pjs/js/js2/parser.h

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// -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
//
// The contents of this file are subject to the Netscape Public
// License Version 1.1 (the "License"); you may not use this file
// except in compliance with the License. You may obtain a copy of
// the License at http://www.mozilla.org/NPL/
//
// Software distributed under the License is distributed on an "AS
// IS" basis, WITHOUT WARRANTY OF ANY KIND, either express oqr
// implied. See the License for the specific language governing
// rights and limitations under the License.
//
// The Original Code is the JavaScript 2 Prototype.
//
// The Initial Developer of the Original Code is Netscape
// Communications Corporation. Portions created by Netscape are
// Copyright (C) 1998 Netscape Communications Corporation. All
// Rights Reserved.
#ifndef parser_h
#define parser_h
#include "utilities.h"
namespace JavaScript {
class StringAtom;
class World;
//
// Reader
//
// A Reader reads Unicode characters from some source -- either a file or a string.
// get() returns all of the characters followed by a char16eof.
// If get() returns LF (u000A), CR (u000D), LS (u2028), or PS (u2029), then beginLine()
// must be called before getting or peeking any more characters.
class Reader {
protected:
const char16 *begin; // Beginning of current buffer
const char16 *p; // Position in current buffer
const char16 *end; // End of current buffer
const char16 *lineStart; // Pointer to start of current line
uint32 nGetsPastEnd; // Number of times char16eof has been returned
public:
uint32 lineNum; // One-based number of current line
FileOffset lineFileOffset; // Byte or character offset of start of current line relative to all of input
private:
String *recordString; // String, if any, into which recordChar() records characters
const char16 *recordBase; // Position of last beginRecording() call
const char16 *recordPos; // Position of last recordChar() call; nil if a discrepancy occurred
protected:
Reader(): nGetsPastEnd(0), lineNum(1), lineFileOffset(0) {}
public:
Reader(const char16 *begin, const char16 *end);
private:
Reader(const Reader&); // No copy constructor
void operator=(const Reader&); // No assignment operator
public:
char16orEOF get();
char16orEOF peek();
void unget(uint32 n = 1);
virtual void beginLine() = 0;
uint32 charPos() const;
void backUpTo(uint32 pos);
String extract(uint32 begin, uint32 end) const;
void beginRecording(String &recordString);
void recordChar(char16 ch);
String &endRecording();
virtual String sourceFile() const = 0; // A description of the source code that caused the error
protected:
void setBuffer(const char16 *begin, const char16 *p, const char16 *end);
virtual char16orEOF underflow();
char16orEOF peekUnderflow();
};
// Get and return the next character or char16eof if at end of input.
inline char16orEOF Reader::get()
{
if (p != end)
return *p++;
return underflow();
}
// Return the next character without consuming it. Return char16eof if at end of input.
inline char16orEOF Reader::peek()
{
if (p != end)
return *p;
return peekUnderflow();
}
// Return the number of characters between the current position and the beginning of the current line.
// This cannot be called if the current position is past the end of the input.
inline uint32 Reader::charPos() const
{
ASSERT(!nGetsPastEnd);
return static_cast<uint32>(p - lineStart);
}
// Back up to the given character offset relative to the current line.
inline void Reader::backUpTo(uint32 pos)
{
ASSERT(pos <= charPos());
p = lineStart + pos;
nGetsPastEnd = 0;
}
inline void Reader::setBuffer(const char16 *begin, const char16 *p, const char16 *end)
{
ASSERT(begin <= p && p <= end);
Reader::begin = begin;
Reader::p = p;
Reader::end = end;
lineStart = begin;
#ifdef DEBUG
recordString = 0;
#endif
}
// A Reader that reads from a String.
class StringReader: public Reader {
const String str;
const String source;
public:
StringReader(const String &s, const String &source);
void beginLine();
String sourceFile() const;
};
//
// Lexer
//
class Token {
static const char *const kindNames[];
public:
enum Kind { // Keep synchronized with kindNames table
// Special
End, // End of token stream
Id, // Non-keyword identifier (may be same as a keyword if it contains an escape code)
Num, // Numeral
Str, // String
Unit, // Unit after numeral
RegExp, // Regular expression
// Punctuators
OpenParenthesis, // (
CloseParenthesis, // )
OpenBracket, // [
CloseBracket, // ]
OpenBrace, // {
CloseBrace, // }
Comma, // ,
Semicolon, // ;
Dot, // .
