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TP-Link_XR500v_v2-6/m4-1.4.13/tests/test-vasprintf-posix.c
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2016-11-30 09:03:17 +08:00

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/* Test of POSIX compatible vasprintf() and asprintf() functions.
Copyright (C) 2007-2009 Free Software Foundation, Inc.
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 3 of the License, 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, see <http://www.gnu.org/licenses/>. */
/* Written by Bruno Haible <bruno@clisp.org>, 2007. */
#include <config.h>
#include <stdio.h>
#include <float.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "nan.h"
#define SIZEOF(array) (sizeof (array) / sizeof (array[0]))
#define ASSERT(expr) \
do \
{ \
if (!(expr)) \
{ \
fprintf (stderr, "%s:%d: assertion failed\n", __FILE__, __LINE__); \
fflush (stderr); \
abort (); \
} \
} \
while (0)
/* The SGI MIPS floating-point format does not distinguish 0.0 and -0.0. */
static int
have_minus_zero ()
{
static double plus_zero = 0.0;
double minus_zero = - plus_zero;
return memcmp (&plus_zero, &minus_zero, sizeof (double)) != 0;
}
/* HP cc on HP-UX 10.20 has a bug with the constant expression -0.0.
So we use -zerod instead. */
double zerod = 0.0;
/* On HP-UX 10.20, negating 0.0L does not yield -0.0L.
So we use minus_zerol instead.
IRIX cc can't put -0.0L into .data, but can compute at runtime.
Note that the expression -LDBL_MIN * LDBL_MIN does not work on other
platforms, such as when cross-compiling to PowerPC on MacOS X 10.5. */
#if defined __hpux || defined __sgi
static long double
compute_minus_zerol (void)
{
return -LDBL_MIN * LDBL_MIN;
}
# define minus_zerol compute_minus_zerol ()
#else
long double minus_zerol = -0.0L;
#endif
/* Representation of an 80-bit 'long double' as an initializer for a sequence
of 'unsigned int' words. */
#ifdef WORDS_BIGENDIAN
# define LDBL80_WORDS(exponent,manthi,mantlo) \
{ ((unsigned int) (exponent) << 16) | ((unsigned int) (manthi) >> 16), \
((unsigned int) (manthi) << 16) | (unsigned int) (mantlo) >> 16), \
(unsigned int) (mantlo) << 16 \
}
#else
# define LDBL80_WORDS(exponent,manthi,mantlo) \
{ mantlo, manthi, exponent }
#endif
static int
strmatch (const char *pattern, const char *string)
{
if (strlen (pattern) != strlen (string))
return 0;
for (; *pattern != '\0'; pattern++, string++)
if (*pattern != '*' && *string != *pattern)
return 0;
return 1;
}
/* Test whether string[start_index..end_index-1] is a valid textual
representation of NaN. */
static int
strisnan (const char *string, size_t start_index, size_t end_index, int uppercase)
{
if (start_index < end_index)
{
if (string[start_index] == '-')
start_index++;
if (start_index + 3 <= end_index
&& memcmp (string + start_index, uppercase ? "NAN" : "nan", 3) == 0)
{
start_index += 3;
if (start_index == end_index
|| (string[start_index] == '(' && string[end_index - 1] == ')'))
return 1;
}
}
return 0;
}
static void
test_function (int (*my_asprintf) (char **, const char *, ...))
{
int repeat;
/* Test return value convention. */
for (repeat = 0; repeat <= 8; repeat++)
{
char *result;
int retval = asprintf (&result, "%d", 12345);
ASSERT (retval == 5);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12345") == 0);
free (result);
}
/* Test support of size specifiers as in C99. */
{
char *result;
int retval =
my_asprintf (&result, "%ju %d", (uintmax_t) 12345671, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12345671 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%zu %d", (size_t) 12345672, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12345672 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%tu %d", (ptrdiff_t) 12345673, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12345673 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%Lg %d", (long double) 1.5, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.5 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the 'a' and 'A' conversion specifier for hexadecimal
output of floating-point numbers. */
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%a %d", 3.1416015625, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.922p+1 33") == 0
|| strcmp (result, "0x3.244p+0 33") == 0
|| strcmp (result, "0x6.488p-1 33") == 0
|| strcmp (result, "0xc.91p-2 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%A %d", -3.1416015625, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0X1.922P+1 33") == 0
|| strcmp (result, "-0X3.244P+0 33") == 0
|| strcmp (result, "-0X6.488P-1 33") == 0
|| strcmp (result, "-0XC.91P-2 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%a %d", 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x0p+0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%a %d", -zerod, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0x0p+0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%a %d", 1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%a %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%a %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding near the decimal point. */
char *result;
int retval =
my_asprintf (&result, "%.0a %d", 1.5, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x2p+0 33") == 0
|| strcmp (result, "0x3p-1 33") == 0
|| strcmp (result, "0x6p-2 33") == 0
|| strcmp (result, "0xcp-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 0. */
char *result;
int retval =
my_asprintf (&result, "%.0a %d", 1.51, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x2p+0 33") == 0
|| strcmp (result, "0x3p-1 33") == 0
|| strcmp (result, "0x6p-2 33") == 0
|| strcmp (result, "0xcp-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 1. */
char *result;
int retval =
my_asprintf (&result, "%.1a %d", 1.51, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.8p+0 33") == 0
|| strcmp (result, "0x3.0p-1 33") == 0
|| strcmp (result, "0x6.1p-2 33") == 0
|| strcmp (result, "0xc.1p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 2. */
char *result;
int retval =
my_asprintf (&result, "%.2a %d", 1.51, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.83p+0 33") == 0
|| strcmp (result, "0x3.05p-1 33") == 0
|| strcmp (result, "0x6.0ap-2 33") == 0
|| strcmp (result, "0xc.14p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 3. */
char *result;
int retval =
my_asprintf (&result, "%.3a %d", 1.51, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.829p+0 33") == 0
|| strcmp (result, "0x3.052p-1 33") == 0
|| strcmp (result, "0x6.0a4p-2 33") == 0
|| strcmp (result, "0xc.148p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding can turn a ...FFF into a ...000. */
char *result;
int retval =
my_asprintf (&result, "%.3a %d", 1.49999, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.800p+0 33") == 0
|| strcmp (result, "0x3.000p-1 33") == 0
|| strcmp (result, "0x6.000p-2 33") == 0
|| strcmp (result, "0xc.000p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding can turn a ...FFF into a ...000.
