OpenCMISS-Zinc C++ API Documentation
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OpenCMISS::Zinc::FieldFibreAxes Class Reference

A "fibre axes" field type which returns a 9-component (3 x 3 vector) field representing an orthonormal coordinate system which is rotated by 3 Euler angles supplied by a fibre field. More...

#include <fieldfibres.hpp>

Inheritance diagram for OpenCMISS::Zinc::FieldFibreAxes:
OpenCMISS::Zinc::Field

Friends

FieldFibreAxes Fieldmodule::createFieldFibreAxes (const Field &fibreField, const Field &coordinateField)
 

Additional Inherited Members

- Public Types inherited from OpenCMISS::Zinc::Field
enum  ChangeFlag {
  CHANGE_FLAG_NONE = CMZN_FIELD_CHANGE_FLAG_NONE, CHANGE_FLAG_ADD = CMZN_FIELD_CHANGE_FLAG_ADD, CHANGE_FLAG_REMOVE = CMZN_FIELD_CHANGE_FLAG_REMOVE, CHANGE_FLAG_IDENTIFIER = CMZN_FIELD_CHANGE_FLAG_IDENTIFIER,
  CHANGE_FLAG_DEFINITION = CMZN_FIELD_CHANGE_FLAG_DEFINITION, CHANGE_FLAG_FULL_RESULT = CMZN_FIELD_CHANGE_FLAG_FULL_RESULT, CHANGE_FLAG_PARTIAL_RESULT = CMZN_FIELD_CHANGE_FLAG_PARTIAL_RESULT, CHANGE_FLAG_RESULT = CMZN_FIELD_CHANGE_FLAG_RESULT,
  CHANGE_FLAG_FINAL = CMZN_FIELD_CHANGE_FLAG_FINAL
}
 
enum  CoordinateSystemType {
  COORDINATE_SYSTEM_TYPE_INVALID = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_INVALID, COORDINATE_SYSTEM_TYPE_RECTANGULAR_CARTESIAN = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_RECTANGULAR_CARTESIAN, COORDINATE_SYSTEM_TYPE_CYLINDRICAL_POLAR = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_CYLINDRICAL_POLAR, COORDINATE_SYSTEM_TYPE_SPHERICAL_POLAR = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_SPHERICAL_POLAR,
  COORDINATE_SYSTEM_TYPE_PROLATE_SPHEROIDAL = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_PROLATE_SPHEROIDAL, COORDINATE_SYSTEM_TYPE_OBLATE_SPHEROIDAL = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_OBLATE_SPHEROIDAL, COORDINATE_SYSTEM_TYPE_FIBRE = CMZN_FIELD_COORDINATE_SYSTEM_TYPE_FIBRE
}
 
enum  DomainType {
  DOMAIN_TYPE_INVALID = CMZN_FIELD_DOMAIN_TYPE_INVALID, DOMAIN_TYPE_POINT = CMZN_FIELD_DOMAIN_TYPE_POINT, DOMAIN_TYPE_NODES = CMZN_FIELD_DOMAIN_TYPE_NODES, DOMAIN_TYPE_DATAPOINTS = CMZN_FIELD_DOMAIN_TYPE_DATAPOINTS,
  DOMAIN_TYPE_MESH1D = CMZN_FIELD_DOMAIN_TYPE_MESH1D, DOMAIN_TYPE_MESH2D = CMZN_FIELD_DOMAIN_TYPE_MESH2D, DOMAIN_TYPE_MESH3D = CMZN_FIELD_DOMAIN_TYPE_MESH3D, DOMAIN_TYPE_MESH_HIGHEST_DIMENSION = CMZN_FIELD_DOMAIN_TYPE_MESH_HIGHEST_DIMENSION
}
 
enum  ValueType { VALUE_TYPE_INVALID = CMZN_FIELD_VALUE_TYPE_INVALID, VALUE_TYPE_REAL = CMZN_FIELD_VALUE_TYPE_REAL, VALUE_TYPE_STRING = CMZN_FIELD_VALUE_TYPE_STRING, VALUE_TYPE_MESH_LOCATION = CMZN_FIELD_VALUE_TYPE_MESH_LOCATION }
 
typedef int ChangeFlags
 
typedef int DomainTypes
 
- Public Member Functions inherited from OpenCMISS::Zinc::Field
 Field (cmzn_field_id field_id)
 
