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psblas3/base/modules/penv/psi_penv_mod.F90

793 lines
22 KiB
Fortran

!
! Parallel Sparse BLAS version 3.5
! (C) Copyright 2006-2018
! Salvatore Filippone
! Alfredo Buttari
!
! 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 PSBLAS 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 PSBLAS 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 psi_penv_mod
use psb_const_mod
use psi_comm_buffers_mod, only : psb_buffer_queue
interface psb_init
module procedure psb_init_mpik
end interface
interface psb_exit
module procedure psb_exit_mpik
end interface
interface psb_abort
module procedure psb_abort_mpik
end interface
interface psb_info
module procedure psb_info_mpik
end interface
interface psb_barrier
module procedure psb_barrier_mpik
end interface
interface psb_init
module procedure psb_init_epk
end interface
interface psb_exit
module procedure psb_exit_epk
end interface
interface psb_abort
module procedure psb_abort_epk
end interface
interface psb_info
module procedure psb_info_epk
end interface
interface psb_barrier
module procedure psb_barrier_epk
end interface
interface psb_wtime
module procedure psb_wtime
end interface psb_wtime
interface psb_get_mpi_comm
module procedure psb_m_get_mpi_comm, psb_e_get_mpi_comm
end interface psb_get_mpi_comm
interface psb_get_mpi_rank
module procedure psb_m_get_mpi_rank, psb_e_get_mpi_rank
end interface psb_get_mpi_rank
#if defined(SERIAL_MPI)
integer(psb_mpk_), private, save :: nctxt=0
#else
integer(psb_mpk_), save :: mpi_iamx_op, mpi_iamn_op
integer(psb_mpk_), save :: mpi_mamx_op, mpi_mamn_op
integer(psb_mpk_), save :: mpi_eamx_op, mpi_eamn_op
integer(psb_mpk_), save :: mpi_samx_op, mpi_samn_op
integer(psb_mpk_), save :: mpi_damx_op, mpi_damn_op
integer(psb_mpk_), save :: mpi_camx_op, mpi_camn_op
integer(psb_mpk_), save :: mpi_zamx_op, mpi_zamn_op
integer(psb_mpk_), save :: mpi_snrm2_op, mpi_dnrm2_op
type(psb_buffer_queue), save :: psb_mesg_queue
#endif
private :: psi_get_sizes, psi_register_mpi_extras
private :: psi_iamx_op, psi_iamn_op
private :: psi_mamx_op, psi_mamn_op
private :: psi_eamx_op, psi_eamn_op
private :: psi_samx_op, psi_samn_op
private :: psi_damx_op, psi_damn_op
private :: psi_camx_op, psi_camn_op
private :: psi_zamx_op, psi_zamn_op
private :: psi_snrm2_op, psi_dnrm2_op
contains
! !!!!!!!!!!!!!!!!!!!!!!
!
! Environment handling
!
! !!!!!!!!!!!!!!!!!!!!!!
