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DarkflameServer/thirdparty/cpplinq/cpplinq.hpp

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Public release of the DLU server code! Have fun!
2021-12-05 17:54:36 +00:00
// ----------------------------------------------------------------------------------------------
// Copyright (c) Mårten Rånge.
// ----------------------------------------------------------------------------------------------
// This source code is subject to terms and conditions of the Microsoft Public License. A
// copy of the license can be found in the License.html file at the root of this distribution.
// If you cannot locate the Microsoft Public License, please send an email to
// dlr@microsoft.com. By using this source code in any fashion, you are agreeing to be bound
// by the terms of the Microsoft Public License.
// ----------------------------------------------------------------------------------------------
// You must not remove this notice, or any other, from this software.
// ----------------------------------------------------------------------------------------------
// ----------------------------------------------------------------------------
#ifndef CPPLINQ__HEADER_GUARD
# define CPPLINQ__HEADER_GUARD
#define NOMINMAX
// ----------------------------------------------------------------------------
#include <algorithm>
#include <cassert>
#include <climits>
#include <exception>
#include <functional>
#include <iterator>
#include <list>
#include <map>
#include <numeric>
#include <set>
#include <string>
#include <type_traits>
#include <vector>
#include <limits>
#// ----------------------------------------------------------------------------
#ifdef _MSC_VER
# pragma warning (push)
# pragma warning (disable:4512) // 'class' : assignment operator could not be generated
// Rationale: cpplinq doesn't rely on assignment operators
# pragma warning (disable:4702) // unreachable code
// Rationale: Depending on the predicates and the calling
// code the compiler might detect unreacable code that with
// other predicates are reachable.
# pragma warning (disable:4003)
#endif
#define NOMINMAX // so we wont have conflicts with std:: thing
// ----------------------------------------------------------------------------
#define CPPLINQ_METHOD
#define CPPLINQ_INLINEMETHOD inline
#define CPPLINQ_NOEXCEPT throw ()
// ----------------------------------------------------------------------------
// TODO: Struggled with getting slice protection
// and assignment operator detection for MINGW
// Look into using delete standard functions
// #define CPPLINQ_DETECT_INVALID_METHODS
// ----------------------------------------------------------------------------
namespace cpplinq
{
// -------------------------------------------------------------------------
typedef std::size_t size_type;
// -------------------------------------------------------------------------
struct base_exception : std::exception
{
virtual const char* what () const CPPLINQ_NOEXCEPT
{
return "base_exception";
}
};
struct programming_error_exception : base_exception
{
virtual const char* what () const CPPLINQ_NOEXCEPT
{
return "programming_error_exception";
}
};
struct sequence_empty_exception : base_exception
{
virtual const char* what () const CPPLINQ_NOEXCEPT
{
return "sequence_empty_exception";
}
};
// -------------------------------------------------------------------------
// -------------------------------------------------------------------------
// Tedious implementation details of cpplinq
// -------------------------------------------------------------------------
namespace detail
{
// -------------------------------------------------------------------------
size_type const invalid_size = static_cast<size_type>(-1);
// -------------------------------------------------------------------------
template<typename TValue>
struct cleanup_type
{
typedef typename std::remove_const<
typename std::remove_reference<TValue>::type
>::type type;
};
template<typename TRangeBuilder, typename TRange>
struct get_builtup_type
{
static TRangeBuilder get_builder ();
static TRange get_range ();
typedef decltype (get_builder ().build (get_range ())) type;
};
template<typename TPredicate, typename TValue>
struct get_transformed_type
{
static TValue get_value ();
static TPredicate get_predicate ();
typedef decltype (get_predicate ()(get_value ())) raw_type ;
typedef typename cleanup_type<raw_type>::type type ;
};
template<typename TArray>
struct get_array_properties;
template<typename TValue, int Size>
struct get_array_properties<TValue[Size]>
{
enum
{
size = Size ,
};
typedef typename cleanup_type<TValue>::type value_type ;
typedef value_type* iterator_type ;
};
template<typename TValue>
struct opt
{
typedef TValue value_type;
CPPLINQ_INLINEMETHOD opt () CPPLINQ_NOEXCEPT
: is_initialized (false)
{
}
CPPLINQ_INLINEMETHOD explicit opt (value_type && value)
: is_initialized (true)
{
new (&storage) value_type (std::move (value));
}
CPPLINQ_INLINEMETHOD explicit opt (value_type const & value)
: is_initialized (true)
{
new (&storage) value_type (value);
}
CPPLINQ_INLINEMETHOD ~opt () CPPLINQ_NOEXCEPT
{
auto ptr = get_ptr ();
if (ptr)
{
ptr->~value_type ();
}
is_initialized = false;
}
CPPLINQ_INLINEMETHOD opt (opt const & v)
: is_initialized (v.is_initialized)
{
if (v.is_initialized)
{
copy (&storage , &v.storage );
}
}
CPPLINQ_INLINEMETHOD opt (opt && v) CPPLINQ_NOEXCEPT
: is_initialized (v.is_initialized)
{
if (v.is_initialized)
{
move (&storage , &v.storage );
}
v.is_initialized = false;
}
CPPLINQ_METHOD void swap (opt & v)
{
if (is_initialized && v.is_initialized)
{
storage_type tmp;
move (&tmp , &storage );
move (&storage , &v.storage );
move (&v.storage , &tmp );
}
else if (is_initialized)
{
move (&v.storage , &storage );
v.is_initialized= true;
is_initialized = false;
}
else if (v.is_initialized)
{
move (&storage , &v.storage );
v.is_initialized= false;
is_initialized = true;
}
else
{
// Do nothing
}
}
CPPLINQ_INLINEMETHOD opt & operator= (opt const & v)
{
if (this == std::addressof (v))
{
return *this;
}
opt<value_type> o (v);
swap (o);
return *this;
}
CPPLINQ_INLINEMETHOD opt & operator= (opt && v)
{
if (this == std::addressof (v))
{
return *this;
}
swap (v);
return *this;
}
CPPLINQ_INLINEMETHOD opt & operator= (value_type v)
{
return *this = opt (std::move (v));
}
CPPLINQ_INLINEMETHOD void clear () CPPLINQ_NOEXCEPT
{
opt empty;
swap (empty);
}
CPPLINQ_INLINEMETHOD value_type const * get_ptr () const CPPLINQ_NOEXCEPT
{
if (is_initialized)
{
return reinterpret_cast<value_type const *> (&storage);
}
else
{
return nullptr;
}
}
CPPLINQ_INLINEMETHOD value_type * get_ptr () CPPLINQ_NOEXCEPT
{
if (is_initialized)
{
return reinterpret_cast<value_type*> (&storage);
}
else
{
return nullptr;
}
}
CPPLINQ_INLINEMETHOD value_type const & get () const CPPLINQ_NOEXCEPT
{
assert (is_initialized);
return *get_ptr ();
}
CPPLINQ_INLINEMETHOD value_type & get () CPPLINQ_NOEXCEPT
{
assert (is_initialized);
return *get_ptr ();
}
CPPLINQ_INLINEMETHOD bool has_value () const CPPLINQ_NOEXCEPT
{
return is_initialized;
}
typedef bool (opt::*type_safe_bool_type) () const;
CPPLINQ_INLINEMETHOD operator type_safe_bool_type () const CPPLINQ_NOEXCEPT
{
return is_initialized ? &opt::has_value : nullptr;
}
CPPLINQ_INLINEMETHOD value_type const & operator* () const CPPLINQ_NOEXCEPT
{
return get ();
}
CPPLINQ_INLINEMETHOD value_type & operator* () CPPLINQ_NOEXCEPT
{
return get ();
}
CPPLINQ_INLINEMETHOD value_type const * operator-> () const CPPLINQ_NOEXCEPT
{
return get_ptr ();
}
CPPLINQ_INLINEMETHOD value_type * operator-> () CPPLINQ_NOEXCEPT
{
return get_ptr ();
}
private:
typedef typename std::aligned_storage<
sizeof (value_type)
, std::alignment_of<value_type>::value
>::type storage_type ;
storage_type storage ;
bool is_initialized ;
CPPLINQ_INLINEMETHOD static void move (
storage_type * to
, storage_type * from
) CPPLINQ_NOEXCEPT
{
auto f = reinterpret_cast<value_type*> (from);
new (to) value_type (std::move (*f));
f->~value_type ();
}
CPPLINQ_INLINEMETHOD static void copy (
storage_type * to
, storage_type const * from
)
{
auto f = reinterpret_cast<value_type const *> (from);
new (to) value_type (*f);
}
};
// -------------------------------------------------------------------------
// The generic interface
// -------------------------------------------------------------------------
// _range classes:
// inherit base_range
// COPYABLE
// MOVEABLE (movesemantics)
// typedef ... this_type ;
// typedef ... value_type ;
// typedef ... return_type ; // value_type | value_type const &
// enum { returns_reference = 0|1 };
// return_type front () const
// bool next ()
// template<typename TRangeBuilder>
// typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
// -------------------------------------------------------------------------
// _builder classes:
// inherit base_builder
// COPYABLE
// MOVEABLE (movesemantics)
// typedef ... this_type ;
// template<typename TRange>
// TAggregated build (TRange range) const
// -------------------------------------------------------------------------
struct base_range
{
#ifdef CPPLINQ_DETECT_INVALID_METHODS
protected:
// In order to prevent object slicing
CPPLINQ_INLINEMETHOD base_range () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD base_range (base_range const &) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD base_range (base_range &&) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD ~base_range () CPPLINQ_NOEXCEPT
{
}
private:
CPPLINQ_INLINEMETHOD base_range & operator= (base_range const &);
CPPLINQ_INLINEMETHOD base_range & operator= (base_range &&);
#endif
};
struct base_builder
{
#ifdef CPPLINQ_DETECT_INVALID_METHODS
protected:
// In order to prevent object slicing
CPPLINQ_INLINEMETHOD base_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD base_builder (base_builder const &) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD base_builder (base_builder &&) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD ~base_builder () CPPLINQ_NOEXCEPT
{
}
private:
CPPLINQ_INLINEMETHOD base_builder & operator= (base_builder const &);
CPPLINQ_INLINEMETHOD base_builder & operator= (base_builder &&);
#endif
};
template<typename TValueIterator>
struct from_range : base_range
{
static TValueIterator get_iterator ();
typedef from_range<TValueIterator> this_type ;
typedef TValueIterator iterator_type ;
typedef decltype (*get_iterator ()) raw_value_type ;
typedef typename cleanup_type<raw_value_type>::type value_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1,
};
iterator_type current ;
iterator_type upcoming;
iterator_type end ;
CPPLINQ_INLINEMETHOD from_range (
iterator_type begin
, iterator_type end
) CPPLINQ_NOEXCEPT
: current (std::move (begin))
, upcoming(current)
, end (std::move (end))
{
}
CPPLINQ_INLINEMETHOD from_range (from_range const & v) CPPLINQ_NOEXCEPT
: current (v.current)
, upcoming(v.upcoming)
, end (v.end)
{
}
CPPLINQ_INLINEMETHOD from_range (from_range && v) CPPLINQ_NOEXCEPT
: current (std::move (v.current))
, upcoming(std::move (v.upcoming))
, end (std::move (v.end))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (current != upcoming);
assert (current != end);
return *current;
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
if (upcoming == end)
{
return false;
}
current = upcoming;
++upcoming;
return true;
}
};
// -------------------------------------------------------------------------
// -------------------------------------------------------------------------
template<typename TContainer>
struct from_copy_range : base_range
{
typedef from_copy_range<TContainer> this_type ;
typedef TContainer container_type ;
typedef typename TContainer::const_iterator iterator_type ;
typedef typename TContainer::value_type value_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1 ,
};
container_type container ;
iterator_type current ;
iterator_type upcoming ;
iterator_type end ;
CPPLINQ_INLINEMETHOD from_copy_range (
container_type&& container
)
: container (std::move (container))
, current (container.begin ())
, upcoming (container.begin ())
, end (container.end ())
{
}
CPPLINQ_INLINEMETHOD from_copy_range (
container_type const & container
)
: container (container)
, current (container.begin ())
, upcoming (container.begin ())
, end (container.end ())
{
}
CPPLINQ_INLINEMETHOD from_copy_range (from_copy_range const & v)
: container (v.container)
, current (v.current)
, upcoming (v.upcoming)
, end (v.end)
{
}
CPPLINQ_INLINEMETHOD from_copy_range (from_copy_range && v) CPPLINQ_NOEXCEPT
: container (std::move (v.container))
, current (std::move (v.current))
, upcoming (std::move (v.upcoming))
, end (std::move (v.end))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (current != upcoming);
assert (current != end);
return *current;
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
if (upcoming == end)
{
return false;
}
current = upcoming;
++upcoming;
return true;
}
};
// -------------------------------------------------------------------------
struct int_range : base_range
{
typedef int_range this_type ;
typedef int value_type ;
typedef int return_type ;
enum
{
returns_reference = 0 ,
};
int current ;
int end ;
static int get_current (int begin, int end)
{