DoubleDot, // ..
TripleDot, // ...
Arrow, // ->
Colon, // :
DoubleColon, // ::
Pound, // #
At, // @
Increment, // ++
Decrement, // --
Complement, // ~
Not, // !
Times, // *
Divide, // /
Modulo, // %
Plus, // +
Minus, // -
LeftShift, // <<
RightShift, // >>
LogicalRightShift, // >>>
LogicalAnd, // &&
LogicalXor, // ^^
LogicalOr, // ||
And, // & // These must be at constant offsets from LogicalAnd ... LogicalOr
Xor, // ^
Or, // |
Assignment, // =
TimesEquals, // *= // These must be at constant offsets from Times ... Or
DivideEquals, // /=
ModuloEquals, // %=
PlusEquals, // +=
MinusEquals, // -=
LeftShiftEquals, // <<=
RightShiftEquals, // >>=
LogicalRightShiftEquals, // >>>=
LogicalAndEquals, // &&=
LogicalXorEquals, // ^^=
LogicalOrEquals, // ||=
AndEquals, // &=
XorEquals, // ^=
OrEquals, // |=
Equal, // ==
NotEqual, // !=
LessThan, // <
LessThanOrEqual, // <=
GreaterThan, // > // >, >= must be at constant offsets from <, <=
GreaterThanOrEqual, // >=
Identical, // ===
NotIdentical, // !==
Question, // ?
// Reserved words
Abstract, // abstract
Break, // break
Case, // case
Catch, // catch
Class, // class
Const, // const
Continue, // continue
Debugger, // debugger
Default, // default
Delete, // delete
Do, // do
Else, // else
Enum, // enum
Eval, // eval
Export, // export
Extends, // extends
False, // false
Final, // final
Finally, // finally
For, // for
Function, // function
Goto, // goto
If, // if
Implements, // implements
Import, // import
In, // in
Instanceof, // instanceof
Native, // native
New, // new
Null, // null
Package, // package
Private, // private
Protected, // protected
Public, // public
Return, // return
Static, // static
Super, // super
Switch, // switch
Synchronized, // synchronized
This, // this
Throw, // throw
Throws, // throws
Transient, // transient
True, // true
Try, // try
Typeof, // typeof
Var, // var
Volatile, // volatile
While, // while
With, // with
// Non-reserved words
Box, // box
Constructor, // constructor
Field, // field
Get, // get
Language, // language
Local, // local
Method, // method
Override, // override
Set, // set
Version, // version
KeywordsEnd, // End of range of special identifier tokens
KeywordsBegin = Abstract, // Beginning of range of special identifier tokens
KindsEnd = KeywordsEnd // End of token kinds
};
Kind kind; // The token's kind
bool lineBreak; // True if line break precedes this token
SourcePosition pos; // Position of this token
const StringAtom *identifier; // The token's characters; non-null for identifiers, keywords, and regular expressions only
String chars; // The token's characters; valid for strings, units, numbers, and regular expression flags only
float64 value; // The token's value (numbers only)
static void initKeywords(World &world);
friend String &operator+=(String &s, Kind k) {ASSERT(uint(k) < KindsEnd); return s += kindNames[k];}
friend String &operator+=(String &s, const Token &t) {t.print(s); return s;}
void print(String &dst, bool debug = false) const;
};
class Lexer {
enum {tokenBufferSize = 3}; // Token lookahead buffer size
public:
Reader &reader;
World &world;
private:
Token tokens[tokenBufferSize]; // Circular buffer of recently read or lookahead tokens
Token *nextToken; // Address of next Token in the circular buffer to be returned by get()
int nTokensFwd; // Net number of Tokens on which unget() has been called; these Tokens are ahead of nextToken
