Anda dapat menggunakan Firebase ML untuk mengenali teks dalam gambar. Firebase ML memiliki API tujuan umum yang cocok untuk mengenali teks dalam gambar, seperti teks rambu jalan, dan API yang dioptimalkan untuk mengenali teks dokumen.
Sebelum memulai
- Tambahkan Firebase ke project Android jika Anda belum melakukannya.
-
Dalam file Gradle modul (level aplikasi)
(biasanya
<project>/<app-module>/build.gradle.kts
atau<project>/<app-module>/build.gradle
), tambahkan dependensi untuk library Firebase ML Vision untuk Android. Sebaiknya gunakan Firebase Android BoM untuk mengontrol pembuatan versi library.dependencies { // Import the BoM for the Firebase platform implementation(platform("com.google.firebase:firebase-bom:33.6.0")) // Add the dependency for the Firebase ML Vision library // When using the BoM, you don't specify versions in Firebase library dependencies implementation 'com.google.firebase:firebase-ml-vision' }
Dengan menggunakan Firebase Android BoM, aplikasi Anda akan selalu menggunakan versi library Android Firebase yang kompatibel.
(Alternatif) Tambahkan dependensi library Firebase tanpa menggunakan BoM
Jika memilih untuk tidak menggunakan Firebase BoM, Anda harus menentukan setiap versi library Firebase di baris dependensinya.
Perlu diperhatikan bahwa jika Anda menggunakan beberapa library Firebase di aplikasi, sebaiknya gunakan BoM untuk mengelola versi library, yang memastikan bahwa semua versi kompatibel.
dependencies { // Add the dependency for the Firebase ML Vision library // When NOT using the BoM, you must specify versions in Firebase library dependencies implementation 'com.google.firebase:firebase-ml-vision:24.1.0' }
-
Jika belum mengaktifkan API berbasis Cloud untuk project, lakukan sekarang:
- Buka halaman API di bagian Firebase ML di Firebase console.
-
Jika Anda belum mengupgrade project ke paket harga Blaze, klik Upgrade untuk melakukannya. (Anda akan diminta untuk mengupgrade hanya jika project tersebut tidak menggunakan paket Blaze.)
Hanya project tingkat Blaze yang dapat menggunakan API berbasis Cloud.
- Jika API berbasis Cloud belum diaktifkan, klik Enable Cloud-based APIs.
Kini Anda siap untuk mulai mengenali teks dalam gambar.
Pedoman gambar input
-
Agar Firebase ML dapat mengenali teks secara akurat, gambar input harus berisi teks yang direpresentasikan oleh data piksel yang memadai. Idealnya, untuk teks aksara Latin, setiap karakter harus berukuran minimal 16x16 piksel. Untuk teks aksara China, Jepang, dan Korea, setiap karakter harus berukuran 24x24 piksel. Untuk semua bahasa, umumnya ukuran karakter yang lebih besar dari 24x24 piksel tidak meningkatkan akurasi.
Jadi, misalnya, gambar 640x480 piksel mungkin sudah cukup untuk memindai kartu nama yang menempati lebar penuh gambar. Untuk memindai dokumen yang dicetak pada kertas berukuran letter, gambar 720x1280 piksel mungkin diperlukan.
-
Fokus gambar yang buruk dapat menurunkan akurasi pengenalan teks. Jika tidak mendapatkan hasil yang diharapkan, coba minta pengguna untuk mengambil ulang gambar.
Mengenali teks dalam gambar
Untuk mengenali teks dalam gambar, jalankan pengenal teks seperti yang dijelaskan di bawah.
1. Jalankan pengenal teks
Untuk mengenali teks dalam gambar, buat objekFirebaseVisionImage
dari Bitmap
, media.Image
, ByteBuffer
, array byte, atau file di
perangkat. Lalu, teruskan objek FirebaseVisionImage
ke metode processImage
FirebaseVisionTextRecognizer
.
