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finish rustlings 🦀

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Denis-Cosmin Nutiu 2024-11-12 22:08:21 +02:00
parent 4e473bac9d
commit c29661905d
8 changed files with 562 additions and 19 deletions
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7
.rustlings-state.txt
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@ -1,6 +1,6 @@
DON'T EDIT THIS FILE!
using_as
as_ref_mut
intro1
intro2
@ -91,3 +91,8 @@ macros4
clippy1
clippy2
clippy3
using_as
from_into
from_str
try_from_into
as_ref_mut

4
exercises/quizzes/quiz3.rs
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@ -13,14 +13,14 @@
use std::fmt::Display;
// TODO: Adjust the struct as described above.
// Adjust the struct as described above.
struct ReportCard<T> where T: Display {
grade: T,
student_name: String,
student_age: u8,
}
// TODO: Adjust the impl block as described above.
// Adjust the impl block as described above.
impl <T: Display>ReportCard<T> {
fn print(&self) -> String {
format!(

29
readme.md Normal file
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@ -0,0 +1,29 @@
# Rustlings
Rustlings is a project that contains small exercises to get you used to reading and writing Rust code!
This repo contains my solutions to the rustlings exercises, all 93/94 of them. ⭐
```bash
+----------------------------------------------------+
| You made it to the Fe-nish line! |
+-------------------------- ------------------------+
\/
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```

61
solutions/23_conversions/as_ref_mut.rs
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@ -1,4 +1,59 @@
fn main() {
// DON'T EDIT THIS SOLUTION FILE!
// It will be automatically filled after you finish the exercise.
// AsRef and AsMut allow for cheap reference-to-reference conversions. Read more
// about them at https://doc.rust-lang.org/std/convert/trait.AsRef.html and
// https://doc.rust-lang.org/std/convert/trait.AsMut.html, respectively.
// Obtain the number of bytes (not characters) in the given argument.
fn byte_counter<T: AsRef<str>>(arg: T) -> usize {
arg.as_ref().as_bytes().len()
}
// Obtain the number of characters (not bytes) in the given argument.
fn char_counter<T: AsRef<str>>(arg: T) -> usize {
arg.as_ref().chars().count()
}
// Squares a number using `as_mut()`.
fn num_sq<T: AsMut<u32>>(arg: &mut T) {
let arg = arg.as_mut();
*arg *= *arg;
}
fn main() {
// You can optionally experiment here.
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn different_counts() {
let s = "Café au lait";
assert_ne!(char_counter(s), byte_counter(s));
}
#[test]
fn same_counts() {
let s = "Cafe au lait";
assert_eq!(char_counter(s), byte_counter(s));
}
#[test]
fn different_counts_using_string() {
let s = String::from("Café au lait");
assert_ne!(char_counter(s.clone()), byte_counter(s));
}
#[test]
fn same_counts_using_string() {
let s = String::from("Cafe au lait");
assert_eq!(char_counter(s.clone()), byte_counter(s));
}
#[test]
fn mut_box() {
let mut num: Box<u32> = Box::new(3);
num_sq(&mut num);
assert_eq!(*num, 9);
}
}

138
solutions/23_conversions/from_into.rs
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@ -1,4 +1,136 @@
fn main() {
// DON'T EDIT THIS SOLUTION FILE!
// It will be automatically filled after you finish the exercise.
// The `From` trait is used for value-to-value conversions. If `From` is
// implemented, an implementation of `Into` is automatically provided.
// You can read more about it in the documentation:
// https://doc.rust-lang.org/std/convert/trait.From.html
#[derive(Debug)]
struct Person {
name: String,
age: u8,
}
// We implement the Default trait to use it as a fallback when the provided
// string is not convertible into a `Person` object.
impl Default for Person {
fn default() -> Self {
Self {
name: String::from("John"),
age: 30,
}
}
}
impl From<&str> for Person {
fn from(s: &str) -> Self {
let mut split = s.split(',');
let (Some(name), Some(age), None) = (split.next(), split.next(), split.next()) else {
// ^^^^ there should be no third element
return Self::default();
};
if name.is_empty() {
return Self::default();
}
let Ok(age) = age.parse() else {
return Self::default();
};
Self {
name: name.into(),
age,
}
}
}
fn main() {
// Use the `from` function.
let p1 = Person::from("Mark,20");
println!("{p1:?}");
// Since `From` is implemented for Person, we are able to use `Into`.
