This file is indexed.

/usr/include/elektra/keyset.hpp is in libelektra-dev 0.8.7-4.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

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#ifndef ELEKTRA_KEYSET_HPP
#define ELEKTRA_KEYSET_HPP

#include <string>

#include <key.hpp>

#include <kdb.h>

namespace kdb
{

class KeySetIterator;
class KeySetReverseIterator;

/**
 * @brief A keyset holds together a set of keys.
 *
 * @copydoc keyset
 *
 * \invariant always holds an underlying elektra keyset.
 *
 * \note that the cursor is mutable,
 * so it might be changed even in const functions
 * as described.
 * */
class KeySet
{
public:
	inline KeySet();
	inline KeySet(ckdb::KeySet *k);
	inline KeySet(const KeySet &other);

	inline explicit KeySet(size_t alloc, va_list ap);
	inline explicit KeySet(size_t alloc, ...);

	inline ~KeySet ();

	ckdb::KeySet * release();

	ckdb::KeySet * getKeySet() const;
	void setKeySet(ckdb::KeySet * k);

	KeySet& operator=(KeySet const& other);

	ssize_t size() const;

	ckdb::KeySet* dup() const;

	void copy(const KeySet &other);
	void clear();

	ssize_t append(const Key &toAppend);
	ssize_t append(const KeySet &toAppend);

	Key head() const;
	Key tail() const;

	void rewind() const;
	Key next() const;
	Key current() const;

	void setCursor(cursor_t cursor) const;
	cursor_t getCursor() const;

	Key pop();

	KeySet cut (Key k);

	Key lookup (const Key &k, const option_t options = KDB_O_NONE) const;
	Key lookup (std::string const & name, const option_t options = KDB_O_NONE) const;
	Key at (cursor_t pos) const;

#ifndef WITHOUT_KEYSET_ITERATOR
	typedef KeySetIterator iterator;
	typedef KeySetIterator const_iterator;
	typedef KeySetReverseIterator reverse_iterator;
	typedef KeySetReverseIterator const_reverse_iterator;

	iterator begin();
	const_iterator begin() const;
	iterator end();
	const_iterator end() const;
	reverse_iterator rbegin();
	const_reverse_iterator rbegin() const;
	reverse_iterator rend();
	const_reverse_iterator rend() const;
#if __cplusplus > 199711L
	const_iterator cbegin() const noexcept;
	const_iterator cend() const noexcept;
	const_reverse_iterator crbegin() const noexcept;
	const_reverse_iterator crend() const noexcept;
#endif
#endif //WITHOUT_KEYSET_ITERATOR

private:
	ckdb::KeySet *ks; ///< holds an elektra keyset
};


#ifndef WITHOUT_KEYSET_ITERATOR
/**
 * For C++ forward Iteration over KeySets.
 * (External Iterator)
 * @code
	for (Key k:ks3)
	{
		std::cout << k.getName() << std::endl;
	}
 * @endcode
 */
class KeySetIterator
{
public:
	typedef Key value_type;
	typedef cursor_t difference_type;
	typedef Key pointer;
	typedef Key reference;
	typedef std::random_access_iterator_tag iterator_category;

	KeySetIterator(KeySet const & k) : ks(k), current() {};
	KeySetIterator(KeySet const & k, const cursor_t c) : ks(k), current(c) {};
	// conversion to const iterator?

	Key get() const { return Key(ckdb::ksAtCursor(ks.getKeySet(), current)); }
	Key get(cursor_t pos) const { return Key(ckdb::ksAtCursor(ks.getKeySet(), pos)); }

	KeySet const & getKeySet() const { return ks; }

	// Forward iterator requirements
	reference operator*() const { return get(); }
	pointer operator->() const { return get(); }
	KeySetIterator& operator++() { ++current; return *this; }
	KeySetIterator operator++(int) { return KeySetIterator(ks, current++); }

	// Bidirectional iterator requirements
	KeySetIterator& operator--() { --current; return *this; }
	KeySetIterator operator--(int) { return KeySetIterator(ks, current--); }

	// Random access iterator requirements
	reference operator[](const difference_type& pos) const { return get(pos); }
	KeySetIterator& operator+=(const difference_type& pos) { current += pos; return *this; }
	KeySetIterator operator+(const difference_type& pos) const { return KeySetIterator(ks, current + pos); }
	KeySetIterator& operator-=(const difference_type& pos) { current -= pos; return *this; }
	KeySetIterator operator-(const difference_type& pos) const { return KeySetIterator(ks, current - pos); }
	const cursor_t& base() const { return current; }

private:
	KeySet const & ks;
	cursor_t current;
};