Buat objek
FirebaseVisionImage
dari gambar Anda.-
Untuk membuat objek
FirebaseVisionImage
dari objekmedia.Image
, seperti saat mengambil gambar dari kamera perangkat, teruskan objekmedia.Image
dan nilai rotasi gambar keFirebaseVisionImage.fromMediaImage()
.Jika Anda menggunakan library CameraX, class
OnImageCapturedListener
danImageAnalysis.Analyzer
akan menghitung nilai rotasinya, sehingga Anda hanya perlu mengonversi rotasi tersebut ke salah satu konstantaROTATION_
Firebase ML sebelum memanggilFirebaseVisionImage.fromMediaImage()
:Kotlin+KTX
private class YourImageAnalyzer : ImageAnalysis.Analyzer { private fun degreesToFirebaseRotation(degrees: Int): Int = when(degrees) { 0 -> FirebaseVisionImageMetadata.ROTATION_0 90 -> FirebaseVisionImageMetadata.ROTATION_90 180 -> FirebaseVisionImageMetadata.ROTATION_180 270 -> FirebaseVisionImageMetadata.ROTATION_270 else -> throw Exception("Rotation must be 0, 90, 180, or 270.") } override fun analyze(imageProxy: ImageProxy?, degrees: Int) { val mediaImage = imageProxy?.image val imageRotation = degreesToFirebaseRotation(degrees) if (mediaImage != null) { val image = FirebaseVisionImage.fromMediaImage(mediaImage, imageRotation) // Pass image to an ML Vision API // ... } } }
Java
private class YourAnalyzer implements ImageAnalysis.Analyzer { private int degreesToFirebaseRotation(int degrees) { switch (degrees) { case 0: return FirebaseVisionImageMetadata.ROTATION_0; case 90: return FirebaseVisionImageMetadata.ROTATION_90; case 180: return FirebaseVisionImageMetadata.ROTATION_180; case 270: return FirebaseVisionImageMetadata.ROTATION_270; default: throw new IllegalArgumentException( "Rotation must be 0, 90, 180, or 270."); } } @Override public void analyze(ImageProxy imageProxy, int degrees) { if (imageProxy == null || imageProxy.getImage() == null) { return; } Image mediaImage = imageProxy.getImage(); int rotation = degreesToFirebaseRotation(degrees); FirebaseVisionImage image = FirebaseVisionImage.fromMediaImage(mediaImage, rotation); // Pass image to an ML Vision API // ... } }
Jika tidak menggunakan library kamera yang memberikan nilai rotasi gambar, Anda dapat menghitungnya dari rotasi perangkat dan orientasi sensor kamera pada perangkat:
Kotlin+KTX
private val ORIENTATIONS = SparseIntArray() init { ORIENTATIONS.append(Surface.ROTATION_0, 90) ORIENTATIONS.append(Surface.ROTATION_90, 0) ORIENTATIONS.append(Surface.ROTATION_180, 270) ORIENTATIONS.append(Surface.ROTATION_270, 180) } /** * Get the angle by which an image must be rotated given the device's current * orientation. */ @RequiresApi(api = Build.VERSION_CODES.LOLLIPOP) @Throws(CameraAccessException::class) private fun getRotationCompensation(cameraId: String, activity: Activity, context: Context): Int { // Get the device's current rotation relative to its "native" orientation. // Then, from the ORIENTATIONS table, look up the angle the image must be // rotated to compensate for the device's rotation. val deviceRotation = activity.windowManager.defaultDisplay.rotation var rotationCompensation = ORIENTATIONS.get(deviceRotation) // On most devices, the sensor orientation is 90 degrees, but for some // devices it is 270 degrees. For devices with a sensor orientation of // 270, rotate the image an additional 180 ((270 + 270) % 360) degrees. val cameraManager = context.getSystemService(CAMERA_SERVICE) as CameraManager val sensorOrientation = cameraManager .getCameraCharacteristics(cameraId) .get(CameraCharacteristics.SENSOR_ORIENTATION)!! rotationCompensation = (rotationCompensation + sensorOrientation + 270) % 360 // Return the corresponding FirebaseVisionImageMetadata rotation value. val result: Int when (rotationCompensation) { 0 -> result = FirebaseVisionImageMetadata.ROTATION_0 90 -> result = FirebaseVisionImageMetadata.ROTATION_90 180 -> result = FirebaseVisionImageMetadata.ROTATION_180 270 -> result = FirebaseVisionImageMetadata.ROTATION_270 else -> { result = FirebaseVisionImageMetadata.ROTATION_0 Log.e(TAG, "Bad rotation value: $rotationCompensation") } } return result }
Java
