Constructs on-the-fly a new boundary condition (derived from fixedValuePointPatchField) which is then used to evaluate. More...

#include <codedFixedValuePointPatchField.H>

Inheritance diagram for codedFixedValuePointPatchField< Type >:

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Collaboration diagram for codedFixedValuePointPatchField< Type >:

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Public Member Functions
	TypeName ("codedFixedValue")
	Runtime type information.
	codedFixedValuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &)
	Construct from patch and internal field.
	codedFixedValuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &, const dictionary &)
	Construct from patch, internal field and dictionary.
	codedFixedValuePointPatchField (const codedFixedValuePointPatchField< Type > &, const pointPatch &, const DimensionedField< Type, pointMesh > &, const pointPatchFieldMapper &)
	Construct by mapping given codedFixedValuePointPatchField.
	codedFixedValuePointPatchField (const codedFixedValuePointPatchField< Type > &)
	Construct as copy.
	codedFixedValuePointPatchField (const codedFixedValuePointPatchField< Type > &, const DimensionedField< Type, pointMesh > &)
	Construct as copy setting internal field reference.
virtual autoPtr< pointPatchField< Type > >	clone () const
	Return a clone.
virtual autoPtr< pointPatchField< Type > >	clone (const DimensionedField< Type, pointMesh > &iF) const
	Construct and return a clone setting internal field reference.
const pointPatchField< Type > &	redirectPatchField () const
	Get reference to the underlying patch.
virtual void	updateCoeffs ()
	Update the coefficients associated with the patch field.
virtual void	evaluate (const Pstream::commsTypes commsType=Pstream::commsTypes::buffered)
	Evaluate the patch field, sets updated() to false.
virtual void	write (Ostream &) const
	Write.
Public Member Functions inherited from fixedValuePointPatchField< Type >
	TypeName ("fixedValue")
	Runtime type information.
	fixedValuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &)
	Construct from patch and internal field.
	fixedValuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &, const Type &value)
	Construct from patch, internal field and value.
	fixedValuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &, const dictionary &, IOobjectOption::readOption requireValue=IOobjectOption::MUST_READ)
	Construct from patch, internal field and dictionary.
	fixedValuePointPatchField (const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const dictionary &dict, const bool needValue)
	Compatibility. Prefer with readOption.
	fixedValuePointPatchField (const fixedValuePointPatchField< Type > &, const pointPatch &, const DimensionedField< Type, pointMesh > &, const pointPatchFieldMapper &)
	Construct by mapping given patch field onto a new patch.
	fixedValuePointPatchField (const fixedValuePointPatchField< Type > &pfld, const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const Type &value)
	Copy construct onto patch with internal field reference and specified value.
	fixedValuePointPatchField (const fixedValuePointPatchField< Type > &pfld, const DimensionedField< Type, pointMesh > &iF)
	Copy construct with internal field reference.
	fixedValuePointPatchField (const fixedValuePointPatchField< Type > &pfld)
	Copy construct.
virtual bool	fixesValue () const
	True: this patch field fixes a value.
virtual bool	assignable () const
	False: this patch field is not altered by assignment.
virtual void	operator= (const Field< Type > &)
virtual void	operator= (const Type &)
Public Member Functions inherited from valuePointPatchField< Type >
	TypeName ("value")
	Declare type-name, virtual type (with debug switch).
	valuePointPatchField (const valuePointPatchField &)=default
	Copy construct.
	valuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &)
	Construct from patch and internal field.
	valuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &, const Type &value)
	Construct from patch, internal field and value.
	valuePointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &, const dictionary &dict, IOobjectOption::readOption requireValue=IOobjectOption::MUST_READ)
	Construct from patch, internal field and dictionary.
	valuePointPatchField (const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const dictionary &dict, const bool needValue)
	Construct, forwarding to readOption variant.
	valuePointPatchField (const valuePointPatchField< Type > &, const pointPatch &, const DimensionedField< Type, pointMesh > &, const pointPatchFieldMapper &)
	Construct by mapping given patch field onto a new patch.
	valuePointPatchField (const valuePointPatchField< Type > &pfld, const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const Type &value)
	Copy construct onto patch with internal field reference and specified value.
	valuePointPatchField (const valuePointPatchField< Type > &pfld, const DimensionedField< Type, pointMesh > &iF)
	Copy construct with internal field reference.
label	size () const noexcept
	Return the field size.
virtual void	autoMap (const pointPatchFieldMapper &)
	Map (and resize as needed) from self given a mapping object.
virtual void	rmap (const pointPatchField< Type > &, const labelList &)
	Reverse map the given PointPatchField onto.
virtual void	operator= (const valuePointPatchField< Type > &)
virtual void	operator= (const pointPatchField< Type > &)
virtual void	operator== (const valuePointPatchField< Type > &)
virtual void	operator== (const pointPatchField< Type > &)
virtual void	operator== (const Field< Type > &)
virtual void	operator== (const Type &)
bool	operator!= (const valuePointPatchField< Type > &) const =delete
bool	operator!= (const pointPatchField< Type > &) const =delete
bool	operator!= (const Field< Type > &) const =delete
bool	operator!= (const Type &) const =delete
Public Member Functions inherited from pointPatchField< Type >
	declareRunTimeSelectionTable (autoPtr, pointPatchField, patch,(const pointPatch &p, const DimensionedField< Type, pointMesh > &iF),(p, iF))
	declareRunTimeSelectionTable (autoPtr, pointPatchField, patchMapper,(const pointPatchField< Type > &ptf, const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const pointPatchFieldMapper &m),(dynamic_cast< const pointPatchFieldType & >(ptf), p, iF, m))
	declareRunTimeSelectionTable (autoPtr, pointPatchField, dictionary,(const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const dictionary &dict),(p, iF, dict))
	pointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &)
	Construct from patch and internal field.
	pointPatchField (const pointPatch &, const DimensionedField< Type, pointMesh > &, const dictionary &)
	Construct from patch, internal field and dictionary.
	pointPatchField (const pointPatchField< Type > &, const pointPatch &, const DimensionedField< Type, pointMesh > &, const pointPatchFieldMapper &)
	Construct by mapping given patch field onto a new patch.
	pointPatchField (const pointPatchField< Type > &pfld, const pointPatch &p, const DimensionedField< Type, pointMesh > &iF, const Type &value)
	Copy construct onto a new patch with (unused) value.
	pointPatchField (const pointPatchField< Type > &pfld, const DimensionedField< Type, pointMesh > &iF)
	Copy construct with internal field reference.
	pointPatchField (const pointPatchField< Type > &pfld)
	Copy construct.
virtual	~pointPatchField ()=default
	Destructor.
label	size () const noexcept
	Return the patch size.
const DimensionedField< Type, pointMesh > &	internalField () const noexcept
	Return const-reference to the dimensioned internal field.
const Field< Type > &	primitiveField () const noexcept
	Return const-reference to the internal field values.
template<class Type1>
void	patchInternalField (const UList< Type1 > &internalData, const labelUList &addressing, UList< Type1 > &pfld) const
	Extract field using specified addressing.
template<class Type1>
tmp< Field< Type1 > >	patchInternalField (const UList< Type1 > &internalData, const labelUList &addressing) const
	Return field created from selected internal field values given internal field reference.
template<class Type1>
tmp< Field< Type1 > >	patchInternalField (const UList< Type1 > &internalData) const
	Return field created from appropriate internal field values given internal field reference.
tmp< Field< Type > >	patchInternalField () const
	Return field created from appropriate internal field values.
template<class Type1>
void	addToInternalField (Field< Type1 > &iF, const Field< Type1 > &pF) const
	Given the internal field and a patch field, add the patch field to the internal field.
template<class Type1>
void	addToInternalField (Field< Type1 > &iF, const Field< Type1 > &pF, const labelUList &points) const
	Given the internal field and a patch field, add selected elements of the patch field to the internal field.
template<class Type1>
void	setInInternalField (Field< Type1 > &iF, const Field< Type1 > &pF, const labelUList &meshPoints) const
	Given the internal field and a patch field, set the patch field in the internal field.
template<class Type1>
void	setInInternalField (Field< Type1 > &iF, const Field< Type1 > &pF) const
	Given the internal field and a patch field, set the patch field in the internal field.
virtual void	initEvaluate (const Pstream::commsTypes commsType=Pstream::commsTypes::buffered)
	Initialise evaluation of the patch field (do nothing).
virtual void	initEvaluateLocal (const Pstream::commsTypes commsType=Pstream::commsTypes::buffered)
	Initialise the evaluation of the patch field after a local operation.
virtual void	evaluateLocal (const Pstream::commsTypes commsType=Pstream::commsTypes::buffered)
	Evaluate the patch field after a local operation (e.g. *=).
virtual void	operator+= (const pointPatchField< Type > &)
virtual void	operator-= (const pointPatchField< Type > &)
virtual void	operator*= (const pointPatchField< scalar > &)
virtual void	operator/= (const pointPatchField< scalar > &)
virtual void	operator+= (const Field< Type > &)
virtual void	operator-= (const Field< Type > &)
virtual void	operator*= (const Field< scalar > &)
virtual void	operator/= (const Field< scalar > &)
virtual void	operator+= (const Type &)
virtual void	operator-= (const Type &)
virtual void	operator*= (const scalar)
virtual void	operator/= (const scalar)
bool	operator!= (const pointPatchField< Type > &) const =delete
bool	operator!= (const Field< Type > &) const =delete
bool	operator!= (const Type &) const =delete
void	negate ()
	Negate the field inplace. Dummy placeholder for FieldField.
void	normalise ()
	Normalise the field inplace. Dummy placeholder for FieldField.
template<class AnyType>
Foam::autoPtr< Foam::pointPatchField< Type > >	NewCalculatedType (const pointPatchField< AnyType > &pf)
template<class Type1>
Foam::tmp< Foam::Field< Type1 > >	patchInternalField (const UList< Type1 > &internalData, const labelUList &addressing) const
template<class Type1>
Foam::tmp< Foam::Field< Type1 > >	patchInternalField (const UList< Type1 > &internalData) const
Public Member Functions inherited from pointPatchFieldBase
	TypeName ("pointPatchField")
	Runtime type information.
	pointPatchFieldBase (const pointPatch &p)
	Construct from patch.
	pointPatchFieldBase (const pointPatch &p, const word &patchType)
	Construct from patch and patch type.
	pointPatchFieldBase (const pointPatch &p, const dictionary &dict)
	Construct from patch and dictionary.
	pointPatchFieldBase (const pointPatchFieldBase &, const pointPatch &p)
	Copy construct with new patch.
	pointPatchFieldBase (const pointPatchFieldBase &)
	Copy construct.
virtual	~pointPatchFieldBase ()=default
	Destructor.
virtual bool	coupled () const
	True if the patch field is coupled.
virtual const word &	constraintType () const
	The constraint type the pointPatchField implements.
const objectRegistry &	db () const
	The associated objectRegistry.
const pointPatch &	patch () const noexcept
	Return the patch.
const word &	patchType () const noexcept
	The optional patch type.
word &	patchType () noexcept
	The optional patch type.
virtual bool	constraintOverride () const
	True if the type does not correspond to the constraint type.
bool	updated () const noexcept
	True if the boundary condition has already been updated.
void	setUpdated (bool state) noexcept
	Set updated state.
bool	manipulatedMatrix () const noexcept
	True if the matrix has already been manipulated. Currently always false for pointPatchField.
void	setManipulated (bool state) noexcept
	Set matrix manipulated state. Currently a no-op for pointPatchField.
void	checkPatch (const pointPatchFieldBase &rhs) const
	Check that patches are identical.
Public Member Functions inherited from Field< Type >
constexpr	Field () noexcept
	Default construct.
	Field (const label len)
	Construct given size.
	Field (const label len, const Type &val)
	Construct given size and initial value.
	Field (const label len, Foam::zero)
	Construct given size and initial values of zero.
