1 @node Character Handling, String and Array Utilities, Memory Allocation, Top
2 @c %MENU% Character testing and conversion functions
3 @chapter Character Handling
5 Programs that work with characters and strings often need to classify a
6 character---is it alphabetic, is it a digit, is it whitespace, and so
7 on---and perform case conversion operations on characters. The
8 functions in the header file @file{ctype.h} are provided for this
12 Since the choice of locale and character set can alter the
13 classifications of particular character codes, all of these functions
14 are affected by the current locale. (More precisely, they are affected
15 by the locale currently selected for character classification---the
16 @code{LC_CTYPE} category; see @ref{Locale Categories}.)
18 The @w{ISO C} standard specifies two different sets of functions. The
19 one set works on @code{char} type characters, the other one on
20 @code{wchar_t} wide characters (@pxref{Extended Char Intro}).
23 * Classification of Characters:: Testing whether characters are
24 letters, digits, punctuation, etc.
26 * Case Conversion:: Case mapping, and the like.
27 * Classification of Wide Characters:: Character class determination for
29 * Using Wide Char Classes:: Notes on using the wide character
31 * Wide Character Case Conversion:: Mapping of wide characters.
34 @node Classification of Characters, Case Conversion, , Character Handling
35 @section Classification of Characters
36 @cindex character testing
37 @cindex classification of characters
38 @cindex predicates on characters
39 @cindex character predicates
41 This section explains the library functions for classifying characters.
42 For example, @code{isalpha} is the function to test for an alphabetic
43 character. It takes one argument, the character to test, and returns a
44 nonzero integer if the character is alphabetic, and zero otherwise. You
45 would use it like this:
49 printf ("The character `%c' is alphabetic.\n", c);
52 Each of the functions in this section tests for membership in a
53 particular class of characters; each has a name starting with @samp{is}.
54 Each of them takes one argument, which is a character to test, and
55 returns an @code{int} which is treated as a boolean value. The
56 character argument is passed as an @code{int}, and it may be the
57 constant value @code{EOF} instead of a real character.
59 The attributes of any given character can vary between locales.
60 @xref{Locales}, for more information on locales.@refill
62 These functions are declared in the header file @file{ctype.h}.
65 @cindex lower-case character
68 @deftypefun int islower (int @var{c})
69 Returns true if @var{c} is a lower-case letter. The letter need not be
70 from the Latin alphabet, any alphabet representable is valid.
73 @cindex upper-case character
76 @deftypefun int isupper (int @var{c})
77 Returns true if @var{c} is an upper-case letter. The letter need not be
78 from the Latin alphabet, any alphabet representable is valid.
81 @cindex alphabetic character
84 @deftypefun int isalpha (int @var{c})
85 Returns true if @var{c} is an alphabetic character (a letter). If
86 @code{islower} or @code{isupper} is true of a character, then
87 @code{isalpha} is also true.
89 In some locales, there may be additional characters for which
90 @code{isalpha} is true---letters which are neither upper case nor lower
91 case. But in the standard @code{"C"} locale, there are no such
92 additional characters.
95 @cindex digit character
96 @cindex decimal digit character
99 @deftypefun int isdigit (int @var{c})
100 Returns true if @var{c} is a decimal digit (@samp{0} through @samp{9}).
103 @cindex alphanumeric character
106 @deftypefun int isalnum (int @var{c})
107 Returns true if @var{c} is an alphanumeric character (a letter or
108 number); in other words, if either @code{isalpha} or @code{isdigit} is
109 true of a character, then @code{isalnum} is also true.
112 @cindex hexadecimal digit character
115 @deftypefun int isxdigit (int @var{c})
116 Returns true if @var{c} is a hexadecimal digit.
117 Hexadecimal digits include the normal decimal digits @samp{0} through
118 @samp{9} and the letters @samp{A} through @samp{F} and
119 @samp{a} through @samp{f}.
