Incorporate ConnyOnny's iterator exercise!
- Deciding not to have solutions in the tree right now, until I figure out a more general way to handle that. - The assertions work really great as tests, actually! - Simplifying a few of the side points-- I think they deserve their own exercises :)
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@ -108,6 +108,14 @@ The [Concurrency](https://doc.rust-lang.org/stable/book/concurrency.html) sectio
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- ["arc1.rs"](http://play.rust-lang.org/?code=%2F%2F+Make+this+code+compile+by+filling+in+a+value+for+%60shared_numbers%60+where+the%0A%2F%2F+TODO+comment+is+and+creating+an+initial+binding+for+%60child_numbers%60%0A%2F%2F+somewhere.+Try+not+to+create+any+copies+of+the+%60numbers%60+Vec%21%0A%2F%2F+Scroll+down+for+hints+%3A%29%0A%0Ause+std%3A%3Async%3A%3AArc%3B%0Ause+std%3A%3Athread%3B%0A%0Afn+main%28%29+%7B%0A++++let+numbers%3A+Vec%3C_%3E+%3D+%280..100u32%29.collect%28%29%3B%0A++++let+shared_numbers+%3D+%2F%2F+TODO%0A++++let+mut+joinhandles+%3D+Vec%3A%3Anew%28%29%3B%0A%0A++++for+offset+in+0..8+%7B%0A++++++++joinhandles.push%28%0A++++++++thread%3A%3Aspawn%28move+%7C%7C+%7B%0A++++++++++++let+mut+i+%3D+offset%3B%0A++++++++++++let+mut+sum+%3D+0%3B%0A++++++++++++while+i+%3C+child_numbers.len%28%29+%7B%0A++++++++++++++++sum+%2B%3D+child_numbers%5Bi%5D%3B%0A++++++++++++++++i+%2B%3D+5%3B%0A++++++++++++%7D%0A++++++++++++println%21%28%22Sum+of+offset+%7B%7D+is+%7B%7D%22%2C+offset%2C+sum%29%3B%0A++++++++%7D%29%29%3B%0A++++%7D%0A++++for+handle+in+joinhandles.into_iter%28%29+%7B%0A++++++++handle.join%28%29.unwrap%28%29%3B%0A++++%7D%0A%7D%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%2F%2F+Make+%60shared_numbers%60+be+an+%60Arc%60+from+the+numbers+vector.+Then%2C+in+order%0A%2F%2F+to+avoid+creating+a+copy+of+%60numbers%60%2C+you%27ll+need+to+create+%60child_numbers%60%0A%2F%2F+inside+the+loop+but+still+in+the+main+thread.%0A%0A%2F%2F+%60child_numbers%60+should+be+a+clone+of+the+Arc+of+the+numbers+instead+of+a%0A%2F%2F+thread-local+copy+of+the+numbers.%0A)
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#### Iterators
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Do not adjust your monitors-- iterators 1 and 2 are indeed missing. Iterator 3 is a bit challenging so we're leaving space for some exercises to lead up to it!
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Check out the [Iterators chapter of the book](https://doc.rust-lang.org/stable/book/iterators.html) and the [Iterator docs](http://doc.rust-lang.org/stable/std/iter/trait.Iterator.html).
