I'm very new to Swift language, I have a C# Background.
and I'm wondering if there is an equivalent code for C# using statement in swift Language
using( var a = new MyClass()){
//Code Here
}
You can just put cleanup code in your class' deinit
method.
In many GC'ed systems (like C# on the CLR), this is discouraged, because the GC is not guaranteed to run soon (or at all). While ARC has other downsides, this is where it shines: Swift's automatic reference counting guarantees that deinitialization is deterministic. This is exactly like RAII in C++.
This technique works even if an exception is thrown.
class MyClass() {
var db = openDBConnection() //example resource
deinit() {
db.close()
}
}
func foo() {
var a = MyClass()
print(a) // do stuff with a
// the (only) reference, a, will go out of scope,
// thus the instance will be deinitialized.
}
You can also use a defer statement:
var a = MyClass()
defer { a.cleanUp() /* cleanup a however you wish */ }
You lose the standardization of using an Interface like IDisposable
, but you gain generality in being able to execute whatever code you wish.
using
will call the class's Dispose
method on when exiting the block, even if there is an exception. With defer
you have to manually write the cleanup code
Dec 30, 2016 at 9:18
Dispose
overload too. I don't see your point.
using
ensures that Dispose
is called as soon as you exit its block. defer
doesn't give such a guarantee. You can use using
to close a connection as soon as you no longer need it. You can't do the same with defer
Dec 30, 2016 at 9:21
using
is just a syntactic sugar taht will be translated by the compiler in a try/finally block. This forces the disposing of the object, freeing the memory. No memory is released If you don't dispose the object. In Swift I seem to understand that there's a different approach in handling the memory (RC instead of GC), so you don't actually need a Swift version of the using
statement because there isn't one. One should learn how to handle memory in the way Alexander explained
Just learning Swift and came up with the same question.
The closest I could get was this:
if let UOW = (try UnitOfWork() as UnitOfWork?)
{
}
It's a bit of a hack on optional binding but seems to work. You will need to make sure your class has a deinit defined as called out above by Alexander. I found that even if my init throws an exception, the deinit method is still called as soon as you go out of scope on the IF statement.
NOTE: Make sure you are using weak references if applicable to make sure your deinit actually gets called!
It is probably more Swifty to use a DO block for your scoping:
do
{
let UOW = try UnitOfWork()
// your code here
}
Which has the benefit of avoiding a "pyramid of doom" with your pseudo using blocks (like you'll get in c#)
using
does. Don't expect Swift programmers to know thatusing
cleans upa
on exitDispose()
, nothing else.using
indefer
terms. It's not. Different languages, different designs, different semantics. Thatnothing else
guarantees deterministic invocation and creates an additional scope. It also means you don't need to follow the conventions you need withdefer
. It means that the compiler itself ensures there is aDispose
method and that it's always called.using
doesn't create a new scope. You create it yourself, explicitly with{ }
, which surprise, you can do in Swift. It also means you don't need to follow the conventions you need with defer Hmmm? It means that the compiler itself ensures there is a Dispose method and that it's always called The compiler does this for any method(s) you call in adefer
block, just the same.