1string(3) Erlang Module Definition string(3)
2
6 string - String processing functions.
7
9 This module provides functions for string processing.
10 A string in this module is represented by unicode:chardata(), that is,
12 a list of codepoints, binaries with UTF-8-encoded codepoints (UTF-8
13 binaries), or a mix of the two.
14 "abcd" is a valid string
16 <<"abcd">> is a valid string
17 ["abcd"] is a valid string
18 <<"abc..åäö"/utf8>> is a valid string
19 <<"abc..åäö">> is NOT a valid string,
20 but a binary with Latin-1-encoded codepoints
21 [<<"abc">>, "..åäö"] is a valid string
22 [atom] is NOT a valid string
23 This module operates on grapheme clusters. A grapheme cluster is a
25 user-perceived character, which can be represented by several code‐
26 points.
27 "å" [229] or [97, 778]
29 "e̊" [101, 778]
30 The string length of "ß↑e̊" is 3, even though it is represented by the
32 codepoints [223,8593,101,778] or the UTF-8 binary
33 <<195,159,226,134,145,101,204,138>>.
34 Grapheme clusters for codepoints of class prepend and non-modern (or
36 decomposed) Hangul is not handled for performance reasons in find/3,
37 replace/3, split/2, split/2 and trim/3.
38 Splitting and appending strings is to be done on grapheme clusters bor‐
40 ders. There is no verification that the results of appending strings
41 are valid or normalized.
42 Most of the functions expect all input to be normalized to one form,
44 see for example unicode:characters_to_nfc_list/1.
45 Language or locale specific handling of input is not considered in any
47 function.
48 The functions can crash for non-valid input strings. For example, the
50 functions expect UTF-8 binaries but not all functions verify that all
51 binaries are encoded correctly.
52 Unless otherwise specified the return value type is the same as the
54 input type. That is, binary input returns binary output, list input
55 returns a list output, and mixed input can return a mixed output.
56 1> string:trim(" sarah ").
58 "sarah"
59 2> string:trim(<<" sarah ">>).
60 <<"sarah">>
61 3> string:lexemes("foo bar", " ").
62 ["foo","bar"]
63 4> string:lexemes(<<"foo bar">>, " ").
64 [<<"foo">>,<<"bar">>]
65 This module has been reworked in Erlang/OTP 20 to handle unicode:char‐
67 data() and operate on grapheme clusters. The old functions that only
68 work on Latin-1 lists as input are still available but should not be
69 used, they will be deprecated in a future release.
70
72 direction() = leading | trailing
73 grapheme_cluster() = char() | [char()]
75 A user-perceived character, consisting of one or more code‐
77 points.
78
80 casefold(String :: unicode:chardata()) -> unicode:chardata()
81 Converts String to a case-agnostic comparable string. Function
83 casefold/1 is preferred over lowercase/1 when two strings are to
84 be compared for equality. See also equal/4.
85 Example:
87 1> string:casefold("Ω and ẞ SHARP S").
89 "ω and ss sharp s"
90 chomp(String :: unicode:chardata()) -> unicode:chardata()
92 Returns a string where any trailing \n or \r\n have been removed
94 from String.
95 Example:
97 182> string:chomp(<<"\nHello\n\n">>).
99 <<"\nHello">>
100 183> string:chomp("\nHello\r\r\n").
101 "\nHello\r"
102 equal(A, B) -> boolean()
104 equal(A, B, IgnoreCase) -> boolean()
106 equal(A, B, IgnoreCase, Norm) -> boolean()
108 Types:
110 A = B = unicode:chardata()
112 IgnoreCase = boolean()
113 Norm = none | nfc | nfd | nfkc | nfkd
114 Returns true if A and B are equal, otherwise false.
116 If IgnoreCase is true the function does casefolding on the fly
118 before the equality test.
119 If Norm is not none the function applies normalization on the
121 fly before the equality test. There are four available normal‐
122 ization forms: nfc, nfd, nfkc, and nfkd.
123 By default, IgnoreCase is false and Norm is none.
125 Example:
127 1> string:equal("åäö", <<"åäö"/utf8>>).
129 true
130 2> string:equal("åäö", unicode:characters_to_nfd_binary("åäö")).
