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Work in progress: by now this fork is just a workaround to bypass my school firewall that does not allow to open https://thelifeengine.net/

Original readme below...

This is the readme for my evolution simulator, The Life Engine.

FOR FEATURE REQUESTS, USE THE DISCUSSIONS TAB. FOR BUG REPORTS, USE THE ISSUES TAB. :)

The Life Engine

Play here!

The life engine is a cellular automaton designed to simulate the long term processes of biological evolution. It allows organisms to eat, reproduce, mutate, and adapt. Unlike genetic algorithms, the life engine does not manually select the most "fit" organism for some given task, but rather allows true natural selection to run its course. Organisms that survive, successfully produce offspring, and out-compete their neighbors naturally propogate througout the environment.

This is the second version of the original evolution simulator, which I started in high school.

How to Run and Modify the Code

  • Install node and npm
  • Download or clone this repository
  • Open a terminal or powershell comand prompt, go to the repository and run npm install
  • Run npm run build (or npm run build-watch for a better developer experience)
    • If you get a Can't resolve jquery error message run npm install --save jquery
  • Open dist/index.html in your browser. The simulation should start running.

To load custom creations (found in /dist/assets), you must have a simple web server that serves all files in the dist directory. I do this with python:

  • Install python
  • run python -m http.server --directory dist from the repository root
  • Open https://localhost:8000/ in your browser

Npm build commands

  • Production mode (minified): npm run build
  • Watch mode (dev mode that auto-builds when you save a file): npm run build-watch
  • Dev mode (better error messages): npm run build-dev

How the Simulation Works

The Environment

The environment is a simple grid system made up of cells, which at every tick have a certain type. The environment is populated by organisms, which are structures of multiple cells.

Cells

A cell can be one of the following types.

Independent Cells

Independent cells are not part of organisms.

  • Empty - Dark blue, inert.
  • Food - Grayish-blue, provides nourishment for organisms.
  • Wall - Gray, blocks organisms movement and reproduction.

Organism Cells

Organism Cells are only found in organisms, and cannot exist on their own in the grid.

  • Mouth - Orange, eats food in directly adjacent cells.
  • Producer - Green, randomly generates food in directly adjacent empty cells.
  • Mover - Light blue, allows the organism to move and rotate randomly.
  • Killer - Red, harms organisms in directly adjacent cells (besides itself).
  • Armor - Purple, negates the effects of killer cells.
  • Eye - Light purple with a slit, allows the organism to see and move intelligently. See further description below.

Organisms

Organisms are structures of cells that eat food, reproduce, and die. When an organism dies, every cell in the grid that was occupied by a cell in its body will be changed to food. Their lifespan is calculated by multiplying the number of cells they have by the hyperparameter Lifespan Multiplier. They will survive for that many ticks unless killed by another organism. When touched by a killer cell, an organism will take damage. Once it has taken as much damage as it has cells in its body, it will die. If the hyperparameter One touch kill is on, an organism will immediatly die when touched by a killer cell.

Reproduction

Once an organism has eaten as much food as it has cells in its body, it will attempt to reproduce. First, offspring is formed by cloning the current organism and possibly mutating it (see below). The offspring birth location is then chosen a certain number of cells in a random direction (up, down, left, right). This number is calculated programmatically such that it is far enough away that it can't intersect with it's parent. Additionally, a random value between 1 and 3 is added to the location to introduce a little variance. Reproduction can fail if the offspring attempts to occupy non-empty cells, like other organisms and food. If reproduction fails, the food required to produce a child is wasted.

Mutation

Offspring can mutate their anatomies in 3 different ways: change a cell, lose a cell, or add a cell. Changing a cell sets a random cell to a random type. Losing a cell removes a random cell. Note that this can result in organisms with "gaps" and cells disconnected from the rest of its body. I consider this a feature, not a bug. To add a cell the organism first selects a cell it already has in its body, then grows a new cell with a random type in a location adjacent to the selected cell.

If an organism mutates, there is a 10% chance that mutation will alter the movement patterns of the organism (see below).

Movement and Rotation

Organisms with mover cells (light blue) are permitted to move freely about the grid. Only a single mover cell is required and adding more doesn't do anything. By default, an organism selects a random direction and moves one cell per tick in that direction for a certain number of ticks. This number is called "Move range", and it can mutate over time.

Organims can also rotate around a central pivot cell. This cell can never be removed by mutation, though it can change type. Movers rotate randomly when they change direction, and their rotation is not necessarily the same as their movement direction, ie, they aren't always facing the direction they are moving. Offspring of all organisms (including static ones) rotate randomly during reproduction. This rotation can be toggled in the simulation controls.

Eyes and Brains

Any organism can evolve eyes, but when an organism has both eyes and mover cells it is given a brain. The eye, unlike other cells, has a direction, which is denoted by the direction of the slit in the cell. It "looks" forward in this direction and "sees" the first non-empty cell within a certain range. It checks the type of the cell and informs the brain, which then decideds how to move. The brain can either ignore (keep moving in whatever direction), chase (move towards the observed cell), or retreat (move in the opposite direction of the observed cell). The brain maps different observed cell types to different actions. For instance, the brain will chase when it sees food and retreat when it sees a killer cell. These behaviors can mutate over time.

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