freebsd-skq/contrib/bc/dc/numeric.c

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/*
* interface dc to the bc numeric routines
*
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* Copyright (C) 1994, 1997, 1998, 2000 Free Software Foundation, Inc.
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*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you can either send email to this
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* program's author (see below) or write to:
* The Free Software Foundation, Inc.
* 59 Temple Place, Suite 330
* Boston, MA 02111 USA
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*/
/* This should be the only module that knows the internals of type dc_num */
/* In this particular implementation we just slather out some glue and
* make use of bc's numeric routines.
*/
#include "config.h"
#include <stdio.h>
#include <ctype.h>
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#ifdef HAVE_LIMITS_H
# include <limits.h>
#else
# define UCHAR_MAX ((unsigned char)~0)
#endif
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#include <stdlib.h>
#include "number.h"
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#include "dc.h"
#include "dc-proto.h"
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#ifdef __GNUC__
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# if __GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__-0 >= 7)
# define ATTRIB(x) __attribute__(x)
# endif
#endif
#ifndef ATTRIB
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# define ATTRIB(x)
#endif
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/* Forward prototype */
static void out_char (int);
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/* there is no POSIX standard for dc, so we'll take the GNU definitions */
int std_only = FALSE;
/* convert an opaque dc_num into a real bc_num */
#define CastNum(x) ((bc_num)(x))
/* add two dc_nums, place into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_add DC_DECLARG((a, b, kscale, result))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
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int kscale ATTRIB((unused)) DC_DECLSEP
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dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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bc_add(CastNum(a), CastNum(b), (bc_num *)result, 0);
return DC_SUCCESS;
}
/* subtract two dc_nums, place into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_sub DC_DECLARG((a, b, kscale, result))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
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int kscale ATTRIB((unused)) DC_DECLSEP
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dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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bc_sub(CastNum(a), CastNum(b), (bc_num *)result, 0);
return DC_SUCCESS;
}
/* multiply two dc_nums, place into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_mul DC_DECLARG((a, b, kscale, result))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
int kscale DC_DECLSEP
dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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bc_multiply(CastNum(a), CastNum(b), (bc_num *)result, kscale);
return DC_SUCCESS;
}
/* divide two dc_nums, place into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_div DC_DECLARG((a, b, kscale, result))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
int kscale DC_DECLSEP
dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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if (bc_divide(CastNum(a), CastNum(b), (bc_num *)result, kscale)){
fprintf(stderr, "%s: divide by zero\n", progname);
return DC_DOMAIN_ERROR;
}
return DC_SUCCESS;
}
/* divide two dc_nums, place quotient into *quotient and remainder
* into *remainder;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_divrem DC_DECLARG((a, b, kscale, quotient, remainder))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
int kscale DC_DECLSEP
dc_num *quotient DC_DECLSEP
dc_num *remainder DC_DECLEND
{
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bc_init_num((bc_num *)quotient);
bc_init_num((bc_num *)remainder);
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if (bc_divmod(CastNum(a), CastNum(b),
(bc_num *)quotient, (bc_num *)remainder, kscale)){
fprintf(stderr, "%s: divide by zero\n", progname);
return DC_DOMAIN_ERROR;
}
return DC_SUCCESS;
}
/* place the reminder of dividing a by b into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_rem DC_DECLARG((a, b, kscale, result))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
int kscale DC_DECLSEP
dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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if (bc_modulo(CastNum(a), CastNum(b), (bc_num *)result, kscale)){
fprintf(stderr, "%s: remainder by zero\n", progname);
return DC_DOMAIN_ERROR;
}
return DC_SUCCESS;
}
int
dc_modexp DC_DECLARG((base, expo, mod, kscale, result))
dc_num base DC_DECLSEP
dc_num expo DC_DECLSEP
dc_num mod DC_DECLSEP
int kscale DC_DECLSEP
dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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if (bc_raisemod(CastNum(base), CastNum(expo), CastNum(mod),
(bc_num *)result, kscale)){
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if (bc_is_zero(CastNum(mod)))
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fprintf(stderr, "%s: remainder by zero\n", progname);
return DC_DOMAIN_ERROR;
}
return DC_SUCCESS;
}
/* place the result of exponentiationg a by b into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_exp DC_DECLARG((a, b, kscale, result))
dc_num a DC_DECLSEP
dc_num b DC_DECLSEP
int kscale DC_DECLSEP
dc_num *result DC_DECLEND
{
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bc_init_num((bc_num *)result);
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bc_raise(CastNum(a), CastNum(b), (bc_num *)result, kscale);
return DC_SUCCESS;
}
/* take the square root of the value, place into *result;
* return DC_SUCCESS on success, DC_DOMAIN_ERROR on domain error
*/
int
dc_sqrt DC_DECLARG((value, kscale, result))
dc_num value DC_DECLSEP
int kscale DC_DECLSEP
dc_num *result DC_DECLEND
{
bc_num tmp;
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tmp = bc_copy_num(CastNum(value));
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if (!bc_sqrt(&tmp, kscale)){
fprintf(stderr, "%s: square root of negative number\n", progname);
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bc_free_num(&tmp);
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return DC_DOMAIN_ERROR;
}
*((bc_num *)result) = tmp;
return DC_SUCCESS;
}
/* compare dc_nums a and b;
* return a negative value if a < b;
* return a positive value if a > b;
* return zero value if a == b
*/
int
dc_compare DC_DECLARG((a, b))
dc_num a DC_DECLSEP
dc_num b DC_DECLEND
{
return bc_compare(CastNum(a), CastNum(b));
}
/* attempt to convert a dc_num to its corresponding int value
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* If discard_p is DC_TOSS then deallocate the value after use.
