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QuantumPackage/src/cipsi/run_pt2_slave.irp.f

548 lines
15 KiB
Fortran
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use omp_lib
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use selection_types
use f77_zmq
BEGIN_PROVIDER [ integer(omp_lock_kind), global_selection_buffer_lock ]
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use omp_lib
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implicit none
BEGIN_DOC
! Global buffer for the OpenMP selection
END_DOC
call omp_init_lock(global_selection_buffer_lock)
END_PROVIDER
BEGIN_PROVIDER [ type(selection_buffer), global_selection_buffer ]
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use omp_lib
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implicit none
BEGIN_DOC
! Global buffer for the OpenMP selection
END_DOC
call omp_set_lock(global_selection_buffer_lock)
call delete_selection_buffer(global_selection_buffer)
call create_selection_buffer(N_det_generators, 2*N_det_generators, &
global_selection_buffer)
call omp_unset_lock(global_selection_buffer_lock)
END_PROVIDER
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subroutine run_pt2_slave(thread,iproc,energy)
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use selection_types
use f77_zmq
implicit none
double precision, intent(in) :: energy(N_states_diag)
integer, intent(in) :: thread, iproc
call run_pt2_slave_large(thread,iproc,energy)
! if (N_det > nproc*(elec_alpha_num * (mo_num-elec_alpha_num))**2) then
! call run_pt2_slave_large(thread,iproc,energy)
! else
! call run_pt2_slave_small(thread,iproc,energy)
! endif
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end
subroutine run_pt2_slave_small(thread,iproc,energy)
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use selection_types
use f77_zmq
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implicit none
double precision, intent(in) :: energy(N_states_diag)
integer, intent(in) :: thread, iproc
integer :: rc, i
integer :: worker_id, ctask, ltask
character*(512), allocatable :: task(:)
integer, allocatable :: task_id(:)
integer(ZMQ_PTR),external :: new_zmq_to_qp_run_socket
integer(ZMQ_PTR) :: zmq_to_qp_run_socket
integer(ZMQ_PTR), external :: new_zmq_push_socket
integer(ZMQ_PTR) :: zmq_socket_push
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type(selection_buffer) :: b
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logical :: done, buffer_ready
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type(pt2_type), allocatable :: pt2_data(:)
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integer :: n_tasks, k, N
integer, allocatable :: i_generator(:), subset(:)
double precision, external :: memory_of_double, memory_of_int
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integer :: bsize ! Size of selection buffers
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! logical :: sending
allocate(task_id(pt2_n_tasks_max), task(pt2_n_tasks_max))
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allocate(pt2_data(pt2_n_tasks_max), i_generator(pt2_n_tasks_max), subset(pt2_n_tasks_max))
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zmq_to_qp_run_socket = new_zmq_to_qp_run_socket()
integer, external :: connect_to_taskserver
if (connect_to_taskserver(zmq_to_qp_run_socket,worker_id,thread) == -1) then
call end_zmq_to_qp_run_socket(zmq_to_qp_run_socket)
return
endif
zmq_socket_push = new_zmq_push_socket(thread)
b%N = 0
buffer_ready = .False.
n_tasks = 1
! sending = .False.
done = .False.
do while (.not.done)
n_tasks = max(1,n_tasks)
n_tasks = min(pt2_n_tasks_max,n_tasks)
integer, external :: get_tasks_from_taskserver
if (get_tasks_from_taskserver(zmq_to_qp_run_socket,worker_id, task_id, task, n_tasks) == -1) then
exit
endif
done = task_id(n_tasks) == 0
if (done) then
n_tasks = n_tasks-1
endif
if (n_tasks == 0) exit
do k=1,n_tasks
read (task(k),*) subset(k), i_generator(k), N
enddo
if (b%N == 0) then
! Only first time
bsize = min(N, (elec_alpha_num * (mo_num-elec_alpha_num))**2)
call create_selection_buffer(bsize, bsize*2, b)
buffer_ready = .True.
else
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ASSERT (b%N == bsize)
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endif
double precision :: time0, time1
call wall_time(time0)
do k=1,n_tasks
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call pt2_alloc(pt2_data(k),N_states)
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b%cur = 0
!double precision :: time2
!call wall_time(time2)
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call select_connected(i_generator(k),energy,pt2_data(k),b,subset(k),pt2_F(i_generator(k)))
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!call wall_time(time1)
!print *, i_generator(1), time1-time2, n_tasks, pt2_F(i_generator(1))
enddo
call wall_time(time1)
!print *, '-->', i_generator(1), time1-time0, n_tasks
integer, external :: tasks_done_to_taskserver
if (tasks_done_to_taskserver(zmq_to_qp_run_socket,worker_id,task_id,n_tasks) == -1) then
done = .true.