131 false
132 3> string:equal("åäö", unicode:characters_to_nfd_binary("ÅÄÖ"), true, nfc).
133 true
134 find(String, SearchPattern) -> unicode:chardata() | nomatch
136 find(String, SearchPattern, Dir) -> unicode:chardata() | nomatch
138 Types:
140 String = SearchPattern = unicode:chardata()
142 Dir = direction()
143 Removes anything before SearchPattern in String and returns the
145 remainder of the string or nomatch if SearchPattern is not
146 found. Dir, which can be leading or trailing, indicates from
147 which direction characters are to be searched.
148 By default, Dir is leading.
150 Example:
152 1> string:find("ab..cd..ef", ".").
154 "..cd..ef"
155 2> string:find(<<"ab..cd..ef">>, "..", trailing).
156 <<"..ef">>
157 3> string:find(<<"ab..cd..ef">>, "x", leading).
158 nomatch
159 4> string:find("ab..cd..ef", "x", trailing).
160 nomatch
161 is_empty(String :: unicode:chardata()) -> boolean()
163 Returns true if String is the empty string, otherwise false.
165 Example:
167 1> string:is_empty("foo").
169 false
170 2> string:is_empty(["",<<>>]).
171 true
172 length(String :: unicode:chardata()) -> integer() >= 0
174 Returns the number of grapheme clusters in String.
176 Example:
178 1> string:length("ß↑e̊").
180 3
181 2> string:length(<<195,159,226,134,145,101,204,138>>).
182 3
183 lexemes(String :: unicode:chardata(),
185 SeparatorList :: [grapheme_cluster()]) ->
186 [unicode:chardata()]
187 Returns a list of lexemes in String, separated by the grapheme
189 clusters in SeparatorList.
190 Notice that, as shown in this example, two or more adjacent sep‐
192 arator graphemes clusters in String are treated as one. That is,
193 there are no empty strings in the resulting list of lexemes. See
194 also split/3 which returns empty strings.
195 Notice that [$\r,$\n] is one grapheme cluster.
197 Example:
199 1> string:lexemes("abc de̊fxxghix jkl\r\nfoo", "x e" ++ [[$\r,$\n]]).
201 ["abc","de̊f","ghi","jkl","foo"]
202 2> string:lexemes(<<"abc de̊fxxghix jkl\r\nfoo"/utf8>>, "x e" ++ [$\r,$\n]).
203 [<<"abc">>,<<"de̊f"/utf8>>,<<"ghi">>,<<"jkl\r\nfoo">>]
204 lowercase(String :: unicode:chardata()) -> unicode:chardata()
206 Converts String to lowercase.
208 Notice that function casefold/1 should be used when converting a
210 string to be tested for equality.
211 Example:
213 2> string:lowercase(string:uppercase("Michał")).
215 "michał"
216 next_codepoint(String :: unicode:chardata()) ->
218 maybe_improper_list(char(), unicode:chardata()) |
219 {error, unicode:chardata()}
220 Returns the first codepoint in String and the rest of String in
222 the tail. Returns an empty list if String is empty or an {error,
223 String} tuple if the next byte is invalid.
224 Example:
226 1> string:next_codepoint(unicode:characters_to_binary("e̊fg")).
228 [101|<<"̊fg"/utf8>>]
229 next_grapheme(String :: unicode:chardata()) ->
231 maybe_improper_list(grapheme_cluster(),
232 unicode:chardata()) |
233 {error, unicode:chardata()}
234 Returns the first grapheme cluster in String and the rest of
236 String in the tail. Returns an empty list if String is empty or
237 an {error, String} tuple if the next byte is invalid.
238 Example:
240 1> string:next_grapheme(unicode:characters_to_binary("e̊fg")).
242 ["e̊"|<<"fg">>]
243 nth_lexeme(String, N, SeparatorList) -> unicode:chardata()
245 Types:
247 String = unicode:chardata()
249 N = integer() >= 0
250 SeparatorList = [grapheme_cluster()]
251 Returns lexeme number N in String, where lexemes are separated
253 by the grapheme clusters in SeparatorList.
254 Example:
256 1> string:nth_lexeme("abc.de̊f.ghiejkl", 3, ".e").