subroutine psi_get_sizes()
use psb_const_mod
real(psb_dpk_) :: dv(2)
real(psb_spk_) :: sv(2)
integer(psb_i2pk_):: i2v(2)
integer(psb_mpk_) :: mv(2)
integer(psb_ipk_) :: iv(2)
integer(psb_lpk_) :: lv(2)
integer(psb_epk_) :: ev(2)
call psi_c_diffadd(sv(1),sv(2),psb_sizeof_sp)
call psi_c_diffadd(dv(1),dv(2),psb_sizeof_dp)
call psi_c_diffadd(i2v(1),i2v(2),psb_sizeof_i2p)
call psi_c_diffadd(mv(1),mv(2),psb_sizeof_mp)
call psi_c_diffadd(iv(1),iv(2),psb_sizeof_ip)
call psi_c_diffadd(lv(1),lv(2),psb_sizeof_lp)
call psi_c_diffadd(ev(1),ev(2),psb_sizeof_ep)
end subroutine psi_get_sizes
subroutine psi_register_mpi_extras(info)
#ifdef MPI_MOD
use mpi
#endif
implicit none
#ifdef MPI_H
include 'mpif.h'
#endif
integer(psb_mpk_) :: info
info = 0
#if 0
if (info == 0) call mpi_type_create_f90_integer(psb_ipk_, psb_mpi_ipk_ ,info)
if (info == 0) call mpi_type_create_f90_integer(psb_lpk_, psb_mpi_lpk_ ,info)
if (info == 0) call mpi_type_create_f90_integer(psb_mpk_, psb_mpi_mpk_ ,info)
if (info == 0) call mpi_type_create_f90_integer(psb_epk_, psb_mpi_lpk_ ,info)
if (info == 0) call mpi_type_create_f90_real(psb_spk_p_,psb_spk_r_, psb_mpi_r_spk_,info)
if (info == 0) call mpi_type_create_f90_real(psb_dpk_p_,psb_dpk_r_, psb_mpi_r_dpk_,info)
if (info == 0) call mpi_type_create_f90_complex(psb_spk_p_,psb_spk_r_, psb_mpi_c_spk_,info)
if (info == 0) call mpi_type_create_f90_complex(psb_dpk_p_,psb_dpk_r_, psb_mpi_c_dpk_,info)
#else
#if defined(IPK4) && defined(LPK4)
psb_mpi_ipk_ = mpi_integer4
psb_mpi_lpk_ = mpi_integer4
#elif defined(IPK4) && defined(LPK8)
psb_mpi_ipk_ = mpi_integer4
psb_mpi_lpk_ = mpi_integer8
#elif defined(IPK8) && defined(LPK8)
psb_mpi_ipk_ = mpi_integer8
psb_mpi_lpk_ = mpi_integer8
#else
! This should never happen
write(psb_err_unit,*) 'Warning: an impossible IPK/LPK combination.'
write(psb_err_unit,*) 'Something went wrong at configuration time.'
psb_mpi_ipk_ = -1
psb_mpi_lpk_ = -1
#endif
psb_mpi_i2pk_ = mpi_integer2
psb_mpi_mpk_ = mpi_integer4
psb_mpi_epk_ = mpi_integer8
psb_mpi_r_spk_ = mpi_real
psb_mpi_r_dpk_ = mpi_double_precision
psb_mpi_c_spk_ = mpi_complex
psb_mpi_c_dpk_ = mpi_double_complex
#endif
#if defined(SERIAL_MPI)
#else
if (info == 0) call mpi_op_create(psi_mamx_op,.true.,mpi_mamx_op,info)
if (info == 0) call mpi_op_create(psi_mamn_op,.true.,mpi_mamn_op,info)
if (info == 0) call mpi_op_create(psi_eamx_op,.true.,mpi_eamx_op,info)
if (info == 0) call mpi_op_create(psi_eamn_op,.true.,mpi_eamn_op,info)
if (info == 0) call mpi_op_create(psi_samx_op,.true.,mpi_samx_op,info)
if (info == 0) call mpi_op_create(psi_samn_op,.true.,mpi_samn_op,info)
if (info == 0) call mpi_op_create(psi_damx_op,.true.,mpi_damx_op,info)
if (info == 0) call mpi_op_create(psi_damn_op,.true.,mpi_damn_op,info)
if (info == 0) call mpi_op_create(psi_camx_op,.true.,mpi_camx_op,info)
