8

I'm working with a C API from Swift and for one of the methods that I need to call I need to give a

UnsafeMutablePointer<UnsafeMutablePointer<UnsafeMutablePointer<Int8>>>

More Info:

Swift Interface:

public func presage_predict(prsg: presage_t, _ result: UnsafeMutablePointer<UnsafeMutablePointer<UnsafeMutablePointer<Int8>>>) -> presage_error_code_t

Original C:

presage_error_code_t presage_predict(presage_t prsg, char*** result);
  • How is the C function declared and what does it do? – Martin R Sep 21 '15 at 5:26
  • Swift Interface: public func presage_predict(prsg: presage_t, _ result: UnsafeMutablePointer<UnsafeMutablePointer<UnsafeMutablePointer<Int8>>>) -> presage_error_code_t C: presage_error_code_t presage_predict (presage_t prsg, char*** result); – Nykholas Sep 21 '15 at 5:28
  • @Nykholas, seems you were tried to using presage library for prediction. I am trying to build it on xcode but getting failed. could you teach me how you did it ? – gstream79 Nov 18 '16 at 19:32
17

Generally, if a function takes a UnsafePointer<T> parameter then you can pass a variable of type T as in "inout" parameter with &. In your case, T is

UnsafeMutablePointer<UnsafeMutablePointer<Int8>>

which is the Swift mapping of char **. So you can call the C function as

var prediction : UnsafeMutablePointer<UnsafeMutablePointer<Int8>> = nil
if presage_predict(prsg, &prediction) == PRESAGE_OK { ... }

From the documentation and sample code of the Presage library I understand that this allocates an array of strings and assigns the address of this array to the variable pointed to by prediction. To avoid a memory leak, these strings have to be released eventually with

presage_free_string_array(prediction)

To demonstrate that this actually works, I have taken the first part of the demo code at presage_c_demo.c and translated it to Swift:

// Duplicate the C strings to avoid premature deallocation:
let past = strdup("did you not sa")
let future = strdup("")

func get_past_stream(arg: UnsafeMutablePointer<Void>) -> UnsafePointer<Int8> {
    return UnsafePointer(past)
}

func get_future_stream(arg: UnsafeMutablePointer<Void>) -> UnsafePointer<Int8> {
    return UnsafePointer(future)
}

var prsg = presage_t()
presage_new(get_past_stream, nil, get_future_stream, nil, &prsg)

var prediction : UnsafeMutablePointer<UnsafeMutablePointer<Int8>> = nil
if presage_predict(prsg, &prediction) == PRESAGE_OK {

    for var i = 0; prediction[i] != nil; i++ {
        // Convert C string to Swift `String`:
        let pred = String.fromCString(prediction[i])!
        print ("prediction[\(i)]: \(pred)")
    }

    presage_free_string_array(prediction)
}

free(past)
free(future)

This actually worked and produced the output

prediction[0]: say
prediction[1]: said
prediction[2]: savages
prediction[3]: saw
prediction[4]: sat
prediction[5]: same
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  • I think you missed a UnsafeMutablePointer in the prediction declaration also I got the following error for the string conversion: Cannot convert value of type 'UnsafeMutablePointer<UnsafeMutablePointer<UnsafeMutablePointer<Int8>>>' to expected argument type 'UnsafePointer<CChar>' aka UnsafePointer<Int8> also prediction is not an array – Nykholas Sep 21 '15 at 16:59
  • @Nykholas: I am fairly sure that I did not miss a pointer. I have compiled that code against the presage headers and got no warnings or errors. – Martin R Sep 21 '15 at 19:40
  • @Nykholas: I have added more information and sample code, hope that helps. – Martin R Sep 21 '15 at 20:23
  • yeah it compiles, but i think is wrong, because prediction has the wrong signature. you said it's a char** instead of a char*** (according to the header) and again prediction doesn't seem to be an array at all. I copy-pasted you code and it never enters the for cycle: (lldb) fr v prediction[0] error: "(Swift.UnsafeMutablePointer<Swift.UnsafeMutablePointer<Swift.Int8>>) prediction" is not an array type – Nykholas Sep 21 '15 at 20:26
  • @Nykholas: Very strange, it compiles and runs for me, producing the shown results, no errors or warnings. – Martin R Sep 21 '15 at 20:28
3

There may be a better way but this runs in playground and defines a value r with the type you want:

func ptrFromAddress<T>(p:UnsafeMutablePointer<T>) -> UnsafeMutablePointer<T>
{
   return p
}

var myInt:Int8 = 0
var p = ptrFromAddress(&myInt)
var q = ptrFromAddress(&p)
var r = ptrFromAddress(&q)

What's the point of defining ptrFromAddress, which seems like it does nothing? My thinking is that the section of the Swift interop book which discusses mutable pointers shows many ways to initialize them by passing some expression as an argument (like &x), but does not seem to show corresponding ways where you simply call UnsafeMutablePointer's initializer. So let's define a no-op function just to use those special initialization methods based on argument-passing

Update:

While I believe the method above is correct, it was pointed out by @alisoftware in another forum that this seems to be a safer and more idiomatic way to do the same thing:

var myInt: Int8 = 0
withUnsafeMutablePointer(&myInt) { (var p) in
  withUnsafeMutablePointer(&p) { (var pp) in
    withUnsafeMutablePointer(&pp) { (var ppp) in
      // Do stuff with ppp which is a UnsafeMutablePointer<UnsafeMutablePointer<UnsafeMutablePointer<Int8>>>
    }
  }
}

It's more idiomatic because you're using the function withUnsafeMutablePointer which is supplied by the Swift standard library, rather than defining your own helper. It's safer because you are guaranteed that the UnsafeMutablePointer is only alive during the extent of the call to the closure (so long as the closure itself does not store the pointer).

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