# Objectives

Imagine that, we have matrix like

``````a11 a12 a13
a21 a22 a23
a31 a32 a33
``````

What I want to do is, from textbox value rotate this matrix so that, for example if I write 2 and press rotate, program must keep both diagonal values of matrix (in this case a11, a22, a33, a13, a31) and rotate 2 times clockwise other values. So result must be like

``````a11 a32 a13
a23 a22 a21
a31 a12 a33
``````

It must work for all `N x N` size matrices, and as you see every 4 rotation takes matrix into default state.

# What I've done

So idea is like that, I have 2 forms. First takes size of matrix (1 value, for example if it's 5, it generates 5x5 matrix). When I press OK it generates second forms textbox matrix like that

Form 1 code

``````    private void button1_Click(object sender, EventArgs e)
{
int matrixSize;
matrixSize = int.Parse(textBox1.Text);
Form2 form2 = new Form2(matrixSize);
form2.Width = matrixSize * 50 + 100;
form2.Height = matrixSize *60 + 200;
form2.Show();
//this.Hide();
}
``````

Form 2 code generates textbox matrix from given value and puts random values into this fields

``````public Form2(int matrSize)
{
int counter = 0;
InitializeComponent();
TextBox[] MatrixNodes = new TextBox[matrSize*matrSize];
Random r = new Random();
for (int i = 1; i <= matrSize; i++)
{
for (int j = 1; j <= matrSize; j++)
{
var tb = new TextBox();
int num = r.Next(1, 1000);
MatrixNodes[counter] = tb;
tb.Name = string.Format("Node_{0}{1}", i, j);
Debug.Write(string.Format("Node_{0}{1}", i, j));
tb.Text = num.ToString();
tb.Location = new Point(j * 50, i * 50);
tb.Width = 30;
tb.Visible = true;
counter++;
}
}

}
``````

Form 2 has 1 textbox for controlling rotation (others are generated on the fly, programmatically). What I want to do is, when I enter rotation count and press Enter on this textbox, I want to rotate textbox matrix as I explained above. Can't figure out how to do it.

-
It's not about 3x3 matrix - it's just sample. Application is about NxN. And, I think your commebt is nonsense –  heron Apr 5 '13 at 5:41
Copy both diagonals to separate array, transpose the matrix as many times as you need and replace resulting diagonals with saved ones. –  StaWho Apr 5 '13 at 5:55
@StaWho please explain in code –  heron Apr 5 '13 at 6:48
@StaWho Transposing isn't the same as a rotation. –  Code-Apprentice Apr 7 '13 at 19:39
@Code-Guru can you help me please? –  heron Apr 7 '13 at 19:43

Copy both diagonals to separate arrays, then rotate your matrix and replace diagonals. Below code shows each step:

``````class Program
{
static void Main(string[] args)
{
int matrixSize = 3;
string[,] matrix = new string[matrixSize,matrixSize];

//create square matrix
for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
matrix[x, y] = "a" + (x + 1).ToString() + (y + 1).ToString();
}
}

Console.WriteLine(Environment.NewLine + "Base square matrix");

for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
Console.Write(matrix[x, y] + " ");
}
Console.Write(Environment.NewLine);
}

//copy diagonals
string[] leftDiagonal = new string[matrixSize];
string[] rightDiagonal = new string[matrixSize];
for (int x = 0; x < matrixSize; x++)
{
leftDiagonal[x] = matrix[x, x];
rightDiagonal[x] = matrix[matrixSize - 1 - x, x];
}

Console.WriteLine(Environment.NewLine + "Diagonals");

for (int x = 0; x < matrixSize; ++x)
{
Console.Write(leftDiagonal[x] + " " + rightDiagonal[x] + Environment.NewLine);
}

//rotate matrix
string[,] rotatedMatrix = new string[matrixSize, matrixSize];
for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
rotatedMatrix[x, y] = matrix[matrixSize - y - 1, x];
}
}
Console.WriteLine(Environment.NewLine + "Rotated");

for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
Console.Write(rotatedMatrix[x, y] + " ");
}
Console.Write(Environment.NewLine);
}

//rotate matrix again
string[,] rotatedMatrixAgain = new string[matrixSize, matrixSize];
for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
rotatedMatrixAgain[x, y] = rotatedMatrix[matrixSize - y - 1, x];
}
}
Console.WriteLine(Environment.NewLine + "Rotated again");

for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
Console.Write(rotatedMatrixAgain[x, y] + " ");
}
Console.Write(Environment.NewLine);
}

//replace diagonals
for (int x = 0; x < matrixSize; x++)
{
rotatedMatrixAgain[x, x] = leftDiagonal[x];
rotatedMatrixAgain[matrixSize - 1 - x, x] = rightDiagonal[x];
}

Console.WriteLine(Environment.NewLine + "Completed" + Environment.NewLine);

for (int x = 0; x < matrixSize; x++)
{
for (int y = 0; y < matrixSize; y++)
{
Console.Write(rotatedMatrixAgain[x, y] + " ");
}
Console.Write(Environment.NewLine);
}
}
}
``````
-
I need form, not console. Please help me in forms, I'm newbie to c# –  heron Apr 5 '13 at 9:02
The code in answer is not meant to be finished product. It verbosely explains the algorithm, which achieves your required result. Specific implementation, regardless of framework, is entirely dependent on application design and in your case it means if I implemented this in Forms for you, I would deprive you from taking an amazing journey from frustration, through understanding to achievement :) –  StaWho Apr 5 '13 at 9:59
You need to decouple your user interface from your logic. Good programming wouldn't care whether you're working with a console or forms, or even web. Try building a class that does just the logic you want. Then post it here if it doesn't work. You have something to reference. –  RyanJMcGowan Apr 8 '13 at 9:32
@heron You're going to have a hard time getting anyone to write a finished product for you. I think this is the best answer you're going to get. –  Emrakul Apr 14 '13 at 6:52
@heron The algorithm you ask for is not dependent on the framework used to run it. You can use this answer with a few tweaks to do what you want. If you are unable to do this yourself, you may want to google for a site which advertises consultants for hire instead of using a free Q&A service like SO. –  Code-Apprentice Apr 14 '13 at 16:13

