ClickHouse/contrib/libpcg-random/README.md

# PCG Random Number Generation, C++ Edition

[PCG-Random website]: http://www.pcg-random.org

This code provides an implementation of the PCG family of random number
generators, which are fast, statistically excellent, and offer a number of
useful features.

Full details can be found at the [PCG-Random website].  This version
of the code provides many family members -- if you just want one
simple generator, you may prefer the minimal C version of the library.

There are two kinds of generator, normal generators and extended generators.
Extended generators provide *k* dimensional equidistribution and can perform
party tricks, but generally speaking most people only need the normal
generators.

There are two ways to access the generators, using a convenience typedef
or by using the underlying templates directly (similar to C++11's `std::mt19937` typedef vs its `std::mersenne_twister_engine` template).  For most users, the convenience typedef is what you want, and probably you're fine with `pcg32` for 32-bit numbers.  If you want 64-bit numbers, either use `pcg64` (or, if you're on a 32-bit system, making 64 bits from two calls to `pcg32_k2` may be faster).

## Documentation and Examples

Visit [PCG-Random website] for information on how to use this library, or look
at the sample code in the `sample` directory -- hopefully it should be fairly
self explanatory.

## Building

The code is written in C++11, as an include-only library (i.e., there is
nothing you need to build).  There are some provided demo programs and tests
however.  On a Unix-style system (e.g., Linux, Mac OS X) you should be able
to just type

    make

To build the demo programs.

## Testing

Run

    make test

## Directory Structure

The directories are arranged as follows:

* `include` -- contains `pcg_random.hpp` and supporting include files
* `test-high` -- test code for the high-level API where the functions have
  shorter, less scary-looking names.
* `sample` -- sample code, some similar to the code in `test-high` but more 
  human readable, some other examples too
Imported pcg-random library (Reason: rng with small size of state, fast initialization, good performance and quality, with interface compatible with C++ standard library. Cause: boost::random::taus88 in latest Boost 1.65 is incompatible with C++17 standard) [#CLICKHOUSE-3174]. 2017-09-08 23:43:28 +00:00			`# PCG Random Number Generation, C++ Edition`

			`[PCG-Random website]: http://www.pcg-random.org`

			`This code provides an implementation of the PCG family of random number`
			`generators, which are fast, statistically excellent, and offer a number of`
			`useful features.`

			`Full details can be found at the [PCG-Random website]. This version`
			`of the code provides many family members -- if you just want one`
			`simple generator, you may prefer the minimal C version of the library.`

			`There are two kinds of generator, normal generators and extended generators.`
			`Extended generators provide k dimensional equidistribution and can perform`
			`party tricks, but generally speaking most people only need the normal`
			`generators.`

			`There are two ways to access the generators, using a convenience typedef`
			or by using the underlying templates directly (similar to C++11's `std::mt19937` typedef vs its `std::mersenne_twister_engine` template). For most users, the convenience typedef is what you want, and probably you're fine with `pcg32` for 32-bit numbers. If you want 64-bit numbers, either use `pcg64` (or, if you're on a 32-bit system, making 64 bits from two calls to `pcg32_k2` may be faster).

			`## Documentation and Examples`

			`Visit [PCG-Random website] for information on how to use this library, or look`
			at the sample code in the `sample` directory -- hopefully it should be fairly
			`self explanatory.`

			`## Building`

			`The code is written in C++11, as an include-only library (i.e., there is`
			`nothing you need to build). There are some provided demo programs and tests`
			`however. On a Unix-style system (e.g., Linux, Mac OS X) you should be able`
			`to just type`

			`make`

			`To build the demo programs.`

			`## Testing`

			`Run`

			`make test`

			`## Directory Structure`

			`The directories are arranged as follows:`

			* `include` -- contains `pcg_random.hpp` and supporting include files
			* `test-high` -- test code for the high-level API where the functions have
			`shorter, less scary-looking names.`
			* `sample` -- sample code, some similar to the code in `test-high` but more
			`human readable, some other examples too`