MySQL 8.4.3
Source Code Documentation
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#include <map>
#include <memory>
#include <string>
#include <type_traits>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include "my_inttypes.h"
#include "mysql/strings/m_ctype.h"
#include "sql/malloc_allocator.h"
#include "sql/mem_root_allocator.h"
#include "template_utils.h"
Go to the source code of this file.
Classes | |
struct | My_free_deleter |
struct | Free_deleter |
class | Collation_hasher |
A Hasher that hashes std::strings according to a MySQL collation. More... | |
class | Collation_key_equal |
A KeyEqual that compares std::strings according to a MySQL collation. More... | |
class | malloc_unordered_map< Key, Value, Hash, KeyEqual > |
std::unordered_map, but with my_malloc, so that you can track the memory used using PSI memory keys. More... | |
class | malloc_unordered_set< Key, Hash, KeyEqual > |
std::unordered_set, but with my_malloc, so that you can track the memory used using PSI memory keys. More... | |
class | malloc_unordered_multimap< Key, Value, Hash, KeyEqual > |
std::unordered_multimap, but with my_malloc, so that you can track the memory used using PSI memory keys. More... | |
class | collation_unordered_map< Key, Value > |
std::unordered_map, but with my_malloc and collation-aware comparison. More... | |
class | collation_unordered_multimap< Key, Value > |
std::unordered_multimap, but with my_malloc and collation-aware comparison. More... | |
class | collation_unordered_set< Key > |
std::unordered_set, but with my_malloc and collation-aware comparison. More... | |
class | mem_root_unordered_set< Key, Hash, KeyEqual > |
std::unordered_set, but allocated on a MEM_ROOT. More... | |
class | mem_root_unordered_map< Key, Value, Hash, KeyEqual > |
std::unordered_map, but allocated on a MEM_ROOT. More... | |
class | mem_root_unordered_multimap< Key, Value, Hash, KeyEqual > |
std::unordered_multimap, but allocated on a MEM_ROOT. More... | |
class | mem_root_collation_unordered_map< Key, Value > |
std::unordered_map, but collation aware and allocated on a MEM_ROOT. More... | |
Typedefs | |
template<class T > | |
using | unique_ptr_with_deleter = std::unique_ptr< T, void(*)(T *)> |
std::unique_ptr, but with a custom delete function. More... | |
template<class T > | |
using | unique_ptr_my_free = std::unique_ptr< T, My_free_deleter > |
std::unique_ptr, but with my_free as deleter. More... | |
template<class T > | |
using | unique_ptr_free = std::unique_ptr< T, Free_deleter > |
std::unique_ptr, but with free as deleter. More... | |
template<class Key , class Value > | |
using | Map_allocator_type = Malloc_allocator< std::pair< const Key, Value > > |
Allocator type used in Map_myalloc. More... | |
template<class Key , class Value , class Compare = std::less<Key>> | |
using | Map_myalloc = std::map< Key, Value, Compare, Map_allocator_type< Key, Value > > |
Map using custom Malloc_allocator allocator. More... | |
Functions | |
template<class Container , class Key > | |
static auto | find_or_nullptr (const Container &container, const Key &key) |
Some useful helpers for associative arrays with MySQL-specific semantics. More... | |
template<class Container , class Value > | |
Container::iterator | erase_specific_element (Container *container, const typename Container::key_type &key, const Value &value) |
For unordered_multimap<Key, Value>, erase the first specific element that matches both the given key and value. More... | |
using Map_allocator_type = Malloc_allocator<std::pair<const Key, Value> > |
Allocator type used in Map_myalloc.
using Map_myalloc = std::map<Key, Value, Compare, Map_allocator_type<Key, Value> > |
Map using custom Malloc_allocator allocator.
using unique_ptr_free = std::unique_ptr<T, Free_deleter> |
std::unique_ptr, but with free as deleter.
using unique_ptr_my_free = std::unique_ptr<T, My_free_deleter> |
std::unique_ptr, but with my_free as deleter.
using unique_ptr_with_deleter = std::unique_ptr<T, void (*)(T *)> |
std::unique_ptr, but with a custom delete function.
Normally, it is more efficient to have a deleter class instead, but this allows you to have a unique_ptr to a forward-declared class, so it keeps include dependencies down somewhat.
Container::iterator erase_specific_element | ( | Container * | container, |
const typename Container::key_type & | key, | ||
const Value & | value | ||
) |
For unordered_multimap<Key, Value>, erase the first specific element that matches both the given key and value.
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inlinestatic |
Some useful helpers for associative arrays with MySQL-specific semantics.
For unordered_map<Key, T*> or unordered_map<Key, unique_ptr<T>>, does find() and returns nullptr if the element was not found.
It is not possible to distinguish between "not found" and "found, but contained nullptr" in this case. Thus, you should normally prefer checking against container.end() yourself.