There's not a lot of Go code to learn the language from, and I'm sure I'm not the only one experimenting with it. So, if you found out something interesting about the language, please post an example here.

I'm also looking for

  • idiomatic ways to do things in Go,
  • C/C++ style of thinking "ported" to Go,
  • common pitfalls about the syntax,
  • anything interesting, really.

closed as not constructive by Jeremy, Bill the Lizard Sep 1 '11 at 11:22

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  • ARM support such as 8-bit or 16-bit. D language still do not. – YumYumYum Dec 27 '11 at 14:37
  • 1
    The library (golang.org/pkg) is an excellent source to learn how go is used. Personally, I find that learning how data structures are implemented is helpful to learn the language. – tkokasih Oct 21 '13 at 11:19

25 Answers 25


Defer statements

A "defer" statement invokes a function whose execution is deferred to the moment the surrounding function returns.

DeferStmt = "defer" Expression .

The expression must be a function or method call. Each time the "defer" statement executes, the parameters to the function call are evaluated and saved anew but the function is not invoked. Deferred function calls are executed in LIFO order immediately before the surrounding function returns, but after the return values, if any, have been evaluated.

defer unlock(l);  // unlocking happens before surrounding function returns

// prints 3 2 1 0 before surrounding function returns
for i := 0; i <= 3; i++ {
    defer fmt.Print(i);


defer is now also the idiomatic way to handle panic in an exception-like manner:

package main

import "fmt"

func main() {
    fmt.Println("Returned normally from f.")

func f() {
    defer func() {
        if r := recover(); r != nil {
            fmt.Println("Recovered in f", r)
    fmt.Println("Calling g.")
    fmt.Println("Returned normally from g.")

func g(i int) {
    if i > 3 {
        panic(fmt.Sprintf("%v", i))
    defer fmt.Println("Defer in g", i)
    fmt.Println("Printing in g", i)
  • 3
    What is it good for? – user181548 Nov 13 '09 at 16:54
  • 16
    Looks like good old RAII (made explicit). – Konrad Rudolph Nov 14 '09 at 12:11
  • 4
    +1 since I read a lot about Go, but I still didn't see this (until you showed me)! – u0b34a0f6ae Nov 14 '09 at 19:36
  • Clever, although it would make more sense to me if defer statements where executed in FIFO order (top to bottom), but maybe that's just me... – Mike Spross Nov 15 '09 at 7:49
  • 4
    @Mike: if you compare with blocks of "try:..finally:" LIFO nests in the same way. For resource open/close pairs etc, nesting like this is the only thing that makes sense (First open will close last). – u0b34a0f6ae Nov 18 '09 at 20:28

Go object files actually include a cleartext header:

jurily@jurily ~/workspace/go/euler31 $ 6g euler31.go
jurily@jurily ~/workspace/go/euler31 $ cat euler31.6
  exports automatically generated from
  euler31.go in package "main"

$$  // exports
  package main
    var main.coin [9]int
    func main.howmany (amount int, max int) (? int)
    func main.main ()
    var main.initdone· uint8
    func main.init ()

$$  // local types
  type main.dsigddd_1·1 struct { ? int }


<binary segment>
  • 6
    That's more like a hidden feature than an idiomatic example – hasen Dec 1 '09 at 2:53
  • 2
    That's awesome! – Matt Joiner Dec 1 '10 at 3:03

I have seen a couple of people complaining about the for-loop, along the lines of "why should we have to say i = 0; i < len; i++ in this day and age?".

I disagree, I like the for construct. You can use the long version if you wish, but the idiomatic Go is

var a = []int{1,2,3};
for i, v := range a {
  fmt.Println(i, v);

The for .. range construct loops over all the elements and supplies two values - the index i and the value v.

range also works on maps and channels.

