C# - 2019-06-13 (page 1 of 4)

Q: .Net Core [Authorize] - Or instead of And for permission test

weird grouping

Tom Crosman

2:00 AM

Hey Guys, I just posted a C# question if someone wants to get some points for an answer?

0

The following code authorize filter passes if the user is BOTH a role of "admin" AND a Policy of "New York". How do i change it to "admin" OR "New York" [Authorize(Policy = "New York", Roles = "admin")] I want an OR statement in this specific case, not an AND.

2:40 AM

can someone explain Task.FromResult ... is this like saying cut the promise short and give me the result now?

@ChristianMatthew yes

I'm not sure what you mean by "cut the promise short"

wow that's pretty cool

well in javascript promises are async programming

one of the most frustrating things in javascript about async programming is not being able to get a value from the promise chain

I've never experienced working with futures and promises

in c#?

in any language that supports it.

maybe future/promises evolved in async/await?

I've heard they're quite similar

3:05 AM

@ChristianMatthew No, it's putting a value into a task. It's the same as Promise.Resolve(1)

var task = Task.FromResult(1); var result = await task; // result has the value 1

@Rob so why wouldn't you just use the await?

What do you mean?

in this example

https://docs.microsoft.com/en-us/dotnet/api/system.threading.tasks.task.fromresult?view=netframework-4.8

private static Task<long> GetFileLengthsAsync(string filePath)

Yep.. still not following though

You use Task.FromResult when you need to return a task, but you've already got the value

Imagine you had a function:

i think it is the you've already got the value part

3:16 AM

Task<string> DownloadWebpage(string url) {
	if (inCache(url)) {
		return Task.FromResult(cache[url]);
	} else {
		return await DownloadAndCache(url);
	}
}

2 things

Obviously pseudocode.. but here, we either have the value already, or we need to go and do some work to get it

The caller doesn't care, though, they still await the result of DownloadWebpage()

can you explain already have the value

Sure

Someone called DownloadWebpage. But we've already cached the content for that URL

So we can just return that content without downloading it again

hmmmm

3:18 AM

But if we don't have it in the cache, we do need to kick off a task to get it

how do you know it's cached

oh lol the if statement

Because there's code to cache it... this is unrelated to tasks

that is not the same as promise resolve

Sure it is. Promise.Resolve(1) creates a promise that will output 1 when awaited, or when .then()'d

ok ok

3:20 AM

See the example here: developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/…

lol i can see that comparison

here is my slight confusing

confusion... in javascript in a promise you don't expect there to be a resolved portion of an answer.

you run the promise and get a result

i.e. await for it

or resolve it

but the function has to be run

Sure you do. That's why that function exists

A promise doesn't mean you need to run a function

It's a wrapper saying it "promises" to give you a result or an error sometime in the future

yes but in this scenario you are running an asynchronous task and if you have result you want you just return that.

"Sometime in the future" is probably better expressed as >= now

in javascript it does in any meaningful sense

you run a function that is promise and it returns the result of that function

3:24 AM

Sure, but not always

Otherwise you'd just pass function pointers around

i've never seen any promise do anything otherwise

That's not evidence that it doesn't :)

lol true

One could easily write the above DownloadWebpage in javascript

And if it's cached, you for sure would use Promise.Resolve rather than downloading it again

but still you can't early exit a promise you can set the resolve but you can't obtain a value from outside the promise

you can't

3:25 AM

Huh?

you have to resolve a javascript promise correct?

Sure

I mean... there's nothing stopping you from not

ok i can't scope to a value outside of that promise function correct?

But yes, usually, you resolve it with a value

Why not?

and it be the promise value?

3:27 AM

return new Promise((resolve, reject) => resolve(window.location))

but why not use await?

What are you awaiting?

hold on

i am going to build something in jsbin

3:55 AM

ok

function resolveAfter2Seconds(x) {
  return new Promise(resolve => {
    setTimeout(() => {
      resolve(x);
    }, 2000);
  });
}

var test = async () => {
	 var x = await resolveAfter2Seconds(12);
   console.log(x);
   return x;
}

console.log(test());

for this to work everything has to be done inside of the test function

i can't use the value of the return anywhere else

do you agree with that?