258 "ghi"
259 pad(String, Length) -> unicode:charlist()
261 pad(String, Length, Dir) -> unicode:charlist()
263 pad(String, Length, Dir, Char) -> unicode:charlist()
265 Types:
267 String = unicode:chardata()
269 Length = integer()
270 Dir = direction() | both
271 Char = grapheme_cluster()
272 Pads String to Length with grapheme cluster Char. Dir, which can
274 be leading, trailing, or both, indicates where the padding
275 should be added.
276 By default, Char is $\s and Dir is trailing.
278 Example:
280 1> string:pad(<<"He̊llö"/utf8>>, 8).
282 [<<72,101,204,138,108,108,195,182>>,32,32,32]
283 2> io:format("'~ts'~n",[string:pad("He̊llö", 8, leading)]).
284 3> io:format("'~ts'~n",[string:pad("He̊llö", 8, both)]).
285 prefix(String :: unicode:chardata(), Prefix :: unicode:chardata()) ->
287 nomatch | unicode:chardata()
288 If Prefix is the prefix of String, removes it and returns the
290 remainder of String, otherwise returns nomatch.
291 Example:
293 1> string:prefix(<<"prefix of string">>, "pre").
295 <<"fix of string">>
296 2> string:prefix("pre", "prefix").
297 nomatch
298 replace(String, SearchPattern, Replacement) ->
300 [unicode:chardata()]
301 replace(String, SearchPattern, Replacement, Where) ->
303 [unicode:chardata()]
304 Types:
306 String = SearchPattern = Replacement = unicode:chardata()
308 Where = direction() | all
309 Replaces SearchPattern in String with Replacement. Where,
311 default leading, indicates whether the leading, the trailing or
312 all encounters of SearchPattern are to be replaced.
313 Can be implemented as:
315 lists:join(Replacement, split(String, SearchPattern, Where)).
317 Example:
319 1> string:replace(<<"ab..cd..ef">>, "..", "*").
321 [<<"ab">>,"*",<<"cd..ef">>]
322 2> string:replace(<<"ab..cd..ef">>, "..", "*", all).
323 [<<"ab">>,"*",<<"cd">>,"*",<<"ef">>]
324 reverse(String :: unicode:chardata()) -> [grapheme_cluster()]
326 Returns the reverse list of the grapheme clusters in String.
328 Example:
330 1> Reverse = string:reverse(unicode:characters_to_nfd_binary("ÅÄÖ")).
332 [[79,776],[65,776],[65,778]]
333 2> io:format("~ts~n",[Reverse]).
334 ÖÄÅ
335 slice(String, Start) -> Slice
337 slice(String, Start, Length) -> Slice
339 Types:
341 String = unicode:chardata()
343 Start = integer() >= 0
344 Length = infinity | integer() >= 0
345 Slice = unicode:chardata()
346 Returns a substring of String of at most Length grapheme clus‐
348 ters, starting at position Start.
349 By default, Length is infinity.
351 Example:
353 1> string:slice(<<"He̊llö Wörld"/utf8>>, 4).
355 <<"ö Wörld"/utf8>>
356 2> string:slice(["He̊llö ", <<"Wörld"/utf8>>], 4,4).
357 "ö Wö"
358 3> string:slice(["He̊llö ", <<"Wörld"/utf8>>], 4,50).
359 "ö Wörld"
360 split(String, SearchPattern) -> [unicode:chardata()]
362 split(String, SearchPattern, Where) -> [unicode:chardata()]
364 Types:
366 String = SearchPattern = unicode:chardata()
368 Where = direction() | all
369 Splits String where SearchPattern is encountered and return the
371 remaining parts. Where, default leading, indicates whether the
372 leading, the trailing or all encounters of SearchPattern will
373 split String.
374 Example:
376 0> string:split("ab..bc..cd", "..").
378 ["ab","bc..cd"]
379 1> string:split(<<"ab..bc..cd">>, "..", trailing).
380 [<<"ab..bc">>,<<"cd">>]
381 2> string:split(<<"ab..bc....cd">>, "..", all).
