dist/libparse/ieee754io.c

1.5  christos /*	$NetBSD: ieee754io.c,v 1.5 2020/05/25 20:47:25 christos Exp $	*/
1.1    kardel
1.1    kardel /*
1.1    kardel  * /src/NTP/ntp4-dev/libntp/ieee754io.c,v 4.12 2005/04/16 17:32:10 kardel RELEASE_20050508_A
1.1    kardel  *
1.1    kardel  * ieee754io.c,v 4.12 2005/04/16 17:32:10 kardel RELEASE_20050508_A
1.1    kardel  *
1.2  christos  * $Created: Sun Jul 13 09:12:02 1997 $
1.1    kardel  *
1.1    kardel  * Copyright (c) 1997-2005 by Frank Kardel <kardel <AT> ntp.org>
1.1    kardel  *
1.1    kardel  * Redistribution and use in source and binary forms, with or without
1.1    kardel  * modification, are permitted provided that the following conditions
1.1    kardel  * are met:
1.1    kardel  * 1. Redistributions of source code must retain the above copyright
1.1    kardel  *    notice, this list of conditions and the following disclaimer.
1.1    kardel  * 2. Redistributions in binary form must reproduce the above copyright
1.1    kardel  *    notice, this list of conditions and the following disclaimer in the
1.1    kardel  *    documentation and/or other materials provided with the distribution.
1.1    kardel  * 3. Neither the name of the author nor the names of its contributors
1.1    kardel  *    may be used to endorse or promote products derived from this software
1.1    kardel  *    without specific prior written permission.
1.1    kardel  *
1.1    kardel  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.1    kardel  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1    kardel  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1    kardel  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.1    kardel  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1    kardel  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1    kardel  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1    kardel  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1    kardel  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1    kardel  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1    kardel  * SUCH DAMAGE.
1.1    kardel  *
1.1    kardel  */
1.1    kardel
1.1    kardel #ifdef HAVE_CONFIG_H
1.1    kardel #include "config.h"
1.1    kardel #endif
1.1    kardel
1.1    kardel #include <stdio.h>
1.1    kardel #include "l_stdlib.h"
1.1    kardel #include "ntp_stdlib.h"
1.1    kardel #include "ntp_fp.h"
1.1    kardel #include "ieee754io.h"
1.1    kardel
1.1    kardel static unsigned char get_byte (unsigned char *, offsets_t, int *);
1.1    kardel #ifdef __not_yet__
1.1    kardel static void put_byte (unsigned char *, offsets_t, int *, unsigned char);
1.1    kardel #endif
1.1    kardel
1.1    kardel #ifdef LIBDEBUG
1.1    kardel
1.1    kardel #include "lib_strbuf.h"
1.1    kardel
1.1    kardel static char *
1.1    kardel fmt_blong(
1.1    kardel 	  unsigned long val,
