How can I do overall test setup processing which sets the stage for all the tests when using the testing package?

As an example in Nunit there is a [SetUp] attribute.

public class SuccessTests
  [SetUp] public void Init()
  { /* Load test data */ }

Starting with Go 1.4 you can implement setup/teardown (no need to copy your functions before/after each test). The documentation is outlined here in the Main section:

TestMain runs in the main goroutine and can do whatever setup and teardown is necessary around a call to m.Run. It should then call os.Exit with the result of m.Run

It took me some time to figure out that this means that if a test contains a function func TestMain(m *testing.M) then this function will be called instead of running the test. And in this function I can define how the tests will run. For example I can implement global setup and teardown:

func TestMain(m *testing.M) {
    code := m.Run() 

A couple of other examples can be found here.

The TestMain feature added to Go’s testing framework in the latest release is a simple solution for several testing use cases. TestMain provides a global hook to perform setup and shutdown, control the testing environment, run different code in a child process, or check for resources leaked by test code. Most packages will not need a TestMain, but it is a welcome addition for those times when it is needed.

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  • 17
    TestMain is once in a package, so it's not that useful. I find subtests are better for more complex purposes. – Inanc Gumus Jun 14 '17 at 21:28
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    How are you supposed to pass context from the setup function to the tests without using global variables ? For example if mySetupFunction() creates a temporary directory to perform testing in (with a unique, random name), how do the tests know the name of the directory ? There must be a place to set this context ?? – Lqueryvg Aug 28 '17 at 9:04
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    It seems that this is official way to handle before and after hooks for tests, see golang.org/pkg/testing/#hdr-Main for official documentation – de-jcup Jan 18 '19 at 16:19
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    @InancGumus lstat $GOROOT/subtests: no such file or directory – 030 Apr 29 '19 at 12:00
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    please note that ' code := m.Run() ' is the one that runs other TestFunctions ! – Alex Punnen Aug 8 '19 at 8:58

This can be achieved by putting a init() function in the myfile_test.go file. This will be run before the init() function.

// myfile_test.go
package main

func init() {
     /* load test data */

The myfile_test.init() will be called before the package init() function.

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  • 2
    I know you're answering your own question so this probably satisfies your own use case, but this isn't equivalent to the NUnit example you've included in your question. – James Henstridge May 19 '14 at 8:32
  • Well @james, I have shown one thought on way to answer the issue and others have already provided some good insights, including yours. Its useful to get outside influences to tune ones approach. Thanks. – miltonb May 19 '14 at 10:01
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    Fair enough. What you've shown in this answer is somewhat closer to using NUnit's [TestFixtureSetUp] attribute instead. – James Henstridge May 19 '14 at 10:05
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    it does not include tear down part – Taras Matsyk Dec 20 '18 at 14:38
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    This is not a good solution if your test file is in the same package with main function. – MouseWanted Jan 9 '19 at 4:42

Given a simple function to unit test:

package math

func Sum(a, b int) int {
    return a + b

You can test it with a setup function that returns teardown function. And after calling setup() you can make a deferred call to teardown().

package math

import "testing"

func setupTestCase(t *testing.T) func(t *testing.T) {
    t.Log("setup test case")
    return func(t *testing.T) {
        t.Log("teardown test case")

func setupSubTest(t *testing.T) func(t *testing.T) {
    t.Log("setup sub test")
    return func(t *testing.T) {
        t.Log("teardown sub test")

func TestAddition(t *testing.T) {
    cases := []struct {
        name     string
        a        int
        b        int
        expected int
        {"add", 2, 2, 4},
        {"minus", 0, -2, -2},
        {"zero", 0, 0, 0},

    teardownTestCase := setupTestCase(t)
    defer teardownTestCase(t)

    for _, tc := range cases {
        t.Run(tc.name, func(t *testing.T) {
            teardownSubTest := setupSubTest(t)
            defer teardownSubTest(t)

            result := Sum(tc.a, tc.b)
            if result != tc.expected {
                t.Fatalf("expected sum %v, but got %v", tc.expected, result)

