# Expanding array capacity

I was thinking of ways to make an array larger quickly in C++ and I came up with this:

``````// set up arr1
int *arr1 = new int[5];

arr1[0] = 1;
arr1[1] = 2;
arr1[2] = 3;
arr1[3] = 4;
arr1[4] = 5;

// set up arr2
int *arr2 = new int[10];
arr2 = arr1; // assign arr1 to arr2

arr2[5] = 6;
arr2[6] = 7;
arr2[7] = 8;
arr2[8] = 9;
arr2[9] = 10;
``````

Is this even safe? I worry that this will cause some strange behavior and that arr2 is just an int[5] array and you're now overwriting data that doesn't belong to it.

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What book are you learning C++ from? –  Jesse Beder Mar 30 '11 at 16:35
just experimenting, no book here. I was considering methods to make expanding the size of the array faster. This is obviously an ill-guided approach. –  greggory.hz Mar 30 '11 at 16:36
Just use std::vector instead –  Jesus Ramos Mar 30 '11 at 16:44

The line `arr2 = arr1;` leaks memory, and all the following `arr2[...]=` lines invoke undefined behavior as they access the array of 5 ints outside of its bounds.

To do what you wanted to do, replace `arr2 = arr1;` with `std::copy(arr1, arr1+5, arr2);` (example program: https://ideone.com/3Rohu)

To do this properly, use `std::vector<int>`

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Finally, someone talking about the STL! :-) +1 –  Peter K. Mar 30 '11 at 16:40
@PeterK: Or, in fact, about the C++ Standard Library. ducks –  Lightness Races in Orbit Mar 30 '11 at 16:45
@Tomalak: Quack! Showing my age... :-( [but +1 anyway!] –  Peter K. Mar 30 '11 at 16:52
@PeterK.: Teehee :) –  Lightness Races in Orbit Mar 30 '11 at 16:57

NO.

`arr2 = arr1;`

Does not do what you think it does!

There is already something in the STL for this, it's called `vector`.

For the sake of completeness.. :)

`arr2` before the assignment held the address if the start of the array of 10 items you allocated. After the assignment, rather than copying the contents the block addressed by `arr1` (which I guess is what you wanted to do), the assignment merely changes the address that `arr2` holds to the address that `arr1` holds (i.e. start of the 5 item array), for the rest of your code, this has two consequences:

1. You no longer have the address of the block of 10 items you allocated, so you have no way of releasing that block - hence you have a memory leak (should your program continue to operate)
2. Though you initially allocated 10 items for `arr2`, by the assignment, you're now addressing a block that only has 5 items, and accessing anything outside of that block of 5 (i.e. indexes 5 onwards) is likely to end in nasal daemons paying a visit with a very large cricket bat - or you may get lucky...

So what can you do:

1. Use `std::vector<int>`, one if it's design features is to take this kind of burden away from you (unless you're interested in implementing another container), if that's the case
2. Use a copy operation to correctly copy the contents rather than assign the addresses, as suggested, use `std::copy` - or others, such as `memcpy` (prefer `memmove` - it's a little slower but is well defined for overlapping blocks etc.)
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I thought so. This was more for academic purposes (replicating the behavior of a vector). –  greggory.hz Mar 30 '11 at 16:36
Go on then. Explain what it does do for rep points. –  Lightness Races in Orbit Mar 30 '11 at 16:44
@Tomalak, was in a rush, had to run home, more important things to do (i.e. play with my son)... anyways, now that he's a sleep... I see I'm too late to the game... –  Nim Mar 30 '11 at 22:29
It's never too late! I think there are badges for posting answers to really old questions :) –  Lightness Races in Orbit Mar 30 '11 at 22:42

This leaks memory, because you are assigning pointers.

``````int *arr2 = new int[10];
arr2 = arr1; // this does not assign the values
``````

The second assignment makes `arr2` point to the array `arr1`. You loose the array you have previously allocated, and can never delete it.

To avoid this, use an `std::vector`.

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No, it's not safe at all. When you said `arr2=arr1;` you didn't copy any of the data across, you just reassigned a pointer. Now the memory you allocated with `int *arr2 = new int[10];` has been leaked, and `arr2` points to the original 5-element array, and when you start saying things like `arr2[5] = 6;` you are writing beyond the end of that array and all hell may break loose.

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It's not safe that's actually a memory leak. You're not doing anything with arr2 you just ended up setting arr2 to the address of r1, remember in c and c++ theres no bounds checking so you're overwriting another stackframe by doing that

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Is this even safe?

No

arr2 = arr1; // assign arr1 to arr2

`arr2` is also pointing to first index element of `arr1`. And by doing it, `arr2` looses the location where it was earlier pointing to returned by `new`. So, there is memory leak.

Use std::vector instead to expand the array.

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