Code: Select all
x = 8, y = 5, rule = B3/S23
2o$o$b3o$4bo$3b2o$3bo$bobo$b2o!
Code: Select all
x = 8, y = 5, rule = B3/S23
2o$o$b3o$4bo$3b2o$3bo$bobo$b2o!
xs14_31ego8a6 (Integral siamese eater)cgoler2 wrote: ↑May 13th, 2021, 8:54 amWhat's the apgcode of?Code: Select all
x = 8, y = 5, rule = B3/S23 2o$o$b3o$4bo$3b2o$3bo$bobo$b2o!
Code: Select all
x = 87, y = 50, rule = B3/S23:T100,50
obo3bobo$bo5bo27bo11b4o24b2o$34b3o3b2ob2o2b2o2bo22bobo$19b2o12b2o2bo2b
2ob2o3bo2bo18b2o2bo$19b2o12bo3bo11bo20bobob2o$2b2o19bo9bob2o11bo23bo3b
o$bo15b7o9b2o12b3o19bo2b5o$b2o3b2o8bo12b2o11b2o3b2obo3b2o13b3o$b3o11b
ob2o3b2o5bo11bo2bo4b2o4bo16bo3bo$2b2o2b3o6bobo5bo2b2obo12b2o11bob2o12b
o5bo$3bobob2o3b2obo6bo3bob2ob2o19b2ob2obo13b6o$4b2ob2o3b2obo5bo9bo21b
o$2b3o10bo4bo10bobo17bobo7b2o11b2o$2bo12bobobo12b2o17b2o8b2o11b2o$2bo
11b2ob2o17bo11bo$32b5o11b5o$32bo19bo3bo8bo5bo8bo$34bo15bo4bobo6b2o5b2o
6bobo$10b2o21b2o15b2o2bo2bo5bo2bo3bo2bo5bo2bo$10bobo42b2o6bobo5bobo6b
2o$b3ob2o4b3o7b2o41b2o5b2o$b4o2bo4b3o6b2o$5b2o4b3o$10bobo37b2o33b2o$10b
2o38b2o33b2o$29b2obo2bob2o17b2o21b2o$6b2o14b2o4bo2bo4bo2bo4b2o9bo2bo19b
o2bo$5bo2bo13b2o5bobo4bobo5b2o8b2ob2o19b2ob2o$30bo6bo18bo23bo2$6bo5bo
bo$bo5bob2obobo$o3bo4bob2obo41bo23bo$o4bo4bob2o40b2ob2o19b2ob2o$bo9bo
bo16bo6bo17bo2bo19bo2bo$5b2o15b2o5bobo4bobo5b2o10b2o21b2o$5bobo14b2o4b
o2bo4bo2bo4b2o4b2o33b2o$6bobo6bo13b2obo2bob2o11b2o33b2o$4b4o6bobo$7b2o
5bobo3b2o$4b3o4b2obob2o3bo42b2o5b2o$12bobo6bob2o30b2o6bobo5bobo6b2o$10b
o2bobob3obo2bo29bo2bo5bo2bo3bo2bo5bo2bo$10b2obobo4bobo10b2o15b2o3bobo
6b2o5b2o6bobo$13bobo2b2o2b2o10bo15bo5bo8bo5bo8bo$13bobo3bobo10bo19bo$
14b2obobobo10b5o11b5o$2b2ob2o9bobobo15bo11bo12b2o11b2o$b2o3b2o8bobo11b
4o17b4o6b2o11b2o$2b2ob2o10b2o11bo2bo17bo2bo!
Code: Select all
x = 12, y = 5, rule = Symbiosis
10.B$10.A$3A6.A.A$A.A7.A$A.A7.B!
Code: Select all
x = 10, y = 13, rule = Symbiosis
BA$.A$2.B2$3.B$3.A$3.A$2.B2A2.2A$4.A2.A.A$.B2A3.A$2.A$2.A$2.B!
Lua can't pull up arbitrary Internet URLs as easily as Python can. I suppose you could write out a local HTML file, then open it in Golly, and then have the user click the link -- but nobody has taken the time yet to put together that particular variant of biggiemac's script.