endif
call sort_selection_buffer(b)
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call push_pt2_results(zmq_socket_push, i_generator, pt2_data, b, task_id, n_tasks)
do k=1,n_tasks
call pt2_dealloc(pt2_data(k))
enddo
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b%cur=0
! ! Try to adjust n_tasks around nproc/2 seconds per job
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n_tasks = min(2*n_tasks,int( dble(n_tasks * nproc/2) / (time1 - time0 + 1.d0)))
! n_tasks = 1
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end do
integer, external :: disconnect_from_taskserver
do i=1,300
if (disconnect_from_taskserver(zmq_to_qp_run_socket,worker_id) /= -2) exit
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call usleep(500)
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print *, 'Retry disconnect...'
end do
call end_zmq_push_socket(zmq_socket_push,thread)
call end_zmq_to_qp_run_socket(zmq_to_qp_run_socket)
if (buffer_ready) then
call delete_selection_buffer(b)
endif
end subroutine
subroutine run_pt2_slave_large(thread,iproc,energy)
use selection_types
use f77_zmq
implicit none
double precision, intent(in) :: energy(N_states_diag)
integer, intent(in) :: thread, iproc
integer :: rc, i
integer :: worker_id, ctask, ltask
character*(512), allocatable :: task(:)
integer, allocatable :: task_id(:)
integer(ZMQ_PTR),external :: new_zmq_to_qp_run_socket
integer(ZMQ_PTR) :: zmq_to_qp_run_socket
integer(ZMQ_PTR), external :: new_zmq_push_socket
integer(ZMQ_PTR) :: zmq_socket_push
type(selection_buffer) :: b
logical :: done, buffer_ready
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type(pt2_type), allocatable :: pt2_data(:)
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integer :: n_tasks, k, N
integer, allocatable :: i_generator(:), subset(:)
integer :: bsize ! Size of selection buffers
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logical :: sending
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PROVIDE global_selection_buffer global_selection_buffer_lock
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allocate(task_id(pt2_n_tasks_max), task(pt2_n_tasks_max))
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allocate(pt2_data(pt2_n_tasks_max), i_generator(pt2_n_tasks_max), subset(pt2_n_tasks_max))
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zmq_to_qp_run_socket = new_zmq_to_qp_run_socket()
integer, external :: connect_to_taskserver
if (connect_to_taskserver(zmq_to_qp_run_socket,worker_id,thread) == -1) then
call end_zmq_to_qp_run_socket(zmq_to_qp_run_socket)
return
endif
zmq_socket_push = new_zmq_push_socket(thread)
b%N = 0
buffer_ready = .False.
n_tasks = 1
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sending = .False.
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done = .False.
do while (.not.done)
n_tasks = max(1,n_tasks)
n_tasks = min(pt2_n_tasks_max,n_tasks)
integer, external :: get_tasks_from_taskserver
if (get_tasks_from_taskserver(zmq_to_qp_run_socket,worker_id, task_id, task, n_tasks) == -1) then
exit
endif
done = task_id(n_tasks) == 0
if (done) then
n_tasks = n_tasks-1
endif
if (n_tasks == 0) exit
do k=1,n_tasks
read (task(k),*) subset(k), i_generator(k), N
enddo
if (b%N == 0) then
! Only first time
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bsize = min(N, (elec_alpha_num * (mo_num-elec_alpha_num))**2)
call create_selection_buffer(bsize, bsize*2, b)
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buffer_ready = .True.
else
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ASSERT (b%N == bsize)
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endif
double precision :: time0, time1
call wall_time(time0)
do k=1,n_tasks
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call pt2_alloc(pt2_data(k),N_states)
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b%cur = 0
!double precision :: time2
!call wall_time(time2)
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call select_connected(i_generator(k),energy,pt2_data(k),b,subset(k),pt2_F(i_generator(k)))
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!call wall_time(time1)
!print *, i_generator(1), time1-time2, n_tasks, pt2_F(i_generator(1))
enddo
call wall_time(time1)
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!print *, '-->', i_generator(1), time1-time0, n_tasks
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integer, external :: tasks_done_to_taskserver
if (tasks_done_to_taskserver(zmq_to_qp_run_socket,worker_id,task_id,n_tasks) == -1) then
done = .true.