if (info == 0) call mpi_op_create(psi_camn_op,.true.,mpi_camn_op,info)
if (info == 0) call mpi_op_create(psi_zamx_op,.true.,mpi_zamx_op,info)
if (info == 0) call mpi_op_create(psi_zamn_op,.true.,mpi_zamn_op,info)
if (info == 0) call mpi_op_create(psi_snrm2_op,.true.,mpi_snrm2_op,info)
if (info == 0) call mpi_op_create(psi_dnrm2_op,.true.,mpi_dnrm2_op,info)
#endif
end subroutine psi_register_mpi_extras
subroutine psb_init_epk(ictxt,np,basectxt,ids)
integer(psb_epk_), intent(out) :: ictxt
integer(psb_epk_), intent(in), optional :: np, basectxt, ids(:)
integer(psb_mpk_) :: iictxt
integer(psb_mpk_) :: inp, ibasectxt
integer(psb_mpk_), allocatable :: ids_(:)
if (present(ids)) then
allocate(ids_(size(ids)))
ids_ = ids
else
allocate(ids_(0))
end if
if (present(np).and.present(basectxt)) then
inp = np
ibasectxt = basectxt
call psb_init(iictxt,np=inp,basectxt=ibasectxt,ids=ids_)
else if (present(np)) then
inp = np
call psb_init(iictxt,np=inp,ids=ids_)
else if (present(basectxt)) then
ibasectxt = basectxt
call psb_init(iictxt,basectxt=ibasectxt,ids=ids_)
else
call psb_init(iictxt,ids=ids_)
end if
ictxt = iictxt
end subroutine psb_init_epk
subroutine psb_exit_epk(ictxt,close)
integer(psb_epk_), intent(inout) :: ictxt
logical, intent(in), optional :: close
integer(psb_mpk_) :: iictxt
iictxt = ictxt
call psb_exit(iictxt, close)
end subroutine psb_exit_epk
subroutine psb_barrier_epk(ictxt)
integer(psb_epk_), intent(in) :: ictxt
integer(psb_mpk_) :: iictxt
iictxt = ictxt
call psb_barrier(iictxt)
end subroutine psb_barrier_epk
subroutine psb_abort_epk(ictxt,errc)
integer(psb_epk_), intent(in) :: ictxt
integer(psb_epk_), intent(in), optional :: errc
integer(psb_mpk_) :: iictxt, ierrc
iictxt = ictxt
if (present(errc)) then
ierrc = errc
call psb_abort(iictxt,ierrc)
else
call psb_abort(iictxt)
end if
end subroutine psb_abort_epk
subroutine psb_info_epk(ictxt,iam,np)
integer(psb_epk_), intent(in) :: ictxt
integer(psb_epk_), intent(out) :: iam, np
!
! Simple caching scheme, keep track
! of the last CTXT encountered.
!
integer(psb_mpk_), save :: lctxt=-1, lam, lnp
if (ictxt /= lctxt) then
lctxt = ictxt
call psb_info(lctxt,lam,lnp)
end if
iam = lam
np = lnp
end subroutine psb_info_epk
subroutine psb_init_mpik(ictxt,np,basectxt,ids)
use psi_comm_buffers_mod
use psb_const_mod
use psb_error_mod
use psb_mat_mod
use psb_vect_mod
! !$ use psb_rsb_mod
#ifdef MPI_MOD
use mpi
#endif
implicit none
#ifdef MPI_H
include 'mpif.h'
#endif
integer(psb_mpk_), intent(out) :: ictxt
integer(psb_mpk_), intent(in), optional :: np, basectxt, ids(:)
integer(psb_mpk_) :: i, isnullcomm
integer(psb_mpk_), allocatable :: iids(:)
logical :: initialized
integer(psb_mpk_) :: np_, npavail, iam, info, basecomm, basegroup, newgroup
character(len=20), parameter :: name='psb_init'
integer(psb_ipk_) :: iinfo
!
