private int readName(IScanner scanner, StringBuffer buf) throws InvalidInputException { int tok = scanner.getNextToken(); while (tok == ITerminalSymbols.TokenNameIdentifier) { buf.append(scanner.getCurrentTokenSource()); tok = scanner.getNextToken(); if (tok != ITerminalSymbols.TokenNameDOT) { return tok; } buf.append('.'); tok = scanner.getNextToken(); } return tok; }
/** Lex the input and build the list of toks. */ private ImmutableList<Tok> buildToks(String text, char... chars) throws FormatterException { try { kN = 0; IScanner scanner = ToolFactory.createScanner(true, true, true, "1.8"); scanner.setSource(chars); List<Tok> toks = new ArrayList<>(); int charI = 0; int columnI = 0; while (scanner.getCurrentTokenEndPosition() < chars.length - 1 && scanner.getNextToken() != ITerminalSymbols.TokenNameEOF) { int charI0 = scanner.getCurrentTokenStartPosition(); // Get string, possibly with Unicode escapes. String originalTokText = text.substring(charI0, scanner.getCurrentTokenEndPosition() + 1); String tokText = new String(scanner.getCurrentTokenSource()); // Unicode escapes removed. char tokText0 = tokText.charAt(0); // The token's first character. final boolean isToken; // Is this tok a token? final boolean isNumbered; // Is this tok numbered? (tokens and comments) boolean extraNewline = false; // Extra newline at end? List<String> strings = new ArrayList<>(); if (Character.isWhitespace(tokText0)) { isToken = false; isNumbered = false; boolean first = true; for (String spaces : NEWLINE_SPLITTER.split(originalTokText)) { if (!first) { strings.add("\n"); } if (!spaces.isEmpty()) { strings.add(spaces); } first = false; } } else if (tokText.startsWith("'") || tokText.startsWith("\"")) { isToken = true; isNumbered = true; strings.add(originalTokText); } else if (tokText.startsWith("//") || tokText.startsWith("/*")) { // For compatibility with an earlier lexer, the newline after a // comment is its own tok. if (tokText.startsWith("//") && originalTokText.endsWith("\n")) { originalTokText = originalTokText.substring(0, originalTokText.length() - 1); tokText = tokText.substring(0, tokText.length() - 1); extraNewline = true; } isToken = false; isNumbered = true; strings.add(originalTokText); } else if (Character.isJavaIdentifierStart(tokText0) || Character.isDigit(tokText0) || tokText0 == '.' && tokText.length() > 1 && Character.isDigit(tokText.charAt(1))) { // Identifier, keyword, or numeric literal (a dot may begin a number, as in .2D). isToken = true; isNumbered = true; strings.add(tokText); } else { // Other tokens ("+" or "++" or ">>" are broken into one-character toks, because ">>" // cannot be lexed without syntactic knowledge. This implementation fails if the token // contains Unicode escapes. isToken = true; isNumbered = true; for (char c : tokText.toCharArray()) { strings.add(String.valueOf(c)); } } if (strings.size() == 1) { toks.add( new Tok(isNumbered ? kN++ : -1, originalTokText, tokText, charI, columnI, isToken)); for (char c : originalTokText.toCharArray()) { if (c == '\n') { columnI = 0; } else { ++columnI; } ++charI; } } else { if (strings.size() != 1 && !tokText.equals(originalTokText)) { throw new FormatterException( "Unicode escapes not allowed in whitespace or multi-character operators"); } for (String str : strings) { toks.add(new Tok(isNumbered ? kN++ : -1, str, str, charI, columnI, isToken)); for (char c : str.toCharArray()) { if (c == '\n') { columnI = 0; } else { ++columnI; } ++charI; } } } if (extraNewline) { toks.add(new Tok(-1, "\n", "\n", charI, columnI, false)); columnI = 0; ++charI; } } toks.add(new Tok(kN++, "", "", charI, columnI, true)); // EOF tok. --kN; // Don't count EOF tok. computeRanges(toks); return ImmutableList.copyOf(toks); } catch (InvalidInputException e) { throw new FormatterException(e.getMessage()); } }