// Forward iterator requirements
inline bool operator==(const KeySetIterator& lhs, const KeySetIterator& rhs)
{ return &lhs.getKeySet() == &rhs.getKeySet() && lhs.base() == rhs.base(); }

inline bool operator!=(const KeySetIterator& lhs, const KeySetIterator& rhs)
{ return &lhs.getKeySet() != &rhs.getKeySet() || lhs.base() != rhs.base()  ; }

// Random access iterator requirements
inline bool operator<(const KeySetIterator& lhs, const KeySetIterator& rhs)
{ return lhs.base() < rhs.base(); }

inline bool operator>(const KeySetIterator& lhs, const KeySetIterator& rhs)
{ return lhs.base() > rhs.base(); }

inline bool operator<=(const KeySetIterator& lhs, const KeySetIterator& rhs)
{ return lhs.base() <= rhs.base(); }

inline bool operator>=(const KeySetIterator& lhs, const KeySetIterator& rhs)
{ return lhs.base() >= rhs.base(); }

#if __cplusplus > 199711L
// DR 685.
inline auto operator-(const KeySetIterator& lhs, const KeySetIterator& rhs)
	-> decltype(lhs.base() - rhs.base())
#else
inline KeySetIterator::difference_type
operator-(const KeySetIterator& lhs,
	const KeySetIterator& rhs)
#endif
{ return lhs.base() - rhs.base(); }

inline KeySetIterator
operator+(KeySetIterator::difference_type n, const KeySetIterator& i)
{ return KeySetIterator(i.getKeySet(), i.base() + n); }



// some code duplication because std::reverse_iterator
// does not work on value_types
/**
 * For C++ reverse Iteration over KeySets.
 * (External Iterator)
 */
class KeySetReverseIterator
{
public:
	typedef Key value_type;
	typedef cursor_t difference_type;
	typedef Key pointer;
	typedef Key reference;
	typedef std::random_access_iterator_tag iterator_category;

	KeySetReverseIterator(KeySet const & k) : ks(k), current() {};
	KeySetReverseIterator(KeySet const & k, const cursor_t c) : ks(k), current(c) {};
	// conversion to const iterator?

	Key get() const { return Key(ckdb::ksAtCursor(ks.getKeySet(), current)); }
	Key get(cursor_t pos) const { return Key(ckdb::ksAtCursor(ks.getKeySet(), pos)); }

	KeySet const & getKeySet() const { return ks;}

	// Forward iterator requirements
	reference operator*() const { return get(); }
	pointer operator->() const { return get(); }
	KeySetReverseIterator& operator++() { --current; return *this; }
	KeySetReverseIterator operator++(int) { return KeySetReverseIterator(ks, current--); }

	// Bidirectional iterator requirements
	KeySetReverseIterator& operator--() { ++current; return *this; }
	KeySetReverseIterator operator--(int) { return KeySetReverseIterator(ks, current++); }

	// Random access iterator requirements
	reference operator[](const difference_type& pos) const { return get(ks.size()-pos-1); }
	KeySetReverseIterator& operator+=(const difference_type& pos) { current -= pos; return *this; }
	KeySetReverseIterator operator+(const difference_type& pos) const { return KeySetReverseIterator(ks, current - pos); }
	KeySetReverseIterator& operator-=(const difference_type& pos) { current += pos; return *this; }
	KeySetReverseIterator operator-(const difference_type& pos) const { return KeySetReverseIterator(ks, current + pos); }
	const cursor_t& base() const { return current; }

private:
	KeySet const & ks;
	cursor_t current;
};



// Forward iterator requirements
inline bool operator==(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
{ return &lhs.getKeySet() == &rhs.getKeySet() && lhs.base() == rhs.base(); }

inline bool operator!=(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
{ return &lhs.getKeySet() != &rhs.getKeySet() || lhs.base() != rhs.base()  ; }

// Random access iterator requirements
inline bool operator<(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
{ return lhs.base() < rhs.base(); }

inline bool operator>(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
{ return lhs.base() > rhs.base(); }

inline bool operator<=(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
{ return lhs.base() <= rhs.base(); }

inline bool operator>=(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
{ return lhs.base() >= rhs.base(); }

