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ligo/lib_protocol_environment_sigs/v1/string.mli

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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. *)
(* *)
(**************************************************************************)
(* TEZOS CHANGES
* Import version 4.04.0
* Remove unsafe functions
* Remove deprecated functions (enforcing string immutability)
* Add binary data extraction functions
*)
(** String operations.
A string is an immutable data structure that contains a
fixed-length sequence of (single-byte) characters. Each character
can be accessed in constant time through its index.
Given a string [s] of length [l], we can access each of the [l]
characters of [s] via its index in the sequence. Indexes start at
[0], and we will call an index valid in [s] if it falls within the
range [[0...l-1]] (inclusive). A position is the point between two
characters or at the beginning or end of the string. We call a
position valid in [s] if it falls within the range [[0...l]]
(inclusive). Note that the character at index [n] is between
positions [n] and [n+1].
Two parameters [start] and [len] are said to designate a valid
substring of [s] if [len >= 0] and [start] and [start+len] are
valid positions in [s].
*)
external length : string -> int = "%string_length"
(** Return the length (number of characters) of the given string. *)
external get : string -> int -> char = "%string_safe_get"
(** [String.get s n] returns the character at index [n] in string [s].
You can also write [s.[n]] instead of [String.get s n].
Raise [Invalid_argument] if [n] not a valid index in [s]. *)
val make : int -> char -> string
(** [String.make n c] returns a fresh string of length [n],
filled with the character [c].
Raise [Invalid_argument] if [n < 0] or [n > ]{!Sys.max_string_length}. *)
val init : int -> (int -> char) -> string
(** [String.init n f] returns a string of length [n], with character
[i] initialized to the result of [f i] (called in increasing
index order).
Raise [Invalid_argument] if [n < 0] or [n > ]{!Sys.max_string_length}.
@since 4.02.0
*)
val sub : string -> int -> int -> string
(** [String.sub s start len] returns a fresh string of length [len],
containing the substring of [s] that starts at position [start] and
has length [len].
Raise [Invalid_argument] if [start] and [len] do not
designate a valid substring of [s]. *)
val blit : string -> int -> bytes -> int -> int -> unit
(** Same as {!Bytes.blit_string}. *)
val concat : string -> string list -> string
(** [String.concat sep sl] concatenates the list of strings [sl],
inserting the separator string [sep] between each.
Raise [Invalid_argument] if the result is longer than
{!Sys.max_string_length} bytes. *)
val iter : (char -> unit) -> string -> unit
(** [String.iter f s] applies function [f] in turn to all
the characters of [s]. It is equivalent to
[f s.[0]; f s.[1]; ...; f s.[String.length s - 1]; ()]. *)
val iteri : (int -> char -> unit) -> string -> unit
(** Same as {!String.iter}, but the
function is applied to the index of the element as first argument
(counting from 0), and the character itself as second argument.
@since 4.00.0 *)
val map : (char -> char) -> string -> string
(** [String.map f s] applies function [f] in turn to all the
characters of [s] (in increasing index order) and stores the
results in a new string that is returned.
@since 4.00.0 *)
val mapi : (int -> char -> char) -> string -> string
(** [String.mapi f s] calls [f] with each character of [s] and its
index (in increasing index order) and stores the results in a new
string that is returned.
@since 4.02.0 *)
val trim : string -> string
(** Return a copy of the argument, without leading and trailing
whitespace. The characters regarded as whitespace are: [' '],
['\012'], ['\n'], ['\r'], and ['\t']. If there is neither leading nor
trailing whitespace character in the argument, return the original
string itself, not a copy.
@since 4.00.0 *)
val escaped : string -> string
(** Return a copy of the argument, with special characters
represented by escape sequences, following the lexical
conventions of OCaml.
All characters outside the ASCII printable range (32..126) are
escaped, as well as backslash and double-quote.
If there is no special character in the argument that needs
escaping, return the original string itself, not a copy.
Raise [Invalid_argument] if the result is longer than
{!Sys.max_string_length} bytes.
The function {!Scanf.unescaped} is a left inverse of [escaped],
i.e. [Scanf.unescaped (escaped s) = s] for any string [s] (unless
[escape s] fails). *)
val index : string -> char -> int
(** [String.index s c] returns the index of the first
occurrence of character [c] in string [s].
Raise [Not_found] if [c] does not occur in [s]. *)
val rindex : string -> char -> int
(** [String.rindex s c] returns the index of the last
occurrence of character [c] in string [s].
Raise [Not_found] if [c] does not occur in [s]. *)
val index_from : string -> int -> char -> int
(** [String.index_from s i c] returns the index of the
first occurrence of character [c] in string [s] after position [i].
