yap-6.3/C/scanner.c

/*************************************************************************
*									 *
*	 YAP Prolog 							 *
*									 *
*	Yap Prolog was developed at NCCUP - Universidade do Porto	 *
*									 *
* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-2003	 *
*									 *
**************************************************************************
*									 *
* File:		%W% %G%						 *
* Last rev:	22-1-03							 *
* mods:									 *
* comments:	Prolog's scanner					 *
*									 *
*************************************************************************/

/*
 * Description: 
 *
 * This module produces a list of tokens for use by the parser. The calling
 * program should supply a routine int nextch(charpos) int *charpos; which,
 * when called should produce the next char or -1 if none availlable. The
 * scanner will stop producing tokens when it either finds an end of file
 * (-1) or a token consisting of just '.' followed by a blank or control
 * char. Scanner errors will be signalled by the scanner exiting with a non-
 * zero  ErrorMsg and ErrorPos. Note that, even in this case, the scanner
 * will try to find the end of the term. A function char
 * *AllocScannerMemory(nbytes) should be supplied for allocating (temporary)
 * space for strings and for the table of prolog variables occurring in the
 * term. 
 *
 */

#include "Yap.h"
#include "Yatom.h"
#include "Heap.h"
#include "yapio.h"
#include "alloc.h"
#include "eval.h"
#if _MSC_VER || defined(__MINGW32__) 
#if HAVE_FINITE==1
#undef HAVE_FINITE
#endif
#include <windows.h>
#endif
#include "iopreds.h"
#if HAVE_STRING_H
#include <string.h>
#endif

/* You just can't trust some machines */
#define my_isxdigit(C,SU,SL)	(chtype[C] == NU || (C >= 'A' && \
				 C <= (SU)) || (C >= 'a' && C <= (SL)))
#define my_isupper(C)	( C >= 'A' && C <= 'Z' )
#define my_islower(C)	( C >= 'a' && C <= 'z' )

STATIC_PROTO(int my_getch, (int (*) (int)));
STATIC_PROTO(Term float_send, (char *));
STATIC_PROTO(Term get_num, (int *, int *, int, int (*) (int), int (*) (int)));

/* token table with some help from Richard O'Keefe's PD scanner */
static char chtype0[NUMBER_OF_CHARS+1] =
{
EF,
/* nul soh stx etx eot enq ack bel  bs  ht  nl  vt  np  cr  so  si */
  BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS,

/* dle dc1 dc2 dc3 dc4 nak syn etb can  em sub esc  fs  gs  rs  us */
  BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS,

/* sp   !   "   #   $   %   &   '   (   )   *   +   ,   -   .   / */
  BS, SL, DC, SY, LC, CC, SY, QT, BK, BK, SY, SY, BK, SY, SY, SY,

/* 0   1   2   3   4   5   6   7   8   9   :   ;   <   =   >   ? */
  NU, NU, NU, NU, NU, NU, NU, NU, NU, NU, SY, SL, SY, SY, SY, SY,

/* @   A   B   C   D   E   F   G   H   I   J   K   L   M   N   O */
  SY, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC,

/* P   Q   R   S   T   U   V   W   X   Y   Z   [   \   ]   ^   _ */
  UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, BK, SY, BK, SY, UL,

/* `   a   b   c   d   e   f   g   h   i   j   k   l   m   n   o */
  SY, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC,

/* p   q   r   s   t   u   v   w   x   y   z   {   |   }   ~ del */
  LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, BK, BK, BK, SY, BS,

/* 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 */
  BS, BS,  BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS,

/* 144 145 <20>   147 148 149 150 151 152 153 154 155 156 157 158 159 */
   BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS, BS,

/* <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   */
   BS, SY, SY, SY, SY, SY, SY, SY, SY, SY, LC, SY, SY, SY, SY, SY,

/* <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   */
   SY, SY, LC, LC, SY, SY, SY, SY, SY, LC, LC, SY, SY, SY, SY, SY,

