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psblas3/base/modules/psb_error_mod.F90

1101 lines
36 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 psb_error_mod
use psb_const_mod
integer(psb_ipk_), parameter, public :: psb_act_ret_=0
integer(psb_ipk_), parameter, public :: psb_act_print_=1
integer(psb_ipk_), parameter, public :: psb_act_abort_=2
integer(psb_ipk_), parameter, public :: psb_debug_ext_=1, psb_debug_outer_=2
integer(psb_ipk_), parameter, public :: psb_debug_comp_=3, psb_debug_inner_=4
integer(psb_ipk_), parameter, public :: psb_debug_serial_=8, psb_debug_serial_comp_=9
integer(psb_ipk_), parameter, public :: psb_no_err_ = 0
integer(psb_ipk_), parameter, public :: psb_err_warning_ = 1
integer(psb_ipk_), parameter, public :: psb_err_fatal_ = 2
integer(psb_ipk_), parameter, public :: psb_max_errmsg_len_ = 132
!
! Error handling
!
public psb_errpush, psb_error, psb_get_errstatus,&
& psb_errstatus_fatal, psb_errstatus_warning,&
& psb_errstatus_ok, psb_warning_push,&
& psb_errpop, psb_errcomm, psb_get_numerr, &
& psb_get_errverbosity, psb_set_errverbosity, &
& psb_erractionsave, psb_erractionrestore, &
& psb_get_erraction, psb_set_erraction, &
& psb_set_erract_return, psb_set_erract_print, psb_set_erract_abort,&
& psb_is_erract_return, psb_is_erract_print, psb_is_erract_abort,&
& psb_get_debug_level, psb_set_debug_level,&
& psb_get_debug_unit, psb_set_debug_unit,&
& psb_get_serial_debug_level, psb_set_serial_debug_level,&
& psb_clean_errstack, psb_error_handler, &
& psb_ser_error_handler, psb_par_error_handler, &
& psb_ser_error_print_stack, psb_par_error_print_stack,&
& psb_error_print_stack, psb_errmsg, psb_ach_errmsg, &
& psb_set_global_checks, psb_clear_global_checks, psb_get_global_checks,&
& psb_check_error
interface psb_error_handler
subroutine psb_ser_error_handler(err_act)
import :: psb_ipk_
integer(psb_ipk_), intent(inout) :: err_act
end subroutine psb_ser_error_handler
subroutine psb_par_error_handler(ctxt,err_act)
import :: psb_ipk_,psb_mpk_, psb_ctxt_type
type(psb_ctxt_type), intent(in) :: ctxt
integer(psb_ipk_), intent(in) :: err_act
end subroutine psb_par_error_handler
end interface
interface psb_error
subroutine psb_serror()
end subroutine psb_serror
subroutine psb_perror(ctxt,abrt)
import :: psb_ipk_, psb_ctxt_type
type(psb_ctxt_type), intent(in) :: ctxt
logical, intent(in), optional :: abrt
end subroutine psb_perror
end interface
interface psb_error_print_stack
subroutine psb_par_error_print_stack(ctxt)
import :: psb_ipk_, psb_ctxt_type
type(psb_ctxt_type), intent(in) :: ctxt
end subroutine psb_par_error_print_stack
subroutine psb_ser_error_print_stack()
end subroutine psb_ser_error_print_stack
end interface
interface psb_errcomm
#if defined(IPK8)
subroutine psb_errcomm_m(ctxt, err)
import :: psb_ipk_, psb_mpk_, psb_ctxt_type
type(pxb_ctxt_type), intent(in) :: ctxt
integer(psb_ipk_), intent(inout) :: err
end subroutine psb_errcomm_m
#endif
subroutine psb_errcomm_i(ctxt, err)
import :: psb_ipk_, psb_ctxt_type
type(psb_ctxt_type), intent(in) :: ctxt
integer(psb_ipk_), intent(inout) :: err
end subroutine psb_errcomm_i
end interface psb_errcomm
interface psb_errpop
module procedure psb_errpop, psb_ach_errpop
end interface
interface psb_errmsg
module procedure psb_errmsg, psb_ach_errmsg
end interface
private
type psb_errstack_node
! the error code
integer(psb_ipk_) :: err_code=0
! the name of the routine generating the error
character(len=20) :: routine=''
! array of integer data to complete the error msg
integer(psb_epk_),dimension(5) :: e_err_data=0
! real(psb_dpk_)(dim=10) :: r_err_data=0.d0
! array of real data to complete the error msg
! complex(dim=10) :: c_err_data=0.c0
! array of complex data to complete the error msg
! array of character data to complete the error msg
character(len=40) :: a_err_data=''
! pointer to the next element in the stack
type(psb_errstack_node), pointer :: next
end type psb_errstack_node
type psb_errstack
! pointer to the top element of the stack
type(psb_errstack_node), pointer :: top => null()
! number of entries in the stack
integer(psb_ipk_) :: n_elems=0
end type psb_errstack
type(psb_errstack), save :: error_stack
integer(psb_ipk_), save :: error_status = psb_no_err_
integer(psb_ipk_), save :: verbosity_level = 1
integer(psb_ipk_), save :: err_action = psb_act_abort_
integer(psb_ipk_), save :: debug_level = 0, debug_unit, serial_debug_level=0
logical, save :: comm_global_checks = .false.
