random

This library provides portable random number generators and an abstraction over the native backend Prolog compiler random number generator if available.

API documentation

Open the ../../docs/library_index.html#random link in a web browser.

Loading

To load all entities in this library, load the loader.lgt file:

| ?- logtalk_load(random(loader)).

Testing

To test this library predicates, load the tester.lgt file:

| ?- logtalk_load(random(tester)).

Usage

The random object implements a portable random number generator and supports multiple random number generators, using different seeds, by defining derived objects. For example:

:- object(my_random_generator_1,
    extends(random)).

    :- initialization(::reset_seed).

:- end_object.

The fast_random object also implements a portable random number generator but does not support deriving multiple random number generators, which makes it a bit faster than the random object.

The random and fast_random objects manage the random number generator seed using internal dynamic state. The predicates that update the seed are declared as synchronized (when running on Prolog backends that support threads). Still, care must be taken when using these objects from multi-threaded applications as there is no portable solution to protect seed updates from signals and prevent inconsistent state when threads are canceled.

The random and fast_random objects always initialize the random generator seed to the same value, thus providing a pseudo random number generator. The randomize/1 predicate can be used to initialize the seed with a random value. The argument should be a large positive integer. In alternative, when using a small integer argument, discard the first dozen random values.

The backend_random object abstracts the native backend Prolog compiler random number generator for the basic random/1, get_seed/1, and set_seed/1 predicates providing a portable implementation for the remaining predicates. This makes the object stateless, which allows reliable use from multiple threads. Consult the backend Prolog compiler documentation for details on its random number generator properties. Note that several of the supported backend Prolog systems, notably B-Prolog, CxProlog, ECLiPSe, JIProlog, and Quintus Prolog, do not provide implementations for both the get_seed/1 and set_seed/1 predicates and calling these predicates simply succeed without performing any action.