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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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package jdk.nashorn.internal.parser;

import static jdk.nashorn.internal.parser.TokenType.COMMENT;
import static jdk.nashorn.internal.parser.TokenType.DIRECTIVE_COMMENT;
import static jdk.nashorn.internal.parser.TokenType.EOF;
import static jdk.nashorn.internal.parser.TokenType.EOL;
import static jdk.nashorn.internal.parser.TokenType.IDENT;
import java.util.HashMap;
import java.util.Map;
import jdk.nashorn.internal.ir.IdentNode;
import jdk.nashorn.internal.ir.LiteralNode;
import jdk.nashorn.internal.parser.Lexer.LexerToken;
import jdk.nashorn.internal.parser.Lexer.RegexToken;
import jdk.nashorn.internal.runtime.ECMAErrors;
import jdk.nashorn.internal.runtime.ErrorManager;
import jdk.nashorn.internal.runtime.JSErrorType;
import jdk.nashorn.internal.runtime.ParserException;
import jdk.nashorn.internal.runtime.Source;
import jdk.nashorn.internal.runtime.regexp.RegExpFactory;

Base class for parsers.
/** * Base class for parsers. */
public abstract class AbstractParser {
Source to parse.
/** Source to parse. */
protected final Source source;
Error manager to report errors.
/** Error manager to report errors. */
protected final ErrorManager errors;
Stream of lex tokens to parse.
/** Stream of lex tokens to parse. */
protected TokenStream stream;
Index of current token.
/** Index of current token. */
protected int k;
Previous token - accessible to sub classes
/** Previous token - accessible to sub classes */
protected long previousToken;
Descriptor of current token.
/** Descriptor of current token. */
protected long token;
Type of current token.
/** Type of current token. */
protected TokenType type;
Type of last token.
/** Type of last token. */
protected TokenType last;
Start position of current token.
/** Start position of current token. */
protected int start;
Finish position of previous token.
/** Finish position of previous token. */
protected int finish;
Current line number.
/** Current line number. */
protected int line;
Position of last EOL + 1.
/** Position of last EOL + 1. */
protected int linePosition;
Lexer used to scan source content.
/** Lexer used to scan source content. */
protected Lexer lexer;
Is this parser running under strict mode?
/** Is this parser running under strict mode? */
protected boolean isStrictMode;
What should line numbers be counted from?
/** What should line numbers be counted from? */
protected final int lineOffset; private final Map<String, String> canonicalNames = new HashMap<>();
Construct a parser.
Params:
  • source – Source to parse.
  • errors – Error reporting manager.
  • strict – True if we are in strict mode
  • lineOffset – Offset from which lines should be counted
/** * Construct a parser. * * @param source Source to parse. * @param errors Error reporting manager. * @param strict True if we are in strict mode * @param lineOffset Offset from which lines should be counted */
protected AbstractParser(final Source source, final ErrorManager errors, final boolean strict, final int lineOffset) { if (source.getLength() > Token.LENGTH_MASK) { throw new RuntimeException("Source exceeds size limit of " + Token.LENGTH_MASK + " bytes"); } this.source = source; this.errors = errors; this.k = -1; this.token = Token.toDesc(EOL, 0, 1); this.type = EOL; this.last = EOL; this.isStrictMode = strict; this.lineOffset = lineOffset; }
Get the ith token.
Params:
  • i – Index of token.
Returns: the token
/** * Get the ith token. * * @param i Index of token. * * @return the token */
protected final long getToken(final int i) { // Make sure there are enough tokens available. while (i > stream.last()) { // If we need to buffer more for lookahead. if (stream.isFull()) { stream.grow(); } // Get more tokens. lexer.lexify(); } return stream.get(i); }
Return the tokenType of the ith token.
Params:
  • i – Index of token
Returns:the token type
/** * Return the tokenType of the ith token. * * @param i Index of token * * @return the token type */
protected final TokenType T(final int i) { // Get token descriptor and extract tokenType. return Token.descType(getToken(i)); }
Seek next token that is not an EOL or comment.
Returns:tokenType of next token.
/** * Seek next token that is not an EOL or comment. * * @return tokenType of next token. */
protected final TokenType next() { do { nextOrEOL(); } while (type == EOL || type == COMMENT); return type; }
Seek next token or EOL (skipping comments.)
Returns:tokenType of next token.
/** * Seek next token or EOL (skipping comments.) * * @return tokenType of next token. */
protected final TokenType nextOrEOL() { do { nextToken(); if (type == DIRECTIVE_COMMENT) { checkDirectiveComment(); } } while (type == COMMENT || type == DIRECTIVE_COMMENT); return type; } // sourceURL= after directive comment private static final String SOURCE_URL_PREFIX = "sourceURL="; // currently only @sourceURL=foo supported private void checkDirectiveComment() { // if already set, ignore this one if (source.getExplicitURL() != null) { return; } final String comment = (String) lexer.getValueOf(token, isStrictMode); final int len = comment.length(); // 4 characters for directive comment marker //@\s or //#\s if (len > 4 && comment.substring(4).startsWith(SOURCE_URL_PREFIX)) { source.setExplicitURL(comment.substring(4 + SOURCE_URL_PREFIX.length())); } }
Seek next token.