return (begin < end ? begin : end) - 1; // -1 in order to start one-step before the first element
}
static int get_end (int begin, int end) // -1 in order to avoid an extra test in next
{
return (begin < end ? end : begin) - 1;
}
CPPLINQ_INLINEMETHOD int_range (
int begin
, int end
) CPPLINQ_NOEXCEPT
: current (get_current (begin, end))
, end (get_end (begin,end))
{
}
CPPLINQ_INLINEMETHOD int_range (int_range const & v) CPPLINQ_NOEXCEPT
: current (v.current)
, end (v.end)
{
}
CPPLINQ_INLINEMETHOD int_range (int_range && v) CPPLINQ_NOEXCEPT
: current (std::move (v.current))
, end (std::move (v.end))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return current;
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
if (current >= end)
{
return false;
}
++current;
return true;
}
};
// -------------------------------------------------------------------------
template <typename TValue>
struct repeat_range : base_range
{
typedef repeat_range<TValue> this_type ;
typedef TValue value_type ;
typedef TValue return_type ;
enum
{
returns_reference = 0 ,
};
TValue value ;
size_type remaining ;
CPPLINQ_INLINEMETHOD repeat_range (
value_type element
, size_type count
) CPPLINQ_NOEXCEPT
: value (std::move (element))
, remaining (count)
{
}
CPPLINQ_INLINEMETHOD repeat_range (repeat_range const & v) CPPLINQ_NOEXCEPT
: value (v.value)
, remaining (v.remaining)
{
}
CPPLINQ_INLINEMETHOD repeat_range (repeat_range && v) CPPLINQ_NOEXCEPT
: value (std::move (v.value))
, remaining (std::move (v.remaining))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return value;
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
if (remaining == 0U)
{
return false;
}
--remaining;
return true;
}
};
// -------------------------------------------------------------------------
template <typename TValue>
struct empty_range : base_range
{
typedef empty_range<TValue> this_type ;
typedef TValue value_type ;
typedef TValue return_type ;
enum
{
returns_reference = 0 ,
};
CPPLINQ_INLINEMETHOD empty_range () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD empty_range (empty_range const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD empty_range (empty_range && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (false);
throw programming_error_exception ();
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
return false;
}
};
// -------------------------------------------------------------------------
template <typename TValue>
struct singleton_range : base_range
{
typedef singleton_range<TValue> this_type ;
typedef TValue value_type ;
typedef TValue const & return_type ;
enum
{
returns_reference = 1 ,
};
value_type value ;
bool done ;
CPPLINQ_INLINEMETHOD singleton_range (TValue const & value)
: value (value)
, done (false)
{
}
CPPLINQ_INLINEMETHOD singleton_range (TValue&& value) CPPLINQ_NOEXCEPT
: value (std::move (value))
, done (false)
{
}
CPPLINQ_INLINEMETHOD singleton_range (singleton_range const & v) CPPLINQ_NOEXCEPT
: value (v.value)
, done (v.done)
{
}
CPPLINQ_INLINEMETHOD singleton_range (singleton_range && v) CPPLINQ_NOEXCEPT
: value (std::move (v.value))
, done (std::move (v.done))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const CPPLINQ_NOEXCEPT
{
return value;
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
auto d = done;
done = true;
return !d;
}
};
// -------------------------------------------------------------------------
struct sorting_range : base_range
{
#ifdef CPPLINQ_DETECT_INVALID_METHODS
protected:
// In order to prevent object slicing
CPPLINQ_INLINEMETHOD sorting_range () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD sorting_range (sorting_range const &) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD sorting_range (sorting_range &&) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD ~sorting_range () CPPLINQ_NOEXCEPT
{
}
private:
CPPLINQ_INLINEMETHOD sorting_range & operator= (sorting_range const &);
CPPLINQ_INLINEMETHOD sorting_range & operator= (sorting_range &&);
#endif
};
template<typename TRange, typename TPredicate>
struct orderby_range : sorting_range
{
typedef orderby_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type forwarding_return_type ;
typedef value_type const & return_type ;
enum
{
forward_returns_reference = TRange::returns_reference ,
returns_reference = 1 ,
};
range_type range ;
predicate_type predicate ;
bool sort_ascending ;
size_type current ;
std::vector<value_type> sorted_values ;
CPPLINQ_INLINEMETHOD orderby_range (
range_type range
, predicate_type predicate
, bool sort_ascending
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
, sort_ascending (sort_ascending)
, current (invalid_size)
{
static_assert (
!std::is_convertible<range_type, sorting_range>::value
, "orderby may not follow orderby or thenby"
);
}
CPPLINQ_INLINEMETHOD orderby_range (orderby_range const & v)
: range (v.range)
, predicate (v.predicate)
, sort_ascending (v.sort_ascending)
, current (v.current)
, sorted_values (v.sorted_values)
{
}
CPPLINQ_INLINEMETHOD orderby_range (orderby_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
, sort_ascending (std::move (v.sort_ascending))
, current (std::move (v.current))
, sorted_values (std::move (v.sorted_values))
{
}
CPPLINQ_INLINEMETHOD forwarding_return_type forwarding_front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool forwarding_next ()
{
return range.next ();
}
CPPLINQ_INLINEMETHOD bool compare_values (value_type const & l, value_type const & r) const
{
if (sort_ascending)
{
return predicate (l) < predicate (r);
}
else
{
return predicate (r) < predicate (l);
}
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return sorted_values[current];
}
CPPLINQ_METHOD bool next ()
{
if (current == invalid_size)
{
sorted_values.clear ();
while (range.next ())
{
sorted_values.push_back (range.front ());
}
if (sorted_values.size () == 0)
{
return false;
}
std::sort (
sorted_values.begin ()
, sorted_values.end ()
, [this] (value_type const & l, value_type const & r)
{
return this->compare_values (l,r);
}
);
current = 0U;
return true;
}
if (current < sorted_values.size ())
{
++current;
}
return current < sorted_values.size ();
}
};
template<typename TPredicate>
struct orderby_builder : base_builder
{
typedef orderby_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
bool sort_ascending ;
CPPLINQ_INLINEMETHOD explicit orderby_builder (predicate_type predicate, bool sort_ascending) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
, sort_ascending (sort_ascending)
{
}
CPPLINQ_INLINEMETHOD orderby_builder (orderby_builder const & v)
: predicate (v.predicate)
, sort_ascending (v.sort_ascending)
{
}
CPPLINQ_INLINEMETHOD orderby_builder (orderby_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
, sort_ascending (std::move (v.sort_ascending))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD orderby_range<TRange, TPredicate> build (TRange range) const
{
return orderby_range<TRange, TPredicate>(std::move (range), predicate, sort_ascending);
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TPredicate>
struct thenby_range : sorting_range
{
typedef thenby_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::forwarding_return_type forwarding_return_type ;
typedef value_type const & return_type ;
enum
{
forward_returns_reference = TRange::forward_returns_reference ,
returns_reference = 1 ,
};
range_type range ;
predicate_type predicate ;
bool sort_ascending ;
size_type current ;
std::vector<value_type> sorted_values ;
CPPLINQ_INLINEMETHOD thenby_range (
range_type range
, predicate_type predicate
, bool sort_ascending
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
, sort_ascending (sort_ascending)
, current (invalid_size)
{
static_assert (
std::is_convertible<range_type, sorting_range>::value
, "thenby may only follow orderby or thenby"
);
}
CPPLINQ_INLINEMETHOD thenby_range (thenby_range const & v)
: range (v.range)
, predicate (v.predicate)
, sort_ascending (v.sort_ascending)
, current (v.current)
, sorted_values (v.sorted_values)
{
}
CPPLINQ_INLINEMETHOD thenby_range (thenby_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
, sort_ascending (std::move (v.sort_ascending))
, current (std::move (v.current))
, sorted_values (std::move (v.sorted_values))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD forwarding_return_type forwarding_front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool forwarding_next ()
{
return range.next ();
}
CPPLINQ_INLINEMETHOD bool compare_values (value_type const & l, value_type const & r) const
{
auto pless = range.compare_values (l,r);
if (pless)
{
return true;
}
auto pgreater = range.compare_values (r,l);
if (pgreater)
{
return false;
}
if (sort_ascending)
{
return predicate (l) < predicate (r);
}
else
{
return predicate (r) < predicate (l);
}
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return sorted_values[current];
}
CPPLINQ_METHOD bool next ()
{
if (current == invalid_size)
{
sorted_values.clear ();
while (range.forwarding_next ())
{
sorted_values.push_back (range.forwarding_front ());
}
if (sorted_values.size () == 0)
{
return false;
}
std::sort (
sorted_values.begin ()
, sorted_values.end ()
, [this] (value_type const & l, value_type const & r)
{
return this->compare_values (l,r);
}
);
current = 0U;
return true;
}
if (current < sorted_values.size ())
{
++current;
}
return current < sorted_values.size ();
}
};
template<typename TPredicate>
struct thenby_builder : base_builder
{
typedef thenby_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
bool sort_ascending ;
CPPLINQ_INLINEMETHOD explicit thenby_builder (predicate_type predicate, bool sort_ascending) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
, sort_ascending (sort_ascending)
{
}
CPPLINQ_INLINEMETHOD thenby_builder (thenby_builder const & v)
: predicate (v.predicate)
, sort_ascending (v.sort_ascending)
{
}
CPPLINQ_INLINEMETHOD thenby_builder (thenby_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
, sort_ascending (std::move (v.sort_ascending))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD thenby_range<TRange, TPredicate> build (TRange range) const
{
return thenby_range<TRange, TPredicate>(std::move (range), predicate, sort_ascending);
}
};
// -------------------------------------------------------------------------
template<typename TRange>
struct reverse_range : base_range
{
typedef reverse_range<TRange> this_type ;
typedef TRange range_type ;
typedef typename TRange::value_type value_type ;
typedef value_type const & return_type ;
typedef std::vector<value_type> stack_type ;
enum
{
returns_reference = 1 ,
};
range_type range ;
size_type capacity ;
std::vector<value_type> reversed ;
bool start ;
CPPLINQ_INLINEMETHOD reverse_range (
range_type range
, size_type capacity
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, capacity (capacity)
, start (true)
{
}
CPPLINQ_INLINEMETHOD reverse_range (reverse_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, capacity (v.capacity)
, reversed (v.reversed)
, start (v.start)
{
}
CPPLINQ_INLINEMETHOD reverse_range (reverse_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, capacity (std::move (v.capacity))
, reversed (std::move (v.reversed))
, start (std::move (v.start))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const CPPLINQ_NOEXCEPT
{
assert (!start);
assert (!reversed.empty ());
return reversed[reversed.size () - 1];
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (start)
{
start = false;
reversed.clear ();
reversed.reserve (capacity);
while (range.next ())
{
reversed.push_back (range.front ());
}
return !reversed.empty ();
}
if (reversed.empty ())
{
return false;
}
reversed.pop_back ();
return !reversed.empty ();
}
};
struct reverse_builder : base_builder
{
typedef reverse_builder this_type ;
size_type capacity ;
CPPLINQ_INLINEMETHOD reverse_builder (size_type capacity) CPPLINQ_NOEXCEPT
: capacity (capacity)
{
}
CPPLINQ_INLINEMETHOD reverse_builder (reverse_builder const & v) CPPLINQ_NOEXCEPT
: capacity (v.capacity)
{
}
CPPLINQ_INLINEMETHOD reverse_builder (reverse_builder && v) CPPLINQ_NOEXCEPT
: capacity (std::move (v.capacity))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD reverse_range<TRange> build (TRange range) const
{
return reverse_range<TRange> (std::move (range), capacity);
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TPredicate>
struct where_range : base_range
{
typedef where_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
range_type range ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD where_range (
range_type range
, predicate_type predicate
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD where_range (where_range const & v)
: range (v.range)
, predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD where_range (where_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool next ()
{
while (range.next ())
{
if (predicate (range.front ()))
{
return true;
}
}
return false;
}
};
template<typename TPredicate>
struct where_builder : base_builder
{
typedef where_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD explicit where_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD where_builder (where_builder const & v)
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD where_builder (where_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD where_range<TRange, TPredicate> build (TRange range) const
