chore: Alter whitespace for consistency

* Add newline after "I AM DONE" in exercises for consistency
* Remove trailing whitespace from exercises
This commit is contained in:
Benjamin Jones 2020-07-10 19:01:38 -07:00 committed by Benjamin Jones
parent 106dbbc341
commit bb5f404e35
10 changed files with 34 additions and 29 deletions

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@ -3,6 +3,7 @@
// and https://doc.rust-lang.org/std/convert/trait.AsMut.html, respectively. // and https://doc.rust-lang.org/std/convert/trait.AsMut.html, respectively.
// I AM NOT DONE // I AM NOT DONE
// Obtain the number of bytes (not characters) in the given argument // Obtain the number of bytes (not characters) in the given argument
// Add the AsRef trait appropriately as a trait bound // Add the AsRef trait appropriately as a trait bound
fn byte_counter<T>(arg: T) -> usize { fn byte_counter<T>(arg: T) -> usize {

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@ -18,7 +18,6 @@ impl Default for Person {
} }
} }
// I AM NOT DONE
// Your task is to complete this implementation // Your task is to complete this implementation
// in order for the line `let p = Person::from("Mark,20")` to compile // in order for the line `let p = Person::from("Mark,20")` to compile
// Please note that you'll need to parse the age component into a `usize` // Please note that you'll need to parse the age component into a `usize`
@ -33,6 +32,9 @@ impl Default for Person {
// 5. Extract the other element from the split operation and parse it into a `usize` as the age // 5. Extract the other element from the split operation and parse it into a `usize` as the age
// If while parsing the age, something goes wrong, then return the default of Person // If while parsing the age, something goes wrong, then return the default of Person
// Otherwise, then return an instantiated Person object with the results // Otherwise, then return an instantiated Person object with the results
// I AM NOT DONE
impl From<&str> for Person { impl From<&str> for Person {
fn from(s: &str) -> Person { fn from(s: &str) -> Person {
} }

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@ -1,9 +1,11 @@
// Type casting in Rust is done via the usage of the `as` operator. // Type casting in Rust is done via the usage of the `as` operator.
// Please note that the `as` operator is not only used when type casting. // Please note that the `as` operator is not only used when type casting.
// It also helps with renaming imports. // It also helps with renaming imports.
//
// The goal is to make sure that the division does not fail to compile
// I AM NOT DONE // I AM NOT DONE
// The goal is to make sure that the division does not fail to compile
fn average(values: &[f64]) -> f64 { fn average(values: &[f64]) -> f64 {
let total = values let total = values
.iter() .iter()
@ -14,4 +16,4 @@ fn average(values: &[f64]) -> f64 {
fn main() { fn main() {
let values = [3.5, 0.3, 13.0, 11.7]; let values = [3.5, 0.3, 13.0, 11.7];
println!("{}", average(&values)); println!("{}", average(&values));
} }

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@ -1,4 +1,4 @@
// This shopping list program isn't compiling! // This shopping list program isn't compiling!
// Use your knowledge of generics to fix it. // Use your knowledge of generics to fix it.
// I AM NOT DONE // I AM NOT DONE

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@ -2,6 +2,7 @@
// Rewrite it using generics so that it supports wrapping ANY type. // Rewrite it using generics so that it supports wrapping ANY type.
// I AM NOT DONE // I AM NOT DONE
struct Wrapper { struct Wrapper {
value: u32 value: u32
} }
@ -18,11 +19,11 @@ mod tests {
#[test] #[test]
fn store_u32_in_wrapper() { fn store_u32_in_wrapper() {
assert_eq!(Wrapper::new(42).value, 42); assert_eq!(Wrapper::new(42).value, 42);
} }
#[test] #[test]
fn store_str_in_wrapper() { fn store_str_in_wrapper() {
assert_eq!(Wrapper::new("Foo").value, "Foo"); assert_eq!(Wrapper::new("Foo").value, "Foo");
} }
} }