Of which return?

the text function

test*

Still not following.. which value do you mean you can't use?

i can't use the value from test... the return x

Sure you can

If your last line were console.log(await test());

It would log 12 twice

console.log(test()); is currently logging the promise returned by test

4:05 AM

not legal

console.log(await test());

I just tried it in my console.. it's most definitely legal

And as expected, it logged 12 twice

function resolveAfter2Seconds(x) {
  return new Promise(resolve => {
    setTimeout(() => {
      resolve(x);
    }, 4000);
  });
}

var test = async () => {
	 var x = await resolveAfter2Seconds(12);
   console.log(x);
   return "Christian";
}

console.log(test());

ok fair enough however

I can't use test to return anything unless I await the promise to finish

right

do you agree with that

Nope

You can remove the await entirely and just write var x = resolveAfter2Seconds(12)

var test = () => {
	 var x = resolveAfter2Seconds(12);
   console.log(x);
   return "Christian";
}

console.log(test());

i could remove the async and await and get the return yes. at this point there is no promise and I am not yeilding the x at any point

You are. x is now the promise, not the value returned by the promise

4:17 AM

but I can't get to it

show me

there is no resolving that promise

No, it will resolve. But nothing is listening to the promise to grab the value

That's to be expected though, isn't it?

you are right

but ok the syntax and purpose matters right

You could say the same thing of any variable. If you assign a variable to something and then never use it again.. then yes, nothing can access it in the future

ok so now I want to get my bearings straight for the Task object

It's essentially the same thing as a javascript promise

4:19 AM

 private static Task<long> GetFileLengthsAsync(string filePath)

It's a wrapper around a concrete value or a task to return a value

this here is not async correct

Why not?

because there is no async designation

You mean there's no keyword async?

4:21 AM

yes so it is not a promise

Nope. Does your function resolveAfter2Seconds have the async keyword?

No, because it's just returning a promise. It's not awaiting anything

GetFileLengthsAsync just returns a task. It's not awaiting anything

The person using GetFileLengthsAsync will need to await the task to get the value out

if I did this

private static async Task<long> GetFileLengthsAsync(string filePath)

what does that imply exactly

It means that GetFileLengthsAsync needs to await a task in its implementation

And.. instead of doing return someTask;, it'll need to return await someTask

Because C# has a bit of magic that wraps anything returned into a task

ok so but in this function it does return a promise

function resolveAfter2Seconds(x) {
  return new Promise(resolve => {
    setTimeout(() => {
      resolve(x);
    }, 4000);
  });
}

ok so

when you don't use async in the syntax

you dont' need to return await you can just return

is that fair

i have one more question about base contructors if you dont' mind

i think i get it...

it essentially is creating a function like this that is returning a resolved promise

function resolveAfter2Seconds(x) {
  return new Promise(resolve => {
    setTimeout(() => {
      resolve(x);
    }, 2000);
  });
}

is that fair?

which is what i think you said in the beginning

4:46 AM

@ChristianMatthew Not sure what you mean?

That resolve after 2 seconds isn't a resolved promise. It's a promise which is resolved after 2 seconds

i get that

what i am specifically is this... when you use a task without an async designation the return isn't an awaited one

If you haven't marked the method async, you cannot await anything. You'll get a compiler error

so the Task.FromResult() will create a Task<Tresult> which is eventually a resolved promise

It's immediately resolved

would you call resolveAfter2Seconds(x) immediately resolved?

4:51 AM

No

it resolves after 2 seconds

I think you're getting mixed up with await here.

async Task<int> DoSomething()
{
	return await GetValue();
}

ok exactly

DoSomething() will create a task, which itself will await the value of another task

i get that

but in the other case it will create a task that is not waiting for anything as you said it immediately resolves

so why go throught process of creating a Task<TResult>

is it because it will be used by an async method elsewhere?

