# Implementation of Adjacent Matrix with 2D vectors c++

I am a beginner in c++ and I have worked on vectors just not on 2D vectors. I have surfed a lot, but data on internet is very specific related to 2D vectors. I need to build a graph given an input file and then apply Kruskal's algorithm for minimum spanning tree.

My approach:

``````A1, A2, A3.....An would be the first row and col of my 2d Vectors and they will
contain name. I will read the input file and start matching the names.
And then at graph[i][j] I will put the weight.

A1 A2 A3......

A1   w  w  w .......
A2   w  w  w .......
A3   w  w  w .......
``````

. . . . Now I am trying something like this:

``````struct mat{
string name;
}

int main(){
vector<vector<mat>> matrix;
// In order to insert
vector<mat> tempVec;
tempVec[0].name = "stack";
matrix.push_back(tempVec);
}
``````

Now I have no idea that when I do `tempVec[0].name`, 0 indicates which row or col of Matrix. If it indicates row then how do I know which col is being accessed. I mean `vector.push_back(tempVec)`, assigns which position in my Matrix to data. I know I can access individual elements like Matrix[i][j]. But How can I assign weight to a particular row, col position and then access it.

Further do you think will be a good implementation for Kruskal's Method.

-
sure it is not matrix.push_back(tempVec); ? – Floris Velleman May 8 '13 at 12:32
– B... May 8 '13 at 12:33
@user2151446 I want to do this using 2d Vectors. I think it will be much easier. – Likon_Master May 8 '13 at 12:35
@FlorisVelleman I don't understand your question ???? – Likon_Master May 8 '13 at 12:36

Using `vector<vector<T>>` is a fairly suboptimal way to represent matrices, even though it is often used. It would be better to make a one-dimensional `vector<T>` of size rows x cols. You can then index it as follows (assuming you follow C-style row major ordering):

``````vector<mat> matrix(rows*cols);
...
element_ij=matrix[i*cols+j];
``````

In your current code, you never insert anything into matrix:

``````vector<vector<mat>> matrix;
// In order to insert
vector<mat> tempVec;
tempVec[0].name = "stack";
vector.push_back(tempVec);
``````

I assume the last line should be `matrix.push_back(tempVec);`.

-
I made the change it was supposed to be matrix.push_back.....So do you think now it would represent 2D Matrix. – Likon_Master May 8 '13 at 12:38
It certainly is a way to represent a 2D matrix. – Marc Claesen May 8 '13 at 12:40
So how do I know which row and col is accessed. That is my real Question. – Likon_Master May 8 '13 at 12:42
When you would use this kind of setup, it is up to you to define the indexing scheme and stick to it. Typically `matrix[i][j]` refers to row i, column j. If you would simply do `matrix[i]`, you will get a `vector<mat>` as a result. It's up to you to choose whether your outermost index refers to columns or rows. – Marc Claesen May 8 '13 at 12:48