P15191638141680 (*47):
Code: Select all
x = 100, y = 50, rule = B3/S23:T100,50
28bobo31b2o$29bobo29b3o22b2o$b2o27b2o21b2ob2o2b2o2bo14b3o4bobo$o22bobo
9bo17b2ob2o2bo3bo11b3obo7bo2b2o$bob2o18b2obo4bo4bob2o8bo11bobo11bo2bo
2b2o5b2obobo$2bobo17bob2obo4bo3bobobo6b3o23bo3b5o3b2obobo$22bobob2obo
5bo4bo8b2o10b2ob2o7b3o4bo4b2o3bo2bo$2bobo17bobo5bo8b2ob2o2b2o2b3ob2o7b
o3b2o6bo9b2obo2b3o$bob2o6b2o3bo25bo7b2obo2bo11bo11bo5b2ob2o$o11bo2bobo
24bo7b3ob2o12bob2o7bobo3bo5bo$b2o7bo4bobo10bo2bo3b2ob2ob2ob2ob2obo14b
2ob2obo8bo4b6o$10b5obo12b2o3bobobo5bo4bo16bo$14bo18bo4bo5bo19bobo7b2o
11b2o$3b2o5b2o3bo16bo5bob2o3b3o4b2o10b2o8b2o11b2o$4bo5b2o4bo14bo3b2obo
b2o7bo2bo2bo5bo$4bobo8b2o8bo4bo3bobobo6b5o4b2o5b5o$5b2o16b3o4b2o2b2o2b
o6bo4b4o2b2o7bo3bo23bo$22bo14bo9bo2bo3bo3bo4bo4bobo3b3o9b3o3bobo$22b2o
6b7o9b2o4b2ob3o5b2o2bo2bo6bo7bo6bo2bo$30bo22bo4b3o7b2o5bo2bo5bo2bo5b2o
$33b2o7b2o7bobo2b2o2bo$2b2o29b2o7b2o5b3obo4b2o16b4o3b4o$2b2o8bo35bo4b
5o18b3o5b3o$12b2o11b2o22b4o4bo5b2o3bo25bo3b2o$11bob2o10bo4bo15bo6b4o6b
2o3bobo21bobo3b2o$10b2o2b2o7bobo3bo17bo3b2o15bo3b2o15b2o3bo$10b2o2b3o
6b2o7bo2b3ob3o2bo6bo2bo5bo8bo2b2o15b2o2bo$4b2o4bo3b3o13bob2o9b2obo6b2o
3b3o9bob2o15b2obo$3bobo8b4o12bo6bobo6bo10bo14bo17bo$3bo11b2obo12b2o3bo
3bo3b2o11b2o$2b2o27b5o5b5o$17bo7b2o$25b2o45bo17bo$31b5o5b5o24bob2o15b
2obo$16b3o12b2o3bo3bo3b2o8b3o12bo2b2o15b2o2bo$5b2o9b3o11bo6bobo6bo21bo
3b2o15b2o3bo$6bo10bo12bob2o9b2obo7bobo6b2o3bobo21bobo3b2o$3b3o16b2o8bo
2b3ob3o2bo8b5o5b2o3bo25bo3b2o$3bo8b2o8bobo4bo17bo4b2o3b2o17b3o5b3o$12b
o4b2o5bo5bo15bo5b2o3b2o17b4o3b4o$13bo3b2o5b2o$14bo53b2o5bo2bo5bo2bo5b
2o$12bob5o14b2o7b2o11bo11bo2bo6bo7bo6bo2bo$11bobo4bo14b2o7b2o2b2o5b2o
8b2o3bobo3b3o9b3o3bobo$11bobo2bo30bo15bo5bo23bo$12bo3b2o27bo6bo12bo$
45b5o11b5o$30b3o16bo3bo2bo4bo12b2o11b2o$28b2o13b4o8b2o7b4o6b2o11b2o$
29b4o10bo2bo17bo2bo!
