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CUP is a system for generating LALR parsers from simple specifications. It serves the same role as the widely used program YACC [1] and in fact offers most of the features of YACC. However, CUP is written in Java, uses specifications including embedded Java code, and produces parsers which are implemented in Java.

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/*================================================================*/ 
/* 
  JavaCup Specification for the JavaCup Specification Language
  by Scott Hudson, GVU Center, Georgia Tech, August 1995
  and Frank Flannery, Department of Computer Science, Princeton Univ,
  July 1996
  Bug Fixes: C. Scott Ananian, Dept of Electrical Engineering, Princeton
  University, October 1996. [later Massachusetts Institute of Technology]


  This JavaCup specification is used to implement JavaCup itself.
  It specifies the parser for the JavaCup specification language.
  (It also serves as a reasonable example of what a typical JavaCup
  spec looks like).

  The specification has the following parts:
    Package and import declarations
      These serve the same purpose as in a normal Java source file
      (and will appear in the generated code for the parser). In this 
      case we are part of the java_cup package and we import both the
      java_cup runtime system and Hashtable from the standard Java
      utilities package.

    Action code
      This section provides code that is included with the class encapsulating
      the various pieces of user code embedded in the grammar (i.e., the
      semantic actions).  This provides a series of helper routines and
      data structures that the semantic actions use.

    Parser code    
      This section provides code included in the parser class itself.  In
      this case we override the default error reporting routines.

    Init with and scan with 
      These sections provide small bits of code that initialize, then 
      indicate how to invoke the scanner.

    Symbols and grammar
      These sections declare all the terminal and non terminal symbols 
      and the types of objects that they will be represented by at runtime,
      then indicate the start symbol of the grammar (), and finally provide
      the grammar itself (with embedded actions).

    Operation of the parser
      The parser acts primarily by accumulating data structures representing
      various parts of the specification.  Various small parts (e.g., single
      code strings) are stored as static variables of the emit class and
      in a few cases as variables declared in the action code section.  
      Terminals, non terminals, and productions, are maintained as collection
      accessible via static methods of those classes.  In addition, two 
      symbol tables are kept:  
	symbols   maintains the name to object mapping for all symbols
	non_terms maintains a separate mapping containing only the non terms

      Several intermediate working structures are also declared in the action
      code section.  These include: rhs_parts, rhs_pos, and lhs_nt which
      build up parts of the current production while it is being parsed.
	
  Author(s)
    Scott Hudson, GVU Center, Georgia Tech.
    Frank Flannery, Department of Computer Science, Princeton Univ.
    C. Scott Ananian, Department of Electrical Engineering, Princeton Univ.

  Revisions
    v0.9a   First released version                     [SEH] 8/29/95
    v0.9b   Updated for beta language (throws clauses) [SEH] 11/25/95
    v0.10a  Made many improvements/changes. now offers:
              return value
              left/right positions and propagations
              cleaner label references
              precedence and associativity for terminals
              contextual precedence for productions
              [FF] 7/3/96
    v0.10b  Fixed %prec directive so it works like it's supposed to.
              [CSA] 10/10/96
    v0.10g   Added support for array types on symbols.
              [CSA] 03/23/98
    v0.10i  Broaden set of IDs allowed in multipart_id and label_id so
            that only java reserved words (and not CUP reserved words like
            'parser' and 'start') are prohibited.  Allow reordering of
	    action code, parser code, init code, and scan with sections,
	    and made closing semicolon optional for these sections.
	    Added 'nonterminal' as a terminal symbol, finally fixing a
	    spelling mistake that's been around since the beginning.
	    For backwards compatibility, you can still misspell the
	    word if you like.
*/
/*================================================================*/ 

package java_cup;
import java_cup.runtime.*;
import java.util.Hashtable;
import java.util.Stack;
/*----------------------------------------------------------------*/ 

action code {:
  /** helper routine to clone a new production part adding a given label */
  protected production_part add_lab(production_part part, String lab)
    throws internal_error
    {
      /* if there is no label, or this is an action, just return the original */
      if (lab == null || part.is_action()) return part;