Still, if you dislike for in any form, you can define each, map etc. in a few lines:

type IntArr []int

  // 'each' takes a function argument. 
  // The function must accept two ints, the index and value,
  // and will be called on each element in turn.
func (a IntArr) each(fn func(index, value int)) {
  for i, v := range a { fn(i, v); }

func main() {
  var a = IntArr([]int{2,0,0,9}); // create int slice and cast to IntArr
  var fnPrint = func (i, v int) { 
    fmt.Println(i, ":", v); 
  }; // create a function 

  a.each(fnPrint); // call on each element


0 : 2
1 : 0
2 : 0
3 : 9

I'm starting to like Go a lot :)

  • Though range is only nice, if it is compiled to the same code as the for-3 loop. – Thomas Ahle Jun 30 '14 at 21:20

Go and get your stackoverflow reputation

This is a translation of this answer.

package main

import (

func die(message string) {
    fmt.Printf("%s.\n", message);

func main() {
    kinopiko_flair := "https://stackoverflow.com/users/flair/181548.json"
    response, _, err := http.Get(kinopiko_flair)
    if err != nil {
        die(fmt.Sprintf("Error getting %s", kinopiko_flair))

    var nr int
    const buf_size = 0x1000
    buf := make([]byte, buf_size)

    nr, err = response.Body.Read(buf)
    if err != nil && error != os.EOF {
        die(fmt.Sprintf("Error reading response: %s", err.String()))
    if nr >= buf_size { die ("Buffer overrun") }

    json_text := strings.Split(string(buf), "\000", 2)
    parsed, ok, errtok := json.StringToJson(json_text[0])
    if ! ok {
        die(fmt.Sprintf("Error parsing JSON %s at %s", json_text, errtok))

    fmt.Printf("Your stackoverflow.com reputation is %s\n", parsed.Get ("reputation"))

Thanks to Scott Wales for help with .Read ().

This looks fairly clunky still, with the two strings and two buffers, so if any Go experts have advice, let me know.

  • I'm not sure what was supposed to be wrong with the formatting; I've restored it. – user181548 Nov 13 '09 at 12:30
  • 5
    The Go authors recommend to gofmt your code :-) – ℝaphink Dec 24 '09 at 10:23
  • I can't compile it: $ ../go/src/cmd/6g/6g SO.go SO.go:34: undefined: json.StringToJson – ℝaphink Dec 24 '09 at 10:27
  • @Raphink: the language has changed since I made this. – user181548 Dec 24 '09 at 11:37
  • Yeah, do you know maybe what's the closest equivalent to the StringToJson? It used to set up a builder internally, now one has to provide their own with a predefined native structure? – macbirdie Jan 5 '10 at 15:03

Here's a nice example of iota from Kinopiko's post:

type ByteSize float64
const (
    _ = iota;   // ignore first value by assigning to blank identifier
    KB ByteSize = 1<<(10*iota)

// This implicitly repeats to fill in all the values (!)
  • 5
    Note that the semicolons are unnecessary. – mk12 Jul 9 '13 at 16:05

Here's an idiom from the Effective Go page

switch {
case '0' <= c && c <= '9':
    return c - '0'
case 'a' <= c && c <= 'f':
    return c - 'a' + 10
case 'A' <= c && c <= 'F':
    return c - 'A' + 10
return 0

The switch statement switches on true when no expression is given. So this is equivalent to

if '0' <= c && c <= '9' {
    return c-'0';
  } else if 'a' <= c && c <= 'f' {
    return c - 'a' + 10;
  } else if 'A' <= c && c <= 'F' {
    return c - 'A' + 10;
  return 0;

At the moment, the switch version looks a little cleaner to me.

  • 6
    Whoa, completely ripped of from VB. ;-) (Switch True …) – Konrad Rudolph Nov 13 '09 at 12:43
  • @Konrad, beat me to it! :) I've used that idiom in VB6 code before and it definitely can help readability in certain situations. – Mike Spross Nov 15 '09 at 7:41
  • What is '<='? Is it related to '<-' ? – ℝaphink Dec 24 '09 at 10:32
  • @Raphink: less-than-or-equals. – Paul Ruane Nov 16 '11 at 17:37

You can swap variables by parallel assignment:

x, y = y, x

// or in an array
a[j], a[i] = a[i], a[j]

simple but effective.


