https://github.com/geodynamics/citcoms
Tip revision: bcf06ab870d4cfd4a7c8594146ed51e41b23d5f9 authored by Eh Tan on 09 August 2007, 22:57:28 UTC
Finished the compressible Stokes solver for TALA.
Finished the compressible Stokes solver for TALA.
Tip revision: bcf06ab
CoupledApp.py
#!/usr/bin/env python
#
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
#<LicenseText>
#
# CitcomS.py by Eh Tan, Eun-seo Choi, and Pururav Thoutireddy.
# Copyright (C) 2002-2005, California Institute of Technology.
#
# This program 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 2 of the License, or
# (at your option) any later version.
#
# This program 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 this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
#</LicenseText>
#
# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
#
from BaseApplication import BaseApplication
import journal
class CoupledApp(BaseApplication):
def __init__(self, name="CitcomS"):
BaseApplication.__init__(self, name)
self.solver = None
self.solverCommunicator = None
self.myPlus = []
self.remotePlus = []
self.comm = None
self.rank = 0
self.nodes = 0
return
def getNodes(self):
s1 = self.inventory.solver1.inventory.mesher.inventory
nproc1 = s1.nproc_surf * s1.nprocx * s1.nprocy * s1.nprocz
s2 = self.inventory.solver2.inventory.mesher.inventory
nproc2 = s2.nproc_surf * s2.nprocx * s2.nprocy * s2.nprocz
return nproc1 + nproc2
def initialize(self):
layout = self.inventory.layout
layout.initialize(self)
self.findLayout(layout)
self.controller.initialize(self)
return
def findLayout(self, layout):
if layout.comm1:
self.controller = self.inventory.controller1
self.solver = self.inventory.solver1
self.coupler = self.inventory.coupler1
self.solverCommunicator = layout.comm1
self.myPlus = layout.comm1Plus
self.remotePlus = layout.comm2Plus
elif layout.comm2:
self.controller = self.inventory.controller2
self.solver = self.inventory.solver2
self.coupler = self.inventory.coupler2
self.solverCommunicator = layout.comm2
self.myPlus = layout.comm2Plus
self.remotePlus = layout.comm1Plus
else:
import journal
journal.warning(self.name).log("node '%d' is an orphan"
% layout.rank)
self.comm = layout.comm
self.rank = layout.rank
self.nodes = layout.nodes
return
def reportConfiguration(self):
rank = self.comm.rank
if rank != 0:
return
self._info.line("configuration:")
# self._info.line(" properties:")
# self._info.line(" name: %r" % self.inventory.name)
# self._info.line(" full name: %r" % self.inventory.fullname)
self._info.line(" facilities:")
self._info.line(" launcher: %r" % self.inventory.launcher.name)
self._info.line(" solver1: %r" % self.inventory.solver1.name)
self._info.line(" solver2: %r" % self.inventory.solver2.name)
self._info.line(" controller1: %r" % self.inventory.controller1.name)
self._info.line(" controller2: %r" % self.inventory.controller2.name)
self._info.line(" coupler1: %r" % self.inventory.coupler1.name)
self._info.line(" coupler2: %r" % self.inventory.coupler2.name)
self._info.line(" layout: %r" % self.inventory.layout.name)
return
class Inventory(BaseApplication.Inventory):
import pyre.inventory
import Controller
import Solver
import Coupler
import Layout
controller1 = pyre.inventory.facility(name="controller1",
factory=Controller.controller,
args=("ccontroller","controller1"))
controller2 = pyre.inventory.facility(name="controller2",
factory=Controller.controller,
args=("econtroller","controller2"))
coupler1 = pyre.inventory.facility("coupler1",
factory=Coupler.containingcoupler,
args=("ccoupler","coupler1"))
coupler2 = pyre.inventory.facility("coupler2",
factory=Coupler.embeddedcoupler,
args=("ecoupler","coupler2"))
solver1 = pyre.inventory.facility("solver1",
factory=Solver.coupledRegionalSolver,
args=("csolver", "solver1"))
solver2 = pyre.inventory.facility("solver2",
factory=Solver.coupledRegionalSolver,
args=("esolver", "solver2"))
layout = pyre.inventory.facility("layout", factory=Layout.layout)
steps = pyre.inventory.int("steps", default=1)
# version
__id__ = "$Id$"
# End of file