I don't understand why Box::new doesn't return an Option or Result.

The allocation can fail because memory is not unlimited, or something else could happen; what is the behavior in such cases? I can't find any information about it.

  • 2
    If you ran out of heap space, surely you have bigger problems. I can't think of any situations where you wouldn't want to just panic at this point. – Peter Hall Jul 5 '17 at 10:32
  • 5
    @PeterHall Sometime you want to handle the error for a server to keep running for other client or if you need to clean before exit. – Stargateur Jul 5 '17 at 10:35
  • 8
    I'm not sure I would want to handle that failure at the point of allocation though. This falls into the category of unexpected and catastrophic exceptions, which are hard to recover from. In your example of a server request, it would be better to catch_unwind from the point of handling the problematic request, so you can continue to accept new requests thereafter. – Peter Hall Jul 5 '17 at 11:07
  • 3
    @Stargateur, judging by the source of default OOM handler, it just aborts the process. You'll need to use nightly Rust to change OOM behavior. – red75prime Jul 5 '17 at 11:56
  • 1
    Recovering from failed big allocations (e.g. a multi megabyte vector) is often possible. Recovering from small allocations (e.g. box) rarely is. – CodesInChaos Jul 5 '17 at 15:32

A more general form is What to do on Out Of Memory (OOM)?

There are many difficulties in handling OOM:

  • detecting it,
  • recovering from it (gracefully),
  • integrating it in the language (gracefully).

The first issue is detecting it. Many OSes today will, by default, use swap space. In this case, your process is actually in trouble way before you get to the OOM situation because starting to use swap space will significantly slow down the process. Other OSes will kill low-priority processes when a higher process requires more memory (OOM killer), or promise more memory than they currently have in the hope it will not be used or will be available by the time it is necessary (overcommit), etc...

The second issue is recovering. At the process level, the only way to recover is to free memory... without allocating any in the mean time. This is not as easy as it sounds, for example there is no guarantee that panicking and unwinding will not require allocating memory (for example, the act of storing a panic message could allocate if done carelessly). This is why the current rustc runtime aborts by default on OOM.

The third issue is language integration: memory allocations are everywhere. Any use of Box, Vec, String, etc... So, if you shun the panic route and use the Result route instead, you need to tweak nearly any mutating method signature to account for this kind of failure, and this will bubble in all interfaces.

Finally, it's notable that in domains where memory allocation failure need be handled... often times memory allocation is not allowed to start with. In critical embedded software, for example, all memory is allocated up-front and there is a proof that no more than what is allocated will be required.

This is important, because it means that there are very few situations where (1) dynamic memory allocation is allowed and (2) its failure must be handled gracefully by the process itself.

And at this point, one can only wonder how much complexity budget should be spent on this, and how much complexity this will push unto the 99% of programs which do not care.

  • 3
    Image handling however can benefit from fallible allocations. Unpacked 16K HDR image requires around 2GB of memory and there's no way to check if the allocation will succeed. – red75prime Jul 5 '17 at 12:05
  • 6
    @red75prime: Oh, I'm not saying that it's never useful, I'm saying it's rarely is. As such, not worrying about it the right default, but it would indeed be nice to have another way to deal with fallible allocations (Box::try_new() ?). – Matthieu M. Jul 5 '17 at 12:27
  • 1
    A bunch of fallible functions existing in parallel with panicking functions doesn't seem like elegant solution, taking into account the rarity you mentioned. Maybe something like fn try_alloc<T, F: FnOnce() ->T>(f: F) -> Option<T>? – red75prime Jul 5 '17 at 12:49
  • Can you complete your answer by adding the behavior of this error in rust ? What documentation if any say ? Or rust choice to let this undefined behavior ? – Stargateur Jul 5 '17 at 16:07
  • @Stargateur: I linked to the experimental alloc::oom module, and the default OOM handler. If you feel like it, you can tweak this handler, however note that the signature being () -> ! does not let you much choice (panicking, infinite loop, abort/exit, ... but no returning null). This is not a language thing however, just a std thing. If you implement your own std, you can pick another behavior. – Matthieu M. Jul 5 '17 at 16:53

I found the following communication between the Rust developers regarding some of the lower-level functions in liballoc not returning Options: PR #14230.

Especially the following parts explain some of the reasons behind it:


Hm... shouldn't the lowest level library not be triggering task failure? Are we planning to have any lower-level libraries returning Option or something?


I found that it was quite common to want to trigger task failure, much more so than I originally realized. I also found that all contexts have some form or notion of failure, although it's not always task failure.


I was thinking from the perspective of task failure not being recoverable at the call site, i.e. a higher level library is free to fail, but the absolute lowest building blocks shouldn't, so that people can handle problems as they wish (even if it's just manually triggering task failure). If liballoc isn't designed to be the lowest level allocation library, failing is fine. (BTW, I think you may've misinterpreted my comment, because I wasn't talking about libcore, just liballoc.)


Oops, sorry! I believe that the core allocator interface (located in liballoc) will be specced to not fail!(), just the primitives on top of them (for example, the box operator).

Perhaps we could extend the box syntax to allow returning Option one day to accommodate this use case, because I'd definitely like to be able to re-use this code!

  • 2
    "Perhaps we could extend the box syntax to allow returning Option one day to accommodate this use case, because I'd definitely like to be able to re-use this code!", maybe I should ask them :p. – Stargateur Jul 5 '17 at 11:22
  • @Stargateur You may not get what you want, but you'll almost certainly get friendly feedback! – Kyle Strand Jul 5 '17 at 21:35

This is a language design decision. You have to consider not just the logic of a single operation (Box::new, for example) but how it will affect the language ergonomics. If we were to handle the memory allocation errors with the Return mechanics then these errors would've started to bubble up pretty much everywhere. Even if the method doesn't allocate any memory on the heap currently, it might resort to it in the future. Suddenly a simple change in implementation would be stuck because you'd have to change the API, which with semantic versioning means a major release. All that for a little benefit, because the out of memory handling isn't very reliable or useful in the presence of swapping and memory killers (often you should stop allocating the memory long before you get an out of memory error).

The subject was much discussed on reddit.

One proposed solution I've seen is to treat the out of memory as a panic, unwinding and terminating the corresponding task.

  • 1
    "Even if the method doesn't allocate any memory on the heap currently, it might resort to it in the future.", I disagree. You choose that your function don't return an error or an option, so you decide that she never fail. It's your problem if you have a bad design in the first place. In this case you can panic yourself so you don't have a breaking change if you want. Thanks for the reddit link. – Stargateur Jul 5 '17 at 10:53
  • 4
    @Stargateur You have a point, but it's a fine one. In most software the heap allocation is widely used and to consider it during the interface design would be a strain. – ArtemGr Jul 5 '17 at 11:05
  • As others have commented, OOM doesn't panic so you can't unwind, unfortunately :/ – Peter Hall Jul 5 '17 at 16:02

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.