#if __cplusplus > 199711L
// DR 685.
inline auto operator-(const KeySetReverseIterator& lhs, const KeySetReverseIterator& rhs)
	-> decltype(lhs.base() - rhs.base())
#else
inline KeySetReverseIterator::difference_type
operator-(const KeySetReverseIterator& lhs,
	const KeySetReverseIterator& rhs)
#endif
{ return lhs.base() - rhs.base(); }

inline KeySetReverseIterator
operator+(KeySetReverseIterator::difference_type n, const KeySetReverseIterator& i)
{ return KeySetReverseIterator(i.getKeySet(), i.base() + n); }



inline KeySet::iterator KeySet::begin()
{
	return KeySet::iterator(*this, 0);
}

inline KeySet::const_iterator KeySet::begin() const
{
	return KeySet::const_iterator(*this, 0);
}

inline KeySet::iterator KeySet::end()
{
	return KeySet::iterator(*this, size());
}

inline KeySet::const_iterator KeySet::end() const
{
	return KeySet::const_iterator(*this, size());
}

inline KeySet::reverse_iterator KeySet::rbegin()
{
	return KeySet::reverse_iterator(*this, size()-1);
}

inline KeySet::const_reverse_iterator KeySet::rbegin() const
{
	return KeySet::const_reverse_iterator(*this, size()-1);
}

inline KeySet::reverse_iterator KeySet::rend()
{
	return KeySet::reverse_iterator(*this, -1);
}

inline KeySet::const_reverse_iterator KeySet::rend() const
{
	return KeySet::const_reverse_iterator(*this, -1);
}

#if __cplusplus > 199711L
inline KeySet::const_iterator KeySet::cbegin() const noexcept
{
	return KeySet::const_iterator(*this, 0);
}

inline KeySet::const_iterator KeySet::cend() const noexcept
{
	return KeySet::const_iterator(*this, size());
}

inline KeySet::const_reverse_iterator KeySet::crbegin() const noexcept
{
	return KeySet::const_reverse_iterator(*this, size()-1);
}

inline KeySet::const_reverse_iterator KeySet::crend() const noexcept
{
	return KeySet::const_reverse_iterator(*this, -1);
}
#endif
#endif //WITHOUT_KEYSET_ITERATOR


/**
 * Creates a new empty keyset with no keys
 *
 * @copydoc ksNew
 */
inline KeySet::KeySet () :
	ks (ckdb::ksNew(0))
{}

/**
 * Takes ownership of keyset!
 *
 * Keyset will be destroyed at destructor
 * you cant continue to use keyset afterwards!
 *
 * Use KeySet::release() to avoid destruction.
 *
 * @param k the keyset to take the ownership from
 * @see release()
 * @see setKeySet()
 */
inline KeySet::KeySet (ckdb::KeySet *k) :
	ks(k)
{}

/**
 * Duplicate a keyset.
 *
 *  This keyset will be a duplicate of the other afterwards.
 *
 * @note that they still reference to the same Keys, so
 *       if you change key values also the keys in the original keyset
 *       will be changed.
 *
 * @see dup
 */
inline KeySet::KeySet (const KeySet &other)
{
	ks = other.dup();
}

/**
 * @brief Create a new keyset.
 *
 * @param alloc minimum number of keys to allocate
 * @param ap variable arguments list
 *
 * @copydoc ksVNew
 */
inline KeySet::KeySet (size_t alloc, va_list ap)
{
	ks = ckdb::ksVNew (alloc, ap);
}

/**
 * @brief Create a new keyset
 *
 * @param alloc minimum number of keys to allocate
 * @param ... variable argument list
 *
 * @copydoc ksVNew
 */
inline KeySet::KeySet (size_t alloc, ...)
{
	va_list va;

	va_start (va, alloc);
	ks = ckdb::ksVNew (alloc, va);
	va_end (va);
}

/**
 * @brief Deconstruct a keyset
 *
 * @copydoc ksDel
 */
inline KeySet::~KeySet ()
{
	ckdb::ksDel (ks);
}

/**
 * If you don't want destruction of keyset at
 * the end you can release the pointer.
 * */
inline ckdb::KeySet * KeySet::release()
{
	ckdb::KeySet *ret = ks;
	ks = ckdb::ksNew(0);
	return ret;
}

/**
 * @brief Passes out the raw keyset pointer
 *
 * @return pointer to internal ckdb KeySet
 *
 * @see release()
 * @see setKeySet()
 */
inline ckdb::KeySet * KeySet::getKeySet () const
{
	return ks;
}

/**
 * @brief Take ownership of passed keyset
 *
 * @param k the keyset to take ownership from
 * @see release()
 * @see getKeySet()
 */
inline void KeySet::setKeySet (ckdb::KeySet * k)
{
	ckdb::ksDel(ks);
	ks = k;
}