contains
subroutine psb_set_global_checks(val)
logical, intent(in), optional :: val
if (present(val)) then
comm_global_checks = val
else
comm_global_checks = .true.
end if
end subroutine psb_set_global_checks
subroutine psb_clear_global_checks()
comm_global_checks = .false.
end subroutine psb_clear_global_checks
function psb_get_global_checks() result(val)
logical :: val
val = comm_global_checks
end function psb_get_global_checks
subroutine psb_check_error(ctxt,abrt)
implicit none
type(psb_ctxt_type), intent(in) :: ctxt
logical, optional, intent(in) :: abrt
if (psb_errstatus_fatal()) then
call psb_error(ctxt,abrt)
end if
end subroutine psb_check_error
! saves action to support error traceback
! also changes error action to "return"
subroutine psb_erractionsave(err_act)
integer(psb_ipk_), intent(out) :: err_act
err_act = err_action
err_action = psb_act_ret_
end subroutine psb_erractionsave
! return the action to take upon error occurrence
subroutine psb_get_erraction(err_act)
integer(psb_ipk_), intent(out) :: err_act
err_act=err_action
end subroutine psb_get_erraction
! sets the action to take upon error occurrence
subroutine psb_set_erraction(err_act)
integer(psb_ipk_), intent(in) :: err_act
err_action=err_act
end subroutine psb_set_erraction
! sets the action to take upon error occurrence
subroutine psb_set_erract_return()
err_action = psb_act_ret_
end subroutine psb_set_erract_return
subroutine psb_set_erract_print()
err_action = psb_act_print_
end subroutine psb_set_erract_print
subroutine psb_set_erract_abort()
err_action = psb_act_abort_
end subroutine psb_set_erract_abort
function psb_is_erract_return() result(res)
logical :: res
res = (err_action == psb_act_ret_)
end function psb_is_erract_return
function psb_is_erract_print() result(res)
logical :: res
res = (err_action == psb_act_print_)
end function psb_is_erract_print
function psb_is_erract_abort() result(res)
logical :: res
res = (err_action == psb_act_abort_)
end function psb_is_erract_abort
! restores error action previously saved with psb_erractionsave
subroutine psb_erractionrestore(err_act)
integer(psb_ipk_), intent(in) :: err_act
err_action = err_act
end subroutine psb_erractionrestore
function psb_get_debug_level()
integer(psb_ipk_) :: psb_get_debug_level
psb_get_debug_level = debug_level
end function psb_get_debug_level
subroutine psb_set_debug_level(level)
integer(psb_ipk_), intent(in) :: level
if (level >= 0) then
debug_level = level
else
debug_level = 0
end if
end subroutine psb_set_debug_level
function psb_get_debug_unit()
integer(psb_ipk_) :: psb_get_debug_unit
psb_get_debug_unit = debug_unit
end function psb_get_debug_unit
subroutine psb_set_debug_unit(unit)
integer(psb_ipk_), intent(in) :: unit
if ((unit >= 0).or.(unit == psb_err_unit)&
& .or.(unit == psb_out_unit)) then
debug_unit = unit
else
debug_unit = 0
end if
end subroutine psb_set_debug_unit
function psb_get_serial_debug_level()
integer(psb_ipk_) :: psb_get_serial_debug_level
psb_get_serial_debug_level = serial_debug_level
end function psb_get_serial_debug_level
subroutine psb_set_serial_debug_level(level)
integer(psb_ipk_), intent(in) :: level
if (level >= 0) then
serial_debug_level = level
else
serial_debug_level = 0
end if
end subroutine psb_set_serial_debug_level
! sets verbosity of the error message
subroutine psb_set_errverbosity(v)
integer(psb_ipk_), intent(in) :: v
verbosity_level=v
end subroutine psb_set_errverbosity
! returns number of errors
function psb_get_numerr()
integer(psb_ipk_) :: psb_get_numerr
psb_get_numerr = error_stack%n_elems
end function psb_get_numerr
! returns verbosity of the error message
function psb_get_errverbosity()
integer(psb_ipk_) :: psb_get_errverbosity
