so half a hour time thirty… equals to 15 hours for a forum game. That’s… a lot.
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And I have to write what occured in each playthrough. And then summarize that. I also need to randomly determine the possible interactions. Then type up the summary using updated biome information, population information using player interactions, and what went extinct. And as you see recently, I split the generation step from the turn summary for better turn around time. And then after that, after everyone has chosen their organisms and their names, I determine the names for the other AI organisms. Rinse and Repeat…
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So that’s like extra 5-10 hours?
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At least, since I am a slow typer.
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So it takes atleast 24 hours to write a single round, right?
That is probably the highest time per round any gamemaster has ever reached on this forum…
1 Like
@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning
Here are all the possible player interactions for Turn 3:
- gamblerobacter archenea (Mutant 4) (no)
- gamblerokoinos neomesonea (Ecotype 22) – JustaDumbThriver (no)
- Gamblerokoinos cytoplasmus (Ecotype 23) (no)
- Gamblerokoinos phobos (Ecotype 24) (yes – [3] Thrifostrogon cytosolum, Thrifostrogon thious, Obscuratum duom).
- Gamblerokoinos receptus (Ecotype 26) (yes – [11] Obscuratum rusticus, Thrivium plasmsus, Garlabi Tao, Tao cannibali, Fostrogonpo mucous, Thrivium phytus, gamblerokoinos neomesonea, Fostrogonpo perforates, Obscuratum rusticus, Thrivum obscuratum, Phytus thylakoidus).
- Thrivium phytus (Mutant 6) – aah31415 (no)
- Phytus orthorotus (Ecotype 19) (yes – [12] gamblerobacter archenea, Thrivum Fostrogonpo, Phytus thylakoidus, Ferrus swticharoous, Thrifostrogon cytosolum, gamblerokoinos neomesonea, Phytus pararotus, Garlabio Upsilon, Thrifostrogon thermium, Plasmsus cellulosus, Fostrogon chrysos, Fostrogonpo perforatus).
- Phytus thylakoidus (Ecotype 20) (yes – [28] gamblerobacter archenea, gamblerokoinos neomesonea, Gamblerokoinos cytoplasmus, Gamblerokoinos phobos, Gamblerokoinos receptus, Phytus orthorotus, Phytus pararotus, Thrivium plasmsus, Plasmsus cellulosus, Plasmsus cytoplasma, Thrivium Metallicum, Ferrus swticharoous, Ferrus flagllus, Thrivum obscuratum, Obscuratum hydrogenasium, Obscuratum rusticus, Obscuratum duom, Thrivum Fostrogonpo, Fostrogon chrysos, Fostrogonpo mucous, Thrifostrogon cytosolum, Thrifostrogon thermium, Thrifostrogon thious, Garlabi Tao, Tao inversium, Tao cannibali, Garlabi Upsilon, Garlabio Upsilon).
- Phytus pararotus (Ecotype 21) (no)
- Thrivium plasmsus (Mutant 5) (no)
- Plasmsus cellulosus (Ecotype 17) (yes – [1] Obscuratum hydrogenasium)
- Plasmsus cytoplasma (Ecotype 18) (no)
- Thrivum Ferrus (Ecotype 13) (no)
- Thrivium Metallicum (Subspecies 23) – Cat Squared (no)
- Ferrus swticharoous (Subspecies 24) (no)
- Ferrus flagllus (Subspecies 25) (yes – [22] gamblerokoinos neomesonea, Gamblerokoinos phobos, Gamblerokoinos receptus, Phytus orthorotus, Phytus pararotus, Plasmsus cellulosus, Thrivium Metallicum, Ferrus swticharoous, Ferrus flagllus, Thrivum obscuratum, Obscuratum hydrogenasium, Obscuratum rusticus, Obscuratum duom, Thrivum Fostrogonpo, Fostrogon chrysos, Fostrogonpo mucous, Thrifostrogon cytosolum, Thrifostrogon thermium, Thrifostrogon thious, Garlabi Tao, Tao cannibali, Garlabi Upsilon).
- Thrivum obscuratum (Ecotype 15) (yes – [4] Obscuratum focusum, Tao cannibali, Thrivium phytus, Phytus orthorotus).
- Obscuratum focusum (Subspecies 19) (yes – [2] Obscuratum rusticus, Thrifostrogon thermium).
