X-Git-Url: https://git.ralfj.de/rust-101.git/blobdiff_plain/369875f931d841112dd2b6651fc968bb6c569cdb..942f0abd4b0931acad2d3def58cb7273ace15e2a:/src/main.rs diff --git a/src/main.rs b/src/main.rs index 31537df..68578fd 100644 --- a/src/main.rs +++ b/src/main.rs @@ -5,14 +5,10 @@ // tutorial for the [Rust language](http://www.rust-lang.org/). // It is intended to be an interactive, hands-on course: I believe the only way to // *really* learn a language is to write code in it, so you should be coding during -// the course. I am writing this with a tutorial situation in mind, i.e., -// with a teacher being around to guide students through the course and answer -// questions as they come up. However, I think they may also be useful if you -// work through them on your own, you will just have to show more initiative yourself: -// Make sure you actually type some code. It may sound stupid to manually copy code -// that you could duplicate through the clipboard, but it's actually helpful. -// If you have questions, check out the "Additional Resources" below. In particular, -// the IRC channel is filled with awesome people willing to help you! I spent +// the course. +// +// If you have any questions that are not answered here, check out the "Additional Resources" +// below. In particular, the IRC channel is filled with awesome people willing to help you! I spent // lots of time there ;-) // // I will assume some familiarity with programming, and hence not explain the basic @@ -27,53 +23,61 @@ // At this time, Rust is a language with a pretty unique set of goals. Rust aims to // achieve C++-style control over memory and execution behavior (like, static vs. dynamic // dispatch), which makes it possible to construct abstractions that carry no run-time -// cost. This is combined this with providing the comfort of high-level functional languages -// and guaranteeing safety (as in, the program will not crash). The vast majority of existing -// languages sacrificies one of these goals for the other. In particular, the -// first requirement rules out a garbage collector: Rust can run "mare metal". +// cost. This is combined with the comfort of high-level functional languages and guaranteed +// safety (as in, the program will not crash). The vast majority of existing +// languages sacrifices one of these goals for the other. In particular, the +// first requirement rules out a garbage collector: Rust can run "bare metal". // In fact, Rust rules out more classes of bugs than languages that achieve safety // with a GC: Besides dangling pointers and double-free, Rust also prevents issues // such as iterator invalidation and race conditions. // // -// Prerequisites -// ------------- +// Getting started +// --------------- // // You will need to have Rust installed, of course. It is available for download on -// [the Rust website](http://www.rust-lang.org/). At this point, I plan to restrict -// myself to stable Rust, so "Recommended" version is just right. -// You can find some more installation instructions in +// [the Rust website](http://www.rust-lang.org/). You should go for either the "stable" +// or the "beta" channel. More detailed installation instructions are provided in // [the second chapter of The Book](https://doc.rust-lang.org/stable/book/installing-rust.html). -// When you are done, running `cargo build` in the root of Rust-101 should successfully compile -// all the code. +// This will also install `cargo`, the tool responsible for building rust projects (or *crates*). + +// Next, fetch the Rust-101 source code from the [git repository](http://www.ralfj.de/git/rust-101.git) +// (also available [on GitHub](https://github.com/RalfJung/rust-101), and as a +// [zip archive](https://github.com/RalfJung/rust-101/archive/master.zip) in case you don't have git installed). // -// Getting the source -// ------------------ +// There is a workspace prepared for you in the `workspace` folder. I suggest you copy this +// folder somewhere else - that will make it much easier to later update the course without +// overwriting your changes. Try `cargo build` in that new folder to check that compiling your workspace succeeds. +// (You can also execute it with `cargo run`, but you'll need to do some work before this will succeed.) // -// You are meant to play around with the source code of the course as you go on, so please -// fetch it from the [git repository](http://www.ralfj.de/git/rust-101.git) (also available -// [on GitHub](https://github.com/RalfJung/rust-101)). +// If you later want to update the course, do `git pull` (or re-download the zip archive). +// Then copy the files from `workspace/src/` to your workspace that you did not yet work on. Definitely +// copy `main.rs` to make sure all the new files are actually compiled. (Of course you can also +// copy the rest, but that would replace all your hard work by the original files with all the holes!) // Course Content // -------------- // -// The actual course is in the partXX.rs files. The part 00-03 cover some basic of the language, -// to give you a feeling for Rust's syntax and pervasive mechanisms like pattern matching and traits. -// Parts 04-06 introduce the heart of the language, the mechanism making it different from anything -// else out there: Ownership, borrowing, lifetimes. In part 07-??, we continue our tour through -// Rust. Finally, in parts ??-??, we implement our own version of `grep`, exhibiting useful Rust -// features as we go. +// The part 00-03 cover some basic of the language, to give you a feeling for Rust's syntax and pervasive +// mechanisms like pattern matching and traits. Parts 04-06 introduce the heart of the language, the ideas +// making it different from anything else out there: Ownership, borrowing, lifetimes. In part 07-??, we +// continue our tour through Rust with another example. Finally, in parts ??-??, we implement our own +// version of `grep`, exhibiting some more Rust features as we go. // -// I suggest you get started with [the first part](part00.html), or jump directly to where you left off: +// Now, open `your-workspace/src/part00.rs` in your favorite editor, and follow the link below for +// the explanations and exercises. Have fun! // // * [Part 00: Algebraic datatypes](part00.html) // * [Part 01: Expressions, Inherent methods](part01.html) // * [Part 02: Generic types, Traits](part02.html) // * [Part 03: Input](part03.html) // * [Part 04: Ownership, Borrowing](part04.html) -// * [Part 05: Clone](part05.html) (WIP) -// * [Part 06: Copy, Lifetimes](part06.html) (WIP) -// * [Part 07: Operator Overloading, Tests, Output](part07.html) (WIP) +// * [Part 05: Clone](part05.html) +// * [Part 06: Copy, Lifetimes](part06.html) +// * [Part 07: Operator Overloading, Tests, Formating](part07.html) +// * [Part 08: Associated Types, Modules](part08.html) +// * [Part 09: Iterators](part09.html) +// * [Part 10: Closures](part10.html) // * (to be continued) #![allow(dead_code, unused_imports, unused_variables, unused_mut)] mod part00; @@ -86,12 +90,13 @@ mod part06; mod part07; mod part08; mod part09; +mod part10; // To actually run the code of some part (after filling in the blanks, if necessary), simply edit the `main` // function. fn main() { - part03::main(); + part00::main(); } // Additional material