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peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray Class Reference

Specialisation of dastgen2.attributes.DoubleArray which relies on Peano's tarch. More...

Inheritance diagram for peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray:
Collaboration diagram for peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray:

Public Member Functions

 __init__ (self, name, cardinality, valid_mantissa_bits=None, ifdefs=[])
 See superclass' constructor.
 
 get_methods (self, _full_qualified_class_name, for_declaration=True)
 Return sequence of methods that are defined for this attribute.
 
 use_default_copy_constructor (self)
 Cannot use the default copy constructor, as it is an array, i.e.
 
 get_plain_C_attributes (self, for_constructor=False)
 Return list of n-tuples.
 
 get_first_plain_C_attribute (self)
 For MPI for example, I need to know the first attribute.
 
 get_constructor_arguments (self)
 Return list of tuple of arguments for the constructor.
 
 get_method_body (self, signature)
 I hand in the method signature (see get_methods()) and wanna get the whole implementation.
 
 get_native_MPI_type (self)
 Return native (built-in) MPI datatype.
 
 get_to_string (self)
 Return string representation of attribute.
 
- Public Member Functions inherited from dastgen2.attributes.DoubleArray.DoubleArray
 valid_mantissa_bits (self)
 
 valid_mantissa_bits (self, value)
 Set mantissa used.
 
- Public Member Functions inherited from dastgen2.attributes.Attribute.Attribute
 get_public_fields (self)
 Return string that is to be embedded into the public part of the class definition.
 
 get_attribute_declaration_string (self)
 Construct the string used for variable declaration using the output of get_plain_C_attributes(self).
 
 get_accessor_name (self)
 Generate the accessor name used throughout dastgen2 to create variables, function names, etc.
 
 name (self)
 I expect that there's at least one setter/getter pair.
 
 get_includes (self)
 

Protected Attributes

 _cardinality
 
 _valid_mantissa_bits
 
 _name
 
- Protected Attributes inherited from dastgen2.attributes.DoubleArray.DoubleArray
 _cardinality
 
 _valid_mantissa_bits
 
- Protected Attributes inherited from dastgen2.attributes.Double.Double
 _valid_mantissa_bits
 
 _is_constexpr
 
- Protected Attributes inherited from dastgen2.attributes.Attribute.Attribute
 _name
 
 _initval
 

Additional Inherited Members

- Data Fields inherited from dastgen2.attributes.Attribute.Attribute
 use_data_store
 
 ifdefs
 
 qualifier
 
 expose_in_header_file
 
- Protected Member Functions inherited from dastgen2.attributes.Attribute.Attribute
 _is_static (self)
 
 _is_const_static (self)
 
 _is_const (self)
 
 _is_constexpr (self)
 

Detailed Description

Specialisation of dastgen2.attributes.DoubleArray which relies on Peano's tarch.

Therefore, things alike the vector initialisation in the constructor do work.

Definition at line 7 of file Peano4DoubleArray.py.

Constructor & Destructor Documentation

◆ __init__()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.__init__ ( self,
name,
cardinality,
valid_mantissa_bits = None,
ifdefs = [] )

See superclass' constructor.

cardinality: String This is important: It is not (necessarily) an integer, but can be a string which is defined via a pragma or constexpr later.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 16 of file Peano4DoubleArray.py.

References peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.__init__().

Referenced by peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.__init__().

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Member Function Documentation

◆ get_constructor_arguments()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_constructor_arguments ( self)

Return list of tuple of arguments for the constructor.

The first tuple entry is the name, the second one the type. By default, I take them from the plain C attributes, but you can alter this behaviour.

Reimplemented from dastgen2.attributes.Attribute.Attribute.

Definition at line 81 of file Peano4DoubleArray.py.

