Pscf::Cpc::Solvent< D > Class Template Reference

Solver and descriptor for a solvent species. More...

#include <Solvent.h>

Inheritance diagram for Pscf::Cpc::Solvent< D >:

Public Types
using	Base = SolventSpecies< std::complex<double> >
	Direct base class, a specialization of Pscf::SolventSpecies.
using	SpeciesT = SolventSpecies< std::complex<double> >
	Indirect base, a specialization of Pscf::Species.
Public Types inherited from Util::Serializable
typedef BinaryFileOArchive	OArchive
	Type of output archive used by save method.
typedef BinaryFileIArchive	IArchive
	Type of input archive used by load method.

Public Member Functions
	Solvent ()
	Constructor.
	~Solvent ()
	Destructor.
void	associate (Mesh< D > const &mesh)
	Create an association with the mesh.
void	allocate ()
	Allocate memory for concentrationf field.
void	compute (CField< D > const &wField)
	Compute monomer concentration field, q and phi and/or mu.
CField< D > const &	cField () const
	Get the monomer concentration field for this solvent.
int	monomerId () const
	Get the monomer type id.
double	size () const
	Get the size (number of monomers) in this solvent.
Public Member Functions inherited from Pscf::SolventSpecies< std::complex< double > >
	SolventSpecies ()
	Constructor.
virtual	~SolventSpecies ()=default
	Destructor.
virtual void	readParameters (std::istream &in)
	Read parameters and initialize.
void	setMonomerId (int monomerId)
	Set the monomer id for this solvent.
void	setSize (double size)
	Set the molecular volume of this solvent species.
int	monomerId () const
	Get the monomer type id.
double	size () const
	Get the size (number of monomers) in this solvent.
Public Member Functions inherited from Pscf::Species< std::complex< double > >
	Species ()
	Constructor.
virtual	~Species ()=default
	Destructor.
std::complex< double >	phi () const
	Get the overall volume fraction for this species.
std::complex< double >	mu () const
	Get the chemical potential for this species (units kT=1).
std::complex< double >	q () const
	Get the molecular partition function for this species.
Ensemble	ensemble () const
	Get the statistical ensemble for this species (open or closed).
void	setPhi (double phi)
	Set value of phi (volume fraction), if ensemble is closed.
void	setMu (double mu)
	Set value of mu (chemical potential), if ensemble is closed.
Public Member Functions inherited from Util::ParamComposite
	ParamComposite ()
	Constructor.
	ParamComposite (const ParamComposite &other)
	Copy constructor.
	ParamComposite (int capacity)
	Constructor.
virtual	~ParamComposite ()
	Virtual destructor.
void	resetParam ()
	Resets ParamComposite to its empty state.
virtual void	readParam (std::istream &in)
	Read the parameter file block.
virtual void	readParamOptional (std::istream &in)
	Read optional parameter file block.
virtual void	writeParam (std::ostream &out) const
	Write all parameters to an output stream.
virtual void	load (Serializable::IArchive &ar)
	Load all parameters from an input archive.
virtual void	loadOptional (Serializable::IArchive &ar)
	Load an optional ParamComposite.
virtual void	loadParameters (Serializable::IArchive &ar)
	Load state from archive, without adding Begin and End lines.
virtual void	save (Serializable::OArchive &ar)
	Saves all parameters to an archive.
void	saveOptional (Serializable::OArchive &ar)
	Saves isActive flag, and then calls save() iff isActive is true.
void	readParamComposite (std::istream &in, ParamComposite &child, bool next=true)
	Add and read a required child ParamComposite.
void	readParamCompositeOptional (std::istream &in, ParamComposite &child, bool next=true)
	Add and attempt to read an optional child ParamComposite.
template<typename Type>
ScalarParam< Type > &	read (std::istream &in, const char *label, Type &value)
	Add and read a new required ScalarParam < Type > object.
template<typename Type>
ScalarParam< Type > &	readOptional (std::istream &in, const char *label, Type &value)
	Add and read a new optional ScalarParam < Type > object.
template<typename Type>
CArrayParam< Type > &	readCArray (std::istream &in, const char *label, Type *value, int n)
	Add and read a required C array parameter.
template<typename Type>
CArrayParam< Type > &	readOptionalCArray (std::istream &in, const char *label, Type *value, int n)
	Add and read an optional C array parameter.
template<typename Type>
DArrayParam< Type > &	readDArray (std::istream &in, const char *label, DArray< Type > &array, int n)
	Add and read a required DArray < Type > parameter.
template<typename Type>
DArrayParam< Type > &	readOptionalDArray (std::istream &in, const char *label, DArray< Type > &array, int n)
	Add and read an optional DArray < Type > parameter.
template<typename Type, int N>
FArrayParam< Type, N > &	readFArray (std::istream &in, const char *label, FArray< Type, N > &array)
	Add and read a required FArray < Type, N > array parameter.
template<typename Type, int N>
FArrayParam< Type, N > &	readOptionalFArray (std::istream &in, const char *label, FArray< Type, N > &array)
	Add and read an optional FArray < Type, N > array parameter.
template<typename Type, int N>
FSArrayParam< Type, N > &	readFSArray (std::istream &in, const char *label, FSArray< Type, N > &array, int size)
	Add and read a required FSArray < Type, N > array parameter.
template<typename Type, int N>
FSArrayParam< Type, N > &	readOptionalFSArray (std::istream &in, const char *label, FSArray< Type, N > &array, int size)
	Add and read an optional FSArray < Type, N > array parameter.
template<typename Type>
CArray2DParam< Type > &	readCArray2D (std::istream &in, const char *label, Type *value, int m, int n, int np)
	Add and read a required CArray2DParam < Type > 2D C-array.
template<typename Type>
CArray2DParam< Type > &	readOptionalCArray2D (std::istream &in, const char *label, Type *value, int m, int n, int np)
	Add and read an optional CArray2DParam < Type > 2D C-array parameter.
