lua.stx - external/github.com/lua/lua - Git at Google

 %{

 char *rcs_luastx = "$Id: lua.stx,v 3.39 1996/09/24 17:29:50 roberto Exp roberto $";

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include "luadebug.h"
 #include "mem.h"
 #include "lex.h"
 #include "opcode.h"
 #include "hash.h"
 #include "inout.h"
 #include "tree.h"
 #include "table.h"
 #include "lua.h"
 #include "func.h"

 /* to avoid warnings generated by yacc */
 int yyparse (void);
 #define malloc luaI_malloc
 #define realloc luaI_realloc
 #define free luaI_free

 #ifndef LISTING
 #define LISTING 0
 #endif

 #ifndef CODE_BLOCK
 #define CODE_BLOCK 256
 #endif
 static int   maxcode;
 static int   maxmain;
 static int   maxcurr;
 static Byte  *funcCode = NULL;
 static Byte **initcode;
 static Byte  *basepc;
 static int   maincode;
 static int   pc;


 #define MAXVAR 32
 static Long    varbuffer[MAXVAR];    /* variables in an assignment list;
 				it's long to store negative Word values */
 static int     nvarbuffer=0;	     /* number of variables at a list */

 #define MAXLOCALS 32
 static TaggedString *localvar[MAXLOCALS];  /* store local variable names */
 static int     nlocalvar=0;	     /* number of local variables */

 #define MAXFIELDS FIELDS_PER_FLUSH*2
 static Word    fields[MAXFIELDS];     /* fieldnames to be flushed */
 static int     nfields=0;

 int lua_debug = 0;

 /* Internal functions */

 static void yyerror (char *s)
 {
  char msg[256];
  char *token = lua_lasttext();
  if (token[0] == 0)
    token = "<eof>";
  sprintf (msg,"%s; last token read: \"%s\" at line %d in file `%s'",
           s, token, lua_linenumber, lua_parsedfile);
  lua_error (msg);
 }

 static void check_space (int i)
 {
   if (pc+i>maxcurr-1)  /* 1 byte free to code HALT of main code */
     maxcurr = growvector(&basepc, maxcurr, Byte, codeEM, MAX_INT);
 }

 static void code_byte (Byte c)
 {
  check_space(1);
  basepc[pc++] = c;
 }

 static void code_word (Word n)
 {
   check_space(sizeof(Word));
   memcpy(basepc+pc, &n, sizeof(Word));
   pc += sizeof(Word);
 }

 static void code_float (real n)
 {
   check_space(sizeof(real));
   memcpy(basepc+pc, &n, sizeof(real));
   pc += sizeof(real);
 }

 static void code_code (TFunc *tf)
 {
   check_space(sizeof(TFunc *));
   memcpy(basepc+pc, &tf, sizeof(TFunc *));
   pc += sizeof(TFunc *);
 }

 static void code_word_at (Byte *p, int n)
 {
   Word w = n;
   if (w != n)
     yyerror("block too big");
   memcpy(p, &w, sizeof(Word));
 }

 static void push_field (Word name)
 {
   if (nfields < MAXFIELDS)
     fields[nfields++] = name;
   else
    yyerror ("too many fields in nested constructors");
 }

 static void flush_record (int n)
 {
   int i;
   if (n == 0) return;
   code_byte(STORERECORD);
   code_byte(n);
   for (i=0; i<n; i++)
     code_word(fields[--nfields]);
 }

 static void flush_list (int m, int n)
 {
   if (n == 0) return;
   if (m == 0)
     code_byte(STORELIST0);
   else
   if (m < 255)
   {
     code_byte(STORELIST);
     code_byte(m);
   }
   else
    yyerror ("list constructor too long");
   code_byte(n);
 }

 static void store_localvar (TaggedString *name, int n)
 {
  if (nlocalvar+n < MAXLOCALS)
   localvar[nlocalvar+n] = name;
  else
   yyerror ("too many local variables");
  if (lua_debug)
    luaI_registerlocalvar(name, lua_linenumber);
 }

 static void add_localvar (TaggedString *name)
 {
   store_localvar(name, 0);
   nlocalvar++;
 }

 static void add_varbuffer (Long var)
 {
  if (nvarbuffer < MAXVAR)
   varbuffer[nvarbuffer++] = var;
  else
   yyerror ("variable buffer overflow");
 }

 static void code_number (float f)
 {
   Word i = (Word)f;
   if (f == (float)i)  /* f has an (short) integer value */
   {
    if (i <= 2) code_byte(PUSH0 + i);
    else if (i <= 255)
    {
     code_byte(PUSHBYTE);
     code_byte(i);
    }
    else
    {
     code_byte(PUSHWORD);
     code_word(i);
    }
   }
   else
   {
    code_byte(PUSHFLOAT);
    code_float(f);
   }
 }

 /*
 ** Search a local name and if find return its index. If do not find return -1
 */
 static int lua_localname (TaggedString *n)
 {
  int i;
  for (i=nlocalvar-1; i >= 0; i--)
   if (n == localvar[i]) return i;	/* local var */
  return -1;		        /* global var */
 }

