// Copyright 2024 The Go Authors. All rights reserved.

// Use of this source code is governed by a BSD-style

// license that can be found in the LICENSE file.

//go:build goexperiment.synchashtriemap

package sync

import (

isync "internal/sync"

)

// Map is like a Go map[any]any but is safe for concurrent use

// by multiple goroutines without additional locking or coordination.

// Loads, stores, and deletes run in amortized constant time.

//

// The Map type is specialized. Most code should use a plain Go map instead,

// with separate locking or coordination, for better type safety and to make it

// easier to maintain other invariants along with the map content.

//

// The Map type is optimized for two common use cases: (1) when the entry for a given

// key is only ever written once but read many times, as in caches that only grow,

// or (2) when multiple goroutines read, write, and overwrite entries for disjoint

// sets of keys. In these two cases, use of a Map may significantly reduce lock

// contention compared to a Go map paired with a separate [Mutex] or [RWMutex].

//

// The zero Map is empty and ready for use. A Map must not be copied after first use.

//

// In the terminology of [the Go memory model], Map arranges that a write operation

// “synchronizes before” any read operation that observes the effect of the write, where

// read and write operations are defined as follows.

// [Map.Load], [Map.LoadAndDelete], [Map.LoadOrStore], [Map.Swap], [Map.CompareAndSwap],

// and [Map.CompareAndDelete] are read operations;

// [Map.Delete], [Map.LoadAndDelete], [Map.Store], and [Map.Swap] are write operations;

// [Map.LoadOrStore] is a write operation when it returns loaded set to false;

// [Map.CompareAndSwap] is a write operation when it returns swapped set to true;

// and [Map.CompareAndDelete] is a write operation when it returns deleted set to true.

//

// [the Go memory model]: https://go.dev/ref/mem

type Map struct {

}

// Load returns the value stored in the map for a key, or nil if no

// value is present.

// The ok result indicates whether value was found in the map.

func (m *Map) Load(key any) (value any, ok bool) {

return m.m.Load(key)

}

// Store sets the value for a key.

func (m *Map) Store(key, value any) {

m.m.Store(key, value)

}

// Clear deletes all the entries, resulting in an empty Map.

func (m *Map) Clear() {

m.m.Clear()

}

// LoadOrStore returns the existing value for the key if present.

// Otherwise, it stores and returns the given value.

// The loaded result is true if the value was loaded, false if stored.

func (m *Map) LoadOrStore(key, value any) (actual any, loaded bool) {

return m.m.LoadOrStore(key, value)

}

// LoadAndDelete deletes the value for a key, returning the previous value if any.

// The loaded result reports whether the key was present.

func (m *Map) LoadAndDelete(key any) (value any, loaded bool) {

return m.m.LoadAndDelete(key)

}

// Delete deletes the value for a key.

// If the key is not in the map, Delete does nothing.

func (m *Map) Delete(key any) {

m.m.Delete(key)

}

// Swap swaps the value for a key and returns the previous value if any.

// The loaded result reports whether the key was present.

func (m *Map) Swap(key, value any) (previous any, loaded bool) {

return m.m.Swap(key, value)

}

// CompareAndSwap swaps the old and new values for key

// if the value stored in the map is equal to old.

// The old value must be of a comparable type.

func (m *Map) CompareAndSwap(key, old, new any) (swapped bool) {

return m.m.CompareAndSwap(key, old, new)

}

// CompareAndDelete deletes the entry for key if its value is equal to old.

// The old value must be of a comparable type.

//

// If there is no current value for key in the map, CompareAndDelete

// returns false (even if the old value is the nil interface value).

func (m *Map) CompareAndDelete(key, old any) (deleted bool) {

return m.m.CompareAndDelete(key, old)

}

// Range calls f sequentially for each key and value present in the map.

// If f returns false, range stops the iteration.

//

// Range does not necessarily correspond to any consistent snapshot of the Map's

// contents: no key will be visited more than once, but if the value for any key

// is stored or deleted concurrently (including by f), Range may reflect any

// mapping for that key from any point during the Range call. Range does not

// block other methods on the receiver; even f itself may call any method on m.

//

// Range may be O(N) with the number of elements in the map even if f returns

// false after a constant number of calls.

func (m *Map) Range(f func(key, value any) bool) {

m.m.Range(f)

}