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I have a fortran program that is parallelised using OpenMP. The main function calls a Fortran function that contains the definition of a system with Ordinary Differential Equations. This runs okay when split across different threads. I also want the option to link in a C file with similar definition for the ODE's, and I can get this to run when I don't use OpenMP. The ODE is calculated incorrectly though when using OpenMP.

!************* Main Program OpenMP part **************
!SETUPBV contains a function that contains the ODE
!definition

!$OMP PARALLEL DEFAULT(SHARED) PRIVATE(I,IT,NT)

      IT = 0
!$    IT = OMP_GET_THREAD_NUM()
      NT = 1
!$    NT = OMP_GET_NUM_THREADS()
      IF(NLLV>=0.OR.IFST==1) &
        CALL SETUBV(NDIM,NA,NCOL,NINT,NFPR,NRC,NROW,NCLM,                &
         FUNI,ICNI,AP,PAR,NPAR,ICP,A,B,C,DD(1,1,BASE+1),DUPS,            &
         FCFC(1,BASE+1),UPS,UOLDPS,RLOLD,UDOTPS,UPOLDP,DTM,THU,          &
         IFST,IAM,IT,NT,IRF,ICF,IID,NLLV)

      I = (IT*NA+NT-1)/NT+1
      CALL BRBD(A(1,1,I),B(1,1,I),C(1,1,I),D,DD,DUPS(1,(I-1)*NCOL),FAA,FC,&
        FCFC,P0,P1,IFST,IID,NLLV,DET,NDIM,NTST,NA,NBC,NROW,NCLM,         &
        NFPR,NFC,A1,A2,BB,CC,C2,CDBC,                                    &
        SOL,S1,S2,IPR,IPC,IRF(1,I),ICF(1,I),IAM,KWT,IT,NT)

!$OMP END PARALLEL

!************* Extract from Module containing INTERFACE definition **************

SUBROUTINE FUNCINTFC(NDIM,U,ICP,PAR,IJAC,F,DFDU,DFDP) BIND(C,NAME='func')
   USE, INTRINSIC :: ISO_C_BINDING
   INTEGER(C_INT), INTENT(IN) :: NDIM, IJAC, ICP(*)
   REAL(C_DOUBLE), INTENT(IN), VALUE :: U(NDIM), PAR(*)
   REAL(C_DOUBLE), INTENT(OUT), VALUE :: F(NDIM)
   REAL(C_DOUBLE), INTENT(INOUT) :: DFDU(NDIM,NDIM),DFDP(NDIM,*)
END SUBROUTINE FUNCINTFC

!************* Function calling c-function with ODE **************

SUBROUTINE FUNC(NDIM,U,ICP,PAR,IJAC,F,DFDU,DFDP) 
!--------- ---- 

  USE INTERFACES, ONLY: FUNCINTFC

  IMPLICIT NONE
  INTEGER, INTENT(IN) :: NDIM, IJAC, ICP(*)
  DOUBLE PRECISION, INTENT(IN) :: U(NDIM), PAR(*)
  DOUBLE PRECISION, INTENT(OUT) :: F(NDIM)
  DOUBLE PRECISION, INTENT(INOUT) :: DFDU(NDIM,*), DFDP(NDIM,*)

  CALL FUNCINTFC(NDIM,U,ICP,PAR,IJAC,F,DFDU,DFDP) 

END SUBROUTINE FUNC


!************* C-function containing ODE definition **************

int func(integer *ndim, const doublereal u, const integer *icp,
               const doublereal par, const integer *ijac,
               doublereal f, doublereal *dfdu, doublereal *dfdp) 

{
    /* Builtin functions */
    double exp(doublereal);

    /* Local variables */
    static doublereal e, u1, u2;

/*     ---------- ---- */

/* Evaluates the algebraic equations or ODE right hand side */

/* Input arguments : */
/*      NDIM   :   Dimension of the ODE system */
/*      U      :   State variables */
/*      ICP    :   Array indicating the free parameter(s) */
/*      PAR    :   Equation parameters */

/* Values to be returned : */
/*      F      :   ODE right hand side values */

/* Normally unused Jacobian arguments : IJAC, DFDU, DFDP (see manual) */

    /* Function Body */
    u1 = u[0];
    u2 = u[1];

    e = exp(u2);

    f[0] = -u1 + par[0] * (1 - u1) * e;
    f[1] = -u2 + par[0] * par[1] * (1 - u1) * e - par[2] * u2;

    return 0;
} /* func_ */
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1 Answer 1

In C, static local variables aren't thread safe. Remove static from the declaration of the location variables. You don't need persistence of values across invocations. And if you did, you would have to be very careful about thread safety.

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Option 2: #pragma omp threadprivate(e,u1,u2) –  Hristo Iliev Nov 9 '13 at 11:42

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