I don't know C#, so I can only give a suggestion in pseudocode:

Input: An N by N matrix `in`

Output: The input matrix rotated as described in the OP `out`

``````for i = 1 to N
for j = 1 to N
if N - j != i and i != j // Do not change values on either diagonal
out[j][N-i] = in[i][j]
else
out[i][j] = in[i][j]
``````

Disclaimer: This algorithm is untested. I suggest you use a debugger to check that it works as you want.

-

This seems like quite an unorthodox UI presentation, but you're not too far off in terms of being able to achieve your functionality. Instead of a linear array, a rectangular array will make your job much easier. The actual rotation could be implemented with a for loop repeating a single rotation (which would be implemented as in the `case 1` code), but I've decided to combine them into the four possible cases. This actually allows you to enter a negative number for number of rotations. Which reminds me, you really should do more error checking. At least protect against `int.Parse` throwing an exception both places it's used (with a try catch block or by switching to `int.TryParse`) and make sure it returns a meaningful number (greater than `0`, possibly set a reasonable maximum other than `int.MaxValue`) for `matrixSize` in `button1_Click`.

``````namespace RotatingMatrices
{
public class Form2 : Form
{
// note these class fields
private TextBox[,] matrixNodes;
private int matrixSize;

public Form2(int matrSize)
{
InitializeComponent();

// note these inits
matrixSize = matrSize;
matrixNodes = new TextBox[matrixSize, matrixSize];

Random r = new Random();

// note the new loop limits
for (int i = 0; i < matrixSize; i++)
{
for (int j = 0; j < matrixSize; j++)
{
var tb = new TextBox();
int num = r.Next(1, 1000);

// note the change in indexing
matrixNodes[i,j] = tb;
tb.Name = string.Format("Node_{0}_{1}", i, j);
Debug.Write(string.Format("Node_{0}_{1}", i, j));
tb.Text = num.ToString();
tb.Location = new Point(j * 50, i * 50);
tb.Width = 30;
tb.Visible = true;
}
}
}

private void buttonRotate_Click(object sender, EventArgs e)
{
string[,] matrix = new string[matrixSize, matrixSize];
int rotations = (4 + int.Parse(textBoxRotations.Text)) % 4; // note the addition of and mod by 4

switch(rotations)
{
case 1: // rotate clockwise
for (int i = 0; i < matrixSize; i++)
{
for (int j = 0; j < matrixSize; j++)
{
matrix[j, matrixSize - i - 1] = matrixNodes[i, j].Text;
}
}
break;
case 2:  // rotate 180 degrees
for (int i = 0; i < matrixSize; i++)
{
for (int j = 0; j < matrixSize; j++)
{
matrix[i, j] = matrixNodes[matrixSize - i - 1, matrixSize - j - 1].Text;
}
}
break;
case 3: // rotate counter-clockwise
for (int i = 0; i < matrixSize; i++)
{
for (int j = 0; j < matrixSize; j++)
{
matrix[i, j] = matrixNodes[j, matrixSize - i - 1].Text;
}
}
break;
default: // do nothing
return;
}

// restore diagonals
for(int i = 0; i < matrixSize; i++)
{
matrix[i, i] = matrixNodes[i, i].Text;
matrix[i, matrixSize - i - 1] = matrixNodes[i, matrixSize - i - 1].Text;
}

// write strings back to text boxes
for (int i = 0; i < matrixSize; i++)
{
for (int j = 0; j < matrixSize; j++)
{
matrixNodes[i, j].Text = matrix[i, j];
}
}
}
}
}
``````
-
Interresting... But what about even matrices? What is the valid diagonal in a 4x4? (Note that I didn't ask for a 5x5 because I needed the most ambiguous example clarified) –  LightStriker Apr 14 '13 at 17:51
Look at this: screencast.com/t/PpJxE1GK0853 . All blacks are diagonal elements and must be same. All red triangles must be rotated clockwise. So result of this rotation must be pastebin.com/QZhmxrGt –  heron Apr 14 '13 at 17:55
@LightStriker I'll updata my answer with an example of what I think a `4 x 4` rotation should look like in a bit –  jerry Apr 14 '13 at 17:56
@heron Clearly I didn't understand your request correctly the first time, thank you for the additional information. I've updated my answer accordingly and expanded it to include the interaction with the form. –  jerry Apr 15 '13 at 2:31

