/usr/include/glibmm-2.4/glibmm/arrayhandle.h is in libglibmm-2.4-dev 2.50.0-1.
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#ifndef _GLIBMM_ARRAYHANDLE_H
#define _GLIBMM_ARRAYHANDLE_H
/* Copyright (C) 2002 The gtkmm Development Team
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <glibmmconfig.h>
#include <glibmm/containerhandle_shared.h>
namespace Glib
{
namespace Container_Helpers
{
#ifndef DOXYGEN_SHOULD_SKIP_THIS
/* Count the number of elements in a 0-terminated sequence.
*/
template <class T>
inline std::size_t
compute_array_size(const T* array)
{
const T* pend = array;
while (*pend)
++pend;
return (pend - array);
}
/* Allocate and fill a 0-terminated array. The size argument
* specifies the number of elements in the input sequence.
*/
template <class For, class Tr>
typename Tr::CType*
create_array(For pbegin, std::size_t size, Tr)
{
using CType = typename Tr::CType;
CType* const array = static_cast<CType*>(g_malloc((size + 1) * sizeof(CType)));
CType* const array_end = array + size;
for (CType* pdest = array; pdest != array_end; ++pdest)
{
// Use & to force a warning if the iterator returns a temporary object.
*pdest = Tr::to_c_type(*&*pbegin);
++pbegin;
}
*array_end = CType();
return array;
}
template <class For>
gboolean*
create_bool_array(For pbegin, std::size_t size)
{
gboolean* const array(static_cast<gboolean*>(g_malloc((size + 1) * sizeof(gboolean))));
gboolean* const array_end(array + size);
for (gboolean* pdest(array); pdest != array_end; ++pdest)
{
*pdest = *pbegin;
++pbegin;
}
*array_end = false;
return array;
}
/* Convert from any container that supports forward
* iterators and has a size() method.
*/
template <class Tr, class Cont>
struct ArraySourceTraits
{
using CType = typename Tr::CType;
static std::size_t get_size(const Cont& cont) { return cont.size(); }
static const CType* get_data(const Cont& cont, std::size_t size)
{
return Glib::Container_Helpers::create_array(cont.begin(), size, Tr());
}
static const Glib::OwnershipType initial_ownership = Glib::OWNERSHIP_SHALLOW;
};
// source traits for bools.
template <class Cont>
struct BoolArraySourceTraits
{
using CType = gboolean;
static std::size_t get_size(const Cont& cont) { return cont.size(); }
static const CType* get_data(const Cont& cont, std::size_t size)
{
return Glib::Container_Helpers::create_bool_array(cont.begin(), size);
}
static const Glib::OwnershipType initial_ownership = Glib::OWNERSHIP_SHALLOW;
};
/* Convert from a 0-terminated array. The Cont argument must be a pointer
* to the first element. Note that only arrays of the C type are supported.
*/
template <class Tr, class Cont>
struct ArraySourceTraits<Tr, Cont*>
{
using CType = typename Tr::CType;
static std::size_t get_size(const CType* array)
{
return (array) ? Glib::Container_Helpers::compute_array_size(array) : 0;
}
static const CType* get_data(const CType* array, std::size_t) { return array; }
static const Glib::OwnershipType initial_ownership = Glib::OWNERSHIP_NONE;
};
template <class Tr, class Cont>
struct ArraySourceTraits<Tr, const Cont*> : ArraySourceTraits<Tr, Cont*>
{
};
/* Convert from a 0-terminated array. The Cont argument must be a pointer
* to the first element. Note that only arrays of the C type are supported.
* For consistency, the array must be 0-terminated, even though the array
* size is known at compile time.
