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i need to fill in the int[] array in C++ from zero to number defined by variable, but ISO C++ forbids variable length array... How to easily fill in the array? Do i need to allocate/free the memory?

int possibilities[SIZE];
unsigned int i = 0;
for (i = 0; i < SIZE; i++) {
    possibilities[i] = i;

btw. if you would ask - Yes, i need exactly standard int[] arrays, no vectors, no maps etc.

share|improve this question
Why exactly can't you use std::vector? – sharptooth Jan 26 '11 at 11:18
I need to pass the array to next_permutation()... And as i need it as easy as it could be, i don't want to build another own "permutation" function for vectors... – Radek Simko Jan 26 '11 at 11:20
You know you can use vectors as a standard C array too? Just use int* array = &myvec[0]; and then array is usable as a standard array and will stay fixed unless you add any elements to the underlying vector – JBB Jan 26 '11 at 11:22
@JohnB: I actually didn't know that. :-) – Radek Simko Jan 26 '11 at 11:24
@Radek, if you are talking about std::next_permutation, it doesn't need a C-style array, it works with bidirectional iterators, which vector will provide nicely (begin(), end()) – Nim Jan 26 '11 at 11:28

8 Answers 8

up vote 12 down vote accepted

As you've found, you cannot create a variable-length array on the stack. So your choices are either to allocate it on the heap (introduces memory-management issues), or to use a std::vector instead of a C-style array:

std::vector<int> possibilities(SIZE);
for (int i = 0; i < SIZE; i++)
    possibilities[i] = i;

If you want to get even more flashy, you can use STL to generate this sequence for you:

// This is a "functor", a class object that acts like a function with state
class IncrementingSequence
    // Constructor, just set counter to 0
    IncrementingSequence() : i_(0) {}
    // Return an incrementing number
    int operator() () { return i_++; }
    int i_;

std::vector<int> possibilities(SIZE);
// This calls IncrementingSequence::operator() for each element in the vector,
// and assigns the result to the element
std::generate(possibilities.begin(), possibilities.end(), IncrementingSequence);
share|improve this answer
nice one. generate_n matches the requirement even closer. – xtofl Jan 26 '11 at 11:25
@Nim: Good catch! – Oliver Charlesworth Jan 26 '11 at 11:26
@xtofl: In this case, I don't think it makes a great deal of difference. The OP simply wants to fill the entire array/vector with an incrementing sequence. As I understand it, std::generate_n is useful if you don't want to fill the entire thing. – Oliver Charlesworth Jan 26 '11 at 11:28
In this solution is great elegance. I love it. :) – Mephane Jan 26 '11 at 12:13
@Oli: I was referring to the fact that he uses an array, where the begin() and end() shim functions were absent before C++0x. Then the pair begin, SIZE is more convenient to indicate a range. – xtofl Jan 26 '11 at 12:43
std::vector<int> possibilities;
unsigned int i = 0;
for (i = 0; i < SIZE; i++) {

Use std::vector(you need to include <vector>)

If you want pass vector to std::next_permutation you need to write:


also you can use vector as C style arrays. &vec[0] returns pointer to C style array.

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If you have access to boost then you already have access to an incrementing iterator.

#include <vector>
#include <boost/iterator/counting_iterator.hpp>

std::vector<int> possibilities(

The counting iterator essentially wraps incrementing a value. So you can automatically tell it the begin and end values and vector will populate itself properly.

As mentioned elsewhere, the resulting vector can be used directly with std::next_permutation.

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If you make SIZE a constant (macro or const), you can use it to specify the size of your static array. If it is not possible to use a constant, for example you are reading the intended size from outside the program, then yes you will need to allocate the memory.

In short, if you don't know the size at compile time you probably need to allocate the memory at runtime.

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You can use the std::generate_n function:

std::generate_n( myarray, SIZE, increment() );

Where increment is an object that generates numbers:

struct increment {
 int value;
 int operator() () { return ++value; }
share|improve this answer
operator should be operator()(){... – Ben J Feb 16 '13 at 16:58
@BenJ: that's right. thanks. – xtofl Feb 17 '13 at 7:54

In c++11 you can use std::iota and std::array. Example below fills array sized 10 with values from 1 to 10.

std::array<int, 10> a;
std::iota(a.begin(), a.end(), 1);

Edit Naturally std::iota works with vectors as well.

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it should be help u man

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
share|improve this answer
Don't recommend new[] and delete[] to people who are new to C++. – Elyse Dec 14 '14 at 11:45
@райтфолд: may I know why? they should start from somewhere... I used to program in borland C++(DOS) version... – rima Mar 4 at 10:24
Because they are dangerous tools you never use? Always use std::vector. – Elyse Mar 4 at 10:32
@райтфолд: I know how dangerous tools they could be, but our teacher 11 years back likes to work with them, we use to do Video Ram programming during 2nd semester of bachour ;) – rima Mar 4 at 11:26

Simply use a dynamic arrays?

type * pointer;
pointer = new type[number_of_elements];

void main() 
int limit = 0; // Your lucky number
int * pointer = NULL; 
cout << "Please, enter limit number: ";           
cin >> n;
pointer = new int[limit+1]; // Just to be sure.
    for (int i = 0; i < n; i++) 
         pointer[i] = i; // Another way is: *(pointer+i) = i (correct me if I'm wrong)   
delete [] pointer; // Free some memory
pointer = NULL; // If you are "pedant"

I don't pretend this is the best solution. I hope it helps.

share|improve this answer
Don't recommend new[] and delete[] to people who are new to C++. – Elyse Dec 14 '14 at 11:46
Sorry, I think that std::vector<int> possibilities(SIZE); is more complex. – bpavlov Dec 15 '14 at 14:24
@rightfold see also the question; "i need exactly standard int[] arrays, no vectors, no maps etc." – bpavlov Jul 29 at 9:16

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