tag:blogger.com,1999:blog-67444685901910710182024-03-13T16:16:56.994-04:00The RealmRisen Angel's Creatures blog, dedicated to the various ways the games can be played, altered, and sometimes completely broken.Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.comBlogger155125tag:blogger.com,1999:blog-6744468590191071018.post-43515913070935670112024-02-18T17:44:00.001-05:002024-02-18T17:44:23.795-05:00Not Out for the Count Yet<p>I haven't really tried to mess with RAS since the debacle over them getting stupid for no apparent reason, mostly out of lack of will and partially out of lack of knowledge. Considering the original 2017s also had a similar problem, my best guesses are either the CFF Fullness Lobe or the wide variety of instincts RAS possesses messing with their decision making process somehow. Or maybe it's just one of my regularly used agents not being as creature-friendly as I thought it was. </p><p>But after a while of mulling it over, I don't think I'm willing to give up Creatures entirely over it. There's other projects I could possibly pursue in the meantime. </p><p>I still have my attempts at Gizmo-based and CFE-based RAS genomes lying around. If the issue lies with the 2017 base, there's two other options that might have a higher chance of success right there. In particular, there's the idea I had right at the beginning, which was to start with a CFE base and fix as many issues as I could while still maintaining compatibility. Though I'd be focusing on my personal bugbears, which are mostly that base CFEs eat too much, breed too much, and can suffer from irritating lactate-based mutations killing their muscles. </p><p>I've had a particular thought about remaking the <a href="https://grendelman.blogspot.com/2023/12/a-look-at-enhanced-chichi-norn.html">Enhanced ChiChi genome</a> with a CFE base, implementing everything they tried to do in a manner that actually works. I've especially thought about doing this with a CFE Grendel base instead of a ChiChi base, because in all honesty I'm really tired of working with norns and want to start messing around with my preferred species. </p><p>And if these Enhanced CFE Grendels work out, I'll have a nice base for future grendel breeds. Then maybe I'll think about taking another crack at base norn and ettin genomes. </p><p>Stay tuned, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-81955682350070993662024-02-13T16:49:00.002-05:002024-02-13T16:49:59.433-05:00A New Base Genome: Discouragement<p> Right when I thought I was ready to go ahead with making the rest of the RAS genomes, I get a testing report stating something to the effect that the latest test release has problems feeding themselves (more specifically, that they have a tendency to go to the brink, but starvation deaths are rare). </p><p>So I figured that was likely an issue with RAS's ability to learn from the Disappointment stim. Considering I've seen something to that effect even in my own testing, I figured it was probably best to revert that change. </p><p>Not long after that, I hit on the idea of privately journaling a wolfling run world, inspired by <a href="https://naturingnurturing.blogspot.com/2017/11/on-creatures-journalling.html">an old post of Aiko's</a>. I figured it'd be a nice break between finishing the RAS ChiChi genome and moving onto the next RAS project. For the run, I decided to make a quick, RAS-based Grendel genome; in the process of making it, I found that the eat stims in 2017-based genomes have the secondary hunger stim silenced. I figured that might also have something to do with the earlier observation, and changed that for this grendel genome. </p><p>With the world set up, I hatched a batch of grendels and went...only for the population to forget how to eat and start starving to death en masse before making it past gen 1, in a manner much more akin to my observations about vanilla creatures than anything CFE-based or beyond. This was in C1toDS and I had just ripped out the original elevators and replaced them with elevines, so I figured maybe that had something to do with it.</p><p>So I restart the run in a mostly-vanilla DS world, with some food sources added to the hub and workshop. Once again, the mostly first-gen population forgot how to eat and started starving to death; specifically, their hunger for fat was consistently getting maxed out, according to the medical monitor. So it was definitely something wrong with the genome. </p><p>My number 1 goal with RAS was to create creatures who can take care of themselves pretty well, so that they're interesting to watch. If they're having this much trouble surviving in a mostly vanilla DS world, something is very, VERY wrong. </p><p>But...I'm at an impasse here. I have no idea what's causing this, nor any idea on how to fix it. I do know it was a problem extending back to the original 2017 genome; it was why they only had one instinct relating to each type of hunger, and probably why the aforementioned eat stim change was made as well. So was it just because my base was flawed?</p><p>I don't know. But what I do know that this has basically shot any motivation I had to keep playing Creatures in the foot, at least for right now. It feels like every time I just want to play the game to relax, this kind of s-argh- happens and just makes me resent the game (this isn't even the first time I've had mass stupefying happening to CFE-based creatures).<br /></p><p>So...this is to say that progress on RAS is being halted for the time being. I just don't have the knowledge necessary to get past this brick wall, nor the patience to keep bashing my head into it. </p><p>And as much as I'd like to keep doing things for Creatures in the meantime, chances are that I'm not and this blog's going to fall back into silence once more, unless I have some kind of epiphany. <br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com1tag:blogger.com,1999:blog-6744468590191071018.post-82908119074609956322024-01-31T21:05:00.004-05:002024-01-31T21:12:05.817-05:00A New Base Genome: Tentative Conversion Plans<p> I've been taking somewhat of a break from Creatures in the days since finishing the RAS ChiChi genome. I guess my brain's tired of thinking of dev and wants to do other things for a while. But nevertheless I'm still having thoughts about where to go from here and what to tackle next. </p><p>In <a href="http://grendelman.blogspot.com/2024/01/a-new-base-genome-ras-chichi-breakdown.html#more">my breakdown of the final RAS ChiChi genome</a>, I mentioned wanting to do a full set of RAS conversions for the official breeds. In this time of indecisiveness, I figured I might as well talk about what my plans would be for each breed. Maybe in the process I'll figure out where to go from here. </p><p>First and foremost: <a href="http://grendelman.blogspot.com/2023/12/a-new-base-genome-essence-of-ettins.html">when I first spoke about what my plans for RAS ettins were</a>, I mentioned I'd be basing them on the RAS ChiChi genome as opposed to porting all the RAS changes onto the 2017 Ettin genome. Well, it's not just the ettins I'd do that for; it's my plan for all of the official breeds. It might be a bit more work, but in this way I can design the RAS versions as I see fit, avoid some of the pitfalls the original genomes made, and perhaps give them their own unique flair. </p><p> For the former mall breeds in particular (Bondi Norns, Hardman Norns, Treehugger Norns, Toxic Norns, and Banshee Grendels), I'd also put special focus on replicating their behavior from their respective chapters in the DS story and making sure they can make use out of all the agents in their respective packs. <br /></p><p>As for each breed individually....<span></span></p><a name='more'></a><p></p><ul style="text-align: left;"><li>Bruin, Bengal, and Civet Norns: Believe it or not, the C3 breeds have a slightly different genome to the ChiChi Norns. Their immune systems are considerably weaker than ChiChi Norns, they have a few different poses, and they lack instincts to use portals (since those don't exist in C3 standalone). My plan for these...would basically just be backporting these differences to the RAS ChiChi genome. No really unique plans here, though I'm considering reducing their desire to play with machinery in favor of toys and tools (what the powerups in C3 standalone are called). </li><ul><li>Interestingly, Civet Norns have one slight difference from Bruins and Bengals: the weight on their Happy Expression gene is slightly higher. I'm not sure if that was intentional or not, but I figure that's also worth replicating in the RAS version.</li></ul><li>Ettins: To quote the aforementioned post about ettins: "Basically, I want my ettins to build upon vanilla ettin behavior. I'd
like them to be independent sorts, who wander the ship doing their own
thing and only really seeking each other out to breed. They still steal
gadgets as the vanilla ettins, but they also enjoy playing with the
gadgets they hoard and also with machinery they happen to find. I'm also
thinking they'd enjoy travel for travel's sake even if they're not
seeking anything in particular. And while they wouldn't be as cowardly
as vanilla ettins, they're still very wary of the other two species."</li><ul><li>By "only seeking each other out to breed," I'm planning on having ettins not be susceptible to loneliness most of the time. Instead, ettins have the sexual cycle run through both males and females (where in norns the females have a cycle while the males just wait for the females to initiate things). It's only when they're fertile that they start to feel lonely, and from there will either seek out other ettins or make their way back to the ettin home to breed. </li><ul><li>Ettins can only breed upon reaching adulthood, though if possible I'd like them to be able to kisspop naturally upon reaching youth. </li><li>Since ettins spook easily, their fear overwhelmsion organ won't overwhelm sex drive (as in the original 2017 genome, RAS creatures don't have their hunger drives overwhelmed by fear). <br /></li></ul><li>Ettins also almost never get angry, similar to their vanilla counterparts. They can still feel angry and have instincts related to it, but the situations where they'd get angry as opposed to scared are very uncommon. </li><li>Ettins are not particularly inclined to violence. They will still lash out if angry, but hitting other creatures makes them feel afraid (and this is something they can actually learn from, unlike vanilla ettins). <br /></li><li>Ettins don't have a proper fight-or-flight organ like norns and grendels, where they'd feel braver if other members of the same species are around or more cowardly if they're outnumbered. Being mostly solitary ettins aren't particularly comforted by other ettins, and thus will always prefer to flee. </li><li>Ettins live about as long as norns do, but they have a quicker start. This means that they age up to adulthood quicker, and a lot of instincts that come in at adolescent or later in norns come in at childhood in ettins. </li><li>Ettins generally prefer playing with gadgets or machinery (or stealing them) over other avenues of entertainment. The instinct to play with toys is weakened and they have no instinct to mess with bugs or critters at all. They also like using doors when bored, as opposed to just when crowded like in norns. </li><li>Whether or not they'll have instincts to use portals is still on the table. On one hand I do feel it makes some sense for them, but on the other hand they didn't exist in C3 standalone (and while I've yet to check out Natsue or any other project that brings the Warp back online, I definitely remember people not liking species other than norns coming through the warp back in the day). </li></ul><li>Grendels: Grendels get special treatment from me, not just for being my favored species and thus their RAS versions are going to get by far the most use out of me personally, but also to account for different attitudes regarding grendels. They get two RAS versions, which I'm calling Type A and Type B.<br /></li><ul><li>Type A act like how you'd expect grendels to act. They're cranky and prone to beating up norns and ettins as well as gadget and machinery, like to steal eggs, etc. However, they're not actively predatory like the vanilla grendels (for example, they aren't angered by the smell of norns in and of itself like how the norns are scared of grendels), moreso just defensive and territorial. If they're overly hungry or crowded, that's when they get mad. I don't like the "Always Chaotic Evil" trope in general and I definitely don't like shoehorning grendels into it by virtue of being grendels. Plus, doing it this way makes more sense from a realism standpoint and gives people who like the challenge of taming grendels to live alongside their norns a better success rate.</li><ul><li>Type A grendels are a bit like the C2 boney grendels in that their response to being hit is to get scared and retreat rather than fight back. These grendels are not out for norn blood most of the time; they're hungry and/or crowded and want these intruders off their turf, and will back off if they bite off more than they can chew. </li><li>Type A grendels have a lifestyle I'd call "live fast; die young." They are the shortest lived of the RAS genomes and age the fastest. They also breed faster than the other RAS genomes, perhaps the fastest of them all (if still not quite at the pace of a pre-CFF genome). That being said, their sexual cycles work like how it does in norns as opposed to how it does in ettins.</li><ul><li>As with ettins, grendels can't breed until adulthood, though they can kisspop starting from youth.<br /></li></ul><li>Type A grendels aren't as solitary as ettins and will seek each other out sometimes, but they still aren't incredibly social. </li><li>Being natives of the Jungle Terrarium, Type A grendels can safely play with pests and beasts and like doing so, perhaps favoring interacting with the nastiest parts of nature over hitting machines and gadgets. </li><li>Type A grendels are also generalist omnivores, having equally strong instincts to consume any of seeds, fruit, food, bugs, and/or critters. They get more nutrition out of animal meat than norns and ettins do. <br /></li><li>Type A grendels have no or reduced instinct to use teleporters or portals.</li><li>Type A grendels have a stronger immune system than norns, requiring less glucose to manufacture antibodies, producing more antibodies in response to antigens, and taking less damage from antigens and other toxins as a whole. </li><ul><li>They're resistant to ATP Decoupler and Cyanide (at least, these two toxins won't kill an otherwise healthy grendel on their own) and outright immune to Glycotoxin and Geddonase. </li><li>This also includes being more resistant to wounding than norns, getting hurt less by slaps and having their prostaglandin heal wounds faster. <br /></li></ul></ul><li>Type B is based on Type A, sharing their shorter life spans, stronger immune systems, and love of nature with their original counterparts. However, where Type A grendels are cranky and territorial, Type B grendels are friendly and generally social at around the level of norns. They also live longer and age slower than Type A grendels, but also breed slower. </li><ul><li>Type B grendels aren't scared of norns the same way norns are scared of grendels, but they are a little more on edge around norns than they'd be otherwise, which can lead to stronger fear or anger responses. </li><li>Type B grendels also prefer critters and bugs over beasts and pests and are hurt as expected by the latter two categories. </li><li>Though they act a little more norn-like, Type B grendels are still grendels. </li></ul></ul><li>Bondi Norns: RAS Bondi Norns are basically the norn version of the dodo. They're a breed that found themselves in a place with no predators or any real major threats to worry about, and as a result worry about very little. </li><ul><li>Like their vanilla counterparts they live longer and age slower, and are not susceptible to stress. </li><li>They also lack a fight-or-flight response, but are not scared of grendels, and in fact lack any response to grendels whatsoever. They're rarely angry or afraid, and their responses to both drives is generally friendly interaction with their fellow norns.</li><li>Their desire to play with gadgets or machinery is basically non existent, compensated with a desire to play with critters and bugs instead. </li><li>Also like vanilla Bondi Norns, they have strong instincts to eat critters and get more nutrition out of animal meat than other kinds of creatures except grendels. They generally do lean more towards carnivory than grendels, however. </li><li>They also retain the ability to hold their breath for longer periods of time, perhaps holding their breath for even longer than their vanilla counterparts (anywhere between five to ten minutes). That being said, they still aren't truly amphibious and will still drown if they stay underwater for too long.</li><li>Bondi Norns don't feel homesick when pregnant, though unlike vanilla Bondis they might still approach the Norn home when lonely. <br /></li></ul><li>Hardman Norns: RAS Hardman Norns are perhaps the official RAS conversion that diverges the most from their vanilla counterparts. They still maintain the original profile of a hardy grendel fighter, but the way they go about it is a little different. In fact, RAS Hardmen are more comparable to the Osiris Norns (a breed I inadvertently channeled when making the RAS ChiChi genome) than they are to vanilla Hardmen. </li><ul><li>Generally speaking, RAS Hardmen are more even tempered when there's no grendels around. They are more prone to getting into inter-species conflict than other RAS norn breeds, but they aren't angry all the time like vanilla Hardmen. </li><li>Younger Hardmen are still scared of grendels and prefer to retreat from grendels. They don't start getting angry and fighting grendels until adolescence. </li><li>Hardman Norns do retain their strong immune systems from their vanilla counterparts. While they aren't immune to any toxins like grendels are, their general immune response is even stronger than a grendel's, and they are also even more resistant to physical wounds. </li><ul><li>In particular, Hardmen have the ability to manufacture their own antihistamine rather than requiring it from an external source. <br /></li></ul><li>Hardman Norns retain their shortened lifespan from their vanilla counterparts, though they still live longer than either grendel type. They also breed somewhat faster than other norn breeds. </li><li>Like Type A grendels, Hardman Norns can interact with beasts and pests safely and even have instincts to do so. </li><li>They also share their diet with grendels, having instincts to eat many things and getting equal nutrition from them all. </li><li>Hardmen also favor the Jungle terrarium/Grendel home over the Norn terrarium/Norn home. <br /></li><li>In short: Hardman Norns have a lot more in common with Grendels than either species would like to admit. It's convergent evolution in action; similar pressures resulting in similar adaptations. </li></ul><li>Treehugger Norns: Vanilla Treehugger Norns...<a href="https://creaturescaves.com/forum.php?view=1&thread=3844">were not very well tested</a>. So while RAS Treehuggers are similar in many ways to their vanilla counterparts, they also have some key differences. </li><ul><li> First and foremost: RAS Treehuggers maintain their navigational instincts, unlike vanilla Treehuggers. However, they won't turn to using elevators or doors when crowded unlike most RAS breeds. Instead, they have considerably stronger instincts to use teleporters and portals, and these instincts kick in at an earlier lifestage.<br /></li><li>If Hardman Norns were convergent with grendels, Treehuggers are convergent with ettins. Both are generally solitary and rarely feel lonely or angry, and both lack a proper fight-or-flight response in favor of picking the flight option every time.</li><ul><li>Unlike ettins, who only feel lonely when ready to breed, Treehuggers are solitary up until breeding age, at which point they're more inclined to seek each other out (though they're still less social than other norns). <br /></li></ul><li>Also similar to ettins, Treehuggers feel afraid when they hit another creature. Unlike ettins, treehuggers have no instincts to tell them to lash out.<br /></li><li>Treehuggers start diverging more from ettins when it comes to their lifespan. They live a little longer and age a little slower than normal norns, similar to their vanilla counterparts. </li><li>Treehuggers are also more prone to stress than normal norns and have an overall weaker immune system. </li><li>Treehuggers favor interacting with nature and have little instinct to play with gadgets or machinery. </li><li>Like Bondi Norns Treehuggers don't feel homesick when pregnant. Also like Bondis, Treehuggers might return home for other reasons.<br /></li></ul><li>Toxic Norns: RAS Toxic Norns take a bit of inspiration from <a href="https://creaturescaves.com/downloads.php?section=Breeds&view=83">Malkin's Modified CFE Toxic Norns</a>. They're also more built around the idea of having a symbiotic relationship with bacteria than simply having an upside-down biochemistry. </li><ul><li>RAS Toxic Norns still break down toxins into helpful chemicals, to the point a heavily infected Toxic Norn lacks the need to eat. However, they aren't injured by antibodies or other cures; the risk instead comes indirectly, posing a threat to their colonies of bacteria.</li><li>Should a Toxic Norn not have any bacteria on them, they have a strong preference for eating detritus like vanilla Toxic Norns. However, they don't limit themselves to just that and will also eat normal food, as well as critters and bugs. </li><li>Toxic Norns can play with beasts, pests, and weeds safely and even have instincts to do so.</li><li>Toxic Norns are about as resistant to wounds as Type A grendels are. They do have a unique defensive response in that a sufficiently scared Toxic Norn will start coughing and sneezing in an attempt to fling their bacteria onto their attacker. <br /></li><li>They favor the Jungle Terrarium/Grendel home as their home, as opposed to the Norn terrarium/Norn home. However, unlike vanilla Toxic Norns they're wary of grendels.</li></ul><li>Magma Norns: Magma Norns are interesting. The idea behind the vanilla genome is that they'd favor warm areas since they get cold very easily and suffer more consequences for being cold. However, RAS creatures are like vanilla creatures in that they don't feel environmental heat based on CA (instead they feel hot/cold based on their stimuli, and some outside sources like the volcano in the Ettin desert, the chili peppers from the Hardman pack, etc.), so I'm not entirely sure how to translate the concept with that thought in mind. This is definitely a concept that the TWBs/TCBs are much better at executing.</li><ul><li>I have more or less decided that their adaptations are geared towards surviving an environment like the C2 volcano, as per their story. To that end, they're immune to Heavy Metals and Fever Toxin, and they're less prone to dehydrating due to hotness. </li><li>I'm also thinking that they call the Desert terrarium/Ettin home their home, and generally feel warmer around it and thus have an instinct to return home when cold in addition to the other reasons RAS creatures have to return home. </li></ul><li>Zebra, Astro, Harlequin, Fallow, and Siamese Norns: Change the appearance genes in the RAS ChiChi genome appropriately and call it a day. </li><ul><li>I am somewhat tempted to do something different for the Fallow Norns and Siamese Norns, as they were discovered independantly in the DS Story rather than being variants of the ChiChi Norns (granted, the Fallow Norns weren't so much discovered as they were recreated with ChiChi genetic material); alas, I don't have many ideas for either breed that wouldn't significantly overlap with one of the mall breeds (though I will say that I'd probably make the Siamese more like pampered pet cats). <br /></li><li>However, the Siamese Norn story mentions that they came in different colors, and there was even <a href="https://eem.foo/archive/downloads/c67f-extra-siamese-eggs-pack2-agents">an official download for colorful Siamese Norns</a> (and <a href="https://eem.foo/archive/downloads/4075-extra-siamese-eggs-pack1-agents">another one for Siamese Norns that use the mall breeds' genomes</a>, though that's more an aside). So even if I don't give the Siamese Norns a unique genome, I'd still like to provide RAS versions of the colorful variety. </li></ul><li>Banshee Grendels: As per their story, I'd base the RAS Banshee Grendel genome on the RAS Hardman Norn genome. Beyond that, unlike either variety of normal grendel RAS Banshee Grendels are actively predatory; they're angered by norns and will actively seek them out.</li><ul><li>Like their vanilla counterparts, Banshee Grendels only become truly vicious upon adulthood. They might be a bit cranky in a manner akin to normal grendels before then, though.<br /></li><li>Like RAS Hardman Norns, RAS Banshee Grendels aren't angry all the time if there aren't any norns around. <br /></li><li>Unlike young Hardman Norns, young Banshee Grendels aren't scared of norns; similar to type B grendels, they're only a little bit antsy around them.</li><li>Banshee Grendels have the same instincts to play with beasts and weeds that Hardman Norns and Type A grendels do, and they love eggs like normal grendels, but they also have a fascination with gadgets and machinery, even carrying them around in a manner akin to an ettin. </li><li>Banshee Grendels live longer than Type A grendels and around the same amount of time as Type B grendels, though like the vanilla Banshee Grendels they take longer to reach adulthood. </li><li>Banshee Grendels are not inclined to run away when hit, unlike either variety of normal grendel. </li><li>Similar to vanilla Banshee Grendels, RAS Banshee Grendels also use teleporters and portals. However, the instincts to do so only kick in upon adulthood. </li></ul></ul><p>Well, writing them down sure helped me figure out some problems to think over (particularly what the equivalent for heading home the Bondis and Treehuggers should have, since that's how RAS handles getting lonely creatures to do something about their loneliness) and some ideas came to me in the process.</p><p> In some ways, I do feel this is less a bunch of distinct breeds and more a list of features I arbitrarily assigned to each breed. "Okay, Ettins get this, this, and this, while Hardman Norns get this, this, and this...." and so on. Maybe that feeling will fade when/if I start working on these. </p><p>Again, I make no promises as to whether or not I'll be able to complete all of these. It's quite a bit of work, especially since I plan on going the extra mile and redoing all the genomes from the original ChiChi genome as opposed to copying the RAS edits onto the original 2017 genomes. As I've said before, I hope to at least get the ettin and normal grendel genomes done. </p><p>Until the next one, folks. <br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-69909907326838177662024-01-27T08:51:00.003-05:002024-01-27T09:11:03.754-05:00Genetic Mysteries: The Case of GrM0262<p> </p><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgA8lRLDj1I9roh4ZiIiDwA5W-83Kxq-ywd2Fbmci0ylfcVNYZaydKCb0c_1VhRyJh2i-O3q1RbNgEnkfuMWA6_oDJBvrz-M_UkJhUszz73ek3FMiwTOPCacMDMzZA4u9dgGcSOtlSYKBjAI4HTlbLCCjbOfFbOrehyphenhyphenEIhyphenhyphenuCol8EODDPjm1HqQ2uEXiWgp/s317/GrM0262.png" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="223" data-original-width="317" height="164" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgA8lRLDj1I9roh4ZiIiDwA5W-83Kxq-ywd2Fbmci0ylfcVNYZaydKCb0c_1VhRyJh2i-O3q1RbNgEnkfuMWA6_oDJBvrz-M_UkJhUszz73ek3FMiwTOPCacMDMzZA4u9dgGcSOtlSYKBjAI4HTlbLCCjbOfFbOrehyphenhyphenEIhyphenhyphenuCol8EODDPjm1HqQ2uEXiWgp/w232-h164/GrM0262.png" width="232" /></a></div>Ten years ago (why am I so <i>old?</i>), I was running a series of grendel wolfling runs with the goal of reaching generation 1000, after which I'd take the final result and use it as a base genome for a new genetic breed. I still have that goal of reaching generation 1000 on my own someday, but alas generation 300 was as far as I got. Nevertheless, I shared <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=1541">three</a> <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=1550">packs</a> of <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=1567">grendels</a>, one for every 100th generation milestone. <p></p><p>On the approach to generation 300, the run was suddenly stricken with an epidemic of sliders (creatures who lack pose genes and thus can't move; if you try leading them with the hand they "slide" along the ground, hence the name) and other such maladies. And among the individuals in the run was <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=1565">GrM0262</a> (a clinical name given to him by Kezune's Wolfing Autonamer, which I used to track generations in the time before I made my Wolfling Nametagger). </p><p>All of the genomes I used to start the run and continued to add new generation 1 creatures from were CFE based and included all of their immortality preventing edits. Yet somehow, GrM0262 was immortal; he was going on 17 hours of age for genomes that died under the five hour mark. I naturally exported him as soon as I realized and set about trying to figure out what went wrong.</p><p>At the time, I never did, and the best anyone else could figure out was that he was extremely vulnerable to injury and basically all of his organs were dead. Ten years later, I came to a realization about what the cause could've been...and not only was it figured out, but it lead to the discovery of yet another oversight with the vanilla genomes.</p><span><a name='more'></a></span><p>The thought I had: "...Hey, wait a minute. Organs can duplicate, and be cut, can't they?"</p><p>First, a brief explanation about Organ genes. Organs are basically folders, organizing all the genes in a creature's genome based on their purposes (for example, the lung organ holds all the genes necessary for breathing). But they're also a bit more than that; like the organs of real animals, they can be injured, repaired, operate at different speeds based on needs, and even die, after which all the genes in them stop functioning.<br /></p><p>When making a genome, any gene between two organs is considered to be part of the first organ. This also applies when, over the course of natural mutation, and organ is cut; any gene that originally belonged to the original organ will then be part of the organ immediately before. </p><p>The genes responsible for controlling aging and things a creature will immediately die from (low energy or ATP, high Wounded) are in the organ known as the Time Line. This organ, by default, does not mutate, and in CFE and beyond most of the genes in it can't mutate either. There are also no genes in it that would injure it in any way beyond just the usual stresses of aging.<br /></p><p>The organ immediately below it is the Uterus, which controls pregnancy and laying eggs in female creatures. It is also the only sex-linked organ, appearing only in female creatures.</p><p>You might be able to figure out what the problem was just from the information given so far. And indeed, I was thinking in the right direction. However, my thought was that the Uterus had been deleted (or possibly had a variant mutation that would render it unexpressed in 7/8s of creatures), and thus the genes that would damage the Uterus would now damage the Time Line, resulting in an immortal (or more accurately zombified) creature.