{
return where_range<TRange, TPredicate>(std::move (range), predicate);
}
};
// -------------------------------------------------------------------------
// -------------------------------------------------------------------------
template<typename TRange>
struct take_range : base_range
{
typedef take_range<TRange> this_type ;
typedef TRange range_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
range_type range ;
size_type count ;
size_type current ;
CPPLINQ_INLINEMETHOD take_range (
range_type range
, size_type count
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, count (std::move (count))
, current (0)
{
}
CPPLINQ_INLINEMETHOD take_range (take_range const & v)
: range (v.range)
, count (v.count)
, current (v.current)
{
}
CPPLINQ_INLINEMETHOD take_range (take_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, count (std::move (v.count))
, current (std::move (v.current))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (current >= count)
{
return false;
}
++current;
return range.next ();
}
};
struct take_builder : base_builder
{
typedef take_builder this_type ;
size_type count ;
CPPLINQ_INLINEMETHOD explicit take_builder (size_type count) CPPLINQ_NOEXCEPT
: count (std::move (count))
{
}
CPPLINQ_INLINEMETHOD take_builder (take_builder const & v) CPPLINQ_NOEXCEPT
: count (v.count)
{
}
CPPLINQ_INLINEMETHOD take_builder (take_builder && v) CPPLINQ_NOEXCEPT
: count (std::move (v.count))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD take_range<TRange> build (TRange range) const
{
return take_range<TRange>(std::move (range), count);
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TPredicate>
struct take_while_range : base_range
{
typedef take_while_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
range_type range ;
predicate_type predicate ;
bool done ;
CPPLINQ_INLINEMETHOD take_while_range (
range_type range
, predicate_type predicate
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
, done (false)
{
}
CPPLINQ_INLINEMETHOD take_while_range (take_while_range const & v)
: range (v.range)
, predicate (v.predicate)
, done (v.done)
{
}
CPPLINQ_INLINEMETHOD take_while_range (take_while_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
, done (std::move (v.done))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (done)
{
return false;
}
if (!range.next ())
{
done = true;
return false;
}
if (!predicate (range.front ()))
{
done = true;
return false;
}
return true;
}
};
template<typename TPredicate>
struct take_while_builder : base_builder
{
typedef take_while_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD take_while_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD take_while_builder (take_while_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD take_while_builder (take_while_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD take_while_range<TRange, TPredicate> build (TRange range) const
{
return take_while_range<TRange, TPredicate>(std::move (range), predicate);
}
};
// -------------------------------------------------------------------------
template<typename TRange>
struct skip_range : base_range
{
typedef skip_range<TRange> this_type ;
typedef TRange range_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
range_type range ;
size_type count ;
size_type current ;
CPPLINQ_INLINEMETHOD skip_range (
range_type range
, size_type count
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, count (std::move (count))
, current (0)
{
}
CPPLINQ_INLINEMETHOD skip_range (skip_range const & v)
: range (v.range)
, count (v.count)
, current (v.current)
{
}
CPPLINQ_INLINEMETHOD skip_range (skip_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, count (std::move (v.count))
, current (std::move (v.current))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (current == invalid_size)
{
return false;
}
while (current < count && range.next ())
{
++current;
}
if (current < count)
{
current = invalid_size;
return false;
}
return range.next ();
}
};
struct skip_builder : base_builder
{
typedef skip_builder this_type ;
size_type count ;
CPPLINQ_INLINEMETHOD explicit skip_builder (size_type count) CPPLINQ_NOEXCEPT
: count (std::move (count))
{
}
CPPLINQ_INLINEMETHOD skip_builder (skip_builder const & v) CPPLINQ_NOEXCEPT
: count (v.count)
{
}
CPPLINQ_INLINEMETHOD skip_builder (skip_builder && v) CPPLINQ_NOEXCEPT
: count (std::move (v.count))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD skip_range<TRange> build (TRange range) const
{
return skip_range<TRange>(std::move (range), count);
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TPredicate>
struct skip_while_range : base_range
{
typedef skip_while_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
range_type range ;
predicate_type predicate ;
bool skipping ;
CPPLINQ_INLINEMETHOD skip_while_range (
range_type range
, predicate_type predicate
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
, skipping (true)
{
}
CPPLINQ_INLINEMETHOD skip_while_range (skip_while_range const & v)
: range (v.range)
, predicate (v.predicate)
, skipping (v.skipping)
{
}
CPPLINQ_INLINEMETHOD skip_while_range (skip_while_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
, skipping (std::move (v.skipping))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return range.front ();
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (!skipping)
{
return range.next ();
}
while (range.next ())
{
if (!predicate (range.front ()))
{
skipping = false;
return true;
}
}
return false;
}
};
template <typename TPredicate>
struct skip_while_builder : base_builder
{
typedef skip_while_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD skip_while_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD skip_while_builder (skip_while_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD skip_while_builder (skip_while_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD skip_while_range<TRange, TPredicate> build (TRange range) const
{
return skip_while_range<TRange, TPredicate>(std::move (range), predicate);
}
};
// -------------------------------------------------------------------------
template<typename TRange>
struct ref_range : base_range
{
typedef std::reference_wrapper<
typename TRange::value_type const> value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
typedef ref_range<TRange> this_type ;
typedef TRange range_type ;
range_type range ;
CPPLINQ_INLINEMETHOD ref_range (
range_type range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
{
static_assert (
TRange::returns_reference
, "ref may only follow a range that returns references"
);
}
CPPLINQ_INLINEMETHOD ref_range (ref_range const & v)
: range (v.range)
{
}
CPPLINQ_INLINEMETHOD ref_range (ref_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return value_type (range.front ());
}
CPPLINQ_INLINEMETHOD bool next ()
{
return range.next ();
}
};
struct ref_builder : base_builder
{
typedef ref_builder this_type ;
CPPLINQ_INLINEMETHOD ref_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD ref_builder (ref_builder const & v)
{
}
CPPLINQ_INLINEMETHOD ref_builder (ref_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD ref_range<TRange> build (TRange range) const
{
return ref_range<TRange>(std::move (range));
}
};
// -------------------------------------------------------------------------
// -------------------------------------------------------------------------
template<typename TRange, typename TPredicate>
struct select_range : base_range
{
static typename TRange::value_type get_source ();
static TPredicate get_predicate ();
typedef decltype (get_predicate ()(get_source ())) raw_value_type ;
typedef typename cleanup_type<raw_value_type>::type value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
typedef select_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
range_type range ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD select_range (
range_type range
, predicate_type predicate
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD select_range (select_range const & v)
: range (v.range)
, predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD select_range (select_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return predicate (range.front ());
}
CPPLINQ_INLINEMETHOD bool next ()
{
return range.next ();
}
};
template<typename TPredicate>
struct select_builder : base_builder
{
typedef select_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD explicit select_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD select_builder (select_builder const & v)
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD select_builder (select_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD select_range<TRange, TPredicate> build (TRange range) const
{
return select_range<TRange, TPredicate>(std::move (range), predicate);
}
};
// -------------------------------------------------------------------------
// Some trickery in order to force the code to compile on VS2012
template<typename TRange, typename TPredicate>
struct select_many_range_helper
{
static typename TRange::value_type get_source ();
static TPredicate get_predicate ();
typedef decltype (get_predicate ()(get_source ())) raw_inner_range_type ;
typedef typename cleanup_type<raw_inner_range_type>::type inner_range_type ;
static inner_range_type get_inner_range ();
typedef decltype (get_inner_range ().front ()) raw_value_type ;
typedef typename cleanup_type<raw_value_type>::type value_type ;
};
template<typename TRange, typename TPredicate>
struct select_many_range : base_range
{
typedef select_many_range_helper<TRange, TPredicate> helper_type ;
typedef typename helper_type::inner_range_type inner_range_type ;
typedef typename helper_type::value_type value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
typedef select_many_range<TRange, TPredicate> this_type ;
typedef TRange range_type ;
typedef TPredicate predicate_type ;
range_type range ;
predicate_type predicate ;
opt<inner_range_type> inner_range ;
CPPLINQ_INLINEMETHOD select_many_range (
range_type range
, predicate_type predicate
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD select_many_range (select_many_range const & v)
: range (v.range)
, predicate (v.predicate)
, inner_range (v.inner_range)
{
}
CPPLINQ_INLINEMETHOD select_many_range (select_many_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, predicate (std::move (v.predicate))
, inner_range (std::move (v.inner_range))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (inner_range);
return inner_range->front ();
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (inner_range && inner_range->next ())
{
return true;
}
if (range.next ())
{
inner_range = predicate (range.front ());
return inner_range && inner_range->next ();
}
return false;
}
};
template<typename TPredicate>
struct select_many_builder : base_builder
{
typedef select_many_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD explicit select_many_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD select_many_builder (select_many_builder const & v)
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD select_many_builder (select_many_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD select_many_range<TRange, TPredicate> build (TRange range) const
{
return select_many_range<TRange, TPredicate>(std::move (range), predicate);
}
};
// -------------------------------------------------------------------------
template<
typename TRange
, typename TOtherRange
, typename TKeySelector
, typename TOtherKeySelector
, typename TCombiner
>
struct join_range : base_range
{
static typename TRange::value_type get_source () ;
static typename TOtherRange::value_type get_other_source () ;
static TKeySelector get_key_selector () ;
static TOtherKeySelector get_other_key_selector () ;
static TCombiner get_combiner () ;
typedef decltype (get_key_selector () (get_source ())) raw_key_type ;
typedef typename cleanup_type<raw_key_type>::type key_type ;
typedef decltype (get_other_key_selector () (get_other_source ()))
raw_other_key_type ;
typedef typename cleanup_type<raw_other_key_type>::type other_key_type ;
typedef decltype (get_combiner () (get_source (), get_other_source ()))
raw_value_type ;
typedef typename cleanup_type<raw_value_type>::type value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
typedef join_range<
TRange
, TOtherRange
, TKeySelector
, TOtherKeySelector
, TCombiner
> this_type ;
typedef TRange range_type ;
typedef TOtherRange other_range_type ;
typedef TKeySelector key_selector_type ;
typedef TOtherKeySelector other_key_selector_type ;
typedef TCombiner combiner_type ;
typedef std::multimap<
other_key_type
, typename TOtherRange::value_type
> map_type ;
typedef typename map_type::const_iterator map_iterator_type ;
range_type range ;
other_range_type other_range ;
key_selector_type key_selector ;
other_key_selector_type other_key_selector ;
combiner_type combiner ;
bool start ;
map_type map ;
map_iterator_type current ;
CPPLINQ_INLINEMETHOD join_range (
range_type range
, other_range_type other_range
, key_selector_type key_selector
, other_key_selector_type other_key_selector
, combiner_type combiner
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, other_range (std::move (other_range))
, key_selector (std::move (key_selector))
