MemberExpression > ( expression ) ;
} else if ( is < Identifier > ( * expression ) ) {
alias = static_ptr_cast < Identifier > ( expression ) ;
} else {
syntax_error ( " Invalid destructuring assignment target " , expression_position ) ;
}
} else if ( match ( TokenType : : CurlyOpen ) | | match ( TokenType : : BracketOpen ) ) {
auto binding_pattern = parse_binding_pattern ( allow_duplicates , allow_member_expressions ) ;
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if ( ! binding_pattern )
return { } ;
alias = binding_pattern . release_nonnull ( ) ;
} else if ( match_identifier_name ( ) ) {
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alias = create_ast_node < Identifier > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
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consume ( ) . value ( ) ) ;
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} else {
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expected ( " identifier or binding pattern " ) ;
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return { } ;
}
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} else if ( needs_alias ) {
expected ( " alias for string or numeric literal name " ) ;
return { } ;
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}
} else {
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if ( allow_member_expressions = = AllowMemberExpressions : : Yes ) {
auto expression_position = position ( ) ;
auto expression = parse_expression ( 2 , Associativity : : Right , { TokenType : : Equals } ) ;
if ( is < ArrayExpression > ( * expression ) | | is < ObjectExpression > ( * expression ) ) {
if ( auto synthesized_binding_pattern = synthesize_binding_pattern ( * expression ) )
alias = synthesized_binding_pattern . release_nonnull ( ) ;
else
syntax_error ( " Invalid destructuring assignment target " , expression_position ) ;
} else if ( is < MemberExpression > ( * expression ) ) {
alias = static_ptr_cast < MemberExpression > ( expression ) ;
} else if ( is < Identifier > ( * expression ) ) {
alias = static_ptr_cast < Identifier > ( expression ) ;
} else {
syntax_error ( " Invalid destructuring assignment target " , expression_position ) ;
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}
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} else if ( match ( TokenType : : BracketOpen ) | | match ( TokenType : : CurlyOpen ) ) {
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auto pattern = parse_binding_pattern ( allow_duplicates , allow_member_expressions ) ;
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if ( ! pattern ) {
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expected ( " binding pattern " ) ;
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return { } ;
}
alias = pattern . release_nonnull ( ) ;
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} else if ( match_identifier_name ( ) ) {
// BindingElement must always have an Empty name field
auto identifier_name = consume_identifier ( ) . value ( ) ;
alias = create_ast_node < Identifier > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
identifier_name ) ;
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} else {
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expected ( " identifier or binding pattern " ) ;
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return { } ;
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}
}
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if ( match ( TokenType : : Equals ) ) {
if ( is_rest ) {
syntax_error ( " Unexpected initializer after rest element " ) ;
return { } ;
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}
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consume ( ) ;
initializer = parse_expression ( 2 ) ;
if ( ! initializer ) {
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expected ( " initialization expression " ) ;
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return { } ;
}
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}
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entries . append ( BindingPattern : : BindingEntry { move ( name ) , move ( alias ) , move ( initializer ) , is_rest } ) ;
if ( match ( TokenType : : Comma ) ) {
if ( is_rest ) {
syntax_error ( " Rest element may not be followed by a comma " ) ;
return { } ;
}
consume ( ) ;
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} else if ( is_object & & ! match ( TokenType : : CurlyClose ) ) {
consume ( TokenType : : Comma ) ;
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}
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}
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while ( ! is_object & & match ( TokenType : : Comma ) )
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consume ( ) ;
consume ( closing_token ) ;
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auto kind = is_object ? BindingPattern : : Kind : : Object : BindingPattern : : Kind : : Array ;
auto pattern = adopt_ref ( * new BindingPattern ) ;
pattern - > entries = move ( entries ) ;
pattern - > kind = kind ;
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Vector < StringView > bound_names ;
pattern - > for_each_bound_name ( [ & ] ( auto & name ) {
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if ( allow_duplicates = = AllowDuplicates : : No ) {
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if ( bound_names . contains_slow ( name ) )
syntax_error ( " Duplicate parameter names in bindings " ) ;
bound_names . append ( name ) ;
}
check_identifier_name_for_assignment_validity ( name ) ;
} ) ;
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return pattern ;
}
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NonnullRefPtr < VariableDeclaration > Parser : : parse_variable_declaration ( bool for_loop_variable_declaration )
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{
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auto rule_start = push_start ( ) ;
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DeclarationKind declaration_kind ;
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switch ( m_state . current_token . type ( ) ) {
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case TokenType : : Var :
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declaration_kind = DeclarationKind : : Var ;
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break ;
case TokenType : : Let :
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declaration_kind = DeclarationKind : : Let ;
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break ;
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case TokenType : : Const :
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declaration_kind = DeclarationKind : : Const ;
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break ;
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default :
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VERIFY_NOT_REACHED ( ) ;
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}
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consume ( ) ;
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NonnullRefPtrVector < VariableDeclarator > declarations ;
for ( ; ; ) {
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Variant < NonnullRefPtr < Identifier > , NonnullRefPtr < BindingPattern > , Empty > target { } ;
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if ( match_identifier ( ) ) {
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auto identifier_start = push_start ( ) ;
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auto name = consume_identifier ( ) . value ( ) ;
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target = create_ast_node < Identifier > (
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{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
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name ) ;
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check_identifier_name_for_assignment_validity ( name ) ;
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if ( ( declaration_kind = = DeclarationKind : : Let | | declaration_kind = = DeclarationKind : : Const ) & & name = = " let " sv )
syntax_error ( " Lexical binding may not be called 'let' " ) ;
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} else if ( auto pattern = parse_binding_pattern ( declaration_kind ! = DeclarationKind : : Var ? AllowDuplicates : : No : AllowDuplicates : : Yes , AllowMemberExpressions : : No ) ) {
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target = pattern . release_nonnull ( ) ;
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if ( ( declaration_kind = = DeclarationKind : : Let | | declaration_kind = = DeclarationKind : : Const ) ) {
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target . get < NonnullRefPtr < BindingPattern > > ( ) - > for_each_bound_name ( [ this ] ( auto & name ) {
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if ( name = = " let " sv )
syntax_error ( " Lexical binding may not be called 'let' " ) ;
} ) ;
}
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} else if ( ! m_state . in_generator_function_context & & match ( TokenType : : Yield ) ) {
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if ( m_state . strict_mode )
syntax_error ( " Identifier must not be a reserved word in strict mode ('yield') " ) ;
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target = create_ast_node < Identifier > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
consume ( ) . value ( ) ) ;
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} else if ( ! m_state . await_expression_is_valid & & match ( TokenType : : Async ) ) {
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if ( m_program_type = = Program : : Type : : Module )
syntax_error ( " Identifier must not be a reserved word in modules ('async') " ) ;
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target = create_ast_node < Identifier > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
consume ( ) . value ( ) ) ;
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}
if ( target . has < Empty > ( ) ) {
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expected ( " identifier or a binding pattern " ) ;
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if ( match ( TokenType : : Comma ) ) {
consume ( ) ;
continue ;
}
break ;
}
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RefPtr < Expression > init ;
if ( match ( TokenType : : Equals ) ) {
consume ( ) ;
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// In a for loop 'in' can be ambiguous so we do not allow it
// 14.7.4 The for Statement, https://tc39.es/ecma262/#prod-ForStatement and 14.7.5 The for-in, for-of, and for-await-of Statements, https://tc39.es/ecma262/#prod-ForInOfStatement
if ( for_loop_variable_declaration )
init = parse_expression ( 2 , Associativity : : Right , { TokenType : : In } ) ;
else
init = parse_expression ( 2 ) ;
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} else if ( ! for_loop_variable_declaration & & declaration_kind = = DeclarationKind : : Const ) {
syntax_error ( " Missing initializer in 'const' variable declaration " ) ;
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} else if ( ! for_loop_variable_declaration & & target . has < NonnullRefPtr < BindingPattern > > ( ) ) {
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syntax_error ( " Missing initializer in destructuring assignment " ) ;
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}
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declarations . append ( create_ast_node < VariableDeclarator > (
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{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
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move ( target ) . downcast < NonnullRefPtr < Identifier > , NonnullRefPtr < BindingPattern > > ( ) ,
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move ( init ) ) ) ;
