libbb/xatonum_template.c - fp2-dev/platform/external/busybox - Gitiles

 /*
 You need to define the following (example):

 #define type long
 #define xstrtou(rest) xstrtoul##rest
 #define xstrto(rest) xstrtol##rest
 #define xatou(rest) xatoul##rest
 #define xato(rest) xatol##rest
 #define XSTR_UTYPE_MAX ULONG_MAX
 #define XSTR_TYPE_MAX LONG_MAX
 #define XSTR_TYPE_MIN LONG_MIN
 #define XSTR_STRTOU strtoul
 */

 unsigned type xstrtou(_range_sfx)(const char *numstr, int base,
 		unsigned type lower,
 		unsigned type upper,
 		const struct suffix_mult *suffixes)
 {
 	unsigned type r;
 	int old_errno;
 	char *e;

 	/* Disallow '-' and any leading whitespace.  Speed isn't critical here
 	 * since we're parsing commandline args.  So make sure we get the
 	 * actual isspace function rather than a lnumstrer macro implementaion. */
 	if (*numstr == '-' || *numstr == '+' || (isspace)(*numstr))
 		goto inval;

 	/* Since this is a lib function, we're not allowed to reset errno to 0.
 	 * Doing so could break an app that is deferring checking of errno.
 	 * So, save the old value so that we can restore it if successful. */
 	old_errno = errno;
 	errno = 0;
 	r = XSTR_STRTOU(numstr, &e, base);
 	/* Do the initial validity check.  Note: The standards do not
 	 * guarantee that errno is set if no digits were found.  So we
 	 * must test for this explicitly. */
 	if (errno || numstr == e)
 		goto inval; /* error / no digits / illegal trailing chars */

 	errno = old_errno;	/* Ok.  So restore errno. */

 	/* Do optional suffix parsing.  Allow 'empty' suffix tables.
 	 * Note that we also allow nul suffixes with associated multipliers,
 	 * to allow for scaling of the numstr by some default multiplier. */
 	if (suffixes) {
 		while (suffixes->mult) {
 			if (strcmp(suffixes->suffix, e) == 0) {
 				if (XSTR_UTYPE_MAX / suffixes->mult < r)
 					goto range; /* overflow! */
 				r *= suffixes->mult;
 				goto chk_range;
 			}
 			++suffixes;
 		}
 	}

 	/* Note: trailing space is an error.
 	   It would be easy enough to allow though if desired. */
 	if (*e)
 		goto inval;
  chk_range:
 	/* Finally, check for range limits. */
 	if (r >= lower && r <= upper)
 		return r;
  range:
 	bb_error_msg_and_die("number %s is not in %llu..%llu range",
 		numstr, (unsigned long long)lower,
 		(unsigned long long)upper);
  inval:
 	bb_error_msg_and_die("invalid number '%s'", numstr);
 }

 unsigned type xstrtou(_range)(const char *numstr, int base,
 		unsigned type lower,
 		unsigned type upper)
 {
 	return xstrtou(_range_sfx)(numstr, base, lower, upper, NULL);
 }

 unsigned type xstrtou(_sfx)(const char *numstr, int base,
 		const struct suffix_mult *suffixes)
 {
 	return xstrtou(_range_sfx)(numstr, base, 0, XSTR_UTYPE_MAX, suffixes);
 }

 unsigned type xstrtou()(const char *numstr, int base)
 {
 	return xstrtou(_range_sfx)(numstr, base, 0, XSTR_UTYPE_MAX, NULL);
 }

 unsigned type xatou(_range_sfx)(const char *numstr,
 		unsigned type lower,
 		unsigned type upper,
 		const struct suffix_mult *suffixes)
 {
 	return xstrtou(_range_sfx)(numstr, 10, lower, upper, suffixes);
 }

 unsigned type xatou(_range)(const char *numstr,
 		unsigned type lower,
 		unsigned type upper)
 {
 	return xstrtou(_range_sfx)(numstr, 10, lower, upper, NULL);
 }

 unsigned type xatou(_sfx)(const char *numstr,
 		const struct suffix_mult *suffixes)
 {
 	return xstrtou(_range_sfx)(numstr, 10, 0, XSTR_UTYPE_MAX, suffixes);
 }

 unsigned type xatou()(const char *numstr)
 {
 	return xatou(_sfx)(numstr, NULL);
 }