1.1    kardel 	  int cnt
1.1    kardel 	  )
1.1    kardel {
1.1    kardel   char *buf, *s;
1.1    kardel   int i = cnt;
1.1    kardel
1.1    kardel   val <<= 32 - cnt;
1.1    kardel   LIB_GETBUF(buf);
1.1    kardel   s = buf;
1.1    kardel
1.1    kardel   while (i--)
1.1    kardel     {
1.1    kardel       if (val & 0x80000000)
1.1    kardel 	{
1.1    kardel 	  *s++ = '1';
1.1    kardel 	}
1.1    kardel       else
1.1    kardel 	{
1.1    kardel 	  *s++ = '0';
1.1    kardel 	}
1.1    kardel       val <<= 1;
1.1    kardel     }
1.1    kardel   *s = '\0';
1.1    kardel   return buf;
1.1    kardel }
1.1    kardel
1.1    kardel static char *
1.1    kardel fmt_flt(
1.1    kardel 	unsigned int sign,
1.1    kardel 	unsigned long mh,
1.1    kardel 	unsigned long ml,
1.1    kardel 	unsigned long ch
1.1    kardel 	)
1.1    kardel {
1.2  christos 	char *buf;
1.1    kardel
1.2  christos 	LIB_GETBUF(buf);
1.2  christos 	snprintf(buf, LIB_BUFLENGTH, "%c %s %s %s", sign ? '-' : '+',
1.2  christos 		 fmt_blong(ch, 11),
1.2  christos 		 fmt_blong(mh, 20),
1.2  christos 		 fmt_blong(ml, 32));
1.2  christos
1.2  christos 	return buf;
1.1    kardel }
1.1    kardel
1.1    kardel static char *
1.1    kardel fmt_hex(
1.1    kardel 	unsigned char *bufp,
1.1    kardel 	int length
1.1    kardel 	)
1.1    kardel {
1.2  christos 	char *	buf;
1.2  christos 	char	hex[4];
1.2  christos 	int	i;
1.2  christos
1.2  christos 	LIB_GETBUF(buf);
1.2  christos 	buf[0] = '\0';
1.2  christos 	for (i = 0; i < length; i++) {
1.2  christos 		snprintf(hex, sizeof(hex), "%02x", bufp[i]);
1.2  christos 		strlcat(buf, hex, LIB_BUFLENGTH);
1.2  christos 	}
1.1    kardel
1.2  christos 	return buf;
1.1    kardel }
1.1    kardel
1.1    kardel #endif
1.1    kardel
1.1    kardel static unsigned char
1.1    kardel get_byte(
1.1    kardel 	 unsigned char *bufp,
1.1    kardel 	 offsets_t offset,
1.1    kardel 	 int *fieldindex
1.1    kardel 	 )
1.1    kardel {
1.1    kardel   unsigned char val;
1.1    kardel
1.1    kardel   val     = *(bufp + offset[*fieldindex]);
1.1    kardel #ifdef LIBDEBUG
1.1    kardel   if (debug > 4)
1.1    kardel     printf("fetchieee754: getbyte(0x%08x, %d) = 0x%02x\n", (unsigned int)(bufp)+offset[*fieldindex], *fieldindex, val);
1.1    kardel #endif
1.1    kardel   (*fieldindex)++;
1.1    kardel   return val;
1.1    kardel }
1.1    kardel
1.1    kardel #ifdef __not_yet__
1.1    kardel static void
1.1    kardel put_byte(
1.1    kardel 	 unsigned char *bufp,
1.1    kardel 	 offsets_t offsets,
1.1    kardel 	 int *fieldindex,
1.1    kardel 	 unsigned char val
1.1    kardel 	 )
1.1    kardel {
1.1    kardel   *(bufp + offsets[*fieldindex]) = val;
1.1    kardel   (*fieldindex)++;
1.1    kardel }
1.1    kardel #endif
1.1    kardel
1.1    kardel /*
1.1    kardel  * make conversions to and from external IEEE754 formats and internal
1.1    kardel  * NTP FP format.
