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I must declare an array of arrays or multidimensional array without know the size. I want to do something similar that I do in this cases with simple arrays:

int *array;
cin >> size;
array = new int[size];

Maybe I can do a loop to initialize a pointer of pointers like this:

int **array;
cin >> rows >> col;
array = new *int[rows]
for (int i = 0; i < rows; ++i)
    array[i] = new int[col];

But I prefer don't do this if a better solution is possible.

share|improve this question
If you want an array of a size only known at runtime, what you probably really want is a std::vector. – cHao Oct 10 '12 at 23:55
Have you learned about the standard library? Do you know what a std::vector is? – amdn Oct 10 '12 at 23:55
@PuraVida I know perfectly the standard library thanks. I'm testing the performance on use a vector<vector<int> > and an array int[][], so I need use the array and therefore is why I don't want to use a loop to initialize it. – blackløtus Oct 11 '12 at 0:04
up vote 5 down vote accepted

Why not use std::vector?

std::vector<std::vector<int> > array;

If you don't want to use an array of pointers, you could use one large array that you allocate dynamically after you get the size and access it as an array of rows.

int rows = 10;
int columns = 20;

int* array = new int[rows * columns];

for (int count = 0; count < rows; count++)
   int* row = &array[count * columns];

   for (int inner_count = 0; inner_count < columns; inner_count++)
      int* element = &row[inner_count];

      //do something

delete [] array;
share|improve this answer
Don't use a vector of vectors if the code in question is performance sensitive. You will face tons of cache misses when compared to a single large block of memory. – Ed S. Oct 10 '12 at 23:59
@EdS.yea this is one of the reasons and I want to try to do this without use a loop to initialize it. – blackløtus Oct 11 '12 at 0:13

You're pretty much going to have to go with the loop version. You can make one slight improvement, which is to allocate one big block and then build your own int* index into it:

int **array;
int *storage;
cin >> rows >> col;
array = new *int[rows];
storage = new int[rows*col];
for (int i = 0; i < rows; ++i)
    array[i] = storage + col * i;

This has the nice property that you can still use array[i][j] syntax for accessing the array.

share|improve this answer

If you care, you can have a little bit more convenience by have a helper

template <typename T>
struct C3DArray
    vector<vector<vector<T>>> m;
    C3DArray(int size_x, int size_y, int size_z)
        : m(make(T(), size_z, size_y, size_x))
    { }

    template <typename U> static std::vector<U> make(U v, size_t n) {
        return { n, std::move(v) };

    template <typename U, typename... Dim> static auto make(U v, size_t n, Dim... other)
        -> std::vector<decltype(make(v, other...))> {
        return { n, make(v, other...) };

This uses variadics. Use it like this:

C3DArray<int> arr(3,4,20);
share|improve this answer

You could use a single std::vector to contain the entire two dimensional array and wrap it in a class to hide the details. Here's an example, it uses a data( row, col ) member function that returns a reference to the element at row and col. I included an example 2 dimensional matrix of int where each entry in the array is initialized to the product of its row and col. When an instance of this class goes out of scope, the default destructor will get called and release the memory, that way you don't have to remember to call delete[] to release the memory. All elements of the matrix will be contiguous in memory, this is cache friendly and should give you good performance.

#include <iostream>
#include <vector>
#include <stdexcept>

template <typename T>
class matrix {
    std::vector<T> data_;
    size_t const rows_;
    size_t const cols_;
    matrix(size_t rows, size_t cols)
        : rows_(rows)
        , cols_(cols)
        , data_( rows * cols )
    T& data( size_t row, size_t col ) {
        if (row > rows_ || col > cols_) throw std::out_of_range("matrix");
        return data_[ row * cols_ + col ];

int main( int argc, char** argv )
    matrix<int> array(100,100);

    for(size_t r=0; r < array.rows_; ++r) {
        for(size_t c=0; c < array.cols_; ++c) {
  ,c) = r * c;

    std::cout << "8 x 7 = " <<,7) << std::endl;

    return 0; // array goes out of scope here, memory released automatically

When you run this you will get

8 x 7 = 56
share|improve this answer
thanks for the explanation, I will try this – blackløtus Oct 19 '12 at 11:21

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