our vet apparently is really uncomfortable around people who cry, so the whole time, he was just trying to distract me and talk to me about medical articles he had read :D
Ya, I mean it always feels like "you killed her", but that's only part true. I'd rather have somebody put me down than suffer a slow and gruesome death by starvation or any other way.
I could appreciate what he was doing, but I also really needed to cry it out
yeah, the vet gave me an option to force feed her antibiotics (because she wouldn't have eaten them with food or without) and even then, at least another four days of watching her not eat and waste away
I couldn't put her through that
I'm a strong believer in not keeping her alive if it only means she'd suffer
Sorry, didn't mean to drag down the chat, I'll shutup now about the cat :)
@Neil You're a good man. It's extremely hard to make the decision for the best of the animal, especially when it hurts you so much. I really respect that decision. Also, it may not be much comfort right now, but do be kind on yourself... I'm sure you've given your cat much love and did the best you could... Try to be happy you gave her/him a good life.
yeah, that's what I keep telling myself, though I'd be lying if I said a part of me didn't want to be selfish and try to prolong her life as long as possible
so let me get this straight, he's got a list like [2, 10, 3, 5], and he puts it in order, so O(n log n).. then he cycles through each item, in the new order by id, so [2, 3, 5, 10], checks if it doesn't exist in the empty list, and in that case adds it..
so a O(n^2) operation of [2] , [2, 3], [2, 3, 5], [2, 3, 5, 10]
@Wietlol I've been thinking more about the statement ISampleInterface obj = new ImplementationClass();, is it correct to say that the reason you can assign an instance of type Implementation class to a variable of type ISampleInterface is because of assignment compatibility?
Can someone who understands OOP answer this?
> @Wietlol When you said this, I should have asked why is an instance of ImplementationClass both an ImplementationClass and an ISampleInterface?
"this" refers to:
> An instance of ImplementationClass is both an ImplementationClass and an ISampleInterface
Referring to the actual interface is helpful when you don't have a specific implementation that could be there. For example if you had a method which took an ISampleInterface as a parameter, you have no way of knowing* what implementation it is. But at the same time, you don't care, because that's what interfaces are for
But Wietlol said that new ImplementationClass() creates an instance of ImplementationClass that is also an ISampleInterface. I don't get how an instance of a specific type is also another type?
So you can access it as if it's an ISampleInterface, and you can call SampleMethod, because all implementations of it will have a method called SampleMethod. Sure, they'll have other things too, but they are compatible
What I initially thought is that new ImplementationClass(); creates an instance of ImplementationClass. Then ISampleInterface obj = new ImplementationClass(); implicitly converts the right side of the = operator to the left side because of assignment compatibility since ImplementationClass is more derived than ISampleInterface. Is this wrong?
There's no benefit to referring to as type within that type as it's parent type, because it's always going to be that specific one that you're working with
@CaptainObvious I get that. The child inherits members from the parent, like a child inherits eye color, hair color etc. But the child is not the same as the parent. That's why saying that an instance of ImplementationClass is both an Implementation Class and ISampleInterface confuses me.
IGoFast . both a car and a rocket can implement that interface. neither "is" a GoFast ..is isnt the best word for the relationship. but both vehicles support the required functions and can be treated thusly.
@CaptainObvious Now I understand this. Any class you add on to IAnimal interface will be an IAnimal because IAnimal is a big base which you can add on as many classes as you like to that same base. @ABuckau I think this explains your IGoFast example, thanks.
sure. it gets complicated depending on how exactly you need to model dofferent relationships. C++ for example leta you derive from multiple base classes..not in c#. interfaces somewhat help you model the relationship possibilities that woukd gove you.
Firefox update/this site is garbage after a recent update..forgice the typos.
