Go String

A string is a sequence of characters. For example, "Golang" is a string that includes characters: G, o, l, a, n, g.

We use double quotes to represent strings in Go. For example,

// using var
var name1 = "Go Programming"

// using shorthand notation
name2 := "Go Programming"

Here, both name1 and name2 are strings with the value "Go Programming".


Example: Golang String

// Program to create a string in Golang

package main
import "fmt"

func main() {

// create string using var var message1 = "Hello," // create string using shorthand notation message2 := "Welcome to Programiz"
fmt.Println(message1) fmt.Println(message2) }

Output

Hello,
Welcome to Programiz

Golang String using backtick (` `)

In Go, we can also represent strings using the tick mark notation. For example,

Program to represent a string with a backtick

package main
import "fmt"

func main() {

// represent string with ` ` message := `I love Go Programming`
fmt.Println(message) }

Output

I love Go Programming

Access Characters of String in Go

We know that a string is a sequence of characters. Hence, we can access individual characters of a string.

Just like the Go array, we use index numbers to access string characters. For example,

// Program to access individual character of string

package main
import "fmt"
 
func main() {

  // create and initialize a string
  name := "Programiz"

  // access first character
  fmt.Printf("%c\n", name[0])  // P

  // access fourth character
  fmt.Printf("%c\n", name[3])  // g

  // access last character
  fmt.Printf("%c", name[8])  // z
}

Remember a string index starts from 0, not 1.

Accessing Individual Character of a String in Golang
Accessing Individual Character of a String in Golang

Hence,

  • name[0] - returns the first character of the string
  • name[3] - returns the fourth character
  • name[8] - returns the ninth (last) character

Find the length of a string

In Go, we use the len() function to find the length of a string. For example,

// Program to count the length of a string

package main
import "fmt"
 
func main() {
 
  // create string
  message := "Welcome to Programiz"
    
// use len() function to count length stringLength := len(message)
fmt.Println("Length of a string is:", len(stringLength)) }

Output

Length of a string is: 20

Here, len() returns the number of characters present inside the string.


Join Two Strings Together

In Go, we can use the + operator to join (concatenates) strings together. For example,

// Program to concatenate two strings

package main
import "fmt"

func main() {  
  message1 := "I love"
  message2 := "Go programming"
    
// concatenation using + operator result := message1 + " " + message2
fmt.Println(result)
}

Output

I love Go programming

Here, we have used the + operator to join three strings: message1, " ", and message2.


Golang String Methods

In Go, the strings package provides various methods that can be used to perform different operations on strings.

Functions Descriptions
Compare() compares two strings
Contains() checks if a substring is present inside a string
Replaces() replaces a substring with another substring
ToLower() converts a string to lowercase
ToUpper() converts a string to uppercase
Split() splits a string into multiple substrings

To use these methods, we must first import the strings package in our code.

import (
  "fmt"
  "strings"
)

Compare Two Strings in Go

We use the Compare() of the strings package to compare two strings. For example,

// Program to compare string using Compare()

package main
import (
  "fmt"
  "strings"
)

func main() {

  // create three strings
  string1 := "Programiz"
  string2 := "Programiz Pro"
  string3 := "Programiz"

// compare strings fmt.Println(strings.Compare(string1, string2)) // -1 fmt.Println(strings.Compare(string2, string3)) // 1 fmt.Println(strings.Compare(string1, string3)) // 0
}

Here, we have used

strings.Compare(string1, string2)

to compare two strings: string1 and string2. The function returns:

  • -1 because string1 is smaller than string2
  • 1 because string2 is greater than string3
  • 0 because string1 and string3 are equal

Note: We have imported strings at the beginning of the program and used strings.Compare() not Compare().


Check if String contains Substring

To check if a substring is present inside a string, we use the Contains() method of the Go strings package.

Let's see an example,

// Program to illustrate the use of Contains()

package main
import (
  "fmt"
  "strings"
)

func main() {

  text := "Go Programming"
  substring1 := "Go"
  substring2 := "Golang"

// check if Go is present in Go Programming result := strings.Contains(text, substring1)
fmt.Println(result)
// check if Golang is present in Go Programming result = strings.Contains(text, substring2)
fmt.Println(result) }

Output

true
false

Here, we get the output

  • true because the substring "Go" is present inside the string "Go Programming"
  • false because the substring "Golang" is not present inside the string "Go Programming"

Replace a String in Go

To replace a string, we use the Replace() method present inside the strings package. For example,

// Program using Replace() to replace strings

package main
import (
  "fmt"
  "strings"
)

func main() {
    
  text := "car"
  fmt.Println("Old String:", text)
  
