问题
When you use a map in a program with concurrent access, is there any need to use a mutex in functions to read values?
回答1:
Multiple readers, no writers is okay:
https://groups.google.com/d/msg/golang-nuts/HpLWnGTp-n8/hyUYmnWJqiQJ
One writer, no readers is okay. (Maps wouldn't be much good otherwise.)
Otherwise, if there is at least one writer and at least one more either writer or reader, then all readers and writers must use synchronization to access the map. A mutex works fine for this.
回答2:
sync.Map
has merged to Go master as of April 27, 2017.
This is the concurrent Map we have all been waiting for.
https://github.com/golang/go/blob/master/src/sync/map.go
https://godoc.org/sync#Map
回答3:
I answered your question in this reddit thread few days ago:
In Go, maps are not thread-safe. Also, data requires locking even for reading if, for example, there could be another goroutine that is writing the same data (concurrently, that is).
Judging by your clarification in the comments, that there are going to be setter functions too, the answer to your question is yes, you will have to protect your reads with a mutex; you can use a RWMutex. For an example you can look at the source of the implementation of a table data structure (uses a map behind the scenes) which I wrote (actually the one linked in the reddit thread).
回答4:
You could use concurrent-map to handle the concurrency pains for you.
// Create a new map.
map := cmap.NewConcurrentMap()
// Add item to map, adds "bar" under key "foo"
map.Add("foo", "bar")
// Retrieve item from map.
tmp, ok := map.Get("foo")
// Checks if item exists
if ok == true {
// Map stores items as interface{}, hence we'll have to cast.
bar := tmp.(string)
}
// Removes item under key "foo"
map.Remove("foo")
回答5:
if you only have one writer, then you can probably get away with using an atomic Value. The following is adapted from https://golang.org/pkg/sync/atomic/#example_Value_readMostly (the original uses locks to protect writing, so supports multiple writers)
type Map map[string]string
var m Value
m.Store(make(Map))
read := func(key string) (val string) { // read from multiple go routines
m1 := m.Load().(Map)
return m1[key]
}
insert := func(key, val string) { // update from one go routine
m1 := m.Load().(Map) // load current value of the data structure
m2 := make(Map) // create a new map
for k, v := range m1 {
m2[k] = v // copy all data from the current object to the new one
}
m2[key] = val // do the update that we need (can delete/add/change)
m.Store(m2) // atomically replace the current object with the new one
// At this point all new readers start working with the new version.
// The old version will be garbage collected once the existing readers
// (if any) are done with it.
}
回答6:
Why no made use of Go concurrency model instead, there is a simple example...
type DataManager struct {
/** This contain connection to know dataStore **/
m_dataStores map[string]DataStore
/** That channel is use to access the dataStores map **/
m_dataStoreChan chan map[string]interface{}
}
func newDataManager() *DataManager {
dataManager := new(DataManager)
dataManager.m_dataStores = make(map[string]DataStore)
dataManager.m_dataStoreChan = make(chan map[string]interface{}, 0)
// Concurrency...
go func() {
for {
select {
case op := <-dataManager.m_dataStoreChan:
if op["op"] == "getDataStore" {
storeId := op["storeId"].(string)
op["store"].(chan DataStore) <- dataManager.m_dataStores[storeId]
} else if op["op"] == "getDataStores" {
stores := make([]DataStore, 0)
for _, store := range dataManager.m_dataStores {
stores = append(stores, store)
}
op["stores"].(chan []DataStore) <- stores
} else if op["op"] == "setDataStore" {
store := op["store"].(DataStore)
dataManager.m_dataStores[store.GetId()] = store
} else if op["op"] == "removeDataStore" {
storeId := op["storeId"].(string)
delete(dataManager.m_dataStores, storeId)
}
}
}
}()
return dataManager
}
/**
* Access Map functions...
*/
func (this *DataManager) getDataStore(id string) DataStore {
arguments := make(map[string]interface{})
arguments["op"] = "getDataStore"
arguments["storeId"] = id
result := make(chan DataStore)
arguments["store"] = result
this.m_dataStoreChan <- arguments
return <-result
}
func (this *DataManager) getDataStores() []DataStore {
arguments := make(map[string]interface{})
arguments["op"] = "getDataStores"
result := make(chan []DataStore)
arguments["stores"] = result
this.m_dataStoreChan <- arguments
return <-result
}
func (this *DataManager) setDataStore(store DataStore) {
arguments := make(map[string]interface{})
arguments["op"] = "setDataStore"
arguments["store"] = store
this.m_dataStoreChan <- arguments
}
func (this *DataManager) removeDataStore(id string) {
arguments := make(map[string]interface{})
arguments["storeId"] = id
arguments["op"] = "removeDataStore"
this.m_dataStoreChan <- arguments
}
来源:https://stackoverflow.com/questions/34732483/what-happens-if-i-concurrently-access-a-single-go-map