Dave Herman's recent talk in Rust said that they borrowed this property from C++. I couldn't find anything around the topic. Can somebody please explain what monomorphisation means?


Monomorphization means generating specialized versions of generic functions. If I write a function that extracts the first element of any pair:

fn first<A, B>(pair: (A, B)) -> A {
    let (a, b) = pair;
    return a;

and then I call this function twice:

first((1, 2));
first(("a", "b"));

The compiler will generate two versions of first(), one specialized to pairs of integers and one specialized to pairs of strings.

The name derives from the programming language term "polymorphism" — meaning one function that can deal with many types of data. Monomorphization is the conversion from polymorphic to monomorphic code.

  • Is it another name for static dispatch? – Tshepang Jun 8 '15 at 21:42
  • 5
    @Tshepang Not really, it's more like the difference between C++ templates and Java generics. – Tavian Barnes Jun 8 '15 at 21:50
  • Seems to me to be the same as what we'd simply call (implicit) template specialisation in C++. Not to be confused with monomorphism, which would be the logical opposite of polymorphism in the sense of dealing with a subtype through it's parent's interface. – stellarpower May 5 '16 at 17:18

Not sure about this; could you link to the talk? It might have been an offhanded remark.

Herman might have coined a term for something like template specialization, which generates types/objects which are mutually unrelated (not-polymorphic or "monomorphic") from the template, which is a polymorphic structure.


Not sure if anyone is still looking at this, but the Rust documentation actually does mention how it achieves no cost abstraction through this process. From Performance of Code Using Generics:

You might be wondering whether there is a runtime cost when you’re using generic type parameters. The good news is that Rust implements generics in such a way that your code doesn’t run any slower using generic types than it would with concrete types.

Rust accomplishes this by performing monomorphization of the code that is using generics at compile time. Monomorphization is the process of turning generic code into specific code by filling in the concrete types that are used when compiled.

In this process, the compiler does the opposite of the steps we used to create the generic function in Listing 10-5: the compiler looks at all the places where generic code is called and generates code for the concrete types the generic code is called with.

Let’s look at how this works with an example that uses the standard library’s Option enum:

let integer = Some(5);
let float = Some(5.0);

When Rust compiles this code, it performs monomorphization. During that process, the compiler reads the values that have been used in Option instances and identifies two kinds of Option: one is i32 and the other is f64. As such, it expands the generic definition of Option into Option_i32 and Option_f64, thereby replacing the generic definition with the specific ones.

The monomorphized version of the code looks like the following. The generic Option is replaced with the specific definitions created by the compiler:

// Filename: src/main.rs

enum Option_i32 {

enum Option_f64 {

fn main() {
    let integer = Option_i32::Some(5);
    let float = Option_f64::Some(5.0);

Because Rust compiles generic code into code that specifies the type in each instance, we pay no runtime cost for using generics. When the code runs, it performs just as it would if we had duplicated each definition by hand. The process of monomorphization makes Rust’s generics extremely efficient at runtime.

  • Welcome to Stack Overflow and thanks for the answer. When providing an aswer that mostly consists of a link, it's generally helpful to briefly summarize the content of the linked article. That way your post remains useful if the link becomes broken. You're also more likely to get upvotes on your answer that way. – New Pagodi Nov 7 '18 at 16:19

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