Difference between revisions of "Element:LIFE"
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+ | <!-- Note: menuvisible isn't the same as in the source code, but LIFE is a special case which has a whole menu to itself which is done differently to the other menus, so not really hidden --> | ||
{{ infobox Element | {{ infobox Element | ||
| icon = LIFE.png | | icon = LIFE.png | ||
Line 9: | Line 10: | ||
| colour = 0CAC00 | | colour = 0CAC00 | ||
| menusection = SC_LIFE | | menusection = SC_LIFE | ||
− | | menuvisible = | + | | menuvisible = 1 |
| advection = 0 | | advection = 0 | ||
| airdrag = 0 | | airdrag = 0 | ||
Line 45: | Line 46: | ||
=== [[File:LIFE-GOL.png|GOL]] Game of Life === | === [[File:LIFE-GOL.png|GOL]] Game of Life === | ||
− | Rulestring:23/3 | + | '''Rulestring:''' |
+ | 23/3 | ||
Link to Wiki: [http://en.wikipedia.org/wiki/Conway%27s_Game_of_Life Conway's Game of Life] | Link to Wiki: [http://en.wikipedia.org/wiki/Conway%27s_Game_of_Life Conway's Game of Life] | ||
Line 58: | Line 60: | ||
=== [[File:LIFE-HLIF.png|HLIF]] High Life === | === [[File:LIFE-HLIF.png|HLIF]] High Life === | ||
− | Rulestring:23/36 | + | '''Rulestring:''' |
+ | 23/36 | ||
The same as GOL but with one extra rule. | The same as GOL but with one extra rule. | ||
High Life particles survive if surrounded by 2 or 3 particles, and come to life if surrounded by 3 or 6 particles. | High Life particles survive if surrounded by 2 or 3 particles, and come to life if surrounded by 3 or 6 particles. | ||
Because of the extra "6", there is an interesting spaceship and replicator that is unique to Highlife. Other than that, high life and GOL are very similar | Because of the extra "6", there is an interesting spaceship and replicator that is unique to Highlife. Other than that, high life and GOL are very similar | ||
− | [http://en.wikipedia.org/wiki/ | + | [http://en.wikipedia.org/wiki/Highlife_(cellular_automaton)] |
=== [[File:LIFE-ASIM.png|ASIM]] Assimilation === | === [[File:LIFE-ASIM.png|ASIM]] Assimilation === | ||
− | Rulestring:4567/345 | + | '''Rulestring:''' |
+ | 4567/345 | ||
− | + | Assimilation particles survive if surrounded by 4, 5, 6, or 7 particles, and come to life if surrounded by 3, 4, or 5 particles. The result is a diamond-generating ruleset that can usually perfectly regenerate into its original shape if a large portion is deleted. | |
− | |||
− | Assimilation particles | ||
− | |||
Diamonds of ASIM can also absorb "fizzy" patterns, which makes them larger. | Diamonds of ASIM can also absorb "fizzy" patterns, which makes them larger. | ||
− | === [[File:LIFE-2x2.png|2x2]] | + | === [[File:LIFE-2x2.png|2x2]] 2×2 === |
− | Rulestring:125/36 | + | '''Rulestring:''' |
+ | 125/36 | ||
− | + | 2×2 particles survive if surrounded by 1, 2, or 5 particles, and come to life if surrounded by 3 or 6 particles. The result is particles which tend to make surprisingly geometric patterns when produced in even squares or lines. These oscillators can be made with 2×4 rectangles, 2×8 rectangles, 2×12 rectangles and so on. | |
− | For more information on | + | For more information on 2×2, please visit [https://www.conwaylife.com/wiki/OCA:2%C3%972] |
− | |||
− | |||
=== [[File:LIFE-DANI.png|DANI]] Day and Night === | === [[File:LIFE-DANI.png|DANI]] Day and Night === | ||
− | Rulestring:34578/3678 | + | '''Rulestring:''' |
+ | 34578/3678 | ||
