// ./src/custom_types/enum/testcase_linked_list.md use crate::List::*; enum List { // Cons: Tuple struct that wraps an element and a pointer to the next node Cons(u32, Box), // Nil: A node that signifies the end of the linked list Nil, } // Methods can be attached to an enum impl List { // Create an empty list fn new() -> List { // `Nil` has type `List` Nil } // Consume a list, and return the same list with a new element at its front fn prepend(self, elem: u32) -> List { // `Cons` also has type List Cons(elem, Box::new(self)) } // Return the length of the list fn len(&self) -> u32 { // `self` has to be matched, because the behavior of this method // depends on the variant of `self` // `self` has type `&List`, and `*self` has type `List`, matching on a // concrete type `T` is preferred over a match on a reference `&T` // after Rust 2018 you can use self here and tail (with no ref) below as well, // rust will infer &s and ref tail. // See https://doc.rust-lang.org/edition-guide/rust-2018/ownership-and-lifetimes/default-match-bindings.html match *self { // Can't take ownership of the tail, because `self` is borrowed; // instead take a reference to the tail Cons(_, ref tail) => 1 + tail.len(), // Base Case: An empty list has zero length Nil => 0 } } // Return representation of the list as a (heap allocated) string fn stringify(&self) -> String { match *self { Cons(head, ref tail) => { // `format!` is similar to `print!`, but returns a heap // allocated string instead of printing to the console format!("{}, {}", head, tail.stringify()) }, Nil => { format!("Nil") }, } } } fn part0() { // Create an empty linked list let mut list = List::new(); // Prepend some elements list = list.prepend(1); list = list.prepend(2); list = list.prepend(3); // Show the final state of the list println!("linked list has length: {}", list.len()); println!("{}", list.stringify()); } pub fn main() { part0(); }