Saturday, April 5, 2014

C APTITUDES


  •  class Sample

{
public:
        int *ptr;
        Sample(int i)
        {
        ptr = new int(i);
        }
        ~Sample()
        {
        delete ptr;
        }
        void PrintVal()
        {
        cout << "The value is " << *ptr;
        }
};
void SomeFunc(Sample x)
{
cout << "Say i am in someFunc " << endl;
}
int main()
{
Sample s1= 10;
SomeFunc(s1);
s1.PrintVal();
}
Answer:
Say i am in someFunc
Null pointer assignment(Run-time error)
Explanation:
As the object is passed by value to SomeFunc  the destructor of the object is called when the control returns from the function. So when PrintVal is called it meets up with ptr  that has been freed.The solution is to pass the Sample object  byreference to SomeFunc:

void SomeFunc(Sample &x)
{
cout << "Say i am in someFunc " << endl;
}
because when we pass objects by refernece that object is not destroyed. while returning from the function.

  •                 Which is the parameter that is added to every non-static member function when it is called?

Answer:
            ‘this’ pointer

  •           class base

        {
        public:
        int bval;
        base(){ bval=0;}
        };

class deri:public base
        {
        public:
        int dval;
        deri(){ dval=1;}
        };
void SomeFunc(base *arr,int size)
{
for(int i=0; i<size; i++,arr++)
        cout<<arr->bval;
cout<<endl;
}

int main()
{
base BaseArr[5];
SomeFunc(BaseArr,5);
deri DeriArr[5];
SomeFunc(DeriArr,5);
}

Answer:
 00000
 01010
Explanation:  
The function SomeFunc expects two arguments.The first one is a pointer to an array of base class objects and the second one is the sizeof the array.The first call of someFunc calls it with an array of bae objects, so it works correctly and prints the bval of all the objects. When Somefunc is called the second time the argument passed is the pointeer to an array of derived class objects and not the array of base class objects. But that is what the function expects to be sent. So the derived class pointer is promoted to base class pointer and the address is sent to the function. SomeFunc() knows nothing about this and just treats the pointer as an array of base class objects. So when arr++ is met, the size of base class object is taken into consideration and is incremented by sizeof(int) bytes for bval (the deri class objects have bval and dval as members and so is of size >= sizeof(int)+sizeof(int) ).

  •        class base

        {
        public:
            void baseFun(){ cout<<"from base"<<endl;}
        };
 class deri:public base
        {
        public:
            void baseFun(){ cout<< "from derived"<<endl;}
        };
void SomeFunc(base *baseObj)
{
        baseObj->baseFun();
}
int main()
{
base baseObject;
SomeFunc(&baseObject);
deri deriObject;
SomeFunc(&deriObject);
}
Answer:
            from base
            from base
Explanation:
            As we have seen in the previous case, SomeFunc expects a pointer to a base class. Since a pointer to a derived class object is passed, it treats the argument only as a base class pointer and the corresponding base function is called.

  •         class base

        {
        public:
            virtual void baseFun(){ cout<<"from base"<<endl;}
        };
 class deri:public base
        {
        public:
            void baseFun(){ cout<< "from derived"<<endl;}
        };
void SomeFunc(base *baseObj)
{
        baseObj->baseFun();
}
int main()
{
base baseObject;
SomeFunc(&baseObject);
deri deriObject;
SomeFunc(&deriObject);
}
Answer:
            from base
            from derived
Explanation:
            Remember that baseFunc is a virtual function. That means that it supports run-time polymorphism. So the function corresponding to the derived class object is called.
           

  •         void main()

{
            int a, *pa, &ra;
            pa = &a;
            ra = a;
            cout <<"a="<<a <<"*pa="<<*pa <<"ra"<<ra ;
}
/*
Answer :
            Compiler Error: ra,reference must be initialized
Explanation :
            Pointers are different from references. One of the main
differences is that the pointers can be both initialized and assigned,
whereas references can only be initialized. So this code issues an error.
*/

  •   const int size = 5;

void print(int *ptr)
{
            cout<<ptr[0];
}

void print(int ptr[size])
{
            cout<<ptr[0];
}

void main()
{
            int a[size] = {1,2,3,4,5};
            int *b = new int(size);
            print(a);
            print(b);
}
/*
Answer:
            Compiler Error : function void print(int *) already has a body

Explanation:
            Arrays cannot be passed to functions, only pointers (for arrays, base addresses)
can be passed. So the arguments int *ptr and int prt[size] have no difference 
as function arguments. In other words, both the functoins have the same signature and
so cannot be overloaded.
*/

  •      class some{

public:
            ~some()
            {
                        cout<<"somes destructor"<<endl;
            }
};

void main()
{
            some s;
            s.~some();
}
/*
Answer:
            somes destructor
            somes destructor
Explanation:
            Destructors can be called explicitly. Here s.~some() explicitly calls the
destructor of s. When main() returns, destructor of s is called again,
hence the result.
*/

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