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8e4a29433f
This can be used to implement a persistent pool (i.e. one that isn't cleared like sync.Pool is) of items–e.g. database connections. Some benchmarks vs. a naive implementation that uses a single map iteration show a pretty meaningful improvement: $ benchstat -col /impl ./bench.txt goos: darwin goarch: arm64 pkg: tailscale.com/util/pool │ Pool │ map │ │ sec/op │ sec/op vs base │ Pool_AddDelete-10 10.56n ± 2% 15.11n ± 1% +42.97% (p=0.000 n=10) Pool_TakeRandom-10 56.75n ± 4% 1899.50n ± 20% +3246.84% (p=0.000 n=10) geomean 24.49n 169.4n +591.74% Updates tailscale/corp#19900 Signed-off-by: Andrew Dunham <andrew@du.nham.ca> Change-Id: Ie509cb65573c4726cfc3da9a97093e61c216ca18
214 lines
5.4 KiB
Go
214 lines
5.4 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package pool contains a generic type for managing a pool of resources; for
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// example, connections to a database, or to a remote service.
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//
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// Unlike sync.Pool from the Go standard library, this pool does not remove
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// items from the pool when garbage collection happens, nor is it safe for
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// concurrent use like sync.Pool.
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package pool
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import (
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"fmt"
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"math/rand/v2"
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"tailscale.com/types/ptr"
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)
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// consistencyCheck enables additional runtime checks to ensure that the pool
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// is well-formed; it is disabled by default, and can be enabled during tests
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// to catch additional bugs.
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const consistencyCheck = false
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// Pool is a pool of resources. It is not safe for concurrent use.
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type Pool[V any] struct {
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s []itemAndIndex[V]
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}
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type itemAndIndex[V any] struct {
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// item is the element in the pool
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item V
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// index is the current location of this item in pool.s. It gets set to
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// -1 when the item is removed from the pool.
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index *int
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}
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// Handle is an opaque handle to a resource in a pool. It is used to delete an
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// item from the pool, without requiring the item to be comparable.
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type Handle[V any] struct {
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idx *int // pointer to index; -1 if not in slice
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}
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// Len returns the current size of the pool.
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func (p *Pool[V]) Len() int {
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return len(p.s)
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}
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// Clear removes all items from the pool.
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func (p *Pool[V]) Clear() {
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p.s = nil
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}
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// AppendTakeAll removes all items from the pool, appending them to the
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// provided slice (which can be nil) and returning them. The returned slice can
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// be nil if the provided slice was nil and the pool was empty.
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//
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// This function does not free the backing storage for the pool; to do that,
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// use the Clear function.
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func (p *Pool[V]) AppendTakeAll(dst []V) []V {
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ret := dst
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for i := range p.s {
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e := p.s[i]
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if consistencyCheck && e.index == nil {
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panic(fmt.Sprintf("pool: index is nil at %d", i))
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}
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if *e.index >= 0 {
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ret = append(ret, p.s[i].item)
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}
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}
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p.s = p.s[:0]
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return ret
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}
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// Add adds an item to the pool and returns a handle to it. The handle can be
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// used to delete the item from the pool with the Delete method.
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func (p *Pool[V]) Add(item V) Handle[V] {
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// Store the index in a pointer, so that we can pass it to both the
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// handle and store it in the itemAndIndex.
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idx := ptr.To(len(p.s))
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p.s = append(p.s, itemAndIndex[V]{
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item: item,
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index: idx,
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})
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return Handle[V]{idx}
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}
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// Peek will return the item with the given handle without removing it from the
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// pool.
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//
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// It will return ok=false if the item has been deleted or previously taken.
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func (p *Pool[V]) Peek(h Handle[V]) (v V, ok bool) {
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p.checkHandle(h)
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idx := *h.idx
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if idx < 0 {
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var zero V
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return zero, false
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}
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p.checkIndex(idx)
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return p.s[idx].item, true
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}
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// Delete removes the item from the pool.
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//
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// It reports whether the element was deleted; it will return false if the item
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// has been taken with the TakeRandom function, or if the item was already
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// deleted.
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func (p *Pool[V]) Delete(h Handle[V]) bool {
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p.checkHandle(h)
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idx := *h.idx
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if idx < 0 {
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return false
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}
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p.deleteIndex(idx)
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return true
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}
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func (p *Pool[V]) deleteIndex(idx int) {
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// Mark the item as deleted.
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p.checkIndex(idx)
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*(p.s[idx].index) = -1
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// If this isn't the last element in the slice, overwrite the element
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// at this item's index with the last element.
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lastIdx := len(p.s) - 1
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if idx < lastIdx {
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last := p.s[lastIdx]
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p.checkElem(lastIdx, last)
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*last.index = idx
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p.s[idx] = last
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}
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// Zero out last element (for GC) and truncate slice.
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p.s[lastIdx] = itemAndIndex[V]{}
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p.s = p.s[:lastIdx]
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}
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// Take will remove the item with the given handle from the pool and return it.
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//
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// It will return ok=false and the zero value if the item has been deleted or
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// previously taken.
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func (p *Pool[V]) Take(h Handle[V]) (v V, ok bool) {
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p.checkHandle(h)
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idx := *h.idx
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if idx < 0 {
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var zero V
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return zero, false
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}
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e := p.s[idx]
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p.deleteIndex(idx)
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return e.item, true
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}
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// TakeRandom returns and removes a random element from p
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// and reports whether there was one to take.
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//
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// It will return ok=false and the zero value if the pool is empty.
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func (p *Pool[V]) TakeRandom() (v V, ok bool) {
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if len(p.s) == 0 {
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var zero V
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return zero, false
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}
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pick := rand.IntN(len(p.s))
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e := p.s[pick]
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p.checkElem(pick, e)
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p.deleteIndex(pick)
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return e.item, true
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}
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// checkIndex verifies that the provided index is within the bounds of the
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// pool's slice, and that the corresponding element has a non-nil index
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// pointer, and panics if not.
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func (p *Pool[V]) checkIndex(idx int) {
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if !consistencyCheck {
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return
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}
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if idx >= len(p.s) {
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panic(fmt.Sprintf("pool: index %d out of range (len %d)", idx, len(p.s)))
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}
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if p.s[idx].index == nil {
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panic(fmt.Sprintf("pool: index is nil at %d", idx))
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}
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}
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// checkHandle verifies that the provided handle is not nil, and panics if it
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// is.
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func (p *Pool[V]) checkHandle(h Handle[V]) {
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if !consistencyCheck {
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return
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}
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if h.idx == nil {
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panic("pool: nil handle")
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}
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}
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// checkElem verifies that the provided itemAndIndex has a non-nil index, and
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// that the stored index matches the expected position within the slice.
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func (p *Pool[V]) checkElem(idx int, e itemAndIndex[V]) {
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if !consistencyCheck {
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return
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}
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if e.index == nil {
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panic("pool: index is nil")
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}
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if got := *e.index; got != idx {
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panic(fmt.Sprintf("pool: index is incorrect: want %d, got %d", idx, got))
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}
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}
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