Table of Contents

Overview

GO struct is named collection of data fields which can be of different types. Struct acts as a container that has different heterogeneous data types which together represents an entity.

For example, different attributes are used to represent an employee in an organization. Employee can have

Name of string type

Age of int type

DOB of time.Time type

Salary of int type

.. and so on. A struct can be used to represent an employee

type employee struct {
    name   string
    age    int
    salary int
}

A struct in golang can be compared to a class in Object Oriented Languages

Declaring a struct type

Below is the format for declaring a struct

type struct_name struct {
    field_name1 field_type1
    field_name2 field_type2
    ...
}

In the above format, struct_name is the name of the struct. It has a field named field_name1 of type field_type1 and a field named field_name2 of type field_type2. This declares a new named struct type which acts as a blueprint. The type keyword is used to introduce a new type

Example

type point struct {
    x float64
    y float64
}

The above declaration declares a new struct named point which has two field x and y. Both fields are of float64 type.Once a new struct type is declared we can define new concrete struct variable from it as we will see in next section

Creating a struct variable

Declaring a struct just declares a named struct type. Creating a struct variable, creates an instance of that struct with memory being initialized as well. We can create a empty struct variable without given any value to any of the field

emp := employee{}

In this case, all the fields in the struct are initialized with a default zero value of that field type. We can also intialize value for each struct field while creating a struct variable. There are two variations

On the same line

emp := employee{name: "Sam", age: 31, salary: 2000}

Each field on different lines

emp := employee{
   name:   "Sam",
   age:    31,
   salary: 2000,
}

It is also ok to initialize only some of the fields with value. The field which are not initialized with value will get the default zero value of their type

emp := employee{
   name: "Sam",
   age: 31,
}

In the above case, salary will get the default value of zero since it is not initialized

Let’s see a working code illustrating above points:

package main

import "fmt"

type employee struct {
    name   string
    age    int
    salary int
}

func main() {
    emp1 := employee{}
    fmt.Printf("Emp1: %+v\n", emp1)

    emp2 := employee{name: "Sam", age: 31, salary: 2000}
    fmt.Printf("Emp2: %+v\n", emp2)

    emp3 := employee{
        name:   "Sam",
        age:    31,
        salary: 2000,
    }
    fmt.Printf("Emp3: %+v\n", emp3)

    emp4 := employee{
        name: "Sam",
        age:  31,
    }
    fmt.Printf("Emp4: %+v\n", emp4)
}

Output

Emp1: {name: age:0 salary:0}
Emp2: {name:Sam age:31 salary:2000}
Emp2: {name:Sam age:31 salary:0}

For above program

We first declare an employee struct.

emp1’s fields are all intialized with default zero value of its type i.e name with “”, age and salary with 0.

emp2 has been initialized with all field on the same line. Its fields are correctly printed with their value
emp3’s has been initialized with all fields on different lines. Its fields are correctly printed with their value

emp4’s salary field is initialized with a default zero value of 0. While other two fields are correctly printed with their value.

It is to be noted that in the initialization of a struct, every new line with in curly braces has to end with a comma. So below initialization will raise error as

 "salary" : 2000

doesn’t end with a comma.

emp := employee{
  name:   "Sam",
  age:    31,
  salary: 2000
}

The below will be fine as last brace is on the same line as last field

emp := employee{
  name:   "Sam",
  age:    31,
  salary: 2000}

Without field names

struct can also be initialized without specifying the field names. But in this case, all values for each of the field has to be provided in sequence

emp := employee{"Sam", 31, 2000}

A compiler error will be raised if all values are not provided when field name is not used.

Let’s see a program

package main

import "fmt"

type employee struct {
    name   string
    age    int
    salary int
}

func main() {
    emp := employee{"Sam", 31, 2000}
    fmt.Printf("Emp: %+v\n", emp)

    //emp = employee{"Sam", 31}
}

Output

Emp2: {name:Sam age:31 salary:2000}

Uncomment the line

emp = employee{"Sam", 31}

in the above program, and it will raise compiler error

too few values in employee literal

golang