      /* otherwise build a new one with the given label attached */
      return new symbol_part(((symbol_part)part).the_symbol(),lab);
    }

  /** max size of right hand side we will support */
  protected final int MAX_RHS = 200;

  /** array for accumulating right hand side parts */
  protected production_part[] rhs_parts = new production_part[MAX_RHS];

  /** where we are currently in building a right hand side */
  protected int rhs_pos = 0;

  /** start a new right hand side */
  protected void new_rhs() {rhs_pos = 0; }

  /** add a new right hand side part */
  protected void add_rhs_part(production_part part) throws java.lang.Exception
    {
      if (rhs_pos >= MAX_RHS)
	throw new Exception("Internal Error: Productions limited to " + 
			     MAX_RHS + " symbols and actions"); 

      rhs_parts[rhs_pos] = part;
      rhs_pos++;
    }

  /** string to build up multiple part names */
  protected String multipart_name = new String();
  protected Stack multipart_names = new Stack();
  /** append a new name segment to the accumulated multipart name */

//  TUM CHANGES
//   protected void append_multipart(String name)
//     {
//       String dot = "";
// 
//       /* if we aren't just starting out, put on a dot */
//       if (multipart_name.length() != 0)  dot = ".";
// 
//       multipart_name = multipart_name.concat(dot + name);
//     }
// TUM CHANGES

  /** table of declared symbols -- contains production parts indexed by name */
  protected Hashtable symbols = new Hashtable();

  /** table of just non terminals -- contains non_terminals indexed by name */
  protected Hashtable non_terms = new Hashtable();

  /** declared start non_terminal */
  protected non_terminal start_nt = null;

  /** left hand side non terminal of the current production */
  protected non_terminal lhs_nt;

  /** Current precedence number */
  int _cur_prec = 0;

  /** Current precedence side */
  int _cur_side = assoc.no_prec;

  /** update the precedences we are declaring */
  protected void update_precedence(int p) {
    _cur_side = p;
    _cur_prec++;
  }
  /** add relevant data to terminals */ 
  protected void add_precedence(String term) {
    if (term == null) {
      System.err.println("Unable to add precedence to nonexistent terminal");
    } else {
      symbol_part sp = (symbol_part)symbols.get(term);
      if (sp == null) {
	System.err.println("Could find terminal " + term + " while declaring precedence");
      } else {
	java_cup.symbol sym = sp.the_symbol();
	if (sym instanceof terminal) 
	  ((terminal)sym).set_precedence(_cur_side, _cur_prec);
	else System.err.println("Precedence declaration: Can't find terminal " + term);
      }
    }
  }
:};

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

parser code {:

 /* override error routines */
  protected Lexer lexer;
  public void report_fatal_error(
    String   message,
    Object   info)
    {
      done_parsing();
      if (info instanceof Symbol) ErrorManager.getManager().emit_fatal(message+ "\nCan't recover from previous error(s), giving up.",(Symbol)info);
      else ErrorManager.getManager().emit_fatal(message + "\nCan't recover from previous error(s), giving up.",cur_token);
      System.exit(1);
    }

    public void report_error(String message, Object info)
    {
      if (info instanceof Symbol)
         ErrorManager.getManager().emit_error(message,(Symbol)info);
      else
         ErrorManager.getManager().emit_error(message,cur_token);
    }
:};

/*---------------------------------------------------------------- */

init with {: 
    ComplexSymbolFactory f = new ComplexSymbolFactory();
    symbolFactory = f;
    lexer = new Lexer(f); 
:}
/*lexer.init(); :};*/
scan with {: 
    return lexer.next_token(); 
:};

