/usr/include/CCfits/Keyword.h is in libccfits-dev 2.4+dfsg-5.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// NASA/ Goddard Space Flight Center
// HEASARC
// http://heasarc.gsfc.nasa.gov
// e-mail: ccfits@legacy.gsfc.nasa.gov
//
// Original author: Ben Dorman
#ifndef KEYWORD_H
#define KEYWORD_H 1
#include "CCfits.h"
// using namespace CCfits;
#ifdef _MSC_VER
#include "MSconfig.h"
#endif
// FitsError
#include "FitsError.h"
namespace CCfits {
class HDU;
} // namespace CCfits
namespace CCfits {
/*! \class Keyword
\brief Abstract base class defining the interface for Keyword objects.
Keyword object creation is normally performed inside FITS constructors or
FITS::read, HDU::readKey, and HDU::addKey functions. Output is performed
in HDU::addKey functions and Keyword::setValue.
Keywords consists of a name, a value and a comment field. Concrete templated
subclasses, KeyData<T>, have a data member that holds the value of keyword.
Typically, the mandatory keywords for a given HDU type are not stored as
object of type Keyword, but as intrinsic data types. The Keyword hierarchy
is used to store user-supplied information.
*/
/*! \fn Keyword::Keyword(const Keyword &right);
\brief copy constructor
*/
/*! \fn Keyword::Keyword (const String &keyname, ValueType keytype, HDU* p, const String &comment = "");
\brief Keyword constructor.
This is the common behavior of Keywords of any type. Constructor is protected
as the class is abstract.
*/
/* \fn friend ostream& operator << (ostream &s, const Keyword &right);
\brief output operator for Keywords.
*/
/*! \fn virtual Keyword::~Keyword();
\brief virtual destructor
*/
/*! \fn Keyword & Keyword::operator=(const Keyword &right);
\brief assignment operator
*/
/*! \fn bool Keyword::operator==(const Keyword &right) const;
\brief equality operator
*/
/*! \fn bool Keyword::operator!=(const Keyword &right) const;
\brief inequality operator
*/
/*! \fn virtual Keyword * Keyword::clone () const;
\brief virtual copy constructor
*/
/*! \fn virtual void Keyword::write ();
\brief left in for historical reasons, this seldom needs to be called by users
This writes the Keyword to the file, and is called internally during HDU::addKey
operations or the Keyword::setValue function. It shouldn't normally need to be
called explicitly.
*/
/*! \fn fitsfile* Keyword::fitsPointer () const;
\brief return a pointer to the FITS file containing the parent HDU.
*/
/*! \fn const HDU* Keyword::parent () const;
\brief return a pointer to parent HDU.
*/
/*! \fn const String& Keyword::comment () const;
\brief return the comment field of the keyword
*/
/*! \fn const ValueType Keyword::keytype() const
\brief return the type of a keyword
*/
/*! \fn void Keyword::keytype(ValueType)
\brief set keyword type.
*/
/*! \fn const String& Keyword::name() const
\brief return the name of a keyword
*/
/*! \fn template <typename T> T& Keyword::value(T& val) const
\brief get the keyword value
\param val (T) Will be filled with the keyword value, and is also the function return value.
<b>Allowed T types:</b> CCfits stores keyword values of type U in a templated subclass of
Keyword, <b>KeyData<U></b>. Normally U is set when reading the Keyword in from the file,
and is limited to types int, double, string, bool, and complex<float>.
(The exception is when the user has created and added a new Keyword using an
HDU::addKey function, in which case they might have specified other types for U.)
To avoid compilation errors, the user should generally try to provide a <i>val</i>
of type T = type U, though there is some flexibility here as the following conversions
are handled:
<TABLE BORDER=0>
<tr><td><b>T</b> (to val)</td><td><b>U</b> (from Keyword obj)</td></tr>
<tr><td>float</td><td>double (will lose precision), float, int, integer string</td></tr>
<tr><td>double</td><td>double, float, int, integer string</td></tr>
<tr><td>int</td><td>int, integer string</td></tr>
</TABLE>
More conversions may be added in the future as the need arises.
