module gsi_tOper !$$$ subprogram documentation block ! . . . . ! subprogram: module gsi_tOper ! prgmmr: j guo ! org: NASA/GSFC, Global Modeling and Assimilation Office, 610.3 ! date: 2018-08-10 ! ! abstract: an obOper extension for tNode type ! ! program history log: ! 2018-08-10 j guo - added this document block ! ! input argument list: see Fortran 90 style document below ! ! output argument list: see Fortran 90 style document below ! ! attributes: ! language: Fortran 90 and/or above ! machine: ! !$$$ end subprogram documentation block ! module interface: use gsi_obOper, only: obOper use m_tNode , only: tNode implicit none public:: tOper ! data stracture type,extends(obOper):: tOper contains procedure,nopass:: mytype procedure,nopass:: nodeMold procedure:: setup_ procedure:: intjo1_ procedure:: stpjo1_ end type tOper !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ character(len=*),parameter :: myname='gsi_tOper' type(tNode),save,target:: myNodeMold_ contains function mytype(nodetype) implicit none character(len=:),allocatable:: mytype logical,optional, intent(in):: nodetype mytype="[tOper]" if(present(nodetype)) then if(nodetype) mytype=myNodeMold_%mytype() endif end function mytype function nodeMold() !> %nodeMold() returns a mold of its corresponding obsNode use m_obsNode, only: obsNode implicit none class(obsNode),pointer:: nodeMold nodeMold => myNodeMold_ end function nodeMold subroutine setup_(self, lunin, mype, is, nobs, init_pass,last_pass) use t_setup, only: setup use kinds, only: i_kind use gsi_obOper, only: len_obstype use gsi_obOper, only: len_isis use m_rhs , only: awork => rhs_awork use m_rhs , only: bwork => rhs_bwork use m_rhs , only: iwork => i_t use obsmod , only: write_diag use convinfo, only: diag_conv use jfunc , only: jiter use mpeu_util, only: die implicit none class(tOper ), intent(inout):: self integer(i_kind), intent(in):: lunin integer(i_kind), intent(in):: mype integer(i_kind), intent(in):: is integer(i_kind), intent(in):: nobs logical , intent(in):: init_pass ! supporting multi-pass setup() logical , intent(in):: last_pass ! with incremental backgrounds. !---------------------------------------- character(len=*),parameter:: myname_=myname//"::setup_" character(len=len_obstype):: obstype character(len=len_isis ):: isis integer(i_kind):: nreal,nchanl,ier,nele logical:: diagsave if(nobs == 0) return read(lunin,iostat=ier) obstype,isis,nreal,nchanl if(ier/=0) call die(myname_,'read(obstype,...), iostat =',ier) nele = nreal+nchanl diagsave = write_diag(jiter) .and. diag_conv call setup(self%obsLL(:), self%odiagLL(:), & lunin,mype,bwork,awork(:,iwork),nele,nobs,is,diagsave) end subroutine setup_ subroutine intjo1_(self, ibin, rval,sval, qpred,sbias) use inttmod, only: intjo => intt use gsi_bundlemod , only: gsi_bundle use bias_predictors, only: predictors use bias_predictors, only: predictors_getdim use m_obsNode , only: obsNode use m_obsLList, only: obsLList_headNode use kinds , only: i_kind, r_quad implicit none class(tOper ),intent(in ):: self integer(i_kind ),intent(in ):: ibin type(gsi_bundle),intent(inout):: rval ! (ibin) type(gsi_bundle),intent(in ):: sval ! (ibin) real(r_quad ),target,dimension(:),intent(inout):: qpred ! (ibin) type(predictors),target, intent(in ):: sbias !---------------------------------------- character(len=*),parameter:: myname_=myname//"::intjo1_" integer(i_kind):: i,l,n class(obsNode),pointer:: headNode ! Are the different calls to intt() with optional arguments realy needed? ! There is no checking of present(rpred) or present(spred) inside intt_() ! anyway. Other logic is used to avoid accessing non-present rpred(:) and ! spred(:). call predictors_getdim(lbnd_t=i,ubnd_t=l,size_t=n) headNode => obsLList_headNode(self%obsLL(ibin)) if(n>0) then call intjo(headNode, rval,sval, qpred(i:l),sbias%predt) else call intjo(headNode, rval,sval) endif headNode => null() end subroutine intjo1_ subroutine stpjo1_(self, ibin, dval,xval,pbcjo,sges,nstep,dbias,xbias) use stptmod, only: stpjo => stpt use gsi_bundlemod, only: gsi_bundle use bias_predictors, only: predictors, predictors_getdim use aircraftinfo, only: npredt,ntail,aircraft_t_bc_pof,aircraft_t_bc use m_obsNode , only: obsNode use m_obsLList, only: obsLList_headNode use kinds, only: r_quad,r_kind,i_kind implicit none class(tOper ),intent(in):: self integer(i_kind ),intent(in):: ibin type(gsi_bundle),intent(in):: dval type(gsi_bundle),intent(in):: xval real(r_quad ),dimension(:),intent(inout):: pbcjo ! (1:4) real(r_kind ),dimension(:),intent(in ):: sges integer(i_kind),intent(in):: nstep type(predictors),target, intent(in):: dbias type(predictors),target, intent(in):: xbias !---------------------------------------- character(len=*),parameter:: myname_=myname//"::stpjo1_" class(obsNode),pointer:: headNode real(r_kind),pointer,dimension(:,:) :: dpred,xpred integer(i_kind):: n ! Are the different calls to stpt() with optional arguments realy needed? ! There is no checking of present(rpred) or present(spred) inside intt_() ! anyway. Other logic is used to avoid accessing non-present rpred(:) and ! spred(:). headNode => obsLList_headNode(self%obsLL(ibin)) call predictors_getdim(size_t=n) if(n<=0 .or. .not. (aircraft_t_bc_pof .or. aircraft_t_bc)) then call stpjo(headNode,dval,xval,pbcjo(:),sges,nstep) else dpred(1:npredt,1:ntail) => dbias%predt(1:n) xpred(1:npredt,1:ntail) => xbias%predt(1:n) call stpjo(headNode,dval,xval,pbcjo(:),sges,nstep,dpred,xpred) dpred => null() xpred => null() endif headNode => null() end subroutine stpjo1_ end module gsi_tOper