Type switches:

switch i := x.(type) {
case nil:
    printString("x is nil");
case int:
    printInt(i);  // i is an int
case float:
    printFloat(i);  // i is a float
case func(int) float:
    printFunction(i);  // i is a function
case bool, string:
    printString("type is bool or string");  // i is an interface{}
    printString("don't know the type");

When importing packages, you can redefine the name to anything you want:

package main

import f "fmt"

func main()
    f.Printf("Hello World\n");

From James Antill's answer:

foo     := <-ch; // This blocks.
foo, ok := <-ch; // This returns immediately.

Also, a potential pitfall: the subtle difference between the receive and send operators:

a <- ch; // sends ch to channel a
  <-ch;  // reads from channel ch

Named result parameters

The return or result "parameters" of a Go function can be given names and used as regular variables, just like the incoming parameters. When named, they are initialized to the zero values for their types when the function begins; if the function executes a return statement with no arguments, the current values of the result parameters are used as the returned values.

The names are not mandatory but they can make code shorter and clearer: they're documentation. If we name the results of nextInt it becomes obvious which returned int is which.

func nextInt(b []byte, pos int) (value, nextPos int) {

Because named results are initialized and tied to an unadorned return, they can simplify as well as clarify. Here's a version of io.ReadFull that uses them well:

func ReadFull(r Reader, buf []byte) (n int, err os.Error) {
    for len(buf) > 0 && err == nil {
        var nr int;
        nr, err = r.Read(buf);
        n += nr;
        buf = buf[nr:len(buf)];
  • 1
    I'm curious -- does any other language have this? – u0b34a0f6ae Nov 22 '09 at 21:57
  • 1
    Matlab has something similar. – Dan Lorenc Nov 24 '09 at 4:47
  • pascal uses similar syntax for returning one value. – nes1983 Dec 15 '12 at 11:01
  • 1
    @nes1983 For those who don't know, in Pascal you classically assign the return value to the function name. – fuz Feb 27 '13 at 21:36
  • FORTRAN pretty much has this. – Hut8 Jun 15 '14 at 18:21
 * How many different ways can £2 be made using any number of coins?
 * Now with 100% less semicolons!

package main
import "fmt"

/* This line took me over 10 minutes to figure out.
 *  "[...]" means "figure out the size yourself"
 * If you only specify "[]", it will try to create a slice, which is a reference to an existing array.
 * Also, ":=" doesn't work here.
var coin = [...]int{0, 1, 2, 5, 10, 20, 50, 100, 200}

func howmany(amount int, max int) int {
    if amount == 0 { return 1 }
    if amount < 0 { return 0 }
    if max <= 0 && amount >= 1 { return 0 }

    // recursion works as expected
    return howmany(amount, max-1) + howmany(amount-coin[max], max)

func main() {
    fmt.Println(howmany(200, len(coin)-1))
  • 4
    I would suggest removing the name of the problem solving site as well as the id number. Maybe rephrase the question. As to not spoil the problem to someone stumbling over it. Or trying to cheat by searching for the problem on the net for that matter. – Mizipzor Nov 12 '09 at 10:02
  • 1
    For the record: this is the algorithm from algorithmist.com/index.php/Coin_Change It's the first Google result for "coin change". – György Andrasek Nov 12 '09 at 10:20

I like that you can redefine types, including primitives like int, as many times as you like and attach different methods. Like defining a RomanNumeral type:

var numText = "zero one two three four five six seven eight nine ten"
var numRoman = "- I II III IV V VI VII IX X"
var aText = strings.Split(numText, " ", 0)
var aRoman = strings.Split(numRoman, " ", 0)

type TextNumber int
type RomanNumber int

func (n TextNumber) String() string {
  return aText[n];
func (n RomanNumber) String() string {
  return aRoman[n];
func main() {
  var i = 5;
  fmt.Println("Number: ", i, TextNumber(i), RomanNumber(i));

Which prints out

Number:  5 five V

The RomanNumber() call is essentially a cast, it redefines the int type as a more specific type of int. And Println() calls String() behind the scenes.


Returning a channel

This is a true idiom that is quite important: how to feed data into a channel and close it afterwards. With this you can make simple iterators (since range will accept a channel) or filters.