</p><p>Verm verified my suspicions when I asked over Discord, but as it turned out that wasn't the case for GrM0262. The Uterus did mutate to kick in at childhood in his genome, but that shouldn't have mattered as the game will simply consider all organs active at childhood regardless of what that value said. Otherwise? Once again, nothing else stood out to me. </p><p>So Verm took a look, confirming that (a clone of) GrM0262 still possessed the ability to die of old age after nothing about his genome immediately jumped out at them in the genome. But then they checked the number of receptors in each organ (to do this yourself, you can use the Biochemistry Kit, or if you don't have that you can use the CAOs command "targ norn outv orgi <organ number> <0 for receptors, 1 for emitters, 2 for reactions>" with the CAOs Command Line for the currently selected creature). </p><p>Sure enough, GrM0262's timeline had two receptors it shouldn't have had, and both of them came from the uterus organ. One of them was a receptor for Prostaglandin, which by default controls repair rate but had mutated to affect the organ's clock rate instead, while the other was a gene that allowed Heavy Metals to damage the organ. The former of the gene was responsible for GrM0262's unnaturally long life; through means unknown the rest of his organs died, but since he had no prostaglandin in his system the rate at which the time line functioned had slowed to such a crawl as to stop working entirely. After I injected him with Prostaglandin, he dropped dead on the spot. </p><p>Now consider what I said earlier about how the uterus is the only sex-linked organ by default. That's true...but some of the genes in it are not. Specifically, in GrM0262's case, the aforementioned prostaglandin receptor was expressed by both sexes. Had he been female, the prostaglandin receptor would've shut down the uterus without prostaglandin and thus prevented the laying of eggs. But since he was a male, the Prostaglandin receptor was instead considered a part of the Time Line organ. </p><p>And as it turns out, this wasn't something that was unique to him, even if his case was a very drastic one. It was present in all the genomes used in the run leading up to him. Heck, it's something that had been present in most genomes made before and since, because it was an oversight present in the vanilla genomes. Yet one more oversight for the pile, in case you weren't already convinced C3/DS suffered severe "We weren't allowed enough time to work on the game" syndrome. </p><p>But better late than never. I've since implemented a fix for it in RAS by making all of the genes in the uterus linked to females only, and it'll almost certainly be fixed in any future versions of the TWBs/TCBs as well. </p><p>And while it might've not had been the issue for GrM0262, I've also decided that there's nothing to be gained from allowing organs to be duplicated and cut (it's nigh impossible for duplicated organs to develop into their own organs over the course of generations just due to how duplicated genes work; all they do is just sit around and consume extra ATP), and now none of the organs in RAS can do so. </p><p>It all really makes me wonder about whether or not any gene should be able to be duplicated or cut. It feels like a lot of the problems regarding the stability of higher generation populations come from genes getting endlessly duplicated or vital genes getting cut. On the other hand...the danger of going too far in the other direction and getting creatures who barely change over time at all is also real. </p><p>In any event, many thanks go to Verm for helping me put this mystery to rest. I've definitely got ideas from the things I've learned from this. </p><p>Until the next one, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-91640317874630595872024-01-25T12:59:00.002-05:002024-01-28T11:02:18.254-05:00A New Base Genome: The End is Never the End is Never the End is Never the End....<p> After I posted <a href="https://grendelman.blogspot.com/2024/01/a-new-base-genome-ras-chichi-breakdown.html">the breakdown of the supposedly-final version of the RAS ChiChi genome</a>, Dragoler offered up a criticism of it. Specifically, she pointed out that the way RAS consumed muscle tissue when breeding probably wouldn't be all that effective in adding a cost to creature breeding without also adding in a gene that prevented breeding outright in creatures who weren't taking care of themselves. </p><p>As it was, RAS creatures can just keep kisspopping and laying eggs even when their muscle tissue is at 0, and not actually suffer all that much for it considering amino acid (and thus muscle tissue) isn't actually used for all that much by default; mostly the production of prostaglandin and also as an emergency backup should glucose levels be low but amino acid levels be higher (this setting aside the fact RAS also uses prostaglandin to heal wounds, which in my experience is a more frequent occurrence than just organ injury). </p><p>Now, the reason I didn't stop RAS creatures with low muscle tissue from breeding to begin with was partially out of concerns over compatibility, but also partially because the levels of muscle tissue in RAS are much less stable than they are in TWBs. I monitored the levels of a group of first-gen RAS ChiChis with the Biochemistry Kit to double-check this, and sure enough they commonly had levels of muscle tissue below the levels that would prevent breeding in TWBs.</p><p><span></span></p><a name='more'></a><p></p><p> I mulled over this conundrum and considered my options. Option 1 was just leaving things as they were, but I decided it'd bother me if I did that. Plus, if I really wanted to add a cost without outright preventing breeding, a better nutrient to have breeding and laying eggs consume would be glucose. Option 2 was adding a new gene to prevent breeding when muscle tissue got low, as is in the case for TWBs, just adjusted for RAS (specifically, my idea was to have the threshold be below the threshold for when low muscle tissue levels start making RAS hungry for protein). </p><p>Then there was option 3, which was to switch from muscle tissue to glycogen. Glycogen levels are considerably more stable in RAS than muscle tissue levels, and glycogen is generally a more important energy store all around than muscle tissue. Plus I feel like it'd be a better indicator of health in RAS than the fluctuating levels of muscle tissue; they're a little reminiscent of C1 creatures in that regard.</p><p>But what truly made me settle for using glycogen instead was a personal bugbear of mine. It's not uncommon for higher gen creatures to develop mutations to keep them from storing glycogen as effectively. So this can lead to the near death music turning into the music that plays whenever creatures are around if such mutations are allowed to spread, which gets pretty irritating pretty fast. Making it so glycogen levels about the near death music threshold are required to breed makes it much less likely such mutations can take hold. </p><p>So with this thought in mind, I made some changes:</p><ul style="text-align: left;"><li><b>New Gene 236: "Become infertile when weak"</b></li><ul><li>Youth; Both sexes</li><li>Cannot mutate, duplicate, or be cut; Mutation degree: 0</li><li>In Gonad organ</li><li>Organ: Current organ; Tissue: <no tissue>; Locus: Clock rate</li><li>Chemical: Glycogen</li><li>Threshold: .039; Nominal: .004; Gain: .502</li><li>Digital</li></ul><li><b>Gene 417: "Laid egg (invol1)"</b>: Muscle tissue -.048 -> Glucose -.048</li><li><b>Gene 420: "Just mated"</b>: Muscle tissue -.048 -> Glucose -.048</li></ul><p> Other than the obvious difference of using Glycogen instead of Muscle tissue, the other main difference between RAS's version of this receptor and the TWBs'/TCBs' is that it affects both sexes in RAS. And for compatibility's sake, RAS still handles the breeding/pregnancy cost via the stimuli genes for mating and laying eggs.</p><p>While I was adding this change, I also decided to make it so the appearance genes could no longer duplicate or be cut. There really isn't much to be gained from doing so. An appearance gene being cut just results in whatever body part that was defaulting to Norn A. Meanwhile, if there's multiple appearance genes for a single body part, only one of them actually has an effect (While I don't know for sure, it's likely the gene with the higher gene number similar to how the gene with the higher number takes priority if there's more than one stimulus gene for any given stimulus), and creatures whose appearances change over the course of their life can't pop up naturally; <a href="https://grendelman.blogspot.com/2014/12/tutorial-shifting-appearance-genes.html">some fancy stuff is required first</a>. So only allowing normal mutations accomplishes the same effect without the risk of a bunch of duplicated appearance genes causing issues in higher generations. </p><p>I don't think either of these is a significant enough change to warrant another pack of test norns just yet. Chances are I'll see how they play out naturally over the course of developing the other RAS genomes. </p><p>So with these changes made, <i>now </i>do I consider the RAS ChiChi genome finished?...It's complicated. </p><p>I will say that I'm still pretty happy with the genome is, moreso now with these last couple changes. But while I was mulling over what I wanted to do for these, I also considered adding in even more edits. Specifically, replicating how <a href="https://grendelman.blogspot.com/2023/12/a-look-at-enhanced-chichi-norn.html">Enhanced ChiChi Norns</a> become weaker and less fertile in old age to make way for the younger generations. I even noticed this in my personal design document for RAS. </p><p>The only problem, however, is that doing so would likely require even more new genes, even if I figured out how to implement it more efficiently than in the Enhanced ChiChi Norns. And with every new gene added, the risk for incompatibilities with the original 2017 genomes starts getting higher and higher. How much do I want to push my luck?</p><p>I <i>could </i>just throw compatibility out the window. Then I could not only go ahead with this feature without worry, but do some other features <a href="https://grendelman.blogspot.com/2017/09/thoughts-on-new-base-genome.html">I've expressed desire for in the past</a>, like moving the toxin reactions into more appropriate organs while leaving the immune system for cures and antigen responses, and shifting the pigment and pigment bleed genes around so they mix more evenly in higher generations. I could even go even further than the edits I've already done to make breeding more costly by making it so nutrients are required to produce the fertility chemicals. Besides, how frequently am I going to play with anything other than RAS genomes once they're finished, anyway? </p><p>Except...going that far would basically mandate a full conversion of all the official breeds (even if that was something I was thinking about already). Do I have that much motivation in me? Would it even be worth it in the end?</p><p>I have to draw the line somewhere, and I know I don't want to keep tinkering with the ChiChi genome forever. Otherwise, I'm never going to get to the breeds I <i>really </i>want to make. And ultimately, I do want RAS to be mostly compatible with at least the original 2017 genomes, if not the CFF and prior. I think they'd be better for other people that way, and it'd take a load of pressure off me to do RAS conversions of all the official breeds. </p><p>So...with all that considered, I think this is as good a stopping point for the RAS ChiChi genome as any, barring any major problems popping up in the future. For now, I really want to get to the grendel and ettin genomes. </p><p>Until the next one, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-88840840907550153772024-01-24T13:51:00.000-05:002024-01-24T13:51:08.967-05:00A New Base Genome: RAS ChiChi Breakdown<p></p><div class="separator" style="clear: both; table: border:1px solid black; td: border:1px solid black; text-align: center; th: border:1px solid black;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjSLfFllRItm0CA71k1EXjju505Bp5JJSchUulNyGwAni1n9KLjNsXZc2TNxahUdiMMC2YwT03WTKeXs4kbUyCONLld81gkDD-pH46tQ5SuNR2nhsC1xXVnEyqxGOWkorqT1qQqzZdp8qimEXMFcxC1uJnR75b_HIzp6HdVJSE0DY7bgBS1h97jLcOc12TB/s234/RASFinal.png" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="234" data-original-width="193" height="200" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjSLfFllRItm0CA71k1EXjju505Bp5JJSchUulNyGwAni1n9KLjNsXZc2TNxahUdiMMC2YwT03WTKeXs4kbUyCONLld81gkDD-pH46tQ5SuNR2nhsC1xXVnEyqxGOWkorqT1qQqzZdp8qimEXMFcxC1uJnR75b_HIzp6HdVJSE0DY7bgBS1h97jLcOc12TB/w165-h200/RASFinal.png" width="165" /></a></div><br />After I made <a href="https://grendelman.blogspot.com/2024/01/a-new-base-genome-different-approach.html">my last post</a>, I decided to make what I intended to be a temporary version of the 2017 ChiChi genome so I could get to making actually interesting breeds. I took the first released version of RAS as my base, replaced the old disappointment-gained activase with a "Muscle Energy" used emitter....<p></p><p>...And then I realized that maybe that rather than trying to reinvent the wheel as far as this biochemical balancing goes, maybe I should work with what the 2017s already had. That line of thought lead to more tweaking, and at <i>last </i>I reached a point with the biochemistry I could call myself happy with. </p><p>Then one thing lead to another from there, and next thing I knew what I had intended to be just a temporary base had turned into what I'd call the final version of the RAS ChiChi genome. Funny how things work out sometimes, huh?</p><p>Of course, then it took me a couple weeks to muster up the spoons to write this post. You win some, you lose some. </p><p>As with RAS Test Version 1, I'll be breaking down all the changes I made. If you just want some norns to play around with, you can check them out on Creatures Caves <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2548">here</a> and <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2550">here</a> (the first pack is missing some of the changes described here, since I was still waffling on whether or not to include the changes in question). </p><p>Without any further ado, let's get started. <br /></p><span><a name='more'></a></span><p>This version of RAS was based on Test Version 1, which I detailed <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-final-results.html">here</a>. Be sure to read that if you want to know all the changes RAS TV1 made from the original 2017 genome. <br /></p><p>The way I've been doing these breakdowns, I've just been copying what Gene Compare tells me and pasting it here. However, not only is that rather ugly looking and rather difficult to read, the values given are also a little inaccurate (Gene Compare's numbers take after C2; e.g. the sliders on receptor genes are shown as a number from 1 to 255. C3/DS's Genetics Kit, however, instead operates on a scale of 0 to 1, with the slider values being the decimal conversion of <value>/255). So I'm going to try listing things a little differently this time.<br /></p><h2 style="text-align: center;">Receptors</h2><ul style="text-align: left;"><li style="text-align: left;"><b>Gene 446 (444): "Start dancing (14)"</b>: Threshold reduced to .812 from 1</li><li style="text-align: left;"><b>Gene 447 (445): "Start jiving (15)"</b>: Threshold reduced to .812 from 1</li></ul><div style="text-align: left;">The number in parenthesis refers to the gene number in RAS TV1; the final version of RAS has a few new genes that changed the numbering a little.<br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">These two genes are receptors in the Muscle organ that control gait. Specifically, they're special gaits 14 and 15, otherwise known as the dancing gaits that in vanilla ChiChis triggered when Arousal Potential was high. The original 2017s changed them to trigger when Sex Drive is high instead.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Since they're 2017/RAS's replacement for the vanilla Sex Drive gait, I reduced their priority to match that of the vanilla Sex Drive gait receptor. That way other gaits with higher priorities that are tied to more important drives will override them if need be. </div><div style="text-align: left;"><br /></div><div style="text-align: left;"><ul style="text-align: left;"><li><b>Gene 451 (447): "Activase (loc27)": </b>Can now mutate, duplicate, and be cut; Mutation degree raised to 128 from 0; Threshold reduced to .047 from .125</li></ul></div><div style="text-align: left;">This gene is one half of the floating receptor-emitter combo that 2017-derived genomes use to emit anabolic steroid based on the level of activase. While one of the overall goals of RAS was to reduce the amount of muscle tissue, I thought the level of activity needed to produce anabolic steroid was a little too low for my liking, and thus I sharply reduced it.</div><div style="text-align: left;"> </div><div style="text-align: left;">I also decided to allow it to mutate, unlike in the original 2017s. It's a personal preference change more than anything, derived from how most of the genes that can't mutate in CFE are that way because they could potentially cause immortality or otherwise remove the need for creatures to eat. <br /></div><div style="text-align: left;"><br /></div><ul style="text-align: left;"><li style="text-align: left;"><b>Gene 57: "Antigen 6"</b>: Can now mutate, duplicate, and be cut</li><li style="text-align: left;"><b>Gene 231: "Mutation from stress"</b>: Mutation degree reduced to 0 from 128</li><li style="text-align: left;"><b>Gene 232: "Mutation from stress"</b>: Mutation degree reduced to 0 from 128</li><li style="text-align: left;"><b>Gene 846 (840): "Oxygen (loc 24)"</b>: Can now mutate, duplicate, and be cut; Mutation degree raised to 128 from 0</li><li style="text-align: left;"><b>Gene 849 (843): "Fermentation Regulation"</b>: Can now mutate, duplicate, and be cut; Mutation degree raised to 128 from 0 <br /></li></ul><div style="text-align: left;">All of these are just mutation rate changes, mostly out of personal preference or for future reference. Genes 231 and 232 couldn't mutate anyway; the change there was just to be able to tell that without having to open the gene in the Genetics Kit. Gene 57 is an Antigen damage receptor in the Liver Anabolic organ and was the only gene of its type that couldn't mutate, duplicate, or be cut (even the other antigen receptor in that same organ could) and the inconsistency bothered me. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">And the changes to the CFF lactate receptors follow the same logic as the change to the Activase receptor; if the goal was to prevent immortality and other "cheaty" mutations, the real problem were the reactions. </div><div style="text-align: left;"> </div><ul style="text-align: left;"><li style="text-align: left;"><b>New Gene 425: "Wounded"</b></li><ul><li style="text-align: left;">Embryo; Both sexe<b>s</b></li><li style="text-align: left;">Can mutate, duplicate, and be cut; Mutation degree: 128</li><li style="text-align: left;">In Bones organ</li><li style="text-align: left;">Organ: Current Reaction (Gene 423: "Prostaglandin breakdown"); Tissue: <no tissue>; Locus: Reaction Rate</li><li style="text-align: left;">Chemical: Wounded</li><li style="text-align: left;">Threshold: .063; Nominal: .878; Gain: .125</li><li style="text-align: left;">Output REDUCES with increased stimulation</li><li style="text-align: left;">Digital</li></ul></ul><ul style="text-align: left;"><li style="text-align: left;"><b>New Gene 428: "Wounded"</b></li><ul><li style="text-align: left;">Embryo; Both sexe<b>s</b></li><li style="text-align: left;">Can mutate, duplicate, and be cut; Mutation degree: 128</li><li style="text-align: left;">In Bones organ</li><li style="text-align: left;">Organ: Current Reaction (Gene 426: "Make prostaglandin"); Tissue: <no tissue>; Locus: Reaction Rate</li><li style="text-align: left;">Chemical: Wounded</li><li style="text-align: left;">Threshold: 0; Nominal: .753; Gain: .502</li></ul></ul><div style="text-align: left;"><div style="text-align: left;">Now we come to one of the bigger changes the final version of RAS adds. In most creatures, Prostaglandin is used to heal organs after they take damage (generally from antigens and other toxins). In RAS, its functions are extended to healing physical injuries as well. Realistic? I'm...not certain on that one; RL biochemistry is a bunch of gibberish to me, though I don't think real prostaglandins work this way. But from a design perspective, prostaglandin is already the designated repair chemical, and this gives it an extra use even if you aren't playing with bacteria (which I'm not 99% of the time; the vanilla bacteria are seriously overtuned), and thus is an extra use for amino acid and thus protein.<br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">However, the reaction genes responsible for making and breaking down Prostaglandin only respond to Injury (which is a separate chemical entirely), so these two receptors were necessary to allow Prostaglandin to be produced in response to high levels of Wounded. The values are mostly based on those of the injury receptors, just with the thresholds tweaked for the situations Wounded gets high.</div><div style="text-align: left;"><br /></div><ul style="text-align: left;"><li style="text-align: left;"><b>New Gene 448: "Low energy limp (6)"</b></li><ul><li style="text-align: left;">Embryo; Both sexes</li><li style="text-align: left;">Cannot mutate, duplicate, or be cut; Mutation degree: 0</li><li style="text-align: left;">In Muscles organ</li><li style="text-align: left;">Organ: Creature; Tissue: Sensorimotor; Locus: Special gait 6</li><li style="text-align: left;">Chemical: Glycogen</li><li style="text-align: left;">Threshold: .039; Nominal: .937; Gain: .937</li><li style="text-align: left;">Output REDUCES with increased stimulation</li><li style="text-align: left;">Digital</li></ul></ul><div style="text-align: left;">This is a gene that comes from Creatures 2. RAS now limps when glycogen levels get low, roughly around the point where the Near Death music kicks in. Similarly to the facial expression changes RAS TV1 made, this helps figure out which creature is responsible for the sad music. </div><div style="text-align: left;"><br />I also thought about making creatures limp when Wounded is high, something the TWBs/TCBs do. I decided against it, mostly because I already felt like I was pushing my luck enough already with all the other new genes I added. RAS takes enough from the TWBs/TCBs as it is, anyway. </div><h2 style="text-align: center;">Emitters</h2><div style="text-align: left;"><ul><li><b>Gene 452 (448): "[Loc 27] Anabolic Steroid"</b>: Can now mutate, duplicate, and be cut; Mutation degree raised to 128 from 0</li><li><b>Gene 847 (841): "Lactate Dehydrogenase (loc 24)"</b>: Can now mutate, duplicate, and be cut; Mutation degree raised to 128 from 0</li></ul><p>Two more genes that couldn't mutate in the CFF/original 2017 that can in RAS. Not much to say on these I haven't already said. </p><ul style="text-align: left;"><li><b>New Gene 450: "Activase"</b></li><ul><li> Embryo; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>In Muscles organ</li><li>Organ: Creature; Tissue: Somatic; Locus: Muscle energy used</li><li>Digital</li><li>Chemical: Activase</li><li>Sample rate: 5 ticks; Gain: .027; Threshold: 0</li></ul></ul><p>Here is the Muscle Energy Used locus I've mentioned a lot (or at least in <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-back-to-zero.html">one post</a>). Had I gone with a different genome base than 2017 for RAS, I might've had this emitter emit anabolic steroid outright, but as I talked about at the start of this post, working with the system 2017s already had proved to be the best (or least frustrating) way of handling it. So this basically replaces the Activase from the disappointment stim in the original 2017s and RAS TV1.</p><p>It tends to be a lot more consistent than the disappointment stim, as well, as it triggers when the creature moves in general and not just when it triggers an activity stim. In practice, this can result in RAS creatures with similar amounts to muscle tissue to the original 2017s, but it's balanced out by the increased production of prostaglandin and another change I'll get to later. </p><h2 style="text-align: center;">Reactions</h2><div style="text-align: left;"><ul style="text-align: left;"><li><b>Gene 336: "Stress affects healing": </b>Mutation degree reduced to 0 from 128</li><li><b>Gene 423: "Prostaglandin breakdown": </b>Mutation degree reduced to 0 from 128</li><li><b>Gene 426 (425): "Make prostaglandin": </b>Can no longer mutate, duplicate, or be cut; Mutation degree reduced to 0 from 128</li></ul><p>Fitting that all three chemical reactions concerning prostaglandin get changes in the same genome that gives prostaglandin another use. That being said, all three of these changes are just yet more mutation rate tweaks. The first two couldn't mutate anyway, so I just set the degree to 0 to make it more obvious from the main editor window. As for the last one, it involved digestive chemicals (specifically, amino acid and fatty acid react to make prostaglandin), and in lieu with the other reactions that involve such chemicals being unable to mutate in CFE-derived genomes I decided to make it unmutable just to be on the safe side. </p><ul style="text-align: left;"><li><b>Gene 337: "Antioxidant cure for CO poisoning"</b>: Can no longer duplicate<br /></li><li><b>Gene 343: "Cure ATP Decoupler"</b>: Can no longer duplicate<br /></li><li><b>Gene 346: "Cyanide cure"</b>: Can no longer duplicate<br /></li><li><b>Gene 349: "Glycotoxin cure"</b>: Can no longer duplicate<br /></li><li><b>Gene 350: "Drunkenness cure"</b>: Can no longer duplicate<br /></li><li><b>Gene 351: "Radiation cure"</b>: Can no longer duplicate</li></ul><p>I think the idea behind letting these reactions duplicate was to make it so these toxin cures had the potential to become even more effective as the generations went on. However, I make it a point to make it that if a gene cannot be cut, it cannot duplicate either. Otherwise, if a bunch of duplicates of these genes build up, they run the risk of "pushing out" more vital genes from the offsprings' genome. Things like the brain. It's a similar principle to why the pigment and pigment bleed genes can only mutate but not duplicate or be cut in RAS. </p><p>I opted to make them only able to mutate as opposed to allowing them to be cut to make it more likely cures will continue to work on higher generation creatures. </p><ul style="text-align: left;"><li><b>Gene 352: "Ag to Ab 0"</b></li><ul><li>Original reaction: 2 Antigen 0 + 3 Glucose -> 12 Antibody 0 + 1 Histamine B<br /></li><li>New reaction: 2 Antigen 0 + 2 Glucose -> 10 Antibody 0 + 1 Histamine B<br /></li></ul><li><b>Gene 354: "Ag to Ab 1"</b></li><ul><li>Original reaction: 2 Antigen 1 + 3 Glucose -> 12 Antibody 1 + Histamine A</li><li>New reaction: 2 Antigen 1 + 2 Glucose -> 10 Antibody 1 + Histamine A<br /></li></ul><li><b>Gene 356: "Ag to Ab 2"</b></li><ul><li>Original reaction: 16 Antigen 2 + 3 Glucose -> 12 Antibody 2 + 2 Coldness</li><li>New reaction: 1 Antigen 2 + 2 Glucose -> 5 Antibody 2 + 1 Coldness<br /></li></ul><li><b>Gene 358: "Ag to Ab 4"</b></li><ul><li>Original reaction: 2 Antigen 4 + 3 Glucose -> 3 Antibody 4 + 1 Hotness</li><li>New reaction: 1 Antigen 4 + 2 Glucose -> 4 Antibody 4 + 1 Hotness<br /></li></ul><li><b>Gene 360: "Ag to Ab 3"</b></li><ul><li>Original reaction: 1 Antigen 3 + 3 Glucose -> 1 Antibody 3 + 2 Coldness</li><li>New reaction: 1 Antigen 3 + 2 Glucose -> 4 Antibody 3 + 2 Coldness<br /></li></ul><li><b>Gene 362: "Ag to Ab 5"</b></li><ul><li>Original reaction: 1 Antigen 5 + 3 Glucose -> 3 Antibody 5 + 1 Wounded</li><li>New reaction: 1 Antigen 5 + 2 Glucose -> 3 Antibody 5 + 1 Wounded<br /></li></ul><li><b>Gene 364: "Ag to Ab 6"</b></li><ul><li>Original reaction: 1 Antigen 6 + 3 Glucose -> 3 Antibody 6 + 1 Hotness</li><li>New reaction: 1 Antigen 6 + 2 Glucose -> 4 Antibody 6 + 1 Hotness<br /></li></ul><li><b>Gene 366: "Ag to Ab 7"</b></li><ul><li>Original reaction: 1 Antigen 7 + 3 Glucose -> 3 Antibody 7 + 1 Pain</li><li>New reaction: 1 Antigen 7 + 2 Glucose -> 4 Antibody 7 + 1 Pain</li></ul></ul><p>As I mentioned before for the reasoning behind allowing prostaglandin to heal wounds, I don't play with bacteria all that often since they feel overpowered, especially on modern hardware. But I do experiment with them from time to time, and some people do use bacteria. Coupled with the fact the antigen reactions always felt a little inconsistent to me, I figured I'd tweak them some for RAS. </p><p>The biggest change here is that RAS requires slightly less glucose for antibody production than the original 2017s and the CFFs (where this change originated from), since I felt the original value was a little too high for my liking. I also considered simply removing the glucose cost outright, similar to how it was in Creatures 2 and vanilla C3/DS creatures, but decided against it. </p><p>The immune response was also mostly strengthened across the board, as well. The response to Antigens 0 and 1 are a little weaker than they were before, while the response to Antigen 2 is much stronger. The rest are smaller tweaks, and the response to Antigen 5 is mostly unchanged save for the reduction in glucose cost with the intent of further cementing its status as the deadliest antigen. </p><ul style="text-align: left;"><li><b>Gene 453 (449): "Activity consumes triglyceride" ("Activity breaks down fat storage")<br /></b></li><ul><li>Original reaction: 3 Activase + 2 Adipose Tissue -> 1 <nothing> + 1 <nothing></li><li>New reaction: 4 Activase + 8 Triglyceride -> 1 <nothing> + 1 <nothing></li><li>Reaction rate reduced to 50 from 59<br /></li></ul><li><b>Gene 454 (450): "Activity consumes glucose" ("Activity breaks down starch storage")<br /></b></li><ul><li>Original reaction: 2 Activase + 2 Glycogen -> 1 <nothing> + 1 <nothing></li><li>New reaction: 2 Activase + 6 Glucose -> 1 <nothing> + 1 <nothing></li><li>Reaction rate reduced to 50 from 57</li></ul></ul><p>These two genes probably saw the most changes out of everything in this version of RAS. First I tried making it so Activase simply broke down the long-term energy stores into their respective short-term energy stores; that didn't work because they simply got converted back. Then I tried making it so these reactions produced anabolic steroid, replacing the Activase/Anabolic steroid receptor/emitter combo. That resulted in too little muscle tissue. So instead I just had these reactions consume short-term energy stores instead of long-term energy stores but otherwise were similar to the originals, which at least feels less cheaty. I also increased the speed at which these reactions work. </p><p>The end result is that this version of RAS is considerably less prone to heart attacks than RAS TV1 provided they're fairly active, while still leaving them as a possibility for lazy or overeating creatures. Mission accomplished. </p><ul style="text-align: left;"><li><b>New Gene 885: "Wait crowdedness convert"</b></li><ul><li>Embryo; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>In The Brain organ</li><li>Reaction: 8 Crowded + 1 Wait -> 1 Wait + 8 Crowded backup</li><li>Reaction rate: 19</li></ul></ul><p>This version of RAS has instincts and stimuli to encourage them to use elevators and doors when crowded, much like TWBs/TCBs. This means that they might try to use an elevator that can't go any higher or lower and get stuck staring at it. So this gene is there to help make sure they aren't staring at elevators all the time. </p><p>It's a similar principle to the similar reaction involving boredom that I added in RAS TV1 and that still exists in this version. I briefly considered changing that reaction to this one as opposed to adding a new gene, but decided I'd rather keep the old reaction for future use (at least, my next attempt at RAS ettins will likely get some use out of it). </p><ul style="text-align: left;"><li><b>New Gene 886: "Prostaglandin heals wounds"</b></li><ul><li>Embryo; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>In The Brain organ</li><li>Reaction: 1 Wounded + 1 Prostaglandin -> 1 <nothing> + 1 <nothing><br /></li><li>Reaction rate: 28</li></ul></ul><p>The two receptors from earlier allow RAS creatures to produce