psb_get_errverbosity=verbosity_level
end function psb_get_errverbosity
! checks the status of the error condition
function psb_get_errstatus()
integer(psb_ipk_) :: psb_get_errstatus
psb_get_errstatus = error_status
end function psb_get_errstatus
subroutine psb_set_errstatus(ircode)
integer(psb_ipk_) :: ircode
if ((psb_no_err_<=ircode).and.(ircode <= psb_err_fatal_))&
& error_status=ircode
end subroutine psb_set_errstatus
function psb_errstatus_fatal() result(res)
logical :: res
res = (error_status == psb_err_fatal_)
end function psb_errstatus_fatal
function psb_errstatus_warning() result(res)
logical :: res
res = (error_status == psb_err_warning_)
end function psb_errstatus_warning
function psb_errstatus_ok() result(res)
logical :: res
res = (error_status == psb_no_err_)
end function psb_errstatus_ok
! pushes an error on the error stack
subroutine psb_stackpush(err_c, r_name, a_err, i_err, l_err, m_err, e_err)
integer(psb_ipk_), intent(in) :: err_c
character(len=*), intent(in) :: r_name
character(len=*), optional :: a_err
integer(psb_ipk_), optional :: i_err(:)
integer(psb_lpk_), optional :: l_err(:)
integer(psb_mpk_), optional :: m_err(:)
integer(psb_epk_), optional :: e_err(:)
type(psb_errstack_node), pointer :: new_node
integer :: isz
allocate(new_node)
new_node%err_code = err_c
new_node%routine = r_name
if (present(m_err)) then
isz = min(size(new_node%e_err_data),size(m_err))
new_node%e_err_data(1:isz) = m_err(1:isz)
end if
if (present(e_err)) then
isz = min(size(new_node%e_err_data),size(e_err))
new_node%e_err_data(1:isz) = e_err(1:isz)
end if
if (present(i_err)) then
isz = min(size(new_node%e_err_data),size(i_err))
new_node%e_err_data(1:isz) = i_err(1:isz)
end if
if (present(l_err)) then
isz = min(size(new_node%e_err_data),size(l_err))
new_node%e_err_data(1:isz) = l_err(1:isz)
end if
if(present(a_err)) then
new_node%a_err_data = a_err
end if
new_node%next => error_stack%top
error_stack%top => new_node
error_stack%n_elems = error_stack%n_elems+1
nullify(new_node)
end subroutine psb_stackpush
! pushes an error on the error stack
subroutine psb_errpush(err_c, r_name, a_err, i_err, l_err, m_err, e_err)
integer(psb_ipk_), intent(in) :: err_c
character(len=*), intent(in) :: r_name
character(len=*), optional :: a_err
integer(psb_ipk_), optional :: i_err(:)
integer(psb_lpk_), optional :: l_err(:)
integer(psb_mpk_), optional :: m_err(:)
integer(psb_epk_), optional :: e_err(:)
call psb_set_errstatus(psb_err_fatal_)
call psb_stackpush(err_c, r_name, a_err, i_err, l_err, m_err, e_err)
end subroutine psb_errpush
! pushes a warning on the error stack
subroutine psb_warning_push(err_c, r_name, a_err, i_err, l_err, m_err, e_err)
integer(psb_ipk_), intent(in) :: err_c
character(len=*), intent(in) :: r_name
character(len=*), optional :: a_err
integer(psb_ipk_), optional :: i_err(:)
integer(psb_lpk_), optional :: l_err(:)
integer(psb_mpk_), optional :: m_err(:)
integer(psb_epk_), optional :: e_err(:)
if (.not.psb_errstatus_fatal())&
& call psb_set_errstatus( psb_err_warning_)
call psb_stackpush(err_c, r_name, a_err, i_err, l_err, m_err, e_err)
end subroutine psb_warning_push
! pops an error from the error stack
subroutine psb_ach_errpop(achmsg)
character(len=psb_max_errmsg_len_), allocatable, intent(out) :: achmsg(:)
integer(psb_ipk_) :: err_c
character(len=20) :: r_name
character(len=40) :: a_e_d
integer(psb_epk_) :: e_e_d(5)
type(psb_errstack_node), pointer :: old_node
if (error_stack%n_elems > 0) then
err_c = error_stack%top%err_code
r_name = error_stack%top%routine
e_e_d = error_stack%top%e_err_data
a_e_d = error_stack%top%a_err_data
call psb_errmsg(achmsg,err_c, r_name, e_e_d, a_e_d)
old_node => error_stack%top
error_stack%top => old_node%next