References dastgen2.attributes.BooleanArray.BooleanArray._cardinality, dastgen2.attributes.DoubleArray.DoubleArray._cardinality, dastgen2.attributes.IntegerArray.IntegerArray._cardinality, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._cardinality, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._cardinality, SBH.Limiter._name, dastgen2.attributes.Attribute.Attribute._name, dastgen2.attributes.BooleanArray.BooleanArray._name, dastgen2.attributes.Enumeration.Enumeration._name, exahype2.solvers.aderdg.ADERDG.ADERDG._name, exahype2.solvers.elliptic.AMRMarker.AMRMarker._name, exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._name, exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._name, exahype2.solvers.fv.FV.FV._name, exahype2.solvers.limiting.PosterioriLimiting.PosterioriLimiting._name, exahype2.solvers.limiting.StaticLimiting.StaticLimiting._name, exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._name, exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._name, exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep._name, exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._name, solvers.api.Solver.Solver._name, mghype::matrixfree::solvers::Solver._name, api.solvers.Solver.Solver._name, and tarch::services::ServiceRepository::ServiceEntry._name.

◆ get_first_plain_C_attribute()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_first_plain_C_attribute ( self)

For MPI for example, I need to know the first attribute.

If you map your attribute onto multiple data types, it is one type that represents the whole thing.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 78 of file Peano4DoubleArray.py.

References SBH.Limiter._name, dastgen2.attributes.Attribute.Attribute._name, dastgen2.attributes.BooleanArray.BooleanArray._name, dastgen2.attributes.Enumeration.Enumeration._name, exahype2.solvers.aderdg.ADERDG.ADERDG._name, exahype2.solvers.elliptic.AMRMarker.AMRMarker._name, exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._name, exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._name, exahype2.solvers.fv.FV.FV._name, exahype2.solvers.limiting.PosterioriLimiting.PosterioriLimiting._name, exahype2.solvers.limiting.StaticLimiting.StaticLimiting._name, exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._name, exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._name, exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep._name, exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._name, solvers.api.Solver.Solver._name, mghype::matrixfree::solvers::Solver._name, api.solvers.Solver.Solver._name, and tarch::services::ServiceRepository::ServiceEntry._name.

◆ get_method_body()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_method_body ( self,
signature )

I hand in the method signature (see get_methods()) and wanna get the whole implementation.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 86 of file Peano4DoubleArray.py.

References dastgen2.attributes.BooleanArray.BooleanArray._cardinality, dastgen2.attributes.DoubleArray.DoubleArray._cardinality, dastgen2.attributes.IntegerArray.IntegerArray._cardinality, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._cardinality, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._cardinality, SBH.Limiter._name, dastgen2.attributes.Attribute.Attribute._name, dastgen2.attributes.BooleanArray.BooleanArray._name, dastgen2.attributes.Enumeration.Enumeration._name, exahype2.solvers.aderdg.ADERDG.ADERDG._name, exahype2.solvers.elliptic.AMRMarker.AMRMarker._name, exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._name, exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._name, exahype2.solvers.fv.FV.FV._name, exahype2.solvers.limiting.PosterioriLimiting.PosterioriLimiting._name, exahype2.solvers.limiting.StaticLimiting.StaticLimiting._name, exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._name, exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._name, exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep._name, exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._name, solvers.api.Solver.Solver._name, mghype::matrixfree::solvers::Solver._name, api.solvers.Solver.Solver._name, tarch::services::ServiceRepository::ServiceEntry._name, dastgen2.attributes.Double.Double._valid_mantissa_bits, dastgen2.attributes.DoubleArray.DoubleArray._valid_mantissa_bits, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._valid_mantissa_bits, and dastgen2.attributes.Attribute.Attribute.use_data_store.

◆ get_methods()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_methods ( self,
_full_qualified_class_name,
for_declaration = True )

Return sequence of methods that are defined for this attribute.

Each entry is a tuple. Its first entry is the signature of the function (not including the semicolon), the second entry is the return type.

for_declaration: Boolean if True, assume we want method names for function declaration, not definition. Some generators might - for example - add additional annotations for the declaration such as Clang attributes. The most frequently used use case for this flag is the static annotation. To make a function a class function, you have to declare it as static. But the definition does not allow you to repeat that static keyword again.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 30 of file Peano4DoubleArray.py.

