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cache.go
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cache.go
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// Copyright 2017 Pilosa Corp.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package pilosa
import (
"bytes"
"fmt"
"io"
"sort"
"sync"
"time"
"github.com/golang/groupcache/lru"
"github.com/pilosa/pilosa/internal"
)
const (
// ThresholdFactor is used to calculate the threshold for new items entering the cache
ThresholdFactor = 1.1
)
// Cache represents a cache of counts.
type Cache interface {
Add(id uint64, n uint64)
BulkAdd(id uint64, n uint64)
Get(id uint64) uint64
Len() int
// Returns a list of all IDs.
IDs() []uint64
// Updates the cache, if necessary.
Invalidate()
// Rebuilds the cache
Recalculate()
// Returns an ordered list of the top ranked bitmaps.
Top() []BitmapPair
// SetStats defines the stats client used in the cache.
SetStats(s StatsClient)
}
// LRUCache represents a least recently used Cache implementation.
type LRUCache struct {
cache *lru.Cache
counts map[uint64]uint64
stats StatsClient
}
// NewLRUCache returns a new instance of LRUCache.
func NewLRUCache(maxEntries uint32) *LRUCache {
c := &LRUCache{
cache: lru.New(int(maxEntries)),
counts: make(map[uint64]uint64),
stats: NopStatsClient,
}
c.cache.OnEvicted = c.onEvicted
return c
}
// BulkAdd adds a count to the cache unsorted. You should Invalidate after completion.
func (c *LRUCache) BulkAdd(id, n uint64) {
c.Add(id, n)
}
// Add adds a count to the cache.
func (c *LRUCache) Add(id, n uint64) {
c.cache.Add(id, n)
c.counts[id] = n
}
// Get returns a count for a given id.
func (c *LRUCache) Get(id uint64) uint64 {
n, _ := c.cache.Get(id)
nn, _ := n.(uint64)
return nn
}
// Len returns the number of items in the cache.
func (c *LRUCache) Len() int { return c.cache.Len() }
// Invalidate is a no-op.
func (c *LRUCache) Invalidate() {}
// Recalculate is a no-op.
func (c *LRUCache) Recalculate() {}
// IDs returns a list of all IDs in the cache.
func (c *LRUCache) IDs() []uint64 {
a := make([]uint64, 0, len(c.counts))
for id := range c.counts {
a = append(a, id)
}
sort.Sort(uint64Slice(a))
return a
}
// Top returns all counts in the cache.
func (c *LRUCache) Top() []BitmapPair {
a := make([]BitmapPair, 0, len(c.counts))
for id, n := range c.counts {
a = append(a, BitmapPair{
ID: id,
Count: uint64(n),
})
}
sort.Sort(BitmapPairs(a))
return a
}
// SetStats defines the stats client used in the cache.
func (c *LRUCache) SetStats(s StatsClient) {
c.stats = s
}
func (c *LRUCache) onEvicted(key lru.Key, _ interface{}) { delete(c.counts, key.(uint64)) }
// Ensure LRUCache implements Cache.
var _ Cache = &LRUCache{}
// RankCache represents a cache with sorted entries.
type RankCache struct {
mu sync.Mutex
entries map[uint64]uint64
rankings []BitmapPair // cached, ordered list
updateN int
updateTime time.Time
// maxEntries is the user defined size of the cache
maxEntries uint32
// thresholdBuffer is used the calculate the lowest cached threshold value
// This threshold determines what new items are added to the cache
thresholdBuffer int
// thresholdValue is the value of the last item in the cache
thresholdValue uint64
stats StatsClient
}
// NewRankCache returns a new instance of RankCache.
func NewRankCache(maxEntries uint32) *RankCache {
return &RankCache{
maxEntries: maxEntries,
thresholdBuffer: int(ThresholdFactor * float64(maxEntries)),
entries: make(map[uint64]uint64),
stats: NopStatsClient,
}
}
// Add adds a count to the cache.
func (c *RankCache) Add(id uint64, n uint64) {
c.mu.Lock()
defer c.mu.Unlock()
// Ignore if the bit count is below the threshold.
if n < c.thresholdValue {
return
}
c.entries[id] = n
c.invalidate()
}
// BulkAdd adds a count to the cache unsorted. You should Invalidate after completion.
func (c *RankCache) BulkAdd(id uint64, n uint64) {
c.mu.Lock()
defer c.mu.Unlock()
if n < c.thresholdValue {
return
}
c.entries[id] = n
}
// Get returns a count for a given id.
