X-Git-Url: https://git.ralfj.de/rust-101.git/blobdiff_plain/369875f931d841112dd2b6651fc968bb6c569cdb..98765a4ec4731843578d0631f5a10b5d876549f2:/src/part03.rs diff --git a/src/part03.rs b/src/part03.rs index 45caaec..3a35aa7 100644 --- a/src/part03.rs +++ b/src/part03.rs @@ -1,91 +1,97 @@ // Rust-101, Part 03: Input // ======================== -// In part 00, I promised that we would eventually replace `read_vec` by a function -// that actually asks the user to enter a bunch of numbers. Unfortunately, -// I/O is a complicated topic, so the code to do that is not exactly pretty - but well, -// let's get that behind us. +//@ In part 00, I promised that we would eventually replace `read_vec` by a function +//@ that actually asks the user to enter a bunch of numbers. Unfortunately, +//@ I/O is a complicated topic, so the code to do that is not exactly pretty - but well, +//@ let's get that behind us. -// I/O is provided by the module `std::io`, so we first import that. -// We also import the I/O *prelude*, which brings a bunch of commonly used I/O stuff +// I/O is provided by the module `std::io`, so we first have import that with `use`. +// We also import the I/O *prelude*, which makes a bunch of commonly used I/O stuff // directly available. use std::io::prelude::*; use std::io; -// Let's now go over this function line-by-line. First, we call the constructor of `Vec` -// to create an empty vector. As mentioned in the previous part, `new` here is just -// a static function with no special treatment. While it is possible to call `new` -// for a particular type (`Vec::::new()`), the common way to make sure we -// get the right type is to annotate a type at the *variable*. It is this variable -// that we interact with for the rest of the function, so having its type available -// (and visible!) is much more useful. Without knowing the return type of `Vec::new`, -// specifying its type parameter doesn't tell us all that much. +//@ Let's now go over this function line-by-line. First, we call the constructor of `Vec` +//@ to create an empty vector. As mentioned in the previous part, `new` here is just +//@ a static function with no special treatment. While it is possible to call `new` +//@ for a particular type (`Vec::::new()`), the common way to make sure we +//@ get the right type is to annotate a type at the *variable*. It is this variable +//@ that we interact with for the rest of the function, so having its type available +//@ (and visible!) is much more useful. Without knowing the return type of `Vec::new`, +//@ specifying its type parameter doesn't tell us all that much. fn read_vec() -> Vec { let mut vec: Vec = Vec::::new(); - // The central handle to the standard input is made available by `io::stdin()`. + // The central handle to the standard input is made available by the function `io::stdin`. let stdin = io::stdin(); - println!("Enter a list of numbers, one per line. End with Ctrl-D."); - // We would now like to iterate over standard input line-by-line. We can use a `for` loop - // for that, but there is a catch: What happens if there is some other piece of code running - // concurrently, that also reads from standard input? The result would be a mess. Hence - // Rust requires us to `lock()` standard input if we want to perform large operations on - // it. (See [the documentation](http://doc.rust-lang.org/stable/std/io/struct.Stdin.html) for more - // details.) + println!("Enter a list of numbers, one per line. End with Ctrl-D (Linux) or Ctrl-Z (Windows)."); + //@ We would now like to iterate over standard input line-by-line. We can use a `for` loop + //@ for that, but there is a catch: What happens if there is some other piece of code running + //@ concurrently, that also reads from standard input? The result would be a mess. Hence + //@ Rust requires us to `lock` standard input if we want to perform large operations on + //@ it. (See [the documentation](https://doc.rust-lang.org/stable/std/io/struct.Stdin.html) for more + //@ details.) for line in stdin.lock().lines() { // Rust's type for (dynamic, growable) strings is `String`. However, our variable `line` - // here is not yet of that type. The problem with I/O is that it can always go wrong, so - // `line` has type `io::Result`. This is a lot like `Option` ("a `String` or - // nothing"), but in the case of "nothing", there is additional information about the error. - // Again, I recommend to check [the documentation](http://doc.rust-lang.org/stable/std/io/type.Result.html). - // You will see that `io::Result` is actually just an alias for `Result`, so click on that to obtain - // the list of all constructors and methods of the type. + // here is not yet of that type: It has type `io::Result`. + //@ The problem with I/O is that it can always go wrong. The type of `line` is a lot like `Option` ("a `String` or + //@ nothing"), but in the case of "nothing", there is additional information about the error. + //@ Again, I recommend to check [the documentation](https://doc.rust-lang.org/stable/std/io/type.Result.html). + //@ You will see that `io::Result` is actually just an alias for `Result`, so click on that to obtain + //@ the list of all constructors and methods of the type. - // We will be lazy here and just assume that nothing goes wrong: `unwrap()` returns the `String` if there is one, - // and panics the program otherwise. Since a `Result` carries some details about the error that occurred, - // there will be a somewhat reasonable error message. Still, you would not want a user to see such - // an error, so