#ifdef DEBUG
int nTokensBack; // Number of Tokens on which unget() can be called; these Tokens are beind nextToken
bool savedPreferRegExp[tokenBufferSize]; // Circular buffer of saved values of preferRegExp to get() calls
#endif
bool lexingUnit; // True if lexing a unit identifier immediately following a number
public:
Lexer(Reader &reader, World &world);
Token &get(bool preferRegExp);
const Token &peek(bool preferRegExp);
void unget();
private:
void syntaxError(const char *message, uint backUp = 1);
char16orEOF getChar();
char16orEOF internalGetChar(char16orEOF ch);
char16orEOF peekChar();
char16orEOF internalPeekChar(char16orEOF ch);
bool testChar(char16 ch);
char16 lexEscape(bool unicodeOnly);
bool lexIdentifier(String &s, bool allowLeadingDigit);
bool lexNumeral();
void lexString(String &s, char16 separator);
void lexRegExp();
void lexToken(bool preferRegExp);
};
//
// Language Selectors
//
class Language {
enum {
minorVersion = 0, // Single BCD digit representing the minor JavaScript version
minorVersionBits = 4,
majorVersion = 4, // Single BCD digit representing the major JavaScript version
majorVersionBits = 4,
strictSemantics = 8, // True when strict semantics are in use
strictSyntax = 9, // True when strict syntax is in use
unknown = 31 // True when language is unknown
};
uint32 flags; // Bitmap of flags at locations as above
};
//
// Parser
//
// The structures below are generally allocated inside an arena. The structures' destructors
// may never be called, so these structures should not hold onto any data that needs to be
// destroyed explicitly. Strings are allocated via newArenaString.
struct ParseNode: ArenaObject {
SourcePosition pos; // Position of this statement or expression
explicit ParseNode(const SourcePosition &pos): pos(pos) {}
};
struct FunctionName {
enum Prefix {
Normal, // No prefix
Get, // get
Set, // set
New // new
};
Prefix prefix; // The name's prefix, if any
const StringAtom *identifier; // The name; nil if omitted
FunctionName(): prefix(Normal), identifier(0) {}
};
struct ExprNode;
struct StmtNode;
struct VariableBinding: ParseNode {
VariableBinding *next; // Next binding in a linked list of variable or parameter bindings
const StringAtom *identifier; // The variable's name; nil if omitted, which currently can only happen for ... parameters
ExprNode *type; // Type expression or nil if not provided
ExprNode *initializer; // Initial value expression or nil if not provided
VariableBinding(const SourcePosition &pos): ParseNode(pos), next(0), identifier(0), type(0), initializer(0) {}
};
struct FunctionDefinition: FunctionName {
VariableBinding *parameters; // Linked list of all parameters, including optional and rest parameters, if any
VariableBinding *optParameters; // Pointer to first non-required parameter inside parameters list; nil if none
VariableBinding *restParameter; // Pointer to rest parameter inside parameters list; nil if none
ExprNode *resultType; // Result type expression or nil if not provided
StmtNode *body; // Body; nil if none
};
struct ExprNode: ParseNode {
enum Kind { // Actual class Operands
Id, // IdentifierExprNode <identifier>
Num, // NumberExprNode <value>
Str, // StringExprNode <str>
RegExp, // RegExpExprNode /<regExp>/<flags>
Null, // ExprNode null
True, // ExprNode true
False, // ExprNode false
This, // ExprNode this
Super, // ExprNode super
