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OK, I am trying to get a sub array from an existing array and I'm just not sure how to do it. In my example I have a very large array, but I want to create an array from the last 5 elements of the array.

An example of what I am talking about would be:

int array1 = {1,2,3,...99,100};
int array2[5] = array1+95;

I know this isn't correct, but I am having some trouble getting it right. I want to get the elements 96 through 100 in array1 and put them into array2 but I don't want to copy the arrays. I just want array2 to start at the 96 element such that array1[96] and array2[0] would be pointing to the same location.

share|improve this question
Keep in mind you won't technically be making a sub-array by pointing to an element. – GManNickG Jan 26 '10 at 3:29
The 96th element of array1 is array1[95]. When you say "put them in array2", it means copying, how else will you put them in array2? There is no way to do what you want. You need to either copy the elements, or have a pointer that points to the 96th element of array1, or have an array of 5 pointers, and have the pointer i point to the element 95+i of array1. – Alok Singhal Jan 26 '10 at 3:31
you are correct, by "putting them array2" I didn't mean to copy. I am sorry for the mix-up in terminology. – John Jan 26 '10 at 3:34
You should look into using std::vector or boost::array instead of c-style arrays. – Emile Cormier Jan 26 '10 at 5:43
up vote 17 down vote accepted

for this:

"such that array1[96] and array2[0] would be pointing to the same location."

you can do:

int *arr2 = arr1 + 96;
assert(arr2[0] == arr1[96] == 97);
share|improve this answer
That assert should be a mathematician asserting, not C :-) – Alok Singhal Jan 26 '10 at 3:42
this works! Thank you! – John Jan 26 '10 at 3:45
+1 for the simple solution that works. – Chris Lutz Jan 26 '10 at 4:28

A reference hack from a C programmer willing to subvert the type system to get what works:

int (&array2)[5] = (int (&)[5])(*(array1 + 5));

Now array2 will be an array for all intents and purposes, and will be a sub-array of array1, and will even be passable to that famous C++ array_size template function. Though the best way to handle this hackery is to hide it with more hackery!

#define make_sub_array(type, arr, off, len) (type (&)[len])(*(arr + off));

int (&array2)[5] = make_sub_array(int, array1, 5, 5);

Nice. Terrible by some standards, but the end result a) looks pretty neat, b) does exactly what you want, c) is functionally identical to an actual array, and d) will also have the added bonus (or mis-feature) of being an identical reference to the original, so the two change together.

UPDATE: If you prefer, a templated version (sort of):

template <typename T, size_t M>
T (&_make_sub_array(T (&orig)[M], size_t o))[]
    return (T (&)[])(*(orig + o));
#define make_sub_array(type, array, n, o) (type (&)[n])_make_sub_array(array, o)

int (&array2)[5] = make_sub_array(int, array1, 5, 5);

We still have to pass the type. Since one of our arguments must be used as part the cast, we cannot cleanly (IMHO) avoid the macro. We could do this:

template <typename T, size_t M, size_t N>
T (&make_sub_array(T (&orig)[M], size_t o))[N]
    return (T (&)[N])(*(orig + o));

int (&array2)[5] = make_sub_array<int, 15, 5>(array1, 5);

But the goal here is to make the calling code as clean as possible, and that call is a bit hairy. The pure-macro version probably has the least overhead and is probably the cleanest to implement in this case.

share|improve this answer
It's so bad it's good :-). +1. – Alok Singhal Jan 26 '10 at 4:08
Thanks. It took me much longer because I wanted to make it work with actual C++ casting, but eventually I gave up and made it work. Improvements (especially a potential version of make_sub_array as a template function - I tried that for a while as well before giving up) welcome. – Chris Lutz Jan 26 '10 at 4:09
@Chris: My C++-fu isn't great, I am more of a C person, but I will try! – Alok Singhal Jan 26 '10 at 4:13
That's slick... er ugly... I mean, I'm impressed. The macro helps readability, but the declaration of array2 is still sort of weird. +1 for the fu – John Knoeller Jan 26 '10 at 4:18
I could make the macro #define make_sub_array(type, orig, new, off, len) type (&new)[len] = (type (&)[len])(*(orig + off)) so that it's called as a single statement: make_sub_array(int, array1, array2, 5, 5); but I would (personally) prefer to see the assignment in my code so that it's clear that we're declaring and defining a variable. – Chris Lutz Jan 26 '10 at 4:27