 /*
 ** Push a variable given a number. If number is positive, push global variable
 ** indexed by (number -1). If negative, push local indexed by ABS(number)-1.
 ** Otherwise, if zero, push indexed variable (record).
 */
 static void lua_pushvar (Long number)
 {
  if (number > 0)	/* global var */
  {
   code_byte(PUSHGLOBAL);
   code_word(number-1);
  }
  else if (number < 0)	/* local var */
  {
   number = (-number) - 1;
   if (number < 10) code_byte(PUSHLOCAL0 + number);
   else
   {
    code_byte(PUSHLOCAL);
    code_byte(number);
   }
  }
  else
  {
   code_byte(PUSHINDEXED);
  }
 }

 static void lua_codeadjust (int n)
 {
  if (n+nlocalvar == 0)
    code_byte(ADJUST0);
  else
  {
    code_byte(ADJUST);
    code_byte(n+nlocalvar);
  }
 }

 static void change2main (void)
 {
   /* (re)store main values */
   pc=maincode; basepc=*initcode; maxcurr=maxmain;
   nlocalvar=0;
 }

 static void savemain (void)
 {
   /* save main values */
   maincode=pc; *initcode=basepc; maxmain=maxcurr;
 }

 static void init_func (void)
 {
   if (funcCode == NULL)	/* first function */
   {
    funcCode = newvector(CODE_BLOCK, Byte);
    maxcode = CODE_BLOCK;
   }
   savemain();  /* save main values */
   /* set func values */
   pc=0; basepc=funcCode; maxcurr=maxcode;
   nlocalvar = 0;
   luaI_codedebugline(lua_linenumber);
 }

 static void codereturn (void)
 {
   if (nlocalvar == 0)
     code_byte(RETCODE0);
   else
   {
     code_byte(RETCODE);
     code_byte(nlocalvar);
   }
 }

 void luaI_codedebugline (int line)
 {
   static int lastline = 0;
   if (lua_debug && line != lastline)
   {
     code_byte(SETLINE);
     code_word(line);
     lastline = line;
   }
 }

 static int adjust_functioncall (Long exp, int i)
 {
   if (exp <= 0)
     return -exp; /* exp is -list length */
   else
   {
     int temp = basepc[exp];
     basepc[exp] = i;
     return temp+i;
   }
 }

 static void adjust_mult_assign (int vars, Long exps, int temps)
 {
   if (exps > 0)
   { /* must correct function call */
     int diff = vars - basepc[exps];
     if (diff >= 0)
       adjust_functioncall(exps, diff);
     else
     {
       adjust_functioncall(exps, 0);
       lua_codeadjust(temps);
     }
   }
   else if (vars != -exps)
     lua_codeadjust(temps);
 }

 static int close_parlist (int dots)
 {
   if (!dots)
     lua_codeadjust(0);
   else
   {
     code_byte(VARARGS);
     code_byte(nlocalvar);
     add_localvar(luaI_createfixedstring("arg"));
   }
   return lua_linenumber;
 }

 static void storesinglevar (Long v)
 {
  if (v > 0)		/* global var */
  {
    code_byte(STOREGLOBAL);
    code_word(v-1);
  }
  else if (v < 0)      /* local var */
  {
    int number = (-v) - 1;
    if (number < 10) code_byte(STORELOCAL0 + number);
    else
    {
      code_byte(STORELOCAL);
      code_byte(number);
    }
  }
  else
    code_byte(STOREINDEXED0);
 }

 static void lua_codestore (int i)
 {
  if (varbuffer[i] != 0)  /* global or local var */
   storesinglevar(varbuffer[i]);
  else				  /* indexed var */
  {
   int j;
   int upper=0;     	/* number of indexed variables upper */
   int param;		/* number of itens until indexed expression */
   for (j=i+1; j <nvarbuffer; j++)
    if (varbuffer[j] == 0) upper++;
   param = upper*2 + i;
   if (param == 0)
    code_byte(STOREINDEXED0);
   else
   {
    code_byte(STOREINDEXED);
    code_byte(param);
   }
  }
 }

 static void codeIf (Long thenAdd, Long elseAdd)
 {
   Long elseinit = elseAdd+sizeof(Word)+1;
   if (pc == elseinit)		/* no else */
   {
     pc -= sizeof(Word)+1;
     elseinit = pc;
   }
   else
   {
     basepc[elseAdd] = JMP;
     code_word_at(basepc+elseAdd+1, pc-elseinit);
   }
   basepc[thenAdd] = IFFJMP;
   code_word_at(basepc+thenAdd+1,elseinit-(thenAdd+sizeof(Word)+1));
 }


 /*
 ** Parse LUA code.
 */
 void lua_parse (TFunc *tf)
 {
  initcode = &(tf->code);
  *initcode = newvector(CODE_BLOCK, Byte);
  maincode = 0;
  maxmain = CODE_BLOCK;
  change2main();
  if (yyparse ()) lua_error("parse error");
  savemain();
  (*initcode)[maincode++] = RETCODE0;
  tf->size = maincode;
 #if LISTING
 { static void PrintCode (Byte *c, Byte *end);
  PrintCode(*initcode,*initcode+maincode); }
 #endif
 }


 %}


 %union
 {
  int   vInt;
  float vFloat;
  char *pChar;
  Word  vWord;
  Long  vLong;
  TFunc *pFunc;
  TaggedString *pTStr;
 }

 %start chunk

 %token WRONGTOKEN
 %token NIL
 %token IF THEN ELSE ELSEIF WHILE DO REPEAT UNTIL END
 %token RETURN
 %token LOCAL
 %token FUNCTION
 %token DOTS
 %token <vFloat> NUMBER
 %token <vWord>  STRING
 %token <pTStr>  NAME