	Field (Foam::one, const Type &val)
	Construct with length=1, copying the value as the only content.
	Field (Foam::one, Type &&val)
	Construct with length=1, moving the value as the only content.
	Field (Foam::one, Foam::zero)
	Construct with length=1, initializing content to zero.
	Field (const Field< Type > &fld)
	Copy construct.
	Field (const UList< Type > &list)
	Copy construct from UList<Type>.
template<class Addr>
	Field (const IndirectListBase< Type, Addr > &list)
	Copy construct from IndirectList.
	Field (Field< Type > &&fld) noexcept
	Move construct from Field.
	Field (List< Type > &&list) noexcept
	Move construct from List.
template<int SizeMin>
	Field (DynamicList< Type, SizeMin > &&list)
	Move construct from DynamicList.
	Field (const UList< Type > &mapF, const labelUList &mapAddressing)
	Construct by 1 to 1 mapping from the given field.
	Field (const tmp< Field< Type > > &tmapF, const labelUList &mapAddressing)
	Construct by 1 to 1 mapping from the given tmp field.
	Field (const UList< Type > &mapF, const labelListList &mapAddressing, const scalarListList &weights)
	Construct by interpolative mapping from the given field.
	Field (const tmp< Field< Type > > &tmapF, const labelListList &mapAddressing, const scalarListList &weights)
	Construct by interpolative mapping from the given tmp field.
	Field (const UList< Type > &mapF, const FieldMapper &map, const bool applyFlip=true)
	Construct by mapping from the given field.
	Field (const UList< Type > &mapF, const FieldMapper &map, const Type &defaultValue, const bool applyFlip=true)
	Construct by mapping from the given field.
	Field (const UList< Type > &mapF, const FieldMapper &map, const UList< Type > &defaultValues, const bool applyFlip=true)
	Construct by mapping from the given field.
	Field (const tmp< Field< Type > > &tmapF, const FieldMapper &map, const bool applyFlip=true)
	Construct by mapping from the given tmp field.
	Field (const tmp< Field< Type > > &tmapF, const FieldMapper &map, const Type &defaultValue, const bool applyFlip=true)
	Construct by mapping from the given tmp field. Uses supplied uniform value for unmapped items.
	Field (const tmp< Field< Type > > &tmapF, const FieldMapper &map, const UList< Type > &defaultValues, const bool applyFlip=true)
	Construct by mapping from the given tmp field. Uses supplied values for unmapped items.
	Field (Field< Type > &fld, bool reuse)
	Copy construct or re-use as specified.
	Field (const tmp< Field< Type > > &tfld)
	Copy or move construct from tmp.
	Field (Istream &is)
	Construct from Istream.
	Field (const entry &e, const label len)
	Construct from a dictionary (primitive) entry.
	Field (const word &key, const dictionary &dict, const label len, IOobjectOption::readOption readOpt=IOobjectOption::MUST_READ)
	Lookup of a primitive dictionary entry by (literal) name and assign its contents to this. The behaviour largely as described in assign():
tmp< Field< Type > >	clone () const
	Clone.
void	assign (const entry &e, const label len)
	Assign from a primitive dictionary entry with the following behaviour:
bool	assign (const word &key, const dictionary &dict, const label len, IOobjectOption::readOption readOpt=IOobjectOption::MUST_READ)
	Lookup a primitive dictionary entry by (literal) name and assign its contents to this (behaviour as described above).
void	map (const UList< Type > &mapF, const labelUList &mapAddressing)
	1 to 1 map from the given field
void	map (const tmp< Field< Type > > &tmapF, const labelUList &mapAddressing)
	1 to 1 map from the given tmp field
void	map (const UList< Type > &mapF, const labelListList &mapAddressing, const scalarListList &weights)
	Interpolative map from the given field.
void	map (const tmp< Field< Type > > &tmapF, const labelListList &mapAddressing, const scalarListList &weights)
	Interpolative map from the given tmp field.
void	map (const UList< Type > &mapF, const FieldMapper &map, const bool applyFlip=true)
	Map from the given field.
void	map (const tmp< Field< Type > > &tmapF, const FieldMapper &map, const bool applyFlip=true)
	Map from the given tmp field.
void	autoMap (const FieldMapper &map, const bool applyFlip=true)
	Map from self.
void	rmap (const UList< Type > &mapF, const labelUList &mapAddressing)
	1 to 1 reverse-map from the given field
void	rmap (const tmp< Field< Type > > &tmapF, const labelUList &mapAddressing)
	1 to 1 reverse-map from the given tmp field
void	rmap (const UList< Type > &mapF, const labelUList &mapAddressing, const UList< scalar > &weights)
	Interpolative reverse map from the given field.
void	rmap (const tmp< Field< Type > > &tmapF, const labelUList &mapAddressing, const UList< scalar > &weights)
	Interpolative reverse map from the given tmp field.
void	negate ()
	Inplace negate this field (negative).
void	normalise ()
	Inplace normalise this field. Generally a no-op except for vector fields.
tmp< Field< cmptType > >	component (const direction) const
	Return a component field of the field.
void	replace (const direction, const UList< cmptType > &)
	Replace a component field of the field.
void	replace (const direction, const tmp< Field< cmptType > > &)
	Replace a component field of the field.
void	replace (const direction, const cmptType &)
	Replace a component field of the field.
void	clamp_min (const Type &lower)
	Impose lower (floor) clamp on the field values (in-place).
void	clamp_min (const UList< Type > &lower)
	Impose lower (floor) clamp on the field values (in-place).
void	clamp_max (const Type &upper)
	Impose upper (ceiling) clamp on the field values (in-place).
void	clamp_max (const UList< Type > &upper)
	Impose upper (ceiling) clamp on the field values (in-place).
void	clamp_range (const Type &lower, const Type &upper)
	Clamp field values (in-place) to the specified range.
void	clamp_range (const MinMax< Type > &range)
	Clamp field values (in-place) to the specified range.
template<class VSForm>
VSForm	block (const label start) const
tmp< Field< Type > >	T () const
	Return the field transpose (only defined for second rank tensors).
void	writeEntry (const word &keyword, Ostream &os) const
	Write the field as a dictionary entry.
SubField< Type >	slice (const label pos, label len=-1)
	Return SubField slice (non-const access) - no range checking.
const SubField< Type >	slice (const label pos, label len=-1) const
	Return SubField slice (const access) - no range checking.
SubField< Type >	slice (const labelRange &range)
	Return SubField slice (non-const access) - with range checking.