endif
call sort_selection_buffer(b)
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call push_pt2_results_async_recv(zmq_socket_push,b%mini,sending)
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call omp_set_lock(global_selection_buffer_lock)
global_selection_buffer%mini = b%mini
call merge_selection_buffers(b,global_selection_buffer)
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b%cur=0
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call omp_unset_lock(global_selection_buffer_lock)
if ( iproc == 1 ) then
call omp_set_lock(global_selection_buffer_lock)
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call push_pt2_results_async_send(zmq_socket_push, i_generator, pt2_data, global_selection_buffer, task_id, n_tasks,sending)
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global_selection_buffer%cur = 0
call omp_unset_lock(global_selection_buffer_lock)
else
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call push_pt2_results_async_send(zmq_socket_push, i_generator, pt2_data, b, task_id, n_tasks,sending)
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endif
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do k=1,n_tasks
call pt2_dealloc(pt2_data(k))
enddo
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! ! Try to adjust n_tasks around nproc/2 seconds per job
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! n_tasks = min(2*n_tasks,int( dble(n_tasks * nproc/2) / (time1 - time0 + 1.d0)))
n_tasks = 1
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end do
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call push_pt2_results_async_recv(zmq_socket_push,b%mini,sending)
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integer, external :: disconnect_from_taskserver
do i=1,300
if (disconnect_from_taskserver(zmq_to_qp_run_socket,worker_id) /= -2) exit
call sleep(1)
print *, 'Retry disconnect...'
end do
call end_zmq_push_socket(zmq_socket_push,thread)
call end_zmq_to_qp_run_socket(zmq_to_qp_run_socket)
if (buffer_ready) then
call delete_selection_buffer(b)
endif
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FREE global_selection_buffer
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end subroutine
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subroutine push_pt2_results(zmq_socket_push, index, pt2_data, b, task_id, n_tasks)
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use selection_types
use f77_zmq
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implicit none
integer(ZMQ_PTR), intent(in) :: zmq_socket_push
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type(pt2_type), intent(in) :: pt2_data(n_tasks)
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integer, intent(in) :: n_tasks, index(n_tasks), task_id(n_tasks)
type(selection_buffer), intent(inout) :: b
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logical :: sending
sending = .False.
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call push_pt2_results_async_send(zmq_socket_push, index, pt2_data, b, task_id, n_tasks, sending)
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call push_pt2_results_async_recv(zmq_socket_push, b%mini, sending)
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end subroutine
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subroutine push_pt2_results_async_send(zmq_socket_push, index, pt2_data, b, task_id, n_tasks, sending)
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use selection_types
use f77_zmq
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implicit none
integer(ZMQ_PTR), intent(in) :: zmq_socket_push
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type(pt2_type), intent(in) :: pt2_data(n_tasks)
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integer, intent(in) :: n_tasks, index(n_tasks), task_id(n_tasks)
type(selection_buffer), intent(inout) :: b
logical, intent(inout) :: sending
integer :: rc
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integer*8 :: rc8
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if (sending) then
print *, irp_here, ': sending is true'
stop -1
endif
sending = .True.
rc = f77_zmq_send( zmq_socket_push, n_tasks, 4, ZMQ_SNDMORE)
if (rc == -1) then
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print *, irp_here, ': error sending result'
stop 1
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return
else if(rc /= 4) then
stop 'push'
endif
rc = f77_zmq_send( zmq_socket_push, index, 4*n_tasks, ZMQ_SNDMORE)
if (rc == -1) then
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print *, irp_here, ': error sending result'
stop 2
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return
else if(rc /= 4*n_tasks) then
stop 'push'
endif
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rc = f77_zmq_send( zmq_socket_push, pt2_data, pt2_type_size(N_states)*n_tasks, ZMQ_SNDMORE)
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if (rc == -1) then
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print *, irp_here, ': error sending result'
stop 3
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return
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else if(rc /= pt2_type_size(N_states)*n_tasks) then
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stop 'push'
endif
rc = f77_zmq_send( zmq_socket_push, task_id, n_tasks*4, ZMQ_SNDMORE)
if (rc == -1) then
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print *, irp_here, ': error sending result'
stop 6
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return