122 @cindex punctuation character
125 @deftypefun int ispunct (int @var{c})
126 Returns true if @var{c} is a punctuation character.
127 This means any printing character that is not alphanumeric or a space
131 @cindex whitespace character
134 @deftypefun int isspace (int @var{c})
135 Returns true if @var{c} is a @dfn{whitespace} character. In the standard
136 @code{"C"} locale, @code{isspace} returns true for only the standard
137 whitespace characters:
160 @cindex blank character
163 @deftypefun int isblank (int @var{c})
164 Returns true if @var{c} is a blank character; that is, a space or a tab.
165 This function is a GNU extension.
168 @cindex graphic character
171 @deftypefun int isgraph (int @var{c})
172 Returns true if @var{c} is a graphic character; that is, a character
173 that has a glyph associated with it. The whitespace characters are not
177 @cindex printing character
180 @deftypefun int isprint (int @var{c})
181 Returns true if @var{c} is a printing character. Printing characters
182 include all the graphic characters, plus the space (@samp{ }) character.
185 @cindex control character
188 @deftypefun int iscntrl (int @var{c})
189 Returns true if @var{c} is a control character (that is, a character that
190 is not a printing character).
193 @cindex ASCII character
196 @deftypefun int isascii (int @var{c})
197 Returns true if @var{c} is a 7-bit @code{unsigned char} value that fits
198 into the US/UK ASCII character set. This function is a BSD extension
199 and is also an SVID extension.
202 @node Case Conversion, Classification of Wide Characters, Classification of Characters, Character Handling
203 @section Case Conversion
204 @cindex character case conversion
205 @cindex case conversion of characters
206 @cindex converting case of characters
208 This section explains the library functions for performing conversions
209 such as case mappings on characters. For example, @code{toupper}
210 converts any character to upper case if possible. If the character
211 can't be converted, @code{toupper} returns it unchanged.
213 These functions take one argument of type @code{int}, which is the
214 character to convert, and return the converted character as an
215 @code{int}. If the conversion is not applicable to the argument given,
216 the argument is returned unchanged.
218 @strong{Compatibility Note:} In pre-@w{ISO C} dialects, instead of
219 returning the argument unchanged, these functions may fail when the
220 argument is not suitable for the conversion. Thus for portability, you
221 may need to write @code{islower(c) ? toupper(c) : c} rather than just
224 These functions are declared in the header file @file{ctype.h}.
229 @deftypefun int tolower (int @var{c})
230 If @var{c} is an upper-case letter, @code{tolower} returns the corresponding
231 lower-case letter. If @var{c} is not an upper-case letter,
232 @var{c} is returned unchanged.
237 @deftypefun int toupper (int @var{c})
238 If @var{c} is a lower-case letter, @code{toupper} returns the corresponding
239 upper-case letter. Otherwise @var{c} is returned unchanged.
244 @deftypefun int toascii (int @var{c})
245 This function converts @var{c} to a 7-bit @code{unsigned char} value
246 that fits into the US/UK ASCII character set, by clearing the high-order
247 bits. This function is a BSD extension and is also an SVID extension.
252 @deftypefun int _tolower (int @var{c})
253 This is identical to @code{tolower}, and is provided for compatibility
254 with the SVID. @xref{SVID}.@refill
259 @deftypefun int _toupper (int @var{c})
260 This is identical to @code{toupper}, and is provided for compatibility
265 @node Classification of Wide Characters, Using Wide Char Classes, Case Conversion, Character Handling
266 @section Character class determination for wide characters
268 The second amendment to @w{ISO C89} defines functions to classify wide
269 characters. Although the original @w{ISO C89} standard already defined
270 the type @code{wchar_t}, no functions operating on them were defined.