[String.index s c] is equivalent to [String.index_from s 0 c].
Raise [Invalid_argument] if [i] is not a valid position in [s].
Raise [Not_found] if [c] does not occur in [s] after position [i]. *)
val rindex_from : string -> int -> char -> int
(** [String.rindex_from s i c] returns the index of the
last occurrence of character [c] in string [s] before position [i+1].
[String.rindex s c] is equivalent to
[String.rindex_from s (String.length s - 1) c].
Raise [Invalid_argument] if [i+1] is not a valid position in [s].
Raise [Not_found] if [c] does not occur in [s] before position [i+1]. *)
val contains : string -> char -> bool
(** [String.contains s c] tests if character [c]
appears in the string [s]. *)
val contains_from : string -> int -> char -> bool
(** [String.contains_from s start c] tests if character [c]
appears in [s] after position [start].
[String.contains s c] is equivalent to
[String.contains_from s 0 c].
Raise [Invalid_argument] if [start] is not a valid position in [s]. *)
val rcontains_from : string -> int -> char -> bool
(** [String.rcontains_from s stop c] tests if character [c]
appears in [s] before position [stop+1].
Raise [Invalid_argument] if [stop < 0] or [stop+1] is not a valid
position in [s]. *)
val uppercase_ascii : string -> string
(** Return a copy of the argument, with all lowercase letters
translated to uppercase, using the US-ASCII character set.
@since 4.03.0 *)
val lowercase_ascii : string -> string
(** Return a copy of the argument, with all uppercase letters
translated to lowercase, using the US-ASCII character set.
@since 4.03.0 *)
val capitalize_ascii : string -> string
(** Return a copy of the argument, with the first character set to uppercase,
using the US-ASCII character set.
@since 4.03.0 *)
val uncapitalize_ascii : string -> string
(** Return a copy of the argument, with the first character set to lowercase,
using the US-ASCII character set.
@since 4.03.0 *)
type t = string
(** An alias for the type of strings. *)
val compare: t -> t -> int
(** The comparison function for strings, with the same specification as
{!Pervasives.compare}. Along with the type [t], this function [compare]
allows the module [String] to be passed as argument to the functors
{!Set.Make} and {!Map.Make}. *)
val equal: t -> t -> bool
(** The equal function for strings.
@since 4.03.0 *)
val split_on_char: char -> string -> string list
(** [String.split_on_char sep s] returns the list of all (possibly empty)
substrings of [s] that are delimited by the [sep] character.
The function's output is specified by the following invariants:
- The list is not empty.
- Concatenating its elements using [sep] as a separator returns a
string equal to the input ([String.concat (String.make 1 sep)
(String.split_on_char sep s) = s]).
- No string in the result contains the [sep] character.
@since 4.04.0
*)
(** Functions reading bytes *)
val get_char: t -> int -> char
(** [get_char buff i] reads 1 byte at offset i as a char *)
val get_uint8: t -> int -> int
(** [get_uint8 buff i] reads 1 byte at offset i as an unsigned int of 8
bits. i.e. It returns a value between 0 and 2^8-1 *)
val get_int8: t -> int -> int
(** [get_int8 buff i] reads 1 byte at offset i as a signed int of 8
bits. i.e. It returns a value between -2^7 and 2^7-1 *)
(** Functions reading according to Big Endian byte order *)
val get_uint16: t -> int -> int
(** [get_uint16 buff i] reads 2 bytes at offset i as an unsigned int
of 16 bits. i.e. It returns a value between 0 and 2^16-1 *)
val get_int16: t -> int -> int
(** [get_int16 buff i] reads 2 byte at offset i as a signed int of
16 bits. i.e. It returns a value between -2^15 and 2^15-1 *)
val get_int32: t -> int -> int32
(** [get_int32 buff i] reads 4 bytes at offset i as an int32. *)
val get_int64: t -> int -> int64
(** [get_int64 buff i] reads 8 bytes at offset i as an int64. *)
module LE: sig
(** Functions reading according to Little Endian byte order *)
val get_uint16: t -> int -> int
(** [get_uint16 buff i] reads 2 bytes at offset i as an unsigned int
of 16 bits. i.e. It returns a value between 0 and 2^16-1 *)
val get_int16: t -> int -> int
(** [get_int16 buff i] reads 2 byte at offset i as a signed int of
16 bits. i.e. It returns a value between -2^15 and 2^15-1 *)
val get_int32: t -> int -> int32
(** [get_int32 buff i] reads 4 bytes at offset i as an int32. *)
val get_int64: t -> int -> int64
(** [get_int64 buff i] reads 8 bytes at offset i as an int64. *)
end
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