References dastgen2.attributes.BooleanArray.BooleanArray._cardinality, dastgen2.attributes.DoubleArray.DoubleArray._cardinality, dastgen2.attributes.IntegerArray.IntegerArray._cardinality, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._cardinality, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._cardinality, SBH.Limiter._name, dastgen2.attributes.Attribute.Attribute._name, dastgen2.attributes.BooleanArray.BooleanArray._name, dastgen2.attributes.Enumeration.Enumeration._name, exahype2.solvers.aderdg.ADERDG.ADERDG._name, exahype2.solvers.elliptic.AMRMarker.AMRMarker._name, exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._name, exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._name, exahype2.solvers.fv.FV.FV._name, exahype2.solvers.limiting.PosterioriLimiting.PosterioriLimiting._name, exahype2.solvers.limiting.StaticLimiting.StaticLimiting._name, exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._name, exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._name, exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep._name, exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._name, solvers.api.Solver.Solver._name, mghype::matrixfree::solvers::Solver._name, api.solvers.Solver.Solver._name, and tarch::services::ServiceRepository::ServiceEntry._name.

◆ get_native_MPI_type()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_native_MPI_type ( self)

Return native (built-in) MPI datatype.

Return None if there's no direct mapping. The actual result is not a string only, but a list of tuples from native type to cardinality.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 151 of file Peano4DoubleArray.py.

References dastgen2.attributes.BooleanArray.BooleanArray._cardinality, dastgen2.attributes.DoubleArray.DoubleArray._cardinality, dastgen2.attributes.IntegerArray.IntegerArray._cardinality, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._cardinality, and peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._cardinality.

◆ get_plain_C_attributes()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_plain_C_attributes ( self,
for_constructor = False )

Return list of n-tuples.

The tuple can either host two, three or four entries. The list itself may contain arbitrary many tuples, as one attribute logically can map onto multiple technical attributes. For example, when declaring an array, also declare an integer variable containing its length.

for_constructor: bool whether the return value of this function is intended for use in the constructor method of the DataModel. If true, will omit (optionally provided) initialization values in the attribute string.

Two entries

The first triple entry always is the name, the second one the type. Type has to be plain C.

Three entries

The first triple entry always is the name, the second one the type. Type has to be plain C. The third entry is a C++ attribute, i.e. a string embedded into [[...]].

Four entries

The first triple entry always is the name, the second one the type. Type has to be plain C. The third entry is a C++ attribute, i.e. a string embedded into [[...]]. The fourth attribute is a list of ifdef symbols that have to be defined to use this attribute. The list of symbols is concatenated with an and. You can return an empty list. All symbol definitions can also be expressions such sa DEBUG>0 or defined(DEBUG).

Please note that these latter ifdefs are something completely different than the base class ifdefs. The base class ifdefs are to be used if you want to switch attributes on and off. The attributes here are used to switch between realisation variants.

Arrays

Arrays can be modelled by adding a cardinality ("[15]" for example) to the first triple entry, i.e. the name.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 52 of file Peano4DoubleArray.py.

References dastgen2.attributes.BooleanArray.BooleanArray._cardinality, dastgen2.attributes.DoubleArray.DoubleArray._cardinality, dastgen2.attributes.IntegerArray.IntegerArray._cardinality, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._cardinality, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._cardinality, SBH.Limiter._name, dastgen2.attributes.Attribute.Attribute._name, dastgen2.attributes.BooleanArray.BooleanArray._name, dastgen2.attributes.Enumeration.Enumeration._name, exahype2.solvers.aderdg.ADERDG.ADERDG._name, exahype2.solvers.elliptic.AMRMarker.AMRMarker._name, exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._name, exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._name, exahype2.solvers.fv.FV.FV._name, exahype2.solvers.limiting.PosterioriLimiting.PosterioriLimiting._name, exahype2.solvers.limiting.StaticLimiting.StaticLimiting._name, exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._name, exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._name, exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep._name, exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._name, solvers.api.Solver.Solver._name, mghype::matrixfree::solvers::Solver._name, api.solvers.Solver.Solver._name, tarch::services::ServiceRepository::ServiceEntry._name, dastgen2.attributes.Double.Double._valid_mantissa_bits, dastgen2.attributes.DoubleArray.DoubleArray._valid_mantissa_bits, and peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._valid_mantissa_bits.

Referenced by dastgen2.attributes.Attribute.Attribute.get_attribute_declaration_string(), dastgen2.attributes.Attribute.Attribute.get_constructor_arguments(), and dastgen2.attributes.Attribute.Attribute.get_first_plain_C_attribute().

