osb/source/core/StarOrderedMap.hpp

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#ifndef STAR_ORDERED_MAP_HPP
#define STAR_ORDERED_MAP_HPP
#include "StarMap.hpp"
namespace Star {
// Wraps a normal map type and provides an element order independent of the
// underlying map order.
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
class OrderedMapWrapper {
public:
typedef Key key_type;
typedef Value mapped_type;
typedef pair<key_type const, mapped_type> value_type;
typedef LinkedList<value_type, Allocator> OrderType;
typedef Map<
std::reference_wrapper<key_type const>, typename OrderType::iterator, MapArgs...,
typename Allocator::template rebind<pair<std::reference_wrapper<key_type const> const, typename OrderType::iterator>>::other
> MapType;
typedef typename OrderType::iterator iterator;
typedef typename OrderType::const_iterator const_iterator;
typedef typename OrderType::reverse_iterator reverse_iterator;
typedef typename OrderType::const_reverse_iterator const_reverse_iterator;
typedef typename std::decay<mapped_type>::type* mapped_ptr;
typedef typename std::decay<mapped_type>::type const* mapped_const_ptr;
template <typename Collection>
static OrderedMapWrapper from(Collection const& c);
OrderedMapWrapper();
OrderedMapWrapper(OrderedMapWrapper const& map);
template <typename InputIterator>
OrderedMapWrapper(InputIterator beg, InputIterator end);
OrderedMapWrapper(initializer_list<value_type> list);
List<key_type> keys() const;
List<mapped_type> values() const;
List<pair<key_type, mapped_type>> pairs() const;
bool contains(key_type const& k) const;
// Throws MapException if key not found
mapped_type& get(key_type const& k);
mapped_type const& get(key_type const& k) const;
// Return def if key not found
mapped_type value(key_type const& k, mapped_type d = mapped_type()) const;
Maybe<mapped_type> maybe(key_type const& k) const;
mapped_const_ptr ptr(key_type const& k) const;
mapped_ptr ptr(key_type const& k);
mapped_type& operator[](key_type const& k);
OrderedMapWrapper& operator=(OrderedMapWrapper const& map);
bool operator==(OrderedMapWrapper const& m) const;
// Finds first value matching the given value and returns its key, throws
// MapException if no such value is found.
key_type keyOf(mapped_type const& v) const;
// Finds all of the values matching the given value and returns their keys.
List<key_type> keysOf(mapped_type const& v) const;
pair<iterator, bool> insert(value_type const& v);
pair<iterator, bool> insert(key_type k, mapped_type v);
pair<iterator, bool> insertFront(value_type const& v);
pair<iterator, bool> insertFront(key_type k, mapped_type v);
// Add a key / value pair, throw if the key already exists
mapped_type& add(key_type k, mapped_type v);
// Set a key to a value, always override if it already exists
mapped_type& set(key_type k, mapped_type v);
// Appends all values of given map into this map. If overwite is false, then
// skips values that already exist in this map. Returns false if any keys
// previously existed.
bool merge(OrderedMapWrapper const& m, bool overwrite = false);
// Removes the item with key k and returns true if found, false otherwise.
bool remove(key_type const& k);
// Remove and return the value with the key k, throws MapException if not
// found.
mapped_type take(key_type const& k);
Maybe<value_type> maybeTake(key_type const& k);
const_iterator begin() const;
const_iterator end() const;
iterator begin();
iterator end();
const_reverse_iterator rbegin() const;
const_reverse_iterator rend() const;
reverse_iterator rbegin();
reverse_iterator rend();
size_t size() const;
iterator erase(iterator i);
size_t erase(key_type const& k);
iterator find(key_type const& k);
const_iterator find(key_type const& k) const;
Maybe<size_t> indexOf(key_type const& k) const;
key_type const& keyAt(size_t i) const;
mapped_type const& valueAt(size_t i) const;
mapped_type& valueAt(size_t i);
value_type takeFirst();
void removeFirst();
value_type const& first() const;
key_type const& firstKey() const;
mapped_type& firstValue();
mapped_type const& firstValue() const;
iterator insert(iterator pos, value_type v);
void clear();
bool empty() const;
iterator toBack(iterator i);
void toBack(key_type const& k);
iterator toFront(iterator i);
void toFront(key_type const& k);
template <typename Compare>
void sort(Compare comp);
void sortByKey();
void sortByValue();
private:
MapType m_map;
OrderType m_order;
};
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
std::ostream& operator<<(std::ostream& os, OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...> const& m);
template <typename Key, typename Value, typename Compare = std::less<Key>, typename Allocator = std::allocator<pair<Key const, Value>>>
using OrderedMap = OrderedMapWrapper<std::map, Key, Value, Allocator, Compare>;
template <typename Key, typename Value, typename Hash = Star::hash<Key>, typename Equals = std::equal_to<Key>, typename Allocator = std::allocator<pair<Key const, Value>>>
using OrderedHashMap = OrderedMapWrapper<FlatHashMap, Key, Value, Allocator, Hash, Equals>;
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
template <typename Collection>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::from(Collection const& c) -> OrderedMapWrapper {
return OrderedMapWrapper(c.begin(), c.end());
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::OrderedMapWrapper() {}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::OrderedMapWrapper(OrderedMapWrapper const& map) {
for (auto const& p : map)
insert(p);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
template <typename InputIterator>
OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::OrderedMapWrapper(InputIterator beg, InputIterator end) {
while (beg != end) {
insert(*beg);
++beg;
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::OrderedMapWrapper(initializer_list<value_type> list) {
for (value_type v : list)
insert(move(v));
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::keys() const -> List<key_type> {
List<key_type> keys;
for (auto const& p : *this)
keys.append(p.first);
return keys;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::values() const -> List<mapped_type> {