Day and Night particles survive if surrounded by 3, 4, 6, 7, or 8 particles, and come to life if surrounded by 3, 6, 7, or 8 particles. The result is an exotic particle who's physical properties are exactly inversed both in floodfilled areas and empty ones. In other words, the same patterns can appear inside of a solid block of Day and Night as outside of it, hence its name. | Day and Night particles survive if surrounded by 3, 4, 6, 7, or 8 particles, and come to life if surrounded by 3, 6, 7, or 8 particles. The result is an exotic particle who's physical properties are exactly inversed both in floodfilled areas and empty ones. In other words, the same patterns can appear inside of a solid block of Day and Night as outside of it, hence its name. | ||
=== [[File:LIFE-AMOE.png|AMOE]] Amoeba === | === [[File:LIFE-AMOE.png|AMOE]] Amoeba === | ||
− | Rulestring:1358/357 | + | '''Rulestring:''' |
− | + | 1358/357 | |
− | |||
Amoeba particles live up to their name, sloshing around figuratively speaking, producing a peculiar mess of splashy patterns. The result is what looks surprisingly like... Amoebas. Amoeba particles survive if surrounded by 1, 3, 5, or 8 particles, and come to life if surrounded by 3, 5, or 7 particles. | Amoeba particles live up to their name, sloshing around figuratively speaking, producing a peculiar mess of splashy patterns. The result is what looks surprisingly like... Amoebas. Amoeba particles survive if surrounded by 1, 3, 5, or 8 particles, and come to life if surrounded by 3, 5, or 7 particles. | ||
− | One cool property demonstrated by amoeba is that whenever one draws a perfectly straight | + | One cool property demonstrated by amoeba is that whenever one draws a perfectly straight line form left to right, or up to down, a fractal triangle is produced. |
=== [[File:LIFE-MOVE.png|MOVE]] Move === | === [[File:LIFE-MOVE.png|MOVE]] Move === | ||
− | Rulestring:245/368 | + | '''Rulestring:''' |
+ | 245/368 | ||
Move particles don't move anything... besides themselves. They survive if surrounded by 2, 4, or 5 particles, and come to life if surrounded by 3, 6, or 8 particles. The result is a particle that makes patterns that are adept at... moving. The patterns its makes tend to die off rather quickly from random soup, however. | Move particles don't move anything... besides themselves. They survive if surrounded by 2, 4, or 5 particles, and come to life if surrounded by 3, 6, or 8 particles. The result is a particle that makes patterns that are adept at... moving. The patterns its makes tend to die off rather quickly from random soup, however. | ||
− | === [[File:LIFE-PGOL.png|PGOL]] Pseudo === | + | === [[File:LIFE-PGOL.png|PGOL]] Pseudo Life === |
− | Rulestring:238/357 | + | '''Rulestring:''' |
− | + | 238/357 | |
− | |||
Pseudo Life produces patterns that look superficially like normal GOL, hence its name. Particles of Pseudo Life survive if surrounded by 2, 3, or 8 particles, and come to life if surrounded by 3, 5, or 7 particles. | Pseudo Life produces patterns that look superficially like normal GOL, hence its name. Particles of Pseudo Life survive if surrounded by 2, 3, or 8 particles, and come to life if surrounded by 3, 5, or 7 particles. | ||
=== [[File:LIFE-DMOE.png|DMOE]] Diamoeba === | === [[File:LIFE-DMOE.png|DMOE]] Diamoeba === | ||
− | Rulestring:5678/35678 | + | '''Rulestring:''' |
− | + | 5678/35678 | |
− | |||
Diamoeba particles are peculiar indeed. They're like a half-way step between Amoeba and Assimilation particles, producing irregular diamond shapes that lean towards gently disappearing on their own. They can survive when surrounded by 5, 6, 7, or 8 particles, and come back to life if surrounded by 3, 5, 6, 7, or 8 particles. | Diamoeba particles are peculiar indeed. They're like a half-way step between Amoeba and Assimilation particles, producing irregular diamond shapes that lean towards gently disappearing on their own. They can survive when surrounded by 5, 6, 7, or 8 particles, and come back to life if surrounded by 3, 5, 6, 7, or 8 particles. | ||
