In trying to mix precision in a simple program - using both real and double - and use the ddot routine from BLAS, I'm coming up with incorrect output for the double precision piece. Here's the code:

```
program test
!! adding this statement narrowed the issue down to ddot being considered real(4)
implicit none
integer, parameter :: dp = kind(1.0d0)
!! The following 2 lines were added for the calls to the BLAS routines.
!! This fixed the issue.
real(dp), external :: ddot
real, external :: sdot
real, dimension(3) :: a,b
real(dp), dimension(3) :: d,e
integer :: i
do i = 1,3
a(i) = 1.0*i
b(i) = 3.5*i
d(i) = 1.0d0*i
e(i) = 3.5d0*i
end do
write (*,200) "sdot real(4) = ", sdot(3,a,1,b,1) ! should work and return 49.0
write (*,200) "ddot real(4) = ", ddot(3,a,1,b,1) ! should not work
write (*,200) "sdot real(8) = ", sdot(3,d,1,e,1) ! should not work
write (*,200) "ddot real(8) = ", ddot(3,d,1,e,1) ! should work and return 49.0
200 format(a,f5.2)
end program test
```

I've tried compiling with both gfortran and ifort using the MKL BLAS libraries as follows:

```
ifort -lmkl_intel_lp64 -lmkl_sequential -lmkl_core
gfortran -lmkl_intel_lp64 -lmkl_sequential -lmkl_core main.f90
```

The output is:

```
sdot real(4) = 49.00
ddot real(4) = 0.00
sdot real(8) = 4.10
ddot real(8) = 0.00
```

How can I get the ddot routine to correctly process the double precision values?

Additionally, adding the -autodouble flag (ifort) or -fdefault-real-8 (gfortran) flag makes both of the ddot routines work, but the sdot routines fail.

**Edit:**
I added the implicit none statement, and the two type statements for the ddot and sdot functions. Without the type specified for the function calls the ddot was being typed implicitly as single precision real.