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In some locales, the conventions for lexicographic ordering differ from the strict numeric ordering of character codes. For example, in Spanish most glyphs with diacritical marks such as accents are not considered distinct letters for the purposes of collation. On the other hand, the two-character sequence ‘ll’ is treated as a single letter that is collated immediately after ‘l’.
You can use the functions strcoll
and strxfrm
(declared in
the headers file string.h) and wcscoll
and wcsxfrm
(declared in the headers file wchar) to compare strings using a
collation ordering appropriate for the current locale. The locale used
by these functions in particular can be specified by setting the locale
for the LC_COLLATE
category; see Locales and Internationalization.
In the standard C locale, the collation sequence for strcoll
is
the same as that for strcmp
. Similarly, wcscoll
and
wcscmp
are the same in this situation.
Effectively, the way these functions work is by applying a mapping to transform the characters in a multibyte string to a byte sequence that represents the string’s position in the collating sequence of the current locale. Comparing two such byte sequences in a simple fashion is equivalent to comparing the strings with the locale’s collating sequence.
The functions strcoll
and wcscoll
perform this translation
implicitly, in order to do one comparison. By contrast, strxfrm
and wcsxfrm
perform the mapping explicitly. If you are making
multiple comparisons using the same string or set of strings, it is
likely to be more efficient to use strxfrm
or wcsxfrm
to
transform all the strings just once, and subsequently compare the
transformed strings with strcmp
or wcscmp
.
Preliminary: | MT-Safe locale | AS-Unsafe heap | AC-Unsafe mem | See POSIX Safety Concepts.
The strcoll
function is similar to strcmp
but uses the
collating sequence of the current locale for collation (the
LC_COLLATE
locale). The arguments are multibyte strings.
Preliminary: | MT-Safe locale | AS-Unsafe heap | AC-Unsafe mem | See POSIX Safety Concepts.
The wcscoll
function is similar to wcscmp
but uses the
collating sequence of the current locale for collation (the
LC_COLLATE
locale).
Here is an example of sorting an array of strings, using strcoll
to compare them. The actual sort algorithm is not written here; it
comes from qsort
(see Array Sort Function). The job of the
code shown here is to say how to compare the strings while sorting them.
(Later on in this section, we will show a way to do this more
efficiently using strxfrm
.)
/* This is the comparison function used withqsort
. */ int compare_elements (const void *v1, const void *v2) { char * const *p1 = v1; char * const *p2 = v2; return strcoll (*p1, *p2); } /* This is the entry point—the function to sort strings using the locale’s collating sequence. */ void sort_strings (char **array, int nstrings) { /* Sorttemp_array
by comparing the strings. */ qsort (array, nstrings, sizeof (char *), compare_elements); }
Preliminary: | MT-Safe locale | AS-Unsafe heap | AC-Unsafe mem | See POSIX Safety Concepts.
The function strxfrm
transforms the multibyte string
from using the
collation transformation determined by the locale currently selected for
collation, and stores the transformed string in the array to. Up
to size bytes (including a terminating null byte) are
stored.
The behavior is undefined if the strings to and from overlap; see Copying Strings and Arrays.
The return value is the length of the entire transformed string. This
value is not affected by the value of size, but if it is greater
or equal than size, it means that the transformed string did not
entirely fit in the array to. In this case, only as much of the
string as actually fits was stored. To get the whole transformed
string, call strxfrm
again with a bigger output array.
The transformed string may be longer than the original string, and it may also be shorter.
If size is zero, no bytes are stored in to. In this
case, strxfrm
simply returns the number of bytes that would
be the length of the transformed string. This is useful for determining
what size the allocated array should be. It does not matter what
to is if size is zero; to may even be a null pointer.
Preliminary: | MT-Safe locale | AS-Unsafe heap | AC-Unsafe mem | See POSIX Safety Concepts.
