Cargo Workspaces
In Chapter 12, we built a package that included a binary crate and a library crate. As your project develops, you might find that the library crate continues to get bigger and you want to split your package further into multiple library crates. Cargo offers a feature called workspaces that can help manage multiple related packages that are developed in tandem.
Creating a Workspace
A workspace is a set of packages that share the same Cargo.lock and output
directory. Let’s make a project using a workspace—we’ll use trivial code so we
can concentrate on the structure of the workspace. There are multiple ways to
structure a workspace, so we’ll just show one common way. We’ll have a
workspace containing a binary and two libraries. The binary, which will provide
the main functionality, will depend on the two libraries. One library will
provide an add_one
function, and a second library an add_two
function.
These three crates will be part of the same workspace. We’ll start by creating
a new directory for the workspace:
$ mkdir add
$ cd add
Next, in the add directory, we create the Cargo.toml file that will
configure the entire workspace. This file won’t have a [package]
section.
Instead, it will start with a [workspace]
section that will allow us to add
members to the workspace. We also make a point to use the latest and greatest
version of Cargo’s resolver algorithm in our workspace by setting the
resolver
to "2"
.
by specifying the path to the package with our binary crate; in this case, that path is adder:
Filename: Cargo.toml
[workspace]
resolver = "2"
Next, we’ll create the adder
binary crate by running cargo new
within the
add directory:
$ cargo new adder
Creating binary (application) `adder` package
Adding `adder` as member of workspace at `file:///projects/add`
Running cargo new
inside a workspace also automatically adds the newly created
package to the members
key in the [workspace]
definition in the workspace
Cargo.toml
, like this:
[workspace]
resolver = "2"
members = ["adder"]
At this point, we can build the workspace by running cargo build
. The files
in your add directory should look like this:
├── Cargo.lock
├── Cargo.toml
├── adder
│ ├── Cargo.toml
│ └── src
│ └── main.rs
└── target
The workspace has one target directory at the top level that the compiled
artifacts will be placed into; the adder
package doesn’t have its own
target directory. Even if we were to run cargo build
from inside the
adder directory, the compiled artifacts would still end up in add/target
rather than add/adder/target. Cargo structures the target directory in a
workspace like this because the crates in a workspace are meant to depend on
each other. If each crate had its own target directory, each crate would have
to recompile each of the other crates in the workspace to place the artifacts
in its own target directory. By sharing one target directory, the crates
can avoid unnecessary rebuilding.
Creating the Second Package in the Workspace
Next, let’s create another member package in the workspace and call it
add_one
. Change the top-level Cargo.toml to specify the add_one path in
the members
list:
Filename: Cargo.toml
[workspace]
resolver = "2"
members = ["adder", "add_one"]
Then generate a new library crate named add_one
:
$ cargo new add_one --lib
Creating library `add_one` package
Adding `add_one` as member of workspace at `file:///projects/add`
Your add directory should now have these directories and files:
├── Cargo.lock
├── Cargo.toml
├── add_one
│ ├── Cargo.toml
│ └── src
│ └── lib.rs
├── adder
│ ├── Cargo.toml
│ └── src
│ └── main.rs
└── target
In the add_one/src/lib.rs file, let’s add an add_one
function:
Filename: add_one/src/lib.rs
pub fn add_one(x: i32) -> i32 {
x + 1
}
Now we can have the adder
package with our binary depend on the add_one
package that has our library. First, we’ll need to add a path dependency on
add_one
to adder/Cargo.toml.
Filename: adder/Cargo.toml
[dependencies]
add_one = { path = "../add_one" }
Cargo doesn’t assume that crates in a workspace will depend on each other, so we need to be explicit about the dependency relationships.
Next, let’s use the add_one
function (from the add_one
crate) in the
adder
crate. Open the adder/src/main.rs file and add a use
line at the
top to bring the new add_one
library crate into scope. Then change the main
function to call the add_one
function, as in Listing 14-7.
Let’s build the workspace by running cargo build
in the top-level add
directory!
$ cargo build
Compiling add_one v0.1.0 (file:///projects/add/add_one)
Compiling adder v0.1.0 (file:///projects/add/adder)
Finished `dev` profile [unoptimized + debuginfo] target(s) in 0.22s
To run the binary crate from the add directory, we can specify which
package in the workspace we want to run by using the -p
argument and the
package name with cargo run
:
$ cargo run -p adder
Finished `dev` profile [unoptimized + debuginfo] target(s) in 0.00s
Running `target/debug/adder`
Hello, world! 10 plus one is 11!
This runs the code in adder/src/main.rs, which depends on the add_one
crate.