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if ( match ( TokenType : : Comma ) ) {
consume ( ) ;
continue ;
}
break ;
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}
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if ( ! for_loop_variable_declaration )
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consume_or_insert_semicolon ( ) ;
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auto declaration = create_ast_node < VariableDeclaration > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , declaration_kind , move ( declarations ) ) ;
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return declaration ;
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}
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NonnullRefPtr < ThrowStatement > Parser : : parse_throw_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Throw ) ;
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// Automatic semicolon insertion: terminate statement when throw is followed by newline
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if ( m_state . current_token . trivia_contains_line_terminator ( ) ) {
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syntax_error ( " No line break is allowed between 'throw' and its expression " ) ;
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return create_ast_node < ThrowStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , create_ast_node < ErrorExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ) ;
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}
auto expression = parse_expression ( 0 ) ;
consume_or_insert_semicolon ( ) ;
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return create_ast_node < ThrowStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expression ) ) ;
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}
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NonnullRefPtr < BreakStatement > Parser : : parse_break_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Break ) ;
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FlyString target_label ;
if ( match ( TokenType : : Semicolon ) ) {
consume ( ) ;
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} else {
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if ( ! m_state . current_token . trivia_contains_line_terminator ( ) & & match_identifier ( ) ) {
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target_label = consume ( ) . value ( ) ;
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auto label = m_state . labels_in_scope . find ( target_label ) ;
if ( label = = m_state . labels_in_scope . end ( ) )
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syntax_error ( String : : formatted ( " Label '{}' not found " , target_label ) ) ;
}
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consume_or_insert_semicolon ( ) ;
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}
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if ( target_label . is_null ( ) & & ! m_state . in_break_context )
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syntax_error ( " Unlabeled 'break' not allowed outside of a loop or switch statement " ) ;
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return create_ast_node < BreakStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , target_label ) ;
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}
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NonnullRefPtr < ContinueStatement > Parser : : parse_continue_statement ( )
{
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auto rule_start = push_start ( ) ;
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if ( ! m_state . in_continue_context )
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syntax_error ( " 'continue' not allow outside of a loop " ) ;
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consume ( TokenType : : Continue ) ;
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FlyString target_label ;
if ( match ( TokenType : : Semicolon ) ) {
consume ( ) ;
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return create_ast_node < ContinueStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , target_label ) ;
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}
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if ( ! m_state . current_token . trivia_contains_line_terminator ( ) & & match_identifier ( ) ) {
auto label_position = position ( ) ;
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target_label = consume ( ) . value ( ) ;
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auto label = m_state . labels_in_scope . find ( target_label ) ;
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if ( label = = m_state . labels_in_scope . end ( ) )
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syntax_error ( String : : formatted ( " Label '{}' not found or invalid " , target_label ) ) ;
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else
label - > value = label_position ;
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}
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consume_or_insert_semicolon ( ) ;
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return create_ast_node < ContinueStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , target_label ) ;
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}
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NonnullRefPtr < ConditionalExpression > Parser : : parse_conditional_expression ( NonnullRefPtr < Expression > test )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : QuestionMark ) ;
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auto consequent = parse_expression ( 2 ) ;
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consume ( TokenType : : Colon ) ;
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auto alternate = parse_expression ( 2 ) ;
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return create_ast_node < ConditionalExpression > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( test ) , move ( consequent ) , move ( alternate ) ) ;
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}
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NonnullRefPtr < OptionalChain > Parser : : parse_optional_chain ( NonnullRefPtr < Expression > base )
{
auto rule_start = push_start ( ) ;
Vector < OptionalChain : : Reference > chain ;
do {
if ( match ( TokenType : : QuestionMarkPeriod ) ) {
consume ( TokenType : : QuestionMarkPeriod ) ;
switch ( m_state . current_token . type ( ) ) {
case TokenType : : ParenOpen :
chain . append ( OptionalChain : : Call { parse_arguments ( ) , OptionalChain : : Mode : : Optional } ) ;
break ;
case TokenType : : BracketOpen :
consume ( ) ;
chain . append ( OptionalChain : : ComputedReference { parse_expression ( 0 ) , OptionalChain : : Mode : : Optional } ) ;
consume ( TokenType : : BracketClose ) ;
break ;
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case TokenType : : PrivateIdentifier : {
if ( ! is_private_identifier_valid ( ) )
syntax_error ( String : : formatted ( " Reference to undeclared private field or method '{}' " , m_state . current_token . value ( ) ) ) ;
auto start = position ( ) ;
auto private_identifier = consume ( ) ;
chain . append ( OptionalChain : : PrivateMemberReference {
create_ast_node < PrivateIdentifier > ( { m_state . current_token . filename ( ) , start , position ( ) } , private_identifier . value ( ) ) ,
OptionalChain : : Mode : : Optional } ) ;
break ;
}
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case TokenType : : TemplateLiteralStart :
// 13.3.1.1 - Static Semantics: Early Errors
// OptionalChain :
// ?. TemplateLiteral
// OptionalChain TemplateLiteral
// This is a hard error.
syntax_error ( " Invalid tagged template literal after ?. " , position ( ) ) ;
break ;
default :
if ( match_identifier_name ( ) ) {
auto start = position ( ) ;
auto identifier = consume ( ) ;
chain . append ( OptionalChain : : MemberReference {
create_ast_node < Identifier > ( { m_state . current_token . filename ( ) , start , position ( ) } , identifier . value ( ) ) ,
OptionalChain : : Mode : : Optional ,
} ) ;
} else {
syntax_error ( " Invalid optional chain reference after ?. " , position ( ) ) ;
}
break ;
}
} else if ( match ( TokenType : : ParenOpen ) ) {
chain . append ( OptionalChain : : Call { parse_arguments ( ) , OptionalChain : : Mode : : NotOptional } ) ;
} else if ( match ( TokenType : : Period ) ) {
consume ( ) ;
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if ( match ( TokenType : : PrivateIdentifier ) ) {
auto start = position ( ) ;
auto private_identifier = consume ( ) ;
chain . append ( OptionalChain : : PrivateMemberReference {
create_ast_node < PrivateIdentifier > ( { m_state . current_token . filename ( ) , start , position ( ) } , private_identifier . value ( ) ) ,
OptionalChain : : Mode : : NotOptional ,
} ) ;
} else if ( match_identifier_name ( ) ) {
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auto start = position ( ) ;
auto identifier = consume ( ) ;
chain . append ( OptionalChain : : MemberReference {
create_ast_node < Identifier > ( { m_state . current_token . filename ( ) , start , position ( ) } , identifier . value ( ) ) ,
OptionalChain : : Mode : : NotOptional ,
} ) ;
} else {
expected ( " an identifier " ) ;
break ;
}
} else if ( match ( TokenType : : TemplateLiteralStart ) ) {
// 13.3.1.1 - Static Semantics: Early Errors
// OptionalChain :
// ?. TemplateLiteral
// OptionalChain TemplateLiteral
syntax_error ( " Invalid tagged template literal after optional chain " , position ( ) ) ;
break ;
} else if ( match ( TokenType : : BracketOpen ) ) {
consume ( ) ;
chain . append ( OptionalChain : : ComputedReference { parse_expression ( 2 ) , OptionalChain : : Mode : : NotOptional } ) ;
consume ( TokenType : : BracketClose ) ;
} else {
break ;
}
} while ( ! done ( ) ) ;
return create_ast_node < OptionalChain > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
move ( base ) ,
move ( chain ) ) ;
}
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NonnullRefPtr < TryStatement > Parser : : parse_try_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Try ) ;
auto block = parse_block_statement ( ) ;
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RefPtr < CatchClause > handler ;
if ( match ( TokenType : : Catch ) )
handler = parse_catch_clause ( ) ;
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RefPtr < BlockStatement > finalizer ;
if ( match ( TokenType : : Finally ) ) {
consume ( ) ;
finalizer = parse_block_statement ( ) ;
}
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if ( ! handler & & ! finalizer )
syntax_error ( " try statement must have a 'catch' or 'finally' clause " ) ;
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return create_ast_node < TryStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( block ) , move ( handler ) , move ( finalizer ) ) ;
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}
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NonnullRefPtr < DoWhileStatement > Parser : : parse_do_while_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Do ) ;
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auto body = [ & ] ( ) - > NonnullRefPtr < Statement > {
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TemporaryChange break_change ( m_state . in_break_context , true ) ;
TemporaryChange continue_change ( m_state . in_continue_context , true ) ;
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return parse_statement ( ) ;
} ( ) ;
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consume ( TokenType : : While ) ;
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consume ( TokenType : : ParenOpen ) ;
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auto test = parse_expression ( 0 ) ;
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consume ( TokenType : : ParenClose ) ;