*/
template <class Tr, class Cont, std::size_t N>
struct ArraySourceTraits<Tr, Cont[N]>
{
using CType = typename Tr::CType;
static std::size_t get_size(const CType*) { return (N - 1); }
static const CType* get_data(const CType* array, std::size_t) { return array; }
static const Glib::OwnershipType initial_ownership = Glib::OWNERSHIP_NONE;
};
template <class Tr, class Cont, std::size_t N>
struct ArraySourceTraits<Tr, const Cont[N]> : ArraySourceTraits<Tr, Cont[N]>
{
};
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
/**
* @ingroup ContHelpers
*/
template <class Tr>
class ArrayHandleIterator
{
public:
using CppType = typename Tr::CppType;
using CType = typename Tr::CType;
using iterator_category = std::random_access_iterator_tag;
using value_type = CppType;
using difference_type = std::ptrdiff_t;
using reference = value_type;
using pointer = void;
explicit inline ArrayHandleIterator(const CType* pos);
inline value_type operator*() const;
inline value_type operator[](difference_type offset) const;
inline ArrayHandleIterator<Tr>& operator++();
inline const ArrayHandleIterator<Tr> operator++(int);
// these are needed by msvc 2005 when using deque.
inline ArrayHandleIterator<Tr>& operator--();
inline const ArrayHandleIterator<Tr> operator--(int);
// All this random access stuff is only there because STL algorithms
// usually have optimized specializations for random access iterators,
// and we don't want to give away efficiency for nothing.
//
inline ArrayHandleIterator<Tr>& operator+=(difference_type rhs);
inline ArrayHandleIterator<Tr>& operator-=(difference_type rhs);
inline const ArrayHandleIterator<Tr> operator+(difference_type rhs) const;
inline const ArrayHandleIterator<Tr> operator-(difference_type rhs) const;
inline difference_type operator-(const ArrayHandleIterator<Tr>& rhs) const;
inline bool operator==(const ArrayHandleIterator<Tr>& rhs) const;
inline bool operator!=(const ArrayHandleIterator<Tr>& rhs) const;
inline bool operator<(const ArrayHandleIterator<Tr>& rhs) const;
inline bool operator>(const ArrayHandleIterator<Tr>& rhs) const;
inline bool operator<=(const ArrayHandleIterator<Tr>& rhs) const;
inline bool operator>=(const ArrayHandleIterator<Tr>& rhs) const;
private:
const CType* pos_;
};
} // namespace Container_Helpers
// TODO: When we can break ABI, remove this and replace uses of it with std::vector.
// We cannot deprecate it yet, because we cannot easily deprecate methods that use it
//- for instance, we cannot just override methods that use it as a return type.
/** This is an intermediate type. When a method takes this, or returns this, you
* should use a standard C++ container of your choice, such as std::list or
* std::vector.
*
* However, this is not used in new API. We now prefer to just use std::vector,
* which is less flexibile, but makes the API clearer.
*
* @ingroup ContHandles
*/
template <class T, class Tr = Glib::Container_Helpers::TypeTraits<T>>
class ArrayHandle
{
public:
using CppType = typename Tr::CppType;
using CType = typename Tr::CType;
using value_type = CppType;
using size_type = std::size_t;
using difference_type = std::ptrdiff_t;
using const_iterator = Glib::Container_Helpers::ArrayHandleIterator<Tr>;
using iterator = Glib::Container_Helpers::ArrayHandleIterator<Tr>;
template <class Cont>
inline ArrayHandle(const Cont& container);
// Take over ownership of an array created by GTK+ functions.
inline ArrayHandle(const CType* array, std::size_t array_size, Glib::OwnershipType ownership);
inline ArrayHandle(const CType* array, Glib::OwnershipType ownership);
// Copying clears the ownership flag of the source handle.
inline ArrayHandle(const ArrayHandle<T, Tr>& other);
~ArrayHandle() noexcept;
inline const_iterator begin() const;
inline const_iterator end() const;
template <class U>
inline operator std::vector<U>() const;
template <class U>
inline operator std::deque<U>() const;
template <class U>
inline operator std::list<U>() const;
template <class Cont>
inline void assign_to(Cont& container) const;
template <class Out>
inline void copy(Out pdest) const;
inline const CType* data() const;
inline std::size_t size() const;
inline bool empty() const;
private:
std::size_t size_;
const CType* parray_;
mutable Glib::OwnershipType ownership_;
// No copy assignment.
