gcc/gmp/printf/doprntf.c - native_client/nacl-toolchain - Git at Google

 /* __gmp_doprnt_mpf -- mpf formatted output.

    THE FUNCTIONS IN THIS FILE ARE FOR INTERNAL USE ONLY.  THEY'RE ALMOST
    CERTAIN TO BE SUBJECT TO INCOMPATIBLE CHANGES OR DISAPPEAR COMPLETELY IN
    FUTURE GNU MP RELEASES.

 Copyright 2001, 2002 Free Software Foundation, Inc.

 This file is part of the GNU MP Library.

 The GNU MP Library is free software; you can redistribute it and/or modify
 it under the terms of the GNU Lesser General Public License as published by
 the Free Software Foundation; either version 3 of the License, or (at your
 option) any later version.

 The GNU MP Library is distributed in the hope that it will be useful, but
 WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public
 License for more details.

 You should have received a copy of the GNU Lesser General Public License
 along with the GNU MP Library.  If not, see http://www.gnu.org/licenses/.  */

 #include "config.h"

 #if HAVE_STDARG
 #include <stdarg.h>    /* for va_list and hence doprnt_funs_t */
 #else
 #include <varargs.h>
 #endif

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

 #include "gmp.h"
 #include "gmp-impl.h"


 /* change this to "#define TRACE(x) x" for diagnostics */
 #define TRACE(x)


 /* The separate of __gmp_doprnt_float_digits and __gmp_doprnt_float is so
    some C++ can do the mpf_get_str and release it in case of an exception */

 #define DIGIT_VALUE(c)                  \
   (isdigit (c)   ? (c) - '0'            \
    : islower (c) ? (c) - 'a' + 10       \
    :               (c) - 'A' + 10)

 int
 __gmp_doprnt_mpf (const struct doprnt_funs_t *funs,
 		  void *data,
 		  const struct doprnt_params_t *p,
 		  const char *point,
 		  mpf_srcptr f)
 {
   int         prec, ndigits, free_size, len, newlen, justify, justlen, explen;
   int         showbaselen, sign, signlen, intlen, intzeros, pointlen;
   int         fraczeros, fraclen, preczeros;
   char        *s, *free_ptr;
   mp_exp_t    exp;
   char        exponent[BITS_PER_MP_LIMB + 10];
   const char  *showbase;
   int         retval = 0;

   TRACE (printf ("__gmp_doprnt_float\n");
 	 printf ("  conv=%d prec=%d\n", p->conv, p->prec));

   prec = p->prec;
   if (prec <= -1)
     {
       /* all digits */
       ndigits = 0;

       /* arrange the fixed/scientific decision on a "prec" implied by how
 	 many significant digits there are */
       if (p->conv == DOPRNT_CONV_GENERAL)
 	MPF_SIGNIFICANT_DIGITS (prec, PREC(f), ABS(p->base));
     }
   else
     {
       switch (p->conv) {
       case DOPRNT_CONV_FIXED:
 	/* Precision is digits after the radix point.  Try not to generate
 	   too many more than will actually be required.  If f>=1 then
 	   overestimate the integer part, and add prec.  If f<1 then
 	   underestimate the zeros between the radix point and the first
 	   digit and subtract that from prec.  In either case add 2 so the
 	   round to nearest can be applied accurately.  */
 	ndigits = prec + 2
 	  + EXP(f) * (__mp_bases[ABS(p->base)].chars_per_limb + (EXP(f)>=0));
 	ndigits = MAX (ndigits, 1);
 	break;

       case DOPRNT_CONV_SCIENTIFIC:
 	/* precision is digits after the radix point, and there's one digit
 	   before */
 	ndigits = prec + 1;
 	break;

       default:
 	ASSERT (0);
 	/*FALLTHRU*/

       case DOPRNT_CONV_GENERAL:
 	/* precision is total digits, but be sure to ask mpf_get_str for at
 	   least 1, not 0 */
 	ndigits = MAX (prec, 1);
 	break;
       }
     }
   TRACE (printf ("  ndigits %d\n", ndigits));

   s = mpf_get_str (NULL, &exp, p->base, ndigits, f);
   len = strlen (s);
   free_ptr = s;
   free_size = len + 1;
   TRACE (printf ("  s   %s\n", s);
 	 printf ("  exp %ld\n", exp);
 	 printf ("  len %d\n", len));

