module Binary_packing:sig
..end
Functions ending in _int should not be used on 32 bit programs because native ocaml ints will not be big enough.
pos
arguments refer to the location in the buf string.
We support big and little endian ints. Note that for an 8 bit (1 byte) integer, there
is no difference because endian-ness only changes the order of bytes, not bits.
typeendian =
[ `Big_endian | `Little_endian ]
val unpack_signed_8 : buf:string -> pos:int -> int
val pack_signed_8 : buf:string -> pos:int -> int -> unit
val unpack_unsigned_8 : buf:string -> pos:int -> int
val pack_unsigned_8 : buf:string -> pos:int -> int -> unit
val unpack_signed_16 : byte_order:endian -> buf:string -> pos:int -> int
_big_endian
or _little_endian
are faster than the ones
with explicit byte_order
argument:
Name | Run time | S. dev. | Warnings ---------------------------------- | -------- | ------- | -------- pack_signed_16_little_endian | 4 ns | 0 ns | unpack_signed_16_little_endian | 5 ns | 0 ns | pack_signed_32_int | 12 ns | 0 ns | unpack_signed_32_int | 12 ns | 0 ns | pack_signed_32_int_little_endian | 4 ns | 0 ns | unpack_signed_32_int_little_endian | 5 ns | 0 ns | M pack_signed_64_int | 21 ns | 0 ns | M unpack_signed_64_int | 21 ns | 0 ns | M pack_signed_64_little_endian | 8 ns | 0 ns | unpack_signed_64_little_endian | 9 ns | 0 ns | M
val pack_signed_16 : byte_order:endian -> buf:string -> pos:int -> int -> unit
val unpack_unsigned_16_big_endian : buf:string -> pos:int -> int
val unpack_unsigned_16_little_endian : buf:string -> pos:int -> int
val pack_unsigned_16_big_endian : buf:string -> pos:int -> int -> unit
val pack_unsigned_16_little_endian : buf:string -> pos:int -> int -> unit
val unpack_signed_16_big_endian : buf:string -> pos:int -> int
val unpack_signed_16_little_endian : buf:string -> pos:int -> int
val pack_signed_16_big_endian : buf:string -> pos:int -> int -> unit
val pack_signed_16_little_endian : buf:string -> pos:int -> int -> unit
val unpack_unsigned_16 : byte_order:endian -> buf:string -> pos:int -> int
val pack_unsigned_16 : byte_order:endian -> buf:string -> pos:int -> int -> unit
val unpack_signed_32 : byte_order:endian -> buf:string -> pos:int -> int32
val unpack_signed_32_int : byte_order:endian -> buf:string -> pos:int -> int
val pack_signed_32 : byte_order:endian -> buf:string -> pos:int -> Int32.t -> unit
val pack_signed_32_int : byte_order:endian -> buf:string -> pos:int -> int -> unit
val unpack_unsigned_32_int_big_endian : buf:string -> pos:int -> int
val unpack_unsigned_32_int_little_endian : buf:string -> pos:int -> int
val pack_unsigned_32_int_big_endian : buf:string -> pos:int -> int -> unit
val pack_unsigned_32_int_little_endian : buf:string -> pos:int -> int -> unit
val unpack_signed_32_int_big_endian : buf:string -> pos:int -> int
val unpack_signed_32_int_little_endian : buf:string -> pos:int -> int
val pack_signed_32_int_big_endian : buf:string -> pos:int -> int -> unit
val pack_signed_32_int_little_endian : buf:string -> pos:int -> int -> unit
val unpack_unsigned_32_int : byte_order:endian -> buf:string -> pos:int -> int
val pack_unsigned_32_int : byte_order:endian -> buf:string -> pos:int -> int -> unit
val unpack_signed_64 : byte_order:endian -> buf:string -> pos:int -> int64
val unpack_signed_64_int : byte_order:endian -> buf:string -> pos:int -> int
val pack_signed_64 : byte_order:endian -> buf:string -> pos:int -> Int64.t -> unit
val pack_signed_64_int : byte_order:endian -> buf:string -> pos:int -> int -> unit
val unpack_signed_64_big_endian : buf:string -> pos:int -> int64
val unpack_signed_64_little_endian : buf:string -> pos:int -> int64
val pack_signed_64_big_endian : buf:string -> pos:int -> int64 -> unit
val pack_signed_64_little_endian : buf:string -> pos:int -> int64 -> unit
val unpack_float : byte_order:endian -> buf:string -> pos:int -> float
val pack_float : byte_order:endian -> buf:string -> pos:int -> float -> unit
val unpack_padded_fixed_string : ?padding:char -> buf:string -> pos:int -> len:int -> unit -> string
len
from buf
starting at
pos
. Return a string containing only the non-padding characters. The default
padding is '\x00'.val pack_padded_fixed_string : ?padding:char -> buf:string -> pos:int -> len:int -> string -> unit
len
.
Place it in buf
starting at position pos
. If the length of the string is less
then len
pad it with the padding characters until its length is equal to len
. If
the string is longer than len
raise Invalid_argument
. The default padding is
'\x00'.val test : unit -> unit