44

I looked at how much RAM was used by Rust programs (RES column from top command) and I wonder why they use so much memory.

Here is an example:

use std::io;

fn main() {
    println!("What's your name?");
    let mut input = String::new();
    io::stdin().read_line(&mut input).unwrap();
    println!("Hello {}!", input);
}

I saw that 6 MB of memory was used before I input something.

Here is how I compiled and executed the program:

cargo build --release
./target/release/main

The equivalent C program:

#include <stdio.h>

int main(void) {
    printf("What's your name?\n");
    char input[100] = {0};
    scanf("%s", input);
    printf("Hello %s!\n", input);
    return 0;
}

only uses 0.6 MB. In this case, the Rust program uses 10 times more memory. In other cases, I saw that the Rust program uses 5 times more memory.

I also tested with other languages to compare.

The OCaml version:

let () =
    print_endline "What's your name?";
    let line = read_line () in
    print_string "Hello ";
    print_endline line

uses 1 MB.

The Haskell version:

main = do
    putStrLn "What's your name?"
    name <- getLine
    putStrLn ("Hello " ++ name ++ "!")

uses 3 MB.

The Python version:

print("What's your name?")
name = input()
print("Hello", name, "!")

uses 7 MB, almost the same as the Rust version!

Update

I'm running Linux (ArchLinux) with Rust 1.3 (I also tried the nightly with similar results).

Update 2

Here is more data from the htop command:

VIRT    RES     SHR     MEM%    Command
15572   2936    804     0.1     ocaml
21728   2732    2528    0.1     haskell
22540   7480    4308    0.2     python
4056    668     600     0.0     c
24180   6164    1928    0.2     rust

Update 3

I did more tests with massif to see the memory usage.

For every program, I ran massif twice, as following:

valgrind --tool=massif --time-unit=B ./program
valgrind --tool=massif  --pages-as-heap=yes --time-unit=B ./program

Here are the results with all the programs (as shown by ms_print):

C versions:

https://framabin.org/?dd243f8ec99155bc#Af5cPrcHnz3DsWiOStfwgW8Qq6BTVhogz/46L+sMuSs=

https://framabin.org/?261b9366c3749469#1ztDBkgVly9CanrrWWrJdh3yBFL5PEIW3OI5OLnze/Q=

Rust versions:

https://framabin.org/?0f1bac1c750e97bf#AXwlFYYPHeazq9LfsTOpRBaUTTkb1NfN9ExPorDJud0=

https://framabin.org/?c24b21b01af36782#OLFWdwLjVG2t7eoLqLFhe0Pp8Q8pA2S/oq4jdRRWPzI=

OCaml versions:

https://framabin.org/?060f05bea318109c#/OJQ8reHCU3CzzJ5NCOCLOYJQFnA1VgxqAIVjgQWX9I=

https://framabin.org/?8ff1ffb6d03cb37a#GN8bq3Wrm6tNWaINIhMAr4ieltLtOPjuZ4Ynof9bV4w=

Haskell versions:

https://framabin.org/?b204bd978b8c1fd8#DyQH862AM8NEPTKlzEcZgoapPaZLdlF9W3dRn47K5yU=

https://framabin.org/?ac1aa89fcaeb782c#TQ+uAiqerjHuuEEIhehVitjm63nc3wu5wfivAeBH5uI=

Python versions:

https://framabin.org/?197e8b90df5373ec#aOi0+tEj32Na5jW66Kl97q2lsjSZ2x7Cwl/pOt0lYIM=

https://framabin.org/?397efa22484e3992#1ylOrmjKaA9Hg7gw7H7rKGM0MyxuvKwPNN1J/jLEMrk=

Summary (ram usage):

|------------|----------|----------|----------|----------|----------|
|            |     C    | Haskell  |   OCaml  |   Rust   |  Python  |
|------------|----------|----------|----------|----------|----------|
| First run  |    1 B   | 63.12 KB | 5.993 MB |   816 B  | 1.321 MB |
|------------|----------|----------|----------|----------|----------|
| Second run | 6.031 MB | 24.20 MB | 17.14 MB | 25.60 MB | 27.43 MB |
|------------|----------|----------|----------|----------|----------|

The first run is without the --pages-as-heap=yes parameter.

I also ran massif with the --stacks=yes option for C and Rust.

C version:

https://framabin.org/?b3009d198ccfdee1#HxR6LPPAzt15K+wIFdaqlfSJjBrJvhV2ZHWdElg3ezc=

(3.141 KB)

Rust version:

https://framabin.org/?b446d8d76c279007#tHnGiOnRstTA2krhz6cgfvTjI+FclcZS3rqyZvquWdQ=

(8.602 KB)

What does explain such a huge difference between heap block allocation and page allocation in Rust?

14
  • 2
    Until you reach the range of GB, what is the problem (assuming not running on embedded platform)? Did you test larger and larger programs and found that it still scales the same? Or is there some "minimum" due to runtime environment and it scales reasonably after that? – crashmstr Sep 24 '15 at 13:10
  • 2
    On OS X, using Rust 1.3, your Rust program uses 660K according to top. You probably should edit your question to include these details. – Shepmaster Sep 24 '15 at 13:10
  • 2
    @crashmstr It would still be surprising (to me) if the fixed overhead for the runtime would be larger for rust than e.g. Haskell. – fjh Sep 24 '15 at 13:17
  • 4
    Of course, they aren't exactly the same. At the moment, the C version is waiting to be a buffer overrun exploit which I assume the Rust one isn't. Even if you fix that issue (by specifying a width), you'll still get markedly different behaviour if your name is 10000 characters long. – Damien_The_Unbeliever Sep 24 '15 at 13:26
  • 2
    Can confirm that rust has a somewhat high initial memory requirement for a compiled language with a supposedly zero-sized runtime. For an example of the measurement see the benchmarksgame.alioth.debian.org/u64q/rust.html – they show very similar memory consumption patterns. Note that static linking cannot explain the difference e.g. to C. Perhaps it is due to jemalloc settings on linux? – llogiq Sep 24 '15 at 13:26
23

Because the standard library is statically linked.

You can overcome this by compiling with the -C prefer-dynamic option.

As to the reason behind having the standard library statically linked: it increases executable portability (ie: no need for the standard library to be installed in target system).

4
  • With this option, there are some changes, but it still use more RAM than the Haskell and OCaml versions. The only ways that were found to reduce the RAM usage was to use the system allocator or the no_std feature, but it does not explain why Rust use more RAM by default. – antoyo Nov 25 '15 at 0:33
  • 1
    There might also be a lot of inlining – Neikos Dec 2 '15 at 15:34
  • 1
    The standard library wouldn't be faulted in for such a simple program. jemalloc is a more likely explanation. – Tobu Jun 17 '17 at 16:59
  • Back then, Windows executables were bigger, too, and rust for Windows didn't come with jemalloc at the time. (I talk in past because I haven't been using rust for quite some time now; jemalloc may still not used in Rust for windows) – iajrz Jun 27 '17 at 6:27
2

This article has a very good discussion of the topic. Some of the largest and most common culprits are cargo's default to debug builds (not relevant in your case) and statically including libraries by default.

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