I have the following:

let mut my_number = 32.90;

How do I print the type of my_number?

Using type and type_of did not work. Is there another way I can print the number's type?

If you merely wish to find out the type of a variable and are willing to do it at compile time, you can cause an error and get the compiler to pick it up.

For example, set the variable to a type which doesn't work (let () = x; would work too):

error[E0308]: mismatched types
 --> <anon>:2:29
  |
2 |     let mut my_number: () = 32.90;
  |                             ^^^^^ expected (), found floating-point variable
  |
  = note: expected type `()`
  = note:    found type `{float}`

error: aborting due to previous error

Or in most cases call an invalid method or get an invalid field:

error: no method named `what_is_this` found for type `{float}` in the current scope
 --> <anon>:3:15
  |
3 |     my_number.what_is_this();
  |               ^^^^^^^^^^^^

error: aborting due to previous error
error: attempted access of field `what_is_this` on type `{float}`, but no field with that name was found
 --> <anon>:3:5
  |
3 |     my_number.what_is_this
  |     ^^^^^^^^^^^^^^^^^^^^^^

error: aborting due to previous error

These reveal the type, which in this case is actually not fully resolved. It’s called “floating-point variable” in the first example, and “{float}” in all three examples; this is a partially resolved type which could end up f32 or f64, depending on how you use it. “{float}” is not a legal type name, it’s a placeholder meaning “I’m not completely sure what this is”, but it is a floating-point number. In the case of floating-point variables, if you don't constrain it, it will default to f64¹. (An unqualified integer literal will default to i32.)


¹ There may still be ways of baffling the compiler so that it can’t decide between f32 and f64; I’m not sure. It used to be as simple as 32.90.eq(&32.90), but that treats both as f64 now and chugs along happily, so I don’t know.

  • 3
    :? has for quite a long time now been manually implemented. But more importantly, the std::fmt::Debug implementation (for that is what :? uses) for number types no longer includes a suffix to indicate which type it is of. – Chris Morgan May 2 '15 at 12:40
  • 1
    I use these techniques a lot for trying to find the type of an expression, but it doesn't always work, especially when there are type parameters involved. The compiler will, for example, tell me that it's expecting an ImageBuffer<_, Vec<_>> which doesn't help me very much when I'm trying to write a function that takes one of these things as a parameter. And this happens in code that otherwise compiles until I add the :(). Is there no better way? – Christopher Armstrong Dec 12 '16 at 23:37
  • 1
    This seems to be a bit convoluted and unintuitive. Would it be very difficult for the code editor e.g. Emacs provide the type when the cursor rests on the variable, like in many other languages? If the compiler can tell the type upon error, surely it should also already know the type when there isn't any error? – xji Jan 16 '17 at 18:09
  • 1
    @JIXiang: the Rust Language Server is all about providing this information to an IDE, but it’s not mature yet—its first alpha release was only a couple of days ago. Yes, this is an eldritch approach; yes, less esoteric ways of achieving the goal are steadily coming. – Chris Morgan Jan 19 '17 at 4:19
  • lol, but it works - does anyone know if there are editors that would tell you on hover (like f# visualstudio but not VS)? I am using sublime but nothing like that i see.. – schmoopy Mar 4 '17 at 21:16

There is an unstable function std::intrinsics::type_name that can get you the name of a type, though you have to use a nightly build of Rust (this is unlikely to ever work in stable Rust). Here’s an example:

#![feature(core_intrinsics)]

fn print_type_of<T>(_: &T) {
    println!("{}", unsafe { std::intrinsics::type_name::<T>() });
}

fn main() {
    print_type_of(&32.90);          // prints "f64"
    print_type_of(&vec![1, 2, 4]);  // prints "std::vec::Vec<i32>"
    print_type_of(&"foo");          // prints "&str"
}
  • have you found a way to make this work with Rust 1.0-beta? – vbo May 2 '15 at 11:55
  • @vbo: not until it’s stabilised. Something like this is unlikely to be stabilised for quite some time, if ever—and it wouldn’t surprise me if it is never stabilised; it’s not the sort of thing that you should ever really do. – Chris Morgan May 2 '15 at 12:50
  • 2
    On rust-nightly (1.3) it only worked when changing that first line to #![feature(core_intrinsics)] – A T Jul 22 '15 at 3:55
  • 1
    @DmitriNesteruk: print_type_of is taking references (&T), not values (T), so you must pass &&str rather than &str; that is, print_type_of(&"foo") rather than print_type_of("foo"). – Chris Morgan Oct 20 '16 at 8:46

If you know all the types beforehand, you can use traits to add a type_of method:

trait TypeInfo {
    fn type_of(&self) -> &'static str;
}

impl TypeInfo for i32 {
    fn type_of(&self) -> &'static str {
        "i32"
    }
}

impl TypeInfo for i64 {
    fn type_of(&self) -> &'static str {
        "i64"
    }
}

//...