// return a channel that doubles the values in the input channel
func DoublingIterator(input chan int) chan int {
    outch := make(chan int);
    // start a goroutine to feed the channel (asynchronously)
    go func() {
        for x := range input {
            outch <- 2*x;    
        // close the channel we created and control
    return outch;
  • +1. Also, you can pass channels through channels as well. – György Andrasek Nov 22 '09 at 20:42
  • 5
    But be careful not to break out of a for x := range chan {} loop, you'll leak the goroutine, and all the memory it references. – Jeff Allen Nov 12 '10 at 15:51
  • 3
    @JeffAllen how about defer close(outch); as the first statement of the goroutine? – user142019 May 5 '13 at 15:48
  • 1
    Defer queues a statement for execution when the function returns, no matter which return point is taken. But if channel input is never closed, then the anonymous function in this example will never leave the for loop. – Jeff Allen May 8 '13 at 6:34
for {
  v := <-ch;
  if closed(ch) { break }

Since range automatically checks for a closed channel, we can shorten to this:

for v := range ch {

Timeout for channel reads:

ticker := time.NewTicker(ns);
select {
    case v := <- chan_target:
    case <- ticker.C:

Stolen from Davies Liu.


There is a make system set up that you can use in $GOROOT/src

Set up your makefile with

TARG=foobar           # Name of package to compile
GOFILES=foo.go bar.go # Go sources
CGOFILES=bang.cgo     # Sources to run cgo on
OFILES=a_c_file.$O    # Sources compiled with $Oc
                      # $O is the arch number (6 for x86_64)

include $(GOROOT)/src/Make.$(GOARCH)
include $(GOROOT)/src/Make.pkg

You can then use the automated testing tools by running make test, or add the package and shared objects from cgo to your $GOROOT with make install.


This is an implementation of a stack. It illustrates adding methods onto a type.

I wanted to make the stack part of it into a slice and use the slice's properties, but although I got that to work without the type, I couldn't see the syntax for defining a slice with a type.

package main
import "fmt";
import "os";

const stack_max = 100;

type Stack2 struct {
    stack [stack_max]string;
    size int;

func (s *Stack2) push (pushed_string string) {
    n := s.size;
    if n >= stack_max - 1 {
        fmt.Print ("Oh noes\n");
        os.Exit (1);
    s.stack[n] = pushed_string

func (s *Stack2) pop () string {
    n := s.size;
    if n == 0 {
        fmt.Print ("Underflow\n");
        os.Exit (1);
    top := s.stack[n-1];
    return top;

func (s *Stack2) print_all () {
    n := s.size;
    fmt.Printf ("Stack size is %d\n", n);
    for i := 0; i < n; i++ {
        fmt.Printf ("%d:\t%s\n", i, s.stack[i]);

func main () {
    stack := new (Stack2);
    stack.print_all ();
    stack.push ("boo");
    stack.print_all ();
    popped := stack.pop ();
    fmt.Printf ("Stack top is %s\n", popped);
    stack.print_all ();
    stack.push ("moo");
    stack.push ("zoo");
    stack.print_all ();
    popped2 := stack.pop ();
    fmt.Printf ("Stack top is %s\n", popped2);
    stack.print_all ();
  • 10
    Rather than using fmt.Printf(...); os.Exit();, you can use panic(...). – notnoop Nov 12 '09 at 19:28
  • 1
    That gives a stack trace, which I don't want. – user181548 Nov 17 '09 at 13:00
  • 3
    Why is it limited? Go is a managed, gc'd language. Your stack can be as deep as you want. Use the new append() builtin, which will do something like C's realloc when it needs to. – Jeff Allen Nov 12 '10 at 15:56
  • "Go does not need generics", they said. – cubuspl42 Oct 13 '15 at 12:04

Another interesting thing in Go is that godoc. You can run it as a web server on your computer using

godoc -http=:8080

where 8080 is the port number, and the entire website at golang.org is then available at localhost:8080.

  • Is this a regular program or a daemon? – György Andrasek Nov 15 '09 at 14:14
  • I don't know. <!-- 15 --> – user181548 Nov 15 '09 at 14:22
  • It is a regular program. – Jeremy Jun 10 '11 at 14:32

Calling c code from go

It's possible to access the lower level of go by using the c runtime.