 /* Signed ones */

 type xstrto(_range_sfx)(const char *numstr, int base,
 		type lower,
 		type upper,
 		const struct suffix_mult *suffixes)
 {
 	unsigned type u = XSTR_TYPE_MAX;
 	type r;
 	const char *p = numstr;

 	if (p[0] == '-') {
 		++p;
 		++u;	/* two's complement */
 	}

 	r = xstrtou(_range_sfx)(p, base, 0, u, suffixes);

 	if (*numstr == '-') {
 		r = -r;
 	}

 	if (r < lower || r > upper) {
 		bb_error_msg_and_die("number %s is not in %lld..%lld range",
 				numstr, (long long)lower, (long long)upper);
 	}

 	return r;
 }

 type xstrto(_range)(const char *numstr, int base, type lower, type upper)
 {
 	return xstrto(_range_sfx)(numstr, base, lower, upper, NULL);
 }

 type xato(_range_sfx)(const char *numstr,
 		type lower,
 		type upper,
 		const struct suffix_mult *suffixes)
 {
 	return xstrto(_range_sfx)(numstr, 10, lower, upper, suffixes);
 }

 type xato(_range)(const char *numstr, type lower, type upper)
 {
 	return xstrto(_range_sfx)(numstr, 10, lower, upper, NULL);
 }

 type xato(_sfx)(const char *numstr, const struct suffix_mult *suffixes)
 {
 	return xstrto(_range_sfx)(numstr, 10, XSTR_TYPE_MIN, XSTR_TYPE_MAX, suffixes);
 }

 type xato()(const char *numstr)
 {
 	return xstrto(_range_sfx)(numstr, 10, XSTR_TYPE_MIN, XSTR_TYPE_MAX, NULL);
 }

 #undef type
 #undef xstrtou
 #undef xstrto
 #undef xatou
 #undef xato
 #undef XSTR_UTYPE_MAX
 #undef XSTR_TYPE_MAX
 #undef XSTR_TYPE_MIN
 #undef XSTR_STRTOU
	/*
	You need to define the following (example):

	#define type long
	#define xstrtou(rest) xstrtoul##rest
	#define xstrto(rest) xstrtol##rest
	#define xatou(rest) xatoul##rest
	#define xato(rest) xatol##rest
	#define XSTR_UTYPE_MAX ULONG_MAX
	#define XSTR_TYPE_MAX LONG_MAX
	#define XSTR_TYPE_MIN LONG_MIN
	#define XSTR_STRTOU strtoul
	*/

	unsigned type xstrtou(_range_sfx)(const char *numstr, int base,
	unsigned type lower,
	unsigned type upper,
	const struct suffix_mult *suffixes)
	{
	unsigned type r;
	int old_errno;
	char *e;

	/* Disallow '-' and any leading whitespace. Speed isn't critical here
	* since we're parsing commandline args. So make sure we get the
	* actual isspace function rather than a lnumstrer macro implementaion. */
	if (numstr == '-' \|\| numstr == '+' \|\| (isspace)(*numstr))
	goto inval;

	/* Since this is a lib function, we're not allowed to reset errno to 0.
	* Doing so could break an app that is deferring checking of errno.
	* So, save the old value so that we can restore it if successful. */
	old_errno = errno;
	errno = 0;
	r = XSTR_STRTOU(numstr, &e, base);
	/* Do the initial validity check. Note: The standards do not
	* guarantee that errno is set if no digits were found. So we
	* must test for this explicitly. */
	if (errno \|\| numstr == e)
	goto inval; /* error / no digits / illegal trailing chars */

	errno = old_errno; /* Ok. So restore errno. */

	/* Do optional suffix parsing. Allow 'empty' suffix tables.
	* Note that we also allow nul suffixes with associated multipliers,
	* to allow for scaling of the numstr by some default multiplier. */
	if (suffixes) {
	while (suffixes->mult) {
	if (strcmp(suffixes->suffix, e) == 0) {
	if (XSTR_UTYPE_MAX / suffixes->mult < r)
	goto range; /* overflow! */
	r *= suffixes->mult;
	goto chk_range;
	}
	++suffixes;
	}
	}

