C++ Notes: Dynamic Allocation of Arrays

The problems with fixed size arrays

Declaring an array with a fixed size like

int a[100000];

has two typical problems:

These problems can be avoided by dynamically allocating an array of the right size, or reallocating an array when it needs to expand. Both of these are done by declaring an array as a pointer and using the new operator to allocate memory, and delete to free memory that is no longer needed.

This is exactly what is vector does, but let's see how it's done with an array.

Declare array as a pointer, allocate with new

To create a variable that will point to a dynamically allocated array, declare it as a pointer to the element type. For example,

int* a = NULL;  // pointer to an int, intiallly to nothing.

A dynamically allocated array is declared as a pointer, and must not use the fixed array size declaration. The above declaration creates a pointer, but doesn't yet allocate any memory to it.

Allocate an array with code>new

When the desired size of an array is known, allocate memory for it with the new operator and save the address of that memory in the pointer. Remember: Pointers may be subscripted just as arrays are. The example below reads in a number and allocates that size array.

int* a = NULL;   // Pointer to int, initialize to nothing.
int n;           // Size needed for array
cin >> n;        // Read in the size
a = new int[n];  // Allocate n ints and save ptr in a.
for (int i=0; i<n; i++) {
    a[i] = 0;    // Initialize all elements to zero.
. . .  // Use a as a normal array
delete [] a;  // When done, free memory pointed to by a.
a = NULL;     // Clear a to prevent using invalid memory reference.

Freeing memory with delete

When you are finished with dynamically allocated memory, free it with the delete operator. After memory is freed, it can be reused by later new requests. Memory that your program didn't free will be freed when the program terminates. Never free memory that wasn't dynamically allocated - the results are unpredictable.

delete [] a;  // Free memory allocated for the a array.
a = NULL;     // Be sure the deallocated memory isn't used.

Use [] when deleting arrays

You must specify "[]" when deleting an array, but not for a single value. It isn't possible to delete only part of an array.

Do you have to reset a pointer after delete?

Following the delete in these examples, I reset the pointer to NULL. This isn't strictly necessary, but it's very good practice so that any use of the pointer will produce an error. Attempts to use memory location 0, which is the normal default value of NULL, will be blocked by the way most operating systems allocate memory.

Why doesn't delete reset the pointer? It does in some systems, but the language specification does not require it, so not all systems do it.