I decided to tackle the issue using a `listView` instead of a text box, which makes the logic easier for me. Using this method, I was able to think of the matrix as successive boxes. I start on the outside and move in toward the middle, changing the size of my box each time.

Also, rather than using two forms, I use one. At the top I have a textbox where the user enters the size they want the array to be, and a button labeled "Fill" (button2). And at the bottom I have a textbox where the user enters the degree of rotation. When they click "Rotate," it kicks off a process of adding values to linked lists, combining and shifting the list, and then writing back out to the matrix. I'm sure I made it more convoluted than it has to be, but it was a great learning exercise.

After looking over jerry's code above, I think I'm going to look into rectangular arrays. :)

``````using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Data;
using System.Drawing;
using System.Linq;
using System.Text;
using System.Windows.Forms;

namespace Recycle
{
public partial class Form1 : Form
{
public int size;

public Form1()
{
InitializeComponent();
}

private void button2_Click(object sender, EventArgs e)
{
listView1.Clear();

size = int.Parse(textBox2.Text);
int c = 0;
int q = 0;
int w = 0;
string[] content = new string[size];
Random rnd = new Random();

for (c = 0; c < size; c++)
{
}

for (q = 0; q < size; q++)
{
for (w = 0; w < size; w++)
{
content[w] = rnd.Next(9,100).ToString();
}

ListViewItem lvi = new ListViewItem(content);
}

}

public bool iseven(int size)
{
if (size % 2 == 0)
{
return true;
}
else
{
return false;
}
}

public void button1_Click(object sender, EventArgs e)
{
if (listView1.Items.Count < 3)
{
MessageBox.Show("Matrix cannot be rotated.");
return;
}

bool even = false;
int shift = int.Parse(textBox1.Text); //amount to shift by
int box = listView1.Items.Count - 1; //size of box
int half = Convert.ToInt32(listView1.Items.Count / 2);
int corner = 0; //inside corner of box

if (shift > listView1.Items.Count)
{
shift = shift % ((listView1.Items.Count - 2) * 4);
}

do
{
eachPass(shift, box, corner);
++corner;
--box;
} while (box >= half + 1);

}

public void eachPass(int shift, int box, int corner)
{
int x;
int i;

//Read each non-diagonal value into one of two lists
for (x = corner + 1; x < box; x++)
{
}

x = box;

for (i = corner + 1; i < box; i++)
{
}

for (x = box - 1; x  > corner; x--)
{
}

x = corner;

for (i = box - 1; i > corner; i--)
{
}

string myTest = "";

//join the two lists, so they can be shifted
foreach (string tR in topRight)
{
}

foreach (string bL in bottomLeft)
{
}

int sh;

//shift the list using another list
for (sh = shift; sh < myMatrix.Count; sh++)
{
}

for (sh = 0; sh < shift; sh++)
{
}

//we need the sizes of the current lists
int trCnt = topRight.Count;
int blCnt = bottomLeft.Count;

//clear them for reuse
topRight.Clear();
bottomLeft.Clear();

int s;

//put the shifted values back
for (s = 0; s < trCnt; s++)
{
}

for (s = blCnt; s < shiftMatrix.Count; s++)
{
}

int tRn = 0;
int bLn = 0;

//write each non-diagonal value from one of two lists
for (x = corner + 1; x < box; x++)
{
listView1.Items[corner].SubItems[x].Text = topRight.ElementAt(tRn);
++tRn;
}

x = box;

for (i = corner + 1; i < box; i++)
{
listView1.Items[i].SubItems[x].Text = topRight.ElementAt(tRn);
++tRn;
}

for (x = box - 1; x > corner; x--)
{
listView1.Items[box].SubItems[x].Text = bottomLeft.ElementAt(bLn);
++bLn;
}

x = corner;

for (i = box - 1; i > corner; i--)
{
listView1.Items[i].SubItems[x].Text = bottomLeft.ElementAt(bLn);
++bLn;
}

myMatrix.Clear();
shiftMatrix.Clear();
topRight.Clear();
bottomLeft.Clear();
}
}
}
``````
-