/* <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>    */
   UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC,

/* <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>    */
#ifdef  vms
   UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, UC, LC,
#else
   UC, UC, UC, UC, UC, UC, UC, SY, UC, UC, UC, UC, UC, UC, UC, LC,
#endif
/* <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>    */
   LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC,

/* <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   <20>   cannot write the last three because of lcc    */
#ifdef  vms
   LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC, LC
#else
   LC, LC, LC, LC, LC, LC, LC, SY, LC, LC, LC, LC, LC, LC, LC, LC
#endif
};

#define chtype (chtype0+1)
char *Yap_chtype = chtype0+1;

static char *
AllocScannerMemory(unsigned int size)
{
#if USE_SYSTEM_MALLOC
  return malloc(AdjustSize(size));
#else
  char *AuxSpScan;

  AuxSpScan = ScannerStack;
  size = AdjustSize(size);
  ScannerStack = AuxSpScan+size;
  if (Yap_TrailTop <= ScannerStack) {
    if(!Yap_growtrail (sizeof(CELL) * 16 * 1024L)) {
      return(NULL);
    }
  }
  return AuxSpScan;
#endif
}

char *
Yap_AllocScannerMemory(unsigned int size)
{
  /* I assume memory has been initialised */
  return AllocScannerMemory(size);
}

inline static int
my_getch(int (*Nextch) (int))
{
  int ch = (*Nextch) (Yap_c_input_stream); 
#ifdef DEBUG
  if (Yap_Option[1])
    fprintf(Yap_stderr, "[getch %c]", ch);
#endif
  return(ch);
}

extern double atof(const char *);

static Term
float_send(char *s)
{
  Float f = (Float)atof(s);
#if HAVE_FINITE
  if (yap_flags[LANGUAGE_MODE_FLAG] == 1) { /* iso */
    if (!finite(f)) {
      Yap_ErrorMessage = "Float overflow while scanning";
      return(MkEvalFl(0.0));
    }
  }
#endif
  return (MkEvalFl(f));
}

/* we have an overflow at s */
static Term
read_int_overflow(const char *s, Int base, Int val)
{
#ifdef USE_GMP
  /* try to scan it as a bignum */
  MP_INT *new = Yap_PreAllocBigNum();

  mpz_init_set_str (new, s, base);
  return(Yap_MkBigIntTerm(new));
#else
  /* try to scan it as a float */
  return(MkIntegerTerm(val));
#endif    
}

static unsigned int
read_quoted_char(int *scan_nextp, int inp_stream, int (*QuotedNxtch)(int))
{
  int ch;