// replace r with t replacedText := strings.Replace(text, "r", "t", 1)
fmt.Println("New String:", replacedText) }

Output

Old String: car
New String: cat

Notice the use of the Replace() method

strings.Replace(text, "r", "t", 1)

Here,

  • text - string where we perform the replace operation
  • "r" - old character that needs to be replaced
  • "t" - new character that replaces the old character
  • 1 - represents how many old characters to be replaced

Note: If we need to replace multiple characters, we can change the value of numbers from 1 to any other. For example,

// replace 2 r with 2 a
strings.Replace("Programiz", "r", "R", 2)

// Output: PRogRamiz

Change Case of Go String

The strings package provides

  • ToUpper() - to change string to uppercase
  • ToLower() - to change string to lowercase

We use the ToUpper() function to change the given string to uppercase. The function ToUpper() is provided by the package strings. For example,

// Program to convert a string to uppercaseand lowercase

package main
import (
  "fmt"
  "strings"
)

func main() {

  text1 := "go is fun to learn"

// convert to uppercase text1 = strings.ToUpper(text1)
fmt.Println(text1) text2 := "I LOVE GOLANG" // convert to lowercase text2 = strings.ToLower(text2) fmt.Println(text2) }

Output

GO IS FUN TO LEARN
i love golang

Split Strings in Golang

In Go, we can split a string into multiple substrings using the Split() method. For example,

package main
import (
  "fmt"
  "strings"
)

func main() {
  var message = "I Love Golang"
  
// split string from space " " splittedString := strings.Split(message, " ")
fmt.Println(splittedString) } // Output: [I Love Golang]

Notice the code,

strings.Split(message, " ")

Here, we split the string at " ". Hence, we get individual words as output.

The Split() method returns a slice of all the substrings. In our example, [I Love Golang] is a slice.


Other String Operations

Compare Golang Strings using ==

In Go, we can also use the == operator to compare two strings. For example,

// Program to compare two strings using == operator

package main
import "fmt"

func main() {

// create 2 strings
  string1 := "Programiz"
  string2 := "programiz"

// compare two strings result := string1 == string2
fmt.Println(result) } // Output: false

The == operator returns

  • true - if two strings are equal
  • false - if two strings are not equal

Note: The == operator is case sensitive. Hence, Programiz and programiz are not equal.

Create Strings from a Slice

In Go, we can also create a string by joining all the elements of a string slice. For example,

// Program to create a single string from slices of strings using Join()

package main
import (
  "fmt"
  "strings"
)

func main() {

  // create a string slice
  words := []string{"I", "love", "Golang"}

  // join each element of the slice
  message := strings.Join(words, " ")
  fmt.Println(message)
}

// Output: I love Golang

Here, we have used the Join() method of the strings package to join each element of the slice.

To learn more about slice, visit Golang Slice.

Loop Through Strings in Golang

We use for range loop to iterate through each character of a Golang string. For example,

// Program to iterate through a string

package main
import "fmt"
 
func main() {    
  text := "Golang"
 
// for range loop to iterate through a string for _, character := range text { fmt.Printf("%c\n", character) }
}

Output

G
o
l
a
n
g

To learn about the for range loop, visit Go for range.


Escape Sequence in Golang String

We use escape characters to escape some of the characters present inside a string. For example,

Suppose we need to include double quotes inside a string.

// include double quote
message := "This article is about "String" in Go Programming."

Since strings are represented by double quotes, the compiler will treat "This article is about " as the string. Hence, the above code will cause an error.

To solve this issue, we can use the escape character \ in Go. For example,

// use the escape character
message := "This article is about \"String\" in Go Programming."

Now, the escape characters tell the compiler to escape double quotes and read the whole text.

Example: Escape Sequence

package main
import "fmt"

func main() {

// use escape character in string message := "This article is about \"String\" in Go Programming."
fmt.Println(message) } // Output: This article is about "String" in Go Programming.

Note: \n and \t are other popular escape sequences that add a new line and tab inside a string.


Go Strings are Immutable

In Go, strings are immutable. This means once we create a string, we cannot change it.

To understand it, consider an example,

// create a string
message := "Go"

Here, we have created a string variable named message with the value "Go".

Now, suppose we want to change the string.

// add another string "String" to the previous string
message = message + " " + "String"

Here, we are using the + operator to add another string "String" to the previous string.

It looks like we can change the value of the previous string. However, this is not true. Let's see what has happened here,

  1. go creates the first string "Go"
  2. It then creates another string by joining the first string with "String"
  3. assigns the new string to message
  4. the first string "Go" remains unchanged.

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