NumUnit, // NumUnitExprNode <num> "<str>" or <num><str>
ExprUnit, // ExprUnitExprNode (<op>) "<str>"
QualifiedIdentifier, // OpIdentifierExprNode <op> :: <identifier>
ObjectLiteral, // PairListExprNode {<field>:<value>, <field>:<value>, ..., <field>:<value>}
ArrayLiteral, // PairListExprNode [<value>, <value>, ..., <value>]
FunctionLiteral, // FunctionExprNode function <function>
Call, // InvokeExprNode <op>(<field>:<value>, <field>:<value>, ..., <field>:<value>)
New, // InvokeExprNode new <op>(<field>:<value>, <field>:<value>, ..., <field>:<value>)
Index, // InvokeExprNode <op>[<field>:<value>, <field>:<value>, ..., <field>:<value>]
Dot, // BinaryExprNode <op1> . <op2> // <op2> must be Identifier or QualifiedIdentifier
DotParen, // BinaryExprNode <op1> .( <op2> )
At, // BinaryExprNode <op1> @ <op2>
Delete, // UnaryExprNode delete <op>
Typeof, // UnaryExprNode typeof <op>
Eval, // UnaryExprNode eval <op>
PreIncrement, // UnaryExprNode ++ <op>
PreDecrement, // UnaryExprNode -- <op>
PostIncrement, // UnaryExprNode <op> ++
PostDecrement, // UnaryExprNode <op> --
Plus, // UnaryExprNode + <op>
Minus, // UnaryExprNode - <op>
Complement, // UnaryExprNode ~ <op>
Not, // UnaryExprNode ! <op>
Add, // BinaryExprNode <op1> + <op2>
Subtract, // BinaryExprNode <op1> - <op2>
Multiply, // BinaryExprNode <op1> * <op2>
Divide, // BinaryExprNode <op1> / <op2>
Modulo, // BinaryExprNode <op1> % <op2>
LeftShift, // BinaryExprNode <op1> << <op2>
RightShift, // BinaryExprNode <op1> >> <op2>
LogicalRightShift, // BinaryExprNode <op1> >>> <op2>
And, // BinaryExprNode <op1> & <op2>
Xor, // BinaryExprNode <op1> ^ <op2>
Or, // BinaryExprNode <op1> | <op2>
LogicalAnd, // BinaryExprNode <op1> && <op2>
LogicalXor, // BinaryExprNode <op1> ^^ <op2>
LogicalOr, // BinaryExprNode <op1> || <op2>
Equal, // BinaryExprNode <op1> == <op2>
NotEqual, // BinaryExprNode <op1> != <op2>
LessThan, // BinaryExprNode <op1> < <op2>
LessThanOrEqual, // BinaryExprNode <op1> <= <op2>
GreaterThan, // BinaryExprNode <op1> > <op2>
GreaterThanOrEqual, // BinaryExprNode <op1> >= <op2>
Identical, // BinaryExprNode <op1> === <op2>
NotIdentical, // BinaryExprNode <op1> !== <op2>
In, // BinaryExprNode <op1> in <op2>
Instanceof, // BinaryExprNode <op1> instanceof <op2>
Assignment, // BinaryExprNode <op1> = <op2>
AddEquals, // BinaryExprNode <op1> += <op2>
SubtractEquals, // BinaryExprNode <op1> -= <op2>
MultiplyEquals, // BinaryExprNode <op1> *= <op2>
DivideEquals, // BinaryExprNode <op1> /= <op2>
ModuloEquals, // BinaryExprNode <op1> %= <op2>
LeftShiftEquals, // BinaryExprNode <op1> <<= <op2>
RightShiftEquals, // BinaryExprNode <op1> >>= <op2>
LogicalRightShiftEquals, // BinaryExprNode <op1> >>>= <op2>
AndEquals, // BinaryExprNode <op1> &= <op2>
XorEquals, // BinaryExprNode <op1> ^= <op2>
OrEquals, // BinaryExprNode <op1> |= <op2>
LogicalAndEquals, // BinaryExprNode <op1> &&= <op2>
LogicalXorEquals, // BinaryExprNode <op1> ^^= <op2>
LogicalOrEquals, // BinaryExprNode <op1> ||= <op2>
Conditional, // TernaryExprNode <op1> ? <op2> : <op3>
Comma // BinaryExprNode <op1> , <op2> // Comma expressions only
};
Kind kind; // The node's kind
ExprNode(const SourcePosition &pos, Kind kind): ParseNode(pos), kind(kind) {}
};
struct IdentifierExprNode: ExprNode {
const StringAtom &identifier; // The identifier
IdentifierExprNode(const SourcePosition &pos, Kind kind, const StringAtom &identifier):
