This question already has an answer here:

I'm learning to program, and C++ is my first language. Don't bother using pointers to show me - I don't understand them yet, and won't bother until I have more free time to dedicate to this.

    int mergeSort()
    const int n = 9;
    int originalarray[n] = {1, 3, 5, 7, 9, 2, 4, 6, 8};

    const int halfelements = (sizeof(originalarray) / sizeof(int)) / 2;
    int farray[halfelements];
    int sarray[halfelements];

    for (int i = 0; i < halfelements; i++) {
        farray[i] = originalarray[i];

    for (int i = halfelements, x = 0; i < (halfelements * 2); i++, x++) {
        sarray[x] = originalarray[i];

I was assigned (I'm not taking classes - just learning with a few friends helping me out) a merge sort algorithm, with the algorithm explained but not the implementation. I want to rewrite this so it will work for both odd and even integers. I tried adding this code:

if ((n % 2) != 0) int farray[halfelements + 1];

So that I could use the same integer to iterate over both subsequent arrays. A sizeof(farray) is showing to be 16 bytes, or 4 integers. So it isn't resizing. What I want to know - is it possible to resize arrays after they initialized?

Edit: How would I implement a vector? I don't understand how to use iterators in a loop to iterate over and copy the values.

marked as duplicate by YSC c++ Nov 6 '18 at 12:33

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.


C++ arrays are fixed in size.

If you need a "resizable array", you'll want to use std::vector instead of an array.

  • OK, thanks. I've figured out how you would implement std::vector's into this algorithm. Although I wish I hadn't spent two hours debugging my code, just to figure out my function header "int mergeSort(std::vector, int)" was missing an "<int>" =/ – jkeys Apr 19 '09 at 1:48
  • Aren't vectors backed by dynamic arrays anyways? Dynamically re-sizing an array or a vector should incur the same performance penalties right> – Jason Feb 20 '13 at 6:51

My advice is even stronger: use std::vector<> (et. al.) unless you have a very good reason to use a C-style array. Since you're learning C++, I doubt you have such a reason: use std::vector<>.

  • Given a vector is guarenteed to use contiguous storage, even when passing to a method taking pointer you can use a vector. Only when passing a reference/pointer to a pointer for a method to size the data are you stuck with using raw memory. – Richard Apr 16 '09 at 17:12

I would also recommend std::vector. However if you are stuck with an array you can always malloc the memory and then realloc if you need to make the array larger.

Do a search here on SO, there is information about malloc and realloc.

  • Me too use this convention. – Hydroper Nov 5 '17 at 10:58

If you want to resize an array, you probably want to use a vector, which can be resized automatically.


You can use the [] operator with a vector the same way you would in an array. You could implement this with a vector something like this (if you wanted to use more vector methods):

#include <vector>

const int halfelements = originalarray.size()/2; //use size to get size
vector <int> farray(halfelements);
vector <int> farray(halfelements);

for (int i = 0; i < halfelements; i++) {
    farray.push_back(originalarray[i]); //adds element at i to the end of vector

for (int i = halfelements, x = 0; i < (halfelements * 2); i++, x++) {

You can also use .at(index) to add bounds checking to the vector access.

  • please don't use the "pre" HTML tag for code - instead, select the code with your mouse and type ctrl-K or click on the code icon – anon Apr 16 '09 at 17:01
  • He should be using the vector(iter, iter) constructors. vector<int> farray(originalarray.begin(), &originalarray[half]), sarray(&originalarray[half], originalarray.end()); It eliminates the copy afterward. But that's probably confusing. – jmucchiello Apr 16 '09 at 20:54

If you want to know why your first idea compiled but didn't seem to work:

When you omit braces in an if-statement:

if ((n % 2) != 0) int farray[halfelements + 1];

it's just the same as if you'd used them:

if ((n % 2) != 0) {
  int farray[halfelements + 1];

So it is making an 'farray' of the correct size -- and then it immediately goes out of scope and is gone, and you're left with only the original one.

Not the answer you're looking for? Browse other questions tagged or ask your own question.