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#pragma once

#include "segmented_string_pool.h"

/**
  This is a partially implemented allocator class that uses segmented_pool
  as its allocatior base.
  In fact, segpool_alloc can only allocate, it can't deallocate. Therefore,
  it should be used with add-only containers that are just clear()'ed in the
  end of their life cycle.

  External segmented_pool object must be cleared explicitly after all
  containers use it in their allocator are cleared.
  Single segmented_pool object may be used for several containers.

  Use segpool_alloc_vt as allocator template parameter for container.
  Example:
  using TSomething = THashMap<A, B, hash<A>, TEqualTo<A>, segpool_alloc_vt>;
  ...
  TSomething something;
  something.GetNodeAllocator().pool = &alloc_pool;

  Some containers may provide no way to access their allocator. In that case,
  if you want to use them with segpool_alloc_vt, you should first either
  hack them, or fix segpool_alloc so that it would create ref-counted
  segmented_pool object on it's own

  ! Only tested with THashMap
*/

template <class _Tp>
struct segpool_alloc {
    using pool_type = segmented_pool<char>;
    pool_type* pool;
    using pointer = _Tp*;
    using const_pointer = const _Tp*;
    using reference = _Tp&;
    using const_reference = const _Tp&;
    using size_type = size_t;
    using difference_type = ptrdiff_t;
    using value_type = _Tp;
#ifndef NDEBUG
    ui64 pool_count, malloc_count, pool_free_count, malloc_free_count;
#endif
    segpool_alloc()
        : pool(nullptr)
    {
        Y_IF_DEBUG(pool_count = malloc_count = pool_free_count = malloc_free_count = 0); 
    }
    segpool_alloc(pool_type* p)
        : pool(p)
    {
        Y_IF_DEBUG(pool_count = malloc_count = pool_free_count = malloc_free_count = 0); 
    }
    segpool_alloc(const segpool_alloc& a)
        : pool(a.pool)
    {
        Y_IF_DEBUG(pool_count = malloc_count = pool_free_count = malloc_free_count = 0); 
    }
    template <class _Tp1>
    segpool_alloc(const segpool_alloc<_Tp1>& a)
        : pool(a.pool)
    {
        Y_IF_DEBUG(pool_count = malloc_count = pool_free_count = malloc_free_count = 0); 
    }
    _Tp* allocate(size_t __n) {
        if (!pool) {
            _Tp* data = (_Tp*)malloc(__n * sizeof(_Tp));
            Y_IF_DEBUG(if (data) malloc_count++); 
            return data;
        }
        _Tp* data = (_Tp*)pool->append(nullptr, __n * sizeof(_Tp));
        Y_IF_DEBUG(pool_count++); 
        return data;
    }
    void deallocate(pointer __p, size_t /*__n*/) {
        if (!pool) {
            Y_IF_DEBUG(malloc_free_count++); 
            free(__p);
        } else {
            Y_IF_DEBUG(pool_free_count++); 
            ;
        }
    }
    ~segpool_alloc() {
        //assert(pool_count == pool_free_count && malloc_count == malloc_free_count); <- uncomment when swap() problem is solved
        //printf("in ~segpool_alloc: size = %u, pool_count = %" PRId64 ", malloc_count = %" PRId64 ", pool_free_count = %" PRId64 ", malloc_free_count = %" PRId64 "\n",
        //        sizeof(_Tp), pool_count, malloc_count, pool_free_count, malloc_free_count);
        //fflush(stdout);
    }
    template <class _Tp1>
    struct rebind {
        using other = segpool_alloc<_Tp1>;
    };
    size_type max_size() const {
        return size_type(-1) / sizeof(_Tp);
    }
    void construct(pointer __p, const _Tp& __val) {
        new (__p) _Tp(__val);
    }
    void destroy(pointer __p) {
        (void)__p; /* Make MSVC happy. */
        __p->~_Tp();
    }
};

template <class _Tp>
inline bool operator==(const segpool_alloc<_Tp>& a1, const segpool_alloc<_Tp>& a2) {
    return a1.pool == a2.pool;
}

template <class _Tp>
inline bool operator!=(const segpool_alloc<_Tp>& a1, const segpool_alloc<_Tp>& a2) {
    return a1.pool != a2.pool;
}

// Any type since it is supposed to be rebound anyway.
using segpool_alloc_vt = segpool_alloc<int>;