A polyomino (or simply omino) is a finite collection of orthogonally connected cells. The mathematical study of polyominoes was initiated by Solomon Golomb in 1953. Conway's early investigations of Life and other cellular automata involved tracking the histories of small polyominoes, this being a reasonable way to ascertain the typical behaviour of different cellular automata when the patterns had to be evolved by hand rather than by computer. Polyominoes have no special significance in Life, but their extensive study during the early years lead to a number of important discoveries and has influenced the terminology of Life.
During the course of its evolution a polyomino could regain its original form, thereby constituting one phase of an oscillator, as seen in the (infinite) cross family. The only other known examples are the block (which has period 1), the blinker, the toad, the star and (in two different phases) the pentadecathlon. Were a recurring polyomino displaced, it would be participating in a spaceship, though the only known examples are the lightweight spaceship, the middleweight spaceship, and the heavyweight spaceship. Of course, its evolution could follow other trajectories, possibly very long lived.
Sizes of polyominoes
Polyominoes of with n cells for n = 1, 2, 3, 4, ... are called haplominoes, dominoes, triominoes, tetrominoes, pentominoes, hexominoes, heptominoes, octominoes, and n-ominoes in general. The number of distinct polyominoes with n cells for n = 1, 2, 3, ... is given by the sequence 1, 1, 2, 5, 12, 35, 108, 369, 1285, ... (Sloane's A000105).
There are five distinct tetrominoes, each of which is shown below. The first is the block, the second is the T-tetromino, and the remaining three rapidly evolve into beehives. The fourth is commonly referred to as a tail and is often attached to small still lifes.
There are 12 distinct pentominoes. John Conway assigned them all letters in the range O to Z, loosely based on their shapes, and they are all shown below in order.
- The O-pentomino is a traffic light predecessor, though not one of the more common ones.
- The P-pentomino is a common spark that dies in generation 4.
- The Q-pentomino is a traffic light predecessor.
- The R-pentomino is a methuselah and by far the most well-known pentomino.
- The S-pentomino dies in generation 5.
- The T-pentomino is a common parent of the T-tetromino.
- The U-pentomino dies in generation 4.
- The V-pentomino evolves into a loaf in generation 3.
- The W-pentomino is a common loaf grandparent.
- The X-pentomino is a traffic light predecessor.
- The Y-pentomino dies in generation 3.
- The Z-pentomino dies in generation 3.
- The 1st hexomino dies in generation 12. It is hassled in the oscillator worker bee.
- The 2nd hexomino dies in generation 40, leaving behind 2 blinkers.
- The 3rd hexomino evolves into a block in generation 4.
- The 4th hexomino evolves into a traffic light in generation 9.
- The 5th hexomino dies in generation 4.
- The 6th hexomino evolves into a block in generation 4.
- The 7th hexomino is a grandparent of the boat.
- The 8th hexomino evolves into a block in generation 4.
- The 9th hexomino is the table.
- The 10th hexomino is the Z-hexomino, which dies in generation 45.
- The 11th hexomino dies in generation 5.
- The 12th hexomino dies in generation 7.
- The 13th hexomino converges to the same evolutionary sequence as the pi-heptomino and dies in generation 176, leaving behind 6 blocks, 5 blinkers, and two ponds.
- The 14th hexomino dies in generation 5.
- The 15th hexomino evolves into a block in generation 3.
- The 16th hexomino is a grandparent of the aircraft carrier.
- The 17th hexomino dies in generation 5.
- The 18th hexomino is a parent of the stairstep hexomino.
- The 19th hexomino converges to the same evolutionary sequence as the stairstep hexomino.
- The 20th hexomino also converges to the same evolutionary sequence as the stairstep hexomino.
- The 21st hexomino is the period-2 oscillator toad.
- The 22nd hexomino evolves into a boat in generation 4.
- The 23rd hexomino dies in generation 6.
- The 24th hexomino is the century and dies in generation 103, leaving behind 3 blocks and a blinker.
- The 25th hexomino is the ghost Herschel and dies in generation 6.
- The 26th hexomino is the generation 1 of an R-pentomino and dies in generation 1,108, leaving behind 8 blocks, 4 blinkers, 4 beehives, two boats, a ship, and a loaf, not to mention 6 escaped gliders.
- The 27th hexomino is a parent of the loaf.
- The 28th hexomino dies in generation 4.
- The 29th hexomino is a parent of the beehive.
- The 30th hexomino dies in generation 4
- The 31st hexomino is a great grandparent of the pond.
- The 32nd hexomino dies in generation 3.
- The 33rd hexomino dies in generation 9.
- The 34th hexomino is a parent of the pi-heptomino.
- The 35th hexomino is the stairstep hexomino and lasts 63 generations, leaving a blockade.
There are 369 distinct octominoes. Despite the abundance of octominoes, the following fairly common octomino (which evolves into a different octomino after two generations), which stabilizes after 386 generations into two traffic lights and four beehives, is often referred to as simply the octomino:
This leaves a toad at gen 21, but it does not survive after gen 153.
Charles Corderman discovered the switch engine by running an exhaustive computer search on all decominoes. The machine that discovered the decomino seed was unique, possessing an unusual architecture.
The name is a back-formation from 'domino', which explicitly refers to a pair of orthogonally connected live cells. According to the Life Lexicon, the pluralised name can be spelt two different ways: 'polyominos' and 'polyominoes' are both equally acceptable. The same applies to the systematic names of each of the polyomino sizes.