tests and iterators
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@ -9,18 +9,17 @@
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// Execute `rustlings hint iterators1` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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#[test]
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fn main() {
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let my_fav_fruits = vec!["banana", "custard apple", "avocado", "peach", "raspberry"];
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let mut my_iterable_fav_fruits = ???; // TODO: Step 1
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let mut my_iterable_fav_fruits = my_fav_fruits.iter(); // TODO: Step 1
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assert_eq!(my_iterable_fav_fruits.next(), Some(&"banana"));
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assert_eq!(my_iterable_fav_fruits.next(), ???); // TODO: Step 2
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assert_eq!(my_iterable_fav_fruits.next(), Some(&"custard apple")); // TODO: Step 2
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assert_eq!(my_iterable_fav_fruits.next(), Some(&"avocado"));
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assert_eq!(my_iterable_fav_fruits.next(), ???); // TODO: Step 3
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assert_eq!(my_iterable_fav_fruits.next(), Some(&"peach"));// TODO: Step 3
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assert_eq!(my_iterable_fav_fruits.next(), Some(&"raspberry"));
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assert_eq!(my_iterable_fav_fruits.next(), ???); // TODO: Step 4
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assert_eq!(my_iterable_fav_fruits.next(), None); // TODO: Step 4
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}
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@ -6,8 +6,6 @@
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// Execute `rustlings hint iterators2` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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// Step 1.
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// Complete the `capitalize_first` function.
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// "hello" -> "Hello"
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@ -15,7 +13,7 @@ pub fn capitalize_first(input: &str) -> String {
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let mut c = input.chars();
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match c.next() {
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None => String::new(),
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Some(first) => ???,
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Some(first) => first.to_uppercase().to_string() + &input[1..],
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}
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}
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@ -24,7 +22,7 @@ pub fn capitalize_first(input: &str) -> String {
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// Return a vector of strings.
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// ["hello", "world"] -> ["Hello", "World"]
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pub fn capitalize_words_vector(words: &[&str]) -> Vec<String> {
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vec![]
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words.iter().map(|w| capitalize_first(w)).collect()
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}
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// Step 3.
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@ -32,7 +30,7 @@ pub fn capitalize_words_vector(words: &[&str]) -> Vec<String> {
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// Return a single string.
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// ["hello", " ", "world"] -> "Hello World"
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pub fn capitalize_words_string(words: &[&str]) -> String {
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String::new()
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capitalize_words_vector(words).join("")
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}
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#[cfg(test)]
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@ -9,8 +9,6 @@
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// Execute `rustlings hint iterators3` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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#[derive(Debug, PartialEq, Eq)]
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pub enum DivisionError {
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NotDivisible(NotDivisibleError),
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@ -26,23 +24,35 @@ pub struct NotDivisibleError {
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// Calculate `a` divided by `b` if `a` is evenly divisible by `b`.
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// Otherwise, return a suitable error.
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pub fn divide(a: i32, b: i32) -> Result<i32, DivisionError> {
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todo!();
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if b == 0 {
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Err(DivisionError::DivideByZero)
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}
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else if a % b == 0 {
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Ok(a / b)
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} else {
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Err(DivisionError::NotDivisible(NotDivisibleError {
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dividend: a,
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divisor: b
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}))
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}
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}
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// Complete the function and return a value of the correct type so the test
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// passes.
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// Desired output: Ok([1, 11, 1426, 3])
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fn result_with_list() -> () {
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fn result_with_list() -> Result<Vec<i32>, DivisionError> {
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let numbers = vec![27, 297, 38502, 81];
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let division_results = numbers.into_iter().map(|n| divide(n, 27));
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let division_results: Result<Vec<_>, DivisionError> = numbers.into_iter().map(|n| divide(n, 27)).collect();
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division_results
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}
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// Complete the function and return a value of the correct type so the test
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// passes.
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// Desired output: [Ok(1), Ok(11), Ok(1426), Ok(3)]
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fn list_of_results() -> () {
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fn list_of_results() -> Vec<Result<i32, DivisionError>> {
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let numbers = vec![27, 297, 38502, 81];
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let division_results = numbers.into_iter().map(|n| divide(n, 27));
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let division_results: Vec<Result<_, DivisionError>> = numbers.into_iter().map(|n| divide(n, 27)).collect();
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division_results
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}
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#[cfg(test)]
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@ -3,8 +3,6 @@
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// Execute `rustlings hint iterators4` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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pub fn factorial(num: u64) -> u64 {
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// Complete this function to return the factorial of num
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// Do not use:
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@ -15,6 +13,7 @@ pub fn factorial(num: u64) -> u64 {
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// For an extra challenge, don't use:
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// - recursion
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// Execute `rustlings hint iterators4` for hints.
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if num == 0 { 1 } else { (1..=num).fold(1, |acc, v| acc * v) }
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}
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#[cfg(test)]
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@ -10,12 +10,10 @@
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// Execute `rustlings hint tests1` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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#[cfg(test)]
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mod tests {
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#[test]
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fn you_can_assert() {
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assert!();
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assert!(1 == 1);
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}
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}
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@ -6,12 +6,10 @@
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// Execute `rustlings hint tests2` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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#[cfg(test)]
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mod tests {
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#[test]
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fn you_can_assert_eq() {
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assert_eq!();
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assert_eq!(1, 1);
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}
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}
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@ -7,8 +7,6 @@
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// Execute `rustlings hint tests3` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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pub fn is_even(num: i32) -> bool {
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num % 2 == 0
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}
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@ -19,11 +17,11 @@ mod tests {
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#[test]
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fn is_true_when_even() {
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assert!();
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assert!(is_even(2));
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}
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#[test]
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fn is_false_when_odd() {
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assert!();
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assert!(!is_even(3));
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}
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}
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@ -5,8 +5,6 @@
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// Execute `rustlings hint tests4` or use the `hint` watch subcommand for a
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// hint.
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// I AM NOT DONE
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struct Rectangle {
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width: i32,
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height: i32
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@ -30,17 +28,19 @@ mod tests {
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fn correct_width_and_height() {
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// This test should check if the rectangle is the size that we pass into its constructor
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let rect = Rectangle::new(10, 20);
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assert_eq!(???, 10); // check width
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assert_eq!(???, 20); // check height
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assert_eq!(rect.width, 10); // check width
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assert_eq!(rect.height, 20); // check height
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}
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#[test]
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#[should_panic]
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fn negative_width() {
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// This test should check if program panics when we try to create rectangle with negative width
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let _rect = Rectangle::new(-10, 10);
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}
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#[test]
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#[should_panic]
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fn negative_height() {
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// This test should check if program panics when we try to create rectangle with negative height
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let _rect = Rectangle::new(10, -10);
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