# Extracting a list of all diagonals from a matrix in a specific direction

I'm trying to extract from a matrix all the diagonals in a certain direction, for example down-right.

For the following matrix:

``````A   B   C   D
E   F   G   H
I   L   M   N
``````

the expected result should be

``````[ [A F M], [B G N], [C H], [D], [E L], [I] ]
``````

A general approach is welcome.

The language I'm using is Java.

Thanks!

EDIT

``````String[] grid = {"SUGAR",
"GLASS",
"MOUSE"};

for( int k = 0; k < grid.length; k++ )
{
StringBuffer buffer = new StringBuffer( );

for( int i = 0; i < grid.length
&& i+k < grid[0].length( ); i++ )
{
buffer.append( grid[i].charAt(i+k) );
}

}
``````

output words added to the trie are

``````[ "SLU" "UAS" "GSE" ]
``````

expected strings stored in the trie (order doesn't matter )

``````[ "SLU" "UAS" "GSE" "GO" "M" "AS" "R"]
``````
-
What have you tried till now ? – Bhavik Ambani May 23 '12 at 4:27
@bhavik I have tried using all kind of for loops to do this, but so long I haven't found a way to make it work. This is part of a bigger program I have been writing and I have successfully retrieved other data from the matrix. This is the last part and I just can't figure out the pattern to apply. – Andrea Della Corte May 23 '12 at 5:03
Then write the code you have tried so that one can improve that – Bhavik Ambani May 23 '12 at 5:11

This was an interesting problem to solve.

It's easy to get tangled up in nested loops.

I noticed if I put the words together into one string, a pattern emerged.

Taking the OP's example, the three words "SUGAR", "GLASS", "MOUSE" are concatenated together into SUGARGLASSMOUSE.

Here are the zero based character positions of the characters that I need to get from the concatenated string. I've lined them up so you can more easily see the pattern.

``````          10     M
5    11     GO
0    6    12     SLU
1    7    13     UAS
2    8    14     GSE
3    9           AS
4                R
``````

See the pattern yet? I have 3 indexes that consist of 5 iterations. I have 3 words that consist of 5 letters.

The number of diagonal words is `letters + words - 1`. We subtract 1 because the first letter in character position 0 is only used once.

Here are the results from a test I ran.

``````[ "SUGAR" "GLASS" "MOUSE" "STATE" "PUPIL" "TESTS" ]
[ "T" "PE" "SUS" "MTPT" "GOAIS" "SLUTL" "UASE" "GSE" "AS" "R" ]

[ "SUGAR" "GLASS" "MOUSE" ]
[ "M" "GO" "SLU" "UAS" "GSE" "AS" "R" ]
``````