This shows a MacOS X 10.3.9 (Darwin 7.9) bug. */
char *result;
int retval =
my_asprintf (&result, "%.1a %d", 1.999, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.0p+1 33") == 0
|| strcmp (result, "0x2.0p+0 33") == 0
|| strcmp (result, "0x4.0p-1 33") == 0
|| strcmp (result, "0x8.0p-2 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%10a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 0x1.cp+0 33") == 0
|| strcmp (result, " 0x3.8p-1 33") == 0
|| strcmp (result, " 0x7p-2 33") == 0
|| strcmp (result, " 0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small precision. */
char *result;
int retval =
my_asprintf (&result, "%.10a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.c000000000p+0 33") == 0
|| strcmp (result, "0x3.8000000000p-1 33") == 0
|| strcmp (result, "0x7.0000000000p-2 33") == 0
|| strcmp (result, "0xe.0000000000p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Large precision. */
char *result;
int retval =
my_asprintf (&result, "%.50a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.c0000000000000000000000000000000000000000000000000p+0 33") == 0
|| strcmp (result, "0x3.80000000000000000000000000000000000000000000000000p-1 33") == 0
|| strcmp (result, "0x7.00000000000000000000000000000000000000000000000000p-2 33") == 0
|| strcmp (result, "0xe.00000000000000000000000000000000000000000000000000p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-10a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.cp+0 33") == 0
|| strcmp (result, "0x3.8p-1 33") == 0
|| strcmp (result, "0x7p-2 33") == 0
|| strcmp (result, "0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+0x1.cp+0 33") == 0
|| strcmp (result, "+0x3.8p-1 33") == 0
|| strcmp (result, "+0x7p-2 33") == 0
|| strcmp (result, "+0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 0x1.cp+0 33") == 0
|| strcmp (result, " 0x3.8p-1 33") == 0
|| strcmp (result, " 0x7p-2 33") == 0
|| strcmp (result, " 0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.cp+0 33") == 0
|| strcmp (result, "0x3.8p-1 33") == 0
|| strcmp (result, "0x7.p-2 33") == 0
|| strcmp (result, "0xe.p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#a %d", 1.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.p+0 33") == 0
|| strcmp (result, "0x2.p-1 33") == 0
|| strcmp (result, "0x4.p-2 33") == 0
|| strcmp (result, "0x8.p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%010a %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x001.cp+0 33") == 0
|| strcmp (result, "0x003.8p-1 33") == 0
|| strcmp (result, "0x00007p-2 33") == 0
|| strcmp (result, "0x0000ep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%010a %d", 1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
/* "0000000inf 33" is not a valid result; see
<http://lists.gnu.org/archive/html/bug-gnulib/2007-04/msg00107.html> */
ASSERT (strcmp (result, " inf 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050a %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
/* "0000000nan 33" is not a valid result; see
<http://lists.gnu.org/archive/html/bug-gnulib/2007-04/msg00107.html> */
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%La %d", 3.1416015625L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.922p+1 33") == 0
|| strcmp (result, "0x3.244p+0 33") == 0
|| strcmp (result, "0x6.488p-1 33") == 0
|| strcmp (result, "0xc.91p-2 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%LA %d", -3.1416015625L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0X1.922P+1 33") == 0
|| strcmp (result, "-0X3.244P+0 33") == 0
|| strcmp (result, "-0X6.488P-1 33") == 0
|| strcmp (result, "-0XC.91P-2 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%La %d", 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x0p+0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%La %d", minus_zerol, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0x0p+0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%La %d", 1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%La %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%La %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#if CHECK_PRINTF_SAFE && ((defined __ia64 && LDBL_MANT_DIG == 64) || (defined __x86_64__ || defined __amd64__) || (defined __i386 || defined __i386__ || defined _I386 || defined _M_IX86 || defined _X86_))
{ /* Quiet NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0xC3333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
/* Signalling NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* The isnanl function should recognize Pseudo-NaNs, Pseudo-Infinities,
Pseudo-Zeroes, Unnormalized Numbers, and Pseudo-Denormals, as defined in
Intel IA-64 Architecture Software Developer's Manual, Volume 1:
Application Architecture.
Table 5-2 "Floating-Point Register Encodings"
Figure 5-6 "Memory to Floating-Point Register Data Translation"
*/
{ /* Pseudo-NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x40000001, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Infinity. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Zero. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4004, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Unnormalized number. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4000, 0x63333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Denormal. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x0000, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%La %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#endif
{ /* Rounding near the decimal point. */
char *result;
int retval =
my_asprintf (&result, "%.0La %d", 1.5L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x2p+0 33") == 0
|| strcmp (result, "0x3p-1 33") == 0
|| strcmp (result, "0x6p-2 33") == 0
|| strcmp (result, "0xcp-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 0. */
char *result;
int retval =
my_asprintf (&result, "%.0La %d", 1.51L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x2p+0 33") == 0
|| strcmp (result, "0x3p-1 33") == 0
|| strcmp (result, "0x6p-2 33") == 0
|| strcmp (result, "0xcp-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 1. */
char *result;
int retval =
my_asprintf (&result, "%.1La %d", 1.51L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.8p+0 33") == 0
|| strcmp (result, "0x3.0p-1 33") == 0
|| strcmp (result, "0x6.1p-2 33") == 0
|| strcmp (result, "0xc.1p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 2. */
char *result;
int retval =
my_asprintf (&result, "%.2La %d", 1.51L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.83p+0 33") == 0
|| strcmp (result, "0x3.05p-1 33") == 0
|| strcmp (result, "0x6.0ap-2 33") == 0
|| strcmp (result, "0xc.14p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding with precision 3. */
char *result;
int retval =
my_asprintf (&result, "%.3La %d", 1.51L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.829p+0 33") == 0
|| strcmp (result, "0x3.052p-1 33") == 0
|| strcmp (result, "0x6.0a4p-2 33") == 0
|| strcmp (result, "0xc.148p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding can turn a ...FFF into a ...000. */
char *result;
int retval =
my_asprintf (&result, "%.3La %d", 1.49999L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.800p+0 33") == 0
|| strcmp (result, "0x3.000p-1 33") == 0
|| strcmp (result, "0x6.000p-2 33") == 0
|| strcmp (result, "0xc.000p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Rounding can turn a ...FFF into a ...000.
This shows a MacOS X 10.3.9 (Darwin 7.9) bug and a
glibc 2.4 bug <http://sourceware.org/bugzilla/show_bug.cgi?id=2908>. */
char *result;
int retval =
my_asprintf (&result, "%.1La %d", 1.999L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.0p+1 33") == 0
|| strcmp (result, "0x2.0p+0 33") == 0
|| strcmp (result, "0x4.0p-1 33") == 0
|| strcmp (result, "0x8.0p-2 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%10La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 0x1.cp+0 33") == 0
|| strcmp (result, " 0x3.8p-1 33") == 0
|| strcmp (result, " 0x7p-2 33") == 0
|| strcmp (result, " 0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small precision. */
char *result;
int retval =
my_asprintf (&result, "%.10La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.c000000000p+0 33") == 0
|| strcmp (result, "0x3.8000000000p-1 33") == 0
|| strcmp (result, "0x7.0000000000p-2 33") == 0
|| strcmp (result, "0xe.0000000000p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Large precision. */
char *result;
int retval =
my_asprintf (&result, "%.50La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.c0000000000000000000000000000000000000000000000000p+0 33") == 0
|| strcmp (result, "0x3.80000000000000000000000000000000000000000000000000p-1 33") == 0
|| strcmp (result, "0x7.00000000000000000000000000000000000000000000000000p-2 33") == 0
|| strcmp (result, "0xe.00000000000000000000000000000000000000000000000000p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-10La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.cp+0 33") == 0
|| strcmp (result, "0x3.8p-1 33") == 0
|| strcmp (result, "0x7p-2 33") == 0
|| strcmp (result, "0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+0x1.cp+0 33") == 0
|| strcmp (result, "+0x3.8p-1 33") == 0
|| strcmp (result, "+0x7p-2 33") == 0
|| strcmp (result, "+0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 0x1.cp+0 33") == 0
|| strcmp (result, " 0x3.8p-1 33") == 0
|| strcmp (result, " 0x7p-2 33") == 0
|| strcmp (result, " 0xep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.cp+0 33") == 0
|| strcmp (result, "0x3.8p-1 33") == 0
|| strcmp (result, "0x7.p-2 33") == 0
|| strcmp (result, "0xe.p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#La %d", 1.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x1.p+0 33") == 0
|| strcmp (result, "0x2.p-1 33") == 0
|| strcmp (result, "0x4.p-2 33") == 0