 %type <vLong> PrepJump
 %type <vLong> exprlist, exprlist1  /* if > 0, points to function return
 	counter (which has list length); if <= 0, -list lenght */
 %type <vLong> functioncall, expr  /* if != 0, points to function return
 					 counter */
 %type <vInt>  varlist1, funcParams, funcvalue
 %type <vInt>  fieldlist, localdeclist, decinit
 %type <vInt>  ffieldlist, ffieldlist1, semicolonpart
 %type <vInt>  lfieldlist, lfieldlist1
 %type <vInt>  parlist, parlist1, par
 %type <vLong> var, singlevar, funcname
 %type <pFunc> body

 %left AND OR
 %left EQ NE '>' '<' LE GE
 %left CONC
 %left '+' '-'
 %left '*' '/'
 %left UNARY NOT
 %right '^'


 %% /* beginning of rules section */

 chunk	: chunklist ret

 chunklist : /* empty */
 	  | chunklist stat sc
 	  | chunklist function
 	  ;

 function     : FUNCTION funcname body
 	       {
 		code_byte(PUSHFUNCTION);
 		code_code($3);
 		storesinglevar($2);
 	       }
 	       ;

 funcname	: var { $$ =$1; init_func(); }
 		| varexp ':' NAME
 	{
 	  code_byte(PUSHSTRING);
 	  code_word(luaI_findconstant($3));
 	  $$ = 0;  /* indexed variable */
 	  init_func();
 	  add_localvar(luaI_createfixedstring("self"));
 	}
 		;

 body :  '(' parlist ')' block END
 	{
           codereturn();
 	  $$ = new(TFunc);
           luaI_initTFunc($$);
 	  $$->size = pc;
 	  $$->code = newvector(pc, Byte);
 	  $$->fileName = lua_parsedfile;
 	  $$->lineDefined = $2;
 	  memcpy($$->code, basepc, pc*sizeof(Byte));
           if (lua_debug)
             luaI_closelocalvars($$);
 	  /* save func values */
 	  funcCode = basepc; maxcode=maxcurr;
 #if LISTING
                 PrintCode(funcCode,funcCode+pc);
 #endif
 	  change2main();  /* change back to main code */
 	}
 		;

 statlist : /* empty */
 	 | statlist stat sc
 	 ;

 sc	 : /* empty */ | ';' ;

 stat   : IF expr1 THEN PrepJump block PrepJump elsepart END
 	{ codeIf($4, $6); }

        | WHILE {$<vLong>$=pc;} expr1 DO PrepJump block PrepJump END
        {
         basepc[$5] = IFFJMP;
 	code_word_at(basepc+$5+1, pc - ($5 + sizeof(Word)+1));
         basepc[$7] = UPJMP;
 	code_word_at(basepc+$7+1, pc - ($<vLong>2));
        }

        | REPEAT {$<vLong>$=pc;} block UNTIL expr1 PrepJump
        {
         basepc[$6] = IFFUPJMP;
 	code_word_at(basepc+$6+1, pc - ($<vLong>2));
        }

        | varlist1 '=' exprlist1
        {
         {
          int i;
          adjust_mult_assign(nvarbuffer, $3, $1 * 2 + nvarbuffer);
 	 for (i=nvarbuffer-1; i>=0; i--)
 	  lua_codestore (i);
 	 if ($1 > 1 || ($1 == 1 && varbuffer[0] != 0))
 	  lua_codeadjust (0);
 	}
        }
        | functioncall
        | LOCAL localdeclist decinit
 	{ nlocalvar += $2;
 	  adjust_mult_assign($2, $3, 0);
 	}
        ;

 elsepart : /* empty */
 	 | ELSE block
          | ELSEIF expr1 THEN PrepJump block PrepJump elsepart
 	{ codeIf($4, $6); }
          ;

 block    : {$<vInt>$ = nlocalvar;} statlist ret
          {
 	  if (nlocalvar != $<vInt>1)
 	  {
            if (lua_debug)
              for (; nlocalvar > $<vInt>1; nlocalvar--)
                luaI_unregisterlocalvar(lua_linenumber);
            else
              nlocalvar = $<vInt>1;
 	   lua_codeadjust (0);
 	  }
          }
          ;

 ret	: /* empty */
         | RETURN exprlist sc
           {
 	   adjust_functioncall($2, MULT_RET);
            codereturn();
           }
 	;

 PrepJump : /* empty */
 	 {
 	  $$ = pc;
 	  code_byte(0);		/* open space */
 	  code_word (0);
          }
 	 ;

 expr1	 : expr { adjust_functioncall($1, 1); }
 	 ;

 expr :  '(' expr ')'  { $$ = $2; }
      |  expr1 EQ  expr1	{ code_byte(EQOP);   $$ = 0; }
      |	expr1 '<' expr1	{ code_byte(LTOP);   $$ = 0; }
      |	expr1 '>' expr1	{ code_byte(GTOP);   $$ = 0; }
      |	expr1 NE  expr1	{ code_byte(EQOP); code_byte(NOTOP); $$ = 0; }
      |	expr1 LE  expr1	{ code_byte(LEOP);   $$ = 0; }
      |	expr1 GE  expr1	{ code_byte(GEOP);   $$ = 0; }
      |	expr1 '+' expr1 { code_byte(ADDOP);  $$ = 0; }
      |	expr1 '-' expr1 { code_byte(SUBOP);  $$ = 0; }
      |	expr1 '*' expr1 { code_byte(MULTOP); $$ = 0; }
      |	expr1 '/' expr1 { code_byte(DIVOP);  $$ = 0; }
      |	expr1 '^' expr1 { code_byte(POWOP);  $$ = 0; }
      |	expr1 CONC expr1 { code_byte(CONCOP);  $$ = 0; }
      |	'-' expr1 %prec UNARY	{ code_byte(MINUSOP); $$ = 0;}
      | table { $$ = 0; }
      |  varexp          { $$ = 0;}
      |  NUMBER          { code_number($1); $$ = 0; }
      |  STRING
      {
       code_byte(PUSHSTRING);
       code_word($1);
       $$ = 0;
      }
      |	NIL		{code_byte(PUSHNIL); $$ = 0; }
      |  functioncall    { $$ = $1; }
      |	NOT expr1	{ code_byte(NOTOP);  $$ = 0;}
      |	expr1 AND PrepJump {code_byte(POP); } expr1
      {
       basepc[$3] = ONFJMP;
       code_word_at(basepc+$3+1, pc - ($3 + sizeof(Word)+1));
       $$ = 0;
      }
      |	expr1 OR PrepJump {code_byte(POP); } expr1
      {
       basepc[$3] = ONTJMP;
       code_word_at(basepc+$3+1, pc - ($3 + sizeof(Word)+1));
       $$ = 0;
      }
      ;