const SubField< Type >	slice (const labelRange &range) const
	Return SubField slice (const access) - with range checking.
void	operator= (const Field< Type > &)
	Copy assignment.
void	operator= (const tmp< Field< Type > > &)
void	operator= (const UList< Type > &rhs)
void	operator= (const SubField< Type > &rhs)
template<class Addr>
void	operator= (const IndirectListBase< Type, Addr > &rhs)
	Copy assign from IndirectList.
void	operator= (Field< Type > &&rhs)
	Move assignment.
void	operator= (List< Type > &&rhs)
template<int SizeMin>
void	operator= (DynamicList< Type, SizeMin > &&rhs)
void	operator= (const Type &val)
	Assign entries to the given value.
void	operator= (Foam::zero)
	Assign entries to zero.
template<class Form, class Cmpt, direction nCmpt>
void	operator= (const VectorSpace< Form, Cmpt, nCmpt > &)
void	operator+= (const UList< Type > &)
void	operator+= (const tmp< Field< Type > > &)
void	operator-= (const UList< Type > &)
void	operator-= (const tmp< Field< Type > > &)
void	operator*= (const UList< scalar > &)
void	operator*= (const tmp< Field< scalar > > &)
void	operator/= (const UList< scalar > &)
void	operator/= (const tmp< Field< scalar > > &)
void	operator+= (const Type &)
void	operator-= (const Type &)
void	operator*= (const scalar &)
void	operator/= (const scalar &)
template<typename E>
	Field (const Expression::ListExpression< E > &expr)
	Construct from value expression.
template<typename E>
void	operator= (const Expression::ListExpression< E > &expr)
	Assign values from expression.
template<class Type>
void	operator= (const tmp< Field > &rhs)
void	normalise ()
void	normalise ()
void	normalise ()
	Inplace normalise (float) vector field.
void	normalise ()
	Inplace normalise (double) vector field.
Public Member Functions inherited from FieldBase
constexpr	FieldBase () noexcept
	Default construct.
Public Member Functions inherited from refCount
constexpr	refCount () noexcept
	Default construct, initializing count to 0.
int	use_count () const noexcept
	Return the current reference count.
bool	unique () const noexcept
	Return true if the reference count is zero.
void	operator++ () noexcept
	Increment the reference count.
void	operator++ (int) noexcept
	Increment the reference count.
void	operator-- () noexcept
	Decrement the reference count.
void	operator-- (int) noexcept
	Decrement the reference count.
Public Member Functions inherited from List< Type >
constexpr	List () noexcept
	Default construct.
	List (const label len)
	Construct with given size.
	List (const label len, const Type &val)
	Construct with given size and value for all elements.
	List (const label len, Foam::zero)
	Construct with given size initializing all elements to zero.
	List (Foam::one, const Type &val)
	Construct with length=1, copying the value as the only content.
	List (Foam::one, Type &&val)
	Construct with length=1, moving the value as the only content.
	List (Foam::one, Foam::zero)
	Construct with length=1, initializing content to zero.
	List (const List< Type > &list)
	Copy construct from list.
	List (const UList< Type > &list)
	Copy construct contents from list.
	List (List< Type > &list, bool reuse)
	Construct as copy or re-use as specified.
	List (const UList< Type > &list, const labelUList &indices)
	Copy construct subset of list.
	List (const UList< Type > &list, const FixedList< label, N > &indices)
	Copy construct subset of list.
	List (const FixedList< Type, N > &list)
	Construct as copy of FixedList<T, N>.
	List (const UPtrList< Type > &list)
	Construct as copy of UPtrList<T> content.
	List (const IndirectListBase< Type, Addr > &list)
	Construct as copy of IndirectList contents.
	List (std::initializer_list< Type > list)
	Construct from an initializer list.
	List (List< Type > &&list) noexcept
	Move construct from List.
	List (DynamicList< Type, SizeMin > &&list)
	Move construct from DynamicList.
	List (Istream &is)
	Construct from Istream.
autoPtr< List< Type > >	clone () const
	Clone.
	~List ()
	Destructor.
void	clear ()
	Clear the list, i.e. set size to zero.
void	resize (const label len)
	Adjust allocated size of list.
void	resize (const label len, const Type &val)
	Adjust allocated size of list and set val for new elements.
void	resize_copy (label count, const label len)
	Change allocated size of list, retaining the first count elements.
void	resize_fill (const label len, const Type &val)
	Adjust allocated size of list and set val for all elements.
void	resize_nocopy (const label len)
	Adjust allocated size of list without necessarily.
void	transfer (List< Type > &list)
	Transfer the contents of the argument List into this list and annul the argument list.
void	transfer (DynamicList< Type, SizeMin > &list)
	Transfer the contents of the argument List into this list and annul the argument list.
Type &	newElmt (const label i)
	Return subscript-checked element of UList and resizing the list if required.
Type &	emplace_back (Args &&... args)
	Construct an element at the end of the list, return reference to the new list element.
void	push_back (const Type &val)
	Append an element at the end of the list.
void	push_back (Type &&val)
	Move append an element at the end of the list.
void	push_back (const UList< Type > &list)
	Append a List to the end of this list.
void	push_back (const IndirectListBase< Type, Addr > &list)
	Append IndirectList contents at the end of this list.
label	push_uniq (const Type &val)
	Append an element if not already in the list.
void	pop_back (label n=1)
	Reduce size by 1 or more elements. Can be called on an empty list.
void	operator= (const UList< Type > &list)
	Assignment to UList operator. Takes linear time.
void	operator= (const List< Type > &list)
	Assignment operator. Takes linear time.
void	operator= (const IndirectListBase< Type, Addr > &list)
	Assignment from IndirectList. Takes linear time.
void	operator= (const FixedList< Type, N > &list)
	Copy assignment from FixedList.
void	operator= (std::initializer_list< Type > list)
	Assignment to an initializer list.
void	operator= (const Type &val)
	Assignment of all entries to the given value.
void	operator= (Foam::zero)
	Assignment of all entries to zero.
void	operator= (List< Type > &&list)
	Move assignment. Takes constant time.
void	operator= (DynamicList< Type, SizeMin > &&list)
	Move assignment. Takes constant time.
Istream &	readList (Istream &is)
	Read List from Istream, discarding contents of existing List.
void	shallowCopy (const UList< Type > &)=delete
