q4kelij2.F

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!||====================================================================
!||    q4kelij2   ../engine/source/elements/solid_2d/quad4/q4kelij2.F
!||--- called by ------------------------------------------------------
!||    q4kel2     ../engine/source/elements/solid_2d/quad4/q4kel2.F
!||====================================================================
      SUBROUTINE q4kelij2(
     1   PYI,     PZI,     PYJ,     PZJ,
     2   PYCI,    PZCI,    PYCJ,    PZCJ,
     3   AY,      R22,     R23,     DD,
     4   DG,      G33,     KIJ,     IS,
     5   NEL,     JCVT)
C-----------------------------------------------
C   I m p l i c i t   T y p e s
C-----------------------------------------------
#include      "implicit_f.inc"
C-----------------------------------------------
C   G l o b a l   P a r a m e t e r s
C-----------------------------------------------
#include      "mvsiz_p.inc"
C-----------------------------------------------
C   C o m m o n   B l o c k s
C-----------------------------------------------
#include      "com01_c.inc"
C-----------------------------------------------
C   D u m m y   A r g u m e n t s
C-----------------------------------------------
      INTEGER, INTENT(IN) :: NEL
      INTEGER, INTENT(IN) :: JCVT
      INTEGER IS
      my_real
     .   PYI(*), PZI(*), PYJ(*), PZJ(*),
     .   pyci(*), pzci(*), pycj(*), pzcj(*), ay(*), r22(*), r23(*),
     .   dd(3,3,*), dg(3,3,*), g33(3,3,*), kij(2,2,*)
C-----------------------------------------------
C   L o c a l   V a r i a b l e s
C-----------------------------------------------
      INTEGER EP,IASY
      my_real
     .    AYS(MVSIZ)
C-----------------------------------------------
C   S o u r c e  L i n e s
C-----------------------------------------------
      DO ep=1,nel
        kij(1,1,ep) = kij(1,1,ep) + 
     .                dd(1,1,ep)*pyi(ep)*pyj(ep) + 
     .                dg(1,1,ep)*(pyi(ep)*pzcj(ep)+pzci(ep)*pyj(ep)) + 
     .                g33(1,1,ep)*(pzci(ep)*pzcj(ep))
        kij(1,2,ep) = kij(1,2,ep) + 
     .                dd(1,2,ep)*pyi(ep)*pzj(ep) + 
     .                dg(1,1,ep)*pyi(ep)*pycj(ep) + 
     .                dg(2,1,ep)*pzci(ep)*pzj(ep) + 
     .                g33(1,1,ep)*pzci(ep)*pycj(ep)
        kij(2,1,ep) = kij(2,1,ep) + 
     .                dd(1,2,ep)*pzi(ep)*pyj(ep) + 
     .                dg(1,1,ep)*pyci(ep)*pyj(ep) + 
     .                dg(2,1,ep)*pzi(ep)*pzcj(ep) + 
     .                g33(1,1,ep)*pyci(ep)*pzcj(ep)
        kij(2,2,ep) = kij(2,2,ep) + 
     .                dd(2,2,ep)*pzi(ep)*pzj(ep) + 
     .                dg(2,1,ep)*(pyci(ep)*pzj(ep)+pzi(ep)*pycj(ep)) + 
     .                g33(1,1,ep)*pyci(ep)*pycj(ep)
      ENDDO
C
      IF (n2d==1) THEN
        DO ep=1,nel
          ays(ep) = ay(ep)*ay(ep)
        ENDDO
        IF (jcvt==0) THEN
          DO ep=1,nel
            kij(1,1,ep) = kij(1,1,ep) +
     .                  dd(1,3,ep)*ay(ep)*(pyi(ep)+pyj(ep)) +
     .                  dd(3,3,ep)*ays(ep) +
     .                  dg(3,1,ep)*ay(ep)*(pyci(ep)+pzcj(ep))
            kij(1,2,ep) = kij(1,2,ep) +
     .                  dd(2,3,ep)*ay(ep)*pzj(ep) +
     .                  dg(3,1,ep)*ay(ep)*pycj(ep)
            kij(2,1,ep) = kij(2,1,ep) +
     .                  dd(2,3,ep)*pzi(ep)*ay(ep) +
     .                  dg(3,1,ep)*pyci(ep)*ay(ep)
          ENDDO
C         asymmetric part
C          IASY = 0
C          IF (IASY/=0) THEN
C          ENDIF
        ELSE
          DO ep=1,nel
            kij(1,1,ep) = kij(1,1,ep) + 
     .                  dd(1,3,ep)*r22(ep)*ay(ep)*(pyi(ep)+pyj(ep)) +
     .                  dd(3,3,ep)*r22(ep)*r22(ep)*ays(ep) +
     .                  dg(3,1,ep)*ay(ep)*r22(ep)*(pyci(ep)+pzcj(ep))
            kij(1,2,ep) = kij(1,2,ep) + 
     .                  dd(1,3,ep)*r23(ep)*ay(ep)*pyi(ep) +
     .                  dd(2,3,ep)*r22(ep)*ay(ep)*pzj(ep) +
     .                  dd(3,3,ep)*r22(ep)*r23(ep)*ays(ep) +
     .          dg(3,1,ep)*ay(ep)*(r22(ep)*pycj(ep)+r23(ep)*pzci(ep))
            kij(2,1,ep) = kij(2,1,ep) + 
     .                  dd(1,3,ep)*r23(ep)*ay(ep)*pyj(ep) +
     .                  dd(2,3,ep)*r22(ep)*ay(ep)*pzi(ep) +
     .                  dd(3,3,ep)*r22(ep)*r23(ep)*ays(ep) +
     .          dg(3,1,ep)*ay(ep)*(r23(ep)*pzcj(ep)+r22(ep)*pyci(ep))
            kij(2,2,ep) = kij(2,2,ep) + 
     .                  dd(2,3,ep)*r23(ep)*ay(ep)*(pzi(ep)+pzj(ep)) +
     .                  dd(3,3,ep)*r23(ep)*r23(ep)*ays(ep) +
     .                  dg(3,1,ep)*ay(ep)*r23(ep)*(pyci(ep)+pzcj(ep))
          ENDDO
C         asymmetric part
C          IASY = 0
C          IF (IASY/=0) THEN
C          ENDIF
        ENDIF
      ENDIF
C
      RETURN
      END