 table :
      {
       code_byte(CREATEARRAY);
       $<vLong>$ = pc; code_word(0);
      }
       '{' fieldlist '}'
      {
       code_word_at(basepc+$<vLong>1, $3);
      }
          ;

 functioncall : funcvalue funcParams
 	{
 	  code_byte(CALLFUNC);
 	  code_byte($1+$2);
 	  $$ = pc;
 	  code_byte(0);  /* may be modified by other rules */
 	}
 	     ;

 funcvalue    : varexp { $$ = 0; }
 	     | varexp ':' NAME
 	     {
                code_byte(PUSHSELF);
 	       code_word(luaI_findconstant($3));
                $$ = 1;
 	     }
 	     ;

 funcParams :	'(' exprlist ')'
 	{ $$ = adjust_functioncall($2, 1); }
 	|	table  { $$ = 1; }
 	;

 exprlist  :	/* empty */		{ $$ = 0; }
 	  |	exprlist1		{ $$ = $1; }
 	  ;

 exprlist1 :  expr	{ if ($1 != 0) $$ = $1; else $$ = -1; }
 	  |  exprlist1 ',' { $<vLong>$ = adjust_functioncall($1, 1); } expr
 	{
 	  if ($4 == 0) $$ = -($<vLong>3 + 1);  /* -length */
 	  else
 	  {
 	    adjust_functioncall($4, $<vLong>3);
 	    $$ = $4;
 	  }
 	}
 	  ;

 parlist  :	/* empty */ { $$ = close_parlist(0); }
 	  |	parlist1    { $$ = close_parlist($1); }
 	  ;

 parlist1 :	par		  { $$ = $1; }
 	  |	parlist1 ',' par
 	{
 	  if ($1)
             lua_error("invalid parameter list");
           $$ = $3;
 	}
 	  ;

 par : NAME	{ add_localvar($1); $$ = 0; }
     | DOTS	{ $$ = 1; }
     ;

 fieldlist  : lfieldlist
   	     { flush_list($1/FIELDS_PER_FLUSH, $1%FIELDS_PER_FLUSH); }
 	     semicolonpart
 	     { $$ = $1+$3; }
 	   | ffieldlist1 lastcomma
 	     { $$ = $1; flush_record($1%FIELDS_PER_FLUSH); }
 	   ;

 semicolonpart : /* empty */
 	        { $$ = 0; }
 	      | ';' ffieldlist
 	        { $$ = $2; flush_record($2%FIELDS_PER_FLUSH); }
 	      ;

 lastcomma  : /* empty */
 	   | ','
 	   ;

 ffieldlist  : /* empty */ { $$ = 0; }
             | ffieldlist1 lastcomma { $$ = $1; }
             ;

 ffieldlist1 : ffield			{$$=1;}
 	   | ffieldlist1 ',' ffield
 		{
 		  $$=$1+1;
 		  if ($$%FIELDS_PER_FLUSH == 0) flush_record(FIELDS_PER_FLUSH);
 		}
 	   ;

 ffield      : NAME '=' expr1
 	      {
 	       push_field(luaI_findconstant($1));
 	      }
            ;

 lfieldlist  : /* empty */ { $$ = 0; }
 	    | lfieldlist1 lastcomma { $$ = $1; }
 	    ;

 lfieldlist1 : expr1  {$$=1;}
 	    | lfieldlist1 ',' expr1
 		{
 		  $$=$1+1;
 		  if ($$%FIELDS_PER_FLUSH == 0)
 		    flush_list($$/FIELDS_PER_FLUSH - 1, FIELDS_PER_FLUSH);
 		}
             ;

 varlist1  :	var
 	  {
 	   nvarbuffer = 0;
 	   add_varbuffer($1);
 	   $$ = ($1 == 0) ? 1 : 0;
 	  }
 	  |	varlist1 ',' var
 	  {
 	   add_varbuffer($3);
 	   $$ = ($3 == 0) ? $1 + 1 : $1;
 	  }
 	  ;

 var	  :	singlevar { $$ = $1; }
 	  |	varexp '[' expr1 ']'
 	  {
 	   $$ = 0;		/* indexed variable */
 	  }
 	  |	varexp '.' NAME
 	  {
 	   code_byte(PUSHSTRING);
 	   code_word(luaI_findconstant($3));
 	   $$ = 0;		/* indexed variable */
 	  }
 	  ;

 singlevar :	NAME
 	  {
 	   int local = lua_localname($1);
 	   if (local == -1)	/* global var */
 	    $$ = luaI_findsymbol($1)+1;  /* return positive value */
            else
 	    $$ = -(local+1);		/* return negative value */
 	  }
 	  ;

 varexp	: var { lua_pushvar($1); }
 	;

 localdeclist  : NAME {store_localvar($1, 0); $$ = 1;}
      	  | localdeclist ',' NAME
 	    {
 	     store_localvar($3, $1);
 	     $$ = $1+1;
 	    }
 	  ;

 decinit	  : /* empty */  { $$ = 0; }
 	  | '=' exprlist1 { $$ = $2; }
 	  ;

