module inttd2mmod !$$$ module documentation block ! . . . . ! module: inttd2mmod module for inttd2m and its tangent linear inttd2m_tl ! prgmmr: ! ! abstract: module for inttd2m and its tangent linear inttd2m_tl ! ! program history log: ! 2014-04-10 pondeca ! 2016-05-18 guo - replaced ob_type with polymorphic obsNode through type casting ! ! subroutines included: ! sub inttd2m ! ! variable definitions: ! ! attributes: ! language: f90 ! machine: ! !$$$ end documentation block use m_obsNode , only: obsNode use m_td2mNode, only: td2mNode use m_td2mNode, only: td2mNode_typecast use m_td2mNode, only: td2mNode_nextcast use m_obsdiagNode, only: obsdiagNode_set implicit none PRIVATE PUBLIC inttd2m contains subroutine inttd2m(td2mhead,rval,sval) !$$$ subprogram documentation block ! . . . . ! subprogram: inttd2m apply nonlin qc obs operator for conv. td2m ! prgmmr: pondeca org: np23 date: 2014-03-19 ! ! abstract: apply observation operator and adjoint for conventional td2m ! observations with nonlinear qc operator ! ! program history log: ! ! 2014-03-19 - pondeca ! 2015-03-11 - pondeca - modify so that use of obsdiags can be turned off ! ! input argument list: ! td2mhead ! std2m - increment in grid space ! rtd2m ! ! output argument list: ! rtd2m - results from observation operator (0 for no data) ! ! attributes: ! language: f90 ! machine: ibm RS/6000 SP ! !$$$ use kinds, only: r_kind,i_kind use constants, only: half,one,tiny_r_kind,cg_term use obsmod, only: lsaveobsens, l_do_adjoint, luse_obsdiag use qcmod, only: nlnqc_iter,varqc_iter use jfunc, only: jiter use gsi_bundlemod, only: gsi_bundle use gsi_bundlemod, only: gsi_bundlegetpointer use gsi_4dvar, only: ladtest_obs implicit none ! Declare passed variables class(obsNode) , pointer,intent(in ) :: td2mhead type(gsi_bundle), intent(in ) :: sval type(gsi_bundle), intent(inout) :: rval ! Declare local variables integer(i_kind) ier,istatus integer(i_kind) j1,j2,j3,j4 ! real(r_kind) penalty real(r_kind) w1,w2,w3,w4 real(r_kind) val real(r_kind) cg_td2m,p0,grad,wnotgross,wgross,pg_td2m real(r_kind),pointer,dimension(:) :: std2m real(r_kind),pointer,dimension(:) :: rtd2m type(td2mNode), pointer :: td2mptr ! Retrieve pointers ! Simply return if any pointer not found ier=0 call gsi_bundlegetpointer(sval,'td2m',std2m,istatus);ier=istatus+ier call gsi_bundlegetpointer(rval,'td2m',rtd2m,istatus);ier=istatus+ier if(ier/=0)return !td2mptr => td2mhead td2mptr => td2mNode_typecast(td2mhead) do while (associated(td2mptr)) j1=td2mptr%ij(1) j2=td2mptr%ij(2) j3=td2mptr%ij(3) j4=td2mptr%ij(4) w1=td2mptr%wij(1) w2=td2mptr%wij(2) w3=td2mptr%wij(3) w4=td2mptr%wij(4) ! Forward model val=w1*std2m(j1)+w2*std2m(j2)& +w3*std2m(j3)+w4*std2m(j4) if(luse_obsdiag)then if (lsaveobsens) then grad = val*td2mptr%raterr2*td2mptr%err2 !-- td2mptr%diags%obssen(jiter) = grad call obsdiagNode_set(td2mptr%diags,jiter=jiter,obssen=grad) else !-- if (td2mptr%luse) td2mptr%diags%tldepart(jiter)=val if (td2mptr%luse) call obsdiagNode_set(td2mptr%diags,jiter=jiter,tldepart=val) endif endif if (l_do_adjoint) then if (.not. lsaveobsens) then if(.not.ladtest_obs) val=val-td2mptr%res ! gradient of nonlinear operator if (nlnqc_iter .and. td2mptr%pg > tiny_r_kind .and. & td2mptr%b > tiny_r_kind) then pg_td2m=td2mptr%pg*varqc_iter cg_td2m=cg_term/td2mptr%b wnotgross= one-pg_td2m wgross = pg_td2m*cg_td2m/wnotgross p0 = wgross/(wgross+exp(-half*td2mptr%err2*val**2)) val = val*(one-p0) endif if( ladtest_obs) then grad = val else grad = val*td2mptr%raterr2*td2mptr%err2 end if endif ! Adjoint rtd2m(j1)=rtd2m(j1)+w1*grad rtd2m(j2)=rtd2m(j2)+w2*grad rtd2m(j3)=rtd2m(j3)+w3*grad rtd2m(j4)=rtd2m(j4)+w4*grad endif !td2mptr => td2mptr%llpoint td2mptr => td2mNode_nextcast(td2mptr) end do return end subroutine inttd2m end module inttd2mmod