private static final SparseIntArray ORIENTATIONS = new SparseIntArray(); static { ORIENTATIONS.append(Surface.ROTATION_0, 90); ORIENTATIONS.append(Surface.ROTATION_90, 0); ORIENTATIONS.append(Surface.ROTATION_180, 270); ORIENTATIONS.append(Surface.ROTATION_270, 180); } /** * Get the angle by which an image must be rotated given the device's current * orientation. */ @RequiresApi(api = Build.VERSION_CODES.LOLLIPOP) private int getRotationCompensation(String cameraId, Activity activity, Context context) throws CameraAccessException { // Get the device's current rotation relative to its "native" orientation. // Then, from the ORIENTATIONS table, look up the angle the image must be // rotated to compensate for the device's rotation. int deviceRotation = activity.getWindowManager().getDefaultDisplay().getRotation(); int rotationCompensation = ORIENTATIONS.get(deviceRotation); // On most devices, the sensor orientation is 90 degrees, but for some // devices it is 270 degrees. For devices with a sensor orientation of // 270, rotate the image an additional 180 ((270 + 270) % 360) degrees. CameraManager cameraManager = (CameraManager) context.getSystemService(CAMERA_SERVICE); int sensorOrientation = cameraManager .getCameraCharacteristics(cameraId) .get(CameraCharacteristics.SENSOR_ORIENTATION); rotationCompensation = (rotationCompensation + sensorOrientation + 270) % 360; // Return the corresponding FirebaseVisionImageMetadata rotation value. int result; switch (rotationCompensation) { case 0: result = FirebaseVisionImageMetadata.ROTATION_0; break; case 90: result = FirebaseVisionImageMetadata.ROTATION_90; break; case 180: result = FirebaseVisionImageMetadata.ROTATION_180; break; case 270: result = FirebaseVisionImageMetadata.ROTATION_270; break; default: result = FirebaseVisionImageMetadata.ROTATION_0; Log.e(TAG, "Bad rotation value: " + rotationCompensation); } return result; }
Lalu, teruskan objek
media.Image
dan nilai rotasi keFirebaseVisionImage.fromMediaImage()
:Kotlin+KTX
val image = FirebaseVisionImage.fromMediaImage(mediaImage, rotation)
Java
FirebaseVisionImage image = FirebaseVisionImage.fromMediaImage(mediaImage, rotation);
- Untuk membuat objek
FirebaseVisionImage
dari URI file, teruskan konteks aplikasi dan URI file keFirebaseVisionImage.fromFilePath()
. Hal ini berguna saat Anda menggunakan intentACTION_GET_CONTENT
untuk meminta pengguna memilih gambar dari aplikasi galeri mereka.Kotlin+KTX
val image: FirebaseVisionImage try { image = FirebaseVisionImage.fromFilePath(context, uri) } catch (e: IOException) { e.printStackTrace() }
Java
FirebaseVisionImage image; try { image = FirebaseVisionImage.fromFilePath(context, uri); } catch (IOException e) { e.printStackTrace(); }
- Untuk membuat objek
FirebaseVisionImage
dariByteBuffer
atau array byte, pertama-tama hitung rotasi gambar seperti yang dijelaskan di atas untuk inputmedia.Image
.Lalu, buat objek
FirebaseVisionImageMetadata
yang berisi tinggi, lebar, format encoding warna, dan rotasi gambar:Kotlin+KTX
val metadata = FirebaseVisionImageMetadata.Builder() .setWidth(480) // 480x360 is typically sufficient for .setHeight(360) // image recognition .setFormat(FirebaseVisionImageMetadata.IMAGE_FORMAT_NV21) .setRotation(rotation) .build()
Java
FirebaseVisionImageMetadata metadata = new FirebaseVisionImageMetadata.Builder() .setWidth(480) // 480x360 is typically sufficient for .setHeight(360) // image recognition .setFormat(FirebaseVisionImageMetadata.IMAGE_FORMAT_NV21) .setRotation(rotation) .build();
Gunakan buffering atau array, dan objek metadata, untuk membuat objek
FirebaseVisionImage
:Kotlin+KTX
val image = FirebaseVisionImage.fromByteBuffer(buffer, metadata) // Or: val image = FirebaseVisionImage.fromByteArray(byteArray, metadata)
Java
FirebaseVisionImage image = FirebaseVisionImage.fromByteBuffer(buffer, metadata); // Or: FirebaseVisionImage image = FirebaseVisionImage.fromByteArray(byteArray, metadata);
- Untuk membuat objek
FirebaseVisionImage
dari objekBitmap
:Kotlin+KTX
val image = FirebaseVisionImage.fromBitmap(bitmap)
Java
FirebaseVisionImage image = FirebaseVisionImage.fromBitmap(bitmap);
Bitmap
harus berposisi tegak, tanpa perlu rotasi tambahan.
