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view src/message_test.c @ 34394:a400c8f9506f v9.1.0123

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patch 9.1.0123: MS-Windows: system() may deadlock Commit: https://github.com/vim/vim/commit/52ecc76c7fa1865603f27bc838efaeaa03cad77c Author: GuyBrush <miguel.barro@live.com> Date: Wed Feb 21 20:16:38 2024 +0100 patch 9.1.0123: MS-Windows: system() may deadlock Problem: MS-Windows: system() may deadlock when calling binaries that expect stdin Solution: Ignore the SHELL_EXPAND flag (GuyBrush) This happens on binaries that expect stdin. For example: :echo system("xxd") will cause a deadlock. SHELL_EXPAND is a flag devoted to support the linux implementation of the backtick-expansion mechanism. On linux backtic-expansion relies in the function mch_expand_wildchars() (os_unix.c) that delegates on each specific shell (bash, sh, csh, zsh) the expansion. Basically it composes a shell command that does the expansion and redirects the output to a file and call_shell() it. On windows backtick-expansion is performed by Vim itself. On linux SHELL_EXPAND modifies how mch_call_shell_fork() (os_unix.c) works. This function: - relies on posix fork() to spawn a child process to execute a external command. - Child and parent process communicate using pipes (or pseudoterminal if available). User input (type ahead content) is processed in a loop only if !(SHELL_EXPAND || SHELL_COOKED). Though signals are used to detect Ctrl-C in all cases (the input loop is not necessary to interrupt the function). In the backtick-expansion the external command is the shell command that provides the expansion. For the child redirection: - SHELL_EXPAND replaces stdin, stdout & stderr to /dev/null. This is why the shell command composed includes redirection (otherwise output would be lost). - !SHELL_EXPAND replaces stdin, stdout & stderr with the parent created pipes (or pseudoterminal). Note that the use of SIGINT signal prevents mch_call_shell_fork() from hanging vim. On Windows mch_system_piped() (os_win32.c) (which is only used when the GUI is running) mimics mch_call_shell_fork() (os_unix.c). Win32 lacks fork() and relies on CreateProcessW() and only has pipe support (not pseudoterminal) which makes the implementation much different. But, the key idea is that windows lacks signals, the OS provides support for console apps but gvim is not one. The only way of detecting a Ctrl-C is actually processing user input (type ahead content). By ignoring the user input under SHELL_EXPAND the function can hang gvim. Ignoring SHELL_EXPAND flag has no consequence in Windows because as mentioned above it is only meaningful in linux. closes: #13988 Signed-off-by: GuyBrush <miguel.barro@live.com> Signed-off-by: Christian Brabandt <cb@256bit.org>
author Christian Brabandt <cb@256bit.org>
date Wed, 21 Feb 2024 20:30:02 +0100
parents 05c320c640de
children
line wrap: on
line source

/* vi:set ts=8 sts=4 sw=4 noet:
 *
 * VIM - Vi IMproved	by Bram Moolenaar
 *
 * Do ":help uganda"  in Vim to read copying and usage conditions.
 * Do ":help credits" in Vim to see a list of people who contributed.
 * See README.txt for an overview of the Vim source code.
 */

/*
 * message_test.c: Unittests for message.c
 */

#undef NDEBUG
#include <assert.h>

// Must include main.c because it contains much more than just main()
#define NO_VIM_MAIN
#include "main.c"

// This file has to be included because some of the tested functions are
// static.
#include "message.c"

#ifndef MIN
# define MIN(x,y) ((x) < (y) ? (x) : (y))
#endif

// These formats are not standard in C printf() function.
// Use a global variable rather than a literal format to disable
// -Wformat compiler warnings:
//
// - warning: '0' flag used with ‘%p’ gnu_printf format
// - warning: format ‘%S’ expects argument of type ‘wchar_t *’, but argument 4 has type ‘char *’
// - warning: unknown conversion type character ‘b’ in format
//
// These formats are in practise only used from vim script printf()
// function and never as literals in C code.
char *fmt_012p = "%012p";
char *fmt_5S   = "%5S";
char *fmt_06b  = "%06b";
char *fmt_06pb = "%1$0.*2$b";
char *fmt_06pb2 = "%2$0*1$b";
char *fmt_212s = "%2$s %1$s %2$s";
char *fmt_21s  = "%2$s %1$s";

