def _init__fvPatch__DimensionedField_vector_volMesh(self, *args):
if len(args) != 2:
raise AssertionError("len( args ) != 2")
argc = 0
from Foam.finiteVolume import fvPatch
try:
fvPatch.ext_isinstance(args[argc])
except TypeError:
raise AssertionError("args[ argc ].__class__ != fvPatch")
p = args[argc]
argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance(args[argc])
except TypeError:
raise AssertionError(
"args[ argc ].__class__ != DimensionedField_Vector_volMesh")
iF = args[argc]
argc += 1
fixedGradientFvPatchVectorField.__init__(self, p, iF)
from Foam.OpenFOAM import word
from Foam.OpenFOAM import vectorField, vector, scalarField
self.UName_ = word("undefined")
self.rheologyName_ = word("undefined")
self.traction_ = vectorField(p.size(), vector.zero)
self.pressure_ = scalarField(p.size(), 0.0)
return self
def _init__fvPatch__DimensionedField_vector_volMesh( self, *args ) :
if len( args ) != 2 :
raise AssertionError( "len( args ) != 2" )
argc = 0
from Foam.finiteVolume import fvPatch
try:
fvPatch.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != fvPatch" )
p = args[ argc ]; argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != DimensionedField_Vector_volMesh" )
iF = args[ argc ]; argc += 1
fixedGradientFvPatchVectorField.__init__( self, p, iF )
from Foam.OpenFOAM import word
from Foam.OpenFOAM import vectorField, vector, scalarField
self.UName_ = word( "undefined" )
self.rheologyName_ = word( "undefined" )
self.traction_ = vectorField( p.size(), vector.zero)
self.pressure_ = scalarField(p.size(), 0.0)
return self
def _init__self__DimensionedField_vector_volMesh(self, *args):
if len(args) != 2:
raise AssertionError("len( args ) != 2")
argc = 0
if args[argc].__class__ != self.__class__:
raise AssertionError("args[ argc ].__class__ != self.__class__")
tdpvf = args[argc]
argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance(args[argc])
except TypeError:
raise AssertionError(
"args[ argc ].__class__ != DimensionedField_Vector_volMesh")
iF = args[argc]
argc += 1
fixedGradientFvPatchVectorField.__init__(self, tdpvf, iF)
from Foam.OpenFOAM import vectorField, scalarField
self.UName_ = tdpvf.UName_
self.rheologyName_ = tdpvf.rheologyName_
self.traction_ = tdpvf.traction_
self.pressure_ = tdpvf.pressure_
return self
def _init__self__DimensionedField_vector_volMesh( self, *args ) :
if len( args ) != 2 :
raise AssertionError( "len( args ) != 2" )
argc = 0
if args[ argc ].__class__ != self.__class__ :
raise AssertionError( "args[ argc ].__class__ != self.__class__" )
tdpvf = args[ argc ]; argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != DimensionedField_Vector_volMesh" )
iF = args[ argc ]; argc += 1
fixedGradientFvPatchVectorField.__init__( self, tdpvf, iF )
from Foam.OpenFOAM import vectorField, scalarField
self.UName_ = tdpvf.UName_
self.rheologyName_ = tdpvf.rheologyName_
self.traction_ = tdpvf.traction_
self.pressure_ = tdpvf.pressure_
return self
def _init__self__fvPatch__DimensionedField_vector_volMesh__mapper(
self, *args):
if len(args) != 4:
raise AssertionError("len( args ) != 4")
argc = 0
if args[argc].__class__ != self.__class__:
raise AssertionError("args[ argc ].__class__ != self.__class__")
tdpvf = args[argc]
argc += 1
from Foam.finiteVolume import fvPatch
try:
fvPatch.ext_isinstance(args[argc])
except TypeError:
raise AssertionError("args[ argc ].__class__ != fvPatch")
p = args[argc]
argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance(args[argc])
except TypeError:
raise AssertionError(
"args[ argc ].__class__ != DimensionedField_Vector_volMesh")
iF = args[argc]
argc += 1
from Foam.finiteVolume import fvPatchFieldMapper
try:
fvPatchFieldMapper.ext_isinstance(args[argc])
except TypeError:
raise AssertionError(
"args[ argc ].__class__ != fvPatchFieldMapper")
mapper = args[argc]
argc += 1
fixedGradientFvPatchVectorField.__init__(self, tdpvf, p, iF, mapper)
from Foam.OpenFOAM import word
from Foam.OpenFOAM import vectorField, scalarField
self.UName_ = tdpvf.UName_
self.rheologyName_ = tdpvf.rheologyName_
self.traction_ = vectorField(tdpvf.traction_, mapper)
self.pressure_ = scalarField(tdpvf.pressure_, mapper)
return self
def _init__fvPatch__DimensionedField_vector_volMesh__dictionary(
self, *args):
if len(args) != 3:
raise AssertionError("len( args ) != 3")
argc = 0
from Foam.finiteVolume import fvPatch
try:
fvPatch.ext_isinstance(args[argc])