List<mapped_type> values;
for (auto const& p : *this)
values.append(p.second);
return values;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::pairs() const -> List<pair<key_type, mapped_type>> {
List<pair<key_type, mapped_type>> plist;
for (auto const& p : *this)
plist.append(p.second);
return plist;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
bool OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::contains(key_type const& k) const {
return m_map.find(k) != m_map.end();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::get(key_type const& k) -> mapped_type& {
auto i = m_map.find(k);
if (i == m_map.end())
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throw MapException(strf("Key '{}' not found in OrderedMap::get()", outputAny(k)));
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return i->second->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::get(key_type const& k) const -> mapped_type const& {
return const_cast<OrderedMapWrapper*>(this)->get(k);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::value(key_type const& k, mapped_type d) const -> mapped_type {
auto i = m_map.find(k);
if (i == m_map.end())
return move(d);
else
return i->second->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::maybe(key_type const& k) const -> Maybe<mapped_type> {
auto i = find(k);
if (i == end())
return {};
else
return i->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::ptr(key_type const& k) const -> mapped_const_ptr {
auto i = find(k);
if (i == end())
return nullptr;
else
return &i->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::ptr(key_type const& k) -> mapped_ptr {
iterator i = find(k);
if (i == end())
return nullptr;
else
return &i->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::operator[](key_type const& k) -> mapped_type& {
auto i = m_map.find(k);
if (i == m_map.end()) {
iterator orderIt = m_order.insert(m_order.end(), value_type(k, mapped_type()));
i = m_map.insert(typename MapType::value_type(std::cref(orderIt->first), orderIt)).first;
return orderIt->second;
} else {
return i->second->second;
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::operator=(OrderedMapWrapper const& map) -> OrderedMapWrapper& {
if (this != &map) {
clear();
for (auto const& p : map)
insert(p);
}
return *this;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
bool OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::operator==(OrderedMapWrapper const& m) const {
return this == &m || mapsEqual(*this, m);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::keyOf(mapped_type const& v) const -> key_type {
for (const_iterator i = begin(); i != end(); ++i) {
if (i->second == v)
return i->first;
}
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throw MapException(strf("Value '{}' not found in OrderedMap::keyOf()", outputAny(v)));
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}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::keysOf(mapped_type const& v) const -> List<key_type> {
List<key_type> keys;
for (iterator i = begin(); i != end(); ++i) {
if (i->second == v)
keys.append(i->first);
}
return keys;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::insert(value_type const& v) -> pair<iterator, bool> {
auto i = m_map.find(v.first);
if (i == m_map.end()) {
iterator orderIt = m_order.insert(m_order.end(), v);
m_map.insert(i, typename MapType::value_type(std::cref(orderIt->first), orderIt));
return std::make_pair(orderIt, true);
} else {
return std::make_pair(i->second, false);
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::insert(key_type k, mapped_type v) -> pair<iterator, bool> {
return insert(value_type(move(k), move(v)));
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::insertFront(value_type const& v) -> pair<iterator, bool> {
auto i = m_map.find(v.first);
if (i == m_map.end()) {
iterator orderIt = m_order.insert(m_order.begin(), v);
m_map.insert(i, typename MapType::value_type(std::cref(orderIt->first), orderIt));
return std::make_pair(orderIt, true);
} else {
return std::make_pair(i->second, false);
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::insertFront(key_type k, mapped_type v) -> pair<iterator, bool> {
return insertFront(value_type(move(k), move(v)));
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::add(key_type k, mapped_type v) -> mapped_type& {
auto pair = insert(value_type(move(k), move(v)));
if (!pair.second)
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throw MapException(strf("Entry with key '{}' already present.", outputAny(k)));
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else
return pair.first->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::set(key_type k, mapped_type v) -> mapped_type& {
auto i = find(k);
if (i != end()) {
i->second = move(v);
return i->second;
} else {
return insert(value_type(move(k), move(v))).first->second;
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
bool OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::merge(OrderedMapWrapper const& m, bool overwrite) {
return mapMerge(*this, m, overwrite);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
bool OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::remove(key_type const& k) {
auto i = m_map.find(k);
if (i != m_map.end()) {
auto orderIt = i->second;
m_map.erase(i);
m_order.erase(orderIt);
return true;
} else {
return false;
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::take(key_type const& k) -> mapped_type {
auto i = m_map.find(k);
if (i != m_map.end()) {
auto orderIt = i->second;
m_map.erase(i);
mapped_type v = orderIt->second;
m_order.erase(i->second);
return v;
} else {
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throw MapException(strf("Key '{}' not found in OrderedMap::take()", outputAny(k)));
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}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::maybeTake(key_type const& k) -> Maybe<value_type> {
iterator i = find(k);
if (i != end()) {
value_type v = *i;
erase(i);
return v;
}
return {};
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::begin() const -> const_iterator {
return m_order.begin();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::end() const -> const_iterator {