   /* For fixed mode check the ndigits formed above was in fact enough for
      the integer part plus p->prec after the radix point. */
   ASSERT ((p->conv == DOPRNT_CONV_FIXED && p->prec > -1)
 	  ? ndigits >= MAX (1, exp + p->prec + 2) : 1);

   sign = p->sign;
   if (s[0] == '-')
     {
       sign = s[0];
       s++, len--;
     }
   signlen = (sign != '\0');
   TRACE (printf ("  sign %c  signlen %d\n", sign, signlen));

   switch (p->conv) {
   case DOPRNT_CONV_FIXED:
     if (prec <= -1)
       prec = MAX (0, len-exp);   /* retain all digits */

     /* Truncate if necessary so fraction will be at most prec digits. */
     ASSERT (prec >= 0);
     newlen = exp + prec;
     if (newlen < 0)
       {
 	/* first non-zero digit is below target prec, and at least one zero
 	   digit in between, so print zero */
 	len = 0;
 	exp = 0;
       }
     else if (len <= newlen)
       {
 	/* already got few enough digits */
       }
     else
       {
 	/* discard excess digits and round to nearest */

 	const char  *num_to_text = (p->base >= 0
 				    ? "0123456789abcdefghijklmnopqrstuvwxyz"
 				    : "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ");
 	int  base = ABS(p->base);
 	int  n;

 	ASSERT (base <= 36);

 	len = newlen;
 	n = DIGIT_VALUE (s[len]);
 	TRACE (printf ("  rounding with %d\n", n));
 	if (n >= (base + 1) / 2)
 	  {
 	    /* propagate a carry */
 	    for (;;)
 	      {
 		if (len == 0)
 		  {
 		    s[0] = '1';
 		    len = 1;
 		    exp++;
 		    break;
 		  }
 		n = DIGIT_VALUE (s[len-1]);
 		ASSERT (n >= 0 && n < base);
 		n++;
 		if (n != base)
 		  {
 		    TRACE (printf ("  storing now %d\n", n));
 		    s[len-1] = num_to_text[n];
 		    break;
 		  }
 		len--;
 	      }
 	  }
 	else
 	  {
 	    /* truncate only, strip any trailing zeros now exposed */
 	    while (len > 0 && s[len-1] == '0')
 	      len--;
 	  }

 	/* Can have newlen==0, in which case the truncate was just to check
 	   for a carry turning it into "1".  If we're left with len==0 then
 	   adjust exp to match.  */
 	if (len == 0)
 	  exp = 0;
       }

   fixed:
     ASSERT (len == 0 ? exp == 0 : 1);
     if (exp <= 0)
       {
 	TRACE (printf ("  fixed 0.000sss\n"));
 	intlen = 0;
 	intzeros = 1;
 	fraczeros = -exp;
 	fraclen = len;
       }
     else
       {
 	TRACE (printf ("  fixed sss.sss or sss000\n"));
 	intlen = MIN (len, exp);
 	intzeros = exp - intlen;
 	fraczeros = 0;
 	fraclen = len - intlen;
       }
     explen = 0;
     break;

   case DOPRNT_CONV_SCIENTIFIC:
     {
       int   expval;
       char  expsign;

       if (prec <= -1)
 	prec = MAX (0, len-1);   /* retain all digits */

     scientific:
       TRACE (printf ("  scientific s.sss\n"));

       intlen = MIN (1, len);
       intzeros = (intlen == 0 ? 1 : 0);
       fraczeros = 0;
       fraclen = len - intlen;

       expval = (exp-intlen);
       if (p->exptimes4)
 	expval <<= 2;

       /* Split out the sign since %o or %x in expfmt give negatives as twos
 	 complement, not with a sign. */
       expsign = (expval >= 0 ? '+' : '-');
       expval = ABS (expval);

