I've got a matrix calculator program, but I'm getting the wrong answer for my dot product multiplier.

Here's my multiply subroutine:

```
subroutine multiply(m1,m2,res,row1,row2,col1,col2)
integer, intent(in) :: row1,row2,col1,col2
real, intent(in), dimension(row1,col1) :: m1
real, intent(in), dimension(row2,col2) :: m2
real, intent(out), dimension(row1,col2) :: res
integer :: i,j,k
do i = 1, col2
do j = 1, col1
res(j, i) = 0
enddo
do j = 1, col1
do k = 1, row1
res(k, i) = res(k, i) + m1(k, j)*m2(j, i)
enddo
enddo
enddo
```

And here's my output, just in case that's the problem.

```
subroutine output(r,c,matrix,name)
integer, intent(in) :: r
integer, intent(in):: c
character(len=10) :: name
real, intent(out), dimension(3,3) :: matrix
integer i,j
print *,name
do i = 1, r
write(*,"(100F6.1)") ( matrix(i,j), j=1,c )
enddo
end subroutine
```

If it helps, it works excellently for a 3x3 matrix, but not for two rectangular matrix. Here's what happens when I do a 2x3 * 3x2 matrix. At this point, i'm desperate for help. Anything you could suggest would be great. Thanks!

EDIT: Here's all of my code in its current state with your suggestions.

```
PROGRAM G6P5
integer :: r1,r2,c1,c2,i,j,k,s
real :: input
real, dimension (3,3) :: mat1, mat2, rmat
write (*,*) 'Please make a selection:'
write (*,*) 'Enter 1 to add matrices'
write (*,*) 'Enter 2 to subtract matrices'
write (*,*) 'Enter 3 to multiply matrices'
write (*,*) 'Enter 4 to transpose a matrix'
write (*,*) 'Enter 5 to quit'
read *, s
select case (s)
case (1)
print *, 'Enter # of rows & columns (1-10) (ex. 3 3 = 3x3)'
read *, r1,c1
print *, 'Matrix 1:'
call fillmatrix(r1,c1,mat1)
r2 = r1
c2 = c1
print *, 'Matrix 2:'
call fillmatrix(r2,c2,mat2)
call output(r1,c1,mat1,'Matrix 1: ')
call output(r2,c2,mat2,'Matrix 2: ')
rmat = mat1+mat2
call output(r1,c1,rmat,'Sum: ')
case (2)
print *, 'Enter # of rows & columns (1-10) (ex. 3 3 = 3x3)'
read *, r1,c1
print *, 'Matrix 1:'
call fillmatrix(r1,c1,mat1)
r2 = r1
c2 = c1
print *, 'Matrix 2:'
call fillmatrix(r2,c2,mat2)
rmat = mat1-mat2
call output(r1,c1,mat1,'Matrix 1: ')
call output(r2,c2,mat2,'Matrix 2: ')
call output(r1,c1,rmat,'Sum: ')
case (3)
print *, 'Enter # of rows & columns for matrix 1'
print *, '(1 through 10, ex: 3 3 = 3x3)'
read *, r1,c1
print *, 'Matrix 1:'
call fillmatrix(r1,c1,mat1)
print *, 'Enter # of rows & columns for matrix 2'
print *, '(1 through 10, ex: 3 3 = 3x3)'
read *, r2,c2
print *, 'Matrix 2:'
call fillmatrix(r2,c2,mat2)
if (c1.eq.r2) then
call multiply(mat1,mat2,rmat,r1,r2,c1,c2)
call output(r1,c1,mat1,'Matrix 1: ')
call output(r2,c2,mat2,'Matrix 2: ')
call output(r1,c2,rmat,'Product: ')
end if
case (4)
print *, 'Enter # of rows & columns for matrix 1'
print *, '(1 through 10, ex: 3 3 = 3x3)'
read *, r1,c1
print *, 'Matrix 1:'
call fillmatrix(r1,c1,mat1)
call transpose(mat1,rmat,r1,c1)
call output(r1,c1,rmat,'Transpose:')
case (5)
print *,'5'
case default
print *,'default'
end select
! call fillmatrix(rows,columns,mat1)
! write (*,*) matrix1
END PROGRAM
subroutine fillmatrix(r,c,matrix)
integer, intent(in) :: r
integer, intent(in):: c
real, intent(out), dimension(3,3) :: matrix
integer i,j
do i=1,r
do j = 1,c
write (*,'(A,I2,A,I2,A)') 'Enter value (',i,',',j,').'
read*, matrix(i,j)
enddo
enddo
end subroutine
subroutine multiply(m1,m2,res,row1,row2,col1,col2)
integer, intent(in) :: row1,row2,col1,col2
real, intent(in), dimension(row1,col1) :: m1
real, intent(in), dimension(row2,col2) :: m2
real, intent(out), dimension(row1,col2) :: res
integer :: i,j,k
res = 0
do i = 1, row1
do j = 1, col2
do k = 1, col1 ! col1 must equal row2
res(i, j) = res(i, j) + m1(i, k)*m2(k, j)
enddo ! k
enddo ! j
enddo ! i
end subroutine
subroutine transpose(m1,res,row,col)
integer, intent(in) :: row,col
real, intent(in), dimension(row,col) :: m1
real, intent(out), dimension(row,col) :: res
integer :: i,j,k
do i = 1,col
do j = 1,row
res(i,j) = m1(j,i)
enddo
enddo
end subroutine
subroutine output(r,c,matrix,name)
integer, intent(in) :: r
integer, intent(in):: c
character(len=10) :: name
real, intent(in), dimension(r,c) :: matrix
integer i,j
print *,name
do i = 1, r
write(*,"(100F6.1)") ( matrix(i,j), j=1,c )
enddo
end subroutine
```

`call sub(r1,c1,mat(1:r1,1:c1))`

. If that works, I'll explain why in my answer. – SethMMorton Oct 10 '13 at 2:17`matmul`

. – Alexander Vogt Oct 10 '13 at 8:17