Cavities¶
We will here describe the inheritance hierarchy for generating cavities, in order to use and extend it properly. The runtime creation of cavity objects relies on the Factory Method pattern [GHJV94][Ale01], implemented through the generic Factory class.
Cavity¶

class
Cavity
¶ Abstract Base Class for cavities.
This class represents a cavity made of spheres, its surface being discretized in terms of finite elements.
 Author
 Krzysztof Mozgawa
 Date
 2011
Subclassed by GePolCavity, RestartCavity
Public Functions

Cavity
()¶ Default constructor.

Cavity
(const Sphere &sph)¶ Constructor from a single sphere.
Only used when we have to deal with a single sphere, i.e. in the unit tests
 Parameters
sph
the sphere

Cavity
(const std::vector<Sphere> &sph)¶ Constructor from list of spheres.
Only used when we have to deal with a single sphere, i.e. in the unit tests
 Parameters
sph
the list of spheres

Cavity
(const Molecule &molec)¶ Constructor from Molecule.
 Parameters
molec
the molecular aggregate

virtual void
saveCavity
(const std::string &fname = "cavity.npz")¶ Save cavity specification to file.
The cavity specification contains: 0. the number of finite elements, nElements;
 the weight of the finite elements, elementArea;
 the radius of the finite elements, elementRadius;
 the centers of the finite elements, elementCenter;
 the normal vectors relative to the centers, elementNormal. Each of these objects is saved in a separate .npy binary file and compressed into one .npz file. Notice that this is just the minimal set of data needed to restart an energy calculation.

virtual void
loadCavity
(const std::string &fname = "cavity.npz")¶ Load cavity specification from file.
Protected Attributes

PCMSolverIndex
nElements_
¶ Number of finite elements generated.

PCMSolverIndex
nIrrElements_
¶ Number of irreducible finite elements.

bool
built
¶ Whether the cavity has been built.

Eigen::Matrix3Xd
elementCenter_
¶ Coordinates of elements centers.

Eigen::Matrix3Xd
elementNormal_
¶ Outwardpointing normal vectors to the elements centers.

Eigen::VectorXd
elementArea_
¶ Elements areas.

int
nSpheres_
¶ Number of spheres.

Eigen::Matrix3Xd
elementSphereCenter_
¶ Centers of the sphere the elements belong to.

Eigen::VectorXd
elementRadius_
¶ Radii of the sphere the elements belong to.

Eigen::Matrix3Xd
sphereCenter_
¶ Spheres centers.

Eigen::VectorXd
sphereRadius_
¶ Spheres radii.

std::vector<Element>
elements_
¶ List of finite elements.
Private Functions

virtual void
makeCavity
() = 0¶ Creates the cavity and discretizes its surface.
Has to be implemented by classes lower down in the inheritance hierarchy
GePolCavity¶

class
GePolCavity
¶ A class for GePol cavity.
This class is an interface to the Fortran code PEDRA for the generation of cavities according to the GePol algorithm.
 Author
 Krzysztof Mozgawa, Roberto Di Remigio
 Date
 2011, 2016
Inherits from Cavity
Private Functions

virtual void
makeCavity
()¶ Creates the cavity and discretizes its surface.
Has to be implemented by classes lower down in the inheritance hierarchy

void
build
(const std::string &suffix, int maxts, int maxsp, int maxvert)¶ Driver for PEDRA Fortran module.
 Parameters
suffix
for the cavity.off and PEDRA.OUT files, the PID will also be added
maxts
maximum number of tesserae
maxsp
maximum number of spheres (original + added)
maxvert
maximum number of vertices

void
writeOFF
(const std::string &suffix)¶ Writes the cavity.off file for visualizing the cavity.
 Parameters
suffix
for the cavity.off The full name of the visualization file will be cavity.off_suffix_PID