 %%
	%{

	char *rcs_luastx = "$Id: lua.stx,v 3.39 1996/09/24 17:29:50 roberto Exp roberto $";

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include "luadebug.h"
	#include "mem.h"
	#include "lex.h"
	#include "opcode.h"
	#include "hash.h"
	#include "inout.h"
	#include "tree.h"
	#include "table.h"
	#include "lua.h"
	#include "func.h"

	/* to avoid warnings generated by yacc */
	int yyparse (void);
	#define malloc luaI_malloc
	#define realloc luaI_realloc
	#define free luaI_free

	#ifndef LISTING
	#define LISTING 0
	#endif

	#ifndef CODE_BLOCK
	#define CODE_BLOCK 256
	#endif
	static int maxcode;
	static int maxmain;
	static int maxcurr;
	static Byte *funcCode = NULL;
	static Byte **initcode;
	static Byte *basepc;
	static int maincode;
	static int pc;


	#define MAXVAR 32
	static Long varbuffer[MAXVAR]; /* variables in an assignment list;
	it's long to store negative Word values */
	static int nvarbuffer=0; /* number of variables at a list */

	#define MAXLOCALS 32
	static TaggedString localvar[MAXLOCALS]; / store local variable names */
	static int nlocalvar=0; /* number of local variables */

	#define MAXFIELDS FIELDS_PER_FLUSH*2
	static Word fields[MAXFIELDS]; /* fieldnames to be flushed */
	static int nfields=0;

	int lua_debug = 0;

	/* Internal functions */

	static void yyerror (char *s)
	{
	char msg[256];
	char *token = lua_lasttext();
	if (token[0] == 0)
	token = "<eof>";
	sprintf (msg,"%s; last token read: \"%s\" at line %d in file `%s'",
	s, token, lua_linenumber, lua_parsedfile);
	lua_error (msg);
	}

	static void check_space (int i)
	{
	if (pc+i>maxcurr-1) /* 1 byte free to code HALT of main code */
	maxcurr = growvector(&basepc, maxcurr, Byte, codeEM, MAX_INT);
	}

	static void code_byte (Byte c)
	{
	check_space(1);
	basepc[pc++] = c;
	}

	static void code_word (Word n)
	{
	check_space(sizeof(Word));
	memcpy(basepc+pc, &n, sizeof(Word));
	pc += sizeof(Word);
	}

	static void code_float (real n)
	{
	check_space(sizeof(real));
	memcpy(basepc+pc, &n, sizeof(real));
	pc += sizeof(real);
	}

	static void code_code (TFunc *tf)
	{
	check_space(sizeof(TFunc *));
	memcpy(basepc+pc, &tf, sizeof(TFunc *));
	pc += sizeof(TFunc *);
	}

	static void code_word_at (Byte *p, int n)
	{
	Word w = n;
	if (w != n)
	yyerror("block too big");
	memcpy(p, &w, sizeof(Word));
	}

	static void push_field (Word name)
	{
	if (nfields < MAXFIELDS)
	fields[nfields++] = name;
	else
	yyerror ("too many fields in nested constructors");
	}

	static void flush_record (int n)
	{
	int i;
	if (n == 0) return;
	code_byte(STORERECORD);
	code_byte(n);
	for (i=0; i<n; i++)
	code_word(fields[--nfields]);
	}

	static void flush_list (int m, int n)
	{
	if (n == 0) return;
	if (m == 0)
	code_byte(STORELIST0);
	else
	if (m < 255)
	{
	code_byte(STORELIST);
	code_byte(m);
	}
	else
	yyerror ("list constructor too long");
	code_byte(n);
	}

	static void store_localvar (TaggedString *name, int n)
	{
	if (nlocalvar+n < MAXLOCALS)
	localvar[nlocalvar+n] = name;
	else
	yyerror ("too many local variables");
	if (lua_debug)
	luaI_registerlocalvar(name, lua_linenumber);
	}

	static void add_localvar (TaggedString *name)
	{
	store_localvar(name, 0);
	nlocalvar++;
	}

	static void add_varbuffer (Long var)
	{
	if (nvarbuffer < MAXVAR)
	varbuffer[nvarbuffer++] = var;
	else
	yyerror ("variable buffer overflow");
	}

	static void code_number (float f)
	{
	Word i = (Word)f;
	if (f == (float)i) /* f has an (short) integer value */
	{
	if (i <= 2) code_byte(PUSH0 + i);
	else if (i <= 255)
	{
	code_byte(PUSHBYTE);
	code_byte(i);
	}
	else
	{
	code_byte(PUSHWORD);
	code_word(i);
	}
	}
	else
	{
	code_byte(PUSHFLOAT);
	code_float(f);
	}
	}

	/*
	** Search a local name and if find return its index. If do not find return -1
	*/
	static int lua_localname (TaggedString *n)
	{
	int i;
	for (i=nlocalvar-1; i >= 0; i--)
	if (n == localvar[i]) return i; /* local var */
	return -1; /* global var */
	}