prostaglandin when wounded. This reaction is what allows them to actually use prostaglandin to heal wounds, since Wounded is a different chemical from Injury and as such isn't handled the same way as Injury is by the engine. </p><p>I opted to have prostaglandin be consumed here for the purposes of consuming nutrients, and also to help keep RAS creatures from becoming invincible.</p><h2 style="text-align: center;">Stimuli</h2><div style="text-align: left;"><ul style="text-align: left;"><li><b>Gene 395: "Disappointment"</b>: </li><ul><li>Boredom .008 is no longer silent.</li><li>Activase .008 -> Unused 0</li></ul></ul><p>Since the new emitter handles the bulk of Activase production now, being disappointed no longer produces Activase. Simple enough, really.</p><p>However, RAS can now learn that being disappointed makes them bored. The reason is mostly to try to get RAS to cut back on things like getting stuck pushing edibles as I observed during <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-i-cant-stand-it-i.html">my initial RAS ettin feral run</a>, and was a suggestion from Verm.<br /></p><p>I'm not entirely certain on this change, as disappointment is also triggered by things like trying to grab things out of reach or trying to use an elevator a creature just called that was immediately called away by another creature. But so far, I feel like it's helping more than hurting. </p><ul style="text-align: left;"><li><b>Gene 398: "I hit someone": </b>Boredom -0.04 (Silent) -> Unused 0</li></ul><p>Another change inspired by C2, where most norn genomes get next to nothing out of hitting another creature. With the boredom reduction being silent already, I'm not sure how much of an impact this change has on this version of RAS. But it'll at least remove hitting as a way for RAS to keep boredom levels down, even if in RAS TV1 it was in the sense of "never getting bored because hitting keeps boredom levels down" as opposed to "hitting <i>because </i>it reduces boredom". </p><ul style="text-align: left;"><li> <b>Gene 408: "Traveling"</b>: Coldness -.008 -> Crowdedness -.089</li></ul><p> One of the goals I had for this version of RAS was to provide more ways RAS creatures could feel less crowded as opposed to just retreating from each other. Retreating is a somewhat unreliable way of handling it, particularly if there's a huge amount of creatures in one place. </p><p>So now the simple act of traveling to the left or right is equivalent to retreating from another creature, as is the case for TWBs/TCBs. That being said, like I noted for <a href="https://grendelman.blogspot.com/2023/12/a-look-at-enhanced-chichi-norn.html">the Enchanced ChiChi Norn breakdown</a>, the traveling stim doesn't actually fire all that often. </p><ul style="text-align: left;"><li><b>Gene 409: "I ate it"</b>: Unused 0 -> Water .024</li></ul><p>Did I mention RAS takes a bit from the TWBs/TCBs? Because this is another change that comes from them. Water isn't quite as important to RAS as it is for TWBs/TCBs, but they still need some level of it to breathe properly, which can be a problem if the creature's recovering from drowning, carbon monoxide poisoning, fevers, etc. So I figured giving RAS an extra way to gain water was worthwhile. </p><ul style="text-align: left;"><li><b>Gene 416: "Laid egg (invol1)"</b>: Sleepiness .185 -> Muscle Tissue -.048</li><li><b>Gene 419: "Just mated"</b>: Loneliness -.056 -> Muscle Tissue -.048</li></ul><p>Right from the beginning of this project, I was planning on giving RAS some kind of cost for breeding. In <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-what-do-i-want.html">the initial post detailing my goals</a>, I stated I was considering porting over the TWBs'/TCBs' method of doing it, which prevented female creatures from breeding outright if their muscle tissue was too low and made pregnancy gradually consume muscle tissue. </p><p> However, RAS's long-term energy stores are considerably less stable than TWBs'/TCBs', so instead I opted for this less elegant method that doesn't stop RAS from breeding but nevertheless makes it so it's not free. Plus, this way probably has better results for crossbreeds with other genomes...I say for the same genome that has a bunch of new genes added, including a new reaction + receptors for healing wounds with prostaglandin. <br /></p><ul style="text-align: left;"><li><b>Gene 537 (531): "Traveled in lift"</b>: Unused 0 -> Crowded -1</li><li><b>Gene 539 (533): "Went through meta-door"</b>: Unused 0 -> Crowded -1</li><li><b>Gene 540 (534): "Went through internal door"</b>: Unused 0 -> Crowded -1</li></ul><p>As I mentioned earlier with the Wait crowdedness convert reaction gene, RAS now has instincts to use elevators and doors when crowded, and the stimuli are changed accordingly. </p><p>I did have some reservations about them removing crowdedness entirely as opposed to just a little bit, mostly to make it look less like I'm copying the TWBs'/TCBs' homework than I already was, but I decided that this was the best way of handling it as it'll keep creatures from constantly trying to use doors/elevators when crowded. RAS doesn't get a fear reduction from using doors like TWBs/TCBs do, though; I decided I'd rather keep my options open for future genomes. RAS has other ways of reducing fear, anyway. </p><ul style="text-align: left;"><li><b>Gene 541 (535): "Found company": </b>Fear -.024 -> Fear -.032</li></ul><p>Case in point. This is a pretty minute change, all things considered; just further reinforcing how RAS creatures are encouraged to approach each other when afraid. </p><p>While it's not listed here since it's the same in both TV1 and this version, I'll note that both the loneliness reduction and fear reduction are silenced. I've noted a couple times in the past that 2017-based creatures never seem to seek each other out when lonely. And as I noted in <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-picking-my-battles.html">another past update</a>, it turns out that C3/DS creatures basically never track other members of the same species via scent. </p><p>I asked about this in the Norn Nebula Discord (more specifically: I asked if something was wrong with my game since it turned out I was having trouble getting creatures of any genome to approach each other, not just 2017s), and Verm and Dragoler did some research and found that providing an instinct to go home when lonely while silencing the loneliness reduction in this gene did result in creatures that more consistently do something about their loneliness (the exact reason is complicated, but basically creatures will learn to assume whatever it was they were doing when they're at the peak of same species CA if the drive decreases weren't silenced, no matter if that action had anything to do with seeking out the source of the CA or not). I guess Arnout came to a similar conclusion independently, as the loneliness decrease is silenced in the original 2017 genome as well. </p><p>In any event, it's now part of RAS and hopefully will reduce the amount of creatures who are off by themselves.</p><ul style="text-align: left;"><li><b>Gene 542 (536): "I've stated need" ("Discomfort") <br /></b></li><ul><li>Age changed from Child to Embryo <br /></li><li>Stimulus changed from "Discomfort" to "I've stated need"</li><li>Chemicals changed from Comfort 1 -> Anger -.048, Crowded -.016 (Silent), Boredom .008</li></ul></ul><p> The CFF initially silenced this stimulus and the one for hearing other creatures speak, out of the logic that both genes got in the way of creatures tending to themselves. In RAS TV1 I opted to change this stimulus into a different stim entirely, since at the time I had no plans for the original version. But now here it is back in the newest version of RAS, not only changed back to its original form but expressed again. <br /><br />The reason for it? Well, during my initial ettin feral run, I shared a picture over Discord of an ettin doing almost nothing but complaining of boredom, with the intent of just sharing a creature doing stupid things so people could laugh at it. Then Verm noted that since the ettin in question wasn't being punished for expressing herself, she had no reason to stop doing it, drawing a comparison to how Lurhstaap noted how <a href="https://addictedtocaos.blogspot.com/2019/01/eem-exmly-patient.html">his Imperial Dragons were actually more carnivorous than his original Abyss Dragons despite how they actually get nutrition for eating things other than creatures, likely <i>because </i>of it</a>. </p><p>So with that logic in mind, I figured giving creatures a stim for expressing themselves could possibly actually cut back on it. And in a similar vein to the unsilenced boredom in the disappointment stim, I threw in a little bit of extra boredom to hopefully further discourage endless complaining. It should be noted RAS continues to lack a stim for hearing other creatures speak and possesses no instinct to express themselves for any reason. </p><ul style="text-align: left;"><li><b>Gene 544 (538): "I have teleported"</b>: Unused 0 -> Fear -1</li></ul><p> Partially because it made sense given the other teleporter-related instincts and partially because I wanted to give RAS more options to reduce fear, RAS now gets a fear reduction from teleporting. </p><p>Though despite the name, this stim doesn't actually trigger on using teleporters, like the vanilla C3 and DS teleporters. By default it's only used by warp portals. It's nevertheless useful if there's third party teleporters and portals around, though. </p><ul style="text-align: left;"><li><b>New Gene 855: "Discomfort"</b></li><ul><li>Embryo; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>Stimulus: Discomfort</li><li>Significance: 0</li><li>Reaction: Default (quiescent); Intensity: 0</li><li>Chemicals: Comfort 1</li></ul></ul><p> With the old Discomfort stim being turned back into an "I've expressed self" stim, a new gene was necessary to bring the Discomfort stim back. Of course I could've left the original Discomfort stim as it was and made a new gene for "I've stated need" instead, but I was going to need to make a new gene either way and I felt better doing it this way. </p><h2 style="text-align: center;">Appearances</h2><div style="text-align: left;"><ul style="text-align: left;"><li><b>Genes 25 ("Head"), 75 ("Body"), 112 ("Arms"), 372 ("Legs"), and 458 ("Tail"): </b>Can now mutate, duplicate, and be cut</li></ul><p>Whether or not appearance genes should be able to mutate is one of those things that tends to come down to personal preference. I personally adore appearance mutations, so now they're possible in RAS. </p><p>The fact these genes weren't already able to mutate is partially why I went through the genome and changed the mutation degree on all genes that couldn't mutate to 0 (assuming I wasn't instead allowing them to mutate). The mutation degree on the appearance genes in the original 2017s was still 128 despite the fact they couldn't mutate and I wound up missing it entirely while making RAS TV1. </p><h2 style="text-align: center;">Instincts</h2><div style="text-align: left;"><ul style="text-align: left;"><li><b>Gene 465 (461): "Mating instinct": </b>Age changed to Adolescent from Youth</li></ul><p>CFF-derived genomes breed much slower than vanilla genomes, and RAS is no exception. Noticing this, I decided to take a page from the Gizmo Norns and have their mating instinct kick on a lifestage before they're able to breed, giving them a headstart on knowing what to do when the time comes and hopefully increasing reproductive success. </p><ul style="text-align: left;"><li><b>Gene 467 (463): </b><b>"Eat 3 when H4F"</b>: Reward/Punish intensity changed to -.75 from -.5<br /></li><li><b>Gene 468 (464): "Eat 11 when H4F"</b>: Reward/Punish intensity changed to -.5 from -.75<br /></li><li><b>Gene 471 (467): "Eat 8 when H4C"</b>: Reward/Punish intensity changed to -.75 from -.5</li></ul><p>A set of changes geared around further lowering the risk of heart attacks and also making it more likely RAS creatures will choose to eat fruit more often. Now when they get hungry they'll usually prefer the less fatty seeds or fruit over food, though they'll still eat food. </p><p>I briefly considered inverting the intensities from RAS TV1 (making it so they'd prefer fruit when H4C, seeds when H4F, and food when H4P), but that'd be making them prefer the less nutritious options over the more nutritious options and altering the respective stims to compensate would feel like I'd defeat the point of making the change in the first place. </p><ul style="text-align: left;"><li><b>Gene 477 (473): "Push lift if crowded" ("Activate lift if bored")</b></li><ul><li>Gene is now expressed (carried)<br /></li><li>Age changed to Adolescent from Embryo</li><li>Reward changed to Crowdedness from Boredom</li><li>Reward intensity changed to -.306 from -.25<br /></li></ul><li><b>Gene 497 (492): "Push buttons if crowded" ("Push buttons if bored")<br /></b></li><ul><li>Gene is now expressed (carried)</li><li>Age changed to Adolescent from Embryo</li><li>Reward changed to Crowdedness from Boredom</li><li>Reward intensity changed to -.153 from -.25<br /></li></ul><li><b>New Gene 478: "Pull lift if crowded"</b></li><ul><li>Adolescent; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>When IT is ID 26 (Elevator) in Tissue 2: noun....</li><li>...And you Activate 2 it....</li><li>Reward with Crowdedness -.306<br /></li></ul><li><b>New Gene 873: "Push door if crowded"</b></li><ul><li>Adolescent; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>When IT is ID 2 (Door) in Tissue 2: noun....</li><li>...And you Activate 1 it....</li><li>Reward with Crowdedness -.306</li></ul></ul><p>Now that the stims for using elevators and doors reduce crowdedness in RAS, it only makes sense that their instincts reflect it. This involved repurposing the formerly dormant "Activate lift if bored" and "Push buttons if bored" instincts into ones that involved reducing crowded (reducing the intensity on the former to match), while adding a couple new instincts (with the instinct to pull lift when crowded helping to reduce the chances of a crowded creature constantly pushing a lift that won't move).</p><p>Since it didn't make the most sense to me to have fresh-out-of-the-egg babies use elevators and doors, all of these instincts are set to kick in at adolescence.</p><ul style="text-align: left;"><li><b>Gene 511 (506): "Navigate lift wait"</b>: Age changed to Embryo from Child</li></ul><p>A navigation instinct kicking in at childhood looks like it makes sense, based on what I just said about the instincts to use elevators and doors when crowded...except this was the only navigation instinct that <i>wasn't </i>present from birth. </p><p>I really couldn't think of a reason for it to be the exception considering the instinct to wait for doors is there from birth, and I didn't want to go the Gizmo route and have all the navigation instincts kick on at childhood, so I decided to mend the inconsistency. </p><ul style="text-align: left;"><li><b>Gene 517 (512): "Push teleporter when bored"</b>: Age changed to Adolescent from Embryo<br /></li><li><b>Gene 518 (513): "Push teleporter when crowded"</b>: Age changed to Adolescent from Embryo<br /></li><li><b>Gene 519 (514): "Push teleporter when in pain"</b>: Age changed to Adolescent from Embryo<br /></li><li><b>New Gene 520: "Push teleporter when scared"</b></li><ul><li>Adolescent; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>When IT is ID 27 (Teleporter) in Tissue 2: noun....</li><li>...And you Activate 1 it....</li><li>Reward with Fear -.306<br /></li></ul><li><b>Gene 865 (857): "Push portal when bored"</b>: Age changed to Adolescent from Embryo<br /></li><li><b>Gene 866 (858): "Push portal when crowded"</b>: Age changed to Adolescent from Embryo<br /></li><li><b>Gene 867 (859): "Push portal when in pain"</b>: Age changed to Adolescent from Embryo<br /></li><li><b>New Gene 868: "Push portal when scared"</b></li><ul><li>Adolescent; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>When IT is ID 34 (Portal) in Tissue 2: noun....</li><li>...And you Activate 1 it....</li><li>Reward with Fear -.306</li></ul></ul><p>As with the new instincts to use doors and elevators when crowded, the stim for teleporting now reducing fear calls for two new instincts to use teleporters and portals when afraid. </p><p>They've also all been changed to kick in at adolescence rather than being there from birth. Once again I didn't feel it made the most sense for fresh-out-of-the-egg babies, and it was definitely a little annoying as well for a freshly hatched baby to suddenly warp away. </p><ul style="text-align: left;"><li><b>Gene 856 (849): "Go left when crowded" ("Young stay near parents")</b></li><ul><li>When IT is ID 5 (IT is my parent) in Tissue 7: detl.... -> When IT is ID 0 (Self) in Tissue 2: noun....</li><li>...And you Approach it.... -> ...And you Travel west....</li><li>Reward with Fear -.71 -> Reward with Crowded -.5<br /></li></ul><li><b>Gene 857 (850): "Go right when crowded" ("Maturing scatter from parents")</b></li><ul><li>Age changed to Embryo from Adolescent</li><li>When IT is ID 5 (IT is my parent) in Tissue 7: detl.... -> When IT is ID 0 (Self) in Tissue 2: noun....</li><li>...And you Approach it.... -> ...And you Travel east....</li><li>Punish with Crowdedness 1 -> Reward with Crowdedness -.5</li></ul></ul><p>In my breakdown of the Enhanced ChiChis, I noted their way of making babies stay near their parents (or other norns, as the case may be) while making adolescents leave their parents (other norns) was a lot more complicated than the CFF's pair of instincts. I also noted that I wasn't sure if the CFF's method actually worked or not. </p><p>As it turns out? It doesn't work. According to Dragoler, the Detail lobe these two instincts reference isn't hooked up to the combination lobe (where the actual learning happens), so it has no bearing on instincts. Creatures can't really tell whether they're looking at their parents (or siblings, or children); they just see "Norn" (Or "Grendel", or "Ettin"), similar to how they see all seeds as just "seed" and not "edible seed of a friendly plant" and "poisonous seed of a deadly weed", and so on.<br /></p><p>Since these instincts didn't work in their original forms, I decided to repurpose them into instincts to go left or right when crowded, to match how the Traveling stim now reduces crowding. It also gives babies and children an alternative way of handling crowdedness before the instincts to use elevators and doors kick in. </p><p>It's similar to how the TWBs/TCBs handle crowdedness instincts, though unlike the TWBs/TCBs RAS creatures still have an instinct to retreat from each other when crowded and that's still their strongest instinct for dealing with crowdedness. </p><ul style="text-align: left;"><li><b>Gene 862 (855): "Go home when scared"</b>: Age changed to Child from Adolescent</li><li><b>New Gene 863: "Go home when lonely"</b>: </li><ul><li>Child; Both sexes</li><li>Can mutate, duplicate, and be cut; Mutation degree: 128</li><li>When IT is ID 30 (Norn Home) in Tissue 2: noun....</li><li>...And you Approach it....</li><li>Reward with Loneliness -.5</li></ul></ul><p>Last but not least are these two instincts about heading home for reasons other than homesickness. For the first instinct, one of Evolnemesis's stated reasons for adding that instinct to the CFF was so drowning creatures had something productive to do. In line with that, I felt it made sense for it to kick on as early as possible, if not quite as early as from birth (as by default the brain structures responsible for navigation don't kick in until childhood anyway). </p><p>The new instinct is in line with everything I said when talking about the stim that reduces loneliness and fear at the peak of same-species smell, and makes it more likely lonely creatures will actually try to do something about their loneliness even if they can't see other creatures of the same species. This does sometimes result in lonely creatures endlessly pacing around their home if all the other creatures in the world have friends nearby already, but at least they're much more likely to find other creatures of the same species this way at all. </p><h2 style="text-align: center;">Conclusion</h2><div style="text-align: left;"> Compared to my past couple of genetic breakdowns, this one took a while to write up. But hopefully this is more readable than those as a result, and I found and fixed a couple issues in the genome in the process. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">Despite all the changes, the newest version of RAS doesn't reinvent the wheel (just look through both this breakdown and the one for TV1 and count how many times I said a feature came from the TWBs/TCBs), nor is it trying to. It's just seeking to be a genome that results in creatures that are interesting to watch and fixes a few of my issues with the original 2017 genome. And I feel like this time around I succeeded in that. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">Though I sure didn't think I'd be going this far when making a new base genome. I don't think I put anywhere near this amount of thought into my old base genome. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">Unless any other major problems show themselves when other people mess around with it, I feel comfortable saying this is the final version of the RAS ChiChi genome. With that thought in mind, what's next?</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Well, my top priorities are the ettin and grendel genomes, just to have a RAS version of all three species and thus a base genome to use for new breeds of all three species. But after that...I might actually try converting all the official breeds over to RAS. That wasn't something I originally planned on; my hope is that RAS remains mostly compatible with the original 2017 genome and thus removes the need. But while I was working on the ChiChi genome, I found myself full of ideas for the other official norn breeds and also the Banshee Grendels. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">I'd still also like to tackle most of <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-miscellaneous-musings.html">this list of ideas</a>, plus some ideas that either slipped my mind when I made that list or I only came up with after the fact. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">So...there's potentially a lot ahead of me still, and I can't guarantee that my motivation will hold out long enough to tackle it all. But I at least hope to finish the ettin genome and the two grendel genomes in addition to the ChiChi Norn genome. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">In the meantime, you can pick up norns with the new RAS ChiChi genome <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2548">here</a> and <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2550">here</a> (just to save you having to scroll all the way back up to the top of this very long post). If you try them out, do feel free to let me know how they perform for you!</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Until the next one, folks.<br /></div></div></div></div></div></div></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-60816995412930504432024-01-05T06:19:00.003-05:002024-01-05T06:19:35.918-05:00A New Base Genome: A Different Approach<p> When I first started playing around with the 2017 genome with the intent of turning it into my new base genome, I figured there wouldn't be much I had to do to turn it into something I'd be satisfied with. In <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-what-do-i-want.html">my own words</a>: "The 2017s feel about right to me. With any luck, figuring out their
digestive system shouldn't be too big of a hassle, and everything past
that point should be smooth sailing."</p><p>Ha. Ha ha. HAHAHAHAHAHAHAHAHAHA</p><p>A month after I initially made that post...I'm <i>still </i>not at a point where I'd consider myself satisfied with their biochemical balancing. As it turned out, my initial test version of RAS was a <i>lot </i>more prone to heart attacks then I'd like, something I only really found out when I figured I was happy with that version and started working on my ettin genome based on it. </p><p>And my frustrations with that got to the point where two weeks ago I decided to <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-back-to-zero.html">ditch working on the 2017 genome and base RAS on a CFE Gizmo genome instead</a>. That didn't work either. Sure, the Gizmos had a lot of biochemical balancing done already...but they clearly didn't account for fixing the nonfunctional anabolic steroid emitter, because after I did that the result was norns with too <i>little </i>adipose tissue. And often too little muscle tissue on top of that. So I took a brief detour to experiment on a normal CFE genome instead. Once again: too much adipose tissue, AND too much muscle tissue too.</p><p>So ultimately I wound up back with the 2017s. Going off a hint from Verm that chemical reactions scale with the amount of the reactant chemicals involved in them, my new plan was to have activase (generated from a fixed version of the "muscle energy used" emitter in addition to the activity stimuli, removing the activase from the disappointment stim entirely) react with glucose/triglyceride to produce anabolic steroid as opposed to just getting consumed outright, in a way that didn't feel as "cheaty" as the way default 2017s just consume adipose tissue and glycogen outright.<br /></p><p>...Once again, too little adipose tissue AND too little muscle tissue. Though at least this time heart attacks still feel possible, and it also feels like creatures are actually doing things, unlike <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-i-cant-stand-it-i.html">the last time I tried biochemical balancing in 2017s</a>. So it's an improvement...but is it enough of one? Or is it just a prelude to further frustration as I continue to bash my skull against a brick wall, all for something I'm not sure is even going to matter to the average player; I'm not even sure if the average player would even understand anything I just said.</p><p>The worst part about all this is that it's outright keeping me from working on the breeds I WANT to be working on. I'd much rather be working on, say, a new aquatic breed. Or maybe a RAS version of a breed that's otherwise TWB/TCB only. Or even just my base grendel genomes. But nope; I can't work on any of that while these stupid dumb boring -argh- ChiChi Norns have their biochemistry this out of whack. </p><p>So...it's clear that my current approach to working on this genome just isn't working. I'm getting extremely frustrated, and I'm going to burn out and drop the game for months if not years on end again if things keep going this way. So...what can I do instead? </p><p>Well, first things first, I definitely need a break from working on RAS. Maybe not necessarily from playing Creatures outright, though; I'm not sure I'd come back if that's my last experience prior to the break. So for a little while at least I'll just play the game normally and check out some cool breeds and other mods that I haven't really looked at before. <br /></p><p>My other thought is that I'm trying to rush things. My original base genome was made over the course of years, as I made changes and added features from other breeds that I liked. I'm thinking maybe that's an approach worth taking again, if I can find a base genome that I feel comfortable working with that also won't need a ton of work to get back to the spot where my old one was. </p><p>I still feel the 2017s feel mostly right to me, biochemical weirdness aside. However, I've also considered going with the CFF genome instead. The reason, weirdly enough, is that the CFF go with the vanilla's way of handling hunger while still having the other fixes I'd want. At this point, I feel like trying to balance the amount of hunger from the original trace emitters and stimuli would be easier than the 2017s' way. <br /><br />In any event...hopefully my next post about all this is a happier one. Until then, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com1tag:blogger.com,1999:blog-6744468590191071018.post-54210031399513142612023-12-25T14:34:00.002-05:002023-12-25T14:34:22.289-05:00A Look at the Enhanced ChiChi Norn<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhtUzJUR0XLjuAyvpuxlMJOGCNTVRDeLRJyj-0zN6qtcdQX5hsX5KzAbVzhdM_IY5YD7GnDSI57gxfQikXfHYE8pOksQfn6n_KfXaqiwUz2igh4I3ZQYJuQfuFGB1Hnhl7J2m40Nh_HajfT3j46Y_O6PDaveMrIMMPo3DAl3dX6Z9B9BUWFwThd2Q9X-8YY/s177/EnhancedChiChiNorns.png" imageanchor="1" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="177" data-original-width="174" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhtUzJUR0XLjuAyvpuxlMJOGCNTVRDeLRJyj-0zN6qtcdQX5hsX5KzAbVzhdM_IY5YD7GnDSI57gxfQikXfHYE8pOksQfn6n_KfXaqiwUz2igh4I3ZQYJuQfuFGB1Hnhl7J2m40Nh_HajfT3j46Y_O6PDaveMrIMMPo3DAl3dX6Z9B9BUWFwThd2Q9X-8YY/s16000/EnhancedChiChiNorns.png" /></a></div><div>Merry Christmas! Alas, as I'm still relearning all the ropes (and can't actually upload anything to my download site right now) I don't have anything to release today as I once tried to make a tradition of doing. However, in lieu of releasing a mod I instead decided to release a gift of information. Namely, doing a genetic breakdown of one of the oldest attempts at improving the base C3/DS genome, the <a href="https://creatures.wiki/Enhanced_ChiChi_Norn">Enhanced ChiChi Norn</a>, by Daikaze, Ratboy, and Silvak.<br /></div><div><br /></div><div>Well, I said I was thinking about it my last post. I'm thinking about it now, and more importantly I feel motivated enough to do it now. I'm gonna strike while the iron's hot. <br /></div><div><br /></div><div>As I just linked their Creatures Wiki article I'm not going to repeat what that says too much. I'll just quote what Daikaze wrote in their readme:<br /><br /><blockquote>"I got tired of some of the major issues that developed over time with creatures so I fixed it."</blockquote></div><div><br /></div><div>Short, simple, and to the point. Well, actually they went into everything that was changed about the genome immediately after that, but I'll get to that in a minute. <br /></div><div><br /></div><div>In a lot of ways, the Enhanced ChiChi Norn feels very much like a proto-CFF. A lot of the problems the CFF would later go on to fix are addressed here, sometimes in almost the exact same way. That being said, the Enhanced ChiChi Norn also brings some new features of their own that later base genomes never sought to replicate, some of which I think would be nice to have in RAS.</div><div><br /></div><div>So without further ado, let's take a look. As opposed to going through it by gene type like I did for <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-final-results.html">the comparison between RAS 1.0 and the original 2017 genome</a>, I'll instead go by the order each particular feature is listed in the Enhanced ChiChi Norn's readme. <br /></div><h2 style="text-align: center;">The New Brain Lobes</h2><blockquote>"The major change is the addition of some brain genetics (thanks to Ratboy). These new genetics cause the norns to need other norns while young and during the teen years the norns will try and avoid other norns." </blockquote><p>As Gene Compare continues to be very bad at showing brain differences, here's the update rules of the two new brain lobes. There's more to them than this (brain genes have multiple tabs), but I feel this is the most important part.</p><p><table align="center" cellpadding="0" cellspacing="0" class="tr-caption-container" style="margin-left: auto; margin-right: auto;"><tbody><tr><td style="text-align: center;"><a href="https://blogger.googleusercontent.com/img/a/AVvXsEi7G4JaG3DBp9uVPaUU6bv4hXBJShs6T35sQGiqTYZRHNHGWKFHIU0caLFPkyT_kdc_WHWfJnouahtda-Kgu9YgnF0N1Ej7QsIAp8sgobQulJwEd_WqR5DFTkTXiivgylpFaHoxyyytTBvUrwfNJBsPwFtvzE0cKkR9cIIcuNILQCVSSNzBaZ1n331ngn0r" style="margin-left: auto; margin-right: auto;"><img alt="" data-original-height="481" data-original-width="1033" height="149" src="https://blogger.googleusercontent.com/img/a/AVvXsEi7G4JaG3DBp9uVPaUU6bv4hXBJShs6T35sQGiqTYZRHNHGWKFHIU0caLFPkyT_kdc_WHWfJnouahtda-Kgu9YgnF0N1Ej7QsIAp8sgobQulJwEd_WqR5DFTkTXiivgylpFaHoxyyytTBvUrwfNJBsPwFtvzE0cKkR9cIIcuNILQCVSSNzBaZ1n331ngn0r" width="320" /></a></td></tr><tr><td class="tr-caption" style="text-align: center;">I think I somewhat understand this?<br /></td></tr></tbody></table></p><p>Each of these brain lobes has an emitter gene tied to it. The emitters in question look like this:</p><p>820 New in file 2 44 0 Emb B 128 0 Organ# = 21, Brain, Brain Lobe 15, Cell 0 - state 1, chem=Loneliness, thresh=77, samp=15, gain=26, features=Digital (0) </p><p>821 New in file 2 45 0 Ado B 128 0 Organ# = 21, Brain, Brain Lobe 16, Cell 0 - state 1, chem=Crowded, thresh=77, samp=20, gain=26, features=Digital (0)</p><p>As a brain edit, it's more simplistic than the more advanced and elaborate brain edits that went into the CFE and beyond, but it's still a lot more than I'd ever be able to do with the brain. It's also a lot more complicated than the CFF's solution to the same problem of making young norns stick around their parents (or each other, as the case may be) while older norns strike out on their own. In the CFF, it's just a pair of instincts; no brain edits needed (granted, I'm not sure how well these instincts work if they work at all; I didn't seem to notice any real difference in young norn behavior in my 2017 feral run).</p><h2 style="text-align: center;">The Hunger Overwhelmsion Organ</h2><blockquote>"I've added a hunger > all organ. This organ functions like the fearly and painly organs. The purpose is simply to ensure that norns eat instead of breed."</blockquote><p> The organ in question looks like this:</p><p>824 New in file 2 2 0 Emb B Mut 128 0 Organ# = 22, Clockrate = 128, Life force repair rate = 20, Life force start value = 128, Biotick start = 238, ATP damage coefficient = 128</p><p>And here's all the genes within it:</p><h3 style="text-align: left;">Reactions</h3><div style="text-align: left;">825 New in file 2 2 0 Emb B 128 0 Organ# = 22, 1*Coldness + 1*<NONE> => 1*Coldness backup + 1*<NONE>; half-life = 18 <br /></div><div style="text-align: left;">826 New in file 2 4 0 Emb B 128 0 Organ# = 22, 1*Hotness + 1*<NONE> => 1*Hotness backup + 1*<NONE>; half-life = 18 <br /></div><div style="text-align: left;">827 New in file 2 14 0 Emb B 128 0 Organ# = 22, 1*Tiredness + 1*<NONE> => 1*Tiredness backup + 1*<NONE>; half-life = 18 <br /></div><div style="text-align: left;">828 New in file 2 19 0 Emb B 128 0 Organ# = 22, 1*Loneliness + 1*<NONE> => 1*Loneliness backup + 1*<NONE>; half-life = 18 <br /></div><div style="text-align: left;">829 New in file 2 37 0 Emb B 128 0 Organ# = 22, 1*Crowded + 1*<NONE> => 1*Crowded backup + 1*<NONE>; half-life = 18 <br /></div><div style="text-align: left;">830 New in file 2 61 0 Emb B 128 0 Organ# = 22, 1*Boredom + 1*<NONE> => 1*Boredom backup + 1*<NONE>; half-life = 18 <br /></div><div style="text-align: left;">831 New in file 2 71 0 Emb B 128 0 Organ# = 22, 1*Sex drive + 1*<NONE> => 1*Sex drive backup + 1*<NONE>; half-life = 18</div><h3 style="text-align: left;">Receptors</h3><div> 832 New in file 2 138 0 Emb B 128 0 Organ# = 22, Organ, Organ, Clock Rate, chem=Hunger for protein, thresh=30, nom=0, gain=255, features=Analogue (0) <br /> 833 New in file 2 199 0 Emb B 128 0 Organ# = 22, Organ, Organ, Clock Rate, chem=Hunger for carbohydrate, thresh=30, nom=0, gain=255, features=Analogue (0) <br /> 834 New in file 2 202 0 Emb B 128 0 Organ# = 22, Organ, Organ, Clock Rate, chem=Hunger for fat, thresh=30, nom=0, gain=255, features=Analogue (0) <br /> 835 New in file 2 203 0 Emb B MutDupCut 128 0 Organ# = 22, Organ, Organ, Repair Rate, chem=Prostaglandin, thresh=0, nom=0, gain=143, features=Analogue (0) <br /> 836 New in file 2 204 0 Emb B MutDupCut 128 0 Organ# = 22, Organ, Organ, Injury, chem=Antigen 1, thresh=0, nom=0, gain=53, features=Analogue (0) <br /> 837 New in file 2 205 0 Emb B MutDupCut 128 0 Organ# = 22, Organ, Organ, Injury, chem=Antigen 3, thresh=0, nom=0, gain=53, features=Analogue (0)</div><div><br /></div><div>If you're unfamiliar with the way the overwhelmsion organs work, they're normally inactive unless their corresponding drive(s) are high, as determined by the clock rate receptors. Then they work to convert other drives into "backup" drives that the creature doesn't feel, leaving them feeling only the corresponding drives. Once they've dealt with it, another organ known as Constitutive Drive Maintenance works to convert the backups back into their original drives.