C++ Structures are used to create user defined data types which are used to store group of items of different data types.
Syntax
Before using structure, we have to first define the structure using the struct keyword as shown:
C++ struct name{ type1 mem1; type2 mem2; ... }; where structure name is name and mem1, mem2 and mem3 are the items it groups. They are also called its members or fields.
Example:
StructureThe above is also called Structure Definition. It is not allocated any memory and cannot be used in the program directly. We have to create its variables to use it.
Structure Variable
Once the structure is defined, its variable can be created in a similar way as basic data type variables.
C++ where struct_name is the name of the structure and var_name is the name of the variable.
A variable can also be declared with the definition of the structure:
C++ struct name{ type1 mem1; type2 mem2; ... }var1, var2; Initialize Structure Members
Structure members cannot be initialized with declaration. For example, the following C++ program fails in compilation.
C++ struct Point { int x = 0; int y = 0; }; Structure members can be initialized to values provided in the curly braces '{}'. For example,
C++ struct Point { int x, y; }; int main() { // Initialize data members of // structure using curly braces struct Point p1 = { 0, 1 }; return 0; } The values provided in the curly braces {} are sequentially assigned to the members of the structure. In the above example, 0 is assigned to member x, and 1 is assigned to member y.
Since C++ 20, we can also use Designated Initializers to initialize the structure members.
Access and Modify Members
Structure members are accessed using dot operator (.) and a new value can also be assigned using assignment operator.
C++ var_name.member_name; var_name.member_name = new_val;
Example:
C++ #include <iostream> using namespace std; struct Point { int x, y; }; int main() { struct Point p = { 0, 1 }; // Accessing members cout << p.x << " "; cout << p.y << endl; // Updating members p.x = 99; // Accessing members again cout << p.x << " "; cout << p.y; return 0; } Member Functions
In C structures, functions were not allowed inside the structure but in C++, we can declare the function inside the structure. They are called member functions while the variables are called data members. C++ structure is way more similar to C++ classes as compared to C structures.
Example:
C++ #include <iostream> using namespace std; struct Point { int x, y; // Member function int sum(){ return x + y; } }; int main() { Point s = { 0, 1 }; // Call member function // using (.) operator cout << s.sum(); return 0; } C++ structures also support other class components such as constructor, destructor, access specifiers, etc.
C++ #include <iostream> using namespace std; // Class like structure struct Point { private: int x, y; public: // Constructors Point(int a, int b) { x = a; y = b; } // Member function void show() { cout << x << " " << y << endl; } // Destructor ~Point() { cout << "Destroyed Point Variable" << endl; } }; int main() { // Creating Point variables using constructors Point s1; Point s2(99, 1001); s1.show(); s2.show(); return 0; } Output1 1 99 1001 Destroyed Point var Destroyed Point var
Size of Structure
The size of a structure is determined by the sum of the sizes of its individual data members, with additional padding added by the compiler to ensure proper memory alignment.
Example:
C++ #include <iostream> using namespace std; struct GfG { char c; int x, y; }; int main() { // Finding the size cout << sizeof(GfG); return 0; } Ideally, the size should be the size of all data members i.e. sizeof(char) + 2 * sizeof(int) = 1 + 8 = 9 bytes. But the size comes out to be 12 bytes. This is due to the mentioned structure padding.
Member functions does not contribute to the size of the structure. Also, in C++, size of the structure cannot be 0. Refer to this article to know more - Why empty Structure has size 1 byte in C++ but 0 byte in C?
typedef
In C++, typedef is used to create an alias for an existing variable. Similarly, with structures, typedef creates an alias for the original name of the structure.
Example:
C++ #include <iostream> using namespace std; typedef struct GeeksforGeeks { int x, y; // Alias is specified here } GfG; int main() { // Using alias GfG s = { 0, 1 }; cout << s.x << " " << s.y << endl; return 0; } Nested Structure
Nested structure in C++ refers to a structure that is defined inside another structure. Just as structure members are declared within a structure, one structure can be declared as a member inside another structure.
Example:
C++ #include <iostream> using namespace std; // Define inner structure struct inner { int a, b; }; // Define the outer structure that // contains inner structure struct outer { // Nested structure inner in; int x, y; }; int main() { outer obj = {{1, 2}, 10, 20}; cout << "Inner: " << obj.in.a << " " << obj.in.b << endl; cout << "Outer: " << obj.x << " " << obj.y; return 0; } OutputInner: 1 2 Outer: 10 20
Notice how there are one more curly braces added in the initialization. This is to initialize the inner structure.
The inner structure can also be defined directly inside the outer structure even without naming the structure and just by creating a variable name.
C++ #include <iostream> using namespace std; // Define the outer structure that // contains inner structure struct outer { // Nested structure struct inner{ int a, b; }in; int x, y; }; int main() { outer obj = {{1, 2}, 10, 20}; cout << "Inner: " << obj.in.a << " " << obj.in.b << endl; cout << "Outer: " << obj.x << " " << obj.y; return 0; } OutputInner: 1 2 Outer: 10 20
Pointer to Structure
In C++, a pointer to a structure is also known as a structure pointer. It is a pointer that holds the address of the memory location where the structure is stored. The normal way to access structure members is to first dereference the pointer and then use dot operator, but C++ provides -> arrow operator to directly access structure members using pointer to it.
Example:
C++ #include <iostream> using namespace std; struct GfG { int count; void showCount() { cout << count << endl; } }; int main() { GfG gfg = {224}; // Creating pointer GfG *sptr = &gfg; // Accessing using arrow operator sptr->showCount(); return 0; } Self-Referential Structures
Self-referential structures are those structures that contains the pointer to the same type as a member. For example,
C++ // Self referential structures struct GfG { int val; // Pointer to same type GfG *next; } Such kind of structures are used in data structures such as linked list, trees, etc.
A structure can only contain pointer to the same type but not variable of same type. It is because it is impossible to derive the size information in the structure before complete definition.
Structure with Function
Structures work similarly like other variables with functions. We can pass a structure to a function or return a structure from a function, just like with other variables. Additionally, we can pass a structure either by value or by reference. However, the recommended approach is to pass a structure by reference, as making a copy of a structure is a costly operation.
Structures are also used return multiple values from the function. Refer to the article to know more - Structure with Functions
Bit Fields
Bit fields in structures allows us to define the number of bits that a particular data member will occupy. Basically, it specifies the manual size of the structure member in bits. It is useful in memory critical applications such as embedded systems.
Structure vs Class
In C++, a structure works similarly to a class, but there are some key differences in between of them. The important difference is how implementation details are handled.
By default, a structure does not provide its implementation details, allowing them to be accessed by anyone using the structure. In other hand, a class hides its implementation details by default, thus preventing the programmer from accessing them.
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