C/C++ arrays allow you to define variables that combine several data items of the same kind but structure is another user defined data type which allows you to combine data items of different kinds.
Structures are used to represent a record, suppose you want to keep track of your books in a library.
Structures are used to represent a record, suppose you want to keep track of your books in a library.
You might want to track the following attributes about each book:
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 above example using structure pointer, hope this will be easy for you to understand the concept:
- Title
- Author
- Subject
- Book ID
Defining a Structure:
To define a structure, you must use the struct statement. The struct statement defines a new data type, with more than one member, for your program.
The format of the struct statement is this:
12345678 struct [structure tag] { member definition; member definition; ... member definition; }
1[one or more structure variables];
12The structure tag is optional and each member definition is a normal variable definition, such as int i; or float f; or any other valid variable definition. At the end of the structure's definition, before the final semicolon, you can specify one or more structure variables but it is optional. Here is the way you would declare the Book structure:
1234567struct Books { char title[50]; char author[50]; char subject[100]; int book_id; }
1book;
Accessing Structure Members:
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. Following is the example to explain usage of structure:12345678910111213#include <iostream> #include <cstring> using namespace std; struct Books { char title[40]; char author[40]; char subject[100]; int book_id; }; int main( )
12345678910111213141516171819202122232425262728293031 { struct Books Book1; // Declare Book1 of type Book struct Books Book2; // Declare Book2 of type Book // book 1 specification strcpy( Book1.title, "Learn C++ Programming"); strcpy( Book1.author, "zubair"); strcpy( Book1.subject, "C++ Programming"); Book1.book_id = 6495407; // book 2 specification strcpy( Book2.title, "Telecom Billing"); strcpy( Book2.author, "juni"); strcpy( Book2.subject, "Telecom"); Book2.book_id = 6495700; // Print Book1 info cout << "Book 1 title : " << Book1.title <<endl; cout << "Book 1 author : " << Book1.author <<endl; cout << "Book 1 subject : " << Book1.subject <<endl; cout << "Book 1 id : " << Book1.book_id <<endl; // Print Book2 info cout << "Book 2 title : " << Book2.title <<endl; cout << "Book 2 author : " << Book2.author <<endl; cout << "Book 2 subject : " << Book2.subject <<endl; cout << "Book 2 id : " << Book2.book_id <<endl; return 0; }
12 When the above code is compiled and executed, it produces the following result:
123456789 Book 1 title : Learn C++ Programming Book 1 author : zubair Book 1 subject : C++ Programming Book 1 id : 6495407 Book 2 title : Telecom Billing Book 2 author : juni Book 2 subject : Telecom Book 2 id : 6495700
Structures as Function Arguments:
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 similar way as you have accessed in the aboveExample:
1234#include <iostream> #include <cstring> using namespace std;
1234567891011void printBook( struct Books book ); struct Books { char title[40]; char author[40]; char subject[100]; int book_id; }; int main( )
1234567891011121314151617181920212223242526272829303132 { struct Books Book1; // Declare Book1 of type Book struct Books Book2; // Declare Book2 of type Book // book 1 specification strcpy( Book1.title, "Learn C++ Programming"); strcpy( Book1.author, "zubair"); strcpy( Book1.subject, "C++ Programming"); Book1.book_id = 6495407; // book 2 specification strcpy( Book2.title, "Telecom Billing"); strcpy( Book2.author, "juni"); strcpy( Book2.subject, "Telecom"); Book2.book_id = 6495700; // Print Book1 info printBook( Book1 ); // Print Book2 info printBook( Book2 ); return 0; } void printBook( struct Books book ) { cout << "Book title : " << book.title <<endl; cout << "Book author : " << book.author <<endl; cout << "Book subject : " << book.subject <<endl; cout << "Book id : " << book.book_id <<endl; }
12 When the above code is compiled and executed, it produces the following result:
123456789 Book title : Learn C++ Programming Book author : zubair Book subject : C++ Programming Book id : 6495407 Book title : Telecom Billing Book author : juni Book subject : Telecom Book id : 6495700
Pointers to Structures:
You can define pointers to structures in very similar way as you define pointer to any other variable as follows:struct Books *struct_pointer;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 above example using structure pointer, hope this will be easy for you to understand the concept:
123#include <iostream> #include <cstring> using namespace std;
1234567891011121314151617181920212223242526272829303132333435 void printBook( struct Books *book ); struct Books { char title[50]; char author[50]; char subject[100]; int book_id; }; int main( ) { struct Books Book1; // Declare Book1 of type Book struct Books Book2; // Declare Book2 of type Book // Book 1 specification strcpy( Book1.title, "Learn C++ Programming"); strcpy( Book1.author, "Chand Miyan"); strcpy( Book1.subject, "C++ Programming"); Book1.book_id = 6495407; // Book 2 specification strcpy( Book2.title, "Telecom Billing"); strcpy( Book2.author, "Yakit Singha"); strcpy( Book2.subject, "Telecom"); Book2.book_id = 6495700; // Print Book1 info, passing address of structure printBook( &Book1 ); // Print Book1 info, passing address of structure printBook( &Book2 ); return 0; }
12 // This function accept pointer to structure as parameter.
12345678 void printBook( struct Books *book ) { cout << "Book title : " << book->title <<endl; cout << "Book author : " << book->author <<endl; cout << "Book subject : " << book->subject <<endl; cout << "Book id : " << book->book_id <<endl; }
12 When the above code is compiled and executed, it produces the following result:
123456789 Book title : Learn C++ Programming Book author : Chand Miyan Book subject : C++ Programming Book id : 6495407 Book title : Telecom Billing Book author : Yakit Singha Book subject : Telecom Book id : 6495700
1234 The typedef Keyword There is an easier way to define structs or you could "alias" types you create.
1 For example:
12345678 typedef struct { char title[50]; char author[50]; char subject[100]; int book_id; }
1Books;
12 Now, you can use Books directly to define variables of Books type without using struct keyword.
12
1Following is the example:
12 Books Book1, Book2;
1234567 You can use typedef keyword for non-structs as well as follows: typedef long int *pint32; pint32 x, y, z; x, y and z are all pointers to long ints
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