Now that's quite confusing....MathAndCode wrote: ↑May 13th, 2021, 4:49 pmWhat's the smallest still life where the smallest (including tied for smallest) (by population) predecessor contains at least one glider? Are there any still lives for which the smallest (again including tied for smallest) predecessor consists of only gliders?
Code: Select all
x = 20, y = 5, rule = B3/S23
4bo8b3o$3o12bo$2bo11bo2b2o$bo15bobo$17bo!
MathAndCode wrote: ↑May 13th, 2021, 4:49 pmWhat's the smallest still life where the smallest (including tied for smallest) (by population) predecessor contains at least one glider? Are there any still lives for which the smallest (again including tied for smallest) predecessor consists of only gliders?
Neither of those qualify, because a block's minimum predecessor is 3 bits, while these are 6 and 10 respectively - they are not minimal.
Semi-cenark is a variant of semi-Snark that produces a century output for every two input gliders.ihatecorderships wrote: ↑May 14th, 2021, 10:42 amWhats the difference between a semi-snark and a semi-cenark?
Code: Select all
x = 18, y = 31, rule = WWLife
A$3.A$A2.A$2.3A$2.3A$.A2.A$.A.A$.3A2$10.C17$17.D$16.D3$4.C!
Code: Select all
x = 21, y = 21, rule = LifeColorful
11.E$10.3E$10.E.2E$13.E4$2.2B$.2B$2B$.2B15.2D$19.2D$18.2D$17.2D4$7.C$
7.2C.C$8.3C$9.C!
It's pretty easy to answer this kind of question, just by running the pattern in LifeViewer until the gliders come out, then editing the gliders to turn them 180 degrees on the same lane. Run the reversed gliders through the pattern. If they don't hit anything, the lanes are transparent.ColorfulGabrielsp138 wrote: ↑May 14th, 2021, 10:22 pmAre these gliders on transparent lanes? If not, How should I make them on transparent lanes?Code: Select all
x = 18, y = 31, rule = WWLife A$3.A$A2.A$2.3A$2.3A$.A2.A$.A.A$.3A2$10.C17$17.D$16.D3$4.C!
Code: Select all
x = 82, y = 78, rule = LifeSuper
5.B$5.2B$5.3B$5.4B$6.4B$7.4B$8.4B$9.4B$10.4B$11.4B$12.4B$13.4B2.O$14.
4B4.O$15.4BO2.O$16.4B.3O$17.4B3O31.B$18.2BOB.O9.O20.2B$19.BOBO8.3O19.
3B$20.3OB6.O21.4B$21.4B5.2O19.4B$22.4B24.4B$23.4B22.4B$24.4B20.4B$25.
4B18.4B$26.4B16.4B$27.4B14.4B$28.4B12.4B$29.4B10.4B$30.4B8.4B$10.2O
19.4B6.4B$10.2O20.4B4.4B$33.4B2.4B$34.8B$35.6B$36.4B$35.6B$34.8B$33.
4B2.4B$32.4B4.4B$25.2O4.4B6.4B$25.2O3.4B8.4B$29.4B10.4B$28.4B12.4B$
27.4B14.4B$26.4B16.4B$25.4B18.4B$24.4B20.4B$23.4B22.4B$22.4B24.4B$21.
4B26.4B$20.4B28.4B$19.4B30.3B$18.4B32.2B$17.4B34.B$16.4B16$2A$.2A$A3$
79.2A$79.A.A$79.A!
So this means that the first glider is on the transparent lane but the second is not?dvgrn wrote: ↑May 15th, 2021, 10:04 amIt's pretty easy to answer this kind of question, just by running the pattern in LifeViewer until the gliders come out, then editing the gliders to turn them 180 degrees on the same lane. Run the reversed gliders through the pattern. If they don't hit anything, the lanes are transparent.ColorfulGabrielsp138 wrote: ↑May 14th, 2021, 10:22 pmAre these gliders on transparent lanes? If not, How should I make them on transparent lanes?Code: Select all
x = 18, y = 31, rule = WWLife A$3.A$A2.A$2.3A$2.3A$.A2.A$.A.A$.3A2$10.C17$17.D$16.D3$4.C!