Returns:tokenType of next token.
/** * Seek next token. * * @return tokenType of next token. */
private TokenType nextToken() { // Capture last token type, but ignore comments (which are irrelevant for the purpose of newline detection). if (type != COMMENT) { last = type; } if (type != EOF) { // Set up next token. k++; final long lastToken = token; previousToken = token; token = getToken(k); type = Token.descType(token); // do this before the start is changed below if (last != EOL) { finish = start + Token.descLength(lastToken); } if (type == EOL) { line = Token.descLength(token); linePosition = Token.descPosition(token); } else { start = Token.descPosition(token); } } return type; }
Get the message string for a message ID and arguments
Params:
  • msgId – The Message ID
  • args – The arguments
Returns:The message string
/** * Get the message string for a message ID and arguments * * @param msgId The Message ID * @param args The arguments * * @return The message string */
protected static String message(final String msgId, final String... args) { return ECMAErrors.getMessage("parser.error." + msgId, args); }
Report an error.
Params:
  • message – Error message.
  • errorToken – Offending token.
Returns:ParserException upon failure. Caller should throw and not ignore
/** * Report an error. * * @param message Error message. * @param errorToken Offending token. * @return ParserException upon failure. Caller should throw and not ignore */
protected final ParserException error(final String message, final long errorToken) { return error(JSErrorType.SYNTAX_ERROR, message, errorToken); }
Report an error.
Params:
  • errorType – The error type
  • message – Error message.
  • errorToken – Offending token.
Returns:ParserException upon failure. Caller should throw and not ignore
/** * Report an error. * * @param errorType The error type * @param message Error message. * @param errorToken Offending token. * @return ParserException upon failure. Caller should throw and not ignore */
protected final ParserException error(final JSErrorType errorType, final String message, final long errorToken) { final int position = Token.descPosition(errorToken); final int lineNum = source.getLine(position); final int columnNum = source.getColumn(position); final String formatted = ErrorManager.format(message, source, lineNum, columnNum, errorToken); return new ParserException(errorType, formatted, source, lineNum, columnNum, errorToken); }
Report an error.
Params:
  • message – Error message.
Returns:ParserException upon failure. Caller should throw and not ignore
/** * Report an error. * * @param message Error message. * @return ParserException upon failure. Caller should throw and not ignore */
protected final ParserException error(final String message) { return error(JSErrorType.SYNTAX_ERROR, message); }
Report an error.
Params:
  • errorType – The error type
  • message – Error message.
Returns:ParserException upon failure. Caller should throw and not ignore
/** * Report an error. * * @param errorType The error type * @param message Error message. * @return ParserException upon failure. Caller should throw and not ignore */
protected final ParserException error(final JSErrorType errorType, final String message) { // TODO - column needs to account for tabs. final int position = Token.descPosition(token); final int column = position - linePosition; final String formatted = ErrorManager.format(message, source, line, column, token); return new ParserException(errorType, formatted, source, line, column, token); }
Report a warning to the error manager.
Params:
  • errorType – The error type of the warning
  • message – Warning message.
  • errorToken – error token
/** * Report a warning to the error manager. * * @param errorType The error type of the warning * @param message Warning message. * @param errorToken error token */
protected final void warning(final JSErrorType errorType, final String message, final long errorToken) { errors.warning(error(errorType, message, errorToken)); }
Generate 'expected' message.
Params:
  • expected – Expected tokenType.
Returns:the message string
/** * Generate 'expected' message. * * @param expected Expected tokenType. * * @return the message string */
protected final String expectMessage(final TokenType expected) { final String tokenString = Token.toString(source, token); String msg; if (expected == null) { msg = AbstractParser.message("expected.stmt", tokenString); } else { final String expectedName = expected.getNameOrType(); msg = AbstractParser.message("expected", expectedName, tokenString); } return msg; }
Check current token and advance to the next token.
Params:
  • expected – Expected tokenType.
Throws:
/** * Check current token and advance to the next token. * * @param expected Expected tokenType. * * @throws ParserException on unexpected token type */
protected final void expect(final TokenType expected) throws ParserException { expectDontAdvance(expected); next(); }
Check current token, but don't advance to the next token.
Params:
  • expected – Expected tokenType.
Throws:
/** * Check current token, but don't advance to the next token. * * @param expected Expected tokenType. * * @throws ParserException on unexpected token type */
protected final void expectDontAdvance(final TokenType expected) throws ParserException { if (type != expected) { throw error(expectMessage(expected)); } }
Check next token, get its value and advance.
Params:
  • expected – Expected tokenType.
Throws:
Returns:The JavaScript value of the token
/** * Check next token, get its value and advance. * * @param expected Expected tokenType. * @return The JavaScript value of the token * @throws ParserException on unexpected token type */
protected final Object expectValue(final TokenType expected) throws ParserException { if (type != expected) { throw error(expectMessage(expected)); } final Object value = getValue(); next(); return value; }
Get the value of the current token.
