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(* *)
(* OCaml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. *)
(* *)
(* All rights reserved. This file is distributed under the terms of *)
(* the GNU Lesser General Public License version 2.1, with the *)
(* special exception on linking described in the file LICENSE. *)
(* *)
(**************************************************************************)
(** Regular expressions and high-level string processing *)
(** {6 Regular expressions} *)
type regexp
(** The type of compiled regular expressions. *)
val regexp : string -> regexp
(** Compile a regular expression. The following constructs are
recognized:
- [. ] Matches any character except newline.
- [* ] (postfix) Matches the preceding expression zero, one or
several times
- [+ ] (postfix) Matches the preceding expression one or
several times
- [? ] (postfix) Matches the preceding expression once or
not at all
- [[..] ] Character set. Ranges are denoted with [-], as in [[a-z]].
An initial [^], as in [[^0-9]], complements the set.
To include a [\]] character in a set, make it the first
character of the set. To include a [-] character in a set,
make it the first or the last character of the set.
- [^ ] Matches at beginning of line: either at the beginning of
the matched string, or just after a '\n' character.
- [$ ] Matches at end of line: either at the end of the matched
string, or just before a '\n' character.
- [\| ] (infix) Alternative between two expressions.
- [\(..\)] Grouping and naming of the enclosed expression.
- [\1 ] The text matched by the first [\(...\)] expression
([\2] for the second expression, and so on up to [\9]).
- [\b ] Matches word boundaries.
- [\ ] Quotes special characters. The special characters
are [$^\.*+?[]].
Note: the argument to [regexp] is usually a string literal. In this
case, any backslash character in the regular expression must be
doubled to make it past the OCaml string parser. For example, the
following expression:
{[ let r = Str.regexp "hello \\([A-Za-z]+\\)" in
Str.replace_first r "\\1" "hello world" ]}
returns the string ["world"].
In particular, if you want a regular expression that matches a single
backslash character, you need to quote it in the argument to [regexp]
(according to the last item of the list above) by adding a second
backslash. Then you need to quote both backslashes (according to the
syntax of string constants in OCaml) by doubling them again, so you
need to write four backslash characters: [Str.regexp "\\\\"].
*)
val regexp_case_fold : string -> regexp
(** Same as [regexp], but the compiled expression will match text
in a case-insensitive way: uppercase and lowercase letters will
be considered equivalent. *)
val quote : string -> string
(** [Str.quote s] returns a regexp string that matches exactly
[s] and nothing else. *)
val regexp_string : string -> regexp
(** [Str.regexp_string s] returns a regular expression
that matches exactly [s] and nothing else.*)
val regexp_string_case_fold : string -> regexp
(** [Str.regexp_string_case_fold] is similar to {!Str.regexp_string},
but the regexp matches in a case-insensitive way. *)
(** {6 String matching and searching} *)
val string_match : regexp -> string -> int -> bool
(** [string_match r s start] tests whether a substring of [s] that
starts at position [start] matches the regular expression [r].
The first character of a string has position [0], as usual. *)
val search_forward : regexp -> string -> int -> int
(** [search_forward r s start] searches the string [s] for a substring
matching the regular expression [r]. The search starts at position
[start] and proceeds towards the end of the string.
Return the position of the first character of the matched
substring.
@raise Not_found if no substring matches. *)
val search_backward : regexp -> string -> int -> int
(** [search_backward r s last] searches the string [s] for a
substring matching the regular expression [r]. The search first
considers substrings that start at position [last] and proceeds
towards the beginning of string. Return the position of the first
character of the matched substring.
@raise Not_found if no substring matches. *)
val string_partial_match : regexp -> string -> int -> bool
(** Similar to {!Str.string_match}, but also returns true if
the argument string is a prefix of a string that matches.
This includes the case of a true complete match. *)
val matched_string : string -> string
(** [matched_string s] returns the substring of [s] that was matched
by the last call to one of the following matching or searching
functions:
- {!Str.string_match}
- {!Str.search_forward}
- {!Str.search_backward}
- {!Str.string_partial_match}
- {!Str.global_substitute}
- {!Str.substitute_first}
provided that none of the following functions was called inbetween:
- {!Str.global_replace}
- {!Str.replace_first}
- {!Str.split}
- {!Str.bounded_split}
- {!Str.split_delim}
- {!Str.bounded_split_delim}
- {!Str.full_split}
- {!Str.bounded_full_split}
Note: in the case of [global_substitute] and [substitute_first],
a call to [matched_string] is only valid within the [subst] argument,
not after [global_substitute] or [substitute_first] returns.
The user must make sure that the parameter [s] is the same string
that was passed to the matching or searching function. *)
val match_beginning : unit -> int
(** [match_beginning()] returns the position of the first character
of the substring that was matched by the last call to a matching
or searching function (see {!Str.matched_string} for details). *)
val match_end : unit -> int
(** [match_end()] returns the position of the character following the
last character of the substring that was matched by the last call
to a matching or searching function (see {!Str.matched_string} for
details). *)
val matched_group : int -> string -> string
(** [matched_group n s] returns the substring of [s] that was matched
by the [n]th group [\(...\)] of the regular expression that was
matched by the last call to a matching or searching function (see
{!Str.matched_string} for details).