return m_order.end();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::begin() -> iterator {
return m_order.begin();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::end() -> iterator {
return m_order.end();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::rbegin() const -> const_reverse_iterator {
return m_order.rbegin();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::rend() const -> const_reverse_iterator {
return m_order.rend();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::rbegin() -> reverse_iterator {
return m_order.rbegin();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::rend() -> reverse_iterator {
return m_order.rend();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::size() const -> size_t {
return m_map.size();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::erase(iterator i) -> iterator {
m_map.erase(i->first);
return m_order.erase(i);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::erase(key_type const& k) -> size_t {
if (remove(k))
return 1;
return 0;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::find(key_type const& k) -> iterator {
auto i = m_map.find(k);
if (i == m_map.end())
return m_order.end();
else
return i->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::find(key_type const& k) const -> const_iterator {
auto i = m_map.find(k);
if (i == m_map.end())
return m_order.end();
else
return i->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::indexOf(key_type const& k) const -> Maybe<size_t> {
typename MapType::const_iterator i = m_map.find(k);
if (i == m_map.end())
return {};
return std::distance(begin(), const_iterator(i->second));
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::keyAt(size_t i) const -> key_type const& {
if (i >= size())
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throw MapException(strf("index {} out of range in OrderedMap::at()", i));
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auto it = begin();
std::advance(it, i);
return it->first;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::valueAt(size_t i) const -> mapped_type const& {
return const_cast<OrderedMapWrapper*>(this)->valueAt(i);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::valueAt(size_t i) -> mapped_type& {
if (i >= size())
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throw MapException(strf("index {} out of range in OrderedMap::valueAt()", i));
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auto it = m_order.begin();
std::advance(it, i);
return it->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::takeFirst() -> value_type {
if (empty())
throw MapException("OrderedMap::takeFirst() called on empty OrderedMap");
iterator i = m_order.begin();
m_map.remove(i->first);
value_type v = *i;
m_order.erase(i);
return v;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::removeFirst() {
erase(begin());
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::first() const -> value_type const& {
if (empty())
throw MapException("OrderedMap::takeFirst() called on empty OrderedMap");
return *m_order.begin();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::firstValue() -> mapped_type& {
return begin()->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::firstValue() const -> mapped_type const& {
return begin()->second;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::firstKey() const -> key_type const& {
return begin()->first;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::insert(iterator pos, value_type v) -> iterator {
auto i = m_map.find(v.first);
if (i == m_map.end()) {
iterator orderIt = m_order.insert(pos, move(v));
m_map.insert(typename MapType::value_type(std::cref(orderIt->first), orderIt));
return orderIt;
} else {
i->second->second = move(v.second);
m_order.splice(pos, m_order, i->second);
return i->second;
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::clear() {
m_map.clear();
m_order.clear();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
bool OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::empty() const {
return size() == 0;
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::toBack(iterator i) -> iterator {
m_order.splice(m_order.end(), m_order, i);
return prev(m_order.end());
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
auto OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::toFront(iterator i) -> iterator {
m_order.splice(m_order.begin(), m_order, i);
return m_order.begin();
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::toBack(key_type const& k) {
auto i = m_map.find(k);
if (i == m_map.end())
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throw MapException(strf("Key not found in OrderedMap::toBack('{}')", outputAny(k)));
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toBack(i->second);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::toFront(key_type const& k) {
auto i = m_map.find(k);
if (i == m_map.end())
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throw MapException(strf("Key not found in OrderedMap::toFront('{}')", outputAny(k)));
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toFront(i->second);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
template <typename Compare>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::sort(Compare comp) {
m_order.sort(comp);
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::sortByKey() {
sort([](value_type const& a, value_type const& b) {
return a.first < b.first;
});
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
void OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>::sortByValue() {
sort([](value_type const& a, value_type const& b) {
return a.second < b.second;
});
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
std::ostream& operator<<(std::ostream& os, OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...> const& m) {
printMap(os, m);
return os;
}
}
template <template <typename...> class Map, typename Key, typename Value, typename Allocator, typename... MapArgs>
struct fmt::formatter<Star::OrderedMapWrapper<Map, Key, Value, Allocator, MapArgs...>> : ostream_formatter {};
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#endif