I implemented an HTTP server in Go.
For each request, I need to create hundreds of objects for a particular struct, and I have ~10 structs like that. So after the re
Note beforehand:
Many suggest to use sync.Pool which is a fast, good implementation for temporary objects. But note that sync.Pool
does not guarantee that pooled objects are retained. Quoting from its doc:
Any item stored in the Pool may be removed automatically at any time without notification. If the Pool holds the only reference when this happens, the item might be deallocated.
So if you don't want your objects in the Pool
to get garbage collected (which depending on your case might result in more allocations), the solution presented below is better, as values in the channel's buffer are not garbage collected. If your objects are really that big that memory pool is justified, the overhead of the pool-channel will be amortized.
Moreover, sync.Pool
does not allow you to limit the number of pooled objects, while the presented solution below naturally does.
The simplest memory pool "implementation" is a buffered channel.
Let's say you want a memory pool of some big objects. Create a buffered channel holding pointers to values of such expensive objects, and whenever you need one, receive one from the pool (channel). When you're done using it, put it back to the pool (send on the channel). To avoid accidentally losing the objects (e.g. in case of a panic), use defer
statement when putting them back.
Let's use this as the type of our big objects:
type BigObject struct {
Id int
Something string
}
Creating a pool is:
pool := make(chan *BigObject, 10)
The size of the pool is simply the size of the channel's buffer.
Filling the pool with pointers of expensive objects (this is optional, see notes at the end):
for i := 0; i < cap(pool); i++ {
bo := &BigObject{Id: i}
pool <- bo
}
Using the pool by many goroutines:
wg := sync.WaitGroup{}
for i := 0; i < 100; i++ {
wg.Add(1)
go func() {
defer wg.Done()
bo := <-pool
defer func() { pool <- bo }()
fmt.Println("Using", bo.Id)
fmt.Println("Releasing", bo.Id)
}()
}
wg.Wait()
Try it on the Go Playground.
Note that this implementation blocks if all the "pooled" objects are in use. If you don't want this, you may use select
to force creating new objects if all are in use:
var bo *BigObject
select {
case bo = <-pool: // Try to get one from the pool
default: // All in use, create a new, temporary:
bo = &BigObject{Id:-1}
}
And in this case you don't need to put it back into the pool. Or you may choose to try to put all back into the pool if there's room in the pool, without blocking, again with select
:
select {
case pool <- bo: // Try to put back into the pool
default: // Pool is full, will be garbage collected
}
Notes:
Filling the pool prior is optional. If you use select
to try to get / put back values from / to the pool, the pool may initially be empty.
You have to make sure you're not leaking information between requests, e.g. make sure you don't use fields and values in your shared objects that were set and belong to other requests.
This is the sync.Pool
implementation mentioned by @JimB. Mind the usage of defer
to return object to pool.
package main
import "sync"
type Something struct {
Name string
}
var pool = sync.Pool{
New: func() interface{} {
return &Something{}
},
}
func main() {
s := pool.Get().(*Something)
defer pool.Put(s)
s.Name = "hello"
// use the object
}