</div><div><br /></div><div>There's also a receptor to make Prostaglandin heal the organ and Antigens 1 and 3 damage it. Most organs in any given C3/DS genome have genes like this, as do the other two new organs in the Enhanced ChiChi genome. There's not much to say about them, so I won't mention them for the other two organs.<br /></div><div><br /></div><div>The Enhanced ChiChi Norns' using an organ like this predates the CFF's usage of it by eight years, and as such it's not entirely identical to the CFF's version (notably, the receptors that fire the organ up when the hunger drives get high are analogue, meaning that the organ gradually ramps up its speed as the hunger drives increase. In the CFF these receptors are digital, making the organ work in an on/off fashion). Nevertheless, it goes to show what a good idea it was to have made two separate appearances.</div><h2 style="text-align: center;">The Enhancement Gland</h2><blockquote>"There is an organ labeled "new organ" and it is simply an all-round organ. I use the "new organ" to store various genes that don't need a completely new organ."</blockquote><p>This organ isn't actually called the "Enhancement Gland" in the Enhanced ChiChi Norns; as the readme says, it's just called the "New Organ." I'm giving it the name I gave its counterpart in RAS 2.0, as that's a little more fitting as to what it's meant to do. <br /></p><p>The organ itself looks like this:</p><p>838 New in file 2 3 0 Emb B Mut 128 0 Organ# = 23, Clockrate = 128, Life force repair rate = 20, Life force start value = 128, Biotick start = 62, ATP damage coefficient = 128</p><p>It's placed underneath the Hunger Overwhelmsion organ, as I've done in RAS 2.0. Its rough equivalent in the CFF genome would be the miscellaneous reactions, receptors, etc. that the Genetics Kit lists as being part of the brain (though they're actually part of the Muscles, as the brain organ effectively doesn't exist).</p><p>As for what the Enhancement Gland does in the Enhanced ChiChi Norns....</p><h3 style="text-align: left;">Go Up When Drowning</h3><div>839 New in file 2 213 0 Chi B MutDupCut 128 0 Organ# = 23, Creature, Drives, Up, chem=Air, thresh=78, nom=255, gain=255, features=Inverted Digital (0)</div><div><br /></div><div>A change that only needed one gene to implement. In short: when air gets low, the norn feels a desire to go up (use an elevator).</div><div><br /></div><div>I should note that doing it this way is not the same thing as using the actual Up drive chemical (as an equivalent gene in the 2017 genome does). The actual drive chemical has some nuances that aren't replicated here (particularly related to how the brain handles the hierarchy of drives), though the norn still feels the desire to go up and will express as such if asked. <br /></div><h3 style="text-align: left;">Fear of Death</h3><div>840 New in file 2 214 0 Emb B MutDupCut 128 0 Organ# = 23, Creature, Drives, Fear, chem=ATP, thresh=26, nom=255, gain=255, features=Inverted Digital (0) <br />841 New in file 2 215 0 Emb B MutDupCut 128 0 Organ# = 23, Creature, Drives, Fear, chem=Energy, thresh=45, nom=255, gain=255, features=Inverted Digital (0)</div><div><br /></div><div>These are similar to the Go Up When Drowning gene; when ATP or Energy get low, the norn will feel scared, will have a scared facial expression, and will express as such if asked. <br /></div><div><br /></div><div>Also like the Go Up When Drowning gene, this isn't the same as using the actual Fear drive chemical. A norn scared this way won't be using the special gait associated with fear, the Fearly Overwhelmsion organ won't start backing up drives, and so on. <br /></div><h3 style="text-align: left;">The Elderly Become Weak</h3><div>842 New in file 2 105 0 Sen B MutDupCut 128 0 Organ# = 23, 1*<NONE> + 1*<NONE> => 1*Pain + 1*<NONE>; half-life = 79 <br />843 New in file 2 106 0 Sen B MutDupCut 128 0 Organ# = 23, 1*<NONE> + 1*<NONE> => 1*Crowded + 1*<NONE>; half-life = 58 <br />844 New in file 2 107 0 Sen B MutDupCut 128 0 Organ# = 23, 1*Loneliness + 1*<NONE> => 1*<NONE> + 1*<NONE>; half-life = 58 <br />845 New in file 2 108 0 Old B MutDupCut 128 0 Organ# = 23, 1*Prostaglandin + 1*<NONE> => 1*<NONE> + 1*<NONE>; half-life = 58 <br />846 New in file 2 109 0 Old B MutDupCut 128 0 Organ# = 23, 1*<NONE> + 1*<NONE> => 1*Tiredness + 1*<NONE>; half-life = 72</div><div><br /></div><div>All of these chemical reactions amount to the same thing: older norns find living more difficult, and also prefer to be alone when they die. <br /></div><div><br /></div><div>This is a feature I've strongly considered putting in RAS, not just for the realism but also for a more interesting way to help make generations move faster. I'd probably do it in a manner that feels more streamlined and takes less new genes if I could think of a way to do so, though. <br /></div><h3 style="text-align: left;">The Sick Are Exiled</h3><div>847 New in file 2 110 0 Emb B 128 0 Organ# = 23, 1*Antigen 0 + 1*<NONE> => 1*Antigen 0 + 1*Crowded; half-life = 38 <br />848 New in file 2 111 0 Emb B 128 0 Organ# = 23, 1*Antigen 1 + 1*<NONE> => 1*Antigen 1 + 1*Crowded; half-life = 38 <br />849 New in file 2 112 0 Emb B 128 0 Organ# = 23, 1*Antigen 2 + 1*<NONE> => 1*Antigen 2 + 1*Crowded; half-life = 38 <br />850 New in file 2 113 0 Emb B 128 0 Organ# = 23, 1*Antigen 3 + 1*<NONE> => 1*Antigen 3 + 1*Crowded; half-life = 38 <br />851 New in file 2 114 0 Emb B 128 0 Organ# = 23, 1*Antigen 4 + 1*<NONE> => 1*Antigen 4 + 1*Crowded; half-life = 38 <br />852 New in file 2 115 0 Emb B 128 0 Organ# = 23, 1*Antigen 5 + 1*<NONE> => 1*Antigen 5 + 1*Crowded; half-life = 38 <br />853 New in file 2 116 0 Emb B 128 0 Organ# = 23, 1*Antigen 6 + 1*<NONE> => 1*Antigen 6 + 1*Crowded; half-life = 38 <br />854 New in file 2 117 0 Emb B 128 0 Organ# = 23, 1*Antigen 7 + 1*<NONE> => 1*Antigen 7 + 1*Crowded; half-life = 38</div><div><br /></div><div>Another batch of chemical reactions that make norns infected with the antigens feel crowded, hopefully to encourage them to leave the herd and thus lower the risk they'll spread the bacteria around via coughing/sneezing. <br /></div><div><br /></div><div>Don't have much commentary to add here, really. <br /></div><h2 style="text-align: center;">The Breeding Enhanced Organ</h2><blockquote>"There is also a new breeding organ. This organ reduces thew(sic) ability for older norns to breed."</blockquote><p>The organ itself:</p><p>858 New in file 2 4 0 Emb B Mut 128 0 Organ# = 24, Clockrate = 128, Life force repair rate = 20, Life force start value = 128, Biotick start = 119, ATP damage coefficient = 128 <br /></p><p>And all the genes in it (barring the Prostaglandin/Antigen receptors that I'm not showing):</p><p>859 New in file 2 118 0 Old M MutDupCut 128 0 Organ# = 24, 1*Testosterone + 1*<NONE> => 1*<NONE> + 1*<NONE>; half-life = 74 <br />860 New in file 2 119 0 Old F MutDupCut 128 0 Organ# = 24, 1*Oestrogen + 1*<NONE> => 1*<NONE> + 1*<NONE>; half-life = 74 <br />861 New in file 2 120 0 Sen B MutDupCut 128 0 Organ# = 24, 1*Sex drive + 1*<NONE> => 1*<NONE> + 1*<NONE>; half-life = 74 <br />862 New in file 2 121 0 Sen B MutDupCut 128 0 Organ# = 24, 1*Arousal Potential + 1*<NONE> => 1*<NONE> + 1*<NONE>; half-life = 74</p><p>863 New in file 2 209 0 Emb B MutDupCut 128 0 Organ# = 24, Organ, Organ, Injury, chem=Heavy Metals, thresh=0, nom=0, gain=25, features=Analogue (0)</p><p>In a similar vein to the "Elderly Become Weak" reactions in the Enhancement Gland, these new reactions greatly reduce the fertility of older norns. <br /></p><p>Also present is a receptor that makes the organ take damage from Heavy Metals, lining it up with the Gonad/Uterus's similar receptors. <br /></p><p>I'm not quite sure why this needed to be an entirely new organ as opposed to just being part of the Enhancement Gland. Organizational purposes? To better line it up with the Gonad/Uterus?</p><h2 style="text-align: center;">New Instincts and Stimuli</h2><blockquote>"I've included a few stimulus and instinct genes as well. These genes are responsible for some interesting things."</blockquote><p>871 New in file 2 63 0 Emb B MutDupCut 128 0 I am travelling (periodic) (23) causes sig=26 GS neu=0 int=0, ,,,0 => 1*Hunger for protein + 1*Hunger for carbohydrate + 1*Hunger for fat + 0*<NONE> <br /> 872 New in file 2 64 0 Emb B MutDupCut 128 0 I am travelling (periodic) (23) causes sig=26 GS neu=0 int=0, ,,,112 => -1*Hunger for protein + -1*Hunger for carbohydrate + -1*Hunger for fat + 0*<NONE></p><p>These two new stimuli genes are supposed to work in tandem by lowering the norn's hunger when it travels while also silently increasing it for no overall change, hopefully encouraging the Enhanced ChiChi to move more. <br /></p><p>The base idea isn't bad, if maybe a little flawed (it could lead to norns starving to death because they think they're getting less hungry simply by moving). However...they don't actually work the way they're intended. If there's multiple stimulus genes for the same stimulus, the gene with the highest number takes priority and overrides the rest. So effectively, Enhanced ChiChi Norns just get hungrier from traveling, though as the increases are silent they won't recognize that. <br /></p><p>I should also note that the Travelling stim almost never fires. You'd think it'd fire as creatures make their way across the world to things like food sources, but nope. It's just for moving left/right with no target in mind, which creatures do a lot less than you'd think. <br /></p><p>869 New in file 2 61 0 You B MutDupCut 128 0 I have mated (45) causes sig=0 GS neu=9 int=30, ,,,16 => -62*Testosterone + 0*<NONE> + 0*<NONE> + 0*<NONE> <br />870 New in file 2 62 0 You B MutDupCut 128 0 I have mated (45) causes sig=0 GS neu=0 int=30, ,,,16 => -62*Oestrogen + 0*<NONE> + 0*<NONE> + 0*<NONE></p><p>This pair of stimulus genes is meant to help tank the Enhanced ChiChi's fertility after mating. This is meant to work in tandem with an edit to the original "I've mated" stimulus (vanilla ChiChi on top; Enhanced ChiChi on bottom):</p><p>412 Different in file 1 24 0 You B MutDupCut 128 0 I have mated (45) causes sig=0 GS neu=9 int=30, ,,,192 => -50*Sex drive + 62*Libido lowerer + -7*Loneliness + 7*Tiredness <br />412 Different in file 2 24 0 You B MutDupCut 128 0 I have mated (45) causes sig=0 GS neu=9 int=30, ,,,192 => -50*Sex drive + 124*Libido lowerer + -7*Loneliness + 7*Tiredness</p><p>Alas, it runs into the exact same issue the traveling stimuli did in that only one of them actually does anything. In this case, it's only the one that reduces Oestrogen (the female fertility chemical). If that was set to female while the one that reduces Testosterone was set to male they'd both work for their respective genders, but as it is female Enhanced ChiChis get a slight fertility hit while males don't even have their sex drive lowered. <br /></p><p>867 New in file 2 59 0 Emb B MutDupCut 128 0 Creature slaps me (4) causes sig=0 GS neu=0 int=0, ,,,16 => 70*Punishment + 0*<NONE> + 0*<NONE> + 0*<NONE> <br />868 New in file 2 60 0 Emb B MutDupCut 128 0 Creature pats me (2) causes sig=0 GS neu=0 int=0, ,,,16 => 0*Reward + 37*<NONE> + 0*<NONE> + 0*<NONE></p><p>These two stimuli are meant to make Enhanced ChiChis feel punished or rewarded when slapped or patted by other creatures, respectively. I think I understand the idea behind this change; my guess is that it's meant to discourage taking actions that would lead to other creatures slapping them and encourage actions that lead to pats from other creatures. Alas, I don't think creatures are sophisicated enough to understand that kind of cause and effect.</p><p>And yet again, we run into the issue where there can only be one stimulus gene for each stimuli. These two genes overwrite the vanilla "I've been slapped" and "I've been patted" stimuli, so Enhanced ChiChi Norns <i>only </i>get punishment from being slapped by other creatures and reward from being patted. <br /></p><p>873 New in file 2 30 0 You B MutDupCut 128 0 [03: stim] [Cell 23 (Dispenser)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for protein] => Cell 1 (push); unknown = 90. <br />874 New in file 2 35 0 You B MutDupCut 128 0 [03: stim] [Cell 23 (Dispenser)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for carbohydrate] => Cell 1 (push); unknown = 90.</p><p>A pair of new instincts to encourage Enhanced ChiChi Norns to use vendors when hungry for anything, not just for fat like how it is in vanilla ChiChi Norns. <br /></p><p>503 Different in file 1 27 0 Emb B MutDupCut 128 0 [03: stim] [<b>Cell 34 (Something34)</b>] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); unknown = 86. <br />503 Different in file 2 27 0 Emb B MutDupCut 128 0 [03: stim] [<b>Cell 27 (Teleporter)</b>] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); unknown = 86. <br />504 Different in file 1 28 0 Emb B MutDupCut 128 0 [03: stim] [<b>Cell 34 (Something34)</b>] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Crowded] => Cell 1 (push); unknown = 86. <br />504 Different in file 2 28 0 Emb B MutDupCut 128 0 [03: stim] [<b>Cell 27 (Teleporter)</b>] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Crowded] => Cell 1 (push); unknown = 86. <br />505 Different in file 1 29 0 Emb B MutDupCut 128 0 [03: stim] [<b>Cell 34 (Something34)</b>] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Pain] => Cell 1 (push); unknown = 86. <br />505 Different in file 2 29 0 Emb B MutDupCut 128 0 [03: stim] [<b>Cell 27 (Teleporter)</b>] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Pain] => Cell 1 (push); unknown = 86.</p><p>875 New in file 2 36 0 Emb B MutDupCut 128 0 [03: stim] [Cell 34 (Something34)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); unknown = 86. <br />876 New in file 2 37 0 Emb B MutDupCut 128 0 [03: stim] [Cell 34 (Something34)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Crowded] => Cell 1 (push); unknown = 86. <br />877 New in file 2 38 0 Emb B MutDupCut 128 0 [03: stim] [Cell 34 (Something34)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Pain] => Cell 1 (push); unknown = 86. <br /></p><p>The vanilla ChiChi instincts to push portals has been changed to instead be about teleporters (there is a distinction between the two; in vanilla, the difference seems to be that teleporters are for getting around one world while portals are for warping creatures. Of course, the line gets a lot blurrier when third-party agents are thrown into the mix), not that it matters since the old portal instincts are now in new instincts. <br /></p><p>The vanilla caption for these genes is very confusing (they're labeled "push teleporter when X" when they actually refer to portals), so presumably that's why the portal genes are new while the teleporter instincts are edited and not the other way around. <br /></p><p>This is a change that went on to be featured in the 2017 genome and that I'm planning on adding to RAS 2.0. Alas, the vanilla teleporters don't actually provide the same stim that the Warp Portals do, but it's still great to encourage creatures to actually move around the Shee Ark/Capillata more. <br /></p><p>878 New in file 2 39 0 Chi B MutDupCut 128 0 [03: stim] [Cell 36 (Norn)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Anger] => Cell 13 (Hit); unknown = 0. <br />879 New in file 2 40 0 Chi B MutDupCut 128 0 [03: stim] [Cell 38 (Ettin)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Anger] => Cell 13 (Hit); unknown = 0.</p><p>Enhanced ChiChis have extra instincts to lash out at other norns and ettins as opposed to just grendels. Makes them a little more volatile than vanilla ChiChis, not that they're any more prone to getting angry than vanilla ChiChis are. <br /></p><p>518 Different in file 1 48 0 Emb B MutDupCut 128 0 Activate machine (90) causes sig=0 GS neu=0 int=0, ,,,0 => -12*Boredom + 2*Hunger for fat + <b>0*<NONE></b> + 0*<NONE> <br />518 Different in file 2 48 0 Emb B MutDupCut 128 0 Activate machine (90) causes sig=0 GS neu=0 int=0, ,,,0 => -12*Boredom + 2*Hunger for fat + <b>-3*Fear</b> + 0*<NONE> <br />519 Different in file 1 49 0 Chi B MutDupCut 128 0 Got machine (91) causes sig=0 GS neu=0 int=0, ,,,0 => -12*Boredom + 2*Hunger for fat + <b>0*<NONE></b> + 0*<NONE> <br />519 Different in file 2 49 0 Chi B MutDupCut 128 0 Got machine (91) causes sig=0 GS neu=0 int=0, ,,,96 => -12*Boredom + 2*Hunger for fat + <b>-5*Crowded</b> + 0*<NONE> <br />520 Different in file 1 50 0 Chi B MutDupCut 128 0 Got creature egg (93) causes sig=0 GS neu=0 int=0, ,,,0 => -12*Boredom + <b>0*<NONE></b> + 0*<NONE> + 0*<NONE> <br />520 Different in file 2 50 0 Chi B MutDupCut 128 0 Got creature egg (93) causes sig=0 GS neu=0 int=0, ,,,0 => -12*Boredom + <b>1*Punishment</b> + 0*<NONE> + 0*<NONE></p><p>Not mentioned in the readme are these small adjustments to certain stimuli genes. Enhanced ChiChis get a little more out of interacting with machines than vanillas (pushing them drops fear while grabbing them drops crowded), while they're very slightly punished for picking up creature eggs.<br /></p><p>466 Different in file 1 18 0 Emb B MutDupCut 128 0 [03: stim] [Cell 0 (Myself - norn)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Pain] => <b>Cell 0 (Quiescent)</b>; unknown = 0. <br />466 Different in file 2 18 0 Emb B MutDupCut 128 0 [03: stim] [Cell 0 (Myself - norn)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Pain] => <b>Cell 5 (run)</b>; unknown = 0. <br />483 Different in file 1 8 0 Emb B MutDupCut 128 0 [03: stim] [Cell 12 (Button)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 62.</b> <br />483 Different in file 2 8 0 Emb B MutDupCut 128 0 [03: stim] [Cell 12 (Button)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 122.</b> <br />501 Different in file 1 10 0 Ado B MutDupCut 128 0 [03: stim] [Cell 24 (Tool)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 105.</b> <br />501 Different in file 2 10 0 Ado B MutDupCut 128 0 [03: stim] [Cell 24 (Tool)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 0.</b></p><p>Also not mentioned in the readme are these changed instincts from vanilla ChiChis. Specifically, Enhanced ChiChis are encouraged to run when in pain, have a strongly weakened instinct to push buttons when bored, and a stronger instinct to push tools (like the powerups in C3 standalone). <br /></p><p>The idea behind the pain instinct is sound, though pain is a little context sensitive (running from a grendel makes sense, but running when you've just eaten garbage not so much) and the instinct is "Run self" rather than something like "Run grendel." The other two instincts aren't super notable in comparison, though it should be noted DS doesn't have powerups regardless of whether you're playing undocked or docked. I guess it does encourage Enhanced ChiChis to use the Knowledge Stones around the Shee Ark in docked worlds.</p><h2 style="text-align: center;">Enhanced Immunities</h2><blockquote>"The norns also have enhanced immunities."</blockquote><p>This edit takes the form of two edits. Two changed reaction genes:</p><p> 345 Different in file 1 85 0 Emb B MutDupCut 128 0 Organ# = 18, 2*Antigen 0 + 1*<NONE> => <b>12*Antibody 0</b> + 1*Histamine B; half-life = 40 <br /> 345 Different in file 2 85 0 Emb B MutDupCut 128 0 Organ# = 18, 2*Antigen 0 + 1*<NONE> => <b>2*Antibody 0</b> + 1*Histamine B; half-life = 40 <br /> 347 Different in file 1 86 0 Emb B MutDupCut 128 0 Organ# = 18, 2*Antigen 1 + 1*<NONE> => <b>12*Antibody 1</b> + 1*Histamine A; half-life = 41 <br /> 347 Different in file 2 86 0 Emb B MutDupCut 128 0 Organ# = 18, 2*Antigen 1 + 1*<NONE> => <b>2*Antibody 1</b> + 1*Histamine A; half-life = 41</p><p>And some changed initial concentrations:</p><p>122 Different in file 1 17 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 1 is <b>56.</b> <br />122 Different in file 2 17 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 1 is <b>100</b>. <br />123 Different in file 1 18 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 2 is <b>49</b>. <br />123 Different in file 2 18 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 2 is <b>64</b>. <br />124 Different in file 1 19 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 3 is <b>52</b>. <br />124 Different in file 2 19 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 3 is <b>68</b>. <br />125 Different in file 1 20 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 4 is <b>50</b>. <br />125 Different in file 2 20 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 4 is <b>66</b>. <br />126 Different in file 1 21 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 5 is <b>57</b>. <br />126 Different in file 2 21 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 5 is <b>73</b>. <br />127 Different in file 1 22 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 6 is <b>29</b>. <br />127 Different in file 2 22 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 6 is <b>45</b>. <br />128 Different in file 1 23 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 7 is <b>49</b>. <br />128 Different in file 2 23 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 7 is <b>65</b>. <br />135 Different in file 1 25 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 0 is <b>96</b>. <br />135 Different in file 2 25 0 Emb B MutDupCut 128 0 Initial concentration of Antibody 0 is <b>102</b>.</p><p>Initial concentration genes determine what chemicals a creature is born with and serve no further purpose past that point (they can also be set to kick on at a later life stage and have a similar effect then, though I haven't seen many breeds take advantage of this). As you can see, Enhanced ChiChi Norns are born with more antibodies than vanilla ChiChis. <br /></p><p>The reactions to produce Antibodies 0 and 1 are also changed...but to me it looks like they're actually weaker than vanilla ChiChis, rather than stronger. Either it's a mistake or I'm just misunderstanding how chemical reactions work; either possibility feels likely to me. <br /></p><h2 style="text-align: center;">Other Miscellaneous Changes</h2><div>188 Different in file 1 60 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 10, Creature, Somatic, Become a child, chem=Life, thresh=229, nom=119, gain=255, features=Inverted Digital (0) <br />188 Different in file 2 60 0 Emb B 128 0 Organ# = 10, Creature, Somatic, Become a child, chem=Life, thresh=229, nom=119, gain=255, features=Inverted Digital (0) <br />189 Different in file 1 62 0 Chi B <b>MutDupCut </b>128 0 Organ# = 10, Creature, Somatic, Become an adolescent, chem=Life, thresh=194, nom=116, gain=255, features=Inverted Digital (0) <br />189 Different in file 2 62 0 Chi B 128 0 Organ# = 10, Creature, Somatic, Become an adolescent, chem=Life, thresh=194, nom=116, gain=255, features=Inverted Digital (0) <br />190 Different in file 1 63 0 Ado B <b>MutDupCut </b>128 0 Organ# = 10, Creature, Somatic, Become a youth, chem=Life, thresh=165, nom=128, gain=255, features=Inverted Digital (0) <br />190 Different in file 2 63 0 Ado B 128 0 Organ# = 10, Creature, Somatic, Become a youth, chem=Life, thresh=165, nom=128, gain=255, features=Inverted Digital (0) <br />191 Different in file 1 64 0 You B <b>MutDupCut</b> 128 0 Organ# = 10, Creature, Somatic, Become an adult, chem=Life, thresh=136, nom=128, gain=255, features=Inverted Digital (0) <br />191 Different in file 2 64 0 You B 128 0 Organ# = 10, Creature, Somatic, Become an adult, chem=Life, thresh=136, nom=128, gain=255, features=Inverted Digital (0) <br />192 Different in file 1 65 0 Adu B <b>MutDupCut</b> 128 0 Organ# = 10, Creature, Somatic, Become old, chem=Life, thresh=19, nom=128, gain=255, features=Inverted Digital (0) <br />192 Different in file 2 65 0 Adu B 128 0 Organ# = 10, Creature, Somatic, Become old, chem=Life, thresh=19, nom=128, gain=255, features=Inverted Digital (0) <br />193 Different in file 1 66 0 Old B <b>MutDupCut </b>128 0 Organ# = 10, Creature, Somatic, Become senile, chem=Life, thresh=10, nom=128, gain=255, features=Inverted Digital (0) <br />193 Different in file 2 66 0 Old B 128 0 Organ# = 10, Creature, Somatic, Become senile, chem=Life, thresh=10, nom=128, gain=255, features=Inverted Digital (0) <br />194 Different in file 1 67 0 Sen B <b>MutDupCut</b> 128 0 Organ# = 10, Creature, Somatic, Die of old age, chem=Life, thresh=5, nom=112, gain=255, features=Inverted Digital (0) <br />194 Different in file 2 67 0 Sen B 128 0 Organ# = 10, Creature, Somatic, Die of old age, chem=Life, thresh=5, nom=112, gain=255, features=Inverted Digital (0) <br />197 Different in file 1 70 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 10, Creature, Immune, Die if non-zero, chem=Energy, thresh=13, nom=255, gain=255, features=Inverted Digital (0) <br />197 Different in file 2 70 0 Emb B 128 0 Organ# = 10, Creature, Immune, Die if non-zero, chem=Energy, thresh=13, nom=255, gain=255, features=Inverted Digital (0) <br />196 Different in file 1 163 0 Emb B <b>MutDup</b> 128 0 Organ# = 10, Creature, Immune, Die if non-zero, chem=ATP, thresh=19, nom=255, gain=255, features=Inverted Digital (0) <br />196 Different in file 2 163 0 Emb B 128 0 Organ# = 10, Creature, Immune, Die if non-zero, chem=ATP, thresh=19, nom=255, gain=255, features=Inverted Digital (0) <br />198 Different in file 1 158 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 10, Creature, Immune, Die if non-zero, chem=90, thresh=236, nom=0, gain=255, features=Digital (0) <br />198 Different in file 2 158 0 Emb B 128 0 Organ# = 10, Creature, Immune, Die if non-zero, chem=90, thresh=236, nom=0, gain=255, features=Digital (0)</div><div><br /></div><div>These are all of the receptors in the Time Line organ. Namely, the receptors that control the rate the creature ages, as well as death from low energy, low ATP, or high Wounded (chemical 90 in Gene Compare). In the Enhanced ChiChi Norns, these are set to not be able to mutate.</div><div><br /></div><div>This is a change that went on to be included in the CFE and beyond, and it's one I highly approve of. As nice as it could've been to allow a creature's lifespan to change via mutation, all too often a mutation to one of these genes just results in an immortal creature (particularly if one of the aging genes gets mutated to affect a different lifestage; if, for example, the gene that tells creatures to age to child from baby gets mutated to age to adolescence instead, the creature gets stuck in the baby lifestage as it needs to be a child to become an adolescent but there's no gene that tells it to become a child). <br /></div><div><br /></div><div>880 New in file 2 2 0 You F MutDupCut 128 0 [02: noun] [Cell 29 (Creature egg)] + [07: detl] [Cell 1] + [Brain Lobe 255] [Cell 0] => 255*Anger + 0*<NONE> + 0*<NONE> + 0*<NONE>; Rate = 1.</div><div><br /></div><div>This is a new neuroemitter in the Enhanced ChiChis, meant to make them extremely angry whenever they see another creature pick up a creature egg. Presumably, this is meant to work in tandem with the previously mentioned stimulus gene that punishes them for picking up eggs. Sure is a funny contrast to how Gizmos, 2017s, and TWBs/TCBs all have genes to <i>encourage </i>egg gathering, huh?</div><div><br /></div><div>Alas, neuroemitters don't actually work. So this gene does nothing.</div><div><br /></div><div>262 Different in file 1 20 0 Emb B MutDupCut 128 0 Organ# = 15, <b>1*Pain</b> + 1*<NONE> => 1*Hunger for protein backup + 1*<NONE>; half-life = 18 <br />262 Different in file 2 20 0 Emb B MutDupCut 128 0 Organ# = 15, <b>1*Hunger for protein</b> + 1*<NONE> => 1*Hunger for protein backup + 1*<NONE>; half-life = 18</div><div><br /></div><div>This was a bug with the vanilla genomes that pretty much every improved genome has corrected. Namely, the first gene in the painly overwhelmsion organ overwrote pain instead of hunger for protein, resulting in pained creatures getting their pain overwritten by hunger for protein (kind of counterproductive to what the painly overwhelmsion organ's meant to do). So in the Enhanced ChiChi Norn, it's been fixed to now have hunger for protein backed up when the norn is in pain, as with the other reactions in the painly overwhelmsion organ. <br /></div><div><br /></div><div>114 Different in file 1 1 0 Emb B MutDupCut 128 0 Initial concentration of Muscle Tissue is <b>32.</b> <br />114 Different in file 2 1 0 Emb B MutDupCut 128 0 Initial concentration of Muscle Tissue is <b>64.</b></div><div><b><br /></b></div><div>195 Different in file 1 12 0 Emb B Mut<b>DupCut</b> 128 0 Initial concentration of Life is 255. <br />195 Different in file 2 12 0 Emb B Mut 128 0 Initial concentration of Life is 255.</div><div><br /></div><div>Last, but not least, are these Initial Concentration genes. Enhanced ChiChi Norns are born with twice as much muscle tissue, while their Initial Concentration of life can't be duplicated or cut. <br /></div><div><br /></div><div>The former, presumably, is meant to help make for a more robust baby (muscle tissue is broken down into amino acid, which is used to make prostaglandin), and also somewhat makes up for the fact Enhanced ChiChis can't produce muscle tissue on their own as is also the case with vanilla ChiChis. And the latter's just to further prevent unwanted aging-related mutations, particularly where the gene gets cut and the creature ages all the way to death by old age upon birth. <br /></div><h2 style="text-align: center;">Conclusion</h2><div>As you can see, the majority of the Enhanced ChiChi Norns' changes were done via adding new genes, with very little edits made to the original genes. I wouldn't say this is a bad thing, per say, though it does mean that some of the problems with vanilla ChiChis weren't actually addressed properly (for example, Enhanced ChiChis still have the tendency to push elevators when bored). <br /></div><div><br /></div><div>All in all, it goes to show that a lot of the issues the CFF and beyond would later go on to correct had been noticed long before, with attempts to fix them. Alas, the Enhanced ChiChi never took off the same way the CFE and later would (presumably, mostly because almost all of them came out with all the official breeds, including grendels and ettins, converted, while the Enhanced ChiChi Norns are just...well, ChiChi Norns). <br /></div><div><br /></div><div>They definitely have their flaws (particularly in regards to how the stimuli genes were handled), but nevertheless the Enhanced ChiChi Norn was an admirable attempt at fixing all the flaws in the vanilla norn genome. And in a lot of ways, they're my biggest inspiration for RAS. <br /></div><div><br /></div><div>If you want to check them out for yourself, you can pick them up at <a href="https://eem.foo/archive/downloads/f1cd-enhanced-chi-chi-norns">EemFoo</a>. I don't remember where they were initially released at, though it was likely at the Gameware Forums before those went down. <br /></div><div><br /></div><div>Happy holidays, y'all! I'll see you at the next one.<br /></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-31288709093164631212023-12-24T17:42:00.001-05:002023-12-24T17:42:11.145-05:00A New Base Genome: Picking My Battles<div>At this point, I think I've incorporated most of what I want for RA's Standard Genome 2.0 from the CFF and beyond. Watching my new testing feral run, I feel pretty satisfied with the direction it's taking so far. At the start they did seem a little reluctant to leave their hatching area for lack of need and most of them still haven't strayed far, but at least they're actually doing interesting things otherwise. <br /></div><div><br /></div><div>So now the question is: how much more do I want to incorporate from the CFF/2017s/TWBs/TCBs? Do I want RAS to be the ultimate combo of all the improved genomes that have been made over the years, striving to be the most realistic creature I can possibly strive for (seeing I still don't understand the brain very well and I'm not sure if I ever will, barring a "The Creature Brain For Absolute F-argh-ing Morons" guide being published in the future)?<br /></div><div><br />Well...as I said at the end of my breakdown for <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-final-results.html">the initial test release of the 2017-based RAS</a>, I'm not setting out to push the boundaries of what the game can do. There's a breed that is doing that; they're called the TWBs/TCBs. And I'm definitely not setting out to make the new standard base genome.<br /></div><div><br /></div><div>My ultimate goal is to create a genome that I feel comfortable basing future genetic breeds on, but works just as well as a breed in its own right. I'm hoping to create creatures that are capable enough of tending to themselves, while being interesting and fun to watch (again, as much as possible without needing to make brain edits). I'm hoping to create a genome that's more compatible than my last base genome was.</div><div><br /></div><div>Do I need my base genome to be ultra-realistic? After all, Creatures is a game that has the fandom it does in part because of how realistic it manages to be, especially for the time in which it was made. However...it must also be said that Creatures is a <i>game.