error_stack%n_elems = error_stack%n_elems - 1
deallocate(old_node)
end if
if (error_stack%n_elems == 0) error_status=0
end subroutine psb_ach_errpop
! pops an error from the error stack
subroutine psb_errpop(err_c, r_name, e_e_d, a_e_d)
integer(psb_ipk_), intent(out) :: err_c
character(len=20), intent(out) :: r_name
character(len=40), intent(out) :: a_e_d
integer(psb_epk_), intent(out) :: e_e_d(5)
type(psb_errstack_node), pointer :: old_node
if (error_stack%n_elems > 0) then
err_c = error_stack%top%err_code
r_name = error_stack%top%routine
e_e_d = error_stack%top%e_err_data
a_e_d = error_stack%top%a_err_data
old_node => error_stack%top
error_stack%top => old_node%next
error_stack%n_elems = error_stack%n_elems - 1
deallocate(old_node)
end if
if (error_stack%n_elems == 0) error_status=psb_no_err_
end subroutine psb_errpop
! Clean the error stack
subroutine psb_clean_errstack()
integer(psb_ipk_) :: err_c
character(len=20) :: r_name
character(len=40) :: a_e_d
integer(psb_epk_) :: e_e_d(5)
do while (psb_get_numerr() > 0)
call psb_errpop(err_c, r_name, e_e_d, a_e_d)
end do
end subroutine psb_clean_errstack
! prints the error msg associated to a specific error code
subroutine psb_ach_errmsg(achmsg,err_c, r_name, e_e_d, a_e_d,me)
character(len=psb_max_errmsg_len_), allocatable, intent(out) :: achmsg(:)
integer(psb_ipk_), intent(in) :: err_c
character(len=20), intent(in) :: r_name
character(len=40), intent(in) :: a_e_d
integer(psb_epk_), intent(in) :: e_e_d(5)
integer(psb_mpk_), optional :: me
character(len=psb_max_errmsg_len_) :: tmpmsg
if(present(me)) then
write(tmpmsg,&
& '("Process: ",i0,". PSBLAS Error (",i0,") in subroutine: ",a)')&
& me,err_c,trim(r_name)
else
write(tmpmsg,'("PSBLAS Error (",i0,") in subroutine: ",a)')&
& err_c,trim(r_name)
end if
select case (err_c)
case(:psb_success_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("error on calling perror. err_c must be greater than 0")')
case(psb_err_pivot_too_small_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("pivot too small: ",i0,1x,a)')e_e_d(1),trim(a_e_d)
case(psb_err_invalid_ovr_num_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid number of ovr:",i0)')e_e_d(1)
case(psb_err_invalid_input_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid input")')
case(psb_err_iarg_neg_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," cannot be less than 0")')e_e_d(1)
write(achmsg(3),'("current value is ",i0)')e_e_d(2)
case(psb_err_iarg_pos_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," cannot be greater than 0")')e_e_d(1)
write(achmsg(3),'("current value is ",i0)')e_e_d(2)
case(psb_err_input_value_invalid_i_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," has an invalid value")')e_e_d(1)
write(achmsg(3),'("current value is ",i0)')e_e_d(2)
case(psb_err_input_asize_invalid_i_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("Size of input array argument n. ",i0," is invalid.")')e_e_d(1)
write(achmsg(3),'("Current value is ",i0)')e_e_d(2)
case(psb_err_input_asize_small_i_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("Size of input array argument n. ",i0," is too small.")')e_e_d(1)
write(achmsg(3),'("Current value is ",i0," Should be at least ",i0)') e_e_d(2),e_e_d(3)
case(psb_err_iarg_invalid_i_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," has an invalid value")')e_e_d(1)
write(achmsg(3),'("current value is ",a)')a_e_d(2:2)
case(psb_err_iarg_not_gtia_ii_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("input argument n. ",i0," must be equal or greater than input argument n. ",i0)') &
& e_e_d(1), e_e_d(3)
write(achmsg(3),'("current values are ",i0," < ",i0)')&
& e_e_d(2),e_e_d(5)