|| strcmp (result, "0x8.p-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%010La %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0x001.cp+0 33") == 0
|| strcmp (result, "0x003.8p-1 33") == 0
|| strcmp (result, "0x00007p-2 33") == 0
|| strcmp (result, "0x0000ep-3 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%010La %d", 1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
/* "0000000inf 33" is not a valid result; see
<http://lists.gnu.org/archive/html/bug-gnulib/2007-04/msg00107.html> */
ASSERT (strcmp (result, " inf 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050La %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
/* "0000000nan 33" is not a valid result; see
<http://lists.gnu.org/archive/html/bug-gnulib/2007-04/msg00107.html> */
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the %f format directive. */
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%f %d", 12.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%f %d", 1234567.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234567.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small and large positive numbers. */
static struct { double value; const char *string; } data[] =
{
{ 1.234321234321234e-37, "0.000000" },
{ 1.234321234321234e-36, "0.000000" },
{ 1.234321234321234e-35, "0.000000" },
{ 1.234321234321234e-34, "0.000000" },
{ 1.234321234321234e-33, "0.000000" },
{ 1.234321234321234e-32, "0.000000" },
{ 1.234321234321234e-31, "0.000000" },
{ 1.234321234321234e-30, "0.000000" },
{ 1.234321234321234e-29, "0.000000" },
{ 1.234321234321234e-28, "0.000000" },
{ 1.234321234321234e-27, "0.000000" },
{ 1.234321234321234e-26, "0.000000" },
{ 1.234321234321234e-25, "0.000000" },
{ 1.234321234321234e-24, "0.000000" },
{ 1.234321234321234e-23, "0.000000" },
{ 1.234321234321234e-22, "0.000000" },
{ 1.234321234321234e-21, "0.000000" },
{ 1.234321234321234e-20, "0.000000" },
{ 1.234321234321234e-19, "0.000000" },
{ 1.234321234321234e-18, "0.000000" },
{ 1.234321234321234e-17, "0.000000" },
{ 1.234321234321234e-16, "0.000000" },
{ 1.234321234321234e-15, "0.000000" },
{ 1.234321234321234e-14, "0.000000" },
{ 1.234321234321234e-13, "0.000000" },
{ 1.234321234321234e-12, "0.000000" },
{ 1.234321234321234e-11, "0.000000" },
{ 1.234321234321234e-10, "0.000000" },
{ 1.234321234321234e-9, "0.000000" },
{ 1.234321234321234e-8, "0.000000" },
{ 1.234321234321234e-7, "0.000000" },
{ 1.234321234321234e-6, "0.000001" },
{ 1.234321234321234e-5, "0.000012" },
{ 1.234321234321234e-4, "0.000123" },
{ 1.234321234321234e-3, "0.001234" },
{ 1.234321234321234e-2, "0.012343" },
{ 1.234321234321234e-1, "0.123432" },
{ 1.234321234321234, "1.234321" },
{ 1.234321234321234e1, "12.343212" },
{ 1.234321234321234e2, "123.432123" },
{ 1.234321234321234e3, "1234.321234" },
{ 1.234321234321234e4, "12343.212343" },
{ 1.234321234321234e5, "123432.123432" },
{ 1.234321234321234e6, "1234321.234321" },
{ 1.234321234321234e7, "12343212.343212" },
{ 1.234321234321234e8, "123432123.432123" },
{ 1.234321234321234e9, "1234321234.321234" },
{ 1.234321234321234e10, "12343212343.2123**" },
{ 1.234321234321234e11, "123432123432.123***" },
{ 1.234321234321234e12, "1234321234321.23****" },
{ 1.234321234321234e13, "12343212343212.3*****" },
{ 1.234321234321234e14, "123432123432123.******" },
{ 1.234321234321234e15, "1234321234321234.000000" },
{ 1.234321234321234e16, "123432123432123**.000000" },
{ 1.234321234321234e17, "123432123432123***.000000" },
{ 1.234321234321234e18, "123432123432123****.000000" },
{ 1.234321234321234e19, "123432123432123*****.000000" },
{ 1.234321234321234e20, "123432123432123******.000000" },
{ 1.234321234321234e21, "123432123432123*******.000000" },
{ 1.234321234321234e22, "123432123432123********.000000" },
{ 1.234321234321234e23, "123432123432123*********.000000" },
{ 1.234321234321234e24, "123432123432123**********.000000" },
{ 1.234321234321234e25, "123432123432123***********.000000" },
{ 1.234321234321234e26, "123432123432123************.000000" },
{ 1.234321234321234e27, "123432123432123*************.000000" },
{ 1.234321234321234e28, "123432123432123**************.000000" },
{ 1.234321234321234e29, "123432123432123***************.000000" },
{ 1.234321234321234e30, "123432123432123****************.000000" },
{ 1.234321234321234e31, "123432123432123*****************.000000" },
{ 1.234321234321234e32, "123432123432123******************.000000" },
{ 1.234321234321234e33, "123432123432123*******************.000000" },
{ 1.234321234321234e34, "123432123432123********************.000000" },
{ 1.234321234321234e35, "123432123432123*********************.000000" },
{ 1.234321234321234e36, "123432123432123**********************.000000" }
};
size_t k;
for (k = 0; k < SIZEOF (data); k++)
{
char *result;
int retval =
my_asprintf (&result, "%f", data[k].value);
ASSERT (result != NULL);
ASSERT (strmatch (data[k].string, result));
ASSERT (retval == strlen (result));
free (result);
}
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%f %d", -0.03125, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0.031250 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%f %d", 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%f %d", -zerod, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%f %d", 1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0
|| strcmp (result, "infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%f %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0
|| strcmp (result, "-infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%f %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%10f %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-10f %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+f %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% f %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#f %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.f %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "2. 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%015f %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "00001234.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015f %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -inf 33") == 0
|| strcmp (result, " -infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050f %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.f %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2f %d", 999.951, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "999.95 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2f %d", 999.996, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1000.00 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", 12.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", 1234567.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234567.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small and large positive numbers. */
static struct { long double value; const char *string; } data[] =
{
{ 1.234321234321234e-37L, "0.000000" },
{ 1.234321234321234e-36L, "0.000000" },
{ 1.234321234321234e-35L, "0.000000" },
{ 1.234321234321234e-34L, "0.000000" },
{ 1.234321234321234e-33L, "0.000000" },
{ 1.234321234321234e-32L, "0.000000" },
{ 1.234321234321234e-31L, "0.000000" },
{ 1.234321234321234e-30L, "0.000000" },
{ 1.234321234321234e-29L, "0.000000" },
{ 1.234321234321234e-28L, "0.000000" },
{ 1.234321234321234e-27L, "0.000000" },
{ 1.234321234321234e-26L, "0.000000" },
{ 1.234321234321234e-25L, "0.000000" },
{ 1.234321234321234e-24L, "0.000000" },
{ 1.234321234321234e-23L, "0.000000" },
{ 1.234321234321234e-22L, "0.000000" },
{ 1.234321234321234e-21L, "0.000000" },
{ 1.234321234321234e-20L, "0.000000" },
{ 1.234321234321234e-19L, "0.000000" },
{ 1.234321234321234e-18L, "0.000000" },
{ 1.234321234321234e-17L, "0.000000" },
{ 1.234321234321234e-16L, "0.000000" },
{ 1.234321234321234e-15L, "0.000000" },
{ 1.234321234321234e-14L, "0.000000" },
{ 1.234321234321234e-13L, "0.000000" },
{ 1.234321234321234e-12L, "0.000000" },
{ 1.234321234321234e-11L, "0.000000" },
{ 1.234321234321234e-10L, "0.000000" },
{ 1.234321234321234e-9L, "0.000000" },
{ 1.234321234321234e-8L, "0.000000" },
{ 1.234321234321234e-7L, "0.000000" },
{ 1.234321234321234e-6L, "0.000001" },
{ 1.234321234321234e-5L, "0.000012" },
{ 1.234321234321234e-4L, "0.000123" },
{ 1.234321234321234e-3L, "0.001234" },
{ 1.234321234321234e-2L, "0.012343" },
{ 1.234321234321234e-1L, "0.123432" },
{ 1.234321234321234L, "1.234321" },
{ 1.234321234321234e1L, "12.343212" },
{ 1.234321234321234e2L, "123.432123" },
{ 1.234321234321234e3L, "1234.321234" },
{ 1.234321234321234e4L, "12343.212343" },
{ 1.234321234321234e5L, "123432.123432" },
{ 1.234321234321234e6L, "1234321.234321" },
{ 1.234321234321234e7L, "12343212.343212" },
{ 1.234321234321234e8L, "123432123.432123" },
{ 1.234321234321234e9L, "1234321234.321234" },
{ 1.234321234321234e10L, "12343212343.2123**" },
{ 1.234321234321234e11L, "123432123432.123***" },
{ 1.234321234321234e12L, "1234321234321.23****" },
{ 1.234321234321234e13L, "12343212343212.3*****" },
{ 1.234321234321234e14L, "123432123432123.******" },
{ 1.234321234321234e15L, "1234321234321234.000000" },
{ 1.234321234321234e16L, "123432123432123**.000000" },
{ 1.234321234321234e17L, "123432123432123***.000000" },
{ 1.234321234321234e18L, "123432123432123****.000000" },
{ 1.234321234321234e19L, "123432123432123*****.000000" },
{ 1.234321234321234e20L, "123432123432123******.000000" },
{ 1.234321234321234e21L, "123432123432123*******.000000" },
{ 1.234321234321234e22L, "123432123432123********.000000" },
{ 1.234321234321234e23L, "123432123432123*********.000000" },
{ 1.234321234321234e24L, "123432123432123**********.000000" },
{ 1.234321234321234e25L, "123432123432123***********.000000" },
{ 1.234321234321234e26L, "123432123432123************.000000" },
{ 1.234321234321234e27L, "123432123432123*************.000000" },
{ 1.234321234321234e28L, "123432123432123**************.000000" },
