Hey all. I think I have one of those questions that raises red flags about how I have implemented something. I created a generic interface, call it IMyInterface<T>, and now I want to create a collection of those interfaces, like IEnumerable<IMyInterface>. Obviously this is in error. Is there a better approach? Or just a keyword I am missing?

@Hexum064 you can nest generic type statements i.e. IEnumerable<IMyInterface<T>> but you do have to know what T is at the time you declare the collection

I should have mentioned in my question that I won't know T. In fact, T would be different types for different implementations of the interface.

T in IEnumerable<T> and T in MyInterface<T> are different Ts but that doesn't matter since you have to specify both Ts when you declare anyway

Yeah you can't do that

hmm. I didn't think so. And that makes me think my approach is wrong. My interface is really simple. The generic type is used to set the return type of a single method in the interface.

Well consider if I called myList[n].MyMethod() - what would its return type be?

That's exactly what I was thinking about when I was typing in IEnumerable<>.

It seems I do shoot myself in the foot a lot when it comes to generics.

private long randomLong()
        {
            Random random = new Random();
            byte[] bytes = new byte[1000];
            random.NextBytes(bytes);
            return BitConverter.ToInt64(bytes, 0);
        }

why is this method generating a random negative long?

it shouldn't always be negative

I mean i'd like to generate a random positive long

and i've teste it out and it is always negative

i mean the four attempts were negatives

@TomW and i wish it could always be positive

it'll be the two's complement bit, and 4 in a row is not that uncommon but checking...

looks promising

@Wietlol i've copied that method from one of the answers those with 2 positive votes

Oh you're initialising Random in the method, don't do that, if you call it in quick succession you'll very likely generate the same sequence several times

Yeah, what Tom said

I've tested it and get a distribution of different positive and negative longs

@Riccardo why not the one I linked?

but if you feed it a random load of bytes you'll set the high bit 50% of the time

@Wietlol in that question there is an answer which has a method without parameters that's why

use UInt64 instead BUT you can't cast that to long because it stands a chance of overflow

@TomW i've just put random outside the method

(the 1000 bytes also seems a bit overkill)

@Grace could you please text a method as example

like, that's the entire body of the method

@Riccardo but you dont just want no arguments

you want a minimum value of 0

or perhaps 1

considering 0 is not positive

i don't want no arguments

@Grace i'm gonna test it out

thanks a lot

I can still recommend the accepted answer from the question, it seems well thought through... I cant vouch for it's behavior with negative numbers though, but two's complement is one that makes things intuitively work from time to time

@Grace it works thank you so much

What can I say? I'm literally always right.

how will that prevent negatives?

Well, Rand.Next() always produces a positive number, and, if I remember my two's compliment right, concatenating two positive numbers gives you a positive number.

hmm... that is true

if you really wanted to be sure, you could replace all mentions of long with ulong in there

then you dont have a long though

I suppose the easiest way would be to take an 8 byte array, fill it with randoms, convert to long and bitmask to non-negative

it would have an equal distribution of all non-negative possibilities

but I thiiink that's unnecessary

looking at Java's implementation, they have... either your solution... or a very difficult one

@Grace you shouldnt use -num nor abs to avoid negatives

@Wietbot evalcsharp -Int32.MinValue

Microsoft.CodeAnalysis.Scripting.CompilationErrorException((1,1): error CS0220: The operation overflows at compile time in checked mode)

if you dont care about the exact conversion of the numbers, a bitmask on the two's complement should be fine

This isn't perfect, of course, but it's pretty suggestive to me

while (true) {
    val rnd = nextLong()
    if (rnd in from until until) return rnd
}

the heck is dis heresy?

val n = until - from
if (n > 0) { /*normal shit*/ }
else { /*!!!heresy!!!*/ }

and until > from

hmm...

paste.ofcode.org/P2YNTZHTxaTQvYXvuVTvKr

this is totally weird, but everything is explainable afaik