case(psb_err_iarg_not_gteia_ii_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," must be greater than or equal to ",i0)')&
& e_e_d(1),e_e_d(2)
write(achmsg(3),'("current value is ",i0," < ",i0)')&
& e_e_d(3), e_e_d(2)
case(psb_err_iarg_invalid_value_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," in entry # ",i0," has an invalid value")')&
& e_e_d(1:2)
write(achmsg(3),'("current value is ",a)')trim(a_e_d)
case(psb_err_asb_nrc_error_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("Impossible error in ASB: nrow>ncol,")')
write(achmsg(3),'("Actual values are ",i0," > ",i0)')e_e_d(1:2)
! ... csr format error ...
case(psb_err_iarg2_neg_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument ia2(1) is less than 0")')
write(achmsg(3),'("current value is ",i0)')e_e_d(1)
! ... csr format error ...
case(psb_err_ia2_not_increasing_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("indices in ia2 array are not in increasing order")')
case(psb_err_ia1_not_increasing_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("indices in ia1 array are not in increasing order")')
! ... csr format error ...
case(psb_err_ia1_badindices_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("indices in ia1 array are not within problem dimension")')
write(achmsg(3),'("problem dimension is ",i0)')e_e_d(1)
case(psb_err_invalid_args_combination_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("invalid combination of input arguments")')
case(psb_err_invalid_pid_arg_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid process identifier in input array argument n. ",i0,".")')&
& e_e_d(1)
write(achmsg(3),'("Current value is ",i0)')e_e_d(2)
case(psb_err_iarg_n_mbgtian_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," must be greater than input argument n. ",i0)')&
& e_e_d(1:2)
write(achmsg(3),'("current values are ",i0," < ",i0)') e_e_d(3:4)
case(psb_err_dupl_cd_vl)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("there are duplicated entries in vl (input to cdall)")')
! ... coo format error ...
! ... coo format error ...
case(psb_err_duplicate_coo)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),'("there are duplicated elements in coo format")')
write(achmsg(3),'("and you have chosen psb_dupl_err_ ")')
case(psb_err_invalid_input_format_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid input format ",a3)')&
& a_e_d(1:3)
case(psb_err_unsupported_format_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Format ",a3," not yet supported here")')&
&a_e_d(1:3)
case(psb_err_format_unknown_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Format ",a3," is unknown")')&
& a_e_d(1:3)
case(psb_err_iarray_outside_bounds_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("indices in input array are not within problem dimension ",2(i0,2x))')&
&e_e_d(1:2)
case(psb_err_iarray_outside_process_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("indices in input array are not belonging to the calling process ",i0)')&
& e_e_d(1)
case(psb_err_forgot_geall_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("To call this routine you must first call psb_geall on the same matrix")')
case(psb_err_forgot_spall_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("To call this routine you must first call psb_spall on the same matrix")')
case(psb_err_wrong_ins_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("Something went wrong before this call to ",a,", probably in cdins/spins")')&
& trim(r_name)
case(psb_err_bad_int_cnv_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Bad integer conversion from ",i0,"to ",i0)') &
& e_e_d(1),e_e_d(2)
case(psb_err_mpi_int_ovflw_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Size argument to MPI overflow.")')