let p2: Person = "Gerald,70".into();
println!("{p2:?}");
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_default() {
let dp = Person::default();
assert_eq!(dp.name, "John");
assert_eq!(dp.age, 30);
}
#[test]
fn test_bad_convert() {
let p = Person::from("");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_good_convert() {
let p = Person::from("Mark,20");
assert_eq!(p.name, "Mark");
assert_eq!(p.age, 20);
}
#[test]
fn test_bad_age() {
let p = Person::from("Mark,twenty");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_missing_comma_and_age() {
let p: Person = Person::from("Mark");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_missing_age() {
let p: Person = Person::from("Mark,");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_missing_name() {
let p: Person = Person::from(",1");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_missing_name_and_age() {
let p: Person = Person::from(",");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_missing_name_and_invalid_age() {
let p: Person = Person::from(",one");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_trailing_comma() {
let p: Person = Person::from("Mike,32,");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
#[test]
fn test_trailing_comma_and_some_string() {
let p: Person = Person::from("Mike,32,dog");
assert_eq!(p.name, "John");
assert_eq!(p.age, 30);
}
}

119
solutions/23_conversions/from_str.rs
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@ -1,4 +1,117 @@
fn main() {
// DON'T EDIT THIS SOLUTION FILE!
// It will be automatically filled after you finish the exercise.
// This is similar to the previous `from_into` exercise. But this time, we'll
// implement `FromStr` and return errors instead of falling back to a default
// value. Additionally, upon implementing `FromStr`, you can use the `parse`
// method on strings to generate an object of the implementor type. You can read
// more about it in the documentation:
// https://doc.rust-lang.org/std/str/trait.FromStr.html
use std::num::ParseIntError;
use std::str::FromStr;
#[derive(Debug, PartialEq)]
struct Person {
name: String,
age: u8,
}
// We will use this error type for the `FromStr` implementation.
#[derive(Debug, PartialEq)]
enum ParsePersonError {
// Incorrect number of fields
BadLen,
// Empty name field
NoName,
// Wrapped error from parse::<u8>()
ParseInt(ParseIntError),
}
impl FromStr for Person {
type Err = ParsePersonError;
fn from_str(s: &str) -> Result<Self, Self::Err> {
let mut split = s.split(',');
let (Some(name), Some(age), None) = (split.next(), split.next(), split.next()) else {
// ^^^^ there should be no third element
return Err(ParsePersonError::BadLen);
};
if name.is_empty() {
return Err(ParsePersonError::NoName);
}
let age = age.parse().map_err(ParsePersonError::ParseInt)?;
Ok(Self {
name: name.into(),
age,
})
}
}
fn main() {
let p = "Mark,20".parse::<Person>();
println!("{p:?}");
}
#[cfg(test)]
mod tests {
use super::*;
use ParsePersonError::*;
#[test]
fn empty_input() {
assert_eq!("".parse::<Person>(), Err(BadLen));
}
#[test]
fn good_input() {
let p = "John,32".parse::<Person>();
assert!(p.is_ok());
let p = p.unwrap();
assert_eq!(p.name, "John");
assert_eq!(p.age, 32);
}
#[test]
fn missing_age() {
assert!(matches!("John,".parse::<Person>(), Err(ParseInt(_))));
}
#[test]
fn invalid_age() {
assert!(matches!("John,twenty".parse::<Person>(), Err(ParseInt(_))));
}
#[test]
fn missing_comma_and_age() {
assert_eq!("John".parse::<Person>(), Err(BadLen));
}
#[test]
fn missing_name() {
assert_eq!(",1".parse::<Person>(), Err(NoName));
}
#[test]
fn missing_name_and_age() {
assert!(matches!(",".parse::<Person>(), Err(NoName | ParseInt(_))));
}
#[test]
fn missing_name_and_invalid_age() {
assert!(matches!(
",one".parse::<Person>(),
Err(NoName | ParseInt(_)),
));
}
#[test]
fn trailing_comma() {
assert_eq!("John,32,".parse::<Person>(), Err(BadLen));
}
#[test]
fn trailing_comma_and_some_string() {
assert_eq!("John,32,man".parse::<Person>(), Err(BadLen));
}
}

195
solutions/23_conversions/try_from_into.rs
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@ -1,4 +1,193 @@
fn main() {
// DON'T EDIT THIS SOLUTION FILE!
// It will be automatically filled after you finish the exercise.
// `TryFrom` is a simple and safe type conversion that may fail in a controlled
// way under some circumstances. Basically, this is the same as `From`. The main
// difference is that this should return a `Result` type instead of the target
// type itself. You can read more about it in the documentation:
// https://doc.rust-lang.org/std/convert/trait.TryFrom.html
#![allow(clippy::useless_vec)]
use std::convert::{TryFrom, TryInto};
#[derive(Debug, PartialEq)]
struct Color {
red: u8,
green: u8,
blue: u8,
}
// We will use this error type for the `TryFrom` conversions.
