I found this but could not get my code to work. I still have the sneaking suspicion that I need ref somehow.

I am trying to make a reasonable Table class in Rust to learn more about the language and running into some trouble with understanding the borrow checker and mutability concepts as well as their corresponding syntax.

I want the table class to be flexible and allow for different column types where the data types within the columns are homogeneous. So, a column of ints, floats, strings etc.

I started without flexible data types and came up with this hashmap mapping ints (the column labels in this case) to vectors of ints (the data within the columns).

use std::collections::HashMap; 

fn main() {
    let mut d: HashMap<isize, Vec<isize>> = HashMap::new();
    d.insert(0, Vec::new());

    println!("{:?}", d);
    // nice {0: [0]}

To implement flexible data types, enum seemed like a decent start so that is where I started but I am stuck on the implementation.

use std::collections::HashMap; 

enum VT {

fn main() {
    let mut d: HashMap<isize, VT> = HashMap::new();
    d.insert(0, VT::A(Vec::new()));

    match d.get_mut(&0).unwrap() {
        &mut VT::A(v) => v.push(0),
        &mut VT::B(v) => v.push(0.1), // would not be reached as-is 

    println!("{:?}", d);
// cannot borrow immutable local variable `v` as mutable :(

Ultimately, having a library similar to pandas would be the dream. For now, implementing a table is good Rust practice.


Your match block should be like this:

match *d.get_mut(&0).unwrap() {
    VT::A(ref mut v) => v.push(0),
    VT::B(ref mut v) => v.push(0.1),

In patterns ref mut takes a mutable reference, even as &mut dereferences a mutable reference.

(Convention is also match *foo { X => … } rather than match foo { &mut X => … }, but that’s a very minor matter.)

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