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@ -1,13 +1,14 @@
// An imaginary magical school has a new report card generation system written in Rust! // An imaginary magical school has a new report card generation system written in Rust!
// Currently the system only supports creating report cards where the student's grade // Currently the system only supports creating report cards where the student's grade
// is represented numerically (e.g. 1.0 -> 5.5). // is represented numerically (e.g. 1.0 -> 5.5).
// However, the school also issues alphabetical grades (A+ -> F-) and needs // However, the school also issues alphabetical grades (A+ -> F-) and needs
// to be able to print both types of report card! // to be able to print both types of report card!
// Make the necessary code changes to support alphabetical report cards, thereby making // Make the necessary code changes to support alphabetical report cards, thereby making
// the second test pass. // the second test pass.
// I AM NOT DONE // I AM NOT DONE
pub struct ReportCard { pub struct ReportCard {
pub grade: f32, pub grade: f32,
pub student_name: String, pub student_name: String,
@ -16,7 +17,7 @@ pub struct ReportCard {
impl ReportCard { impl ReportCard {
pub fn print(&self) -> String { pub fn print(&self) -> String {
format!("{} ({}) - achieved a grade of {}", format!("{} ({}) - achieved a grade of {}",
&self.student_name, &self.student_age, &self.grade) &self.student_name, &self.student_age, &self.grade)
} }
} }
@ -28,8 +29,8 @@ mod tests {
#[test] #[test]
fn generate_numeric_report_card() { fn generate_numeric_report_card() {
let report_card = ReportCard { let report_card = ReportCard {
grade: 2.1, grade: 2.1,
student_name: "Tom Wriggle".to_string(), student_name: "Tom Wriggle".to_string(),
student_age: 12, student_age: 12,
}; };
assert_eq!(report_card.print(), "Tom Wriggle (12) - achieved a grade of 2.1"); assert_eq!(report_card.print(), "Tom Wriggle (12) - achieved a grade of 2.1");
@ -39,10 +40,10 @@ mod tests {
fn generate_alphabetic_report_card() { fn generate_alphabetic_report_card() {
// TODO: Make sure to change the grade here after you finish the exercise. // TODO: Make sure to change the grade here after you finish the exercise.
let report_card = ReportCard { let report_card = ReportCard {
grade: 2.1, grade: 2.1,
student_name: "Gary Plotter".to_string(), student_name: "Gary Plotter".to_string(),
student_age: 11, student_age: 11,
}; };
assert_eq!(report_card.print(), "Gary Plotter (11) - achieved a grade of A+"); assert_eq!(report_card.print(), "Gary Plotter (11) - achieved a grade of A+");
} }
} }

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@ -1,5 +1,5 @@
// primitive_types3.rs // primitive_types3.rs
// Create an array with at least 100 elements in it where the ??? is. // Create an array with at least 100 elements in it where the ??? is.
// Execute `rustlings hint primitive_types3` for hints! // Execute `rustlings hint primitive_types3` for hints!
// I AM NOT DONE // I AM NOT DONE

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@ -47,7 +47,7 @@ mod tests {
fn create_international_package() { fn create_international_package() {
let sender_country = String::from("Spain"); let sender_country = String::from("Spain");
let recipient_country = String::from("Russia"); let recipient_country = String::from("Russia");
let package = Package::new(sender_country, recipient_country, 1200); let package = Package::new(sender_country, recipient_country, 1200);
assert!(package.is_international()); assert!(package.is_international());
@ -59,9 +59,9 @@ mod tests {
let recipient_country = String::from("Spain"); let recipient_country = String::from("Spain");
let cents_per_kg = ???; let cents_per_kg = ???;
let package = Package::new(sender_country, recipient_country, 1500); let package = Package::new(sender_country, recipient_country, 1500);
assert_eq!(package.get_fees(cents_per_kg), 4500); assert_eq!(package.get_fees(cents_per_kg), 4500);
} }
} }

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@ -1,21 +1,21 @@
// traits1.rs // traits1.rs
// Time to implement some traits! // Time to implement some traits!
// //
// Your task is to implement the trait // Your task is to implement the trait
// `AppendBar' for the type `String'. // `AppendBar' for the type `String'.
// //
// The trait AppendBar has only one function, // The trait AppendBar has only one function,
// which appends "Bar" to any object // which appends "Bar" to any object
// implementing this trait. // implementing this trait.
// I AM NOT DONE // I AM NOT DONE
trait AppendBar { trait AppendBar {
fn append_bar(self) -> Self; fn append_bar(self) -> Self;
} }
impl AppendBar for String { impl AppendBar for String {
//Add your code here //Add your code here
} }
fn main() { fn main() {
@ -40,5 +40,4 @@ mod tests {
String::from("BarBar") String::from("BarBar")
); );
} }
}
}

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@ -1,12 +1,12 @@
// traits2.rs // traits2.rs
// //
// Your task is to implement the trait // Your task is to implement the trait
// `AppendBar' for a vector of strings. // `AppendBar' for a vector of strings.
// //
// To implement this trait, consider for // To implement this trait, consider for
// a moment what it means to 'append "Bar"' // a moment what it means to 'append "Bar"'
// to a vector of strings. // to a vector of strings.
// //
// No boiler plate code this time, // No boiler plate code this time,
// you can do this! // you can do this!
@ -31,5 +31,4 @@ mod tests {
assert_eq!(foo.pop().unwrap(), String::from("Bar")); assert_eq!(foo.pop().unwrap(), String::from("Bar"));
assert_eq!(foo.pop().unwrap(), String::from("Foo")); assert_eq!(foo.pop().unwrap(), String::from("Foo"));
} }
} }