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In Go, string is a primitive type, it's readonly, every manipulation to it will create a new string.

So, if I want to concatenate strings many times without knowing the length of the resulting string, what's the best way to do it?

The naive way would be:

s := "";
for i := 0; i < 1000; i++ {
    s += getShortStringFromSomewhere();
return s;

but that does not seem very efficient.

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Also, you don't need semi-colons. –  Thomas Ahle Jun 28 '14 at 22:44

9 Answers 9

up vote 212 down vote accepted

The best way is to use the bytes package. It has a Buffer class, which implements io.Writer.

package main

import (

func main() {
    var buffer bytes.Buffer

    for i := 0; i < 1000; i++ {


This does it in O(n) time.

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Is this technique Unicode-clean? –  Kevin Reid Oct 27 '11 at 1:49
Yes. Almost everything in Go is Unicode-clean. –  Mostafa Jan 30 '12 at 7:39
instead of println(string(buffer.Bytes())); use could just do println(buffer.String()) –  FigmentEngine Feb 13 '12 at 4:52
Instead of buffer := bytes.NewBufferString(""), you can do var buffer bytes.Buffer. You also don't need any of those semicolons :). –  crazy2be Jun 9 '12 at 23:52
Incredibly fast. Made some naive "+" string concat in my program go from 3 minutes to 1.3 seconds. –  Malcolm Sep 17 '13 at 16:34

There is a library function in the strings package called "Join": http://golang.org/pkg/strings/#Join

A look at the code of "Join" shows a similar approach to Append function Kinopiko wrote: http://golang.org/src/pkg/strings/strings.go?s=8409:8413#L380


import (

func main() {
    s := []string{"this", "is", "a", "joined", "string\n"};
    fmt.Printf(strings.Join(s, " "));

$ ./test.bin
this is a joined string
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Doesn't work when you have to loop over something that isn't a []string. –  Malcolm Sep 17 '13 at 16:34

The most efficient way to concatenate strings is using the builtin function copy. In my tests, that approach is ~3x faster than using bytes.Buffer and much much faster (~12,000x) than using the operator +. Also, it uses less memory.

I've created a test case to prove this and here are the results:

BenchmarkConcat  1000000         64497 ns/op      502018 B/op          0 allocs/op
BenchmarkBuffer 100000000           15.5 ns/op         2 B/op          0 allocs/op
BenchmarkCopy   500000000            5.39 ns/op        0 B/op          0 allocs/op
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great answer, I wish every question like this would contain an embedded mini-benchmark! –  mrgamer Jun 7 '14 at 0:40
The bytes.Buffer should do basically the same as the copy (with some extra bookkeeping I guess) and the speed isn't that different. So I'd use that :). The difference being that the buffer starts with 0 bytes so it has to reallocate (this make it seem a little slower I guess). Easier to use, though. –  Aktau Jun 27 '14 at 12:50
The test case returns runtime.main: undefined: main.main –  ceving Dec 6 '14 at 23:37
You can't run test files just like you run regular files; you have to run them with go test. –  cd1 Dec 8 '14 at 17:23
@ceving, if you've go 1.3+ first rename the file so it has a *_test.go extension and change the package to anything other than main. Then, run it like this: go test example_test.go -bench="Benchmark." –  eric_lagergren Feb 9 at 4:25

I just benchmarked the top answer posted above in my own code (a recursive tree walk) and the simple concat operator is actually faster than the BufferString.

func (r *record) String() string {
    buffer := bytes.NewBufferString("");
    for i := 0; i < len(r.subs); i++ {
    return buffer.String()

This took 0.81s, whereas the following code:

func (r *record) String() string {
    s := "(\"" + r.name + "\" ["
    for i := 0; i < len(r.subs); i++ {
        s += r.subs[i].String()
    s += "] " + strconv.FormatInt(r.size,10) + ")\n"
    return s

only took 0.61s. This is probably due to the overhead of creating the new BufferStrings.