272 The general design of the classification functions for wide characters
273 is more general. It allows extensions to the set of available
274 classifications, beyond those which are always available. The POSIX
275 standard specifies how extensions can be made, and this is already
276 implemented in the GNU C library implementation of the @code{localedef}
279 The character class functions are normally implemented with bitsets,
280 with a bitset per character. For a given character, the appropriate
281 bitset is read from a table and a test is performed as to whether a
282 certain bit is set. Which bit is tested for is determined by the
285 For the wide character classification functions this is made visible.
286 There is a type classification type defined, a function to retrieve this
287 value for a given class, and a function to test whether a given
288 character is in this class, using the classification value. On top of
289 this the normal character classification functions as used for
290 @code{char} objects can be defined.
294 @deftp {Data type} wctype_t
295 The @code{wctype_t} can hold a value which represents a character class.
296 The only defined way to generate such a value is by using the
297 @code{wctype} function.
300 This type is defined in @file{wctype.h}.
305 @deftypefun wctype_t wctype (const char *@var{property})
306 The @code{wctype} returns a value representing a class of wide
307 characters which is identified by the string @var{property}. Beside
308 some standard properties each locale can define its own ones. In case
309 no property with the given name is known for the current locale
310 selected for the @code{LC_CTYPE} category, the function returns zero.
313 The properties known in every locale are:
315 @multitable @columnfractions .25 .25 .25 .25
317 @code{"alnum"} @tab @code{"alpha"} @tab @code{"cntrl"} @tab @code{"digit"}
319 @code{"graph"} @tab @code{"lower"} @tab @code{"print"} @tab @code{"punct"}
321 @code{"space"} @tab @code{"upper"} @tab @code{"xdigit"}
325 This function is declared in @file{wctype.h}.
328 To test the membership of a character to one of the non-standard classes
329 the @w{ISO C} standard defines a completely new function.
333 @deftypefun int iswctype (wint_t @var{wc}, wctype_t @var{desc})
334 This function returns a nonzero value if @var{wc} is in the character
335 class specified by @var{desc}. @var{desc} must previously be returned
336 by a successful call to @code{wctype}.
339 This function is declared in @file{wctype.h}.
342 To make it easier to use the commonly-used classification functions,
343 they are defined in the C library. There is no need to use
344 @code{wctype} if the property string is one of the known character
345 classes. In some situations it is desirable to construct the property
346 strings, and then it is important that @code{wctype} can also handle the
349 @cindex alphanumeric character
352 @deftypefun int iswalnum (wint_t @var{wc})
353 This function returns a nonzero value if @var{wc} is an alphanumeric
354 character (a letter or number); in other words, if either @code{iswalpha}
355 or @code{iswdigit} is true of a character, then @code{iswalnum} is also
359 This function can be implemented using
362 iswctype (wc, wctype ("alnum"))
366 It is declared in @file{wctype.h}.
369 @cindex alphabetic character
372 @deftypefun int iswalpha (wint_t @var{wc})
373 Returns true if @var{wc} is an alphabetic character (a letter). If
374 @code{iswlower} or @code{iswupper} is true of a character, then
375 @code{iswalpha} is also true.
377 In some locales, there may be additional characters for which
378 @code{iswalpha} is true---letters which are neither upper case nor lower
379 case. But in the standard @code{"C"} locale, there are no such
380 additional characters.
383 This function can be implemented using
386 iswctype (wc, wctype ("alpha"))
390 It is declared in @file{wctype.h}.
393 @cindex control character
396 @deftypefun int iswcntrl (wint_t @var{wc})
397 Returns true if @var{wc} is a control character (that is, a character that
398 is not a printing character).