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- ["iterator3.rs"](http://play.rust-lang.org/?code=%2F%2F+This+is+a+bigger+exercise+than+most+of+the+others%21+You+can+do+it%21%0A%2F%2F+Here+is+your+mission%2C+should+you+choose+to+accept+it%3A%0A%2F%2F+1.+Complete+the+divide+function+to+get+the+first+four+tests+to+pass%0A%2F%2F+2.+Uncomment+the+last+two+tests+and+get+them+to+pass+by+filling+in%0A%2F%2F++++values+for+%60x%60+using+%60division_results%60.%0A%2F%2F+Scroll+down+for+a+minor+hint+for+part+2%2C+and+scroll+down+further+for%0A%2F%2F+a+major+hint.%0A%2F%2F+Have+fun+%3A-%29%0A%0A%23%5Bderive%28Debug%2C+PartialEq%2C+Eq%29%5D%0Apub+enum+DivisionError+%7B%0A++++NotDivisible%28NotDivisibleError%29%2C%0A++++DivideByZero%2C%0A%7D%0A%0A%23%5Bderive%28Debug%2C+PartialEq%2C+Eq%29%5D%0Apub+struct+NotDivisibleError+%7B%0A++++dividend%3A+i32%2C%0A++++divisor%3A+i32%2C%0A%7D%0A%0A%2F%2F+This+function+should+calculate+%60a%60+divided+by+%60b%60+if+%60a%60+is%0A%2F%2F+evenly+divisible+by+b.%0A%2F%2F+Otherwise%2C+it+should+return+a+suitable+error.%0Apub+fn+divide%28a%3A+i32%2C+b%3A+i32%29+-%3E+Result%3Ci32%2C+DivisionError%3E+%7B%0A%7D%0A%0A%23%5Bcfg%28test%29%5D%0Amod+tests+%7B%0A++++use+super%3A%3A*%3B%0A%0A++++%2F%2F+Tests+that+verify+your+%60divide%60+function+implementation%0A++++%23%5Btest%5D%0A++++fn+test_success%28%29+%7B%0A++++++++assert_eq%21%28divide%2881%2C+9%29%2C+Ok%289%29%29%3B%0A++++%7D%0A%0A++++%23%5Btest%5D%0A++++fn+test_not_divisible%28%29+%7B%0A++++++++assert_eq%21%28%0A++++++++++++divide%2881%2C+6%29%2C%0A++++++++++++Err%28DivisionError%3A%3ANotDivisible%28NotDivisibleError%7B%0A++++++++++++++++dividend%3A+81%2C%0A++++++++++++++++divisor%3A+6%0A++++++++++++%7D%29%29%0A++++++++%29%3B%0A++++%7D%0A%0A++++%23%5Btest%5D%0A++++fn+test_divide_by_0%28%29+%7B%0A++++++++assert_eq%21%28divide%2881%2C+0%29%2C+Err%28DivisionError%3A%3ADivideByZero%29%29%3B%0A++++%7D%0A%0A++++%23%5Btest%5D%0A++++fn+test_divide_0_by_something%28%29+%7B%0A++++++++assert_eq%21%28divide%280%2C+81%29%2C+Ok%280%29%29%3B%0A++++%7D%0A%0A++++%2F%2F+Iterator+exercises+using+your+%60divide%60+function%0A++++%2F*%0A++++%23%5Btest%5D%0A++++fn+result_with_list%28%29+%7B%0A++++++++let+numbers+%3D+vec%21%5B27%2C+297%2C+38502%2C+81%5D%3B%0A++++++++let+division_results+%3D+numbers.into_iter%28%29.map%28%7Cn%7C+divide%28n%2C+27%29%29%3B%0A++++++++let+x+%2F%2F...+Fill+in+here%21%0A++++++++assert_eq%21%28format%21%28%22%7B%3A%3F%7D%22%2C+x%29%2C+%22Ok%28%5B1%2C+11%2C+1426%2C+3%5D%29%22%29%3B%0A++++%7D%0A%0A++++%23%5Btest%5D%0A++++fn+list_of_results%28%29+%7B%0A++++++++let+numbers+%3D+vec%21%5B27%2C+297%2C+38502%2C+81%5D%3B%0A++++++++let+division_results+%3D+numbers.into_iter%28%29.map%28%7Cn%7C+divide%28n%2C+27%29%29%3B%0A++++++++let+x+%2F%2F...+Fill+in+here%21%0A++++++++assert_eq%21%28format%21%28%22%7B%3A%3F%7D%22%2C+x%29%2C+%22%5BOk%281%29%2C+Ok%2811%29%2C+Ok%281426%29%2C+Ok%283%29%5D%22%29%3B%0A++++%7D%0A++++*%2F%0A%7D%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%2F%2F+Minor+hint%3A+In+each+of+the+two+cases+in+the+match+in+main%2C+you+can+create+x+with+either+a+%27turbofish%27+or+by+hinting+the+type+of+x+to+the+compiler.+You+may+try+both.%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%0A%2F%2F+Major+hint%3A+Have+a+look+at+the+Iter+trait+and+at+the+explanation+of+its+collect+function.+Especially+the+part+about+Result+is+interesting.%0A)
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### Threads
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See [the Dining Philosophers example](https://doc.rust-lang.org/stable/book/dining-philosophers.html) and the [Concurrency Chapter](https://doc.rust-lang.org/stable/book/concurrency.html) from the book.
