I still don't understand why .net core DI does not throw exception for singleton referring transient while it throws exception for singleton referring scoped.
In my mental model, I think for both cases the DI must throw exception because both transient and scoped have shorter lifetime than singleton. Singleton should not enclose shorter lifetime injected objects.
user47589
1:23 AM
transient dependencies last as long as the thing using them exists. once that thing ceases to be, the transient dependency is cleaned up.
user47589
scoped dependencies end when their scope ends.
user47589
transient dependencies can last as long as the singleton does.
user47589
scoped dependencies cannot.
user47589
transient dependencies are saying "i'm here for you for as long as you need me. if that's forever, then so be it. I'm all in." scoped dependencies are saying "i'm here until dinnertime but then i got to go."
user47589
the singleton lasts past dinnertime. so the scoped dependency cannot fulfill the singleton's needs.
As far as I know, the built-in .net core DI only allows constructor injection. However, I just read that a custom middleware can have a method called Invoke or InvokeAsync that can accept additional parameters that are populated by DI. How can it be possible?
I am implementing Authorization for WPF. I have bound permissions with screens. For example, there is a screen called floor. It has four permissions associated with it.
View Floor
Add Floor
Edit Floor
Delete Floor
Along with every permission we have four levels of permissions.
All
Self
Rol...
those instances, according to my guidelines, must be fully constructed, not depending on the container being present and providing more stuff on the go
the method is run depends on the design, if that uncompleted task's check for the referenced class if disposed OR that task uses one of the component that is disposed, you now have a dinosaur
@MoneyOrientedProgrammer Or. If you really want a delayed query for every place where GetStringAsync is used, you can put the using (var client = new HttpClient()) inside the GetStringAsync
I've come across a unit test that is failing intermittently because the time elapsed isn't what I expect it to be.
An example of what this test looks like is:
Stopwatch stopwatch = new Stopwatch();
stopwatch.Start();
TimeSpan oneSecond = new TimeSpan(0, 0, 1);
for(int i=0; i<3; i++)
{
Thr...
if I use Task.Delay(0), I get an immediate result, which is similar to calling GetStuff(false)
using Task.Delay(1) (which might not be accurate), I get a running task, which needs to be awaited, therefor producing a callback continuation process, signifying the point I was trying to make
@mr5 in C#, the names are reserved keywords and contextual keywords
Delay and Sleep will not be accurate because context switch might allocate CPU time in uncertain ways. That is why both method should not be used for timing. :-)
so when await Task.Delay(1) runs on another thread which's context is immediately run and finished before the initiating thread can output "Example::3", than you should have the second output.
If you're thinking this hard about context switches, threads, and the exact timing of a delay when using tasks... you're probably using the wrong tool for the job.
You have to remember two things: 1. `await` anything that returns a `Task` 2. and if you don't, consider the implications of scopes and exception handling That's it.
The moments when you're NOT awaiting something that returns a Task is when you should really consider what it is you're doing
Otherwise, be happy, and just smack async/await around.
Anyway, it makes no sense to over-complicate these mechanisms just because your sense of aesthetics convinced you it's ugly. These mechanisms exist for a reason. Use them.
wait wait... you are saying there is an environment which are doing stuff like "blocking on ui thread", and "making available for concurrent calls of a web service", and "input/output delegation" and you are not doing those... So which one?
just curious, but what would you guys say to coding defensively to the extreme? Say in a database, you have a one to many relationship between two tables. The child should have exactly one parent, but say you checked for the case that there was more than one parent anyway..
is it justifiable to add checks for something that should never hold true?
in time, everything can change of course.. but isn't it a little absurd to add checks for something which, as is, cannot be possible without overhauling db structure significantly?
I just see this check in code for just this type of situation.. it checks if there are no records.. perfectly legit check.. and then it checks if there is more than one.. which cannot be..
@Neil it depends. If the db is only updated by services, than I would strongly recommend to NOT over defense yourself. If there is manual intervention to the database, it's questionable still
@Neil it's not true. Imagine the newcomer who have a question about "is this function does what I think it does", than the answer is "oh. This is dead code. Don't look at it" "I'm looking at it for 2 weeks now"
@Wietlol every possible input is generated by a test. So there is a test for non null input, and if and only if there is a null case, there is a test for null
so non null cases, you don't write superfluous checking code, because it doesn't make anything green
when you add the "forgot" case, you have to deal with it like you are completely rewriting the whole class. So restart with the simple red case (which is an exceptional flow) make it green. Next red case. Make it green.
I am implementing Authorization for WPF. I have bound permissions with screens. For example, there is a screen called floor. It has four permissions associated with it.
View Floor
Add Floor
Edit Floor
Delete Floor
Along with every permission we have four levels of permissions.
All
Self
Rol...
I've come across a unit test that is failing intermittently because the time elapsed isn't what I expect it to be.
An example of what this test looks like is:
Stopwatch stopwatch = new Stopwatch();
stopwatch.Start();
TimeSpan oneSecond = new TimeSpan(0, 0, 1);
for(int i=0; i<3; i++)
{
Thr...
