package ch import ( "cmp" "fmt" "math/bits" "slices" "sync" "gitea.narnian.us/lordwelch/goimagehash" ) type basicMapStorage struct { hashMutex sync.RWMutex ids map[ID]*[]ID hashes [3][]structHash } type structHash struct { hash uint64 ids *[]ID } func (b *basicMapStorage) Atleast(hashKind goimagehash.Kind, maxDistance int, searchHash uint64) []Result { hashType := int(hashKind) - 1 matchingHashes := make([]Result, 0, 100) // hope that we don't need all of them for _, storedHash := range b.hashes[hashType] { distance := bits.OnesCount64(searchHash ^ storedHash.hash) if distance <= maxDistance { matchingHashes = append(matchingHashes, Result{ToIDList(*storedHash.ids), distance, Hash{storedHash.hash, hashKind}}) } } return matchingHashes } func (b *basicMapStorage) GetMatches(hashes []Hash, max int, exactOnly bool) ([]Result, error) { var foundMatches []Result b.hashMutex.RLock() defer b.hashMutex.RUnlock() resetTime() defer logTime(fmt.Sprintf("Search Complete: max: %v ExactOnly: %v", max, exactOnly)) if exactOnly { // exact matches are also found by partial matches. Don't bother with exact matches so we don't have to de-duplicate for _, hash := range hashes { hashType := int(hash.Kind) - 1 index, hashFound := b.findHash(hashType, hash.Hash) if hashFound { foundMatches = append(foundMatches, Result{ Distance: 0, Hash: hash, IDs: ToIDList(*b.hashes[hashType][index].ids), }) } } logTime("Search Exact") // If we have exact matches don't bother with other matches if len(foundMatches) > 0 && exactOnly { return foundMatches, nil } } foundHashes := make(map[uint64]struct{}) totalPartialHashes := 0 for _, hash := range hashes { for _, match := range b.Atleast(hash.Kind, max, hash.Hash) { _, alreadyMatched := foundHashes[match.Hash.Hash] if alreadyMatched { continue } foundHashes[match.Hash.Hash] = struct{}{} foundMatches = append(foundMatches, match) } } fmt.Println("Total partial hashes tested:", totalPartialHashes, len(foundHashes)) go b.printSizes() return foundMatches, nil } func (b *basicMapStorage) findHash(hashType int, hash uint64) (int, bool) { return slices.BinarySearchFunc(b.hashes[hashType], hash, func(e structHash, t uint64) int { return cmp.Compare(e.hash, t) }) } func (b *basicMapStorage) InsertHash(hashType int, hash uint64, ids *[]ID) { index, hashFound := b.findHash(hashType, hash) if hashFound { return } b.hashes[hashType] = slices.Insert(b.hashes[hashType], index, structHash{hash, ids}) } func (b *basicMapStorage) MapHashes(hash ImageHash) { for _, ih := range hash.Hashes { var ( hashType = int(ih.Kind) - 1 ) ids, ok := b.ids[hash.ID] if !ok { ids = &[]ID{hash.ID} b.ids[hash.ID] = ids } b.InsertHash(hashType, ih.Hash, ids) } } func (b *basicMapStorage) DecodeHashes(hashes SavedHashes) error { for hashType, sourceHashes := range hashes.Hashes { b.hashes[hashType] = make([]structHash, len(sourceHashes)) for savedHash, idlistLocation := range sourceHashes { b.hashes[hashType] = append(b.hashes[hashType], structHash{savedHash, &hashes.IDs[idlistLocation]}) } } for hashType := range b.hashes { slices.SortFunc(b.hashes[hashType], func(a, b structHash) int { return cmp.Compare(a.hash, b.hash) }) } b.printSizes() return nil } func (b *basicMapStorage) printSizes() { // fmt.Println("Size of", "hashes:", size.Of(b.hashes)/1024/1024, "MB") // fmt.Println("Size of", "ids:", size.Of(b.ids)/1024/1024, "MB") // fmt.Println("Size of", "basicMapStorage:", size.Of(b)/1024/1024, "MB") } func (b *basicMapStorage) EncodeHashes() (SavedHashes, error) { hashes := SavedHashes{ Hashes: [3]map[uint64]int{ make(map[uint64]int), make(map[uint64]int), make(map[uint64]int), }, } idmap := map[*[]ID]int{} for _, ids := range b.ids { if _, ok := idmap[ids]; ok { continue } idmap[ids] = len(hashes.IDs) hashes.IDs = append(hashes.IDs, *ids) } for hashType, hashToID := range b.hashes { for _, hash := range hashToID { hashes.Hashes[hashType][hash.hash] = idmap[hash.ids] } } return hashes, nil } func (b *basicMapStorage) AssociateIDs(newids []NewIDs) { for _, newid := range newids { ids, found := b.ids[newid.OldID] if !found { msg := "No IDs belonging to " + newid.OldID.Domain + "exist on this server" panic(msg) } *ids = InsertID(*ids, newid.NewID) } } func (b *basicMapStorage) GetIDs(id ID) IDList { ids, found := b.ids[id] if !found { msg := "No IDs belonging to " + id.Domain + "exist on this server" panic(msg) } return ToIDList(*ids) } func NewBasicMapStorage() (HashStorage, error) { storage := &basicMapStorage{ hashMutex: sync.RWMutex{}, ids: make(map[ID]*[]ID), hashes: [3][]structHash{}, } return storage, nil }