-
Dapatkan instance
FirebaseVisionTextRecognizer
.Kotlin+KTX
val detector = FirebaseVision.getInstance().cloudTextRecognizer // Or, to change the default settings: // val detector = FirebaseVision.getInstance().getCloudTextRecognizer(options)
// Or, to provide language hints to assist with language detection: // See https://cloud.google.com/vision/docs/languages for supported languages val options = FirebaseVisionCloudTextRecognizerOptions.Builder() .setLanguageHints(listOf("en", "hi")) .build()
Java
FirebaseVisionTextRecognizer detector = FirebaseVision.getInstance() .getCloudTextRecognizer(); // Or, to change the default settings: // FirebaseVisionTextRecognizer detector = FirebaseVision.getInstance() // .getCloudTextRecognizer(options);
// Or, to provide language hints to assist with language detection: // See https://cloud.google.com/vision/docs/languages for supported languages FirebaseVisionCloudTextRecognizerOptions options = new FirebaseVisionCloudTextRecognizerOptions.Builder() .setLanguageHints(Arrays.asList("en", "hi")) .build();
Terakhir, teruskan gambar ke metode
processImage
:Kotlin+KTX
val result = detector.processImage(image) .addOnSuccessListener { firebaseVisionText -> // Task completed successfully // ... } .addOnFailureListener { e -> // Task failed with an exception // ... }
Java
Task<FirebaseVisionText> result = detector.processImage(image) .addOnSuccessListener(new OnSuccessListener<FirebaseVisionText>() { @Override public void onSuccess(FirebaseVisionText firebaseVisionText) { // Task completed successfully // ... } }) .addOnFailureListener( new OnFailureListener() { @Override public void onFailure(@NonNull Exception e) { // Task failed with an exception // ... } });
2. Ekstrak teks dari blok teks yang dikenali
Jika operasi pengenalan teks berhasil, objekFirebaseVisionText
akan diteruskan ke pemroses peristiwa sukses. Objek FirebaseVisionText
berisi teks lengkap yang dikenali dalam gambar, serta berisi nol objek TextBlock
atau lebih.
Setiap TextBlock
mewakili blok teks persegi panjang yang berisi nol objek Line
atau lebih. Setiap objek Line
berisi nol objek
Element
atau lebih, yang mewakili kata dan entitas seperti
kata (tanggal, angka, dan sebagainya).
Untuk setiap objek TextBlock
, Line
, dan Element
, Anda bisa mendapatkan teks yang dikenali di area dan koordinat pembatas
area tersebut.
Contoh:
Kotlin+KTX
val resultText = result.text for (block in result.textBlocks) { val blockText = block.text val blockConfidence = block.confidence val blockLanguages = block.recognizedLanguages val blockCornerPoints = block.cornerPoints val blockFrame = block.boundingBox for (line in block.lines) { val lineText = line.text val lineConfidence = line.confidence val lineLanguages = line.recognizedLanguages val lineCornerPoints = line.cornerPoints val lineFrame = line.boundingBox for (element in line.elements) { val elementText = element.text val elementConfidence = element.confidence val elementLanguages = element.recognizedLanguages val elementCornerPoints = element.cornerPoints val elementFrame = element.boundingBox } } }
Java
String resultText = result.getText(); for (FirebaseVisionText.TextBlock block: result.getTextBlocks()) { String blockText = block.getText(); Float blockConfidence = block.getConfidence(); List<RecognizedLanguage> blockLanguages = block.getRecognizedLanguages(); Point[] blockCornerPoints = block.getCornerPoints(); Rect blockFrame = block.getBoundingBox(); for (FirebaseVisionText.Line line: block.getLines()) { String lineText = line.getText(); Float lineConfidence = line.getConfidence(); List<RecognizedLanguage> lineLanguages = line.getRecognizedLanguages(); Point[] lineCornerPoints = line.getCornerPoints(); Rect lineFrame = line.getBoundingBox(); for (FirebaseVisionText.Element element: line.getElements()) { String elementText = element.getText(); Float elementConfidence = element.getConfidence(); List<RecognizedLanguage> elementLanguages = element.getRecognizedLanguages(); Point[] elementCornerPoints = element.getCornerPoints(); Rect elementFrame = element.getBoundingBox(); } } }
Langkah berikutnya
- Sebelum men-deploy aplikasi yang menggunakan Cloud API ke fase produksi, Anda harus mengambil beberapa langkah tambahan untuk mencegah dan mengurangi dampak akses API tanpa izin.
Mengenali teks dalam gambar dokumen
Untuk mengenali teks dokumen, konfigurasikan dan jalankan pengenal teks dokumen seperti yang dijelaskan di bawah.
API pengenalan teks dokumen, yang dijelaskan di bawah, memberikan antarmuka yang ditujukan untuk memudahkan Anda menggunakan gambar dokumen. Namun,
jika lebih menyukai antarmuka yang disediakan oleh
FirebaseVisionTextRecognizer
API, Anda dapat menggunakannya untuk memindai dokumen dengan mengonfigurasi pengenal teks
cloud untuk menggunakan model teks padat.