For a completely different approach you could do something like.

vector<int> v0(array1 + 95, array1 + 100);


vector<int> v1(array1, array1 + 100);
vector<int> v2(v1.begin() + 95, v1.end());

This would make a real copy of the elements of your vector.

share|improve this answer
Should be std::vector for pendantry. Anyway, +1 for the most "C++" answer. – Chris Lutz Jan 26 '10 at 4:50

You can use boost::iterator_range to represent "slices" of arrays/containers:

#include <iostream>
#include <boost/range.hpp>

int main()
    int array[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};

    // Create a "proxy" of array[5..7]
    // The range implements the concept of a random sequence containter
    boost::iterator_range<int*> subarray(&array[5], &array[7]+1);

    // Output: 3 elements: 5 6 7
    std::cout << subarray.size() << " elements: "
              << subarray[0] << " "
              << subarray[1] << " "
              << subarray[2] << "\n";

Note that the iterator range "knows" about the size of the sub-array. It will even do bounds checking for you. You cannot get that functionality from a simple pointer.

The usefulness of Boost.Range will become more apparent once you learn about STL containers and iterators.

If you're into linear algebra, Boost.uBlas supports ranges and slices for its matrices and vectors.

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In C++ you can use an int pointer as an int array, so getting the array2 to start at item 96 in array1 is easy, but there isn't any way to give array2 a size limit, so you can do this

int array2[] = &array1[96];

or this

int *array2 = &array1[96];

but NOT this

int array2[5] = &array1[96]; // this doesn't work.

On the other hand, C++ doesn't enforce array size limits anyway, so the only real loss is that you can't use sizeof to get the number of elements in array2.

note: &array1[96] is the same thing as array+96

edit: correction - int array[] = &array[96] isn't valid, you can only use [] as a synonym for * when declaring a function parameter list.

so this is allowed

extern int foo(int array2[]);
foo (&array1[96]);
share|improve this answer
I still get an error when I try to type in : int array2[] = &array1[96]. The error that I receive is : cannot convert from 'int *' to 'int []' – John Jan 26 '10 at 3:42
@John: int array2[] = &array1[96]; is bad. – Alok Singhal Jan 26 '10 at 3:46
Yeah, int foo[] and int *foo are interchangeable only as function parameters. – jamesdlin Jan 26 '10 at 3:57
@james: They aren't really interchangeable. Rather, arrays can decay into pointers, but they aren't the same. – GManNickG Jan 26 '10 at 4:10
@GMan: They are interchangeable as function parameters (not arguments). That's unrelated to the decay thing. – jamesdlin Jan 26 '10 at 4:59
int array1[] = {1,2,3,...99,100};
int *array2 = &array1[96];
share|improve this answer
int arr[] = { 1, 2, 3, 4, 5};
int arr1[2];
copy(arr + 3, arr + 5, arr1);
for(int i = 0; i < 2; i++)
    cout << arr1[i] << endl;

The code is not safe if the boundaries are not handled properly.

share|improve this answer

You said you don't want to copy the array, but get a pointer to the last five elements. You almost had it:

int array1[] = {1,2,3,...99,100};
int* array2  = &array1[95];
share|improve this answer
when I tried that I got this error: cannot convert from 'int *' to 'int []' – John Jan 26 '10 at 3:36
int array2[] = array1+95; is illegal. – Alok Singhal Jan 26 '10 at 3:42
Should be int array1[] = {1,2,3,...99,100}; int* array2 = array1+95; You cannot initialize an array (square brackets) with a pointer -- it can tell where it starts but not its size. – BenG Jan 26 '10 at 3:46

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