vendor/github.com/coreos/bbolt/freelist_hmap.go - voltha-go - Gitiles

 package bbolt

 import "sort"

 // hashmapFreeCount returns count of free pages(hashmap version)
 func (f *freelist) hashmapFreeCount() int {
 	// use the forwardmap to get the total count
 	count := 0
 	for _, size := range f.forwardMap {
 		count += int(size)
 	}
 	return count
 }

 // hashmapAllocate serves the same purpose as arrayAllocate, but use hashmap as backend
 func (f *freelist) hashmapAllocate(txid txid, n int) pgid {
 	if n == 0 {
 		return 0
 	}

 	// if we have a exact size match just return short path
 	if bm, ok := f.freemaps[uint64(n)]; ok {
 		for pid := range bm {
 			// remove the span
 			f.delSpan(pid, uint64(n))

 			f.allocs[pid] = txid

 			for i := pgid(0); i < pgid(n); i++ {
 				delete(f.cache, pid+i)
 			}
 			return pid
 		}
 	}

 	// lookup the map to find larger span
 	for size, bm := range f.freemaps {
 		if size < uint64(n) {
 			continue
 		}

 		for pid := range bm {
 			// remove the initial
 			f.delSpan(pid, uint64(size))

 			f.allocs[pid] = txid

 			remain := size - uint64(n)

 			// add remain span
 			f.addSpan(pid+pgid(n), remain)

 			for i := pgid(0); i < pgid(n); i++ {
 				delete(f.cache, pid+pgid(i))
 			}
 			return pid
 		}
 	}

 	return 0
 }

 // hashmapReadIDs reads pgids as input an initial the freelist(hashmap version)
 func (f *freelist) hashmapReadIDs(pgids []pgid) {
 	f.init(pgids)

 	// Rebuild the page cache.
 	f.reindex()
 }

 // hashmapGetFreePageIDs returns the sorted free page ids
 func (f *freelist) hashmapGetFreePageIDs() []pgid {
 	count := f.free_count()
 	if count == 0 {
 		return nil
 	}

 	m := make([]pgid, 0, count)
 	for start, size := range f.forwardMap {
 		for i := 0; i < int(size); i++ {
 			m = append(m, start+pgid(i))
 		}
 	}
 	sort.Sort(pgids(m))

 	return m
 }

 // hashmapMergeSpans try to merge list of pages(represented by pgids) with existing spans
 func (f *freelist) hashmapMergeSpans(ids pgids) {
 	for _, id := range ids {
 		// try to see if we can merge and update
 		f.mergeWithExistingSpan(id)
 	}
 }

 // mergeWithExistingSpan merges pid to the existing free spans, try to merge it backward and forward
 func (f *freelist) mergeWithExistingSpan(pid pgid) {
 	prev := pid - 1
 	next := pid + 1

 	preSize, mergeWithPrev := f.backwardMap[prev]
 	nextSize, mergeWithNext := f.forwardMap[next]
 	newStart := pid
 	newSize := uint64(1)

 	if mergeWithPrev {
 		//merge with previous span
 		start := prev + 1 - pgid(preSize)
 		f.delSpan(start, preSize)

 		newStart -= pgid(preSize)
 		newSize += preSize
 	}

 	if mergeWithNext {
 		// merge with next span
 		f.delSpan(next, nextSize)
 		newSize += nextSize
 	}

 	f.addSpan(newStart, newSize)
 }

 func (f *freelist) addSpan(start pgid, size uint64) {
 	f.backwardMap[start-1+pgid(size)] = size
 	f.forwardMap[start] = size
 	if _, ok := f.freemaps[size]; !ok {
 		f.freemaps[size] = make(map[pgid]struct{})
 	}

 	f.freemaps[size][start] = struct{}{}
 }

 func (f *freelist) delSpan(start pgid, size uint64) {
 	delete(f.forwardMap, start)
 	delete(f.backwardMap, start+pgid(size-1))
 	delete(f.freemaps[size], start)
 	if len(f.freemaps[size]) == 0 {
 		delete(f.freemaps, size)
 	}
 }

 // initial from pgids using when use hashmap version
 // pgids must be sorted
 func (f *freelist) init(pgids []pgid) {
 	if len(pgids) == 0 {
 		return
 	}

 	size := uint64(1)
 	start := pgids[0]

 	if !sort.SliceIsSorted([]pgid(pgids), func(i, j int) bool { return pgids[i] < pgids[j] }) {
 		panic("pgids not sorted")
 	}

 	f.freemaps = make(map[uint64]pidSet)
 	f.forwardMap = make(map[pgid]uint64)
 	f.backwardMap = make(map[pgid]uint64)

 	for i := 1; i < len(pgids); i++ {
 		// continuous page
 		if pgids[i] == pgids[i-1]+1 {
 			size++
 		} else {
 			f.addSpan(start, size)

 			size = 1
 			start = pgids[i]
 		}
 	}

 	// init the tail
 	if size != 0 && start != 0 {
 		f.addSpan(start, size)
 	}
 }
	package bbolt

	import "sort"

