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Operations on floating-point numbers, with exceptions raised in case of error.
The operations implemented in this module are the same as the operations implemented in module Float, with the exception that no operation returns nan, infinity or neg_infinity. In case of overflow, instead of returning infinity or neg_infinity, operations raise exception Number.Overflow. In case of nan, operations raise exception Number.NaN.
OCaml's floating-point numbers follow the IEEE 754 standard, using double precision (64 bits) numbers. Floating-point operations never raise an exception on overflow, underflow, division by zero, etc. Instead, special IEEE numbers are returned as appropriate, such as infinity for 1.0 /. 0.0, neg_infinity for -1.0 /. 0.0, and nan (``not a number'') for 0.0 /. 0.0. These special numbers then propagate through floating-point computations as expected: for instance, 1.0 /. infinity is 0.0, and any operation with nan as argument returns nan as result.
Round the given float to an integer value. floor f returns the greatest integer value less than or equal to f. ceil f returns the least integer value greater than or equal to f.
val infinity : float
Positive infinity.
val neg_infinity : float
Negative infinity.
val nan : float
A special floating-point value denoting the result of an undefined operation such as 0.0 /. 0.0. Stands for ``not a number''. Any floating-point operation with nan as argument returns nan as result. As for floating-point comparisons, =, <, <=, > and >= return false and <> returns true if one or both of their arguments is nan.
val is_nan : float -> bool
is_nan f returns true if f is nan, false otherwise.
val epsilon : float
The smallest positive float x such that 1.0 +. x <> 1.0.
val pi : float
The constant pi (3.14159...)
Operations on the internal representation of floating-point numbers
val frexp : float -> float * int
frexp f returns the pair of the significant and the exponent of f. When f is zero, the significant x and the exponent n of f are equal to zero. When f is non-zero, they are defined by f = x *. 2 ** n and 0.5 <= x < 1.0.
val ldexp : float ->int -> float
ldexp x n returns x *. 2 ** n.
val modf : float -> float * float
modf f returns the pair of the fractional and integral part of f.
type fpkind = Stdlib.Pervasives.fpclass =
| FP_normal
(*
Normal number, none of the below
*)
| FP_subnormal
(*
Number very close to 0.0, has reduced precision
*)
| FP_zero
(*
Number is 0.0 or -0.0
*)
| FP_infinite
(*
Number is positive or negative infinity
*)
| FP_nan
(*
Not a number: result of an undefined operation
*)
Classes of floating point numbers
The five classes of floating-point numbers, as determined by the classify function.