case(psb_err_iarg_mbeeiarra_i_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Input argument n. ",i0," must be equal to entry n. ",i0," in array input argument n.",i0)') &
& e_e_d(1),e_e_d(4),e_e_d(3)
write(achmsg(3),'("Current values are ",i0," != ",i0)')e_e_d(2), e_e_d(5)
case(psb_err_mpi_error_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("MPI error:",i0)')e_e_d(1)
case(psb_err_parm_differs_among_procs_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("Parameter n. ",i0," must be equal on all processes. ",i0)')e_e_d(1)
case(psb_err_entry_out_of_bounds_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("Entry n. ",i0," out of ",i0," should be between 1 and ",i0," but is ",i0)')&
& e_e_d(1),e_e_d(3),e_e_d(4),e_e_d(2)
case(psb_err_inconsistent_index_lists_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Index lists are inconsistent: some indices are orphans")')
case(psb_err_partfunc_toomuchprocs_)
allocate(achmsg(4))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("partition function passed as input argument n. ",i0," returns number of processes")')&
&e_e_d(1)
write(achmsg(3),&
& '("greater than No of grid s processes on global point ",i0,". Actual number of grid s ")')&
&e_e_d(4)
write(achmsg(4),'("processes is ",i0,", number returned is ",i0)')e_e_d(2),e_e_d(3)
case(psb_err_partfunc_toofewprocs_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("partition function passed as input argument n. ",i0," returns number of processes")')&
&e_e_d(1)
write(achmsg(3),&
&'("less or equal to 0 on global point ",i0,". Number returned is ",i0)')&
&e_e_d(3),e_e_d(2)
case(psb_err_partfunc_wrong_pid_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("partition function passed as input argument n. ",i0," returns wrong processes identifier")')&
& e_e_d(1)
write(achmsg(3),&
& '("on global point ",i0,". Current value returned is : ",i0)')&
& e_e_d(3),e_e_d(2)
case(psb_err_no_optional_arg_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("One of the optional arguments ",a," must be present")')&
& trim(a_e_d)
case(psb_err_optional_arg_pair_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("The optional arguments ",a," must be present together")')&
& trim(a_e_d)
case(psb_err_arg_m_required_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Argument M is required when argument PARTS is specified")')
case(psb_err_missing_override_method_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Base class method ",a," called: the class for ",a," is missing an overriding implementation")')&
& trim(r_name), trim(a_e_d)
case(psb_err_invalid_dynamic_type_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("input argument n. ",i0," has a dynamic type not allowed here.")')&
& e_e_d(1)
case(psb_err_rectangular_mat_unsupported_)
write(achmsg(2),&
&'("This routine does not support rectangular matrices: ",i0, " /= ",i0)') &
& e_e_d(1), e_e_d(2)
case(psb_err_invalid_mat_state_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid state for sparse matrix")')
case(psb_err_invalid_cd_state_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid state for communication descriptor")')
case(psb_err_invalid_a_and_cd_state_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid combined state for A and DESC_A")')
case(psb_err_invalid_vect_state_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid state for vector")')
case(psb_err_invalid_matrix_sizes_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid combination of matrix sizes")')
case(1125:1999)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("computational error. code: ",i0)')err_c
case(psb_err_context_error_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(0,'("Parallel context error. Number of processes=-1")')
case(psb_err_initerror_neugh_procs_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Initialization error: not enough processes available in the parallel environment")')
case(psb_err_invalid_matrix_input_state_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid input state for matrix.")')
case(psb_err_input_no_regen_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Input state for matrix is not adequate for regeneration.")')
case(2233:2999)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("resource error. code: ",i0)')err_c
case(3000:3009)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("sparse matrix representation ",a3," not yet implemented")')&
&a_e_d(1:3)
case(psb_err_lld_case_not_implemented_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("Case lld not equal matrix_data[N_COL_] is not yet implemented.")')
case(psb_err_transpose_unsupported_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("transpose option for sparse matrix representation ",a3," not implemented")')&
& a_e_d(1:3)
case(psb_err_transpose_c_unsupported_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Case trans = C is not yet implemented.")')
