!!$ !!$ !!$ MD2P4 !!$ Multilevel Domain Decomposition Parallel Preconditioner Package for PSBLAS !!$ for !!$ Parallel Sparse BLAS v2.0 !!$ (C) Copyright 2006 Salvatore Filippone University of Rome Tor Vergata !!$ Alfredo Buttari University of Rome Tor Vergata !!$ Daniela di Serafino Second University of Naples !!$ Pasqua D'Ambra ICAR-CNR !!$ !!$ Redistribution and use in source and binary forms, with or without !!$ modification, are permitted provided that the following conditions !!$ are met: !!$ 1. Redistributions of source code must retain the above copyright !!$ notice, this list of conditions and the following disclaimer. !!$ 2. Redistributions in binary form must reproduce the above copyright !!$ notice, this list of conditions, and the following disclaimer in the !!$ documentation and/or other materials provided with the distribution. !!$ 3. The name of the MD2P4 group or the names of its contributors may !!$ not be used to endorse or promote products derived from this !!$ software without specific written permission. !!$ !!$ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS !!$ ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED !!$ TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR !!$ PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE MD2P4 GROUP OR ITS CONTRIBUTORS !!$ BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR !!$ CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF !!$ SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS !!$ INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN !!$ CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) !!$ ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE !!$ POSSIBILITY OF SUCH DAMAGE. !!$ module psb_prec_type !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Module to define PREC_DATA, !! !! structure for preconditioning. !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! Reduces size of .mod file. Without the ONLY clause compilation ! blows up on some systems. use psb_base_mod, only : psb_dspmat_type, psb_zspmat_type, psb_desc_type integer, parameter :: min_prec_=0, noprec_=0, diag_=1, bjac_=2,& & ras_=3,asm_=4, ash_=5, rash_=6, ras2lv_=7, ras2lvm_=8,& & lv2mras_=9, lv2smth_=10, lv2lsm_=11, sl2sm_=12, superlu_=13,& & new_loc_smth_=14, new_glb_smth_=15, ag2lsm_=16,& & msy2l_=18, msy2g_=19, max_prec_=19 ! Multilevel stuff. integer, parameter :: no_ml_=0, add_ml_prec_=1, mult_ml_prec_=2 integer, parameter :: new_ml_prec_=3, max_ml_=new_ml_prec_ integer, parameter :: pre_smooth_=1, post_smooth_=2, smooth_both_=3,& & max_smooth_=smooth_both_ integer, parameter :: loc_aggr_=0, glb_aggr_=1, new_loc_aggr_=2 integer, parameter :: new_glb_aggr_=3, max_aggr_=new_glb_aggr_ integer, parameter :: no_smth_=0, smth_omg_=1, smth_biz_=2 integer, parameter :: lib_choice_=0, user_choice_=1 integer, parameter :: mat_distr_=0, mat_repl_=1 ! Entries in iprcparm: preconditioner type, factorization type, ! prolongation type, restriction type, renumbering algorithm, ! number of overlap layers, pointer to SuperLU factors, ! levels of fill in for ILU(N), integer, parameter :: p_type_=1, f_type_=2, restr_=3, prol_=4 integer, parameter :: iren_=5, n_ovr_=6 integer, parameter :: ilu_fill_in_=8, jac_sweeps_=9, ml_type_=10 integer, parameter :: smth_pos_=11, aggr_alg_=12, smth_kind_=13 integer, parameter :: om_choice_=14, glb_smth_=15, coarse_mat_=16 !Renumbering. SEE BELOW integer, parameter :: renum_none_=0, renum_glb_=1, renum_gps_=2 !! 