call psb_set_debug_unit(psb_err_unit)
#if defined(SERIAL_MPI)
ictxt = nctxt
nctxt = nctxt + 1
call psi_register_mpi_extras(info)
call psi_get_sizes()
#else
call mpi_initialized(initialized,info)
if ((.not.initialized).or.(info /= mpi_success)) then
if (info == mpi_success) call mpi_init(info)
if (info /= mpi_success) then
write(psb_err_unit,*) 'Error in initalizing MPI, bailing out',info
stop
end if
end if
if (present(basectxt)) then
basecomm = basectxt
else
basecomm = mpi_comm_world
end if
if (present(np)) then
if (np < 1) then
iinfo=psb_err_initerror_neugh_procs_
call psb_errpush(iinfo,name)
call psb_error()
ictxt = mpi_comm_null
return
endif
call mpi_comm_size(basecomm,np_,info)
if (np_ < np) then
iinfo=psb_err_initerror_neugh_procs_
call psb_errpush(iinfo,name)
call psb_error()
ictxt = mpi_comm_null
return
endif
call mpi_comm_group(basecomm,basegroup,info)
if (present(ids)) then
if (size(ids)<np) then
write(psb_err_unit,*) 'Error in init: too few ids in input'
ictxt = mpi_comm_null
return
end if
do i=1, np
if ((ids(i)<0).or.(ids(i)>np_)) then
write(psb_err_unit,*) 'Error in init: invalid rank in input'
ictxt = mpi_comm_null
return
end if
end do
call mpi_group_incl(basegroup,np,ids,newgroup,info)
if (info /= mpi_success) then
ictxt = mpi_comm_null
return
endif
else
allocate(iids(np),stat=info)
if (info /= 0) then
ictxt = mpi_comm_null
return
endif
do i=1, np
iids(i) = i-1
end do
call mpi_group_incl(basegroup,np,iids,newgroup,info)
if (info /= mpi_success) then
ictxt = mpi_comm_null
return
endif
deallocate(iids)
end if
call mpi_comm_create(basecomm,newgroup,ictxt,info)
else
if (basecomm /= mpi_comm_null) then
call mpi_comm_dup(basecomm,ictxt,info)
else
ictxt = mpi_comm_null
end if
endif
call psi_register_mpi_extras(info)
call psi_get_sizes()
if (ictxt == mpi_comm_null) return
#endif
call psb_init_vect_defaults()
call psb_init_mat_defaults()
! !$ call psb_rsb_init(info)
! !$ if (info.ne.psb_rsb_const_success) then
! !$ if (info.eq.psb_rsb_const_not_available) then
! !$ info=psb_success_ ! rsb is not present
! !$ else
! !$ ! rsb failed to initialize, and we issue an internal error.
! !$ ! or shall we tolerate this ?
! !$ info=psb_err_internal_error_
! !$ call psb_errpush(info,name)
! !$ call psb_error(ictxt)
! !$ endif
! !$ endif
end subroutine psb_init_mpik
subroutine psb_exit_mpik(ictxt,close)
use psi_comm_buffers_mod
use psb_mat_mod
use psb_vect_mod
! !$ use psb_rsb_mod
#ifdef MPI_MOD
use mpi
#endif
implicit none
#ifdef MPI_H
include 'mpif.h'
#endif
integer(psb_mpk_), intent(inout) :: ictxt
logical, intent(in), optional :: close
logical :: close_
integer(psb_mpk_) :: info
character(len=20), parameter :: name='psb_exit'
info = 0
if (present(close)) then
close_ = close
else
close_ = .true.
end if
! !$ if (close_) call psb_rsb_exit(info)
! !$ if (info.ne.psb_rsb_const_success) then
! !$ if (info.eq.psb_rsb_const_not_available) then
! !$ info=psb_success_ ! rsb is not present
! !$ else
! !$ info=psb_err_internal_error_ ! rsb failed to exit, and we issue an internal error. or shall we tolerate this ?