1.1    kardel  */
1.1    kardel int
1.1    kardel fetch_ieee754(
1.1    kardel 	      unsigned char **buffpp,
1.1    kardel 	      int size,
1.1    kardel 	      l_fp *lfpp,
1.1    kardel 	      offsets_t offsets
1.1    kardel 	      )
1.1    kardel {
1.1    kardel   unsigned char *bufp = *buffpp;
1.1    kardel   unsigned int sign;
1.1    kardel   unsigned int bias;
1.1    kardel   unsigned int maxexp;
1.1    kardel   int mbits;
1.1    kardel   u_long mantissa_low;
1.1    kardel   u_long mantissa_high;
1.1    kardel   u_long characteristic;
1.1    kardel   long exponent;
1.1    kardel #ifdef LIBDEBUG
1.1    kardel   int length;
1.1    kardel #endif
1.1    kardel   unsigned char val;
1.1    kardel   int fieldindex = 0;
1.1    kardel
1.1    kardel   switch (size)
1.1    kardel     {
1.1    kardel     case IEEE_DOUBLE:
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       length = 8;
1.1    kardel #endif
1.1    kardel       mbits  = 52;
1.1    kardel       bias   = 1023;
1.1    kardel       maxexp = 2047;
1.1    kardel       break;
1.1    kardel
1.1    kardel     case IEEE_SINGLE:
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       length = 4;
1.1    kardel #endif
1.1    kardel       mbits  = 23;
1.1    kardel       bias   = 127;
1.1    kardel       maxexp = 255;
1.1    kardel       break;
1.1    kardel
1.1    kardel     default:
1.1    kardel       return IEEE_BADCALL;
1.1    kardel     }
1.1    kardel
1.1    kardel   val = get_byte(bufp, offsets, &fieldindex); /* fetch sign byte & first part of characteristic */
1.1    kardel
1.1    kardel   sign     = (val & 0x80) != 0;
1.1    kardel   characteristic = (val & 0x7F);
1.1    kardel
1.1    kardel   val = get_byte(bufp, offsets, &fieldindex); /* fetch rest of characteristic and start of mantissa */
1.1    kardel
1.1    kardel   switch (size)
1.1    kardel     {
1.1    kardel     case IEEE_SINGLE:
1.1    kardel       characteristic <<= 1;
1.1    kardel       characteristic  |= (val & 0x80) != 0; /* grab last characteristic bit */
1.1    kardel
1.1    kardel       mantissa_high  = 0;
1.1    kardel
1.1    kardel       mantissa_low   = (val &0x7F) << 16;
1.2  christos       mantissa_low  |= (u_long)get_byte(bufp, offsets, &fieldindex) << 8;
1.1    kardel       mantissa_low  |= get_byte(bufp, offsets, &fieldindex);
1.1    kardel       break;
1.1    kardel
1.1    kardel     case IEEE_DOUBLE:
1.1    kardel       characteristic <<= 4;
1.1    kardel       characteristic  |= (val & 0xF0) >> 4; /* grab lower characteristic bits */
1.1    kardel
1.1    kardel       mantissa_high  = (val & 0x0F) << 16;
1.2  christos       mantissa_high |= (u_long)get_byte(bufp, offsets, &fieldindex) << 8;
1.1    kardel       mantissa_high |= get_byte(bufp, offsets, &fieldindex);
1.1    kardel
1.2  christos       mantissa_low   = (u_long)get_byte(bufp, offsets, &fieldindex) << 24;
1.2  christos       mantissa_low  |= (u_long)get_byte(bufp, offsets, &fieldindex) << 16;
1.2  christos       mantissa_low  |= (u_long)get_byte(bufp, offsets, &fieldindex) << 8;
1.1    kardel       mantissa_low  |= get_byte(bufp, offsets, &fieldindex);
1.1    kardel       break;
1.1    kardel
1.1    kardel     default:
1.1    kardel       return IEEE_BADCALL;
1.1    kardel     }
1.1    kardel #ifdef LIBDEBUG
1.1    kardel   if (debug > 4)
1.1    kardel   {
1.1    kardel     double d;
1.1    kardel     float f;
1.1    kardel
1.1    kardel     if (size == IEEE_SINGLE)
1.1    kardel       {
1.1    kardel 	int i;
1.1    kardel
1.1    kardel 	for (i = 0; i < length; i++)
1.1    kardel 	  {
1.1    kardel 	    *((unsigned char *)(&f)+i) = *(*buffpp + offsets[i]);
1.1    kardel 	  }
1.1    kardel 	d = f;
1.1    kardel       }
1.1    kardel     else
1.1    kardel       {
1.1    kardel 	int i;
1.1    kardel
1.1    kardel 	for (i = 0; i < length; i++)
1.1    kardel 	  {
1.1    kardel 	    *((unsigned char *)(&d)+i) = *(*buffpp + offsets[i]);
1.1    kardel 	  }
1.1    kardel       }
1.1    kardel
1.1    kardel     printf("fetchieee754: FP: %s -> %s -> %e(=%s)\n", fmt_hex(*buffpp, length),
1.1    kardel 	   fmt_flt(sign, mantissa_high, mantissa_low, characteristic),
1.1    kardel 	   d, fmt_hex((unsigned char *)&d, length));
1.1    kardel   }
1.1    kardel #endif
1.1    kardel
1.1    kardel   *buffpp += fieldindex;
1.1    kardel
1.1    kardel   /*
1.1    kardel    * detect funny numbers
1.1    kardel    */
1.1    kardel   if (characteristic == maxexp)
1.1    kardel     {
1.1    kardel       /*
1.1    kardel        * NaN or Infinity
1.1    kardel        */
1.1    kardel       if (mantissa_low || mantissa_high)
1.1    kardel 	{
1.1    kardel 	  /*
1.1    kardel 	   * NaN
1.1    kardel 	   */
1.1    kardel 	  return IEEE_NAN;
1.1    kardel 	}
1.1    kardel       else
1.1    kardel 	{
1.1    kardel 	  /*
1.1    kardel 	   * +Inf or -Inf
1.1    kardel 	   */
1.1    kardel 	  return sign ? IEEE_NEGINFINITY : IEEE_POSINFINITY;
1.1    kardel 	}
1.1    kardel     }
1.1    kardel   else
1.1    kardel     {
1.1    kardel       /*
1.1    kardel        * collect real numbers
1.1    kardel        */
1.1    kardel
1.1    kardel       L_CLR(lfpp);
1.1    kardel
1.1    kardel       /*
1.1    kardel        * check for overflows
1.1    kardel        */
1.1    kardel       exponent = characteristic - bias;
1.1    kardel
1.1    kardel       if (exponent > 31)	/* sorry - hardcoded */
1.1    kardel 	{
1.1    kardel 	  /*
1.1    kardel 	   * overflow only in respect to NTP-FP representation
1.1    kardel 	   */
1.1    kardel 	  return sign ? IEEE_NEGOVERFLOW : IEEE_POSOVERFLOW;
1.1    kardel 	}
1.1    kardel       else
1.1    kardel 	{
1.1    kardel 	  int frac_offset;	/* where the fraction starts */
1.1    kardel
1.1    kardel 	  frac_offset = mbits - exponent;
1.1    kardel
1.1    kardel 	  if (characteristic == 0)
1.1    kardel 	    {
1.1    kardel 	      /*
1.1    kardel 	       * de-normalized or tiny number - fits only as 0
1.1    kardel 	       */
1.1    kardel 	      return IEEE_OK;
1.1    kardel 	    }
1.1    kardel 	  else
1.1    kardel 	    {
1.1    kardel 	      /*
1.1    kardel 	       * adjust for implied 1
1.1    kardel 	       */
1.1    kardel 	      if (mbits > 31)
1.1    kardel 		mantissa_high |= 1 << (mbits - 32);
1.1    kardel 	      else
1.1    kardel 		mantissa_low  |= 1 << mbits;
1.1    kardel
1.1    kardel 	      /*