/*----------------------------------------------------------------*/ 

terminal
  PACKAGE, IMPORT, CODE, ACTION, PARSER, TERMINAL, NON, INIT, SCAN, WITH, 
  START, SEMI, COMMA, STAR, DOT, COLON, COLON_COLON_EQUALS, BAR, PRECEDENCE,
  LEFT, RIGHT, NONASSOC, PERCENT_PREC, LBRACK, RBRACK, NONTERMINAL, GT, LT,
  QUESTION, SUPER, EXTENDS;

terminal String  ID, CODE_STRING;

non terminal
  spec, package_spec, import_list, action_code_part, 
  code_parts, code_part, opt_semi, non_terminal,
  parser_code_part, symbol_list, start_spec, production_list, 
  multipart_id, import_spec, import_id, init_code, scan_code, symbol, 
  type_id, term_name_list, non_term_name_list, production, prod_part_list, 
  prod_part, new_term_id, new_non_term_id, rhs_list, rhs, empty,
  precedence_list, preced, terminal_list, precedence_l, declares_term, 
  declares_non_term;

non terminal String  nt_id, symbol_id, label_id, opt_label, terminal_id,
                     term_id, robust_id, typearglist, typearguement, wildcard;

/*----------------------------------------------------------------*/ 

start with spec;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

spec ::= 
	{:
          /* declare "error" as a terminal */
          symbols.put("error", new symbol_part(terminal.error));

          /* declare start non terminal */
          non_terms.put("$START", non_terminal.START_nt);
	:}
	package_spec
	import_list
	code_parts
	symbol_list
	precedence_list
	start_spec
	production_list
	|
	/* error recovery assuming something went wrong before symbols 
	   and we have TERMINAL or NON TERMINAL to sync on.  if we get
	   an error after that, we recover inside symbol_list or 
	   production_list 
	*/
	error 
	symbol_list
	precedence_list
	start_spec
	production_list
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

package_spec ::= 
	PACKAGE
	multipart_id
	{:
	  /* save the package name */
	  emit.package_name = multipart_name;

	  /* reset the accumulated multipart name */
	  multipart_name = new String();
	:}
	SEMI
	|
	empty
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

import_list ::=
	import_list
	import_spec
	|
	empty
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

import_spec ::=
	IMPORT 
	import_id 
	{: 
	  /* save this import on the imports list */
	  emit.import_list.push(multipart_name);

	  /* reset the accumulated multipart name */
	  multipart_name = new String();
	:}
	SEMI
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

// allow any order; all parts are optional. [CSA, 23-Jul-1999]
// (we check in the part action to make sure we don't have 2 of any part)
code_part ::=
	action_code_part | parser_code_part | init_code | scan_code ;
code_parts ::= 
	| code_parts code_part;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

action_code_part ::= 
	ACTION CODE CODE_STRING:user_code opt_semi
	{:
	  if (emit.action_code!=null)
	    ErrorManager.getManager().emit_warning("Redundant action code (skipping)");
	  else /* save the user included code string */
	    emit.action_code = user_code;
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

parser_code_part ::= 
	PARSER CODE CODE_STRING:user_code opt_semi
	{:
	  if (emit.parser_code!=null)
	    ErrorManager.getManager().emit_warning("Redundant parser code (skipping)");
	  else /* save the user included code string */
	    emit.parser_code = user_code;
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

init_code ::= 
	INIT WITH CODE_STRING:user_code opt_semi
	{: 
	  if (emit.init_code!=null)
	    ErrorManager.getManager().emit_warning("Redundant init code (skipping)");
	  else /* save the user code */
	    emit.init_code = user_code;
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

scan_code ::=
	SCAN WITH CODE_STRING:user_code opt_semi
	{: 
	  if (emit.scan_code!=null)
	    ErrorManager.getManager().emit_warning("Redundant scan code (skipping)");
	  else /* save the user code */
	    emit.scan_code = user_code;
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

symbol_list ::= symbol_list symbol | symbol;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

symbol ::= 
	TERMINAL
	type_id	
	declares_term
	|
	TERMINAL
	declares_term
	|
	non_terminal
	type_id
	declares_non_term
	|
	non_terminal
	declares_non_term
	|
	/* error recovery productions -- sync on semicolon */