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// Since ES 2015 a missing semicolon is inserted here, despite the regular ASI rules not applying
if ( match ( TokenType : : Semicolon ) )
consume ( ) ;
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return create_ast_node < DoWhileStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( test ) , move ( body ) ) ;
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}
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NonnullRefPtr < WhileStatement > Parser : : parse_while_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : While ) ;
consume ( TokenType : : ParenOpen ) ;
auto test = parse_expression ( 0 ) ;
consume ( TokenType : : ParenClose ) ;
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TemporaryChange break_change ( m_state . in_break_context , true ) ;
TemporaryChange continue_change ( m_state . in_continue_context , true ) ;
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auto body = parse_statement ( ) ;
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return create_ast_node < WhileStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( test ) , move ( body ) ) ;
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}
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NonnullRefPtr < SwitchStatement > Parser : : parse_switch_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Switch ) ;
consume ( TokenType : : ParenOpen ) ;
auto determinant = parse_expression ( 0 ) ;
consume ( TokenType : : ParenClose ) ;
consume ( TokenType : : CurlyOpen ) ;
NonnullRefPtrVector < SwitchCase > cases ;
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auto switch_statement = create_ast_node < SwitchStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( determinant ) ) ;
ScopePusher switch_scope = ScopePusher : : block_scope ( * this , switch_statement ) ;
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auto has_default = false ;
while ( match ( TokenType : : Case ) | | match ( TokenType : : Default ) ) {
if ( match ( TokenType : : Default ) ) {
if ( has_default )
syntax_error ( " Multiple 'default' clauses in switch statement " ) ;
has_default = true ;
}
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switch_statement - > add_case ( parse_switch_case ( ) ) ;
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}
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consume ( TokenType : : CurlyClose ) ;
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return switch_statement ;
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}
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NonnullRefPtr < WithStatement > Parser : : parse_with_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : With ) ;
consume ( TokenType : : ParenOpen ) ;
auto object = parse_expression ( 0 ) ;
consume ( TokenType : : ParenClose ) ;
auto body = parse_statement ( ) ;
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return create_ast_node < WithStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( object ) , move ( body ) ) ;
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}
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NonnullRefPtr < SwitchCase > Parser : : parse_switch_case ( )
{
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auto rule_start = push_start ( ) ;
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RefPtr < Expression > test ;
if ( consume ( ) . type ( ) = = TokenType : : Case ) {
test = parse_expression ( 0 ) ;
}
consume ( TokenType : : Colon ) ;
NonnullRefPtrVector < Statement > consequent ;
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TemporaryChange break_change ( m_state . in_break_context , true ) ;
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auto switch_case = create_ast_node < SwitchCase > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( test ) ) ;
parse_statement_list ( switch_case ) ;
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return switch_case ;
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}
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NonnullRefPtr < CatchClause > Parser : : parse_catch_clause ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Catch ) ;
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FlyString parameter ;
RefPtr < BindingPattern > pattern_parameter ;
auto should_expect_parameter = false ;
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if ( match ( TokenType : : ParenOpen ) ) {
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should_expect_parameter = true ;
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consume ( ) ;
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if ( match_identifier_name ( )
& & ( ! match ( TokenType : : Yield ) | | ! m_state . in_generator_function_context )
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& & ( ! match ( TokenType : : Async ) | | ! m_state . await_expression_is_valid )
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& & ( ! match ( TokenType : : Await ) | | ! m_state . in_class_static_init_block ) )
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parameter = consume ( ) . value ( ) ;
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else
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pattern_parameter = parse_binding_pattern ( AllowDuplicates : : No , AllowMemberExpressions : : No ) ;
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consume ( TokenType : : ParenClose ) ;
}
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if ( should_expect_parameter & & parameter . is_empty ( ) & & ! pattern_parameter )
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expected ( " an identifier or a binding pattern " ) ;
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HashTable < FlyString > bound_names ;
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if ( pattern_parameter ) {
pattern_parameter - > for_each_bound_name (
[ & ] ( auto & name ) {
check_identifier_name_for_assignment_validity ( name ) ;
bound_names . set ( name ) ;
} ) ;
}
if ( ! parameter . is_empty ( ) ) {
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check_identifier_name_for_assignment_validity ( parameter ) ;
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bound_names . set ( parameter ) ;
}
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ScopePusher catch_scope = ScopePusher : : catch_scope ( * this , pattern_parameter , parameter ) ;
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auto body = parse_block_statement ( ) ;
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body - > for_each_lexically_declared_name ( [ & ] ( auto const & name ) {
if ( bound_names . contains ( name ) )
syntax_error ( String : : formatted ( " Identifier '{}' already declared as catch parameter " , name ) ) ;
} ) ;
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if ( pattern_parameter ) {
return create_ast_node < CatchClause > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
pattern_parameter . release_nonnull ( ) ,
move ( body ) ) ;
}
return create_ast_node < CatchClause > (
{ m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ,
move ( parameter ) ,
move ( body ) ) ;
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}
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NonnullRefPtr < IfStatement > Parser : : parse_if_statement ( )
{
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auto rule_start = push_start ( ) ;
LibJS: Function declarations in if statement clauses
https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
B.3.4 FunctionDeclarations in IfStatement Statement Clauses
The following augments the IfStatement production in 13.6:
IfStatement[Yield, Await, Return] :
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else Statement[?Yield, ?Await, ?Return]
if ( Expression[+In, ?Yield, ?Await] ) Statement[?Yield, ?Await, ?Return] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default]
This production only applies when parsing non-strict code. Code matching
this production is processed as if each matching occurrence of
FunctionDeclaration[?Yield, ?Await, ~Default] was the sole
StatementListItem of a BlockStatement occupying that position in the
source code. The semantics of such a synthetic BlockStatement includes
the web legacy compatibility semantics specified in B.3.3.
2020-10-31 13:37:09 +00:00
auto parse_function_declaration_as_block_statement = [ & ] {
// https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
// Code matching this production is processed as if each matching occurrence of
// FunctionDeclaration[?Yield, ?Await, ~Default] was the sole StatementListItem
// of a BlockStatement occupying that position in the source code.
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VERIFY ( match ( TokenType : : Function ) ) ;
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auto block = create_ast_node < BlockStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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ScopePusher block_scope = ScopePusher : : block_scope ( * this , * block ) ;
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auto declaration = parse_declaration ( ) ;
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VERIFY ( m_state . current_scope_pusher ) ;
block_scope . add_declaration ( declaration ) ;
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VERIFY ( is < FunctionDeclaration > ( * declaration ) ) ;
auto & function_declaration = static_cast < FunctionDeclaration const & > ( * declaration ) ;
if ( function_declaration . kind ( ) = = FunctionKind : : Generator )
syntax_error ( " Generator functions can only be declared in top-level or within a block " ) ;
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if ( function_declaration . kind ( ) = = FunctionKind : : Async )
syntax_error ( " Async functions can only be declared in top-level or within a block " ) ;
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block - > append ( move ( declaration ) ) ;
LibJS: Function declarations in if statement clauses
https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
B.3.4 FunctionDeclarations in IfStatement Statement Clauses
The following augments the IfStatement production in 13.6:
IfStatement[Yield, Await, Return] :
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else Statement[?Yield, ?Await, ?Return]
if ( Expression[+In, ?Yield, ?Await] ) Statement[?Yield, ?Await, ?Return] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default]
This production only applies when parsing non-strict code. Code matching
this production is processed as if each matching occurrence of
FunctionDeclaration[?Yield, ?Await, ~Default] was the sole
StatementListItem of a BlockStatement occupying that position in the
source code. The semantics of such a synthetic BlockStatement includes
the web legacy compatibility semantics specified in B.3.3.
2020-10-31 13:37:09 +00:00
return block ;
} ;
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consume ( TokenType : : If ) ;
consume ( TokenType : : ParenOpen ) ;
auto predicate = parse_expression ( 0 ) ;
consume ( TokenType : : ParenClose ) ;
LibJS: Function declarations in if statement clauses
https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
B.3.4 FunctionDeclarations in IfStatement Statement Clauses
The following augments the IfStatement production in 13.6:
IfStatement[Yield, Await, Return] :
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else Statement[?Yield, ?Await, ?Return]
if ( Expression[+In, ?Yield, ?Await] ) Statement[?Yield, ?Await, ?Return] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default]
This production only applies when parsing non-strict code. Code matching
this production is processed as if each matching occurrence of
FunctionDeclaration[?Yield, ?Await, ~Default] was the sole
StatementListItem of a BlockStatement occupying that position in the
source code. The semantics of such a synthetic BlockStatement includes
the web legacy compatibility semantics specified in B.3.3.