	No shallowCopy permitted.
bool	set (const label i, bool val=true)
	A bitSet::set() method for a list of bool.
void	append (const Type &val)
	Append an element at the end of the list.
void	append (Type &&val)
	Move append an element at the end of the list.
void	append (const UList< Type > &list)
	Append a List to the end of this list.
void	append (const IndirectListBase< Type, Addr > &list)
	Append IndirectList contents at the end of this list.
label	appendUniq (const Type &val)
	Same as push_uniq().
void	setSize (label n)
	Alias for resize().
void	setSize (label n, const Type &val)
	Alias for resize().
	List (const Expression::ListExpression< E > &expr)
	Construct from value expression.
void	operator= (const Expression::ListExpression< E > &expr)
	Assign values from expression.
void	resize (const label len)
Public Member Functions inherited from UList< Type >
	UList (const UList< Type > &) noexcept=default
	Copy construct, shallow copy.
UList< Type > &	operator= (const UList< Type > &)=delete
	No copy assignment (default: shallow copy).
label	fcIndex (const label i) const noexcept
	The forward circular index. The next index in the list which returns to the first at the end of the list.
label	rcIndex (const label i) const noexcept
	The reverse circular index. The previous index in the list which returns to the last at the beginning of the list.
const Type &	fcValue (const label i) const
	Return forward circular value (ie, next value in the list).
const Type &	rcValue (const label i) const
	Return reverse circular value (ie, previous value in the list).
const Type *	cdata () const noexcept
	Return pointer to the underlying array serving as data storage.
Type *	data () noexcept
	Return pointer to the underlying array serving as data storage.
const char *	cdata_bytes () const noexcept
	Return pointer to the underlying array serving as data storage,.
char *	data_bytes () noexcept
	Return pointer to the underlying array serving as data storage,.
Type &	front ()
	Access first element of the list, position [0].
Type &	back ()
	Access last element of the list, position [size()-1].
std::streamsize	size_bytes () const noexcept
	Number of contiguous bytes for the List data.
std::streamsize	byteSize () const
	Number of contiguous bytes for the List data, runtime FatalError if type is not contiguous.
void	checkStart (const label start) const
	Check start is within valid range [0,size).
void	checkSize (const label size) const
	Check size is within valid range [0,size].
void	checkRange (const label start, const label len) const
	Check that start and length define a valid range.
void	checkIndex (const label i) const
	Check index is within valid range [0,size).
bool	uniform () const
	True if all entries have identical values, and list is non-empty.
bool	contains (const Type &val) const
	True if the value is contained in the list.
label	find (const Type &val) const
	Find index of the first occurrence of the value.
label	rfind (const Type &val, label pos=-1) const
	Find index of the last occurrence of the value.
void	moveFirst (const label i)
	Move element to the first position.
void	moveLast (const label i)
	Move element to the last position.
void	swapFirst (const label i)
	Swap element with the first element. Fatal on an empty list.
void	swapLast (const label i)
	Swap element with the last element. Fatal on an empty list.
void	shallowCopy (Type *__restrict__ ptr, const label len) noexcept
	Copy the pointer and size.
void	deepCopy (const UList< Type > &list)
	Copy elements of the given UList. Sizes must match!
SubList< Type >	slice (const label pos, label len=-1)
	Return SubList slice (non-const access) - no range checking.
Type &	operator[] (const label i)
	Return element of UList.
	operator const Foam::List< Type > & () const
	Allow cast to a const List<T>&.
iterator	begin () noexcept
	Return an iterator to begin traversing the UList.
iterator	end () noexcept
	Return an iterator to end traversing the UList.
const_iterator	cbegin () const noexcept
	Return const_iterator to begin traversing the constant UList.
const_iterator	cend () const noexcept
	Return const_iterator to end traversing the constant UList.
reverse_iterator	rbegin ()
	Return reverse_iterator to begin reverse traversing the UList.
reverse_iterator	rend ()
	Return reverse_iterator to end reverse traversing the UList.
const_reverse_iterator	crbegin () const
	Return const_reverse_iterator to begin reverse traversing the UList.
const_reverse_iterator	crend () const
	Return const_reverse_iterator to end reverse traversing the UList.
bool	empty () const noexcept
	True if List is empty (ie, size() is zero).
label	capacity () const noexcept
	Size of the underlying storage.
void	swap (UList< Type > &list) noexcept
	Swap content with another UList of the same type in constant time.
bool	operator== (const UList< Type > &list) const
	Equality operation on ULists of the same type.
bool	operator!= (const UList< Type > &list) const
	The opposite of the equality operation. Takes linear time.
bool	operator< (const UList< Type > &list) const
	Compare two ULists lexicographically. Takes linear time.
bool	operator> (const UList< Type > &list) const
	Compare two ULists lexicographically. Takes linear time.
bool	operator<= (const UList< Type > &list) const
	Return true if !(a > b). Takes linear time.
bool	operator>= (const UList< Type > &list) const
	Return true if !(a < b). Takes linear time.
Istream &	readList (Istream &is)
	Read List contents from Istream.
Ostream &	writeList (Ostream &os, const label shortLen=0) const
	Write List, with line-breaks in ASCII when length exceeds shortLen.
bool	all () const
	True if all entries are 'true' or if the list is empty.
bool	any () const
	True if any entries are 'true'.
bool	none () const
	True if no entries are 'true'.
bool	test (const label i) const
	Test `bool` value at specified position, always false for out-of-range access.
bool	get (const label i) const
	Return `bool` value at specified position, always false for out-of-range access.
bool	unset (const label i)
	Unset the `bool` entry at specified position, always false for out-of-range access.
std::string_view	view () const
	Return a string_view of the charList. Content is non-modifiable.
Type &	first ()
	Access first element of the list, position [0].
Type &	last ()
	Access last element of the list, position [size()-1].
bool	found (const Type &val, label pos=0) const
	Same as contains().
auto	expr () const
	Wrap value as expression.