 #if HAVE_VSNPRINTF
       explen = snprintf (exponent, sizeof(exponent),
 			 p->expfmt, expsign, expval);
       /* test for < sizeof-1 since a glibc 2.0.x return of sizeof-1 might
 	 mean truncation */
       ASSERT (explen >= 0 && explen < sizeof(exponent)-1);
 #else
       sprintf (exponent, p->expfmt, expsign, expval);
       explen = strlen (exponent);
       ASSERT (explen < sizeof(exponent));
 #endif
       TRACE (printf ("  expfmt %s gives %s\n", p->expfmt, exponent));
     }
     break;

   default:
     ASSERT (0);
     /*FALLTHRU*/  /* to stop variables looking uninitialized */

   case DOPRNT_CONV_GENERAL:
     /* The exponent for "scientific" will be exp-1, choose scientific if
        this is < -4 or >= prec (and minimum 1 for prec).  For f==0 will have
        exp==0 and get the desired "fixed".  This rule follows glibc.  For
        fixed there's no need to truncate, the desired ndigits will already
        be as required.  */
     if (exp-1 < -4 || exp-1 >= MAX (1, prec))
       goto scientific;
     else
       goto fixed;
   }

   TRACE (printf ("  intlen %d intzeros %d fraczeros %d fraclen %d\n",
 		 intlen, intzeros, fraczeros, fraclen));
   ASSERT (p->prec <= -1
 	  ? intlen + fraclen == strlen (s)
 	  : intlen + fraclen <= strlen (s));

   if (p->showtrailing)
     {
       /* Pad to requested precision with trailing zeros, for general this is
 	 all digits, for fixed and scientific just the fraction.  */
       preczeros = prec - (fraczeros + fraclen
 			  + (p->conv == DOPRNT_CONV_GENERAL
 			     ? intlen + intzeros : 0));
       preczeros = MAX (0, preczeros);
     }
   else
     preczeros = 0;
   TRACE (printf ("  prec=%d showtrailing=%d, pad with preczeros %d\n",
 		 prec, p->showtrailing, preczeros));

   /* radix point if needed, or if forced */
   pointlen = ((fraczeros + fraclen + preczeros) != 0 || p->showpoint != 0)
     ? strlen (point) : 0;
   TRACE (printf ("  point |%s|  pointlen %d\n", point, pointlen));

   /* Notice the test for a non-zero value is done after any truncation for
      DOPRNT_CONV_FIXED. */
   showbase = NULL;
   showbaselen = 0;
   switch (p->showbase) {
   default:
     ASSERT (0);
     /*FALLTHRU*/
   case DOPRNT_SHOWBASE_NO:
     break;
   case DOPRNT_SHOWBASE_NONZERO:
     if (intlen == 0 && fraclen == 0)
       break;
     /*FALLTHRU*/
   case DOPRNT_SHOWBASE_YES:
     switch (p->base) {
     case 16:  showbase = "0x"; showbaselen = 2; break;
     case -16: showbase = "0X"; showbaselen = 2; break;
     case 8:   showbase = "0";  showbaselen = 1; break;
     }
     break;
   }
   TRACE (printf ("  showbase %s showbaselen %d\n",
 		 showbase == NULL ? "" : showbase, showbaselen));

   /* left over field width */
   justlen = p->width - (signlen + showbaselen + intlen + intzeros + pointlen
 			+ fraczeros + fraclen + preczeros + explen);
   TRACE (printf ("  justlen %d fill 0x%X\n", justlen, p->fill));

   justify = p->justify;
   if (justlen <= 0) /* no justifying if exceed width */
     justify = DOPRNT_JUSTIFY_NONE;

   TRACE (printf ("  justify type %d  intlen %d pointlen %d fraclen %d\n",
 		 justify, intlen, pointlen, fraclen));

   if (justify == DOPRNT_JUSTIFY_RIGHT)         /* pad for right */
     DOPRNT_REPS (p->fill, justlen);

   if (signlen)                                 /* sign */
     DOPRNT_REPS (sign, 1);

   DOPRNT_MEMORY_MAYBE (showbase, showbaselen); /* base */

   if (justify == DOPRNT_JUSTIFY_INTERNAL)      /* pad for internal */
     DOPRNT_REPS (p->fill, justlen);

   DOPRNT_MEMORY (s, intlen);                   /* integer */
   DOPRNT_REPS_MAYBE ('0', intzeros);

   DOPRNT_MEMORY_MAYBE (point, pointlen);       /* point */

   DOPRNT_REPS_MAYBE ('0', fraczeros);          /* frac */
   DOPRNT_MEMORY_MAYBE (s+intlen, fraclen);

   DOPRNT_REPS_MAYBE ('0', preczeros);          /* prec */

   DOPRNT_MEMORY_MAYBE (exponent, explen);      /* exp */

   if (justify == DOPRNT_JUSTIFY_LEFT)          /* pad for left */
     DOPRNT_REPS (p->fill, justlen);

  done:
   (*__gmp_free_func) (free_ptr, free_size);
   return retval;

  error:
   retval = -1;
   goto done;
 }
	/* __gmp_doprnt_mpf -- mpf formatted output.

