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I imagine this to be a standard noob problem but after spending all morning searching the web, I decided to bug you anyway. I'm on Mac OS 10.9 and I'd like to call a LAPACK eigenvalue routine from a Fortran program. I had the pleasure of being introduced to Fortran just yesterday, so please excuse any foolish mistakes.

This is the minimal example I want to get to run:

program eigtest
    complex A(3,3)
    real eigs(3)
    A(1,1) = cmplx(1,0)
    A(1,2) = cmplx(0,2)
    A(1,3) = cmplx(3,0)
    A(2,1) = cmplx(0,-2)
    A(2,2) = cmplx(5,0)
    A(2,3) = cmplx(1,-1)
    A(3,1) = cmplx(3,0)
    A(3,2) = cmplx(1,1)
    A(3,3) = cmplx(7,0)
    call heevd(A, eigs)
    write(*,*) eigs

I learned that on OS X, LAPACK is part of the Accelerate framework, so I tried things like:

gfortran -o eigtest -framework accelerate eigtest.f95

but the linker complains:

Undefined symbols for architecture x86_64:
  "_heevd_", referenced from:
      _MAIN__ in ccleuVFO.o
ld: symbol(s) not found for architecture x86_64
collect2: ld returned 1 exit status
share|improve this question
up vote 4 down vote accepted

I'm not sure that the Accelerate framework has that nice fortran95 call to heevd(A, eigs). Below, I wrap up the zheevd lapack subroutine (with all of its workspace variables) to keep the call nice and tight. You can store such ugliness inside an external module somewhere that you can load in your programs. I think intel MKL has most of the lapack95 interfaces, and there may be other better ways with the os x framework. The code below compiles with:

gfortran -o eigtest -framework Accelerate eigtest.f95    

program eigtest
    complex(kind=8),allocatable :: A(:,:), eigs(:), vecs(:,:)
    integer                     :: ierr

    if (ierr /= 0) STOP "*** not enough memory ***"

    A(1,1) = cmplx(1,0)
    A(1,2) = cmplx(0,2)
    A(1,3) = cmplx(3,0)
    A(2,1) = cmplx(0,-2)
    A(2,2) = cmplx(5,0)
    A(2,3) = cmplx(1,-1)
    A(3,1) = cmplx(3,0)
    A(3,2) = cmplx(1,1)
    A(3,3) = cmplx(7,0)
    !call heevd(A, eigs)
    call wrapped_zheevd(A, eigs,vecs)
    write(*,*) eigs


subroutine wrapped_zheevd (matin, &
                         zvals,zvecs )
    integer                                  :: ndim
    complex(kind=8),intent(in),  allocatable :: matin(:,:)
    complex(kind=8),intent(out), allocatable :: zvals(:),zvecs(:,:)
    character*1                              :: jobz='V',uplo='U'
    integer                                  :: info,lda,liwork,lrwork,lwork,n
    integer,                     allocatable :: iwork(:)
    real(kind=8),                allocatable :: rwork(:), w(:)
    complex(kind=8),             allocatable :: A(:,:),   work(:)
    integer                                  :: ierr


    if (allocated(zvecs)) deallocate(zvecs)
    if (allocated(zvals)) deallocate(zvals)
    if (ierr /= 0) STOP "*** not enough memory ***"


    lwork  = 2*n+n**2
    lrwork = 1+5*n+2*n**2
    liwork = 3+5*n

    if (ierr /= 0) STOP "*** not enough memory ***"


    call zheevd(jobz,uplo,n,a,lda,w,work,lwork,rwork,lrwork,iwork,liwork,info)



end subroutine

share|improve this answer

This link suggests that the missing method is an Intel library call:


I wonder where its equivalent lives on Mac? Do you have gfortran?


Does the bottom message suggest that there's no 64 bit version available?

Sorry - more questions than answers.

share|improve this answer
The missing method is the one from LAPACK. heevd calculates the eigenvalues of a hermitian matrix. I do use gfortran as indicated in the question. I have no problems compiling Fortran programs without calls to LAPACK. Since OS X is 64 bit through and through, I don't think the problem is that no 64 bit version is available. – Jonas Nov 1 '13 at 13:35
Yes, the docs made that clear. I think if LAPACK requires that method to be linked in, your task is to find the library where it lives and add it to your link path. – duffymo Nov 1 '13 at 13:43

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