- Obscuratum hydrogenasium (Subspecies 20) (yes – [4] Thrivum Fostrogonpo, Obscuratum rusticus, Phytus thylakoidus, Plasmsus cellulosus).
- Obscuratum rusticus (Subspecies 21) (no)
- Obscuratum duom (Subspecies 22) (no)
- Thrivum Fostrogonpo (Ecotype 4) (no)
- Fostrogon chrysos (Subspecies 14) – Cha (yes – [13] Phytus thylakoidus, Thrivum Fostrogonpo, Thrivum Ferrus, Obscuratum duom, Fostrogonpo mucous, Phytus pararotus, gamblerobacter archenea, Plasmsus cellulosus, Tao cannibali, Plasmsus cytoplasma, Thrifostrogon cytosolum, Thrifostrogon thious, Gamblerokoinos phobos).
- Fostrogonpo mucous (Subspecies 16) (yes – [27] gamblerobacter archenea, gamblerokoinos neomesonea, Gamblerokoinos cytoplasmus, Gamblerokoinos receptus, Phytus thylakoidus, Phytus pararotus, Thrivium plasmsus, Plasmsus cellulosus, Plasmsus cytoplasma, Thrivum Ferrus, Thrivium Metallicum, Ferrus swticharoous, Ferrus flagllus, Thrivum obscuratum, Obscuratum focusum, Obscuratum hydrogenasium, Obscuratum rusticus, Obscuratum duom, Thrivum Fostrogonpo, Fostrogon chrysos, Fostrogonpo perforatus, Thrifostrogon thermium, Thrifostrogon thious, Garlabi Tao, Tao inversium, Tao cannibali, Garlabio Upsilon).
- Fostrogonpo perforatus (Subspecies 18) (yes – [11] Garlabi Upsilon, Gamblerokoinos receptus, Fostrogon chrysos, Obscuratum focusum, Thrivium phytus, Thrifostrogon cytosolum, Plasmsus cytoplasma, gamblerokoinos neomesonea, Obscuratum duom, Thrivium Metallicum, Gamblerokoinos phobos).
- Thrivium Fostrogon (Derived from Mutant 4) (yes – [8] gamblerobacter archenea, Gamblerokoinos phobos, Thrivium Metallicum, Phytus thylakoidus, Tao inversium, Ferrus flagllus, Thrifostrogon cytosolum, Obscuratum focusum).
- Thrifostrogon cytosolum (Subspecies 9) (no)
- Thrifostrogon thermium (Subspecies 10) (no)
- Thrifostrogon thious (Subspecies 11) (yes – [8] Fostrogonpo perforates, Tao cannibali, Obscuratum rusticus, Thrivium phytus, Ferrus swticharoous, gamblerobacter archenea, Thrivium Metallicum, Fostrogonpo mucous).
- Garlabi Tao (Derived from Mutant 4) (yes – [6] Plasmsus cytoplasma, Thrivium Metallicum, Thrifostrogon thious, Phytus thylakoidus, Ferrus swticharoous, Obscuratum rusticus).
- Tao inversium (Subspecies 6) (no)
- Tao cannibali (Subspecies 8) (no)
- Garlabi Upsilon (Ecotype 9) (no)
- Garlabio Upsilon (Subspecies 2) – doomlightning (no)
2 Likes
I have no encounters
While #8 and #24 have like 10 atleast…
2 Likes
@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning
Bad news, guys. Previous save files are not compatible with 0.8.1.0. Also, the World Seeds have changed, so the same seeds prior to 0.8.1.0 gave different worlds.
Do you want me to use the same World Seed, despite the world generation changing?
- Yes, use the same World Seed.
- No, use a different World Seed.
0
voters
Since the Thrive World is literally changing, do you want to keep your organisms?
- Yes. Keep my current organism.
- No. Generate organisms again from scratch.
0
voters
Also, only those playing the FG can vote.
2 Likes
Let’s hope the actual seed looks the same…
2 Likes
I tested this yesterday night, when using the same seed as the current world I am using for testing the organisms in this FG. The same seed for the current world gave a completely different world; hilariously, I spawned in a Tidepool right next to a Banana Biome.
1 Like
How many hours have been lost due to the version change?
About 5 hours have been lost. So, not a lot of time. Also, did you vote in the polls above?