{ 1.234321234321234e29L, "123432123432123***************.000000" },
{ 1.234321234321234e30L, "123432123432123****************.000000" },
{ 1.234321234321234e31L, "123432123432123*****************.000000" },
{ 1.234321234321234e32L, "123432123432123******************.000000" },
{ 1.234321234321234e33L, "123432123432123*******************.000000" },
{ 1.234321234321234e34L, "123432123432123********************.000000" },
{ 1.234321234321234e35L, "123432123432123*********************.000000" },
{ 1.234321234321234e36L, "123432123432123**********************.000000" }
};
size_t k;
for (k = 0; k < SIZEOF (data); k++)
{
char *result;
int retval =
my_asprintf (&result, "%Lf", data[k].value);
ASSERT (result != NULL);
ASSERT (strmatch (data[k].string, result));
ASSERT (retval == strlen (result));
free (result);
}
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", -0.03125L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0.031250 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", minus_zerol, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", 1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0
|| strcmp (result, "infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0
|| strcmp (result, "-infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%Lf %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#if CHECK_PRINTF_SAFE && ((defined __ia64 && LDBL_MANT_DIG == 64) || (defined __x86_64__ || defined __amd64__) || (defined __i386 || defined __i386__ || defined _I386 || defined _M_IX86 || defined _X86_))
{ /* Quiet NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0xC3333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
/* Signalling NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* The isnanl function should recognize Pseudo-NaNs, Pseudo-Infinities,
Pseudo-Zeroes, Unnormalized Numbers, and Pseudo-Denormals, as defined in
Intel IA-64 Architecture Software Developer's Manual, Volume 1:
Application Architecture.
Table 5-2 "Floating-Point Register Encodings"
Figure 5-6 "Memory to Floating-Point Register Data Translation"
*/
{ /* Pseudo-NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x40000001, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Infinity. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Zero. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4004, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Unnormalized number. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4000, 0x63333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Denormal. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x0000, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lf %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#endif
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%10Lf %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-10Lf %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+Lf %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% Lf %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#Lf %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.Lf %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "2. 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%015Lf %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "00001234.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015Lf %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -inf 33") == 0
|| strcmp (result, " -infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050Lf %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.Lf %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2Lf %d", 999.951L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "999.95 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2Lf %d", 999.996L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1000.00 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the %F format directive. */
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%F %d", 12.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%F %d", 1234567.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234567.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%F %d", -0.03125, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0.031250 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%F %d", 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%F %d", -zerod, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%F %d", 1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "INF 33") == 0
|| strcmp (result, "INFINITY 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%F %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-INF 33") == 0
|| strcmp (result, "-INFINITY 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%F %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 1)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO. */
char *result;
int retval =
my_asprintf (&result, "%015F %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "00001234.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015F %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -INF 33") == 0
|| strcmp (result, " -INFINITY 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.F %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2F %d", 999.951, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "999.95 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2F %d", 999.996, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1000.00 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", 12.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12.750000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", 1234567.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234567.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", -0.03125L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0.031250 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", minus_zerol, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", 1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "INF 33") == 0
|| strcmp (result, "INFINITY 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-INF 33") == 0
|| strcmp (result, "-INFINITY 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%LF %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 1)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO. */
char *result;
int retval =
my_asprintf (&result, "%015LF %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "00001234.000000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015LF %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -INF 33") == 0
|| strcmp (result, " -INFINITY 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.LF %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1234 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2LF %d", 999.951L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "999.95 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.2LF %d", 999.996L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1000.00 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the %e format directive. */
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%e %d", 12.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.275000e+01 33") == 0
|| strcmp (result, "1.275000e+001 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%e %d", 1234567.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.234567e+06 33") == 0
|| strcmp (result, "1.234567e+006 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small and large positive numbers. */
static struct { double value; const char *string; } data[] =
{
{ 1.234321234321234e-37, "1.234321e-37" },
{ 1.234321234321234e-36, "1.234321e-36" },
{ 1.234321234321234e-35, "1.234321e-35" },
{ 1.234321234321234e-34, "1.234321e-34" },
{ 1.234321234321234e-33, "1.234321e-33" },
{ 1.234321234321234e-32, "1.234321e-32" },
{ 1.234321234321234e-31, "1.234321e-31" },
{ 1.234321234321234e-30, "1.234321e-30" },
{ 1.234321234321234e-29, "1.234321e-29" },
{ 1.234321234321234e-28, "1.234321e-28" },
{ 1.234321234321234e-27, "1.234321e-27" },
{ 1.234321234321234e-26, "1.234321e-26" },
{ 1.234321234321234e-25, "1.234321e-25" },
{ 1.234321234321234e-24, "1.234321e-24" },
{ 1.234321234321234e-23, "1.234321e-23" },
{ 1.234321234321234e-22, "1.234321e-22" },
{ 1.234321234321234e-21, "1.234321e-21" },
{ 1.234321234321234e-20, "1.234321e-20" },
{ 1.234321234321234e-19, "1.234321e-19" },
{ 1.234321234321234e-18, "1.234321e-18" },
{ 1.234321234321234e-17, "1.234321e-17" },
{ 1.234321234321234e-16, "1.234321e-16" },
{ 1.234321234321234e-15, "1.234321e-15" },
{ 1.234321234321234e-14, "1.234321e-14" },
{ 1.234321234321234e-13, "1.234321e-13" },
{ 1.234321234321234e-12, "1.234321e-12" },
{ 1.234321234321234e-11, "1.234321e-11" },
{ 1.234321234321234e-10, "1.234321e-10" },
{ 1.234321234321234e-9, "1.234321e-09" },
{ 1.234321234321234e-8, "1.234321e-08" },
{ 1.234321234321234e-7, "1.234321e-07" },
{ 1.234321234321234e-6, "1.234321e-06" },
{ 1.234321234321234e-5, "1.234321e-05" },
{ 1.234321234321234e-4, "1.234321e-04" },
{ 1.234321234321234e-3, "1.234321e-03" },
{ 1.234321234321234e-2, "1.234321e-02" },
{ 1.234321234321234e-1, "1.234321e-01" },
{ 1.234321234321234, "1.234321e+00" },
{ 1.234321234321234e1, "1.234321e+01" },
{ 1.234321234321234e2, "1.234321e+02" },
{ 1.234321234321234e3, "1.234321e+03" },
{ 1.234321234321234e4, "1.234321e+04" },
{ 1.234321234321234e5, "1.234321e+05" },
{ 1.234321234321234e6, "1.234321e+06" },
{ 1.234321234321234e7, "1.234321e+07" },
{ 1.234321234321234e8, "1.234321e+08" },
{ 1.234321234321234e9, "1.234321e+09" },
{ 1.234321234321234e10, "1.234321e+10" },
{ 1.234321234321234e11, "1.234321e+11" },
{ 1.234321234321234e12, "1.234321e+12" },
{ 1.234321234321234e13, "1.234321e+13" },
{ 1.234321234321234e14, "1.234321e+14" },
{ 1.234321234321234e15, "1.234321e+15" },
{ 1.234321234321234e16, "1.234321e+16" },
{ 1.234321234321234e17, "1.234321e+17" },
