Go arrays allow you to define variables that can hold several data items of the same kind. Structure is another user-defined data type available in Go programming, which allows you to combine data items of different kinds.
Structures are used to represent a record. Suppose you want to keep track of the books in a library. You might want to track the following attributes of each book −
In such a scenario, structures are highly useful.
To define a structure, you must use type and struct statements. The struct statement defines a new data type, with multiple members for your program. The type statement binds a name with the type which is struct in our case. The format of the struct statement is as follows −
type struct_variable_type struct { member definition; member definition; ... member definition; }
Once a structure type is defined, it can be used to declare variables of that type using the following syntax.
variable_name := structure_variable_type {value1, value2...valuen}
To access any member of a structure, we use the member access operator (.). The member access operator is coded as a period between the structure variable name and the structure member that we wish to access. You would use struct keyword to define variables of structure type. The following example explains how to use a structure −
package main import "fmt" type Books struct { title string author string subject string book_id int } func main() { var Book1 Books /* Declare Book1 of type Book */ var Book2 Books /* Declare Book2 of type Book */ /* book 1 specification */ Book1.title = "Go Programming" Book1.author = "Mahesh Kumar" Book1.subject = "Go Programming Tutorial" Book1.book_id = 6495407 /* book 2 specification */ Book2.title = "Telecom Billing" Book2.author = "Zara Ali" Book2.subject = "Telecom Billing Tutorial" Book2.book_id = 6495700 /* print Book1 info */ fmt.Printf( "Book 1 title : %s\n", Book1.title) fmt.Printf( "Book 1 author : %s\n", Book1.author) fmt.Printf( "Book 1 subject : %s\n", Book1.subject) fmt.Printf( "Book 1 book_id : %d\n", Book1.book_id) /* print Book2 info */ fmt.Printf( "Book 2 title : %s\n", Book2.title) fmt.Printf( "Book 2 author : %s\n", Book2.author) fmt.Printf( "Book 2 subject : %s\n", Book2.subject) fmt.Printf( "Book 2 book_id : %d\n", Book2.book_id) }
When the above code is compiled and executed, it produces the following result −
Book 1 title : Go Programming Book 1 author : Mahesh Kumar Book 1 subject : Go Programming Tutorial Book 1 book_id : 6495407 Book 2 title : Telecom Billing Book 2 author : Zara Ali Book 2 subject : Telecom Billing Tutorial Book 2 book_id : 6495700
You can pass a structure as a function argument in very similar way as you pass any other variable or pointer. You would access structure variables in the same way as you did in the above example −
package main import "fmt" type Books struct { title string author string subject string book_id int } func main() { var Book1 Books /* Declare Book1 of type Book */ var Book2 Books /* Declare Book2 of type Book */ /* book 1 specification */ Book1.title = "Go Programming" Book1.author = "Mahesh Kumar" Book1.subject = "Go Programming Tutorial" Book1.book_id = 6495407 /* book 2 specification */ Book2.title = "Telecom Billing" Book2.author = "Zara Ali" Book2.subject = "Telecom Billing Tutorial" Book2.book_id = 6495700 /* print Book1 info */ printBook(Book1) /* print Book2 info */ printBook(Book2) } func printBook( book Books ) { fmt.Printf( "Book title : %s\n", book.title); fmt.Printf( "Book author : %s\n", book.author); fmt.Printf( "Book subject : %s\n", book.subject); fmt.Printf( "Book book_id : %d\n", book.book_id); }
When the above code is compiled and executed, it produces the following result −
Book title : Go Programming Book author : Mahesh Kumar Book subject : Go Programming Tutorial Book book_id : 6495407 Book title : Telecom Billing Book author : Zara Ali Book subject : Telecom Billing Tutorial Book book_id : 6495700
You can define pointers to structures in the same way as you define pointer to any other variable as follows −
var struct_pointer *Books
Now, you can store the address of a structure variable in the above defined pointer variable. To find the address of a structure variable, place the & operator before the structure's name as follows −
struct_pointer = &Book1;
To access the members of a structure using a pointer to that structure, you must use the "." operator as follows −
struct_pointer.title;
Let us re-write the above example using structure pointer −
package main import "fmt" type Books struct { title string author string subject string book_id int } func main() { var Book1 Books /* Declare Book1 of type Book */ var Book2 Books /* Declare Book2 of type Book */ /* book 1 specification */ Book1.title = "Go Programming" Book1.author = "Mahesh Kumar" Book1.subject = "Go Programming Tutorial" Book1.book_id = 6495407 /* book 2 specification */ Book2.title = "Telecom Billing" Book2.author = "Zara Ali" Book2.subject = "Telecom Billing Tutorial" Book2.book_id = 6495700 /* print Book1 info */ printBook(&Book1) /* print Book2 info */ printBook(&Book2) } func printBook( book *Books ) { fmt.Printf( "Book title : %s\n", book.title); fmt.Printf( "Book author : %s\n", book.author); fmt.Printf( "Book subject : %s\n", book.subject); fmt.Printf( "Book book_id : %d\n", book.book_id); }
When the above code is compiled and executed, it produces the following result −
Book title : Go Programming Book author : Mahesh Kumar Book subject : Go Programming Tutorial Book book_id : 6495407 Book title : Telecom Billing Book author : Zara Ali Book subject : Telecom Billing Tutorial Book book_id : 6495700