Depending on an External Package in a Workspace
Notice that the workspace has only one Cargo.lock file at the top level,
rather than having a Cargo.lock in each crate’s directory. This ensures that
all crates are using the same version of all dependencies. If we add the rand
package to the adder/Cargo.toml and add_one/Cargo.toml files, Cargo will
resolve both of those to one version of rand
and record that in the one
Cargo.lock. Making all crates in the workspace use the same dependencies
means the crates will always be compatible with each other. Let’s add the
rand
crate to the [dependencies]
section in the add_one/Cargo.toml file
so we can use the rand
crate in the add_one
crate:
Filename: add_one/Cargo.toml
[dependencies]
rand = "0.8.5"
We can now add use rand;
to the add_one/src/lib.rs file, and building the
whole workspace by running cargo build
in the add directory will bring in
and compile the rand
crate. We will get one warning because we aren’t
referring to the rand
we brought into scope:
$ cargo build
Updating crates.io index
Downloaded rand v0.8.5
--snip--
Compiling rand v0.8.5
Compiling add_one v0.1.0 (file:///projects/add/add_one)
warning: unused import: `rand`
--> add_one/src/lib.rs:1:5
|
1 | use rand;
| ^^^^
|
= note: `#[warn(unused_imports)]` on by default
warning: `add_one` (lib) generated 1 warning (run `cargo fix --lib -p add_one` to apply 1 suggestion)
Compiling adder v0.1.0 (file:///projects/add/adder)
Finished `dev` profile [unoptimized + debuginfo] target(s) in 0.95s
The top-level Cargo.lock now contains information about the dependency of
add_one
on rand
. However, even though rand
is used somewhere in the
workspace, we can’t use it in other crates in the workspace unless we add
rand
to their Cargo.toml files as well. For example, if we add use rand;
to the adder/src/main.rs file for the adder
package, we’ll get an error:
$ cargo build
--snip--
Compiling adder v0.1.0 (file:///projects/add/adder)
error[E0432]: unresolved import `rand`
--> adder/src/main.rs:2:5
|
2 | use rand;
| ^^^^ no external crate `rand`
To fix this, edit the Cargo.toml file for the adder
package and indicate
that rand
is a dependency for it as well. Building the adder
package will
add rand
to the list of dependencies for adder
in Cargo.lock, but no
additional copies of rand
will be downloaded. Cargo will ensure that every
crate in every package in the workspace using the rand
package will be using
the same version as long as they specify compatible versions of rand
, saving
us space and ensuring that the crates in the workspace will be compatible with
each other.
If crates in the workspace specify incompatible versions of the same dependency, Cargo will resolve each of them, but will still try to resolve as few versions as possible.
Adding a Test to a Workspace
For another enhancement, let’s add a test of the add_one::add_one
function
within the add_one
crate:
Filename: add_one/src/lib.rs
pub fn add_one(x: i32) -> i32 {
x + 1
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn it_works() {
assert_eq!(3, add_one(2));
}
}
Now run cargo test
in the top-level add directory. Running cargo test
in
a workspace structured like this one will run the tests for all the crates in
the workspace:
$ cargo test
Compiling add_one v0.1.0 (file:///projects/add/add_one)
Compiling adder v0.1.0 (file:///projects/add/adder)
Finished `test` profile [unoptimized + debuginfo] target(s) in 0.20s
Running unittests src/lib.rs (target/debug/deps/add_one-f0253159197f7841)
running 1 test
test tests::it_works ... ok
test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
Running unittests src/main.rs (target/debug/deps/adder-49979ff40686fa8e)
running 0 tests
test result: ok. 0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
Doc-tests add_one
running 0 tests
test result: ok. 0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
The first section of the output shows that the it_works
test in the add_one
crate passed. The next section shows that zero tests were found in the adder
crate, and then the last section shows zero documentation tests were found in
the add_one
crate.
We can also run tests for one particular crate in a workspace from the
top-level directory by using the -p
flag and specifying the name of the crate
we want to test:
$ cargo test -p add_one
Finished `test` profile [unoptimized + debuginfo] target(s) in 0.00s
Running unittests src/lib.rs (target/debug/deps/add_one-b3235fea9a156f74)
running 1 test
test tests::it_works ... ok
test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
Doc-tests add_one
running 0 tests
test result: ok. 0 passed; 0 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.00s
This output shows cargo test
only ran the tests for the add_one
crate and
didn’t run the adder
crate tests.
If you publish the crates in the workspace to crates.io,
each crate in the workspace will need to be published separately. Like cargo test
, we can publish a particular crate in our workspace by using the -p
flag and specifying the name of the crate we want to publish.
For additional practice, add an add_two
crate to this workspace in a similar
way as the add_one
crate!
As your project grows, consider using a workspace: it’s easier to understand smaller, individual components than one big blob of code. Furthermore, keeping the crates in a workspace can make coordination between crates easier if they are often changed at the same time.