Static Public Attributes
static constexpr const char *const	codeTemplateC = "fixedValuePointPatchFieldTemplate.C"
	Name of the C code template to be used.
static constexpr const char *const	codeTemplateH = "fixedValuePointPatchFieldTemplate.H"
	Name of the H code template to be used.
Static Public Attributes inherited from pointPatchFieldBase
static int	disallowGenericPatchField
	Debug switch to disallow the use of generic pointPatchField.
Static Public Attributes inherited from FieldBase
static const char *const	typeName
	Typename for Field.
static bool	allowConstructFromLargerSize = false
	Permit read construct from a larger size.
static bool	unifiedGeometricField
	GeometricField with extra capacity for flattened boundary fields. Uses opt-switch "unifiedGeometricField".
static int	localBoundaryConsistency_
	Local boundary field consistency checks. Uses opt-switch "localBoundaryConsistency".
static scalar	localBoundaryTolerance_
	Tolerance for local boundary field consistency checks. Uses opt-switch "localBoundaryConsistency::tolerance".

Additional Inherited Members
Public Types inherited from pointPatchField< Type >
typedef pointPatch	Patch
	The patch type for the patch field.
typedef Type	value_type
	The value_type for the patch field.
typedef pTraits< Type >::cmptType	cmptType
	The component type for patch field.
typedef DimensionedField< Type, pointMesh >	Internal
	The internal field type associated with the patch field.
typedef calculatedPointPatchField< Type >	Calculated
	Type for a calculated patch.
Public Types inherited from Field< Type >
typedef pTraits< Type >::cmptType	cmptType
	Component type.
typedef SubField< Type >	subField
	Declare type of subField.
Public Types inherited from List< Type >
typedef SubList< Type >	subList
	Declare type of subList.
Public Types inherited from UList< Type >
typedef Type	value_type
	The value type the list contains.
typedef Type *	pointer
	The pointer type for non-const access to value_type items.
typedef const Type *	const_pointer
	The pointer type for const access to value_type items.
typedef Type &	reference
	The type used for storing into value_type objects.
typedef const Type &	const_reference
	The type used for reading from constant value_type objects.
typedef Type *	iterator
	Random access iterator for traversing a UList.
typedef const Type *	const_iterator
	Random access iterator for traversing a UList.
typedef label	size_type
	The type to represent the size of a UList.
typedef label	difference_type
	The difference between iterator objects.
typedef std::reverse_iterator< iterator >	reverse_iterator
	Reverse iterator (non-const access).
typedef std::reverse_iterator< const_iterator >	const_reverse_iterator
	Reverse iterator (const access).
using	is_List
	Have unique tag.
Static Public Member Functions inherited from pointPatchField< Type >
template<class DerivedPatchField, class... Args>
static autoPtr< pointPatchField< Type > >	Clone (const DerivedPatchField &pf, Args &&... args)
	Clone a patch field, optionally with internal field reference etc.
static autoPtr< pointPatchField< Type > >	New (const word &patchFieldType, const pointPatch &p, const DimensionedField< Type, pointMesh > &iF)
	Return a pointer to a new patchField created on freestore given.
static autoPtr< pointPatchField< Type > >	New (const word &patchFieldType, const word &actualPatchType, const pointPatch &p, const DimensionedField< Type, pointMesh > &iF)
	Return a pointer to a new patchField created on freestore given.
static autoPtr< pointPatchField< Type > >	New (const pointPatchField< Type > &, const pointPatch &, const DimensionedField< Type, pointMesh > &, const pointPatchFieldMapper &)
	Return a pointer to a new patchField created on freestore from.
static autoPtr< pointPatchField< Type > >	New (const pointPatch &, const DimensionedField< Type, pointMesh > &, const dictionary &)
	Return a pointer to a new patchField created on freestore.
static autoPtr< pointPatchField< Type > >	NewCalculatedType (const pointPatch &p)
	Return a pointer to a new calculatedPointPatchField created on.
template<class AnyType>
static autoPtr< pointPatchField< Type > >	NewCalculatedType (const pointPatchField< AnyType > &pf)
	Return a pointer to a new calculatedPointPatchField created on.
Static Public Member Functions inherited from pointPatchFieldBase
static const word &	emptyType () noexcept
	The type name for `empty` patch fields.
static const word &	calculatedType () noexcept
	The type name for `calculated` patch fields.
static const word &	zeroGradientType () noexcept
	The type name for `zeroGradient` patch fields.
static const word &	zeroValueType () noexcept
	The type name for `zeroValue` patch fields.
Static Public Member Functions inherited from Field< Type >
static const Field< Type > &	null () noexcept
	Return a null Field (reference to a nullObject). Behaves like an empty Field.
static autoPtr< Field< Type > >	New (Istream &is)
	Return a pointer to a new Field created on freestore.
template<class Type2>
static tmp< Field< Type > >	NewCalculatedType (const Field< Type2 > &f)
	Return a pointer to a new calculatedFvPatchFieldField created on freestore without setting patchField values.
Static Public Member Functions inherited from FieldBase
static void	warnLocalBoundaryConsistencyCompat (const dictionary &)
	Warn about keyword changes for local boundary consistency checks.
static int	localBoundaryConsistency () noexcept
	Get flag for local boundary consistency checks.
static int	localBoundaryConsistency (int val) noexcept
	Set flag for local boundary consistency checks.
Static Public Member Functions inherited from List< Type >
static const List< Type > &	null () noexcept
	Return a null List (reference to a nullObject). Behaves like an empty List.
Static Public Member Functions inherited from UList< Type >
static const UList< Type > &	null () noexcept
	Return a null UList (reference to a nullObject). Behaves like an empty UList.
static constexpr label	max_size () noexcept
	The size of the largest possible UList.
Protected Member Functions inherited from valuePointPatchField< Type >
bool	readValueEntry (const dictionary &dict, IOobjectOption::readOption readOpt=IOobjectOption::LAZY_READ)
	Read the "value" entry into `*this`.
void	writeValueEntry (Ostream &os) const
	Write `*this` field as a "value" entry.
void	extrapolateInternal ()
	Assign the patch field from the internal field.
Protected Member Functions inherited from pointPatchFieldBase
virtual void	readDict (const dictionary &dict)
	Read dictionary entries.
Protected Member Functions inherited from UList< Type >
void	setAddressableSize (const label n) noexcept
	Set addressed size to be inconsistent with allocated storage.
void	size (const label n)
	Older name for setAddressableSize.
void	writeEntry (Ostream &os) const
	Write the UList with its compound type.
labelRange	validateRange (const labelRange &requestedRange) const
	Return a validated (start,size) subset range, which means that it always addresses a valid section of the list.
void	fill_uniform (const Type &val)
	Assign all entries to the given value.
Protected Member Functions inherited from codedBase
dynamicCodeContext &	codeContext ()
	Access to the dynamic code context.
void	setCodeContext (const dictionary &dict)
	Set code context from a dictionary.
void	append (const std::string &str)
	Add content to SHA1 hashing.
void	updateLibrary (const word &name, const dynamicCodeContext &context) const
	Update library as required, using the given context.
void	updateLibrary (const word &name, const dictionary &dict) const
	Update library as required, using the given code dictionary to use for the context.
void	updateLibrary (const word &name) const
	Update library as required, using the predefined context or use the codeDict() to generate one.
	ClassName ("codedBase")
	Runtime type information.
	codedBase (const codedBase &)=delete
	No copy construct.
void	operator= (const codedBase &)=delete
	No copy assignment.
	codedBase ()=default
	Default construct.
virtual	~codedBase ()=default
	Destructor.
Static Protected Member Functions inherited from codedBase
static void	writeCodeDict (Ostream &os, const dictionary &dict)
	Write code-dictionary contents.
static const dictionary &	codeDict (const objectRegistry &obr, const word &dictName="codeDict")
	Return "codeDict" from objectRegistry or read from disk.

