Documentation ¶
Index ¶
- Variables
- type ConcurrentMap
- func (m ConcurrentMap[K, V]) Clear()
- func (m ConcurrentMap[K, V]) Count() int
- func (m ConcurrentMap[K, V]) Get(key K) (V, bool)
- func (m ConcurrentMap[K, V]) GetShard(key K) *ConcurrentMapShared[K, V]
- func (m ConcurrentMap[K, V]) Has(key K) bool
- func (m ConcurrentMap[K, V]) IsEmpty() bool
- func (m ConcurrentMap[K, V]) Items() map[K]V
- func (m ConcurrentMap[K, V]) Iter() <-chan Tuple[K, V]deprecated
- func (m ConcurrentMap[K, V]) IterBuffered() <-chan Tuple[K, V]
- func (m ConcurrentMap[K, V]) IterCb(fn IterCb[K, V])
- func (m ConcurrentMap[K, V]) Keys() []K
- func (m ConcurrentMap[K, V]) MSet(data map[K]V)
- func (m ConcurrentMap[K, V]) MarshalJSON() ([]byte, error)
- func (m ConcurrentMap[K, V]) Pop(key K) (v V, exists bool)
- func (m ConcurrentMap[K, V]) Remove(key K)
- func (m ConcurrentMap[K, V]) RemoveCb(key K, cb RemoveCb[K, V]) bool
- func (m ConcurrentMap[K, V]) Set(key K, value V)
- func (m ConcurrentMap[K, V]) SetIfAbsent(key K, value V) bool
- func (m *ConcurrentMap[K, V]) UnmarshalJSON(b []byte) (err error)
- func (m ConcurrentMap[K, V]) Upsert(key K, value V, cb UpsertCb[V]) (res V)
- type ConcurrentMapShared
- type IterCb
- type RemoveCb
- type Stringer
- type Tuple
- type UpsertCb
Constants ¶
This section is empty.
Variables ¶
var SHARD_COUNT = 32
Functions ¶
This section is empty.
Types ¶
type ConcurrentMap ¶
type ConcurrentMap[K comparable, V any] struct { // contains filtered or unexported fields }
A "thread" safe map of type string:Anything. To avoid lock bottlenecks this map is dived to several (SHARD_COUNT) map shards.
func NewStringer ¶
func NewStringer[K Stringer, V any]() ConcurrentMap[K, V]
Creates a new concurrent map.
func NewWithCustomShardingFunction ¶
func NewWithCustomShardingFunction[K comparable, V any](sharding func(key K) uint32) ConcurrentMap[K, V]
Creates a new concurrent map.
func (ConcurrentMap[K, V]) Clear ¶
func (m ConcurrentMap[K, V]) Clear()
Clear removes all items from map.
func (ConcurrentMap[K, V]) Count ¶
func (m ConcurrentMap[K, V]) Count() int
Count returns the number of elements within the map.
func (ConcurrentMap[K, V]) Get ¶
func (m ConcurrentMap[K, V]) Get(key K) (V, bool)
Get retrieves an element from map under given key.
func (ConcurrentMap[K, V]) GetShard ¶
func (m ConcurrentMap[K, V]) GetShard(key K) *ConcurrentMapShared[K, V]
GetShard returns shard under given key
func (ConcurrentMap[K, V]) Has ¶
func (m ConcurrentMap[K, V]) Has(key K) bool
Looks up an item under specified key
func (ConcurrentMap[K, V]) IsEmpty ¶
func (m ConcurrentMap[K, V]) IsEmpty() bool
IsEmpty checks if map is empty.
func (ConcurrentMap[K, V]) Items ¶
func (m ConcurrentMap[K, V]) Items() map[K]V
Items returns all items as map[string]V
func (ConcurrentMap[K, V]) Iter
deprecated
func (m ConcurrentMap[K, V]) Iter() <-chan Tuple[K, V]
Iter returns an iterator which could be used in a for range loop.
Deprecated: using IterBuffered() will get a better performence
func (ConcurrentMap[K, V]) IterBuffered ¶
func (m ConcurrentMap[K, V]) IterBuffered() <-chan Tuple[K, V]
IterBuffered returns a buffered iterator which could be used in a for range loop.
func (ConcurrentMap[K, V]) IterCb ¶
func (m ConcurrentMap[K, V]) IterCb(fn IterCb[K, V])
Callback based iterator, cheapest way to read all elements in a map.
func (ConcurrentMap[K, V]) Keys ¶
func (m ConcurrentMap[K, V]) Keys() []K
Keys returns all keys as []string
func (ConcurrentMap[K, V]) MSet ¶
func (m ConcurrentMap[K, V]) MSet(data map[K]V)
func (ConcurrentMap[K, V]) MarshalJSON ¶
func (m ConcurrentMap[K, V]) MarshalJSON() ([]byte, error)
Reviles ConcurrentMap "private" variables to json marshal.
func (ConcurrentMap[K, V]) Pop ¶
func (m ConcurrentMap[K, V]) Pop(key K) (v V, exists bool)
Pop removes an element from the map and returns it
func (ConcurrentMap[K, V]) Remove ¶
func (m ConcurrentMap[K, V]) Remove(key K)
Remove removes an element from the map.
func (ConcurrentMap[K, V]) RemoveCb ¶
func (m ConcurrentMap[K, V]) RemoveCb(key K, cb RemoveCb[K, V]) bool
RemoveCb locks the shard containing the key, retrieves its current value and calls the callback with those params If callback returns true and element exists, it will remove it from the map Returns the value returned by the callback (even if element was not present in the map)
func (ConcurrentMap[K, V]) Set ¶
func (m ConcurrentMap[K, V]) Set(key K, value V)
Sets the given value under the specified key.
func (ConcurrentMap[K, V]) SetIfAbsent ¶
func (m ConcurrentMap[K, V]) SetIfAbsent(key K, value V) bool
Sets the given value under the specified key if no value was associated with it.
func (*ConcurrentMap[K, V]) UnmarshalJSON ¶
func (m *ConcurrentMap[K, V]) UnmarshalJSON(b []byte) (err error)
Reverse process of Marshal.
func (ConcurrentMap[K, V]) Upsert ¶
func (m ConcurrentMap[K, V]) Upsert(key K, value V, cb UpsertCb[V]) (res V)
Insert or Update - updates existing element or inserts a new one using UpsertCb
type ConcurrentMapShared ¶
type ConcurrentMapShared[K comparable, V any] struct { // contains filtered or unexported fields }
A "thread" safe string to anything map.
type IterCb ¶
type IterCb[K comparable, V any] func(key K, v V)
Iterator callbacalled for every key,value found in maps. RLock is held for all calls for a given shard therefore callback sess consistent view of a shard, but not across the shards
type RemoveCb ¶
RemoveCb is a callback executed in a map.RemoveCb() call, while Lock is held If returns true, the element will be removed from the map
type Stringer ¶
type Stringer interface { fmt.Stringer comparable }
type Tuple ¶
type Tuple[K comparable, V any] struct { Key K Val V }
Used by the Iter & IterBuffered functions to wrap two variables together over a channel,