	// hashmapFreeCount returns count of free pages(hashmap version)
	func (f *freelist) hashmapFreeCount() int {
	// use the forwardmap to get the total count
	count := 0
	for _, size := range f.forwardMap {
	count += int(size)
	}
	return count
	}

	// hashmapAllocate serves the same purpose as arrayAllocate, but use hashmap as backend
	func (f *freelist) hashmapAllocate(txid txid, n int) pgid {
	if n == 0 {
	return 0
	}

	// if we have a exact size match just return short path
	if bm, ok := f.freemaps[uint64(n)]; ok {
	for pid := range bm {
	// remove the span
	f.delSpan(pid, uint64(n))

	f.allocs[pid] = txid

	for i := pgid(0); i < pgid(n); i++ {
	delete(f.cache, pid+i)
	}
	return pid
	}
	}

	// lookup the map to find larger span
	for size, bm := range f.freemaps {
	if size < uint64(n) {
	continue
	}

	for pid := range bm {
	// remove the initial
	f.delSpan(pid, uint64(size))

	f.allocs[pid] = txid

	remain := size - uint64(n)

	// add remain span
	f.addSpan(pid+pgid(n), remain)

	for i := pgid(0); i < pgid(n); i++ {
	delete(f.cache, pid+pgid(i))
	}
	return pid
	}
	}

	return 0
	}

	// hashmapReadIDs reads pgids as input an initial the freelist(hashmap version)
	func (f *freelist) hashmapReadIDs(pgids []pgid) {
	f.init(pgids)

	// Rebuild the page cache.
	f.reindex()
	}

	// hashmapGetFreePageIDs returns the sorted free page ids
	func (f *freelist) hashmapGetFreePageIDs() []pgid {
	count := f.free_count()
	if count == 0 {
	return nil
	}

	m := make([]pgid, 0, count)
	for start, size := range f.forwardMap {
	for i := 0; i < int(size); i++ {
	m = append(m, start+pgid(i))
	}
	}
	sort.Sort(pgids(m))

	return m
	}

	// hashmapMergeSpans try to merge list of pages(represented by pgids) with existing spans
	func (f *freelist) hashmapMergeSpans(ids pgids) {
	for _, id := range ids {
	// try to see if we can merge and update
	f.mergeWithExistingSpan(id)
	}
	}

	// mergeWithExistingSpan merges pid to the existing free spans, try to merge it backward and forward
	func (f *freelist) mergeWithExistingSpan(pid pgid) {
	prev := pid - 1
	next := pid + 1

	preSize, mergeWithPrev := f.backwardMap[prev]
	nextSize, mergeWithNext := f.forwardMap[next]
	newStart := pid
	newSize := uint64(1)

	if mergeWithPrev {
	//merge with previous span
	start := prev + 1 - pgid(preSize)
	f.delSpan(start, preSize)

	newStart -= pgid(preSize)
	newSize += preSize
	}

	if mergeWithNext {
	// merge with next span
	f.delSpan(next, nextSize)
	newSize += nextSize
	}

	f.addSpan(newStart, newSize)
	}

	func (f *freelist) addSpan(start pgid, size uint64) {
	f.backwardMap[start-1+pgid(size)] = size
	f.forwardMap[start] = size
	if _, ok := f.freemaps[size]; !ok {
	f.freemaps[size] = make(map[pgid]struct{})
	}

	f.freemaps[size][start] = struct{}{}
	}

	func (f *freelist) delSpan(start pgid, size uint64) {
	delete(f.forwardMap, start)
	delete(f.backwardMap, start+pgid(size-1))
	delete(f.freemaps[size], start)
	if len(f.freemaps[size]) == 0 {
	delete(f.freemaps, size)
	}
	}

	// initial from pgids using when use hashmap version
	// pgids must be sorted
	func (f *freelist) init(pgids []pgid) {
	if len(pgids) == 0 {
	return
	}

	size := uint64(1)
	start := pgids[0]

	if !sort.SliceIsSorted([]pgid(pgids), func(i, j int) bool { return pgids[i] < pgids[j] }) {
	panic("pgids not sorted")
	}

	f.freemaps = make(map[uint64]pidSet)
	f.forwardMap = make(map[pgid]uint64)
	f.backwardMap = make(map[pgid]uint64)

	for i := 1; i < len(pgids); i++ {
	// continuous page
	if pgids[i] == pgids[i-1]+1 {
	size++
	} else {
	f.addSpan(start, size)

	size = 1
	start = pgids[i]
	}
	}

	// init the tail
	if size != 0 && start != 0 {
	f.addSpan(start, size)
	}
	}