@CopperKettle that doesn't make sense. You can't declare a member through method. That must be done in the class definition (where you wrote all the other members). If you could declare members inside methods, it would mean that some members would only exist after you execute that method, which is a bit odd. Or at least that is my understanding
@karan Here's tip: since no-one here is working for you, no-one will "correct your code". You can ask about specific errors you're getting and people will probably try to help, but "can anyone correct this code" is "can anyone do this work for me", which will not get you anywhere.
Yeah, but up until .NET Core 3, the target audience for .NET Core apps wasn't really people getting an app and executing it. It was oriented towards server apps, web apps, where you don't go around running EXEs anyway.
3.0 is now a lot more desktop-focused with WPF and WinForms support, so it makes sense to align that "package as EXE" feature with that version.
I wonder what's the best way to make it less ugly.
1. Instead of having a 4-level-deep nested dictionary, have one dictionary, with a compound key comprised of all four keys. Pros: one dictionary, easy to read, just as easy to retrieve a specific item. Cons: hard to navigate, can't retrieve a set of values at a specific level.
2. Create custom classes for each level of the tree. So I now have a single `Dictionary<string, Organization>`, when `Organization` is simply a wrapper around (or an alias for?) a three-level-deep dictionary. Pros: Clearer code, easy to retrieve single keys and also whole branches, can navigate. Cons: More classes could mean more entities to keep track of in your mind, harder to understand?
3. Instead of dictionaries, use some sort of hierarchical tree data structure. Pros: Intuitive, using the data structure that models the actual entity. Cons: No standard structure exits in the framework, need to find a nuget package for it. Less clear because less standard. Also, maybe, not O(1) access? No biggie.
The first level is divided by TenantId, since this is a multi-tenant app and we need to keep data separated (although we might enforce the tenant data separation at a higher level and keep only 3 levels here)
@CaptainObvious No. This is a configuration service that can store arbitrary configuration for different services inside the overall application. So to get a single value, we need to filter by TenantId (that's the first dictionary), then get the configuration for a single entity in our app by unique ID (that's the second). For that entity, we store configuration grouped by the configuration source (third) and the config key itself (fourth). The value is an arbitrary JSON document.
@CaptainObvious This is a generic service. Our overall app has several microservice (let's call them DMS, TMS and ReSim). The config service doesn't know what the app's configurations are. Only the apps know that. So when DMS stores its config, it's stored under /tenantX/entityY/DMS/ConfigEntry1
@CaptainObvious Each microservice has its own schema, but the config service doesn't know or enforce it.
What the config service does know to do is merge configurations in different hierarchies. (That's a different hierarchy than this tree).
So for instance if I have an entity called /org1/dept2/team4, I might have a configuration setting assigned both for /org1/dept2/team4 itself, but also on /org1/dept2. When calculating the effective configuration for an entity, I need to take into account the parents as well.
If a value is set locally on a node, it will override a parent setting, but if it's not, it should inherit the parent value. And then, of course, there are more complications as well.
Hi everyone, I am just trying to learn .net core. I understand that there is an additional step from .net mvc where I have to create interface classes and add them to a service. Is there a way to scaffold/automate the creation of interfaces?
For some reason, a massive amount of the codebase at my work has an interface for every class, including classes that will obviously not be subclassed because they contain ad-hoc business logic. It's not a good pattern.