ExprNode(pos, kind), identifier(identifier) {}
};
struct OpIdentifierExprNode: IdentifierExprNode {
ExprNode &op; // The namespace expression or indexed expression
OpIdentifierExprNode(const SourcePosition &pos, Kind kind, const StringAtom &identifier, ExprNode &op):
IdentifierExprNode(pos, kind, identifier), op(op) {}
};
struct NumberExprNode: ExprNode {
float64 value; // The number's value
NumberExprNode(const SourcePosition &pos, float64 value): ExprNode(pos, Num), value(value) {}
};
struct StringExprNode: ExprNode {
String &str; // The string
StringExprNode(const SourcePosition &pos, Kind kind, String &str): ExprNode(pos, kind), str(str) {}
};
struct RegExpExprNode: ExprNode {
const StringAtom &regExp; // The regular expression's contents
String &flags; // The regular expression's flags
RegExpExprNode(const SourcePosition &pos, Kind kind, const StringAtom &regExp, String &flags):
ExprNode(pos, kind), regExp(regExp), flags(flags) {}
};
struct NumUnitExprNode: StringExprNode { // str is the unit string
String &numStr; // The number's source string
float64 num; // The number's value
NumUnitExprNode(const SourcePosition &pos, Kind kind, String &unitStr, String &numStr, float64 num):
StringExprNode(pos, kind, unitStr), numStr(numStr), num(num) {}
};
struct ExprNodeUnitExprNode: StringExprNode { // str is the unit string
ExprNode &op; // The expression to which the unit is applied
ExprNodeUnitExprNode(const SourcePosition &pos, Kind kind, String &unitStr, ExprNode &op):
StringExprNode(pos, kind, unitStr), op(op) {}
};
struct FunctionExprNode: ExprNode {
FunctionDefinition function; // Function definition
FunctionExprNode(const SourcePosition &pos, Kind kind): ExprNode(pos, kind) {}
};
struct ExprList: ArenaObject {
ExprList *next; // Next expression in linked list
ExprNode &expr; // Attribute expression
explicit ExprList(ExprNode &expr): next(0), expr(expr) {}
};
struct ExprPairList: ArenaObject {
ExprPairList *next; // Next pair in linked list
ExprNode *field; // Field expression or nil if not provided
ExprNode *value; // Value expression or nil if not provided
explicit ExprPairList(ExprNode *field = 0, ExprNode *value = 0): next(0), field(field), value(value) {}
};
struct PairListExprNode: ExprNode {
ExprPairList *pairs; // Linked list of pairs
PairListExprNode(const SourcePosition &pos, Kind kind, ExprPairList *pairs): ExprNode(pos, kind), pairs(pairs) {}
};
struct InvokeExprNode: PairListExprNode {
ExprNode &op; // The called function, called constructor, or indexed object
InvokeExprNode(const SourcePosition &pos, Kind kind, ExprPairList *pairs, ExprNode &op):
PairListExprNode(pos, kind, pairs), op(op) {}
};
struct UnaryExprNode: ExprNode {
ExprNode &op; // The unary operator's operand
UnaryExprNode(const SourcePosition &pos, Kind kind, ExprNode &op): ExprNode(pos, kind), op(op) {}
};
struct BinaryExprNode: ExprNode {
ExprNode &op1; // The binary operator's first operand
ExprNode &op2; // The binary operator's second operand
BinaryExprNode(const SourcePosition &pos, Kind kind, ExprNode &op1, ExprNode &op2):
ExprNode(pos, kind), op1(op1), op2(op2) {}
};
struct TernaryExprNode: ExprNode {
ExprNode &op1; // The ternary operator's first operand
ExprNode &op2; // The ternary operator's second operand
ExprNode &op3; // The ternary operator's third operand
