Looking for Guidance on Implementing Figma-like Features in an Android App with Jetpack Compose

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Hello everyone,

I’m currently working on an Android application using Jetpack Compose and I’m trying to implement a feature similar to FigJam where users can create notes. The feature would allow users to insert text boxes, images, shapes, mathematical formula boxes, use a pen tool, and work with layers.

I understand that I can use the Canvas class in Android to draw graphics, but i don't know if it's able to provide the level of interactivity that FigJam does. For instance, I want users to be able to directly manipulate the objects drawn on the canvas (like moving them around or resizing them).

I also need to save the state of the canvas and all its objects to a database so that users can load their notes later. This means I need a way to serialize all the objects and their properties into a format that can be stored in a database.

Has anyone worked on something similar or could point me in the right direction? Any libraries or frameworks that could help me achieve this? Any advice or guidance would be greatly appreciated.

Thank you in advance!

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I think you're asking a community to deliver a huge project for you. FigJam isn't a feature, it's a full application.

Yes, you can use Android graphics to create very interactive graphics, like in any other Android app you may use. Yes you can serialize and store your objects, there are literally hundreds of ways to do that.

Yes, Android has everything you need to achieve this.

Not trying to be snarky, I just think that your question is too big for the Stack overflow format.. :)


I'm sorry, this is my first time posting on Stack Overflow Discussions, i will change my voice the next time. After doing this post, i found some projects doing the same for Android with Kotlin, so i will base my work on that. In advance, thank for your feedback


I am not sure if canvas provides the ability to intercept before rendering, meaning if it has vector-drawing-abilities - so you might need to abstract the editing mode beforehand aka do all the basic stuff like paths, bezier-curves, brushes and so on and then any time something changed rerender the canvas.

This will be a destructive process as you repaint the canvas.

In the home-computer-days we basically made use of sprites (not even sure if sprites are a thing generally on PC/GPU, guess cursor and overlay might be the nearest thing) for that.

Key-point is: if you really wanna do this, you need to learn to work with buffers/caches, be aware of the structures you can build by combining basic types, creating abstract classes that are standalone instances but provide a compatible output, learn how to interface structurally and visually and so on.

The far easier way (but essentially the same idea) is to make use of HTML/CSS/JS first to grasp the concepts and later on try to do the equivalent in JetPack Compose/Kotlin.

Because you can edit it programmatically at runtime, as well as preload and instantiate on demand or for example use async calls to create editing-chains.

Like, for example:

1: new instance of brush

2: provide ability/hud to edit brushes-features like thickness, color, etc.

3: track/record the drawn pixels - determine the path and keep this in cache to be able to redefine the path, for example providing an add-anchor/pivot-feature to attach to the path allowing the angle of the curve to change.

I say this because prototyping in Android Studio is only feasible if you not only know the ins and outs but also have an idea of the basic concept of the features you wish to implement.

HTML/CSS/JS allows to do so even with a rudimentary text-editor, or directly in the web-dev-console of your browser of choice. And yes, this helps in memorizing as you can quickly iterate and play with all the facettes it offers.

Also as far as i am aware layout and entity/element- and even event- handling is basically 1:1 translatable to Kotlin/JetPack Compose; just requires some "butter" around it and the naming convention is slightly different (in most cases synonyms to the html/css-equivalents).

In general:

Try to learn to enjoy the little successes. In this scenario you always have the choice how you keep going - do you completely go the web-route first and then convert and/or embed it into your android-project?

Or do you immediately - once you grasped how a necessary module functions at its core - implement it in pure kotlin/jetpack?

Iirc, you can mix webtech and android-native, meaning:

1: Create the module from scratch in pure html/css/js.

2: Create a single-page-web-app in android studio to demonstrate the module works.

3: Retrospect, get the birds-eye-view once you finished let's say 3 modules as web-apps in Android, to see what repeats and can therefore be outsourced into standalone functions/classes.

This might be a safe way to dig in and be rewarded for each single step. The latter goes a long way for massive projects like you described.

Don't be discouraged.

It's doable, you just need to learn to plan and adjust parts of your plan according to your (ever-changing) abilities and respect your mental and physical endurance.

The major hurdle will be learning new stuff under (self-made) pressure and to learn to ignore the worries to check if it's really needed to worry, and instead focus on the small things.

You got this!


Woow, thank you so much, i will take everything you said into account, i wish i could upvote you right now. This is for a College Project for Web Services so i got 1 month to do it, i will do the best i can, thank you so much for your feedback and support!