You mean, when would you use Task.FromResult()?

yes

4:55 AM

Because the person calling your method doesn't know you have the value immediately

And if we go back to my caching example

Sometimes we do, sometimes we don't

The alternative, would be to return an object that had a pointer to the result or a pointer to a task

can you post that example again

But then the user would need a bunch of checks to see how to grab the value

But now, they can simply await the returned task. It doesn't matter that the task doesn't need to do any work

Task<string> DownloadWebpage(string url) {
	if (inCache(url)) {
		return Task.FromResult(cache[url]);
	} else {
		return await DownloadAndCache(url);
	}
}

don't you have to preface the 1st Task with async? just in case

Sorry, yes

It was mainly pseudocode

Tony

any one can help me out with this issue stackoverflow.com/questions/56540174/…

4:57 AM

Hangon, lemme fix it so it's actually correct :)

async Task<string> DownloadWebpage(string url)
{
	if (inCache(url))
	{
		return await Task.FromResult(cache[url]);
	}
	else
	{
		return await DownloadAndCache(url);
	}
}

You can also do the following:

Task<string> DownloadWebpage(string url)
{
	if (inCache(url))
	{
		return Task.FromResult(cache[url]);
	}
	else
	{
		return DownloadAndCache(url);
	}
}

else
	{
		return DownloadAndCache(url);
	}

lol you know this is driving me bonkers right

DownloadAndCache is a function that will return a task

So, if DownloadWebpage isn't async, it can just return that task

in that case of what I just posted... there is no purpose of the Task<string> designation

but it will still return that task

What do you mean?

DownloadWebpage is returning a task which will produce a string when awaited

im pretty sure it is what your saying... the

else
	{
		return DownloadAndCache(url);
	}

is not a promise in anyway at the end of the day

5:02 AM

No, it is

The result of DownloadAndCache is the promise

await DownloadAndCache() is creating a new 'promise', which itself is waiting for the result of the promised returned from DownloadAndCache

If you don't await, then you're just returning the promise returned from DownloadAndCache

ok but that is what i am saying is different in javascript

Nope

you can't just arbitrarily say when something is a promise or not

I believe javascript's promises can be flattened together, but the principal is the same

how do I know DownloadAndCache(url) is a promise?

5:04 AM

Because it returns a Task<string>

huh

if I say this:

Task<string> someMethod(string b) {
return "dog";
}

You can't

your saying that returns Task<string>

No, that won't compile

You need to return a Task<string>, but you're returning a string

what makes DownloadAndCache(b) different

5:10 AM

It returns a task which produces a string

lets back up for a second... a Task is just running tread at a moment in time right

Threads aren't necessarily involved

If you understand promises, then it's the same as a promise

of course they have to be in some capacity that is where the information is stored

I know you think they're different, but they're really the same concept

locally

5:14 AM

The differences are irrelevant

No, they do not need a separate thread

im agreeing on that I am not arguing that I am trying to get this syntax down for c3

You can think of a task as a container that has two properties

1. The result. This might be null, if the task is still executing

2. A pointer to a function to execute

When someone awaits the task, the task will check if the result is there

If it's not there, it'll say "Nope, you've gotta wait". Then, it'll wait until the function executes, and stores the result back in result, and tells the awaiter it's ready

You can think of this happening on a separate thread. But that's not actually true for the implementation

Task.FromResult(1) will just set the result property. There is no function/work to do

So when someone awaits that task, they get the result immediately

I said a Task exists on a particular thread

a Task belongs to a thread

That's not the case either

how? that's impossible

5:19 AM

A task can continue on an entirely different thread

that is how this all works.

