File_manager.Sparse
module Io = Io
module Errs : Irmin_pack_unix.Io_errors.S with module Io = Io
val open_ro :
mapping_size:int ->
mapping:string ->
data:string ->
(t, [> open_error ]) Stdlib.result
open_ro ~mapping_size ~mapping ~data
returns a new read-only view of the sparse file, represented on disk by two files named mapping
and data
. The mapping file is expected to have size at least mapping_size
(and the rest is ignored if the file is larger).
val close : t -> (unit, [> Io.close_error ]) Stdlib.result
Close the underlying files.
val read_exn : t -> off:Optint.Int63.t -> len:int -> bytes -> unit
read_exn t ~off ~len buffer
writes into buffer
the bytes from off
to off+len
.
val read_range_exn :
t ->
off:Optint.Int63.t ->
min_len:int ->
max_len:int ->
bytes ->
int
Same as read_exn
, the amount read is max_len
if possible or at least min_len
if reading more would step over a hole in the sparse file.
Returns the actually read length.
val next_valid_offset : t -> off:Optint.Int63.t -> Optint.Int63.t option
next_valid_offset t ~off
returns Some off'
such that off'
is the smallest readable offset larger or equal to off
. This enables jumping over a sparse hole to the next compact range of data.
iter t f
calls f
on each (off,len)
pair in mapping
. Only used for testing and debugging.
It is guaranteed for the offsets to be iterated in monotonic order.
It is guaranteed that entries don't overlap.
The exceptions raised by f
are caught and returned (as long as they are known by Errs
).
module Wo : sig ... end
module Ao : sig ... end