Returns:JavaScript value of the token.
/** * Get the value of the current token. * * @return JavaScript value of the token. */
protected final Object getValue() { return getValue(token); }
Get the value of a specific token
Params:
  • valueToken – the token
Returns:JavaScript value of the token
/** * Get the value of a specific token * * @param valueToken the token * * @return JavaScript value of the token */
protected final Object getValue(final long valueToken) { try { return lexer.getValueOf(valueToken, isStrictMode); } catch (final ParserException e) { errors.error(e); } return null; }
Certain future reserved words can be used as identifiers in non-strict mode. Check if the current token is one such.
Returns:true if non strict mode identifier
/** * Certain future reserved words can be used as identifiers in * non-strict mode. Check if the current token is one such. * * @return true if non strict mode identifier */
protected final boolean isNonStrictModeIdent() { return !isStrictMode && type.getKind() == TokenKind.FUTURESTRICT; }
Get ident.
Returns:Ident node.
/** * Get ident. * * @return Ident node. */
protected final IdentNode getIdent() { // Capture IDENT token. long identToken = token; if (isNonStrictModeIdent()) { // Fake out identifier. identToken = Token.recast(token, IDENT); // Get IDENT. final String ident = (String)getValue(identToken); next(); // Create IDENT node. return createIdentNode(identToken, finish, ident).setIsFutureStrictName(); } // Get IDENT. final String ident = (String)expectValue(IDENT); if (ident == null) { return null; } // Create IDENT node. return createIdentNode(identToken, finish, ident); }
Creates a new IdentNode as if invoked with a constructor but making sure that the name is deduplicated within this parse job.
Params:
  • identToken – the token for the new IdentNode
  • identFinish – the finish for the new IdentNode
  • name – the name for the new IdentNode. It will be de-duplicated.
Returns:a newly constructed IdentNode with the specified token, finish, and name; the name will be deduplicated.
/** * Creates a new {@link IdentNode} as if invoked with a {@link IdentNode#IdentNode(long, int, String) * constructor} but making sure that the {@code name} is deduplicated within this parse job. * @param identToken the token for the new {@code IdentNode} * @param identFinish the finish for the new {@code IdentNode} * @param name the name for the new {@code IdentNode}. It will be de-duplicated. * @return a newly constructed {@code IdentNode} with the specified token, finish, and name; the name will * be deduplicated. */
protected IdentNode createIdentNode(final long identToken, final int identFinish, final String name) { final String existingName = canonicalNames.putIfAbsent(name, name); final String canonicalName = existingName != null ? existingName : name; return new IdentNode(identToken, identFinish, canonicalName); }
Check if current token is in identifier name
Returns:true if current token is an identifier name
/** * Check if current token is in identifier name * * @return true if current token is an identifier name */
protected final boolean isIdentifierName() { final TokenKind kind = type.getKind(); if (kind == TokenKind.KEYWORD || kind == TokenKind.FUTURE || kind == TokenKind.FUTURESTRICT) { return true; } // only literals allowed are null, false and true if (kind == TokenKind.LITERAL) { switch (type) { case FALSE: case NULL: case TRUE: return true; default: return false; } } // Fake out identifier. final long identToken = Token.recast(token, IDENT); // Get IDENT. final String ident = (String)getValue(identToken); return !ident.isEmpty() && Character.isJavaIdentifierStart(ident.charAt(0)); }
Create an IdentNode from the current token
Returns:an IdentNode representing the current token
/** * Create an IdentNode from the current token * * @return an IdentNode representing the current token */
protected final IdentNode getIdentifierName() { if (type == IDENT) { return getIdent(); } else if (isIdentifierName()) { // Fake out identifier. final long identToken = Token.recast(token, IDENT); // Get IDENT. final String ident = (String)getValue(identToken); next(); // Create IDENT node. return createIdentNode(identToken, finish, ident); } else { expect(IDENT); return null; } }
Create a LiteralNode from the current token
Throws:
Returns:LiteralNode representing the current token
/** * Create a LiteralNode from the current token * * @return LiteralNode representing the current token * @throws ParserException if any literals fails to parse */
protected final LiteralNode<?> getLiteral() throws ParserException { // Capture LITERAL token. final long literalToken = token; // Create literal node. final Object value = getValue(); // Advance to have a correct finish next(); LiteralNode<?> node = null; if (value == null) { node = LiteralNode.newInstance(literalToken, finish); } else if (value instanceof Number) { node = LiteralNode.newInstance(literalToken, finish, (Number)value); } else if (value instanceof String) { node = LiteralNode.newInstance(literalToken, finish, (String)value); } else if (value instanceof LexerToken) { if (value instanceof RegexToken) { final RegexToken regex = (RegexToken)value; try { RegExpFactory.validate(regex.getExpression(), regex.getOptions()); } catch (final ParserException e) { throw error(e.getMessage()); } } node = LiteralNode.newInstance(literalToken, finish, (LexerToken)value); } else { assert false : "unknown type for LiteralNode: " + value.getClass(); } return node; } }