/**
 * Duplicate a keyset.
 *
 * This keyset will be a duplicate of the other afterwards.
 *
 * @note that they still reference to the same Keys, so
 *       if you change key values also the keys in the original keyset
 *       will be changed.
 */
inline KeySet& KeySet::operator=(KeySet const& other)
{
	if (this != &other)
	{
		ckdb::ksDel(ks);
		ks = other.dup();
	}
	return *this;
}

/**
 * @brief The size of the keyset
 *
 * @return the number of keys in the keyset
 */
inline ssize_t KeySet::size () const
{
	return ckdb::ksGetSize(ks);
}

/**
 * @brief Duplicate a keyset
 *
 * @return a copy of the keys
 *
 * @copydoc ksDup()
 */
inline ckdb::KeySet* KeySet::dup () const
{
	return ckdb::ksDup(ks);
}

/**
 * @brief Copy a keyset
 *
 * @param other other keyset to copy
 *
 * @copydoc ksCopy()
 */
inline void KeySet::copy (const KeySet &other)
{
	ckdb::ksCopy(ks,other.ks);
}

/**
 * @brief Clear the keyset
 *
 * Keyset will have no keys afterwards.
 */
inline void KeySet::clear ()
{
	ckdb::ksCopy(ks,0);
}

/**
 * @brief append a key
 *
 * @param toAppend key to append
 *
 * @return number of keys in the keyset
 *
 * @copydoc ksAppendKey()
 */
inline ssize_t KeySet::append (const Key &toAppend)
{
	return ckdb::ksAppendKey(ks, toAppend.getKey());
}

/**
 * @brief append a keyset
 *
 * @param toAppend keyset to append
 *
 * @return number of keys in the keyset
 *
 * @copydoc ksAppend()
 */
inline ssize_t KeySet::append (KeySet const & toAppend)
{
	return ckdb::ksAppend(ks, toAppend.getKeySet());
}

/**
 * @return alphabetical first key
 *
 * @copydoc ksHead()
 */
inline Key KeySet::head() const
{
	return Key(ckdb::ksHead(ks));
}

/**
 * @return alphabetical last key
 *
 * @copydoc ksTail()
 */
inline Key KeySet::tail() const
{
	return Key(ckdb::ksTail(ks));
}


/**
 * @copydoc ksRewind()
 */
inline void KeySet::rewind () const
{
	ckdb::ksRewind(ks);
}

/**
 * @copydoc ksNext()
 */
inline Key KeySet::next() const
{
	ckdb::Key *k = ckdb::ksNext(ks);
	return Key(k);
}

/**
 * @copydoc ksCurrent()
 */
inline Key KeySet::current() const
{
	return Key(ckdb::ksCurrent(ks));
}

/**
 * @copydoc ksSetCursor()
 */
inline void KeySet::setCursor(cursor_t cursor) const
{
	ckdb::ksSetCursor(ks, cursor);
}

/**
 * @copydoc ksGetCursor()
 */
inline cursor_t KeySet::getCursor() const
{
	return ckdb::ksGetCursor(ks);
}

/**
 * @copydoc ksPop()
 */
inline Key KeySet::pop()
{
	ckdb::Key *k = ckdb::ksPop(ks);
	Key key(k);
	return key;
}

/**
 * @copydoc ksCut()
 */
inline KeySet KeySet::cut (Key k)
{
	return KeySet(ckdb::ksCut(ks, k.getKey()));
}

/**
 * @copydoc ksLookup()
 *
 * @note That the internal key cursor will point to the found key
 */
inline Key KeySet::lookup (const Key &key, const option_t options) const
{
	ckdb::Key *k = ckdb::ksLookup(ks, key.getKey(), options);
	return Key(k);
}

/**
 * @brief Lookup a key by name
 *
 * @param name the name to look for
 * @param options some options to pass
 *
 * @return the found key
 * @see lookup (const Key &key, const option_t options)
 *
 * @note That the internal key cursor will point to the found key
 */
inline Key KeySet::lookup (std::string const & name, option_t const options) const
{
	ckdb::Key *k = ckdb::ksLookupByName(ks, name.c_str(), options);
	return Key(k);
}

/**
 * @brief Lookup a key by index
 *
 * @param pos cursor position
 *
 * @return the found key
 */
inline Key KeySet::at (cursor_t pos) const
{
	if (pos < 0)
		pos += size();
	return Key(ckdb::ksAtCursor(ks, pos));
}

} // end of namespace kdb

#endif