func (c *RankCache) Get(id uint64) uint64 {
c.mu.Lock()
defer c.mu.Unlock()
return c.entries[id]
}
// Len returns the number of items in the cache.
func (c *RankCache) Len() int {
c.mu.Lock()
defer c.mu.Unlock()
return len(c.entries)
}
// IDs returns a list of all IDs in the cache.
func (c *RankCache) IDs() []uint64 {
c.mu.Lock()
defer c.mu.Unlock()
a := make([]uint64, 0, len(c.entries))
for id := range c.entries {
a = append(a, id)
}
sort.Sort(uint64Slice(a))
return a
}
// Invalidate recalculates the entries by rank.
func (c *RankCache) Invalidate() {
c.mu.Lock()
defer c.mu.Unlock()
c.invalidate()
}
// Recalculate rebuilds the cache.
func (c *RankCache) Recalculate() {
c.mu.Lock()
defer c.mu.Unlock()
c.stats.Count("cache.recalculate", 1, 1.0)
c.recalculate()
}
func (c *RankCache) invalidate() {
// Don't invalidate more than once every X seconds.
// TODO: consider making this configurable.
if time.Now().Sub(c.updateTime).Seconds() < 10 {
return
}
c.stats.Count("cache.invalidate", 1, 1.0)
c.recalculate()
}
func (c *RankCache) recalculate() {
// Convert cache to a sorted list.
rankings := make([]BitmapPair, 0, len(c.entries))
for id, cnt := range c.entries {
rankings = append(rankings, BitmapPair{
ID: id,
Count: cnt,
})
}
sort.Sort(BitmapPairs(rankings))
// Store the count of the item at the threshold index.
c.rankings = rankings
length := len(c.rankings)
c.stats.Gauge("RankCache", float64(length), 1.0)
var removeItems []BitmapPair // cached, ordered list
if length > int(c.maxEntries) {
c.thresholdValue = rankings[c.maxEntries].Count
removeItems = c.rankings[c.maxEntries:]
c.rankings = c.rankings[0:c.maxEntries]
} else {
c.thresholdValue = 1
}
// Reset counters.
c.updateTime, c.updateN = time.Now(), 0
// If size is larger than the threshold then trim it.
if len(c.entries) > c.thresholdBuffer {
c.stats.Count("cache.threshold", 1, 1.0)
for _, pair := range removeItems {
delete(c.entries, pair.ID)
}
}
}
// SetStats defines the stats client used in the cache.
func (c *RankCache) SetStats(s StatsClient) {
c.stats = s
}
// Top returns an ordered list of pairs.
func (c *RankCache) Top() []BitmapPair { return c.rankings }
// WriteTo writes the cache to w.
func (c *RankCache) WriteTo(w io.Writer) (n int64, err error) {
panic("FIXME: TODO")
}
// ReadFrom read from r into the cache.
func (c *RankCache) ReadFrom(r io.Reader) (n int64, err error) {
panic("FIXME: TODO")
}
// Ensure RankCache implements Cache.
var _ Cache = &RankCache{}
// BitmapPair represents a id/count pair with an associated identifier.
type BitmapPair struct {
ID uint64
Count uint64
}
// BitmapPairs is a sortable list of BitmapPair objects.
type BitmapPairs []BitmapPair
func (p BitmapPairs) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func (p BitmapPairs) Len() int { return len(p) }
func (p BitmapPairs) Less(i, j int) bool { return p[i].Count > p[j].Count }
// Pair holds an id/count pair.
type Pair struct {
ID uint64 `json:"id"`
Key string `json:"key,omitempty"`
Count uint64 `json:"count"`
}
func encodePair(p Pair) *internal.Pair {
return &internal.Pair{
ID: p.ID,
Key: p.Key,
Count: p.Count,
}
}
func decodePair(pb *internal.Pair) Pair {
return Pair{
ID: pb.ID,
Key: pb.Key,
Count: pb.Count,
}
}
// Pairs is a sortable slice of Pair objects.
type Pairs []Pair
func (p Pairs) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func (p Pairs) Len() int { return len(p) }
func (p Pairs) Less(i, j int) bool { return p[i].Count > p[j].Count }
// PairHeap is a heap implementation over a group of Pairs.
type PairHeap struct {
Pairs
}
// Less implemets the Sort interface.
// reports whether the element with index i should sort before the element with index j.
func (p PairHeap) Less(i, j int) bool { return p.Pairs[i].Count < p.Pairs[j].Count }
// Push appends the element onto the Pair slice.
func (p *Pairs) Push(x interface{}) {
// Push and Pop use pointer receivers because they modify the slice's length,
// not just its contents.
