encody/main.rs

## main.rs
fn main() {
    // Printing to the screen
    println!("Hello, world!");

    // Variables & mutability
    let mut x = 1;
    x = 4;

    // Arrays, vectors, ranges, and loops
    let x = 5;
    println!("My variable: {}", x);

    let mut my_arr = vec![1, 2, 3, 4];
    my_arr.push(5);

    let mut explicit_vec = Vec::new();
    explicit_vec.push(1);
    explicit_vec.push(2);
    explicit_vec.push(3);
    explicit_vec.push(4);

    println!("My vector: {:?}", my_arr);

    for i in explicit_vec {
        println!("{i}");
    }

    let mut i = 0;
    while i < explicit_vec.len() {
        println!("{}", explicit_vec[i]);
        i += 1;
    }

    let mut i = 0;
    loop {
        if i >= explicit_vec.len() {
            break;
        }
        println!("{}", explicit_vec[i]);
        i += 1;
    }

    let x = "string";

    println!("x: {x}");

    // Control flow

    let my_string = "ing";
    let my_value = if my_string.len() > 5 {
        "very long"
    } else {
        "not very long"
    };

    println!("my value is: {my_value}");

    // Functions
    // Functions with owned vs. borrowed arguments

    fn say_hello(name: &String) {
        println!("hello, {name}!");
    }

    let my_name = "Jacob".to_string();

    say_hello(&my_name);
    say_hello(&my_name);
    say_hello(&my_name);
    say_hello(&my_name);

    // Lifetimes

    fn longest<'a>(first: &'a String, second: &'a String) -> &'a String {
        if first.len() > second.len() {
            first
        } else {
            second
        }
    }

    let long_string = "very long string".to_string(); // begin: 'a
    let mut answer = "".to_string();
    {
        let the_longest_string = "sasdf".to_string(); // begin: 'b
        let lives_short = longest(&long_string, &the_longest_string);
        answer = lives_short.to_owned();
    } // end: 'b

    println!("answer: {}", answer);

    // Structs and enums

    #[derive(Debug)]
    struct TupleStruct(pub i32, pub String);

    let my_tuple_struct = TupleStruct(4, "hello".to_string());

    println!("{:?}", my_tuple_struct);

    #[derive(Debug)]
    struct MyStruct {
        pub number: i32,
        pub string: String,
        pub tuple_struct: TupleStruct,
    }

    let instance = MyStruct {
        number: 4,
        string: "hello".to_string(),
        tuple_struct: my_tuple_struct,
    };

    println!("{:?}", instance);

    pub enum MyOption<T> {
        None,
        Some(T),
    }

    fn might_return_nothing(x: i32) -> Option<i32> {
        if x == 0 {
            None
        } else {
            Some(500 / x)
        }
    }

    let answer = might_return_nothing(0);

    match answer {
        None => println!("Cannot divide by zero"),
        Some(result) => println!("The answer is: {result}"),
    }

    pub enum Result<T, E> {
        Ok(T),
        Err(E),
    }

    let x = Result::<&str, ()>::Err(());

    match x {
        Ok(s) => println!("string: {s}"),
        Err(()) => println!("error"),
    }

    let env_var = std::env::var("MY_VAR").ok();
    println!("{:?}", env_var);

    let mut my_book = Book {
        title: "The Portrait of Dorian Gray".to_string(),
        author: "Oscar Wilde".to_string(),
        condition: Condition::New,
    };

    println!("{my_book:?}");

    my_book.damage_in_place();

    println!("{my_book:?}");

    let damaged_copy = my_book.damage_copy();

    println!("{damaged_copy:?}");
} // end: 'a

#[derive(Debug)]
enum Condition {
    New,
    Good,
    Fair,
    Poor,
}

#[derive(Debug)]
struct Book {
    pub title: String,
    pub author: String,
    pub condition: Condition,
}

impl Book {
    pub fn damage_copy(&self) -> Book {
        Book {
            title: self.title.clone(),
            author: self.author.clone(),
            condition: match self.condition {
                Condition::New => Condition::Good,
                Condition::Good => Condition::Fair,
                _ => Condition::Poor,
            },
        }
    }

    pub fn damage_in_place(&mut self) {
        self.condition = match self.condition {
            Condition::New => Condition::Good,
            Condition::Good => Condition::Fair,
            _ => Condition::Poor,
        };
    }
}
	fn main() {
	// Printing to the screen
	println!("Hello, world!");

