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__dictionary(self, *args): if len(args) != 2: raise AssertionError("len( args ) != 1") argc = 0 from Foam.finiteVolume import fvPatch try: fvPatch.ext_isinstance(args[argc]) except TypeError: raise AssertionError("args[ argc ].__class__ != fvPatch") patch = args[argc] 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] self.patch_ = patch from Foam.OpenFOAM import word self.neighbourRegionName_ = word( dict_.lookup(word("neighbourRegionName"))) self.neighbourPatchName_ = word( dict_.lookup(word("neighbourPatchName"))) self.neighbourFieldName_ = word( dict_.lookup(word("neighbourFieldName"))) self.localRegion_ = self.patch_.boundaryMesh().mesh() 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__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh") iF = args[argc] argc += 1 mixedFvPatchScalarField.__init__(self, p, iF) self.refValue().ext_assign(0.0) self.refGrad().ext_assign(0.0) self.valueFraction().ext_assign(0.0) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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] fixedValueFvPatchScalarField.__init__(self, p, iF, dict_) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh") iF = args[argc] fixedGradientFvPatchScalarField.__init__(self, p, iF) from chtMultiRegionFlux.r1_5.coupleManager import coupleManager self.coupleManager_ = coupleManager(p) self.KName_ = word("undefined-K") return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh" ) iF = args[ argc ]; argc += 1 mixedFvPatchScalarField.__init__( self, p, iF ) self.refValue().ext_assign( 0.0 ) self.refGrad().ext_assign( 0.0 ) self.valueFraction().ext_assign( 0.0 ) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh" ) iF = args[ argc ] fixedValueFvPatchScalarField.__init__( p, iF ) from chtMultiRegionFlux.r1_5.coupleManager import coupleManager self.coupleManager_ = coupleManager( p ) self.KName_ = word( "undefined-K" ) return self
def _init__self__fvPatch__DimensionedField_scalar_volMesh__fvPatchFieldMapper( 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__" ) ptf = 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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 ] fixedValueFvPatchScalarField.__init__( self, ptf, p, iF, mapper ) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 ] fixedValueFvPatchScalarField.__init__( self, p, iF, dict_ ) return self
def _init__fvPatch__dictionary( self, *args ): if len ( args ) != 2 : raise AssertionError( "len( args ) != 1" ) argc = 0 from Foam.finiteVolume import fvPatch try: fvPatch.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != fvPatch" ) patch = args [ argc ]; 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 ] self.patch_ = patch from Foam.OpenFOAM import word self.neighbourRegionName_ = word( dict_.lookup( word( "neighbourRegionName" ) ) ) self.neighbourPatchName_ = word( dict_.lookup( word( "neighbourPatchName" ) ) ) self.neighbourFieldName_ = word( dict_.lookup( word( "neighbourFieldName" ) ) ) self.localRegion_ = self.patch_.boundaryMesh().mesh() return self
def _init__self__fvPatch__DimensionedField_scalar_volMesh__fvPatchFieldMapper( 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__" ) ptf = 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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 ] fixedGradientFvPatchScalarField.__init__( self, ptf, p, iF, mapper ) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh" ) iF = args[ argc ]; argc += 1 mixedFvPatchScalarField.__init__( self, p, iF ) from Foam.OpenFOAM import word self.neighbourFieldName_ = word( "undefined-neighbourFieldName" ) self.KName_ = word( "undefined-K" ) self.refValue().ext_assign( 0.0 ) self.refGrad().ext_assign( 0.0 ) self.valueFraction().ext_assign( 1.0 ) self.fixesValue_ = True return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 mixedFvPatchScalarField.__init__(self, p, iF) from Foam.OpenFOAM import word self.neighbourFieldName_ = word( dict_.lookup(word("neighbourFieldName"))) self.KName_ = word(dict_.lookup(word("K"))) from Foam.finiteVolume import fvPatchScalarField from Foam.OpenFOAM import word, scalarField, readBool fvPatchScalarField.ext_assign( self, scalarField(word("value"), dict_, p.size())) if dict_.found(word("refValue")): #Full restart self.refValue().ext_assign( scalarField(word("refValue"), dict_, p.size())) self.refGrad().ext_assign( scalarField(word("refGradient"), dict_, p.size())) self.valueFraction().ext_assign( scalarField(word("valueFraction"), dict_, p.size())) else: # Start from user entered data. Assume fixedValue. self.refValue().ext_assign(self) self.refGrad().ext_assign(0.0) self.valueFraction().ext_assign(1.0) pass return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 mixedFvPatchScalarField.__init__( self, p, iF ) from Foam.OpenFOAM import word self.neighbourFieldName_ = word( dict_.lookup( word( "neighbourFieldName" ) ) ) self.KName_ = word( dict_.lookup( word( "K" ) ) ) from Foam.finiteVolume import fvPatchScalarField from Foam.OpenFOAM import word, scalarField, readBool fvPatchScalarField.ext_assign( self, scalarField( word( "value" ), dict_, p.size() ) ) if dict_.found( word( "refValue" ) ) : #Full restart self.refValue().ext_assign( scalarField( word( "refValue" ), dict_, p.size() ) ) self.refGrad().ext_assign( scalarField( word( "refGradient" ), dict_, p.size() ) ) self.valueFraction().ext_assign( scalarField( word( "valueFraction" ), dict_, p.size() ) ) self.fixesValue_ = readBool( dict_.lookup( word( "fixesValue" ) ) ) else: # Start from user entered data. Assume fixedValue. self.refValue().ext_assign( self ) self.refGrad().ext_assign( 0.0 ) self.valueFraction().ext_assign( 1.0 ) self.fixesValue_ = True pass return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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] fixedGradientFvPatchScalarField.