Here are two function signatures I saw in the Rust documentation:

fn modify_foo(mut foo: Box<i32>) { *foo += 1; *foo }
fn modify_foo(foo: &mut i32) { *foo += 1; *foo }

Why the different placement of mut?

It seems that the first function could also be declared as

fn modify_foo(foo: mut Box<i32>) { /* ... */ }

mut foo: T means you have a variable called foo that is a T. You are allowed to change what the variable refers to:

let mut val1 = 2;
val1 = 3; // OK

let val2 = 2;
val2 = 3; // error: re-assignment of immutable variable

This also lets you modify fields of a struct that you own:

struct Monster { health: u8 }

let mut orc = Monster { health: 93 };
orc.health -= 54;

let goblin = Monster { health: 28 };
goblin.health += 10; // error: cannot assign to immutable field

foo: &mut T means you have a variable that refers to (&) a value and you are allowed to change (mut) the referred value (including fields, if it is a struct):

let val1 = &mut 2;
*val1 = 3; // OK

let val2 = &2;
*val2 = 3; // error: cannot assign to immutable borrowed content

Note that &mut only makes sense with a reference - foo: mut T is not valid syntax. You can also combine the two qualifiers (let mut a: &mut T), when it makes sense.

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    I see. I guess it's like in C++ where you can have int const* vs. int *const to achieve different things. – Jimmy Lu Feb 18 '15 at 15:57
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    @Shepmaster You might want to add that mut on a binding allows you to mutate inside the structure (if it is a struct). – Scott Olson Feb 18 '15 at 15:59
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    @BeyondSora Don't think of &mut Type as &(mut Type), but as (&mut) Type. The keyword mut isn't used in types in general, but there is a type of reference called &mut. – Scott Olson Feb 18 '15 at 16:02
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    @BeyondSora You can see the latest edit of the above answer. The basic explanation is when you can mutate a structure, you can mutate as far into the structure as you want (its fields, its fields' fields, etc). There are no const fields. This is safe since Rust guarantees when you can mutate something, no one else can read or mutate it at the same time. – Scott Olson Feb 18 '15 at 16:05
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    @didierc Yeah. You can think of &T and &mut T as sugar for Ref<T> and RefMut<T> (types I just made up). – Scott Olson Feb 18 '15 at 21:56

If you're coming from C/C++, it might also be helpful to think of it basically like this:

// Rust          C/C++
    a: &T     == const T* const a; // can't mutate either
mut a: &T     == const T* a;       // can't mutate what is pointed to
    a: &mut T == T* const a;       // can't mutate pointer
mut a: &mut T == T* a;             // can mutate both

You'll notice that these are inverses of each other. C/C++ take a "blacklist" approach, where if you want something to be immutable you have to say so explicitly, while Rust takes a "whitelist" approach, where if you want something to be mutable you have to say so explicitly.

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    This is a great table. It may be worthwhile to note that &mut T references are also analogous to T* restrict pointers in C: they may not be aliased. &T references have no such constraint and there is no reference type analogous to non-restrict-qualified T* pointers. – trentcl Oct 11 '19 at 21:03

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