{ 1.234321234321234e18, "1.234321e+18" },
{ 1.234321234321234e19, "1.234321e+19" },
{ 1.234321234321234e20, "1.234321e+20" },
{ 1.234321234321234e21, "1.234321e+21" },
{ 1.234321234321234e22, "1.234321e+22" },
{ 1.234321234321234e23, "1.234321e+23" },
{ 1.234321234321234e24, "1.234321e+24" },
{ 1.234321234321234e25, "1.234321e+25" },
{ 1.234321234321234e26, "1.234321e+26" },
{ 1.234321234321234e27, "1.234321e+27" },
{ 1.234321234321234e28, "1.234321e+28" },
{ 1.234321234321234e29, "1.234321e+29" },
{ 1.234321234321234e30, "1.234321e+30" },
{ 1.234321234321234e31, "1.234321e+31" },
{ 1.234321234321234e32, "1.234321e+32" },
{ 1.234321234321234e33, "1.234321e+33" },
{ 1.234321234321234e34, "1.234321e+34" },
{ 1.234321234321234e35, "1.234321e+35" },
{ 1.234321234321234e36, "1.234321e+36" }
};
size_t k;
for (k = 0; k < SIZEOF (data); k++)
{
char *result;
int retval =
my_asprintf (&result, "%e", data[k].value);
const char *expected = data[k].string;
ASSERT (result != NULL);
ASSERT (strcmp (result, expected) == 0
/* Some implementations produce exponents with 3 digits. */
|| (strlen (result) == strlen (expected) + 1
&& memcmp (result, expected, strlen (expected) - 2) == 0
&& result[strlen (expected) - 2] == '0'
&& strcmp (result + strlen (expected) - 1,
expected + strlen (expected) - 2)
== 0));
ASSERT (retval == strlen (result));
free (result);
}
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%e %d", -0.03125, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-3.125000e-02 33") == 0
|| strcmp (result, "-3.125000e-002 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%e %d", 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0.000000e+00 33") == 0
|| strcmp (result, "0.000000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%e %d", -zerod, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0.000000e+00 33") == 0
|| strcmp (result, "-0.000000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%e %d", 1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0
|| strcmp (result, "infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%e %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0
|| strcmp (result, "-infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%e %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%15e %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000e+00 33") == 0
|| strcmp (result, " 1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-15e %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000e+00 33") == 0
|| strcmp (result, "1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+e %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+1.750000e+00 33") == 0
|| strcmp (result, "+1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% e %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000e+00 33") == 0
|| strcmp (result, " 1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#e %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000e+00 33") == 0
|| strcmp (result, "1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.e %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "2.e+00 33") == 0
|| strcmp (result, "2.e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.e %d", 9.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.e+01 33") == 0
|| strcmp (result, "1.e+001 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%015e %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0001.234000e+03 33") == 0
|| strcmp (result, "001.234000e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015e %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -inf 33") == 0
|| strcmp (result, " -infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050e %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.e %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1e+03 33") == 0
|| strcmp (result, "1e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.4e %d", 999.951, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "9.9995e+02 33") == 0
|| strcmp (result, "9.9995e+002 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.4e %d", 999.996, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.0000e+03 33") == 0
|| strcmp (result, "1.0000e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", 12.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.275000e+01 33") == 0
|| strcmp (result, "1.275000e+001 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", 1234567.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.234567e+06 33") == 0
|| strcmp (result, "1.234567e+006 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small and large positive numbers. */
static struct { long double value; const char *string; } data[] =
{
{ 1.234321234321234e-37L, "1.234321e-37" },
{ 1.234321234321234e-36L, "1.234321e-36" },
{ 1.234321234321234e-35L, "1.234321e-35" },
{ 1.234321234321234e-34L, "1.234321e-34" },
{ 1.234321234321234e-33L, "1.234321e-33" },
{ 1.234321234321234e-32L, "1.234321e-32" },
{ 1.234321234321234e-31L, "1.234321e-31" },
{ 1.234321234321234e-30L, "1.234321e-30" },
{ 1.234321234321234e-29L, "1.234321e-29" },
{ 1.234321234321234e-28L, "1.234321e-28" },
{ 1.234321234321234e-27L, "1.234321e-27" },
{ 1.234321234321234e-26L, "1.234321e-26" },
{ 1.234321234321234e-25L, "1.234321e-25" },
{ 1.234321234321234e-24L, "1.234321e-24" },
{ 1.234321234321234e-23L, "1.234321e-23" },
{ 1.234321234321234e-22L, "1.234321e-22" },
{ 1.234321234321234e-21L, "1.234321e-21" },
{ 1.234321234321234e-20L, "1.234321e-20" },
{ 1.234321234321234e-19L, "1.234321e-19" },
{ 1.234321234321234e-18L, "1.234321e-18" },
{ 1.234321234321234e-17L, "1.234321e-17" },
{ 1.234321234321234e-16L, "1.234321e-16" },
{ 1.234321234321234e-15L, "1.234321e-15" },
{ 1.234321234321234e-14L, "1.234321e-14" },
{ 1.234321234321234e-13L, "1.234321e-13" },
{ 1.234321234321234e-12L, "1.234321e-12" },
{ 1.234321234321234e-11L, "1.234321e-11" },
{ 1.234321234321234e-10L, "1.234321e-10" },
{ 1.234321234321234e-9L, "1.234321e-09" },
{ 1.234321234321234e-8L, "1.234321e-08" },
{ 1.234321234321234e-7L, "1.234321e-07" },
{ 1.234321234321234e-6L, "1.234321e-06" },
{ 1.234321234321234e-5L, "1.234321e-05" },
{ 1.234321234321234e-4L, "1.234321e-04" },
{ 1.234321234321234e-3L, "1.234321e-03" },
{ 1.234321234321234e-2L, "1.234321e-02" },
{ 1.234321234321234e-1L, "1.234321e-01" },
{ 1.234321234321234L, "1.234321e+00" },
{ 1.234321234321234e1L, "1.234321e+01" },
{ 1.234321234321234e2L, "1.234321e+02" },
{ 1.234321234321234e3L, "1.234321e+03" },
{ 1.234321234321234e4L, "1.234321e+04" },
{ 1.234321234321234e5L, "1.234321e+05" },
{ 1.234321234321234e6L, "1.234321e+06" },
{ 1.234321234321234e7L, "1.234321e+07" },
{ 1.234321234321234e8L, "1.234321e+08" },
{ 1.234321234321234e9L, "1.234321e+09" },
{ 1.234321234321234e10L, "1.234321e+10" },
{ 1.234321234321234e11L, "1.234321e+11" },
{ 1.234321234321234e12L, "1.234321e+12" },
{ 1.234321234321234e13L, "1.234321e+13" },
{ 1.234321234321234e14L, "1.234321e+14" },
{ 1.234321234321234e15L, "1.234321e+15" },
{ 1.234321234321234e16L, "1.234321e+16" },
{ 1.234321234321234e17L, "1.234321e+17" },
{ 1.234321234321234e18L, "1.234321e+18" },
{ 1.234321234321234e19L, "1.234321e+19" },
{ 1.234321234321234e20L, "1.234321e+20" },
{ 1.234321234321234e21L, "1.234321e+21" },
{ 1.234321234321234e22L, "1.234321e+22" },
{ 1.234321234321234e23L, "1.234321e+23" },
{ 1.234321234321234e24L, "1.234321e+24" },
{ 1.234321234321234e25L, "1.234321e+25" },
{ 1.234321234321234e26L, "1.234321e+26" },
{ 1.234321234321234e27L, "1.234321e+27" },
{ 1.234321234321234e28L, "1.234321e+28" },
{ 1.234321234321234e29L, "1.234321e+29" },
{ 1.234321234321234e30L, "1.234321e+30" },
{ 1.234321234321234e31L, "1.234321e+31" },
{ 1.234321234321234e32L, "1.234321e+32" },
{ 1.234321234321234e33L, "1.234321e+33" },
{ 1.234321234321234e34L, "1.234321e+34" },
{ 1.234321234321234e35L, "1.234321e+35" },
{ 1.234321234321234e36L, "1.234321e+36" }
};
size_t k;
for (k = 0; k < SIZEOF (data); k++)
{
char *result;
int retval =
my_asprintf (&result, "%Le", data[k].value);
const char *expected = data[k].string;
ASSERT (result != NULL);
ASSERT (strcmp (result, expected) == 0
/* Some implementations produce exponents with 3 digits. */
|| (strlen (result) == strlen (expected) + 1
&& memcmp (result, expected, strlen (expected) - 2) == 0
&& result[strlen (expected) - 2] == '0'
&& strcmp (result + strlen (expected) - 1,
expected + strlen (expected) - 2)
== 0));
ASSERT (retval == strlen (result));
free (result);
}
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", -0.03125L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-3.125000e-02 33") == 0
|| strcmp (result, "-3.125000e-002 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0.000000e+00 33") == 0
|| strcmp (result, "0.000000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", minus_zerol, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0.000000e+00 33") == 0
|| strcmp (result, "-0.000000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", 1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0
|| strcmp (result, "infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0
|| strcmp (result, "-infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%Le %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#if CHECK_PRINTF_SAFE && ((defined __ia64 && LDBL_MANT_DIG == 64) || (defined __x86_64__ || defined __amd64__) || (defined __i386 || defined __i386__ || defined _I386 || defined _M_IX86 || defined _X86_))
{ /* Quiet NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0xC3333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
/* Signalling NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* The isnanl function should recognize Pseudo-NaNs, Pseudo-Infinities,
Pseudo-Zeroes, Unnormalized Numbers, and Pseudo-Denormals, as defined in
Intel IA-64 Architecture Software Developer's Manual, Volume 1:
Application Architecture.
