You can only
realloc that which has been allocated via
malloc (or family, like
That's because the underlying data structures that keep track of free and used areas of memory, can be quite different.
It's likely but by no means guaranteed that C++
new and C
malloc use the same underlying allocator, in which case
realloc could work for both. But formally that's in UB-land. And in practice it's just needlessly risky.
C++ does not offer functionality corresponding to
The closest is the automatic reallocation of (the internal buffers of) containers like
The C++ containers suffer from being designed in a way that excludes use of
Instead of the presented code
int* data = new int;
int* mydata = (int*)realloc(data,6*sizeof(int));
… do this:
vector<int> data( 3 );
data.resize( 6 );
However, if you absolutely need the general efficiency of
realloc, and if you have to accept
new for the original allocation, then your only recourse for efficiency is to use compiler-specific means, knowledge that
realloc is safe with this compiler.
Otherwise, if you absolutely need the general efficiency of
realloc but is not forced to accept
new, then you can use
realloc. Using smart pointers then lets you get much of the same safety as with C++ containers.