382 [<<"ab">>,<<"bc">>,<<>>,<<"cd">>]
383 take(String, Characters) -> {Leading, Trailing}
385 take(String, Characters, Complement) -> {Leading, Trailing}
387 take(String, Characters, Complement, Dir) -> {Leading, Trailing}
389 Types:
391 String = unicode:chardata()
393 Characters = [grapheme_cluster()]
394 Complement = boolean()
395 Dir = direction()
396 Leading = Trailing = unicode:chardata()
397 Takes characters from String as long as the characters are mem‐
399 bers of set Characters or the complement of set Characters. Dir,
400 which can be leading or trailing, indicates from which direction
401 characters are to be taken.
402 Example:
404 5> string:take("abc0z123", lists:seq($a,$z)).
406 {"abc","0z123"}
407 6> string:take(<<"abc0z123">>, lists:seq($0,$9), true, leading).
408 {<<"abc">>,<<"0z123">>}
409 7> string:take("abc0z123", lists:seq($0,$9), false, trailing).
410 {"abc0z","123"}
411 8> string:take(<<"abc0z123">>, lists:seq($a,$z), true, trailing).
412 {<<"abc0z">>,<<"123">>}
413 titlecase(String :: unicode:chardata()) -> unicode:chardata()
415 Converts String to titlecase.
417 Example:
419 1> string:titlecase("ß is a SHARP s").
421 "Ss is a SHARP s"
422 to_float(String) -> {Float, Rest} | {error, Reason}
424 Types:
426 String = unicode:chardata()
428 Float = float()
429 Rest = unicode:chardata()
430 Reason = no_float | badarg
431 Argument String is expected to start with a valid text repre‐
433 sented float (the digits are ASCII values). Remaining characters
434 in the string after the float are returned in Rest.
435 Example:
437 > {F1,Fs} = string:to_float("1.0-1.0e-1"),
439 > {F2,[]} = string:to_float(Fs),
440 > F1+F2.
441 0.9
442 > string:to_float("3/2=1.5").
443 {error,no_float}
444 > string:to_float("-1.5eX").
445 {-1.5,"eX"}
446 to_integer(String) -> {Int, Rest} | {error, Reason}
448 Types:
450 String = unicode:chardata()
452 Int = integer()
453 Rest = unicode:chardata()
454 Reason = no_integer | badarg
455 Argument String is expected to start with a valid text repre‐
457 sented integer (the digits are ASCII values). Remaining charac‐
458 ters in the string after the integer are returned in Rest.
459 Example:
461 > {I1,Is} = string:to_integer("33+22"),
463 > {I2,[]} = string:to_integer(Is),
464 > I1-I2.
465 11
466 > string:to_integer("0.5").
467 {0,".5"}
468 > string:to_integer("x=2").
469 {error,no_integer}
470 to_graphemes(String :: unicode:chardata()) -> [grapheme_cluster()]
472 Converts String to a list of grapheme clusters.
474 Example:
476 1> string:to_graphemes("ß↑e̊").
478 [223,8593,[101,778]]
479 2> string:to_graphemes(<<"ß↑e̊"/utf8>>).
480 [223,8593,[101,778]]
481 trim(String) -> unicode:chardata()
483 trim(String, Dir) -> unicode:chardata()
485 trim(String, Dir, Characters) -> unicode:chardata()
487 Types:
489 String = unicode:chardata()
491 Dir = direction() | both
492 Characters = [grapheme_cluster()]
493 Returns a string, where leading or trailing, or both, Characters
495 have been removed. Dir which can be leading, trailing, or both,
496 indicates from which direction characters are to be removed.
497 Default Characters is the set of nonbreakable whitespace code‐
499 points, defined as Pattern_White_Space in Unicode Standard Annex
500 #31. By default, Dir is both.
501 Notice that [$\r,$\n] is one grapheme cluster according to the
503 Unicode Standard.
504 Example:
506 1> string:trim("\t Hello \n").
508 "Hello"
509 2> string:trim(<<"\t Hello \n">>, leading).
510 <<"Hello \n">>
511 3> string:trim(<<".Hello.\n">>, trailing, "\n.").
512 <<".Hello">>
513 uppercase(String :: unicode:chardata()) -> unicode:chardata()
515 Converts String to uppercase.
517 See also titlecase/1.
519 Example:
521 1> string:uppercase("Michał").