Javascript is single threaded, so clearly it's not impossible :)

lol

javascript is single threaded and a promise still waits for code to be finished before it resolves on that single thread

what do you do by the way

5:39 AM

You mean for work?

yes

I'm a tech lead

Though... I end up developing most of the time because.. well.. our company doesn't spend enough time as it should designing things as it does just implementing them the quickest way ;)

have you ever thought to do your own thing

Sure... when I have spare money to support it and have a decent idea

where are you from

5:43 AM

Australia

i have a very good idea and there is lots of money here in the US for good ideas

lol there's lots of money for bad ideas

why do you think you need money to get started on an idea

Because if I were serious about it, I'd need to work full time on it

would you let other people code it or would you want to code it by yourself for the beginning parts

I wouldn't have money to pay them, so..

with a prototype you can get money

here in the us anyways

6:00 AM

Good morning

You'd need to build a prototype

6:15 AM

@Rob what would you think about one of your devs being in a StackOverflow chat room? I can wonder what my boss would think all I want, real answers need real sources.

I don't have any devs ;)

i think it's awesome

But if I did, I wouldn't care whatsoever. As long as the work gets done, they'd be free to do as they wish

Which is pretty much the culture here already

so @Rob when Task is used without async it is still asynchronous programming which means non-blocking?

yes

a task runs on its own

it'll never block your main thread directly

The nice thing about tasks is, you don't have to worry about threading. The framework does threading for you.

6:21 AM

It can, in some cases

directly?

Indirectly by keeping some ressource, absolutely. But directly?

Sure, it can just put in a thread.sleep. Tasks don't need to have multiple threads

Or the classic .Result deadlock depending on your synchronisation context

the point of ansynhronous programming is to be on a single thread

No

The point of asynchronous programming is you dont have to worry about threads as much, and it still workds on a single thread

true ok

6:24 AM

async is completely unrelated to threads

The implementation may use threads, but they're different concepts

ahhh i think i get it.

the reason why you use Task in your asynchronous programming without necessarily an async await method is because you don't want to block any thread in the process of an asynchronous coding pattern?

There's no blocking involved

The reason you use await is because you want the result of the task

If you don't want the result, in the case of the caching example, you can just return the task so someone who does want the result

without blocking?

Yes

The execution is deferred, but nothing is blocked

i am just saying the difference between doing that and a regular method execution

6:30 AM

When you await something, the state of your execution is saved and passed up the chain

Eventually, whatever's responsible for scheduling the task, will continue the execution, which may be on another thread

ok and as you were saying before when you await something the task is waiting or paused until that method has completed.

That context is paused

Await does nothing to the task you're awaiting

@MikeTheLiar I have no idea what you mean by this, sir.

The threading executing that leaves the context and does something else with its precious time

6:31 AM

await does nothing to the task you're awaiting? huh

So, I stabbed myself in the hand this morning

just waits for it to finish

await says "Save my state until the result of the task I'm awaiting is ready to give me a value"

The cat food can wouldn't open and I (smartly) decided to push a knife through the lid, and it went through the can and into my hand

When the task you're awaiting finishes, your state will sometime in the future be restored, and execution will continue

6:32 AM

just the tip though fortunately

yes that's what i am saying

async Task<string> DownloadWebpage(string url)
{
	if (inCache(url))
	{
		return await Task.FromResult(cache[url]);
	}
	else
	{
		return await DownloadAndCache(url);
	}
}

Genius

ikr?

the task downloadwebpage is waiting for one of those methods to be complete

Roel van Uden

@Neil Youch.

6:34 AM

is that wrong?

I didn't bother mentioning that part to my wife.. just the part that explained the cat food on the wall

It's correct, as long as you understand that it doesn't block anything

Whoever called DownloadWebpage() may continue its execution after calling it, until they await the result

that's the most important part right is that it is non-blocking

Console.WriteLine("Here!")
var downloadTask = DownloadWebpage("something");
Console.WriteLine("Still here, very likely to be before the download is completed")
var payload = await downloadTask;
Console.WriteLine("After the download has been completed")

From the caller of DownloadWebpage's perspective

ok I think I have the hang of it... in javascript it's more purposeful on something that is a promise. you know what it is and you deal with it.