	THE FUNCTIONS IN THIS FILE ARE FOR INTERNAL USE ONLY. THEY'RE ALMOST
	CERTAIN TO BE SUBJECT TO INCOMPATIBLE CHANGES OR DISAPPEAR COMPLETELY IN
	FUTURE GNU MP RELEASES.

	Copyright 2001, 2002 Free Software Foundation, Inc.

	This file is part of the GNU MP Library.

	The GNU MP Library is free software; you can redistribute it and/or modify
	it under the terms of the GNU Lesser General Public License as published by
	the Free Software Foundation; either version 3 of the License, or (at your
	option) any later version.

	The GNU MP Library is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
	or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
	License for more details.

	You should have received a copy of the GNU Lesser General Public License
	along with the GNU MP Library. If not, see http://www.gnu.org/licenses/. */

	#include "config.h"

	#if HAVE_STDARG
	#include <stdarg.h> /* for va_list and hence doprnt_funs_t */
	#else
	#include <varargs.h>
	#endif

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

	#include "gmp.h"
	#include "gmp-impl.h"


	/* change this to "#define TRACE(x) x" for diagnostics */
	#define TRACE(x)


	/* The separate of __gmp_doprnt_float_digits and __gmp_doprnt_float is so
	some C++ can do the mpf_get_str and release it in case of an exception */

	#define DIGIT_VALUE(c) \
	(isdigit (c) ? (c) - '0' \
	: islower (c) ? (c) - 'a' + 10 \
	: (c) - 'A' + 10)

	int
	__gmp_doprnt_mpf (const struct doprnt_funs_t *funs,
	void *data,
	const struct doprnt_params_t *p,
	const char *point,
	mpf_srcptr f)
	{
	int prec, ndigits, free_size, len, newlen, justify, justlen, explen;
	int showbaselen, sign, signlen, intlen, intzeros, pointlen;
	int fraczeros, fraclen, preczeros;
	char s, free_ptr;
	mp_exp_t exp;
	char exponent[BITS_PER_MP_LIMB + 10];
	const char *showbase;
	int retval = 0;

	TRACE (printf ("__gmp_doprnt_float\n");
	printf (" conv=%d prec=%d\n", p->conv, p->prec));

	prec = p->prec;
	if (prec <= -1)
	{
	/* all digits */
	ndigits = 0;

	/* arrange the fixed/scientific decision on a "prec" implied by how
	many significant digits there are */
	if (p->conv == DOPRNT_CONV_GENERAL)
	MPF_SIGNIFICANT_DIGITS (prec, PREC(f), ABS(p->base));
	}
	else
	{
	switch (p->conv) {
	case DOPRNT_CONV_FIXED:
	/* Precision is digits after the radix point. Try not to generate
	too many more than will actually be required. If f>=1 then
	overestimate the integer part, and add prec. If f<1 then
	underestimate the zeros between the radix point and the first
	digit and subtract that from prec. In either case add 2 so the
	round to nearest can be applied accurately. */
	ndigits = prec + 2
	+ EXP(f) * (__mp_bases[ABS(p->base)].chars_per_limb + (EXP(f)>=0));
	ndigits = MAX (ndigits, 1);
	break;

	case DOPRNT_CONV_SCIENTIFIC:
	/* precision is digits after the radix point, and there's one digit
	before */
	ndigits = prec + 1;
	break;

	default:
	ASSERT (0);
	/FALLTHRU/

	case DOPRNT_CONV_GENERAL:
	/* precision is total digits, but be sure to ask mpf_get_str for at
	least 1, not 0 */
	ndigits = MAX (prec, 1);
	break;
	}
	}
	TRACE (printf (" ndigits %d\n", ndigits));

	s = mpf_get_str (NULL, &exp, p->base, ndigits, f);
	len = strlen (s);
	free_ptr = s;
	free_size = len + 1;
	TRACE (printf (" s %s\n", s);
	printf (" exp %ld\n", exp);
	printf (" len %d\n", len));