/*
 * Test trunc_string().
 */
    static void
test_trunc_string(void)
{
    char_u  *buf; /*allocated every time to find uninit errors */
    char_u  *s;

    // Should not write anything to destination if buflen is 0.
    trunc_string((char_u *)"", NULL, 1, 0);

    // Truncating an empty string does nothing.
    buf = alloc(1);
    trunc_string((char_u *)"", buf, 1, 1);
    assert(buf[0] == NUL);
    vim_free(buf);

    // in place
    buf = alloc(40);
    STRCPY(buf, "text");
    trunc_string(buf, buf, 20, 40);
    assert(STRCMP(buf, "text") == 0);
    vim_free(buf);

    buf = alloc(40);
    STRCPY(buf, "a short text");
    trunc_string(buf, buf, 20, 40);
    assert(STRCMP(buf, "a short text") == 0);
    vim_free(buf);

    buf = alloc(40);
    STRCPY(buf, "a text tha just fits");
    trunc_string(buf, buf, 20, 40);
    assert(STRCMP(buf, "a text tha just fits") == 0);
    vim_free(buf);

    buf = alloc(40);
    STRCPY(buf, "a text that nott fits");
    trunc_string(buf, buf, 20, 40);
    assert(STRCMP(buf, "a text t...nott fits") == 0);
    vim_free(buf);

    // copy from string to buf
    buf = alloc(40);
    s = vim_strsave((char_u *)"text");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "text") == 0);
    vim_free(buf);
    vim_free(s);

    buf = alloc(40);
    s = vim_strsave((char_u *)"a text that fits");
    trunc_string(s, buf, 34, 40);
    assert(STRCMP(buf, "a text that fits") == 0);
    vim_free(buf);
    vim_free(s);

    buf = alloc(40);
    s = vim_strsave((char_u *)"a short text");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "a short text") == 0);
    vim_free(buf);
    vim_free(s);

    buf = alloc(40);
    s = vim_strsave((char_u *)"a text tha just fits");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "a text tha just fits") == 0);
    vim_free(buf);
    vim_free(s);

    buf = alloc(40);
    s = vim_strsave((char_u *)"a text that nott fits");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "a text t...nott fits") == 0);
    vim_free(buf);
    vim_free(s);
}

/*
 * Test trunc_string() with mbyte chars.
 */
    static void
test_trunc_string_mbyte(void)
{
    char_u  *buf; // allocated every time to find uninit errors
    char_u  *s;

    buf = alloc(40);
    s = vim_strsave((char_u *)"Ä text tha just fits");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "Ä text tha just fits") == 0);
    vim_free(buf);
    vim_free(s);

    buf = alloc(40);
    s = vim_strsave((char_u *)"a text ÄÖÜä nott fits");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "a text Ä...nott fits") == 0);
    vim_free(buf);
    vim_free(s);

    buf = alloc(40);
    s = vim_strsave((char_u *)"a text that not fitsÄ");
    trunc_string(s, buf, 20, 40);
    assert(STRCMP(buf, "a text t...not fitsÄ") == 0);
    vim_free(buf);
    vim_free(s);
}

/*
 * Test vim_snprintf() with a focus on checking that truncation is
 * correct when buffer is small, since it cannot be tested from
 * vim script tests. Check that:
 * - no buffer overflows happens (with valgrind or asan)
 * - output string is always NUL terminated.
 *
 * Not all formats of vim_snprintf() are checked here. They are
 * checked more exhaustively in Test_printf*() vim script tests.
 */
    static void
test_vim_snprintf(void)
{
    int		n;
    size_t	bsize;
    int		bsize_int;
    void	*ptr = (void *)0x87654321;

    // Loop on various buffer sizes to make sure that truncation of
    // vim_snprintf() is correct.
    for (bsize = 0; bsize < 15; ++bsize)
    {
	bsize_int = (int)bsize - 1;

