Finish chapter6: Enums and pattern matching

This commit is contained in:
Zykino 2018-10-19 00:40:19 +02:00
parent 32a26e2044
commit d047b26213

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@ -618,7 +618,7 @@ fn defining_enum() {
println!("Instead of combining an enum and a struct, we can put the datas directly into the enum: {:?}", home);
println!("Doing so also permit to have differents types for each elements: {:?}", loopback);
println!("NOTE: The standard library implements an IpAddr enum, beter use it than our custom one 😉.");
println!("NOTE: The standard library implements an IpAddr enum, better use it than our custom one 😉.");
impl IpAddr {
fn route(&self) {
@ -644,12 +644,121 @@ fn defining_enum() {
println!("We will have to take care of the `Option` enum, so checking if the value is _y: {:?} `Some` or _z: {:?} `None`.", _y, _z);
println!("Instead of believing there is a value when really there is a null value.");
}
println!();
}
fn match_control_flow() {
unimplemented!()
{
#[derive(Debug)]
enum UsState {
_Alabama,
Alaska,
// ...
}
fn concise_control_flow_if_let() {
unimplemented!()
enum UsCoin {
Penny,
Nickel,
Dime,
Quarter(UsState),
}
fn value_in_cents(coin: UsCoin) -> u32 {
match coin {
UsCoin::Penny => {
println!("Lucky penny!");
1
},
UsCoin::Nickel => 5,
UsCoin::Dime => 10,
UsCoin::Quarter(state) => {
println!("State quarter from {:?}!", state);
25
},
}
}
println!("With the match control flow we can get the value of a Penny: {:?}", value_in_cents(UsCoin::Penny));
println!("Or any other US coin vakue of the `enum`. Nickel: {:?}", value_in_cents(UsCoin::Nickel));
println!("The compiler will make sure we mach every value possibles values when using the `match` control flow. Dime: {:?}", value_in_cents(UsCoin::Dime));
println!("It's like a `switch case break` where you have to make sure all options are covered.");
println!("We can even match with the value contains in the enum. Quarter: {:?}", value_in_cents(UsCoin::Quarter(UsState::Alaska)));
}
{
fn plus_one(x: Option<i32>) -> Option<i32> {
match x {
None => None,
Some(i) => Some(i + 1),
}
}
let five = Some(5);
let six = plus_one(five);
let none = plus_one(None);
println!("Example use of `match` with the `Option` enum: five = {:?}, plus_one = {:?}, None plus_one = {:?}", five, six, none);
let some_u8_value = 7u8;
match some_u8_value {
1 => println!("one"),
3 => println!("three"),
5 => println!("five"),
7 => println!("seven"),
_ => (), // `_` is a placeholder and `()` is the unit value
}
}
println!();
}
#[allow(dead_code, unused_assignments, unused_variables)]
fn concise_control_flow_if_let() {
println!("When we only want to match one element, a `match` control flow may be berbose.");
println!("Instead we can use the `if let [else]` syntax.");
let some_u8_value = Some(0u8);
// This is the same as ...
match some_u8_value {
Some(3) => println!("three"),
_ => (),
}
// ... this.
if let Some(3) = some_u8_value {
println!("three");
}
#[derive(Clone, Copy, Debug)]
enum UsState {
Alabama,
Alaska,
// ...
}
#[derive(Clone, Copy)]
enum UsCoin {
Penny,
Nickel,
Dime,
Quarter(UsState),
}
let coin = UsCoin::Penny;
// And this is the same as ...
let mut count = 0;
match coin {
UsCoin::Quarter(state) => println!("State quarter from {:?}!", state),
_ => count += 1,
}
// ... this.
let mut count = 0;
if let UsCoin::Quarter(state) = coin {
println!("State quarter from {:?}!", state);
} else {
count += 1;
}
println!();
}