In this case, what you have is the WWLife equivalent of a standard NW31 Herschel-to-2-glider converter, which does indeed include two transparent-lane outputs (plus one more optional output that's not transparent).
Code: Select all
x = 82, y = 78, rule = LifeSuper 5.B$5.2B$5.3B$5.4B$6.4B$7.4B$8.4B$9.4B$10.4B$11.4B$12.4B$13.4B2.O$14. 4B4.O$15.4BO2.O$16.4B.3O$17.4B3O31.B$18.2BOB.O9.O20.2B$19.BOBO8.3O19. 3B$20.3OB6.O21.4B$21.4B5.2O19.4B$22.4B24.4B$23.4B22.4B$24.4B20.4B$25. 4B18.4B$26.4B16.4B$27.4B14.4B$28.4B12.4B$29.4B10.4B$30.4B8.4B$10.2O 19.4B6.4B$10.2O20.4B4.4B$33.4B2.4B$34.8B$35.6B$36.4B$35.6B$34.8B$33. 4B2.4B$32.4B4.4B$25.2O4.4B6.4B$25.2O3.4B8.4B$29.4B10.4B$28.4B12.4B$ 27.4B14.4B$26.4B16.4B$25.4B18.4B$24.4B20.4B$23.4B22.4B$22.4B24.4B$21. 4B26.4B$20.4B28.4B$19.4B30.3B$18.4B32.2B$17.4B34.B$16.4B16$2A$.2A$A3$ 79.2A$79.A.A$79.A!
Code: Select all
x = 21, y = 21, rule = LifeColorful
11.E$10.3E$10.E.2E$13.E4$2.2B$.2B$2B$.2B15.2D$19.2D$18.2D$17.2D4$7.C$
7.2C.C$8.3C$9.C!
Yes, in your WWLife version of the pattern, the FNG is on a transparent lane, but your duoplet catalyst gets in the way of the SNG transparent lane.ColorfulGabrielsp138 wrote: ↑May 16th, 2021, 6:06 amSo this means that the first glider is on the transparent lane but the second is not?
I tried your way, and found that the first glider passed safely (if the boat was not present) and the second glider crashed and formed a boat.
Code: Select all
x = 82, y = 67, rule = WWLife
19.A$22.A$19.A2.A$21.3A$21.3A$20.A2.A9.A$20.A.A8.3A$20.3A7.A$30.2A10$
10.2A$10.2A9$25.2A$25.2A30$2A$.2A$A3$79.2A$79.A.A$79.A!
Code: Select all
x = 7, y = 6, rule = B3/S23
5bo$b2obobo$b2ob2o2$ob3obo$2obob2o!
It's a pseudo still life, because it can be partitioned (by islands) into two stable patterns:Entity Valkyrie 2 wrote: ↑May 17th, 2021, 4:00 amWhat is this 19-bit still life? (Is this a strict or pseudo still life?)Code: Select all
x = 7, y = 6, rule = B3/S23 5bo$b2obobo$b2ob2o2$ob3obo$2obob2o!
Code: Select all
x = 36, y = 6, rule = B3/S23
5bo28bo$b2obobo12b2o12bobo$b2ob2o13b2o12b2o2$ob3obo11bob3obo$2obob2o
11b2obob2o!
There is no canonical way to split it. The only requirement for a pseudo still life is that it can be split.
Code: Select all
x = 4, y = 7, rule = B3/S23Super
2M$M$.M$2M$M$.3M$3.M!
It is called eater head siamese snake.
Perhaps you are looking for the apgsearch - haul requests thread?ihatecorderships wrote: ↑May 18th, 2021, 4:25 pmVery silly question: Where is the rules I want searched in Catagolue thread? Thats not the exact name but you get the idea.
Ah yes, thanks.silversmith wrote: ↑May 18th, 2021, 7:49 pmPerhaps you are looking for the apgsearch - haul requests thread?ihatecorderships wrote: ↑May 18th, 2021, 4:25 pmVery silly question: Where is the rules I want searched in Catagolue thread? Thats not the exact name but you get the idea.