neobytes/src/cachemultimap.h
UdjinM6 e0b6988a45
Various fixes and refactoring for Cache*Map classes (#1896)
* CacheMap::Insert should not update existing item, should return `false`

* Use `emplace` operator instead of `[]` to add new items in Cache*Map implementation

* Use prefix cm/cmm for CacheMap/CacheMultiMap maps respectively to distinguish them from each other and from std::map-s

* Avoid excessive processing of already known valid votes

Also prettify debug log output a bit

* Drop nCurrentSize from Cache*Map classes

Use `size()` and `empty()` of std classes instead, they have constant complexity since c++11

* Do not create an explicit iterator if it's never used later (in Cache*Map)

* Do not prune last item in CacheMultiMapInsert when trying to insert a duplicate one
2018-02-06 14:08:43 +03:00

249 lines
5.5 KiB
C++

// Copyright (c) 2014-2017 The Dash Core developers
// Distributed under the MIT/X11 software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef CACHEMULTIMAP_H_
#define CACHEMULTIMAP_H_
#include <cstddef>
#include <map>
#include <list>
#include <set>
#include "serialize.h"
#include "cachemap.h"
/**
* Map like container that keeps the N most recently added items
*/
template<typename K, typename V, typename Size = uint32_t>
class CacheMultiMap
{
public:
typedef Size size_type;
typedef CacheItem<K,V> item_t;
typedef std::list<item_t> list_t;
typedef typename list_t::iterator list_it;
typedef typename list_t::const_iterator list_cit;
typedef std::map<V,list_it> it_map_t;
typedef typename it_map_t::iterator it_map_it;
typedef typename it_map_t::const_iterator it_map_cit;
typedef std::map<K, it_map_t> map_t;
typedef typename map_t::iterator map_it;
typedef typename map_t::const_iterator map_cit;
private:
size_type nMaxSize;
list_t listItems;
map_t mapIndex;
public:
CacheMultiMap(size_type nMaxSizeIn = 0)
: nMaxSize(nMaxSizeIn),
listItems(),
mapIndex()
{}
CacheMultiMap(const CacheMap<K,V>& other)
: nMaxSize(other.nMaxSize),
listItems(other.listItems),
mapIndex()
{
RebuildIndex();
}
void Clear()
{
mapIndex.clear();
listItems.clear();
}
void SetMaxSize(size_type nMaxSizeIn)
{
nMaxSize = nMaxSizeIn;
}
size_type GetMaxSize() const {
return nMaxSize;
}
size_type GetSize() const {
return listItems.size();
}
bool Insert(const K& key, const V& value)
{
map_it mit = mapIndex.find(key);
if(mit == mapIndex.end()) {
mit = mapIndex.emplace(key, it_map_t()).first;
}
it_map_t& mapIt = mit->second;
if(mapIt.count(value) > 0) {
// Don't insert duplicates
return false;
}
if(listItems.size() == nMaxSize) {
PruneLast();
}
listItems.push_front(item_t(key, value));
mapIt.emplace(value, listItems.begin());
return true;
}
bool HasKey(const K& key) const
{
return (mapIndex.find(key) != mapIndex.end());
}
bool Get(const K& key, V& value) const
{
map_cit it = mapIndex.find(key);
if(it == mapIndex.end()) {
return false;
}
const it_map_t& mapIt = it->second;
const item_t& item = *(mapIt.begin()->second);
value = item.value;
return true;
}
bool GetAll(const K& key, std::vector<V>& vecValues)
{
map_cit mit = mapIndex.find(key);
if(mit == mapIndex.end()) {
return false;
}
const it_map_t& mapIt = mit->second;
for(it_map_cit it = mapIt.begin(); it != mapIt.end(); ++it) {
const item_t& item = *(it->second);
vecValues.push_back(item.value);
}
return true;
}
void GetKeys(std::vector<K>& vecKeys)
{
for(map_cit it = mapIndex.begin(); it != mapIndex.end(); ++it) {
vecKeys.push_back(it->first);
}
}
void Erase(const K& key)
{
map_it mit = mapIndex.find(key);
if(mit == mapIndex.end()) {
return;
}
it_map_t& mapIt = mit->second;
for(it_map_it it = mapIt.begin(); it != mapIt.end(); ++it) {
listItems.erase(it->second);
}
mapIndex.erase(mit);
}
void Erase(const K& key, const V& value)
{
map_it mit = mapIndex.find(key);
if(mit == mapIndex.end()) {
return;
}
it_map_t& mapIt = mit->second;
it_map_it it = mapIt.find(value);
if(it == mapIt.end()) {
return;
}
listItems.erase(it->second);
mapIt.erase(it);
if(mapIt.empty()) {
mapIndex.erase(mit);
}
}
const list_t& GetItemList() const {
return listItems;
}
CacheMap<K,V>& operator=(const CacheMap<K,V>& other)
{
nMaxSize = other.nMaxSize;
listItems = other.listItems;
RebuildIndex();
return *this;
}
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action)
{
READWRITE(nMaxSize);
READWRITE(listItems);
if(ser_action.ForRead()) {
RebuildIndex();
}
}
private:
void PruneLast()
{
if(listItems.empty()) {
return;
}
list_it lit = listItems.end();
--lit;
item_t& item = *lit;
map_it mit = mapIndex.find(item.key);
if(mit != mapIndex.end()) {
it_map_t& mapIt = mit->second;
mapIt.erase(item.value);
if(mapIt.empty()) {
mapIndex.erase(item.key);
}
}
listItems.pop_back();
}
void RebuildIndex()
{
mapIndex.clear();
for(list_it lit = listItems.begin(); lit != listItems.end(); ++lit) {
item_t& item = *lit;
map_it mit = mapIndex.find(item.key);
if(mit == mapIndex.end()) {
mit = mapIndex.emplace(item.key, it_map_t()).first;
}
it_map_t& mapIt = mit->second;
mapIt.emplace(item.value, lit);
}
}
};
#endif /* CACHEMULTIMAP_H_ */