Initialize the generator, using the argument as a seed. The same seed will always yield the same sequence of numbers.

Same as Random.init but takes more data as seed.

Initialize the generator with a more-or-less random seed chosen in a system-dependent way.

Return 30 random bits in a nonnegative integer.

Random.int bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0 and less than 2³⁰.

Random.full_int bound returns a random integer between 0 (inclusive) and bound (exclusive). bound may be any positive integer.

If bound is less than 2³⁰, Random.full_int bound is equal to Random.int bound. If bound is greater than 2³⁰ (on 64-bit systems or non-standard environments, such as JavaScript), Random.full_int returns a value, where Random.int raises Invalid_argument.

• since 3.4.0 and OCaml 4.13.0

Random.int32 bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0.

Random.nativeint bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0.

Random.int64 bound returns a random integer between 0 (inclusive) and bound (exclusive). bound must be greater than 0.

Random.float bound returns a random floating-point number between 0 (inclusive) and bound (exclusive). If bound is negative, the result is negative or zero. If bound is 0, the result is 0.

Random.bool () returns true or false with probability 0.5 each.

Return a random Latin-1 character.

full_range_int () returns the maximum entropy possible in a single int: 31 bits on 32-bit platforms and 63 bits on 64-bit platforms. Intentionally gives different results on different platforms, so is not portable.

choice e returns a randomly-chosen element of e.

This function only works on finite enumerations with less than 2³⁰ elements.

multi_choice n e returns an enumeration of n randomly-chosen elements of e.

shuffle e returns a new array, containing the same set of elements as e, but in a random order.

Shuffling is implemented using the Fisher-Yates algorithm and works in O(n), where n is the number of elements of e.

This function only works on finite enumerations with less than 2³⁰ elements.

Manipulate the current state of the random generator.

Return the current state of the generator used by the basic functions.

Set the state of the generator used by the basic functions.