</i> While it's setting out to replicate real-world biology, it's also not meant to be a super-complex simulation scientists use to help them study the real world and solve real problems. It's a pet/life simulation game that at the end of the day is meant to be entertaining. <br /></div><div><br /></div><div>So in a way, I'm looking at this like a game designer and not a biologist. I have a vision in mind for what I'm looking for with RAS and thinking hard about what will and won't help me reach it. If that means sacrificing realism here and there, so be it. <br /></div><div><br /></div><div>There's also my motivation to consider, too. Just how far can I push this while not burning out? How much testing and tweaking the same set of genes over and over again can I do without just getting frustrated? I already ran into that wall once; it's partially why I decided to restart RAS from a CFE/Gizmo base instead of pushing onwards with the 2017 base.</div><div><br /></div><div>So with all this in mind...let's take a look at what I have so far, what I know I still want, and the things in CFF and beyond I haven't incorporated and might want to.<br /></div><div><br /></div><div>As of this writing, here's the full list of everything I've incorporated into RAS 2.0 thus far:</div><div><ul style="text-align: left;"><li>The base, as I've already stated, was <a href="http://www.creaturesvillage.com/darcie/genetics/gizmo.html">Darcie's Gizmo Norn genome</a>. I plan on keeping most of this base as intact as possible, albeit with some changes here and there.</li><li>I've incorporated almost all of <a href="https://creatures.wiki/Creatures_Full_of_Edits">the CFE edits</a>, barring what conflicted with the Gizmo edits. The major thing I left out was the elevation lobe as that doesn't actually work, as noted in <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-back-to-zero.html">my last post</a>. <br /></li><li>From the CFF:</li><ul><li>I've added in the Hunger Overwhelmsion organ (leaving it at the end of the genome this time to avoid compatibility conflicts).</li><li>I've also added in the Lactate Cycle in its entirety this time; I did some testing with the 2017 norns versus norns that didn't have it, and decided that it was a preferable alternative to the issue of drowning to just making RAS 2.0 amphibious regardless of whether the breed was meant to be aquatic or not. Also, lactate-based mutations are very common due to lactate being chemical 1, and pre-CFF creatures have no way of getting rid of lactate whatsoever, so a lactate-based mutation more often than not winds up killing the muscles and results in permanently-limping creatures. <br /></li><li>I also added in the reproductive changes; I like the pace 2017 breeds at, so I kept it for RAS 2.0. <br /></li></ul><li>And from the 2017s and TWBs I've added in the new hunger system that's based on nutrient levels rather than the old one that's based on permanently-active emitters and arbitrary stimuli. This way they're much less prone to eating themselves out of house and home.<br /></li><li>A new organ called the "Enhancement Gland" was created and put below the Hunger Overwhelmsion organ and used to hold all the CFF genes that originally were dumped in the brain, and will be used to hold any other genes . The name is a reference to the <a href="https://creatures.wiki/Enhanced_ChiChi_Norn">Enhanced ChiChi Norn</a>, who have a very similar organ and who I've also been referencing quite a bit (I've been thinking about making a post breaking down their genome at some point). <br /></li><li>As opposed to going with an Activase-based system like the 2017s and TWBs/TCBs to help build muscle tissue, RAS 2.0 fixes the vanilla Anabolic Steroid emitter so that it actually functions. <br /></li><li>And anything that was unable to mutate in the original version of RAS is unable to mutate here. <br /></li><li>Based on some research done in the Norn Nebula Discord, RAS 2.0 has an instinct to return home when lonely, and the loneliness/other drive drop provided by the "Found company/Reached peak of <Species Smell>" stim has been silenced. With any luck, the combination of the two will help solve the problem of lonely creatures never thinking to go find each other when they're the same species; something that turned out to be a problem with C3/DS creatures in general and not just the 2017s like I originally thought. <br /></li></ul><div>And here's everything I know I'm going to implement at some point. <br /></div><div><ul style="text-align: left;"><li>While there's no need for Activase anymore, I still plan on adding the TWB's system of activity-related stims consuming a small amount of glucose. This is to serve the goal of making RAS 2.0 fun to watch and to better balance their hunger drives.</li><li>I'm also re-adding the TWB/TCB facial expressions. They were helpful and also pretty charming.<br /></li><li>Rather than sticking with the base Gizmo's muted boredom instincts, I'm adding in a wide variety of boredom-related instincts ala the 2017s and TWBs/TCBs instead. This includes the 2017's tendency to use teleporters as well as portals (which are two separate things; DS's teleporters are classed as "teleporter" while the Warp Portals are classed as "portal").</li><ul><li>In a similar vein, I also plan on adding the 2017's wider variety of instincts in general, to help encourage more varied behaviors. <br /></li></ul><li>I'm also adjusting the Gizmo's life stages as they feel a little wonky to me (for one, they effectively skip the Youth stage and age to Adult immediately after adolescence, and they spend a lot longer in the old/ancient stages than I'd like). <br /></li><li>Any original RAS edit that wasn't specific to the way 2017s handled things is also making the jump to RAS 2.0. <br /></li></ul><div>So that leaves the other things CFF and beyond added that were perceived as fixing errors. Let's take a look at <a href="https://www.creaturescaves.com/forum.php?view=12&thread=5575">that list</a> again, and also <a href="https://creatures.wiki/Base_Genome">this list of features across the common base genomes</a>. Some of these, particularly requiring glucose for antibody production, might be interesting to have but will also take a while to test out for something that doesn't feel entirely necessary for what I'm aiming for (I never play with bacteria anyway, so the chances that'll be relevant for me personally are pretty low). Some of it also probably wouldn't matter that much in the long run but also wouldn't take much effort to implement. And some of it (the alcohol variants in particular) just feel outright extraneous.</div><div><br /></div><div>So ultimately, I think my time's best spent implementing and balancing the features I know I absolutely want for right now. Once that's done, I'll see how I feel about adding in anything else. <br /></div><div><br /></div><div>Until the next one, folks.<br /></div></div></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-18677459490702475292023-12-22T17:53:00.002-05:002023-12-22T17:53:09.957-05:00A New Base Genome: Back to Zero<p> While I was still waffling on whether or not to continue to try and make the 2017 genome fit my needs, I decided to just go ahead and start prepping the Gizmo genome as a new starting point. Said prepping involved converting it to a CFE genome, since Vampess's guide on how to do that is (as of this writing) <a href="https://web.archive.org/web/20160304210530/http://creatures.virtualheaven.nl/">still available via the Wayback Machine</a>. </p><p>(I am aware <a href="https://kezune.com/sim/2015/01/03/cfe-gizmo-repost/">Kezune did a conversion already</a>; I opted to make my own just for the sake of knowing exactly everything that's going into my version.)<br /></p><p>I also decided to ask what parts of the Creature genome don't work because of engine bugs over on the Norn Nebula discord (random aside: I've updated my contact information on the left hand sidebar with my new username and Discord username). Verm, one of the most knowledgeable people I have ever known, replied with this list:</p><ul style="text-align: left;"><li>Organ values always start out with maximum lifeforce regardless of their life force start value in the Genetics Kit.</li><li>Mutation chance and mutation degree effectively do nothing (always a 0 or 1 chance out of 255).</li><li>Neuroemitters don't work (and even if they did they wouldn't work like how you'd expect from the Genetics Kit).</li><li>The brain organ doesn't actually exist (all genes below the brain are actually considered part of the muscles, or whatever organ it's immediately below). </li><li>The "Reaction" value in Stimulus genes does nothing.</li><ul><li>Which is because the Intensity value does nothing (it always returns 0).<br /></li><li>The "Modulate using sensory function" switch also does nothing.</li></ul><li>Also worth noting is a reference to a unused lobe marked "elvn," which you may recognize as the Elevation Lobe in CFE-based creatures. However, it needs an (unreleased, as of this writing) external script to actually function, so it doesn't actually work in the CFE and beyond.<br /></li></ul><p>The exact technical reasons behind all these is beyond my understanding. But did I mention C3/DS suffer a lot from "Had to rush it out the door" syndrome? Fortunately, none of this is vital, can be worked around, or both (even if both the neuroemitter and stimulus bugs are mighty unfortunate as far as a gengineer's toolkit goes). <br /></p><p>However, you might notice that something I did call an engine bug once actually isn't one. Specifically, the emitter locus "Muscle Energy Used." In a <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-of-buff-and-obese.html">past post</a> I noted that it almost never fired. Well, Verm corrected me on this one, too. It DOES work; specifically, it triggers whenever the creature's skeleton updates (that is, things like changing poses, position updating, and collisions). The actual issue is that the values on it were set way too low. </p><p>So I tweaked and tested until I got muscle tissue levels similar to what I was getting out of the Activase system in the 2017-based genome, and much more reliably at that. So...one of the biggest reasons to keep trying with the 2017s is gone. </p><p>Between that and the Gizmo's other biochemistry changes making it so I no longer have to futz about with trying to balance that stuff as I talked about in <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-i-cant-stand-it-i.html">my last post</a>, my desire to stick with the 2017s is basically at an all-time low. But nevertheless, there's a new obstacle in my way: the fact that the Gizmos, as a pre-CFE breed, don't have all the edits the CFF and beyond introduced. <br /><br /><a href="https://www.creaturescaves.com/forum.php?view=12&thread=5575">And it's a long list</a>. And that's just the CFF, to say nothing of the 2017s and TWBs/TCBs.<br /></p><p>But...I believe it may be an effort worth making, even if the majority of what I wind up doing is just adding genes from the CFF/2017s/TWBs/TCBs. Because I have the new option of implementing these changes in a way that suits me better. For example: I'd prefer to create a new organ to store any new receptors, emitters, etc. rather than do as the CFF did and leave them in the Brain organ (actually the Muscles, as noted in the list above). And I can do some futureproofing as well, like having this new organ be underneath the Hunger Overwhelmsion organ as opposed to the other way around; a convenient spot to put new genes without having to worry so much about compatibility. </p><p>(Both organs would still be at the bottom of the genome this time, though. My previous base genome had the Hunger Overwhelmsion organ grouped with its related organs higher up in the genome, which probably was a big reason why that genome had so many compatibility issues.)</p><p>So the journey continues. Until the next one, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-84036432873164509542023-12-21T23:51:00.000-05:002023-12-21T23:51:11.397-05:00A New Base Genome: I CAN'T STAND IT!!! I THINK I'M GONNA HAVE A [[HeartAttack]]!<div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEii4vAVTY3SigtXWHRB14oK1fqZRxUC_CJ1Uur3xC1M-XRt0eLSJCT4H5yjAMa5oNMUkzH9bOry0QFo2YibVPqvgwDFJhVDapzx2ti0V6-cOtaSc-F7RsZ_2nptB8xn_2daM0HXrpXbnVC86ESP6bs_1lTVPgKP0au29JIHkIvVHcch-yfUHJD6bVnZIYO2/s537/CreaturesPushFruitMeme.png" imageanchor="1" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="537" data-original-width="455" height="320" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEii4vAVTY3SigtXWHRB14oK1fqZRxUC_CJ1Uur3xC1M-XRt0eLSJCT4H5yjAMa5oNMUkzH9bOry0QFo2YibVPqvgwDFJhVDapzx2ti0V6-cOtaSc-F7RsZ_2nptB8xn_2daM0HXrpXbnVC86ESP6bs_1lTVPgKP0au29JIHkIvVHcch-yfUHJD6bVnZIYO2/s320/CreaturesPushFruitMeme.png" width="271" /></a></div><p>I have very mixed feelings on the gene that damages the heart when adipose tissue gets too high in CFF-derived genomes. </p><p>On one hand, I don't think it's a terrible idea. It might in fact be a great way to punish creatures who eat themselves out of house and home, as vanilla creatures are known to do. On the other hand, it absolutely SHOULD NOT be the number one cause of death. <br /></p><p>Unfortunately, the latter was the case for the testing feral run for my base ettin genome. Way too often they'd get caught up in hanging around sources of food, seeing no reason to abandon that spot, and not generating enough activase even with the disappointment stim constantly triggering from their failed attempts to push food (WHY they were constantly trying to push food in the first place is another extremely frustrating mystery I've yet to solve). As a result, ettin after ettin after ettin dropped dead of heart attacks. </p><p>Eventually, I decided enough was enough. This wasn't something that's unique to the ettins; the fundamental flaw leading to it's also in my norn genome. So it was back to the norn genome to figure out a better way of balancing it. </p><p>The first order of business before editing anything was hatching a norn of my base genome and watching it go about its business on a mostly-vanilla version of the Capillata. To my great dismay, I found my earlier observation about the disappointment stim being triggered constantly was flawed. The norn barely generated any activase and was constantly low on muscle tissue. <br /></p><p>Based on this, my first thought was to throw out the 2017 Activase system entirely and replace it with the TWB's. And that's what I started doing...before I realized that the two systems didn't necessarily have to be mutually exclusive. With that thought in mind, I added the TWB version of the Anabolic Steroid emitter (which triggers when muscle tissue gets low) and tested it out. </p><p>Working in tandem with the existing 2017 activase system, the results were actually pretty good. So I was free to ditch the activase from the disappointment stim and move on to the next step: properly balancing the adipose tissue. </p><p>For this, I referenced <a href="https://creatures.wiki/Gizmo_Norn">Darcie's Gizmo Norns</a> quite a bit. My old base genome took their digestive system edits wholesale, but I wasn't about to do that this time. This time around I tested what I felt was most relevant to what I wanted: for adipose tissue to build up slower and break down faster. As it turned out, I was getting good results only from tweaking the reaction that converted adipose tissue back into triglyceride (it was originally 1 adipose -> 8 triglyceride, I dropped it to 1 adipose -> 6 triglyceride). <br /></p><p>Even more surprising was the good results I was getting from making the reactions that had activase consume glycogen and adipose tissue dormant. In my initial tests I'd assumed muting those would result in a lot of norns dead from heart attacks, but it didn't happen. In fact it seemed like the risk was significantly <i>lower. </i>My best guess is that since creatures are getting less hungry in general they're less inclined to overeat.</p><p>I ultimately left the adipose tissue reaction dormant, while changing the other reaction so that glucose was consumed instead of glycogen, mirroring how the TWB version of the Activase system had movement stims consume a little bit of glucose in addition to generating activase. Feeling satisfied with this outcome, I added a batch of the new norns to my norn testing feral run....</p><p>...And wound up failing a major fundamental goal in making creatures that are interesting to watch. As it turns out, it's possible to make creatures who are TOO good at taking care of themselves. These new norns had zero reason to leave their hatching area because they never got hungry and none of their other drives got high enough to warrant it. Out of the four I hatched, only one eventually did. </p><p>I also eventually decided that now they had too <i>little </i>adipose tissue, in that the only way they'd have a heart attack was if I forced them to do nothing but eat food via CAOs. Otherwise, they simply never ate enough to even get close to having one, regardless of how fat-heavy their diet was. I solved the heart attack problem, but I still had the problem of creatures who didn't do much. </p><p>Back to the drawing board it is, and if I'm honest I'm starting to get a little frustrated with this project. I'd very much like to be at the part where I've gotten all this stupid tweaking and testing and balancing done and am making cool new breeds like the ones I talked about in my last post instead. But nope; it just feels like for every problem I've solved another one or two raise their ugly heads, and that goal gets even further away. <br /></p><p>It's for that reason I'm giving serious thought to just abandoning working with the 2017 genome altogether and restarting with a different one. In particular, I hatched a Gizmo Norn to observe its nutrient levels with the X Ray to get a feel for how they looked, and as I went about tweaking my base genome that Gizmo Norn took care of itself and died of old age in a manner that's pretty unusual for non-CFE creatures. So the Gizmo genome feels promising for such a task...if I don't mind having to add all the stuff CFE and beyond added that the Gizmos don't have, that is. </p><p>Sigh. <br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-25143789273820295142023-12-18T22:04:00.003-05:002023-12-18T22:04:27.844-05:00A New Base Genome: Miscellaneous Musings<p> Progress on my base ettin genome has been a little iffy, as I briefly touched upon in my last post. I've been making changes, even figuring out a couple things I've since backported to my norn genome, and some of them seem to be working out. Others, not so much. In particular I've been having a lot more problems with heart attacks than during the testing of the norns, and also having problems getting them to approach each other and thus breed, even when they get lonely (to a lesser extent this has been a problem with the norn genome too; it's something Arnout noted was a problem even in the original 2017 genome). </p><p>One part of me wants to keep pushing forwards with the ettin genome, another part of me's wanting to put the ettin genome on the backburner for now and move on to the grendel genomes...yes, grendel genome<i>s</i>; I'm planning on making two versions, which I'll detail the how and why of in a future post. And then there's a third part that's saying "All this activase and these heart attacks and these dumb creatures that won't approach when lonely are annoying; let's throw everything out and restart with the CFE instead of the 2017s." Maybe it's just the tiredness as I write this speaking. </p><p> In the meantime, I'm just going to dump a ton of miscellaneous thoughts and future plans I hope to accomplish. Will any of it happen? Not making any promises. I know me. </p><ul style="text-align: left;"><li>First and foremost: aquatic creatures. 2017s, and thus RA Standards, have a gene that gives a creature that's underwater an increasing desire to go up (that is, call an elevator to go up), and like their CFF ancestors possess a stimulus gene that makes them afraid when they start drowning (as I briefly touched on in <a href="https://grendelman.blogspot.com/2023/12/genetic-mysteries-grendel-twitch.html">my last post</a>). Fortunately, it's not difficult to make them amphibious and happy underwater; it's just a matter of muting the aforementioned up drive gene and setting the air emitter to permanently active, after which they're as happy underwater as any non-CFF based amphibious creature. </li><ul><li>Swimming, however, is another matter. Previously I just took the easy route for swimming creatures and set an emitter to always emit chemical 63, plus adding the swim bladder edits to allow female creatures to lay eggs. However, thanks to <a href="https://addictedtocaos.blogspot.com/2017/05/seasons-in-deep-abyss-and-artemia-sea.html">Lurhstaap's musings about his Abyss Dragons</a>, I've hit on the idea of making the production of 63 tied to the creature's nutrient intake, particularly of muscle tissue (which tends to be in excess in 2017-based creatures). On top of the realism factor, it's also a nice way of circumventing the issue with swimming creatures having trouble interacting with things; if a swimming creature is having enough trouble that it can't feed itself, it'll stop producing 63 and thus eventually stop swimming. Then it can interact with things as normal, and hopefully get full enough to start swimming again. The issue is balancing the consumption of muscle tissue with the activase system, since RAS creatures generally produce less of it than their 2017 ancestors. </li></ul><li>Of the future breeds I'm hoping to make, I must give special mention to Jesseth's and CosmiSynthetic's remastered conversions of the C2 Bulbous and Boney Grendels, and also the Worker Ettins. They have some goobers here and there, but all in all they simultaneously scratch my itch for C2 aesthetics in C3/DS while matching C3/DS's style much better than the previous conversions. The Bulbous Grendels in particular have been something of a mainstay during my RAS feral runs; I added Bulbous Grorns to the norn run while the grendels proper make for good "dither" grendels (that is, grendels that can bring out defensive behavior while being mostly harmless, taken from the aquarium hobby term dither fish) for the ettin run. Naturally, they're all getting RAS versions, and I'm also thinking I might even use them to convert some C2 genetic breeds like Frimlin's long-lost Amphibigrendels and my own Great White Shark Grendels (which I'm going to rename "Shark Boney Grendels"). </li><li>Other breeds whose general aesthetics I greatly jive with are Dragoler's Basilisk Norns (who I keep wanting to call "Uglee Norns," probably confusing them with the grendel breed that uses their sprites) and PapuBuntu's Carna Norns. Both of these breeds have TWB/TCB-based genomes at the moment, though the Carna Norns also have a CFE-based version at last report. So I'm also hoping to give them RAS versions, though they might not be exactly like the original versions (for the RAS Basilisks at least, I'm planning on giving them the ability to "eat" creature eggs by picking them up, similar to how my Metallophagus Grendels V1 "ate" gadgets and machinery by hitting them). </li><li>Also on the list: Cyborg's Angler Grendels. Despite their problems (adult females crash the game without a Bigger Sprite Allocation patch and are also too big to fit in the Swimming Agent's vehicle), they're a breed I've absolutely fallen in love with. They already have a 2017-based genome, but I'd like to give them a RAS version that doesn't require the Sensorimotor Lobe script. I'd likely give my version the name "Ceratoid Grendels," after one of my older ideas for a similarly behaving grendel breed.<br /></li><li>Then there's revamps of older genetic breeds, whether they're my own or not. One big plan are a sort-of revamp of Trix's Shark Grendels; the originals are just colorful, amphibious jungle grendels right down to the "children make you old" gene, but nevertheless I remember enjoying them a lot in the days before I started gengineering myself. My planned revamp would combine them with my own Shark Grendel breed to become colorful, aquatic predators based off the Rainbow Sharkling...which is confusing because I've ALREADY made a breed based off rainbow sharklings, via screwing around with CRAG all that time ago. As it turns out it is possible to make a CRAG based creature capable doing things other than sit there, as Verm's <a href="https://www.creaturescaves.com/downloads.php?section=Breeds&view=639">Nurse Bots</a> and <a href="https://www.creaturescaves.com/downloads.php?section=Breeds&view=638">GAIA</a> prove, but I don't think that's something I want to mess around with right now. So the new Rainbow Sharkling Grendels would be a typical genetic breed that uses the C3 grendel sprites like the original Shark Grendels, but I'm hoping they'll be fun anyway.</li><li>I'm also thinking of redoing the Potamogeton Grendels/Pond Weed Grendels V3. Knowing what I do know, I'm thinking I could do some fun stuff with their genome to make them even more plantlike. </li></ul> Until the next one, folks.<br />Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-37921158777523376272023-12-17T18:19:00.003-05:002023-12-17T18:44:59.571-05:00Genetic Mysteries: The Grendel Twitch<p> If you've ever played with the vanilla C3 grendels or any creatures based on their genome (such as CFE grendels, or <a href="https://creatures.wiki/Osiris_Norn">Osiris Norns</a>), you may have noticed they have a tendency to dance. That is, sometimes while they're doing something else they'll randomly strike a pose for a second before going back to whatever it was they were doing. It's most noticeable in creatures suffering from EES; while other creatures just tend to stay locked up in one position, <a href="https://www.youtube.com/watch?v=lCUhMZfVdIQ">grendels tend to twirl around and around until they're snapped out of it</a>. </p><p>Since it's one of those things I find charming about grendels, I naturally sought the means to replicate it in other genomes. Since it also happened in creatures based on the vanilla C3 grendel's genome, I concluded that it had to be genetic somehow. However, what exactly was causing it was not so easy to figure out. </p><p>Since it involved grendels striking a pose, I figured that it might have something to do with the pose or gait genes...but nope. The actual poses and gaits themselves are more or less identical in both the vanilla norn and grendel genomes, and while there's some differences in the receptors that trigger them replicating these differences in a norn didn't result in a norn that twitched. </p><p>I could also confirm it had nothing to do with the brain, as all three species have the same brain structure in their vanilla genomes, and I also ruled out the grendel-specific chemical Grendel Nitrate (which reduces a creature's reluctance about hitting things, particularly other creatures; the brain gene responsible is actually present in all three species). So if not all of those, what was it?</p><p>My next guess was the involuntary actions (flinching, sleeping, etc.), as those also involve striking a pose sometimes. Grendels have two differences from norns involving those genes. One of them involved flinching from pain...but that wasn't it. The answer was in the other changed gene:</p><p>141 Different in file 1 201 0 Emb B MutDupCut 128 0 Organ# = 6, Creature, Sensorimotor, Involuntary action 7, chem=Air, thresh=77, nom=255, <b>gain=255</b>, features=Inverted Digital (0) </p><p>124 Different in file 2 201 0 Emb B MutDupCut 128 0 Organ# = 6, Creature, Sensorimotor, Involuntary action 7, chem=Air, thresh=77, nom=255, <b>gain=0</b>, features=Inverted Digital (0)</p><p>Involuntary Action 7 is drowning. This particular gene works by checking for the level of the Air chemical produced by a creature's body. Since it's set to Inverted, it triggers at low levels of the Air chemical rather than high levels.</p><p>In a norn (the first gene listed), both the nominal and the gain are set to max. Nominal can be thought as as the "default" level the receptor fires at if the associated chemical's level is below the threshold. Gain, meanwhile, can be thought as the level the receptor fires at if the chemical's level is at or above the threshold. And it's set to Digital to basically act as an on/off switch; a creature is either drowning or it isn't. <br /></p><p>In a norn that's not drowning (that is, has a normal amount of Air in its system), the gain is subtracted from the nominal, and since they're both the same that's a value of 0 and thus the receptor doesn't fire. Should air drop below the threshold, it's not subtracted and the nominal value of 1 takes over, triggering the involuntary action.</p><p>In the grendel (the second gene listed), the gain's set to 0. So the nominal value is the only thing determining whether or not it's firing, and it's set to 1. So the receptor's always firing, regardless of the level of air in a grendel's system.</p><p>So that charming grendel twitch? That's what the drowning involuntary action looks like (if the grendel was underwater it'd also produce bubbles). So the twitch means grendels are always drowning. Which...isn't so charming. </p><p>Fortunately, the drowning involuntary action is separate from the actual breathing of the creature and doesn't impact their quality of life at all, so while vanilla grendels might technically be drowning all the time they're still breathing normally so long as they're not underwater or affected by anything else that could impact their Air levels.</p><p>The CFF and beyond changed how drowning works as part of the larger cycle based around lactate and pyruvate, so grendels based on those genomes shouldn't twitch any more. Which is fine, since CFF and beyond also added a stimulus gene to make creatures scared while they're drowning, so if it worked like how it does in vanilla grendels you'd get grendels that are scared all the time. </p><p>Suffice to say, now that I've learned what makes grendels twitch, I've decided that it's not worth reverting the changes to drowning in my standard genome, whenever I decide to start working on it. Which might be sooner rather than later; I'm a little stuck on my ettin genome at the moment, and I know I'm probably going to get a lot more use out of my grendel genome than my ettin genome.</p><p>Until the next one, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-18078742224018058232023-12-16T22:12:00.003-05:002023-12-16T22:12:33.585-05:00The CCSF 2023: Posthumous Thoughts<p> As of this writing, the <a href="https://eem.foo/ccsf-2023/">CCSF 2023</a> has reached its conclusion. By virtue of only having properly returned to the community a week before it was set to begin I didn't actually submit anything...well, not formally at least. I did release <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2532">a test version of my standard norn genome</a>. </p><p>I'll admit I was really harsh on the tradition around the time I fell out of the community. I was just running on nostalgic memories of how great CCSF 2006 was to experience as a teenager, and felt the modern ones just couldn't live up. I even went so far as to dismally predict that there wouldn't be one year after year. I <i>definitely </i>put too much stock into how many "big releases" (read: sprited breeds and metarooms) were released any given year.</p><p>So what did I think of 2023? Well...once again, it wasn't quite as exciting as I remember 2006 being, and I still don't think 2006 will ever be matched. The community's quieter now, and more importantly the internet as a whole's just different now. <br /></p><p>However, I'm also older and (somewhat but not really) wiser now, and I've realized that's not a great way to look at it. I've decided that rather than just yearning for the past, it's best to just appreciate the present. </p><p>2023 might not have been as big as 2006, but it was still very fun. We got a nice batch of cool stuff. The little riddles given every day were fun to try and figure out (that last one was brutal...but doesn't a puzzle that was built with the community putting their heads together in mind also in the spirit of the CCSF?). Watching Freyla run the CCSF Wolfling Run and seeing what kind of shenanigans happened was fun.</p><p>And I've also come to realize just how impressive it is that it's been almost <i>20 years</i> and the CCSF has not skipped a year yet. The CCSF still feels pretty unique too; I'm not sure if I can think of another fandom that continually runs an event like it. After all this time, the spark's still here. The community's still getting together to celebrate a series that's almost thirty years old. </p><p>So ultimately? I'm glad I was here to experience 2023. I'm glad people are still excited enough about Creatures to have run it. And I hope this enthusiasm keeps going for as long as possible. </p><p>Here's to the next year, folks.