programmieren-in-rust/aufgaben/sheet03/task1/rule90.rs

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//! Task 3.1: Rule 90
fn main() {
// TODO: Task 1c)
}
/// Reads a valid initial configuration for our automaton from the terminal.
fn read_input() -> Vec<bool> {
// This tries to read a string from the terminal, checks whether it's
// valid (only contains 1's and 0's). If the user fails to input a correct
// string, this routine will ask again until the user finally manages to
// give us a correct string.
//
// You don't need to understand this routine yet; that's why I've written
// it already ;-)
//
// You only need to use the `input` variable (of type `String`). You can
// also assume that it only contains '0' and '1' chars.
let input = {
let mut buffer = String::new();
loop {
println!("Please give me the initial configuration (a string of '0' and '1'!):");
buffer.clear();
// `read_line` returns an error if the input isn't valid UTF8 or if
// a strange IO error occured. We just panic in that case...
std::io::stdin()
.read_line(&mut buffer)
.expect("something went seriously wrong :O");
if buffer.trim().chars().all(|c| c == '1' || c == '0') {
break;
}
}
buffer.trim().to_string()
};
// TODO: Task 1a)
}
// TODO: Task 1b)
#[test]
fn rule90_rules() {
assert_eq!(next_step(&[false, false, false]), vec![false, false, false]);
assert_eq!(next_step(&[ true, false, false]), vec![false, true, true]);
assert_eq!(next_step(&[ true, true, false]), vec![ true, true, false]);
assert_eq!(next_step(&[ true, true, true]), vec![false, false, false]);
}