518 lines
13 KiB
C
518 lines
13 KiB
C
/* atof_vax.c - turn a Flonum into a VAX floating point number
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Copyright 1987, 1992, 1993, 1995, 1997, 1999, 2000
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Free Software Foundation, Inc.
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This file is part of GAS, the GNU Assembler.
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GAS is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.
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GAS is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GAS; see the file COPYING. If not, write to the Free
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Software Foundation, 59 Temple Place - Suite 330, Boston, MA
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02111-1307, USA. */
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#include "as.h"
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static int atof_vax_sizeof PARAMS ((int));
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static int next_bits PARAMS ((int));
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static void make_invalid_floating_point_number PARAMS ((LITTLENUM_TYPE *));
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static int what_kind_of_float PARAMS ((int, int *, long *));
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static char *atof_vax PARAMS ((char *, int, LITTLENUM_TYPE *));
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/* Precision in LittleNums. */
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#define MAX_PRECISION (8)
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#define H_PRECISION (8)
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#define G_PRECISION (4)
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#define D_PRECISION (4)
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#define F_PRECISION (2)
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/* Length in LittleNums of guard bits. */
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#define GUARD (2)
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int flonum_gen2vax PARAMS ((int format_letter, FLONUM_TYPE * f,
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LITTLENUM_TYPE * words));
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/* Number of chars in flonum type 'letter'. */
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static int
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atof_vax_sizeof (letter)
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int letter;
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{
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int return_value;
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/*
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* Permitting uppercase letters is probably a bad idea.
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* Please use only lower-cased letters in case the upper-cased
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* ones become unsupported!
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*/
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switch (letter)
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{
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case 'f':
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case 'F':
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return_value = 4;
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break;
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case 'd':
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case 'D':
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case 'g':
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case 'G':
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return_value = 8;
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break;
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case 'h':
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case 'H':
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return_value = 16;
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break;
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default:
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return_value = 0;
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break;
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}
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return (return_value);
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} /* atof_vax_sizeof */
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static const long mask[] =
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{
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0x00000000,
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0x00000001,
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0x00000003,
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0x00000007,
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0x0000000f,
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0x0000001f,
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0x0000003f,
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0x0000007f,
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0x000000ff,
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0x000001ff,
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0x000003ff,
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0x000007ff,
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0x00000fff,
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0x00001fff,
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0x00003fff,
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0x00007fff,
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0x0000ffff,
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0x0001ffff,
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0x0003ffff,
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0x0007ffff,
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0x000fffff,
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0x001fffff,
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0x003fffff,
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0x007fffff,
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0x00ffffff,
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0x01ffffff,
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0x03ffffff,
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0x07ffffff,
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0x0fffffff,
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0x1fffffff,
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0x3fffffff,
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0x7fffffff,
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0xffffffff
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};
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/* Shared between flonum_gen2vax and next_bits */
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static int bits_left_in_littlenum;
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static LITTLENUM_TYPE *littlenum_pointer;
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static LITTLENUM_TYPE *littlenum_end;
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static int
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next_bits (number_of_bits)
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int number_of_bits;
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{
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int return_value;
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if (littlenum_pointer < littlenum_end)
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return 0;
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if (number_of_bits >= bits_left_in_littlenum)
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{
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return_value = mask[bits_left_in_littlenum] & *littlenum_pointer;
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number_of_bits -= bits_left_in_littlenum;
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return_value <<= number_of_bits;
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bits_left_in_littlenum = LITTLENUM_NUMBER_OF_BITS - number_of_bits;
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littlenum_pointer--;
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if (littlenum_pointer >= littlenum_end)
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return_value |= ((*littlenum_pointer) >> (bits_left_in_littlenum)) & mask[number_of_bits];
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}
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else
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{
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bits_left_in_littlenum -= number_of_bits;
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return_value = mask[number_of_bits] & ((*littlenum_pointer) >> bits_left_in_littlenum);
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}
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return (return_value);
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}
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static void
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make_invalid_floating_point_number (words)
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LITTLENUM_TYPE *words;
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{
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*words = 0x8000; /* Floating Reserved Operand Code */
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}
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static int /* 0 means letter is OK. */
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what_kind_of_float (letter, precisionP, exponent_bitsP)
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int letter; /* In: lowercase please. What kind of float? */
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int *precisionP; /* Number of 16-bit words in the float. */
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long *exponent_bitsP; /* Number of exponent bits. */
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{
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int retval; /* 0: OK. */
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retval = 0;
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switch (letter)
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{
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case 'f':
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*precisionP = F_PRECISION;
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*exponent_bitsP = 8;
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break;
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case 'd':
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*precisionP = D_PRECISION;
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*exponent_bitsP = 8;
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break;
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case 'g':
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*precisionP = G_PRECISION;
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*exponent_bitsP = 11;
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break;
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case 'h':
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*precisionP = H_PRECISION;
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*exponent_bitsP = 15;
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break;
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default:
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retval = 69;
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break;
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}