	TERMINAL
	error 
	{:
	  /* reset the accumulated multipart name */
	  multipart_name = new String();
	:}
	SEMI
	|
	non_terminal
	error 
	{:
	  /* reset the accumulated multipart name */
	  multipart_name = new String();
	:}
	SEMI
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

declares_term ::=
	term_name_list
	{: 
	  /* reset the accumulated multipart name */
	  multipart_name = new String();
	:}
	SEMI
	;
/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

declares_non_term ::=
	non_term_name_list
	{: 
	  /* reset the accumulated multipart name */
	  multipart_name = new String();
	:}
	SEMI
	;
/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

term_name_list ::= term_name_list COMMA new_term_id | new_term_id;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

non_term_name_list ::=
	non_term_name_list
	COMMA
	new_non_term_id
	|
	new_non_term_id
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 


precedence_list ::= precedence_l | empty; 

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

precedence_l ::= precedence_l preced | preced;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

preced ::= 
	PRECEDENCE LEFT 
	{:
	  update_precedence(assoc.left);
	:}	
        terminal_list SEMI
	|
	PRECEDENCE RIGHT 
	{:
	  update_precedence(assoc.right);
	:}	
        terminal_list SEMI
	|
	PRECEDENCE NONASSOC 
	{:
	  update_precedence(assoc.nonassoc);
	:}	
        terminal_list SEMI
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

terminal_list ::= terminal_list COMMA terminal_id
	|
	terminal_id
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

terminal_id ::= term_id:sym
	{:	
	  add_precedence(sym);
	  RESULT = sym;
	:};
	  
/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

term_id ::= symbol_id:sym
        {:
	  /* check that the symbol_id is a terminal */
	  if (symbols.get(sym) == null)
	    {
	      /* issue a message */
	      ErrorManager.getManager().emit_error("Terminal \"" + sym + 
			   "\" has not been declared");
	    }
          RESULT = sym;
         :};

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

start_spec ::= 
	START WITH nt_id:start_name 
	{: 
	  /* verify that the name has been declared as a non terminal */
	  non_terminal nt = (non_terminal)non_terms.get(start_name);
	  if (nt == null)
	    {
	    ErrorManager.getManager().emit_error( "Start non terminal \"" + start_name + 
	  		         "\" has not been declared");
	    }
          else
	    {
	      /* remember the non-terminal for later */
	      start_nt = nt;

	      /* build a special start production */
	      new_rhs();
	      add_rhs_part(add_lab(new symbol_part(start_nt), "start_val"));
	      add_rhs_part(new symbol_part(terminal.EOF));
	      add_rhs_part(new action_part("RESULT = start_val;"));
	      emit.start_production = 
		     new production(non_terminal.START_nt, rhs_parts, rhs_pos);
	      new_rhs();
	    }
	:}
	SEMI
	|
	empty
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

production_list ::= production_list production | production;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

production ::=
	nt_id:lhs_id
	{:
	  /* lookup the lhs nt */
	  lhs_nt = (non_terminal)non_terms.get(lhs_id);

          /* if it wasn't declared, emit a message */
	  if (lhs_nt == null)
	    {
	      if (ErrorManager.getManager().getErrorCount() == 0)
	      ErrorManager.getManager().emit_warning("LHS non terminal \"" + lhs_id + 
			       "\" has not been declared");
	    }

	  /* reset the rhs accumulation */
	  new_rhs();
	:}
	COLON_COLON_EQUALS
/*	{: :}*/
	rhs_list
	SEMI
	|
	error
	{: ErrorManager.getManager().emit_error("Syntax Error"); :}
	SEMI
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

rhs_list ::= rhs_list BAR rhs | rhs;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

rhs ::= 
	prod_part_list PERCENT_PREC term_id:term_name 
	{:
	  java_cup.symbol sym = null;
	  if (lhs_nt != null) 
	    {
	      /* Find the precedence symbol */
	      if (term_name == null) {
		System.err.println("No terminal for contextual precedence");
		sym = null;
	      } else {
		sym = ((symbol_part)symbols.get(term_name)).the_symbol();
	      }
	      /* build the production */
	      production p;
	      if ((sym!=null) && (sym instanceof terminal)) {
		p = new production(lhs_nt, rhs_parts, rhs_pos,
				   ((terminal)sym).precedence_num(),
				   ((terminal)sym).precedence_side());
		((symbol_part)symbols.get(term_name)).the_symbol().note_use();
	      } else {
		System.err.println("Invalid terminal " + term_name + 
				   " for contextual precedence assignment");
		p = new production(lhs_nt, rhs_parts, rhs_pos);
	      }