  /* escape sequence */
 restart:
  ch = QuotedNxtch(inp_stream);
  switch (ch) {
  case 10:
    ch = QuotedNxtch(inp_stream);
    if (ch == '\\') goto restart;
    return ch;
  case 'a':
    return '\a';
  case 'b':
    return '\b';
  case 'c':
    if (yap_flags[CHARACTER_ESCAPE_FLAG] == ISO_CHARACTER_ESCAPES) {
      Yap_ErrorMessage = "invalid escape sequence \\c";
      return 0;
    } else {
      /* sicstus */
      ch = QuotedNxtch(inp_stream);
      if (chtype[ch] == SL) {
	goto restart;
      } else {
	return 'c';
      }
    }
  case 'd':
    return 127;
  case 'e':
    return '\x1B';  /* <ESC>, a.k.a. \e */
  case 'f':
    return '\f';
  case 'n':
    return '\n';
  case 'r':
    return '\r';
  case 't':
    return '\t';
  case 'v':
    return '\v';
  case '\\':
    return '\\';
  case '\'':
    return '\'';
  case '"':
    return '"';
  case '`':
    return '`';
  case '^':
    if (yap_flags[CHARACTER_ESCAPE_FLAG] == ISO_CHARACTER_ESCAPES) {
      Yap_ErrorMessage = "invalid escape sequence";
      return 0;
    } else {
      ch = QuotedNxtch(inp_stream);
      if (ch ==  '?') {/* delete character */
	return 127;
      } else if (ch >= 'a' && ch < 'z') {/* octal */
	return ch - 'a';
      } else if (ch >= 'A' && ch < 'Z') {/* octal */
	return ch - 'A';
      } else {
	 return '^';
      }
    }
  case '0':
  case '1':
  case '2':
  case '3':
  case '4':
  case '5':
  case '6':
  case '7':
    /* character in octal: maximum of 3 digits, terminates with \ */
    if (yap_flags[CHARACTER_ESCAPE_FLAG] == ISO_CHARACTER_ESCAPES) {
      unsigned char so_far = ch-'0';
      ch = QuotedNxtch(inp_stream);
      if (ch >= '0' && ch < '8') {/* octal */
	so_far = so_far*8+(ch-'0');
	ch = QuotedNxtch(inp_stream);
	if (ch >= '0' && ch < '8') { /* octal */
	  so_far = so_far*8+(ch-'0');
	  ch = QuotedNxtch(inp_stream);
	  if (ch != '\\') {
	    Yap_ErrorMessage = "invalid octal escape sequence";
	    return 0;
	  }
	} else if (ch == '\\') {
	  return so_far;
	} else {
	  Yap_ErrorMessage = "invalid octal escape sequence";
	  return 0;
	}
      } else if (ch == '\\') {
	return so_far;
      } else {
	Yap_ErrorMessage = "invalid octal escape sequence";
	return 0;
      }
    } else {
      /* sicstus */
      unsigned char so_far = ch-'0';
      ch = QuotedNxtch(inp_stream);
      if (ch >= '0' && ch < '8') {/* octal */
	so_far = so_far*8+(ch-'0');
	ch = QuotedNxtch(inp_stream);
	if (ch >= '0' && ch < '8') { /* octal */
	  return so_far*8+(ch-'0');
	} else {
	  *scan_nextp = FALSE;
	  return so_far;
	}
      } else {
	*scan_nextp = FALSE;
	return so_far;
      }
    }
  case 'x':
    /* hexadecimal character (YAP allows empty hexadecimal  */
    if (yap_flags[CHARACTER_ESCAPE_FLAG] == ISO_CHARACTER_ESCAPES) {
      unsigned char so_far = 0; 
      ch = QuotedNxtch(inp_stream);
      if (my_isxdigit(ch,'f','F')) {/* hexa */
	so_far = so_far * 16 + (chtype[ch] == NU ? ch - '0' :
				(my_isupper(ch) ? ch - 'A' : ch - 'a') + 10);
	ch = QuotedNxtch(inp_stream);
	if (my_isxdigit(ch,'f','F')) { /* hexa */
	  so_far = so_far * 16 + (chtype[ch] == NU ? ch - '0' :
				  (my_isupper(ch) ? ch - 'A' : ch - 'a') + 10);
	  ch = QuotedNxtch(inp_stream);
	  if (ch == '\\') {
	    return so_far;
	  } else {
	    Yap_ErrorMessage = "invalid hexadecimal escape sequence";
	    return 0;
	  }
	} else if (ch == '\\') {
	  return so_far;
	} else {
	  Yap_ErrorMessage = "invalid hexadecimal escape sequence";
	  return 0;
	} 
      } else if (ch == '\\') {
	return so_far;
      } else {
	Yap_ErrorMessage = "invalid hexadecimal escape sequence";
	return 0;
      }
    } else {
      /* sicstus mode */
      unsigned char so_far = 0;
      ch = QuotedNxtch(inp_stream);
      so_far = (chtype[ch] == NU ? ch - '0' :
		my_isupper(ch) ? ch - 'A' + 10 : 
		my_islower(ch) ? ch - 'a' +10 : 0);
      ch = QuotedNxtch(inp_stream);
      return so_far*16 + (chtype[ch] == NU ? ch - '0' :
		       my_isupper(ch) ? ch - 'A' +10 :
		       my_islower(ch) ? ch - 'a' + 10 : 0);
    }
  default:
    /* accept sequence. Note that the ISO standard does not
       consider this sequence legal, whereas SICStus would
       eat up the escape sequence. */
    if (yap_flags[CHARACTER_ESCAPE_FLAG] == ISO_CHARACTER_ESCAPES) {
      Yap_ErrorMessage = "invalid escape sequence";
      return 0;
    } else {
      /* sicstus */
      if (chtype[ch] == SL) {
	goto restart;
      } else {
	return ch;
      }
    }
  }
}
	    
