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dft_tools/pytriqs/utility/mpi.py

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################################################################################
#
# TRIQS: a Toolbox for Research in Interacting Quantum Systems
#
# Copyright (C) 2011 by M. Ferrero, O. Parcollet
#
# TRIQS is free software: you can redistribute it and/or modify it under the
# terms of the GNU General Public License as published by the Free Software
# Foundation, either version 3 of the License, or (at your option) any later
# version.
#
# TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# TRIQS. If not, see <http://www.gnu.org/licenses/>.
#
################################################################################
import os,sys,datetime
myprint_err = lambda x : sys.stderr.write("%s\n"%x)
myprint_out = lambda x : sys.stdout.write("%s\n"%x)
if 'additional_builtin_modules' in dir(sys) and 'mpi' in sys.additional_builtin_modules: #link is static
from mpi import *
else :
from pytriqs.boost.mpi import *
if rank==0 :
myprint_err ("Starting on %s Nodes at : %s"%(size,str(datetime.datetime.now())))
master =0
All_Nodes_report = False #True
def bcast(x) :
return broadcast(world,x,0)
def send(val,node) :
world.send(node,0,val)
#print "node ", rank, "has sent ",val, " to node ", node
def recv(node) :
r = world.recv(node,0)
#print "node", rank, "receives ", r , "from Node ",node
return r
def irecv(node) :
return world.irecv(node,0)
def barrier() :
world.barrier()
Verbosity_Level_Report_Max = 1
def report(*x,**opt):
""" print on the master, do nothing on the nodes """
try :
if opt['Verbosity_Level'] > Verbosity_Level_Report_Max : return
except :
pass
if All_Nodes_report and rank!=0 :
for y in x:
open('report_node%s'%rank,'a').write(str(y) + '\n') # print y
if rank==0 :
myprint,myflush = (myprint_err,sys.stderr.flush) if 'stderr' in opt and opt['stderr'] else (myprint_out,sys.stdout.flush)
for y in x:
myprint( y) # open('report','a').write(str(y) + '\n') # print y
myflush() # be sure to flush the buffer!
def slice_inf(imin,imax) :
j=(imax - imin + 1)/size
i= imax - imin + 1 - size*j
return imin + rank*(j+1) if rank<=i-1 else imin + rank*j + i
def slice_sup(imin,imax) :
j=(imax - imin + 1)/size
i= imax - imin + 1 - size*j;
return imin + (rank+1)*(j+1) -1 if rank<=i-1 else imin + (rank+1)*j + i - 1
def slice_array(A) :
"""Given an array A, it returns a VIEW of a slice over the first dim on the node"""
imax = A.shape[0]-1
return A[slice_inf(0,imax):slice_sup(0,imax)+1] # +1 due to the slice convention
def is_master_node(): return rank == master
HostNames = {}
def master_gets_host_names():
""" find the host name of all the nodes """
from socket import gethostname
global HostNames
HostNames[rank] = gethostname()
if is_master_node() :
for proc in range (1,size) :
HostNames[proc],status = recv(proc)
else:
send(gethostname(),master)
barrier()
assert len(HostNames)==size," internal pb MPI module"
if is_master_node() :
print "Hostnames : "
for u,host in HostNames.items() :
print "Node %d on machine %s"%(u,host)