Line 119: | Line 118: | ||
=== [[File:LIFE-34.png|34]] 34 === | === [[File:LIFE-34.png|34]] 34 === | ||
− | Rulestring:34/34 | + | '''Rulestring:''' |
+ | 34/34 | ||
34 Life particles are an exploding-type particle that can be used to make certain types of useful patterns, but tend towards exploding randomly bigger and bigger if made much larger. 34 Life particles survive if surrounded by 3 or 4 particles, and come to life if surrounded by 3 or 4 particles (hence its name.) | 34 Life particles are an exploding-type particle that can be used to make certain types of useful patterns, but tend towards exploding randomly bigger and bigger if made much larger. 34 Life particles survive if surrounded by 3 or 4 particles, and come to life if surrounded by 3 or 4 particles (hence its name.) | ||
=== [[File:LIFE-LLIF.png|LLIF]] Long Life === | === [[File:LIFE-LLIF.png|LLIF]] Long Life === | ||
− | Rulestring:5/345 | + | '''Rulestring:''' |
+ | 5/345 | ||
Long Life particles actually don't resemble normal Life particles, being an alien type all their own. They tend to generate diamond shaped oscillators that essentially become stable and never die. Long Life particles survive when surrounded by only 5 particles, but come to life when surrounded by 3, 4, or 5 particles. | Long Life particles actually don't resemble normal Life particles, being an alien type all their own. They tend to generate diamond shaped oscillators that essentially become stable and never die. Long Life particles survive when surrounded by only 5 particles, but come to life when surrounded by 3, 4, or 5 particles. | ||
=== [[File:LIFE-STAN.png|STAN]] Stains === | === [[File:LIFE-STAN.png|STAN]] Stains === | ||
− | Rulestring:235678/3678 | + | '''Rulestring:''' |
+ | 235678/3678 | ||
Stains particles are an exploding-type pattern that tends to splash outwards from its point of origin in predictable patterns in solid fill. Stain particles survive when surrounded by 2, 3, 5, 6, 7, or 8 particles, and come back to life when surrounded by 3, 6, 7, or 8 particles. | Stains particles are an exploding-type pattern that tends to splash outwards from its point of origin in predictable patterns in solid fill. Stain particles survive when surrounded by 2, 3, 5, 6, 7, or 8 particles, and come back to life when surrounded by 3, 6, 7, or 8 particles. | ||
=== [[File:LIFE-SEED.png|SEED]] Seeds === | === [[File:LIFE-SEED.png|SEED]] Seeds === | ||
− | Rulestring:/2 | + | '''Rulestring:''' |
+ | /2 | ||
An exploding rule in which every cell dies in every generation. It has many simple orthogonal spaceships, though it is in general difficult to create patterns that don't explode. | An exploding rule in which every cell dies in every generation. It has many simple orthogonal spaceships, though it is in general difficult to create patterns that don't explode. | ||
=== [[File:LIFE-MAZE.png|MAZE]] Maze === | === [[File:LIFE-MAZE.png|MAZE]] Maze === | ||
− | Rulestring:12345/3 | + | '''Rulestring:''' |
+ | 12345/3 | ||
− | An exploding rule that crystalizes to form maze-like designs. | + | An exploding rule that crystalizes to form maze-like designs. If you put a square of MAZE with a side length of 15 or more, it will grow infinitely. |
=== [[File:LIFE-COAG.png|COAG]] Coagulations === | === [[File:LIFE-COAG.png|COAG]] Coagulations === | ||
− | Rulestring:235678/378 | + | '''Rulestring:''' |
− | + | 235678/378 | |
− | |||
An exploding rule in which patterns tend to expand forever, producing a thick "goo" as it does so. | An exploding rule in which patterns tend to expand forever, producing a thick "goo" as it does so. | ||
=== [[File:LIFE-WALL.png|WALL]] Walled cities === | === [[File:LIFE-WALL.png|WALL]] Walled cities === | ||