/* reads a number, either integer or float */

static Term
get_num(int *chp, int *chbuffp, int inp_stream, int (*Nxtch) (int), int (*QuotedNxtch) (int))
{
  char *s = (char *)ScannerStack, *sp = s;
  int ch = *chp;
  Int val = 0, base = ch - '0';
  int might_be_float = TRUE, has_overflow = FALSE;

  *sp++ = ch;
  ch = Nxtch(inp_stream);
  /*
   * because of things like 00'2, 03'2 and even better 12'2, I need to
   * do this (have mercy) 
   */
  if (chtype[ch] == NU) {
    *sp++ = ch;
    base = 10 * base + ch - '0';
    ch = Nxtch(inp_stream);
  }
  if (ch == '\'') {
    if (base > 36) {
      Yap_ErrorMessage = "Admissible bases are 0..36";
      return (TermNil);
    }
    might_be_float = FALSE;
    *sp++ = ch;
    ch = Nxtch(inp_stream);
    if (base == 0) {
      Int ascii = ch;
      int scan_extra = TRUE;

      if (ch == '\\' &&
	  yap_flags[CHARACTER_ESCAPE_FLAG] != CPROLOG_CHARACTER_ESCAPES) {
	ascii = read_quoted_char(&scan_extra, inp_stream, QuotedNxtch);
      }
      /* a quick way to represent ASCII */
      if (scan_extra)
	*chp = Nxtch(inp_stream);
      return (MkIntTerm(ascii));
    } else if (base >= 10 && base <= 36) {
      int upper_case = 'A' - 11 + base;
      int lower_case = 'a' - 11 + base;

