2

I have two slices that are passed from another method:

fn example<T>(a1: &[T], a2: &mut [T]) {}

I want to process a1 with multiple threads and then write to a2 using completely arbitrary indices that are only known when each thread is executed. The indices are guaranteed by my algorithm to be mutually exclusive, so there is no data race.

The borrow checker doesn't like sharing mutable references among threads since it doesn't know of the guarantee our algorithm makes. I also get a lifetime 'static required rustc (E0621) error.

So how to do this in Rust?

Answers to

Do not answer my question.

The answer to the first question addresses the scoping problem, but not the problem of accessing arbitrary mutually disjoint indexes. The answer to the second question suggests as_slice_of_cells but that doesn't work here because of the aforementioned reason, namely the arbitrary access. The answer to the third question similarly suggests as_slice_of_cells but again, the assumption that the array can be split into disjoint parts cannot be fulfilled here. The fourth question again asks about partitioning the array, which we cannot do here. And the same applies to the fifth question.

One answer to the scoping problem (https://stackoverflow.com/a/64502824/10056727) actually attempts to address this problem, but it doesn't suggest to use crossbeam and the alternative suggested is more unsafe than the top answer here.

11
  • 1
    This seems like a request for code disguised as a question. Stack Overflow however is not a code-writing service, please see here to learn how to write effective questions and then come back and edit this question. This link also explains why this is worth a downvote. – MindSwipe Dec 7 '20 at 9:33
  • I don't think you understand my question. I've broken down my problem as much as possible and after searching for multiple hours, I haven't found a satisfactory solution. I formulated the problem in this way to make it as clear as possible. – Niki Dec 7 '20 at 9:37
  • 1
    The problem is with how you described your problem, it's just that it seems like you made no attempt to produce the code yourself. Stack Overflow is about specific issues with specific pieces of code, and your question doesn't contain any. This leads to a sense of you demanding us to write the code for you, which isn't what this site is for and will garner downvotes and close votes – MindSwipe Dec 7 '20 at 9:41
  • 1
    I think you want scoped threads, likely a dup of this question. Since one slice is mutable and the other immutable, they cannot refer to the same memory, so you don't need to guarantee that the indexes don't overlap. Rust should have no problems handling this. – user4815162342 Dec 7 '20 at 9:55
  • 1
    Scoped threads turned out to be part of the answer. I ended up wrapping a pointer to my data in UnsafeCell and implementing Send and Sync for that, as suggested somewhere else. Additionally, I had to use crossbeam's scoped threads. – Niki Dec 7 '20 at 12:57
3

You are running into two distinct issues when trying to implement your algorithm:

  1. Sharing non-'static references across threads is not possible with std::thread::spawn.
  2. Writing to mutually disjoint indexes in a slice without synchronization can only be done safely if you can do so by splitting the slice into multiple smaller slices and giving each split slice exclusively to each of the threads.

The first problem is easily avoided by using crossbeam::scope to spawn the threads rather than std::thread::spawn. However the latter issue requires an unsafe solution. However since you know that the indexes are mutually disjoint, there is no data-race in practice, and you can use UnsafeCell to assert to the compiler that there are no data-races. To do this for a slice, you can use the following utility:

use std::cell::UnsafeCell;

#[derive(Copy, Clone)]
pub struct UnsafeSlice<'a, T> {
    slice: &'a [UnsafeCell<T>],
}
unsafe impl<'a, T: Send + Sync> Send for UnsafeSlice<'a, T> {}
unsafe impl<'a, T: Send + Sync> Sync for UnsafeSlice<'a, T> {}

impl<'a, T> UnsafeSlice<'a, T> {
    pub fn new(slice: &'a mut [T]) -> Self {
        let ptr = slice as *mut [T] as *const [UnsafeCell<T>];
        Self {
            slice: unsafe { &*ptr },
        }
    }
    
    /// SAFETY: It is UB if two threads write to the same index without
    /// synchronization.
    pub unsafe fn write(&self, i: usize, value: T) {
        let ptr = self.slice[i].get();
        *ptr = value;
    }
}

This utility allows you to convert an exclusive slice &mut [T] into a slice that can be shared, but still used for mutation. Of course, this means that writing to it can result in a data race, if multiple threads write to the same index without synchronization. Thus the write method is unsafe and will cause UB if this assumption is violated

The UnsafeSlice utility will still guarantee that you have no use-after-free or out-of-bounds errors when using it. Only verification of race conditions is turned off with UnsafeSlice.

To see that the conversion in the constructor is sound, please see the safety comments inside the Cell::from_mut and Cell::as_slice_of_cells methods.

1

How to do this in Rust? Resorting to unsafe is okay.

If you need two threads to mutate the same data, without locks, then you must use unsafe. It is Undefined Behaviour for two mutable references (&mut) to the same data to even exist, so you would need to access the data via *mut raw pointers, while being extremely careful to avoid data races.

However, depending on your algorithm, you may be able to avoid unsafe by creating non-overlapping &mut references with split_at_mut.

5
  • I guess it will be useful to mention about Cell here. If the data is wrapped in it, a mutable pointer can be obtained and because of Cell, compiler will not make optimisations based on aliasing. – Mihir Dec 7 '20 at 11:51
  • @Mihir Cell is not Sync, so cannot be shared between threads. – Peter Hall Dec 7 '20 at 11:55
  • I didn't exactly mean that. As the OP says that mutual exclusion is managed manually, I think it would be a good idea to wrap a cell type in a struct and implement Send and Sync for it. Cell is Send, so there should be no issues sending it to another thread. – Mihir Dec 7 '20 at 12:03
  • Unfortunately, split_at_mut wasn't enough, I needed truly arbitrary access to the mutable slice. I ended up wrapping a pointer to my data in UnsafeCell and implementing Send and Sync for that, as suggested somewhere else. Additionally, I had to use crossbeam's scoped threads as suggested in one of the comments to my question. Thank you for taking your time! – Niki Dec 7 '20 at 12:56
  • 1
    @Niki, just in case if it helps, you are able to use UnsafeCell because an exception is made by the compiler because UnsafeCell is attributed with unsafe_cell lang item in its definition. So it doesn't cause undefined behaviour as stated in the reference. – Mihir Dec 7 '20 at 13:02

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.