4

I am stumbling upon an issue with concurrency and arrays in Swift 5. To reproduce the issue I have simplified my code to the following fragment:

import Dispatch

let group = DispatchGroup()
let queue = DispatchQueue(
  label: "Concurrent threads",
  qos: .userInitiated,
  attributes: .concurrent
)

let threadCount = 4
let size = 1_000
var pixels = [SIMD3<Float>](
  repeating: .init(repeating: 0),
  count: threadCount*size
)

for thread in 0..<threadCount {
  queue.async(group: group) {
    for number in thread*size ..< (thread+1)*size {
      let floating = Float(number)
      pixels[number] = SIMD3<Float>(floating, floating, floating)
    }
  }
}

print("waiting")
group.wait()
print("Finished")

When I execute this in debug mode using Xcode Version 10.2 beta 4 (10P107d) it always crashes with an error like:

Multithread(15095,0x700008d63000) malloc: *** error for object 0x104812200: pointer being freed was not allocated
Multithread(15095,0x700008d63000) malloc: *** set a breakpoint in malloc_error_break to debug

I have the feeling that this is some bug in the compiler because when I run the code in release mode it runs just fine. Or am I doing something wrong here?

4
  • I'd be really suspicious of writing to the pixels array from multiple threads concurrently.
    – JeremyP
    Mar 16, 2019 at 11:15
  • Indeed, and running that code with the Thread Sanitizer enabled triggers a “WARNING: ThreadSanitizer: Swift access race” instantly. I cannot reproduce the malloc error though.
    – Martin R
    Mar 16, 2019 at 12:23
  • OK, but I do not intend to access any item in the array concurrently. So how can I solve this? The different threads access different non overlapping parts of the array. I just want to fill different parts of the array at the same time. Mar 16, 2019 at 12:26
  • Can you explain why my code would generate a program that frees a pointer that was not allocated? Mar 16, 2019 at 13:10

1 Answer 1

9

There are pointers inside an Array that absolutely can change under your feet. It is not raw memory.

Arrays are not thread-safe. Arrays are value types, which means that they support copy-on-write in a thread-safe way (so you can freely pass an array to another thread, and if it is copied there, that is ok), but you can't mutate the same array on multiple threads. An Array is not a C buffer. It's not promised to have contiguous memory. It's not even promised to allocate memory at all. Array could choose internally to store "I'm currently all zeros" as a special state and just return 0 for every subscript. (It doesn't, but it's allowed to.)

For this specific problem, you'd typically use vDSP methods like vDSP_vramp, but I understand this is just an example, and there may not be a vDSP method that solves the problem. Typically, though, I'd still focus on Accelerate/SIMD methods rather than dispatching to queues.

But if you are going to dispatch to queues, you'll need an UnsafeMutableBuffer to take control of the memory (and ensure that the memory even exists):

pixels.withUnsafeMutableBufferPointer { pixelsPtr in
    DispatchQueue.concurrentPerform(iterations: threadCount) { thread in
        for number in thread*size ..< (thread+1)*size {
            let floating = Float(number)
            pixelsPtr[number] = SIMD3(floating, floating, floating)
        }
    }
}

The "Unsafe" indicates that it's now your problem to make sure all the accesses are legal and that you're not creating race conditions.

Note the use of .concurrentPerform here. As @user3441734 reminds us, pixelsPtr is not promised to be valid once .withUnsafeMutablePointer completes. .concurrentPerform is guaranteed not to return until all blocks are complete, so the pointer is guaranteed to be valid.

This could be done with DispatchGroup as well, but the .wait would need to be inside of withUnsafeMutableBufferPointer.

13
  • 1
    sorry the SIMD3 was a typo from my part Mar 16, 2019 at 13:25
  • 1
    You are not really allowed to modify the pointer inside of withUnsafeMutableBufferPointer (the method verifies on return that the pointer still has the same value). The pointer is inout so that you can call mutating methods on it (like sort), compare forums.swift.org/t/…
    – Martin R
    Mar 16, 2019 at 16:45
  • 2
    @user3441734 I'm not quite certain what you mean here about being dependent on the current implementation. withUnsafeMutableBufferPointer is intended to (and documented to) give direct access to the array's mutable contiguous storage. This is all defined behavior. What implementation concern do you have? Joining large arrays together can be very expensive; I'm not sure why you say "with a minimal performance penalty" if size were, for example, 100 million (consider processing a 21600x21600 BlueMarble image).
    – Rob Napier
    Mar 17, 2019 at 14:37
  • 1
    I don't know what you mean by "a different copy." withUnsafeMutableBufferPointer is only called one time, and it will ensure contiguous storage in one go (in practice, it's almost certainly already contiguous storage). The only thing that's copied is the pointer, not the buffer.
    – Rob Napier
    Mar 18, 2019 at 15:39
  • 1
    @RobNapier I understand your point of view, what I am tallking about is (from apple docs)"The pointer passed as an argument to body is valid only during the execution of withUnsafeMutableBufferPointer(_:). Do not store or return the pointer for later use." In other words, there is no guarantie, that while executing the async closure, it is (or will be in the future implementation) still valid. That is my point of view. Mar 19, 2019 at 16:12

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