ArrayHandle<T, Tr>& operator=(const ArrayHandle<T, Tr>&);
};
template <>
class ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>
{
public:
using Me = ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>;
using Tr = Container_Helpers::TypeTraits<bool>;
using CppType = Tr::CppType;
using CType = Tr::CType;
using value_type = CppType;
using size_type = std::size_t;
using difference_type = std::ptrdiff_t;
using const_iterator = Glib::Container_Helpers::ArrayHandleIterator<Tr>;
using iterator = Glib::Container_Helpers::ArrayHandleIterator<Tr>;
template <class Cont>
inline ArrayHandle(const Cont& container);
// Take over ownership of an array created by GTK+ functions.
inline ArrayHandle(const CType* array, std::size_t array_size, Glib::OwnershipType ownership);
inline ArrayHandle(const CType* array, Glib::OwnershipType ownership);
// Copying clears the ownership flag of the source handle.
inline ArrayHandle(const Me& other);
~ArrayHandle() noexcept;
inline const_iterator begin() const;
inline const_iterator end() const;
// this is inside class definition, so msvc 2005, 2008 and 2010 can compile this code.
template <class U>
inline operator std::vector<U>() const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
return std::vector<U>(this->begin(), this->end());
#else
std::vector<U> temp;
temp.reserve(this->size());
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
return temp;
#endif
}
// this is inside class definition, so msvc 2005, 2008 and 2010 can compile this code.
template <class U>
inline operator std::deque<U>() const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
return std::deque<U>(this->begin(), this->end());
#else
std::deque<U> temp;
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
return temp;
#endif
}
// this is inside class definition, so msvc 2005, 2008 and 2010 can compile this code.
template <class U>
inline operator std::list<U>() const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
return std::list<U>(this->begin(), this->end());
#else
std::list<U> temp;
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
return temp;
#endif
}
template <class Cont>
inline void assign_to(Cont& container) const;
template <class Out>
inline void copy(Out pdest) const;
inline const CType* data() const;
inline std::size_t size() const;
inline bool empty() const;
private:
std::size_t size_;
const CType* parray_;
mutable Glib::OwnershipType ownership_;
// No copy assignment.
Me& operator=(const Me&);
};
// TODO: Remove this when we can break glibmm API.
/** If a method takes this as an argument, or has this as a return type, then you can use a standard
* container such as std::list<Glib::ustring> or std::vector<Glib::ustring>.
*
*
* However, this is not used in new API. We now prefer to just use std::vector,
* which is less flexibile, but makes the API clearer.
*
* @ingroup ContHandles
*/
using StringArrayHandle = ArrayHandle<Glib::ustring>;
/***************************************************************************/
/* Inline implementation */
/***************************************************************************/
#ifndef DOXYGEN_SHOULD_SKIP_THIS
namespace Container_Helpers
{
/**** Glib::Container_Helpers::ArrayHandleIterator<> ***********************/
template <class Tr>
inline ArrayHandleIterator<Tr>::ArrayHandleIterator(const CType* pos) : pos_(pos)
{
}
template <class Tr>
inline typename ArrayHandleIterator<Tr>::value_type ArrayHandleIterator<Tr>::operator*() const
{
return Tr::to_cpp_type(*pos_);
}
template <class Tr>
inline typename ArrayHandleIterator<Tr>::value_type ArrayHandleIterator<Tr>::operator[](
difference_type offset) const
{
return Tr::to_cpp_type(pos_[offset]);
}
template <class Tr>