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return (retval);
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}
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/***********************************************************************\
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* *
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* Warning: this returns 16-bit LITTLENUMs, because that is *
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* what the VAX thinks in. It is up to the caller to figure *
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* out any alignment problems and to conspire for the bytes/word *
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* to be emitted in the right order. Bigendians beware! *
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* *
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\***********************************************************************/
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static char * /* Return pointer past text consumed. */
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atof_vax (str, what_kind, words)
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char *str; /* Text to convert to binary. */
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int what_kind; /* 'd', 'f', 'g', 'h' */
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LITTLENUM_TYPE *words; /* Build the binary here. */
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{
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FLONUM_TYPE f;
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LITTLENUM_TYPE bits[MAX_PRECISION + MAX_PRECISION + GUARD];
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/* Extra bits for zeroed low-order bits. */
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/* The 1st MAX_PRECISION are zeroed, */
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/* the last contain flonum bits. */
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char *return_value;
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int precision; /* Number of 16-bit words in the format. */
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long exponent_bits;
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return_value = str;
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f.low = bits + MAX_PRECISION;
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f.high = NULL;
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f.leader = NULL;
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f.exponent = 0;
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f.sign = '\0';
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if (what_kind_of_float (what_kind, &precision, &exponent_bits))
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{
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return_value = NULL; /* We lost. */
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make_invalid_floating_point_number (words);
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}
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if (return_value)
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{
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memset (bits, '\0', sizeof (LITTLENUM_TYPE) * MAX_PRECISION);
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/* Use more LittleNums than seems */
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/* necessary: the highest flonum may have */
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/* 15 leading 0 bits, so could be useless. */
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f.high = f.low + precision - 1 + GUARD;
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if (atof_generic (&return_value, ".", "eE", &f))
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{
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make_invalid_floating_point_number (words);
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return_value = NULL; /* we lost */
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}
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else
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{
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if (flonum_gen2vax (what_kind, &f, words))
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{
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return_value = NULL;
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}
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}
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}
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return (return_value);
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} /* atof_vax() */
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/*
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* In: a flonum, a vax floating point format.
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* Out: a vax floating-point bit pattern.
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*/
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int /* 0: OK. */
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flonum_gen2vax (format_letter, f, words)
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int format_letter; /* One of 'd' 'f' 'g' 'h'. */
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FLONUM_TYPE *f;
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LITTLENUM_TYPE *words; /* Deliver answer here. */
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{
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LITTLENUM_TYPE *lp;
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int precision;
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long exponent_bits;
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int return_value; /* 0 == OK. */
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return_value = what_kind_of_float (format_letter, &precision, &exponent_bits);
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if (return_value != 0)
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{
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make_invalid_floating_point_number (words);
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}
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else
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{
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if (f->low > f->leader)
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{
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/* 0.0e0 seen. */
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memset (words, '\0', sizeof (LITTLENUM_TYPE) * precision);
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}
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else
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{
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long exponent_1;
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long exponent_2;
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long exponent_3;
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long exponent_4;
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int exponent_skippage;
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LITTLENUM_TYPE word1;
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/* JF: Deal with new Nan, +Inf and -Inf codes */
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if (f->sign != '-' && f->sign != '+')
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{
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make_invalid_floating_point_number (words);
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return return_value;
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}
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/*
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* All vaxen floating_point formats (so far) have:
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* Bit 15 is sign bit.
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* Bits 14:n are excess-whatever exponent.
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* Bits n-1:0 (if any) are most significant bits of fraction.
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* Bits 15:0 of the next word are the next most significant bits.
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* And so on for each other word.
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*
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* All this to be compatible with a KF11?? (Which is still faster
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* than lots of vaxen I can think of, but it also has higher
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* maintenance costs ... sigh).
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*
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* So we need: number of bits of exponent, number of bits of
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* mantissa.
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*/
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#ifdef NEVER /******* This zeroing seems redundant - Dean 3may86 **********/
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/*
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* No matter how few bits we got back from the atof()
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* routine, add enough zero littlenums so the rest of the
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* code won't run out of "significant" bits in the mantissa.
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*/
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{
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LITTLENUM_TYPE *ltp;
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for (ltp = f->leader + 1;
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ltp <= f->low + precision;
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ltp++)
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{
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*ltp = 0;
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}
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}
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#endif
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bits_left_in_littlenum = LITTLENUM_NUMBER_OF_BITS;
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littlenum_pointer = f->leader;
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littlenum_end = f->low;
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/* Seek (and forget) 1st significant bit */
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for (exponent_skippage = 0;
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!next_bits (1);
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exponent_skippage++);;
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exponent_1 = f->exponent + f->leader + 1 - f->low;
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/* Radix LITTLENUM_RADIX, point just higher than f->leader. */
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exponent_2 = exponent_1 * LITTLENUM_NUMBER_OF_BITS;
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/* Radix 2. */
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exponent_3 = exponent_2 - exponent_skippage;
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/* Forget leading zeros, forget 1st bit. */
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exponent_4 = exponent_3 + (1 << (exponent_bits - 1));
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/* Offset exponent. */
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if (exponent_4 & ~mask[exponent_bits])
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{
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/*
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* Exponent overflow. Lose immediately.
