/* Test of POSIX compatible vasnprintf() and asnprintf() functions. Copyright (C) 2007 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 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* Written by Bruno Haible , 2007. */ #ifdef HAVE_CONFIG_H # include #endif #include "vasnprintf.h" #include #include #include #include #include #define ASSERT(expr) if (!(expr)) abort (); /* The Compaq (ex-DEC) C 6.4 compiler chokes on the expression 0.0 / 0.0. */ #ifdef __DECC static double NaN () { static double zero = 0.0; return zero / zero; } #else # define NaN() (0.0 / 0.0) #endif static void test_function (char * (*my_asnprintf) (char *, size_t *, const char *, ...)) { char buf[8]; int size; /* Test return value convention. */ for (size = 0; size <= 8; size++) { size_t length = size; char *result = my_asnprintf (NULL, &length, "%d", 12345); ASSERT (result != NULL); ASSERT (strcmp (result, "12345") == 0); ASSERT (length == 5); free (result); } for (size = 0; size <= 8; size++) { size_t length; char *result; memcpy (buf, "DEADBEEF", 8); length = size; result = my_asnprintf (buf, &length, "%d", 12345); ASSERT (result != NULL); ASSERT (strcmp (result, "12345") == 0); ASSERT (length == 5); if (size < 6) ASSERT (result != buf); ASSERT (memcmp (buf + size, "DEADBEEF" + size, 8 - size) == 0); if (result != buf) free (result); } /* Test support of size specifiers as in C99. */ { size_t length; char *result = my_asnprintf (NULL, &length, "%ju %d", (uintmax_t) 12345671, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "12345671 33") == 0); ASSERT (length == strlen (result)); free (result); } { size_t length; char *result = my_asnprintf (NULL, &length, "%zu %d", (size_t) 12345672, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "12345672 33") == 0); ASSERT (length == strlen (result)); free (result); } { size_t length; char *result = my_asnprintf (NULL, &length, "%tu %d", (ptrdiff_t) 12345673, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "12345673 33") == 0); ASSERT (length == strlen (result)); free (result); } #if HAVE_LONG_DOUBLE { size_t length; char *result = my_asnprintf (NULL, &length, "%Lg %d", (long double) 1.5, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "1.5 33") == 0); ASSERT (length == strlen (result)); free (result); } #endif /* Test the support of the 'a' and 'A' conversion specifier for hexadecimal output of floating-point numbers. */ { /* A positive number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* A negative number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* Positive zero. */ size_t length; char *result = my_asnprintf (NULL, &length, "%a %d", 0.0, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "0x0p+0 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Negative zero. */ size_t length; char *result = my_asnprintf (NULL, &length, "%a %d", -0.0, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "-0x0p+0 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Positive infinity. */ size_t length; char *result = my_asnprintf (NULL, &length, "%a %d", 1.0 / 0.0, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "inf 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Negative infinity. */ size_t length; char *result = my_asnprintf (NULL, &length, "%a %d", -1.0 / 0.0, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "-inf 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* NaN. */ size_t length; char *result = my_asnprintf (NULL, &length, "%a %d", NaN (), 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "nan 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Rounding near the decimal point. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 0. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 1. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 2. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 3. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding can turn a ...FFF into a ...000. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding can turn a ...FFF into a ...000. This shows a MacOS X 10.3.9 (Darwin 7.9) bug. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Width. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* Small precision. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Large precision. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* FLAG_LEFT. */ size_t length; char *result = my_asnprintf (NULL, &length, "%-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 (length == strlen (result)); free (result); } { /* FLAG_SHOWSIGN. */ size_t length; char *result = my_asnprintf (NULL, &length, "%+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 (length == strlen (result)); free (result); } { /* FLAG_SPACE. */ size_t length; char *result = my_asnprintf (NULL, &length, "% 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 (length == strlen (result)); free (result); } { /* FLAG_ALT. */ size_t length; char *result = my_asnprintf (NULL, &length, "%#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 (length == strlen (result)); free (result); } { /* FLAG_ALT. */ size_t length; char *result = my_asnprintf (NULL, &length, "%#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 (length == strlen (result)); free (result); } { /* FLAG_ZERO with finite number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* FLAG_ZERO with infinite number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%010a %d", 1.0 / 0.0, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, " inf 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* FLAG_ZERO with NaN. */ size_t length; char *result = my_asnprintf (NULL, &length, "%010a %d", NaN (), 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, " nan 33") == 0); ASSERT (length == strlen (result)); free (result); } #if HAVE_LONG_DOUBLE { /* A positive number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* A negative number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* Positive zero. */ size_t length; char *result = my_asnprintf (NULL, &length, "%La %d", 0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "0x0p+0 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Negative zero. */ size_t length; char *result = my_asnprintf (NULL, &length, "%La %d", -0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "-0x0p+0 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Positive infinity. */ size_t length; char *result = my_asnprintf (NULL, &length, "%La %d", 1.0L / 0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "inf 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Negative infinity. */ size_t length; char *result = my_asnprintf (NULL, &length, "%La %d", -1.0L / 0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "-inf 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* NaN. */ size_t length; char *result = my_asnprintf (NULL, &length, "%La %d", 0.0L / 0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "nan 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* Rounding near the decimal point. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 0. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 1. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 2. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding with precision 3. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Rounding can turn a ...FFF into a ...000. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == 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 . */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Width. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* Small precision. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* Large precision. */ size_t length; char *result = my_asnprintf (NULL, &length, "%.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 (length == strlen (result)); free (result); } { /* FLAG_LEFT. */ size_t length; char *result = my_asnprintf (NULL, &length, "%-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 (length == strlen (result)); free (result); } { /* FLAG_SHOWSIGN. */ size_t length; char *result = my_asnprintf (NULL, &length, "%+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 (length == strlen (result)); free (result); } { /* FLAG_SPACE. */ size_t length; char *result = my_asnprintf (NULL, &length, "% 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 (length == strlen (result)); free (result); } { /* FLAG_ALT. */ size_t length; char *result = my_asnprintf (NULL, &length, "%#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 (length == strlen (result)); free (result); } { /* FLAG_ALT. */ size_t length; char *result = my_asnprintf (NULL, &length, "%#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 (length == strlen (result)); free (result); } { /* FLAG_ZERO with finite number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%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 (length == strlen (result)); free (result); } { /* FLAG_ZERO with infinite number. */ size_t length; char *result = my_asnprintf (NULL, &length, "%010La %d", 1.0L / 0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, " inf 33") == 0); ASSERT (length == strlen (result)); free (result); } { /* FLAG_ZERO with NaN. */ size_t length; char *result = my_asnprintf (NULL, &length, "%010La %d", 0.0L / 0.0L, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, " nan 33") == 0); ASSERT (length == strlen (result)); free (result); } #endif /* Test the support of the %n format directive. */ { int count = -1; size_t length; char *result = my_asnprintf (NULL, &length, "%d %n", 123, &count, 33, 44, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "123 ") == 0); ASSERT (length == strlen (result)); ASSERT (count == 4); free (result); } /* Test the support of the POSIX/XSI format strings with positions. */ { size_t length; char *result = my_asnprintf (NULL, &length, "%2$d %1$d", 33, 55); ASSERT (result != NULL); ASSERT (strcmp (result, "55 33") == 0); ASSERT (length == strlen (result)); free (result); } } static char * my_asnprintf (char *resultbuf, size_t *lengthp, const char *format, ...) { va_list args; char *ret; va_start (args, format); ret = vasnprintf (resultbuf, lengthp, format, args); va_end (args); return ret; } static void test_vasnprintf () { test_function (my_asnprintf); } static void test_asnprintf () { test_function (asnprintf); } int main (int argc, char *argv[]) { test_vasnprintf (); test_asnprintf (); return 0; }