The `print!` and `println!` macros are now the preferred method of printing, and so there is no reason to export the `stdio` functions in the prelude. The functions have also been replaced by their macro counterparts in the tutorial and other documentation so that newcomers don't get confused about what they should be using.
7.6 KiB
% The Rust Packaging Guide
Introduction
Sharing is caring. Rust comes with a tool, rustpkg
, which allows you to
package up your Rust code and share it with other people. This guide will
get you started on all of the concepts and commands you need to give the gift
of Rust code to someone else.
Installing External Packages
First, let's try to use an external package somehow. I've made a sample package
called hello
to demonstrate how to do so. Here's how hello
is used:
extern mod hello;
fn main() {
hello::world();
}
Easy! But if you try to compile this, you'll get an error:
$ rustc main.rs
main.rs:1:0: 1:17 error: can't find crate for `hello`
main.rs:1 extern mod hello;
^~~~~~~~~~~~~~~~~
This makes sense, as we haven't gotten it from anywhere yet! Luckily for us,
rustpkg
has an easy way to fetch others' code: the install
command. It's
used like this:
$ rustpkg install PKG_ID
This will install a package named PKG_ID
into your current Rust environment.
I called it PKG_ID
in this example because rustpkg
calls this a 'package
identifier.' When using it with an external package like this, it's often a
URI fragment. You see, Rust has no central authority for packages. You can
build your own hello
library if you want, and that's fine. We'd both host
them in different places and different projects would rely on whichever version
they preferred.
To install the hello
library, simply run this in your terminal:
$ rustpkg install github.com/steveklabnik/hello
You should see a message that looks like this:
note: Installed package github.com/steveklabnik/hello-0.1 to /some/path/.rust
Now, compiling our example should work:
$ rustc main.rs
$ ./main
Hello, world.
Simple! That's all it takes.
Workspaces
Before we can talk about how to make packages of your own, you have to
understand the big concept with rustpkg
: workspaces. A 'workspace' is simply
a directory that has certain sub-directories that rustpkg
expects. Different
Rust projects will go into different workspaces.
A workspace consists of any directory that has the following directories:
src
: The directory where all the source code goes.build
: This directory contains all of the build output.lib
: The directory where any libraries distributed with the package go.bin
: This directory holds any binaries distributed with the package.
There are also default file names you'll want to follow as well:
main.rs
: A file that's going to become an executable.lib.rs
: A file that's going to become a library.
Building your own Package
Now that you've got workspaces down, let's build your own copy of hello
. Go
to wherever you keep your personal projects, and let's make all of the
directories we'll need. I'll refer to this personal project directory as
~/src
for the rest of this guide.
Creating our workspace
$ cd ~/src
$ mkdir -p hello/src/hello
$ cd hello
Easy enough! Let's do one or two more things that are nice to do:
$ git init .
$ cat > README.md
# hello
A simple package for Rust.
## Installation
```
$ rustpkg install github.com/YOUR_USERNAME/hello
```
^D
$ cat > .gitignore
.rust
build
^D
$ git commit -am "Initial commit."
If you're not familliar with the cat >
idiom, it will make files with the
text you type inside. Control-D (^D
) ends the text for the file.
Anyway, we've got a README and a .gitignore
. Let's talk about that
.gitignore
for a minute: we are ignoring two directories, build
and
.rust
. build
, as we discussed earlier, is for build artifacts, and we don't
want to check those into a repository. .rust
is a directory that rustpkg
uses to keep track of its own settings, as well as the source code of any other
external packages that this workspace uses. This is where that rustpkg install
puts all of its files. Those are also not to go into our repository,
so we ignore it all as well.
Next, let's add a source file:
#[desc = "A hello world Rust package."];
#[license = "MIT"];
pub fn world() {
println!("Hello, world.");
}
Put this into src/hello/lib.rs
. Let's talk about each of these attributes:
Crate attributes for packages
license
is equally simple: the license we want this code to have. I chose MIT
here, but you should pick whatever license makes the most sense for you.
desc
is a description of the package and what it does. This should just be a
sentence or two.
Building your package
Building your package is simple:
$ rustpkg build hello
This will compile src/hello/lib.rs
into a library. After this process
completes, you'll want to check out build
:
$ ls build/x86_64-unknown-linux-gnu/hello/
libhello-ed8619dad9ce7d58-0.1.0.so
This directory naming structure is called a 'build triple,' and is because I'm on 64 bit Linux. Yours may differ based on platform.
You'll also notice that src/hello/lib.rs
turned into
libhello-ed8619dad9ce7d58-0.1.0.so
. This is a simple combination of the
library name, a hash of its content, and the version.
Now that your library builds, you'll want to commit:
$ git add src
$ git commit -m "Adding source code."
If you're using GitHub, after creating the project, do this:
$ git remote add origin git@github.com:YOUR_USERNAME/hello.git
$ git push origin -u master
Now you can install and use it! Go anywhere else in your filesystem:
$ cd ~/src/foo
$ rustpkg install github.com/YOUR_USERNAME/hello
WARNING: The Rust package manager is experimental and may be unstable
note: Installed package github.com/YOUR_USERNAME/hello-0.1 to /home/yourusername/src/hello/.rust
That's it!
Testing your Package
Testing your package is simple as well. First, let's change src/hello/lib.rs
to contain
a function that can be sensibly tested:
#[desc = "A Rust package for determining whether unsigned integers are even."];
#[license = "MIT"];
pub fn is_even(i: uint) -> bool {
i % 2 == 0
}
Once you've edited lib.rs
, you can create a second crate file, src/hello/test.rs
,
to put tests in:
#[license = "MIT"];
extern mod hello;
use hello::is_even;
#[test]
fn test_is_even() {
assert!(is_even(0));
assert!(!is_even(1));
assert!(is_even(2));
}
Note that you have to import the crate you just created in lib.rs
with the
extern mod hello
directive. That's because you're putting the tests in a different
crate from the main library that you created.
Now, you can use the rustpkg test
command to build this test crate (and anything else
it depends on) and run the tests, all in one step:
$ rustpkg test hello
WARNING: The Rust package manager is experimental and may be unstable
note: Installed package hello-0.1 to /Users/tjc/.rust
running 1 test
test test_is_even ... ok
test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured
More resources
There's a lot more going on with rustpkg
, this is just to get you started.
Check out the rustpkg manual for the full details on how to
customize rustpkg
.
A tag was created on GitHub specifically for rustpkg
-related issues. You can
see all the Issues for rustpkg
here,
with bugs as well as new feature plans. rustpkg
is still under development,
and so may be a bit flaky at the moment.
You may also want to check out this blog post, which contains some of the early design decisions and justifications.