, other_key_selector (std::move (other_key_selector))
, combiner (std::move (combiner))
, start (true)
{
}
CPPLINQ_INLINEMETHOD join_range (join_range const & v)
: range (v.range)
, other_range (v.other_range)
, key_selector (v.key_selector)
, other_key_selector (v.other_key_selector)
, combiner (v.combiner)
, start (v.start)
, map (v.map)
, current (v.current)
{
}
CPPLINQ_INLINEMETHOD join_range (join_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, other_range (std::move (v.other_range))
, key_selector (std::move (v.key_selector))
, other_key_selector (std::move (v.other_key_selector))
, combiner (std::move (v.combiner))
, start (std::move (v.start))
, map (std::move (v.map))
, current (std::move (v.current))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (current != map.end ());
return combiner (range.front (), current->second);
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (start)
{
start = false;
while (other_range.next ())
{
auto other_value = other_range.front ();
auto other_key = other_key_selector (other_value);
map.insert (typename map_type::value_type (std::move (other_key), std::move (other_value)));
}
current = map.end ();
if (map.size () == 0U)
{
return false;
}
}
if (current != map.end ())
{
auto previous = current;
++current;
if (current != map.end () && !(previous->first < current->first))
{
return true;
}
}
while (range.next ())
{
auto value = range.front ();
auto key = key_selector (value);
current = map.find (key);
if (current != map.end ())
{
return true;
}
}
return false;
}
};
template<
typename TOtherRange
, typename TKeySelector
, typename TOtherKeySelector
, typename TCombiner
>
struct join_builder : base_builder
{
typedef join_builder<
TOtherRange
, TKeySelector
, TOtherKeySelector
, TCombiner
> this_type ;
typedef TOtherRange other_range_type ;
typedef TKeySelector key_selector_type ;
typedef TOtherKeySelector other_key_selector_type ;
typedef TCombiner combiner_type ;
other_range_type other_range ;
key_selector_type key_selector ;
other_key_selector_type other_key_selector ;
combiner_type combiner ;
CPPLINQ_INLINEMETHOD join_builder (
other_range_type other_range
, key_selector_type key_selector
, other_key_selector_type other_key_selector
, combiner_type combiner
) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
, key_selector (std::move (key_selector))
, other_key_selector (std::move (other_key_selector))
, combiner (std::move (combiner))
{
}
CPPLINQ_INLINEMETHOD join_builder (join_builder const & v)
: other_range (v.other_range)
, key_selector (v.key_selector)
, other_key_selector (v.other_key_selector)
, combiner (v.combiner)
{
}
CPPLINQ_INLINEMETHOD join_builder (join_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
, key_selector (std::move (v.key_selector))
, other_key_selector (std::move (v.other_key_selector))
, combiner (std::move (v.combiner))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD join_range<TRange, TOtherRange, TKeySelector, TOtherKeySelector, TCombiner> build (TRange range) const
{
return join_range<TRange, TOtherRange, TKeySelector, TOtherKeySelector, TCombiner> (
std::move (range)
, other_range
, key_selector
, other_key_selector
, combiner
);
}
};
// -------------------------------------------------------------------------
template<typename TRange>
struct distinct_range : base_range
{
typedef distinct_range<TRange> this_type ;
typedef TRange range_type ;
typedef typename cleanup_type<typename TRange::value_type>::type value_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1 ,
};
typedef std::set<value_type> set_type ;
typedef typename set_type::const_iterator set_iterator_type ;
range_type range ;
set_type set ;
set_iterator_type current ;
CPPLINQ_INLINEMETHOD distinct_range (
range_type range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
{
}
CPPLINQ_INLINEMETHOD distinct_range (distinct_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, set (v.set)
, current (v.current)
{
}
CPPLINQ_INLINEMETHOD distinct_range (distinct_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, set (std::move (v.set))
, current (std::move (v.current))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return *current;
}
CPPLINQ_INLINEMETHOD bool next ()
{
while (range.next ())
{
auto result = set.insert (range.front ());
if (result.second)
{
current = result.first;
return true;
}
}
return false;
}
};
struct distinct_builder : base_builder
{
typedef distinct_builder this_type ;
CPPLINQ_INLINEMETHOD distinct_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD distinct_builder (distinct_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD distinct_builder (distinct_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD distinct_range<TRange> build (TRange range) const
{
return distinct_range<TRange> (std::move (range));
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TOtherRange>
struct union_range : base_range
{
typedef union_range<TRange, TOtherRange> this_type ;
typedef TRange range_type ;
typedef TOtherRange other_range_type ;
typedef typename cleanup_type<typename TRange::value_type>::type value_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1 ,
};
typedef std::set<value_type> set_type ;
typedef typename set_type::const_iterator set_iterator_type ;
range_type range ;
other_range_type other_range ;
set_type set ;
set_iterator_type current ;
CPPLINQ_INLINEMETHOD union_range (
range_type range
, other_range_type other_range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD union_range (union_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, other_range (v.other_range)
, set (v.set)
, current (v.current)
{
}
CPPLINQ_INLINEMETHOD union_range (union_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, other_range (std::move (v.other_range))
, set (std::move (v.set))
, current (std::move (v.current))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return *current;
}
CPPLINQ_INLINEMETHOD bool next ()
{
while (range.next ())
{
auto result = set.insert (range.front ());
if (result.second)
{
current = result.first;
return true;
}
}
while (other_range.next ())
{
auto result = set.insert (other_range.front ());
if (result.second)
{
current = result.first;
return true;
}
}
return false;
}
};
template <typename TOtherRange>
struct union_builder : base_builder
{
typedef union_builder<TOtherRange> this_type ;
typedef TOtherRange other_range_type;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD union_builder (TOtherRange other_range) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD union_builder (union_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD union_builder (union_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD union_range<TRange, TOtherRange> build (TRange range) const
{
return union_range<TRange, TOtherRange> (std::move (range), std::move (other_range));
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TOtherRange>
struct intersect_range : base_range
{
typedef intersect_range<TRange, TOtherRange> this_type ;
typedef TRange range_type ;
typedef TOtherRange other_range_type ;
typedef typename cleanup_type<typename TRange::value_type>::type value_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1 ,
};
typedef std::set<value_type> set_type ;
typedef typename set_type::const_iterator set_iterator_type ;
range_type range ;
other_range_type other_range ;
set_type set ;
set_iterator_type current ;
bool start ;
CPPLINQ_INLINEMETHOD intersect_range (
range_type range
, other_range_type other_range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, other_range (std::move (other_range))
, start (true)
{
}
CPPLINQ_INLINEMETHOD intersect_range (intersect_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, other_range (v.other_range)
, set (v.set)
, current (v.current)
, start (v.start)
{
}
CPPLINQ_INLINEMETHOD intersect_range (intersect_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, other_range (std::move (v.other_range))
, set (std::move (v.set))
, current (std::move (v.current))
, start (std::move (v.start))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (!start);
return *current;
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (start)
{
start = false;
while (other_range.next ())
{
set.insert (other_range.front ());
}
while (range.next ())
{
current = set.find (range.front ());
if (current != set.end ())
{
return true;
}
}
set.clear ();
return false;
}
if (set.empty ())
{
return false;
}
set.erase (current);
while (range.next ())
{
current = set.find (range.front ());
if (current != set.end ())
{
return true;
}
}
return false;
}
};
template <typename TOtherRange>
struct intersect_builder : base_builder
{
typedef intersect_builder<TOtherRange> this_type ;
typedef TOtherRange other_range_type;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD intersect_builder (TOtherRange other_range) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD intersect_builder (intersect_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD intersect_builder (intersect_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD intersect_range<TRange, TOtherRange> build (TRange range) const
{
return intersect_range<TRange, TOtherRange> (std::move (range), std::move (other_range));
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TOtherRange>
struct except_range : base_range
{
typedef except_range<TRange, TOtherRange> this_type ;
typedef TRange range_type ;
typedef TOtherRange other_range_type ;
typedef typename cleanup_type<typename TRange::value_type>::type value_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1 ,
};
typedef std::set<value_type> set_type ;
typedef typename set_type::const_iterator set_iterator_type ;
range_type range ;
other_range_type other_range ;
set_type set ;
set_iterator_type current ;
bool start ;
CPPLINQ_INLINEMETHOD except_range (
range_type range
, other_range_type other_range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, other_range (std::move (other_range))
, start (true)
{
}
CPPLINQ_INLINEMETHOD except_range (except_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, other_range (v.other_range)
, set (v.set)
, current (v.current)
, start (v.start)
{
}
CPPLINQ_INLINEMETHOD except_range (except_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, other_range (std::move (v.other_range))
, set (std::move (v.set))
, current (std::move (v.current))
, start (std::move (v.start))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return *current;
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (start)
{
start = false;
while (other_range.next ())
{
set.insert (other_range.front ());
}
}
while (range.next ())
{
auto result = set.insert (range.front ());
if (result.second)
{
current = result.first;
return true;
}
}
return false;
}
};
template <typename TOtherRange>
struct except_builder : base_builder
{
typedef union_builder<TOtherRange> this_type ;
typedef TOtherRange other_range_type;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD except_builder (TOtherRange other_range) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD except_builder (except_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD except_builder (except_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD except_range<TRange, TOtherRange> build (TRange range) const
{
return except_range<TRange, TOtherRange> (std::move (range), std::move (other_range));
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TOtherRange>
struct concat_range : base_range
{
typedef concat_range<TRange, TOtherRange> this_type ;
typedef TRange range_type ;
typedef TOtherRange other_range_type ;
typedef typename cleanup_type<typename TRange::value_type>::type value_type ;
typedef typename cleanup_type<typename TOtherRange::value_type>::type other_value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
enum state
{
state_initial ,
state_iterating_range ,
state_iterating_other_range ,
state_end ,
};
range_type range ;
other_range_type other_range ;
state state ;
CPPLINQ_INLINEMETHOD concat_range (
range_type range
, other_range_type other_range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, other_range (std::move (other_range))
, state (state_initial)
{
}
CPPLINQ_INLINEMETHOD concat_range (concat_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, other_range (v.other_range)
, state (v.state)
{
}
CPPLINQ_INLINEMETHOD concat_range (concat_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, other_range (std::move (v.other_range))
, state (std::move (v.state))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
switch (state)
{
case state_initial:
case state_end:
default:
assert (false); // Intentionally falls through
case state_iterating_range:
return range.front ();
case state_iterating_other_range:
return other_range.front ();
};
}
CPPLINQ_INLINEMETHOD bool next ()
{
switch (state)
{
case state_initial:
if (range.next ())
{
state = state_iterating_range;
return true;
}
if (other_range.next ())
{
state = state_iterating_other_range;
return true;
}
return false;
case state_iterating_range:
if (range.next ())
{
return true;
}
if (other_range.next ())
{
state = state_iterating_other_range;
return true;
}
return false;
case state_iterating_other_range:
if (other_range.next ())
{
return true;
}
return false;
case state_end:
default:
return false;
}
}
};
template <typename TOtherRange>