	/* For fixed mode check the ndigits formed above was in fact enough for
	the integer part plus p->prec after the radix point. */
	ASSERT ((p->conv == DOPRNT_CONV_FIXED && p->prec > -1)
	? ndigits >= MAX (1, exp + p->prec + 2) : 1);

	sign = p->sign;
	if (s[0] == '-')
	{
	sign = s[0];
	s++, len--;
	}
	signlen = (sign != '\0');
	TRACE (printf (" sign %c signlen %d\n", sign, signlen));

	switch (p->conv) {
	case DOPRNT_CONV_FIXED:
	if (prec <= -1)
	prec = MAX (0, len-exp); /* retain all digits */

	/* Truncate if necessary so fraction will be at most prec digits. */
	ASSERT (prec >= 0);
	newlen = exp + prec;
	if (newlen < 0)
	{
	/* first non-zero digit is below target prec, and at least one zero
	digit in between, so print zero */
	len = 0;
	exp = 0;
	}
	else if (len <= newlen)
	{
	/* already got few enough digits */
	}
	else
	{
	/* discard excess digits and round to nearest */

	const char *num_to_text = (p->base >= 0
	? "0123456789abcdefghijklmnopqrstuvwxyz"
	: "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ");
	int base = ABS(p->base);
	int n;

	ASSERT (base <= 36);

	len = newlen;
	n = DIGIT_VALUE (s[len]);
	TRACE (printf (" rounding with %d\n", n));
	if (n >= (base + 1) / 2)
	{
	/* propagate a carry */
	for (;;)
	{
	if (len == 0)
	{
	s[0] = '1';
	len = 1;
	exp++;
	break;
	}
	n = DIGIT_VALUE (s[len-1]);
	ASSERT (n >= 0 && n < base);
	n++;
	if (n != base)
	{
	TRACE (printf (" storing now %d\n", n));
	s[len-1] = num_to_text[n];
	break;
	}
	len--;
	}
	}
	else
	{
	/* truncate only, strip any trailing zeros now exposed */
	while (len > 0 && s[len-1] == '0')
	len--;
	}

	/* Can have newlen==0, in which case the truncate was just to check
	for a carry turning it into "1". If we're left with len==0 then
	adjust exp to match. */
	if (len == 0)
	exp = 0;
	}

	fixed:
	ASSERT (len == 0 ? exp == 0 : 1);
	if (exp <= 0)
	{
	TRACE (printf (" fixed 0.000sss\n"));
	intlen = 0;
	intzeros = 1;
	fraczeros = -exp;
	fraclen = len;
	}
	else
	{
	TRACE (printf (" fixed sss.sss or sss000\n"));
	intlen = MIN (len, exp);
	intzeros = exp - intlen;
	fraczeros = 0;
	fraclen = len - intlen;
	}
	explen = 0;
	break;

	case DOPRNT_CONV_SCIENTIFIC:
	{
	int expval;
	char expsign;

	if (prec <= -1)
	prec = MAX (0, len-1); /* retain all digits */

	scientific:
	TRACE (printf (" scientific s.sss\n"));

	intlen = MIN (1, len);
	intzeros = (intlen == 0 ? 1 : 0);
	fraczeros = 0;
	fraclen = len - intlen;

	expval = (exp-intlen);
	if (p->exptimes4)
	expval <<= 2;

	/* Split out the sign since %o or %x in expfmt give negatives as twos
	complement, not with a sign. */
	expsign = (expval >= 0 ? '+' : '-');
	expval = ABS (expval);

	#if HAVE_VSNPRINTF
	explen = snprintf (exponent, sizeof(exponent),
	p->expfmt, expsign, expval);
	/* test for < sizeof-1 since a glibc 2.0.x return of sizeof-1 might
	mean truncation */
	ASSERT (explen >= 0 && explen < sizeof(exponent)-1);
	#else
	sprintf (exponent, p->expfmt, expsign, expval);
	explen = strlen (exponent);
	ASSERT (explen < sizeof(exponent));
	#endif
	TRACE (printf (" expfmt %s gives %s\n", p->expfmt, exponent));
	}
	break;

	default:
	ASSERT (0);
	/FALLTHRU/ /* to stop variables looking uninitialized */

	case DOPRNT_CONV_GENERAL:
	/* The exponent for "scientific" will be exp-1, choose scientific if
	this is < -4 or >= prec (and minimum 1 for prec). For f==0 will have
	exp==0 and get the desired "fixed". This rule follows glibc. For
	fixed there's no need to truncate, the desired ndigits will already
	be as required. */
	if (exp-1 < -4 \|\| exp-1 >= MAX (1, prec))
	goto scientific;
	else
	goto fixed;
	}

