.TH "Stdlib.Nativeint" 3 2024-05-31 OCamldoc "OCaml library" .SH NAME Stdlib.Nativeint \- no description .SH Module Module Stdlib.Nativeint .SH Documentation .sp Module .BI "Nativeint" : .B (module Stdlib__Nativeint) .sp .sp .sp .sp .I val zero : .B nativeint .sp The native integer 0\&. .sp .I val one : .B nativeint .sp The native integer 1\&. .sp .I val minus_one : .B nativeint .sp The native integer \-1\&. .sp .I val neg : .B nativeint -> nativeint .sp Unary negation\&. .sp .I val add : .B nativeint -> nativeint -> nativeint .sp Addition\&. .sp .I val sub : .B nativeint -> nativeint -> nativeint .sp Subtraction\&. .sp .I val mul : .B nativeint -> nativeint -> nativeint .sp Multiplication\&. .sp .I val div : .B nativeint -> nativeint -> nativeint .sp Integer division\&. This division rounds the real quotient of its arguments towards zero, as specified for .ft B (/) .ft R \&. .sp .B "Raises Division_by_zero" if the second argument is zero\&. .sp .I val unsigned_div : .B nativeint -> nativeint -> nativeint .sp Same as .ft B Nativeint\&.div .ft R , except that arguments and result are interpreted as unsigned native integers\&. .sp .B "Since" 4.08 .sp .I val rem : .B nativeint -> nativeint -> nativeint .sp Integer remainder\&. If .ft B y .ft R is not zero, the result of .ft B Nativeint\&.rem x y .ft R satisfies the following properties: .ft B Nativeint\&.zero <= Nativeint\&.rem x y < Nativeint\&.abs y .ft R and .ft B x = Nativeint\&.add (Nativeint\&.mul (Nativeint\&.div x y) y) .br \& (Nativeint\&.rem x y) .ft R \&. If .ft B y = 0 .ft R , .ft B Nativeint\&.rem x y .ft R raises .ft B Division_by_zero .ft R \&. .sp .I val unsigned_rem : .B nativeint -> nativeint -> nativeint .sp Same as .ft B Nativeint\&.rem .ft R , except that arguments and result are interpreted as unsigned native integers\&. .sp .B "Since" 4.08 .sp .I val succ : .B nativeint -> nativeint .sp Successor\&. .ft B Nativeint\&.succ x .ft R is .ft B Nativeint\&.add x Nativeint\&.one .ft R \&. .sp .I val pred : .B nativeint -> nativeint .sp Predecessor\&. .ft B Nativeint\&.pred x .ft R is .ft B Nativeint\&.sub x Nativeint\&.one .ft R \&. .sp .I val abs : .B nativeint -> nativeint .sp .ft B abs x .ft R is the absolute value of .ft B x .ft R \&. On .ft B min_int .ft R this is .ft B min_int .ft R itself and thus remains negative\&. .sp .I val size : .B int .sp The size in bits of a native integer\&. This is equal to .ft B 32 .ft R on a 32\-bit platform and to .ft B 64 .ft R on a 64\-bit platform\&. .sp .I val max_int : .B nativeint .sp The greatest representable native integer, either 2^31 \- 1 on a 32\-bit platform, or 2^63 \- 1 on a 64\-bit platform\&. .sp .I val min_int : .B nativeint .sp The smallest representable native integer, either \-2^31 on a 32\-bit platform, or \-2^63 on a 64\-bit platform\&. .sp .I val logand : .B nativeint -> nativeint -> nativeint .sp Bitwise logical and\&. .sp .I val logor : .B nativeint -> nativeint -> nativeint .sp Bitwise logical or\&. .sp .I val logxor : .B nativeint -> nativeint -> nativeint .sp Bitwise logical exclusive or\&. .sp .I val lognot : .B nativeint -> nativeint .sp Bitwise logical negation\&. .sp .I val shift_left : .B nativeint -> int -> nativeint .sp .ft B Nativeint\&.shift_left x y .ft R shifts .ft B x .ft R to the left by .ft B y .ft R bits\&. The result is unspecified if .ft B y < 0 .ft R or .ft B y >= bitsize .ft R , where .ft B bitsize .ft R is .ft B 32 .ft R on a 32\-bit platform and .ft B 64 .ft R on a 64\-bit platform\&. .sp .I val shift_right : .B nativeint -> int -> nativeint .sp .ft B Nativeint\&.shift_right x y .ft R shifts .ft B x .ft R to the right by .ft B y .ft R bits\&. This is an arithmetic shift: the sign bit of .ft B x .ft R is replicated and inserted in the vacated bits\&. The result is unspecified if .ft B y < 0 .ft R or .ft B y >= bitsize .ft R \&. .sp .I val shift_right_logical : .B nativeint -> int -> nativeint .sp .ft B Nativeint\&.shift_right_logical x y .ft R shifts .ft B x .ft R to the right by .ft B y .ft R bits\&. This is a logical shift: zeroes are inserted in the vacated bits regardless of the sign of .ft B x .ft R \&. The