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cow1 solution
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@ -1,24 +1,18 @@
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// This exercise explores the Cow, or Clone-On-Write type. Cow is a
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// clone-on-write smart pointer. It can enclose and provide immutable access to
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// borrowed data, and clone the data lazily when mutation or ownership is
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// required. The type is designed to work with general borrowed data via the
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// Borrow trait.
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//
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// This exercise is meant to show you what to expect when passing data to Cow.
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// Fix the unit tests by checking for Cow::Owned(_) and Cow::Borrowed(_) at the
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// TODO markers.
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// This exercise explores the `Cow` (Clone-On-Write) smart pointer. It can
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// enclose and provide immutable access to borrowed data and clone the data
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// lazily when mutation or ownership is required. The type is designed to work
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// with general borrowed data via the `Borrow` trait.
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use std::borrow::Cow;
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fn abs_all<'a, 'b>(input: &'a mut Cow<'b, [i32]>) -> &'a mut Cow<'b, [i32]> {
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for i in 0..input.len() {
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let v = input[i];
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if v < 0 {
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fn abs_all(input: &mut Cow<[i32]>) {
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for ind in 0..input.len() {
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let value = input[ind];
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if value < 0 {
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// Clones into a vector if not already owned.
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input.to_mut()[i] = -v;
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input.to_mut()[ind] = -value;
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}
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}
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input
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}
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fn main() {
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@ -30,47 +24,45 @@ mod tests {
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use super::*;
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#[test]
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fn reference_mutation() -> Result<(), &'static str> {
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fn reference_mutation() {
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// Clone occurs because `input` needs to be mutated.
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let slice = [-1, 0, 1];
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let mut input = Cow::from(&slice[..]);
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match abs_all(&mut input) {
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Cow::Owned(_) => Ok(()),
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_ => Err("Expected owned value"),
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}
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let vec = vec![-1, 0, 1];
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let mut input = Cow::from(&vec);
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abs_all(&mut input);
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assert!(matches!(input, Cow::Owned(_)));
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}
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#[test]
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fn reference_no_mutation() -> Result<(), &'static str> {
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fn reference_no_mutation() {
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// No clone occurs because `input` doesn't need to be mutated.
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let slice = [0, 1, 2];
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let mut input = Cow::from(&slice[..]);
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match abs_all(&mut input) {
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// TODO
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}
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let vec = vec![0, 1, 2];
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let mut input = Cow::from(&vec);
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abs_all(&mut input);
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// TODO: Replace `todo!()` with `Cow::Owned(_)` or `Cow::Borrowed(_)`.
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assert!(matches!(input, todo!()));
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}
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#[test]
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fn owned_no_mutation() -> Result<(), &'static str> {
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// We can also pass `slice` without `&` so Cow owns it directly. In this
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// case no mutation occurs and thus also no clone, but the result is
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fn owned_no_mutation() {
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// We can also pass `vec` without `&` so `Cow` owns it directly. In this
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// case, no mutation occurs and thus also no clone. But the result is
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// still owned because it was never borrowed or mutated.
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let slice = vec![0, 1, 2];
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let mut input = Cow::from(slice);
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match abs_all(&mut input) {
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// TODO
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}
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let vec = vec![0, 1, 2];
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let mut input = Cow::from(vec);
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abs_all(&mut input);
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// TODO: Replace `todo!()` with `Cow::Owned(_)` or `Cow::Borrowed(_)`.
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assert!(matches!(input, todo!()));
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}
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#[test]
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fn owned_mutation() -> Result<(), &'static str> {
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fn owned_mutation() {
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// Of course this is also the case if a mutation does occur. In this
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// case the call to `to_mut()` in the abs_all() function returns a
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// case, the call to `to_mut()` in the `abs_all` function returns a
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// reference to the same data as before.
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let slice = vec![-1, 0, 1];
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let mut input = Cow::from(slice);
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match abs_all(&mut input) {
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// TODO
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}
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let vec = vec![-1, 0, 1];
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let mut input = Cow::from(vec);
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abs_all(&mut input);
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// TODO: Replace `todo!()` with `Cow::Owned(_)` or `Cow::Borrowed(_)`.
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assert!(matches!(input, todo!()));
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}
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}
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@ -1020,11 +1020,11 @@ https://doc.rust-lang.org/stable/book/ch16-00-concurrency.html"""
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name = "cow1"
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dir = "19_smart_pointers"
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hint = """
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If `Cow` already owns the data it doesn't need to clone it when `to_mut()` is
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If `Cow` already owns the data, it doesn't need to clone it when `to_mut()` is
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called.
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Check out https://doc.rust-lang.org/std/borrow/enum.Cow.html for documentation
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on the `Cow` type."""
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Check out the documentation of the `Cow` type:
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https://doc.rust-lang.org/std/borrow/enum.Cow.html"""
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# THREADS
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@ -1 +1,68 @@
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// Solutions will be available before the stable release. Thank you for testing the beta version 🥰
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// This exercise explores the `Cow` (Clone-On-Write) smart pointer. It can
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// enclose and provide immutable access to borrowed data and clone the data
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// lazily when mutation or ownership is required. The type is designed to work
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// with general borrowed data via the `Borrow` trait.
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use std::borrow::Cow;
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fn abs_all(input: &mut Cow<[i32]>) {
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for ind in 0..input.len() {
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let value = input[ind];
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if value < 0 {
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// Clones into a vector if not already owned.
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input.to_mut()[ind] = -value;
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}
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}
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}
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fn main() {
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// You can optionally experiment here.
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn reference_mutation() {
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// Clone occurs because `input` needs to be mutated.
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let vec = vec![-1, 0, 1];
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let mut input = Cow::from(&vec);
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abs_all(&mut input);
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assert!(matches!(input, Cow::Owned(_)));
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}
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#[test]
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fn reference_no_mutation() {
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// No clone occurs because `input` doesn't need to be mutated.
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let vec = vec![0, 1, 2];
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let mut input = Cow::from(&vec);
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abs_all(&mut input);
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assert!(matches!(input, Cow::Borrowed(_)));
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// ^^^^^^^^^^^^^^^^
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}
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#[test]
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fn owned_no_mutation() {
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// We can also pass `vec` without `&` so `Cow` owns it directly. In this
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// case, no mutation occurs and thus also no clone. But the result is
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// still owned because it was never borrowed or mutated.
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let vec = vec![0, 1, 2];
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let mut input = Cow::from(vec);
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abs_all(&mut input);
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assert!(matches!(input, Cow::Owned(_)));
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// ^^^^^^^^^^^^^
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}
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#[test]
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fn owned_mutation() {
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// Of course this is also the case if a mutation does occur. In this
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// case, the call to `to_mut()` in the `abs_all` function returns a
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// reference to the same data as before.
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let vec = vec![-1, 0, 1];
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let mut input = Cow::from(vec);
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abs_all(&mut input);
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assert!(matches!(input, Cow::Owned(_)));
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// ^^^^^^^^^^^^^
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}
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}
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