	      /* if we have no start non-terminal declared and this is 
		 the first production, make its lhs nt the start_nt 
		 and build a special start production for it. */
              if (start_nt == null)
		{
		  start_nt = lhs_nt;

	          /* build a special start production */
	          new_rhs();
	          add_rhs_part(add_lab(new symbol_part(start_nt),"start_val"));
	          add_rhs_part(new symbol_part(terminal.EOF));
		  add_rhs_part(new action_part("RESULT = start_val;"));
		  if ((sym!=null) && (sym instanceof terminal)) {
		    emit.start_production = 
		      new production(non_terminal.START_nt, rhs_parts, 
				     rhs_pos, ((terminal)sym).precedence_num(),
				     ((terminal)sym).precedence_side());
		  } else {
		    emit.start_production = 
		      new production(non_terminal.START_nt, rhs_parts, rhs_pos);
		  }
	          new_rhs();
		}
	    }

	  /* reset the rhs accumulation in any case */
	  new_rhs();
	:}
	|
	prod_part_list 
	{: 
	  if (lhs_nt != null) 
	    {
	      /* build the production */
	      production p = new production(lhs_nt, rhs_parts, rhs_pos);

	      /* if we have no start non-terminal declared and this is 
		 the first production, make its lhs nt the start_nt 
		 and build a special start production for it. */
              if (start_nt == null)
		{
		  start_nt = lhs_nt;

	          /* build a special start production */
	          new_rhs();
	          add_rhs_part(add_lab(new symbol_part(start_nt),"start_val"));
	          add_rhs_part(new symbol_part(terminal.EOF));
		  add_rhs_part(new action_part("RESULT = start_val;"));
	          emit.start_production = 
		     new production(non_terminal.START_nt, rhs_parts, rhs_pos);

	          new_rhs();
		}
	    }
	  
	  /* reset the rhs accumulation in any case */
	  new_rhs();
	:} 
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

prod_part_list ::= prod_part_list prod_part | empty;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

prod_part ::=
	symbol_id:symid opt_label:labid
	{: 
	  /* try to look up the id */
	  production_part symb = (production_part)symbols.get(symid);

	  /* if that fails, symbol is undeclared */
	  if (symb == null)
	    {
	      if (ErrorManager.getManager().getErrorCount() == 0)
	        ErrorManager.getManager().emit_error("java_cup.runtime.Symbol \"" + symid + 
			       "\" has not been declared");
	    }
	  else
	    {
	      /* add a labeled production part */
	      add_rhs_part(add_lab(symb, labid));
	    }
	:}
	|
	CODE_STRING:code_str
	{: 
	  /* add a new production part */
	  add_rhs_part(new action_part(code_str));
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

opt_label ::=
	COLON label_id:labid
	{: RESULT = labid; :}
	|
	empty
	{: RESULT = null; :}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

multipart_id ::=
	multipart_id DOT robust_id:another_id
	{: multipart_name = multipart_name.concat("."+another_id); :}
	|multipart_id 
        {: multipart_names.push(multipart_name); multipart_name="";:}
        LT typearglist:types GT
         {: multipart_name =
         ((String)multipart_names.pop()).concat("<"+types+">"); :}
        |
	robust_id:an_id
	{: multipart_name = multipart_name.concat(an_id); :}
	;
/*. . . . . . . . . . . .TUM CHANGES. . . . . . . . . . . . . . . */


typearglist ::= 
            typearguement:arg
            {: RESULT = arg; :}
            | typearglist:list COMMA typearguement:arg
            {: RESULT = list + "," + arg; :}
            ;

typearguement ::=
              type_id
              {: RESULT = multipart_name; multipart_name = new String(); :}
              | wildcard:w
              {: RESULT = w; :}
              ;

wildcard ::=
         QUESTION
         {: RESULT = " ? "; :}
         | QUESTION EXTENDS type_id
         {: RESULT = " ? extends "+multipart_name; multipart_name = new
         String(); :}
         | QUESTION SUPER type_id
         {: RESULT = " ? super "+multipart_name; multipart_name = new
         String(); :}
         ;