2020-10-31 13:37:09 +00:00
RefPtr < Statement > consequent ;
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if ( ! m_state . strict_mode & & match ( TokenType : : Function ) )
LibJS: Function declarations in if statement clauses
https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
B.3.4 FunctionDeclarations in IfStatement Statement Clauses
The following augments the IfStatement production in 13.6:
IfStatement[Yield, Await, Return] :
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else Statement[?Yield, ?Await, ?Return]
if ( Expression[+In, ?Yield, ?Await] ) Statement[?Yield, ?Await, ?Return] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default]
This production only applies when parsing non-strict code. Code matching
this production is processed as if each matching occurrence of
FunctionDeclaration[?Yield, ?Await, ~Default] was the sole
StatementListItem of a BlockStatement occupying that position in the
source code. The semantics of such a synthetic BlockStatement includes
the web legacy compatibility semantics specified in B.3.3.
2020-10-31 13:37:09 +00:00
consequent = parse_function_declaration_as_block_statement ( ) ;
else
consequent = parse_statement ( ) ;
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RefPtr < Statement > alternate ;
if ( match ( TokenType : : Else ) ) {
LibJS: Function declarations in if statement clauses
https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
B.3.4 FunctionDeclarations in IfStatement Statement Clauses
The following augments the IfStatement production in 13.6:
IfStatement[Yield, Await, Return] :
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else Statement[?Yield, ?Await, ?Return]
if ( Expression[+In, ?Yield, ?Await] ) Statement[?Yield, ?Await, ?Return] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default]
This production only applies when parsing non-strict code. Code matching
this production is processed as if each matching occurrence of
FunctionDeclaration[?Yield, ?Await, ~Default] was the sole
StatementListItem of a BlockStatement occupying that position in the
source code. The semantics of such a synthetic BlockStatement includes
the web legacy compatibility semantics specified in B.3.3.
2020-10-31 13:37:09 +00:00
consume ( ) ;
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if ( ! m_state . strict_mode & & match ( TokenType : : Function ) )
LibJS: Function declarations in if statement clauses
https://tc39.es/ecma262/#sec-functiondeclarations-in-ifstatement-statement-clauses
B.3.4 FunctionDeclarations in IfStatement Statement Clauses
The following augments the IfStatement production in 13.6:
IfStatement[Yield, Await, Return] :
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else Statement[?Yield, ?Await, ?Return]
if ( Expression[+In, ?Yield, ?Await] ) Statement[?Yield, ?Await, ?Return] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default] else FunctionDeclaration[?Yield, ?Await, ~Default]
if ( Expression[+In, ?Yield, ?Await] ) FunctionDeclaration[?Yield, ?Await, ~Default]
This production only applies when parsing non-strict code. Code matching
this production is processed as if each matching occurrence of
FunctionDeclaration[?Yield, ?Await, ~Default] was the sole
StatementListItem of a BlockStatement occupying that position in the
source code. The semantics of such a synthetic BlockStatement includes
the web legacy compatibility semantics specified in B.3.3.
2020-10-31 13:37:09 +00:00
alternate = parse_function_declaration_as_block_statement ( ) ;
else
alternate = parse_statement ( ) ;
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}
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return create_ast_node < IfStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( predicate ) , move ( * consequent ) , move ( alternate ) ) ;
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}
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NonnullRefPtr < Statement > Parser : : parse_for_statement ( )
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{
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auto rule_start = push_start ( ) ;
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auto is_await_loop = IsForAwaitLoop : : No ;
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auto match_of = [ & ] ( Token const & token ) {
return token . type ( ) = = TokenType : : Identifier & & token . original_value ( ) = = " of " sv ;
} ;
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auto match_for_in_of = [ & ] ( ) {
bool is_of = match_of ( m_state . current_token ) ;
if ( is_await_loop = = IsForAwaitLoop : : Yes ) {
if ( ! is_of )
syntax_error ( " for await loop is only valid with 'of' " ) ;
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else if ( ! m_state . await_expression_is_valid )
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syntax_error ( " for await loop is only valid in async function or generator " ) ;
return true ;
}
return match ( TokenType : : In ) | | is_of ;
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} ;
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consume ( TokenType : : For ) ;
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if ( match ( TokenType : : Await ) ) {
consume ( ) ;
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if ( ! m_state . await_expression_is_valid )
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syntax_error ( " for-await-of is only allowed in async function context " ) ;
is_await_loop = IsForAwaitLoop : : Yes ;
}
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consume ( TokenType : : ParenOpen ) ;
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Optional < ScopePusher > scope_pusher ;
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RefPtr < ASTNode > init ;
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if ( ! match ( TokenType : : Semicolon ) ) {
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if ( match_variable_declaration ( ) ) {
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auto declaration = parse_variable_declaration ( true ) ;
if ( declaration - > declaration_kind ( ) = = DeclarationKind : : Var ) {
m_state . current_scope_pusher - > add_declaration ( declaration ) ;
} else {
// This does not follow the normal declaration structure so we need additional checks.
HashTable < FlyString > bound_names ;
declaration - > for_each_bound_name ( [ & ] ( auto const & name ) {
if ( bound_names . set ( name ) ! = AK : : HashSetResult : : InsertedNewEntry )
syntax_error ( String : : formatted ( " Identifier '{}' already declared in for loop initializer " , name ) , declaration - > source_range ( ) . start ) ;
} ) ;
}
init = move ( declaration ) ;
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if ( match_for_in_of ( ) )
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return parse_for_in_of_statement ( * init , is_await_loop ) ;
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if ( static_cast < VariableDeclaration & > ( * init ) . declaration_kind ( ) = = DeclarationKind : : Const ) {
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for ( auto & variable : static_cast < VariableDeclaration & > ( * init ) . declarations ( ) ) {
if ( ! variable . init ( ) )
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syntax_error ( " Missing initializer in 'const' variable declaration " ) ;
}
}
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} else if ( match_expression ( ) ) {
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auto lookahead_token = next_token ( ) ;
bool starts_with_async_of = match ( TokenType : : Async ) & & match_of ( lookahead_token ) ;
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init = parse_expression ( 0 , Associativity : : Right , { TokenType : : In } ) ;
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if ( match_for_in_of ( ) ) {
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if ( is_await_loop ! = IsForAwaitLoop : : Yes
& & starts_with_async_of & & match_of ( m_state . current_token ) )
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syntax_error ( " for-of loop may not start with async of " ) ;
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return parse_for_in_of_statement ( * init , is_await_loop ) ;
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}
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} else {
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syntax_error ( " Unexpected token in for loop " ) ;
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}
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}
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consume ( TokenType : : Semicolon ) ;
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RefPtr < Expression > test ;
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if ( ! match ( TokenType : : Semicolon ) )
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test = parse_expression ( 0 ) ;
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consume ( TokenType : : Semicolon ) ;
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RefPtr < Expression > update ;
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if ( ! match ( TokenType : : ParenClose ) )
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update = parse_expression ( 0 ) ;
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consume ( TokenType : : ParenClose ) ;
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TemporaryChange break_change ( m_state . in_break_context , true ) ;
TemporaryChange continue_change ( m_state . in_continue_context , true ) ;
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ScopePusher for_loop_scope = ScopePusher : : for_loop_scope ( * this , init ) ;
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auto body = parse_statement ( ) ;
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return create_ast_node < ForStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( init ) , move ( test ) , move ( update ) , move ( body ) ) ;
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}
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NonnullRefPtr < Statement > Parser : : parse_for_in_of_statement ( NonnullRefPtr < ASTNode > lhs , IsForAwaitLoop is_for_await_loop )
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{
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Variant < NonnullRefPtr < ASTNode > , NonnullRefPtr < BindingPattern > > for_declaration = lhs ;
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auto rule_start = push_start ( ) ;
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auto has_annexB_for_in_init_extension = false ;
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if ( is < VariableDeclaration > ( * lhs ) ) {
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auto & declaration = static_cast < VariableDeclaration & > ( * lhs ) ;
if ( declaration . declarations ( ) . size ( ) > 1 ) {
syntax_error ( " Multiple declarations not allowed in for..in/of " ) ;
} else if ( declaration . declarations ( ) . size ( ) < 1 ) {
syntax_error ( " Need exactly one variable declaration in for..in/of " ) ;
} else {
// AnnexB extension B.3.5 Initializers in ForIn Statement Heads, https://tc39.es/ecma262/#sec-initializers-in-forin-statement-heads
auto & variable = declaration . declarations ( ) . first ( ) ;
if ( variable . init ( ) ) {
if ( m_state . strict_mode | | declaration . declaration_kind ( ) ! = DeclarationKind : : Var | | ! variable . target ( ) . has < NonnullRefPtr < Identifier > > ( ) )
syntax_error ( " Variable initializer not allowed in for..in/of " ) ;
else
has_annexB_for_in_init_extension = true ;
}
}
} else if ( ! lhs - > is_identifier ( ) & & ! is < MemberExpression > ( * lhs ) ) {
bool valid = false ;
if ( is < ObjectExpression > ( * lhs ) | | is < ArrayExpression > ( * lhs ) ) {
auto synthesized_binding_pattern = synthesize_binding_pattern ( static_cast < Expression const & > ( * lhs ) ) ;
if ( synthesized_binding_pattern ) {
for_declaration = synthesized_binding_pattern . release_nonnull ( ) ;
valid = true ;
}
}
if ( ! valid )
syntax_error ( String : : formatted ( " Invalid left-hand side in for-loop ('{}') " , lhs - > class_name ( ) ) ) ;
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}
auto in_or_of = consume ( ) ;
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auto is_in = in_or_of . type ( ) = = TokenType : : In ;
