package xsync import ( "sync" ) type SyncedMap[K comparable, V any] struct { mu sync.RWMutex m map[K]V } func NewSyncedMap[K comparable, V any]() *SyncedMap[K, V] { return &SyncedMap[K, V]{ m: make(map[K]V), } } func (m *SyncedMap[K, V]) Map() map[K]V { m.mu.RLock() defer m.mu.RUnlock() return m.m } func (m *SyncedMap[K, V]) Get(key K) V { m.mu.RLock() defer m.mu.RUnlock() return m.m[key] } func (m *SyncedMap[K, V]) Keys() []K { m.mu.RLock() defer m.mu.RUnlock() keys := make([]K, 0, len(m.m)) for k := range m.m { keys = append(keys, k) } return keys } func (m *SyncedMap[K, V]) Values() []V { m.mu.RLock() defer m.mu.RUnlock() values := make([]V, 0, len(m.m)) for _, v := range m.m { values = append(values, v) } return values } func (m *SyncedMap[K, V]) Len() int { m.mu.RLock() defer m.mu.RUnlock() return len(m.m) } func (m *SyncedMap[K, V]) Iterate(f func(key K, value V) bool) { m.mu.RLock() defer m.mu.RUnlock() for k, v := range m.m { if !f(k, v) { break } } } func (m *SyncedMap[K, V]) Set(key K, value V) { m.mu.Lock() m.m[key] = value m.mu.Unlock() } func (m *SyncedMap[K, V]) Delete(key K) { m.mu.Lock() delete(m.m, key) m.mu.Unlock() } func (m *SyncedMap[K, V]) Exists(key K) bool { m.mu.RLock() defer m.mu.RUnlock() _, ok := m.m[key] return ok }