	/* Note: trailing space is an error.
	It would be easy enough to allow though if desired. */
	if (*e)
	goto inval;
	chk_range:
	/* Finally, check for range limits. */
	if (r >= lower && r <= upper)
	return r;
	range:
	bb_error_msg_and_die("number %s is not in %llu..%llu range",
	numstr, (unsigned long long)lower,
	(unsigned long long)upper);
	inval:
	bb_error_msg_and_die("invalid number '%s'", numstr);
	}

	unsigned type xstrtou(_range)(const char *numstr, int base,
	unsigned type lower,
	unsigned type upper)
	{
	return xstrtou(_range_sfx)(numstr, base, lower, upper, NULL);
	}

	unsigned type xstrtou(_sfx)(const char *numstr, int base,
	const struct suffix_mult *suffixes)
	{
	return xstrtou(_range_sfx)(numstr, base, 0, XSTR_UTYPE_MAX, suffixes);
	}

	unsigned type xstrtou()(const char *numstr, int base)
	{
	return xstrtou(_range_sfx)(numstr, base, 0, XSTR_UTYPE_MAX, NULL);
	}

	unsigned type xatou(_range_sfx)(const char *numstr,
	unsigned type lower,
	unsigned type upper,
	const struct suffix_mult *suffixes)
	{
	return xstrtou(_range_sfx)(numstr, 10, lower, upper, suffixes);
	}

	unsigned type xatou(_range)(const char *numstr,
	unsigned type lower,
	unsigned type upper)
	{
	return xstrtou(_range_sfx)(numstr, 10, lower, upper, NULL);
	}

	unsigned type xatou(_sfx)(const char *numstr,
	const struct suffix_mult *suffixes)
	{
	return xstrtou(_range_sfx)(numstr, 10, 0, XSTR_UTYPE_MAX, suffixes);
	}

	unsigned type xatou()(const char *numstr)
	{
	return xatou(_sfx)(numstr, NULL);
	}

	/* Signed ones */

	type xstrto(_range_sfx)(const char *numstr, int base,
	type lower,
	type upper,
	const struct suffix_mult *suffixes)
	{
	unsigned type u = XSTR_TYPE_MAX;
	type r;
	const char *p = numstr;

	if (p[0] == '-') {
	++p;
	++u; /* two's complement */
	}

	r = xstrtou(_range_sfx)(p, base, 0, u, suffixes);

	if (*numstr == '-') {
	r = -r;
	}

	if (r < lower \|\| r > upper) {
	bb_error_msg_and_die("number %s is not in %lld..%lld range",
	numstr, (long long)lower, (long long)upper);
	}

	return r;
	}

	type xstrto(_range)(const char *numstr, int base, type lower, type upper)
	{
	return xstrto(_range_sfx)(numstr, base, lower, upper, NULL);
	}

	type xato(_range_sfx)(const char *numstr,
	type lower,
	type upper,
	const struct suffix_mult *suffixes)
	{
	return xstrto(_range_sfx)(numstr, 10, lower, upper, suffixes);
	}

	type xato(_range)(const char *numstr, type lower, type upper)
	{
	return xstrto(_range_sfx)(numstr, 10, lower, upper, NULL);
	}

	type xato(_sfx)(const char numstr, const struct suffix_mult suffixes)
	{
	return xstrto(_range_sfx)(numstr, 10, XSTR_TYPE_MIN, XSTR_TYPE_MAX, suffixes);
	}

	type xato()(const char *numstr)
	{
	return xstrto(_range_sfx)(numstr, 10, XSTR_TYPE_MIN, XSTR_TYPE_MAX, NULL);
	}

	#undef type
	#undef xstrtou
	#undef xstrto
	#undef xatou
	#undef xato
	#undef XSTR_UTYPE_MAX
	#undef XSTR_TYPE_MAX
	#undef XSTR_TYPE_MIN
	#undef XSTR_STRTOU