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public class Homework2 {
    public static void main(String[] args){
    int num1 = (int) (Math.random()*(10-3+1)+3);
    int num2 = (int) (Math.random()*(10-3+1)+3);

    double[][] doubMatrix1 = new double[num1][num2];
    double[][] doubMatrix2 = new double[num1][num2];
    double[][] doubMatrix3 = new double[num1][num2];

    doubMatrix1 = getdoubMatrix(num1,num2);
    doubMatrix2 = getdoubMatrix(num1,num2);
    doubMatrix3 = addMatrices(doubMatrix1, doubMatrix2, num1, num2);        
    printDoubMatrix("First matrix", doubMatrix1);
    printDoubMatrix("Second matrix", doubMatrix2);
    printDoubMatrix("Result of adding", doubMatrix3);
    doubMatrix2 =transposeMatrix(num1,num2, doubMatrix2);
    printDoubMatrix("Second matrix transposed", doubMatrix2);
    doubMatrix3 = multipyMatrices(doubMatrix1, doubMatrix2, num1, num2);
    printDoubMatrix("Result of multiplying", doubMatrix3);




}

public static double[][] getdoubMatrix(int num1,int num2){

    double[][] tempArray = new double[num1][num2];
    for(int i = 0;i < tempArray.length;i++)
        for(int j = 0;j < tempArray[i].length;j++)
        {
            tempArray[i][j] = Math.random() * (100);                
        }
    return tempArray;
}

public static double[][] addMatrices(double[][] doubMatrix1, double[][] doubMatrix2,int num1,int num2)
{

    double[][] tempArray = null;
    if(doubMatrix1.length == doubMatrix2.length)
        if(doubMatrix1[0].length == doubMatrix2[0].length)
        {
             tempArray = new double[num1][num2];
            for(int i = 0; i< doubMatrix1.length;i++)
                  for(int j = 0; j< doubMatrix1[i].length;j++ )
                  {
                      tempArray[i][j] = doubMatrix1[i][j] + doubMatrix2[i][j];
                  }
        }
        else
        {
            return tempArray = new double[0][0];

        }

    return tempArray;
}

public static void printDoubMatrix(String text,double[][] doubMatrix1){

    System.out.println(text);
    for(int i = 0; i< doubMatrix1.length;i++)
    {
          for(int j = 0; j< doubMatrix1[i].length;j++ ) {                    
              System.out.printf("%9.1f", doubMatrix1[i][j]);                
          }
          System.out.println();
    }       
}

public static double[][] transposeMatrix(int num1, int num2, double[][] doubMatrix2){
    double[][] tempArray = new double[num2][num1];
    for(int i = 0;i < num1;i++)
        for(int j = 0;j < num2;j++)
        {
            tempArray[j][i] = doubMatrix2[i][j];               
        }    
    return tempArray;
}

public static double[][] multipyMatrices(double[][] doubMat1, double[][] doubMat2, int num1, int num2)

{       
        double[][] tempArray = null;
        if(doubMat1[0].length == doubMat2.length)
        {
                tempArray = new double[num1][num2];
                for(int i = 0; i< doubMat1.length;i++)              
                    for(int j = 0; j < doubMat1[i].length;j++ )
                        for(int k = 0; k <doubMat1[i].length;k++ )
                    {
                            tempArray[i][j] = tempArray[i][j] + doubMat1[i][k]*doubMat2[k][j];

                    }
            }

            else
            {

                return tempArray = new double[0][0];
            }
        return tempArray;
}

}

ok I have narrowed my code down to a error at the for loop where it said j in the last method,but i really don't know how to fix it. Can anyone suggest a way to make this code work. The statement to multiply matrices is not wrong also the row for loop is not wrong

my multiply method output the samething as my transposed method which is not correct, well I think that J ranges over the second index of doubMat2

here is my output

First matrix

     55.8     58.8     18.6      5.0     34.6     97.6      8.8
      8.4     71.1     63.3     15.7     63.9     41.8     89.2
      1.0     54.5     36.5     68.5     55.8     21.3     40.1
     10.0     67.2     37.8     45.9     95.5     76.0     98.2
     11.2     20.8      8.3     78.3     44.8     81.2     32.8
     58.0      7.9     57.2     22.2     92.6     90.0     93.2
     73.7      5.2     20.1     13.3     73.0     30.3     63.2
      9.1     72.1     75.3     53.3     45.6     86.6     85.4
Second matrix

     12.2     76.0      7.3     87.8      8.9     23.6     67.1
     65.4     22.0     91.3     96.0     59.6     76.4     82.0
     51.2     29.5     39.2     70.9      6.8      1.5     78.0
     52.6     47.3     29.5      1.4     95.8     15.4     43.9
     27.1     79.7     26.7     14.6     47.0     52.6     80.4
     65.7     88.8     46.5     60.9     82.6      4.9      9.9
     47.9     21.7     55.4     67.1     26.3     90.1     90.0
     96.0     15.7     92.9     74.9     22.8     17.3     53.9
Result of adding

     68.0    134.8     25.9     92.8     43.4    121.1     75.8
     73.8     93.1    154.6    111.7    123.5    118.2    171.2
     52.2     84.0     75.7    139.4     62.6     22.8    118.0
     62.6    114.5     67.3     47.3    191.2     91.4    142.1
     38.3    100.6     35.0     92.9     91.8    133.7    113.2
    123.7     96.7    103.6     83.2    175.2     94.9    103.1
    121.6     26.9     75.5     80.4     99.3    120.4    153.2
    105.1     87.8    168.2    128.2     68.4    103.9    139.2
Second matrix transposed

     12.2     65.4     51.2     52.6     27.1     65.7     47.9     96.0
     76.0     22.0     29.5     47.3     79.7     88.8     21.7     15.7
      7.3     91.3     39.2     29.5     26.7     46.5     55.4     92.9
     87.8     96.0     70.9      1.4     14.6     60.9     67.1     74.9
      8.9     59.6      6.8     95.8     47.0     82.6     26.3     22.8
     23.6     76.4      1.5     15.4     52.6      4.9     90.1     17.3
     67.1     82.0     78.0     43.9     80.4      9.9     90.0     53.9
Result of multiplying

     12.2     65.4     51.2     52.6     27.1     65.7     47.9     96.0
     76.0     22.0     29.5     47.3     79.7     88.8     21.7     15.7
      7.3     91.3     39.2     29.5     26.7     46.5     55.4     92.9
     87.8     96.0     70.9      1.4     14.6     60.9     67.1     74.9
      8.9     59.6      6.8     95.8     47.0     82.6     26.3     22.8
     23.6     76.4      1.5     15.4     52.6      4.9     90.1     17.3
     67.1     82.0     78.0     43.9     80.4      9.9     90.0     53.9
share|improve this question
    
Are you going to tell what problem are you having? –  Rohit Jain Oct 17 '12 at 6:34
    
oh sorry about that –  Khoa Vo Oct 17 '12 at 6:35
    
my code run without error,It just doesn't print out the right output –  Khoa Vo Oct 17 '12 at 6:35
1  
Well, first of all, when printing "Result of multiplying", do print the result of your multiplication doubMatrix3, not merely the factor doubMatrix2. Better variable names would have prevented that. But there also is something fishy in your multiplication method; your current code generates a num1*num2 matrix when multiplying a num1*num2 matrix with a num2*num1 matrix which (unless num1 equals num2) is wrong. –  mkl Oct 17 '12 at 6:46
1  
For one thing, I'm pretty sure j should go to doubMat2[i].length, not doubMat1[i].length (in the multipyMatrices function). –  Dukeling Oct 17 '12 at 6:52
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