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47b3476eb7
Updates tailscale/corp#20109 Signed-off-by: Andrew Dunham <andrew@du.nham.ca> Change-Id: I751a669251a70f0134dd1540c19b274a97608a93
217 lines
5.6 KiB
Go
217 lines
5.6 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package lru contains a typed Least-Recently-Used cache.
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package lru
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import (
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"fmt"
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"html"
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"io"
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)
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// Cache is container type keyed by K, storing V, optionally evicting the least
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// recently used items if a maximum size is exceeded.
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//
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// The zero value is valid to use.
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//
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// It is not safe for concurrent access.
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//
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// The current implementation is just the traditional LRU linked list; a future
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// implementation may be more advanced to avoid pathological cases.
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type Cache[K comparable, V any] struct {
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// MaxEntries is the maximum number of cache entries before
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// an item is evicted. Zero means no limit.
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MaxEntries int
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// head is a ring of LRU values. head points to the most recently
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// used element, head.prev is the least recently used.
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//
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// An LRU is technically a simple list rather than a ring, but
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// implementing it as a ring makes the list manipulation
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// operations more regular, because the first/last positions in
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// the list stop being special.
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//
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// head is nil when the LRU is empty.
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head *entry[K, V]
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// lookup is a map of all the LRU entries contained in
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// head. lookup and head always contain exactly the same elements;
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// lookup is just there to allow O(1) lookups of keys.
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lookup map[K]*entry[K, V]
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}
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// entry is an entry of Cache.
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type entry[K comparable, V any] struct {
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prev, next *entry[K, V]
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key K
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value V
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}
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// Set adds or replaces a value to the cache, set or updating its associated
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// value.
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//
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// If MaxEntries is non-zero and the length of the cache is greater
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// after any addition, the least recently used value is evicted.
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func (c *Cache[K, V]) Set(key K, value V) {
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if c.lookup == nil {
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c.lookup = make(map[K]*entry[K, V])
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}
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if ent, ok := c.lookup[key]; ok {
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c.moveToFront(ent)
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ent.value = value
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return
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}
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ent := c.newAtFront(key, value)
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c.lookup[key] = ent
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if c.MaxEntries != 0 && c.Len() > c.MaxEntries {
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c.deleteOldest()
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}
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}
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// Clear removes all items from the cache.
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func (c *Cache[K, V]) Clear() {
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c.head = nil
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c.lookup = nil
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}
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// Get looks up a key's value from the cache, returning either
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// the value or the zero value if it not present.
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//
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// If found, key is moved to the front of the LRU.
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func (c *Cache[K, V]) Get(key K) V {
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v, _ := c.GetOk(key)
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return v
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}
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// Contains reports whether c contains key.
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//
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// If found, key is moved to the front of the LRU.
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func (c *Cache[K, V]) Contains(key K) bool {
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_, ok := c.GetOk(key)
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return ok
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}
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// GetOk looks up a key's value from the cache, also reporting whether
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// it was present.
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//
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// If found, key is moved to the front of the LRU.
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func (c *Cache[K, V]) GetOk(key K) (value V, ok bool) {
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if ent, hit := c.lookup[key]; hit {
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c.moveToFront(ent)
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return ent.value, true
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}
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var zero V
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return zero, false
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}
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// PeekOk looks up the key's value from the cache, also reporting
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// whether it was present.
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//
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// Unlike GetOk, PeekOk does not move key to the front of the
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// LRU. This should mostly be used for non-intrusive debug inspection
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// of the cache.
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func (c *Cache[K, V]) PeekOk(key K) (value V, ok bool) {
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if ent, hit := c.lookup[key]; hit {
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return ent.value, true
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}
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var zero V
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return zero, false
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}
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// Delete removes the provided key from the cache if it was present.
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func (c *Cache[K, V]) Delete(key K) {
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if ent, ok := c.lookup[key]; ok {
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c.deleteElement(ent)
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}
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}
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// DeleteOldest removes the item from the cache that was least
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// recently accessed. It is a no-op if the cache is empty.
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func (c *Cache[K, V]) DeleteOldest() {
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if c.head != nil {
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c.deleteOldest()
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}
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}
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// Len returns the number of items in the cache.
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func (c *Cache[K, V]) Len() int { return len(c.lookup) }
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// newAtFront creates a new LRU entry using key and value, and inserts
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// it at the front of c.head.
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func (c *Cache[K, V]) newAtFront(key K, value V) *entry[K, V] {
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ret := &entry[K, V]{key: key, value: value}
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if c.head == nil {
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ret.prev = ret
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ret.next = ret
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} else {
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ret.next = c.head
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ret.prev = c.head.prev
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c.head.prev.next = ret
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c.head.prev = ret
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}
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c.head = ret
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return ret
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}
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// moveToFront moves ent, which must be an existing element of the
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// cache, to the front of c.head.
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func (c *Cache[K, V]) moveToFront(ent *entry[K, V]) {
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if c.head == ent {
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return
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}
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ent.prev.next = ent.next
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ent.next.prev = ent.prev
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ent.prev = c.head.prev
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ent.next = c.head
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c.head.prev.next = ent
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c.head.prev = ent
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c.head = ent
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}
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// deleteOldest removes the oldest entry in the cache. It panics if
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// there are no entries in the cache.
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func (c *Cache[K, V]) deleteOldest() { c.deleteElement(c.head.prev) }
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// deleteElement removes ent from the cache. ent must be an existing
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// current element of the cache.
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func (c *Cache[K, V]) deleteElement(ent *entry[K, V]) {
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if ent.next == ent {
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c.head = nil
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} else {
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ent.next.prev = ent.prev
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ent.prev.next = ent.next
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if c.head == ent {
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c.head = ent.next
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}
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}
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delete(c.lookup, ent.key)
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}
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// ForEach calls fn for each entry in the cache, from most recently
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// used to least recently used.
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func (c *Cache[K, V]) ForEach(fn func(K, V)) {
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if c.head == nil {
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return
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}
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cur := c.head
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for {
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fn(cur.key, cur.value)
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cur = cur.next
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if cur == c.head {
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return
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}
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}
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}
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// DumpHTML writes the state of the cache to the given writer,
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// formatted as an HTML table.
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func (c *Cache[K, V]) DumpHTML(w io.Writer) {
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io.WriteString(w, "<table><tr><th>Key</th><th>Value</th></tr>")
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c.ForEach(func(k K, v V) {
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kStr := html.EscapeString(fmt.Sprint(k))
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vStr := html.EscapeString(fmt.Sprint(v))
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fmt.Fprintf(w, "<tr><td>%s</td><td>%v</td></tr>", kStr, vStr)
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})
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io.WriteString(w, "</table>")
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}
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