(* $Id: rtypes.mli 1558 2011-03-04 17:15:46Z gerd $ *)
(** Binary encodings of numbers (Legacy) *)
(** Please use {!Netnumber} in new code - which is not restricted to
big endian
*)
(* 4- and 8-bytes representation of signed integers *)
type int4 = Netnumber.int4
(** 32 bit signed integer *)
type int8 = Netnumber.int8
(** 64 bit signed integer *)
(* 4- and 8-bytes representation of non-negative integers *)
type uint4 = Netnumber.uint4
(** 32 bit unsigned integer *)
type uint8 = Netnumber.uint8
(** 64 bit unsigned integer *)
(* Floating-point numbers of single and double precision according to IEEE *)
type fp4 = Netnumber.fp4
(** single precision float *)
type fp8 = Netnumber.fp8
(** double precision float *)
exception Cannot_represent of string
(** raised if a conversion can't be done
(same as {!Netnumber.Cannot_represent}) *)
exception Out_of_range
(** raised if string position out of range
(same as {!Netnumber.Out_of_range}) *)
val mk_int4 : char * char * char * char -> int4
val mk_int8 : char * char * char * char * char * char * char * char -> int8
val mk_uint4 : char * char * char * char -> uint4
val mk_uint8 : char * char * char * char * char * char * char * char -> uint8
(** [mk_]<t> create integer values from character tuples. In these tuples
* the MSB is the first component and the LSB the last.
*)
(* destroy integers and get tuples *)
val dest_int4 : int4 -> char * char * char * char
val dest_int8 : int8 -> char * char * char * char * char * char * char * char
val dest_uint4 : uint4 -> char * char * char * char
val dest_uint8 : uint8 -> char * char * char * char * char * char * char * char
(** [dest_]<t> destroy integer values and returns the corresponding char
* tuples.
*)
(* read integers from strings *)
val read_int4 : string -> int -> int4
val read_int8 : string -> int -> int8
val read_uint4 : string -> int -> uint4
val read_uint8 : string -> int -> uint8
(** [read_]<t> create integer values from the characters found at a
* certain position in the string. Raises [Out_of_range] if the position
* is bad. Network byte order is assumed.
*)
val read_int4_unsafe : string -> int -> int4
val read_int8_unsafe : string -> int -> int8
val read_uint4_unsafe : string -> int -> uint4
val read_uint8_unsafe : string -> int -> uint8
(** Same, but no index check *)
(* write integers into strings *)
(* these functions may raise Out_of_range if the position is out of the
* allowed range of string positions
*)
val write_int4 : string -> int -> int4 -> unit
val write_int8 : string -> int -> int8 -> unit
val write_uint4 : string -> int -> uint4 -> unit
val write_uint8 : string -> int -> uint8 -> unit
(** [write_]<t> copies the characters corresponding to the integer values
* into the string at the given positions. Raises [Out_of_range] if the
* position is bad. Network byte order is assumed.
*)
(* these functions are unsafe and do not check the range *)
val write_int4_unsafe : string -> int -> int4 -> unit
val write_int8_unsafe : string -> int -> int8 -> unit
val write_uint4_unsafe : string -> int -> uint4 -> unit
val write_uint8_unsafe : string -> int -> uint8 -> unit
(** [write_]<t>[_unsafe]: Same, but no index check. *)
(* integers as XDR compatible strings (i.e. big endian) *)
val int4_as_string : int4 -> string
val int8_as_string : int8 -> string
val uint4_as_string : uint4 -> string
val uint8_as_string : uint8 -> string
(** <t>[_as_string]: Returns the corresponding string in network byte
* order for an integer value
*)
(** Conversions from int to (u)int and vice versa.
* On 32-bit computers, the type [int] can hold 31-bit signed integers
* (including the sign, i.e. one bit cannot be used).
* On 64-bit computers, the type [int] can hold 63-bit signed integers
* (including the sign, i.e. one bit cannot be used).
* The [int_of_xxx] functions raise [Cannot_represent] if the number to
* convert is too big (or too small) to be represented as [int]. Note
* that this depends on the word size of your architecture.
*)
val int_of_int4 : int4 -> int
val int_of_uint4 : uint4 -> int
val int_of_int8 : int8 -> int
val int_of_uint8 : uint8 -> int
val int4_of_int : int -> int4
val uint4_of_int : int -> uint4
val int8_of_int : int -> int8
val uint8_of_int : int -> uint8
(** Since O'Caml 3.00, there are the types [int32] and [int64] representing
* 32-bit and 64-bit signed integers on every architecture.
*)
val int32_of_int4 : int4 -> int32
val int32_of_uint4 : uint4 -> int32
val int32_of_int8 : int8 -> int32
val int32_of_uint8 : uint8 -> int32
val int4_of_int32 : int32 -> int4
val uint4_of_int32 : int32 -> uint4
val int8_of_int32 : int32 -> int8
val uint8_of_int32 : int32 -> uint8
val int64_of_int4 : int4 -> int64
val int64_of_uint4 : uint4 -> int64
val int64_of_int8 : int8 -> int64
val int64_of_uint8 : uint8 -> int64
val int4_of_int64 : int64 -> int4
val uint4_of_int64 : int64 -> uint4
val int8_of_int64 : int64 -> int8
val uint8_of_int64 : int64 -> uint8
(** Casts from [uint4]/[uint8] to [int32]/[int64]. Here, the sign is ignored and
* simply considered as a bit.
*)
val logical_uint4_of_int32 : int32 -> uint4
val logical_int32_of_uint4 : uint4 -> int32
val logical_uint8_of_int64 : int64 -> uint8
val logical_int64_of_uint8 : uint8 -> int64
(** Comparisons *)
val lt_uint4 : uint4 -> uint4 -> bool
(** [lt_uint4] is true iff the first value is less than the second value
as unsigned int
*)
val le_uint4 : uint4 -> uint4 -> bool
val gt_uint4 : uint4 -> uint4 -> bool
val ge_uint4 : uint4 -> uint4 -> bool
(** Other comparisons *)
(** Floating-point stuff. The following functions all assume that the
* system represents fp number in an IEEE-compliant way.
*)
val fp8_of_fp4 : fp4 -> fp8
val fp4_of_fp8 : fp8 -> fp4
(** Note [fp4_of_fp8]: This conversion is not exact. It is quite
* normal that precision is lost. Numbers too small or too large
* for fp4 are converted to the "infinity" value.
*)
val float_of_fp4 : fp4 -> float
val float_of_fp8 : fp8 -> float
val fp4_of_float : float -> fp4
val fp8_of_float : float -> fp8
(** Note fp4_of_float: The same problems as in fp4_of_fp8 may arise *)
(* [mk_fp4 e m2 m1 m0]:
* e = sign + exponent;
* m2, m1, m0 = normalized mantissa
*
* [mk_fp8 e1 e0m6 m5 m4 m3 m2 m1 m0]:
* e1: sign + upper 7 bits of exponent
* e0m6: lower 4 bits of exponent, highest 4 bits of mantissa
* m5 to m0: lower bits of mantissa
*)
(** Floating point to bit string and back: *)
val mk_fp4 : char * char * char * char -> fp4
val mk_fp8 : char * char * char * char * char * char * char * char -> fp8
val dest_fp4 : fp4 -> char * char * char * char
val dest_fp8 : fp8 -> char * char * char * char * char * char * char * char
val fp4_as_string : fp4 -> string
val fp8_as_string : fp8 -> string
val read_fp4 : string -> int -> fp4
val read_fp8 : string -> int -> fp8
