Library
Module
Module type
Parameter
Class
Class type
Unicode text normalization.
Uunf
normalizes Unicode text. It supports all Unicode normalization forms. The module is independent from any IO mechanism or Unicode text data structure and it can process text without a complete in-memory representation of the data.
The supported Unicode version is determined by the unicode_version
value.
Consult the basics, limitations and examples of use.
v10.0.0 — Unicode version 10.0.0 — homepage
The type for normalization forms.
`NFD
normalization form D, canonical decomposition.`NFC
normalization form C, canonical decomposition followed by canonical composition (recommended for the www).`NFKD
normalization form KD, compatibility decomposition.`NFKC
normalization form KC, compatibility decomposition, followed by canonical composition.add n v
is:
`Uchar u
if u
is the next character in the normalized sequence. The client must then call add
with `Await
until `Await
is returned.`Await
when the normalizer is ready to add a new `Uchar
or `End
.For v
use `Uchar u
to add a new character to the sequence to normalize and `End
to signal the end of sequence. After adding one of these two values, always call add
with `Await
until `Await
is returned.
Raises. Invalid_argument
if `Uchar
or `End
is added directly after an `Uchar
was returned by the normalizer or if an `Uchar
is added after `End
was added.
val reset : t -> unit
reset n
resets the normalizer to a state equivalent to the state of Uunf.create (Uunf.form n)
.
copy n
is a copy of n
in its current state. Subsequent add
s on n
do not affect the copy.
val pp_ret : Format.formatter -> ret -> unit
pp_ret ppf v
prints an unspecified representation of v
on ppf
.
These properties are used internally to implement the normalizers. They are not needed to use the module but are exposed as they may be useful to implement other algorithms.
val ccc : Uchar.t -> int
ccc u
is u
's canonical combining class value.
val decomp : Uchar.t -> int array
decomp u
is u
's decomposition mapping. If the empty array is returned, u
decomposes to itself.
The first number in the array contains additional information, it cannot be used as an uchar
. Use d_uchar
on the number to get the actual character and d_compatibility
to find out if this is a compatibility decomposition. All other characters of the array are guaranteed to be convertible using Uchar.of_int
.
Warning. Do not mutate the array.
See decomp
.
composite u1 u2
is the primary composite canonically equivalent to the sequence <u1,u2>
, if any.
An Uunf
normalizer consumes only a small bounded amount of memory on ordinary, meaningful text. However on legal but degenerate text like a starter followed by 10'000 combining non-spacing marks it will have to bufferize all the marks (a workaround is to first convert your input to stream-safe text format).
A normalizer is a stateful filter that inputs a sequence of characters and outputs an equivalent sequence in the requested normal form.
The function create
returns a new normalizer for a given normal form:
let nfd = Uunf.create `NFD
To add characters to the sequence to normalize, call add
on nfd
with `Uchar _
. To end the sequence, call add
on nfd
with `End
. The normalized sequence of characters is returned, character by character, by the successive calls to add
.
The client and the normalizer must wait on each other to limit internal buffering: each time the client adds to the sequence by calling add
with `Uchar
or `End
it must continue to call add
with `Await
until the normalizer returns `Await
. In practice this leads to the following kind of control flow:
let rec add acc v = match Uunf.add nfd v with
| `Uchar u -> add (u :: acc) `Await
| `Await | `End -> acc
For example to normalize the character U+00E9
(é) with nfd
to a list of characters we can write:
let e_acute = Uchar.of_int 0x00E9
let e_acute_nfd = List.rev (add (add [] (`Uchar e_acute)) `End)
The next section has more examples.
utf_8_normalize nf s
is the UTF-8 encoded normal form nf
of the UTF-8 encoded string s
. This example uses Uutf
to fold over the characters of s
and to encode the normalized sequence in a standard OCaml buffer.
let utf_8_normalize nf s =
let b = Buffer.create (String.length s * 3) in
let n = Uunf.create nf in
let rec add v = match Uunf.add n v with
| `Uchar u -> Uutf.Buffer.add_utf_8 b u; add `Await
| `Await | `End -> ()
in
let add_uchar _ _ = function
| `Malformed _ -> add (`Uchar Uutf.u_rep)
| `Uchar _ as u -> add u
in
Uutf.String.fold_utf_8 add_uchar () s; add `End; Buffer.contents b
Note that this functionality is available directly through Uunf_string.normalize_utf_8