Client - is a nuget library to easily call the remote service (uses the same interface as the actual service) Core - is the core of the hosted service, contains the handlers/controllers/di-setup/etc Core.Models - is the api models, used by core and client (basically input/output models and the service interfaces) Interfaces - interfaces of the services within the hosted application Models - domain models of the application, the interfaces would use these models Repository - database logic and mapping from repo models to domain models
so, we use 2 dto models
the Models and Core.Models
Models is internal to the application, and represents the domain
Core.Models is the api of the application and represents the actions you want to perform
I'm not sure I'm following.. It seems a bit weird to not inherit since they both share the same properties, and instead i should write the same code in multiple classes
I have a name, you have a name, we are human being, all the people have a name. "Name" is a property of human. I have a pet, my pet have a name, but my pet not human, but pet can also have a "Name" property.
But if you want to found a parent class on human and pet, it's animal, but not all animal have a "name"(not means scientific name). While you can indeed define a "name" property for animal, but is it necessary?
Object doesn't have a weight though. It's a completely technical type. If oyu want to bring domain knowledge in ("real world rules"), you have to make your own.
Composition over inheritance (or composite reuse principle) in object-oriented programming (OOP) is the principle that classes should achieve polymorphic behavior and code reuse by their composition (by containing instances of other classes that implement the desired functionality) rather than inheritance from a base or parent class. This is an often-stated principle of OOP, such as in the influential book Design Patterns (1994).
== Basics ==
An implementation of composition over inheritance typically begins with the creation of various interfaces representing the behaviors that the system must...
ehh...
> This drawback can be avoided by using traits, mixins, (type) embedding, or protocol extensions.
Some languages provide specific means to mitigate this:
C# provides default interface methods since 8.0 version which allows to define body to interface member
These new yellow 'Watched' labels - I assume that they mean 'These items contain tags that are a part of your watch list'.
It's less jarring in light-theme, but still unpleasant:
They're way too intrusive, they look like 'this is important' or 'action required' - and almost every item on my fee...
well, considering most humans tends to read from left to right, the case for stackoverflow site is very noticeable, unlike on google, where most empty spaces are on the right side.
so what I think Chrome does is, as soon as you pasted the url with no content-type, it will actually try to interpret the response body, so that <img> tag will not make another request.
[Captain Obvious] I've made somthing truly terrible today boys
[Captain Obvious] Because Xamarin still doesn't use the new project format
[Captain Obvious] Files (ie image assets etc) all have to be registered individually with the csporj
[Captain Obvious] That's a pain in the arse with iOS imageassets
[Captain Obvious] So I made a powershell script which (amongst other thigns like converting to the required format) will auto generate the xcassets folder structure, manifest files and shit, and then LOADS A COM INSTANCE OF VISUAL STUDIO
[Captain Obvious] Which then opens the solution, then the project, and adds a bunch of ProjectItems with the required BuildActions