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if ( ! is_in ) {
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if ( is < MemberExpression > ( * lhs ) ) {
auto & member = static_cast < MemberExpression const & > ( * lhs ) ;
if ( member . object ( ) . is_identifier ( ) & & static_cast < Identifier const & > ( member . object ( ) ) . string ( ) = = " let " sv )
syntax_error ( " For of statement may not start with let. " ) ;
}
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if ( has_annexB_for_in_init_extension )
syntax_error ( " Variable initializer not allowed in for..of " , rule_start . position ( ) ) ;
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}
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auto rhs = parse_expression ( is_in ? 0 : 2 ) ;
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consume ( TokenType : : ParenClose ) ;
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TemporaryChange break_change ( m_state . in_break_context , true ) ;
TemporaryChange continue_change ( m_state . in_continue_context , true ) ;
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ScopePusher for_loop_scope = ScopePusher : : for_loop_scope ( * this , lhs ) ;
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auto body = parse_statement ( ) ;
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if ( is_in )
return create_ast_node < ForInStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( for_declaration ) , move ( rhs ) , move ( body ) ) ;
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if ( is_for_await_loop = = IsForAwaitLoop : : Yes )
return create_ast_node < ForAwaitOfStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( for_declaration ) , move ( rhs ) , move ( body ) ) ;
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return create_ast_node < ForOfStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( for_declaration ) , move ( rhs ) , move ( body ) ) ;
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}
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NonnullRefPtr < DebuggerStatement > Parser : : parse_debugger_statement ( )
{
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auto rule_start = push_start ( ) ;
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consume ( TokenType : : Debugger ) ;
consume_or_insert_semicolon ( ) ;
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return create_ast_node < DebuggerStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } ) ;
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}
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bool Parser : : match ( TokenType type ) const
{
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return m_state . current_token . type ( ) = = type ;
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}
bool Parser : : match_expression ( ) const
{
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auto type = m_state . current_token . type ( ) ;
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if ( type = = TokenType : : Import ) {
auto lookahead_token = next_token ( ) ;
return lookahead_token . type ( ) = = TokenType : : Period | | lookahead_token . type ( ) = = TokenType : : ParenOpen ;
}
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return type = = TokenType : : BoolLiteral
| | type = = TokenType : : NumericLiteral
2020-06-06 00:14:10 +00:00
| | type = = TokenType : : BigIntLiteral
2020-03-11 18:27:43 +00:00
| | type = = TokenType : : StringLiteral
LibJS: Add template literals
Adds fully functioning template literals. Because template literals
contain expressions, most of the work has to be done in the Lexer rather
than the Parser. And because of the complexity of template literals
(expressions, nesting, escapes, etc), the Lexer needs to have some
template-related state.
When entering a new template literal, a TemplateLiteralStart token is
emitted. When inside a literal, all text will be parsed up until a '${'
or '`' (or EOF, but that's a syntax error) is seen, and then a
TemplateLiteralExprStart token is emitted. At this point, the Lexer
proceeds as normal, however it keeps track of the number of opening
and closing curly braces it has seen in order to determine the close
of the expression. Once it finds a matching curly brace for the '${',
a TemplateLiteralExprEnd token is emitted and the state is updated
accordingly.
When the Lexer is inside of a template literal, but not an expression,
and sees a '`', this must be the closing grave: a TemplateLiteralEnd
token is emitted.
The state required to correctly parse template strings consists of a
vector (for nesting) of two pieces of information: whether or not we
are in a template expression (as opposed to a template string); and
the count of the number of unmatched open curly braces we have seen
(only applicable if the Lexer is currently in a template expression).
TODO: Add support for template literal newlines in the JS REPL (this will
cause a syntax error currently):
> `foo
> bar`
'foo
bar'
2020-05-03 22:41:14 +00:00
| | type = = TokenType : : TemplateLiteralStart
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| | type = = TokenType : : NullLiteral
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| | match_identifier ( )
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| | ( type = = TokenType : : PrivateIdentifier & & next_token ( ) . type ( ) = = TokenType : : In )
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| | type = = TokenType : : Await
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| | type = = TokenType : : New
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| | type = = TokenType : : Class
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| | type = = TokenType : : CurlyOpen
| | type = = TokenType : : BracketOpen
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| | type = = TokenType : : ParenOpen
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| | type = = TokenType : : Function
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| | type = = TokenType : : Async
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| | type = = TokenType : : This
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| | type = = TokenType : : Super
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| | type = = TokenType : : RegexLiteral
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| | type = = TokenType : : Slash // Wrongly recognized regex by lexer
| | type = = TokenType : : SlashEquals // Wrongly recognized regex by lexer (/=a/ is a valid regex)
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| | type = = TokenType : : Yield
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| | match_unary_prefixed_expression ( ) ;
}
bool Parser : : match_unary_prefixed_expression ( ) const
{
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auto type = m_state . current_token . type ( ) ;
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return type = = TokenType : : PlusPlus
| | type = = TokenType : : MinusMinus
| | type = = TokenType : : ExclamationMark
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| | type = = TokenType : : Tilde
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| | type = = TokenType : : Plus
| | type = = TokenType : : Minus
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| | type = = TokenType : : Typeof
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| | type = = TokenType : : Void
| | type = = TokenType : : Delete ;
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}
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bool Parser : : match_secondary_expression ( const Vector < TokenType > & forbidden ) const
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{
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auto type = m_state . current_token . type ( ) ;
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if ( forbidden . contains_slow ( type ) )
return false ;
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return type = = TokenType : : Plus
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| | type = = TokenType : : PlusEquals
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| | type = = TokenType : : Minus
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| | type = = TokenType : : MinusEquals
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| | type = = TokenType : : Asterisk
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| | type = = TokenType : : AsteriskEquals
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| | type = = TokenType : : Slash
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| | type = = TokenType : : SlashEquals
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| | type = = TokenType : : Percent
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| | type = = TokenType : : PercentEquals
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| | type = = TokenType : : DoubleAsterisk
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| | type = = TokenType : : DoubleAsteriskEquals
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| | type = = TokenType : : Equals
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| | type = = TokenType : : EqualsEqualsEquals
| | type = = TokenType : : ExclamationMarkEqualsEquals
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| | type = = TokenType : : EqualsEquals
| | type = = TokenType : : ExclamationMarkEquals
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| | type = = TokenType : : GreaterThan
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| | type = = TokenType : : GreaterThanEquals
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| | type = = TokenType : : LessThan
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| | type = = TokenType : : LessThanEquals
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| | type = = TokenType : : ParenOpen
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| | type = = TokenType : : Period
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| | type = = TokenType : : BracketOpen
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| | ( type = = TokenType : : PlusPlus & & ! m_state . current_token . trivia_contains_line_terminator ( ) )
| | ( type = = TokenType : : MinusMinus & & ! m_state . current_token . trivia_contains_line_terminator ( ) )
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| | type = = TokenType : : In
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| | type = = TokenType : : Instanceof
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| | type = = TokenType : : QuestionMark
| | type = = TokenType : : Ampersand
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| | type = = TokenType : : AmpersandEquals
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| | type = = TokenType : : Pipe
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| | type = = TokenType : : PipeEquals
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| | type = = TokenType : : Caret
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| | type = = TokenType : : CaretEquals
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| | type = = TokenType : : ShiftLeft
| | type = = TokenType : : ShiftLeftEquals
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| | type = = TokenType : : ShiftRight
| | type = = TokenType : : ShiftRightEquals
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| | type = = TokenType : : UnsignedShiftRight
| | type = = TokenType : : UnsignedShiftRightEquals
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| | type = = TokenType : : DoubleAmpersand
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| | type = = TokenType : : DoubleAmpersandEquals
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| | type = = TokenType : : DoublePipe
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| | type = = TokenType : : DoublePipeEquals
| | type = = TokenType : : DoubleQuestionMark
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| | type = = TokenType : : DoubleQuestionMarkEquals
| | type = = TokenType : : QuestionMarkPeriod ;
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}
bool Parser : : match_statement ( ) const
{
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auto type = m_state . current_token . type ( ) ;
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return match_expression ( )
| | type = = TokenType : : Return