401 This function can be implemented using
404 iswctype (wc, wctype ("cntrl"))
408 It is declared in @file{wctype.h}.
411 @cindex digit character
414 @deftypefun int iswdigit (wint_t @var{wc})
415 Returns true if @var{wc} is a digit (e.g., @samp{0} through @samp{9}).
416 Please note that this function does not only return a nonzero value for
417 @emph{decimal} digits, but for all kinds of digits. A consequence is
418 that code like the following will @strong{not} work unconditionally for
423 while (iswdigit (*wc))
431 This function can be implemented using
434 iswctype (wc, wctype ("digit"))
438 It is declared in @file{wctype.h}.
441 @cindex graphic character
444 @deftypefun int iswgraph (wint_t @var{wc})
445 Returns true if @var{wc} is a graphic character; that is, a character
446 that has a glyph associated with it. The whitespace characters are not
450 This function can be implemented using
453 iswctype (wc, wctype ("graph"))
457 It is declared in @file{wctype.h}.
460 @cindex lower-case character
463 @deftypefun int iswlower (wint_t @var{wc})
464 Returns true if @var{wc} is a lower-case letter. The letter need not be
465 from the Latin alphabet, any alphabet representable is valid.
468 This function can be implemented using
471 iswctype (wc, wctype ("lower"))
475 It is declared in @file{wctype.h}.
478 @cindex printing character
481 @deftypefun int iswprint (wint_t @var{wc})
482 Returns true if @var{wc} is a printing character. Printing characters
483 include all the graphic characters, plus the space (@samp{ }) character.
486 This function can be implemented using
489 iswctype (wc, wctype ("print"))
493 It is declared in @file{wctype.h}.
496 @cindex punctuation character
499 @deftypefun int iswpunct (wint_t @var{wc})
500 Returns true if @var{wc} is a punctuation character.
501 This means any printing character that is not alphanumeric or a space
505 This function can be implemented using
508 iswctype (wc, wctype ("punct"))
512 It is declared in @file{wctype.h}.
515 @cindex whitespace character
518 @deftypefun int iswspace (wint_t @var{wc})
519 Returns true if @var{wc} is a @dfn{whitespace} character. In the standard
520 @code{"C"} locale, @code{iswspace} returns true for only the standard
521 whitespace characters:
544 This function can be implemented using
547 iswctype (wc, wctype ("space"))
551 It is declared in @file{wctype.h}.
554 @cindex upper-case character
557 @deftypefun int iswupper (wint_t @var{wc})
558 Returns true if @var{wc} is an upper-case letter. The letter need not be
559 from the Latin alphabet, any alphabet representable is valid.
562 This function can be implemented using
565 iswctype (wc, wctype ("upper"))
569 It is declared in @file{wctype.h}.
572 @cindex hexadecimal digit character
575 @deftypefun int iswxdigit (wint_t @var{wc})
576 Returns true if @var{wc} is a hexadecimal digit.
577 Hexadecimal digits include the normal decimal digits @samp{0} through
578 @samp{9} and the letters @samp{A} through @samp{F} and
579 @samp{a} through @samp{f}.
582 This function can be implemented using
585 iswctype (wc, wctype ("xdigit"))
589 It is declared in @file{wctype.h}.
592 The GNU C library also provides a function which is not defined in the
593 @w{ISO C} standard but which is available as a version for single byte
596 @cindex blank character
599 @deftypefun int iswblank (wint_t @var{wc})
600 Returns true if @var{wc} is a blank character; that is, a space or a tab.
601 This function is a GNU extension. It is declared in @file{wchar.h}.
604 @node Using Wide Char Classes, Wide Character Case Conversion, Classification of Wide Characters, Character Handling
605 @section Notes on using the wide character classes
607 The first note is probably not astonishing but still occasionally a
608 cause of problems. The @code{isw@var{XXX}} functions can be implemented
609 using macros and in fact, the GNU C library does this. They are still
610 available as real functions but when the @file{wctype.h} header is
611 included the macros will be used. This is the same as the
612 @code{char} type versions of these functions.
614 The second note covers something new. It can be best illustrated by a
615 (real-world) example. The first piece of code is an excerpt from the
616 original code. It is truncated a bit but the intention should be clear.
