Introduction

This document demonstrates the development of a simple Go package and introduces the go tool, the standard way to fetch, build, and install Go packages and commands.

The go tool requires you to organize your code in a specific way. Please read this document carefully. It explains the simplest way to get up and running with your Go installation.

A similar explanation is available as a screencast.

Code organization

Workspaces

The go tool is designed to work with open source code maintained in public repositories. Although you don't need to publish your code, the model for how the environment is set up works the same whether you do or not.

Go code must be kept inside a workspace. A workspace is a directory hierarchy with three directories at its root:

The go tool builds source packages and installs the resulting binaries to the pkg and bin directories.

The src subdirectory typically contains multiple version control repositories (such as for Git or Mercurial) that track the development of one or more source packages.

To give you an idea of how a workspace looks in practice, here's an example:

bin/
    streak                         # command executable
    todo                           # command executable
pkg/
    linux_amd64/
        code.google.com/p/goauth2/
            oauth.a                # package object
        github.com/nf/todo/
            task.a                 # package object
src/
    code.google.com/p/goauth2/
        .hg/                       # mercurial repository metadata
        oauth/
            oauth.go               # package source
            oauth_test.go          # test source
    github.com/nf/
        streak/
            .git/                  # git repository metadata
            oauth.go               # command source
            streak.go              # command source
        todo/
            .git/                  # git repository metadata
            task/
                task.go            # package source
            todo.go                # command source

This workspace contains three repositories (goauth2, streak, and todo) comprising two commands (streak and todo) and two libraries (oauth and task).

Commands and libraries are built from different kinds of source packages. We will discuss the distinction later.

The GOPATH environment variable

The GOPATH environment variable specifies the location of your workspace. It is likely the only environment variable you'll need to set when developing Go code.

To get started, create a workspace directory and set GOPATH accordingly. Your workspace can be located wherever you like, but we'll use $HOME/go in this document. Note that this must not be the same path as your Go installation.

$ mkdir $HOME/go
$ export GOPATH=$HOME/go

For convenience, add the workspace's bin subdirectory to your PATH:

$ export PATH=$PATH:$GOPATH/bin

Package paths

The packages from the standard library are given short paths such as "fmt" and "net/http". For your own packages, you must choose a base path that is unlikely to collide with future additions to the standard library or other external libraries.

If you keep your code in a source repository somewhere, then you should use the root of that source repository as your base path. For instance, if you have a GitHub account at github.com/user, that should be your base path.

Note that you don't need to publish your code to a remote repository before you can build it. It's just a good habit to organize your code as if you will publish it someday. In practice you can choose any arbitrary path name, as long as it is unique to the standard library and greater Go ecosystem.

We'll use github.com/user as our base path. Create a directory inside your workspace in which to keep source code:

$ mkdir -p $GOPATH/src/github.com/user

Your first program

To compile and run a simple program, first choose a package path (we'll use github.com/user/hello) and create a corresponding package directory inside your workspace:

$ mkdir $GOPATH/src/github.com/user/hello

Next, create a file named hello.go inside that directory, containing the following Go code.

package main

import "fmt"

func main() {
	fmt.Printf("Hello, world.\n")
}

Now you can build and install that program with the go tool:

$ go install github.com/user/hello

Note that you can run this command from anywhere on your system. The go tool finds the source code by looking for the github.com/user/hello package inside the workspace specified by GOPATH.

You can also omit the package path if you run go install from the package directory:

$ cd $GOPATH/src/github.com/user/hello
$ go install

This command builds the hello command, producing an executable binary. It then installs that binary to the workspace's bin directory as hello (or, under Windows, hello.exe). In our example, that will be $GOPATH/bin/hello, which is $HOME/go/bin/hello.

The go tool will only print output when an error occurs, so if these commands produce no output they have executed successfully.

You can now run the program by typing its full path at the command line:

$ $GOPATH/bin/hello
Hello, world.

Or, as you have added $GOPATH/bin to your PATH, just type the binary name:

$ hello
Hello, world.

If you're using a source control system, now would be a good time to initialize a repository, add the files, and commit your first change. Again, this step is optional: you do not need to use source control to write Go code.

$ cd $GOPATH/src/github.com/user/hello
$ git init
Initialized empty Git repository in /home/user/go/src/github.com/user/hello/.git/
$ git add hello.go
$ git commit -m "initial commit"
[master (root-commit) 0b4507d] initial commit
 1 file changed, 1 insertion(+)
  create mode 100644 hello.go

Pushing the code to a remote repository is left as an exercise for the reader.

Your first library

Let's write a library and use it from the hello program.

Again, the first step is to choose a package path (we'll use github.com/user/newmath) and create the package directory:

$ mkdir $GOPATH/src/github.com/user/newmath

Next, create a file named sqrt.go in that directory with the following contents.

