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How to resize a vector of vector containing integer values.

std::vector<std::vecotr<int>> MyVector;
int value = 10;

//need to insert values as 2 rows and 3 columns, like
//Myvector[0][0] = value;
//Myvector[0][1] = value;
//Myvector[0][2] = value;
//Myvector[1][0] = value;
//Myvector[1][1] = value;
//Myvector[1][2] = value;

// ......
//here i have to resize the vector size to 4 rows and 5 cols using resize() function.

MyVector.resize(.......); //Hoe is this possible.

The first problem is , I have to insert the values as 2 rows and 3 columns. how can I use push_back function for this purpose. After that need to resize to the specified size. Since it a vector of vector I am getting worried about this.

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In my code, there is constant size for an array. All the sizes are dynamically calculated, so I prefer to use a vector, instead of dynamic allocated array, for avoiding memory leaks. Since dynamic allocation without proper deallocation causes memory leaks. –  Aneesh Narayanan Jul 16 '12 at 6:05

4 Answers 4

up vote 4 down vote accepted

You can think of a vector of vectors as a matrix where the member vectors are "rows".

int main()
    std::vector<std::vector<int> > MyVector;
    //Create a row:
    std::vector<int> subVector;
    //put the row into the vector:
    //create another row:
    //put the second row into the vector
    //access the first row and add an element to it:
    //access the second row and add an element to it:
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You can initianize the vector to contain two vectors, representing a row each. Each of these can be initialized to contain 3 elements, representing the columns:

std::vector<std::vecotr<int>> MyVector(2, std::vector<int>(3));

then you can resize it by pushing back new rows:

// add a row

To add columns, you could push_back to each row, which is better achieved with a helper function

void appendColumn(std::vector<int> v);

I think this would all be better managed by writing a wrapper class, so you can easily ensure that the dimensions of all the vectors are all consistent with an NxM matrix.

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You can make MyVector a wrapper class around your vector of vector. You can define your own resize operation. In this case, I defined it to resize the columns lazily as the vector is accessed.

struct MyVector {
  std::vector< std::vector<int> > vec_;
  size_t cols_;
  struct MySubVector {
    const MyVector &outer_;
    std::vector<int> &vec_;
    MySubVector (MyVector &outer, std::vector<int> &vec)
      : outer_(outer), vec_(vec) {}
    int & operator [] (int i) const {
      return vec_[i];
  MySubVector operator [] (int i) {
    return MySubVector(*this, vec_[i]);
  void resize (size_t rows, size_t cols) {
    cols_ = cols;

If you want the resize to set a particular value for you on resize, then you will have to iterate on each row and invoke the resize operation, and set the initializer.

struct resize_cols {
  size_t cols;
  int val;
  resize_cols (size_t c, int v) : cols(c), val(v) {}
  void operator () (std::vector<int> &vec) const {
    vec.resize(cols, val);

void resize (size_t rows, size_t cols, int v) {
  std::for_each(vec_.begin(), vec_.end(), resize_cols(cols, v));
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In this case, just use the resize function on the outer vector:

MyVector.resize( 2, std::vector<int>( 3, value ) );

More generally, if you want to resize without changing existing values, you'll have to loop.

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