Minor nit, because this is one of my weird special interests: this (being render-agnostic) isn’t necessarily a property of React’s virtual DOM. It’s a property of JSX being explicitly specified without semantics.
For instance, Solid also supports custom JSX renderer, but doesn’t use a VDOM to achieve that.
I find it helpful to think of JSX as analogous to a macro (in the lispy sense of the term), except that its syntax and implementation are decoupled. Most compiler tooling assumes the implementation maps to a function call, but even that isn’t strictly required (and again, Solid is a counter example).
Something I wish is that you could "render" JSX agnostically and just get a JSON data structure describing a tree of tags, which is not specific to the platform or even the framework, and then you could pass that off to whichever subsystem for whichever purpose (or even serialize it or send it over a wire). We wouldn't need separate build plugins for each JSX-using framework, you'd just pass them your data
Right, but only with a custom transpilation step. It would be nice if there were only a single standard JSX transpilation that all the frameworks and platforms ingested the output of
JSX gets compiled to a tree of function calls, but the hard part is done using react (or solid, or svelte, or ...) to hook in to the lifecycle of nodes in that tree.
The point is about the declarative abstraction and how it's useful for people who don't know what "React Three" might entail, not to enumerate all the frameworks that have it under a submission about "React Three Ecosystem".
Are there any guides on using the "react style" framework (JSX / State) to generate outputs other than DOM? I've been interested in the idea of doing something similar for JSON or markdown document generation.
This imperative/declarative shift happened as part of UIKit -> SwiftUI too. However, it’s still pretty well accepted that if you’re doing anything “complicated” you’re going to end up writing UIKit imperative code.
I wonder if there’s any research (PL or maybe even more philosophical) on whether declarative approaches can logically cover all imperative use cases.
Basically: is there something special about “verbs” (imperative) that let you do things that “nouns” (declarative) cannot, at least within reasonable verbosity constraints?
Yeah, one of the qualities of the abstraction is how often you have to reach for the escape hatch, how nice it is to use the escape hatch, and whether it's an escape hatch vs. just two clean modes of tooling working together.
SwiftUI has failed pretty much all of those for me.
In react-pixi / react-three, you have your declarative component tree alongside a `useTick`/`useFrame` function that you can use to do more surgical work, and it works well together. Each component can tap into the tick to update itself.
I've migrated a few medium-sized pixi/three projects to their React wrappers, and the code cleaned up so well that I could work on them again.
Before that, I'd tried modeling games in Elm and then using its port system to send the game state to JS which then updates the pixi/three world. But it's exactly this updateWorld(oldWorld, newState) that's hard to write, yet that's what these libs do for you.
note three.js [1] has nothing to do with React out of the box though, this page highlights an atypical way of using three.js through a popular React binding.
You might be getting downvoted for saying it's an "atypical" way of using three.js. the pmnd.rs community (for example) is quite large.
I understand why people like the declarative nature of react three fiber, but it's quite unfortunate that it requires something like code sandbox to allow modification / working with it on the web- but that's by nature due to being react.
Vanilla three.js can be written surprisingly similarly, if you are disciplined about breaking things up into functions/components. And no react necessary / can embed a code editor and allow direct modification.
For what it’s worth, this is also true of whatever else one might express with JSX: imperative code (and syntax, and semantics) can be structured in a way that closely resembles declarative code… with discipline.
It’s doesn’t have to be especially onerous discipline if you embrace it, but it becomes considerably more onerous as it becomes more social: if some members of a team/contributors to a project embrace it more/less than others, that difference in commitment becomes a constant source of friction.
> It’s doesn’t have to be especially onerous discipline if you embrace it, but it becomes considerably more onerous as it becomes more social: if some members of a team/contributors to a project embrace it more/less than others, that difference in commitment becomes a constant source of friction.
That's one of the stronger arguments for opinionated pre-processors/frameworks/libraries like Typescript/TSX/JSX/React in general. Because it abstract away those things that only some team members would embrace, you effectively make everyone embrace them. That leads to less friction.
But this reduced friction comes at a cost: more complex abstractions and incidental bugs related to that complexity. And as far as the procedural vs declarative: after a certain degree of complexity, I find myself introducing procedural codes within useEffects, useMemos anyways
I start using X3D at work in order to enable some cool functionality showing steps to build an assembly in 3D, and it's actually insane how high the performance is. It's all HTML components, so I wrote a super thin React wrapper (essentially the scene needs to be manually loaded once, that's about all) and have been cruising with that.
Effortless to fly, rotate, hide or highlight parts, decompose things into x3d assets, and so on.
It might have issues somewhere, I haven't widely tested browser compat or anything, but it's curious to me how little I see it versus how much I see ThreeJS when it seems that X3D is the more capable platform.
React's threejs/pixijs bindings are a great example of what vdom diffing can let you do.
Since they bring their own reconcile(a, b, diff) function to React, these libs can turn:
Into: In other words, you write declarative code, and it does the hard imperative work of adding/removing/disposing/updating things for you.Just like how it helps you sync your data model to underlying stateful DOM nodes; the idea can be applied on top of any stateful system.
Minor nit, because this is one of my weird special interests: this (being render-agnostic) isn’t necessarily a property of React’s virtual DOM. It’s a property of JSX being explicitly specified without semantics.
For instance, Solid also supports custom JSX renderer, but doesn’t use a VDOM to achieve that.
I find it helpful to think of JSX as analogous to a macro (in the lispy sense of the term), except that its syntax and implementation are decoupled. Most compiler tooling assumes the implementation maps to a function call, but even that isn’t strictly required (and again, Solid is a counter example).