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*/
int
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dc_num2int DC_DECLARG((value, discard_p))
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dc_num value DC_DECLSEP
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dc_discard discard_p DC_DECLEND
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{
long result;
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result = bc_num2long(CastNum(value));
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if (discard_p == DC_TOSS)
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dc_free_num(&value);
return (int)result;
}
/* convert a C integer value into a dc_num */
/* For convenience of the caller, package the dc_num
* into a dc_data result.
*/
dc_data
dc_int2data DC_DECLARG((value))
int value DC_DECLEND
{
dc_data result;
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bc_init_num((bc_num *)&result.v.number);
bc_int2num((bc_num *)&result.v.number, value);
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result.dc_type = DC_NUMBER;
return result;
}
/* get a dc_num from some input stream;
* input is a function which knows how to read the desired input stream
* ibase is the input base (2<=ibase<=DC_IBASE_MAX)
* *readahead will be set to the readahead character consumed while
* looking for the end-of-number
*/
/* For convenience of the caller, package the dc_num
* into a dc_data result.
*/
dc_data
dc_getnum DC_DECLARG((input, ibase, readahead))
int (*input) DC_PROTO((void)) DC_DECLSEP
int ibase DC_DECLSEP
int *readahead DC_DECLEND
{
bc_num base;
bc_num result;
bc_num build;
bc_num tmp;
bc_num divisor;
dc_data full_result;
int negative = 0;
int digit;
int decimal;
int c;
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bc_init_num(&tmp);
bc_init_num(&build);
bc_init_num(&base);
result = bc_copy_num(_zero_);
bc_int2num(&base, ibase);
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c = (*input)();
while (isspace(c))
c = (*input)();
if (c == '_' || c == '-'){
negative = c;
c = (*input)();
}else if (c == '+'){
c = (*input)();
}
while (isspace(c))
c = (*input)();
for (;;){
if (isdigit(c))
digit = c - '0';
else if ('A' <= c && c <= 'F')
digit = 10 + c - 'A';
else
break;
c = (*input)();
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bc_int2num(&tmp, digit);
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bc_multiply(result, base, &result, 0);
bc_add(result, tmp, &result, 0);
}
if (c == '.'){
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bc_free_num(&build);
bc_free_num(&tmp);
divisor = bc_copy_num(_one_);
build = bc_copy_num(_zero_);
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decimal = 0;
for (;;){
c = (*input)();
if (isdigit(c))
digit = c - '0';
else if ('A' <= c && c <= 'F')
digit = 10 + c - 'A';
else
break;
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bc_int2num(&tmp, digit);
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bc_multiply(build, base, &build, 0);
bc_add(build, tmp, &build, 0);
bc_multiply(divisor, base, &divisor, 0);
++decimal;
}
bc_divide(build, divisor, &build, decimal);
bc_add(result, build, &result, 0);
}
/* Final work. */
if (negative)
bc_sub(_zero_, result, &result, 0);
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bc_free_num(&tmp);
bc_free_num(&build);
bc_free_num(&base);
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if (readahead)
*readahead = c;
full_result.v.number = (dc_num)result;
full_result.dc_type = DC_NUMBER;
return full_result;
}
/* return the "length" of the number */
int
dc_numlen DC_DECLARG((value))
dc_num value DC_DECLEND
{
bc_num num = CastNum(value);
/* is this right??? */
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return num->n_len + num->n_scale - (*num->n_value == '\0');
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}
/* return the scale factor of the passed dc_num
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* If discard_p is DC_TOSS then deallocate the value after use.