struct concat_builder : base_builder
{
typedef concat_builder<TOtherRange> this_type ;
typedef TOtherRange other_range_type;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD concat_builder (TOtherRange other_range) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD concat_builder (concat_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD concat_builder (concat_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD concat_range<TRange, TOtherRange> build (TRange range) const
{
return concat_range<TRange, TOtherRange> (std::move (range), std::move (other_range));
}
};
// -------------------------------------------------------------------------
namespace experimental
{
// -------------------------------------------------------------------------
// TODO: Verify that container range aggregator has the right semantics
template<typename TRange>
struct container_iterator
{
typedef std::forward_iterator_tag iterator_category ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
typedef std::ptrdiff_t difference_type ;
typedef value_type* pointer ;
typedef value_type& reference ;
typedef container_iterator<TRange> this_type ;
typedef TRange range_type ;
bool has_value ;
opt<range_type> range ;
CPPLINQ_INLINEMETHOD container_iterator () CPPLINQ_NOEXCEPT
: has_value (false)
{
}
CPPLINQ_INLINEMETHOD container_iterator (range_type r) CPPLINQ_NOEXCEPT
: range (std::move (r))
{
has_value = range && range->next ();
}
CPPLINQ_INLINEMETHOD container_iterator (container_iterator const & v) CPPLINQ_NOEXCEPT
: has_value (v.has_value)
, range (v.range)
{
}
CPPLINQ_INLINEMETHOD container_iterator (container_iterator && v) CPPLINQ_NOEXCEPT
: has_value (std::move (v.has_value))
, range (std::move (v.range))
{
}
CPPLINQ_INLINEMETHOD return_type operator* () const
{
assert (has_value);
assert (range);
return range->front ();
}
CPPLINQ_INLINEMETHOD value_type const * operator-> () const
{
static_assert (
returns_reference
, "operator-> requires a range that returns a reference, typically select causes ranges to return values not references"
);
return &range->front ();
}
CPPLINQ_INLINEMETHOD this_type & operator++()
{
if (has_value && range)
{
has_value = range->next ();
}
return *this;
}
CPPLINQ_INLINEMETHOD bool operator== (this_type const & v) const CPPLINQ_NOEXCEPT
{
if (!has_value && !v.has_value)
{
return true;
}
else if (has_value && has_value && range.get_ptr () == v.range.get_ptr ())
{
return true;
}
else
{
return false;
}
}
CPPLINQ_INLINEMETHOD bool operator!= (this_type const & v) const CPPLINQ_NOEXCEPT
{
return !(*this == v);
}
};
template<typename TRange>
struct container
{
typedef container<TRange> this_type ;
typedef TRange range_type ;
typedef typename TRange::value_type value_type ;
typedef typename TRange::return_type return_type ;
enum
{
returns_reference = TRange::returns_reference ,
};
range_type range ;
CPPLINQ_INLINEMETHOD explicit container (TRange range)
: range (std::move (range))
{
}
CPPLINQ_INLINEMETHOD container (container const & v) CPPLINQ_NOEXCEPT
: range (v.range)
{
}
CPPLINQ_INLINEMETHOD container (container && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
{
}
CPPLINQ_INLINEMETHOD container_iterator<TRange> begin () CPPLINQ_NOEXCEPT
{
return container_iterator<TRange>(range);
}
CPPLINQ_INLINEMETHOD container_iterator<TRange> end () CPPLINQ_NOEXCEPT
{
return container_iterator<TRange>();
}
};
struct container_builder : base_builder
{
typedef container_builder this_type ;
CPPLINQ_INLINEMETHOD container_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD container_builder (container_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD container_builder (container_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_METHOD container<TRange> build (TRange range) const
{
return container<TRange> (std::move (range));
}
};
}
// -------------------------------------------------------------------------
struct to_vector_builder : base_builder
{
typedef to_vector_builder this_type ;
size_type capacity;
CPPLINQ_INLINEMETHOD explicit to_vector_builder (size_type capacity = 16U) CPPLINQ_NOEXCEPT
: capacity (capacity)
{
}
CPPLINQ_INLINEMETHOD to_vector_builder (to_vector_builder const & v) CPPLINQ_NOEXCEPT
: capacity (v.capacity)
{
}
CPPLINQ_INLINEMETHOD to_vector_builder (to_vector_builder && v) CPPLINQ_NOEXCEPT
: capacity (std::move (v.capacity))
{
}
template<typename TRange>
CPPLINQ_METHOD std::vector<typename TRange::value_type> build (TRange range) const
{
std::vector<typename TRange::value_type> result;
result.reserve (capacity);
while (range.next ())
{
result.push_back (range.front ());
}
return result;
}
};
struct to_list_builder : base_builder
{
typedef to_list_builder this_type ;
CPPLINQ_INLINEMETHOD explicit to_list_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD to_list_builder (to_list_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD to_list_builder (to_list_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_METHOD std::list<typename TRange::value_type> build (TRange range) const
{
std::list<typename TRange::value_type> result;
while (range.next ())
{
result.push_back (range.front ());
}
return result;
}
};
// -------------------------------------------------------------------------
template<typename TKeyPredicate>
struct to_map_builder : base_builder
{
static TKeyPredicate get_key_predicate ();
typedef to_map_builder<TKeyPredicate> this_type ;
typedef TKeyPredicate key_predicate_type ;
key_predicate_type key_predicate ;
CPPLINQ_INLINEMETHOD explicit to_map_builder (key_predicate_type key_predicate) CPPLINQ_NOEXCEPT
: key_predicate (std::move (key_predicate))
{
}
CPPLINQ_INLINEMETHOD to_map_builder (to_map_builder const & v)
: key_predicate (v.key_predicate)
{
}
CPPLINQ_INLINEMETHOD to_map_builder (to_map_builder && v) CPPLINQ_NOEXCEPT
: key_predicate (std::move (v.key_predicate))
{
}
template<typename TRange>
CPPLINQ_METHOD std::map<
typename get_transformed_type<key_predicate_type, typename TRange::value_type>::type
, typename TRange::value_type
> build (TRange range) const
{
typedef std::map<
typename get_transformed_type<key_predicate_type, typename TRange::value_type>::type
, typename TRange::value_type
> result_type;
result_type result;
while (range.next ())
{
auto v = range.front ();
auto k = key_predicate (v);
result.insert (typename result_type::value_type (std::move (k), std::move (v)));
}
return result;
}
};
// -------------------------------------------------------------------------
template<typename TKey, typename TValue>
struct lookup
{
typedef TKey key_type ;
typedef TValue value_type ;
typedef std::vector<std::pair<key_type, size_type>> keys_type ;
typedef std::vector<value_type> values_type ;
typedef typename values_type::const_iterator values_iterator_type;
template<typename TRange, typename TSelector>
CPPLINQ_METHOD lookup (size_type capacity, TRange range, TSelector selector)
{
keys_type k;
values_type v;
k.reserve (capacity);
v.reserve (capacity);
auto index = 0U;
while (range.next ())
{
auto value = range.front ();
auto key = selector (value);
v.push_back (std::move (value));
k.push_back (typename keys_type::value_type (std::move (key), index));
++index;
}
if (v.size () == 0)
{
return;
}
std::sort (
k.begin ()
, k.end ()
, [] (typename keys_type::value_type const & l, typename keys_type::value_type const & r)
{
return l.first < r.first;
}
);
keys.reserve (k.size ());
values.reserve (v.size ());
auto iter = k.begin ();
auto end = k.end ();
index = 0U;
if (iter != end)
{
values.push_back (std::move (v[iter->second]));
keys.push_back (typename keys_type::value_type (iter->first, index));
}
auto previous = iter;
++iter;
++index;
while (iter != end)
{
values.push_back (v[iter->second]);
if (previous->first < iter->first)
{
keys.push_back (typename keys_type::value_type (iter->first, index));
}
previous = iter;
++iter;
++index;
}
}
CPPLINQ_INLINEMETHOD lookup (lookup const & v)
: values (v.values)
, keys (v.keys)
{
}
CPPLINQ_INLINEMETHOD lookup (lookup && v) CPPLINQ_NOEXCEPT
: values (std::move (v.values))
, keys (std::move (v.keys))
{
}
CPPLINQ_INLINEMETHOD void swap (lookup & v) CPPLINQ_NOEXCEPT
{
values.swap (v.values);
keys.swap (v.keys);
}
CPPLINQ_INLINEMETHOD lookup & operator= (lookup const & v)
{
if (this == std::addressof (v))
{
return *this;
}
lookup tmp (v);
swap (tmp);
return *this;
}
CPPLINQ_INLINEMETHOD lookup & operator= (lookup && v) CPPLINQ_NOEXCEPT
{
if (this == std::addressof (v))
{
return *this;
}
swap (v);
return *this;
}
struct lookup_range : base_range
{
typedef lookup_range this_type ;
enum
{
returns_reference = 1 ,
};
typedef TValue value_type ;
typedef value_type const & return_type ;
enum state
{
state_initial ,
state_iterating ,
state_end ,
};
values_type const * values ;
size_type iter ;
size_type end ;
state state ;
CPPLINQ_INLINEMETHOD lookup_range (
values_type const * values
, size_type iter
, size_type end
) CPPLINQ_NOEXCEPT
: values (values)
, iter (iter)
, end (end)
, state (state_initial)
{
assert (values);
}
CPPLINQ_INLINEMETHOD lookup_range (lookup_range const & v) CPPLINQ_NOEXCEPT
: values (v.values)
, iter (v.iter)
, end (v.end)
, state (v.state)
{
}
CPPLINQ_INLINEMETHOD lookup_range (lookup_range && v) CPPLINQ_NOEXCEPT
: values (std::move (v.values))
, iter (std::move (v.iter))
, end (std::move (v.end))
, state (std::move (v.state))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const CPPLINQ_NOEXCEPT
{
assert (state == state_iterating);
assert (iter < end);
return (*values)[iter];
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
switch (state)
{
case state_initial:
{
auto has_elements = iter < end;
state = has_elements ? state_iterating : state_end;
return has_elements;
}
break;
case state_iterating:
{
++iter;
auto has_elements = iter < end;
state = has_elements ? state_iterating : state_end;
return has_elements;
}
break;
case state_end:
default:
return false;
}
}
};
CPPLINQ_METHOD lookup_range operator[](key_type const & key) const CPPLINQ_NOEXCEPT
{
if (values.empty ())
{
return lookup_range (std::addressof (values), 0U, 0U);
}
if (keys.empty ())
{
return lookup_range (std::addressof (values), 0U, 0U);
}
auto find = std::lower_bound (
keys.begin ()
, keys.end ()
, typename keys_type::value_type (key, 0U)
, [](typename keys_type::value_type const & l, typename keys_type::value_type const & r)
{
return l.first < r.first;
});
if (find == keys.end ())
{
return lookup_range (std::addressof (values), 0U, 0U);
}
auto next = find + 1;
if (next == keys.end ())
{
return lookup_range (std::addressof (values), find->second, values.size ());
}
return lookup_range (std::addressof (values), find->second, next->second);
}
CPPLINQ_INLINEMETHOD size_type size_of_keys () const CPPLINQ_NOEXCEPT
{
return keys.size ();
}
CPPLINQ_INLINEMETHOD size_type size_of_values () const CPPLINQ_NOEXCEPT
{
return values.size ();
}
CPPLINQ_INLINEMETHOD from_range<values_iterator_type> range_of_values () const CPPLINQ_NOEXCEPT
{
return from_range<values_iterator_type> (
values.begin ()
, values.end ()
);
}
private:
values_type values ;
keys_type keys ;
};
template<typename TKeyPredicate>
struct to_lookup_builder : base_builder
{
static TKeyPredicate get_key_predicate ();
typedef to_lookup_builder<TKeyPredicate> this_type ;
typedef TKeyPredicate key_predicate_type ;
key_predicate_type key_predicate ;
CPPLINQ_INLINEMETHOD explicit to_lookup_builder (key_predicate_type key_predicate) CPPLINQ_NOEXCEPT
: key_predicate (std::move (key_predicate))
{
}
CPPLINQ_INLINEMETHOD to_lookup_builder (to_lookup_builder const & v)
: key_predicate (v.key_predicate)
{
}
CPPLINQ_INLINEMETHOD to_lookup_builder (to_lookup_builder && v) CPPLINQ_NOEXCEPT
: key_predicate (std::move (v.key_predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD lookup<
typename get_transformed_type<key_predicate_type, typename TRange::value_type>::type
, typename TRange::value_type
> build (TRange range) const
{
typedef lookup<
typename get_transformed_type<key_predicate_type, typename TRange::value_type>::type
, typename TRange::value_type
> result_type;
result_type result (16U, range, key_predicate);
return result;
}
};
// -------------------------------------------------------------------------
template<typename TPredicate>
struct for_each_builder : base_builder
{
typedef for_each_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate;
CPPLINQ_INLINEMETHOD explicit for_each_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD for_each_builder (for_each_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD for_each_builder (for_each_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD void build (TRange range) const
{
while (range.next ())
{
predicate (range.front ());
}
}
};
// -------------------------------------------------------------------------
template<typename TPredicate>
struct first_predicate_builder : base_builder
{
typedef first_predicate_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD first_predicate_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD first_predicate_builder (first_predicate_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD first_predicate_builder (first_predicate_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::return_type build (TRange range)
{
while (range.next ())
{
if (predicate (range.front ()))
{