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@ -1,164 +0,0 @@
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// 1. Complete the divide function
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// 2. Uncomment and complete the second part of the main function
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// For part 2 there is a minor hint around line 100 and a major hint around line 128
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// There are some final comments for when you are done around line 150
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// Have fun :-)
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// In production code you would not derive Debug, but implement it manually to get a better error message.
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#[derive(Debug,PartialEq,Eq)]
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enum DivisionError {
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NotDivisible(NotDivisibleError),
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DivideByZero,
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}
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#[derive(Debug,PartialEq,Eq)]
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struct NotDivisibleError {
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divident: i32,
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divisor: i32,
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}
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// This function calculates a/b if a is divisible by b.
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// Otherwise it returns a suitable error.
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fn divide(a: i32, b: i32) -> Result<i32,DivisionError> {
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}
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#[allow(dead_code)]
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enum OperationMode {
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ListOfResults,
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ResultWithList,
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}
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fn main() {
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// These asserts check that your `divide` function works.
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// In production code these would be tests
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assert_eq!(divide(81,9),Ok(9));
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assert_eq!(divide(81,6),Err(DivisionError::NotDivisible(NotDivisibleError{divident:81,divisor:6})));
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assert_eq!(divide(81,0),Err(DivisionError::DivideByZero));
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assert_eq!(divide(0,81),Ok(0));
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println!("Your divide function seems to work! Good Job.");
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/* Second part of main. Uncomment to continue.
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// Don't change these numbers. It will break the assertions later in the code.
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let numbers = vec![27,297,38502,81];
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let division_results = // Do not convert the results into a Vec yet. Leave them iterable for now.
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let operation_mode = OperationMode::ResultWithList;
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match operation_mode {
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OperationMode::ResultWithList => {
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println!("{:?}", x);
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assert_eq!(format!("{:?}",x), "Ok([1, 11, 1426, 3])");
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},
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OperationMode::ListOfResults => {
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println!("{:?}", x);
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assert_eq!(format!("{:?}",x), "[Ok(1), Ok(11), Ok(1426), Ok(3)]");
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},
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}
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*/
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}
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// Minor hint: In each of the two cases in the match in main, you can create x with either a 'turbofish' or by hinting the type of x to the compiler. You may try both.
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// Major hint: Have a look at the Iter trait and at the explanation of its collect function. Especially the part about Result is interesting.
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// Final comments
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// When you call the function `print_result_with_list` with x, you don't need any type annotations on x anymore.
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// The compiler can infer its type through the function's input type.
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#[allow(dead_code)]
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// Don't use this function to solve the exercise
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fn print_result_with_list(r: Result<Vec<i32>,DivisionError>) {
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// side quest: why is there no semicolon in this function?
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match r {
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Ok(v) => println!("All numbers were successfully divided: {:?}", v),
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Err(e) => match e {
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DivisionError::NotDivisible(nde) => println!("Failed to divide {} by {}: Not divisible!", nde.divident, nde.divisor),
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DivisionError::DivideByZero => println!("Can't divide by zero"),
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},
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};
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}
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@ -1,68 +0,0 @@
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// In production code you would not derive Debug, but implement it manually to get a better error message.
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#[derive(Debug,PartialEq,Eq)]
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enum DivisionError {
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NotDivisible(NotDivisibleError),
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DivideByZero,
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}
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#[derive(Debug,PartialEq,Eq)]
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struct NotDivisibleError {
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divident: i32,
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divisor: i32,
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}
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// This function calculates a/b if a is divisible by b.
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// Otherwise it returns a suitable error.
