Answer:
Class are the collection of variable and member function.
Class are the blueprint of an object.
Explanation:
Following are the points regarding class in c++
1.In C++ class is an user defined datatype..
2.Classes are the collection of variable and function in c++.
3.To access the property of class we can create object of that class
4.We can use following syntax to declared any class in c++
class classname
{
accessmodifier:
//statement and function
};
main()
{
classname objectname;
}
implementation of class in c++
#include<iostream>
class test // class declaration
{
public: // access modifier
void fun3() // Method definition
{
cout<<" hello :";
}
};
void main() // main function
{
test ob;// creating object
ob.fun3(); // calling function
}
In this program we declared a class "test " in class test. We giving public access modifier .The public access modifier define that variable and function are accessible outside the class and in main method we create the object ob which call the function fun3().
Output:hello :
Answer:
True
Explanation:
<u>Algorithm for push function</u>
The method of placing data on a stack is called a push operation.
It involves these steps −
- Check that the stack is complete.
- If the stack is complete, it will cause an error .
- Increases top to point next empty room if the stack is not complete.
- Adds the data component to the place of the stack where top is pointing.
<u>Algorithm for Insertfirst function</u>
- Create a new Link with provided data.
- Point New Link to old First Link.
- Point First Link to this New Link.
As we can see that in both algorithms ,we are inserting data to a new nodes and incrementing/pointing to a new node for inserting data.Both algorithms uses the same approach.
0=false
1=true
false + false = true
0+0=1
+ operator = and function
AND GATE
Answer:
Following are the statement:
counterPointer = &counter;
Explanation:
The following statement is correct because in the question it is given that there is an integer data type variable i.e., "counter" and there is another integer data type pointer variable i.e., "counterPointer" and finally we write a statement in which the pointer variable points to the integer variable.