	// buf is the heap rather than in the stack
	// so valgrind can detect buffer overflows if any.
	// Use malloc() rather than alloc() as test checks with 0-size
	// buffer and its content should then never be used.
	char *buf = malloc(bsize);

	n = vim_snprintf(buf, bsize, "%.8g", 10000000.1);
	assert(n == 12);
	assert(bsize == 0 || STRNCMP(buf, "1.00000001e7", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%d", 1234567);
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "1234567", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%ld", 1234567L);
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "1234567", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%9ld", 1234567L);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "  1234567", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%-9ld", 1234567L);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "1234567  ", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%x", 0xdeadbeef);
	assert(n == 8);
	assert(bsize == 0 || STRNCMP(buf, "deadbeef", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_06b, (uvarnumber_T)12);
	assert(n == 6);
	assert(bsize == 0 || STRNCMP(buf, "001100", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%s %s", "one", "two");
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "one two", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%f", 1.234);
	assert(n == 8);
	assert(bsize == 0 || STRNCMP(buf, "1.234000", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%e", 1.234);
	assert(n == 12);
	assert(bsize == 0 || STRNCMP(buf, "1.234000e+00", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%f", 0.0/0.0);
	assert(n == 3);
	assert(bsize == 0 || STRNCMP(buf, "nan", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%f", 1.0/0.0);
	assert(n == 3);
	assert(bsize == 0 || STRNCMP(buf, "inf", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%f", -1.0/0.0);
	assert(n == 4);
	assert(bsize == 0 || STRNCMP(buf, "-inf", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%f", -0.0);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "-0.000000", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%s", "漢語");
	assert(n == 6);
	assert(bsize == 0 || STRNCMP(buf, "漢語", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%8s", "漢語");
	assert(n == 8);
	assert(bsize == 0 || STRNCMP(buf, "  漢語", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%-8s", "漢語");
	assert(n == 8);
	assert(bsize == 0 || STRNCMP(buf, "漢語  ", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%.3s", "漢語");
	assert(n == 3);
	assert(bsize == 0 || STRNCMP(buf, "漢", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_5S, "foo");
	assert(n == 5);
	assert(bsize == 0 || STRNCMP(buf, "  foo", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%%%%%%");
	assert(n == 3);
	assert(bsize == 0 || STRNCMP(buf, "%%%", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%c%c", 1, 2);
	assert(n == 2);
	assert(bsize == 0 || STRNCMP(buf, "\x01\x02", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	// %p format is not tested in vim script tests Test_printf*()
	// as it only makes sense in C code.
	// NOTE: SunOS libc doesn't use the prefix "0x" on %p.
#ifdef SUN_SYSTEM
# define PREFIX_LEN  0
# define PREFIX_STR1 ""
# define PREFIX_STR2 "00"
#else
# define PREFIX_LEN  2
# define PREFIX_STR1 "0x"
# define PREFIX_STR2 "0x"
#endif
	n = vim_snprintf(buf, bsize, "%p", ptr);
	assert(n == 8 + PREFIX_LEN);
	assert(bsize == 0
		     || STRNCMP(buf, PREFIX_STR1 "87654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_012p, ptr);
	assert(n == 12);
	assert(bsize == 0
		   || STRNCMP(buf, PREFIX_STR2 "0087654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	free(buf);
    }
}

/*
 * Test vim_snprintf() with a focus on checking that positional
 * arguments are correctly applied and skipped
 */
    static void
test_vim_snprintf_positional(void)
{
    int		n;
    size_t	bsize;
    int		bsize_int;

    // Loop on various buffer sizes to make sure that truncation of
    // vim_snprintf() is correct.
    for (bsize = 0; bsize < 25; ++bsize)
    {
	bsize_int = (int)bsize - 1;

	// buf is the heap rather than in the stack
	// so valgrind can detect buffer overflows if any.
	// Use malloc() rather than alloc() as test checks with 0-size
	// buffer and its content should then never be used.
	char *buf = malloc(bsize);