Table 5-2 "Floating-Point Register Encodings"
Figure 5-6 "Memory to Floating-Point Register Data Translation"
*/
{ /* Pseudo-NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x40000001, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Infinity. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Zero. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4004, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Unnormalized number. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4000, 0x63333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Denormal. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x0000, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Le %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#endif
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%15Le %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000e+00 33") == 0
|| strcmp (result, " 1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-15Le %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000e+00 33") == 0
|| strcmp (result, "1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+Le %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+1.750000e+00 33") == 0
|| strcmp (result, "+1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% Le %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.750000e+00 33") == 0
|| strcmp (result, " 1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#Le %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.750000e+00 33") == 0
|| strcmp (result, "1.750000e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.Le %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "2.e+00 33") == 0
|| strcmp (result, "2.e+000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.Le %d", 9.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.e+01 33") == 0
|| strcmp (result, "1.e+001 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%015Le %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0001.234000e+03 33") == 0
|| strcmp (result, "001.234000e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015Le %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -inf 33") == 0
|| strcmp (result, " -infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050Le %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.Le %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1e+03 33") == 0
|| strcmp (result, "1e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.4Le %d", 999.951L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "9.9995e+02 33") == 0
|| strcmp (result, "9.9995e+002 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.4Le %d", 999.996L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.0000e+03 33") == 0
|| strcmp (result, "1.0000e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the %g format directive. */
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%g %d", 12.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%g %d", 1234567.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.23457e+06 33") == 0
|| strcmp (result, "1.23457e+006 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small and large positive numbers. */
static struct { double value; const char *string; } data[] =
{
{ 1.234321234321234e-37, "1.23432e-37" },
{ 1.234321234321234e-36, "1.23432e-36" },
{ 1.234321234321234e-35, "1.23432e-35" },
{ 1.234321234321234e-34, "1.23432e-34" },
{ 1.234321234321234e-33, "1.23432e-33" },
{ 1.234321234321234e-32, "1.23432e-32" },
{ 1.234321234321234e-31, "1.23432e-31" },
{ 1.234321234321234e-30, "1.23432e-30" },
{ 1.234321234321234e-29, "1.23432e-29" },
{ 1.234321234321234e-28, "1.23432e-28" },
{ 1.234321234321234e-27, "1.23432e-27" },
{ 1.234321234321234e-26, "1.23432e-26" },
{ 1.234321234321234e-25, "1.23432e-25" },
{ 1.234321234321234e-24, "1.23432e-24" },
{ 1.234321234321234e-23, "1.23432e-23" },
{ 1.234321234321234e-22, "1.23432e-22" },
{ 1.234321234321234e-21, "1.23432e-21" },
{ 1.234321234321234e-20, "1.23432e-20" },
{ 1.234321234321234e-19, "1.23432e-19" },
{ 1.234321234321234e-18, "1.23432e-18" },
{ 1.234321234321234e-17, "1.23432e-17" },
{ 1.234321234321234e-16, "1.23432e-16" },
{ 1.234321234321234e-15, "1.23432e-15" },
{ 1.234321234321234e-14, "1.23432e-14" },
{ 1.234321234321234e-13, "1.23432e-13" },
{ 1.234321234321234e-12, "1.23432e-12" },
{ 1.234321234321234e-11, "1.23432e-11" },
{ 1.234321234321234e-10, "1.23432e-10" },
{ 1.234321234321234e-9, "1.23432e-09" },
{ 1.234321234321234e-8, "1.23432e-08" },
{ 1.234321234321234e-7, "1.23432e-07" },
{ 1.234321234321234e-6, "1.23432e-06" },
{ 1.234321234321234e-5, "1.23432e-05" },
{ 1.234321234321234e-4, "0.000123432" },
{ 1.234321234321234e-3, "0.00123432" },
{ 1.234321234321234e-2, "0.0123432" },
{ 1.234321234321234e-1, "0.123432" },
{ 1.234321234321234, "1.23432" },
{ 1.234321234321234e1, "12.3432" },
{ 1.234321234321234e2, "123.432" },
{ 1.234321234321234e3, "1234.32" },
{ 1.234321234321234e4, "12343.2" },
{ 1.234321234321234e5, "123432" },
{ 1.234321234321234e6, "1.23432e+06" },
{ 1.234321234321234e7, "1.23432e+07" },
{ 1.234321234321234e8, "1.23432e+08" },
{ 1.234321234321234e9, "1.23432e+09" },
{ 1.234321234321234e10, "1.23432e+10" },
{ 1.234321234321234e11, "1.23432e+11" },
{ 1.234321234321234e12, "1.23432e+12" },
{ 1.234321234321234e13, "1.23432e+13" },
{ 1.234321234321234e14, "1.23432e+14" },
{ 1.234321234321234e15, "1.23432e+15" },
{ 1.234321234321234e16, "1.23432e+16" },
{ 1.234321234321234e17, "1.23432e+17" },
{ 1.234321234321234e18, "1.23432e+18" },
{ 1.234321234321234e19, "1.23432e+19" },
{ 1.234321234321234e20, "1.23432e+20" },
{ 1.234321234321234e21, "1.23432e+21" },
{ 1.234321234321234e22, "1.23432e+22" },
{ 1.234321234321234e23, "1.23432e+23" },
{ 1.234321234321234e24, "1.23432e+24" },
{ 1.234321234321234e25, "1.23432e+25" },
{ 1.234321234321234e26, "1.23432e+26" },
{ 1.234321234321234e27, "1.23432e+27" },
{ 1.234321234321234e28, "1.23432e+28" },
{ 1.234321234321234e29, "1.23432e+29" },
{ 1.234321234321234e30, "1.23432e+30" },
{ 1.234321234321234e31, "1.23432e+31" },
{ 1.234321234321234e32, "1.23432e+32" },
{ 1.234321234321234e33, "1.23432e+33" },
{ 1.234321234321234e34, "1.23432e+34" },
{ 1.234321234321234e35, "1.23432e+35" },
{ 1.234321234321234e36, "1.23432e+36" }
};
size_t k;
for (k = 0; k < SIZEOF (data); k++)
{
char *result;
int retval =
my_asprintf (&result, "%g", data[k].value);
const char *expected = data[k].string;
ASSERT (result != NULL);
ASSERT (strcmp (result, expected) == 0
/* Some implementations produce exponents with 3 digits. */
|| (expected[strlen (expected) - 4] == 'e'
&& strlen (result) == strlen (expected) + 1
&& memcmp (result, expected, strlen (expected) - 2) == 0
&& result[strlen (expected) - 2] == '0'
&& strcmp (result + strlen (expected) - 1,
expected + strlen (expected) - 2)
== 0));
ASSERT (retval == strlen (result));
free (result);
}
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%g %d", -0.03125, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0.03125 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%g %d", 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%g %d", -zerod, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%g %d", 1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0
|| strcmp (result, "infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%g %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0