	/*
	** Push a variable given a number. If number is positive, push global variable
	** indexed by (number -1). If negative, push local indexed by ABS(number)-1.
	** Otherwise, if zero, push indexed variable (record).
	*/
	static void lua_pushvar (Long number)
	{
	if (number > 0) /* global var */
	{
	code_byte(PUSHGLOBAL);
	code_word(number-1);
	}
	else if (number < 0) /* local var */
	{
	number = (-number) - 1;
	if (number < 10) code_byte(PUSHLOCAL0 + number);
	else
	{
	code_byte(PUSHLOCAL);
	code_byte(number);
	}
	}
	else
	{
	code_byte(PUSHINDEXED);
	}
	}

	static void lua_codeadjust (int n)
	{
	if (n+nlocalvar == 0)
	code_byte(ADJUST0);
	else
	{
	code_byte(ADJUST);
	code_byte(n+nlocalvar);
	}
	}

	static void change2main (void)
	{
	/* (re)store main values */
	pc=maincode; basepc=*initcode; maxcurr=maxmain;
	nlocalvar=0;
	}

	static void savemain (void)
	{
	/* save main values */
	maincode=pc; *initcode=basepc; maxmain=maxcurr;
	}

	static void init_func (void)
	{
	if (funcCode == NULL) /* first function */
	{
	funcCode = newvector(CODE_BLOCK, Byte);
	maxcode = CODE_BLOCK;
	}
	savemain(); /* save main values */
	/* set func values */
	pc=0; basepc=funcCode; maxcurr=maxcode;
	nlocalvar = 0;
	luaI_codedebugline(lua_linenumber);
	}

	static void codereturn (void)
	{
	if (nlocalvar == 0)
	code_byte(RETCODE0);
	else
	{
	code_byte(RETCODE);
	code_byte(nlocalvar);
	}
	}

	void luaI_codedebugline (int line)
	{
	static int lastline = 0;
	if (lua_debug && line != lastline)
	{
	code_byte(SETLINE);
	code_word(line);
	lastline = line;
	}
	}

	static int adjust_functioncall (Long exp, int i)
	{
	if (exp <= 0)
	return -exp; /* exp is -list length */
	else
	{
	int temp = basepc[exp];
	basepc[exp] = i;
	return temp+i;
	}
	}

	static void adjust_mult_assign (int vars, Long exps, int temps)
	{
	if (exps > 0)
	{ /* must correct function call */
	int diff = vars - basepc[exps];
	if (diff >= 0)
	adjust_functioncall(exps, diff);
	else
	{
	adjust_functioncall(exps, 0);
	lua_codeadjust(temps);
	}
	}
	else if (vars != -exps)
	lua_codeadjust(temps);
	}

	static int close_parlist (int dots)
	{
	if (!dots)
	lua_codeadjust(0);
	else
	{
	code_byte(VARARGS);
	code_byte(nlocalvar);
	add_localvar(luaI_createfixedstring("arg"));
	}
	return lua_linenumber;
	}

	static void storesinglevar (Long v)
	{
	if (v > 0) /* global var */
	{
	code_byte(STOREGLOBAL);
	code_word(v-1);
	}
	else if (v < 0) /* local var */
	{
	int number = (-v) - 1;
	if (number < 10) code_byte(STORELOCAL0 + number);
	else
	{
	code_byte(STORELOCAL);
	code_byte(number);
	}
	}
	else
	code_byte(STOREINDEXED0);
	}

	static void lua_codestore (int i)
	{
	if (varbuffer[i] != 0) /* global or local var */
	storesinglevar(varbuffer[i]);
	else /* indexed var */
	{
	int j;
	int upper=0; /* number of indexed variables upper */
	int param; /* number of itens until indexed expression */
	for (j=i+1; j <nvarbuffer; j++)
	if (varbuffer[j] == 0) upper++;
	param = upper*2 + i;
	if (param == 0)
	code_byte(STOREINDEXED0);
	else
	{
	code_byte(STOREINDEXED);
	code_byte(param);
	}
	}
	}

	static void codeIf (Long thenAdd, Long elseAdd)
	{
	Long elseinit = elseAdd+sizeof(Word)+1;
	if (pc == elseinit) /* no else */
	{
	pc -= sizeof(Word)+1;
	elseinit = pc;
	}
	else
	{
	basepc[elseAdd] = JMP;
	code_word_at(basepc+elseAdd+1, pc-elseinit);
	}
	basepc[thenAdd] = IFFJMP;
	code_word_at(basepc+thenAdd+1,elseinit-(thenAdd+sizeof(Word)+1));
	}


	/*
	** Parse LUA code.
	*/
	void lua_parse (TFunc *tf)
	{
	initcode = &(tf->code);
	*initcode = newvector(CODE_BLOCK, Byte);
	maincode = 0;
	maxmain = CODE_BLOCK;
	change2main();
	if (yyparse ()) lua_error("parse error");
	savemain();
	(*initcode)[maincode++] = RETCODE0;
	tf->size = maincode;
	#if LISTING
	{ static void PrintCode (Byte c, Byte end);
	PrintCode(initcode,initcode+maincode); }
	#endif
	}


	%}


	%union
	{
	int vInt;
	float vFloat;
	char *pChar;
	Word vWord;
	Long vLong;
	TFunc *pFunc;
	TaggedString *pTStr;
	}

	%start chunk

	%token WRONGTOKEN
	%token NIL
	%token IF THEN ELSE ELSEIF WHILE DO REPEAT UNTIL END
	%token RETURN
	%token LOCAL
	%token FUNCTION
	%token DOTS
	%token <vFloat> NUMBER
	%token <vWord> STRING
	%token <pTStr> NAME

