Dependencies
Most programs have dependencies on some libraries. If you have ever managed
dependencies by hand, you know how much of a pain this can be. Luckily, the Rust
ecosystem comes standard with cargo
! cargo
can manage dependencies for a
project.
To create a new Rust project,
# A binary
cargo new foo
# OR A library
cargo new --lib foo
For the rest of this chapter, let's assume we are making a binary, rather than a library, but all of the concepts are the same.
After the above commands, you should see a file hierarchy like this:
foo
├── Cargo.toml
└── src
└── main.rs
The main.rs
is the root source file for your new project -- nothing new there.
The Cargo.toml
is the config file for cargo
for this project (foo
). If you
look inside it, you should see something like this:
[package]
name = "foo"
version = "0.1.0"
authors = ["mark"]
[dependencies]
The name
field under [package]
determines the name of the project. This is
used by crates.io
if you publish the crate (more later). It is also the name
of the output binary when you compile.
The version
field is a crate version number using Semantic
Versioning.
The authors
field is a list of authors used when publishing the crate.
The [dependencies]
section lets you add dependencies for your project.
For example, suppose that we want our program to have a great CLI. You can find
lots of great packages on crates.io (the official Rust
package registry). One popular choice is clap.
As of this writing, the most recent published version of clap
is 2.27.1
. To
add a dependency to our program, we can simply add the following to our
Cargo.toml
under [dependencies]
: clap = "2.27.1"
. And that's it! You can start using
clap
in your program.
cargo
also supports other types of dependencies. Here is just
a small sampling:
[package]
name = "foo"
version = "0.1.0"
authors = ["mark"]
[dependencies]
clap = "2.27.1" # from crates.io
rand = { git = "https://github.com/rust-lang-nursery/rand" } # from online repo
bar = { path = "../bar" } # from a path in the local filesystem
cargo
is more than a dependency manager. All of the available
configuration options are listed in the format specification of
Cargo.toml
.
To build our project we can execute cargo build
anywhere in the project
directory (including subdirectories!). We can also do cargo run
to build and
run. Notice that these commands will resolve all dependencies, download crates
if needed, and build everything, including your crate. (Note that it only
rebuilds what it has not already built, similar to make
).
Voila! That's all there is to it!