|| strcmp (result, "-infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%g %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%10g %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-10g %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+g %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% g %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#g %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.75000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.g %d", 1.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "2. 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.g %d", 9.75, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.e+01 33") == 0
|| strcmp (result, "1.e+001 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%010g %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0000001234 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015g %d", -1.0 / 0.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -inf 33") == 0
|| strcmp (result, " -infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050g %d", NaNd (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.g %d", 1234.0, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1e+03 33") == 0
|| strcmp (result, "1e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.5g %d", 999.951, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "999.95 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.5g %d", 999.996, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A positive number. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", 12.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "12.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* A larger positive number. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", 1234567.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.23457e+06 33") == 0
|| strcmp (result, "1.23457e+006 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Small and large positive numbers. */
static struct { long double value; const char *string; } data[] =
{
{ 1.234321234321234e-37L, "1.23432e-37" },
{ 1.234321234321234e-36L, "1.23432e-36" },
{ 1.234321234321234e-35L, "1.23432e-35" },
{ 1.234321234321234e-34L, "1.23432e-34" },
{ 1.234321234321234e-33L, "1.23432e-33" },
{ 1.234321234321234e-32L, "1.23432e-32" },
{ 1.234321234321234e-31L, "1.23432e-31" },
{ 1.234321234321234e-30L, "1.23432e-30" },
{ 1.234321234321234e-29L, "1.23432e-29" },
{ 1.234321234321234e-28L, "1.23432e-28" },
{ 1.234321234321234e-27L, "1.23432e-27" },
{ 1.234321234321234e-26L, "1.23432e-26" },
{ 1.234321234321234e-25L, "1.23432e-25" },
{ 1.234321234321234e-24L, "1.23432e-24" },
{ 1.234321234321234e-23L, "1.23432e-23" },
{ 1.234321234321234e-22L, "1.23432e-22" },
{ 1.234321234321234e-21L, "1.23432e-21" },
{ 1.234321234321234e-20L, "1.23432e-20" },
{ 1.234321234321234e-19L, "1.23432e-19" },
{ 1.234321234321234e-18L, "1.23432e-18" },
{ 1.234321234321234e-17L, "1.23432e-17" },
{ 1.234321234321234e-16L, "1.23432e-16" },
{ 1.234321234321234e-15L, "1.23432e-15" },
{ 1.234321234321234e-14L, "1.23432e-14" },
{ 1.234321234321234e-13L, "1.23432e-13" },
{ 1.234321234321234e-12L, "1.23432e-12" },
{ 1.234321234321234e-11L, "1.23432e-11" },
{ 1.234321234321234e-10L, "1.23432e-10" },
{ 1.234321234321234e-9L, "1.23432e-09" },
{ 1.234321234321234e-8L, "1.23432e-08" },
{ 1.234321234321234e-7L, "1.23432e-07" },
{ 1.234321234321234e-6L, "1.23432e-06" },
{ 1.234321234321234e-5L, "1.23432e-05" },
{ 1.234321234321234e-4L, "0.000123432" },
{ 1.234321234321234e-3L, "0.00123432" },
{ 1.234321234321234e-2L, "0.0123432" },
{ 1.234321234321234e-1L, "0.123432" },
{ 1.234321234321234L, "1.23432" },
{ 1.234321234321234e1L, "12.3432" },
{ 1.234321234321234e2L, "123.432" },
{ 1.234321234321234e3L, "1234.32" },
{ 1.234321234321234e4L, "12343.2" },
{ 1.234321234321234e5L, "123432" },
{ 1.234321234321234e6L, "1.23432e+06" },
{ 1.234321234321234e7L, "1.23432e+07" },
{ 1.234321234321234e8L, "1.23432e+08" },
{ 1.234321234321234e9L, "1.23432e+09" },
{ 1.234321234321234e10L, "1.23432e+10" },
{ 1.234321234321234e11L, "1.23432e+11" },
{ 1.234321234321234e12L, "1.23432e+12" },
{ 1.234321234321234e13L, "1.23432e+13" },
{ 1.234321234321234e14L, "1.23432e+14" },
{ 1.234321234321234e15L, "1.23432e+15" },
{ 1.234321234321234e16L, "1.23432e+16" },
{ 1.234321234321234e17L, "1.23432e+17" },
{ 1.234321234321234e18L, "1.23432e+18" },
{ 1.234321234321234e19L, "1.23432e+19" },
{ 1.234321234321234e20L, "1.23432e+20" },
{ 1.234321234321234e21L, "1.23432e+21" },
{ 1.234321234321234e22L, "1.23432e+22" },
{ 1.234321234321234e23L, "1.23432e+23" },
{ 1.234321234321234e24L, "1.23432e+24" },
{ 1.234321234321234e25L, "1.23432e+25" },
{ 1.234321234321234e26L, "1.23432e+26" },
{ 1.234321234321234e27L, "1.23432e+27" },
{ 1.234321234321234e28L, "1.23432e+28" },
{ 1.234321234321234e29L, "1.23432e+29" },
{ 1.234321234321234e30L, "1.23432e+30" },
{ 1.234321234321234e31L, "1.23432e+31" },
{ 1.234321234321234e32L, "1.23432e+32" },
{ 1.234321234321234e33L, "1.23432e+33" },
{ 1.234321234321234e34L, "1.23432e+34" },
{ 1.234321234321234e35L, "1.23432e+35" },
{ 1.234321234321234e36L, "1.23432e+36" }
};
size_t k;
for (k = 0; k < SIZEOF (data); k++)
{
char *result;
int retval =
my_asprintf (&result, "%Lg", data[k].value);
const char *expected = data[k].string;
ASSERT (result != NULL);
ASSERT (strcmp (result, expected) == 0
/* Some implementations produce exponents with 3 digits. */
|| (expected[strlen (expected) - 4] == 'e'
&& strlen (result) == strlen (expected) + 1
&& memcmp (result, expected, strlen (expected) - 2) == 0
&& result[strlen (expected) - 2] == '0'
&& strcmp (result + strlen (expected) - 1,
expected + strlen (expected) - 2)
== 0));
ASSERT (retval == strlen (result));
free (result);
}
}
{ /* A negative number. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", -0.03125L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-0.03125 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive zero. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative zero. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", minus_zerol, 33, 44, 55);
ASSERT (result != NULL);
if (have_minus_zero ())
ASSERT (strcmp (result, "-0 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Positive infinity. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", 1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "inf 33") == 0
|| strcmp (result, "infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Negative infinity. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "-inf 33") == 0
|| strcmp (result, "-infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* NaN. */
char *result;
int retval =
my_asprintf (&result, "%Lg %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#if CHECK_PRINTF_SAFE && ((defined __ia64 && LDBL_MANT_DIG == 64) || (defined __x86_64__ || defined __amd64__) || (defined __i386 || defined __i386__ || defined _I386 || defined _M_IX86 || defined _X86_))
{ /* Quiet NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0xC3333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
/* Signalling NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* The isnanl function should recognize Pseudo-NaNs, Pseudo-Infinities,
Pseudo-Zeroes, Unnormalized Numbers, and Pseudo-Denormals, as defined in
Intel IA-64 Architecture Software Developer's Manual, Volume 1:
Application Architecture.
