I'm sorry if this doesn't conform to the rules. But I think this problem requires some explanation as I myself don't know how else to describe how I even arrived at the problem. (TL;DR at the bottom)

Introduction to the problem:

Suppose one is working with various forms of lights. These lights do not necessarily share the same states (brightness, color temperature, ...). They may also not have the same number of entire sets of states.

For instance a basic light may only have brightness on it, that is a single set of states and this set consists of only brightness. But there may also be a big light that has 4 spotlights, capable of brightness and color temperature, on it that are individually controllable. These 4 spotlights are attached to a single object though and do share some properties (name, global toggle, access to sensors attached to the device,...)

If one now wanted to work with freezed classes, one could implement them as 4 different lights, but I would like them to be under a single entity. So suppose Lights are now the "physical" entities, while LightState is what ever can be changed on them.

The basic model:

We could model them as follows;

class LightState with _$LightState  {
   const factory LightState.default(Brightness brightness) = DefaultLightState;
   const factory LightState.colorTemperature(Brightness brightness, 
                                             ColorTemperature colorTemperature
                                             ) = ColorTemperatureLightState;

class Light with _$Light {
   const factory Light.basic(LightState state) = BasicLight;
   const factory Light.massiveSpotlight(LightState state,
                                        LightState state2,
                                        LightState state3,
                                        LightState state4) = MassiveSpotlight;

Something similar to this would work quite well throughout the app. They even share their first "state", which means light.state is possible on all objects.

The Problem:

LightState is a union itself, it contains several different collections of attributes and lights should only have one such collection! So instead of using LightState, we would likely jump to a solution such as:

class Light with _$Light {
   const factory Light.basic(DefaultLightState state) = BasicLight;
   const factory Light.massiveSpotlight(ColorTemperatureLightState state,
                                        ColorTemperatureLightState state2,
                                        ColorTemperatureLightState state3,
                                        ColorTemperatureLightState state4) = MassiveSpotlight;

This would now implement both lights as mentioned in the introduction and it works great except for one thing that I need: The shorter version of deep copyWith!

MassiveSpotlight light; #suppose this was a valid instance with values

   state: light.state.copyWith(
         brightness: Brightness(100)

This works.

MassiveSpotlight light; #suppose this was a valid instance with values

light.copyWith.state(brightness: Brightness(100)));

This does not.

CopyWith simply does not show "state" at all, this is probably because "ColorTemperatureLightState" is technically an abstract class and I guess these simply don't have the same functionality.

Why do I care? Why not solve it in a different way?

Well for one I would like to keep freezed, things like the map function work really well. I simply can't accidentally miss some representation of a light, because it forces it on me. It also helps to separate updates into multiple streams, because not all entities communicate in the same way with the app.

Also using a hierarchical approach with inheritance comes with its own problems. For instance I would like to avoid function calls on entities in the UI layer, instead I would like to keep the alteration process to the application layer or simply hand down an altered copy.

The Question

Is there a clean way to solve this?

For instance, is there a different way to use the specific types of a union as a parameter for another constructer such that copyWith remains intact?

I'm also open to proposals of entirely different solutions. If I have to throw freezed away for these classes, I will. As stated above I however currently do not know of a clean way to alter an object in the application layer based on input in the UI layer - without - basically mapping the functionality to the UI.

So, staying with the light example, I would like to avoid calling setters such as "setBrightness", "turnOn/toggle" in the UI. But I have to change many different attributes one at a time.

TL;DR: I wanted to use specific types of a freezed union as parameters in the constructer of some freezed class. This however breaks the shortened version of deep copyWith.

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