*p = append(*p, x.(Pair))
}
// Pop removes the minimum element from the Pair slice.
func (p *Pairs) Pop() interface{} {
old := *p
n := len(old)
x := old[n-1]
*p = old[0 : n-1]
return x
}
// Add merges other into p and returns a new slice.
func (p Pairs) Add(other []Pair) []Pair {
// Create lookup of key/counts.
m := make(map[uint64]uint64, len(p))
for _, pair := range p {
m[pair.ID] = pair.Count
}
// Add/merge from other.
for _, pair := range other {
m[pair.ID] += pair.Count
}
// Convert back to slice.
a := make([]Pair, 0, len(m))
for k, v := range m {
a = append(a, Pair{ID: k, Count: v})
}
return a
}
// Keys returns a slice of all keys in p.
func (p Pairs) Keys() []uint64 {
a := make([]uint64, len(p))
for i := range p {
a[i] = p[i].ID
}
return a
}
func (p Pairs) String() string {
var buf bytes.Buffer
buf.WriteString("Pairs(")
for i := range p {
fmt.Fprintf(&buf, "%d/%d", p[i].ID, p[i].Count)
if i < len(p)-1 {
buf.WriteString(", ")
}
}
buf.WriteString(")")
return buf.String()
}
func encodePairs(a Pairs) []*internal.Pair {
other := make([]*internal.Pair, len(a))
for i := range a {
other[i] = encodePair(a[i])
}
return other
}
func decodePairs(a []*internal.Pair) []Pair {
other := make([]Pair, len(a))
for i := range a {
other[i] = decodePair(a[i])
}
return other
}
// uint64Slice represents a sortable slice of uint64 numbers.
type uint64Slice []uint64
func (p uint64Slice) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
func (p uint64Slice) Len() int { return len(p) }
func (p uint64Slice) Less(i, j int) bool { return p[i] < p[j] }
// merge combines p and other to a unique sorted set of values.
// p and other must both have unique sets and be sorted.
func (p uint64Slice) merge(other []uint64) []uint64 {
ret := make([]uint64, 0, len(p))
i, j := 0, 0
for i < len(p) && j < len(other) {
a, b := p[i], other[j]
if a == b {
ret = append(ret, a)
i, j = i+1, j+1
} else if a < b {
ret = append(ret, a)
i++
} else {
ret = append(ret, b)
j++
}
}
if i < len(p) {
ret = append(ret, p[i:]...)
} else if j < len(other) {
ret = append(ret, other[j:]...)
}
return ret
}
// BitmapCache provides an interface for caching full bitmaps.
type BitmapCache interface {
Fetch(id uint64) (*Bitmap, bool)
Add(id uint64, b *Bitmap)
}
// SimpleCache implements BitmapCache
// it is meant to be a short-lived cache for cases where writes are continuing to access
// the same bit within a short time frame (i.e. good for write-heavy loads)
// A read-heavy use case would cause the cache to get bigger, potentially causing the
// node to run out of memory.
type SimpleCache struct {
cache map[uint64]*Bitmap
}
// Fetch retrieves the bitmap at the id in the cache.
func (s *SimpleCache) Fetch(id uint64) (*Bitmap, bool) {
m, ok := s.cache[id]
return m, ok
}
// Add adds the bitmap to the cache, keyed on the id.
func (s *SimpleCache) Add(id uint64, b *Bitmap) {
s.cache[id] = b
}
// NopCache represents a no-op Cache implementation.
type NopCache struct {
stats StatsClient
}
// Ensure NopCache implements Cache.
var _ Cache = &NopCache{}
// NewNopCache returns a new instance of NopCache.
func NewNopCache() *NopCache {
return &NopCache{
stats: NopStatsClient,
}
}
func (c *NopCache) Add(id uint64, n uint64) {}
func (c *NopCache) BulkAdd(id uint64, n uint64) {}
func (c *NopCache) Get(id uint64) uint64 { return 0 }
func (c *NopCache) IDs() []uint64 { return make([]uint64, 0, 0) }
func (c *NopCache) Invalidate() {}
func (c *NopCache) Len() int { return 0 }
func (c *NopCache) Recalculate() {
}
func (c *NopCache) SetStats(s StatsClient) {
c.stats = s
}
func (c *NopCache) Top() []BitmapPair {
return []BitmapPair{}
}