	%type <vLong> PrepJump
	%type <vLong> exprlist, exprlist1 /* if > 0, points to function return
	counter (which has list length); if <= 0, -list lenght */
	%type <vLong> functioncall, expr /* if != 0, points to function return
	counter */
	%type <vInt> varlist1, funcParams, funcvalue
	%type <vInt> fieldlist, localdeclist, decinit
	%type <vInt> ffieldlist, ffieldlist1, semicolonpart
	%type <vInt> lfieldlist, lfieldlist1
	%type <vInt> parlist, parlist1, par
	%type <vLong> var, singlevar, funcname
	%type <pFunc> body

	%left AND OR
	%left EQ NE '>' '<' LE GE
	%left CONC
	%left '+' '-'
	%left '*' '/'
	%left UNARY NOT
	%right '^'


	%% /* beginning of rules section */

	chunk : chunklist ret

	chunklist : /* empty */
	\| chunklist stat sc
	\| chunklist function
	;

	function : FUNCTION funcname body
	{
	code_byte(PUSHFUNCTION);
	code_code($3);
	storesinglevar($2);
	}
	;

	funcname : var { $$ =$1; init_func(); }
	\| varexp ':' NAME
	{
	code_byte(PUSHSTRING);
	code_word(luaI_findconstant($3));
	$$ = 0; /* indexed variable */
	init_func();
	add_localvar(luaI_createfixedstring("self"));
	}
	;

	body : '(' parlist ')' block END
	{
	codereturn();
	$$ = new(TFunc);
	luaI_initTFunc($$);
	$$->size = pc;
	$$->code = newvector(pc, Byte);
	$$->fileName = lua_parsedfile;
	$$->lineDefined = $2;
	memcpy($$->code, basepc, pc*sizeof(Byte));
	if (lua_debug)
	luaI_closelocalvars($$);
	/* save func values */
	funcCode = basepc; maxcode=maxcurr;
	#if LISTING
	PrintCode(funcCode,funcCode+pc);
	#endif
	change2main(); /* change back to main code */
	}
	;

	statlist : /* empty */
	\| statlist stat sc
	;

	sc : /* empty */ \| ';' ;

	stat : IF expr1 THEN PrepJump block PrepJump elsepart END
	{ codeIf($4, $6); }

	\| WHILE {$<vLong>$=pc;} expr1 DO PrepJump block PrepJump END
	{
	basepc[$5] = IFFJMP;
	code_word_at(basepc+$5+1, pc - ($5 + sizeof(Word)+1));
	basepc[$7] = UPJMP;
	code_word_at(basepc+$7+1, pc - ($<vLong>2));
	}

	\| REPEAT {$<vLong>$=pc;} block UNTIL expr1 PrepJump
	{
	basepc[$6] = IFFUPJMP;
	code_word_at(basepc+$6+1, pc - ($<vLong>2));
	}

	\| varlist1 '=' exprlist1
	{
	{
	int i;
	adjust_mult_assign(nvarbuffer, $3, $1 * 2 + nvarbuffer);
	for (i=nvarbuffer-1; i>=0; i--)
	lua_codestore (i);
	if ($1 > 1 \|\| ($1 == 1 && varbuffer[0] != 0))
	lua_codeadjust (0);
	}
	}
	\| functioncall
	\| LOCAL localdeclist decinit
	{ nlocalvar += $2;
	adjust_mult_assign($2, $3, 0);
	}
	;

	elsepart : /* empty */
	\| ELSE block
	\| ELSEIF expr1 THEN PrepJump block PrepJump elsepart
	{ codeIf($4, $6); }
	;

	block : {$<vInt>$ = nlocalvar;} statlist ret
	{
	if (nlocalvar != $<vInt>1)
	{
	if (lua_debug)
	for (; nlocalvar > $<vInt>1; nlocalvar--)
	luaI_unregisterlocalvar(lua_linenumber);
	else
	nlocalvar = $<vInt>1;
	lua_codeadjust (0);
	}
	}
	;

	ret : /* empty */
	\| RETURN exprlist sc
	{
	adjust_functioncall($2, MULT_RET);
	codereturn();
	}
	;

	PrepJump : /* empty */
	{
	$$ = pc;
	code_byte(0); /* open space */
	code_word (0);
	}
	;

	expr1 : expr { adjust_functioncall($1, 1); }
	;

	expr : '(' expr ')' { $$ = $2; }
	\| expr1 EQ expr1 { code_byte(EQOP); $$ = 0; }
	\| expr1 '<' expr1 { code_byte(LTOP); $$ = 0; }
	\| expr1 '>' expr1 { code_byte(GTOP); $$ = 0; }
	\| expr1 NE expr1 { code_byte(EQOP); code_byte(NOTOP); $$ = 0; }
	\| expr1 LE expr1 { code_byte(LEOP); $$ = 0; }
	\| expr1 GE expr1 { code_byte(GEOP); $$ = 0; }
	\| expr1 '+' expr1 { code_byte(ADDOP); $$ = 0; }
	\| expr1 '-' expr1 { code_byte(SUBOP); $$ = 0; }
	\| expr1 '*' expr1 { code_byte(MULTOP); $$ = 0; }
	\| expr1 '/' expr1 { code_byte(DIVOP); $$ = 0; }
	\| expr1 '^' expr1 { code_byte(POWOP); $$ = 0; }
	\| expr1 CONC expr1 { code_byte(CONCOP); $$ = 0; }
	\| '-' expr1 %prec UNARY { code_byte(MINUSOP); $$ = 0;}
	\| table { $$ = 0; }
	\| varexp { $$ = 0;}
	\| NUMBER { code_number($1); $$ = 0; }
	\| STRING
	{
	code_byte(PUSHSTRING);
	code_word($1);
	$$ = 0;
	}
	\| NIL {code_byte(PUSHNIL); $$ = 0; }
	\| functioncall { $$ = $1; }
	\| NOT expr1 { code_byte(NOTOP); $$ = 0;}
	\| expr1 AND PrepJump {code_byte(POP); } expr1
	{
	basepc[$3] = ONFJMP;
	code_word_at(basepc+$3+1, pc - ($3 + sizeof(Word)+1));
	$$ = 0;
	}
	\| expr1 OR PrepJump {code_byte(POP); } expr1
	{
	basepc[$3] = ONTJMP;
	code_word_at(basepc+$3+1, pc - ($3 + sizeof(Word)+1));
	$$ = 0;
	}
	;

