I think the only case I use an implicit operator for currently is to map a db model to a business model, because they have literally the same properties.
public interface IOptional<out T>
{
T Value { get; }
}
public abstract class Optional<T> : IOptional<T>
{
public abstract T Value { get; }
public static implicit operator Optional<T>(T value)
=>
value == null
? (Optional<T>)new EmptyOptional<T>()
: new ValueOptional<T>(value);
}
public class EmptyOptional<T> : Optional<T>
{
public override T Value { get; } = default;
}
public class ValueOptional<T> : Optional<T>
{
public ValueOptional(T value)
{
Value = value;
[Captain Obvious] Gotta keep track of the discord message IDs AND the stack message IDs
[Captain Obvious] So when one updates the other can be updated without sending a duplicate message, which is what currently happens when Stack messages are edited
[Captain Obvious] The worst part is the stack message event data doesn't even say it's an edit, it's just "it's a message lol"
@Wietlol this is highly unlikely to work for known systems. What if they have different architecture where sizeof(char) == 1 or sizeof(bool) == 32? Even when you serialize in byte array level, how could it possibly know that it's T1 and not T2 where sizeof(T1) == sizeof(T2)?
text is stored in UTF-8 by default (can be specified otherwise, but havent had the need yet) and if language X does not support that, I would have to write my own UTF-8 parser
there is a problem when the object you are deserializing too uses polymorphism
for example
public class MessageEventList
{
public IList<IMessageEvent> Events { get; set; }
}
public interface IMessageEvent { }
public class MessagePostedEvent : IMessageEvent { }
public class MessageEditedEvent : IMessageEvent { }
public class MessageDeletedEvent : IMessageEvent { }
now try to deserialize a MessageEventList
Json will say "ooh, I found a list of objects... I wonder which implementation of the interface they were..."
now it börks
and you have to jump through hoops to make it work with polymorphism
"oh but that is simple, you just include the type name of the actual type"
ye... now it is .net dependent
or you can include a more abstract information field for the type
now you have to figure out how to parse it so it understands that the type field contains that information and map it to each type
I prefer a tool that I can just trust that it serializes and deserializes without error
I'm using asp.net core and I'm a n0ob...everything I see says that the ~ used in a path represents the 'Application root' but I see different behavior depending.
<img src="~/images/test.png" />
Compared to: @await Html.PartialAsync("~/Pages/Shared/_Test.cshtml")
Seem to work totally differently. The first one seems to treat ~ as my /My_Project/wwwroot folder (inside Solution Explorer) while the second one treats ~ as as my /My_Project
Can someone confirm if my understanding is correct?
@RobP. it still points to the same root path, it will differ depends on when you are calling this. It resolves the relative path from root. Basically, you're just querying where you are from the relative to the root path, or it just works the same as pwd/cwd/cd CLI command
If /MyProject is the root then shouldn't ~/images/test.png fail because it doesn't include wwwroot? And if /MyProject/wwwroot is the root, then shouldn't ~Pages/Shared/_Test.cshtml fail because there is no Pages subfolder under wwwroot?
I do apologize, I feel like I'm just not getting it, but I really appreciate the response