#[derive(Debug, PartialEq)]
enum IntoColorError {
// Incorrect length of slice
BadLen,
// Integer conversion error
IntConversion,
}
impl TryFrom<(i16, i16, i16)> for Color {
type Error = IntoColorError;
fn try_from(tuple: (i16, i16, i16)) -> Result<Self, Self::Error> {
let (Ok(red), Ok(green), Ok(blue)) = (
u8::try_from(tuple.0),
u8::try_from(tuple.1),
u8::try_from(tuple.2),
) else {
return Err(IntoColorError::IntConversion);
};
Ok(Self { red, green, blue })
}
}
impl TryFrom<[i16; 3]> for Color {
type Error = IntoColorError;
fn try_from(arr: [i16; 3]) -> Result<Self, Self::Error> {
// Reuse the implementation for a tuple.
Self::try_from((arr[0], arr[1], arr[2]))
}
}
impl TryFrom<&[i16]> for Color {
type Error = IntoColorError;
fn try_from(slice: &[i16]) -> Result<Self, Self::Error> {
// Check the length.
if slice.len() != 3 {
return Err(IntoColorError::BadLen);
}
// Reuse the implementation for a tuple.
Self::try_from((slice[0], slice[1], slice[2]))
}
}
fn main() {
// Using the `try_from` function.
let c1 = Color::try_from((183, 65, 14));
println!("{c1:?}");
// Since `TryFrom` is implemented for `Color`, we can use `TryInto`.
let c2: Result<Color, _> = [183, 65, 14].try_into();
println!("{c2:?}");
let v = vec![183, 65, 14];
// With slice we should use the `try_from` function
let c3 = Color::try_from(&v[..]);
println!("{c3:?}");
// or put the slice within round brackets and use `try_into`.
let c4: Result<Color, _> = (&v[..]).try_into();
println!("{c4:?}");
}
#[cfg(test)]
mod tests {
use super::*;
use IntoColorError::*;
#[test]
fn test_tuple_out_of_range_positive() {
assert_eq!(Color::try_from((256, 1000, 10000)), Err(IntConversion));
}
#[test]
fn test_tuple_out_of_range_negative() {
assert_eq!(Color::try_from((-1, -10, -256)), Err(IntConversion));
}
#[test]
fn test_tuple_sum() {
assert_eq!(Color::try_from((-1, 255, 255)), Err(IntConversion));
}
#[test]
fn test_tuple_correct() {
let c: Result<Color, _> = (183, 65, 14).try_into();
assert!(c.is_ok());
assert_eq!(
c.unwrap(),
Color {
red: 183,
green: 65,
blue: 14,
}
);
}
#[test]
fn test_array_out_of_range_positive() {
let c: Result<Color, _> = [1000, 10000, 256].try_into();
assert_eq!(c, Err(IntConversion));
}
#[test]
fn test_array_out_of_range_negative() {
let c: Result<Color, _> = [-10, -256, -1].try_into();
assert_eq!(c, Err(IntConversion));
}
#[test]
fn test_array_sum() {
let c: Result<Color, _> = [-1, 255, 255].try_into();
assert_eq!(c, Err(IntConversion));
}
#[test]
fn test_array_correct() {
let c: Result<Color, _> = [183, 65, 14].try_into();
assert!(c.is_ok());
assert_eq!(
c.unwrap(),
Color {
red: 183,
green: 65,
blue: 14
}
);
}
#[test]
fn test_slice_out_of_range_positive() {
let arr = [10000, 256, 1000];
assert_eq!(Color::try_from(&arr[..]), Err(IntConversion));
}
#[test]
fn test_slice_out_of_range_negative() {
let arr = [-256, -1, -10];
assert_eq!(Color::try_from(&arr[..]), Err(IntConversion));
}
#[test]
fn test_slice_sum() {
let arr = [-1, 255, 255];
assert_eq!(Color::try_from(&arr[..]), Err(IntConversion));
}
#[test]
fn test_slice_correct() {
let v = vec![183, 65, 14];
let c: Result<Color, _> = Color::try_from(&v[..]);
assert!(c.is_ok());
assert_eq!(
c.unwrap(),
Color {
red: 183,
green: 65,
blue: 14,
}
);
}
#[test]
fn test_slice_excess_length() {
let v = vec![0, 0, 0, 0];
assert_eq!(Color::try_from(&v[..]), Err(BadLen));
}
#[test]
fn test_slice_insufficient_length() {
let v = vec![0, 0];
assert_eq!(Color::try_from(&v[..]), Err(BadLen));
}
}

26
solutions/23_conversions/using_as.rs
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@ -1,4 +1,24 @@
fn main() {
// DON'T EDIT THIS SOLUTION FILE!
// It will be automatically filled after you finish the exercise.
// Type casting in Rust is done via the usage of the `as` operator.
// Note that the `as` operator is not only used when type casting. It also helps
// with renaming imports.
fn average(values: &[f64]) -> f64 {
let total = values.iter().sum::<f64>();
total / values.len() as f64
// ^^^^^^
}
fn main() {
let values = [3.5, 0.3, 13.0, 11.7];
println!("{}", average(&values));
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn returns_proper_type_and_value() {
assert_eq!(average(&[3.5, 0.3, 13.0, 11.7]), 7.125);
}
}