− | Rulestring:2345/45678 | + | '''Rulestring:''' |
+ | 2345/45678 | ||
A stable rule that forms centers of pseudo-random activity separated by walls. | A stable rule that forms centers of pseudo-random activity separated by walls. | ||
=== [[File:LIFE-GNAR.png|GNAR]] Gnarl === | === [[File:LIFE-GNAR.png|GNAR]] Gnarl === | ||
− | Rulestring:1/1 | + | '''Rulestring:''' |
− | + | 1/1 | |
− | |||
A simple exploding rule that forms complex patterns from even a single live cell. | A simple exploding rule that forms complex patterns from even a single live cell. | ||
Expands rapidly by itself. | Expands rapidly by itself. | ||
− | |||
=== [[File:LIFE-REPL.png|REPL]] Replicator === | === [[File:LIFE-REPL.png|REPL]] Replicator === | ||
− | Rulestring:1357/1357 | + | '''Rulestring:''' |
− | + | 1357/1357 | |
− | |||
An exploding rule in which every pattern is a replicator. | An exploding rule in which every pattern is a replicator. | ||
− | However, this is not a unique property of the rule string, as many others like Fredkin and Replicator 2 replicate, though they are not included in The Powder Toy | + | However, this is not a unique property of the rule string, as many others like Fredkin and Replicator 2 replicate, though they are not included in The Powder Toy. |
− | The reason why every pattern in this rule is a replicator is complicated, but here is the | + | The reason why every pattern in this rule is a replicator is complicated, but here is the link, |
− | [ | + | [https://www.conwaylife.com/wiki/OCA:Replicator] |
=== [[File:LIFE-MYST.png|MYST]] Mystery === | === [[File:LIFE-MYST.png|MYST]] Mystery === | ||
− | Rulestring:05678/3458 | + | '''Rulestring:''' |
+ | 05678/3458 | ||
+ | |||
+ | Similar to diamoeba. | ||
− | + | It is the only life variant in TPT that can survive with 0 surrounding cells. | |
− | |||
=== [[File:LIFE-STAR.png|STAR]] Star Wars === | === [[File:LIFE-STAR.png|STAR]] Star Wars === | ||
− | Rulestring:3456/278/6 | + | '''Rulestring:''' |
+ | 3456/278/6 | ||
The 6 at the end means that if a Star Wars particle dies, it stays for 6 frames, and dissapears, instead of going away instantly. The 'dying' particle is not counted as a neighbor, and nothing can be born into that space until it dies. The dying particle will also turn from a dark blue to a much brighter blue as it dies. | The 6 at the end means that if a Star Wars particle dies, it stays for 6 frames, and dissapears, instead of going away instantly. The 'dying' particle is not counted as a neighbor, and nothing can be born into that space until it dies. The dying particle will also turn from a dark blue to a much brighter blue as it dies. | ||
=== [[File:LIFE-LOTE.png|LOTE]] Living on the Edge === | === [[File:LIFE-LOTE.png|LOTE]] Living on the Edge === | ||
− | + | '''Rulestring:''' | |
+ | 3458/37/4 | ||
Like Star wars, a LOTE pixel will survive for an extra 4 frames after it 'dies', those pixels will change color from a red to a yellow when this occurs. | Like Star wars, a LOTE pixel will survive for an extra 4 frames after it 'dies', those pixels will change color from a red to a yellow when this occurs. | ||
=== [[File:LIFE-BRAN.png|BRAN]] Brian 6 === | === [[File:LIFE-BRAN.png|BRAN]] Brian 6 === | ||
− | Rulestring:6/246/3 | + | '''Rulestring:''' |
+ | 6/246/3 | ||
BRAN particles tend to form 'glider'(those things that look like spaceships) formations consisting of a 2 pixel by 2 pixel square and various trailing pieces. It is very hard if not impossible to make stable patterns | BRAN particles tend to form 'glider'(those things that look like spaceships) formations consisting of a 2 pixel by 2 pixel square and various trailing pieces. It is very hard if not impossible to make stable patterns | ||
