module Buffer: sig .. end
This module implements buffers that automatically expand
as necessary. It provides accumulative concatenation of strings
in quasi-linear time (instead of quadratic time when strings are
concatenated pairwise).
type t;
let create: int => t;
create n returns a fresh buffer, initially empty.
The n parameter is the initial size of the internal byte sequence
that holds the buffer contents. That byte sequence is automatically
reallocated when more than n characters are stored in the buffer,
but shrinks back to n characters when reset is called.
For best performance, n should be of the same order of magnitude
as the number of characters that are expected to be stored in
the buffer (for instance, 80 for a buffer that holds one output
line). Nothing bad will happen if the buffer grows beyond that
limit, however. In doubt, take n = 16 for instance.
If n is not between 1 and Sys.max_string_length, it will
be clipped to that interval.let contents: t => string;
let to_bytes: t => bytes;
let sub: (t, int, int) => string;
Buffer.sub b off len returns (a copy of) the bytes from the
current contents of the buffer b starting at offset off of
length len bytes. May raise Invalid_argument if out of bounds
request. The buffer itself is unaffected.let blit: (t, int, bytes, int, int) => unit;
Buffer.blit src srcoff dst dstoff len copies len characters from
the current contents of the buffer src, starting at offset srcoff
to dst, starting at character dstoff.
Raise Invalid_argument if srcoff and len do not designate a valid
range of src, or if dstoff and len do not designate a valid
range of dst.
Since 3.11.2
let nth: (t, int) => char;
Invalid_argument if
index out of boundslet length: t => int;
let clear: t => unit;
let reset: t => unit;
n that was allocated by Buffer.create n.
For long-lived buffers that may have grown a lot, reset allows
faster reclamation of the space used by the buffer.let add_char: (t, char) => unit;
add_char b c appends the character c at the end of the buffer b.let add_string: (t, string) => unit;
add_string b s appends the string s at the end of the buffer b.let add_bytes: (t, bytes) => unit;
add_string b s appends the string s at the end of the buffer b.let add_substring: (t, string, int, int) => unit;
add_substring b s ofs len takes len characters from offset
ofs in string s and appends them at the end of the buffer b.let add_subbytes: (t, bytes, int, int) => unit;
add_substring b s ofs len takes len characters from offset
ofs in byte sequence s and appends them at the end of the buffer b.let add_substitute: (t, string => string, string) => unit;
add_substitute b f s appends the string pattern s at the end
of the buffer b with substitution.
The substitution process looks for variables into
the pattern and substitutes each variable name by its value, as
obtained by applying the mapping f to the variable name. Inside the
string pattern, a variable name immediately follows a non-escaped
$ character and is one of the following:_ characters,$ character is a $ that immediately follows a backslash
character; it then stands for a plain $.
Raise Not_found if the closing character of a parenthesized variable
cannot be found.let add_buffer: (t, t) => unit;
add_buffer b1 b2 appends the current contents of buffer b2
at the end of buffer b1. b2 is not modified.let add_channel: (t, Pervasives.in_channel, int) => unit;
add_channel b ic n reads exactly n character from the
input channel ic and stores them at the end of buffer b.
Raise End_of_file if the channel contains fewer than n
characters.let output_buffer: (Pervasives.out_channel, t) => unit;
output_buffer oc b writes the current contents of buffer b
on the output channel oc.