TernaryExprNode(const SourcePosition &pos, Kind kind, ExprNode &op1, ExprNode &op2, ExprNode &op3):
ExprNode(pos, kind), op1(op1), op2(op2), op3(op3) {}
};
struct StmtNode: ParseNode {
enum Kind { // Actual class Operands
Empty, // StmtNode ;
Expression, // ExprStmtNode <expr> ;
Block, // BlockStmtNode <attributes> { <statements> }
Label, // LabelStmtNode <label> : <stmt>
If, // UnaryStmtNode if ( <expr> ) <stmt>
IfElse, // BinaryStmtNode if ( <expr> ) <stmt> else <stmt2>
Switch, // SwitchStmtNode switch ( <expr> ) <statements>
While, // UnaryStmtNode while ( <expr> ) <stmt>
DoWhile, // UnaryStmtNode do <stmt> while ( <expr> )
With, // UnaryStmtNode with ( <expr> ) <stmt>
For, // ForStmtNode for ( <initializer> ; <expr2> ; <expr3> ) <stmt>
ForExprIn, // ForExprInStmtNode for ( <varExpr> in <container> ) <stmt>
ForConstIn, // ForVarInStmtNode for ( const <binding> in <container> ) <stmt>
ForVarIn, // ForVarInStmtNode for ( var <binding> in <container> ) <stmt>
Case, // ExprStmtNode case <expr> : or default : // Only occurs directly inside a Switch
Break, // GoStmtNode break ; or break <label> ;
Continue, // GoStmtNode continue ; or continue <label> ;
Return, // ExprStmtNode return ; or return <expr> ;
Throw, // ExprStmtNode throw <expr> ;
Try, // TryStmtNode try <stmt> <catches> <finally>
Const, // VariableStmtNode <attributes> const <bindings> ;
Var, // VariableStmtNode <attributes> var <bindings> ;
Function, // FunctionStmtNode <attributes> function <function>
Class, // ClassStmtNode <attributes> class <identifier> extends <superclasses> <body>
Language // LanguageStmtNode language <language> ;
};
Kind kind; // The node's kind
StmtNode *next; // Next statement in a linked list of statements in this block
StmtNode(const SourcePosition &pos, Kind kind): ParseNode(pos), kind(kind), next(0) {}
};
struct ExprStmtNode: StmtNode {
ExprNode *expr; // The expression statement's expression. May be null for default: or return-with-no-expression statements.
ExprStmtNode(const SourcePosition &pos, Kind kind, ExprNode *expr): StmtNode(pos, kind), expr(expr) {}
};
struct AttributeStmtNode: StmtNode {
ExprList *attributes; // Linked list of block or definition's attributes
AttributeStmtNode(const SourcePosition &pos, Kind kind, ExprList *attributes): StmtNode(pos, kind), attributes(attributes) {}
};
struct BlockStmtNode: AttributeStmtNode {
StmtNode *statements; // Linked list of block's statements
BlockStmtNode(const SourcePosition &pos, Kind kind, ExprList *attributes): AttributeStmtNode(pos, kind, attributes) {}
};
struct LabelStmtNode: StmtNode {
const StringAtom &label; // The label
StmtNode &stmt; // Labeled statement
LabelStmtNode(const SourcePosition &pos, Kind kind, const StringAtom &label, StmtNode &stmt):
StmtNode(pos, kind), label(label), stmt(stmt) {}
};
struct UnaryStmtNode: ExprStmtNode {
StmtNode &stmt; // First substatement
UnaryStmtNode(const SourcePosition &pos, Kind kind, ExprNode *expr, StmtNode &stmt):
ExprStmtNode(pos, kind, expr), stmt(stmt) {}
};
struct BinaryStmtNode: UnaryStmtNode {
StmtNode &stmt2; // Second substatement
BinaryStmtNode(const SourcePosition &pos, Kind kind, ExprNode *expr, StmtNode &stmt1, StmtNode &stmt2):
UnaryStmtNode(pos, kind, expr, stmt1), stmt2(stmt2) {}
};
struct ForStmtNode: StmtNode {
StmtNode *initializer; // First item in parentheses; either nil (if not provided), an Expression, or a Var, or a Const.