Detailed Description

template<class Type>
class Foam::codedFixedValuePointPatchField< Type >

Constructs on-the-fly a new boundary condition (derived from fixedValuePointPatchField) which is then used to evaluate.

The value entry (optional) is used for the initial values. Otherwise the code is executed.

The code entries:

codeInclude	:	include files
codeOptions	:	compiler line: added to EXE_INC (Make/options)
codeLibs	:	linker line: added to LIB_LIBS (Make/options)
localCode	:	c++; local static functions
code	:	c++; patch value assignment
codeContext	:	additional dictionary context for the code

Example:

    movingWall
    {
        type    codedFixedValue;
        value   uniform 0;
        name    rampedFixedValue;   // name of generated bc

        code
        #{
            operator==
            (
                vector(0,0,1) * min(10, 0.1*this->db().time().value())
            );
        #};

        codeContext
        {
             ...
        }

        //codeInclude
        //#{
        //    #include "fvCFD.H"
        //#};

        //codeOptions
        //#{
        //    -I$(LIB_SRC)/finiteVolume/lnInclude
        //#};
    }

A special form is if the code section is not supplied. In this case the code gets read from a (runTimeModifiable!) dictionary system/codeDict which would have a corresponding entry

    rampedFixedValue
    {
        code
        #{
            operator==(min(10, 0.1*this->db().time().value()));
        #};
    }

Note: The code context dictionary can be supplied separately as the codeContext entry.

See also: codedFixedValueFvPatchField

Source files

Definition at line 141 of file codedFixedValuePointPatchField.H.

Constructor & Destructor Documentation

◆ codedFixedValuePointPatchField() [1/5]

template<class Type>

codedFixedValuePointPatchField	(	const pointPatch &	p,
		const DimensionedField< Type, pointMesh > &	iF )

Construct from patch and internal field.

Definition at line 123 of file codedFixedValuePointPatchField.C.

References codedBase::codedBase(), and p.

Referenced by codedFixedValuePointPatchField(), codedFixedValuePointPatchField(), codedFixedValuePointPatchField(), and TypeName().

