Example #1
0
    def __init__ (self, file, workdir=''):
        """
        Constructor. Initializes the application.

        :param str file: Name of file
        :param str workdir: Optional parameter for working directory
        """
        super(OOFEM, self).__init__(file, workdir)
        dr = liboofem.OOFEMTXTDataReader(file)
        self.oofem_pb = liboofem.InstanciateProblem(dr,liboofem.problemMode._processor,0)
        self.oofem_pb.checkProblemConsistency()
        self.oofem_mesh = self.oofem_pb.giveDomain(1)
        self.mesh = None # MuPIF representation of oofem mesh

        print ("Imported %d node and %d elements" % (self.oofem_mesh.giveNumberOfDofManagers(), self.oofem_mesh.giveNumberOfElements()))
Example #2
0
 def initialize(self,
                file='',
                workdir='',
                metaData={},
                validateMetaData=True,
                **kwargs):
     super(oofem_api, self).initialize(file=file,
                                       workdir=workdir,
                                       metaData=metaData,
                                       validateMetaData=validateMetaData,
                                       **kwargs)
     if self.file != "":
         print("OOFEM reading input file '%s'" % self.file)
         dr = liboofem.OOFEMTXTDataReader(self.file)
         self.transp_model = liboofem.InstanciateProblem(
             dr, liboofem.problemMode._processor, 0)
         self.transp_model.checkProblemConsistency()
         print(self.transp_model.giveClassName())
         active_m_step = self.transp_model.giveMetaStep(1)
         self.transp_model.initMetaStepAttributes(active_m_step)
         self.field_man = self.transp_model.giveContext().giveFieldManager()
from __future__ import print_function
import liboofem
import numpy as np

# Instantiate uniform field
ugrid = liboofem.UniformGridField()
# Set 2D geometry
ugrid.setGeometry(lo=(0, 0), hi=(1, 1), div=(2, 2))
# Set data: div is 2x2, hence 3x3=9 node grid with 9 values
ugrid.setValues([0, .5, 0, .5, 1, .5, 0, .5, .5])
#ugrid.setValues([15,15,15,15,15,15,15,15,15])
print(ugrid.evaluateAtPos((0.5, 0.2)))

dr = liboofem.OOFEMTXTDataReader("tmpatch05.in")
transpModel = liboofem.InstanciateProblem(dr, liboofem.problemMode._processor,
                                          0)
transpModel.checkProblemConsistency()

fieldMan = transpModel.giveContext().giveFieldManager()
timeStep = transpModel.giveCurrentStep()

#eField = transpModel.giveField(liboofem.FieldType.FT_Temperature,timeStep)
#fieldMan.registerField(eField,liboofem.FieldType.FT_TransportProblemUnknowns)

fieldMan.registerField(ugrid, liboofem.FieldType.FT_TemperatureAmbient)

print(fieldMan.giveRegisteredKeys())
print(fieldMan.giveField(liboofem.FieldType.FT_TemperatureAmbient))

transpModel.solveYourself()
transpModel.terminateAnalysis()
Example #4
0
from __future__ import print_function
import liboofem
dr = liboofem.OOFEMTXTDataReader("inputs/tmpatch42.in")
pb = liboofem.InstanciateProblem(dr, liboofem.problemMode._processor, 0)
pb.checkProblemConsistency()
pb.setRenumberFlag()
pb.solveYourself()
pb.terminateAnalysis()
ts = pb.giveCurrentStep()

for t in liboofem.FieldType.FT_Temperature, liboofem.FieldType.FT_HumidityConcentration:
    f = pb.giveField(liboofem.FieldType(t), ts)
    print(ts.targetTime, t, str(f))

#fm=pb.giveContext().giveFieldManager()
#print fm
#print fm.giveRegisteredKeys()
# why is this one None?
#print fm.giveField(liboofem.FieldType.FT_Displacements)
#for i in range(100):
#    print fm.giveField(liboofem.FieldType(i))

print('Number of domains:', pb.giveNumberOfDomains())
# everything starts at 1
do = pb.giveDomain(1)
print('Domain', do)
e = do.giveElement(3)
print('Element type', e.giveGeometryType())
for t in liboofem.FieldType.FT_Temperature, :  #,liboofem.FieldType.FT_HumidityConcentration:
    f = pb.giveField(liboofem.FieldType(t), ts)
    print('Field at time', ts.targetTime, 'type', t, str(f))
Example #5
0
a[1] = 15.0
a[0] = 10.0
print a[0], a[1]
a.printYourself()

c = liboofem.FloatArray(a)
print c[0], c[1]
c.printYourself()

d = liboofem.FloatMatrix(2, 2)
d.beUnitMatrix()
d[0, 1] = 1.0
d.printYourself()

b.beProductOf(d, a)
b.printYourself()

b.resize(4)
b.zero()
ind[0] = 1
ind[1] = 3
b.assemble(a, ind)
b.printYourself()

dr = liboofem.OOFEMTXTDataReader("patch100.in")
problem = liboofem.InstanciateProblem(dr, liboofem.problemMode._processor, 0)
problem.checkProblemConsistency()
problem.setRenumberFlag()
problem.solveYourself()
problem.terminateAnalysis()
Example #6
0
print(a[0], a[1])
a.printYourself()

c = liboofem.FloatArray(a)
print(c[0], c[1])
c.printYourself()

d = liboofem.FloatMatrix(2, 2)
d.beUnitMatrix()
d[0, 1] = 1.0
d.printYourself()

b.beProductOf(d, a)
b.printYourself()

b.resize(4)
b.zero()
ind[0] = 1
ind[1] = 3
b.assemble(a, ind)
b.printYourself()

print("\nSolving inputs/patch100.in")
dr = liboofem.OOFEMTXTDataReader("inputs/patch100.in")
problem = liboofem.InstanciateProblem(dr, liboofem.problemMode._processor, 0)
problem.checkProblemConsistency()
problem.setRenumberFlag()
problem.solveYourself()
problem.terminateAnalysis()
print("\nProblem solved")