diff --git a/AUTHORS.md b/AUTHORS.md index 56c7518..832d233 100644 --- a/AUTHORS.md +++ b/AUTHORS.md @@ -2,3 +2,4 @@ - [Dominik Honnef](https://github.com/dominikh) dominik@honnef.co - [Dong-hee Na](https://github.com/corona10/) donghee.na92@gmail.com - [Gustavo Brunoro](https://github.com/brunoro/) git@hitnail.net +- [Alex Higashino](https://github.com/TokyoWolFrog/) TokyoWolFrog@mayxyou.com \ No newline at end of file diff --git a/hashcompute.go b/hashcompute.go index 490a6bc..d1ca4fb 100644 --- a/hashcompute.go +++ b/hashcompute.go @@ -83,3 +83,32 @@ func PerceptionHash(img image.Image) (*ImageHash, error) { } return phash, nil } + +// PerceptionHashExtend function returns phash of which the size can be set larger than uint64 +// Some variable name refer to https://github.com/JohannesBuchner/imagehash/blob/master/imagehash/__init__.py +// Support 64bits phash (hashSize=8) and 256bits phash (hashSize=16) +func PerceptionHashExtend(img image.Image, hashSize int) (*ExtImageHash, error) { + if img == nil { + return nil, errors.New("Image object can not be nil") + } + highFreqFactor := 8 + imgSize := hashSize * highFreqFactor + + resized := resize.Resize(uint(imgSize), uint(imgSize), img, resize.Bilinear) + pixels := transforms.Rgb2Gray(resized) + dct := transforms.DCT2D(pixels, imgSize, imgSize) + flattens := transforms.FlattenPixels(dct, hashSize, hashSize) + median := etcs.MedianOfPixels(flattens) + + lenOfUnit := 64 + lenOfPhash := hashSize * hashSize + phash := make([]uint64, lenOfPhash/lenOfUnit) + for idx, p := range flattens { + indexOfArray := (lenOfPhash - 1 - idx) / lenOfUnit + indexOfBit := idx % lenOfUnit + if p > median { + phash[indexOfArray] |= 1 << uint(indexOfBit) + } + } + return NewExtImageHash(phash, PHash), nil +} diff --git a/hashcompute_test.go b/hashcompute_test.go index 5d8e0ef..b130fd2 100644 --- a/hashcompute_test.go +++ b/hashcompute_test.go @@ -141,3 +141,100 @@ func BenchmarkDistanceDifferent(b *testing.B) { h1.Distance(h2) } } + +func TestExtImageHashCompute(t *testing.T) { + for _, tt := range []struct { + img1 string + img2 string + hashSize int + name string + distance int + }{ + {"_examples/sample1.jpg", "_examples/sample1.jpg", 8, "PerceptionHashExtend", 0}, + {"_examples/sample2.jpg", "_examples/sample2.jpg", 8, "PerceptionHashExtend", 0}, + {"_examples/sample3.jpg", "_examples/sample3.jpg", 8, "PerceptionHashExtend", 0}, + {"_examples/sample4.jpg", "_examples/sample4.jpg", 8, "PerceptionHashExtend", 0}, + {"_examples/sample1.jpg", "_examples/sample2.jpg", 8, "PerceptionHashExtend", 32}, + {"_examples/sample1.jpg", "_examples/sample3.jpg", 8, "PerceptionHashExtend", 2}, + {"_examples/sample1.jpg", "_examples/sample4.jpg", 8, "PerceptionHashExtend", 30}, + {"_examples/sample2.jpg", "_examples/sample3.jpg", 8, "PerceptionHashExtend", 34}, + {"_examples/sample2.jpg", "_examples/sample4.jpg", 8, "PerceptionHashExtend", 20}, + {"_examples/sample1.jpg", "_examples/sample1.jpg", 16, "PerceptionHashExtend", 0}, + {"_examples/sample2.jpg", "_examples/sample2.jpg", 16, "PerceptionHashExtend", 0}, + {"_examples/sample3.jpg", "_examples/sample3.jpg", 16, "PerceptionHashExtend", 0}, + {"_examples/sample4.jpg", "_examples/sample4.jpg", 16, "PerceptionHashExtend", 0}, + } { + file1, err := os.Open(tt.img1) + if err != nil { + t.Errorf("%s", err) + } + defer file1.Close() + + file2, err := os.Open(tt.img2) + if err != nil { + t.Errorf("%s", err) + } + defer file2.Close() + + img1, err := jpeg.Decode(file1) + if err != nil { + t.Errorf("%s", err) + } + + img2, err := jpeg.Decode(file2) + if err != nil { + t.Errorf("%s", err) + } + + hash1, err := PerceptionHashExtend(img1, tt.hashSize) + if err != nil { + t.Errorf("%s", err) + } + hash2, err := PerceptionHashExtend(img2, tt.hashSize) + if err != nil { + t.Errorf("%s", err) + } + + dis1, err := hash1.Distance(hash2) + if err != nil { + t.Errorf("%s", err) + } + + dis2, err := hash2.Distance(hash1) + if err != nil { + t.Errorf("%s", err) + } + + if dis1 != dis2 { + t.Errorf("Distance should be identical %v vs %v", dis1, dis2) + } + + if dis1 != tt.distance { + t.Errorf("%s: Distance between %v and %v is expected %v but got %v", tt.name, tt.img1, tt.img2, tt.distance, dis1) + } + + if tt.hashSize == 8 { + hash0, err := PerceptionHash(img1) + if err != nil { + t.Errorf("%s", err) + } + hex0 := hash0.ToString() + hex1 := hash1.ToString() + if hex0 != hex1 { + t.Errorf("Hex is expected %v but got %v", hex0, hex1) + } + } + } +} + +func BenchmarkExtImageHashDistanceDifferent(b *testing.B) { + h1 := &ExtImageHash{hash: []uint64{0xe48ae53c05e502f7}} + h2 := &ExtImageHash{hash: []uint64{0x678be53815e510f7}} // 8 bits flipped + + for i := 0; i < b.N; i++ { + _, err := h1.Distance(h2) + if err != nil { + b.Errorf("%s", err) + } + } +} diff --git a/imagehash.go b/imagehash.go index da0af93..8107eb9 100644 --- a/imagehash.go +++ b/imagehash.go @@ -5,6 +5,8 @@ package goimagehash import ( + "encoding/binary" + "encoding/hex" "errors" "fmt" ) @@ -18,6 +20,12 @@ type ImageHash struct { kind Kind } +// ExtImageHash is a struct of big hash computation. +type ExtImageHash struct { + hash []uint64 + kind Kind +} + const ( // Unknown is a enum value of the unknown hash. Unknown Kind = iota @@ -104,3 +112,102 @@ func (h *ImageHash) ToString() string { } return fmt.Sprintf(strFmt, kindStr, h.hash) } + +// NewExtImageHash function creates a new big hash +func NewExtImageHash(hash []uint64, kind Kind) *ExtImageHash { + return &ExtImageHash{hash: hash, kind: kind} +} + +// Distance method returns a distance between two big hashes +func (h *ExtImageHash) Distance(other *ExtImageHash) (int, error) { + if h.GetKind() != other.GetKind() { + return -1, errors.New("Extended Image hashes's kind should be identical") + } + + lHash := h.GetHash() + rHash := other.GetHash() + if len(lHash) != len(rHash) { + return -1, errors.New("Extended Image hashes's size should be identical") + } + + var distance int + for idx, lh := range lHash { + rh := rHash[idx] + hamming := lh ^ rh + distance += popcnt(hamming) + } + return distance, nil +} + +// GetHash method returns a big hash value +func (h *ExtImageHash) GetHash() []uint64 { + return h.hash +} + +// GetKind method returns a kind of big hash +func (h *ExtImageHash) GetKind() Kind { + return h.kind +} + +const extStrFmt = "%1s:%s" + +// ExtImageHashFromString returns a big hash from a hex representation +func ExtImageHashFromString(s string) (*ExtImageHash, error) { + var kindStr string + var hashStr string + _, err := fmt.Sscanf(s, extStrFmt, &kindStr, &hashStr) + if err != nil { + return nil, errors.New("Couldn't parse string " + s) + } + + hexBytes, err := hex.DecodeString(hashStr) + if err != nil { + return nil, err + } + + var hash []uint64 + lenOfByte := 8 + for i := 0; i < len(hexBytes)/lenOfByte; i++ { + startIndex := i * lenOfByte + endIndex := startIndex + lenOfByte + hashUint64 := binary.BigEndian.Uint64(hexBytes[startIndex:endIndex]) + hash = append(hash, hashUint64) + } + + kind := Unknown + switch kindStr { + case "a": + kind = AHash + case "p": + kind = PHash + case "d": + kind = DHash + case "w": + kind = WHash + } + return NewExtImageHash(hash, kind), nil +} + +// ToString returns a hex representation of big hash +func (h *ExtImageHash) ToString() string { + var hexBytes []byte + for _, hash := range h.hash { + hashBytes := make([]byte, 8) + binary.BigEndian.PutUint64(hashBytes, hash) + hexBytes = append(hexBytes, hashBytes...) + } + hexStr := hex.EncodeToString(hexBytes) + + kindStr := "" + switch h.kind { + case AHash: + kindStr = "a" + case PHash: + kindStr = "p" + case DHash: + kindStr = "d" + case WHash: + kindStr = "w" + } + return fmt.Sprintf(extStrFmt, kindStr, hexStr) +} diff --git a/imagehash_test.go b/imagehash_test.go index 6c8c0fd..80692af 100644 --- a/imagehash_test.go +++ b/imagehash_test.go @@ -99,5 +99,28 @@ func TestSerialization(t *testing.T) { t.Errorf("Original and unserialized objects should be identical, got distance=%v; %v of '%v'", distance, methodStr, ex) } } + + // test for ExtIExtImageHash + hashSizeList := []int{8, 16} + for _, hashSize := range hashSizeList { + hash, err := PerceptionHashExtend(img, hashSize) + checkErr(err) + + hex := hash.ToString() + // len(kind) == 1, len(":") == 1 + if len(hex) != hashSize*hashSize/4+2 { + t.Errorf("Got invalid hex string '%v'; %v of '%v'", hex, "PerceptionHashExtend", ex) + } + + reHash, err := ExtImageHashFromString(hex) + checkErr(err) + + distance, err := hash.Distance(reHash) + checkErr(err) + + if distance != 0 { + t.Errorf("Original and unserialized objects should be identical, got distance=%v; %v of '%v'", distance, "PerceptionHashExtend", ex) + } + } } }