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| | type = = TokenType : : Yield
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| | type = = TokenType : : Do
| | type = = TokenType : : If
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| | type = = TokenType : : Throw
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| | type = = TokenType : : Try
| | type = = TokenType : : While
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| | type = = TokenType : : With
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| | type = = TokenType : : For
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| | type = = TokenType : : CurlyOpen
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| | type = = TokenType : : Switch
| | type = = TokenType : : Break
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| | type = = TokenType : : Continue
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| | type = = TokenType : : Var
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| | type = = TokenType : : Debugger
| | type = = TokenType : : Semicolon ;
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}
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bool Parser : : match_export_or_import ( ) const
{
auto type = m_state . current_token . type ( ) ;
return type = = TokenType : : Export
| | type = = TokenType : : Import ;
}
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bool Parser : : match_declaration ( ) const
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{
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auto type = m_state . current_token . type ( ) ;
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if ( type = = TokenType : : Let & & ! m_state . strict_mode ) {
return try_match_let_declaration ( ) ;
}
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return type = = TokenType : : Function
| | type = = TokenType : : Class
| | type = = TokenType : : Const
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| | type = = TokenType : : Let
| | ( type = = TokenType : : Async & & next_token ( ) . type ( ) = = TokenType : : Function ) ;
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}
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Token Parser : : next_token ( ) const
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{
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Lexer lookahead_lexer = m_state . lexer ;
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auto token_after = lookahead_lexer . next ( ) ;
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return token_after ;
}
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bool Parser : : try_match_let_declaration ( ) const
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{
VERIFY ( m_state . current_token . type ( ) = = TokenType : : Let ) ;
auto token_after = next_token ( ) ;
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if ( token_after . is_identifier_name ( ) & & token_after . value ( ) ! = " in " sv )
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return true ;
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if ( token_after . type ( ) = = TokenType : : CurlyOpen | | token_after . type ( ) = = TokenType : : BracketOpen )
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return true ;
return false ;
}
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bool Parser : : match_variable_declaration ( ) const
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{
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auto type = m_state . current_token . type ( ) ;
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if ( type = = TokenType : : Let & & ! m_state . strict_mode ) {
return try_match_let_declaration ( ) ;
}
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return type = = TokenType : : Var
| | type = = TokenType : : Let
| | type = = TokenType : : Const ;
}
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bool Parser : : match_identifier ( ) const
{
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if ( m_state . current_token . type ( ) = = TokenType : : EscapedKeyword ) {
if ( m_state . current_token . value ( ) = = " let " sv )
return ! m_state . strict_mode ;
if ( m_state . current_token . value ( ) = = " yield " sv )
return ! m_state . strict_mode & & ! m_state . in_generator_function_context ;
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if ( m_state . current_token . value ( ) = = " await " sv )
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return m_program_type ! = Program : : Type : : Module & & ! m_state . await_expression_is_valid & & ! m_state . in_class_static_init_block ;
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return true ;
}
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return m_state . current_token . type ( ) = = TokenType : : Identifier
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| | m_state . current_token . type ( ) = = TokenType : : Async
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| | ( m_state . current_token . type ( ) = = TokenType : : Let & & ! m_state . strict_mode )
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| | ( m_state . current_token . type ( ) = = TokenType : : Await & & m_program_type ! = Program : : Type : : Module & & ! m_state . await_expression_is_valid & & ! m_state . in_class_static_init_block )
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| | ( m_state . current_token . type ( ) = = TokenType : : Yield & & ! m_state . in_generator_function_context & & ! m_state . strict_mode ) ; // See note in Parser::parse_identifier().
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}
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bool Parser : : match_identifier_name ( ) const
{
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return m_state . current_token . is_identifier_name ( ) ;
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}
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bool Parser : : match_property_key ( ) const
{
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auto type = m_state . current_token . type ( ) ;
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return match_identifier_name ( )
| | type = = TokenType : : BracketOpen
| | type = = TokenType : : StringLiteral
| | type = = TokenType : : NumericLiteral
| | type = = TokenType : : BigIntLiteral ;
}
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bool Parser : : done ( ) const
{
return match ( TokenType : : Eof ) ;
}
Token Parser : : consume ( )
{
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auto old_token = m_state . current_token ;
m_state . current_token = m_state . lexer . next ( ) ;
LibJS: Add an optimization to avoid needless arguments object creation
This gives FunctionNode a "might need arguments object" boolean flag and
sets it based on the simplest possible heuristic for this: if we
encounter an identifier called "arguments" or "eval" up to the next
(nested) function declaration or expression, we won't need an arguments
object. Otherwise, we *might* need one - the final decision is made in
the FunctionDeclarationInstantiation AO.
Now, this is obviously not perfect. Even if you avoid eval, something
like `foo.arguments` will still trigger a false positive - but it's a
start and already massively cuts down on needlessly allocated objects,
especially in real-world code that is often minified, and so a full
"arguments" identifier will be an actual arguments object more often
than not.
To illustrate the actual impact of this change, here's the number of
allocated arguments objects during a full test-js run:
Before:
- Unmapped arguments objects: 78765
- Mapped arguments objects: 2455
After:
- Unmapped arguments objects: 18
- Mapped arguments objects: 37
This results in a ~5% speedup of test-js on my Linux host machine, and
about 3.5% on i686 Serenity in QEMU (warm runs, average of 5).
The following microbenchmark (calling an empty function 1M times) runs
25% faster on Linux and 45% on Serenity:
function foo() {}
for (var i = 0; i < 1_000_000; ++i)
foo();
test262 reports no changes in either direction, apart from a speedup :^)
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// NOTE: This is the bare minimum needed to decide whether we might need an arguments object
// in a function expression or declaration. ("might" because the AST implements some further
// conditions from the spec that rule out the need for allocating one)
if ( old_token . type ( ) = = TokenType : : Identifier & & old_token . value ( ) . is_one_of ( " arguments " sv , " eval " sv ) )
m_state . function_might_need_arguments_object = true ;
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return old_token ;
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}
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void Parser : : consume_or_insert_semicolon ( )
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{
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// Semicolon was found and will be consumed
if ( match ( TokenType : : Semicolon ) ) {
consume ( ) ;
return ;
}
// Insert semicolon if...
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// ...token is preceded by one or more newlines
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if ( m_state . current_token . trivia_contains_line_terminator ( ) )
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return ;
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// ...token is a closing curly brace
if ( match ( TokenType : : CurlyClose ) )
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return ;
// ...token is eof
if ( match ( TokenType : : Eof ) )
return ;
// No rule for semicolon insertion applies -> syntax error
expected ( " Semicolon " ) ;
}
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Token Parser : : consume_identifier ( )
{
if ( match ( TokenType : : Identifier ) )
return consume ( TokenType : : Identifier ) ;
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if ( match ( TokenType : : EscapedKeyword ) )
return consume ( TokenType : : EscapedKeyword ) ;
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// Note that 'let' is not a reserved keyword, but our lexer considers it such
// As it's pretty nice to have that (for syntax highlighting and such), we'll
// special-case it here instead.
if ( match ( TokenType : : Let ) ) {
if ( m_state . strict_mode )
syntax_error ( " 'let' is not allowed as an identifier in strict mode " ) ;
return consume ( ) ;
}
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if ( match ( TokenType : : Yield ) ) {
if ( m_state . strict_mode | | m_state . in_generator_function_context )
syntax_error ( " Identifier must not be a reserved word in strict mode ('yield') " ) ;
return consume ( ) ;
}
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if ( match ( TokenType : : Await ) ) {
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if ( m_program_type = = Program : : Type : : Module | | m_state . await_expression_is_valid | | m_state . in_class_static_init_block )
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syntax_error ( " Identifier must not be a reserved word in modules ('await') " ) ;
return consume ( ) ;
}
if ( match ( TokenType : : Async ) )
return consume ( ) ;
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expected ( " Identifier " ) ;
return consume ( ) ;
}
// https://tc39.es/ecma262/#prod-IdentifierReference
Token Parser : : consume_identifier_reference ( )
{
if ( match ( TokenType : : Identifier ) )
return consume ( TokenType : : Identifier ) ;
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if ( match ( TokenType : : EscapedKeyword ) ) {
auto name = m_state . current_token . value ( ) ;
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if ( m_state . strict_mode & & ( name = = " let " sv | | name = = " yield " sv ) )
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syntax_error ( String : : formatted ( " '{}' is not allowed as an identifier in strict mode " , name ) ) ;
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if ( m_program_type = = Program : : Type : : Module & & name = = " await " sv )
syntax_error ( " 'await' is not allowed as an identifier in module " ) ;
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return consume ( ) ;
}
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// See note in Parser::parse_identifier().