 Field (const Field &field)
 
Fieldoperator= (const Field &field)
 
bool isValid () const
 
cmzn_field_id getId () const
 
Fieldassignment createFieldassignment (const Field &sourceField)
 
bool isManaged ()
 
int setManaged (bool value)
 
char * getComponentName (int componentNumber)
 
int setComponentName (int componentNumber, const char *name)
 
double getCoordinateSystemFocus ()
 
int setCoordinateSystemFocus (double focus)
 
CoordinateSystemType getCoordinateSystemType ()
 
int setCoordinateSystemType (CoordinateSystemType coordinateSystemType)
 
int getNumberOfComponents ()
 
char * getName ()
 
int setName (const char *name)
 
int getNumberOfSourceFields ()
 
Field getSourceField (int index)
 
bool isTypeCoordinate ()
 
int setTypeCoordinate (bool value)
 
ValueType getValueType ()
 
Fieldmodule getFieldmodule () const
 
int assignMeshLocation (const Fieldcache &cache, const Element &element, int coordinatesCount, const double *coordinatesIn)
 
int assignReal (const Fieldcache &cache, int valuesCount, const double *valuesIn)
 
int assignString (const Fieldcache &cache, const char *stringValue)
 
Element evaluateMeshLocation (const Fieldcache &cache, int coordinatesCount, double *coordinatesOut)
 
int evaluateReal (const Fieldcache &cache, int valuesCount, double *valuesOut)
 
char * evaluateString (const Fieldcache &cache)
 
int evaluateDerivative (const Differentialoperator&differentialOperator, const Fieldcache &cache, int valuesCount, double *valuesOut)
 
bool isDefinedAtLocation (const Fieldcache &cache)
 
int smooth (const Fieldsmoothing &fieldsmoothing)
 
FieldComponent castComponent ()
 
FieldEdgeDiscontinuity castEdgeDiscontinuity ()
 
FieldEigenvalues castEigenvalues ()
 
FieldElementGroup castElementGroup ()
 
FieldFindMeshLocation castFindMeshLocation ()
 
FieldFiniteElement castFiniteElement ()
 
FieldGroup castGroup ()
 
FieldImage castImage ()
 
FieldImagefilterBinaryThreshold castImagefilterBinaryThreshold ()
 
FieldImagefilterDiscreteGaussian castImagefilterDiscreteGaussian ()
 
FieldImagefilterHistogram castImagefilterHistogram ()
 
FieldImagefilterThreshold castImagefilterThreshold ()
 
FieldMeshIntegral castMeshIntegral ()
 
FieldNodeGroup castNodeGroup ()
 
FieldStoredMeshLocation castStoredMeshLocation ()
 
FieldStoredString castStoredString ()
 
- Protected Attributes inherited from OpenCMISS::Zinc::Field
cmzn_field_id id
 

Detailed Description

A "fibre axes" field type which returns a 9-component (3 x 3 vector) field representing an orthonormal coordinate system which is rotated by 3 Euler angles supplied by a fibre field.

A "fibre axes" field type which returns a 9-component (3 x 3 vector) field representing an orthonormal coordinate system which is rotated by 3 Euler angles supplied by a fibre field. Three resulting 3 axes are: fibre = fibre direction sheet = fibre normal in the plane of the sheet normal = normal to the fibre sheet Both the fibre and coordinate fields must have no more than 3 components. The fibre field is expected to have a FIBRE coordinate_system, although this is not enforced. Note that this initial orientation of the coordinate system (i.e. for all Euler angles zero) is right handed coordinate system: fibre axis = aligned with d(coordinates)/dxi1 sheet axis = in plane of fibre axis and d(coordinates)/dxi2 but corrected to be closest vector to d(coordinates)/dxi2 which is normal to fibre axes. normal axis = cross product fibre (x) sheet How the components of the fibre angles rotate the above system is described with the FIBRE coordinate system.


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