The function wcsxfrm
transforms wide string wfrom
using the collation transformation determined by the locale currently
selected for collation, and stores the transformed string in the array
wto. Up to size wide characters (including a terminating null
wide character) are stored.
The behavior is undefined if the strings wto and wfrom overlap; see Copying Strings and Arrays.
The return value is the length of the entire transformed wide
string. This value is not affected by the value of size, but if
it is greater or equal than size, it means that the transformed
wide string did not entirely fit in the array wto. In
this case, only as much of the wide string as actually fits
was stored. To get the whole transformed wide string, call
wcsxfrm
again with a bigger output array.
The transformed wide string may be longer than the original wide string, and it may also be shorter.
If size is zero, no wide characters are stored in to. In this
case, wcsxfrm
simply returns the number of wide characters that
would be the length of the transformed wide string. This is
useful for determining what size the allocated array should be (remember
to multiply with sizeof (wchar_t)
). It does not matter what
wto is if size is zero; wto may even be a null pointer.
Here is an example of how you can use strxfrm
when
you plan to do many comparisons. It does the same thing as the previous
example, but much faster, because it has to transform each string only
once, no matter how many times it is compared with other strings. Even
the time needed to allocate and free storage is much less than the time
we save, when there are many strings.
struct sorter { char *input; char *transformed; }; /* This is the comparison function used withqsort
to sort an array ofstruct sorter
. */ int compare_elements (const void *v1, const void *v2) { const struct sorter *p1 = v1; const struct sorter *p2 = v2; return strcmp (p1->transformed, p2->transformed); } /* This is the entry point—the function to sort strings using the locale’s collating sequence. */ void sort_strings_fast (char **array, int nstrings) { struct sorter temp_array[nstrings]; int i; /* Set uptemp_array
. Each element contains one input string and its transformed string. */ for (i = 0; i < nstrings; i++) { size_t length = strlen (array[i]) * 2; char *transformed; size_t transformed_length; temp_array[i].input = array[i]; /* First try a buffer perhaps big enough. */ transformed = (char *) xmalloc (length); /* Transformarray[i]
. */ transformed_length = strxfrm (transformed, array[i], length); /* If the buffer was not large enough, resize it and try again. */ if (transformed_length >= length) { /* Allocate the needed space. +1 for terminating'\0'
byte. */ transformed = (char *) xrealloc (transformed, transformed_length + 1); /* The return value is not interesting because we know how long the transformed string is. */ (void) strxfrm (transformed, array[i], transformed_length + 1); } temp_array[i].transformed = transformed; } /* Sorttemp_array
by comparing transformed strings. */ qsort (temp_array, nstrings, sizeof (struct sorter), compare_elements); /* Put the elements back in the permanent array in their sorted order. */ for (i = 0; i < nstrings; i++) array[i] = temp_array[i].input; /* Free the strings we allocated. */ for (i = 0; i < nstrings; i++) free (temp_array[i].transformed); }
The interesting part of this code for the wide character version would look like this:
void sort_strings_fast (wchar_t **array, int nstrings) { … /* Transformarray[i]
. */ transformed_length = wcsxfrm (transformed, array[i], length); /* If the buffer was not large enough, resize it and try again. */ if (transformed_length >= length) { /* Allocate the needed space. +1 for terminatingL'\0'
wide character. */ transformed = (wchar_t *) xrealloc (transformed, (transformed_length + 1) * sizeof (wchar_t)); /* The return value is not interesting because we know how long the transformed string is. */ (void) wcsxfrm (transformed, array[i], transformed_length + 1); } …
Note the additional multiplication with sizeof (wchar_t)
in the
realloc
call.
Compatibility Note: The string collation functions are a new feature of ISO C90. Older C dialects have no equivalent feature. The wide character versions were introduced in Amendment 1 to ISO C90.
Next: Search Functions, Previous: String/Array Comparison, Up: String and Array Utilities [Contents][Index]