2 ints for 64 bit versions integer, parameter :: slu_ptr_=17, umf_symptr_=17, umf_numptr_=19 integer, parameter :: slud_ptr_=21 integer, parameter :: ifpsz=24 ! Entries in dprcparm: ILU(E) epsilon, smoother omega integer, parameter :: fact_eps_=1, smooth_omega_=2 integer, parameter :: dfpsz=4 ! Factorization types: none, ILU(N), ILU(E), SuperLU, UMFPACK integer, parameter :: f_none_=0,f_ilu_n_=1,f_ilu_e_=2,f_slu_=3 integer, parameter :: f_umf_=4, f_slud_=5 ! Fields for sparse matrices ensembles: integer, parameter :: l_pr_=1, u_pr_=2, bp_ilu_avsz=2 integer, parameter :: ap_nd_=3, ac_=4, sm_pr_t_=5, sm_pr_=6 integer, parameter :: smth_avsz=6, max_avsz=smth_avsz type psb_dbaseprc_type type(psb_dspmat_type), allocatable :: av(:) real(kind(1.d0)), allocatable :: d(:) type(psb_desc_type) :: desc_data , desc_ac integer, allocatable :: iprcparm(:) real(kind(1.d0)), allocatable :: dprcparm(:) integer, allocatable :: perm(:), invperm(:) integer, allocatable :: mlia(:), nlaggr(:) type(psb_dspmat_type), pointer :: base_a => null() ! type(psb_desc_type), pointer :: base_desc=> null() ! real(kind(1.d0)), allocatable :: dorig(:) end type psb_dbaseprc_type ! ! Multilevel preconditioning ! ! To each level I there corresponds a matrix A(I) and a preconditioner K(I) ! ! A notational difference: in the DD reference above the preconditioner for ! a given level K(I) is written out as a sum over the subdomains ! ! SUM_k(R_k^T A_k R_k) ! ! whereas in this code the sum is implicit in the parallelization, ! i.e. each process takes care of one subdomain, and for each level we have ! as many subdomains as there are processes (except for the coarsest level where ! we might have a replicated index space). Thus the sum apparently disappears ! from our code, but only apparently, because it is implicit in the call ! to psb_baseprc_aply. ! ! A bit of description of the baseprecv(:) data structure: ! 1. Number of levels = NLEV = size(baseprecv(:)) ! 2. baseprecv(ilev)%av(:) sparse matrices needed for the current level. ! Includes: ! 2.1.: baseprecv(ilev)%av(l_pr_) L factor of ILU preconditioners ! 2.2.: baseprecv(ilev)%av(u_pr_) U factor of ILU preconditioners ! 2.3.: baseprecv(ilev)%av(ap_nd_) Off-diagonal part of A for Jacobi sweeps ! 2.4.: baseprecv(ilev)%av(ac_) Aggregated matrix of level ILEV ! 2.5.: baseprecv(ilev)%av(sm_pr_t_) Smoother prolongator transpose; maps vectors ! (ilev-1) ---> (ilev) ! 2.6.: baseprecv(ilev)%av(sm_pr_) Smoother prolongator; maps vectors ! (ilev) ---> (ilev-1) ! Shouldn't we keep just one of them and handle transpose in the sparse BLAS? maybe ! ! 3. baseprecv(ilev)%desc_data comm descriptor for level ILEV ! 4. baseprecv(ilev)%base_a Pointer (really a pointer!) to the base matrix ! of the current level, i.e.: if ILEV=1 then A ! else the aggregated matrix av(ac_); so we have ! a unified treatment of residuals. Need this to ! avoid passing explicitly matrix A to the ! outer prec. routine ! 5. baseprecv(ilev)%mlia The aggregation map from (ilev-1)-->(ilev) ! if no smoother, it is used instead of sm_pr_ ! 