I notice that Rust's test has a benchmark mode that will measure execution time in ns/iter, but I could not find a way to measure memory usage.

How would I implement such a benchmark? Let us assume for the moment that I only care about heap memory at the moment (though stack usage would also certainly be interesting).

Edit: I found this issue which asks for the exact same thing.

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    I suspect that generic methods (also available in C/C++) would work, but I never found a fine-grained way of measuring in a generic fashion :( – Matthieu M. Jun 16 '15 at 13:48
  • @Matthieu M. Yes, that'd work, but require that I break out all my benchmark methods in separate binaries, which is burdensome. Also it may or may not give correct results. – llogiq Jun 16 '15 at 13:54
  • To do this from inside of the program, I'd expect that you'd have to wait until allocators are pluggable. Then you'd have to make sure that every heap allocation you make uses a provided allocator, and then implement an allocator that tracks how much memory is lent out at any given time. I wish that valgrind's memory tracking worked with jemalloc... – Shepmaster Jun 16 '15 at 14:47
up vote 11 down vote accepted

With Rust 1.0 and 1.1 you could use the libc crate in order to print the jemalloc statistics:

#![feature(libc)]
extern crate libc;
use libc::*;
extern {fn je_malloc_stats_print (write_cb: extern fn (*const c_void, *const c_char), cbopaque: *const c_void, opts: *const c_char);}
extern fn write_cb (_: *const c_void, message: *const c_char) {
    print! ("{}", String::from_utf8_lossy (unsafe {std::ffi::CStr::from_ptr (message as *const i8) .to_bytes()}));
}

fn main() {
    unsafe {je_malloc_stats_print (write_cb, std::ptr::null(), std::ptr::null())};
}

In later Rust versions (1.8 - 1.14) we have the je_malloc_stats_print renamed to je_stats_print:

#![feature(libc)]
extern crate libc;
extern {fn je_stats_print (write_cb: extern fn (*const libc::c_void, *const libc::c_char), cbopaque: *const libc::c_void, opts: *const libc::c_char);}
extern fn write_cb (_: *const libc::c_void, message: *const libc::c_char) {
    print! ("{}", String::from_utf8_lossy (unsafe {std::ffi::CStr::from_ptr (message as *const i8) .to_bytes()}));}
fn main() {unsafe {je_stats_print (write_cb, std::ptr::null(), std::ptr::null())};}

(playground)

In a single-threaded program that should allow you to get a good measurement of how much memory a structure takes. Just print the statistics before the structure is created and after and calculate the difference.


You can also use Valgrind (Massif) to get the heap profile. It works just like with any other C program. Make sure you have debug symbols enabled in the executable (e.g. using debug build or custom Cargo configuration). You can use, say, http://massiftool.sourceforge.net/ to analyse the generated heap profile.

(I verified this to work on Debian Jessie, in a different setting your mileage may vary).

In order to use Rust with Valgrind you'll probably have to switch to the system allocator:

#![feature(alloc_system)]
extern crate alloc_system;

jemalloc can be told to dump a memory profile. You can probably do this with the Rust FFI but I haven't investigated this route.

  • I compiled in debug mode (with cargo build), but I do not see the line numbers in the massif dump. I also tried rustc -g with the same result. Do you know why? – antoyo Oct 6 '15 at 16:27
  • @antoyo Try switching to the system allocator with extern crate alloc_system;. – ArtemGr Apr 19 '16 at 10:35

As far as measuring data structure sizes is concerned, this can be done fairly easily through the use of traits and a small compiler plugin. Nicholas Nethercote in his article Measuring data structure sizes: Firefox (C++) vs. Servo (Rust) demonstrates how it works in Servo; it boils down to adding #[derive(HeapSizeOf)] (or occasionally a manual implementation) to each type you care about. This is a good way of allowing precise checking of where memory is going, too; it is, however, comparatively intrusive as it requires changes to be made in the first place, where something like jemalloc’s print_stats() doesn’t. Still, for good and precise measurements, it’s a sound approach.

  • This is a good point, and if we want to measure memory usage of a specific structure, it's great. However, as you say, it's quite intrusive (which may be OK for many use cases, though), and it doesn't necessarily get the whole picture (as there may be side channels that store data, e.g. a global table). – llogiq Jun 17 '15 at 8:54
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    @llogiq: As Nicholas mentions, handling things like shared ownership is still an open question—but you get to decide how to handle it. Traits make deciding how to implement such a thing quite easy. You can handle such things in whatever manner you choose. – Chris Morgan Jun 17 '15 at 12:34
  • Fair enough. I really like the approach, it affords a lot of control. However, it's also a bit finicky and easy to get wrong. So, while it may be reasonable in many cases, it is not the solution I look for. – llogiq Jun 17 '15 at 12:59

Currently, the only way to get allocation information is the alloc::heap::stats_print(); method (behind #![feature(alloc)]), which calls jemalloc's print_stats().

I'll update this answer with further information once I have learned what the output means.

(Note that I'm not going to accept this answer, so if someone comes up with a better solution...)

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    You mentioned not liking the other answer "as there may be side channels that store data", but note that this answer only tracks memory from jemalloc, so if your function calls into C code that uses any other allocator, it will not be included in this report. – Shepmaster Jun 17 '15 at 14:09
  • True. This is one caveat that makes the jemalloc based approach less useful once we deal with non-rust code (or once we have pluggable allocators, which on the other hand could make the whole point moot). Yet another reason why I'm not quite satisfied with either answer. – llogiq Jun 17 '15 at 14:29

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