so I have an exam soon, and glancing through my notes, the teacher says that a shallow copy is defined as a bit by bit copy. I know all about shallow and deep copies, yet I have no idea what bit by bit copy is supposed to mean. Isn't all computer data stored as bits? Could this definition imply that during a shallow copy, a bitstream is implemented when copying the data? Anybody know stuff about this "bit by bit" terminology? Thanks
Say you have two variables
Bit by bit copy / Shallow copy
Take for example a pointer pointing to a chunk of data:
When you do
the value of
Now, you may not want to have the bit by bit copy behavior. For example, if you want a copy and you want to modify that copy without modifying the source. For this, you do a deep copy.
How does this matter in C++?
When you have your C++ class, you should properly define its constructor. The one constructor that is relevant with the topic is the copy constructor (note: this also applies to the copy assignment operator). If you only let the compiler generate the default copy constructor, it simply does shallow copies of data, including pointers that may point to areas of memory.
To solve the problem, you must perform a deep copy of the data. For this to be done, you must define the copy constructor yourself.
For more info and better explanation, please see What is The Rule of Three?.
I would define a bit-by-bit copy as the transfer of the information allocated to an object as an unstructured block of memory. In the case of simple structs this is easy to imagine.
What are the contents of the source struct? Are they initialized? What are its relationships to other objects? All unimportant.
In some sense, a bit-by-bit copy is like a shallow copy in that like a shallow copy a bit-by-bit copy will not duplicate related objects, but that's because it doesn't even consider object relationships.
For example C++ defines a trivial copy constructor as
In contrast, shallow copy and its counter-part deep copy exist as a concept precisely because of the question of object relationships.