6. baseprecv(ilev)%nlaggr Number of aggregates on the various procs. ! type psb_dprec_type type(psb_dbaseprc_type), allocatable :: baseprecv(:) ! contain type of preconditioning to be performed integer :: prec, base_prec end type psb_dprec_type type psb_zbaseprc_type type(psb_zspmat_type), allocatable :: av(:) complex(kind(1.d0)), allocatable :: d(:) type(psb_desc_type) :: desc_data , desc_ac integer, allocatable :: iprcparm(:) real(kind(1.d0)), allocatable :: dprcparm(:) integer, allocatable :: perm(:), invperm(:) integer, allocatable :: mlia(:), nlaggr(:) type(psb_zspmat_type), pointer :: base_a => null() ! type(psb_desc_type), pointer :: base_desc => null() ! complex(kind(1.d0)), allocatable :: dorig(:) end type psb_zbaseprc_type type psb_zprec_type type(psb_zbaseprc_type), allocatable :: baseprecv(:) ! contain type of preconditioning to be performed integer :: prec, base_prec end type psb_zprec_type character(len=15), parameter, private :: & & smooth_names(1:3)=(/'Pre-smoothing ','Post-smoothing',& & 'Smooth both '/) character(len=15), parameter, private :: & & smooth_kinds(0:2)=(/'No smoother ','Omega smoother',& & 'Bizr. smoother'/) character(len=15), parameter, private :: & & matrix_names(0:1)=(/'Distributed ','Replicated '/) character(len=18), parameter, private :: & & aggr_names(0:3)=(/'Local aggregation ','Global aggregation',& & 'New local aggr. ','New global aggr. '/) character(len=6), parameter, private :: & & restrict_names(0:4)=(/'None ',' ',' ',' ','Halo '/) character(len=12), parameter, private :: & & prolong_names(0:3)=(/'None ','Sum ','Average ','Square root'/) character(len=15), parameter, private :: & & ml_names(0:3)=(/'None ','Additive ','Multiplicative',& & 'New ML '/) character(len=15), parameter, private :: & & fact_names(0:5)=(/'None ','ILU(n) ',& & 'ILU(eps) ','Sparse SuperLU','UMFPACK Sp. LU',& & 'SuperLU_Dist '/) interface psb_base_precfree module procedure psb_dbase_precfree, psb_zbase_precfree end interface interface psb_nullify_baseprec module procedure psb_nullify_dbaseprec, psb_nullify_zbaseprec end interface interface psb_check_def module procedure psb_icheck_def, psb_dcheck_def end interface interface psb_prec_descr module procedure psb_out_prec_descr, psb_file_prec_descr, & & psb_zout_prec_descr, psb_zfile_prec_descr end interface interface psb_prec_short_descr module procedure psb_prec_short_descr, psb_zprec_short_descr end interface contains subroutine psb_out_prec_descr(p) use psb_base_mod type(psb_dprec_type), intent(in) :: p call psb_file_prec_descr(6,p) end subroutine psb_out_prec_descr subroutine psb_zout_prec_descr(p) use psb_base_mod type(psb_zprec_type), intent(in) :: p call psb_zfile_prec_descr(6,p) end subroutine psb_zout_prec_descr subroutine psb_file_prec_descr(iout,p) use psb_base_mod integer, intent(in) :: iout type(psb_dprec_type), intent(in) :: p integer :: ilev write(iout,*) 'Preconditioner description' if (allocated(p%baseprecv)) then if (size(p%baseprecv)>=1) then write(iout,*) 'Base preconditioner' select case(p%baseprecv(1)%iprcparm(p_type_)) case(noprec_) write(iout,*) 'No preconditioning' case(diag_) write(iout,*) 'Diagonal scaling' case(bjac_) write(iout,*) 'Block Jacobi with: ',& & fact_names(p%baseprecv(1)%iprcparm(f_type_)) case(asm_,ras_,ash_,rash_) write(iout,*) 'Additive Schwarz with: ',& & fact_names(p%baseprecv(1)%iprcparm(f_type_)) write(iout,*) 'Overlap:',& & p%baseprecv(1)%iprcparm(n_ovr_) write(iout,*) 