jumpy
WaveFunctionCollapse
jumpy | WaveFunctionCollapse | |
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28 | 99 | |
1,544 | 22,745 | |
1.2% | - | |
8.9 | 4.8 | |
4 days ago | 6 days ago | |
Rust | C# | |
GNU General Public License v3.0 or later | GNU General Public License v3.0 or later |
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jumpy
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Shiftnanigans - 2D Platformer Randomizer
I made a 2D platformer randomization crate called Shiftnanigans (https://github.com/AustinHellerRepo/Shiftnanigans) as part of my work on the open source game Jumpy (https://github.com/fishfolk/jumpy). Within the map editor of Jumpy, the Randomize button will randomize the placement of tiles and elements, maintaining the general structures of the map. I've described the two abstract concepts and sets of structs used to accomplish this functionality below. This is just a general overview, but I am happy to elaborate further if anyone has questions about the algorithms and data structures used.
- Fish Folk – open-source Bevy game
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Fish Folk – Our open source arena-shooter game in development for 4 years is now live on Kickstarter
GitHub: https://github.com/fishfolk/jumpy
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Fish Folk: Jumpy v0.5 – completed MVP of Bevy rewrite
Since late September we've been rewriting 'Fish Folk: Jumpy' in Bevy, headed up by Jumpy's new lead dev zicklag. With the release of v0.5, we now set our sights on a crowdfunding campaign due to launch in early 2023.
- Networking in ‘Fish Folk: Jumpy’ with QUIC for matchmaking and GGPO for p2p rollback
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Wave Function Collapse - A stateful node graph framework (constraint problems, procedural generation, etc.)
Thanks for this! We have a longstanding idea to use WFC as a way to create procedurally (re-)generated maps for our 2D platformer game. Happy to collaborate further on this if you’re interested.
- WASM For Core Game Loop & Mods · Jumpy dev-talk
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Katharos tech?!
Also the people from Katharos are great contributors of Bevy itself and also is working on Jumpy, which is a great source of inspiration and showcase for community, which doesn't uses Katharos License.
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Are there any AAA or indi games being developed in Rust?
Fish Fight is developed in Rust.
WaveFunctionCollapse
- I use Wave Function Collapse to create levels for my game (2022) [video]
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It's Okay to Make Something Nobody Wants
Thank you! And yes, I agree. I was looking at uh https://github.com/mxgmn/WaveFunctionCollapse and wondering if that were applicable here :)
Have a good day!
- The Wavefunction Collapse Algorithm
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Kullback–Leibler Divergence
Intuitively, it measures the difference between two probability distributions. It's not symmetric, so it's not quite that, but in my opinion, it's good intuition.
As motivation, say you're an internet provider, providing internet service to a business. You naturally want to save money, so you perhaps want to compress packets before they go over the wire. Let's say the business you're providing service to also compresses their data, but they've made a mistake and do it inefficiently.
Let's say the business has, incorrectly, determined the probability distribution for their data to be $q(x)$. That is, they assign probability of seeing symbol $x$ to be $q(x)$. Let's say you've determined the "true" distribution to be $p(x)$. The entropy, or number of bits, they expect to transmit per packet/symbol will be $-\sum p(x) lg(q(x))$. Meaning, they'll compress their stream under the assumption that the distribution is $q(x)$ but the actually probability of seeing a packet, $x$, is $p(x)$, which is why the term $p(x) lg(q(x))$ shows up.
The number of bits you're transmitting is just $-\sum p(x) lg(p(x))$. Now we ask, how many bits, per packet, is the savings of your method over the businesses? This is $-\sum p(x) lg(q(x)/p(x))$, which is exactly the Kullback-Leibler divergence (maybe up to a sign difference).
In other words, given a "guess" at a distribution and the "true" distribution, how bad is it between them? This is the Kullback-Leibler distribution and why it shows up (I believe) in machine learning and fitness functions.
As a more concrete example, I just ran across a paper talking [0] about using WFC [1] to asses how well it, and other algorithms, do when trying to create generative "super mario brothers" like levels. Take a 2x2 or 3x3 grid, make a library of tiles, use that to generate a random level, then use the K-L divergence to determine how well your generative algorithm has done compared to the observed distribution from an example image.
[0] https://arxiv.org/pdf/1905.05077.pdf
[1] https://github.com/mxgmn/WaveFunctionCollapse
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All of it under the most poorly designed and maintained village
Reminds me of wave function collapse - a programmatic way to generate mazes.
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How to detect and fix isolated terrain (islands or lakes) in a tile-based terrain?
I am using WFC to generate the terrain, with pretty much a copy-paste implementation of the original WFC implemented into Unity.
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How to make wfc or post-gen script in blender?
If you still want to go the WFC route, the original WFC repository is a great place to start. There's also a (relatively barebones looking) Godot plugin you could take a look at.
- Wave Function Collapse
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collapsed
wave function collapse studies - this is done with the https://github.com/mxgmn/WaveFunctionCollapse algorithm after I saw https://github.com/CodingTrain/Wave-Function-Collapse mention it. done in P5! IG https://www.instagram.com/ronivonu/
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Room Generation Using Constraint Satisfaction
There’s an interesting approach similar to this called [Wave Function Collapse](https://github.com/mxgmn/WaveFunctionCollapse) (no relation to wfc in physics idea besides inspiration). It can infer the probabilistic constraints from one input example, and it seems to generalize quite well. Here’s a [little demo](https://oskarstalberg.com/game/wave/wave.html)
What are some alternatives?
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