__init__(self, p, iF) from chtMultiRegionFlux.r1_5.coupleManager import coupleManager self.coupleManager_ = coupleManager(p, dict_) from Foam.OpenFOAM import word self.KName_ = word(dict_.lookup(word("K"))) if dict_.found(word("value")): from Foam.finiteVolume import fvPatchScalarField from Foam.OpenFOAM import scalarField fvPatchScalarField.ext_assign( self, scalarField(word("value"), dict_, p.size())) pass else: self.evaluate() pass 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_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError("args[ argc ].__class__ != DimensionedField_scalar_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] fixedGradientFvPatchScalarField.__init__(self, p, iF) if dict_.found(word("gradient")): from Foam.OpenFOAM import scalarField self.gradient().ext_assign(scalarField(word("gradient"), dict_, p.size())) fixedGradientFvPatchScalarField.updateCoeffs(self) fixedGradientFvPatchScalarField.evaluate() pass else: self.ext_assign(self.patchInternalField()) self.gradient().ext_assign(0.0) pass 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__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 mixedFvPatchScalarField.__init__(self, p, iF) if dict_.found(word("value")): self.ext_assign(scalarField(word("value"), dict_, p.size())) pass else: self.ext_assign(self.patchInternalField()) pass self.refValue().ext_assign(self) self.refGrad().ext_assign(0.0) self.valueFraction().ext_assign(0.0) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 ] fixedValueFvPatchScalarField.__init__( self, p, iF ) from chtMultiRegionFlux.r1_5.coupleManager import coupleManager self.coupleManager_ = coupleManager( p, dict_ ) from Foam.OpenFOAM import word self.KName_ = word( dict_.lookup( word( "K" ) ) ) if dict_.found( word( "value" ) ): from Foam.finiteVolume import fvPatchScalarField from Foam.OpenFOAM import scalarField fvPatchScalarField.ext_assign( self, scalarField( word( "value" ), dict_, p.size() ) ) pass else: self.evaluate() pass return self
def _init__fvPatch( self, *args ): if len ( args) != 1 : raise AssertionError( "len( args ) != 1" ) argc = 0 from Foam.finiteVolume import fvPatch try: fvPatch.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != fvPatch" ) patch = args[ argc ] self.patch_ = patch from Foam.OpenFOAM import word self.neighbourRegionName_ = word( "undefined-neighbourRegionName" ) self.neighbourPatchName_ = word( "undefined-neighbourPatchName" ) self.neighbourFieldName_ = word( "undefined-neighbourFieldName" ) self.localRegion_ = self.patch_.boundaryMesh().mesh() return self
def _init__fvPatch(self, *args): if len(args) != 1: raise AssertionError("len( args ) != 1") argc = 0 from Foam.finiteVolume import fvPatch try: fvPatch.ext_isinstance(args[argc]) except TypeError: raise AssertionError("args[ argc ].__class__ != fvPatch") patch = args[argc] self.patch_ = patch from Foam.OpenFOAM import word self.neighbourRegionName_ = word("undefined-neighbourRegionName") self.neighbourPatchName_ = word("undefined-neighbourPatchName") self.neighbourFieldName_ = word("undefined-neighbourFieldName") self.localRegion_ = self.patch_.boundaryMesh().mesh() 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_scalar_volMesh__fvPatchFieldMapper( self, *args): if len(args) != 3: raise AssertionError("len( args ) != 3") argc = 0 if args[argc].__class__ != self.__class__: raise AssertionError("args[ argc ].__class__ != self.__class__") ptf = 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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh") iF = args[argc] argc += 1 print "in the constructor's" from Foam.finiteVolume import fvPatchFieldMapper try: fvPatchFieldMapper.ext_isinstance(args[argc]) except TypeError: raise AssertionError( "args[ argc ].__class__ != fvPatchFieldMapper") mapper = args[argc] fixedValueFvPatchScalarField.__init__(self, ptf, p, iF, mapper) self.coupleManager_ = ptf.coupleManager_ self.KName_ = ptf.KName_ return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_volMesh" ) iF = args[ argc ] fixedGradientFvPatchScalarField.__init__( self, p, iF ) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 ] fixedGradientFvPatchScalarField.__init__( self, p, iF ) if dict_.found( word( "gradient" ) ): from Foam.OpenFOAM import scalarField self.gradient().ext_assign( scalarField( word( "gradient" ) , dict_, p.size() ) ) fixedGradientFvPatchScalarField.updateCoeffs( self ) fixedGradientFvPatchScalarField.evaluate() pass else: self.ext_assign( self.patchInternalField() ) self.gradient().ext_assign( 0.0 ) pass 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_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance( args[ argc ] ) except TypeError: raise AssertionError( "args[ argc ].__class__ != DimensionedField_scalar_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 mixedFvPatchScalarField.__init__( self, p, iF ) if dict_.found( word( "value" ) ): self.ext_assign( scalarField( word( "value" ), dict_, p.size() ) ) pass else: self.ext_assign( self.patchInternalField() ) pass self.refValue().ext_assign( self ) self.refGrad().ext_assign( 0.0 ) self.valueFraction().ext_assign( 0.0 ) return self
def _init__fvPatch__DimensionedField_scalar_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_scalar_volMesh try: DimensionedField_scalar_volMesh.ext_isinstance(args[argc]) except TypeError: raise AssertionError("args[ argc ].__class__ != DimensionedField_scalar_volMesh") iF = args[argc] fixedGradientFvPatchScalarField.__init__(self, p, iF) return self