620 is_in_class (int c, const char *class)
622 if (strcmp (class, "alnum") == 0)
624 if (strcmp (class, "alpha") == 0)
626 if (strcmp (class, "cntrl") == 0)
633 Now, with the @code{wctype} and @code{iswctype} you can avoid the
634 @code{if} cascades, but rewriting the code as follows is wrong:
638 is_in_class (int c, const char *class)
640 wctype_t desc = wctype (class);
641 return desc ? iswctype ((wint_t) c, desc) : 0;
645 The problem is that it is not guaranteed that the wide character
646 representation of a single-byte character can be found using casting.
647 In fact, usually this fails miserably. The correct solution to this
648 problem is to write the code as follows:
652 is_in_class (int c, const char *class)
654 wctype_t desc = wctype (class);
655 return desc ? iswctype (btowc (c), desc) : 0;
659 @xref{Converting a Character}, for more information on @code{btowc}.
660 Note that this change probably does not improve the performance
661 of the program a lot since the @code{wctype} function still has to make
662 the string comparisons. It gets really interesting if the
663 @code{is_in_class} function is called more than once for the
664 same class name. In this case the variable @var{desc} could be computed
665 once and reused for all the calls. Therefore the above form of the
666 function is probably not the final one.
669 @node Wide Character Case Conversion, , Using Wide Char Classes, Character Handling
670 @section Mapping of wide characters.
672 The classification functions are also generalized by the @w{ISO C}
673 standard. Instead of just allowing the two standard mappings, a
674 locale can contain others. Again, the @code{localedef} program
675 already supports generating such locale data files.
679 @deftp {Data Type} wctrans_t
680 This data type is defined as a scalar type which can hold a value
681 representing the locale-dependent character mapping. There is no way to
682 construct such a value apar from using the return value of the
683 @code{wctrans} function.
687 This type is defined in @file{wctype.h}.
692 @deftypefun wctrans_t wctrans (const char *@var{property})
693 The @code{wctrans} function has to be used to find out whether a named
694 mapping is defined in the current locale selected for the
695 @code{LC_CTYPE} category. If the returned value is non-zero, you can use
696 it afterwards in calls to @code{towctrans}. If the return value is
697 zero no such mapping is known in the current locale.
699 Beside locale-specific mappings there are two mappings which are
700 guaranteed to be available in every locale:
702 @multitable @columnfractions .5 .5
704 @code{"tolower"} @tab @code{"toupper"}
709 These functions are declared in @file{wctype.h}.
714 @deftypefun wint_t towctrans (wint_t @var{wc}, wctrans_t @var{desc})
715 @code{towctrans} maps the input character @var{wc}
716 according to the rules of the mapping for which @var{desc} is a
717 descriptor, and returns the value it finds. @var{desc} must be
718 obtained by a successful call to @code{wctrans}.
722 This function is declared in @file{wctype.h}.
725 For the generally available mappings, the @w{ISO C} standard defines
726 convenient shortcuts so that it is not necessary to call @code{wctrans}
731 @deftypefun wint_t towlower (wint_t @var{wc})
732 If @var{wc} is an upper-case letter, @code{towlower} returns the corresponding
733 lower-case letter. If @var{wc} is not an upper-case letter,
734 @var{wc} is returned unchanged.
737 @code{towlower} can be implemented using
740 towctrans (wc, wctrans ("tolower"))
745 This function is declared in @file{wctype.h}.
750 @deftypefun wint_t towupper (wint_t @var{wc})
751 If @var{wc} is a lower-case letter, @code{towupper} returns the corresponding
752 upper-case letter. Otherwise @var{wc} is returned unchanged.
755 @code{towupper} can be implemented using
758 towctrans (wc, wctrans ("toupper"))
763 This function is declared in @file{wctype.h}.
766 The same warnings given in the last section for the use of the wide
767 character classification functions apply here. It is not possible to
768 simply cast a @code{char} type value to a @code{wint_t} and use it as an
769 argument to @code{towctrans} calls.