# Can you resize a C++ array after initialization?

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.

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C++ arrays are fixed in size.

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

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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>" =/ –  Hooked Apr 19 '09 at 1:48
Aren't `vector`s 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<>`.

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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

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

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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++) {
sarray.push_back(originalarray[i]);
}
``````

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

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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

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`.

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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.

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