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*/
int
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dc_tell_scale DC_DECLARG((value, discard_p))
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dc_num value DC_DECLSEP
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dc_discard discard_p DC_DECLEND
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{
int kscale;
kscale = CastNum(value)->n_scale;
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if (discard_p == DC_TOSS)
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dc_free_num(&value);
return kscale;
}
/* initialize the math subsystem */
void
dc_math_init DC_DECLVOID()
{
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bc_init_numbers();
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}
/* print out a dc_num in output base obase to stdout;
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* if newline_p is DC_WITHNL, terminate output with a '\n';
* if discard_p is DC_TOSS then deallocate the value after use
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*/
void
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dc_out_num DC_DECLARG((value, obase, newline_p, discard_p))
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dc_num value DC_DECLSEP
int obase DC_DECLSEP
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dc_newline newline_p DC_DECLSEP
dc_discard discard_p DC_DECLEND
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{
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out_char('\0'); /* clear the column counter */
bc_out_num(CastNum(value), obase, out_char, 0);
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if (newline_p == DC_WITHNL)
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putchar ('\n');
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if (discard_p == DC_TOSS)
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dc_free_num(&value);
}
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/* dump out the absolute value of the integer part of a
* dc_num as a byte stream, without any line wrapping;
* if discard_p is DC_TOSS then deallocate the value after use
*/
void
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dc_dump_num DC_DECLARG((dcvalue, discard_p))
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dc_num dcvalue DC_DECLSEP
dc_discard discard_p DC_DECLEND
{
struct digit_stack { int digit; struct digit_stack *link;};
struct digit_stack *top_of_stack = NULL;
struct digit_stack *cur;
struct digit_stack *next;
bc_num value;
bc_num obase;
bc_num digit;
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bc_init_num(&value);
bc_init_num(&obase);
bc_init_num(&digit);
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/* we only handle the integer portion: */
bc_divide(CastNum(dcvalue), _one_, &value, 0);
/* we only handle the absolute value: */
value->n_sign = PLUS;
/* we're done with the dcvalue parameter: */
if (discard_p == DC_TOSS)
dc_free_num(&dcvalue);
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bc_int2num(&obase, 1+UCHAR_MAX);
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do {
(void) bc_divmod(value, obase, &value, &digit, 0);
cur = dc_malloc(sizeof *cur);
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cur->digit = (int)bc_num2long(digit);
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cur->link = top_of_stack;
top_of_stack = cur;
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} while (!bc_is_zero(value));
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for (cur=top_of_stack; cur; cur=next) {
putchar(cur->digit);
next = cur->link;
free(cur);
}
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bc_free_num(&digit);
bc_free_num(&obase);
bc_free_num(&value);
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}
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/* deallocate an instance of a dc_num */
void
dc_free_num DC_DECLARG((value))
dc_num *value DC_DECLEND
{
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bc_free_num((bc_num *)value);
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}
/* return a duplicate of the number in the passed value */
/* The mismatched data types forces the caller to deal with
* bad dc_type'd dc_data values, and makes it more convenient
* for the caller to not have to do the grunge work of setting
* up a dc_type result.
*/
dc_data
dc_dup_num DC_DECLARG((value))
dc_num value DC_DECLEND
{
dc_data result;
++CastNum(value)->n_refs;
result.v.number = value;
result.dc_type = DC_NUMBER;
return result;
}
/*---------------------------------------------------------------------------\
| The rest of this file consists of stubs for bc routines called by numeric.c|
| so as to minimize the amount of bc code needed to build dc. |
| The bulk of the code was just lifted straight out of the bc source. |
\---------------------------------------------------------------------------*/
#ifdef HAVE_STDLIB_H
# include <stdlib.h>
#endif
#ifdef HAVE_STDARG_H
# include <stdarg.h>
#else
# include <varargs.h>
#endif
int out_col = 0;
/* Output routines: Write a character CH to the standard output.
It keeps track of the number of characters output and may
break the output with a "\<cr>". */
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static void
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out_char (ch)
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int ch;
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{
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if (ch == '\0')
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{
out_col = 0;
}
else
{
out_col++;
if (out_col == 70)
{
putchar ('\\');
putchar ('\n');
out_col = 1;
}
putchar (ch);
}
}
/* Malloc could not get enough memory. */
void
out_of_memory()
{
dc_memfail();
}
/* Runtime error will print a message and stop the machine. */
#ifdef HAVE_STDARG_H
#ifdef __STDC__
void
rt_error (char *mesg, ...)
#else
void
rt_error (mesg)
char *mesg;
#endif
#else
void
rt_error (mesg, va_alist)
char *mesg;
#endif
{
va_list args;
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fprintf (stderr, "Runtime error: ");
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#ifdef HAVE_STDARG_H
va_start (args, mesg);
#else
va_start (args);
#endif
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vfprintf (stderr, mesg, args);
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va_end (args);
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fprintf (stderr, "\n");
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}
/* A runtime warning tells of some action taken by the processor that
may change the program execution but was not enough of a problem
to stop the execution. */
#ifdef HAVE_STDARG_H
#ifdef __STDC__
void
rt_warn (char *mesg, ...)
#else
void
rt_warn (mesg)
char *mesg;
#endif
#else
void
rt_warn (mesg, va_alist)
char *mesg;
#endif
{
va_list args;
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fprintf (stderr, "Runtime warning: ");
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#ifdef HAVE_STDARG_H
va_start (args, mesg);
#else
va_start (args);
#endif
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vfprintf (stderr, mesg, args);
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va_end (args);
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fprintf (stderr, "\n");
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}