'Restriction: ',& & restrict_names(p%baseprecv(1)%iprcparm(restr_)) write(iout,*) 'Prolongation: ',& & prolong_names(p%baseprecv(1)%iprcparm(prol_)) end select end if if (size(p%baseprecv)>=2) then do ilev = 2, size(p%baseprecv) if (.not.allocated(p%baseprecv(ilev)%iprcparm)) then write(iout,*) 'Inconsistent MLPREC part!' return endif write(iout,*) 'Multilevel: Level No', ilev write(iout,*) 'Multilevel type: ',& & ml_names(p%baseprecv(ilev)%iprcparm(ml_type_)) if (p%baseprecv(ilev)%iprcparm(ml_type_)>no_ml_) then write(iout,*) 'Multilevel aggregation: ', & & aggr_names(p%baseprecv(ilev)%iprcparm(aggr_alg_)) write(iout,*) 'Smoother: ', & & smooth_kinds(p%baseprecv(ilev)%iprcparm(smth_kind_)) if (p%baseprecv(ilev)%iprcparm(smth_kind_) /= no_smth_) then write(iout,*) 'Smoothing omega: ', & & p%baseprecv(ilev)%dprcparm(smooth_omega_) write(iout,*) 'Smoothing position: ',& & smooth_names(p%baseprecv(ilev)%iprcparm(smth_pos_)) end if write(iout,*) 'Coarse matrix: ',& & matrix_names(p%baseprecv(ilev)%iprcparm(coarse_mat_)) if (allocated(p%baseprecv(ilev)%nlaggr)) then write(iout,*) 'Aggregation sizes: ', & & sum( p%baseprecv(ilev)%nlaggr(:)),' : ',p%baseprecv(ilev)%nlaggr(:) end if write(iout,*) 'Factorization type: ',& & fact_names(p%baseprecv(ilev)%iprcparm(f_type_)) select case(p%baseprecv(ilev)%iprcparm(f_type_)) case(f_ilu_n_) write(iout,*) 'Fill level :',p%baseprecv(ilev)%iprcparm(ilu_fill_in_) case(f_ilu_e_) write(iout,*) 'Fill threshold :',p%baseprecv(ilev)%dprcparm(fact_eps_) case(f_slu_,f_umf_,f_slud_) case default write(iout,*) 'Should never get here!' end select write(iout,*) 'Number of Jacobi sweeps: ', & & (p%baseprecv(ilev)%iprcparm(jac_sweeps_)) end if end do end if else write(iout,*) 'No Base preconditioner available, something is wrong!' return endif end subroutine psb_file_prec_descr function psb_prec_short_descr(p) use psb_base_mod type(psb_dprec_type), intent(in) :: p character(len=20) :: psb_prec_short_descr psb_prec_short_descr = ' ' !!$ write(iout,*) 'Preconditioner description' !!$ if (associated(p%baseprecv)) then !!$ if (size(p%baseprecv)>=1) then !!$ write(iout,*) 'Base preconditioner' !!$ select case(p%baseprecv(1)%iprcparm(p_type_)) !!$ case(noprec_) !!$ write(iout,*) 'No preconditioning' !!$ case(diag_) !!$ write(iout,*) 'Diagonal scaling' !!$ case(bjac_) !!$ write(iout,*) 'Block Jacobi with: ',& !!$ & fact_names(p%baseprecv(1)%iprcparm(f_type_)) !!$ case(asm_,ras_,ash_,rash_) !!$ write(iout,*) 'Additive Schwarz with: ',& !!$ & fact_names(p%baseprecv(1)%iprcparm(f_type_)) !!$ write(iout,*) 'Overlap:',& !!$ & p%baseprecv(1)%iprcparm(n_ovr_) !!$ write(iout,*) 'Restriction: ',& !!$ & restrict_names(p%baseprecv(1)%iprcparm(restr_)) !!$ write(iout,*) 'Prolongation: ',& !!$ & prolong_names(p%baseprecv(1)%iprcparm(prol_)) !!$ end select !!$ end if !!$ if (size(p%baseprecv)>=2) then !!$ if (.not.associated(p%baseprecv(2)%iprcparm)) then !!$ write(iout,*) 'Inconsistent MLPREC part!' !!$ return !!$ endif !!$ write(iout,*) 'Multilevel: ',ml_names(p%baseprecv(2)%iprcparm(ml_type_)) !!$ if (p%baseprecv(2)%iprcparm(ml_type_)>no_ml_) then !!$ write(iout,*) 'Multilevel aggregation: ', & !!$ & aggr_names(p%baseprecv(2)%iprcparm(aggr_alg_)) !!$ write(iout,*) 'Smoother: ', & !!$ & smooth_kinds(p%baseprecv(2)%iprcparm(smth_kind_)) !!