167 lines
7.3 KiB
OCaml
167 lines
7.3 KiB
OCaml
(***********************************************************************)
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(* *)
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(* OCaml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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(* Miscellaneous useful types and functions *)
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val fatal_error: string -> 'a
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exception Fatal_error
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val try_finally : (unit -> 'a) -> (unit -> unit) -> 'a;;
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val map_end: ('a -> 'b) -> 'a list -> 'b list -> 'b list
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(* [map_end f l t] is [map f l @ t], just more efficient. *)
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val map_left_right: ('a -> 'b) -> 'a list -> 'b list
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(* Like [List.map], with guaranteed left-to-right evaluation order *)
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val for_all2: ('a -> 'b -> bool) -> 'a list -> 'b list -> bool
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(* Same as [List.for_all] but for a binary predicate.
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In addition, this [for_all2] never fails: given two lists
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with different lengths, it returns false. *)
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val replicate_list: 'a -> int -> 'a list
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(* [replicate_list elem n] is the list with [n] elements
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all identical to [elem]. *)
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val list_remove: 'a -> 'a list -> 'a list
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(* [list_remove x l] returns a copy of [l] with the first
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element equal to [x] removed. *)
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val split_last: 'a list -> 'a list * 'a
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(* Return the last element and the other elements of the given list. *)
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val samelist: ('a -> 'a -> bool) -> 'a list -> 'a list -> bool
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(* Like [List.for_all2] but returns [false] if the two
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lists have different length. *)
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val may: ('a -> unit) -> 'a option -> unit
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val may_map: ('a -> 'b) -> 'a option -> 'b option
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val find_in_path: string list -> string -> string
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(* Search a file in a list of directories. *)
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val find_in_path_uncap: string list -> string -> string
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(* Same, but search also for uncapitalized name, i.e.
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if name is Foo.ml, allow /path/Foo.ml and /path/foo.ml
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to match. *)
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val remove_file: string -> unit
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(* Delete the given file if it exists. Never raise an error. *)
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val expand_directory: string -> string -> string
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(* [expand_directory alt file] eventually expands a [+] at the
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beginning of file into [alt] (an alternate root directory) *)
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val create_hashtable: int -> ('a * 'b) list -> ('a, 'b) Hashtbl.t
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(* Create a hashtable of the given size and fills it with the
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given bindings. *)
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val copy_file: in_channel -> out_channel -> unit
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(* [copy_file ic oc] reads the contents of file [ic] and copies
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them to [oc]. It stops when encountering EOF on [ic]. *)
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val copy_file_chunk: in_channel -> out_channel -> int -> unit
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(* [copy_file_chunk ic oc n] reads [n] bytes from [ic] and copies
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them to [oc]. It raises [End_of_file] when encountering
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EOF on [ic]. *)
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val string_of_file: in_channel -> string
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(* [string_of_file ic] reads the contents of file [ic] and copies
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them to a string. It stops when encountering EOF on [ic]. *)
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val input_bytes : in_channel -> int -> string;;
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(* [input_bytes ic n] reads [n] bytes from [ic] and returns them
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in a new string. It raises [End_of_file] if EOF is encountered
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before all the bytes are read. *)
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val log2: int -> int
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(* [log2 n] returns [s] such that [n = 1 lsl s]
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if [n] is a power of 2*)
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val align: int -> int -> int
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(* [align n a] rounds [n] upwards to a multiple of [a]
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(a power of 2). *)
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val no_overflow_add: int -> int -> bool
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(* [no_overflow_add n1 n2] returns [true] if the computation of
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[n1 + n2] does not overflow. *)
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val no_overflow_sub: int -> int -> bool
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(* [no_overflow_add n1 n2] returns [true] if the computation of
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[n1 - n2] does not overflow. *)
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val no_overflow_lsl: int -> bool
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(* [no_overflow_add n] returns [true] if the computation of
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[n lsl 1] does not overflow. *)
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val chop_extension_if_any: string -> string
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(* Like Filename.chop_extension but returns the initial file
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name if it has no extension *)
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val chop_extensions: string -> string
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(* Return the given file name without its extensions. The extensions
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is the longest suffix starting with a period and not including
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a directory separator, [.xyz.uvw] for instance.
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Return the given name if it does not contain an extension. *)
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val search_substring: string -> string -> int -> int
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(* [search_substring pat str start] returns the position of the first
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occurrence of string [pat] in string [str]. Search starts
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at offset [start] in [str]. Raise [Not_found] if [pat]
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does not occur. *)
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val rev_split_words: string -> string list
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(* [rev_split_words s] splits [s] in blank-separated words, and return
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the list of words in reverse order. *)
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val get_ref: 'a list ref -> 'a list
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(* [get_ref lr] returns the content of the list reference [lr] and reset
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its content to the empty list. *)
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val fst3: 'a * 'b * 'c -> 'a
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val snd3: 'a * 'b * 'c -> 'b
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val thd3: 'a * 'b * 'c -> 'c
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val fst4: 'a * 'b * 'c * 'd -> 'a
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val snd4: 'a * 'b * 'c * 'd -> 'b
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val thd4: 'a * 'b * 'c * 'd -> 'c
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val for4: 'a * 'b * 'c * 'd -> 'd
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module LongString :
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sig
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type t = string array
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val create : int -> t
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val length : t -> int
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val get : t -> int -> char
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val set : t -> int -> char -> unit
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val blit : t -> int -> t -> int -> int -> unit
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val output : out_channel -> t -> int -> int -> unit
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val unsafe_blit_to_string : t -> int -> string -> int -> int -> unit
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val input_bytes : in_channel -> int -> t
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end
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val edit_distance : string -> string -> int -> int option
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(** [edit_distance a b cutoff] computes the edit distance between
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strings [a] and [b]. To help efficiency, it uses a cutoff: if the
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distance [d] is smaller than [cutoff], it returns [Some d], else
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[None].
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The distance algorithm currently used is Damerau-Levenshtein: it
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computes the number of insertion, deletion, substitution of
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letters, or swapping of adjacent letters to go from one word to the
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other. The particular algorithm may change in the future.
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*)
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val split : string -> char -> string list
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(** [String.split string char] splits the string [string] at every char
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[char], and returns the list of sub-strings between the chars.
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[String.concat (String.make 1 c) (String.split s c)] is the identity.
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@since 4.01
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*)
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val cut_at : string -> char -> string * string
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(** [String.cut_at s c] returns a pair containing the sub-string before
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the first occurrence of [c] in [s], and the sub-string after the
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first occurrence of [c] in [s].
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[let (before, after) = String.cut_at s c in
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before ^ String.make 1 c ^ after] is the identity if [s] contains [c].
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Raise [Not_found] if the character does not appear in the string
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@since 4.01
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*)
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