return range.front ();
}
}
throw sequence_empty_exception ();
}
};
// -------------------------------------------------------------------------
struct first_builder : base_builder
{
typedef first_builder this_type ;
CPPLINQ_INLINEMETHOD first_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD first_builder (first_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD first_builder (first_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::return_type build (TRange range)
{
if (range.next ())
{
return range.front ();
}
throw sequence_empty_exception ();
}
};
// -------------------------------------------------------------------------
template<typename TPredicate>
struct first_or_default_predicate_builder : base_builder
{
typedef first_or_default_predicate_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate;
CPPLINQ_INLINEMETHOD first_or_default_predicate_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD first_or_default_predicate_builder (first_or_default_predicate_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD first_or_default_predicate_builder (first_or_default_predicate_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
while (range.next ())
{
if (predicate (range.front ()))
{
return range.front ();
}
}
return typename TRange::value_type ();
}
};
struct first_or_default_builder : base_builder
{
typedef first_or_default_builder this_type ;
CPPLINQ_INLINEMETHOD first_or_default_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD first_or_default_builder (first_or_default_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD first_or_default_builder (first_or_default_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
if (range.next ())
{
return range.front ();
}
return typename TRange::value_type ();
}
};
// -------------------------------------------------------------------------
template<typename TPredicate>
struct last_or_default_predicate_builder : base_builder
{
typedef last_or_default_predicate_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate;
CPPLINQ_INLINEMETHOD last_or_default_predicate_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD last_or_default_predicate_builder (last_or_default_predicate_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD last_or_default_predicate_builder (last_or_default_predicate_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto current = typename TRange::value_type ();
while (range.next ())
{
if (predicate (range.front ()))
{
current = std::move (range.front ());
}
}
return current;
}
};
struct last_or_default_builder : base_builder
{
typedef last_or_default_builder this_type ;
CPPLINQ_INLINEMETHOD last_or_default_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD last_or_default_builder (last_or_default_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD last_or_default_builder (last_or_default_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto current = typename TRange::value_type ();
while (range.next ())
{
current = std::move (range.front ());
}
return current;
}
};
// -------------------------------------------------------------------------
template <typename TPredicate>
struct count_predicate_builder : base_builder
{
typedef count_predicate_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD count_predicate_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD count_predicate_builder (count_predicate_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD count_predicate_builder (count_predicate_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD size_type build (TRange range) const
{
size_type count = 0U;
while (range.next ())
{
if (predicate (range.front ()))
{
++count;
}
}
return count;
}
};
struct count_builder : base_builder
{
typedef count_builder this_type ;
CPPLINQ_INLINEMETHOD count_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD count_builder (count_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD count_builder (count_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD size_type build (TRange range) const
{
size_type count = 0U;
while (range.next ())
{
++count;
}
return count;
}
};
// -------------------------------------------------------------------------
template <typename TSelector>
struct sum_selector_builder : base_builder
{
typedef sum_selector_builder<TSelector> this_type ;
typedef TSelector selector_type ;
selector_type selector;
CPPLINQ_INLINEMETHOD sum_selector_builder (selector_type selector) CPPLINQ_NOEXCEPT
: selector (std::move (selector))
{
}
CPPLINQ_INLINEMETHOD sum_selector_builder (sum_selector_builder const & v) CPPLINQ_NOEXCEPT
: selector (v.selector)
{
}
CPPLINQ_INLINEMETHOD sum_selector_builder (sum_selector_builder && v) CPPLINQ_NOEXCEPT
: selector (std::move (v.selector))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto sum = typename TRange::value_type ();
while (range.next ())
{
sum += selector (range.front ());
}
return sum;
}
};
struct sum_builder : base_builder
{
typedef sum_builder this_type ;
CPPLINQ_INLINEMETHOD sum_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD sum_builder (sum_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD sum_builder (sum_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto sum = typename TRange::value_type ();
while (range.next ())
{
sum += range.front ();
}
return sum;
}
};
// -------------------------------------------------------------------------
template <typename TSelector>
struct max_selector_builder : base_builder
{
typedef max_selector_builder<TSelector> this_type ;
typedef TSelector selector_type ;
selector_type selector;
CPPLINQ_INLINEMETHOD max_selector_builder (selector_type selector) CPPLINQ_NOEXCEPT
: selector (std::move (selector))
{
}
CPPLINQ_INLINEMETHOD max_selector_builder (max_selector_builder const & v) CPPLINQ_NOEXCEPT
: selector (v.selector)
{
}
CPPLINQ_INLINEMETHOD max_selector_builder (max_selector_builder && v) CPPLINQ_NOEXCEPT
: selector (std::move (v.selector))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto current = std::numeric_limits<typename TRange::value_type>::min ();
while (range.next ())
{
auto v = selector (range.front ());
if (current < v)
{
current = std::move (v);
}
}
return current;
}
};
struct max_builder : base_builder
{
typedef max_builder this_type ;
CPPLINQ_INLINEMETHOD max_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD max_builder (max_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD max_builder (max_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto current = std::numeric_limits<typename TRange::value_type>::min ();
while (range.next ())
{
auto v = range.front ();
if (current < v)
{
current = std::move (v);
}
}
return current;
}
};
// -------------------------------------------------------------------------
template <typename TSelector>
struct min_selector_builder : base_builder
{
typedef min_selector_builder<TSelector> this_type ;
typedef TSelector selector_type ;
selector_type selector;
CPPLINQ_INLINEMETHOD min_selector_builder (selector_type selector) CPPLINQ_NOEXCEPT
: selector (std::move (selector))
{
}
CPPLINQ_INLINEMETHOD min_selector_builder (min_selector_builder const & v) CPPLINQ_NOEXCEPT
: selector (v.selector)
{
}
CPPLINQ_INLINEMETHOD min_selector_builder (min_selector_builder && v) CPPLINQ_NOEXCEPT
: selector (std::move (v.selector))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto current = std::numeric_limits<typename TRange::value_type>::max ();
while (range.next ())
{
auto v = selector (range.front ());
if (v < current)
{
current = std::move (v);
}
}
return current;
}
};
struct min_builder : base_builder
{
typedef min_builder this_type ;
CPPLINQ_INLINEMETHOD min_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD min_builder (min_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD min_builder (min_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto current = std::numeric_limits<typename TRange::value_type>::max ();
while (range.next ())
{
auto v = range.front ();
if (v < current)
{
current = std::move (v);
}
}
return current;
}
};
// -------------------------------------------------------------------------
template <typename TSelector>
struct avg_selector_builder : base_builder
{
typedef avg_selector_builder<TSelector> this_type ;
typedef TSelector selector_type ;
selector_type selector;
CPPLINQ_INLINEMETHOD avg_selector_builder (selector_type selector) CPPLINQ_NOEXCEPT
: selector (std::move (selector))
{
}
CPPLINQ_INLINEMETHOD avg_selector_builder (avg_selector_builder const & v) CPPLINQ_NOEXCEPT
: selector (v.selector)
{
}
CPPLINQ_INLINEMETHOD avg_selector_builder (avg_selector_builder && v) CPPLINQ_NOEXCEPT
: selector (std::move (v.selector))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto sum = typename TRange::value_type ();
int count = 0;
while (range.next ())
{
sum += selector (range.front ());
++count;
}
if (count == 0)
{
return sum;
}
return sum/count;
}
};
struct avg_builder : base_builder
{
typedef avg_builder this_type ;
CPPLINQ_INLINEMETHOD avg_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD avg_builder (avg_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD avg_builder (avg_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
auto sum = typename TRange::value_type ();
int count = 0;
while (range.next ())
{
sum += range.front ();
++count;
}
if (count == 0)
{
return sum;
}
return sum/count;
}
};
// -------------------------------------------------------------------------
template <typename TAccumulate, typename TAccumulator>
struct aggregate_builder : base_builder
{
typedef aggregate_builder<TAccumulate, TAccumulator> this_type ;
typedef TAccumulator accumulator_type;
typedef TAccumulate seed_type;
seed_type seed;
accumulator_type accumulator;
CPPLINQ_INLINEMETHOD aggregate_builder (seed_type seed, accumulator_type accumulator) CPPLINQ_NOEXCEPT
: seed (std::move (seed))
, accumulator (std::move (accumulator))
{
}
CPPLINQ_INLINEMETHOD aggregate_builder (aggregate_builder const & v) CPPLINQ_NOEXCEPT
: seed (v.seed)
, accumulator (v.accumulator)
{
}
CPPLINQ_INLINEMETHOD aggregate_builder (aggregate_builder && v) CPPLINQ_NOEXCEPT
: seed (std::move (v.seed))
, accumulator (std::move (v.accumulator))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD seed_type build (TRange range) const
{
auto sum = seed;
while (range.next ())
{
sum = accumulator (sum, range.front ());
}
return sum;
}
};
template <typename TAccumulate, typename TAccumulator, typename TSelector>
struct aggregate_result_selector_builder : base_builder
{
typedef aggregate_result_selector_builder<TAccumulate, TAccumulator, TSelector> this_type ;
typedef TAccumulator accumulator_type;
typedef TAccumulate seed_type;
typedef TSelector result_selector_type;
seed_type seed;
accumulator_type accumulator;
result_selector_type result_selector;
CPPLINQ_INLINEMETHOD aggregate_result_selector_builder (seed_type seed, accumulator_type accumulator, result_selector_type result_selector) CPPLINQ_NOEXCEPT
: seed (std::move (seed))
, accumulator (std::move (accumulator))
, result_selector (std::move (result_selector))
{
}
CPPLINQ_INLINEMETHOD aggregate_result_selector_builder (aggregate_result_selector_builder const & v) CPPLINQ_NOEXCEPT
: seed (v.seed)
, accumulator (v.accumulator)
, result_selector (v.result_selector)
{
}
CPPLINQ_INLINEMETHOD aggregate_result_selector_builder (aggregate_result_selector_builder && v) CPPLINQ_NOEXCEPT
: seed (std::move (v.seed))
, accumulator (std::move (v.accumulator))
, result_selector (std::move (v.result_selector))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD auto build (TRange range) const -> decltype (result_selector (seed))
{
auto sum = seed;
while (range.next ())
{
sum = accumulator (sum, range.front ());
}
return result_selector (sum);
}
};
// -------------------------------------------------------------------------
template <typename TOtherRange, typename TComparer>
struct sequence_equal_predicate_builder : base_builder
{
typedef sequence_equal_predicate_builder<TOtherRange,TComparer> this_type ;
typedef TOtherRange other_range_type;
typedef TComparer comparer_type ;
other_range_type other_range ;
comparer_type comparer ;
CPPLINQ_INLINEMETHOD sequence_equal_predicate_builder (
TOtherRange other_range
, comparer_type comparer) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
, comparer (std::move (comparer))
{
}
CPPLINQ_INLINEMETHOD sequence_equal_predicate_builder (sequence_equal_predicate_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
, comparer (v.comparer)
{
}
CPPLINQ_INLINEMETHOD sequence_equal_predicate_builder (sequence_equal_predicate_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
, comparer (std::move (v.comparer))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
auto copy = other_range;
for (;;)
{
bool next1 = range.next ();
bool next2 = copy.next ();
// sequences are not of same length
if (next1 != next2)
{
return false;
}
// both sequences are over, next1 = next2 = false
if (!next1)
{
return true;
}
if (!comparer (range.front (), copy.front ()))
{
return false;
}
}
}
};
template <typename TOtherRange>
struct sequence_equal_builder : base_builder
{
typedef sequence_equal_builder<TOtherRange> this_type ;