$ write(iout,*) 'Smoothing omega: ', p%baseprecv(2)%dprcparm(smooth_omega_) !!$ write(iout,*) 'Smoothing position: ',& !!$ & smooth_names(p%baseprecv(2)%iprcparm(smth_pos_)) !!$ write(iout,*) 'Coarse matrix: ',& !!$ & matrix_names(p%baseprecv(2)%iprcparm(coarse_mat_)) !!$ write(iout,*) 'Factorization type: ',& !!$ & fact_names(p%baseprecv(2)%iprcparm(f_type_)) !!$ select case(p%baseprecv(2)%iprcparm(f_type_)) !!$ case(f_ilu_n_) !!$ write(iout,*) 'Fill level :',p%baseprecv(2)%iprcparm(ilu_fill_in_) !!$ case(f_ilu_e_) !!$ write(iout,*) 'Fill threshold :',p%baseprecv(2)%dprcparm(fact_eps_) !!$ case(f_slu_,f_umf_,f_slud_) !!$ case default !!$ write(iout,*) 'Should never get here!' !!$ end select !!$ write(iout,*) 'Number of Jacobi sweeps: ', & !!$ & (p%baseprecv(2)%iprcparm(jac_sweeps_)) !!$ !!$ end if !!$ end if !!$ !!$ else !!$ write(iout,*) 'No Base preconditioner available, something is wrong!' !!$ return !!$ endif end function psb_prec_short_descr subroutine psb_zfile_prec_descr(iout,p) use psb_base_mod integer, intent(in) :: iout type(psb_zprec_type), intent(in) :: p write(iout,*) 'Preconditioner description' if (allocated(p%baseprecv)) then if (size(p%baseprecv)>=1) then write(iout,*) 'Base preconditioner' select case(p%baseprecv(1)%iprcparm(p_type_)) case(noprec_) write(iout,*) 'No preconditioning' case(diag_) write(iout,*) 'Diagonal scaling' case(bjac_) write(iout,*) 'Block Jacobi with: ',& & fact_names(p%baseprecv(1)%iprcparm(f_type_)) case(asm_,ras_,ash_,rash_) write(iout,*) 'Additive Schwarz with: ',& & fact_names(p%baseprecv(1)%iprcparm(f_type_)) write(iout,*) 'Overlap:',& & p%baseprecv(1)%iprcparm(n_ovr_) write(iout,*) 'Restriction: ',& & restrict_names(p%baseprecv(1)%iprcparm(restr_)) write(iout,*) 'Prolongation: ',& & prolong_names(p%baseprecv(1)%iprcparm(prol_)) end select end if if (size(p%baseprecv)>=2) then if (.not.allocated(p%baseprecv(2)%iprcparm)) then write(iout,*) 'Inconsistent MLPREC part!' return endif write(iout,*) 'Multilevel: ',ml_names(p%baseprecv(2)%iprcparm(ml_type_)) if (p%baseprecv(2)%iprcparm(ml_type_)>no_ml_) then write(iout,*) 'Multilevel aggregation: ', & & aggr_names(p%baseprecv(2)%iprcparm(aggr_alg_)) write(iout,*) 'Smoother: ', & & smooth_kinds(p%baseprecv(2)%iprcparm(smth_kind_)) if (p%baseprecv(2)%iprcparm(smth_kind_) /= no_smth_) then write(iout,*) 'Smoothing omega: ', p%baseprecv(2)%dprcparm(smooth_omega_) write(iout,*) 'Smoothing position: ',& & smooth_names(p%baseprecv(2)%iprcparm(smth_pos_)) end if write(iout,*) 'Coarse matrix: ',& & matrix_names(p%baseprecv(2)%iprcparm(coarse_mat_)) if (allocated(p%baseprecv(ilev)%nlaggr)) then write(iout,*) 'Aggregation sizes: ', & & sum( p%baseprecv(2)%nlaggr(:)),' : ',p%baseprecv(2)%nlaggr(:) endif write(iout,*) 'Factorization type: ',& & fact_names(p%baseprecv(2)%iprcparm(f_type_)) select case(p%baseprecv(2)%iprcparm(f_type_)) case(f_ilu_n_) write(iout,*) 'Fill level :',p%baseprecv(2)%iprcparm(ilu_fill_in_) case(f_ilu_e_) write(iout,*) 'Fill threshold :',p%baseprecv(2)%dprcparm(fact_eps_) case(f_slu_,f_umf_,f_slud_) case default write(iout,*) 'Should never get here!' end select write(iout,*) 'Number of Jacobi sweeps: ', & & (p%baseprecv(2)%iprcparm(jac_sweeps_)) end if end if else write(iout,*) 'No Base preconditioner available, something is wrong!' return endif end subroutine psb_zfile_prec_descr function psb_zprec_short_descr(p) use psb_base_mod type(psb_zprec_type), intent(in) :: p character(len=20) :: psb_zprec_short_descr psb_zprec_short_descr = ' ' !!