String k = readNextIdentifier(); String v = ""; skipBlank(); v = readNextIdentifier();
String k = readNextIdentifier(); String v = ""; skipBlank(); v = readNextIdentifier();
String k = readNextIdentifier(); String v = ""; skipBlank(); v = readNextIdentifier();
String k = readNextIdentifier(); String v = ""; skipBlank(); v = readNextIdentifier();
String k = readNextIdentifier(); String v = ""; skipBlank(); v = readNextIdentifier();
/** * Parse an AbstractType from current position of this parser. */ public AbstractType<?> parse() throws SyntaxException, ConfigurationException { skipBlank(); String name = readNextIdentifier(); skipBlank(); if (!isEOS() && str.charAt(idx) == '(') return getAbstractType(name, this); else return getAbstractType(name); }
/** * Parse an AbstractType from current position of this parser. */ public AbstractType<?> parse() throws SyntaxException, ConfigurationException { skipBlank(); String name = readNextIdentifier(); skipBlank(); if (!isEOS() && str.charAt(idx) == '(') return getAbstractType(name, this); else return getAbstractType(name); }
/** * Parse an AbstractType from current position of this parser. */ public AbstractType<?> parse() throws SyntaxException, ConfigurationException { skipBlank(); String name = readNextIdentifier(); skipBlank(); if (!isEOS() && str.charAt(idx) == '(') return getAbstractType(name, this); else return getAbstractType(name); }
/** * Parse an AbstractType from current position of this parser. */ public AbstractType<?> parse() throws SyntaxException, ConfigurationException { skipBlank(); String name = readNextIdentifier(); skipBlank(); if (!isEOS() && str.charAt(idx) == '(') return getAbstractType(name, this); else return getAbstractType(name); }
/** * Parse an AbstractType from current position of this parser. */ public AbstractType<?> parse() throws SyntaxException, ConfigurationException { skipBlank(); String name = readNextIdentifier(); skipBlank(); if (!isEOS() && str.charAt(idx) == '(') return getAbstractType(name, this); else return getAbstractType(name); }
String alias = readNextIdentifier(); if (alias.length() != 1) throwSyntaxError("An alias should be a single character");
String alias = readNextIdentifier(); if (alias.length() != 1) throwSyntaxError("An alias should be a single character");
String alias = readNextIdentifier(); if (alias.length() != 1) throwSyntaxError("An alias should be a single character");
String keyspace = readNextIdentifier(); skipBlankAndComma(); ByteBuffer typeName = fromHex(readNextIdentifier()); List<Pair<ByteBuffer, AbstractType>> defs = new ArrayList<>(); ByteBuffer name = fromHex(readNextIdentifier()); skipBlank(); if (str.charAt(idx) != ':')
String keyspace = readNextIdentifier(); skipBlankAndComma(); ByteBuffer typeName = fromHex(readNextIdentifier()); List<Pair<ByteBuffer, AbstractType>> defs = new ArrayList<>(); ByteBuffer name = fromHex(readNextIdentifier()); skipBlank(); if (str.charAt(idx) != ':')
String keyspace = readNextIdentifier(); skipBlankAndComma(); ByteBuffer typeName = fromHex(readNextIdentifier()); List<Pair<ByteBuffer, AbstractType>> defs = new ArrayList<>(); ByteBuffer name = fromHex(readNextIdentifier()); skipBlank(); if (str.charAt(idx) != ':')
String keyspace = readNextIdentifier(); skipBlankAndComma(); ByteBuffer typeName = fromHex(readNextIdentifier()); List<Pair<ByteBuffer, AbstractType>> defs = new ArrayList<>(); ByteBuffer name = fromHex(readNextIdentifier()); skipBlank(); if (str.charAt(idx) != ':')
ByteBuffer bb = fromHex(readNextIdentifier());
ByteBuffer bb = fromHex(readNextIdentifier());
ByteBuffer bb = fromHex(readNextIdentifier());