And here's the code:

``````import java.util.ArrayList;
import java.util.List;

public class Matrix {

public static final int DOWN_RIGHT = 1;
public static final int DOWN_LEFT = 2;
public static final int UP_RIGHT = 4;
public static final int UP_LEFT = 8;

public String[] getMatrixDiagonal(String[] grid, int direction) {
StringBuilder builder = new StringBuilder();
for (String s : grid) {
builder.append(s);
}
String matrixString = builder.toString();

int wordLength = grid[0].length();
int numberOfWords = grid.length;
List<String> list = new ArrayList<String>();

if (wordLength > 0) {
int[] indexes = new int[numberOfWords];

if (direction == DOWN_RIGHT) {
indexes[0] = matrixString.length() - wordLength;
for (int i = 1; i < numberOfWords; i++) {
indexes[i] = indexes[i - 1] - wordLength;
}

int wordCount = numberOfWords + wordLength - 1;

for (int i = 0; i < wordCount; i++) {
builder.delete(0, builder.length());
for (int j = 0; (j <= i) && (j < numberOfWords); j++) {
if (indexes[j] < wordLength * (wordCount - i)) {
char c = matrixString.charAt(indexes[j]);
builder.append(c);
indexes[j]++;
}
}
String s = builder.reverse().toString();
}
}

if (direction == DOWN_LEFT) {
// Exercise for original poster
}

if (direction == UP_RIGHT) {
// Exercise for original poster
}

if (direction == UP_LEFT) {
// Exercise for original poster
// Same as DOWN_RIGHT with the reverse() removed
}
}

return list.toArray(new String[list.size()]);
}

public static void main(String[] args) {
String[] grid1 = { "SUGAR", "GLASS", "MOUSE", "STATE", "PUPIL", "TESTS" };
String[] grid2 = { "SUGAR", "GLASS", "MOUSE" };

Matrix matrix = new Matrix();
String[] output = matrix.getMatrixDiagonal(grid1, DOWN_RIGHT);
System.out.println(createStringLine(grid1));
System.out.println(createStringLine(output));

output = matrix.getMatrixDiagonal(grid2, DOWN_RIGHT);
System.out.println(createStringLine(grid2));
System.out.println(createStringLine(output));
}

private static String createStringLine(String[] values) {
StringBuilder builder = new StringBuilder();
builder.append("[ ");

for (String s : values) {
builder.append("\"");
builder.append(s);
builder.append("\" ");
}

builder.append("]");

return builder.toString();
}

}
``````
-
Super like for thinking out the box. – Andrea Della Corte Jul 5 '13 at 22:10
``````    String[] grid = {"SUGAR",
"GLASS",
"MOUSE"};
System.out.println("Result: " + Arrays.toString(diagonals(grid)));

public static String[] diagonals(String[] grid) {
int nrows = grid.length;
int ncols = grid[0].length();
int nwords = ncols + nrows - 1;
String[] words = new String[nwords];
int iword = 0;
for (int col = 0; col < ncols; ++col) {
int n = Math.min(nrows, ncols - col);
char[] word = new char[n];
for (int i = 0; i < n; ++i) {
word[i] = grid[i].charAt(col + i);
}
words[iword] = new String(word);
++iword;
}
for (int row = 1; row < nrows; ++row) {
int n = Math.min(ncols, nrows - row);
char[] word = new char[n];
for (int i = 0; i < n; ++i) {
word[i] = grid[row + i].charAt(i);
}
words[iword] = new String(word);
++iword;
}
assert iword == nwords;
return words;
}

Result: [SLU, UAS, GSE, AS, R, GO, M]
``````

First a loop with the first element on the column. Then a loop on the rows, skipping row 0. The code in both loops is very symmetric. Nothing too difficult. Assumed is that all strings have the same length.

As one loop:

``````public static String[] diagonals(String[] grid) {
int nrows = grid.length;
int ncols = grid[0].length();
int nwords = ncols + nrows - 1;
String[] words = new String[nwords];

// Position of first letter in word:
int row = 0;
int col = ncols - 1;

for (int iword = 0; iword < nwords; ++iword) {
int n = Math.min(nrows - row, ncols - col);
char[] word = new char[n];
for (int i = 0; i < n; ++i) {
word[i] = grid[row + i].charAt(col + i);
}
words[iword] = new String(word);

if (col > 0) {
--col;
} else {
++row;
}
}
return words;
}
``````

The declaration of `word` could be brought outside the loop. Simply walks with (row, col) the left and top rim.

-
+1 elegant. but the method covers one side of diagonal which is from left to right. Right to left diagonal is missing which could be applied by just reversing each string – brain storm Mar 13 '15 at 20:09

If your data is in table form, you could just scan the matrix up the first column, then left across the first row.

``````final String[M][N] mtx = { ... };

public List<List<String>> diagonalize() {
final List<List<String>> diags = new ArrayList<>();
for (int row = M - 1; row > 1; --row) {
}
for (int col = 0; col < N; ++col) {
}
return diags;
}

private List<String> getDiagonal(int x, int y) {
final List<String> diag = new ArrayList<>();
while (x < M && y < N) {
}
return diag;
}
``````
-

You can represent your matrix using 2-dimensional array,

char[][] matrix = char[][]

Then you can use for loops to iterate thorough it and extract the out put you want, input for your algorithm would be which diagonal direction you want.

For Ex; one possible input would be right down

Based on the possible inputs you have to decide on how to iterate through the loop initial conditions and terminating conditions.