This tutorial introduces the basics of multi-module workspaces in Go. With multi-module workspaces, you can tell the Go command that you're writing code in multiple modules at the same time and easily build and run code in those modules.
In this tutorial, you'll create two modules in a shared multi-module workspace, make changes across those modules, and see the results of those changes in a build.
Note: For other tutorials, see Tutorials.
This tutorial requires go1.18 or later. Make sure you've installed Go at Go 1.18 or later using the links at go.dev/dl.
To begin, create a module for the code you’ll write.
Open a command prompt and change to your home directory.
On Linux or Mac:
$ cd
On Windows:
C:\> cd %HOMEPATH%
The rest of the tutorial will show a $ as the prompt. The commands you use will work on Windows too.
From the command prompt, create a directory for your code called workspace.
$ mkdir workspace $ cd workspace
Initialize the module
Our example will create a new module hello
that will depend on the golang.org/x/example module.
Create the hello module:
$ mkdir hello $ cd hello $ go mod init example.com/hello go: creating new go.mod: module example.com/hello
Add a dependency on the golang.org/x/example/hello/reverse package by using go get
.
$ go get golang.org/x/example/hello/reverse
Create hello.go in the hello directory with the following contents:
package main import ( "fmt" "golang.org/x/example/hello/reverse" ) func main() { fmt.Println(reverse.String("Hello")) }
Now, run the hello program:
$ go run . olleH
In this step, we'll create a go.work
file to specify a workspace with the module.
In the workspace
directory, run:
$ go work init ./hello
The go work init
command tells go
to create a go.work
file for a workspace containing the modules in the ./hello
directory.
The go
command produces a go.work
file that looks like this:
go 1.18 use ./hello
The go.work
file has similar syntax to go.mod
.
The go
directive tells Go which version of Go the file should be interpreted with. It's similar to the go
directive in the go.mod
file.
The use
directive tells Go that the module in the hello
directory should be main modules when doing a build.
So in any subdirectory of workspace
the module will be active.
In the workspace
directory, run:
$ go run ./hello olleH
The Go command includes all the modules in the workspace as main modules. This allows us to refer to a package in the module, even outside the module. Running the go run
command outside the module or the workspace would result in an error because the go
command wouldn't know which modules to use.
Next, we‘ll add a local copy of the golang.org/x/example/hello
module to the workspace. That module is stored in a subdirectory of the go.googlesource.com/example
Git repository. We’ll then add a new function to the reverse
package that we can use instead of String
.
golang.org/x/example/hello
moduleIn this step, we'll download a copy of the Git repo containing the golang.org/x/example/hello
module, add it to the workspace, and then add a new function to it that we will use from the hello program.
Clone the repository
From the workspace directory, run the git
command to clone the repository:
$ git clone https://go.googlesource.com/example Cloning into 'example'... remote: Total 165 (delta 27), reused 165 (delta 27) Receiving objects: 100% (165/165), 434.18 KiB | 1022.00 KiB/s, done. Resolving deltas: 100% (27/27), done.
Add the module to the workspace
The Git repo was just checked out into ./example
. The source code for the golang.org/x/example/hello
module is in ./example/hello
. Add it to the workspace:
$ go work use ./example/hello
The go work use
command adds a new module to the go.work file. It will now look like this:
go 1.18 use ( ./hello ./example/hello )
The module now includes both the example.com/hello
module and the golang.org/x/example/hello
module, which provides the golang.org/x/example/hello/reverse
package.
This will allow us to use the new code we will write in our copy of the reverse
package instead of the version of the package in the module cache that we downloaded with the go get
command.
Add the new function.
We'll add a new function to reverse a number to the golang.org/x/example/hello/reverse
package.
Create a new file named int.go
in the workspace/example/hello/reverse
directory containing the following contents:
package reverse import "strconv" // Int returns the decimal reversal of the integer i. func Int(i int) int { i, _ = strconv.Atoi(String(strconv.Itoa(i))) return i }
Modify the hello program to use the function.
Modify the contents of workspace/hello/hello.go
to contain the following contents:
package main import ( "fmt" "golang.org/x/example/hello/reverse" ) func main() { fmt.Println(reverse.String("Hello"), reverse.Int(24601)) }
From the workspace directory, run
$ go run ./hello olleH 10642
The Go command finds the example.com/hello
module specified in the command line in the hello
directory specified by the go.work
file, and similarly resolves the golang.org/x/example/hello/reverse
import using the go.work
file.
go.work
can be used instead of adding replace
directives to work across multiple modules.
Since the two modules are in the same workspace it's easy to make a change in one module and use it in another.
Now, to properly release these modules we‘d need to make a release of the golang.org/x/example/hello
module, for example at v0.1.0
. This is usually done by tagging a commit on the module’s version control repository. See the module release workflow documentation for more details. Once the release is done, we can increase the requirement on the golang.org/x/example/hello
module in hello/go.mod
:
cd hello go get golang.org/x/example/hello@v0.1.0
That way, the go
command can properly resolve the modules outside the workspace.
The go
command has a couple of subcommands for working with workspaces in addition to go work init
which we saw earlier in the tutorial:
go work use [-r] [dir]
adds a use
directive to the go.work
file for dir
, if it exists, and removes the use
directory if the argument directory doesn't exist. The -r
flag examines subdirectories of dir
recursively.go work edit
edits the go.work
file similarly to go mod edit
go work sync
syncs dependencies from the workspace's build list into each of the workspace modules.See Workspaces in the Go Modules Reference for more detail on workspaces and go.work
files.