$ write(iout,*) 'Preconditioner description' !!$ if (associated(p%baseprecv)) then !!$ if (size(p%baseprecv)>=1) then !!$ write(iout,*) 'Base preconditioner' !!$ select case(p%baseprecv(1)%iprcparm(p_type_)) !!$ case(noprec_) !!$ write(iout,*) 'No preconditioning' !!$ case(diag_) !!$ write(iout,*) 'Diagonal scaling' !!$ case(bjac_) !!$ write(iout,*) 'Block Jacobi with: ',& !!$ & fact_names(p%baseprecv(1)%iprcparm(f_type_)) !!$ case(asm_,ras_,ash_,rash_) !!$ write(iout,*) 'Additive Schwarz with: ',& !!$ & fact_names(p%baseprecv(1)%iprcparm(f_type_)) !!$ write(iout,*) 'Overlap:',& !!$ & p%baseprecv(1)%iprcparm(n_ovr_) !!$ write(iout,*) 'Restriction: ',& !!$ & restrict_names(p%baseprecv(1)%iprcparm(restr_)) !!$ write(iout,*) 'Prolongation: ',& !!$ & prolong_names(p%baseprecv(1)%iprcparm(prol_)) !!$ end select !!$ end if !!$ if (size(p%baseprecv)>=2) then !!$ if (.not.associated(p%baseprecv(2)%iprcparm)) then !!$ write(iout,*) 'Inconsistent MLPREC part!' !!$ return !!$ endif !!$ write(iout,*) 'Multilevel: ',ml_names(p%baseprecv(2)%iprcparm(ml_type_)) !!$ if (p%baseprecv(2)%iprcparm(ml_type_)>no_ml_) then !!$ write(iout,*) 'Multilevel aggregation: ', & !!$ & aggr_names(p%baseprecv(2)%iprcparm(aggr_alg_)) !!$ write(iout,*) 'Smoother: ', & !!$ & smooth_kinds(p%baseprecv(2)%iprcparm(smth_kind_)) !!$ write(iout,*) 'Smoothing omega: ', p%baseprecv(2)%dprcparm(smooth_omega_) !!$ write(iout,*) 'Smoothing position: ',& !!$ & smooth_names(p%baseprecv(2)%iprcparm(smth_pos_)) !!$ write(iout,*) 'Coarse matrix: ',& !!$ & matrix_names(p%baseprecv(2)%iprcparm(coarse_mat_)) !!$ write(iout,*) 'Factorization type: ',& !!$ & fact_names(p%baseprecv(2)%iprcparm(f_type_)) !!$ select case(p%baseprecv(2)%iprcparm(f_type_)) !!$ case(f_ilu_n_) !!$ write(iout,*) 'Fill level :',p%baseprecv(2)%iprcparm(ilu_fill_in_) !!$ case(f_ilu_e_) !!$ write(iout,*) 'Fill threshold :',p%baseprecv(2)%dprcparm(fact_eps_) !!$ case(f_slu_,f_umf_,f_slud_) !!$ case default !!$ write(iout,*) 'Should never get here!' !!$ end select !!$ write(iout,*) 'Number of Jacobi sweeps: ', & !!$ & (p%baseprecv(2)%iprcparm(jac_sweeps_)) !!$ !!$ end if !!$ end if !!$ !!$ else !!$ write(iout,*) 'No Base preconditioner available, something is wrong!' !!$ return !!$ endif end function psb_zprec_short_descr function is_legal_base_prec(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_base_prec is_legal_base_prec = ((ip>=noprec_).and.(ip<=rash_)) return end function is_legal_base_prec function is_legal_n_ovr(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_n_ovr is_legal_n_ovr = (ip >=0) return end function is_legal_n_ovr function is_legal_renum(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_renum ! For the time being we are disabling renumbering options. is_legal_renum = (ip ==0) return end function is_legal_renum function is_legal_jac_sweeps(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_jac_sweeps is_legal_jac_sweeps = (ip >= 1) return end function is_legal_jac_sweeps function is_legal_prolong(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_prolong is_legal_prolong = ((ip>=psb_none_).and.