typedef TOtherRange other_range_type;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD sequence_equal_builder (TOtherRange other_range) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD sequence_equal_builder (sequence_equal_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD sequence_equal_builder (sequence_equal_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
auto copy = other_range;
for (;;)
{
bool next1 = range.next ();
bool next2 = copy.next ();
// sequences are not of same length
if (next1 != next2)
{
return false;
}
// both sequences are over, next1 = next2 = false
if (!next1)
{
return true;
}
if (range.front () != copy.front ())
{
return false;
}
}
}
};
// -------------------------------------------------------------------------
template<typename TCharType>
struct concatenate_builder : base_builder
{
typedef concatenate_builder<TCharType> this_type ;
std::basic_string<TCharType> separator ;
size_type capacity ;
CPPLINQ_INLINEMETHOD concatenate_builder (
std::basic_string<TCharType> separator
, size_type capacity
) CPPLINQ_NOEXCEPT
: separator (std::move (separator))
, capacity (capacity)
{
}
CPPLINQ_INLINEMETHOD concatenate_builder (concatenate_builder const & v) CPPLINQ_NOEXCEPT
: separator (v.separator)
, capacity (v.capacity)
{
}
CPPLINQ_INLINEMETHOD concatenate_builder (concatenate_builder && v) CPPLINQ_NOEXCEPT
: separator (std::move (v.separator))
, capacity (std::move (v.capacity))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename std::basic_string<TCharType> build (TRange range) const
{
auto first = true ;
std::vector<TCharType> buffer ;
buffer.reserve (capacity);
while (range.next ())
{
if (first)
{
first = false;
}
else
{
buffer.insert (
buffer.end ()
, separator.begin ()
, separator.end ()
);
}
auto v = range.front ();
buffer.insert (
buffer.end ()
, v.begin ()
, v.end ()
);
}
return std::basic_string<TCharType> (
buffer.begin ()
, buffer.end ()
);
}
};
// -------------------------------------------------------------------------
template <typename TPredicate>
struct any_predicate_builder : base_builder
{
typedef any_predicate_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD any_predicate_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD any_predicate_builder (any_predicate_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD any_predicate_builder (any_predicate_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
bool any = false;
while (range.next () && !any)
{
any = predicate (range.front ());
}
return any;
}
};
struct any_builder : base_builder
{
typedef any_builder this_type ;
CPPLINQ_INLINEMETHOD any_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD any_builder (any_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD any_builder (any_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
return range.next ();
}
};
// -------------------------------------------------------------------------
template <typename TPredicate>
struct all_predicate_builder : base_builder
{
typedef all_predicate_builder<TPredicate> this_type ;
typedef TPredicate predicate_type ;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD all_predicate_builder (predicate_type predicate) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD all_predicate_builder (all_predicate_builder const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD all_predicate_builder (all_predicate_builder && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
while (range.next ())
{
if (!predicate (range.front ()))
{
return false;
}
}
return true;
}
};
// -------------------------------------------------------------------------
template <typename TValue>
struct contains_builder : base_builder
{
typedef contains_builder<TValue> this_type ;
typedef TValue value_type ;
value_type value;
CPPLINQ_INLINEMETHOD contains_builder (value_type value) CPPLINQ_NOEXCEPT
: value (std::move (value))
{
}
CPPLINQ_INLINEMETHOD contains_builder (contains_builder const & v) CPPLINQ_NOEXCEPT
: value (v.value)
{
}
CPPLINQ_INLINEMETHOD contains_builder (contains_builder && v) CPPLINQ_NOEXCEPT
: value (std::move (v.value))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
while (range.next ())
{
if (range.front () == value)
{
return true;
}
}
return false;
}
};
template <typename TValue, typename TPredicate>
struct contains_predicate_builder : base_builder
{
typedef contains_predicate_builder<TValue, TPredicate> this_type ;
typedef TValue value_type ;
typedef TPredicate predicate_type ;
value_type value;
predicate_type predicate ;
CPPLINQ_INLINEMETHOD contains_predicate_builder (value_type value, predicate_type predicate) CPPLINQ_NOEXCEPT
: value (std::move (value))
, predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD contains_predicate_builder (contains_predicate_builder const & v) CPPLINQ_NOEXCEPT
: value (v.value)
, predicate (v.predicate)
{
}
CPPLINQ_INLINEMETHOD contains_predicate_builder (contains_predicate_builder && v) CPPLINQ_NOEXCEPT
: value (std::move (v.value))
, predicate (std::move (v.predicate))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD bool build (TRange range) const
{
while (range.next ())
{
if (predicate (range.front (), value))
{
return true;
}
}
return false;
}
};
// -------------------------------------------------------------------------
struct element_at_or_default_builder : base_builder
{
typedef element_at_or_default_builder this_type ;
size_type index;
CPPLINQ_INLINEMETHOD element_at_or_default_builder (size_type index) CPPLINQ_NOEXCEPT
: index (std::move (index))
{
}
CPPLINQ_INLINEMETHOD element_at_or_default_builder (element_at_or_default_builder const & v) CPPLINQ_NOEXCEPT
: index (v.index)
{
}
CPPLINQ_INLINEMETHOD element_at_or_default_builder (element_at_or_default_builder && v) CPPLINQ_NOEXCEPT
: index (std::move (v.index))
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD typename TRange::value_type build (TRange range) const
{
size_type current = 0U;
while (range.next ())
{
if (current < index)
{
++current;
}
else
{
return range.front ();
}
}
return typename TRange::value_type ();
}
};
// -------------------------------------------------------------------------
template<typename TRange>
struct pairwise_range : base_range
{
typedef pairwise_range<TRange> this_type ;
typedef TRange range_type ;
typedef typename TRange::value_type element_type ;
typedef std::pair<element_type,element_type> value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
range_type range ;
opt<element_type> previous ;
opt<element_type> current ;
CPPLINQ_INLINEMETHOD pairwise_range (
range_type range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
{
}
CPPLINQ_INLINEMETHOD pairwise_range (pairwise_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, previous (v.previous)
, current (v.current)
{
}
CPPLINQ_INLINEMETHOD pairwise_range (pairwise_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, previous (std::move (v.previous))
, current (std::move (v.current))
{
}
template<typename TPairwiseBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TPairwiseBuilder, this_type>::type operator>>(TPairwiseBuilder pairwise_builder) const
{
return pairwise_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (previous.has_value ());
assert (current.has_value ());
return std::make_pair (previous.get (), current.get ());
}
CPPLINQ_INLINEMETHOD bool next ()
{
if (!previous.has_value ())
{
if (range.next ())
{
current = range.front ();
}
else
{
return false;
}
}
previous.swap (current);
if (range.next ())
{
current = range.front ();
return true;
}
return false;
}
};
struct pairwise_builder : base_builder
{
typedef pairwise_builder this_type ;
CPPLINQ_INLINEMETHOD pairwise_builder () CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD pairwise_builder (pairwise_builder const & v) CPPLINQ_NOEXCEPT
{
}
CPPLINQ_INLINEMETHOD pairwise_builder (pairwise_builder && v) CPPLINQ_NOEXCEPT
{
}
template<typename TRange>
CPPLINQ_INLINEMETHOD pairwise_range<TRange> build (TRange range) const
{
return pairwise_range<TRange> (std::move (range));
}
};
// -------------------------------------------------------------------------
template<typename TRange, typename TOtherRange>
struct zip_with_range : base_range
{
typedef zip_with_range<TRange, TOtherRange> this_type ;
typedef TRange range_type ;
typedef TOtherRange other_range_type ;
typedef typename cleanup_type<typename TRange::value_type>::type left_element_type ;
typedef typename cleanup_type<typename TOtherRange::value_type>::type right_element_type ;
typedef std::pair<left_element_type,right_element_type> value_type ;
typedef value_type return_type ;
enum
{
returns_reference = 0 ,
};
range_type range ;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD zip_with_range (
range_type range
, other_range_type other_range
) CPPLINQ_NOEXCEPT
: range (std::move (range))
, other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD zip_with_range (zip_with_range const & v) CPPLINQ_NOEXCEPT
: range (v.range)
, other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD zip_with_range (zip_with_range && v) CPPLINQ_NOEXCEPT
: range (std::move (v.range))
, other_range (std::move (v.other_range))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
return std::make_pair (range.front (), other_range.front ());
}
CPPLINQ_INLINEMETHOD bool next ()
{
return range.next () && other_range.next ();
}
};
template <typename TOtherRange>
struct zip_with_builder : base_builder
{
typedef zip_with_builder<TOtherRange> this_type ;
typedef TOtherRange other_range_type;
other_range_type other_range ;
CPPLINQ_INLINEMETHOD zip_with_builder (TOtherRange other_range) CPPLINQ_NOEXCEPT
: other_range (std::move (other_range))
{
}
CPPLINQ_INLINEMETHOD zip_with_builder (zip_with_builder const & v) CPPLINQ_NOEXCEPT
: other_range (v.other_range)
{
}
CPPLINQ_INLINEMETHOD zip_with_builder (zip_with_builder && v) CPPLINQ_NOEXCEPT
: other_range (std::move (v.other_range))
{
}
template <typename TRange>
CPPLINQ_INLINEMETHOD zip_with_range<TRange, TOtherRange> build (TRange range) const
{
return zip_with_range<TRange, TOtherRange> (std::move (range), std::move (other_range));
}
};
// -------------------------------------------------------------------------
template<typename TPredicate>
struct generate_range : base_range
{
static TPredicate get_predicate ();
typedef decltype (get_predicate ()()) raw_opt_value_type ;
typedef typename cleanup_type<raw_opt_value_type>::type opt_value_type ;
typedef decltype (*(get_predicate ()())) raw_value_type ;
typedef typename cleanup_type<raw_value_type>::type value_type ;
typedef generate_range<TPredicate> this_type ;
typedef TPredicate predicate_type ;
typedef value_type const & return_type ;
enum
{
returns_reference = 1,
};
TPredicate predicate ;
opt_value_type current_value ;
CPPLINQ_INLINEMETHOD generate_range (
TPredicate predicate
) CPPLINQ_NOEXCEPT
: predicate (std::move (predicate))
{
}
CPPLINQ_INLINEMETHOD generate_range (generate_range const & v) CPPLINQ_NOEXCEPT
: predicate (v.predicate)
, current_value (v.current_value)
{
}
CPPLINQ_INLINEMETHOD generate_range (generate_range && v) CPPLINQ_NOEXCEPT
: predicate (std::move (v.predicate))
, current_value (std::move (v.current_value))
{
}
template<typename TRangeBuilder>
CPPLINQ_INLINEMETHOD typename get_builtup_type<TRangeBuilder, this_type>::type operator>>(TRangeBuilder range_builder) const
{
return range_builder.build (*this);
}
CPPLINQ_INLINEMETHOD return_type front () const
{
assert (current_value);
return *current_value;
}
CPPLINQ_INLINEMETHOD bool next () CPPLINQ_NOEXCEPT
{
current_value = predicate ();
return current_value;
}
};
// -------------------------------------------------------------------------
} // namespace detail
// -------------------------------------------------------------------------
// The interface of cpplinq
// -------------------------------------------------------------------------
// Range sources
template<typename TValueIterator>
CPPLINQ_INLINEMETHOD detail::from_range<TValueIterator> from_iterators (
TValueIterator begin
, TValueIterator end
) CPPLINQ_NOEXCEPT
{
return detail::from_range<TValueIterator> (std::move (begin), std::move (end));
}
template<typename TContainer>
CPPLINQ_INLINEMETHOD detail::from_range<typename TContainer::const_iterator> from (
TContainer const & container
)
{
return detail::from_range<typename TContainer::const_iterator> (
container.begin ()
, container.end ()
);
}
template<typename TValueArray>
CPPLINQ_INLINEMETHOD detail::from_range<typename detail::get_array_properties<TValueArray>::iterator_type> from_array (
TValueArray & a
) CPPLINQ_NOEXCEPT
{
typedef detail::get_array_properties<TValueArray> array_properties;
typedef typename array_properties::iterator_type iterator_type;
iterator_type begin = a;
iterator_type end = begin + array_properties::size;
return detail::from_range<typename array_properties::iterator_type> (
std::move (begin)
, std::move (end)
);
}
template<typename TContainer>
CPPLINQ_INLINEMETHOD detail::from_copy_range<typename detail::cleanup_type<TContainer>::type> from_copy (
TContainer&& container
)
{
typedef typename detail::cleanup_type<TContainer>::type container_type;
return detail::from_copy_range<container_type> (
std::forward<TContainer> (container)
);
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::generate_range<TPredicate> generate (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::generate_range<TPredicate> (std::move (predicate));