inline ArrayHandleIterator<Tr>& ArrayHandleIterator<Tr>::operator++()
{
++pos_;
return *this;
}
template <class Tr>
inline const ArrayHandleIterator<Tr> ArrayHandleIterator<Tr>::operator++(int)
{
return ArrayHandleIterator<Tr>(pos_++);
}
template <class Tr>
inline ArrayHandleIterator<Tr>& ArrayHandleIterator<Tr>::operator--()
{
--pos_;
return *this;
}
template <class Tr>
inline const ArrayHandleIterator<Tr> ArrayHandleIterator<Tr>::operator--(int)
{
return ArrayHandleIterator<Tr>(pos_--);
}
template <class Tr>
inline ArrayHandleIterator<Tr>&
ArrayHandleIterator<Tr>::operator+=(typename ArrayHandleIterator<Tr>::difference_type rhs)
{
pos_ += rhs;
return *this;
}
template <class Tr>
inline ArrayHandleIterator<Tr>&
ArrayHandleIterator<Tr>::operator-=(typename ArrayHandleIterator<Tr>::difference_type rhs)
{
pos_ -= rhs;
return *this;
}
template <class Tr>
inline const ArrayHandleIterator<Tr>
ArrayHandleIterator<Tr>::operator+(typename ArrayHandleIterator<Tr>::difference_type rhs) const
{
return ArrayHandleIterator<Tr>(pos_ + rhs);
}
template <class Tr>
inline const ArrayHandleIterator<Tr>
ArrayHandleIterator<Tr>::operator-(typename ArrayHandleIterator<Tr>::difference_type rhs) const
{
return ArrayHandleIterator<Tr>(pos_ - rhs);
}
template <class Tr>
inline typename ArrayHandleIterator<Tr>::difference_type
ArrayHandleIterator<Tr>::operator-(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ - rhs.pos_);
}
template <class Tr>
inline bool
ArrayHandleIterator<Tr>::operator==(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ == rhs.pos_);
}
template <class Tr>
inline bool
ArrayHandleIterator<Tr>::operator!=(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ != rhs.pos_);
}
template <class Tr>
inline bool
ArrayHandleIterator<Tr>::operator<(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ < rhs.pos_);
}
template <class Tr>
inline bool
ArrayHandleIterator<Tr>::operator>(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ > rhs.pos_);
}
template <class Tr>
inline bool
ArrayHandleIterator<Tr>::operator<=(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ <= rhs.pos_);
}
template <class Tr>
inline bool
ArrayHandleIterator<Tr>::operator>=(const ArrayHandleIterator<Tr>& rhs) const
{
return (pos_ >= rhs.pos_);
}
} // namespace Container_Helpers
/**** Glib::ArrayHandle<> **************************************************/
template <class T, class Tr>
template <class Cont>
inline ArrayHandle<T, Tr>::ArrayHandle(const Cont& container)
: size_(Glib::Container_Helpers::ArraySourceTraits<Tr, Cont>::get_size(container)),
parray_(Glib::Container_Helpers::ArraySourceTraits<Tr, Cont>::get_data(container, size_)),
ownership_(Glib::Container_Helpers::ArraySourceTraits<Tr, Cont>::initial_ownership)
{
}
template <class T, class Tr>
inline ArrayHandle<T, Tr>::ArrayHandle(const typename ArrayHandle<T, Tr>::CType* array,
std::size_t array_size, Glib::OwnershipType ownership)
: size_((array) ? array_size : 0), parray_(array), ownership_(ownership)
{
}
template <class T, class Tr>
inline ArrayHandle<T, Tr>::ArrayHandle(
const typename ArrayHandle<T, Tr>::CType* array, Glib::OwnershipType ownership)
: size_((array) ? Glib::Container_Helpers::compute_array_size(array) : 0),
parray_(array),
ownership_(ownership)
{
}
template <class T, class Tr>
inline ArrayHandle<T, Tr>::ArrayHandle(const ArrayHandle<T, Tr>& other)
: size_(other.size_), parray_(other.parray_), ownership_(other.ownership_)
{
other.ownership_ = Glib::OWNERSHIP_NONE;
}
template <class T, class Tr>
ArrayHandle<T, Tr>::~ArrayHandle() noexcept
{
if (parray_ && ownership_ != Glib::OWNERSHIP_NONE)
{
if (ownership_ != Glib::OWNERSHIP_SHALLOW)
{
// Deep ownership: release each container element.