Table 5-2 "Floating-Point Register Encodings"
Figure 5-6 "Memory to Floating-Point Register Data Translation"
*/
{ /* Pseudo-NaN. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x40000001, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Infinity. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0xFFFF, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Zero. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4004, 0x00000000, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Unnormalized number. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x4000, 0x63333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Pseudo-Denormal. */
static union { unsigned int word[4]; long double value; } x =
{ LDBL80_WORDS (0x0000, 0x83333333, 0x00000000) };
char *result;
int retval =
my_asprintf (&result, "%Lg %d", x.value, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) >= 3 + 3
&& strisnan (result, 0, strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
#endif
{ /* Width. */
char *result;
int retval =
my_asprintf (&result, "%10Lg %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_LEFT. */
char *result;
int retval =
my_asprintf (&result, "%-10Lg %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SHOWSIGN. */
char *result;
int retval =
my_asprintf (&result, "%+Lg %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "+1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_SPACE. */
char *result;
int retval =
my_asprintf (&result, "% Lg %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " 1.75 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#Lg %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.75000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.Lg %d", 1.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "2. 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ALT. */
char *result;
int retval =
my_asprintf (&result, "%#.Lg %d", 9.75L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1.e+01 33") == 0
|| strcmp (result, "1.e+001 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with finite number. */
char *result;
int retval =
my_asprintf (&result, "%010Lg %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "0000001234 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with infinite number. */
char *result;
int retval =
my_asprintf (&result, "%015Lg %d", -1.0L / 0.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, " -inf 33") == 0
|| strcmp (result, " -infinity 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* FLAG_ZERO with NaN. */
char *result;
int retval =
my_asprintf (&result, "%050Lg %d", NaNl (), 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strlen (result) == 50 + 3
&& strisnan (result, strspn (result, " "), strlen (result) - 3, 0)
&& strcmp (result + strlen (result) - 3, " 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision. */
char *result;
int retval =
my_asprintf (&result, "%.Lg %d", 1234.0L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1e+03 33") == 0
|| strcmp (result, "1e+003 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with no rounding. */
char *result;
int retval =
my_asprintf (&result, "%.5Lg %d", 999.951L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "999.95 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{ /* Precision with rounding. */
char *result;
int retval =
my_asprintf (&result, "%.5Lg %d", 999.996L, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "1000 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the %n format directive. */
{
int count = -1;
char *result;
int retval =
my_asprintf (&result, "%d %n", 123, &count, 33, 44, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "123 ") == 0);
ASSERT (retval == strlen (result));
ASSERT (count == 4);
free (result);
}
/* Test the support of the POSIX/XSI format strings with positions. */
{
char *result;
int retval =
my_asprintf (&result, "%2$d %1$d", 33, 55);
ASSERT (result != NULL);
ASSERT (strcmp (result, "55 33") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the grouping flag. */
{
char *result;
int retval =
my_asprintf (&result, "%'d %d", 1234567, 99);
ASSERT (result != NULL);
ASSERT (result[strlen (result) - 1] == '9');
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the left-adjust flag. */
{
char *result;
int retval =
my_asprintf (&result, "a%*sc", -3, "b");
ASSERT (result != NULL);
ASSERT (strcmp (result, "ab c") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "a%-*sc", 3, "b");
ASSERT (result != NULL);
ASSERT (strcmp (result, "ab c") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "a%-*sc", -3, "b");
ASSERT (result != NULL);
ASSERT (strcmp (result, "ab c") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of large precision. */
{
char *result;
int retval =
my_asprintf (&result, "%.4000d %d", 1234567, 99);
size_t i;
ASSERT (result != NULL);
for (i = 0; i < 4000 - 7; i++)
ASSERT (result[i] == '0');
ASSERT (strcmp (result + 4000 - 7, "1234567 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%.*d %d", 4000, 1234567, 99);
size_t i;
ASSERT (result != NULL);
for (i = 0; i < 4000 - 7; i++)
ASSERT (result[i] == '0');
ASSERT (strcmp (result + 4000 - 7, "1234567 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%.4000d %d", -1234567, 99);
size_t i;
ASSERT (result != NULL);
ASSERT (result[0] == '-');
for (i = 0; i < 4000 - 7; i++)
ASSERT (result[1 + i] == '0');
ASSERT (strcmp (result + 1 + 4000 - 7, "1234567 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%.4000u %d", 1234567, 99);
size_t i;
ASSERT (result != NULL);
for (i = 0; i < 4000 - 7; i++)
ASSERT (result[i] == '0');
ASSERT (strcmp (result + 4000 - 7, "1234567 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%.4000o %d", 1234567, 99);
size_t i;
ASSERT (result != NULL);
for (i = 0; i < 4000 - 7; i++)
ASSERT (result[i] == '0');
ASSERT (strcmp (result + 4000 - 7, "4553207 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%.4000x %d", 1234567, 99);
size_t i;
ASSERT (result != NULL);
for (i = 0; i < 4000 - 6; i++)
ASSERT (result[i] == '0');
ASSERT (strcmp (result + 4000 - 6, "12d687 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char *result;
int retval =
my_asprintf (&result, "%#.4000x %d", 1234567, 99);
size_t i;
ASSERT (result != NULL);
ASSERT (result[0] == '0');
ASSERT (result[1] == 'x');
for (i = 0; i < 4000 - 6; i++)
ASSERT (result[2 + i] == '0');
ASSERT (strcmp (result + 2 + 4000 - 6, "12d687 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
{
char input[5000];
char *result;
int retval;
size_t i;
for (i = 0; i < sizeof (input) - 1; i++)
input[i] = 'a' + ((1000000 / (i + 1)) % 26);
input[i] = '\0';
retval = my_asprintf (&result, "%.4000s %d", input, 99);
ASSERT (result != NULL);
ASSERT (memcmp (result, input, 4000) == 0);
ASSERT (strcmp (result + 4000, " 99") == 0);
ASSERT (retval == strlen (result));
free (result);
}
/* Test the support of the %s format directive. */
/* To verify that these tests succeed, it is necessary to run them under
a tool that checks against invalid memory accesses, such as ElectricFence
or "valgrind --tool=memcheck". */
{
size_t i;
for (i = 1; i <= 8; i++)
{
char *block;
char *result;
int retval;
block = (char *) malloc (i);
memcpy (block, "abcdefgh", i);
retval = my_asprintf (&result, "%.*s", (int) i, block);
ASSERT (result != NULL);
ASSERT (memcmp (result, block, i) == 0);
ASSERT (result[i] == '\0');
ASSERT (retval == strlen (result));
free (result);
free (block);
}
}
#if HAVE_WCHAR_T
{
size_t i;
for (i = 1; i <= 8; i++)
{
wchar_t *block;
size_t j;
char *result;
int retval;
block = (wchar_t *) malloc (i * sizeof (wchar_t));
for (j = 0; j < i; j++)
block[j] = "abcdefgh"[j];
retval = my_asprintf (&result, "%.*ls", (int) i, block);
ASSERT (result != NULL);
ASSERT (memcmp (result, "abcdefgh", i) == 0);
ASSERT (result[i] == '\0');
ASSERT (retval == strlen (result));
free (result);
free (block);
}
}
#endif
}
static int
my_asprintf (char **result, const char *format, ...)
{
va_list args;
int ret;
va_start (args, format);
ret = vasprintf (result, format, args);
va_end (args);
return ret;
}
static void
test_vasprintf ()
{
test_function (my_asprintf);
}
static void
test_asprintf ()
{
test_function (asprintf);
}
int
main (int argc, char *argv[])
{
test_vasprintf ();
test_asprintf ();
return 0;
}
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