1.1    kardel 	       * take mantissa apart - if only all machine would support
1.1    kardel 	       * 64 bit operations 8-(
1.1    kardel 	       */
1.1    kardel 	      if (frac_offset > mbits)
1.1    kardel 		{
1.1    kardel 		  lfpp->l_ui = 0; /* only fractional number */
1.1    kardel 		  frac_offset -= mbits + 1; /* will now contain right shift count - 1*/
1.1    kardel 		  if (mbits > 31)
1.1    kardel 		    {
1.1    kardel 		      lfpp->l_uf   = mantissa_high << (63 - mbits);
1.1    kardel 		      lfpp->l_uf  |= mantissa_low  >> (mbits - 33);
1.1    kardel 		      lfpp->l_uf >>= frac_offset;
1.1    kardel 		    }
1.1    kardel 		  else
1.1    kardel 		    {
1.1    kardel 		      lfpp->l_uf = mantissa_low >> frac_offset;
1.1    kardel 		    }
1.1    kardel 		}
1.1    kardel 	      else
1.1    kardel 		{
1.1    kardel 		  if (frac_offset > 32)
1.1    kardel 		    {
1.1    kardel 		      /*
1.1    kardel 		       * must split in high word
1.1    kardel 		       */
1.1    kardel 		      lfpp->l_ui  =  mantissa_high >> (frac_offset - 32);
1.1    kardel 		      lfpp->l_uf  = (mantissa_high & ((1 << (frac_offset - 32)) - 1)) << (64 - frac_offset);
1.1    kardel 		      lfpp->l_uf |=  mantissa_low  >> (frac_offset - 32);
1.1    kardel 		    }
1.1    kardel 		  else
1.1    kardel 		    {
1.1    kardel 		      /*
1.1    kardel 		       * must split in low word
1.1    kardel 		       */
1.1    kardel 		      lfpp->l_ui  =  mantissa_high << (32 - frac_offset);
1.1    kardel 		      lfpp->l_ui |= (mantissa_low >> frac_offset) & ((1 << (32 - frac_offset)) - 1);
1.1    kardel 		      lfpp->l_uf  = (mantissa_low & ((1 << frac_offset) - 1)) << (32 - frac_offset);
1.1    kardel 		    }
1.1    kardel 		}
1.1    kardel
1.1    kardel 	      /*
1.1    kardel 	       * adjust for sign
1.1    kardel 	       */
1.1    kardel 	      if (sign)
1.1    kardel 		{
1.1    kardel 		  L_NEG(lfpp);
1.1    kardel 		}
1.1    kardel
1.1    kardel 	      return IEEE_OK;
1.1    kardel 	    }
1.1    kardel 	}
1.1    kardel     }
1.1    kardel }
1.1    kardel
1.1    kardel int
1.1    kardel put_ieee754(
1.1    kardel 	    unsigned char **bufpp,
1.1    kardel 	    int size,
1.1    kardel 	    l_fp *lfpp,
1.1    kardel 	    offsets_t offsets
1.1    kardel 	    )
1.1    kardel {
1.1    kardel   l_fp outlfp;
1.1    kardel #ifdef LIBDEBUG
1.1    kardel   unsigned int sign;
1.1    kardel   unsigned int bias;
1.1    kardel #endif
1.1    kardel /*unsigned int maxexp;*/
1.1    kardel   int mbits;
1.1    kardel   int msb;
1.1    kardel   u_long mantissa_low = 0;
1.1    kardel   u_long mantissa_high = 0;
1.1    kardel #ifdef LIBDEBUG
1.1    kardel   u_long characteristic = 0;
1.1    kardel   long exponent;
1.1    kardel #endif
1.1    kardel /*int length;*/
1.1    kardel   unsigned long mask;
1.1    kardel
1.1    kardel   outlfp = *lfpp;
1.1    kardel
1.1    kardel   switch (size)
1.1    kardel     {
1.1    kardel     case IEEE_DOUBLE:
1.1    kardel     /*length = 8;*/
1.1    kardel       mbits  = 52;
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       bias   = 1023;
1.1    kardel #endif
1.1    kardel     /*maxexp = 2047;*/
1.1    kardel       break;
1.1    kardel