ExprNode *expr2; // Second item in parentheses; nil if not provided
ExprNode *expr3; // Third item in parentheses; nil if not provided
StmtNode &stmt; // Substatement
ForStmtNode(const SourcePosition &pos, Kind kind, StmtNode &stmt):
StmtNode(pos, kind), stmt(stmt) {}
};
struct ForInStmtNode: StmtNode {
ExprNode &container; // Subexpression after 'in'
StmtNode &stmt; // Substatement
ForInStmtNode(const SourcePosition &pos, Kind kind, ExprNode &container, StmtNode &stmt):
StmtNode(pos, kind), container(container), stmt(stmt) {}
};
struct ForExprInStmtNode: ForInStmtNode {
ExprNode &varExpr; // Subexpression before 'in'
ForExprInStmtNode(const SourcePosition &pos, Kind kind, ExprNode &container, StmtNode &stmt, ExprNode &varExpr):
ForInStmtNode(pos, kind, container, stmt), varExpr(varExpr) {}
};
struct ForVarInStmtNode: ForInStmtNode {
VariableBinding &binding; // Var or const binding before 'in'
ForVarInStmtNode(const SourcePosition &pos, Kind kind, ExprNode &container, StmtNode &stmt, VariableBinding &binding):
ForInStmtNode(pos, kind, container, stmt), binding(binding) {}
};
struct SwitchStmtNode: ExprStmtNode {
StmtNode *statements; // Linked list of switch block's statements, which may include Case and Default statements
SwitchStmtNode(const SourcePosition &pos, Kind kind, ExprNode *expr):
ExprStmtNode(pos, kind, expr) {}
};
struct GoStmtNode: StmtNode {
const StringAtom *label; // The label; nil if none
GoStmtNode(const SourcePosition &pos, Kind kind, const StringAtom *label): StmtNode(pos, kind), label(label) {}
};
struct CatchClause: ParseNode {
CatchClause *next; // Next catch clause in a linked list of catch clauses
const StringAtom &identifier; // The name of the variable that will hold the exception
ExprNode *type; // Type expression or nil if not provided
StmtNode &stmt; // The catch clause's body
CatchClause(const SourcePosition &pos, const StringAtom &identifier, ExprNode *type, StmtNode &stmt):
ParseNode(pos), next(0), identifier(identifier), type(type), stmt(stmt) {}
};
struct TryStmtNode: StmtNode {
StmtNode &stmt; // Substatement being tried; usually a block
CatchClause *catches; // Linked list of catch blocks; may be nil
StmtNode *finally; // Finally block or nil if none
TryStmtNode(const SourcePosition &pos, Kind kind, StmtNode &stmt, CatchClause *catches, StmtNode *finally):
StmtNode(pos, kind), stmt(stmt), catches(catches), finally(finally) {}
};
struct VariableStmtNode: AttributeStmtNode {
VariableBinding *bindings; // Linked list of variable bindings
VariableStmtNode(const SourcePosition &pos, Kind kind, ExprList *attributes): AttributeStmtNode(pos, kind, attributes) {}
};
struct FunctionStmtNode: AttributeStmtNode {
FunctionDefinition function; // Function definition
FunctionStmtNode(const SourcePosition &pos, Kind kind, ExprList *attributes): AttributeStmtNode(pos, kind, attributes) {}
};
struct ClassStmtNode: AttributeStmtNode {
const StringAtom &identifier; // The class's name
ExprList *superclasses; // Linked list of superclass expressions
StmtNode &body; // The class's body
ClassStmtNode(const SourcePosition &pos, Kind kind, ExprList *attributes, const StringAtom &identifier, ExprList *superclasses,
StmtNode &body):
AttributeStmtNode(pos, kind, attributes), identifier(identifier), superclasses(superclasses), body(body) {}
};
struct LanguageStmtNode: StmtNode {
JavaScript::Language language; // The selected language
LanguageStmtNode(const SourcePosition &pos, Kind kind, JavaScript::Language language):
StmtNode(pos, kind), language(language) {}
};
//class Parser: public Lexer {
//};
}
#endif