Go testing tool will report the logging statements in the shell console:

% go test -v
=== RUN   TestAddition
=== RUN   TestAddition/add
=== RUN   TestAddition/minus
=== RUN   TestAddition/zero
--- PASS: TestAddition (0.00s)
    math_test.go:6: setup test case
    --- PASS: TestAddition/add (0.00s)
        math_test.go:13: setup sub test
        math_test.go:15: teardown sub test
    --- PASS: TestAddition/minus (0.00s)
        math_test.go:13: setup sub test
        math_test.go:15: teardown sub test
    --- PASS: TestAddition/zero (0.00s)
        math_test.go:13: setup sub test
        math_test.go:15: teardown sub test
    math_test.go:8: teardown test case
ok      github.com/kare/go-unit-test-setup-teardown 0.010s

You can pass some additional parameters to setup/teardown with this approach.

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    Now that is a real simple but effective trick. Great use of Go syntax. – miltonb Nov 22 '16 at 20:08
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    Yeah, but it increases nestedness (kind of pyramid of doom in javascript). And, tests do not run automatically by the suite as in the outer tests. – Inanc Gumus Jun 14 '17 at 21:29
  • other problem is tearDown func can not get data of each case, and do the clean up thing base on test result – user2115803 Aug 26 at 10:11

Typically, tests in go aren't written in the same style as other languages. Often, there's relatively fewer test functions, but each contains a table-driven set of test cases. See this article written by one of the Go team.

With a table-driven test, you simply put any setup code before the loop that executes the individual test-cases specified in the table, and put any cleanup code afterwards.

If you still have shared setup code between test functions, you can extract the shared setup code into a function, and use a sync.Once if it's important that it's executed exactly once (or as another answer suggests, use init(), but this has the disadvantage that the setup will be done even if the test cases aren't run (perhaps because you've limited the test cases by using go test -run <regexp>.)

I'd say if you think you need shared setup between different tests that gets executed exactly once you should have a think if you really need it, and if a table-driven test wouldn't be better.

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    That's great when testing trivial things like a flag parser, or an algorithm that churns on numbers. But it doesn't really help when trying to test diverse pieces of functionality that all require similar boilerplate code. I suppose I could define my test functions in an array and iterate over those, but then it's not really table-driven so much as a simple loop that should really just be built into the testing framework itself (in the form of a proper test suite with setup/teardown functions) – iamtheddrman Jan 27 '17 at 19:50

The Go testing framework doesn't have anything equivalent to NUnit's SetUp attribute (marking a function to be called before each test in the suite). There are a few options though:

  1. Simply call your SetUp function from each test where it is needed.

  2. Use an extension to Go's testing framework that implements xUnit paradigms and concepts. Three strong options come to mind:

Each of these libraries encourage you to organize your tests into suites/fixtures similar to other xUnit frameworks, and will call the setup methods on the suite/fixture type before each of the Test* methods.

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Shameless plug, I created https://github.com/houqp/gtest to help solve exactly this problem.

Here is a quick example:

import (

type SampleTests struct{}

// Setup and Teardown are invoked per test group run
func (s *SampleTests) Setup(t *testing.T)      {}
func (s *SampleTests) Teardown(t *testing.T)   {}
// BeforeEach and AfterEach are invoked per test run
func (s *SampleTests) BeforeEach(t *testing.T) {}
func (s *SampleTests) AfterEach(t *testing.T)  {}

func (s *SampleTests) SubTestCompare(t *testing.T) {
  if 1 != 1 {

func (s *SampleTests) SubTestCheckPrefix(t *testing.T) {
  if !strings.HasPrefix("abc", "ab") {

func TestSampleTests(t *testing.T) {
  gtest.RunSubTests(t, &SampleTests{})

You can create as any test group you want within a package with each of them using a different set of setup/teardown routines.

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