=== [[File:LIFE-FROG.png|FROG]] Frogs === | === [[File:LIFE-FROG.png|FROG]] Frogs === | ||
− | Rulestring:12/34/3 | + | '''Rulestring:''' |
+ | 12/34/3 | ||
FROG formations sometimes result in gliders that move slowly across the screen, somewhat like frogs | FROG formations sometimes result in gliders that move slowly across the screen, somewhat like frogs | ||
=== [[File:LIFE-FRG2.png|FRG2]] Like Frogs Rule === | === [[File:LIFE-FRG2.png|FRG2]] Like Frogs Rule === | ||
− | Rulestring:124/3/3 | + | '''Rulestring:''' |
+ | 124/3/3 | ||
Similar to FROG, but less stable. | Similar to FROG, but less stable. | ||
+ | === [[File:LIFE-CUST.png|CUST]] Custom GOL === | ||
+ | Add a new custom GOL type. Use ctrl+shift+rightclick to remove them. | ||
− | + | Valid rules are of the form B(begin)/S(stay), or optionally B(begin)/S(stay)/(generations), as explained [https://en.wikipedia.org/wiki/Life-like_cellular_automaton here]. The one exception is that 0 cannot be present in the begin list, because that would just immediately fill the screen with the custom type. | |
− | |||
− | |||
− | .. | ||
− | + | "Generations" is how many different states there custom GOL type has; this is 2 by default (live and dead). Anything larger than 2 means that once a live cell starts dying, it lingers for some time before it disappears: 3 means one extra frame spent living, 4 means two, etc. The upper limit is 17. | |
− | === | + | === How it works === |
− | + | All kinds of GOL particles use Temperature to display in heat mode how long it's been since a particle has been born. A LIFE particle is always born at the highest possible temperature, and gently falls to the lowest temperature until it's destroyed by any means. In other words, the newer a particle is, the hotter it will be. Watch GOL on heat view and you will see that older particles slowly fade to blue while newer ones remain pink. | |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | + | You can abuse this property to heat other elements, but otherwise it doesn't have much use. Generally, [https://www.conwaylife.com/wiki/Oscillator oscillators] are used as heaters, [https://www.conwaylife.com/wiki/Still_life still lifes] are used as coolers. | |
− | {{Languages}} | + | {{Languages|Element:LIFE}} |
[[Category:Elements]] | [[Category:Elements]] |
Latest revision as of 20:05, 26 May 2024
Properties | |
---|---|
Section | Life |
Spawn temperature | 8726.85°C |
Heat Conductivity | 16% |
Relative weight | 100 |
Gravity | 0 |
Acid dissolve rate | 0% |
Flammability | 0 |
State | Solid |
Misc properties | |
Source code |
LIFE is an element that implements various cellular automata rules. All these different rules can be found in the Life menu.
All buttons in the Life menu create a particle of LIFE, but with a different ctype which indicates which cellular automata rule that particle is following.
Powder Toy also has one other CA rule which isn't listed here, since a separate element is used - WireWorld (WWLD).
Contents
- 1 Game of Life
- 2 High Life
- 3 Assimilation
- 4 2×2
- 5 Day and Night
- 6 Amoeba
- 7 Move
- 8 Pseudo Life
- 9 Diamoeba
- 10 34
- 11 Long Life
- 12 Stains
- 13 Seeds
- 14 Maze
- 15 Coagulations
- 16 Walled cities
- 17 Gnarl
- 18 Replicator
- 19 Mystery
- 20 Star Wars
- 21 Living on the Edge
- 22 Brian 6
- 23 Frogs
- 24 Like Frogs Rule
- 25 Custom GOL
- 26 How it works
Game of Life
Rulestring: 23/3
Link to Wiki: Conway's Game of Life
This element is essentially Conway's Game of Life from way back when. It's been used to make enormous computing machines in the past, and now it's in Powder Toy. Even though the window size of Powder Toy limits it from being able to make enormous machines, all kinds of interesting things can still be made.
