Library
Module
Module type
Parameter
Class
Class type
Abstraction over the input containing the input to read from.
The abstract input type. Informally, an "input" of type t
should support:
val file : string -> t
file fname
is an input that corresponds to the content of the file named fname
.
val string : string -> t
string s
is an input that corresponds to the content of the string s
.
val bytes : bytes -> t
bytes b
is an input that corresponds to the content of the bytes array b
.
val in_channel : Stdlib.in_channel -> t
in_channel cin
is an input that correspond to the input channel cin
. The channel must correspond to a file: it must be possible to call seek_in
on the channel without error.
Creating an input using in_channel
instead of file
is more efficient if one needs to perform successive calls of Pp_loc.pp
on the same input. Otherwise (or if having the best performance is not important), it is simpler (and thus recommended) to use file
.
val raw :
seek:(int -> (unit, [ `Invalid_position ]) Stdlib.result) ->
read_char:(unit -> (char, [ `End_of_input ]) Stdlib.result) ->
line_offsets:(unit -> int array) ->
t
Creates an input from functions.
managed f
enables creating an input which lifetime is managed explicitely. In other words, it handles inputs with explicit open and close operations.
For instance, a file (which needs to be explicitely opened then close) is an instance of managed
.
If f()
returns (i, c)
, then using the input managed f
will first call f()
to access the underlying input i
, and will terminate by calling c ()
.