if ( match ( TokenType : : Let ) ) {
if ( m_state . strict_mode )
syntax_error ( " 'let' is not allowed as an identifier in strict mode " ) ;
return consume ( ) ;
}
if ( match ( TokenType : : Yield ) ) {
if ( m_state . strict_mode )
syntax_error ( " Identifier reference may not be 'yield' in strict mode " ) ;
return consume ( ) ;
}
if ( match ( TokenType : : Await ) ) {
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if ( m_program_type = = Program : : Type : : Module )
syntax_error ( " 'await' is not allowed as an identifier in module " ) ;
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return consume ( ) ;
}
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if ( match ( TokenType : : Async ) )
return consume ( ) ;
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expected ( Token : : name ( TokenType : : Identifier ) ) ;
return consume ( ) ;
}
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Token Parser : : consume ( TokenType expected_type )
{
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if ( ! match ( expected_type ) ) {
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expected ( Token : : name ( expected_type ) ) ;
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}
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auto token = consume ( ) ;
if ( expected_type = = TokenType : : Identifier ) {
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if ( m_state . strict_mode & & is_strict_reserved_word ( token . value ( ) ) )
syntax_error ( String : : formatted ( " Identifier must not be a reserved word in strict mode ('{}') " , token . value ( ) ) ) ;
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}
return token ;
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}
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Token Parser : : consume_and_validate_numeric_literal ( )
{
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auto is_unprefixed_octal_number = [ ] ( StringView value ) {
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return value . length ( ) > 1 & & value [ 0 ] = = ' 0 ' & & is_ascii_digit ( value [ 1 ] ) ;
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} ;
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auto literal_start = position ( ) ;
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auto token = consume ( TokenType : : NumericLiteral ) ;
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if ( m_state . strict_mode & & is_unprefixed_octal_number ( token . value ( ) ) )
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syntax_error ( " Unprefixed octal number not allowed in strict mode " , literal_start ) ;
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if ( match_identifier_name ( ) & & m_state . current_token . trivia ( ) . is_empty ( ) )
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syntax_error ( " Numeric literal must not be immediately followed by identifier " ) ;
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return token ;
}
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void Parser : : expected ( const char * what )
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{
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auto message = m_state . current_token . message ( ) ;
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if ( message . is_empty ( ) )
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message = String : : formatted ( " Unexpected token {}. Expected {} " , m_state . current_token . name ( ) , what ) ;
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syntax_error ( message ) ;
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}
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Position Parser : : position ( ) const
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{
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return {
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m_state . current_token . line_number ( ) ,
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m_state . current_token . line_column ( ) ,
m_state . current_token . offset ( ) ,
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} ;
}
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bool Parser : : try_parse_arrow_function_expression_failed_at_position ( const Position & position ) const
{
auto it = m_token_memoizations . find ( position ) ;
if ( it = = m_token_memoizations . end ( ) )
return false ;
return ( * it ) . value . try_parse_arrow_function_expression_failed ;
}
void Parser : : set_try_parse_arrow_function_expression_failed_at_position ( const Position & position , bool failed )
{
m_token_memoizations . set ( position , { failed } ) ;
}
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void Parser : : syntax_error ( const String & message , Optional < Position > position )
{
if ( ! position . has_value ( ) )
position = this - > position ( ) ;
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m_state . errors . append ( { message , position } ) ;
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}
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void Parser : : save_state ( )
{
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m_saved_state . append ( m_state ) ;
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}
void Parser : : load_state ( )
{
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VERIFY ( ! m_saved_state . is_empty ( ) ) ;
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m_state = m_saved_state . take_last ( ) ;
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}
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void Parser : : discard_saved_state ( )
{
m_saved_state . take_last ( ) ;
}
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void Parser : : check_identifier_name_for_assignment_validity ( StringView name , bool force_strict )
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{
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// FIXME: this is now called from multiple places maybe the error message should be dynamic?
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if ( any_of ( s_reserved_words , [ & ] ( auto & value ) { return name = = value ; } ) ) {
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syntax_error ( " Binding pattern target may not be a reserved word " ) ;
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} else if ( m_state . strict_mode | | force_strict ) {
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if ( name . is_one_of ( " arguments " sv , " eval " sv ) )
syntax_error ( " Binding pattern target may not be called 'arguments' or 'eval' in strict mode " ) ;
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else if ( is_strict_reserved_word ( name ) )
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syntax_error ( String : : formatted ( " Binding pattern target may not be called '{}' in strict mode " , name ) ) ;
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}
}
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NonnullRefPtr < ImportStatement > Parser : : parse_import_statement ( Program & program )
{
auto rule_start = push_start ( ) ;
if ( program . type ( ) ! = Program : : Type : : Module )
syntax_error ( " Cannot use import statement outside a module " ) ;
consume ( TokenType : : Import ) ;
if ( match ( TokenType : : StringLiteral ) ) {
auto module_name = consume ( TokenType : : StringLiteral ) . value ( ) ;
return create_ast_node < ImportStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , module_name ) ;
}
auto match_imported_binding = [ & ] {
return match_identifier ( ) | | match ( TokenType : : Yield ) | | match ( TokenType : : Await ) ;
} ;
auto match_as = [ & ] {
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return match ( TokenType : : Identifier ) & & m_state . current_token . original_value ( ) = = " as " sv ;
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} ;
bool continue_parsing = true ;
struct ImportWithLocation {
ImportStatement : : ImportEntry entry ;
Position position ;
} ;
Vector < ImportWithLocation > entries_with_location ;
if ( match_imported_binding ( ) ) {
auto id_position = position ( ) ;
auto bound_name = consume ( ) . value ( ) ;
entries_with_location . append ( { { " default " , bound_name } , id_position } ) ;
if ( match ( TokenType : : Comma ) ) {
consume ( TokenType : : Comma ) ;
} else {
continue_parsing = false ;
}
}
if ( ! continue_parsing ) {
// skip the rest
} else if ( match ( TokenType : : Asterisk ) ) {
consume ( TokenType : : Asterisk ) ;
if ( ! match_as ( ) )
syntax_error ( String : : formatted ( " Unexpected token: {} " , m_state . current_token . name ( ) ) ) ;
consume ( TokenType : : Identifier ) ;
if ( match_imported_binding ( ) ) {
auto namespace_position = position ( ) ;
auto namespace_name = consume ( ) . value ( ) ;
entries_with_location . append ( { { " * " , namespace_name } , namespace_position } ) ;
} else {
syntax_error ( String : : formatted ( " Unexpected token: {} " , m_state . current_token . name ( ) ) ) ;
}
} else if ( match ( TokenType : : CurlyOpen ) ) {
consume ( TokenType : : CurlyOpen ) ;
while ( ! done ( ) & & ! match ( TokenType : : CurlyClose ) ) {
if ( match_identifier_name ( ) ) {
auto require_as = ! match_imported_binding ( ) ;
auto name_position = position ( ) ;
auto name = consume ( ) . value ( ) ;
