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authorPaul Eggert <eggert@CS.UCLA.EDU>2008-10-24 22:43:40 +0200
committerJim Meyering <meyering@redhat.com>2008-10-25 21:05:41 +0200
commitfec0e89c20db8772854335382aceb260cb7abef2 (patch)
tree943f5fe36b7d34aca38a1f652d01c4d4a1aaeaa6
parent407e8f0fdd74b04a266dafa01ca896779f7706a1 (diff)
downloadcoreutils-fec0e89c20db8772854335382aceb260cb7abef2.tar.xz
factor: remove --bignum and --no-bignum options
Here's a patch to remove the --bignum and --no-bignum options from 'factor'. The case for removing --bignum isn't as strong as that for 'expr', but still, it seems to me that these options are not needed and complicate the documentation unnecessarily. * doc/coreutils.texi (factor invocation): Remove --bignum, --no-bignum. * src/factor.c (algorithm, ALGORITHM_CHOICE, USE_BIGNUM, NO_USE_BIGNUM): Remove; all uses removed. (extract_factors_multi): Remove, replacing with.... (print_factors_multi): New function, with signature similar to that of new signature of print_factors_single. (print_factors_single): Migrate checking code to caller. (print_factors): Use GMP if it's available; don't bother asking user. Improve accuracy of check for "large" numbers. (long_options, main): Remove support for --bignum.
-rw-r--r--doc/coreutils.texi9
-rw-r--r--src/factor.c183
2 files changed, 65 insertions, 127 deletions
diff --git a/doc/coreutils.texi b/doc/coreutils.texi
index cbef0139b..2d11388bf 100644
--- a/doc/coreutils.texi
+++ b/doc/coreutils.texi
@@ -14654,15 +14654,6 @@ The @command{factor} command supports only a small number of options:
Print a short help on standard output, then exit without further
processing.
-@item --bignum
-Always use unlimited precision arithmetic via the GNU MP library.
-By default, @command{factor} selects between using GNU MP and using
-native operations on the basis of the length of the number to be factored.
-
-@item --no-bignum
-Always use limited-precision native operations, not GNU MP.
-This causes @command{factor} to fail for larger inputs.
-
@item --version
Print the program version on standard output, then exit without further
processing.
diff --git a/src/factor.c b/src/factor.c
index 7d0a7ebd9..8ccefd576 100644
--- a/src/factor.c
+++ b/src/factor.c
@@ -49,15 +49,6 @@
static bool verbose = false;
-typedef enum
- {
- ALGO_AUTOSELECT, /* default */
- ALGO_GMP, /* --bignum */
- ALGO_SINGLE /* --no-bignum */
- } ALGORITHM_CHOICE;
-static ALGORITHM_CHOICE algorithm = ALGO_AUTOSELECT;
-
-
#if HAVE_GMP
static mpz_t *factor = NULL;
static size_t nfactors_found = 0;
@@ -266,52 +257,6 @@ S4:
mpz_clear (x);
mpz_clear (y);
}
-
-/* Arbitrary-precision factoring */
-static bool
-extract_factors_multi (char const *s)
-{
- unsigned int division_limit;
- size_t n_bits;
- mpz_t t;
-
- mpz_init (t);
- if (1 != gmp_sscanf (s, "%Zd", t))
- {
- error (0, 0, _("%s is not a valid positive integer"), quote (s));
- return false;
- }
-
- printf ("%s:", s);
-
- if (mpz_sgn (t) == 0)
- {
- mpz_clear (t);
- return true; /* 0; no factors */
- }
-
- /* Set the trial division limit according to the size of t. */
- n_bits = mpz_sizeinbase (t, 2);
- division_limit = MIN (n_bits, 1000);
- division_limit *= division_limit;
-
- factor_using_division (t, division_limit);
-
- if (mpz_cmp_ui (t, 1) != 0)
- {
- debug ("[is number prime?] ");
- if (mpz_probab_prime_p (t, 3))
- {
- emit_factor (t);
- }
- else
- {
- factor_using_pollard_rho (t, 1);
- }
- }
- mpz_clear (t);
- return true;
-}
#endif
/* The maximum number of factors, including -1, for negative numbers. */
@@ -379,30 +324,18 @@ factor_wheel (uintmax_t n0, size_t max_n_factors, uintmax_t *factors)
}
/* Single-precision factoring */
-static bool
-print_factors_single (char const *s)
+static void
+print_factors_single (uintmax_t n)
{
uintmax_t factors[MAX_N_FACTORS];
- uintmax_t n;
- size_t n_factors;
+ size_t n_factors = factor_wheel (n, MAX_N_FACTORS, factors);
size_t i;
char buf[INT_BUFSIZE_BOUND (uintmax_t)];
- strtol_error err;
- if ((err = xstrtoumax (s, NULL, 10, &n, "")) != LONGINT_OK)
- {
- if (err == LONGINT_OVERFLOW)
- error (0, 0, _("%s is too large"), quote (s));
- else
- error (0, 0, _("%s is not a valid positive integer"), quote (s));
- return false;
- }
- n_factors = factor_wheel (n, MAX_N_FACTORS, factors);
printf ("%s:", umaxtostr (n, buf));
for (i = 0; i < n_factors; i++)
printf (" %s", umaxtostr (factors[i], buf));
putchar ('\n');
- return true;
}
#if HAVE_GMP
@@ -450,67 +383,93 @@ free_factors (void)
nfactors_found = 0;
}
+/* Arbitrary-precision factoring */
+static void
+print_factors_multi (mpz_t t)
+{
+ mpz_out_str (stdout, 10, t);
+ putchar (':');
+
+ if (mpz_sgn (t) != 0)
+ {
+ /* Set the trial division limit according to the size of t. */
+ size_t n_bits = mpz_sizeinbase (t, 2);
+ unsigned int division_limit = MIN (n_bits, 1000);
+ division_limit *= division_limit;
+
+ factor_using_division (t, division_limit);
+
+ if (mpz_cmp_ui (t, 1) != 0)
+ {
+ debug ("[is number prime?] ");
+ if (mpz_probab_prime_p (t, 3))
+ emit_factor (t);
+ else
+ factor_using_pollard_rho (t, 1);
+ }
+ }
+
+ mpz_clear (t);
+ sort_and_print_factors ();
+ free_factors ();
+}
+#endif
+
/* Emit the factors of the indicated number. If we have the option of using
either algorithm, we select on the basis of the length of the number.
