User:Papaltine/ProtoGraph: Difference between revisions

Revision as of 03:09, 19 August 2025

ProtoGraph is a declarative programming language designed to work with ProtoFlux in the Resonite ecosystem. It allows creators to write logic in a clean, readable text format that compiles directly into ProtoFlux nodes—making it easier to build, test, and maintain complex systems.

Overview

Paradigm: Dataflow
Family: ML: Caml: OCaml: F#
Designers: Papaltine, Kittysquirrel
Developer: Papaltine
Stable Release: N/A (Currently in Beta)
License: AGPLv3
Target Platform: Resonite (via ProtoFlux)
File Extension: .pg
Compiler Tool: flux-sdk
Repository: Flux SDK
Nuget: Papaltine.FluxSDK
Compiled Format: .brson (Resonite Record)
Influenced by: F#, Elm, Python, Haskell, VHDL, Odin, Go
Showcase World: https://go.resonite.com/world/U-1O4IcGhlKSm/R-2045c574-dda6-4a7e-9955-56d2ca002d78

Who Should Use ProtoGraph?

Creators who want to move beyond visual scripting
Developers building modular, reusable systems
Teams collaborating on large-scale Resonite projects

Benefits

Readable: Clean syntax that mirrors ProtoFlux
Modular: Encourages reusable and easy to refactor code
Reliable: Compiler checks help catch errors early
Accessible: Friendly to those familiar with ProtoFlux as a first programming language

Building and Using in Resonite

Getting Started

Write your .pg file
Compile it:

flux-sdk build MyModule.pg

Import the .brson file into Resonite
Inspect the generated ProtoFlux under the corresponding slot

Examples

Cross Product Module

This is a simple pure module that transforms input data into outputs.

module CrossProduct

in A: float3
in B: float3

out this: float3

where {
// Inputs
Ax, Ay, Az = Unpack_Float3(A);
Bx, By, Bz = Unpack_Float3(B);

// Computations
Cx = (Ay * Bz) - (Az * By);
Cy = (Az * Bx) - (Ax * Bz);
Cz = (Ax * By) - (Ay * Bx);

// Final result
Pack_Float3(Cx, Cy, Cz);
}

Counter Object

This shows how you can write an object that maintains internal state and exposes methods to be called.

module Counter

out this: int // The current value of the counter

// Public methods
out Increment: Impulse
out Decrement: Impulse
out Reset: Impulse

where {
// Variables are not shared with other nodes, they are private
sync CounterVar: int;

// out impulses are methods on the object that send it messages
// to do different actions
Reset = CounterVar <- 0;

Increment = CounterVar <- ValueInc(CounterVar);

Decrement = CounterVar <- ValueDec(CounterVar);

// We can also expose normal data. This is like a getter.
CounterVar;
}

@@ Line 12: / Line 12: @@
 * '''Compiler Tool''': <code>flux-sdk</code>
 * '''Repository''': [https://git.samsmucny.com/ssmucny/Flux-SDK Flux SDK]
+* '''Nuget''': [https://www.nuget.org/packages/Papaltine.FluxSDK/0.14.0-beta Papaltine.FluxSDK]
 * '''Compiled Format''': <code>.brson</code> (Resonite Record)
 * '''Influenced by''': F#, Elm, Python, Haskell, VHDL, Odin, Go
@@ Line 29: / Line 30: @@
 == Building and Using in Resonite ==
-[https://git.samsmucny.com/ssmucny/Flux-SDK/wiki/Getting-Started Getting Started]
+[https://flux-sdk.samsmucny.com/ProtoGraph/Getting-Started.html Getting Started]
 # Write your <code>.pg</code> file
 # Compile it:
 <syntaxhighlight lang="bash">
-dotnet flux-sdk.dll build MyModule.pg
+flux-sdk build MyModule.pg
 </syntaxhighlight>
 # Import the <code>.brson</code> file into Resonite
@@ Line 93: / Line 94: @@
 == See Also ==
-* [https://git.samsmucny.com/ssmucny/Flux-SDK/wiki/Home Language Guide]
+* [https://flux-sdk.samsmucny.com/ ProtoGraph Language Guide]
 * [https://git.samsmucny.com/ssmucny/Flux-SDK Git Repository]
 * [[ProtoFlux]]
 * [https://www.youtube.com/watch?v=aPh4Z3SioB8 <nowiki>Dataflow Programming [Video]</nowiki>]