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errors5 solution
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@ -1,38 +1,18 @@
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// This program uses an altered version of the code from errors4.
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//
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// This exercise uses some concepts that we won't get to until later in the
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// course, like `Box` and the `From` trait. It's not important to understand
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// them in detail right now, but you can read ahead if you like. For now, think
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// of the `Box<dyn ???>` type as an "I want anything that does ???" type, which,
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// given Rust's usual standards for runtime safety, should strike you as
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// somewhat lenient!
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// This exercise is an altered version of the `errors4` exercise. It uses some
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// concepts that we won't get to until later in the course, like `Box` and the
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// `From` trait. It's not important to understand them in detail right now, but
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// you can read ahead if you like. For now, think of the `Box<dyn ???>` type as
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// an "I want anything that does ???" type.
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//
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// In short, this particular use case for boxes is for when you want to own a
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// value and you care only that it is a type which implements a particular
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// trait. To do so, The Box is declared as of type Box<dyn Trait> where Trait is
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// the trait the compiler looks for on any value used in that context. For this
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// exercise, that context is the potential errors which can be returned in a
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// Result.
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//
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// What can we use to describe both errors? In other words, is there a trait
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// which both errors implement?
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// trait. To do so, The `Box` is declared as of type `Box<dyn Trait>` where
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// `Trait` is the trait the compiler looks for on any value used in that
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// context. For this exercise, that context is the potential errors which
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// can be returned in a `Result`.
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use std::error;
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use std::error::Error;
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use std::fmt;
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use std::num::ParseIntError;
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// TODO: update the return type of `main()` to make this compile.
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fn main() -> Result<(), Box<dyn ???>> {
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let pretend_user_input = "42";
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let x: i64 = pretend_user_input.parse()?;
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println!("output={:?}", PositiveNonzeroInteger::new(x)?);
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Ok(())
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}
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// Don't change anything below this line.
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#[derive(PartialEq, Debug)]
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struct PositiveNonzeroInteger(u64);
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#[derive(PartialEq, Debug)]
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enum CreationError {
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@ -40,17 +20,7 @@ enum CreationError {
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Zero,
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}
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impl PositiveNonzeroInteger {
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fn new(value: i64) -> Result<PositiveNonzeroInteger, CreationError> {
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match value {
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x if x < 0 => Err(CreationError::Negative),
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x if x == 0 => Err(CreationError::Zero),
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x => Ok(PositiveNonzeroInteger(x as u64)),
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}
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}
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}
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// This is required so that `CreationError` can implement `error::Error`.
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// This is required so that `CreationError` can implement `Error`.
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impl fmt::Display for CreationError {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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let description = match *self {
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@ -61,4 +31,26 @@ impl fmt::Display for CreationError {
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}
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}
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impl error::Error for CreationError {}
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impl Error for CreationError {}
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#[derive(PartialEq, Debug)]
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struct PositiveNonzeroInteger(u64);
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impl PositiveNonzeroInteger {
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fn new(value: i64) -> Result<PositiveNonzeroInteger, CreationError> {
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match value {
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0 => Err(CreationError::Zero),
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x if x < 0 => Err(CreationError::Negative),
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x => Ok(PositiveNonzeroInteger(x as u64)),
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}
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}
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}
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// TODO: Add the correct return type `Result<(), Box<dyn ???>>`. What can we
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// use to describe both errors? Is there a trait which both errors implement?
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fn main() {
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let pretend_user_input = "42";
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let x: i64 = pretend_user_input.parse()?;
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println!("output={:?}", PositiveNonzeroInteger::new(x)?);
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Ok(())
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}
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@ -692,24 +692,23 @@ name = "errors5"
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dir = "13_error_handling"
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test = false
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hint = """
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There are two different possible `Result` types produced within `main()`, which
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are propagated using `?` operators. How do we declare a return type from
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`main()` that allows both?
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There are two different possible `Result` types produced within the `main`
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function, which are propagated using the `?` operators. How do we declare a
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return type for the `main` function that allows both?
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Under the hood, the `?` operator calls `From::from` on the error value to
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convert it to a boxed trait object, a `Box<dyn error::Error>`. This boxed trait
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object is polymorphic, and since all errors implement the `error::Error` trait,
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we can capture lots of different errors in one "Box" object.
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convert it to a boxed trait object, a `Box<dyn Error>`. This boxed trait object
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is polymorphic, and since all errors implement the `Error` trait, we can capture
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lots of different errors in one `Box` object.
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Check out this section of the book:
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Check out this section of The Book:
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https://doc.rust-lang.org/book/ch09-02-recoverable-errors-with-result.html#a-shortcut-for-propagating-errors-the--operator
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Read more about boxing errors:
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https://doc.rust-lang.org/stable/rust-by-example/error/multiple_error_types/boxing_errors.html
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Read more about using the `?` operator with boxed errors:
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https://doc.rust-lang.org/stable/rust-by-example/error/multiple_error_types/reenter_question_mark.html
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"""
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https://doc.rust-lang.org/stable/rust-by-example/error/multiple_error_types/reenter_question_mark.html"""
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[[exercises]]
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name = "errors6"
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@ -1 +1,54 @@
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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 is an altered version of the `errors4` exercise. It uses some
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// concepts that we won't get to until later in the course, like `Box` and the
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// `From` trait. It's not important to understand them in detail right now, but
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// you can read ahead if you like. For now, think of the `Box<dyn ???>` type as
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// an "I want anything that does ???" type.
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//
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// In short, this particular use case for boxes is for when you want to own a
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// value and you care only that it is a type which implements a particular
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// trait. To do so, The `Box` is declared as of type `Box<dyn Trait>` where
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// `Trait` is the trait the compiler looks for on any value used in that
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// context. For this exercise, that context is the potential errors which
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// can be returned in a `Result`.
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use std::error::Error;
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use std::fmt;
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#[derive(PartialEq, Debug)]
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enum CreationError {
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Negative,
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Zero,
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}
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// This is required so that `CreationError` can implement `Error`.
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impl fmt::Display for CreationError {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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let description = match *self {
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CreationError::Negative => "number is negative",
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CreationError::Zero => "number is zero",
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};
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f.write_str(description)
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}
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}
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impl Error for CreationError {}
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#[derive(PartialEq, Debug)]
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struct PositiveNonzeroInteger(u64);
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impl PositiveNonzeroInteger {
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fn new(value: i64) -> Result<PositiveNonzeroInteger, CreationError> {
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match value {
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x if x < 0 => Err(CreationError::Negative),
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0 => Err(CreationError::Zero),
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x => Ok(PositiveNonzeroInteger(x as u64)),
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}
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}
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}
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fn main() -> Result<(), Box<dyn Error>> {
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let pretend_user_input = "42";
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let x: i64 = pretend_user_input.parse()?;
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println!("output={:?}", PositiveNonzeroInteger::new(x)?);
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Ok(())
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}
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