Update: I also benchmarked the join function and it ran in 0.54s

func (r *record) String() string {
    var parts []string
    parts = append(parts, "(\"", r.name, "\" [" )
    for i := 0; i < len(r.subs); i++ {
        parts = append(parts, r.subs[i].String())
    parts = append(parts, strconv.FormatInt(r.size,10), ")\n")
    return strings.Join(parts,"")
share|improve this answer
I believe the OP was more concerned about memory complexity rather than runtime complexity, given the fact that naive string concatenations result in new memory allocations each time. –  galaktor Aug 16 '12 at 19:30
The slow speed of this might well be related to using fmt.Fprint instead of buffer.WriteString("\t"); buffer.WriteString(subs[i]); –  Robert Jack Will Aug 13 '13 at 9:04
I am glad to know that my preferred method of (strings.Join) run as the fastest while from this saying that (bytes.Buffer) is the winner! –  hyip script Mar 22 at 21:26

You could create a big slice of bytes and copy the bytes of the short strings into it using string slices. There is a function given in "Effective Go":

func Append(slice, data[]byte) []byte {
    l := len(slice);
    if l + len(data) > cap(slice) {	// reallocate
    	// Allocate double what's needed, for future growth.
    	newSlice := make([]byte, (l+len(data))*2);
    	// Copy data (could use bytes.Copy()).
    	for i, c := range slice {
    		newSlice[i] = c
    	slice = newSlice;
    slice = slice[0:l+len(data)];
    for i, c := range data {
    	slice[l+i] = c
    return slice;

Then when the operations are finished, use string ( ) on the big slice of bytes to convert it into a string again.

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It's interesting that there are so many ways to do this in Go. –  Yitzhak Nov 16 '12 at 5:21
In effective go, it also says that the idea is so useful it was captured in a builtin. So you can replace your function with append(slice, byte...), it seems. –  Aktau Jun 27 '14 at 12:52

This is the fastest solution that does not require you to know or calculate the overall buffer size first:

var data []byte
for i := 0; i < 1000; i++ {
    data = append(data, getShortStringFromSomewhere()...)
return string(data)

By my benchmark, it's 20% slower than the copy solution (8.1ns per append rather than 6.72ns) but still 55% faster than using bytes.Buffer.

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My original suggestion was

s12 := fmt.Sprint(s1,s2)

But above answer using bytes.Buffer - WriteString() is the most efficient way.

My initial suggestion uses reflection and a type switch. See (p *pp) doPrint and (p *pp) printArg
There is no universal Stringer() interface for basic types, as I had naively thought.

At least though, Sprint() internally uses a bytes.Buffer. Thus

`s12 := fmt.Sprint(s1,s2,s3,s4,...,s1000)`

is acceptable in terms of memory allocations.

=> Sprint() concatenation can be used for quick debug output.
=> Otherwise use bytes.Buffer ... WriteString

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It's not built in and it's not efficient. –  peterSO Jul 2 '13 at 14:38
Importing a package (like fmt) means it's not builtin. It's in the standard library. –  Malcolm Sep 17 '13 at 16:33
It's slow only because it uses reflection on it's arguments. It's efficent. Otherwise it's not less efficient than joining with strings.Join –  ithkuil Nov 11 '13 at 17:07

Expanding on cd1's answer: You might use append() instead of copy(). append() makes ever bigger advance provisions, costing a little more memory, but saving time. I added two more benchmarks at the top of yours. Run locally with

go test -bench=. -benchtime=100ms

On my thinkpad T400s it yields:

BenchmarkAppendEmpty    50000000         5.0 ns/op
BenchmarkAppendPrealloc 50000000         3.5 ns/op
BenchmarkCopy           20000000        10.2 ns/op
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s := fmt.Sprintf("%s%s", []byte(s1), []byte(s2))
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This is solution very slow, because it uses reflection, it parses the format string, and it makes a copy of the data for the []byte(s1) conversion. Comparing it with other solutions posted, can you name a single advantage of your solution? –  pts Dec 4 '13 at 22:34

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