if ( match_as ( ) ) {
consume ( TokenType : : Identifier ) ;
auto alias_position = position ( ) ;
auto alias = consume_identifier ( ) . value ( ) ;
check_identifier_name_for_assignment_validity ( alias ) ;
entries_with_location . append ( { { name , alias } , alias_position } ) ;
} else if ( require_as ) {
syntax_error ( String : : formatted ( " Unexpected reserved word '{}' " , name ) ) ;
} else {
check_identifier_name_for_assignment_validity ( name ) ;
entries_with_location . append ( { { name , name } , name_position } ) ;
}
} else {
expected ( " identifier " ) ;
break ;
}
if ( ! match ( TokenType : : Comma ) )
break ;
consume ( TokenType : : Comma ) ;
}
consume ( TokenType : : CurlyClose ) ;
} else {
expected ( " import clauses " ) ;
}
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auto from_statement = consume ( TokenType : : Identifier ) . original_value ( ) ;
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if ( from_statement ! = " from " sv )
syntax_error ( String : : formatted ( " Expected 'from' got {} " , from_statement ) ) ;
auto module_name = consume ( TokenType : : StringLiteral ) . value ( ) ;
Vector < ImportStatement : : ImportEntry > entries ;
entries . ensure_capacity ( entries_with_location . size ( ) ) ;
for ( auto & entry : entries_with_location ) {
for ( auto & import_statement : program . imports ( ) ) {
if ( import_statement . has_bound_name ( entry . entry . local_name ) )
syntax_error ( String : : formatted ( " Identifier '{}' already declared " , entry . entry . local_name ) , entry . position ) ;
}
for ( auto & new_entry : entries ) {
if ( new_entry . local_name = = entry . entry . local_name )
syntax_error ( String : : formatted ( " Identifier '{}' already declared " , entry . entry . local_name ) , entry . position ) ;
}
entries . append ( move ( entry . entry ) ) ;
}
return create_ast_node < ImportStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , module_name , move ( entries ) ) ;
}
NonnullRefPtr < ExportStatement > Parser : : parse_export_statement ( Program & program )
{
auto rule_start = push_start ( ) ;
if ( program . type ( ) ! = Program : : Type : : Module )
syntax_error ( " Cannot use export statement outside a module " ) ;
auto match_as = [ & ] {
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return match ( TokenType : : Identifier ) & & m_state . current_token . original_value ( ) = = " as " sv ;
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} ;
auto match_from = [ & ] {
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return match ( TokenType : : Identifier ) & & m_state . current_token . original_value ( ) = = " from " sv ;
} ;
auto match_default = [ & ] {
return match ( TokenType : : Default ) & & m_state . current_token . original_value ( ) = = " default " sv ;
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} ;
consume ( TokenType : : Export ) ;
struct EntryAndLocation {
ExportStatement : : ExportEntry entry ;
Position position ;
void to_module_request ( String from_module )
{
entry . kind = ExportStatement : : ExportEntry : : Kind : : ModuleRequest ;
entry . module_request = from_module ;
}
} ;
Vector < EntryAndLocation > entries_with_location ;
RefPtr < ASTNode > expression = { } ;
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if ( match_default ( ) ) {
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auto default_position = position ( ) ;
consume ( TokenType : : Default ) ;
String local_name ;
if ( match ( TokenType : : Class ) ) {
auto class_expression = parse_class_expression ( false ) ;
local_name = class_expression - > name ( ) ;
expression = move ( class_expression ) ;
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} else if ( match ( TokenType : : Function ) | | ( match ( TokenType : : Async ) & & next_token ( ) . type ( ) = = TokenType : : Function ) ) {
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auto func_expr = parse_function_node < FunctionExpression > ( ) ;
local_name = func_expr - > name ( ) ;
expression = move ( func_expr ) ;
} else if ( match_expression ( ) ) {
expression = parse_expression ( 2 ) ;
consume_or_insert_semicolon ( ) ;
local_name = " *default* " ;
} else {
expected ( " Declaration or assignment expression " ) ;
}
entries_with_location . append ( { { " default " , local_name } , default_position } ) ;
} else {
enum FromSpecifier {
NotAllowed ,
Optional ,
Required
} check_for_from { NotAllowed } ;
if ( match ( TokenType : : Asterisk ) ) {
auto asterisk_position = position ( ) ;
consume ( TokenType : : Asterisk ) ;
if ( match_as ( ) ) {
consume ( TokenType : : Identifier ) ;
if ( match_identifier_name ( ) ) {
auto namespace_position = position ( ) ;
auto exported_name = consume ( ) . value ( ) ;
entries_with_location . append ( { { exported_name , " * " } , namespace_position } ) ;
} else {
expected ( " identifier " ) ;
}
} else {
entries_with_location . append ( { { { } , " * " } , asterisk_position } ) ;
}
check_for_from = Required ;
} else if ( match_declaration ( ) ) {
auto decl_position = position ( ) ;
auto declaration = parse_declaration ( ) ;
if ( is < FunctionDeclaration > ( * declaration ) ) {
auto & func = static_cast < FunctionDeclaration & > ( * declaration ) ;
entries_with_location . append ( { { func . name ( ) , func . name ( ) } , func . source_range ( ) . start } ) ;
} else if ( is < ClassDeclaration > ( * declaration ) ) {
auto & class_declaration = static_cast < ClassDeclaration & > ( * declaration ) ;
entries_with_location . append ( { { class_declaration . class_name ( ) , class_declaration . class_name ( ) } , class_declaration . source_range ( ) . start } ) ;
} else {
VERIFY ( is < VariableDeclaration > ( * declaration ) ) ;
auto & variables = static_cast < VariableDeclaration & > ( * declaration ) ;
for ( auto & decl : variables . declarations ( ) ) {
decl . target ( ) . visit (
[ & ] ( NonnullRefPtr < Identifier > const & identifier ) {
entries_with_location . append ( { { identifier - > string ( ) , identifier - > string ( ) } , identifier - > source_range ( ) . start } ) ;
} ,
[ & ] ( NonnullRefPtr < BindingPattern > const & binding ) {
binding - > for_each_bound_name ( [ & ] ( auto & name ) {
entries_with_location . append ( { { name , name } , decl_position } ) ;
} ) ;
} ) ;
}
}
expression = declaration ;
} else if ( match ( TokenType : : Var ) ) {
auto variable_position = position ( ) ;
auto variable_declaration = parse_variable_declaration ( ) ;
for ( auto & decl : variable_declaration - > declarations ( ) ) {
decl . target ( ) . visit (
[ & ] ( NonnullRefPtr < Identifier > const & identifier ) {
entries_with_location . append ( { { identifier - > string ( ) , identifier - > string ( ) } , identifier - > source_range ( ) . start } ) ;
} ,
[ & ] ( NonnullRefPtr < BindingPattern > const & binding ) {
binding - > for_each_bound_name ( [ & ] ( auto & name ) {
entries_with_location . append ( { { name , name } , variable_position } ) ;
} ) ;
} ) ;
}
expression = variable_declaration ;
} else if ( match ( TokenType : : CurlyOpen ) ) {
consume ( TokenType : : CurlyOpen ) ;
while ( ! done ( ) & & ! match ( TokenType : : CurlyClose ) ) {
if ( match_identifier_name ( ) ) {
auto identifier_position = position ( ) ;
auto identifier = consume ( ) . value ( ) ;
if ( match_as ( ) ) {
consume ( TokenType : : Identifier ) ;
if ( match_identifier_name ( ) ) {
auto export_name = consume ( ) . value ( ) ;
entries_with_location . append ( { { export_name , identifier } , identifier_position } ) ;
} else {
expected ( " identifier name " ) ;
}
} else {
entries_with_location . append ( { { identifier , identifier } , identifier_position } ) ;
}
} else {
expected ( " identifier " ) ;
break ;
}
if ( ! match ( TokenType : : Comma ) )
break ;
consume ( TokenType : : Comma ) ;
}
consume ( TokenType : : CurlyClose ) ;
check_for_from = Optional ;
} else {
syntax_error ( " Unexpected token 'export' " , rule_start . position ( ) ) ;
}
if ( check_for_from ! = NotAllowed & & match_from ( ) ) {
consume ( TokenType : : Identifier ) ;
if ( match ( TokenType : : StringLiteral ) ) {
auto from_specifier = consume ( ) . value ( ) ;
for ( auto & entry : entries_with_location )
entry . to_module_request ( from_specifier ) ;
} else {
expected ( " ModuleSpecifier " ) ;
}
} else if ( check_for_from = = Required ) {
expected ( " from " ) ;
}
if ( check_for_from ! = NotAllowed )
consume_or_insert_semicolon ( ) ;
}
Vector < ExportStatement : : ExportEntry > entries ;
entries . ensure_capacity ( entries_with_location . size ( ) ) ;
for ( auto & entry : entries_with_location ) {
for ( auto & export_statement : program . exports ( ) ) {
if ( export_statement . has_export ( entry . entry . export_name ) )
syntax_error ( String : : formatted ( " Duplicate export with name: '{}' " , entry . entry . export_name ) , entry . position ) ;
}
for ( auto & new_entry : entries ) {
if ( new_entry . export_name = = entry . entry . export_name )
syntax_error ( String : : formatted ( " Duplicate export with name: '{}' " , entry . entry . export_name ) , entry . position ) ;
}
entries . append ( move ( entry . entry ) ) ;
}
return create_ast_node < ExportStatement > ( { m_state . current_token . filename ( ) , rule_start . position ( ) , position ( ) } , move ( expression ) , move ( entries ) ) ;
}
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}