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◆ get_to_string()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_to_string ( self)

Return string representation of attribute.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 154 of file Peano4DoubleArray.py.

References SBH.Limiter._name, dastgen2.attributes.Attribute.Attribute._name, dastgen2.attributes.BooleanArray.BooleanArray._name, dastgen2.attributes.Enumeration.Enumeration._name, exahype2.solvers.aderdg.ADERDG.ADERDG._name, exahype2.solvers.elliptic.AMRMarker.AMRMarker._name, exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._name, exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._name, exahype2.solvers.fv.FV.FV._name, exahype2.solvers.limiting.PosterioriLimiting.PosterioriLimiting._name, exahype2.solvers.limiting.StaticLimiting.StaticLimiting._name, exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._name, exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._name, exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep._name, exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps._name, exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._name, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name, peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray._name, solvers.api.Solver.Solver._name, mghype::matrixfree::solvers::Solver._name, api.solvers.Solver.Solver._name, tarch::services::ServiceRepository::ServiceEntry._name, dastgen2.attributes.Double.Double._valid_mantissa_bits, dastgen2.attributes.DoubleArray.DoubleArray._valid_mantissa_bits, peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._valid_mantissa_bits, and dastgen2.attributes.Attribute.Attribute.use_data_store.

◆ use_default_copy_constructor()

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.use_default_copy_constructor ( self)

Cannot use the default copy constructor, as it is an array, i.e.

we need some manual deep copying.

Reimplemented from dastgen2.attributes.DoubleArray.DoubleArray.

Definition at line 49 of file Peano4DoubleArray.py.

Field Documentation

◆ _cardinality

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._cardinality
protected

Definition at line 28 of file Peano4DoubleArray.py.

Referenced by dastgen2.attributes.BooleanArray.BooleanArray.get_constructor_arguments(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_constructor_arguments(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_constructor_arguments(), dastgen2.attributes.BooleanArray.BooleanArray.get_method_body(), dastgen2.attributes.DoubleArray.DoubleArray.get_method_body(), dastgen2.attributes.IntegerArray.IntegerArray.get_method_body(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_method_body(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_method_body(), dastgen2.attributes.BooleanArray.BooleanArray.get_methods(), dastgen2.attributes.DoubleArray.DoubleArray.get_methods(), dastgen2.attributes.IntegerArray.IntegerArray.get_methods(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_methods(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_methods(), dastgen2.attributes.DoubleArray.DoubleArray.get_native_MPI_type(), dastgen2.attributes.IntegerArray.IntegerArray.get_native_MPI_type(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_native_MPI_type(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_native_MPI_type(), dastgen2.attributes.BooleanArray.BooleanArray.get_plain_C_attributes(), dastgen2.attributes.DoubleArray.DoubleArray.get_plain_C_attributes(), dastgen2.attributes.IntegerArray.IntegerArray.get_plain_C_attributes(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_plain_C_attributes(), and peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_plain_C_attributes().

◆ _name

peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray._name
protected

Definition at line 64 of file Peano4DoubleArray.py.