(ip<=psb_square_root_)) return end function is_legal_prolong function is_legal_restrict(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_restrict is_legal_restrict = ((ip==psb_nohalo_).or.(ip==psb_halo_)) return end function is_legal_restrict function is_legal_ml_type(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_type is_legal_ml_type = ((ip>=no_ml_).and.(ip<=max_ml_)) return end function is_legal_ml_type function is_legal_ml_aggr_kind(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_aggr_kind is_legal_ml_aggr_kind = ((ip>=loc_aggr_).and.(ip<=max_aggr_)) return end function is_legal_ml_aggr_kind function is_legal_ml_smooth_pos(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_smooth_pos is_legal_ml_smooth_pos = ((ip>=pre_smooth_).and.(ip<=max_smooth_)) return end function is_legal_ml_smooth_pos function is_legal_ml_smth_kind(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_smth_kind is_legal_ml_smth_kind = ((ip>=no_smth_).and.(ip<=smth_biz_)) return end function is_legal_ml_smth_kind function is_legal_ml_coarse_mat(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_coarse_mat is_legal_ml_coarse_mat = ((ip>=mat_distr_).and.(ip<=mat_repl_)) return end function is_legal_ml_coarse_mat function is_legal_ml_fact(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_fact is_legal_ml_fact = ((ip>=f_ilu_n_).and.(ip<=f_slud_)) return end function is_legal_ml_fact function is_legal_ml_lev(ip) use psb_base_mod integer, intent(in) :: ip logical :: is_legal_ml_lev is_legal_ml_lev = (ip>=0) return end function is_legal_ml_lev function is_legal_omega(ip) use psb_base_mod real(kind(1.d0)), intent(in) :: ip logical :: is_legal_omega is_legal_omega = ((ip>=0.0d0).and.(ip<=2.0d0)) return end function is_legal_omega function is_legal_ml_eps(ip) use psb_base_mod real(kind(1.d0)), intent(in) :: ip logical :: is_legal_ml_eps is_legal_ml_eps = (ip>=0.0d0) return end function is_legal_ml_eps subroutine psb_icheck_def(ip,name,id,is_legal) use psb_base_mod integer, intent(inout) :: ip integer, intent(in) :: id character(len=*), intent(in) :: name interface function is_legal(i) integer, intent(in) :: i logical :: is_legal end function is_legal end interface if (.not.is_legal(ip)) then write(0,*) 'Illegal value for ',name,' :',ip, '. defaulting to ',id ip = id end if end subroutine psb_icheck_def subroutine psb_dcheck_def(ip,name,id,is_legal) use psb_base_mod real(kind(1.d0)), intent(inout) :: ip real(kind(1.d0)), intent(in) :: id character(len=*), intent(in) :: name interface function is_legal(i) real(kind(1.d0)), intent(in) :: i logical :: is_legal end function is_legal end interface if (.not.is_legal(ip)) then write(0,*) 'Illegal value for ',name,' :',ip, '. defaulting to ',id ip = id end if end subroutine psb_dcheck_def subroutine psb_dbase_precfree(p,info) use psb_base_mod type(psb_dbaseprc_type), intent(inout) :: p integer, intent(out) :: info integer :: i info = 0 ! Actually we migh just deallocate the top level array, except ! for the inner UMFPACK or SLU stuff if (allocated(p%d)) then deallocate(p%d,stat=info) end if if (allocated(p%av)) then do i=1,size(p%av) call psb_sp_free(p%av(i),info) if (info /= 0) then ! Actually, we don't care here about this. ! Just let it go. ! return end if enddo deallocate(p%av,stat=info) end if if (allocated(p%desc_data%matrix_data)) & & call psb_cdfree(p%desc_data,info) if (allocated(p%desc_ac%matrix_data)) & & call psb_cdfree(p%desc_ac,info) if (allocated(p%dprcparm)) then deallocate(p%dprcparm,stat=info) end if ! This is a pointer to something else, must not free it here. nullify(p%base_a) ! This is a pointer to something else, must not free it here. nullify(p%base_desc) if (allocated(p%dorig)) then deallocate(p%dorig,stat=info) endif if (allocated(p%mlia)) then deallocate(p%mlia,stat=info) endif if (allocated(p%nlaggr)) then deallocate(p%nlaggr,stat=info) endif if (allocated(p%perm)) then deallocate(p%perm,stat=info) endif if (allocated(p%invperm)) then deallocate(p%invperm,stat=info) endif if (allocated(p%iprcparm)) then if (p%iprcparm(f_type_)==f_slu_) then call psb_dslu_free(p%iprcparm(slu_ptr_),info) end if if (p%iprcparm(f_type_)==f_slud_) then call psb_dsludist_free(p%iprcparm(slud_ptr_),info) end if if (p%iprcparm(f_type_)==f_umf_) then call psb_dumf_free(p%iprcparm(umf_symptr_),& & p%iprcparm(umf_numptr_),info) end if deallocate(p%iprcparm,stat=info) end if call psb_nullify_baseprec(p) end subroutine psb_dbase_precfree subroutine psb_nullify_dbaseprec(p) use psb_base_mod type(psb_dbaseprc_type), intent(inout) :: p nullify(p%base_a) nullify(p%base_desc) !!$ nullify(p%av,p%d,p%iprcparm,p%dprcparm,p%perm,p%invperm,p%mlia,& !!$ & p%nlaggr,p%base_a,p%base_desc,p%dorig,p%desc_data, p%desc_ac) end subroutine psb_nullify_dbaseprec subroutine psb_zbase_precfree(p,info) use psb_base_mod type(psb_zbaseprc_type), intent(inout) :: p integer, intent(out) :: info integer :: i info = 0 if (allocated(p%d)) then deallocate(p%d,stat=info) end if if (allocated(p%av)) then do i=1,size(p%av) call psb_sp_free(p%av(i),info) if (info /= 0) then ! Actually, we don't care here about this. ! Just let it go. ! return end if enddo deallocate(p%av,stat=info) end if ! call psb_cdfree(p%desc_data,info) ! call psb_cdfree(p%desc_ac,info) if (allocated(p%dprcparm)) then deallocate(p%dprcparm,stat=info) end if ! This is a pointer to something else, must not free it here. nullify(p%base_a) ! This is a pointer to something else, must not free it here. nullify(p%base_desc) if (allocated(p%dorig)) then deallocate(p%dorig,stat=info) endif if (allocated(p%mlia)) then deallocate(p%mlia,stat=info) endif if (allocated(p%nlaggr)) then deallocate(p%nlaggr,stat=info) endif if (allocated(p%perm)) then deallocate(p%perm,stat=info) endif if (allocated(p%invperm)) then deallocate(p%invperm,stat=info) endif if (allocated(p%iprcparm)) then if (p%iprcparm(f_type_)==f_slu_) then call psb_zslu_free(p%iprcparm(slu_ptr_),info) end if if (p%iprcparm(f_type_)==f_umf_) then call psb_zumf_free(p%iprcparm(umf_symptr_),& & p%iprcparm(umf_numptr_),info) end if deallocate(p%iprcparm,stat=info) end if call psb_nullify_baseprec(p) end subroutine psb_zbase_precfree subroutine psb_nullify_zbaseprec(p) use psb_base_mod type(psb_zbaseprc_type), intent(inout) :: p nullify(p%base_a) nullify(p%base_desc) end subroutine psb_nullify_zbaseprec function pr_to_str(iprec) use psb_base_mod integer, intent(in) :: iprec character(len=10) :: pr_to_str select case(iprec) case(noprec_) pr_to_str='NOPREC' case(diag_) pr_to_str='DIAG' case(bjac_) pr_to_str='BJAC' case(asm_) pr_to_str='ASM' case(ash_) pr_to_str='ASM' case(ras_) pr_to_str='ASM' case(rash_) pr_to_str='ASM' end select end function pr_to_str end module psb_prec_type