It just allocates an array for you, at run-time. Usually the size of array must be specified at compile-time. But here it is specified at run-time, it's
newHeapLength. Each entry ("cell") in that array must be capable of storing a value of type
Entry* in it. In C, arrays are contiguous, so the total size of the array, in bytes, is just a product of the two numbers:
sizeof(Entry*) * newHeapLength. Now
newHeap can be used to address this array in a usual manner: e.g.
newHeap. Of course, if
8 >= newHeapLength, this would be accessing past the allocated area, which is bad.
For array storing 10
int ia;, the type of
int * (correction: almost. but we can pretend that it is, for the purposes of this explanation). Here, similarly, for array storing values of type
Entry*, the type is
(Entry*)*. Simple. :)
And of course you must cast the return value of
malloc to your type, to be able to address that array with it.
malloc by itself returns an address as
void*. Meaning. the size of memory cell which it points to, is proclaimed unknown. When we say that
ia is of type
int*, what we actually saying is that memory cell pointed to by it has size of
sizeof(int). So when we write
ia, it is actually translated into
*(ia+3) which is actually
*(int*)(void*)( (unsigned int)(void*)ia + 3*sizeof(int) ). In other words, the compiler just adds
sizeof(int) three times to the starting address, thus "hopping over" three
sizeof(int)-wide cells of memory. And for
newHeap it will just "hop" over 8
sizeof(Entry*)-wide memory cells, to get the address of the 9-th entry in that array (counting from 1).
Also, see hashed array tree for an alternative to the geometric expansion, which is what that code is doing.