result is unspecified if .ft B y < 0 .ft R or .ft B y >= bitsize .ft R \&. .sp .I val of_int : .B int -> nativeint .sp Convert the given integer (type .ft B int .ft R ) to a native integer (type .ft B nativeint .ft R )\&. .sp .I val to_int : .B nativeint -> int .sp Convert the given native integer (type .ft B nativeint .ft R ) to an integer (type .ft B int .ft R )\&. The high\-order bit is lost during the conversion\&. .sp .I val unsigned_to_int : .B nativeint -> int option .sp Same as .ft B Nativeint\&.to_int .ft R , but interprets the argument as an unsigned integer\&. Returns .ft B None .ft R if the unsigned value of the argument cannot fit into an .ft B int .ft R \&. .sp .B "Since" 4.08 .sp .I val of_float : .B float -> nativeint .sp Convert the given floating\-point number to a native integer, discarding the fractional part (truncate towards 0)\&. If the truncated floating\-point number is outside the range [ .ft B Nativeint\&.min_int .ft R , .ft B Nativeint\&.max_int .ft R ], no exception is raised, and an unspecified, platform\-dependent integer is returned\&. .sp .I val to_float : .B nativeint -> float .sp Convert the given native integer to a floating\-point number\&. .sp .I val of_int32 : .B int32 -> nativeint .sp Convert the given 32\-bit integer (type .ft B int32 .ft R ) to a native integer\&. .sp .I val to_int32 : .B nativeint -> int32 .sp Convert the given native integer to a 32\-bit integer (type .ft B int32 .ft R )\&. On 64\-bit platforms, the 64\-bit native integer is taken modulo 2^32, i\&.e\&. the top 32 bits are lost\&. On 32\-bit platforms, the conversion is exact\&. .sp .I val of_string : .B string -> nativeint .sp Convert the given string to a native integer\&. The string is read in decimal (by default, or if the string begins with .ft B 0u .ft R ) or in hexadecimal, octal or binary if the string begins with .ft B 0x .ft R , .ft B 0o .ft R or .ft B 0b .ft R respectively\&. .sp The .ft B 0u .ft R prefix reads the input as an unsigned integer in the range .ft B [0, 2*Nativeint\&.max_int+1] .ft R \&. If the input exceeds .ft B Nativeint\&.max_int .ft R it is converted to the signed integer .ft B Int64\&.min_int + input \- Nativeint\&.max_int \- 1 .ft R \&. .sp .B "Raises Failure" if the given string is not a valid representation of an integer, or if the integer represented exceeds the range of integers representable in type .ft B nativeint .ft R \&. .sp .I val of_string_opt : .B string -> nativeint option .sp Same as .ft B of_string .ft R , but return .ft B None .ft R instead of raising\&. .sp .B "Since" 4.05 .sp .I val to_string : .B nativeint -> string .sp Return the string representation of its argument, in decimal\&. .sp .I type t = .B nativeint .sp An alias for the type of native integers\&. .sp .I val compare : .B t -> t -> int .sp The comparison function for native integers, with the same specification as .ft B compare .ft R \&. Along with the type .ft B t .ft R , this function .ft B compare .ft R allows the module .ft B Nativeint .ft R to be passed as argument to the functors .ft B Set\&.Make .ft R and .ft B Map\&.Make .ft R \&. .sp .I val unsigned_compare : .B t -> t -> int .sp Same as .ft B Nativeint\&.compare .ft R , except that arguments are interpreted as unsigned native integers\&. .sp .B "Since" 4.08 .sp .I val equal : .B t -> t -> bool .sp The equal function for native ints\&. .sp .B "Since" 4.03 .sp .I val min : .B t -> t -> t .sp Return the smaller of the two arguments\&. .sp .B "Since" 4.13 .sp .I val max : .B t -> t -> t .sp Return the greater of the two arguments\&. .sp .B "Since" 4.13 .sp .I val seeded_hash : .B int -> t -> int .sp A seeded hash function for native ints, with the same output value as .ft B Hashtbl\&.seeded_hash .ft R \&. This function allows this module to be passed as argument to the functor .ft B Hashtbl\&.MakeSeeded .ft R \&. .sp .B "Since" 5.1 .sp .I val hash : .B t -> int .sp An unseeded hash function for native ints, with the same output value as .ft B Hashtbl\&.hash .ft R \&. This function allows this module to be passed as argument to the functor .ft B Hashtbl\&.Make .ft R \&. .sp .B "Since" 5.1 .sp