except TypeError:
raise AssertionError("args[ argc ].__class__ != fvPatch")
p = args[argc]
argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance(args[argc])
except TypeError:
raise AssertionError(
"args[ argc ].__class__ != DimensionedField_Vector_volMesh")
iF = args[argc]
argc += 1
from Foam.OpenFOAM import dictionary
try:
dictionary.ext_isinstance(args[argc])
except TypeError:
raise AssertionError("args[ argc ].__class__ != dictionary")
dict_ = args[argc]
argc += 1
fixedGradientFvPatchVectorField.__init__(self, p, iF)
from Foam.OpenFOAM import word
from Foam.OpenFOAM import vectorField, vector, scalarField
self.UName_ = word(dict_.lookup(word("U")))
self.rheologyName_ = word(dict_.lookup(word("rheology")))
self.traction_ = vectorField(word("traction"), dict_, p.size())
self.pressure_ = scalarField(word("pressure"), dict_, p.size())
self.ext_assign(self.patchInternalField())
self.gradient().ext_assign(vector.zero)
ext_Info() << "rf: " << self.rheologyName_ << nl
return self
def _init__self( self, *args ) :
if len( args ) != 1 :
raise AssertionError( "len( args ) != 1" )
argc = 0
if args[ argc ].__class__ != self.__class__ :
raise AssertionError( "args[ argc ].__class__ != self.__class__" )
tdpvf = args[ argc ]; argc += 1
fixedGradientFvPatchVectorField.__init__( self, tdpvf )
from Foam.OpenFOAM import vectorField, scalarField
self.UName_ = tdpvf.UName_
self.rheologyName_ = tdpvf.rheologyName_
self.traction_ = tdpvf.traction_
self.pressure_ = tdpvf.pressure_
return self
def _init__self(self, *args):
if len(args) != 1:
raise AssertionError("len( args ) != 1")
argc = 0
if args[argc].__class__ != self.__class__:
raise AssertionError("args[ argc ].__class__ != self.__class__")
tdpvf = args[argc]
argc += 1
fixedGradientFvPatchVectorField.__init__(self, tdpvf)
from Foam.OpenFOAM import vectorField, scalarField
self.UName_ = tdpvf.UName_
self.rheologyName_ = tdpvf.rheologyName_
self.traction_ = tdpvf.traction_
self.pressure_ = tdpvf.pressure_
return self
def _init__fvPatch__DimensionedField_vector_volMesh__dictionary( self, *args ) :
if len( args ) != 3 :
raise AssertionError( "len( args ) != 3" )
argc = 0
from Foam.finiteVolume import fvPatch
try:
fvPatch.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != fvPatch" )
p = args[ argc ]; argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != DimensionedField_Vector_volMesh" )
iF = args[ argc ]; argc += 1
from Foam.OpenFOAM import dictionary
try:
dictionary.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != dictionary" )
dict_ = args[ argc ]; argc += 1
fixedGradientFvPatchVectorField.__init__( self, p, iF )
from Foam.OpenFOAM import word
from Foam.OpenFOAM import vectorField, vector, scalarField
self.UName_ = word( dict_.lookup( word( "U" ) ) )
self.rheologyName_ = word( dict_.lookup( word( "rheology" ) ) )
self.traction_ = vectorField( word( "traction" ) , dict_, p.size() )
self.pressure_ = scalarField( word( "pressure" ), dict_, p.size() )
self.ext_assign( self.patchInternalField() )
self.gradient().ext_assign( vector.zero )
ext_Info() << "rf: " << self.rheologyName_ << nl
return self
def _init__self__fvPatch__DimensionedField_vector_volMesh__mapper( self, *args ) :
if len( args ) != 4 :
raise AssertionError( "len( args ) != 4" )
argc = 0
if args[ argc ].__class__ != self.__class__ :
raise AssertionError( "args[ argc ].__class__ != self.__class__" )
tdpvf = args[ argc ]; argc += 1
from Foam.finiteVolume import fvPatch
try:
fvPatch.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != fvPatch" )
p = args[ argc ]; argc += 1
from Foam.finiteVolume import DimensionedField_vector_volMesh
try:
DimensionedField_vector_volMesh.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != DimensionedField_Vector_volMesh" )
iF = args[ argc ]; argc += 1
from Foam.finiteVolume import fvPatchFieldMapper
try:
fvPatchFieldMapper.ext_isinstance( args[ argc ] )
except TypeError:
raise AssertionError( "args[ argc ].__class__ != fvPatchFieldMapper" )
mapper = args[ argc ]; argc += 1
fixedGradientFvPatchVectorField.__init__( self, tdpvf, p, iF, mapper )
from Foam.OpenFOAM import word
from Foam.OpenFOAM import vectorField, scalarField
self.UName_ = tdpvf.UName_
self.rheologyName_ = tdpvf.rheologyName_
self.traction_ = vectorField( tdpvf.traction_ , mapper )
self.pressure_ = scalarField( tdpvf.pressure_ , mapper )
return self
