Answering the second part of your question,
Is there any standard or procedure one should follow to ensure there is no memory leak in the program.
Yes, there is. And this is one of the key differences between C and C++.
In C++, you should never call
delete in your user code. RAII is a very commonly used technique, which pretty much solves the resource management problem. Every resource in your program (a resource is anything that has to be acquired, and then later on, released: file handles, network sockets, database connections, but also plain memory allocations, and in some cases, pairs of API calls (BeginX()/EndX(), LockY(), UnlockY()), should be wrapped in a class, where:
- the constructor acquires the resource (by calling
new if the resource is a memroy allocation)
- the destructor releases the resource,
- copying and assignment is either prevented (by making the copy constructor and assignment operators private), or are implemented to work correctly (for example by cloning the underlying resource)
This class is then instantiated locally, on the stack, or as a class member, and not by calling
new and storing a pointer.
You often don't need to define these classes yourself. The standard library containers behave in this way as well, so that any object stored into a
std::vector gets freed when the vector is destroyed. So again, don't store a pointer into the container (which would require you to call
delete), but rather the object itself (which gives you memory management for free). Likewise, smart pointer classes can be used to easily wrap objects that just have to be allocated with
new, and control their lifetimes.
This means that when the object goes out of scope, it is automatically destroyed, and its resource released and cleaned up.
If you do this consistently throughout your code, you simply won't have any memory leaks. Everything that could get leaked is tied to a destructor which is guaranteed to be called when control leaves the scope in which the object was declared.