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-49188670978833307622023-12-13T19:34:00.002-05:002023-12-13T19:34:26.394-05:00A New Base Genome: The Essence of Ettins<p></p><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgOFNFleZ7MiXpMmbtU1DuowkFIKkYxWS7zzR6rXdQSJRbXbSiq3QZGncw7vi5JbwzfYdmLclf5HQLtH4X8yVL-R8ya73QGssLvtW3OKorCY8Z9gY3FO8vUFfMPxXGlLwnqmDcI7bgZopfwBjqsob1eFLGDotfsejCxR7ugH-XTUbf_EDa_AHErXF3Rl3vU/s188/RASEttin.png" imageanchor="1" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="188" data-original-width="170" height="188" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgOFNFleZ7MiXpMmbtU1DuowkFIKkYxWS7zzR6rXdQSJRbXbSiq3QZGncw7vi5JbwzfYdmLclf5HQLtH4X8yVL-R8ya73QGssLvtW3OKorCY8Z9gY3FO8vUFfMPxXGlLwnqmDcI7bgZopfwBjqsob1eFLGDotfsejCxR7ugH-XTUbf_EDa_AHErXF3Rl3vU/s1600/RASEttin.png" width="170" /></a></div> With my standard norn genome in a more or less good state, I decided to go ahead and start working on my ettin genome. Since it worked out pretty well for the norns, I decided to just do a feral run for the ettins from the very start. I made a docked world, set it up, and then went about creating the initial ettins.<p></p><p>As I said before, I'm not going about making my ettin genome by porting over all the edits I made to the ChiChi genome over to the original 2017 ettin genome. Sure, the 2017 ettin genome probably functions a lot better than the vanilla ettin genome, but the vanilla ettin genome is a rather shaky foundation to be building anything on. There's a lot of problems with it, including but not limited to a wonky biochemistry compared to norns, drives that are out of whack (especially fear), a supposed immunity to certain antigens that actually makes them a lot more vulnerable to bacteria carrying those antigens, and so on. It really feels like vanilla ettins weren't designed to be a fully realized species in their own right as opposed to just a recurring nuisance for the player to deal with. <br /></p><p>So instead I'm starting from my standard ChiChi genome and making my changes from there. Which raises the question: what's an ettin, and what's just a norn in an ettin's skin? Is an ettin based on a norn genome a "real" ettin?</p><p>Back when I was first starting out in the community in general, I came across Alien's <a href="https://creatures.wiki/Frendel">Frendels</a>. On their page, they made note of Lis Morris's <a href="https://creatures.wiki/Peace_Grendel">Peace Grendels</a>, particularly of the fact that they were based on a norn genome. Was that really a grendel, they asked? Hence the Frendels, who are the same concept but based on the actual vanilla grendel genome instead. </p><p>I'm not sure if there ever was a big stink raised about such things, but my dumb teenage self took it as serious advice as I started my development journey. I especially remember using that logic when creating my first friendly banshee grendels (not the ones that are available for download here at the Realm, who are more recent. I'm talking "released on the Gameware Forums" old); I considered them "real" Banshee Grendels since they were derived from the Banshee genome as opposed to Alien's (who were based on her normal Frendel genome and thus on the vanilla grendel genome by extension).</p><p>Regardless of whether it was a widely held opinion or just me taking something way too seriously, I eventually came to the conclusion that this was a stupid thing to raise a stink about. As far as the game itself's concerned, a creature is what its genus gene says it is. An ettin's an ettin, regardless of it's a vanilla ettin, a ChiChi norn in an ettin's skin, or an outright ChiChi Norn that just has "ettin" as its genus.<br /></p><p>And let's be real here. Did the developers at Creature Labs really make a brand-new genome from scratch for ettins and grendels, or did they just base them on the norn genome? The former route sounds like too much work for little payoff; it's a development shortcut I'd certainly make. If nothing else they at least carried the brains over; there's no difference between a vanilla norn's brain and a vanilla ettin's or grendel's. It's true in the lore too; all three species are in the same genus lore-wise and were all created by the Shee (even if the grendels were an accident).</p><p>So the important thing isn't the genome I base my standard ettins on; it's whether or not I feel like these ettins are...well, ettins. What do I feel like an ettin should be?</p><p>Basically, I want my ettins to build upon vanilla ettin behavior. I'd like them to be independent sorts, who wander the ship doing their own thing and only really seeking each other out to breed. They still steal gadgets as the vanilla ettins, but they also enjoy playing with the gadgets they hoard and also with machinery they happen to find. I'm also thinking they'd enjoy travel for travel's sake even if they're not seeking anything in particular. And while they wouldn't be as cowardly as vanilla ettins, they're still very wary of the other two species. <br /></p><p>The ettins I started the feral run with basically were ChiChi Norns in ettins' clothing, just with any gene related to species changed appropriately (the biggest initial changes were adjusting the points where they changed lifestages, with the intent of giving ettins an earlier start than norns but still aging at roughly the same rate past that point, and making the entirety of the fight-or-flight organ dormant). However, it didn't take me long to make my first changes to the instincts and stimuli to get ettins to prefer messing around with technology, and the next batches of ettins I added stole gadgets and dragged them home just like vanilla ettins do. </p><p>How far do I want to go with this? Is just changing their behavior satisfactory for me, or do I want to go farther and mess with things like their resistance to toxins and their susceptibility to heat? Vanilla ettins do have differences there (if I remember right, they don't actually feel hot or lonely at all). <br /></p><p>Well...in any event, I'll be sure to note anything interesting over the course of development. <br /></p><p>On a completely unrelated note, there's something I must amend. Way back at the start of this journey, I stated that TWBs/TCBs without their titular feature didn't seem to exist. As it turns out, I was mistaken: they do exist in the form of <a href="https://eem.foo/archive/downloads/d329-intell-chichi-norn-10">Uranium's Intell ChiChi Norns</a>. They also bring in some features from the Gizmo genome as well, namely the biochemistry system. Had I known they existed, I probably would've tried them first before the original 2017s, and it's possible my standard genome wouldn't exist (or at least not in the form it does now). As it is, I'll likely give them a try at some point in the future.</p><p>Until the next one, folks. <br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com1tag:blogger.com,1999:blog-6744468590191071018.post-22526381370178732712023-12-12T13:33:00.003-05:002023-12-12T15:14:15.975-05:00A New Base Genome: The Final(?) Results<p></p><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhb8b3iF7Kbih-tmS7hyJ_hFImoDorQ4Jd6OC9BUc_ppvRLoYKzInfY4F81EzfEa0Ab6nnbL1XihUyihj9UtSiJXxugutMh76ythWPgX3coRLu39f5Dyg2c7dBhWm2rjBwa6L3OsDZLzudzhe-5QtGRB4SOfSvEDqkZIXJ9YS8heWoPxKo-vBgbsorWfmL_/s224/PlantBooby.png" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="224" data-original-width="151" height="224" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhb8b3iF7Kbih-tmS7hyJ_hFImoDorQ4Jd6OC9BUc_ppvRLoYKzInfY4F81EzfEa0Ab6nnbL1XihUyihj9UtSiJXxugutMh76ythWPgX3coRLu39f5Dyg2c7dBhWm2rjBwa6L3OsDZLzudzhe-5QtGRB4SOfSvEDqkZIXJ9YS8heWoPxKo-vBgbsorWfmL_/s1600/PlantBooby.png" width="151" /></a></div> At long last, the time has come to share all the changes my new base genome made from the original 2017 genome. <br /><p></p><p>Though if you can believe it, I actually was thinking I'd have to lie again and give another major change its own post. It would've been the crowdedness/loneliness balance; I've noticed 2017 creatures tend to be pretty solitary and almost never get lonely. I made some changes, only to have them appear to have no noticeable effect. So I asked for help, and with the assistance of Dragoler (the creator of the TWB/TCB genomes), I found the cause was...<a href="https://naturingnurturing.blogspot.com/2023/12/ccsf-23-release-natural-learning.html">Natural Learning and Natural Curiosity</a>. Apparently speech bubbles still have some effect on creatures, even in the case of CFF derived genomes where the associated stims are silenced or just not present at all. <br /></p><p>With that case settled, I figured it was high time to make this writeup. Since the name "2017" doesn't really make much sense for my base genome (that was six years ago, as of this writing...why am I so <i>old</i>?), I have decided to call this genome...<b>RA's Standard Genome</b>. Not very creative, I know, but hopefully it gets the point across.</p><p>Since this is a stupidly long post, I'll just say that if you want to play around with this genome I've uploaded <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2532">a test pack of norns and the current version of the genome</a> to Creatures Caves. What follows is a list of all the changes I made and why I made them.<br /></p><p>This is a RA's Standard ChiChi Norn being compared with a 2017 ChiChi Norn. Other genomes (particularly ettins and grendels) are for another time.<br /></p><p>Without any further ado, let's begin.<br /></p><h2 style="text-align: center;">Brain Lobes</h2><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhq6LzzqTMod7lFIBCbMEXGZyz10BgkH5AVoZokIbOCwpVCOENumzGUtXWB0RKFeuTgIEIORMWVBWKnn3bazVNpzp7yciaGYc-b0DMLGfYm2DJ8kDQTKrXuTexrsbsWN_ugQOgSMooDGxrMq4i8wVY1DCXun9QXivQLDmfoDtqEq9AdgN0XpyXIrSTZEpHu/s1028/OriginalRANornVerbLobeDifferences.png" style="margin-left: 1em; margin-right: 1em;"><img border="0" data-original-height="968" data-original-width="1028" height="301" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEhq6LzzqTMod7lFIBCbMEXGZyz10BgkH5AVoZokIbOCwpVCOENumzGUtXWB0RKFeuTgIEIORMWVBWKnn3bazVNpzp7yciaGYc-b0DMLGfYm2DJ8kDQTKrXuTexrsbsWN_ugQOgSMooDGxrMq4i8wVY1DCXun9QXivQLDmfoDtqEq9AdgN0XpyXIrSTZEpHu/s320/OriginalRANornVerbLobeDifferences.png" width="320" /></a></div><div>Gene Compare doesn't handle the brain very well; it can tell where there's a difference, but you're not going to be able to tell what that difference is in most cases. So instead I just decided to show the genes directly from the genetics kit; the original 2017s are on the left and RA's Standards are on the right.</div><div><br /></div><div>This particular edit was created by Evolnemesis for his Evo Norns and was later incorporated into the CFF proper. It's one I've talked about quite a bit on this blog (<a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-what-do-i-want.html">even during this very series, in fact</a>); it's the edit that's supposed to make CFF-derived norns more curious and willing to try new things, but I always found made them forget how to eat.</div><div><br />I can see why some people would appreciate this; one of the biggest complains about C3/DS creatures is how they can come across as being overly robotic with how easily they tend to their needs, especially with the combination lobe edit introduced in the CFE. I, however, would rather have creatures that can take care of themselves; if I see creatures dying younger, I want it to be for reasons beyond an inability to take care of themselves. So I reverted this change to how it was in vanilla creatures and the CFE. <br /></div><div><br /></div><div>That being said, RA's Standard Genome is still susceptible to Tryptamine (chemical 130), which makes them act very weirdly. That's a fun change I'm willing to keep. <br /></div><div style="text-align: center;"><h2>Chemical Receptors</h2><div style="text-align: left;">From here on out, the original 2017s are on the top (File 1), and RA's Standard Genome is on the bottom (File 2). <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">432 Different in file 1 149 0 Emb B MutDupCut 128 0 Organ# = 20, Organ, Organ, Injury, chem=61, <b>thresh=0</b>, nom=0, gain=34, features=Analogue (0) <br />433 Different in file 2 149 0 Emb B MutDupCut 128 0 Organ# = 20, Organ, Organ, Injury, chem=61, <b>thresh=1</b>, nom=0, gain=34, features=Analogue (0)</div><div style="text-align: left;"><br /></div><div style="text-align: left;">This is another thing Dragoler helped me with while we were trying to figure out what the heck was going on with the crowdedness/loneliness balance. I noticed that 2017 norns tend to take a bit of muscle damage when they're first born, and the cause turned out because Lactate Dehydrogenase (chemical 61) was building up before they took their first breath. So now it needs to be slightly higher before actual muscle damage occurs, thus allowing RA's Standard Genome to hatch with happy muscles.<br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">Lactate Dehydrogenase is part of a much larger cycle in CFF-derived genomes that, in short, help creatures survive longer while they're drowning. It takes the place of a vanilla chemical simply called Lactate. Lactate is the first chemical on the chemical list and did nothing in vanilla creatures except damage the muscles and never decayed, which was a problem since Lactate was by far the most common chemical to fill in otherwise empty spots in chemical reaction genes due to it being chemical 1. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">443 Different in file 1 14 0 You M <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 14, chem=Sex drive, thresh=42, nom=0, gain=255, features=Digital (0) <br />444 Different in file 2 14 0 You M 0 0 Organ# = 20, Creature, Sensorimotor, Gait 14, chem=Sex drive, thresh=42, nom=0, gain=255, features=Digital (0) <br />434 Different in file 1 106 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 7, chem=Alcohol, thresh=16, nom=0, gain=239, features=Digital (0) <br />435 Different in file 2 106 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 7, chem=Alcohol, thresh=16, nom=0, gain=239, features=Digital (0) <br />444 Different in file 1 15 0 You F <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 15, chem=Sex drive, thresh=36, nom=0, gain=255, features=Digital (0) <br />445 Different in file 2 15 0 You F 0 0 Organ# = 20, Creature, Sensorimotor, Gait 15, chem=Sex drive, thresh=36, nom=0, gain=255, features=Digital (0) <br />435 Different in file 1 105 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 2, chem=Tiredness, thresh=141, nom=0, gain=207, features=Analogue (0) <br />436 Different in file 2 105 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 2, chem=Tiredness, thresh=141, nom=0, gain=207, features=Analogue (0) <br />436 Different in file 1 104 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 3, chem=Sleepiness, thresh=128, nom=0, gain=207, features=Analogue (0) <br />437 Different in file 2 104 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 3, chem=Sleepiness, thresh=128, nom=0, gain=207, features=Analogue (0) <br />437 Different in file 1 103 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 5, chem=Anger, thresh=124, nom=0, gain=223, features=Analogue (0) <br />438 Different in file 2 103 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 5, chem=Anger, thresh=124, nom=0, gain=223, features=Analogue (0) <br />438 Different in file 1 102 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 4, chem=Fear, thresh=128, nom=0, gain=223, features=Analogue (0) <br />439 Different in file 2 102 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 4, chem=Fear, thresh=128, nom=0, gain=223, features=Analogue (0) <br />439 Different in file 1 101 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 6, chem=Injury, thresh=64, nom=0, gain=239, features=Digital (0) <br />440 Different in file 2 101 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 6, chem=Injury, thresh=64, nom=0, gain=239, features=Digital (0) <br />442 Different in file 1 100 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 1, chem=Pain, thresh=33, nom=0, gain=239, features=Digital (0) <br />443 Different in file 2 100 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 1, chem=Pain, thresh=33, nom=0, gain=239, features=Digital (0) <br />445 Different in file 1 108 0 Emb B <b>MutDupCutDor</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 15, chem=Alcohol, thresh=0, nom=0, gain=255, features=Digital (0) <br />446 Different in file 2 108 0 Emb B <b>Dor</b> 0 0 Organ# = 20, Creature, Sensorimotor, Gait 15, chem=Alcohol, thresh=0, nom=0, gain=255, features=Digital (0) <br />440 Different in file 1 190 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 8, chem=Downatrophin, thresh=77, nom=0, gain=255, features=Digital (0) <br />441 Different in file 2 190 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 8, chem=Downatrophin, thresh=77, nom=0, gain=255, features=Digital (0) <br />441 Different in file 1 189 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 20, Creature, Sensorimotor, Gait 9, chem=Upatrophin, thresh=77, nom=0, gain=255, features=Digital (0) <br />442 Different in file 2 189 0 Emb B 0 0 Organ# = 20, Creature, Sensorimotor, Gait 9, chem=Upatrophin, thresh=77, nom=0, gain=255, features=Digital (0)</div><div style="text-align: left;"><br /></div><div style="text-align: left;">A big long list of changes that boil down to "what gaits creatures use in a given situation is now fixed and cannot change as the generations go on." The actual gait genes themselves are already immutable in default 2017 creatures, but my dislike of gait-based mutations goes a little farther than that and so now there's no way for them to change at all (or at least it's much less likely).</div><div style="text-align: center;"><h2>Chemical Emitters</h2><div style="text-align: left;">159 Different in file 1 41 0 Emb B MutDupCut 128 0 Organ# = 7, Creature, Sensorimotor, Crowdedness, chem=Loneliness, thresh=227, <b>samp=11</b>, gain=1, features=Inverted Digital (0) <br />159 Different in file 2 41 0 Emb B MutDupCut 128 0 Organ# = 7, Creature, Sensorimotor, Crowdedness, chem=Loneliness, thresh=227, <b>samp=10</b>, gain=1, features=Inverted Digital (0) <br />160 Different in file 1 32 0 Emb B MutDupCut 128 0 Organ# = 7, Creature, Sensorimotor, Crowdedness, chem=Crowded, <b>thresh=26</b>, samp=6, <b>gain=1</b>, features=Analogue (0) <br />160 Different in file 2 32 0 Emb B MutDupCut 128 0 Organ# = 7, Creature, Sensorimotor, Crowdedness, chem=Crowded, <b>thresh=77</b>, samp=6, <b>gain=2</b>, features=Analogue (0)</div><div style="text-align: left;"><br /></div><div style="text-align: left;">As mentioned back at the start, I noticed that 2017 creatures tend to be solitary, almost never getting lonely. Since that's not great for getting a population going, I went and did some tweaking to the crowdedness/loneliness balance so they'd get the urge to rejoin the herd after a while and take longer to get crowded once they've found a group (many thanks again to Dragoler for providing the latter change). <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">This is something I'd likely revert back to 2017 defaults for my ettin and grendel genomes as I'd like them to be a bit more independent than norns. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">170 Different in file 1 38 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 7, Creature, Sensorimotor, Upwards slope, chem=Upatrophin, thresh=48, samp=2, gain=255, features=Digital (0) <br />170 Different in file 2 38 0 Emb B 0 0 Organ# = 7, Creature, Sensorimotor, Upwards slope, chem=Upatrophin, thresh=48, samp=2, gain=255, features=Digital (0) <br />171 Different in file 1 40 0 Emb B <b>MutDupCut</b> 128 0 Organ# = 7, Creature, Sensorimotor, Downwards slope, chem=Downatrophin, thresh=48, samp=2, gain=255, features=Digital (0) <br />171 Different in file 2 40 0 Emb B 0 0 Organ# = 7, Creature, Sensorimotor, Downwards slope, chem=Downatrophin, thresh=48, samp=2, gain=255, features=Digital (0)</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Out of all gait-related mutations that could happen, I found the ones where creatures start acting like they're going up/down hills even on flat floors to be the most annoying. These are the two genes primarily responsible for that, and now they're immutable just like with the gait receptors. <br /></div><div style="text-align: center;"><h2>Chemical Reactions</h2><div style="text-align: left;">41 Different in file 1 55 0 Emb B 0 0 Organ# = 2, <b>6*Anabolic steriod</b> + 4*Amino Acid => 1*Muscle Tissue + 1*<NONE>; half-life = 65 <br />41 Different in file 2 55 0 Emb B 0 0 Organ# = 2, <b>4*Anabolic steriod</b> + 4*Amino Acid => 1*Muscle Tissue + 1*<NONE>; half-life = 65</div><div style="text-align: left;"><br /></div><div style="text-align: left;">This is a change I made over the course of reducing the amount of Activase in RA Standard creatures' systems. Since they had less Activase in their system and thus produced less anabolic steroid (mispelled in Gene Compare presumably due to a typo), I reduced the amount of anabolic steroid needed to produce muscle tissue. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">870 Different in file 1 14 0 Emb B MutDupCut<b>Dor</b> 128 0 Organ# = 22, 1*Coldness + 1*<NONE> => 1*Coldness backup + 1*<NONE>; half-life = 18 <br />876 Different in file 2 14 0 Emb B MutDupCut 128 0 Organ# = 22, 1*Coldness + 1*<NONE> => 1*Coldness backup + 1*<NONE>; half-life = 18 <br />871 Different in file 1 19 0 Emb B MutDupCut<b>Dor</b> 128 0 Organ# = 22, 1*Hotness + 1*<NONE> => 1*Hotness backup + 1*<NONE>; half-life = 18 <br />877 Different in file 2 19 0 Emb B MutDupCut 128 0 Organ# = 22, 1*Hotness + 1*<NONE> => 1*Hotness backup + 1*<NONE>; half-life = 18 <br />872 Different in file 1 37 0 Emb B MutDupCut<b>Dor</b> 128 0 Organ# = 22, 1*Tiredness + 1*<NONE> => 1*Tiredness backup + 1*<NONE>; half-life = 18 <br />878 Different in file 2 37 0 Emb B MutDupCut 128 0 Organ# = 22, 1*Tiredness + 1*<NONE> => 1*Tiredness backup + 1*<NONE>; half-life = 18 <br />873 Different in file 1 61 0 Emb B MutDupCut<b>Dor</b> 128 0 Organ# = 22, 1*Loneliness + 1*<NONE> => 1*Loneliness backup + 1*<NONE>; half-life = 18 <br />879 Different in file 2 61 0 Emb B MutDupCut 128 0 Organ# = 22, 1*Loneliness + 1*<NONE> => 1*Loneliness backup + 1*<NONE>; half-life = 18 <br />876 Different in file 1 106 0 Emb B MutDupCut<b>Dor</b> 128 0 Organ# = 22, 1*Sex drive + 1*<NONE> => 1*Sex drive backup + 1*<NONE>; half-life = 18 <br />882 Different in file 2 106 0 Emb B MutDupCut 128 0 Organ# = 22, 1*Sex drive + 1*<NONE> => 1*Sex drive backup + 1*<NONE>; half-life = 18</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Now this was a strange one. For one reason or the other, a bunch of reactions in the default 2017's Hungerly Drive Overwhelmsion organ (the organ that puts most other drives on the backburner when creatures get too hungry) were set to not express (still in the genome, but not functional). I could somewhat see the logic behind tiredness and loneliness, as sleeping is good for a creature's memory and not having loneliness get suppressed could potentially help the otherwise-solitary 2017 creatures find each other when they do get lonely, but the rest just confused me. Particularly the one for Sex Drive; personally, I don't want creatures who are starving to death breeding. So I just reverted these back to how they were in the original CFF (and how they continue to be in the TWB/TCBs).</div><div style="text-align: left;"><br /></div><div style="text-align: left;">432 New in file 2 122 0 Emb B MutDupCut 128 0 Organ# = 20, 6*CA smell 13 (Grendel) + 1*<NONE> => 2*Fear + 1*Adrenalin; half-life = 41 <br />874 New in file 2 121 0 Emb B MutDupCut 128 0 Organ# = 21, 8*Boredom + 1*Wait => 1*Wait + 8*Boredom backup; half-life = 19</div><div style="text-align: left;"><br /></div><div style="text-align: left;">These are two new reactions not present in the default 2017 genome. The first of them is the replacement for the Grendel Frightening neuroemitter I talked about in <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-fear-is-mind-killer.html">my last post</a>, and is now the first gene in the muscle organ like the similar gene is in vanilla grendels. The second, however, needs more of an explanation. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">Years back, when the Gameware Forums were still operational, it was noted how vanilla norns were constantly addicted to pushing elevators. A user by the name of Ratboy (also known for helping with the Enhanced ChiChi Norns, and who I believe also assisted Vampess in creating the CFE) figured that the instincts responsible had to be there for a reason, likely to convince norns to travel. So instead he came up with this reaction gene, temporarily suppressing boredom whenever creatures waited to travel on an elevator or through doors. Hopefully, by the time boredom was restored the creature would be elsewhere and thus more likely to do something else. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">It's a gene I've added to basically all my genomes since then, even as the instincts responsible were silenced in the CFE and beyond. I'm not sure how much it helps, but I've never really noticed it to hurt either, and I just like to think of it as a personal tag. Plus, I've also experimented with traveling creatures before, and it'll very much be helpful in any such genomes I try making in the future. <br /></div><div style="text-align: center;"><h2>Half-Lives</h2><div style="text-align: left;">26 Different in file 1 1 0 Emb B MutDupCut 128 0 [Wait] = 38<br />26 Different in file 2 1 0 Emb B MutDupCut 128 0 [Wait] = 31</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Gene Compare is <i>lousy </i>at showing the user what's different in half-life genes. Instead of just showing the changes, it spits out the gene in its entirety and presents the user with a blob that's nigh-impossible to parse. It makes trying to figure out what the exact changes were much more of a hassle than it needs to be. Rather than subject you to that, I'm just showing the changes. Or rather the one single change. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">Wait's half-life is reduced as a complementary change to the aforementioned reaction gene that has wait suppress boredom. So essentially RA Standard creatures won't be staring at elevators or doors for as long as other creatures should they insist on pushing one that isn't moving, though I haven't noticed it having any negative effect on regular usage of doors and elevators.</div><div style="text-align: center;"><h2>Stimuli</h2><div style="text-align: left;">395 Different in file 1 1 0 Emb B MutDupCut 128 0 Disappointment (0) causes sig=0 GS neu=0 int=0, ,,,240 => 1*Boredom + 25*Punishment + 62*Brain chemical 1 + <b>4*Activase</b> <br />395 Different in file 2 1 0 Emb B MutDupCut 128 0 Disappointment (0) causes sig=0 GS neu=0 int=0, ,,,240 => 1*Boredom + 25*Punishment + 62*Brain chemical 1 + <b>1*Activase</b> <br />409 Different in file 1 16 0 Emb B MutDupCut 128 0 I have eaten (26) causes sig=61 GS neu=12 int=0, ,,,64 => -7*Boredom + -2*Coldness + <b>2*Activase</b> + 3*Tiredness <br />409 Different in file 2 16 0 Emb B MutDupCut 128 0 I have eaten (26) causes sig=61 GS neu=12 int=0, ,,,0 => -7*Boredom + -2*Coldness + <b>0*<NONE></b> + 3*Tiredness</div><div style="text-align: left;"><br /></div><div style="text-align: left;">These are the stimuli genes I mentioned in <a href="https://grendelman.blogspot.com/2023/12/a-new-base-genome-of-buff-and-obese.html">my post about the 2017 digestive system and the changes I made to it</a>. Not much to say that I didn't already say there. <br /><br />However, I did remove the Activase from the Having Eaten stimulus; I decided I wanted to keep some risk of a heart attack present and thus made it a little more likely if creatures insisted on eating fatty foods to the exclusion of all else. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">410 Different in file 1 17 0 Emb B MutDupCut 128 0 I have approached (periodic) (16) causes sig=29 GS neu=14 int=0, ,,,48 => 4*Activase + <b>1*Crowded</b> + <b>-13*Loneliness</b> + 0*<NONE> <br />410 Different in file 2 17 0 Emb B MutDupCut 128 0 I have approached (periodic) (16) causes sig=29 GS neu=14 int=0, ,,,16 => 4*Activase + <b>0*<NONE></b> + <b>-6*Loneliness</b> + 0*<NONE><br />412 Different in file 1 19 0 Emb B MutDupCut 128 0 I have retreated (17) causes sig=13 GS neu=14 int=0, ,,,160 => -11*Crowded + <b>2*Loneliness</b> + -7*Fear + 4*Activase <br />412 Different in file 2 19 0 Emb B MutDupCut 128 0 I have retreated (17) causes sig=13 GS neu=14 int=0, ,,,128 => -11*Crowded + <b>0*<NONE></b> + -7*Fear + 4*Activase<br />532 Different in file 1 55 0 Emb B MutDupCut 128 0 Reached peak of smell 12 (67) causes sig=0 GS neu=0 int=0, ,,,16 => <b>-3*Loneliness</b> + <b>0*<NONE></b> + 0*<NONE> + 0*<NONE> <br />535 Different in file 2 55 0 Emb B MutDupCut 128 0 Reached peak of smell 12 (67) causes sig=0 GS neu=0 int=0, ,,,48 => <b>-25*Loneliness</b> + <b>-3*Fear</b> + 0*<NONE> + 0*<NONE></div><div style="text-align: left;"><br /></div><div style="text-align: left;">These stimuli are changed as part of balancing the amount of loneliness/crowdedness. I realized that the approaching and retreating stims likely triggered on approaching or retreating from <i>anything </i>(not just other creatures), a thought reinforced by the fact TWBs/TCBs don't have these genes affect crowdedness/loneliness. So now those two drives are handled more by the aforementioned emitter genes.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">2017 creatures also get considerably less loneliness reduced when they find another creature of their species. I decided to revert this back to how it was previously, as well as make it so it reduced fear as well in case they get scared by the presence of grendels in their midst.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">531 Different in file 1 53 0 Chi B MutDupCut 128 0 Travelled through internal door (96) causes sig=0 GS neu=0 int=0, ,,,16 => -124*Enter + <b>0*<NONE></b> + 0*<NONE> + 0*<NONE> <br />534 Different in file 2 53 0 Chi B MutDupCut 128 0 Travelled through internal door (96) causes sig=0 GS neu=0 int=0, ,,,48 => -124*Enter + <b>-124*Wait</b> + 0*<NONE> + 0*<NONE></div><div style="text-align: left;"><br /></div><div style="text-align: left;">So this is a change I'm not sure any other base genome's made. This gene refers to passing through internal doors. They're not the same as doors leading to other metarooms; this refers to doors leading to different areas of the same metaroom. Accordingly, internal doors are associated with the Enter drive as opposed to the Exit drive for metaroom/external doors.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">I don't think the Enter drive is relevant anywhere in the base game of C3/DS, but it does come into play for certain third party metarooms <a href="https://grendelman.blogspot.com/2015/11/to-elevator-or-door-matter-of-distance.html">as described here</a>. And I don't think there's any reason why an internal door shouldn't use the Wait drive; without it it'd just lead creatures bouncing throw internal doors repeatedly. With it, however, most creatures would just wind up staring at the door they just used for a while before the Wait drive wears off and they realize they're at their destination. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">So I made it so that the stim for using internal doors also gets rid of the Wait drive as is the case for elevators and external doors. Not sure how many internal door agents are out there, but it's futureproofing. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">411 Different in file 1 18 0 Emb B MutDupCut<b>Dor</b> 128 0 <b>Heard creature speak (11)</b> causes sig=0 GS neu=4 int=0, ,,,240 => <b>1*Crowded</b> + <b>-10*Loneliness</b> + <b>-11*Fear</b> + <b>-5*Anger</b> <br />411 Different in file 2 18 0 Emb B MutDupCut 128 0 <b>I have pulled (14)</b> causes sig=55 GS neu=15 int=0, ,,,192 => <b>-4*Boredom</b> + <b>-2*Coldness</b> + <b>4*Tiredness</b> + <b>4*Activase</b><br />533 Different in file 1 56 0 Emb B MutDupCutDor 128 0 <b>I have said need (20)</b> causes sig=0 GS neu=0 int=0, ,,,32 => <b>-6*Anger</b> + <b>-2*Crowded</b> + 0*<NONE> + 0*<NONE> <br />536 Different in file 2 56 0 Chi B MutDupCut 128 0 <b>Discomfort (76)</b> causes sig=0 GS neu=0 int=0, ,,,16 => <b>124*Comfort</b> + <b>0*<NONE></b> + 0*<NONE> + 0*<NONE></div><div style="text-align: left;"><br /></div><div style="text-align: left;">The TWBs/TCBs often repurpose previously dormant genes, changing them into completely new ones. In the interest of compatibility, I decided to do the same for a few genes. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">The CFF silenced the "Heard Creature Speak" and "Stated Need" stimuli and their corresponding instincts as it was basically a negative impact all around (they often resulted in feedback loops and creatures talking instead of actually taking care of themselves). Since they weren't being used anyway and I don't have any plans for them for future genomes, I turned the "Heard Creature Speak" stim into a Pulled Object stim (a copy of the Pushed Object stim except for pulling; for one reason or the other there wasn't one already) and "I have said need" into "Discomfort," taken from the vanilla grendel genome. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">847 New in file 2 62 0 Emb B MutDupCut 128 0 Hit critter (87) causes sig=0 GS neu=0 int=0, ,,,0 => -5*Boredom + -13*Anger + 0*<NONE> + 0*<NONE> <br />848 New in file 2 63 0 Emb B MutDupCut 128 0 Hit machine (92) causes sig=0 GS neu=0 int=0, ,,,0 => -7*Boredom + 0*<NONE> + 0*<NONE> + 0*<NONE></div><div style="text-align: left;"><br /></div><div style="text-align: left;">Alas, there weren't any more stimuli I felt comfortable repurposing, so two new stimuli genes were necessary to add these two stims. Like discomfort, they're from the vanilla grendel genome. Ettins don't have any stimuli genes unique to their vanilla genomes; if they did, I would've added them too. <br /></div><div style="text-align: center;"><h2>Instincts</h2><div style="text-align: left;">462 Different in file 1 3 0 Emb B MutDupCut 128 0 [03: stim] [Cell 3 (Seed)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for carbohydrate] => Cell 12 (Eat); <b>unknown = 0</b>. <br />462 Different in file 2 3 0 Emb B MutDupCut 128 0 [03: stim] [Cell 3 (Seed)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for carbohydrate] => Cell 12 (Eat); <b>unknown = 31</b>. <br />463 Different in file 1 4 0 Emb B MutDupCut 128 0 [03: stim] [Cell 11 (Food)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for fat] => Cell 12 (Eat); <b>unknown = 0</b>. <br />464 Different in file 2 4 0 Emb B MutDupCut 128 0 [03: stim] [Cell 11 (Food)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for fat] => Cell 12 (Eat); <b>unknown = 31</b>. <br />464 Different in file 1 6 0 Emb B MutDupCut 128 0 [03: stim] [Cell 8 (Fruit)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for protein] => Cell 12 (Eat); <b>unknown = 0</b>. <br />466 Different in file 2 6 0 Emb B MutDupCut 128 0 [03: stim] [Cell 8 (Fruit)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for protein] => Cell 12 (Eat); <b>unknown = 31</b>.<br /><b>463 New in file 2 32 0 Emb B MutDupCut 128 0 [03: stim] [Cell 3 (Seed)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for fat] => Cell 12 (Eat); unknown = 62. </b><br /><b>465 New in file 2 34 0 Emb B MutDupCut 128 0 [03: stim] [Cell 11 (Food)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for protein] => Cell 12 (Eat); unknown = 62.</b> <br /><b>467 New in file 2 48 0 Emb B MutDupCut 128 0 [03: stim] [Cell 8 (Fruit)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Hunger for carbohydrate] => Cell 12 (Eat); unknown = 62.</b></div><div style="text-align: left;"><strike><b><br /></b></strike></div><div style="text-align: left;"><strike>In the interest of making them trickier to care for</strike>, 2017s only have one instinct each for dealing with the hunger drives. EDIT: The <a href="https://www.creaturescaves.com/downloads.php?section=Breeds&view=502">2017's description</a> states that this change makes them require a more varied diet, which I interpreted as "it's to make them harder to raise." However, it's not stated as the actual reason, or even a reason ("to help prevent overeating" is a more directly stated reason). Some other reasons might've been out of an assumption that too many instincts could be confusing or just to make them only eat one kind of food item per type of hunger drive.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">EDIT2: Dragoler did some sleuthing and found <a href="https://creaturescaves.com/forum.php?view=2&thread=6592">the discussion topic for 2017s on Creatures Caves</a>, in which multiple people noted that 2017s tended to have trouble remembering to eat. Based on this, I'm inclined to believe that the reason was mostly to correct eating issues, both in remembering to eat and reducing "brain fog." Thanks, Dragoler!<br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">In any event, they eat seeds when seeking cards, food when seeking fat, and fruit when seeking protein. However, since they're rarely hungry for protein on account of having a lot of muscle tissue, this tends to mean they almost never eat fruit. So a lot of those nice fruit agents out there just sit there unused. Not only that, but fruit's actually the best thing for a CFF-derived genome to eat if it's seeking carbs or protein, as it won't get fat on the side and thus won't get extra adipose tissue (and thus lower its risk of a heart attack). <br /><br />Partially because of that and partially because I just wanted more variance in behavior, I readded the extra eat genes that are present in vanilla creatures (the CFF and prior) and weakened the genes already present. However, in the spirit of the original 2017 creatures, I also made it so the secondary eat genes are weaker than their respective primary gene. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">468 Different in file 1 13 0 Emb B MutDupCut<b>Dor</b> 128 0 [03: stim] [Cell 36 (Norn)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and <b>[Anger]</b> => <b>Cell 8 (Say what you need)</b>; unknown = 93. <br />471 Different in file 2 13 0 Emb B MutDupCut 128 0 [03: stim] [Cell 36 (Norn)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and <b>[Fear]</b> => <b>Cell 4 (come)</b>; unknown = 62.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">A repurposed dormant instinct that I had no future plans for. The original instinct encouraged creatures to express themselves when angry, matching the corresponding stimulus; I instead turned it into an instinct to approach other norns when scared to match the change I made to that stimulus and to help counteract the Grendel Frightening reaction. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">471 Different in file 1 15 0 Emb B MutDupCut 128 0 [03: stim] [Cell 28 (Machinery)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 0</b>. <br />474 Different in file 2 15 0 Emb B MutDupCut 128 0 [03: stim] [Cell 28 (Machinery)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 62</b>. <br />505 Different in file 1 5 0 Emb B MutDupCut 128 0 [03: stim] [Cell 21 (Toy)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 0</b>. <br />508 Different in file 2 5 0 Emb B MutDupCut 128 0 [03: stim] [Cell 21 (Toy)] + [Brain Lobe 255] [Cell 0] + [Brain Lobe 255] [Cell 0] and [Boredom] => Cell 1 (push); <b>unknown = 62</b>.</div><div style="text-align: left;"><br />As you might've noticed, ChiChi Norns and norns in general love their machinery. Since that's kind of annoying, I weakened the strength of the instinct so they're more likely to try other things. In a similar vein, I weakened the instinct for pushing toys as well. Hopefully this results in more varied behaviors without the problems that come with getting rid of boredom-related instincts outright. <br /></div><div style="text-align: center;"><h2>Pigments and Pigment Bleeds</h2><div style="text-align: left;">373 Different in file 1 1 0 Emb B Mut <b>129</b> 0 Intensity of Red is = 128. <br />373 Different in file 2 1 0 Emb B Mut <b>255</b> 0 Intensity of Red is = 128. <br />374 Different in file 1 2 0 Emb B Mut <b>129</b> 0 Intensity of Green is = 128. <br />374 Different in file 2 2 0 Emb B Mut <b>255</b> 0 Intensity of Green is = 128. <br />375 Different in file 1 3 0 Emb B Mut <b>129</b> 0 Intensity of Blue is = 128. <br />375 Different in file 2 3 0 Emb B Mut <b>255</b> 0 Intensity of Blue is = 128. <br />376 Different in file 1 5 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of Red is = 128. <br />376 Different in file 2 5 0 <b>Chi</b> B Mut <b>255</b> 0 Intensity of Red is = 128. <br />377 Different in file 1 7 0 Ado <b>M</b> Mut <b>129</b> 0 Intensity of Red is = 128. <br />377 Different in file 2 7 0 Ado <b>B</b> Mut <b>255</b> 0 Intensity of Red is = 128. <br />378 Different in file 1 6 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of Red is = 128. <br />378 Different in file 2 6 0 <b>You</b> B Mut <b>255</b> 0 Intensity of Red is = 128. <br />379 Different in file 1 4 0 <b>Ado</b> <b>F</b> Mut <b>129</b> 0 Intensity of Red is = 128. <br />379 Different in file 2 4 0 <b>Adu B</b> Mut <b>255</b> 0 Intensity of Red is = 128. <br />380 Different in file 1 8 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of <b>Green</b> is = 128. <br />380 Different in file 2 8 0 <b>Old</b> B Mut <b>255</b> 0 Intensity of <b>Red</b> is = 128. <br />381 Different in file 1 9 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of <b>Green</b> is = 128. <br />381 Different in file 2 9 0 <b>Sen</b> B Mut <b>255</b> 0 Intensity of <b>Red</b> is = 128. <br />382 Different in file 1 10 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of Green is = 128. <br />382 Different in file 2 10 0 <b>Chi</b> B Mut <b>255</b> 0 Intensity of Green is = 128. <br />383 Different in file 1 11 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of <b>Blue</b> is = 128. <br />383 Different in file 2 11 0 <b>Ado</b> B Mut <b>255</b> 0 Intensity of <b>Green</b> is = 128. <br />384 Different in file 1 12 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of <b>Blue</b> is = 128. <br />384 Different in file 2 12 0 <b>You</b> B Mut <b>255</b> 0 Intensity of <b>Green</b> is = 128. <br />385 Different in file 1 13 0 <b>Emb</b> B Mut <b>129</b> 0 Intensity of <b>Blue</b> is = 128. <br />385 Different in file 2 13 0 Adu B Mut <b>255</b> 0 Intensity of <b>Green</b> is = 128. <br /><b>891 New in file 2 14 0 Old B Mut 255 0 Intensity of Green is = 128. <br />892 New in file 2 15 0 Sen B Mut 255 0 Intensity of Green is = 128. <br />893 New in file 2 16 0 Chi B Mut 255 0 Intensity of Blue is = 128. <br />894 New in file 2 17 0 Ado B Mut 255 0 Intensity of Blue is = 128. <br />895 New in file 2 18 0 You B Mut 255 0 Intensity of Blue is = 128. <br />896 New in file 2 19 0 Adu B Mut 255 0 Intensity of Blue is = 128. <br />897 New in file 2 20 0 Old B Mut 255 0 Intensity of Blue is = 128. <br />898 New in file 2 21 0 Sen B Mut 255 0 Intensity of Blue is = 128.</b></div><div style="text-align: left;"><b><br /></b></div><div style="text-align: left;">Since I make genetic breeds and genetic breeds really benefit from having nice colors, I changed around the existing pigment genes and added new ones so there's a set of red, blue, and green pigment genes for every life stage. The new pigment genes are at the end of the genome to maintain compatibility with the original 2017 genome. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">For one reason or the other, C3 standalone changed how pigments and pigment bleeds worked in C1 and C2, where they kicked on at the lifestage they're set to and stayed that way for the rest of the creature's life. Instead, the genes only apply to the lifestage they're set to and switch off after that, requiring genes for all life stages if you want a creature to keep its color for its whole life (and even then they'll lose their colors after they die of old age, since "Dead" is technically a life stage itself that you can't set genes to kick on at in the Genetics Kit). <br /><br />DS reverted this change to how it worked in C1 and C2, and I imagine most people aren't playing C3 standalone these days. However, there's another reason to have pigment and pigment bleed genes for all lifestages in DS. In the vanilla genomes and other genomes that don't have extra pigment genes for lifestages past baby, a <i>single </i>pigment or pigment bleed gene mutating to affect a later life stage will result in that gene dictating the entire color scheme at that lifestage. So even if it was strongly colored as a baby, it'll go back to looking almost normal when it ages and stay that way for the rest of its life. Having extra pigment and pigment bleed genes for the later lifestages keeps that from happening for colored creatures. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">The original 2017 genome also drastically reduced the mutation rate of pigment genes, presumably for the same reason <a href="https://creatures.wiki/Farbe">the Farbe genome</a> disables pigment mutations entirely. Bright pigments tend to look less realistic and pleasing to the eye than pigment bleeds do. But out of personal preference, I kicked the mutation rate back up to where it is in vanilla creatures. </div><div style="text-align: left;"><br /></div><div style="text-align: left;"> 387 Different in file 1 2 0 Emb B Mut 255 0 Rotation = 128, Swap = 128. <br />387 Different in file 2 2 0 <b>Chi</b> B Mut 255 0 Rotation = 128, Swap = 128. <br />388 Different in file 1 3 0 Emb B Mut 255 0 Rotation = 128, Swap = 128. <br />388 Different in file 2 3 0 <b>Ado</b> B Mut 255 0 Rotation = 128, Swap = 128. <br />389 Different in file 1 4 0 <b>Ado F</b> Mut 255 0 Rotation = 128, Swap = 128. <br />389 Different in file 2 4 0 <b>You B</b> Mut 255 0 Rotation = 128, Swap = 128. <br />390 Different in file 1 5 0 <b>Ado F</b> Mut 255 0 Rotation = 128, Swap = 128. <br />390 Different in file 2 5 0 <b>Adu B</b> Mut 255 0 Rotation = 128, Swap = 128. <br />391 Different in file 1 6 0 <b>Ado F</b> Mut 255 0 Rotation = 128, Swap = 128. <br />391 Different in file 2 6 0 <b>Old B</b> Mut 255 0 Rotation = 128, Swap = 128. <br />392 Different in file 1 7 0 <b>Ado M</b> Mut 255 0 Rotation = 128, Swap = 128. <br />392 Different in file 2 7 0 <b>Sen B</b> Mut 255 0 Rotation = 128, Swap = 128. <br />393 Different in file 1 8 0 <b>Ado M</b> Mut 255 0 Rotation = 128, Swap = 128. <br />393 Different in file 2 8 0 <b>Emb B</b> Mut 255 0 Rotation = 128, Swap = 128. <br />394 Different in file 1 9 0 <b>Ado M</b> Mut 255 0 Rotation = 128, Swap = 128. <br />394 Different in file 2 9 0 <b>Chi B</b> Mut 255 0 Rotation = 128, Swap = 128. <br /><b>899 New in file 2 10 0 Ado B Mut 255 0 Rotation = 128, Swap = 128. <br />900 New in file 2 11 0 You B Mut 255 0 Rotation = 128, Swap = 128. <br />901 New in file 2 12 0 Adu B Mut 255 0 Rotation = 128, Swap = 128. <br />902 New in file 2 13 0 Old B Mut 255 0 Rotation = 128, Swap = 128. <br />903 New in file 2 14 0 Sen B Mut 255 0 Rotation = 128, Swap = 128. <br />904 New in file 2 15 0 Emb B Mut 255 0 Rotation = 128, Swap = 128. <br />905 New in file 2 16 0 Chi B Mut 255 0 Rotation = 128, Swap = 128. <br />906 New in file 2 17 0 Ado B Mut 255 0 Rotation = 128, Swap = 128. <br />907 New in file 2 18 0 You B Mut 255 0 Rotation = 128, Swap = 128. <br />908 New in file 2 19 0 Adu B Mut 255 0 Rotation = 128, Swap = 128. <br />909 New in file 2 20 0 Old B Mut 255 0 Rotation = 128, Swap = 128. <br />910 New in file 2 21 0 Sen B Mut 255 0 Rotation = 128, Swap = 128.</b></div><div style="text-align: left;"><b><br /></b></div><div style="text-align: left;">As with the pigment genes, the existing pigment bleed genes were rearranged and new pigment bleed genes were added to ensure every life stage has three pigment bleed genes assigned to it. Why three? I found that was the number that ensured the most intense pigment bleeds and also provided the correct value for the Creature History's color sections. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">Not much to say here that I haven't already said for the pigment genes. <br /></div><div style="text-align: center;"><h2>Facial Expressions</h2><div style="text-align: left;">460 Different in file 1 6 0 Emb B 0 0 Sad, Weight 255 => 124*Pain + <b>71*Unknown drive number: 255</b> + <b>69*Unknown drive number: 255</b> + <b>69*Unknown drive number: 255</b> <br />460 Different in file 2 6 0 Emb B 0 0 Sad, Weight 255 => 124*Pain + <b>75*Hunger for protein</b> + <b>75*Hunger for carbohydrate</b> + <b>75*Hunger for fat</b> <br /><b>454 New in file 1 1 0 Emb B 0 0 Sad, Weight 51 => 49*Unknown drive number: 255 + 31*Unknown drive number: 255 + 31*Unknown drive number: 255 + 0*Unknown drive number: 255</b></div><div style="text-align: left;"><b><br /></b></div><div style="text-align: left;">The facial expression genes have been changed to match that of the TWBs/TCBs, who look miserable when they get hungry. Since I thought was cute and also helpful to tell a creature's mood at a glance (especially postmortem, as 2017 creatures also take on a neutral expression when they're bored), I added it in. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">I also got rid of the seemingly-extraneous "hungry" expression that's been present since the original C3 expressive breeds. I think that was something added that wound up not working and was never removed...like a lot of other things in vanilla genomes. <br /></div><div style="text-align: center;"><h2>Conclusion</h2><div style="text-align: left;">Despite the length of this writeup, RA's Standard genomes actually aren't changed that much from the original 2017 genomes. Most of the changes are in the stimuli genes, and a lot boil down to "this gene can't mutate/is more mutable." </div><div style="text-align: left;"><br /></div><div style="text-align: left;">But at the end of the day, I'm not trying to reinvent the wheel and set a new standard in genetic development. The only standard I'm setting here is the standard I'm holding my future breeds to, hence the name of the genome. And I'm pretty happy with what I've made so far. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">To save you a bunch of scrolling, here's the link to <a href="https://www.creaturescaves.com/downloads.php?section=Creatures&view=2532">the test pack of norns and the genome</a> I uploaded to Creatures Caves. There's no egg agent in this download; I'm saving that for the finalized version of the genome, which I'll release alongside my grendel and ettin genomes whenever I finish those up. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">I'm not sure what my file hosting situation is at the moment. Trying to get to the place that hosted my downloads up until now just gives me a page stating "This website is being moved," and I remember getting something along those lines when I tried going there previously. To my knowledge the files already uploaded can still be downloaded (if not, <a href="https://eem.foo/archive/">EemFoo</a> should have what you're looking for). So I'll need to figure something out when the time comes. <br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">But for now, I think it's time I started work on my ettin base genome. I'll be certain to document that journey and the one for my base grendel genome as well, so until then, folks.<br /></div></div></div></div></div></div></div></div></div></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-41692347292106558232023-12-08T21:10:00.002-05:002023-12-09T13:05:11.237-05:00A New Base Genome: Fear is the Mind Killer<div>As has so often been the case with me, what I said my next post was going to be wasn't actually what it is. At least in this case it's still on the subject of working on my new base genome as opposed to something completely unrelated.</div><div><br /><div class="separator" style="clear: both; text-align: justify;"><a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgu5JqHFkGE7NshZsvkqrsRRwslJwPIaKI3Yrlp-c2OI8Pom-Kr1ifcvl12shhTxOLSpblCb7Vfq2Ly_8NYG504I-5PQnfN5c4QZtnhazvTVtglLXEvfcppZ6nQbUvjRVzcBXLXGiGvv0plyqLU-5C_s5lVi1UxSctXiagbTTR_1nELp-cwx7mlC7Xha6j0/s331/GrendelFear.jpg" style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"><img border="0" data-original-height="232" data-original-width="331" height="179" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgu5JqHFkGE7NshZsvkqrsRRwslJwPIaKI3Yrlp-c2OI8Pom-Kr1ifcvl12shhTxOLSpblCb7Vfq2Ly_8NYG504I-5PQnfN5c4QZtnhazvTVtglLXEvfcppZ6nQbUvjRVzcBXLXGiGvv0plyqLU-5C_s5lVi1UxSctXiagbTTR_1nELp-cwx7mlC7Xha6j0/w256-h179/GrendelFear.jpg" width="256" /></a></div></div><div>This time around, it's about a feature I'm porting over from the TWB/TCB genome. Specifically, the pair of emitters that substitute for the original "Grendel frightening" neuroemitter.</div><div><br /></div><div>First, a brief explanation about neuroemitters in vanilla creatures. What they're <i>supposed </i>to do is emit chemicals based on the state of a creature's brain. In the default norns, it's set to emit fear, crowded, and adrenaline whenever there's a grendel around. <br /></div><div><br /></div><div>The problem is that neuroemitters just plain don't work. It's something I suspected even early on into my gengineering career before it was confirmed more recently. It's a bit of a shame since they had the potential to be extremely powerful gengineering tools that are easier to grok than editing the brain outright, but it is what it is. <br /></div><div><br /></div><div>Fortunately, the default neuroemitter is fairly easy to replicate with normal emitters, as was the case with the TWBs/TCBs. Let's take a look at the genes in question.</div><div><br /></div><div><div class="separator" style="clear: both; text-align: center;"><img alt="" data-original-height="582" data-original-width="438" height="200" src="https://blogger.googleusercontent.com/img/a/AVvXsEhoQQ24ERQK7Rv36zhB1f3Jf_9wjHTOuFT106D2f2DWDAFHPr6mh6R4vx3vRS5AwfR0DpjQrB70Njya5wu4v9hFj5o5Ss5C6J1fPzx3pQVSuD23td3auj6tUI_L4viXdJsnB071KzzwrGga_4UCkoxUgLHQ_lPHyhgMxmvltVV-ScscQFOZVqFYRxUe0V7n=w151-h200" width="151" /><a href="https://blogger.googleusercontent.com/img/a/AVvXsEipJhxRY7EPaPAS9iUcYMHljhgX4DMYzMge6Nqyri6XrES09SQ_df3sVDpivvVzkDhahMwFLY-tqpKvAORKsFZKe3xtO8JTuBANXcV4WRnrLokgR6Kdu8RDaSu_Wfz7x4Ybhzmse0B2kY-IQoAX1ybkFLisSni8EbVZvTDW3DcuqahJzwQQbkJ-2scWXUp6" style="margin-left: 1em; margin-right: 1em;"><img alt="" data-original-height="582" data-original-width="438" height="200" src="https://blogger.googleusercontent.com/img/a/AVvXsEipJhxRY7EPaPAS9iUcYMHljhgX4DMYzMge6Nqyri6XrES09SQ_df3sVDpivvVzkDhahMwFLY-tqpKvAORKsFZKe3xtO8JTuBANXcV4WRnrLokgR6Kdu8RDaSu_Wfz7x4Ybhzmse0B2kY-IQoAX1ybkFLisSni8EbVZvTDW3DcuqahJzwQQbkJ-2scWXUp6=w151-h200" width="151" /></a></div><div class="separator" style="clear: both; text-align: center;"><br /></div><div class="separator" style="clear: both; text-align: justify;">For the uninitiated, emitter genes emit chemicals based on the physical state of the creature. This isn't limited to the state of the brain; it can also be things like whether or not the creature is underwater. It's just that in this case it's set to fire based on state 0 of neuron 37 in the Stimuli lobe.</div><div class="separator" style="clear: both; text-align: justify;"><br /></div><div class="separator" style="clear: both; text-align: justify;">If that doesn't make any sense to you...well, it didn't to me either. Fortunately for me I was able to locate <a href="https://www.creaturescaves.com/forum.php?view=12&thread=6793">a thread on Creatures Caves</a> that explained things well enough for the purposes of understanding what's going on here. The short version is that the Stimuli lobe is where the combined input of the creature's senses is stored (in order of importance: what the object is, whether or not the creature can see it and/or smell it, and how fast it's moving if it's moving at all). Neuron 37 refers to grendels. So in short, it's determining if there's a grendel in the proximity. <br /></div><div class="separator" style="clear: both; text-align: justify;"><br /></div><div class="separator" style="clear: both; text-align: justify;">No word on what state(0) means, but given that there's more options for neurons than there are neurons in the stimuli lobe and that they all have options for states(0 to 3), I think that always looks the same regardless of what tissue (lobe) you pick. <br /></div><div class="separator" style="clear: both; text-align: justify;"><br /></div><div class="separator" style="clear: both; text-align: justify;">When I was sure I understood what these two genes were doing, I copied them over to my base genome and did some testing. At first I left the values as they were; I don't think the TWBs/TCBs changed up <i>that </i>much that they wouldn't work for 2017 creatures as well. <br /></div><div class="separator" style="clear: both; text-align: justify;"><br /></div><div class="separator" style="clear: both; text-align: justify;">The results...well. What I was hoping for was something that'd just make norns wary of grendels. Enough to give them a headstart in fleeing when staring down an aggressive grendel, but not enough to compromise their normal behavior if the grendel was friendly. What I got was norns freaking out even when the grendel was minding its own business. <br /></div><div class="separator" style="clear: both; text-align: justify;"><br /></div><div class="separator" style="clear: both; text-align: justify;">As much fun as it was to watch (it's especially interesting seeing the fight-or-flight genes getting a kickstart; though I'm working with just the ChiChi genome, seeing the otherwise nonaggressive ChiChi Norns become grendel slayers when they're backed by a group was definitely interesting), it was a little overtuned for my liking. It should be noted that in 2017 creatures fear doesn't overwhelm hunger (for the sake of crossbreeding), but it was getting high enough that the fear gait kicked in and made them walk away from things they wanted to interact with. <br /><br />I considered playing around with the values in the emitter genes, but...while I may have a better understanding of what the locus means, I still don't entirely understand what effects it has on the values in the emitter itself. Particularly the threshold, a.k.a. the value the locus needs to be higher than in order to do its thing.</div><div class="separator" style="clear: both; text-align: justify;"><br /></div><div class="separator" style="clear: both; text-align: justify;">I played around with those values anyway, before deciding I'd be better off with a different solution that I understood in full. And this was my solution:</div><div class="separator" style="clear: both; text-align: justify;"><div class="separator" style="clear: both; text-align: center;"><a href="https://blogger.googleusercontent.com/img/a/AVvXsEih4Dal_HLJYWC8aNo_NeW0KHiO_wasPH4_-GmsdqqtOr1btQvYpCwS-bmhOzWt3i7SvkIMg9w1vZ0MmgBkCLFmeKMKR6aQYAv2oG1xjhIFhWEaC53Ds9rUrWwYss78xNgwLIAOAteSqJBZar3lF_JOA4glUdKUmj7QTTu8goggsAsp_tk7j5mKoXFO5LK7" style="margin-left: 1em; margin-right: 1em;"><img alt="" data-original-height="433" data-original-width="438" height="240" src="https://blogger.googleusercontent.com/img/a/AVvXsEih4Dal_HLJYWC8aNo_NeW0KHiO_wasPH4_-GmsdqqtOr1btQvYpCwS-bmhOzWt3i7SvkIMg9w1vZ0MmgBkCLFmeKMKR6aQYAv2oG1xjhIFhWEaC53Ds9rUrWwYss78xNgwLIAOAteSqJBZar3lF_JOA4glUdKUmj7QTTu8goggsAsp_tk7j5mKoXFO5LK7" width="243" /></a></div><div class="separator" style="clear: both; text-align: left;">Chemical reaction genes are pretty self-explanatory, I think. They're quite possibly the easiest genes to understand, save for maybe the genus, pigment, and appearance genes (and that last one can be confusing if you don't understand how the game handles creature sprites), and it's not too hard to get something satisfactory out of them. <br /></div><div class="separator" style="clear: both; text-align: left;"><br />This particular reaction takes grendel smell (CA smells are what creatures use to navigate, among other things; Aiko has an <a href="https://naturingnurturing.blogspot.com/2012/05/cas-and-you.html">entire post over on her blog</a> if you want to know more) and turns it into fear and adrenaline. Effectively, it accomplishes the same thing as those two emitters would, but in a more comprehensible form. The exact values took some messing around with, but ultimately this gives me the wariness but not panic I was looking for. Plus, this gives me something to work with for my base grendel genome; grendels have a very similar gene that makes them angry when they smell norns.</div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">(If you're wondering what adrenaline does in a creature, it has three purposes: it's emitted at low energy to make the creature produce more energy, it'll break down glycogen back into glucose if it gets too high, and it's also used by the fight or flight system to increase fear and anger. The latter is the purpose it's meant to serve here.) <br /></div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">Alas, there is a downside to this. CA smells travel between levels and even between metarooms, so norns with this reaction gene will likely start getting scared even before seeing any grendels. As far as I could tell, the emitters based on the Stimuli lobe only start triggering when a norn is in proximity to a grendel; should the grendel change levels or rooms they stop firing. If you understand what's going on better than I do, that's probably the superior option.</div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">I also considered not implementing a system like this at all; I'm not sure how big of an advantage it provides against aggressive grendels, and it's a downside when dealing with friendly grendels. And also I don't often play with more than one species at a time anyway. But it does provide an interesting behavior for those that often make multi-species worlds, and I do want creatures that are fun to watch. So I figured it was worth having. <br /></div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">Well, I sure had a lot more to say on this than I thought I was going to. But this should be the last of the detours and NEXT TIME will be the full changelist from default 2017 creatures. Until then, folks.<br /></div></div></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com1tag:blogger.com,1999:blog-6744468590191071018.post-30227445729753759712023-12-06T12:24:00.004-05:002023-12-06T12:24:42.777-05:00A New Base Genome: Of Buff and Obese Norns<p> After a continuous four days worth of constant tweaking and testing, I believe I've finally created a norn base genome I'm happy with. At first I figured I'd just talk about all the changes I made in one post, but there's one change I feel is worth giving its own post: the changes to the digestive system, or why unedited 2017 creatures have so much muscle tissue all the time.<br /></p><p>First, a brief explanation about how the creature digestive system works in C3/DS. There's three nutrients a creature can be hungry for: starch, protein, and fat. When a creature eats something that gives it one of these nutrients, it's then converted into a matching short-term energy source: glucose for starch, amino acid for protein, and triglyceride for fat. If the creature doesn't need those short-term energy sources for anything else, they're converted into a matching long-term energy source: glycogen for glucose, muscle tissue for amino acid, and adipose tissue for triglyceride. These can then be converted back into short-term energy should the creature need it (e.g. when it's having trouble finding food). <br /></p><p>However, there's a problem in vanilla creatures with the reaction that generates muscle tissue. It's reliant on another chemical called anabolic steroid (yes, it's named after what you're probably thinking of), which is supposed to be generated by a chemical emitter that fires based on "Muscle energy used." Which is to say it almost never fires at all. So vanilla creatures don't generate anabolic steroid and thus can't build up muscle tissue. Fortunately, the rest of the digestive system has enough redundancies that this isn't crippling for them and is likely to go unnoticed by the average player.</p><p>Nevertheless, it's a flaw that's been corrected in both the 2017 and TWB/TCB genomes. Both genomes made use of the originally-unused chemical Activase (something you might recognize from C1 and C2) by tying it to the stimulus genes associated with movement (e.g. pushing, grabbing objects, and walking around). <br /></p><p>TWBs/TCBs generate minute amounts of Activase from these stims, and it's consumed in a chemical reaction that generates both anabolic steroid and body heat (chemical 110; used for a <i>lot </i>of things in the system that gives them their name). However, they aren't entirely reliant on this reaction to get anabolic steroid. Their version of the anabolic steroid emitter fires when their muscle tissue drops too low alongside hunger for protein, so even if they don't generate enough activase from physical activity they can still build muscle tissue.</p><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">In 2017 creatures, it's another story. Their version of the anabolic steroid emitter fires based on the amount of Activase in their system. To compensate, they generate more Activase from the physical action stims than TWBs/TCBs do. They also get Activase from two stimuli that TWBs/TCBs do not: eating and disappointment. <br /></div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">As it turns out, it's that latter stimulus that explains why they have an excess of muscle tissue. Disappointment is the stimulus that fires whenever a creature can't do something, e.g. eat an inedible agent or try to grab something that's out of reach, but tries to do it anyway. It's a stimulus that fires a <i>lot. </i>On top of that, 2017 creatures get a lot of Activase out of it, to the point that they might as well have an excess of it all the time. <br /></div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">2017 creatures also have a pair of reaction genes that has Activase consume glycogen and adipose tissue, also solving an issue vanilla creatures have where they build up an excess of adipose tissue. Coupled with the flood of Activase they get from the Disappointment stim, this explains why they get hungry for starch and fat quickly. <br /></div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">So the solution seems obvious: remove the Activase from the Disappointment stim. And indeed, I tried that...but quickly found that the actual action stimuli get triggered a lot less than you'd think, especially in cases where there's not much around to interact with (like in the Capillata Hub or the Bridge/Engineering on the Shee Ark), and when there's agents around they keep trying to interact with but can't.</div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">So ultimately, they wind up not being able to build up muscle tissue consistently, effectively being the same as vanilla while also creating the opposite problem where they rarely get hungry for starch and fat but are constantly hungry for protein. But that's not even the worst problem here.<br /></div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">The CFF introduced a gene in the Mitochondrial Function organ (the organ responsible for the most vital reactions in a creature's system; you can think of it as the creature's heart) that damages it should adipose tissue get too high. In other words, they can have heart attacks. And in a 2017 creature that can't generate enough Activase to trigger the reaction that consumes adipose tissue constantly, the risk of a heart attack goes up dramatically.</div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">At first I tried increasing the amount of Activase gained from the other stims to compensate for the loss of the Activase from Disappointment. If I was careful to have norns stay in rooms where there was a lot they could interact with it worked all right. However, this meant I had to be particular with what they tried interacting with, and ultimately I found this to go against what I wanted out of my base genome: to be adaptable and good even when not constantly monitored. <br /><br />So instead of getting rid of the Activase from the Disappointment stim outright, I drastically reduced it. It's still not a perfect fix; the stim still fires a <i>lot. </i>But it's still less than default 2017 creatures, meaning that there are cases when they aren't generating Activase all the time and generally reaching an equilibrium of getting more hungry for starch and fat when doing things and getting more hungry for protein when not, and with much less risk of getting heart attacks when they're actively trying to do things.</div><br />I also thought about throwing this out the window and just copying the TWBs/TCBs' system because honestly they handled it a lot better, but I decided I wanted to maintain compatibility with default 2017 creatures as much as possible and thus working with the system 2017 creatures already had felt like the best option. <br /><div class="separator" style="clear: both; text-align: left;"><br />To summarize: Creatures get disappointed a lot; 2017 creatures get too much activity chemical from it by default, so they're buff all the time. But removing that lets them build up too much fat and makes them get heart attacks too easily, so the solution was to reduce the amount of activity chemical they get from being disappointed.</div><div class="separator" style="clear: both; text-align: left;"><br /></div><div class="separator" style="clear: both; text-align: left;">Next post will be the full breakdown of the changes I made from the default 2017 genome. Until then, folks.<br /></div><p></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-48447866721188152582023-12-02T05:08:00.006-05:002023-12-02T05:12:43.328-05:00A New Base Genome: What Do I Want?<div style="text-align: left;"><p style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em; text-align: left;"><img alt="" height="191" 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" width="245" /></p>Over the course of the past couple days, my test world for 2017 ChiChi