template<typename Type>
DMatrixParam< Type > &	readDMatrix (std::istream &in, const char *label, DMatrix< Type > &matrix, int m, int n)
	Add and read a required DMatrix < Type > matrix parameter.
template<typename Type>
DMatrixParam< Type > &	readOptionalDMatrix (std::istream &in, const char *label, DMatrix< Type > &matrix, int m, int n)
	Add and read an optional DMatrix < Type > matrix parameter.
template<typename Type>
DSymmMatrixParam< Type > &	readDSymmMatrix (std::istream &in, const char *label, DMatrix< Type > &matrix, int n)
	Add and read a required symmetrix DMatrix.
template<typename Type>
DSymmMatrixParam< Type > &	readOptionalDSymmMatrix (std::istream &in, const char *label, DMatrix< Type > &matrix, int n)
	Add and read an optional DMatrix matrix parameter.
Begin &	readBegin (std::istream &in, const char *label, bool isRequired=true)
	Add and read a class label and opening bracket.
End &	readEnd (std::istream &in)
	Add and read the closing bracket.
Blank &	readBlank (std::istream &in)
	Add and read a new Blank object, representing a blank line.
void	loadParamComposite (Serializable::IArchive &ar, ParamComposite &child, bool next=true)
	Add and load a required child ParamComposite.
void	loadParamCompositeOptional (Serializable::IArchive &ar, ParamComposite &child, bool next=true)
	Add and load an optional child ParamComposite if isActive.
template<typename Type>
ScalarParam< Type > &	loadParameter (Serializable::IArchive &ar, const char *label, Type &value, bool isRequired)
	Add and load a new ScalarParam < Type > object.
template<typename Type>
ScalarParam< Type > &	loadParameter (Serializable::IArchive &ar, const char *label, Type &value)
	Add and load new required ScalarParam < Type > object.
template<typename Type>
CArrayParam< Type > &	loadCArray (Serializable::IArchive &ar, const char *label, Type *value, int n, bool isRequired)
	Add a C array parameter and load its elements.
template<typename Type>
CArrayParam< Type > &	loadCArray (Serializable::IArchive &ar, const char *label, Type *value, int n)
	Add and load a required CArrayParam< Type > array parameter.
template<typename Type>
DArrayParam< Type > &	loadDArray (Serializable::IArchive &ar, const char *label, DArray< Type > &array, int n, bool isRequired)
	Add an load a DArray < Type > array parameter.
template<typename Type>
DArrayParam< Type > &	loadDArray (Serializable::IArchive &ar, const char *label, DArray< Type > &array, int n)
	Add and load a required DArray< Type > array parameter.
template<typename Type, int N>
FArrayParam< Type, N > &	loadFArray (Serializable::IArchive &ar, const char *label, FArray< Type, N > &array, bool isRequired)
	Add and load an FArray < Type, N > fixed-size array parameter.
template<typename Type, int N>
FArrayParam< Type, N > &	loadFArray (Serializable::IArchive &ar, const char *label, FArray< Type, N > &array)
	Add and load a required FArray < Type > array parameter.
template<typename Type, int N>
FSArrayParam< Type, N > &	loadFSArray (Serializable::IArchive &ar, const char *label, FSArray< Type, N > &array, int size, bool isRequired)
	Add and load an FSArray < Type, N > array parameter.
template<typename Type, int N>
FSArrayParam< Type, N > &	loadFSArray (Serializable::IArchive &ar, const char *label, FSArray< Type, N > &array, int size)
	Add and load a required FSArray < Type > array parameter.
template<typename Type>
CArray2DParam< Type > &	loadCArray2D (Serializable::IArchive &ar, const char *label, Type *value, int m, int n, int np, bool isRequired)
	Add and load a CArray2DParam < Type > C 2D array parameter.
template<typename Type>
CArray2DParam< Type > &	loadCArray2D (Serializable::IArchive &ar, const char *label, Type *value, int m, int n, int np)
	Add and load a required < Type > matrix parameter.
template<typename Type>
DMatrixParam< Type > &	loadDMatrix (Serializable::IArchive &ar, const char *label, DMatrix< Type > &matrix, int m, int n, bool isRequired)
	Add and load a DMatrixParam < Type > matrix parameter.
template<typename Type>
DMatrixParam< Type > &	loadDMatrix (Serializable::IArchive &ar, const char *label, DMatrix< Type > &matrix, int m, int n)
	Add and load a required DMatrixParam < Type > matrix parameter.
template<typename Type>
DSymmMatrixParam< Type > &	loadDSymmMatrix (Serializable::IArchive &ar, const char *label, DMatrix< Type > &matrix, int n, bool isRequired)
	Add and load a symmetric DSymmMatrixParam < Type > matrix parameter.
template<typename Type>
DSymmMatrixParam< Type > &	loadDSymmMatrix (Serializable::IArchive &ar, const char *label, DMatrix< Type > &matrix, int n)
	Add and load a required DSymmMatrixParam < Type > matrix parameter.
void	addParamComposite (ParamComposite &child, bool next=true)
	Add a child ParamComposite object to the format array.
Begin &	addBegin (const char *label)
	Add a Begin object representing a class name and bracket.
End &	addEnd ()
	Add a closing bracket.
Blank &	addBlank ()
	Create and add a new Blank object, representing a blank line.
std::string	className () const
	Get class name string.
bool	isRequired () const
	Is this ParamComposite required in the input file?
bool	isActive () const
	Is this parameter active?
Public Member Functions inherited from Util::ParamComponent
virtual	~ParamComponent ()
	Destructor.
void	setIndent (const ParamComponent &parent, bool next=true)
	Set indent level.
std::string	indent () const
	Return indent string for this object (string of spaces).
template<class Archive>
void	serialize (Archive &ar, const unsigned int version)
	Serialize this ParamComponent as a string.
Public Member Functions inherited from Util::Serializable
virtual	~Serializable ()
	Destructor.
Public Member Functions inherited from Util::MpiFileIo
	MpiFileIo ()
	Constructor.
	MpiFileIo (const MpiFileIo &other)
	Copy constructor.
bool	isIoProcessor () const
	Can this processor do file I/O ?