Referenced by exahype2.solvers.aderdg.ADERDG.ADERDG.__str__(), exahype2.solvers.elliptic.AMRMarker.AMRMarker.__str__(), exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells.__str__(), exahype2.solvers.fv.FV.FV.__str__(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG.__str__(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences.__str__(), solvers.api.Solver.Solver.__str__(), exahype2.solvers.fv.EnclaveTasking.EnclaveTasking._enclave_task_name(), exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking._enclave_task_name(), dastgen2.attributes.Enumeration.Enumeration._enum_name(), exahype2.solvers.aderdg.ADERDG.ADERDG._generate_kernels(), exahype2.solvers.aderdg.ADERDG.ADERDG._init_dictionary_with_default_parameters(), exahype2.solvers.fv.FV.FV._init_dictionary_with_default_parameters(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._init_dictionary_with_default_parameters(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._init_dictionary_with_default_parameters(), exahype2.solvers.aderdg.ADERDG.ADERDG._interpolate_face_data_default_guard(), exahype2.solvers.aderdg.SingleSweep.SingleSweep._interpolate_face_data_default_guard(), SBH.Limiter._load_cell_data_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._load_cell_data_default_guard(), exahype2.solvers.fv.FV.FV._load_cell_data_default_guard(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._load_cell_data_default_guard(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._load_cell_data_default_guard(), SBH.Limiter._load_face_data_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._load_face_data_default_guard(), exahype2.solvers.fv.FV.FV._load_face_data_default_guard(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._load_face_data_default_guard(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._load_face_data_default_guard(), SBH.Limiter._provide_cell_data_to_compute_kernels_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._provide_cell_data_to_compute_kernels_default_guard(), exahype2.solvers.fv.FV.FV._provide_cell_data_to_compute_kernels_default_guard(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._provide_cell_data_to_compute_kernels_default_guard(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._provide_cell_data_to_compute_kernels_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._provide_face_data_to_compute_kernels_default_guard(), exahype2.solvers.fv.FV.FV._provide_face_data_to_compute_kernels_default_guard(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._provide_face_data_to_compute_kernels_default_guard(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._provide_face_data_to_compute_kernels_default_guard(), exahype2.solvers.aderdg.SingleSweep.SingleSweep._restrict_face_data_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._store_boundary_data_default_guard(), SBH.Limiter._store_cell_data_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._store_cell_data_default_guard(), exahype2.solvers.fv.FV.FV._store_cell_data_default_guard(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._store_cell_data_default_guard(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._store_cell_data_default_guard(), SBH.Limiter._store_face_data_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._store_face_data_default_guard(), exahype2.solvers.fv.FV.FV._store_face_data_default_guard(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._store_face_data_default_guard(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._store_face_data_default_guard(), exahype2.solvers.aderdg.ADERDG.ADERDG._unknown_identifier(), exahype2.solvers.elliptic.AMRMarker.AMRMarker._unknown_identifier(), exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells._unknown_identifier(), exahype2.solvers.fv.FV.FV._unknown_identifier(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG._unknown_identifier(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences._unknown_identifier(), exahype2.solvers.fv.EnclaveTasking.EnclaveTasking.add_actions_to_create_grid(), exahype2.solvers.fv.EnclaveTasking.EnclaveTasking.add_actions_to_init_grid(), exahype2.solvers.aderdg.ADERDG.ADERDG.add_actions_to_plot_solution(), exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells.add_actions_to_plot_solution(), exahype2.solvers.fv.FV.FV.add_actions_to_plot_solution(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG.add_actions_to_plot_solution(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences.add_actions_to_plot_solution(), exahype2.solvers.fv.EnclaveTasking.EnclaveTasking.add_entries_to_text_replacement_dictionary(), exahype2.solvers.rkdg.