Can Go have optional parameters? Or can I just define two functions with the same name and a different number of arguments?

  • Related: this is how it can be done to enforce mandatory parameters when using variadic as the optional parameters: Is it possible to trigger compile time error with custom library in golang? – icza Aug 29 '16 at 10:46
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    Google made a terrible decision, because sometimes a function has a 90% use case and then a 10% use case. The optional arg is for that 10% use case. Sane defaults means less code, less code means more maintainability. – Jonathan Mar 17 at 1:15

11 Answers 11


Go does not have optional parameters nor does it support method overloading:

Method dispatch is simplified if it doesn't need to do type matching as well. Experience with other languages told us that having a variety of methods with the same name but different signatures was occasionally useful but that it could also be confusing and fragile in practice. Matching only by name and requiring consistency in the types was a major simplifying decision in Go's type system.

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    Is make a special case, then? Or is it not even really implemented as a function… – mk12 Jul 12 '13 at 2:08
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    @Mk12 make is a language construct and the rules mentioned above don't apply. See this related question. – nemo Oct 26 '13 at 23:11
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    range is the same case as make, in that sense – thiagowfx Jul 30 '14 at 2:45
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    Method overloads - A great idea in theory and excellent when implemented well. However I have witnessed rubbish indecipherable overloading in practice and would therefore agree with Google's decision – trevorgk Nov 30 '14 at 14:38
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    I'm going to go out on a limb and disagree with this choice. The language designers have basically said, "We need function overloading to design the language we want, so make, range and so on are essentially overloaded, but if you want function overloading to design the API you want, well, that's tough." The fact that some programmers misuse a language feature is not an argument for getting rid of the feature. – Tom Oct 24 '18 at 8:06

A nice way to achieve something like optional parameters is to use variadic args. The function actually receives a slice of whatever type you specify.

func foo(params ...int) {

func main() {
  • "function actually receives a slice of whatever type you specify" how so? – Alix Axel Feb 12 '14 at 19:23
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    in the above example, params is a slice of ints – Ferguzz Feb 17 '14 at 12:41
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    But only for the same type of params :( – Juan de Parras Nov 18 '14 at 19:56
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    @JuandeParras Well, you can still use something like ...interface{} I guess. – maufl Sep 9 '15 at 12:42
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    With ...type you are not conveying the meaning of the individual options. Use a struct instead. ...type is handy for values that you would otherwise have to put in an array before the call. – user3523091 Jan 30 '16 at 23:36

You can use a struct which includes the parameters:

type Params struct {
  a, b, c int

func doIt(p Params) int {
  return p.a + p.b + p.c 

// you can call it without specifying all parameters
doIt(Params{a: 1, c: 9})
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    It would be great if structs could have default values here; anything the user omits is defaulted to the nil value for that type, which may or may not be a suitable default argument to the function. – jsdw Jul 6 '13 at 13:28
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    @lytnus, I hate to split hairs, but fields for which values are omitted would default to the 'zero value' for their type; nil is a different animal. Should the type of the omitted field happen to be a pointer, the zero value would be nil. – burfl Feb 11 '14 at 15:23
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    @burfl yeah, except the notion of "zero value" is absolutely useless for int/float/string types, because those values are meaningful and so you can't tell the difference if the value was omitted from the struct or if zero value was passed intentionally. – keymone Mar 28 '18 at 10:41
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    @keymone, I don't disagree with you. I was merely being pedantic about the statement above that values omitted by the user default to the "nil value for that type", which is incorrect. They default to the zero value, which may or may not be nil, depending on whether the type is a pointer. – burfl Mar 29 '18 at 11:32

For arbitrary, potentially large number of optional parameters, a nice idiom is to use Functional options.

For your type Foobar, first write only one constructor:

func NewFoobar(options ...func(*Foobar) error) (*Foobar, error){
  fb := &Foobar{}
  // ... (write initializations with default values)...
  for _, op := range options{
    err := op(fb)
    if err != nil {
      return nil, err
  return fb, nil

where each option is a function which mutates the Foobar. Then provide convenient ways for your user to use or create standard options, for example :

func OptionReadonlyFlag(fb *Foobar) error {
  fb.mutable = false
  return nil

func OptionTemperature(t Celsius) func(*Foobar) error {
  return func(fb *Foobar) error {
    fb.temperature = t
    return nil


For conciseness, you may give a name to the type of the options (Playground) :

type OptionFoobar func(*Foobar) error

If you need mandatory parameters, add them as first arguments of the constructor before the variadic options.