const CType* const pend = parray_ + size_;
for (const CType* p = parray_; p != pend; ++p)
Tr::release_c_type(*p);
}
g_free(const_cast<CType*>(parray_));
}
}
template <class T, class Tr>
inline typename ArrayHandle<T, Tr>::const_iterator
ArrayHandle<T, Tr>::begin() const
{
return Glib::Container_Helpers::ArrayHandleIterator<Tr>(parray_);
}
template <class T, class Tr>
inline typename ArrayHandle<T, Tr>::const_iterator
ArrayHandle<T, Tr>::end() const
{
return Glib::Container_Helpers::ArrayHandleIterator<Tr>(parray_ + size_);
}
template <class T, class Tr>
template <class U>
inline ArrayHandle<T, Tr>::operator std::vector<U>() const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
return std::vector<U>(this->begin(), this->end());
#else
std::vector<U> temp;
temp.reserve(this->size());
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
return temp;
#endif
}
template <class T, class Tr>
template <class U>
inline ArrayHandle<T, Tr>::operator std::deque<U>() const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
return std::deque<U>(this->begin(), this->end());
#else
std::deque<U> temp;
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
return temp;
#endif
}
template <class T, class Tr>
template <class U>
inline ArrayHandle<T, Tr>::operator std::list<U>() const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
return std::list<U>(this->begin(), this->end());
#else
std::list<U> temp;
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
return temp;
#endif
}
template <class T, class Tr>
template <class Cont>
inline void
ArrayHandle<T, Tr>::assign_to(Cont& container) const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
container.assign(this->begin(), this->end());
#else
Cont temp;
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
container.swap(temp);
#endif
}
template <class T, class Tr>
template <class Out>
inline void
ArrayHandle<T, Tr>::copy(Out pdest) const
{
std::copy(this->begin(), this->end(), pdest);
}
template <class T, class Tr>
inline const typename ArrayHandle<T, Tr>::CType*
ArrayHandle<T, Tr>::data() const
{
return parray_;
}
template <class T, class Tr>
inline std::size_t
ArrayHandle<T, Tr>::size() const
{
return size_;
}
template <class T, class Tr>
inline bool
ArrayHandle<T, Tr>::empty() const
{
return (size_ == 0);
}
/**** Glib::ArrayHandle<bool> **********************************************/
template <class Cont>
inline ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::ArrayHandle(const Cont& container)
: size_(Glib::Container_Helpers::BoolArraySourceTraits<Cont>::get_size(container)),
parray_(Glib::Container_Helpers::BoolArraySourceTraits<Cont>::get_data(container, size_)),
ownership_(Glib::Container_Helpers::BoolArraySourceTraits<Cont>::initial_ownership)
{
}
inline ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::ArrayHandle(
const gboolean* array, std::size_t array_size, Glib::OwnershipType ownership)
: size_((array) ? array_size : 0), parray_(array), ownership_(ownership)
{
}
inline ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::ArrayHandle(
const gboolean* array, Glib::OwnershipType ownership)
: size_((array) ? Glib::Container_Helpers::compute_array_size(array) : 0),
parray_(array),
ownership_(ownership)
{
}
inline ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::ArrayHandle(
const ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>& other)
: size_(other.size_), parray_(other.parray_), ownership_(other.ownership_)
{
other.ownership_ = Glib::OWNERSHIP_NONE;
}
inline ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::const_iterator
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::begin() const
{
return Glib::Container_Helpers::ArrayHandleIterator<Tr>(parray_);
}
inline ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::const_iterator
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::end() const
{
return Glib::Container_Helpers::ArrayHandleIterator<Tr>(parray_ + size_);
}
template <class Cont>
inline void
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::assign_to(Cont& container) const
{
#ifdef GLIBMM_HAVE_TEMPLATE_SEQUENCE_CTORS
container.assign(this->begin(), this->end());
#else
Cont temp;
Glib::Container_Helpers::fill_container(temp, this->begin(), this->end());
container.swap(temp);
#endif
}
template <class Out>
inline void
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::copy(Out pdest) const
{
std::copy(this->begin(), this->end(), pdest);
}
inline const gboolean*
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::data() const
{
return parray_;
}
inline std::size_t
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::size() const
{
return size_;
}
inline bool
ArrayHandle<bool, Container_Helpers::TypeTraits<bool>>::empty() const
{
return (size_ == 0);
}
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
} // namespace Glib
#endif /* _GLIBMM_ARRAYHANDLE_H */
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