C functions are in the form

void package·function(...)

(note the dot seperator is a unicode character) where the arguments may be basic go types, slices, strings etc. To return a value call


(you can return more than one value)

For instance, to create a function

package foo
bar( a int32, b string )(c float32 ){
    c = 1.3 + float32(a - int32(len(b))

in C you use

#include "runtime.h"
void foo·bar(int32 a, String b, float32 c){
    c = 1.3 + a - b.len;

Note that you still should declare the function in a go file, and that you'll have to take care of memory yourself. I'm not sure if it's possible to call external libraries using this, it may be better to use cgo.

Look at $GOROOT/src/pkg/runtime for examples used in the runtime.

See also this answer for linking c++ code with go.

  • 3
    Does it use the "flying dot", really? I don't dare edit, but that seems a bit unexpected and radical. – unwind Nov 12 '09 at 9:42
  • Yes, you need to compile with 6c (or 8c, etc). I don't think gcc handles unicode identifiers. – Scott Wales Nov 12 '09 at 9:43
  • 1
    I think AltGr+period types the same · but with unicode I'm not sure. Was very surprised to see that in source I read.. why not use something like ::? – u0b34a0f6ae Nov 14 '09 at 19:34
  • The character is MIDDLE DOT U+00B7. The parser may have been fudged so that it sees this as a character in order to make a valid c identifier, which I believe would preclude ::. – Scott Wales Nov 14 '09 at 20:59
  • 4
    The '·' is just a temporary hack, rob was even surprised it was still there, he said it was going to be replaced with something less idiosyncratic. – uriel Nov 14 '09 at 23:17

Here is a go example using the sqlite3 package.



Did you watch this talk? It shows a lot of cool stuff you can do (end of the talk)

  • 2
    Yes, I did. It boils down to "There's a lot more in there, let's move on to the next topic." – György Andrasek Nov 12 '09 at 6:04
  • Yes, apparently a lot to say with little time – user180100 Nov 12 '09 at 6:06
const ever = true;

for ever {
    //infinite loop
  • 24
    ahem. for { /* infinite loop */ } is enough. – u0b34a0f6ae Nov 12 '09 at 22:48
  • 2
    Of course. That's exactly what's happening here. I just like the forever keyword. Even Qt has a macro for that. – György Andrasek Nov 12 '09 at 22:57
  • 6
    but Go doesn't need a macro or a cute alias of true to do this. – u0b34a0f6ae Nov 14 '09 at 19:40
  • @kaizer.se: Jurily's point is that for ever (after declaring the variable) is something cute you can do in Go if you want to. It looks like English (modulo the blank). – Frank Nov 15 '09 at 13:06
  • 8
    it is something cute you can do in C as well.. :-) #define ever (;;) – u0b34a0f6ae Nov 22 '09 at 16:33

A stack based on the other answer, but using slice appending to have no size limit.

package main

import "fmt"
import "os"

type Stack2 struct {
        // initial storage space for the stack
        stack [10]string
        cur   []string

func (s *Stack2) push(pushed_string string) {
        s.cur = append(s.cur, pushed_string)

func (s *Stack2) pop() (popped string) {
        if len(s.cur) == 0 {
        popped = s.cur[len(s.cur)-1]
        s.cur = s.cur[0 : len(s.cur)-1]

func (s *Stack2) print_all() {
        fmt.Printf("Stack size is %d\n", len(s.cur))
        for i, s := range s.cur {
                fmt.Printf("%d:\t%s\n", i, s)

func NewStack() (stack *Stack2) {
        stack = new(Stack2)
        // init the slice to an empty slice of the underlying storage
        stack.cur = stack.stack[0:0]

func main() {
        stack := NewStack()
        popped := stack.pop()
        fmt.Printf("Stack top is %s\n", popped)
        popped2 := stack.pop()
        fmt.Printf("Stack top is %s\n", popped2)

There are a lot of small programs in test in the main directory. Examples:

  • peano.go prints factorials.
  • hilbert.go has some matrix multiplication.
  • iota.go has examples of the weird iota thing.

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