Wednesday, 23 November 2016

Print Matrix in Spiral form

Print Matrix in Spiral order OR
Given m*n matrix(m rows, n columns), print all elements of the matrix in spiral order OR

Print two-dimensional array in spiral order OR
How to print elements of Matrix in Spiral Format?

Given a Matrix(2D array), print it in spiral form. Lets understand the problem statement graphically and it will be more clear,  


Algorithm



There are 2 ways to print matrix in Spiral order. 
  1. Iterative.
  2. Recursive.


In case if you like to visit all questions related to Matrix on our blog,

In this approach, we will focus on Iterative approach.

In Iterative approach, we need to maintain 4 variables rowStart, rowLength, colStart, colLength which help in printing matrix in Spiral way.
  1. Left to Right.
    Move variable i from rowStart till colLength. (
    Print data from first row till last column.)

  2. Top to Bottom.
    Move variable i from (rowStart+1) till rowLength. (Print data in last column till)
    We need to start from
    (rowStart+1) because, we already printed corner element in Left to Right printing and no need to include it again. Same treatment for corner elements in other directions.

  3. Right to Left.
    Move variable i from colLength-1 till colStart. (Print data in last row)

  4. Bottom to Up.
    Move variable i from rowLength-1 till rowStart. (Print data in first column)

  5. After printing all 4 directions, In next iteration,
    we need to start from second row and second column, so increment
    (rowStart ++) and (colStart++).

    we need to print till second Last column and till second Last row, so decrement
    (colLength --) and
    (rowLength --).

You can compare Printing Matrix in Spiral form to Peeling an onion.

First, you peel off the outer-layer skin (Print outer matrix). After the first layer is peeled off, there’s another layer to peel (Print inner matrix).

So you peel off the remaining onion again until there is no more to peel, which is where you stop.
(In our case we stop when rowStart meets rowLength or colStart meets colLength).

Java Program to Print Matrix in Spiral order


package javabypatel.matrix;

public class PrintMatrixInSpiralForm {

 public static void main(String[] args) {
  new PrintMatrixInSpiralForm();
 }

 public PrintMatrixInSpiralForm() {
  int[][] matrix = {
   {1,  2,  3,  4,  5},
   {6,  7,  8,  9,  10},
   {11, 12, 13, 14, 15},
   {16, 17, 18, 19, 20},
   {21, 22, 23, 24, 25}
  };
  
  printMatrixInSpiralWay(matrix);
 }
 
 private void printMatrixInSpiralWay(int[][] matrix){

  int rowStart=0;
  int rowLength=matrix.length-1;
  
  int colStart=0;
  int colLength = matrix[0].length-1;
  
  while(rowStart <= rowLength && colStart <= colLength){
  
   for (int i = rowStart; i <= colLength; i++) {
    System.out.print(matrix[rowStart][i] + " ");
   }

   for (int j = rowStart+1; j <= rowLength; j++) {
    System.out.print(matrix[j][colLength] + " ");
   }
   
   if(rowStart+1 <= rowLength){
    for (int k = colLength-1; k >= colStart; k--) {
     System.out.print(matrix[rowLength][k] + " ");
    }
   }
   if(colStart+1 <= colLength){
    for (int k = rowLength-1; k > rowStart; k--) {
     System.out.print(matrix[k][colStart] + " ");
    }
   }
   
   rowStart++;
   rowLength--;
   colStart++;
   colLength--;
  }
 }
}

we need to check condition "if (rowStart+1 <= rowLength)" while printing from Right to Left because, if Matrix contains only 1 row then this condition will help in eliminating further iteration.

Similarly, we check "if(colStart+1 <= colLength)" while printing from Bottom to Top because, if Matrix contains only 1 Column then this condition will help in eliminating further iteration.


You may also like to see


Print Matrix in Spiral order using Recursion.


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Union and Intersection of Two Sorted Arrays

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Enjoy !!!! 

If you find any issue in post or face any error while implementing, Please comment.

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