For longer numbers, we prefer the MP algorithm even if the native algorithm
- has enough digits, because the algorithm is better. The turnover point
- depends on the value as well as the length, but since we don't already know
- if the number presented has small factors, we just switch over at 6 digits.
-*/
+ has enough digits, because the algorithm is better. The turnover point
+ depends on the value. */
static bool
print_factors (char const *s)
{
- if (ALGO_AUTOSELECT == algorithm)
- {
- const size_t digits = strlen (s); /* upper limit on number of digits */
- algorithm = digits < 6 ? ALGO_SINGLE : ALGO_GMP;
- }
- if (ALGO_GMP == algorithm)
+ uintmax_t n;
+ strtol_error err = xstrtoumax (s, NULL, 10, &n, "");
+
+#if HAVE_GMP
+ enum { GMP_TURNOVER_POINT = 100000 };
+
+ if (err == LONGINT_OVERFLOW
+ || (err == LONGINT_OK && GMP_TURNOVER_POINT <= n))
{
- debug ("[%s]", _("using arbitrary-precision arithmetic"));
- if (extract_factors_multi (s))
+ mpz_t t;
+ mpz_init (t);
+ if (gmp_sscanf (s, "%Zd", t) == 1)
{
- sort_and_print_factors ();
- free_factors ();
+ debug ("[%s]", _("using arbitrary-precision arithmetic"));
+ print_factors_multi (t);
return true;
}
- else
- {
- return false;
- }
+ err = LONGINT_INVALID;
}
- else
+#endif
+
+ switch (err)
{
+ case LONGINT_OK:
debug ("[%s]", _("using single-precision arithmetic"));
- return print_factors_single (s);
- }
-}
-#else
-static bool
-print_factors (const char *s) /* Single-precision only. */
-{
- if (ALGO_GMP == algorithm)
- {
- error (0, 0, _("arbitrary-precision arithmetic is not available"));
+ print_factors_single (n);
+ return true;
+
+ case LONGINT_OVERFLOW:
+ error (0, 0, _("%s is too large"), quote (s));
+ return false;
+
+ default:
+ error (0, 0, _("%s is not a valid positive integer"), quote (s));
return false;
}
- return print_factors_single (s);
}
-#endif
enum
{
- VERBOSE_OPTION = CHAR_MAX + 1,
- USE_BIGNUM,
- NO_USE_BIGNUM
+ VERBOSE_OPTION = CHAR_MAX + 1
};
static struct option const long_options[] =
{
{"verbose", no_argument, NULL, VERBOSE_OPTION},
- {"bignum", no_argument, NULL, USE_BIGNUM},
- {"no-bignum", no_argument, NULL, NO_USE_BIGNUM},
{GETOPT_HELP_OPTION_DECL},
{GETOPT_VERSION_OPTION_DECL},
{NULL, 0, NULL, 0}
@@ -534,10 +493,6 @@ Print the prime factors of each specified integer NUMBER. If none\n\
are specified on the command line, read them from standard input.\n\
\n\
"), stdout);
- fputs (_("\
- --bignum always use arbitrary-precision arithmetic\n\
- --no-bignum always use single-precision arithmetic\n"),
- stdout);
fputs (HELP_OPTION_DESCRIPTION, stdout);
fputs (VERSION_OPTION_DESCRIPTION, stdout);
emit_bug_reporting_address ();
@@ -588,14 +543,6 @@ main (int argc, char **argv)
verbose = true;
break;
- case USE_BIGNUM:
- algorithm = ALGO_GMP;
- break;
-
- case NO_USE_BIGNUM:
- algorithm = ALGO_SINGLE;
- break;
-
case_GETOPT_HELP_CHAR;
case_GETOPT_VERSION_CHAR (PROGRAM_NAME, AUTHORS);