Yes, I did. Shouldn’t it be visible?
I don’t see any votes on my side. Wait. Now I do, after refreshing.
1 Like
Yeah, it sometimes acts like that…
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@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning
Since there is a Banana Biome, do you want the FG to start there for the next turn?
- Yes! Banana Biome!
- No. I like the Tidepool better.
0
voters
Banana biome will cease to exist after some time anyways…
1 Like
@JustaDumbThriver @aah31415 @CatSquared @Cha @doomlightning
Turn 3
Turn 3 Summary:
575 Million Years after the formation of Treerilia, radiation levels on the surface began to increase. The Magnetic poles were beginning to once again switch polarity, allowing the surface of the fledgling world to be bathed in UV radiation.
However, that was not the only thing that changed. The incessant rainfall had continued for millions of years, deepening the oceans. This exerted higher pressure on the organisms that inhabited the primordial oceans.
And a new substance, Oxygen, was beginning to change the atmosphere. Some new organisms began to use this byproduct of oxygenic photosynthesis to power Oxidative Phosphorylation. The increase in this relatively reactive gas started to slowly cause problems for those organisms who did not have tolerance for it.
As alarming as this would be for the first organisms to evolve in the Phyade I system, it is not the most dire situation. That would be streaks of light in the nascent Treerilian sky. As those streaks came closer, they exploded in a deafening airburst explosions. Some larger Asteroids made it all the way to surface, and produced craters in explosion even more terrifying than those in the sky. Yet these were just pieces of a larger world, looming in the distance beyond the zenith of the horizon.
A world the size of Dwarf Planet Pluto, but composed entirely of solid rock and some iron, had strayed too close to Treerilia-Xanrillon binary. It was now on a collision course with the parent body Treerilia. The delicate waltz of gravity had tugged this world away from its original orbit in the Outer parts of the Phade I System. Now laid bare of its icy volatiles, this Pluto-sized world was plunging closer and closer to the inevitability of its demise. The ephemeral existence of this zhatkit world became apocalypse – strewn into a ring of debris due to reaching its Roche limit.
This former world, now a colony of an indeterminate order of meteors of various sizes, began to rain down onto the surface of Treerilia. This deadly gossamer ring of rock struck the world in a deluge of fire, getting rid of the feeble oxygen collected. Many members of this brief belated terror were thrown in various directions by Xanrillon, itself scarred and peppered by the ordeal.
Life, if any of it still existed, would go on to live in a new world. One where the deepest, darkest crevices, and the haunting natural towers beneath the seas, bubbled up glowing greenish rocks. Pulsating radiation never before witnessed on this world, alluring to the unsuspecting organisms, like sirens beckoning the lost…
Will life thrive, again?
Surviving Players:
JustaDumbThriver
Name: gamblerokoinos neomesonea (Ecotype 22)
Generation: 5
Population: 1 +5 +4 +2 +3 +2 +5 +60 = 82
Color: #ffffffff; RGB: 255,255,255
Behavior:
Aggression: 100, Opportunism: 100, Fear: 100, Activity: 100, Focus: 100, Cannibalism: 0
Membrane Type: Single, Membrane Rigidity: -0.20
Base Speed: 0.25, Base Rotation Speed: 1000, Base Hex Size: 1.0
Organelles: Cytoplasm, Proteorhodopsin
Organelle Reproduction Order: 1) Cytoplasm (0,0), 2) Proteorhodopsin (1,0)