	n = vim_snprintf(buf, bsize, "%1$*2$ld", 1234567L, -9);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "1234567  ", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$*2$.*3$ld", 1234567L, -9, 5);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "1234567  ", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$*3$.*2$ld", 1234567L, 5, -9);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "1234567  ", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%3$*1$.*2$ld", -9, 5, 1234567L);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "1234567  ", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$ld", 1234567L);
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "1234567", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$*2$ld", 1234567L, 9);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "  1234567", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$ld %1$d %3$lu", 12345, 9L, 7654321UL);
	assert(n == 15);
	assert(bsize == 0 || STRNCMP(buf, "9 12345 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$d %1$ld %3$lu", 1234567L, 9, 7654321UL);
	assert(n == 17);
	assert(bsize == 0 || STRNCMP(buf, "9 1234567 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$d %1$lld %3$lu", 1234567LL, 9, 7654321UL);
	assert(n == 17);
	assert(bsize == 0 || STRNCMP(buf, "9 1234567 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$ld %1$u %3$lu", 12345U, 9L, 7654321UL);
	assert(n == 15);
	assert(bsize == 0 || STRNCMP(buf, "9 12345 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$d %1$lu %3$lu", 1234567UL, 9, 7654321UL);
	assert(n == 17);
	assert(bsize == 0 || STRNCMP(buf, "9 1234567 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$d %1$llu %3$lu", 1234567LLU, 9, 7654321UL);
	assert(n == 17);
	assert(bsize == 0 || STRNCMP(buf, "9 1234567 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$d %1$x %3$lu", 0xdeadbeef, 9, 7654321UL);
	assert(n == 18);
	assert(bsize == 0 || STRNCMP(buf, "9 deadbeef 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$ld %1$c %3$lu", 'c', 9L, 7654321UL);
	assert(n == 11);
	assert(bsize == 0 || STRNCMP(buf, "9 c 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$ld %1$s %3$lu", "hi", 9L, 7654321UL);
	assert(n == 12);
	assert(bsize == 0 || STRNCMP(buf, "9 hi 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%2$ld %1$e %3$lu", 0.0, 9L, 7654321UL);
	assert(n == 22);
	assert(bsize == 0 || STRNCMP(buf, "9 0.000000e+00 7654321", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_212s, "one", "two", "three");
	assert(n == 11);
	assert(bsize == 0 || STRNCMP(buf, "two one two", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%3$s %1$s %2$s", "one", "two", "three");
	assert(n == 13);
	assert(bsize == 0 || STRNCMP(buf, "three one two", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$d", 1234567);
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "1234567", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$x", 0xdeadbeef);
	assert(n == 8);
	assert(bsize == 0 || STRNCMP(buf, "deadbeef", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_06pb2, 6, (uvarnumber_T)12);
	assert(n == 6);
	assert(bsize == 0 || STRNCMP(buf, "001100", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_06pb, (uvarnumber_T)12, 6);
	assert(n == 6);
	assert(bsize == 0 || STRNCMP(buf, "001100", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$s %2$s", "one", "two");
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "one two", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_06b, (uvarnumber_T)12);
	assert(n == 6);
	assert(bsize == 0 || STRNCMP(buf, "001100", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, fmt_21s, "one", "two", "three");
	assert(n == 7);
	assert(bsize == 0 || STRNCMP(buf, "two one", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

#ifdef FEAT_FLOAT
	n = vim_snprintf(buf, bsize, "%1$f", 1.234);
	assert(n == 8);
	assert(bsize == 0 || STRNCMP(buf, "1.234000", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$e", 1.234);
	assert(n == 12);
	assert(bsize == 0 || STRNCMP(buf, "1.234000e+00", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$f", 0.0/0.0);
	assert(n == 3);
	assert(bsize == 0 || STRNCMP(buf, "nan", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$f", 1.0/0.0);
	assert(n == 3);
	assert(bsize == 0 || STRNCMP(buf, "inf", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$f", -1.0/0.0);
	assert(n == 4);
	assert(bsize == 0 || STRNCMP(buf, "-inf", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');

	n = vim_snprintf(buf, bsize, "%1$f", -0.0);
	assert(n == 9);
	assert(bsize == 0 || STRNCMP(buf, "-0.000000", bsize_int) == 0);
	assert(bsize == 0 || buf[MIN(n, bsize_int)] == '\0');
#endif

	free(buf);
    }
}

    int
main(int argc, char **argv)
{
    CLEAR_FIELD(params);
    params.argc = argc;
    params.argv = argv;
    common_init(&params);

    set_option_value_give_err((char_u *)"encoding", 0, (char_u *)"utf-8", 0);
    init_chartab();
    test_trunc_string();
    test_trunc_string_mbyte();
    test_vim_snprintf();
    test_vim_snprintf_positional();

    set_option_value_give_err((char_u *)"encoding", 0, (char_u *)"latin1", 0);
    init_chartab();
    test_trunc_string();
    test_vim_snprintf();
    test_vim_snprintf_positional();

    return 0;
}