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◆ codedFixedValuePointPatchField() [2/5]

template<class Type>

codedFixedValuePointPatchField	(	const pointPatch &	p,
		const DimensionedField< Type, pointMesh > &	iF,
		const dictionary &	dict )

Construct from patch, internal field and dictionary.

Definition at line 153 of file codedFixedValuePointPatchField.C.

References codedBase::codedBase(), dict, and p.

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◆ codedFixedValuePointPatchField() [3/5]

template<class Type>

codedFixedValuePointPatchField	(	const codedFixedValuePointPatchField< Type > &	rhs,
		const pointPatch &	p,
		const DimensionedField< Type, pointMesh > &	iF,
		const pointPatchFieldMapper &	mapper )

Construct by mapping given codedFixedValuePointPatchField.

onto a new patch

Definition at line 136 of file codedFixedValuePointPatchField.C.

References codedBase::codedBase(), codedFixedValuePointPatchField(), p, and Foam::rhs().

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◆ codedFixedValuePointPatchField() [4/5]

template<class Type>

codedFixedValuePointPatchField ( const codedFixedValuePointPatchField< Type > & rhs )

Construct as copy.

Definition at line 194 of file codedFixedValuePointPatchField.C.

References codedBase::codedBase(), codedFixedValuePointPatchField(), and Foam::rhs().

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◆ codedFixedValuePointPatchField() [5/5]

template<class Type>

codedFixedValuePointPatchField	(	const codedFixedValuePointPatchField< Type > &	rhs,
		const DimensionedField< Type, pointMesh > &	iF )

Construct as copy setting internal field reference.

Definition at line 208 of file codedFixedValuePointPatchField.C.

References codedBase::codedBase(), codedFixedValuePointPatchField(), and Foam::rhs().

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Member Function Documentation

◆ TypeName()

template<class Type>

TypeName ( "codedFixedValue" )

Runtime type information.

References codedFixedValuePointPatchField().

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◆ clone() [1/2]

template<class Type>

virtual autoPtr< pointPatchField< Type > > clone ( ) const

inlinevirtual

Return a clone.

Reimplemented from fixedValuePointPatchField< Type >.

Definition at line 274 of file codedFixedValuePointPatchField.H.

References pointPatchField< Type >::Clone().

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◆ clone() [2/2]

template<class Type>

virtual autoPtr< pointPatchField< Type > > clone ( const DimensionedField< Type, pointMesh > & iF ) const

inlinevirtual

Construct and return a clone setting internal field reference.

Reimplemented from fixedValuePointPatchField< Type >.

Definition at line 282 of file codedFixedValuePointPatchField.H.

References pointPatchField< Type >::Clone().

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◆ redirectPatchField()

template<class Type>

const Foam::pointPatchField< Type > & redirectPatchField ( ) const

Get reference to the underlying patch.

Definition at line 226 of file codedFixedValuePointPatchField.C.

References pointPatchField< Type >::internalField(), pointPatchField< Type >::New(), Foam::nl, os(), pointPatchFieldBase::patch(), dictionary::set(), WarningInFunction, and valuePointPatchField< Type >::writeValueEntry().

Referenced by evaluate(), and updateCoeffs().

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◆ updateCoeffs()

template<class Type>

void updateCoeffs ( )

virtual

Update the coefficients associated with the patch field.

Reimplemented from valuePointPatchField< Type >.

Definition at line 271 of file codedFixedValuePointPatchField.C.

References Foam::operator==(), redirectPatchField(), updateCoeffs(), valuePointPatchField< Type >::updateCoeffs(), pointPatchFieldBase::updated(), and codedBase::updateLibrary().

Referenced by updateCoeffs().

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◆ evaluate()

template<class Type>

void evaluate ( const Pstream::commsTypes commsType = Pstream::commsTypes::buffered )

virtual

Evaluate the patch field, sets updated() to false.

Reimplemented from valuePointPatchField< Type >.

Definition at line 293 of file codedFixedValuePointPatchField.C.

References evaluate(), valuePointPatchField< Type >::evaluate(), redirectPatchField(), and codedBase::updateLibrary().

Referenced by evaluate().

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◆ write()

template<class Type>

void write ( Ostream & os ) const

virtual

Write.

Reimplemented from valuePointPatchField< Type >.

Definition at line 310 of file codedFixedValuePointPatchField.C.

References os(), valuePointPatchField< Type >::write(), and codedBase::writeCodeDict().

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Member Data Documentation

◆ codeTemplateC

template<class Type>

const char* const codeTemplateC = "fixedValuePointPatchFieldTemplate.C"

staticconstexpr

Name of the C code template to be used.

Definition at line 204 of file codedFixedValuePointPatchField.H.

◆ codeTemplateH

template<class Type>

const char* const codeTemplateH = "fixedValuePointPatchFieldTemplate.H"

staticconstexpr

Name of the H code template to be used.

Definition at line 210 of file codedFixedValuePointPatchField.H.

The documentation for this class was generated from the following files:

src/OpenFOAM/fields/pointPatchFields/derived/codedFixedValue/codedFixedValuePointPatchField.H
src/OpenFOAM/fields/pointPatchFields/derived/codedFixedValue/codedFixedValuePointPatchField.C

Public Member Functions

Static Public Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ codedFixedValuePointPatchField() [1/5]

◆ codedFixedValuePointPatchField() [2/5]

◆ codedFixedValuePointPatchField() [3/5]

◆ codedFixedValuePointPatchField() [4/5]

◆ codedFixedValuePointPatchField() [5/5]

Member Function Documentation

◆ TypeName()

◆ clone() [1/2]

◆ clone() [2/2]

◆ redirectPatchField()

◆ updateCoeffs()

◆ evaluate()

◆ write()

Member Data Documentation

◆ codeTemplateC

◆ codeTemplateH