Organelle Position: 1) (0,0), 2) (1,0)
Organelles Rotation Position: 1) 1, 2) 2
aah31415
Name: Thrivium phytus (Mutant 6)
Generation: 5
Population: 76 +5 +2 +12 +7 +60 = 182
Color: #ffffffff; RGB: 255,255,255
Behavior:
Aggression: 100, Opportunism: 100, Fear: 100, Activity: 100, Focus: 100, Cannibalism: 0
Membrane Type: Single, Membrane Rigidity: 0
Base Speed: 0.41, Base Rotation Speed: 1000, Base Hex Size: 1.0
Organelles: Cytoplasm, Thylakoids
Organelle Reproduction Order: 1) Cytoplasm (0,0), 2) Thylakoids (-1,0)
Organelle Position: 1) (0,0), 2) (-1,0)
Organelles Rotation Position: 1) 1, 2) 6
Cat Squared
Name: Thrivium Metallicum (Subspecies 23)
Generation: 5
Population: 1 +2 +3 +2 +5 +7 +7 +60 = 87
Color: #ffffffff; RGB: 255,255,255
Behavior:
Aggression: 100, Opportunism: 100, Fear: 100, Activity: 100, Focus: 0, Cannibalism: 0
Membrane Type: Single, Membrane Rigidity: 0
Base Speed: 0.35, Base Rotation Speed: 1000, Base Hex Size: 0.5
Organelles: Cytoplasm
Organelle Reproduction Order: 1) Cytoplasm (0,0)
Organelle Position: 1) (0,0)
Organelles Rotation Position: 1) 1
Cha
Name: Fostrogon chrysos (Subspecies 14)
Generation: 5
Population: 1 +4 +5 +2 +3 +2 +5 +60 -10 = 72
Color: #ffffffff; RGB: 255,255,255
Behavior:
Aggression: 100, Opportunism: 100, Fear: 100, Activity: 100, Focus: 100, Cannibalism: 0
Membrane Type: Single, Membrane Rigidity: 0
Base Speed: 0.32, Base Rotation Speed: 647, Base Hex Size: 2.0
Organelles: Cytoplasm, Proteorhodopsin, Flagella (standard length), Chemoreceptor (standard glucose)
Organelle Reproduction Order: 1) Cytoplasm (0,0), 2) Proteorhodopsin (1,0), 3) Flagella (1,-1), Chemoreceptor (2,-2)
Organelle Position: 1) (0,0), 2) (1,0), 3) (1,-1), 4) (2,-2)
Organelles Rotation Position: 1) 1, 2) 2, 3) 5, 4) 4
doomlightning
Name: Garlabio Upsilon (Subspecies 2)
Generation: 5
Population: 1 +5 +2 +2 +60 = 70
Color: #ffffffff; RGB: 255,255,255
Behavior:
Aggression: 100, Opportunism: 160, Fear: 100, Activity: 100, Focus: 100, Cannibalism: 0
Membrane Type: Single, Membrane Rigidity: 0
Base Speed: 0.23, Base Rotation Speed: 1000, Base Hex Size: 1.0
Organelles: Toxisome, Proteorhodopsin
Organelle Reproduction Order: 1) Toxisome (0,0), 2) Proteorhodopsin (1,0)
Organelle Position: 1) (0,0), 2) (1,0)
Organelles Rotation Position: 1) 6, 2) 2
Extinct:
Basically everything else.
New World Map (same World Seed) - 0.8.1.1:
Inhabited Patches:
Cablevenian Tidepool
Players: aah31415, Cat Squared, Cha, and doomlightning.
Biome: Tidepool
0-10m below sea level
Physical Conditions
Temperature: 23 degrees Celsius, Pressure: 150 kPa, Light: 100% lux (100% lux at noon)
Atmospheric Gases
Oxygen: 0%, Nitrogen: 60.29%, Carbon Dioxide: 14.47%, Other Gases: 25.2%
Compounds
Hydrogen Sulfide: 0%, Ammonia: 16%, Glucose: 5%, Phosphate: 20.006%, Iron: 2.401%, Radiation: 0%
Banana Biome
Players: JustaDumbThriver
Biome: Coastal
0-200m below sea level
Physical Conditions
Temperature: 17 degrees Celsius, Pressure: 1082 kPa, Light: 100% lux (100% lux at noon)
Atmospheric Gases
Oxygen: 0%, Nitrogen: 59.97%, Carbon Dioxide: 13.8%, Other Gases: 26.2%
Compounds5
Hydrogen Sulfide: 0, Ammonia: 10.8%, Glucose: 4.5%, Phosphate: 13.509%, Iron: 0.301%, Radiation: 0%
Possible interactions:
- JustaDumbThriver (none - different biome)
- aah31415 (yes - [1] doomlightning)
- Cat Squared (yes - [2] Cha and aah31415)
- Cha (yes - [1] aah31415)
- doomlightning (no)
2 Likes
How will tolerances work like?
1 Like
Like everything else in this FG, it will change by random chance.
Also, I am thinking of mixing things up with the rounds by asking questions for everyone to answer in order to make it more engaging.