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*/
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make_invalid_floating_point_number (words);
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/*
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* We leave return_value alone: admit we read the
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* number, but return a floating exception
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* because we can't encode the number.
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*/
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}
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else
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{
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lp = words;
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/* Word 1. Sign, exponent and perhaps high bits. */
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/* Assume 2's complement integers. */
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word1 = (((exponent_4 & mask[exponent_bits]) << (15 - exponent_bits))
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| ((f->sign == '+') ? 0 : 0x8000)
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| next_bits (15 - exponent_bits));
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*lp++ = word1;
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/* The rest of the words are just mantissa bits. */
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for (; lp < words + precision; lp++)
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{
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*lp = next_bits (LITTLENUM_NUMBER_OF_BITS);
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}
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if (next_bits (1))
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{
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/*
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* Since the NEXT bit is a 1, round UP the mantissa.
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* The cunning design of these hidden-1 floats permits
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* us to let the mantissa overflow into the exponent, and
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* it 'does the right thing'. However, we lose if the
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* highest-order bit of the lowest-order word flips.
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* Is that clear?
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*/
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unsigned long carry;
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/*
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#if (sizeof(carry)) < ((sizeof(bits[0]) * BITS_PER_CHAR) + 2)
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Please allow at least 1 more bit in carry than is in a LITTLENUM.
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We need that extra bit to hold a carry during a LITTLENUM carry
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propagation. Another extra bit (kept 0) will assure us that we
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don't get a sticky sign bit after shifting right, and that
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permits us to propagate the carry without any masking of bits.
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#endif
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*/
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for (carry = 1, lp--;
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carry && (lp >= words);
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lp--)
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{
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carry = *lp + carry;
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*lp = carry;
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carry >>= LITTLENUM_NUMBER_OF_BITS;
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}
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if ((word1 ^ *words) & (1 << (LITTLENUM_NUMBER_OF_BITS - 1)))
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{
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make_invalid_floating_point_number (words);
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/*
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* We leave return_value alone: admit we read the
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* number, but return a floating exception
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* because we can't encode the number.
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*/
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}
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} /* if (we needed to round up) */
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} /* if (exponent overflow) */
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} /* if (0.0e0) */
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} /* if (float_type was OK) */
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return (return_value);
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} /* flonum_gen2vax() */
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/* JF this used to be in vax.c but this looks like a better place for it */
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/*
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* md_atof()
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*
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* In: input_line_pointer->the 1st character of a floating-point
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* number.
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* 1 letter denoting the type of statement that wants a
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* binary floating point number returned.
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* Address of where to build floating point literal.
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* Assumed to be 'big enough'.
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* Address of where to return size of literal (in chars).
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*
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* Out: Input_line_pointer->of next char after floating number.
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* Error message, or 0.
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* Floating point literal.
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* Number of chars we used for the literal.
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*/
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#define MAXIMUM_NUMBER_OF_LITTLENUMS (8) /* For .hfloats. */
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char *
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md_atof (what_statement_type, literalP, sizeP)
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int what_statement_type;
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char *literalP;
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int *sizeP;
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{
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LITTLENUM_TYPE words[MAXIMUM_NUMBER_OF_LITTLENUMS];
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register char kind_of_float;
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register int number_of_chars;
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register LITTLENUM_TYPE *littlenumP;
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switch (what_statement_type)
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{
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case 'F': /* .float */
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case 'f': /* .ffloat */
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kind_of_float = 'f';
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break;
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case 'D': /* .double */
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case 'd': /* .dfloat */
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kind_of_float = 'd';
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break;
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case 'g': /* .gfloat */
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kind_of_float = 'g';
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break;
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case 'h': /* .hfloat */
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kind_of_float = 'h';
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break;
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default:
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kind_of_float = 0;
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break;
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};
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if (kind_of_float)
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{
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register LITTLENUM_TYPE *limit;
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input_line_pointer = atof_vax (input_line_pointer,
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kind_of_float,
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words);
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/*
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* The atof_vax() builds up 16-bit numbers.
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* Since the assembler may not be running on
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* a little-endian machine, be very careful about
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* converting words to chars.
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*/
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number_of_chars = atof_vax_sizeof (kind_of_float);
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know (number_of_chars <= MAXIMUM_NUMBER_OF_LITTLENUMS * sizeof (LITTLENUM_TYPE));
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limit = words + (number_of_chars / sizeof (LITTLENUM_TYPE));
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for (littlenumP = words; littlenumP < limit; littlenumP++)
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{
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md_number_to_chars (literalP, *littlenumP, sizeof (LITTLENUM_TYPE));
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literalP += sizeof (LITTLENUM_TYPE);
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};
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}
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else
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{
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number_of_chars = 0;
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};
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*sizeP = number_of_chars;
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return kind_of_float ? NULL : _("Bad call to md_atof()");
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}
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/* end of atof-vax.c */
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