      while (my_isxdigit(ch, upper_case, lower_case)) {
	Int oval = val;
	*sp++ = ch;
	val = val * base + (chtype[ch] == NU ? ch - '0' :
			    (my_isupper(ch) ? ch - 'A' : ch - 'a') + 10);
	if (oval >= val && oval != 0) /* overflow */
	  has_overflow = (has_overflow || TRUE);
	ch = Nxtch(inp_stream);
      }
    }
  } else if ((ch == 'x' || ch == 'X') && base == 0) {
    might_be_float = FALSE;
    *sp++ = ch;
    ch = Nxtch(inp_stream);
    while (my_isxdigit(ch, 'F', 'f')) {
      Int oval = val;
      *sp++ = ch;
      val = val * 16 + (chtype[ch] == NU ? ch - '0' :
			(my_isupper(ch) ? ch - 'A' : ch - 'a') + 10);
      if (oval >= val && oval != 0) /* overflow */
	has_overflow = (has_overflow || TRUE);
      ch = Nxtch(inp_stream);
    }
    *chp = ch;
  }
  else if ((ch == 'o') && base == 0) {
    might_be_float = FALSE;
    base = 8;
    *sp++ = ch;
    *chp = Nxtch(inp_stream);
  }
  else {
    val = base;
    base = 10;
  }
  while (chtype[ch] == NU) {
    Int oval = val;
    if (!(val == 0 && ch == '0')) {
      *sp++ = ch;
    }
    if (ch - '0' >= base)
      return MkIntegerTerm(val);
    val = val * base + ch - '0';
    if (val/base != oval || val -oval*base != ch-'0') /* overflow */
      has_overflow = (has_overflow || TRUE);
    ch = Nxtch(inp_stream);
  }
  if (might_be_float && (ch == '.' || ch == 'e' || ch == 'E')) {
    if (ch == '.') {
      *sp++ = '.';
      if (chtype[ch = Nxtch(inp_stream)] != NU) {
	*chbuffp = '.';
	*chp = ch;
	*--sp = '\0';
	if (has_overflow)
	  return(read_int_overflow(s,base,val));
	return (MkIntegerTerm(val));
      }
      do
	*sp++ = ch;
      while (chtype[ch = Nxtch(inp_stream)] == NU);
    }
    if (ch == 'e' || ch == 'E') {
      char *sp0 = sp;
      char cbuff = ch;
      *sp++ = ch;
      ch = Nxtch(inp_stream);
      if (ch == '-') {
	cbuff = '-';
	*sp++ = '-';
	ch = Nxtch(inp_stream);
      } else if (ch == '+') {
	cbuff = '+';
	ch = Nxtch(inp_stream);
      }
      if (chtype[ch] != NU) {
	/* error */
	char *sp;
	*chp = ch;
	if (*sp0 == 'E') {
	  /* code the fact that we have E and not e */
	  if (cbuff == '+')
	    *chbuffp = '=';
	  else
	    *chbuffp = '_';
	} else {
	  *chbuffp = cbuff;
	}
	*sp0 = '\0';
	for (sp = s; sp < sp0; sp++) {
	  if (*sp == '.')
	    return (float_send(s));
	}
	return(MkIntegerTerm(val));
      }
      do {
	*sp++ = ch;
      } while (chtype[ch = Nxtch(inp_stream)] == NU);
    }
    *sp = '\0';
    *chp = ch;
    return (float_send(s));
  } else if (has_overflow) {
    *sp = '\0';
    /* skip base */
    *chp = ch;
    if (s[0] == '0' && (s[1] == 'x' || s[1] == 'X'))
      return(read_int_overflow(s+2,16,val));
    if (s[1] == '\'')
      return(read_int_overflow(s+2,base,val));
    if (s[2] == '\'')
      return(read_int_overflow(s+3,base,val));
    return(read_int_overflow(s,base,val));
  } else {
    *chp = ch;
    return (MkIntegerTerm(val));
  }
}

/* given a function Nxtch scan until we  either find the number
   or end of file */
Term
Yap_scan_num(int (*Nxtch) (int))
{
  Term out;
  int sign = 1;
  int ch, cherr;

  Yap_ErrorMessage = NULL;
  ScannerStack = (char *)TR;
  ch = Nxtch(-1);
  if (ch == '-') {
    sign = -1;
    ch = Nxtch(-1);
  } else if (ch == '+') {
    ch = Nxtch(-1);
  }
  if (chtype[ch] != NU) {
    return(TermNil);
  }
  cherr = 0;
  out = get_num(&ch, &cherr, -1, Nxtch, Nxtch);
  if (sign == -1) {
    if (IsIntegerTerm(out))
      out = MkIntegerTerm(-IntegerOfTerm(out));
    else if (IsFloatTerm(out))
      out = MkFloatTerm(-FloatOfTerm(out));
  }
  if (Yap_ErrorMessage != NULL || ch != -1 || cherr)
    return TermNil;
  return(out);
}

TokEntry *
Yap_tokenizer(int inp_stream)
{
  TokEntry *t, *l, *p;
  enum TokenKinds kind;
  int solo_flag = TRUE;
  int ch;
  int (*Nxtch) (int) = Stream[inp_stream].stream_getc_for_read;
  int (*QuotedNxtch) (int) = Stream[inp_stream].stream_getc;