1.1    kardel     case IEEE_SINGLE:
1.1    kardel     /*length = 4;*/
1.1    kardel       mbits  = 23;
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       bias   = 127;
1.1    kardel #endif
1.1    kardel     /*maxexp = 255;*/
1.1    kardel       break;
1.1    kardel
1.1    kardel     default:
1.1    kardel       return IEEE_BADCALL;
1.1    kardel     }
1.1    kardel
1.1    kardel   /*
1.1    kardel    * find sign
1.1    kardel    */
1.1    kardel   if (L_ISNEG(&outlfp))
1.1    kardel     {
1.1    kardel       L_NEG(&outlfp);
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       sign = 1;
1.1    kardel #endif
1.1    kardel     }
1.1    kardel   else
1.1    kardel     {
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       sign = 0;
1.1    kardel #endif
1.1    kardel     }
1.1    kardel
1.1    kardel   if (L_ISZERO(&outlfp))
1.1    kardel     {
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       exponent = mantissa_high = mantissa_low = 0; /* true zero */
1.1    kardel #endif
1.1    kardel     }
1.1    kardel   else
1.1    kardel     {
1.1    kardel       /*
1.1    kardel        * find number of significant integer bits
1.1    kardel        */
1.1    kardel       mask = 0x80000000;
1.1    kardel       if (outlfp.l_ui)
1.1    kardel 	{
1.1    kardel 	  msb = 63;
1.1    kardel 	  while (mask && ((outlfp.l_ui & mask) == 0))
1.1    kardel 	    {
1.1    kardel 	      mask >>= 1;
1.1    kardel 	      msb--;
1.1    kardel 	    }
1.1    kardel 	}
1.1    kardel       else
1.1    kardel 	{
1.1    kardel 	  msb = 31;
1.1    kardel 	  while (mask && ((outlfp.l_uf & mask) == 0))
1.1    kardel 	    {
1.1    kardel 	      mask >>= 1;
1.1    kardel 	      msb--;
1.1    kardel 	    }
1.1    kardel 	}
1.1    kardel
1.1    kardel       switch (size)
1.1    kardel 	{
1.1    kardel 	case IEEE_SINGLE:
1.1    kardel 	  mantissa_high = 0;
1.1    kardel 	  if (msb >= 32)
1.1    kardel 	    {
1.1    kardel 	      mantissa_low  = (outlfp.l_ui & ((1 << (msb - 32)) - 1)) << (mbits - (msb - 32));
1.1    kardel 	      mantissa_low |=  outlfp.l_uf >> (mbits - (msb - 32));
1.1    kardel 	    }
1.1    kardel 	  else
1.1    kardel 	    {
1.1    kardel 	      mantissa_low  = (outlfp.l_uf << (mbits - msb)) & ((1 << mbits) - 1);
1.1    kardel 	    }
1.1    kardel 	  break;
1.1    kardel
1.1    kardel 	case IEEE_DOUBLE:
1.1    kardel 	  if (msb >= 32)
1.1    kardel 	    {
1.1    kardel 	      mantissa_high  = (outlfp.l_ui << (mbits - msb)) & ((1 << (mbits - 32)) - 1);
1.1    kardel 	      mantissa_high |=  outlfp.l_uf >> (32 - (mbits - msb));
1.1    kardel 	      mantissa_low   = (outlfp.l_ui & ((1 << (msb - mbits)) - 1)) << (32 - (msb - mbits));
1.1    kardel 	      mantissa_low  |=  outlfp.l_uf >> (msb - mbits);
1.1    kardel 	    }
1.1    kardel 	  else
1.1    kardel 	    {
1.1    kardel 	      mantissa_high  = outlfp.l_uf << (mbits - 32 - msb);
1.1    kardel 	      mantissa_low   = outlfp.l_uf << (mbits - 32);
1.1    kardel 	    }
1.1    kardel 	}
1.1    kardel
1.1    kardel #ifdef LIBDEBUG
1.1    kardel       exponent = msb - 32;
1.1    kardel       characteristic = exponent + bias;
1.1    kardel
1.1    kardel       if (debug > 4)