The basic premise is that on every frame, every pixel is calculated and the computer checks for the number of neighbors around each cell. If a cell is surrounded by two or three living cells, it continues to live on the next frame. However, if an empty cell is surrounded by exactly three live cells, it comes to life on the next frame. The result is the bacteria-like behaviors that GOL particles display.
GOL formations that remain static and do not change over time are called still-lives. Particles that change over time but remain stable (not exploding or anything). Certain formations have the ability to move across the screen but do not 'explode' in any way, these are thus called gliders. For more Information, check the wikipedia page.
The following names are essentially GOL, but using different functioning rules. Also, rules like star wars, Frog, Frog 2, have a extra number on the end. That number is the amount of frames an alive cell can keep itself alive without dying.
High Life
Rulestring: 23/36
The same as GOL but with one extra rule. High Life particles survive if surrounded by 2 or 3 particles, and come to life if surrounded by 3 or 6 particles. Because of the extra "6", there is an interesting spaceship and replicator that is unique to Highlife. Other than that, high life and GOL are very similar [1]
Assimilation
Rulestring: 4567/345
Assimilation particles survive if surrounded by 4, 5, 6, or 7 particles, and come to life if surrounded by 3, 4, or 5 particles. The result is a diamond-generating ruleset that can usually perfectly regenerate into its original shape if a large portion is deleted. Diamonds of ASIM can also absorb "fizzy" patterns, which makes them larger.
2×2
Rulestring: 125/36
2×2 particles survive if surrounded by 1, 2, or 5 particles, and come to life if surrounded by 3 or 6 particles. The result is particles which tend to make surprisingly geometric patterns when produced in even squares or lines. These oscillators can be made with 2×4 rectangles, 2×8 rectangles, 2×12 rectangles and so on.
For more information on 2×2, please visit [2]
Day and Night
Rulestring: 34578/3678
Day and Night particles survive if surrounded by 3, 4, 6, 7, or 8 particles, and come to life if surrounded by 3, 6, 7, or 8 particles. The result is an exotic particle who's physical properties are exactly inversed both in floodfilled areas and empty ones. In other words, the same patterns can appear inside of a solid block of Day and Night as outside of it, hence its name.
Amoeba
Rulestring: 1358/357
Amoeba particles live up to their name, sloshing around figuratively speaking, producing a peculiar mess of splashy patterns. The result is what looks surprisingly like... Amoebas. Amoeba particles survive if surrounded by 1, 3, 5, or 8 particles, and come to life if surrounded by 3, 5, or 7 particles.
One cool property demonstrated by amoeba is that whenever one draws a perfectly straight line form left to right, or up to down, a fractal triangle is produced.
Move
Rulestring: 245/368
Move particles don't move anything... besides themselves. They survive if surrounded by 2, 4, or 5 particles, and come to life if surrounded by 3, 6, or 8 particles. The result is a particle that makes patterns that are adept at... moving. The patterns its makes tend to die off rather quickly from random soup, however.
Pseudo Life
Rulestring: 238/357
Pseudo Life produces patterns that look superficially like normal GOL, hence its name. Particles of Pseudo Life survive if surrounded by 2, 3, or 8 particles, and come to life if surrounded by 3, 5, or 7 particles.
Diamoeba
Rulestring: 5678/35678
Diamoeba particles are peculiar indeed. They're like a half-way step between Amoeba and Assimilation particles, producing irregular diamond shapes that lean towards gently disappearing on their own. They can survive when surrounded by 5, 6, 7, or 8 particles, and come back to life if surrounded by 3, 5, 6, 7, or 8 particles.
An interesting rectangular pattern is created when creating a perpendicular straight line.