6:38 AM

how do you guys suppose async/await is implemented backend? is it some sort of blocking queue with one element I suppose?

It's turned into a state machine

if you wanted to have a await/async type behavior without the keyword, I suppose that's how you'd do it

Which is a way to do coroutines in c#

here you have this abstraction of asynchronous programming that is not async await... but like you said I can return an immediate result.. i.e. Task.FromResult() and obtain a non-blocking result... that is probably passed along and used in asynchronous methods elsewhere

nothing about tasks is blocking, why always mention things being non-blocking?

6:41 AM

@Squirrelkiller because I can't figure out why Task would be used... why not just not use task for a result you know you have

when you're forcing Task you're forcing asynchronous programming

Because you can't return union types in c#

You mean return Task.FromResult(5); instead of return 5;?

You can return a wrapper that points to a task or a value

But that's messy

and thus a non-blocking event is what you're looking for

And a leaky abstraction

6:42 AM

yes

Rather... if you might return an actual task, then it's nicer to wrap constant values in a task

That way, the user doesn't need to know the implementation details. They just await the task. Whether the task is immediately resolved or not is irrelevant

but is it enough to implement an async solution in a situation where you currently don't require it but possibly may need it in the future?

If your method was only returning constant values, then of course, you wouldn't use tasks

this is for efficiency right... it doesn't have to be done

not even if that may change?

there is an overhead doing it that way I assume

6:45 AM

Sure. In my caching example, you could change the return type to object. Then return the content or task directly

But then the user needs to know what can be contained in 'object' and cast the result

  private static Task<long> GetFileLengthsAsync(string filePath)
   {
      if (! Directory.Exists(filePath)) {
         return Task.FromException<long>(
                     new DirectoryNotFoundException("Invalid directory name."));
      }
      else {
         string[] files = Directory.GetFiles(filePath);
         if (files.Length == 0)
            return Task.FromResult(0L);
         else
            return Task.Run( () => { long total = 0;
                                     Parallel.ForEach(files, (fileName) => {

@Neil Depends how likely it is to change, I suppose

good point

Queues the specified work to run on the ThreadPool and returns a task or Task<TResult> handle for that work.

you can always convert to async later I suppose

6:47 AM

Ah... not so easily

Once you go async, you need to be async all the way up

Unless you're doing something like GetAwaiter().GetResult()

But then.. why bother

well at that point, you'd ensure there were a nice facade or interface at which you can cleanly divide between sync and async

the reason why I am saying thread and non-blocking is because the reason why you go through this trouble is to not create bottle necks and have the code execute efficiently

you wouldn't convert half your project to async

once you know a task is async, it doesn't have to necessarily call another async task and use await on it

again, the thread is important here and in JS it's the only one you got

depends :P

though client-side the division is well-defined. You can't accidentally spawn 20 threads without realizingi t

6:50 AM

Nothing to do with bottlenecks

depends on what... the whole thing would be brittle if you were creating thread pools off and on all the time. how would state be managed without enormous overhead

"worker" threads

And if I were to have a guess, that implementation with threads won't be useful

Unless the paths are on separate physical drives

i get the framework handles this but it is mostly trying to maintaing threads for darn sure by class and methods executing

@ChristianMatthew depends.. js handles multi-threading, that's what I mean

Squirrel in training

6:51 AM

GoOoOoOoOoOoOoOoOoOoOoOd Mornin' pleberinos!

Hey ho!

Let's go!

@ChristianMatthew No, the reason for tasks/promises is to represent the idea that you know how to get the answer, but it will take some time to do so - usually waiting for non cpu-bound work to complete

non-cpu bound work?

Proxy

ohayou

6:54 AM

Yes, like reading from disk or from the network

bradbury9

Morning!

@Rob is the reason why you keep saying the thread doesn't matter is because of thread safety

No

bradbury9

Something like "I cannot throw CPU at it to solve it, we must wait"

I'm saying the thread doesn't matter because threads are an entirely different concept from async/await