/** * Finds the key defined by the given match. The assumption is that the key is the only argument * and it is a string literal i.e. quoted ("...") or a string constant i.e. 'static final String' * defined in the same class. * * @param keyPositionResult reference parameter: will be filled with the position of the found key * @param enclosingElement enclosing java element * @return a string denoting the key, {@link #NO_KEY} if no key can be found and <code>null</code> * otherwise * @throws CoreException if a problem occurs while accessing the <code>enclosingElement</code> */ private String findKey(Position keyPositionResult, IJavaElement enclosingElement) throws CoreException { ICompilationUnit unit = (ICompilationUnit) enclosingElement.getAncestor(IJavaElement.COMPILATION_UNIT); if (unit == null) return null; String source = unit.getSource(); if (source == null) return null; IJavaProject javaProject = unit.getJavaProject(); IScanner scanner = null; if (javaProject != null) { String complianceLevel = javaProject.getOption(JavaCore.COMPILER_COMPLIANCE, true); String sourceLevel = javaProject.getOption(JavaCore.COMPILER_SOURCE, true); scanner = ToolFactory.createScanner(false, false, false, sourceLevel, complianceLevel); } else { scanner = ToolFactory.createScanner(false, false, false, false); } scanner.setSource(source.toCharArray()); scanner.resetTo(keyPositionResult.getOffset() + keyPositionResult.getLength(), source.length()); try { if (scanner.getNextToken() != ITerminalSymbols.TokenNameDOT) return null; if (scanner.getNextToken() != ITerminalSymbols.TokenNameIdentifier) return null; String src = new String(scanner.getCurrentTokenSource()); int tokenStart = scanner.getCurrentTokenStartPosition(); int tokenEnd = scanner.getCurrentTokenEndPosition(); if (scanner.getNextToken() == ITerminalSymbols.TokenNameLPAREN) { // Old school // next must be key string. Ignore methods which do not take a single String parameter (Bug // 295040). int nextToken = scanner.getNextToken(); if (nextToken != ITerminalSymbols.TokenNameStringLiteral && nextToken != ITerminalSymbols.TokenNameIdentifier) return null; tokenStart = scanner.getCurrentTokenStartPosition(); tokenEnd = scanner.getCurrentTokenEndPosition(); int token; while ((token = scanner.getNextToken()) == ITerminalSymbols.TokenNameDOT) { if ((nextToken = scanner.getNextToken()) != ITerminalSymbols.TokenNameIdentifier) { return null; } tokenStart = scanner.getCurrentTokenStartPosition(); tokenEnd = scanner.getCurrentTokenEndPosition(); } if (token != ITerminalSymbols.TokenNameRPAREN) return null; if (nextToken == ITerminalSymbols.TokenNameStringLiteral) { keyPositionResult.setOffset(tokenStart + 1); keyPositionResult.setLength(tokenEnd - tokenStart - 1); return source.substring(tokenStart + 1, tokenEnd); } else if (nextToken == ITerminalSymbols.TokenNameIdentifier) { keyPositionResult.setOffset(tokenStart); keyPositionResult.setLength(tokenEnd - tokenStart + 1); IType parentClass = (IType) enclosingElement.getAncestor(IJavaElement.TYPE); IField[] fields = parentClass.getFields(); String identifier = source.substring(tokenStart, tokenEnd + 1); for (int i = 0; i < fields.length; i++) { if (fields[i].getElementName().equals(identifier)) { if (!Signature.getSignatureSimpleName(fields[i].getTypeSignature()) .equals("String")) // $NON-NLS-1$ return null; Object obj = fields[i].getConstant(); return obj instanceof String ? ((String) obj).substring(1, ((String) obj).length() - 1) : NO_KEY; } } } return NO_KEY; } else { keyPositionResult.setOffset(tokenStart); keyPositionResult.setLength(tokenEnd - tokenStart + 1); return src; } } catch (InvalidInputException e) { throw new CoreException(JavaUIStatus.createError(IStatus.ERROR, e)); } }