	TRACE (printf (" intlen %d intzeros %d fraczeros %d fraclen %d\n",
	intlen, intzeros, fraczeros, fraclen));
	ASSERT (p->prec <= -1
	? intlen + fraclen == strlen (s)
	: intlen + fraclen <= strlen (s));

	if (p->showtrailing)
	{
	/* Pad to requested precision with trailing zeros, for general this is
	all digits, for fixed and scientific just the fraction. */
	preczeros = prec - (fraczeros + fraclen
	+ (p->conv == DOPRNT_CONV_GENERAL
	? intlen + intzeros : 0));
	preczeros = MAX (0, preczeros);
	}
	else
	preczeros = 0;
	TRACE (printf (" prec=%d showtrailing=%d, pad with preczeros %d\n",
	prec, p->showtrailing, preczeros));

	/* radix point if needed, or if forced */
	pointlen = ((fraczeros + fraclen + preczeros) != 0 \|\| p->showpoint != 0)
	? strlen (point) : 0;
	TRACE (printf (" point \|%s\| pointlen %d\n", point, pointlen));

	/* Notice the test for a non-zero value is done after any truncation for
	DOPRNT_CONV_FIXED. */
	showbase = NULL;
	showbaselen = 0;
	switch (p->showbase) {
	default:
	ASSERT (0);
	/FALLTHRU/
	case DOPRNT_SHOWBASE_NO:
	break;
	case DOPRNT_SHOWBASE_NONZERO:
	if (intlen == 0 && fraclen == 0)
	break;
	/FALLTHRU/
	case DOPRNT_SHOWBASE_YES:
	switch (p->base) {
	case 16: showbase = "0x"; showbaselen = 2; break;
	case -16: showbase = "0X"; showbaselen = 2; break;
	case 8: showbase = "0"; showbaselen = 1; break;
	}
	break;
	}
	TRACE (printf (" showbase %s showbaselen %d\n",
	showbase == NULL ? "" : showbase, showbaselen));

	/* left over field width */
	justlen = p->width - (signlen + showbaselen + intlen + intzeros + pointlen
	+ fraczeros + fraclen + preczeros + explen);
	TRACE (printf (" justlen %d fill 0x%X\n", justlen, p->fill));

	justify = p->justify;
	if (justlen <= 0) /* no justifying if exceed width */
	justify = DOPRNT_JUSTIFY_NONE;

	TRACE (printf (" justify type %d intlen %d pointlen %d fraclen %d\n",
	justify, intlen, pointlen, fraclen));

	if (justify == DOPRNT_JUSTIFY_RIGHT) /* pad for right */
	DOPRNT_REPS (p->fill, justlen);

	if (signlen) /* sign */
	DOPRNT_REPS (sign, 1);

	DOPRNT_MEMORY_MAYBE (showbase, showbaselen); /* base */

	if (justify == DOPRNT_JUSTIFY_INTERNAL) /* pad for internal */
	DOPRNT_REPS (p->fill, justlen);

	DOPRNT_MEMORY (s, intlen); /* integer */
	DOPRNT_REPS_MAYBE ('0', intzeros);

	DOPRNT_MEMORY_MAYBE (point, pointlen); /* point */

	DOPRNT_REPS_MAYBE ('0', fraczeros); /* frac */
	DOPRNT_MEMORY_MAYBE (s+intlen, fraclen);

	DOPRNT_REPS_MAYBE ('0', preczeros); /* prec */

	DOPRNT_MEMORY_MAYBE (exponent, explen); /* exp */

	if (justify == DOPRNT_JUSTIFY_LEFT) /* pad for left */
	DOPRNT_REPS (p->fill, justlen);

	done:
	(*__gmp_free_func) (free_ptr, free_size);
	return retval;

	error:
	retval = -1;
	goto done;
	}