Additional Inherited Members
Static Public Member Functions inherited from Util::ParamComponent
static void	initStatic ()
	Initialize static echo member to false.
static void	setEcho (bool echo=true)
	Enable or disable echoing for all subclasses of ParamComponent.
static bool	echo ()
	Get echo parameter.
Protected Member Functions inherited from Pscf::Species< std::complex< double > >
void	setQ (std::complex< double > q)
	Set q and compute phi or mu (depending on the ensemble).
void	setClassName (const char *className)
	Set class name string.
void	setIsRequired (bool isRequired)
	Set or unset the isActive flag.
void	setIsActive (bool isActive)
	Set or unset the isActive flag.
void	setParent (ParamComponent &param, bool next=true)
	Set this to the parent of a child component.
void	addComponent (ParamComponent &param, bool isLeaf=true)
	Add a new ParamComponent object to the format array.
template<typename Type>
ScalarParam< Type > &	add (std::istream &in, const char *label, Type &value, bool isRequired=true)
	Add a new required ScalarParam < Type > object.
template<typename Type>
CArrayParam< Type > &	addCArray (std::istream &in, const char *label, Type *value, int n, bool isRequired=true)
	Add (but do not read) a required C array parameter.
template<typename Type>
DArrayParam< Type > &	addDArray (std::istream &in, const char *label, DArray< Type > &array, int n, bool isRequired=true)
	Add (but do not read) a DArray < Type > parameter.
template<typename Type, int N>
FArrayParam< Type, N > &	addFArray (std::istream &in, const char *label, FArray< Type, N > &array, bool isRequired=true)
	Add (but do not read) a FArray < Type, N > array parameter.
template<typename Type, int N>
FSArrayParam< Type, N > &	addFSArray (std::istream &in, const char *label, FSArray< Type, N > &array, int size, bool isRequired=true)
	Add (but do not read) a FSArray < Type, N > array parameter.
template<typename Type>
CArray2DParam< Type > &	addCArray2D (std::istream &in, const char *label, Type *value, int m, int n, int np, bool isRequired=true)
	Add (but do not read) a CArray2DParam < Type > 2D C-array.
template<typename Type>
DMatrixParam< Type > &	addDMatrix (std::istream &in, const char *label, DMatrix< Type > &matrix, int m, int n, bool isRequired=true)
	Add and read a required DMatrix < Type > matrix parameter.
Protected Member Functions inherited from Util::ParamComponent
	ParamComponent ()
	Constructor.
	ParamComponent (const ParamComponent &other)
	Copy constructor.