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fn divide(a: i32, b: i32) -> Result<i32,DivisionError> {
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if b == 0 {
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return Err(DivisionError::DivideByZero);
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}
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match a % b {
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0 => Ok(a/b),
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_ => Err(DivisionError::NotDivisible(NotDivisibleError{divident:a, divisor:b})),
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}
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}
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#[allow(dead_code)]
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enum OperationMode {
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ListOfResults,
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ResultWithList,
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}
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#[allow(dead_code)]
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fn print_result_with_list(r: Result<Vec<i32>,DivisionError>) {
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// side quest: why is there no semicolon in this function?
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match r {
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Ok(v) => println!("All numbers were successfully divided: {:?}", v),
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Err(e) => match e {
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DivisionError::NotDivisible(nde) => println!("Failed to divide {} by {}: Not divisible!", nde.divident, nde.divisor),
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DivisionError::DivideByZero => println!("Can't divide by zero"),
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},
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};
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}
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fn main() {
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// These asserts check that your `divide` function works.
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// In production code these would be tests
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assert_eq!(divide(81,9),Ok(9));
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assert_eq!(divide(81,6),Err(DivisionError::NotDivisible(NotDivisibleError{divident:81,divisor:6})));
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assert_eq!(divide(81,0),Err(DivisionError::DivideByZero));
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println!("Your divide function seems to work! Good Job.");
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// Don't change these numbers. It will break the assertions later in the code.
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let numbers = vec![27,297,38502,81];
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let numbers_iterator = numbers.into_iter();
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let division_results = numbers_iterator.map(|n| divide(n, 27));
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let operation_mode = OperationMode::ResultWithList; // you may change this
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match operation_mode {
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OperationMode::ResultWithList => {
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let x : Result<Vec<_>,_> = division_results.collect();
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//print_result_with_list(x);
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assert_eq!(format!("{:?}",x), "Ok([1, 11, 1426, 3])");
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},
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OperationMode::ListOfResults => {
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let x : Vec<_> = division_results.collect();
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println!("{:?}", x);
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assert_eq!(format!("{:?}",x), "[Ok(1), Ok(11), Ok(1426), Ok(3)]");
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},
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}
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}
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144
standard_library_types/iterator3.rs
Normal file
144
standard_library_types/iterator3.rs
Normal file
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// This is a bigger exercise than most of the others! You can do it!
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// Here is your mission, should you choose to accept it:
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// 1. Complete the divide function to get the first four tests to pass
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// 2. Uncomment the last two tests and get them to pass by filling in
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// values for `x` using `division_results`.
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// Scroll down for a minor hint for part 2, and scroll down further for
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// a major hint.
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// Have fun :-)
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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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DivideByZero,
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}
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#[derive(Debug, PartialEq, Eq)]
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pub struct NotDivisibleError {
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dividend: i32,
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divisor: i32,
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}
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// This function should calculate `a` divided by `b` if `a` is
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// evenly divisible by b.
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// Otherwise, it should return a suitable error.
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pub fn divide(a: i32, b: i32) -> Result<i32, DivisionError> {
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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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// Tests that verify your `divide` function implementation
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#[test]
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fn test_success() {
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assert_eq!(divide(81, 9), Ok(9));
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}
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#[test]
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fn test_not_divisible() {
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assert_eq!(
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divide(81, 6),
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Err(DivisionError::NotDivisible(NotDivisibleError{
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dividend: 81,
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divisor: 6
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}))
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);
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}
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#[test]
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fn test_divide_by_0() {
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assert_eq!(divide(81, 0), Err(DivisionError::DivideByZero));
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}
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#[test]
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fn test_divide_0_by_something() {
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assert_eq!(divide(0, 81), Ok(0));
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}
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// Iterator exercises using your `divide` function
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/*
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#[test]
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fn result_with_list() {
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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 x //... Fill in here!
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assert_eq!(format!("{:?}", x), "Ok([1, 11, 1426, 3])");
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}
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#[test]
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fn list_of_results() {
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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 x //... Fill in here!
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assert_eq!(format!("{:?}", x), "[Ok(1), Ok(11), Ok(1426), Ok(3)]");
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}
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*/
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}
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// Minor hint: In each of the two cases in the match in main, you can create x with either a 'turbofish' or by hinting the type of x to the compiler. You may try both.
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// Major hint: Have a look at the Iter trait and at the explanation of its collect function. Especially the part about Result is interesting.
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Loading…
Reference in New Issue
Block a user