523 "MICHAŁ"
524
526 Here follows the function of the old API. These functions only work on
527 a list of Latin-1 characters.
528 Note:
530 The functions are kept for backward compatibility, but are not recom‐
531 mended. They will be deprecated in a future release.
532 Any undocumented functions in string are not to be used.
534
537 centre(String, Number) -> Centered
538 centre(String, Number, Character) -> Centered
540 Types:
542 String = Centered = string()
544 Number = integer() >= 0
545 Character = char()
546 Returns a string, where String is centered in the string and
548 surrounded by blanks or Character. The resulting string has
549 length Number.
550 This function is obsolete. Use pad/3.
552 chars(Character, Number) -> String
554 chars(Character, Number, Tail) -> String
556 Types:
558 Character = char()
560 Number = integer() >= 0
561 Tail = String = string()
562 Returns a string consisting of Number characters Character.
564 Optionally, the string can end with string Tail.
565 This function is obsolete. Use lists:duplicate/2.
567 chr(String, Character) -> Index
569 Types:
571 String = string()
573 Character = char()
574 Index = integer() >= 0
575 Returns the index of the first occurrence of Character in
577 String. Returns 0 if Character does not occur.
578 This function is obsolete. Use find/2.
580 concat(String1, String2) -> String3
582 Types:
584 String1 = String2 = String3 = string()
586 Concatenates String1 and String2 to form a new string String3,
588 which is returned.
589 This function is obsolete. Use [String1, String2] as Data argu‐
591 ment, and call unicode:characters_to_list/2 or unicode:charac‐
592 ters_to_binary/2 to flatten the output.
593 copies(String, Number) -> Copies
595 Types:
597 String = Copies = string()
599 Number = integer() >= 0
600 Returns a string containing String repeated Number times.
602 This function is obsolete. Use lists:duplicate/2.
604 cspan(String, Chars) -> Length
606 Types:
608 String = Chars = string()
610 Length = integer() >= 0
611 Returns the length of the maximum initial segment of String,
613 which consists entirely of characters not from Chars.
614 This function is obsolete. Use take/3.
616 Example:
618 > string:cspan("\t abcdef", " \t").
620 0
621 join(StringList, Separator) -> String
623 Types:
625 StringList = [string()]
627 Separator = String = string()
628 Returns a string with the elements of StringList separated by
630 the string in Separator.
631 This function is obsolete. Use lists:join/2.
633 Example:
635 > join(["one", "two", "three"], ", ").
637 "one, two, three"
638 left(String, Number) -> Left
640 left(String, Number, Character) -> Left
642 Types:
644 String = Left = string()
646 Number = integer() >= 0
647 Character = char()
648 Returns String with the length adjusted in accordance with Num‐
650 ber. The left margin is fixed. If length(String) < Number, then
651 String is padded with blanks or Characters.
652 This function is obsolete. Use pad/2 or pad/3.
654 Example:
656 > string:left("Hello",10,$.).
658 "Hello....."
659 len(String) -> Length
661 Types:
663 String = string()
665 Length = integer() >= 0
666 Returns the number of characters in String.
668 This function is obsolete. Use length/1.
670 rchr(String, Character) -> Index
672 Types:
674 String = string()
676 Character = char()
677 Index = integer() >= 0
678 Returns the index of the last occurrence of Character in String.
680 Returns 0 if Character does not occur.
681 This function is obsolete. Use find/3.
683 right(String, Number) -> Right
685 right(String, Number, Character) -> Right
687 Types:
689 String = Right = string()
691 Number = integer() >= 0
692 Character = char()
693 Returns String with the length adjusted in accordance with Num‐
695 ber. The right margin is fixed. If the length of (String) < Num‐
696 ber, then String is padded with blanks or Characters.
697 This function is obsolete. Use pad/3.
699 Example:
701 > string:right("Hello", 10, $.).
703 ".....Hello"
704 rstr(String, SubString) -> Index
706 Types:
708 String = SubString = string()
710 Index = integer() >= 0
711 Returns the position where the last occurrence of SubString
713 begins in String. Returns 0 if SubString does not exist in
714 String.
715 This function is obsolete. Use find/3.
717 Example:
719 > string:rstr(" Hello Hello World World ", "Hello World").