Detailed Description

template<int D>
class Pscf::Cpc::Solvent< D >

Solver and descriptor for a solvent species.

Manual Page

Definition at line 34 of file cpc/solvers/Solvent.h.

Member Typedef Documentation

Base

template<int D>

using Pscf::Cpc::Solvent< D >::Base = SolventSpecies< std::complex<double> >

Direct base class, a specialization of Pscf::SolventSpecies.

Definition at line 43 of file cpc/solvers/Solvent.h.

SpeciesT

template<int D>

using Pscf::Cpc::Solvent< D >::SpeciesT = SolventSpecies< std::complex<double> >

Indirect base, a specialization of Pscf::Species.

Definition at line 46 of file cpc/solvers/Solvent.h.

Constructor & Destructor Documentation

Solvent()

template<int D>

Pscf::Cpc::Solvent< D >::Solvent

(

)

Constructor.

Definition at line 22 of file cpc/solvers/Solvent.tpp.

References Util::ParamComposite::setClassName(), and Pscf::SolventSpecies< std::complex< double > >::SolventSpecies().

~Solvent()

template<int D>

Pscf::Cpc::Solvent< D >::~Solvent

(

)

Destructor.

Definition at line 31 of file cpc/solvers/Solvent.tpp.

Member Function Documentation

associate()

template<int D>

void Pscf::Cpc::Solvent< D >::associate

(

Mesh< D > const &

mesh

)

Create an association with the mesh.

Parameters

mesh	associated Mesh<D> object

Definition at line 38 of file cpc/solvers/Solvent.tpp.

allocate()

template<int D>

void Pscf::Cpc::Solvent< D >::allocate

(

)

Allocate memory for concentrationf field.

Definition at line 45 of file cpc/solvers/Solvent.tpp.

References UTIL_CHECK.

compute()

template<int D>

void Pscf::Cpc::Solvent< D >::compute

(

CField< D > const &

wField

)

Compute monomer concentration field, q and phi and/or mu.

Computes monomer concentration field cField, partition function q, and either the solvent volume fraction phi or solvent chemical potential mu, depending on ensemble. The function takes the chemical potential field wField for the relevant monomer type as its only input argument.

Parameters

wField

monomer chemical potential field of relevant type.

Definition at line 55 of file cpc/solvers/Solvent.tpp.

References Pscf::addEq(), Pscf::assign(), Pscf::assignExp(), Util::Array< Data >::capacity(), Pscf::div(), Pscf::divEq(), Pscf::mul(), Pscf::mulEq(), Pscf::Species< std::complex< double > >::phi(), Pscf::Species< std::complex< double > >::setQ(), size(), and UTIL_CHECK.

cField()

template<int D>

CField< D > const & Pscf::Cpc::Solvent< D >::cField ( ) const

inline

Get the monomer concentration field for this solvent.

Definition at line 119 of file cpc/solvers/Solvent.h.

monomerId()

template<int D>

int Pscf::SolventSpecies< std::complex< double > >::monomerId

(

)

const

Get the monomer type id.

size()

template<int D>

double Pscf::SolventSpecies< std::complex< double > >::size

(

)

const

Get the size (number of monomers) in this solvent.

Referenced by compute(), and Pscf::Cpc::Simulator< D >::computeHamiltonian().

---

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

• cpc/solvers/Mixture.h
• cpc/solvers/Solvent.h
• cpc/solvers/Solvent.tpp