	table :
	{
	code_byte(CREATEARRAY);
	$<vLong>$ = pc; code_word(0);
	}
	'{' fieldlist '}'
	{
	code_word_at(basepc+$<vLong>1, $3);
	}
	;

	functioncall : funcvalue funcParams
	{
	code_byte(CALLFUNC);
	code_byte($1+$2);
	$$ = pc;
	code_byte(0); /* may be modified by other rules */
	}
	;

	funcvalue : varexp { $$ = 0; }
	\| varexp ':' NAME
	{
	code_byte(PUSHSELF);
	code_word(luaI_findconstant($3));
	$$ = 1;
	}
	;

	funcParams : '(' exprlist ')'
	{ $$ = adjust_functioncall($2, 1); }
	\| table { $$ = 1; }
	;

	exprlist : /* empty */ { $$ = 0; }
	\| exprlist1 { $$ = $1; }
	;

	exprlist1 : expr { if ($1 != 0) $$ = $1; else $$ = -1; }
	\| exprlist1 ',' { $<vLong>$ = adjust_functioncall($1, 1); } expr
	{
	if ($4 == 0) $$ = -($<vLong>3 + 1); /* -length */
	else
	{
	adjust_functioncall($4, $<vLong>3);
	$$ = $4;
	}
	}
	;

	parlist : /* empty */ { $$ = close_parlist(0); }
	\| parlist1 { $$ = close_parlist($1); }
	;

	parlist1 : par { $$ = $1; }
	\| parlist1 ',' par
	{
	if ($1)
	lua_error("invalid parameter list");
	$$ = $3;
	}
	;

	par : NAME { add_localvar($1); $$ = 0; }
	\| DOTS { $$ = 1; }
	;

	fieldlist : lfieldlist
	{ flush_list($1/FIELDS_PER_FLUSH, $1%FIELDS_PER_FLUSH); }
	semicolonpart
	{ $$ = $1+$3; }
	\| ffieldlist1 lastcomma
	{ $$ = $1; flush_record($1%FIELDS_PER_FLUSH); }
	;

	semicolonpart : /* empty */
	{ $$ = 0; }
	\| ';' ffieldlist
	{ $$ = $2; flush_record($2%FIELDS_PER_FLUSH); }
	;

	lastcomma : /* empty */
	\| ','
	;

	ffieldlist : /* empty */ { $$ = 0; }
	\| ffieldlist1 lastcomma { $$ = $1; }
	;

	ffieldlist1 : ffield {$$=1;}
	\| ffieldlist1 ',' ffield
	{
	$$=$1+1;
	if ($$%FIELDS_PER_FLUSH == 0) flush_record(FIELDS_PER_FLUSH);
	}
	;

	ffield : NAME '=' expr1
	{
	push_field(luaI_findconstant($1));
	}
	;

	lfieldlist : /* empty */ { $$ = 0; }
	\| lfieldlist1 lastcomma { $$ = $1; }
	;

	lfieldlist1 : expr1 {$$=1;}
	\| lfieldlist1 ',' expr1
	{
	$$=$1+1;
	if ($$%FIELDS_PER_FLUSH == 0)
	flush_list($$/FIELDS_PER_FLUSH - 1, FIELDS_PER_FLUSH);
	}
	;

	varlist1 : var
	{
	nvarbuffer = 0;
	add_varbuffer($1);
	$$ = ($1 == 0) ? 1 : 0;
	}
	\| varlist1 ',' var
	{
	add_varbuffer($3);
	$$ = ($3 == 0) ? $1 + 1 : $1;
	}
	;

	var : singlevar { $$ = $1; }
	\| varexp '[' expr1 ']'
	{
	$$ = 0; /* indexed variable */
	}
	\| varexp '.' NAME
	{
	code_byte(PUSHSTRING);
	code_word(luaI_findconstant($3));
	$$ = 0; /* indexed variable */
	}
	;

	singlevar : NAME
	{
	int local = lua_localname($1);
	if (local == -1) /* global var */
	$$ = luaI_findsymbol($1)+1; /* return positive value */
	else
	$$ = -(local+1); /* return negative value */
	}
	;

	varexp : var { lua_pushvar($1); }
	;

	localdeclist : NAME {store_localvar($1, 0); $$ = 1;}
	\| localdeclist ',' NAME
	{
	store_localvar($3, $1);
	$$ = $1+1;
	}
	;

	decinit : /* empty */ { $$ = 0; }
	\| '=' exprlist1 { $$ = $2; }
	;

	%%