Norns has blossomed into an outright feral run. Over the course of it
I've been adding food, toys, and other necessities to make sure they
have what they need, and it's progressed to the Generation 7-8 mark at
the highest. It's actually been a while since I've been this invested in playing Creatures.<br /></div><div style="text-align: left;"> </div><div style="text-align: left;">After such a ridiculously long time of sticking with the CFEs, I'm upgrading to using the 2017s in my regular gameplay. And it's the 2017s that'll be the starting point for my new genome. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">Now that I know where I'm starting from, the new question is: what am I looking for in a base genome, anyway?</div><div style="text-align: left;"><br /></div><div style="text-align: left;">A lot of the things that went into my old CFE-based genome are things that were already part of the CFFs and beyond. So based on that alone, one would think the 2017s are usable right out of the box. Just add some extra pigment and pigment bleed genes and I'm off to the races, right? Alas, it's not quite that simple.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">First and foremost, I'm looking for creatures that are good at taking care of themselves. I've noted in the past that CFFs and beyond aren't so great at that. The biggest culprit was a slight edit made to their noun and verb lobes that supposedly made them more curious and interesting to watch and care for. When I tried playing with them, I remember that translating into creatures that had a tendency to forget how to eat. Maybe that's fine with all the players who do like actively caring for their creatures, but not so much for me since I tend to be more hands-off.<br /></div><div style="text-align: left;"><br /></div><div style="text-align: left;">How true is that now? Well...I'm a bit mixed. At first, it seems what was really going on was that the norns were more likely to try pushing their food before eventually putting it in their mouths before too long. Not bad; maybe it'd be worth it to see more interesting behaviors. </div><div style="text-align: left;"> </div><div style="text-align: left;">But as the run and generations went on, I've also noticed that they're quite likely to starve to death; it's actually pretty rare I've seen them die of old age. That would be interesting, if the cause of death was something like illness, inter-creature violence, or just getting lost and starving despite the creature's best efforts. I also don't think there's anything wrong with creatures going senile in their old age. But when even younger creatures are starving to death surrounded by food...I don't think that's really what I'm looking for. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">So suffice to say that edit's getting reverted back to how it is in vanilla and CFE creatures. I've added some creatures with this change to the run already, and I've definitely noticed that they tend to be better about keeping their needs satiated. Though at the same time, they're also not immune to forgetting how to eat; in fact, out of the six initial Gen 1s, only three made it to old age (compared to four out of six for the unedited 2017 norns). So the jury's still out here; I guess I'll see as I add more norns with the changes to the run in the future. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">The other thing I've noticed about 2017 creatures is their diet. Much ado was made about vanilla and CFE creatures not having a realistic biochemistry (among other things, they had too much adipose tissue and couldn't build muscle tissue), and there's been great efforts in fixing that in the CFF and beyond. One of the big features of 2017 is that their hunger drives are based on their long-term energy stores (glycogen/adipose tissue/muscle tissue) rather than being arbitrary as in vanilla and CFE genomes, which is something I very much want.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">However, I've noticed that 2017 norns tend to get hungry for starch and hungry for fat quickly but almost never get hungry for protein. When I looked at an unedited norn with the Biochemistry Kit, I noticed that they seem to have an excess of muscle tissue, effectively trading off one excess energy store for another.</div><div style="text-align: left;"> </div><div style="text-align: left;">The cause seems to be in part due to how they build up muscle tissue. Since a vital emitter relied on something in the engine that doesn't work quite right (there's a lot of that in C3/DS, which I'm learning suffered just as much from being rushed out the door as C2), they instead rely on the normally-unused chemical Activase generated from stimulus genes tied to movement for the purposes of the emitter gene. Also part of this system is a pair of reaction genes that consume glycogen and adipose tissue when combined with Activase. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">My end goal, ultimately, would be to have a creature whose hunger drives raise in equal measure but not overly dominating. So that's a bit of rebalancing I'm going to have to do. Fortunately for me, the TWBs have a similar method of checking long-term energy storage to determine hunger drives, so that's something I can reference if I get stuck. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">Speaking of the TWBs, I'm planning on porting over some of their non-temperature related changes. In particular, requiring female creatures to have sufficient muscle tissue to become pregnant and consuming it during their pregnancy. It also might be worth it to replace the non-functional neuroemitter in the 2017s with the equivalent TWB emitters. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">I'd also love to copy their new brain lobes and tracts, but...basically everything about the creature brain is eldritch gibberish to me and I have no idea where to even begin to understand it. I've also made it a point to not blindly copy anything I don't understand, lest I wind up breaking something. So I'm not touching the brain beyond the aforementioned noun and verb lobe reversions. </div><div style="text-align: left;"><br /></div><div style="text-align: left;">Beyond that would just be some minor things like making it so gaits and the associated emitters to trigger them can't mutate as a personal thing, re-adding the extra eat instincts that the 2017 genome removed (this'd be a band-aid fix for the problem of 2017 creatures never eating fruit, but I'm going to try and fix that properly), and so on.<br /></div><div style="text-align: left;"><br />I've also had a thought to mess with facial expressions, changing them to what the Osiris Norns use as a callback to the original expressive creature (the Osiris Norns pre-date even Creature Lab's official expressive breeds). I'm still pondering that one, since people in the present day are more used to what the official versions use (incidentally, the 2017s do have a facial expression change in that the same face they make when hungry also happens when they're bored, something I've considered reverting since it makes it harder to tell who's eating and who isn't).</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Beyond that? The 2017s feel about right to me. With any luck, figuring out their digestive system shouldn't be too big of a hassle, and everything past that point should be smooth sailing. And then once I'm happy with the norn genome, I'll base my grendel and ettin genomes on it as I did with my initial base genomes. </div><div style="text-align: left;"> </div><div style="text-align: left;">Not that I ever made any ettin breeds with the base genome I made that way; it just felt like any idea I had for an ettin breed would work better as a grendel or a norn breed. But that's besides the point.</div><div style="text-align: left;"><br /></div><div style="text-align: left;">Until the next one, folks. Hope y'all enjoy <a href="https://eem.foo/ccsf-2023-day-1-its-happening/">CCSF 2023</a>!<br /></div><div style="text-align: left;"><div class="separator"><p style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"></p><p></p><p style="clear: right; float: right; margin-bottom: 1em; margin-left: 1em;"> <br /></p></div></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-41978352238505193092023-11-28T20:24:00.000-05:002023-11-28T20:24:11.436-05:00A New Base Genome: The Starting Point<div><span>As I continue to play and rediscover what I liked about Creatures in the first place, I'm finding I'm already drifting back towards the developer mindset. I've been bouncing in and out of the Genetics Kit and the CAOs Tool, figuring out how things work and how to change them to make them work better. Turns out I do remember a little more than I was expecting, enough to change a few .cos files to better suit my preferences (in particular: I've changed the keyboard shortcut for pausing to Ctrl + P because my current laptop lacks a Pause/Break key). <br /></span></div><div><span><br /></span></div><div><span>So it's really not surprising that I'm already considering making a new base genome. As I've said in the past, the one I used to use has been getting pretty bloated and more importantly it's also not that compatible with other genomes. I distinctly remember sending in some grendels to a community wolfling run only to have most of the offspring turn out to be sliders. <br /></span></div><div><span><br /></span></div><div><span>My original plan was to start from scratch with a fresh CFE genome. Then figure out everything that outright doesn't work with it and fix it, all the while aiming for maximum crossbreeding compatibility and compatibility with the game as a whole.</span></div><div><span><br /></span></div><div><span>So I started looking through old posts to track down everything that's been noted...and wound up coming to the conclusion that I'm trying to reinvent the wheel. <br /></span></div><div><span><br /></span></div><div><span>I guess increased compatibility isn't a bad goal to shoot for. But ultimately, there's genomes already out there that fix all the worst nonsense. Why should I put myself through a lot of tedious testing and balancing to fix things that have already been fixed? Is my ego really so big that only reinventing the wheel will prove my genius?</span></div><div><span><br /></span></div><div><span>...Yes. Yes, it is. But I'm trying to be better than that. More importantly, I think I'm looking at it the wrong way. The genomes that exist now weren't created completely from scratch; they were built on what came before them. I'd just be doing the same with whatever I created based on them. Standing on the shoulders of giants, as it were. <br /></span></div><div><span><br /></span></div><div><span>So with all this in mind, I continued my research and saw what each of these brought to the table.</span></div><div><span><br /></span></div><div><span>Like I said in my last post, I'm not going with the TWB/TCB genomes. They seem just a touch too finicky for my liking; I like to be a hands-off player, and all the temperature-related stuff feels counterproductive to that goal (even if only in a psychological sense). <br /></span></div><div><span><br /></span></div><div><span>But while I don't like the temperature-related stuff, everything else about the TWBs/TCBs actually sounds really cool. To the point that the temperature-related stuff is basically the <i>only</i> reason I haven't really checked them out. <br /></span></div><div><span><br /></span></div><div><span>There doesn't seem to be a genome that includes all the other changes without the temperature stuff, but there is a genome that comes pretty close to everything I'd want: <a href="http://creaturescaves.com/downloads.php?section=Breeds&view=502">the 2017 genomes</a>. I've mentioned them briefly before when talking about making a new base genome in the past, but I don't think I've ever actually properly tried them out and see how they work on their own. It's time I rectified that. <br /></span></div><div><span><br /></span></div><div><span>So now I have a world for some 2017 ChiChi Norns, observing their behavior and seeing what I like and don't like about it. My actual conclusions will be for another post, but I will say that so far I'm liking what I'm seeing. <br /></span></div><div><span><br /></span></div><div><span>Until the next one, folks.<br /></span></div><div><span></span></div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-29463615392943527272023-11-24T12:43:00.000-05:002023-11-24T12:43:09.286-05:00Let's Try This Again<p>After...what, a year?...I found myself looking at Creatures stuff and decided I wanted to try playing the Steam version of C3/DS again. I'm starting from scratch again with the game almost as it is (so far the one big edit I've done is adding the Activate 1/2 split from Vermidia's <a href="https://www.creaturescaves.com/downloads.php?section=COBs&view=1855">Agent Pack Big and Tiny</a> slightly edited to be compatible with the Grendel Upgrade, and the only third party stuff I've added are the CFE breeds and Advanced Muco). </p><p>My advice to anyone else using the Steam version: Do <i>not </i>outright replace files in that version. If you need to validate the files for any reason, Steam will replace your replacements with the original versions and undo all your hard work, making you have to remember everything you changed and do it all over again, potentially making you forget what it was you changed in the first place, completely kill your motivation for playing the game, and decide to stop playing completely. </p><p>To make sure that doesn't happen again, I'm instead opting to make use of the Patches folder in the Steam version's bootstrap for .cos file edits. Sure, editing old third party .cos files so they're compatible with that change is going to be a little tedious, but the futureproofing's worth it. </p><p>Now that I have a gameplan, the next trick is figuring out all the changes I actually want. I've already decided I'm not using the TWB/TCB breeds for the most part. They're an absolute marvel of genetic engineering, for sure, but they're really not compatible with the game as it is and also with all the mods (especially metarooms) created before them that don't account for them. I'm sticking with the CFE instead; they're more compatible with all that stuff while still being a massive improvement over the vanilla genomes. </p><p> So that just leaves fixing stuff that's outright broken in the vanilla games. The Steam version patches a ton of stuff just out of the metaphorical box, which as far as I can tell the Community Patch Guides on the Creatures Wiki don't account for. So figuring out what those do and don't fix is going to be a bit of a pain (it doesn't help that those .cos files crash the CAOs Tool; fortunately I can open them up in Notepad+ instead, but that's yet another inconvenience to deal with).</p><p>Which, beyond just allowing creatures of the same sex and creatures of different species to have friendly interactions with each other (seriously, C1 and C2 got that right...well, mostly right, C1 still had the thing where grendels always hit even if they try to be friendly, but still. It's something C3/DS should've had out of the box), is...uh. Um. I'm...not actually sure. Fixing the ecology? Giving a bunch of things navigable CA that should've had them to begin with (though I'm kind of reluctant to do that seeing as most patches for them just feel a little clunky to me. Might just be neurodivergency-induced stubbornness, though)?</p><p>Well, I do think I should add a Water Eggs patch. And a fix for the death script in DS so you don't need to scroll the camera over dead bodies to make them vanish (vital for me, who's normally a pretty hands-off player). And also change the Birth/Death/Near Death music in DS to the C3 music, because the DS versions suck. </p><p>After I figure that stuff out, the next trick is to grab all the agents, breeds, rooms, etc. I want. And there's been a lot of them released since I last stopped playing frequently (special shoutout to the <a href="https://www.creaturescaves.com/downloads.php?section=Breeds&view=628">Angler Grendels</a>, who are straight out of younger me's dreams). </p><p>And after that...? It may be high time I got back into developing stuff. Maybe. While my motivation lasts. But those plans are for another post. </p><p>How long will this Creatures kick last?...I don't know. Knowing me, I give it a week at most. But in a way, it does feel like coming home. <br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com0tag:blogger.com,1999:blog-6744468590191071018.post-92072614001227778002023-09-28T20:16:00.001-04:002023-09-28T20:16:25.196-04:00Revival of an Old Idea<p>As far as my getting back into Creatures goes: I wound up falling out of it again, mostly because as it turns out validating the Steam version of C3/DS not only fixes bugs (which I did to get the Genetics Kit working again) but also changes any file replacements back to their original versions. Which includes the changes to the .cos files I made and to 99% of .cos files made by the community. After that I uninstalled it and have yet to try again. </p><p>But every now and again I think about picking it up again. Not only that, but I think about making something for it again. I figure that it'd be nice to bring a proper closure to my Creatures development journey with something spectacular. I've thought about reviving my old Flesheater Grendel project (grendels that can properly serve as population control without completely wiping out the norn population as regular grendels are wont to do), or a big pack of four genetic breeds (two grendel, one norn, and one ettin). <br /></p><p>But ultimately, I think the best candidate would be an outright full breed: the Kraken, one of my oldest ideas. </p><p>After all this time their <a href="https://creatures.wiki/Kraken">Creatures Wiki page</a> is still there, mostly the same as I wrote it back when I was a dumb teenager who didn't consider that creating a whole new page for an idea probably wasn't the best decision. Back then I wanted them to be geats who ate other creatures.</p><p>Now? Well, it seems like people have mostly figured out what causes the Wasteland Glitch, but there's still enough other problems with geats that I don't think I'd like to stick with that. And the idea of them eating other creatures is also not a great idea as I've long since learned how prone creatures are to cannibalism if you give them that ability (especially if you're using a genome that has better learning capability like the CFE). </p><p>So as the page also mentions, present-day me would want to make them grendels, who genetically would likely just be pretty standard aquatic grendels of the kind I've made dozens upon dozens of before (if more aggressive than what I usually liked to do). I do think it'd be interesting to give them traits reminiscent of actual cephalopod behavior to set them apart from other such breeds.</p><p>It's their appearance I've put the most thought into. Over the years I've come to appreciate more simple designs, and I've also been putting a lot more thought into speculative evolution. So rather than going with the description I initially came up with, I figured something more evocative of a cephalopod that evolved into the shape of a grendel, with four of the arms moving further on down the body to become the arms and legs. The remaining arms would remain around their face, and the tail instead would have fins reminiscent of squid. </p><p>If you're familiar with Splatoon, imagine a grendel version of an Inkling and you probably won't be too far off. Just instead of tentacle hair it's a tentacle beard (for both genders, I might add; I'm not sure what I'd do to make the genders visually distinct, but it'd definitely be something more naturalistic). <br /></p><p>However, I've also had another thought. It just so happens that everyone's favorite C Monster <a href="https://creatures.wiki/File:Borland.jpg">Borland</a> has a body plan that's much like a grendel's already, and converting Borland wholesale to C3/DS might be a bit of a pain due to how wonky his sprites are. The idea of just making outright Borland Grendels sounds really fun, but combining Borland with the ideas I already talked about is another option, both bringing the Kraken's design more in line with the mythological beast they're named after and to reference the greater Creatures mythos. </p><p>Everything else on their page? Still something I'd want to include with them. I just love the idea of the Kraken bringing their own ecosystem along with them, be that in the form of a metaroom or just an agent pack. And that toy ship still sounds cute. </p><p>But...have I made any progress towards getting past the roadblock that kept me from making them long ago? That being, the graphics? Well...no. I have picked up some skill in photo manipulation courtesy of learning to edit RPG Maker's default resources, but I don't think I'm at the level where I could make all the frames necessary for a breed that way. Far from it, in fact. And my other visual art skills are still horribly lacking and my brain still woefully unsuited for the process of learning. </p><p>There has been an exciting development for breed development in the form of <a href="https://eem.foo/geneforge/">GeneForge</a>, which to my understanding eliminates a lot of the tedium of making breeds and brings them in line with the official breeds to boot. However...that still requires a 3D model which I can't provide. So ultimately, I'd still need someone to handle that part while I handle the genetics and coding.</p><p>And also I'd have to overcome a f-argh-ton of inertia from not playing the games for so long and having to remember all the basics. And I'd also want to make a suitable base genome for the breed before anything else, which would take a while. </p><p>So...is there hope for the Kraken to finally become reality after all this time? Definitely not right now. But maybe someday. Maybe even sooner rather than later?</p><p>If nothing else, I can at least do a concept sketch. My art skills may be unsuited to for the breed proper, but I think I can do that much. <br /></p><p>In any event, I needed somewhere to dump my thoughts, and my blog was as good a place as any. For now, back to silence I go.<br /></p>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com1tag:blogger.com,1999:blog-6744468590191071018.post-28408198864556024692022-01-21T04:18:00.005-05:002022-01-21T04:19:58.288-05:00It Lives...?Well yes, but actually no. Maybe? <br /><br />Truth be told, I wasn't expecting to ever come back. I just wasn't getting a whole lot of fulfilment out of the community at the time, at least compared to the other communities I was a part of. Then my life suddenly took a nosedive for reasons I'd rather not get into publicly, and I found myself in search of a new internet home. <div><br /></div><div>I started getting back into science-y things as part of that, which in turn made me long for a good life simulation game. And a couple decades later, there's still no better game for that than Creatures. But I wasn't sure if I was really in the mood to reinstall the game considering my current computer has no CD/DVD drive, which is inconvenient to say the least, and...well, it's still really quiet around here. </div><div><br /></div><div>But what really brought me back was the discovery that the Creatures series is now on Steam. Not only that, but the Steam version is much more convenient to use than the GoG version and is in the hands of people who are willing to update it (well, as much as they can at least). </div><div><br /></div><div>I hope this can bring in some much-needed fresh blood into the community. It's not quite as huge as a new game, but it's great for the series all the same. So now I have the Steam version of C3/DS, and am in the process of figuring out what patches, breeds, agents, etc. are generally recommended nowadays and figure out which of those are things I want. <br /><br />As of this post it seems the community in general is as quiet as when I initially left, but maybe that's just because the hotspots are in places I haven't thought to look? There's definitely still stuff going on, but it doesn't seem like Creatures Caves is that active anymore. </div><div><br /></div><div>Don't expect me to get back into active development anytime soon. I still plan on fiddling around with genetics if only to make my personal gameplay more interesting for me, but as of right now I don't have any plans to make any new full-blown addons. At most I might update an older release. After all, it's been a long while since I've actually played the games. </div><div><br /></div><div>If I decide I have something interesting enough to post about on here I'll post it, but otherwise this blog's probably going to continue to remain silent. </div><div><br /></div><div>One last thing to note is that I've changed my global username a second time and now I go by Risen Angel or Rise Engel if the former happens to be taken on any particular website. I just figured it was time for a change and I think this name suits me.</div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com3tag:blogger.com,1999:blog-6744468590191071018.post-8559297897807065892021-03-21T21:08:00.002-04:002021-03-21T21:08:46.562-04:00The EndLet's get straight to the point: I'm leaving the Creatures Community. <div><br /></div><div>I'm not going to repeat my reasons why. I've been over those time and time and <i>time </i>again. I'd prefer to go out with something a little more dignified than a burst of negativity. </div><div><br /></div><div>What I'd <i>most </i>like to do is go out with a massive bang. A whole new slew of releases; genetic breeds, agents, maybe even a metaroom. Despite all that negativity, the Creatures series and the community around it's been one of the biggest parts of my life, and I cannot tell you how much I appreciated it. Alas, I can't do this either. </div><div><br /></div><div>As such, my final gift to the community is instead a change to my terms of use (which is funny, considering my last post here was about just those). Do whatever the heck you want with my work. Share it, rehost it, edit it, preserve it for future Creatures players to enjoy. <br /><br />There's a lot of people that I've enjoyed talking to and working with over the years, to the point where I honestly can't remember them all off the top of my head. However, there are two people in particular I'd like to give a special thanks to:<br /><br />Mea, for helping so much with the artwork that I'm lacking in. Without her, a lot of my crazy ideas would have never come to life. I only wish I could have given more back to her; I do feel like I asked a lot of her without offering much back in return. </div><div><br /></div><div>Ylukyun, for hosting the server that has all the downloads here on it for so long, and without asking any compensation from me in return. As with Mea I can't help but feel a little guilty that I couldn't offer much in return but gratitude. <br /><br />For everyone else, I wish you the best of luck in keeping the spirit of these old games alive. Who knows? Maybe someday one of these attempts at a new game or a spiritual successor will actually come to fruition, and you'll be the reason why that person had enough determination to see it through.<br /><br />Well, I think this goodbye's gone on long enough. Farewell, folks.</div>Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com1tag:blogger.com,1999:blog-6744468590191071018.post-25766008035541959332019-05-03T11:57:00.001-04:002019-05-03T12:06:21.906-04:00Of Edits and Improvements of my WorkAs of this typing, there's <a href="http://creaturescaves.com/forum.php?view=12&thread=7208">an ongoing discussion on Creatures Caves</a> about rehosting and updating addons created by people who are no longer a part of the Creatures Community. I haven't added my two cents to it myself, largely because I feel I have nothing to add. This bit pretty much says everything I would have:<br />
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<i>"I say we fix/patch/reupload everything first and ask forgiveness later if they ever bother to file a complaint. It’s not like this is being done maliciously after all. We’re not trying to take credit from the creators, but if we stand by and do nothing, tip-toeing around antiquated modding distribution policies, we only stand to lose more and more content to an already damaged and emaciated community."</i><br />
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However, it has got me thinking about my policies about my own work. My sharing policies are listed on my main downloads page, and I don't intent on changing them anytime soon. It ensures all my work is found in one, easy-to-find place. </div>
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But what about edits and fixes? My policy says nothing about those. </div>
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In the past I might have been a <i>little </i>possessive over it. However, nowadays I just don't see the point. All this stuff is for a game made by somebody else, and a fair chunk of it's based on somebody else's work as it is. Furthermore, I learn best when I rip apart things somebody else made and figure out how they did this, that, and the other thing. Finally, it's not like I have the enthusiasm nowadays to go back and fix any outstanding issues that might exist in my work. </div>
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So my policy on editing my creations is thus: <b>Go nuts.</b></div>
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Want to make my metarooms TWB/TCB friendly? Go for it. Find a game-breaking bug in one of my agents? Patch it up. Dive into my genomes and see what makes them tick; improve them if you so desire. Heck, feel free to share these improvements with the community. All I ask is that you credit me for the original work (and don't use my work to create something offensive, intentionally hurtful, etc.).<br />
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However, I should note that the artwork for much of my agents and metarooms was created by somebody else (Mea for the most part). Before you start editing the artwork I'd suggest contacting the creators of said artwork to see if it's okay. </div>
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That is all for now. Until the next one, folks.</div>
Risen Angelhttp://www.blogger.com/profile/15403436833974732956noreply@blogger.com2