*/
/*! \fn template <typename T> void Keyword::setValue(const T& newValue)
\brief modify the value of an existing Keyword and write it to the file
\param newValue (T) New value for the Keyword
<b>Allowed T types:</b> This must copy <i>newValue</i> to a data member of type U in the
Keyword subclass <b>KeyData<U></b> (see description for Keyword::value (T& val) for more
details). To avoid compilation errors, it is generally best to provide a <i>newValue</i>
of type T = type U, though the following type conversions will also be handled:
<TABLE BORDER=0>
<tr><td><b>T</b> (from newValue)</td><td><b>U</b> (to Keyword obj)</td></tr>
<tr><td>float</td><td>double, float</td></tr>
<tr><td>double</td><td>double, float (will lose precision)</td></tr>
<tr><td>int</td><td>double, float, int, integer string</td></tr>
</TABLE>
*/
class Keyword
{
public:
class WrongKeywordValueType : public FitsException //## Inherits: <unnamed>%39B0221700E2
{
public:
WrongKeywordValueType (const String& diag, bool silent = true);
protected:
private:
private: //## implementation
};
virtual ~Keyword();
Keyword & operator=(const Keyword &right);
bool operator==(const Keyword &right) const;
bool operator!=(const Keyword &right) const;
virtual std::ostream & put (std::ostream &s) const = 0;
virtual Keyword * clone () const = 0;
virtual void write ();
fitsfile* fitsPointer () const;
// CAUTION: This is declared public only to allow HDU addKey functions the ability to set their
// class as the Keyword's parent, and to avoid making entire HDU a friend class. (Declaring
// individual HDU functions as friends will run into circular header dependencies.) Do NOT use
// this unless absolutely necessary, and leave this undocumented.
void setParent (HDU* parent);
ValueType keytype () const;
const String& comment () const;
const String& name () const;
public:
// Additional Public Declarations
template <typename T>
T& value(T& val) const;
template <typename T>
void setValue(const T& newValue);
protected:
Keyword(const Keyword &right);
Keyword (const String &keyname, ValueType keytype, HDU* p, const String &comment = "");
virtual void copy (const Keyword& right);
virtual bool compare (const Keyword &right) const;
void keytype (ValueType value);
const HDU* parent () const;
// Additional Protected Declarations
private:
// Additional Private Declarations
private: //## implementation
// Data Members for Class Attributes
ValueType m_keytype;
// Data Members for Associations
HDU* m_parent;
String m_comment;
String m_name;
// Additional Implementation Declarations
friend std::ostream &operator << (std::ostream &s, const Keyword &right);
};
#ifndef SPEC_TEMPLATE_IMP_DEFECT
#ifndef SPEC_TEMPLATE_DECL_DEFECT
template <> float& Keyword::value(float& val) const;
template <> double& Keyword::value(double& val) const;
template <> int& Keyword::value(int& val) const;
template <> void Keyword::setValue(const float& newValue);
template <> void Keyword::setValue(const double& newValue);
template <> void Keyword::setValue(const int& newValue);
#endif
#endif
inline std::ostream& operator << (std::ostream &s, const Keyword &right)
{
return right.put(s);
}
// Class CCfits::Keyword::WrongKeywordValueType
// Class CCfits::Keyword
inline void Keyword::setParent (HDU* parent)
{
m_parent = parent;
}
inline ValueType Keyword::keytype () const
{
return m_keytype;
}
inline void Keyword::keytype (ValueType value)
{
m_keytype = value;
}
inline const HDU* Keyword::parent () const
{
return m_parent;
}
inline const String& Keyword::comment () const
{
return m_comment;
}
inline const String& Keyword::name () const
{
return m_name;
}
} // namespace CCfits
#endif
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