The main benefits of the Functional options idiom are :

  • your API can grow over time without breaking existing code, because the constuctor signature stays the same when new options are needed.
  • it enables the default use case to be its simplest: no arguments at all!
  • it provides fine control over the initialization of complex values.

This technique was coined by Rob Pike and also demonstrated by Dave Cheney.

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    Clever, but too complicated. The philosophy of Go is to write code in a straightforward way. Just pass a struct and test for default values. – user3523091 Jan 30 '16 at 23:23
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    Just FYI, the original author of this idiom, at at least the first publisher referenced, is Commander Rob Pike, whom I consider authoritative enough for Go philosophy. Link - commandcenter.blogspot.bg/2014/01/…. Also search for "Simple is complicated". – Petar Donchev Oct 31 '16 at 16:11
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    #JMTCW, but I find this approach very difficult to reason about. I would far prefer to pass in a struct of values, whose properties could be func()s if need be, than that bend my brain around this approach. Whenever I have to use this approach, such as with the Echo library, I find my brain getting caught in the rabbit hole of abstractions. #fwiw – MikeSchinkel Mar 20 at 15:42

Neither optional parameters nor function overloading are supported in Go. Go does support a variable number of parameters: Passing arguments to ... parameters


No -- neither. Per the Go for C++ programmers docs,

Go does not support function overloading and does not support user defined operators.

I can't find an equally clear statement that optional parameters are unsupported, but they are not supported either.

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    "There is no current plan for this [optional parameters]." Ian Lance Taylor, Go language team. groups.google.com/group/golang-nuts/msg/030e63e7e681fd3e – peterSO Jan 9 '10 at 17:25
  • No User defined operators is a terrible decision, as it is the core behind any slick math library, such as dot products or cross products for linear algebra, often used in 3D graphics. – Jonathan Mar 17 at 1:09

You can encapsulate this quite nicely in a func similar to what is below.

package main

import (

func main() {

func prompt(params ...string) string {
        prompt := ": "
        if len(params) > 0 {
                prompt = params[0]
        reader := bufio.NewReader(os.Stdin)
        text, _ := reader.ReadString('\n')
        return text

In this example, the prompt by default has a colon and a space in front of it . . .


. . . however you can override that by supplying a parameter to the prompt function.

prompt("Input here -> ")

This will result in a prompt like below.

Input here ->

I ended up using a combination of a structure of params and variadic args. This way, I didn't have to change the existing interface which was consumed by several services and my service was able to pass additional params as needed. Sample code in golang playground: https://play.golang.org/p/G668FA97Nu


I am a little late, but if you like fluent interface you might design your setters for chained calls like this:

type myType struct {
  s string
  a, b int

func New(s string, err *error) *myType {
  if s == "" {
    *err = errors.New(
      "Mandatory argument `s` must not be empty!")
  return &myType{s: s}

func (this *myType) setA (a int, err *error) *myType {
  if *err == nil {
    if a == 42 {
      *err = errors.New("42 is not the answer!")
    } else {
      this.a = a
  return this

func (this *myType) setB (b int, _ *error) *myType {
  this.b = b
  return this

And then call it like this:

func main() {
  var err error = nil
  instance :=
    New("hello", &err).
    setA(1, &err).
    setB(2, &err)

  if err != nil {
    fmt.Println("Failed: ", err)
  } else {

This is similar to the Functional options idiom presented on @Ripounet answer and enjoys the same benefits but has some drawbacks:

  1. If an error occurs it will not abort immediately, thus, it would be slightly less efficient if you expect your constructor to report errors often.
  2. You'll have to spend a line declaring an err variable and zeroing it.

There is, however, a possible small advantage, this type of function calls should be easier for the compiler to inline but I am really not a specialist.

  • this is a builder pattern – UmNyobe Jan 22 '18 at 13:32

Go language does not support method overloading, but you can use variadic args just like optional parameters, also you can use interface{} as parameter but it is not a good choice.


You can pass arbitrary named parameters with a map.

type varArgs map[string]interface{}

func myFunc(args varArgs) {

    arg1 := "default" // optional default value
    if val, ok := args["arg1"]; ok {
        // value override or other action
        arg1 = val.(string) // runtime panic if wrong type

    arg2 := 123 // optional default value
    if val, ok := args["arg2"]; ok {
        // value override or other action
        arg2 = val.(int) // runtime panic if wrong type

    fmt.Println(arg1, arg2)

func Test_test() {
    myFunc(varArgs{"arg1": "value", "arg2": 1234})

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