68 lines
3.6 KiB
Markdown
68 lines
3.6 KiB
Markdown
# dyna3
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### Abstract
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Constraint-based three-dimensional dynamic geometry
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## Description
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From a thorough web search, there does not seem to be a dynamic geometry software package which (a) began its life handling three dimensions, rather than just two, and (b) allows you to express the desired geometric configuration in terms of constraints on the entities (e.g. l and k are parallel, a, b, and c a collinear, etc.) rather than as a construction (e.g. l is the perpendicular bisector of a and b). The goal of the dyna3 project is to close this gap.
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Note that currently this is just the barest beginnings of the project, more of a framework for developing dyna3 rather than anything useful.
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### Implementation goals
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* Comfortable, intuitive UI
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* Able to run in browser (so implemented in WASM-compatible language)
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* Produce scalable graphics of 3D diagrams, and maybe STL files (or other fabricatable file format) as well.
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## Prototype
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The latest prototype is in the folder `app-proto`. It includes both a user interface and a numerical constraint-solving engine.
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### Install the prerequisites
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1. Install [`rustup`](https://rust-lang.github.io/rustup/): the officially recommended Rust toolchain manager
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* It's available on Ubuntu as a [Snap](https://snapcraft.io/rustup)
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2. Call `rustup default stable` to "download the latest stable release of Rust and set it as your default toolchain"
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* If you forget, the `rustup` [help system](https://github.com/rust-lang/rustup/blob/d9b3601c3feb2e88cf3f8ca4f7ab4fdad71441fd/src/errors.rs#L109-L112) will remind you
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3. Call `rustup target add wasm32-unknown-unknown` to add the [most generic 32-bit WebAssembly target](https://doc.rust-lang.org/nightly/rustc/platform-support/wasm32-unknown-unknown.html)
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4. Call `cargo install wasm-pack` to install the [WebAssembly toolchain](https://rustwasm.github.io/docs/wasm-pack/)
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5. Call `cargo install trunk` to install the [Trunk](https://trunkrs.dev/) web-build tool
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6. Add the `.cargo/bin` folder in your home directory to your executable search path
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* This lets you call Trunk, and other tools installed by Cargo, without specifying their paths
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* On POSIX systems, the search path is stored in the `PATH` environment variable
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### Play with the prototype
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1. Go into the `app-proto` folder
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2. Call `trunk serve --release` to build and serve the prototype
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* *The crates the prototype depends on will be downloaded and served automatically*
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* *For a faster build, at the expense of a much slower prototype, you can call `trunk serve` without the `--release` flag*
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3. In a web browser, visit one of the URLs listed under the message `INFO 📡 server listening at:`
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* *Touching any file in the `app-proto` folder will make Trunk rebuild and live-reload the prototype*
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4. Press *ctrl+C* in the shell where Trunk is running to stop serving the prototype
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### Run the engine on some example problems
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1. Go into the `app-proto` folder
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2. Call `./run-examples`
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* *For each example problem, the engine will print the value of the loss function at each optimization step*
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* *The first example that prints is the same as the Irisawa hexlet example from the Julia version of the engine prototype. If you go into `engine-proto/gram-test`, launch Julia, and then*
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```julia
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include("irisawa-hexlet.jl")
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for (step, scaled_loss) in enumerate(history_alt.scaled_loss)
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println(rpad(step-1, 4), " | ", scaled_loss)
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end
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```
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*you should see that it prints basically the same loss history until the last few steps, when the lower default precision of the Rust engine really starts to show*
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### Run the automated tests
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1. Go into the `app-proto` folder
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2. Call `cargo test`
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