/*. . . . . . . . . . .END TUM CHANGES. . . . . . . . . . . . . . */ 


/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

import_id ::= 
	multipart_id DOT STAR
	{: multipart_name = multipart_name.concat(".*"); :}
	|
	multipart_id
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

type_id ::= multipart_id
	| type_id LBRACK RBRACK
	{: multipart_name = multipart_name.concat("[]"); :}
       	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

new_term_id ::= 
	ID:term_id 
	{: 
	  /* see if this terminal has been declared before */
	  if (symbols.get(term_id) != null)
	    {
	      /* issue a message */
	      ErrorManager.getManager().emit_error("java_cup.runtime.Symbol \"" + term_id + 
			   "\" has already been declared");
	    }
	  else
	    {
	      /* if no type declared, declare one */
	      if (multipart_name.equals("")) {
		multipart_name = "Object";
	      }
	      /* build a production_part and put it in the table */ 
	      symbols.put(term_id, 
	        new symbol_part(new terminal(term_id, multipart_name)));
	    }
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

new_non_term_id ::=
	ID:non_term_id
	{: 
	  /* see if this non terminal has been declared before */
	  if (symbols.get(non_term_id) != null)
	    {
	      /* issue a message */
	      ErrorManager.getManager().emit_error( "java_cup.runtime.Symbol \"" + non_term_id + 
			                      "\" has already been declared");
	    }
	  else
	    {
	      if (multipart_name.equals("")) {
                   multipart_name ="Object";
	      }
	      /* build the non terminal object */
              non_terminal this_nt = 
		new non_terminal(non_term_id, multipart_name);

	      /* put it in the non_terms table */
	      non_terms.put(non_term_id, this_nt);

	      /* build a production_part and put it in the symbols table */ 
	      symbols.put(non_term_id, new symbol_part(this_nt));
	    }
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

nt_id ::=
	ID:the_id
	{: RESULT = the_id; :}
	| error
	{:
		ErrorManager.getManager().emit_error("Illegal use of reserved word");
		RESULT="ILLEGAL";
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

symbol_id ::=
	ID:the_id
	{: RESULT = the_id; :}
	| error
	{:
		ErrorManager.getManager().emit_error("Illegal use of reserved word");
		RESULT="ILLEGAL";
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

label_id ::= 
	robust_id:the_id
	{: RESULT = the_id; :}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

robust_id ::= /* all ids that aren't reserved words in Java */
	ID:the_id	{: RESULT = the_id; :}
	/* package is reserved. */
	/* import is reserved. */
	| CODE		{: RESULT = "code"; :}
	| ACTION	{: RESULT = "action"; :}
	| PARSER	{: RESULT = "parser"; :}
	| TERMINAL	{: RESULT = "terminal"; :}
	| NON		{: RESULT = "non"; :}
	| NONTERMINAL   {: RESULT = "nonterminal"; :}
	| INIT		{: RESULT = "init"; :}
	| SCAN		{: RESULT = "scan"; :}
	| WITH		{: RESULT = "with"; :}
	| START		{: RESULT = "start"; :}
	| PRECEDENCE	{: RESULT = "precedence"; :}
	| LEFT		{: RESULT = "left"; :}
	| RIGHT		{: RESULT = "right"; :}
	| NONASSOC	{: RESULT = "nonassoc"; :}
	| error
	{:
		ErrorManager.getManager().emit_error("Illegal use of reserved word");
		RESULT="ILLEGAL";
	:}
	;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

non_terminal ::= NON TERMINAL | NONTERMINAL;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

opt_semi ::= /* nothing */
	| SEMI;

/*. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . */ 

empty ::= /* nothing */;

/*----------------------------------------------------------------*/ 













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