! !$ call psb_errpush(info,name)
! !$ call psb_error(ictxt)
! !$ endif
! !$ endif
#if defined(SERIAL_MPI)
! Under serial mode, CLOSE has no effect, but reclaim
! the used ICTXT number.
nctxt = max(0, nctxt - 1)
#else
if (close_) then
call psb_close_all_context(psb_mesg_queue)
else
call psb_close_context(psb_mesg_queue,ictxt)
end if
if ((ictxt /= mpi_comm_null).and.(ictxt /= mpi_comm_world)) then
call mpi_comm_Free(ictxt,info)
end if
if (close_) call mpi_finalize(info)
#endif
if (close_) call psb_clear_vect_defaults()
if (close_) call psb_clear_mat_defaults()
end subroutine psb_exit_mpik
subroutine psb_barrier_mpik(ictxt)
#ifdef MPI_MOD
use mpi
#endif
implicit none
#ifdef MPI_H
include 'mpif.h'
#endif
integer(psb_mpk_), intent(in) :: ictxt
integer(psb_mpk_) :: info
#if !defined(SERIAL_MPI)
if (ictxt /= mpi_comm_null) then
call mpi_barrier(ictxt, info)
end if
#endif
end subroutine psb_barrier_mpik
function psb_wtime()
use psb_const_mod
! use mpi_constants
#ifdef MPI_MOD
use mpi
#endif
implicit none
#ifdef MPI_H
include 'mpif.h'
#endif
real(psb_dpk_) :: psb_wtime
psb_wtime = mpi_wtime()
end function psb_wtime
subroutine psb_abort_mpik(ictxt,errc)
use psi_comm_buffers_mod
integer(psb_mpk_), intent(in) :: ictxt
integer(psb_mpk_), intent(in), optional :: errc
integer(psb_mpk_) :: code, info
#if defined(SERIAL_MPI)
stop
#else
if (present(errc)) then
code = errc
else
code = -1
endif
call mpi_abort(ictxt,code,info)
#endif
end subroutine psb_abort_mpik
subroutine psb_info_mpik(ictxt,iam,np)
use psi_comm_buffers_mod
#ifdef MPI_MOD
use mpi
#endif
implicit none
#ifdef MPI_H
include 'mpif.h'
#endif
integer(psb_mpk_), intent(in) :: ictxt
integer(psb_mpk_), intent(out) :: iam, np
integer(psb_mpk_) :: info
!
! Simple caching scheme, keep track
! of the last CTXT encountered.
!
integer(psb_mpk_), save :: lctxt=-1, lam, lnp
#if defined(SERIAL_MPI)
iam = 0
np = 1
#else
iam = -1
np = -1
if (ictxt == lctxt) then
iam = lam
np = lnp
else
if (ictxt /= mpi_comm_null) then
call mpi_comm_size(ictxt,np,info)
if (info /= mpi_success) np = -1
call mpi_comm_rank(ictxt,iam,info)
if (info /= mpi_success) iam = -1
end if
lctxt = ictxt
lam = iam
lnp = np
end if
#endif
end subroutine psb_info_mpik
function psb_m_get_mpi_comm(ictxt) result(comm)
integer(psb_mpk_) :: ictxt, comm
comm = ictxt
end function psb_m_get_mpi_comm
function psb_e_get_mpi_comm(ictxt) result(comm)
integer(psb_epk_) :: ictxt
integer(psb_mpk_) :: comm
comm = ictxt
end function psb_e_get_mpi_comm
function psb_m_get_mpi_rank(ictxt,id) result(rank)
integer(psb_mpk_) :: rank
integer(psb_mpk_) :: ictxt,id
rank = id
end function psb_m_get_mpi_rank
function psb_e_get_mpi_rank(ictxt,id) result(rank)
integer(psb_mpk_) :: rank
integer(psb_epk_) :: ictxt,id
rank = id
end function psb_e_get_mpi_rank
subroutine psb_get_mpicomm(ictxt,comm)
integer(psb_mpk_) :: ictxt, comm
comm = psb_get_mpi_comm(ictxt)
end subroutine psb_get_mpicomm
subroutine psb_get_rank(rank,ictxt,id)
integer(psb_mpk_) :: rank,ictxt,id
rank = psb_get_mpi_rank(ictxt,id)
end subroutine psb_get_rank
! !!!!!!!!!!!!!!!!!!!!!!
!
! Base binary operations
!
! Note: len & type are always default integer.
!