@ABuckau as for the reason you can assign an instance of type ImplementationClass to a variable of type ISampleInterface as shown in the statement ISampleInterface obj = new ImplementationClass(); I just want to confirm that the following is still correct:
> What I initially thought is that new ImplementationClass(); creates an instance of ImplementationClass. Then ISampleInterface obj = new ImplementationClass(); implicitly converts the right side of the = operator to the left side because of assignment compatibility since ImplementationClass is more derived than ISampleInterface.
to backtrack for a moment..it is basically the same as what I'm about to go over:
do you understand when you use inheritance, ie. Dog : Animal ...that when something expects an 'animal', you can give it a 'dog' and there isn't a problem
Hey guys, a general question about multi threading - If I have a thread pool that is performing tasks, let's say a path finding algorithm that receives start and end points, and after it finishes it inserts the path points into a queue set which is used by both the thread pool and the main thread (main thread reads and writes aswell). should I synchronize the usage of the queue reference?
@ABuckau If you had Dog : Animal where both Dog and Animal are classes, and you do Animal obj = new Dog();, is there still no conversion? Or does no conversion only apply if Animal is an interface?
@ABuckau For an implementing class and interface, yes. I want to know if the same applies for a derived class and base class (see my previous message)?
ie. limiting yourself by only treating it as an animal...a limited subset of what the Dog class would offer (because it has everything animal has, plus more). but this does have use cases..especially if you override functions in the child class.
mm..I guess not. depends on the use case..but if you're extracting out the behavior to an Interface..I guess 99.99% of the time you'll want the generic action.
the only time you need to perhaps deal with a Dog instance is if something is involved during the construction phase that can't be 100% done in the constructor
like say, attaching a connection instance to a database (which isn't part of the generic class)
though once the instance is established, you'd return it as the generic interface
shit..i'm trying to remember..iirc if you have f.e. IAnimal::MakeNoise() and Dog::MakeNoise() defines that...if you cast to the interface..it won't call the Dog::MakeNoise () ?
that can't be right..I must be thinking of something else.
but I want to say that is right :/ it's been too long..
@Neil Looking at the ISampleInterface, the method SampleMethod is not implemented there. So how can you call ISampleInterface.SampleMethod() when an implementation of SampleMethod does not exist in ISampleInterface.
IAnimal::MakeNoise() is abstract though, why wouldn't it call Dog::MakeNoise()?
@BlackPanther you can't. You have to evaluate if SampleMethod can belong to ISampleInterface, and if it is something that applies to all implementations, add it
otherwise, figure out if it is something which can be called only where it is being created, and call it there
if neither apply, something is probably wrong, from a conceptual point of view
Since ISampleInterface was not instantiated, I'm thinking that calling ISampleInterface.SampleMethod() actually calls SampleMethod in the instance of ImplementationClass that you are treating as an ISampleInterface. Is this correct?
yes, it calls the specific implementation of said instance
there's sort of an inner scope and outer scope for this sort of thing. The inner scope cares about the implementation, and the outer scope (should be most of your program) only cares that it extends the interface
@ABuckau Now I see why they would do ISampleInterface obj = new ImplementationClass(); instead of just ImplementationClass obj = new ImplementationClass();?
good rules of thumb: avoid inheritance whenever possible (prefer encapsulation instead), if you do use inheritance, deal with interface in your program where it is used, simplicity is always the most important thing
@ABuckau Yeah, just as you said. You might not want to use all members in the derived class, just those in the base class. But I don't think you can do this when the base type is an interface, right? Since you call the methods of the instantiated type, not the interface that the instantiated type is treated as?
@Neil Thanks. Using inheritance involves many moving parts, and if you don't understand any of them, it all comes crashing down.
@Neil from the MSDN article I linked, is there any conversion in the following statements?
/ Assignment compatibility.
string str = "test";
// An object of a more derived type is assigned to an object of a less derived type.
object obj = str;
// Covariance.
IEnumerable<string> strings = new List<string>();
// An object that is instantiated with a more derived type argument
// is assigned to an object instantiated with a less derived type argument.
// Assignment compatibility is preserved.
IEnumerable<object> objects = strings;
// Contravariance.
// Assume that the following method is in the class:
Particularly this statement:
// An object of a more derived type is assigned to an object of a less derived type.
object obj = str;
ok but srsly…*Could Have Been* by Linkin Park is better than anything I've heard in awhile; I'm wondering when this sound is going to become retro-cool
The goal of building a machine learning model is to solve a problem, and a machine learning model can only do so when it is in production and actively in use by consumers. As such, model deployment is as important as model building.