}
// Restriction operators
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::where_builder<TPredicate> where (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::where_builder<TPredicate> (std::move (predicate));
}
// Projection operators
CPPLINQ_INLINEMETHOD detail::ref_builder ref () CPPLINQ_NOEXCEPT
{
return detail::ref_builder ();
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::select_builder<TPredicate> select (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::select_builder<TPredicate> (std::move (predicate));
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::select_many_builder<TPredicate> select_many (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::select_many_builder<TPredicate> (std::move (predicate));
}
template<
typename TOtherRange
, typename TKeySelector
, typename TOtherKeySelector
, typename TCombiner
>
CPPLINQ_INLINEMETHOD detail::join_builder<
TOtherRange
, TKeySelector
, TOtherKeySelector
, TCombiner
> join (
TOtherRange other_range
, TKeySelector key_selector
, TOtherKeySelector other_key_selector
, TCombiner combiner
) CPPLINQ_NOEXCEPT
{
return detail::join_builder<
TOtherRange
, TKeySelector
, TOtherKeySelector
, TCombiner
>
(
std::move (other_range)
, std::move (key_selector)
, std::move (other_key_selector)
, std::move (combiner)
);
}
// Concatenation operators
template <typename TOtherRange>
CPPLINQ_INLINEMETHOD detail::concat_builder<TOtherRange> concat (TOtherRange other_range) CPPLINQ_NOEXCEPT
{
return detail::concat_builder<TOtherRange> (std::move (other_range));
}
// Partitioning operators
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::take_while_builder<TPredicate> take_while (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::take_while_builder<TPredicate> (std::move (predicate));
}
CPPLINQ_INLINEMETHOD detail::take_builder take (
size_type count
) CPPLINQ_NOEXCEPT
{
return detail::take_builder (count);
}
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::skip_while_builder<TPredicate> skip_while (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::skip_while_builder<TPredicate> (predicate);
}
CPPLINQ_INLINEMETHOD detail::skip_builder skip (
size_type count
) CPPLINQ_NOEXCEPT
{
return detail::skip_builder (count);
}
// Ordering operators
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::orderby_builder<TPredicate> orderby (
TPredicate predicate
, bool sort_ascending = true
) CPPLINQ_NOEXCEPT
{
return detail::orderby_builder<TPredicate> (std::move (predicate), sort_ascending);
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::orderby_builder<TPredicate> orderby_ascending (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::orderby_builder<TPredicate> (std::move (predicate), true);
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::orderby_builder<TPredicate> orderby_descending (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::orderby_builder<TPredicate> (std::move (predicate), false);
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::thenby_builder<TPredicate> thenby (
TPredicate predicate
, bool sort_ascending = true
) CPPLINQ_NOEXCEPT
{
return detail::thenby_builder<TPredicate> (std::move (predicate), sort_ascending);
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::thenby_builder<TPredicate> thenby_ascending (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::thenby_builder<TPredicate> (std::move (predicate), true);
}
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::thenby_builder<TPredicate> thenby_descending (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::thenby_builder<TPredicate> (std::move (predicate), false);
}
CPPLINQ_INLINEMETHOD detail::reverse_builder reverse (size_type capacity = 16U) CPPLINQ_NOEXCEPT
{
return detail::reverse_builder (capacity);
}
// Conversion operators
namespace experimental
{
CPPLINQ_INLINEMETHOD detail::experimental::container_builder container () CPPLINQ_NOEXCEPT
{
return detail::experimental::container_builder ();
}
}
template<typename TValue>
CPPLINQ_INLINEMETHOD detail::opt<typename detail::cleanup_type<TValue>::type> to_opt (TValue && v)
{
return detail::opt<typename detail::cleanup_type<TValue>::type> (std::forward<TValue> (v));
}
template<typename TValue>
CPPLINQ_INLINEMETHOD detail::opt<TValue> to_opt ()
{
return detail::opt<TValue> ();
}
CPPLINQ_INLINEMETHOD detail::to_vector_builder to_vector (size_type capacity = 16U) CPPLINQ_NOEXCEPT
{
return detail::to_vector_builder (capacity);
}
CPPLINQ_INLINEMETHOD detail::to_list_builder to_list () CPPLINQ_NOEXCEPT
{
return detail::to_list_builder ();
}
template<typename TKeyPredicate>
CPPLINQ_INLINEMETHOD detail::to_map_builder<TKeyPredicate> to_map (TKeyPredicate key_predicate) CPPLINQ_NOEXCEPT
{
return detail::to_map_builder<TKeyPredicate>(std::move (key_predicate));
}
template<typename TKeyPredicate>
CPPLINQ_INLINEMETHOD detail::to_lookup_builder<TKeyPredicate> to_lookup (TKeyPredicate key_predicate) CPPLINQ_NOEXCEPT
{
return detail::to_lookup_builder<TKeyPredicate>(std::move (key_predicate));
}
// Equality operators
template <typename TOtherRange>
CPPLINQ_INLINEMETHOD detail::sequence_equal_builder<TOtherRange> sequence_equal (TOtherRange other_range) CPPLINQ_NOEXCEPT
{
return detail::sequence_equal_builder<TOtherRange> (std::move (other_range));
}
template <typename TOtherRange, typename TComparer>
CPPLINQ_INLINEMETHOD detail::sequence_equal_predicate_builder<TOtherRange, TComparer> sequence_equal (
TOtherRange other_range
, TComparer comparer) CPPLINQ_NOEXCEPT
{
return detail::sequence_equal_predicate_builder<TOtherRange, TComparer> (std::move (other_range), std::move (comparer));
}
// Element operators
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::first_predicate_builder<TPredicate> first (
TPredicate predicate
)
{
return detail::first_predicate_builder<TPredicate> (std::move (predicate));
}
CPPLINQ_INLINEMETHOD detail::first_builder first ()
{
return detail::first_builder ();
}
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::first_or_default_predicate_builder<TPredicate> first_or_default (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::first_or_default_predicate_builder<TPredicate> (predicate);
}
CPPLINQ_INLINEMETHOD detail::first_or_default_builder first_or_default () CPPLINQ_NOEXCEPT
{
return detail::first_or_default_builder ();
}
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::last_or_default_predicate_builder<TPredicate> last_or_default (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::last_or_default_predicate_builder<TPredicate> (predicate);
}
CPPLINQ_INLINEMETHOD detail::last_or_default_builder last_or_default () CPPLINQ_NOEXCEPT
{
return detail::last_or_default_builder ();
}
CPPLINQ_INLINEMETHOD detail::element_at_or_default_builder element_at_or_default (
size_type index
) CPPLINQ_NOEXCEPT
{
return detail::element_at_or_default_builder (index);
}
// Generation operators
CPPLINQ_INLINEMETHOD detail::int_range range (
int start
, int count
) CPPLINQ_NOEXCEPT
{
auto c = count > 0 ? count : 0;
auto end = (INT_MAX - c) > start ? (start + c) : INT_MAX;
return detail::int_range (start, end);
}
template <typename TValue>
CPPLINQ_INLINEMETHOD detail::repeat_range<TValue> repeat (
TValue element
, int count
) CPPLINQ_NOEXCEPT
{
auto c = count > 0 ? count : 0;
return detail::repeat_range<TValue> (element, c);
}
template <typename TValue>
CPPLINQ_INLINEMETHOD detail::empty_range<TValue> empty () CPPLINQ_NOEXCEPT
{
return detail::empty_range<TValue> ();
}
template<typename TValue>
CPPLINQ_INLINEMETHOD detail::singleton_range<typename detail::cleanup_type<TValue>::type> singleton (TValue&& value) CPPLINQ_NOEXCEPT
{
return detail::singleton_range<typename detail::cleanup_type<TValue>::type> (std::forward<TValue> (value));
}
// Quantifiers
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::any_predicate_builder<TPredicate> any (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::any_predicate_builder<TPredicate> (std::move (predicate));
}
CPPLINQ_INLINEMETHOD detail::any_builder any () CPPLINQ_NOEXCEPT
{
return detail::any_builder ();
}
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::all_predicate_builder<TPredicate> all (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::all_predicate_builder<TPredicate> (std::move (predicate));
}
template <typename TValue>
CPPLINQ_INLINEMETHOD detail::contains_builder<TValue> contains (
TValue value
) CPPLINQ_NOEXCEPT
{
return detail::contains_builder<TValue> (value);
}
template <typename TValue, typename TPredicate>
CPPLINQ_INLINEMETHOD detail::contains_predicate_builder<TValue, TPredicate> contains (
TValue value
, TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::contains_predicate_builder<TValue, TPredicate> (value, predicate);
}
// Aggregate operators
template <typename TPredicate>
CPPLINQ_INLINEMETHOD detail::count_predicate_builder<TPredicate> count (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::count_predicate_builder<TPredicate> (std::move (predicate));
}
CPPLINQ_INLINEMETHOD detail::count_builder count () CPPLINQ_NOEXCEPT
{
return detail::count_builder ();
}
template<typename TSelector>
CPPLINQ_INLINEMETHOD detail::sum_selector_builder<TSelector> sum (
TSelector selector
) CPPLINQ_NOEXCEPT
{
return detail::sum_selector_builder<TSelector> (std::move (selector));
}
CPPLINQ_INLINEMETHOD detail::sum_builder sum () CPPLINQ_NOEXCEPT
{
return detail::sum_builder ();
}
/*template<typename TSelector>
CPPLINQ_INLINEMETHOD detail::max_selector_builder<TSelector> max (TSelector selector) CPPLINQ_NOEXCEPT
{
return detail::max_selector_builder<TSelector> (std::move (selector));
}
CPPLINQ_INLINEMETHOD detail::max_builder max () CPPLINQ_NOEXCEPT
{
return detail::max_builder ();
}*/
/*template<typename TSelector>
CPPLINQ_INLINEMETHOD detail::min_selector_builder<TSelector> min (
TSelector selector
) CPPLINQ_NOEXCEPT
{
return detail::min_selector_builder<TSelector> (std::move (selector));
}
CPPLINQ_INLINEMETHOD detail::min_builder min () CPPLINQ_NOEXCEPT
{
return detail::min_builder ();
}
template<typename TSelector>
CPPLINQ_INLINEMETHOD detail::avg_selector_builder<TSelector> avg (
TSelector selector
) CPPLINQ_NOEXCEPT
{
return detail::avg_selector_builder<TSelector> (std::move (selector));
}
CPPLINQ_INLINEMETHOD detail::avg_builder avg () CPPLINQ_NOEXCEPT
{
return detail::avg_builder ();
}*/
template <typename TAccumulate, typename TAccumulator>
CPPLINQ_INLINEMETHOD detail::aggregate_builder<TAccumulate, TAccumulator> aggregate (
TAccumulate seed
, TAccumulator accumulator
) CPPLINQ_NOEXCEPT
{
return detail::aggregate_builder<TAccumulate, TAccumulator> (seed, accumulator);
}
template <typename TAccumulate, typename TAccumulator, typename TSelector>
CPPLINQ_INLINEMETHOD detail::aggregate_result_selector_builder<TAccumulate, TAccumulator, TSelector> aggregate (
TAccumulate seed
, TAccumulator accumulator
, TSelector result_selector
) CPPLINQ_NOEXCEPT
{
return detail::aggregate_result_selector_builder<TAccumulate, TAccumulator, TSelector> (seed, accumulator, result_selector);
}
// set operators
CPPLINQ_INLINEMETHOD detail::distinct_builder distinct () CPPLINQ_NOEXCEPT
{
return detail::distinct_builder ();
}
template <typename TOtherRange>
CPPLINQ_INLINEMETHOD detail::union_builder<TOtherRange> union_with (TOtherRange other_range) CPPLINQ_NOEXCEPT
{
return detail::union_builder<TOtherRange> (std::move (other_range));
}
template <typename TOtherRange>
CPPLINQ_INLINEMETHOD detail::intersect_builder<TOtherRange> intersect_with (TOtherRange other_range) CPPLINQ_NOEXCEPT
{
return detail::intersect_builder<TOtherRange> (std::move (other_range));
}
template <typename TOtherRange>
CPPLINQ_INLINEMETHOD detail::except_builder<TOtherRange> except (TOtherRange other_range) CPPLINQ_NOEXCEPT
{
return detail::except_builder<TOtherRange> (std::move (other_range));
}
// other operators
template<typename TPredicate>
CPPLINQ_INLINEMETHOD detail::for_each_builder<TPredicate> for_each (
TPredicate predicate
) CPPLINQ_NOEXCEPT
{
return detail::for_each_builder<TPredicate> (std::move (predicate));
}
CPPLINQ_INLINEMETHOD detail::concatenate_builder<char> concatenate (
std::string separator
, size_type capacity = 16U
) CPPLINQ_NOEXCEPT
{
return detail::concatenate_builder<char> (
std::move (separator)
, capacity
);
}
CPPLINQ_INLINEMETHOD detail::concatenate_builder<wchar_t> concatenate (
std::wstring separator
, size_type capacity = 16U
) CPPLINQ_NOEXCEPT
{
return detail::concatenate_builder<wchar_t> (
std::move (separator)
, capacity
);
}
CPPLINQ_INLINEMETHOD detail::pairwise_builder pairwise () CPPLINQ_NOEXCEPT
{
return detail::pairwise_builder ();
}
template <typename TOtherRange>
CPPLINQ_INLINEMETHOD detail::zip_with_builder<TOtherRange> zip_with (TOtherRange other_range) CPPLINQ_NOEXCEPT
{
return detail::zip_with_builder<TOtherRange> (std::move (other_range));
}
// -------------------------------------------------------------------------
}
// ----------------------------------------------------------------------------
#ifdef _MSC_VER
# pragma warning (pop)
#endif
// ----------------------------------------------------------------------------
#endif // CPPLINQ__HEADER_GUARD
// ----------------------------------------------------------------------------
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