  Yap_ErrorMessage = NULL;
  Yap_VarTable = NULL;
  Yap_AnonVarTable = NULL;
  Yap_eot_before_eof = FALSE;
  ScannerStack = (char *)TR;
  l = NIL;
  p = NIL;			/* Just to make lint happy */
  ch = Nxtch(inp_stream);
  do {
    int och, quote, isvar;
    char *charp, *mp;
    unsigned int len;
    char *TokImage = NULL;


    t = (TokEntry *) AllocScannerMemory(sizeof(TokEntry));
    t->TokNext = NULL;
    if (t == NULL) {
      Yap_ErrorMessage = "not enough stack space to read in term";
      if (p != NIL)
	p->TokInfo = eot_tok;
      /* serious error now */
      return(l);
    }
    if (l == NIL)
      l = t;
    else
      p->TokNext = t;
    p = t;
  restart:
    while (chtype[ch] == BS) {
      ch = Nxtch(inp_stream);
    }
    t->TokPos = GetCurInpPos(inp_stream);

    switch (chtype[ch]) {

    case CC:
      while ((ch = Nxtch(inp_stream)) != 10 && chtype[ch] != EF);
      if (chtype[ch] != EF) {
	/* blank space */
	goto restart;
      } else {
	t->Tok = Ord(kind = eot_tok);
      }
      break;

    case UC:
    case UL:
    case LC:
      och = ch;
      ch = Nxtch(inp_stream);
    scan_name:
      TokImage = ((AtomEntry *) ( Yap_PreAllocCodeSpace()))->StrOfAE;
      charp = TokImage;
      isvar = (chtype[och] != LC);
      *charp++ = och;
      for (; chtype[ch] <= NU; ch = Nxtch(inp_stream))
	*charp++ = ch;
      *charp++ = '\0';
      if (!isvar) {
	/* don't do this in iso */
	t->TokInfo = Unsigned(Yap_LookupAtom(TokImage));
	Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	if (ch == '(')
	  solo_flag = FALSE;
	t->Tok = Ord(kind = Name_tok);
      } else {
	t->TokInfo = Unsigned(Yap_LookupVar(TokImage));
	Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	t->Tok = Ord(kind = Var_tok);
      }
      break;

    case NU:
      {
	int cherr, cha = ch;
	cherr = 0;
	t->TokInfo = get_num(&cha,&cherr,inp_stream,Nxtch,QuotedNxtch);
	ch = cha;
	if (cherr) {
	  TokEntry *e;
	  t->Tok = Number_tok;
	  t->TokPos = GetCurInpPos(inp_stream);
	  e = (TokEntry *) AllocScannerMemory(sizeof(TokEntry));
	  if (e == NULL) {
	    Yap_ErrorMessage = "not enough stack space to read in term";
	    p->TokInfo = eot_tok;
	    /* serious error now */
	    return(l);
	  } else {
	    e->TokNext = NULL;
	  }
	  t->TokNext = e;
	  t = e;
	  p = e;
	  switch (cherr) {
	  case 'e':
	  case 'E':
	    och = cherr;
	    goto scan_name;
	    break;
	  case '=':
	  case '_':
	    /* handle error while parsing a float */
	    {
	      TokEntry *e2;

	      t->Tok = Ord(Var_tok);
	      t->TokInfo = Unsigned(Yap_LookupVar("E"));
	      t->TokPos = GetCurInpPos(inp_stream);
	      e2 = (TokEntry *) AllocScannerMemory(sizeof(TokEntry));
	      if (e2 == NULL) {
		Yap_ErrorMessage = "not enough stack space to read in term";
		p->TokInfo = eot_tok;
		/* serious error now */
		return(l);
	      } else {
		e2->TokNext = NULL;
	      }
	      t->TokNext = e2;
	      t = e2;
	      p = e2;
	      if (cherr == '=')
		och = '+';
	      else
		och = '-';
	    }
	    goto enter_symbol;
	  case '+':
	  case '-':
	    /* handle error while parsing a float */
	    {
	      TokEntry *e2;