! !!!!!!!!!!!!!!!!!!!!!!
subroutine psi_mamx_op(inv, outv,len,type)
integer(psb_mpk_) :: inv(len), outv(len)
integer(psb_mpk_) :: len,type
integer(psb_mpk_) :: i
do i=1, len
if (abs(inv(i)) > abs(outv(i))) outv(i) = inv(i)
end do
end subroutine psi_mamx_op
subroutine psi_mamn_op(inv, outv,len,type)
integer(psb_mpk_) :: inv(len), outv(len)
integer(psb_mpk_) :: len,type
integer(psb_mpk_) :: i
do i=1, len
if (abs(inv(i)) < abs(outv(i))) outv(i) = inv(i)
end do
end subroutine psi_mamn_op
subroutine psi_eamx_op(inv, outv,len,type)
integer(psb_epk_) :: inv(len), outv(len)
integer(psb_mpk_) :: len,type
integer(psb_mpk_) :: i
do i=1, len
if (abs(inv(i)) > abs(outv(i))) outv(i) = inv(i)
end do
end subroutine psi_eamx_op
subroutine psi_eamn_op(inv, outv,len,type)
integer(psb_epk_) :: inv(len), outv(len)
integer(psb_mpk_) :: len,type
integer(psb_mpk_) :: i
do i=1, len
if (abs(inv(i)) < abs(outv(i))) outv(i) = inv(i)
end do
end subroutine psi_eamn_op
subroutine psi_samx_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
real(psb_spk_), intent(in) :: vin(len)
real(psb_spk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) < abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_samx_op
subroutine psi_samn_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
real(psb_spk_), intent(in) :: vin(len)
real(psb_spk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) > abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_samn_op
subroutine psi_damx_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
real(psb_dpk_), intent(in) :: vin(len)
real(psb_dpk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) < abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_damx_op
subroutine psi_damn_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
real(psb_dpk_), intent(in) :: vin(len)
real(psb_dpk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) > abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_damn_op
subroutine psi_camx_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
complex(psb_spk_), intent(in) :: vin(len)
complex(psb_spk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) < abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_camx_op
subroutine psi_camn_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
complex(psb_spk_), intent(in) :: vin(len)
complex(psb_spk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) > abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_camn_op
subroutine psi_zamx_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
complex(psb_dpk_), intent(in) :: vin(len)
complex(psb_dpk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) < abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_zamx_op
subroutine psi_zamn_op(vin,vinout,len,itype)
integer(psb_mpk_), intent(in) :: len, itype
complex(psb_dpk_), intent(in) :: vin(len)
complex(psb_dpk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
do i=1, len
if (abs(vinout(i)) > abs(vin(i))) vinout(i) = vin(i)
end do
end subroutine psi_zamn_op
subroutine psi_snrm2_op(vin,vinout,len,itype)
implicit none
integer(psb_mpk_), intent(in) :: len, itype
real(psb_spk_), intent(in) :: vin(len)
real(psb_spk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
real(psb_spk_) :: w, z
do i=1, len
w = max( vin(i), vinout(i) )
z = min( vin(i), vinout(i) )
if ( z == szero ) then
vinout(i) = w
else
vinout(i) = w*sqrt( sone+( z / w )**2 )
end if
end do
end subroutine psi_snrm2_op
subroutine psi_dnrm2_op(vin,vinout,len,itype)
implicit none
integer(psb_mpk_), intent(in) :: len, itype
real(psb_dpk_), intent(in) :: vin(len)
real(psb_dpk_), intent(inout) :: vinout(len)
integer(psb_mpk_) :: i
real(psb_dpk_) :: w, z
do i=1, len
w = max( vin(i), vinout(i) )
z = min( vin(i), vinout(i) )
if ( z == dzero ) then
vinout(i) = w
else
vinout(i) = w*sqrt( done+( z / w )**2 )
end if
end do
end subroutine psi_dnrm2_op
end module psi_penv_mod