The user must make sure that the parameter [s] is the same string
that was passed to the matching or searching function.
@raise Not_found if the [n]th group
of the regular expression was not matched. This can happen
with groups inside alternatives [\|], options [?]
or repetitions [*]. For instance, the empty string will match
[\(a\)*], but [matched_group 1 ""] will raise [Not_found]
because the first group itself was not matched. *)
val group_beginning : int -> int
(** [group_beginning n] returns the position of the first character
of the substring that was matched by the [n]th group of
the regular expression that was matched by the last call to a
matching or searching function (see {!Str.matched_string} for details).
@raise Not_found if the [n]th group of the regular expression
was not matched.
@raise Invalid_argument if there are fewer than [n] groups in
the regular expression. *)
val group_end : int -> int
(** [group_end n] returns
the position of the character following the last character of
substring that was matched by the [n]th group of the regular
expression that was matched by the last call to a matching or
searching function (see {!Str.matched_string} for details).
@raise Not_found if the [n]th group of the regular expression
was not matched.
@raise Invalid_argument if there are fewer than [n] groups in
the regular expression. *)
(** {6 Replacement} *)
val global_replace : regexp -> string -> string -> string
(** [global_replace regexp templ s] returns a string identical to [s],
except that all substrings of [s] that match [regexp] have been
replaced by [templ]. The replacement template [templ] can contain
[\1], [\2], etc; these sequences will be replaced by the text
matched by the corresponding group in the regular expression.
[\0] stands for the text matched by the whole regular expression. *)
val replace_first : regexp -> string -> string -> string
(** Same as {!Str.global_replace}, except that only the first substring
matching the regular expression is replaced. *)
val global_substitute : regexp -> (string -> string) -> string -> string
(** [global_substitute regexp subst s] returns a string identical
to [s], except that all substrings of [s] that match [regexp]
have been replaced by the result of function [subst]. The
function [subst] is called once for each matching substring,
and receives [s] (the whole text) as argument. *)
val substitute_first : regexp -> (string -> string) -> string -> string
(** Same as {!Str.global_substitute}, except that only the first substring
matching the regular expression is replaced. *)
val replace_matched : string -> string -> string
(** [replace_matched repl s] returns the replacement text [repl]
in which [\1], [\2], etc. have been replaced by the text
matched by the corresponding groups in the regular expression
that was matched by the last call to a matching or searching
function (see {!Str.matched_string} for details).
[s] must be the same string that was passed to the matching or
searching function. *)
(** {6 Splitting} *)
val split : regexp -> string -> string list
(** [split r s] splits [s] into substrings, taking as delimiters
the substrings that match [r], and returns the list of substrings.
For instance, [split (regexp "[ \t]+") s] splits [s] into
blank-separated words. An occurrence of the delimiter at the
beginning or at the end of the string is ignored. *)
val bounded_split : regexp -> string -> int -> string list
(** Same as {!Str.split}, but splits into at most [n] substrings,
where [n] is the extra integer parameter. *)
val split_delim : regexp -> string -> string list
(** Same as {!Str.split} but occurrences of the
delimiter at the beginning and at the end of the string are
recognized and returned as empty strings in the result.
For instance, [split_delim (regexp " ") " abc "]
returns [[""; "abc"; ""]], while [split] with the same
arguments returns [["abc"]]. *)
val bounded_split_delim : regexp -> string -> int -> string list
(** Same as {!Str.bounded_split}, but occurrences of the
delimiter at the beginning and at the end of the string are
recognized and returned as empty strings in the result. *)
type split_result =
Text of string
| Delim of string
val full_split : regexp -> string -> split_result list
(** Same as {!Str.split_delim}, but returns
the delimiters as well as the substrings contained between
delimiters. The former are tagged [Delim] in the result list;
the latter are tagged [Text]. For instance,
[full_split (regexp "[{}]") "{ab}"] returns
[[Delim "{"; Text "ab"; Delim "}"]]. *)
val bounded_full_split : regexp -> string -> int -> split_result list
(** Same as {!Str.bounded_split_delim}, but returns
the delimiters as well as the substrings contained between
delimiters. The former are tagged [Delim] in the result list;
the latter are tagged [Text]. *)
(** {6 Extracting substrings} *)
val string_before : string -> int -> string
(** [string_before s n] returns the substring of all characters of [s]
that precede position [n] (excluding the character at
position [n]). *)
val string_after : string -> int -> string
(** [string_after s n] returns the substring of all characters of [s]
that follow position [n] (including the character at
position [n]). *)
val first_chars : string -> int -> string
(** [first_chars s n] returns the first [n] characters of [s].
This is the same function as {!Str.string_before}. *)
val last_chars : string -> int -> string
(** [last_chars s n] returns the last [n] characters of [s]. *)
|