	// Variables & mutability
	let mut x = 1;
	x = 4;

	// Arrays, vectors, ranges, and loops
	let x = 5;
	println!("My variable: {}", x);

	let mut my_arr = vec![1, 2, 3, 4];
	my_arr.push(5);

	let mut explicit_vec = Vec::new();
	explicit_vec.push(1);
	explicit_vec.push(2);
	explicit_vec.push(3);
	explicit_vec.push(4);

	println!("My vector: {:?}", my_arr);

	for i in explicit_vec {
	println!("{i}");
	}

	let mut i = 0;
	while i < explicit_vec.len() {
	println!("{}", explicit_vec[i]);
	i += 1;
	}

	let mut i = 0;
	loop {
	if i >= explicit_vec.len() {
	break;
	}
	println!("{}", explicit_vec[i]);
	i += 1;
	}

	let x = "string";

	println!("x: {x}");

	// Control flow

	let my_string = "ing";
	let my_value = if my_string.len() > 5 {
	"very long"
	} else {
	"not very long"
	};

	println!("my value is: {my_value}");

	// Functions
	// Functions with owned vs. borrowed arguments

	fn say_hello(name: &String) {
	println!("hello, {name}!");
	}

	let my_name = "Jacob".to_string();

	say_hello(&my_name);
	say_hello(&my_name);
	say_hello(&my_name);
	say_hello(&my_name);

	// Lifetimes

	fn longest<'a>(first: &'a String, second: &'a String) -> &'a String {
	if first.len() > second.len() {
	first
	} else {
	second
	}
	}

	let long_string = "very long string".to_string(); // begin: 'a
	let mut answer = "".to_string();
	{
	let the_longest_string = "sasdf".to_string(); // begin: 'b
	let lives_short = longest(&long_string, &the_longest_string);
	answer = lives_short.to_owned();
	} // end: 'b

	println!("answer: {}", answer);

	// Structs and enums

	#[derive(Debug)]
	struct TupleStruct(pub i32, pub String);

	let my_tuple_struct = TupleStruct(4, "hello".to_string());

	println!("{:?}", my_tuple_struct);

	#[derive(Debug)]
	struct MyStruct {
	pub number: i32,
	pub string: String,
	pub tuple_struct: TupleStruct,
	}

	let instance = MyStruct {
	number: 4,
	string: "hello".to_string(),
	tuple_struct: my_tuple_struct,
	};

	println!("{:?}", instance);

	pub enum MyOption<T> {
	None,
	Some(T),
	}

	fn might_return_nothing(x: i32) -> Option<i32> {
	if x == 0 {
	None
	} else {
	Some(500 / x)
	}
	}

	let answer = might_return_nothing(0);

	match answer {
	None => println!("Cannot divide by zero"),
	Some(result) => println!("The answer is: {result}"),
	}

	pub enum Result<T, E> {
	Ok(T),
	Err(E),
	}

	let x = Result::<&str, ()>::Err(());

	match x {
	Ok(s) => println!("string: {s}"),
	Err(()) => println!("error"),
	}

	let env_var = std::env::var("MY_VAR").ok();
	println!("{:?}", env_var);

	let mut my_book = Book {
	title: "The Portrait of Dorian Gray".to_string(),
	author: "Oscar Wilde".to_string(),
	condition: Condition::New,
	};

	println!("{my_book:?}");

	my_book.damage_in_place();

	println!("{my_book:?}");

	let damaged_copy = my_book.damage_copy();

	println!("{damaged_copy:?}");
	} // end: 'a

	#[derive(Debug)]
	enum Condition {
	New,
	Good,
	Fair,
	Poor,
	}

	#[derive(Debug)]
	struct Book {
	pub title: String,
	pub author: String,
	pub condition: Condition,
	}

	impl Book {
	pub fn damage_copy(&self) -> Book {
	Book {
	title: self.title.clone(),
	author: self.author.clone(),
	condition: match self.condition {
	Condition::New => Condition::Good,
	Condition::Good => Condition::Fair,
	_ => Condition::Poor,
	},
	}
	}

	pub fn damage_in_place(&mut self) {
	self.condition = match self.condition {
	Condition::New => Condition::Good,
	Condition::Good => Condition::Fair,
	_ => Condition::Poor,
	};
	}
	}