There is one big difference between
malloc allocates memory. This is fine for C, because in C, a lump of memory is an object.
In C++, if you're not dealing with POD types (which are similar to C types) you must call a constructor on a memory location to actually have an object there. Non-POD types are very common in C++, as many C++ features make an object automatically non-POD.
new allocates memory and creates an object on that memory location. For non-POD types this means calling a constructor.
If you do something like this:
non_pod_type* p = (non_pod_type*) malloc(sizeof *p);
The pointer you obtain cannot be dereferenced because it does not point to an object. You'd need to call a constructor on it before you can use it (and this is done using placement
If, on the other hand, you do:
non_pod_type* p = new non_pod_type();
You get a pointer that is always valid, because
new created an object.
Even for POD types, there's a significant difference between the two:
pod_type* p = (pod_type*) malloc(sizeof *p);
std::cout << p->foo;
This piece of code would print an unspecified value, because the POD objects created by
malloc are not initialised.
new, you could specify a constructor to call, and thus get a well defined value.
pod_type* p = new pod_type();
std::cout << p->foo; // prints 0
If you really want it, you can use use
new to obtain uninitialised POD objects. See this other answer for more information on that.
Another difference is the behaviour upon failure. When it fails to allocate memory,
malloc returns a null pointer, while
new throws an exception.
The former requires you to test every pointer returned before using it, while the later will always produce valid pointers.
For these reasons, in C++ code you should use
new, and not
malloc. But even then, you should not use
new "in the open", because it acquires resources you need to release later on. When you use
new you should pass its result immediately into a resource managing class:
std::unique_ptr<T> p = std::unique_ptr<T>(new T()); // this won't leak