	      t->Tok = Name_tok;
	      if (ch == '(')
		solo_flag = FALSE;
	      t->TokInfo = Unsigned(Yap_LookupAtom("e"));
	      t->TokPos = GetCurInpPos(inp_stream);
	      e2 = (TokEntry *) AllocScannerMemory(sizeof(TokEntry));
	      if (e2 == NULL) {
		Yap_ErrorMessage = "not enough stack space to read in term";
		p->TokInfo = eot_tok;
		/* serious error now */
		return(l);
	      } else {
		e2->TokNext = NULL;
	      }
	      t->TokNext = e2;
	      t = e2;
	      p = e2;
	    }
	  default:
	    och = cherr;
	    goto enter_symbol;
	  }
	} else {
	  t->Tok = Ord(kind = Number_tok);
	}
      }
      break;

    case QT:
    case DC:
      TokImage = ((AtomEntry *) ( Yap_PreAllocCodeSpace()))->StrOfAE;
      charp = TokImage;
      quote = ch;
      len = 0;
      ch = QuotedNxtch(inp_stream);
      while (1) {
	if (charp + 1024 > (char *)AuxSp) {
	  Yap_ErrorMessage = "Heap Overflow While Scanning: please increase code space (-h)";
	  break;
	}
	if (ch == 10  &&  yap_flags[CHARACTER_ESCAPE_FLAG] == ISO_CHARACTER_ESCAPES) {
	  /* in ISO a new line terminates a string */
	  Yap_ErrorMessage = "layout character \n inside quotes";
	  break;
	}
	if (ch == quote) {
	  ch = QuotedNxtch(inp_stream);
	  if (ch != quote)
	    break;
	  *charp++ = ch;
	  ch = QuotedNxtch(inp_stream);
	} else if (ch == '\\' && yap_flags[CHARACTER_ESCAPE_FLAG] != CPROLOG_CHARACTER_ESCAPES) {
	  int scan_next = TRUE;
	  *charp++ = read_quoted_char(&scan_next, inp_stream, QuotedNxtch);
	  if (scan_next) {
	    ch = QuotedNxtch(inp_stream);
	  }
	} else if (chtype[ch] == EF) {
	  Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	  t->Tok = Ord(kind = eot_tok);
	  break;
	} else {
	  *charp++ = ch;
	  ch = QuotedNxtch(inp_stream);
	}
	++len;
	if (charp > (char *)AuxSp - 1024) {
	  /* Not enough space to read in the string. */
	  Yap_ErrorMessage = "not enough heap space to read in string or quoted atom";
	  /* serious error now */
	  Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	  t->Tok = Ord(kind = eot_tok);
	}
      }
      *charp = '\0';
      if (quote == '"') {
	mp = AllocScannerMemory(len + 1);
	if (mp == NULL) {
	  Yap_ErrorMessage = "not enough stack space to read in string or quoted atom";
	  Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	  t->Tok = Ord(kind = eot_tok);
	}
	strcpy(mp, TokImage);
	t->TokInfo = Unsigned(mp);
	Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	t->Tok = Ord(kind = String_tok);
      } else {
	t->TokInfo = Unsigned(Yap_LookupAtom(TokImage));
	Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	t->Tok = Ord(kind = Name_tok);
	if (ch == '(')
	  solo_flag = FALSE;
      }
      break;