// Package newmath is a trivial example package.
package newmath

// Sqrt returns an approximation to the square root of x.
func Sqrt(x float64) float64 {
	z := 1.0
	for i := 0; i < 1000; i++ {
		z -= (z*z - x) / (2 * z)
	}
	return z
}

Now, test that the package compiles with go build:

$ go build github.com/user/newmath

Or, if you are working in the package's source directory, just:

$ go build

This won't produce an output file. To do that, you must use go install, which places the package object inside the pkg directory of the workspace.

After confirming that the newmath package builds, modify your original hello.go (which is in $GOPATH/src/github.com/user/hello) to use it:

package main

import (
	"fmt"

	"github.com/user/newmath"
)

func main() {
	fmt.Printf("Hello, world.  Sqrt(2) = %v\n", newmath.Sqrt(2))
}

Whenever the go tool installs a package or binary, it also installs whatever dependencies it has. So when you install the hello program

$ go install github.com/user/hello

the newmath package will be installed as well, automatically.

Running the new version of the program, you should see some numerical output:

$ hello
Hello, world.  Sqrt(2) = 1.414213562373095

After the steps above, your workspace should look like this:

bin/
    hello              # command executable
pkg/
    linux_amd64/       # this will reflect your OS and architecture
        github.com/user/
            newmath.a  # package object
src/
    github.com/user/
        hello/
            hello.go   # command source
        newmath/
            sqrt.go    # package source

Note that go install placed the newmath.a object in a directory inside pkg/linux_amd64 that mirrors its source directory. This is so that future invocations of the go tool can find the package object and avoid recompiling the package unnecessarily. The linux_amd64 part is there to aid in cross-compilation, and will reflect the operating system and architecture of your system.

Go command executables are statically linked; the package objects need not be present to run Go programs.

Package names

The first statement in a Go source file must be

package name

where name is the package's default name for imports. (All files in a package must use the same name.)

Go's convention is that the package name is the last element of the import path: the package imported as "crypto/rot13" should be named rot13.

Executable commands must always use package main.

There is no requirement that package names be unique across all packages linked into a single binary, only that the import paths (their full file names) be unique.

See Effective Go to learn more about Go's naming conventions.

Testing

Go has a lightweight test framework composed of the go test command and the testing package.

You write a test by creating a file with a name ending in _test.go that contains functions named TestXXX with signature func (t *testing.T). The test framework runs each such function; if the function calls a failure function such as t.Error or t.Fail, the test is considered to have failed.

Add a test to the newmath package by creating the file $GOPATH/src/github.com/user/newmath/sqrt_test.go containing the following Go code.

package newmath

import "testing"

func TestSqrt(t *testing.T) {
	const in, out = 4, 2
	if x := Sqrt(in); x != out {
		t.Errorf("Sqrt(%v) = %v, want %v", in, x, out)
	}
}

Then run the test with go test:

$ go test github.com/user/newmath
ok  	github.com/user/newmath 0.165s

As always, if you are running the go tool from the package directory, you can omit the package path:

$ go test
ok  	github.com/user/newmath 0.165s

Run go help test and see the testing package documentation for more detail.

Remote packages

An import path can describe how to obtain the package source code using a revision control system such as Git or Mercurial. The go tool uses this property to automatically fetch packages from remote repositories. For instance, the examples described in this document are also kept in a Mercurial repository hosted at Google Code, code.google.com/p/go.example. If you include the repository URL in the package's import path, go get will fetch, build, and install it automatically:

$ go get code.google.com/p/go.example/hello
$ $GOPATH/bin/hello
Hello, world.  Sqrt(2) = 1.414213562373095

If the specified package is not present in a workspace, go get will place it inside the first workspace specified by GOPATH. (If the package does already exist, go get skips the remote fetch and behaves the same as go install.)

After issuing the above go get command, the workspace directory tree should now look like this:

bin/
    hello                 # command executable
pkg/
    linux_amd64/
        code.google.com/p/go.example/
            newmath.a     # package object
        github.com/user/
            newmath.a     # package object
src/
    code.google.com/p/go.example/
        hello/
            hello.go      # command source
        newmath/
            sqrt.go       # package source
            sqrt_test.go  # test source
    github.com/user/
        hello/
            hello.go      # command source
        newmath/
            sqrt.go       # package source
            sqrt_test.go  # test source

The hello command hosted at Google Code depends on the newmath package within the same repository. The imports in hello.go file use the same import path convention, so the go get command is able to locate and install the dependent package, too.

import "code.google.com/p/go.example/newmath"

This convention is the easiest way to make your Go packages available for others to use. The Go Wiki and godoc.org provide lists of external Go projects.

For more information on using remote repositories with the go tool, see go help remote.

Further reading

See Effective Go for tips on writing clear, idiomatic Go code.

Take A Tour of Go to learn the language proper.

Visit the documentation page for a set of in-depth articles about the Go language and its libraries and tools.