721 8
722 span(String, Chars) -> Length
724 Types:
726 String = Chars = string()
728 Length = integer() >= 0
729 Returns the length of the maximum initial segment of String,
731 which consists entirely of characters from Chars.
732 This function is obsolete. Use take/2.
734 Example:
736 > string:span("\t abcdef", " \t").
738 5
739 str(String, SubString) -> Index
741 Types:
743 String = SubString = string()
745 Index = integer() >= 0
746 Returns the position where the first occurrence of SubString
748 begins in String. Returns 0 if SubString does not exist in
749 String.
750 This function is obsolete. Use find/2.
752 Example:
754 > string:str(" Hello Hello World World ", "Hello World").
756 8
757 strip(String :: string()) -> string()
759 strip(String, Direction) -> Stripped
761 strip(String, Direction, Character) -> Stripped
763 Types:
765 String = Stripped = string()
767 Direction = left | right | both
768 Character = char()
769 Returns a string, where leading or trailing, or both, blanks or
771 a number of Character have been removed. Direction, which can be
772 left, right, or both, indicates from which direction blanks are
773 to be removed. strip/1 is equivalent to strip(String, both).
774 This function is obsolete. Use trim/3.
776 Example:
778 > string:strip("...Hello.....", both, $.).
780 "Hello"
781 sub_string(String, Start) -> SubString
783 sub_string(String, Start, Stop) -> SubString
785 Types:
787 String = SubString = string()
789 Start = Stop = integer() >= 1
790 Returns a substring of String, starting at position Start to the
792 end of the string, or to and including position Stop.
793 This function is obsolete. Use slice/3.
795 Example:
797 sub_string("Hello World", 4, 8).
799 "lo Wo"
800 substr(String, Start) -> SubString
802 substr(String, Start, Length) -> SubString
804 Types:
806 String = SubString = string()
808 Start = integer() >= 1
809 Length = integer() >= 0
810 Returns a substring of String, starting at position Start, and
812 ending at the end of the string or at length Length.
813 This function is obsolete. Use slice/3.
815 Example:
817 > substr("Hello World", 4, 5).
819 "lo Wo"
820 sub_word(String, Number) -> Word
822 sub_word(String, Number, Character) -> Word
824 Types:
826 String = Word = string()
828 Number = integer()
829 Character = char()
830 Returns the word in position Number of String. Words are sepa‐
832 rated by blanks or Characters.
833 This function is obsolete. Use nth_lexeme/3.
835 Example:
837 > string:sub_word(" Hello old boy !",3,$o).
839 "ld b"
840 to_lower(String) -> Result
842 to_lower(Char) -> CharResult
844 to_upper(String) -> Result
846 to_upper(Char) -> CharResult
848 Types:
850 String = Result = io_lib:latin1_string()
852 Char = CharResult = char()
853 The specified string or character is case-converted. Notice that
855 the supported character set is ISO/IEC 8859-1 (also called Latin
856 1); all values outside this set are unchanged
857 This function is obsolete use lowercase/1, uppercase/1, title‐
859 case/1 or casefold/1.
860 tokens(String, SeparatorList) -> Tokens
862 Types:
864 String = SeparatorList = string()
866 Tokens = [Token :: nonempty_string()]
867 Returns a list of tokens in String, separated by the characters
869 in SeparatorList.
870 Example:
872 > tokens("abc defxxghix jkl", "x ").
874 ["abc", "def", "ghi", "jkl"]
875 Notice that, as shown in this example, two or more adjacent sep‐
877 arator characters in String are treated as one. That is, there
878 are no empty strings in the resulting list of tokens.
879 This function is obsolete. Use lexemes/2.
881 words(String) -> Count
883 words(String, Character) -> Count
885 Types:
887 String = string()
889 Character = char()
890 Count = integer() >= 1
891 Returns the number of words in String, separated by blanks or
893 Character.
894 This function is obsolete. Use lexemes/2.
896 Example:
898 > words(" Hello old boy!", $o).
900 4
901
903 Some of the general string functions can seem to overlap each other.
904 The reason is that this string package is the combination of two ear‐
905 lier packages and all functions of both packages have been retained.
906Ericsson AB stdlib 3.14.1 string(3)