in a "real" program, we would have to do proper error handling. - // Can you find the documentation of `Result::unwrap()`? - // + //@ We will be lazy here and just assume that nothing goes wrong: `unwrap` returns the `String` if there is one, + //@ and panics the program otherwise. Since a `Result` carries some details about the error that occurred, + //@ there will be a somewhat reasonable error message. Still, you would not want a user to see such + //@ an error, so in a "real" program, we would have to do proper error handling. + //@ Can you find the documentation of `Result::unwrap`? + //@ // I chose the same name (`line`) for the new variable to ensure that I will never, accidentally, // access the "old" `line` again. let line = line.unwrap(); - // Now that we have our `String`, we want to make it an `i32`. `parse` is a method on `String` that - // can convert a string to anything. Try finding it's documentation! + // Now that we have our `String`, we want to make it an `i32`. + //@ We first `trim` the `line` to remove leading and trailing whitespace. + //@ `parse` is a method on `String` that can convert a string to anything. Try finding it's documentation! - // In this case, Rust *could* figure out automatically that we need an `i32` (because of the return type - // of the function), but that's a bit too much magic for my taste. We are being more explicit here: - // `parse::` is `parse` with its generic type set to `i32`. - match line.parse::() { - // `parse` returns again a `Result`, and this time we use a `match` to handle errors (like, the user entering - // something that is not a number). - // This is a common pattern in Rust: Operations that could go wrong will return `Option` or `Result`. - // The only way to get to the value we are interested in is through pattern matching (and through helper functions - // like `unwrap()`). If we call a function that returns a `Result`, and throw the return value away, - // the compiler will emit a warning. It is hence impossible for us to *forget* handling an error, - // or to accidentally use a value that doesn't make any sense because there was an error producing it. - Ok(num) => vec.push(num), - Err(_) => println!("What did I say about numbers?"), + //@ In this case, Rust *could* figure out automatically that we need an `i32` (because of the return type + //@ of the function), but that's a bit too much magic for my taste. We are being more explicit here: + //@ `parse::` is `parse` with its generic type set to `i32`. + match line.trim().parse::() { + //@ `parse` returns again a `Result`, and this time we use a `match` to handle errors (like, the user entering + //@ something that is not a number). + //@ This is a common pattern in Rust: Operations that could go wrong will return `Option` or `Result`. + //@ The only way to get to the value we are interested in is through pattern matching (and through helper functions + //@ like `unwrap`). If we call a function that returns a `Result`, and throw the return value away, + //@ the compiler will emit a warning. It is hence impossible for us to *forget* handling an error, + //@ or to accidentally use a value that doesn't make any sense because there was an error producing it. + Ok(num) => { + vec.push(num) /*@*/ + }, + // We don't care about the particular error, so we ignore it with a `_`. + Err(_) => { + println!("What did I say about numbers?") /*@*/ + }, } } vec } -// So much for `read_vec`. If there are any questions left, the documentation of the respective function -// should be very helpful. Try finding the one for `Vec::push`. I will not always provide the links, -// as the documentation is quite easy to navigate and you should get used to that. +//@ So much for `read_vec`. If there are any questions left, the documentation of the respective function +//@ should be very helpful. Try finding the one for `Vec::push`. I will not always provide the links, +//@ as the documentation is quite easy to navigate and you should get used to that. // For the rest of the code, we just re-use part 02 by importing it with `use`. -// I already sneaked a bunch of `pub` in part 02 to make this possible: Only -// items declared public can be imported elsewhere. +//@ I already sneaked a bunch of `pub` in part 02 to make this possible: Only +//@ items declared public can be imported elsewhere. use part02::{SomethingOrNothing,Something,Nothing,vec_min}; // If you update your `main.rs` to use part 03, `cargo run` should now ask you for some numbers, // and tell you the minimum. Neat, isn't it? pub fn main() { let vec = read_vec(); - let min = vec_min(vec); - min.print(); + let min = vec_min(vec); /*@*/ + min.print(); /*@*/ } // **Exercise 03.1**: Define a trait `Print` to write a generic version of `SomethingOrNothing::print`. @@ -98,7 +104,7 @@ pub fn main() { // Notice that I called the function on `SomethingOrNothing` `print2` to disambiguate from the `print` defined previously. // // *Hint*: There is a macro `print!` for printing without appending a newline. -trait Print { +pub trait Print { /* Add things here */ } impl SomethingOrNothing { @@ -107,4 +113,7 @@ impl SomethingOrNothing { } } -// [index](main.html) | [previous](part02.html) | [next](part04.html) +// **Exercise 03.2**: Building on exercise 02.2, implement all the things you need on `f32` to make your +// program work with floating-point numbers. + +//@ [index](main.html) | [previous](part02.html) | [raw source](https://www.ralfj.de/git/rust-101.git/blob_plain/HEAD:/workspace/src/part03.rs) | [next](part04.html)