else if(rc /= 4*n_tasks) then
stop 'push'
endif
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if (b%cur == 0) then
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rc = f77_zmq_send( zmq_socket_push, b%cur, 4, 0)
if (rc == -1) then
print *, irp_here, ': error sending result'
stop 7
return
else if(rc /= 4) then
stop 'push'
endif
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else
rc = f77_zmq_send( zmq_socket_push, b%cur, 4, ZMQ_SNDMORE)
if (rc == -1) then
print *, irp_here, ': error sending result'
stop 7
return
else if(rc /= 4) then
stop 'push'
endif
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rc8 = f77_zmq_send8( zmq_socket_push, b%val, 8_8*int(b%cur,8), ZMQ_SNDMORE)
if (rc8 == -1_8) then
print *, irp_here, ': error sending result'
stop 8
return
else if(rc8 /= 8_8*int(b%cur,8)) then
stop 'push'
endif
rc8 = f77_zmq_send8( zmq_socket_push, b%det, int(bit_kind*N_int*2,8)*int(b%cur,8), 0)
if (rc8 == -1_8) then
print *, irp_here, ': error sending result'
stop 9
return
else if(rc8 /= int(N_int*2*8,8)*int(b%cur,8)) then
stop 'push'
endif
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endif
end subroutine
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subroutine push_pt2_results_async_recv(zmq_socket_push,mini,sending)
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use selection_types
use f77_zmq
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implicit none
integer(ZMQ_PTR), intent(in) :: zmq_socket_push
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double precision, intent(out) :: mini
logical, intent(inout) :: sending
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integer :: rc
if (.not.sending) return
! Activate is zmq_socket_push is a REQ
IRP_IF ZMQ_PUSH
IRP_ELSE
character*(2) :: ok
rc = f77_zmq_recv( zmq_socket_push, ok, 2, 0)
if (rc == -1) then
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print *, irp_here, ': error sending result'
stop 10
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return
else if ((rc /= 2).and.(ok(1:2) /= 'ok')) then
print *, irp_here//': error in receiving ok'
stop -1
endif
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rc = f77_zmq_recv( zmq_socket_push, mini, 8, 0)
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if (rc == -1) then
print *, irp_here, ': error sending result'
stop 11
return
else if (rc /= 8) then
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print *, irp_here//': error in receiving mini'
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stop 12
endif
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IRP_ENDIF
sending = .False.
end subroutine
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subroutine pull_pt2_results(zmq_socket_pull, index, pt2_data, task_id, n_tasks, b)
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use selection_types
use f77_zmq
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implicit none
integer(ZMQ_PTR), intent(in) :: zmq_socket_pull
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type(pt2_type), intent(inout) :: pt2_data(n_tasks)
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type(selection_buffer), intent(inout) :: b
integer, intent(out) :: index(*)
integer, intent(out) :: n_tasks, task_id(*)
integer :: rc, rn, i
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integer*8 :: rc8
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rc = f77_zmq_recv( zmq_socket_pull, n_tasks, 4, 0)
if (rc == -1) then
n_tasks = 1
task_id(1) = 0
else if(rc /= 4) then
stop 'pull'
endif
rc = f77_zmq_recv( zmq_socket_pull, index, 4*n_tasks, 0)
if (rc == -1) then
n_tasks = 1
task_id(1) = 0
else if(rc /= 4*n_tasks) then
stop 'pull'
endif
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rc = f77_zmq_recv( zmq_socket_pull, pt2_data, pt2_type_size(N_states)*n_tasks, 0)
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if (rc == -1) then
n_tasks = 1
task_id(1) = 0
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else if(rc /= pt2_type_size(N_states)*n_tasks) then
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stop 'pull'
endif
rc = f77_zmq_recv( zmq_socket_pull, task_id, n_tasks*4, 0)
if (rc == -1) then
n_tasks = 1
task_id(1) = 0
else if(rc /= 4*n_tasks) then
stop 'pull'
endif
rc = f77_zmq_recv( zmq_socket_pull, b%cur, 4, 0)
if (rc == -1) then
n_tasks = 1
task_id(1) = 0
else if(rc /= 4) then
stop 'pull'
endif
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if (b%cur > 0) then
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rc8 = f77_zmq_recv8( zmq_socket_pull, b%val, 8_8*int(b%cur,8), 0)
if (rc8 == -1_8) then
n_tasks = 1
task_id(1) = 0
else if(rc8 /= 8_8*int(b%cur,8)) then
stop 'pull'
endif
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rc8 = f77_zmq_recv8( zmq_socket_pull, b%det, int(bit_kind*N_int*2,8)*int(b%cur,8), 0)
if (rc8 == -1_8) then
n_tasks = 1
task_id(1) = 0
else if(rc8 /= int(N_int*2*8,8)*int(b%cur,8)) then
stop 'pull'
endif
endif
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! Activate is zmq_socket_pull is a REP
IRP_IF ZMQ_PUSH
IRP_ELSE
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rc = f77_zmq_send( zmq_socket_pull, 'ok', 2, ZMQ_SNDMORE)
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if (rc == -1) then
n_tasks = 1
task_id(1) = 0
else if (rc /= 2) then
print *, irp_here//': error in sending ok'
stop -1
endif
2019-01-31 17:28:54 +01:00
rc = f77_zmq_send( zmq_socket_pull, b%mini, 8, 0)
2019-01-25 11:39:31 +01:00
IRP_ENDIF
end subroutine