34
Rulestring: 34/34
34 Life particles are an exploding-type particle that can be used to make certain types of useful patterns, but tend towards exploding randomly bigger and bigger if made much larger. 34 Life particles survive if surrounded by 3 or 4 particles, and come to life if surrounded by 3 or 4 particles (hence its name.)
Long Life
Rulestring: 5/345
Long Life particles actually don't resemble normal Life particles, being an alien type all their own. They tend to generate diamond shaped oscillators that essentially become stable and never die. Long Life particles survive when surrounded by only 5 particles, but come to life when surrounded by 3, 4, or 5 particles.
Stains
Rulestring: 235678/3678
Stains particles are an exploding-type pattern that tends to splash outwards from its point of origin in predictable patterns in solid fill. Stain particles survive when surrounded by 2, 3, 5, 6, 7, or 8 particles, and come back to life when surrounded by 3, 6, 7, or 8 particles.
Seeds
Rulestring: /2
An exploding rule in which every cell dies in every generation. It has many simple orthogonal spaceships, though it is in general difficult to create patterns that don't explode.
Maze
Rulestring: 12345/3
An exploding rule that crystalizes to form maze-like designs. If you put a square of MAZE with a side length of 15 or more, it will grow infinitely.
Coagulations
Rulestring: 235678/378
An exploding rule in which patterns tend to expand forever, producing a thick "goo" as it does so.
Walled cities
Rulestring: 2345/45678
A stable rule that forms centers of pseudo-random activity separated by walls.
Gnarl
Rulestring: 1/1
A simple exploding rule that forms complex patterns from even a single live cell. Expands rapidly by itself.
Replicator
Rulestring: 1357/1357
An exploding rule in which every pattern is a replicator.
However, this is not a unique property of the rule string, as many others like Fredkin and Replicator 2 replicate, though they are not included in The Powder Toy.
The reason why every pattern in this rule is a replicator is complicated, but here is the link,
Mystery
Rulestring: 05678/3458
Similar to diamoeba.
It is the only life variant in TPT that can survive with 0 surrounding cells.
Star Wars
Rulestring: 3456/278/6
The 6 at the end means that if a Star Wars particle dies, it stays for 6 frames, and dissapears, instead of going away instantly. The 'dying' particle is not counted as a neighbor, and nothing can be born into that space until it dies. The dying particle will also turn from a dark blue to a much brighter blue as it dies.
Living on the Edge
Rulestring: 3458/37/4
Like Star wars, a LOTE pixel will survive for an extra 4 frames after it 'dies', those pixels will change color from a red to a yellow when this occurs.
Brian 6
Rulestring: 6/246/3
BRAN particles tend to form 'glider'(those things that look like spaceships) formations consisting of a 2 pixel by 2 pixel square and various trailing pieces. It is very hard if not impossible to make stable patterns
Frogs
Rulestring: 12/34/3
FROG formations sometimes result in gliders that move slowly across the screen, somewhat like frogs
Like Frogs Rule
Rulestring: 124/3/3
Similar to FROG, but less stable.
Custom GOL
Add a new custom GOL type. Use ctrl+shift+rightclick to remove them.
Valid rules are of the form B(begin)/S(stay), or optionally B(begin)/S(stay)/(generations), as explained here. The one exception is that 0 cannot be present in the begin list, because that would just immediately fill the screen with the custom type.
"Generations" is how many different states there custom GOL type has; this is 2 by default (live and dead). Anything larger than 2 means that once a live cell starts dying, it lingers for some time before it disappears: 3 means one extra frame spent living, 4 means two, etc. The upper limit is 17.
How it works
All kinds of GOL particles use Temperature to display in heat mode how long it's been since a particle has been born. A LIFE particle is always born at the highest possible temperature, and gently falls to the lowest temperature until it's destroyed by any means. In other words, the newer a particle is, the hotter it will be. Watch GOL on heat view and you will see that older particles slowly fade to blue while newer ones remain pink.
You can abuse this property to heat other elements, but otherwise it doesn't have much use. Generally, oscillators are used as heaters, still lifes are used as coolers.
Language: | English • русский |
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