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// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#pragma once
#include "buffer_type.h"
namespace vespalib::datastore {
template <typename ElemT, typename EmptyT>
BufferType<ElemT, EmptyT>::BufferType(uint32_t arraySize, uint32_t min_entries, uint32_t max_entries) noexcept
: BufferTypeBase(arraySize * sizeof(ElemT), 0u, arraySize, min_entries, max_entries)
{ }
template <typename ElemT, typename EmptyT>
BufferType<ElemT, EmptyT>::BufferType(uint32_t arraySize, uint32_t min_entries, uint32_t max_entries,
uint32_t num_entries_for_new_buffer, float allocGrowFactor) noexcept
: BufferTypeBase(arraySize * sizeof(ElemT), 0u, arraySize, min_entries, max_entries, num_entries_for_new_buffer, allocGrowFactor)
{ }
template <typename ElemT, typename EmptyT>
BufferType<ElemT, EmptyT>::~BufferType() = default;
template <typename ElemT, typename EmptyT>
void
BufferType<ElemT, EmptyT>::destroy_entries(void *buffer, EntryCount num_entries)
{
auto num_elems = num_entries * getArraySize();
ElemType *e = static_cast<ElemType *>(buffer);
for (size_t j = num_elems; j != 0; --j) {
e->~ElemType();
++e;
}
}
template <typename ElemT, typename EmptyT>
void
BufferType<ElemT, EmptyT>::fallback_copy(void *newBuffer, const void *oldBuffer, EntryCount num_entries)
{
auto num_elems = num_entries * getArraySize();
ElemType *d = static_cast<ElemType *>(newBuffer);
const ElemType *s = static_cast<const ElemType *>(oldBuffer);
for (size_t j = num_elems; j != 0; --j) {
new (static_cast<void *>(d)) ElemType(*s);
++s;
++d;
}
}
template <typename ElemT, typename EmptyT>
void
BufferType<ElemT, EmptyT>::initialize_reserved_entries(void *buffer, EntryCount reserved_entries)
{
auto reserved_elems = reserved_entries * getArraySize();
ElemType *e = static_cast<ElemType *>(buffer);
const auto& empty = empty_entry();
for (size_t j = reserved_elems; j != 0; --j) {
new (static_cast<void *>(e)) ElemType(empty);
++e;
}
}
template <typename ElemT, typename EmptyT>
void
BufferType<ElemT, EmptyT>::clean_hold(void *buffer, size_t offset, EntryCount num_entries, CleanContext)
{
auto num_elems = num_entries * getArraySize();
ElemType *e = static_cast<ElemType *>(buffer) + offset * getArraySize();
const auto& empty = empty_entry();
for (size_t j = num_elems; j != 0; --j) {
*e = empty;
++e;
}
}
template <typename ElemT, typename EmptyT>
const ElemT&
BufferType<ElemT, EmptyT>::empty_entry() noexcept
{
// It's possible for ElemType to wrap e.g. an Alloc instance, which has a transitive
// dependency on globally constructed allocator object(s). To avoid issues with global
// construction order, initialize the sentinel on the first access.
static ElemType empty = EmptyType();
return empty;
}
}
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