case(psb_err_transpose_not_n_unsupported_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Case trans /= N is not yet implemented.")')
case(psb_err_only_unit_diag_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Only unit diagonal so far for triangular matrices. ")')
case(3023)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Cases DESCRA(1:1)=S DESCRA(1:1)=T not yet implemented. ")')
case(3024)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Cases DESCRA(1:1)=G not yet implemented. ")')
case(psb_err_ja_nix_ia_niy_unsupported_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Case ja /= ix or ia/=iy is not yet implemented.")')
case(psb_err_ix_n1_iy_n1_unsupported_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Case ix /= 1 or iy /= 1 is not yet implemented.")')
case(3050)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Case ix /= iy is not yet implemented.")')
case(3060)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Case ix /= 1 is not yet implemented.")')
case(3070)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("This operation is only implemented with no overlap.")')
case(3080)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Decompostion type ",i0," not yet supported.")')&
& e_e_d(1)
case(3090)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Insert matrix mode not yet implemented.")')
case(3100)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Error on index. Element has not been inserted")')
write(achmsg(3),&
& '("local index is: ",i0," and global index is:",i0)')&
& e_e_d(1:2)
case(psb_err_input_matrix_unassembled_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("Before you call this routine, you must assembly sparse matrix")')
case(3111)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Before you call this routine, you must initialize the preconditioner")')
case(3112)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Before you call this routine, you must build the preconditioner")')
case(3113:3998)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("miscellaneus error. code: ",i0)')err_c
case(psb_err_missing_aux_lib_)
allocate(achmsg(3))
achmsg(1) = tmpmsg
write(achmsg(2),&
&'("This method requires an external support library.")')
write(achmsg(3),&
&'("Fix configure and rebuild the software.")')
case(psb_err_alloc_dealloc_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Allocation/deallocation error")')
case(psb_err_internal_error_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Internal error: ",a)') &
& trim(a_e_d)
case(psb_err_from_subroutine_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Error from call to subroutine ",a)')&
& trim(a_e_d)
case(psb_err_from_subroutine_non_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Error from call to a subroutine ")')
case(psb_err_from_subroutine_i_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Error ",i0," from call to a subroutine ")')&
& e_e_d(1)
case(psb_err_from_subroutine_ai_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Error from call to subroutine ",a," ",i0)')&
& trim(a_e_d),e_e_d(1)
case(psb_err_alloc_request_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Error on allocation request for ",i0," items of type ",a)')&
& e_e_d(1),trim(a_e_d)
case(4110)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),&
& '("Error ",i0," from call to an external package in subroutine ",a)')&
&e_e_d(1),trim(a_e_d)
case(psb_err_invalid_istop_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid ISTOP: ",i0)')e_e_d(1)
case(psb_err_invalid_irst_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid IRST: ",i0)')e_e_d(1)
case(psb_err_invalid_preci_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid PREC: ",i0)')e_e_d(1)
case(psb_err_invalid_preca_)
allocate(achmsg(2))
achmsg(1) = tmpmsg
write(achmsg(2),'("Invalid PREC: ",a3)')a_e_d(1:3)
case default
allocate(achmsg(4))
achmsg(1) = tmpmsg
write(achmsg(2),'("unknown error (",i0,") in subroutine ",a)')&
& err_c,trim(r_name)
write(achmsg(3),'(5(i0,2x))') e_e_d
write(achmsg(4),'(a)') trim(a_e_d)
end select
end subroutine psb_ach_errmsg
! prints the error msg associated to a specific error code
subroutine psb_errmsg(iunit, err_c, r_name, e_e_d, a_e_d,me)
integer(psb_ipk_), intent(in) :: iunit
integer(psb_ipk_), intent(in) :: err_c
character(len=20), intent(in) :: r_name
character(len=40), intent(in) :: a_e_d
integer(psb_epk_), intent(in) :: e_e_d(5)
integer(psb_mpk_), optional :: me
integer(psb_ipk_) :: i
character(len=psb_max_errmsg_len_), allocatable :: achmsg(:)
call psb_ach_errmsg(achmsg,err_c, r_name, e_e_d, a_e_d,me)
do i=1,size(achmsg)
write(iunit,'(a)') trim(achmsg(i))
end do
end subroutine psb_errmsg
end module psb_error_mod