Something I wish is that you could "render" JSX agnostically and just get a JSON data structure describing a tree of tags, which is not specific to the platform or even the framework, and then you could pass that off to whichever subsystem for whichever purpose (or even serialize it or send it over a wire). We wouldn't need separate build plugins for each JSX-using framework, you'd just pass them your data
You can build your own jsx renderer and get exactly that, it's not that difficult.
Right, but only with a custom transpilation step. It would be nice if there were only a single standard JSX transpilation that all the frameworks and platforms ingested the output of
JSX gets compiled to a tree of function calls, but the hard part is done using react (or solid, or svelte, or ...) to hook in to the lifecycle of nodes in that tree.
And JSX is not needed either, as seen with Threlte.
https://threlte.xyz/
When all you know is React, everything gets viewed through that limited lens.
Sheesh.
The point is about the declarative abstraction and how it's useful for people who don't know what "React Three" might entail, not to enumerate all the frameworks that have it under a submission about "React Three Ecosystem".
Just to clarify, you'd write the bottom code (declarative) and the library translates it to the above (imperative) code?
That’s right
Are there any guides on using the "react style" framework (JSX / State) to generate outputs other than DOM? I've been interested in the idea of doing something similar for JSON or markdown document generation.
I don't have a good guide for you, but this is the lib you use to create custom React renderers:
https://www.npmjs.com/package/react-reconciler
This imperative/declarative shift happened as part of UIKit -> SwiftUI too. However, it’s still pretty well accepted that if you’re doing anything “complicated” you’re going to end up writing UIKit imperative code.
I wonder if there’s any research (PL or maybe even more philosophical) on whether declarative approaches can logically cover all imperative use cases.
Basically: is there something special about “verbs” (imperative) that let you do things that “nouns” (declarative) cannot, at least within reasonable verbosity constraints?
Yeah, one of the qualities of the abstraction is how often you have to reach for the escape hatch, how nice it is to use the escape hatch, and whether it's an escape hatch vs. just two clean modes of tooling working together.
SwiftUI has failed pretty much all of those for me.
In react-pixi / react-three, you have your declarative component tree alongside a `useTick`/`useFrame` function that you can use to do more surgical work, and it works well together. Each component can tap into the tick to update itself.
I've migrated a few medium-sized pixi/three projects to their React wrappers, and the code cleaned up so well that I could work on them again.Before that, I'd tried modeling games in Elm and then using its port system to send the game state to JS which then updates the pixi/three world. But it's exactly this updateWorld(oldWorld, newState) that's hard to write, yet that's what these libs do for you.
Aren’t declarative approaches just abstractions over imperative? Somehow you need to get there. (Processor executes instructions, in the end)
A (the?) major area where this is generally considered unanswered, and active in PL research, is “effects” (as in, side-effects).
I think there are declarative languages that are Turning-complete, like Prolog, etc. So declarative approaches should be equally good.
note three.js [1] has nothing to do with React out of the box though, this page highlights an atypical way of using three.js through a popular React binding.
[1] https://threejs.org/
You might be getting downvoted for saying it's an "atypical" way of using three.js. the pmnd.rs community (for example) is quite large.
I understand why people like the declarative nature of react three fiber, but it's quite unfortunate that it requires something like code sandbox to allow modification / working with it on the web- but that's by nature due to being react.
Vanilla three.js can be written surprisingly similarly, if you are disciplined about breaking things up into functions/components. And no react necessary / can embed a code editor and allow direct modification.
For what it’s worth, this is also true of whatever else one might express with JSX: imperative code (and syntax, and semantics) can be structured in a way that closely resembles declarative code… with discipline.
It’s doesn’t have to be especially onerous discipline if you embrace it, but it becomes considerably more onerous as it becomes more social: if some members of a team/contributors to a project embrace it more/less than others, that difference in commitment becomes a constant source of friction.
> It’s doesn’t have to be especially onerous discipline if you embrace it, but it becomes considerably more onerous as it becomes more social: if some members of a team/contributors to a project embrace it more/less than others, that difference in commitment becomes a constant source of friction.
That's one of the stronger arguments for opinionated pre-processors/frameworks/libraries like Typescript/TSX/JSX/React in general. Because it abstract away those things that only some team members would embrace, you effectively make everyone embrace them. That leads to less friction.
But this reduced friction comes at a cost: more complex abstractions and incidental bugs related to that complexity. And as far as the procedural vs declarative: after a certain degree of complexity, I find myself introducing procedural codes within useEffects, useMemos anyways
Exactly, as seen with Threlte as a counterpoint.
https://threlte.xyz/
When I was new to the integration of threejs and react I found these examples to be just amazing.
https://r3f.docs.pmnd.rs/getting-started/examples
The screenshots look cool, but (on my iPhone) the 1st one I tried to view was in a code sandbox that threw an error.
The examples here
https://threejs.org/examples/#webgl_animation_keyframes
seem to work great on my phone...
R3F is great but almost all the code sandbox demos have been broken for years at this point
Has ThreeJS updated to start using X3D (https://www.x3dom.org/) yet?
Taking a quick look at [the docs](https://r3f.docs.pmnd.rs/getting-started/introduction) linked above, I see the use of Canvas. Fair enough.
I start using X3D at work in order to enable some cool functionality showing steps to build an assembly in 3D, and it's actually insane how high the performance is. It's all HTML components, so I wrote a super thin React wrapper (essentially the scene needs to be manually loaded once, that's about all) and have been cruising with that.
Effortless to fly, rotate, hide or highlight parts, decompose things into x3d assets, and so on.
It might have issues somewhere, I haven't widely tested browser compat or anything, but it's curious to me how little I see it versus how much I see ThreeJS when it seems that X3D is the more capable platform.