1.1    kardel 	printf("FP: %s\n", fmt_flt(sign, mantissa_high, mantissa_low, characteristic));
1.1    kardel #endif
1.1    kardel     }
1.1    kardel   return IEEE_OK;
1.1    kardel }
1.1    kardel
1.1    kardel
1.1    kardel #if defined(DEBUG) && defined(LIBDEBUG)
1.1    kardel int main(
1.1    kardel 	 int argc,
1.1    kardel 	 char **argv
1.1    kardel 	 )
1.1    kardel {
1.1    kardel   static offsets_t native_off = { 0, 1, 2, 3, 4, 5, 6, 7 };
1.1    kardel   double f = 1.0;
1.1    kardel   double *f_p = &f;
1.1    kardel   l_fp fp;
1.1    kardel
1.1    kardel   if (argc == 2)
1.1    kardel     {
1.1    kardel       if (sscanf(argv[1], "%lf", &f) != 1)
1.1    kardel 	{
1.1    kardel 	  printf("cannot convert %s to a float\n", argv[1]);
1.1    kardel 	  return 1;
1.1    kardel 	}
1.1    kardel     }
1.1    kardel
1.1    kardel   printf("double: %s %s\n", fmt_blong(*(unsigned long *)&f, 32), fmt_blong(*(unsigned long *)((char *)(&f)+4), 32));
1.1    kardel   printf("fetch from %f = %d\n", f, fetch_ieee754((void *)&f_p, IEEE_DOUBLE, &fp, native_off));
1.1    kardel   printf("fp [%s %s] = %s\n", fmt_blong(fp.l_ui, 32), fmt_blong(fp.l_uf, 32), mfptoa(fp.l_ui, fp.l_uf, 15));
1.1    kardel   f_p = &f;
1.1    kardel   put_ieee754((void *)&f_p, IEEE_DOUBLE, &fp, native_off);
1.1    kardel
1.1    kardel   return 0;
1.1    kardel }
1.1    kardel
1.1    kardel #endif
1.1    kardel /*
1.1    kardel  * History:
1.1    kardel  *
1.1    kardel  * ieee754io.c,v
1.1    kardel  * Revision 4.12  2005/04/16 17:32:10  kardel
1.1    kardel  * update copyright
1.1    kardel  *
1.1    kardel  * Revision 4.11  2004/11/14 15:29:41  kardel
1.1    kardel  * support PPSAPI, upgrade Copyright to Berkeley style
1.1    kardel  *
1.1    kardel  * Revision 4.8  1999/02/21 12:17:36  kardel
1.1    kardel  * 4.91f reconcilation
1.1    kardel  *
1.1    kardel  * Revision 4.7  1999/02/21 11:26:03  kardel
1.1    kardel  * renamed index to fieldindex to avoid index() name clash
1.1    kardel  *
1.1    kardel  * Revision 4.6  1998/11/15 20:27:52  kardel
1.1    kardel  * Release 4.0.73e13 reconcilation
1.1    kardel  *
1.1    kardel  * Revision 4.5  1998/08/16 19:01:51  kardel
1.1    kardel  * debug information only compile for LIBDEBUG case
1.1    kardel  *
1.1    kardel  * Revision 4.4  1998/08/09 09:39:28  kardel
1.1    kardel  * Release 4.0.73e2 reconcilation
1.1    kardel  *
1.1    kardel  * Revision 4.3  1998/06/13 11:56:19  kardel
1.1    kardel  * disabled putbute() for the time being
1.1    kardel  *
1.1    kardel  * Revision 4.2  1998/06/12 15:16:58  kardel
1.1    kardel  * ansi2knr compatibility
1.1    kardel  *
1.1    kardel  * Revision 4.1  1998/05/24 07:59:56  kardel
1.1    kardel  * conditional debug support
1.1    kardel  *
1.1    kardel  * Revision 4.0  1998/04/10 19:46:29  kardel
1.1    kardel  * Start 4.0 release version numbering
1.1    kardel  *
1.1    kardel  * Revision 1.1  1998/04/10 19:27:46  kardel
1.1    kardel  * initial NTP VERSION 4 integration of PARSE with GPS166 binary support
1.1    kardel  *
1.1    kardel  * Revision 1.1  1997/10/06 21:05:45  kardel
1.1    kardel  * new parse structure
1.1    kardel  *
1.1    kardel  */