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking.add_entries_to_text_replacement_dictionary(), exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking.add_entries_to_text_replacement_dictionary(), exahype2.solvers.aderdg.ADERDG.ADERDG.add_implementation_files_to_project(), exahype2.solvers.elliptic.AMRMarker.AMRMarker.add_to_Peano4_datamodel(), exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells.add_to_Peano4_datamodel(), SBH.Limiter.create_action_sets(), exahype2.solvers.aderdg.SingleSweep.SingleSweep.create_action_sets(), exahype2.solvers.fv.rusanov.LocalTimeStepWithEnclaveTasking.LocalTimeStepWithEnclaveTasking.create_action_sets(), exahype2.solvers.fv.rusanov.SubcyclingAdaptiveTimeStepWithEnclaveTasking.SubcyclingAdaptiveTimeStepWithEnclaveTasking.create_action_sets(), exahype2.solvers.fv.rusanov.SubcyclingFixedTimeStep.SubcyclingFixedTimeStep.create_action_sets(), exahype2.solvers.fv.rusanov.SubcyclingFixedTimeStepWithEnclaveTasking.SubcyclingFixedTimeStepWithEnclaveTasking.create_action_sets(), exahype2.solvers.rkdg.SeparateSweeps.SeparateSweeps.create_action_sets(), exahype2.solvers.fv.SingleSweep.SingleSweep.create_data_structures(), exahype2.solvers.rkfd.OneSweepPerRungeKuttaStep.OneSweepPerRungeKuttaStep.create_data_structures(), exahype2.solvers.rkfd.SeparateSweeps.SeparateSweeps.create_data_structures(), exahype2.solvers.rkfd.SeparateSweepsWithEnclaveTasking.SeparateSweepsWithEnclaveTasking.create_data_structures(), dastgen2.attributes.Attribute.Attribute.get_accessor_name(), dastgen2.attributes.BooleanArray.BooleanArray.get_constructor_arguments(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_constructor_arguments(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_constructor_arguments(), api.solvers.CollocatedLowOrderDiscretisation.AssemblePetscMatrix.get_constructor_body(), dastgen2.attributes.BooleanArray.BooleanArray.get_first_plain_C_attribute(), dastgen2.attributes.DoubleArray.DoubleArray.get_first_plain_C_attribute(), dastgen2.attributes.IntegerArray.IntegerArray.get_first_plain_C_attribute(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_first_plain_C_attribute(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_first_plain_C_attribute(), dastgen2.attributes.Boolean.Boolean.get_method_body(), dastgen2.attributes.BooleanArray.BooleanArray.get_method_body(), dastgen2.attributes.Double.Double.get_method_body(), dastgen2.attributes.DoubleArray.DoubleArray.get_method_body(), dastgen2.attributes.Enumeration.Enumeration.get_method_body(), dastgen2.attributes.Integer.Integer.get_method_body(), dastgen2.attributes.IntegerArray.IntegerArray.get_method_body(), dastgen2.attributes.String.String.get_method_body(), dastgen2.attributes.UserDefinedType.UserDefinedType.get_method_body(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_method_body(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_method_body(), dastgen2.attributes.BooleanArray.BooleanArray.get_methods(), dastgen2.attributes.DoubleArray.DoubleArray.get_methods(), dastgen2.attributes.IntegerArray.IntegerArray.get_methods(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_methods(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_methods(), exahype2.solvers.aderdg.ADERDG.ADERDG.get_name_of_global_instance(), exahype2.solvers.elliptic.AMRMarker.AMRMarker.get_name_of_global_instance(), exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells.get_name_of_global_instance(), exahype2.solvers.fv.FV.FV.get_name_of_global_instance(), exahype2.solvers.rkdg.RungeKuttaDG.RungeKuttaDG.get_name_of_global_instance(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences.get_name_of_global_instance(), dastgen2.attributes.Boolean.Boolean.get_plain_C_attributes(), dastgen2.attributes.BooleanArray.BooleanArray.get_plain_C_attributes(), dastgen2.attributes.Double.Double.get_plain_C_attributes(), dastgen2.attributes.DoubleArray.DoubleArray.get_plain_C_attributes(), dastgen2.attributes.Integer.Integer.get_plain_C_attributes(), dastgen2.attributes.IntegerArray.IntegerArray.get_plain_C_attributes(), dastgen2.attributes.String.String.get_plain_C_attributes(), dastgen2.attributes.UserDefinedType.UserDefinedType.get_plain_C_attributes(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_plain_C_attributes(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_plain_C_attributes(), dastgen2.attributes.String.String.get_setter_getter_name(), dastgen2.attributes.Boolean.Boolean.get_to_string(), dastgen2.attributes.BooleanArray.BooleanArray.get_to_string(), dastgen2.attributes.Double.Double.get_to_string(), dastgen2.attributes.DoubleArray.DoubleArray.get_to_string(), dastgen2.attributes.Enumeration.Enumeration.get_to_string(), dastgen2.attributes.Integer.Integer.get_to_string(), dastgen2.attributes.IntegerArray.IntegerArray.get_to_string(), dastgen2.attributes.UserDefinedType.UserDefinedType.get_to_string(), peano4.dastgen2.Peano4DoubleArray.Peano4DoubleArray.get_to_string(), peano4.dastgen2.Peano4IntegerArray.Peano4IntegerArray.get_to_string(), dastgen2.attributes.Attribute.Attribute.name(), exahype2.solvers.elliptic.ConstrainedPoissonEquationForMarkerOnCells.ConstrainedPoissonEquationForMarkerOnCells.name(), exahype2.solvers.fv.FV.FV.name(), exahype2.solvers.rkfd.CellCenteredFiniteDifferences.CellCenteredFiniteDifferences.name(), solvers.api.Solver.Solver.name(), api.solvers.Solver.Solver.name(), solvers.api.Solver.Solver.typename(), and api.solvers.Solver.Solver.typename().

◆ _valid_mantissa_bits


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