/usr/include/CCfits/PrimaryHDU.h is in libccfits-dev 2.4+dfsg-3.
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 PRIMARYHDU_H
#define PRIMARYHDU_H 1
// valarray
#include <valarray>
// PHDU
#include "PHDU.h"
// HDUCreator
#include "HDUCreator.h"
// Image
#include "Image.h"
// FITS
#include "FITS.h"
#include "CCfits.h"
#include <functional>
#include <numeric>
#include <memory>
namespace CCfits {
template <typename T>
class PrimaryHDU : public PHDU //## Inherits: <unnamed>%394E6F870338
{
public:
virtual PrimaryHDU<T> * clone (FITSBase* p) const;
// Read data reads the image if readFlag is true and
// optional keywords if supplied. Thus, with no arguments,
// readData() does nothing.
virtual void readData (bool readFlag = false, const std::vector<String>& keys = std::vector<String>());
const std::valarray<T>& image () const;
std::valarray<T>& image ();
void setImage (const std::valarray<T>& inData);
// Read data reads the image if readFlag is true and
// optional keywords if supplied. Thus, with no arguments,
// readData() does nothing.
virtual const std::valarray<T>& readImage (long first, long nElements, T* nullValue);
// Read data reads the image if readFlag is true and
// optional keywords if supplied. Thus, with no arguments,
// readData() does nothing.
virtual const std::valarray<T>& readImage (const std::vector<long>& firstVertex, const std::vector<long>& lastVertex, const std::vector<long>& stride, T* nullValue);
// Read data reads the image if readFlag is true and
// optional keywords if supplied. Thus, with no arguments,
// readData() does nothing.
virtual void writeImage (long first, long nElements, const std::valarray<T>& inData, T* nullValue = 0);
// Read data reads the image if readFlag is true and
// optional keywords if supplied. Thus, with no arguments,
// readData() does nothing.
virtual void writeImage (const std::vector<long>& firstVertex, const std::vector<long>& lastVertex, const std::vector<long>& stride, const std::valarray<T>& inData);
// Additional Public Declarations
protected:
// Constructor for new FITS objects, takes as arguments
// the required keywords for a primary HDU.
PrimaryHDU (FITSBase* p, const int bitpix, const int naxis, const std::vector<long>& naxes, const std::valarray<T>& data = std::valarray<T>());
// Custom constructor. Allows specification of data to be read and whether to read data at
// construction or wait until the image data are requested. The default is 'lazy initialization:'
// wait until asked.
PrimaryHDU (FITSBase* p, bool readFlag = false, const std::vector<String>& keys = std::vector<String>());
// Additional Protected Declarations
private:
PrimaryHDU(const PrimaryHDU< T > &right);
PrimaryHDU< T > & operator=(const PrimaryHDU< T > &right);
virtual std::ostream & put (std::ostream &s) const;
const Image<T>& data () const;
// Additional Private Declarations
private: //## implementation
// Data Members for Associations
Image<T> m_data;
// Additional Implementation Declarations
friend class HDUCreator;
friend class PHDU;
};
// Parameterized Class CCfits::PrimaryHDU
template <typename T>
inline std::ostream & PrimaryHDU<T>::put (std::ostream &s) const
{
s << "PrimaryHDU:: Simple? " << simple() << " Extend?: " << extend() <<
" Bitpix: " << bitpix() << " naxis = " << axes() << "\n";
s << "Axis Lengths: \n";
for (int i=0; i < axes(); i++)
s << " axis[" << i << "] " << axis(i) << "\n";
s << "\nNumber of keywords read: " << keyWord().size() << "\n";
for (std::map<String,Keyword*>::const_iterator ki = keyWord().begin();
ki != keyWord().end(); ki++)
{
s << *((*ki).second) << std::endl;
}
s << " HISTORY: " << history() << '\n';
s << " COMMENTS: " <<comment() << '\n';
return s;
}
template <typename T>
inline const Image<T>& PrimaryHDU<T>::data () const
{
return m_data;
}
// Parameterized Class CCfits::PrimaryHDU
template <typename T>
PrimaryHDU<T>::PrimaryHDU(const PrimaryHDU<T> &right)
: PHDU(right), m_data(right.m_data)
{
}
template <typename T>
PrimaryHDU<T>::PrimaryHDU (FITSBase* p, const int bitpix, const int naxis, const std::vector<long>& naxes, const std::valarray<T>& data)
: PHDU(p,bitpix,naxis,naxes),m_data(data)
{
}
template <typename T>
PrimaryHDU<T>::PrimaryHDU (FITSBase* p, bool readFlag, const std::vector<String>& keys)
: PHDU(p), m_data()
{
initRead();
if (readFlag || keys.size()) readData(readFlag,keys);
}
template <typename T>
PrimaryHDU<T> * PrimaryHDU<T>::clone (FITSBase* p) const
{
PrimaryHDU<T>* cloned = new PrimaryHDU<T>(*this);
cloned->parent() = p;
return cloned;
}
template <typename T>
void PrimaryHDU<T>::readData (bool readFlag, const std::vector<String>& keys)
{
// Default reading mode. Read everything if readFlag is true.
makeThisCurrent();
if ( keys.size() > 0)
{
std::list<String> keyList(keys.size());
// keys is converted to a list so that any keys not in the header
// can be easily erased. internally an exception will be thrown,
// on a missing key, and its catch clause will print a message.
std::copy(keys.begin(),keys.end(),keyList.begin());
readKeywords(keyList);
}
// read the entire image, setting null values to the
// return value from FitsNullValue<T>. It would be easy to make the null value
// a user defined input, but that's not implemented yet.
if ( readFlag && (naxis() > 0) )
{
FITSUtil::FitsNullValue<T> null;
long init(1);
T nulValue(null());
long nelements(std::accumulate(naxes().begin(),naxes().end(),init,std::multiplies<long>() ));
readImage(1,nelements,&nulValue);
}
}
template <typename T>
const std::valarray<T>& PrimaryHDU<T>::image () const
{
return m_data.image();
}
template <typename T>
std::valarray<T>& PrimaryHDU<T>::image ()
{
return m_data.image();
}
template <typename T>
void PrimaryHDU<T>::setImage (const std::valarray<T>& inData)
{
m_data.image().resize(inData.size());
m_data.setImage(inData);
}
template <typename T>
const std::valarray<T>& PrimaryHDU<T>::readImage (long first, long nElements, T* nullValue)
{
makeThisCurrent();
return m_data.readImage(fitsPointer(),first,nElements,nullValue,naxes(),anynul());
}
template <typename T>
const std::valarray<T>& PrimaryHDU<T>::readImage (const std::vector<long>& firstVertex, const std::vector<long>& lastVertex, const std::vector<long>& stride, T* nullValue)
{
makeThisCurrent();
return m_data.readImage(fitsPointer(),firstVertex,lastVertex,stride,nullValue,naxes(),anynul());
}
template <typename T>
void PrimaryHDU<T>::writeImage (long first, long nElements, const std::valarray<T>& inData, T* nullValue)
{
m_data.writeImage(fitsPointer(),first,nElements,inData,naxes(),nullValue);
}
template <typename T>
void PrimaryHDU<T>::writeImage (const std::vector<long>& firstVertex, const std::vector<long>& lastVertex, const std::vector<long>& stride, const std::valarray<T>& inData)
{
m_data.writeImage(fitsPointer(),firstVertex,lastVertex,stride,inData,naxes());
}
// Additional Declarations
} // namespace CCfits
#endif
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