Genex
Genex makes it easy to write Genetic Algorithms with Elixir.
This library is inspired by Python's DEAP.
Documentation
Documentation is available at https://hexdocs.pm/genex/introduction-overview.html
Installation
The package can be installed by adding genex to your list of dependencies in mix.exs.
def deps do
[
{:genex, "~> 0.2.1"}
]
endUsage
Genex requires an implementation module with 3 functions: encoding/0, fitness_function/1, and terminate?/1.
defmodule OneMax do
use Genex
def encoding do
for _ <- 1..10, do: Enum.random(0..1)
end
def fitness_function(chromosome), do: Enum.sum(chromosome.genes)
def terminate?(population), do: population.max_fitness == 10
end
Now, run iex -S mix.
Then:
iex> OneMax.run()Features
Genex strives to be as simple and customizable as possible. Along with the ability to customize EVERY step of your Genetic algorithm, Genex comes with the following features:
- 6 Selection Operators
- 7 Crossover Operators
- 6 Mutation Operators
- Customizable Population Statistics
- Customizable Benchmarking of Algorithms
- Exportable Genealogy Tree
- Flexible Encoding of Chromosomes
- Simple Text Visualizations
Examples
There are currently 3 basic examples available in the examples directory. To run them, clone the repo and run:
mix run examples/[example].exsThe current examples are:
one_max.exsspeller.exslinear_regression.exs
Benchmarks
To run benchmarks, clone this repo. In the genex directory run:
mix run bench/benchmarks.exs
You can also run the individual benchmarks available in the bench/ directory. This will take some time!
Contributing
If you have any problems with Genex, please open an issue! If you have a fix for an issue, submit a pull request.
Roadmap
The next phase of this library will involve extensive performance improvements. Most of the algorithms involve processing very large lists. This is an ideal job for a NIF.
If anybody has any experience writing NIFs or writing algorithms for processing large lists, email me to get involved!