    case SY:
      och = ch;
      ch = Nxtch(inp_stream);
      if (och == '/' && ch == '*') {
	while ((och != '*' || ch != '/') && chtype[ch] != EF) {
	  och = ch;
	  ch = Nxtch(inp_stream);
	}
	if (chtype[ch] == EF) {
	  t->Tok = Ord(kind = eot_tok);
	}
	ch = Nxtch(inp_stream);
	goto restart;
      }
    enter_symbol:
      if (och == '.' && (chtype[ch] == BS || chtype[ch] == EF
			 || chtype[ch] == CC)) {
	Yap_eot_before_eof = TRUE;
	if (chtype[ch] == CC)
	  while ((ch = Nxtch(inp_stream)) != 10 && chtype[ch] != EF);
	t->Tok = Ord(kind = eot_tok);
      }
      else {
	TokImage = ((AtomEntry *) ( Yap_PreAllocCodeSpace()))->StrOfAE;
	charp = TokImage;
	*charp++ = och;
	for (; chtype[ch] == SY; ch = Nxtch(inp_stream))
	  *charp++ = ch;
	*charp = '\0';
	t->TokInfo = Unsigned(Yap_LookupAtom(TokImage));
	Yap_ReleasePreAllocCodeSpace((CODEADDR)TokImage);
	t->Tok = Ord(kind = Name_tok);
	if (ch == '(')
	  solo_flag = FALSE;
      }
      break;
    
    case SL:
      {
	char chs[2];
	chs[0] = ch;
	chs[1] = '\0';
	ch = Nxtch(inp_stream);
	t->TokInfo = Unsigned(Yap_LookupAtom(chs));
	t->Tok = Ord(kind = Name_tok);
	if (ch == '(')
	  solo_flag = FALSE;
      }
      break;

    case BK:
      och = ch;
      do {
	ch = Nxtch(inp_stream);
      } while (chtype[ch] == BS);
      if (och == '[' && ch == ']') {
	t->TokInfo = Unsigned(AtomNil);
	ch = Nxtch(inp_stream);
	t->Tok = Ord(kind = Name_tok);
	if (ch == '(')
	  solo_flag = FALSE;
      } else {
	t->TokInfo = och;
	if (t->TokInfo == '(' && !solo_flag) {
	  t->TokInfo = 'l';
	  solo_flag = TRUE;
	}
	t->Tok = Ord(kind = Ponctuation_tok);
      }
      break;

    case EF:
      t->Tok = Ord(kind = eot_tok);
      break;

    default:
#ifdef DEBUG
      fprintf(Yap_stderr, "\n++++ token: wrong char type %c %d\n", ch, chtype[ch]);
#endif
      t->Tok = Ord(kind = eot_tok);
    }
#ifdef DEBUG
    if(Yap_Option[2]) fprintf(Yap_stderr,"[Token %d %ld]",Ord(kind),(unsigned long int)t->TokInfo);
#endif
    if (Yap_ErrorMessage) {
      /* insert an error token to inform the system of what happened */
      TokEntry *e = (TokEntry *) AllocScannerMemory(sizeof(TokEntry));
      if (e == NULL) {
	Yap_ErrorMessage = "not enough stack space to read in term";
	p->TokInfo = eot_tok;
	/* serious error now */
	return(l);
      }
      p->TokNext = e;
      e->Tok = Error_tok;
      e->TokInfo = MkAtomTerm(Yap_LookupAtom(Yap_ErrorMessage));
      e->TokPos = GetCurInpPos(inp_stream);
      e->TokNext = NULL;
      Yap_ErrorMessage = NULL;
      p = e;
    }
  } while (kind != eot_tok);
  return (l);
}

#if USE_SYSTEM_MALLOC
static
void clean_vtable(VarEntry *vt)
{
  if (vt == NULL)
    return;
  clean_vtable(vt->VarLeft);
  clean_vtable(vt->VarRight);
  free(vt);
}

static
void clean_tokens(TokEntry *tk)
{
  while (tk != NULL) {
    TokEntry *ntk = tk->TokNext;
    if (tk->Tok == Ord(String_tok)) {
      free((void *)(tk->TokInfo));
    }
    free(tk);
    tk = ntk;
  }
}

void
Yap_clean_tokenizer(TokEntry *tokstart, VarEntry *vartable, VarEntry *anonvartable)
{
  clean_vtable(vartable);
  clean_vtable(anonvartable);
  clean_tokens(tokstart);
}
#endif