multi_buf2var.F File Reference

#include "implicit_f.inc"
#include "param_c.inc"
#include "com01_c.inc"
#include "task_c.inc"
#include "mvsiz_p.inc"

Go to the source code of this file.

Functions/Subroutines
subroutine	multi_buf2var (itask, iparg, multi_fvm, elbuf_tab)

Function/Subroutine Documentation

multi_buf2var()

subroutine multi_buf2var	(	integer, intent(in)	itask,
		integer, dimension(nparg, *), intent(in)	iparg,
		type(multi_fvm_struct), intent(inout)	multi_fvm,
		type(elbuf_struct_), dimension(ngroup), intent(inout), target	elbuf_tab )

Definition at line 31 of file multi_buf2var.F.

C-----------------------------------------------
C     M o d u l e s
C-----------------------------------------------
      USE elbufdef_mod
      USE multi_fvm_mod
C-----------------------------------------------
C     I m p l i c i t   T y p e s
C-----------------------------------------------
#include      "implicit_f.inc"
C-----------------------------------------------
C     C o m m o n   B l o c k s
C-----------------------------------------------
C     NPARG
#include      "param_c.inc"
C     NGROUP
#include      "com01_c.inc"
C     NTHREAD
#include      "task_c.inc"
C     MVSIZ
#include      "mvsiz_p.inc"
C-----------------------------------------------
C     D u m m y   A r g u m e n t s
C-----------------------------------------------
      INTEGER, INTENT(IN) :: ITASK, IPARG(NPARG, *)
      TYPE(MULTI_FVM_STRUCT), INTENT(INOUT) :: MULTI_FVM
      TYPE(ELBUF_STRUCT_), TARGET, DIMENSION(NGROUP), INTENT(INOUT) :: ELBUF_TAB
C-----------------------------------------------
C     L o c a l   V a r i a b l e s
C-----------------------------------------------
      INTEGER :: NBMAT, IMAT, II, I, NG, MATLAW, NEL, NFT
      my_real :: vol
      TYPE(G_BUFEL_), POINTER :: GBUF
      TYPE(L_BUFEL_), POINTER :: LBUF
 
      nbmat = multi_fvm%NBMAT
      DO ng = itask + 1, ngroup, nthread
         matlaw = iparg(1, ng)
         IF (matlaw == 151) THEN
            nel = iparg(2, ng)
            nft = iparg(3, ng)
            gbuf => elbuf_tab(ng)%GBUF
            DO ii = 1, nel
               i = ii + nft
C     Mass density
               multi_fvm%RHO(i) = gbuf%RHO(ii)
C     Volumic internal energy
               multi_fvm%EINT(i) = gbuf%EINT(ii)
C     Velocity
               multi_fvm%VEL(1, i) = gbuf%MOM(ii + 0 * nel)
               multi_fvm%VEL(2, i) = gbuf%MOM(ii + 1 * nel)
               multi_fvm%VEL(3, i) = gbuf%MOM(ii + 2 * nel)
               multi_fvm%PRES(i) = - third * (gbuf%SIG(ii + 0 * nel) + 
     .              gbuf%SIG(ii + 1 * nel) + 
     .              gbuf%SIG(ii + 2 * nel))
            ENDDO
            IF (nbmat > 1) THEN
               DO imat = 1, nbmat
                  lbuf => elbuf_tab(ng)%BUFLY(imat)%LBUF(1, 1, 1)
                  DO ii = 1, nel
                     i = ii + nft 
                     vol = gbuf%VOL(ii)
C     Volume fraction
                     multi_fvm%PHASE_ALPHA(imat, i) = lbuf%VOL(ii) / vol
C     Mass density
                     multi_fvm%PHASE_RHO(imat, i) = lbuf%RHO(ii)
C     internal energy
                     multi_fvm%PHASE_EINT(imat, i) = lbuf%EINT(ii)
C     PRessure
                     multi_fvm%PHASE_PRES(imat, i) = - third * (
     .                    lbuf%SIG(ii + 0 * nel) +
     .                    lbuf%SIG(ii + 1 * nel) + 
     ;                    lbuf%SIG(ii + 2 * nel))
                  ENDDO
               ENDDO
            ENDIF
         ENDIF
      ENDDO