No intrisics or nothin', so although more limited this is the only solution here that gets you a string and is stable. However, it's very laborious and doesn't account for type parameters, so we could...

trait TypeInfo {
    fn type_name() -> String;
    fn type_of(&self) -> String;
}

macro_rules! impl_type_info {
    ($($name:ident$(<$($T:ident),+>)*),*) => {
        $(impl_type_info_single!($name$(<$($T),*>)*);)*
    };
}

macro_rules! mut_if {
    ($name:ident = $value:expr, $($any:expr)+) => (let mut $name = $value;);
    ($name:ident = $value:expr,) => (let $name = $value;);
}

macro_rules! impl_type_info_single {
    ($name:ident$(<$($T:ident),+>)*) => {
        impl$(<$($T: TypeInfo),*>)* TypeInfo for $name$(<$($T),*>)* {
            fn type_name() -> String {
                mut_if!(res = String::from(stringify!($name)), $($($T)*)*);
                $(
                    res.push('<');
                    $(
                        res.push_str(&$T::type_name());
                        res.push(',');
                    )*
                    res.pop();
                    res.push('>');
                )*
                res
            }
            fn type_of(&self) -> String {
                $name$(::<$($T),*>)*::type_name()
            }
        }
    }
}

impl<'a, T: TypeInfo + ?Sized> TypeInfo for &'a T {
    fn type_name() -> String {
        let mut res = String::from("&");
        res.push_str(&T::type_name());
        res
    }
    fn type_of(&self) -> String {
        <&T>::type_name()
    }
}

macro_rules! type_of {
    ($x:expr) => { (&$x).type_of() };
}

Let's use it:

impl_type_info!(i32, i64, f32, f64, str, String, Vec<T>, Result<T,S>)

fn main() {
    println!("{}", type_of!(1));
    println!("{}", type_of!(&1));
    println!("{}", type_of!(&&1));
    println!("{}", type_of!(1.0));
    println!("{}", type_of!("abc"));
    println!("{}", type_of!(&"abc"));
    println!("{}", type_of!(String::from("abc")));
    println!("{}", type_of!(vec![1,2,3]));

    println!("{}", <Result<String,i64>>::type_name());
    println!("{}", <&i32>::type_name());
    println!("{}", <&str>::type_name());
}

output:

i32
&i32
&&i32
f64
&str
&&str
String
Vec<i32>
Result<String,i64>
&i32
&str

Rust Playground

  • 1
    This answer should actually be a bit higher... – Omar Abid Sep 22 '17 at 18:37
  • this answer makes me wish I could star/favourite them somehow – Samir Aug 29 at 19:42

UPD The following does not work anymore. Check Shubham's answer for correction.

Check out std::intrinsics::get_tydesc<T>(). It is in "experimental" state right now, but it's OK if you are just hacking around the type system.

Check out the following example:

fn print_type_of<T>(_: &T) -> () {
    let type_name =
        unsafe {
            (*std::intrinsics::get_tydesc::<T>()).name
        };
    println!("{}", type_name);
}

fn main() -> () {
    let mut my_number = 32.90;
    print_type_of(&my_number);       // prints "f64"
    print_type_of(&(vec!(1, 2, 4))); // prints "collections::vec::Vec<int>"
}

This is what is used internally to implement the famous {:?} formatter.

I put together a little crate to do this based off vbo's answer. It gives you a macro to return or print out the type.

Put this in your Cargo.toml file:

[dependencies]
t_bang = "0.1.2"

Then you can use it like so:

#[macro_use] extern crate t_bang;
use t_bang::*;

fn main() {
  let x = 5;
  let x_type = t!(x);
  println!("{:?}", x_type);  // prints out: "i32"
  pt!(x);                    // prints out: "i32"
  pt!(5);                    // prints out: "i32"
}

You can also use the simple approach of using the variable in println!("{:?}", var). If Debug is not implemented for the type, you can see the type in the compiler's error message:

mod some {
    pub struct SomeType;
}

fn main() {
    let unknown_var = some::SomeType;
    println!("{:?}", unknown_var);
}

(playpen)

It's dirty but it works.

  • 6
    If Debug is not implemented — this is a pretty unlikely case though. One of the first things you should do for most any struct is add #[derive(Debug)]. I think the times where you don't want Debug are very small. – Shepmaster Sep 24 '15 at 20:03
  • 1
    can you explain what is happening in println!("{:?}", unknown_var); ?? Is it a string interpolation but why the :? inside the curly brackets? @DenisKolodin – Julio Marins Jan 2 '17 at 18:51
  • I provoke error. The idea to let compiler provide type info with error. I used Debug because it isn't implemented, but you can use {} as well. – DenisKolodin Jan 3 '17 at 10:06

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