Untuk menggunakan API pengenalan teks dokumen, jalankan langkah-langkah berikut.
1. Jalankan pengenal teks
Untuk mengenali teks dalam gambar, buat objekFirebaseVisionImage
dari
Bitmap
, media.Image
, ByteBuffer
, array byte, atau file di perangkat.
Lalu, teruskan objek FirebaseVisionImage
ke metode processImage
FirebaseVisionDocumentTextRecognizer
.
Buat objek
FirebaseVisionImage
dari gambar Anda.-
Untuk membuat objek
FirebaseVisionImage
dari objekmedia.Image
, seperti saat mengambil gambar dari kamera perangkat, teruskan objekmedia.Image
dan nilai rotasi gambar keFirebaseVisionImage.fromMediaImage()
.Jika Anda menggunakan library CameraX, class
OnImageCapturedListener
danImageAnalysis.Analyzer
akan menghitung nilai rotasinya, sehingga Anda hanya perlu mengonversi rotasi tersebut ke salah satu konstantaROTATION_
Firebase ML sebelum memanggilFirebaseVisionImage.fromMediaImage()
:Kotlin+KTX
private class YourImageAnalyzer : ImageAnalysis.Analyzer { private fun degreesToFirebaseRotation(degrees: Int): Int = when(degrees) { 0 -> FirebaseVisionImageMetadata.ROTATION_0 90 -> FirebaseVisionImageMetadata.ROTATION_90 180 -> FirebaseVisionImageMetadata.ROTATION_180 270 -> FirebaseVisionImageMetadata.ROTATION_270 else -> throw Exception("Rotation must be 0, 90, 180, or 270.") } override fun analyze(imageProxy: ImageProxy?, degrees: Int) { val mediaImage = imageProxy?.image val imageRotation = degreesToFirebaseRotation(degrees) if (mediaImage != null) { val image = FirebaseVisionImage.fromMediaImage(mediaImage, imageRotation) // Pass image to an ML Vision API // ... } } }
Java
private class YourAnalyzer implements ImageAnalysis.Analyzer { private int degreesToFirebaseRotation(int degrees) { switch (degrees) { case 0: return FirebaseVisionImageMetadata.ROTATION_0; case 90: return FirebaseVisionImageMetadata.ROTATION_90; case 180: return FirebaseVisionImageMetadata.ROTATION_180; case 270: return FirebaseVisionImageMetadata.ROTATION_270; default: throw new IllegalArgumentException( "Rotation must be 0, 90, 180, or 270."); } } @Override public void analyze(ImageProxy imageProxy, int degrees) { if (imageProxy == null || imageProxy.getImage() == null) { return; } Image mediaImage = imageProxy.getImage(); int rotation = degreesToFirebaseRotation(degrees); FirebaseVisionImage image = FirebaseVisionImage.fromMediaImage(mediaImage, rotation); // Pass image to an ML Vision API // ... } }
Jika tidak menggunakan library kamera yang memberikan nilai rotasi gambar, Anda dapat menghitungnya dari rotasi perangkat dan orientasi sensor kamera pada perangkat:
Kotlin+KTX
private val ORIENTATIONS = SparseIntArray() init { ORIENTATIONS.append(Surface.ROTATION_0, 90) ORIENTATIONS.append(Surface.ROTATION_90, 0) ORIENTATIONS.append(Surface.ROTATION_180, 270) ORIENTATIONS.append(Surface.ROTATION_270, 180) } /** * Get the angle by which an image must be rotated given the device's current * orientation. */ @RequiresApi(api = Build.VERSION_CODES.LOLLIPOP) @Throws(CameraAccessException::class) private fun getRotationCompensation(cameraId: String, activity: Activity, context: Context): Int { // Get the device's current rotation relative to its "native" orientation. // Then, from the ORIENTATIONS table, look up the angle the image must be // rotated to compensate for the device's rotation. val deviceRotation = activity.windowManager.defaultDisplay.rotation var rotationCompensation = ORIENTATIONS.get(deviceRotation) // On most devices, the sensor orientation is 90 degrees, but for some // devices it is 270 degrees. For devices with a sensor orientation of // 270, rotate the image an additional 180 ((270 + 270) % 360) degrees. val cameraManager = context.getSystemService(CAMERA_SERVICE) as CameraManager val sensorOrientation = cameraManager .getCameraCharacteristics(cameraId) .get(CameraCharacteristics.SENSOR_ORIENTATION)!! rotationCompensation = (rotationCompensation + sensorOrientation + 270) % 360 // Return the corresponding FirebaseVisionImageMetadata rotation value. val result: Int when (rotationCompensation) { 0 -> result = FirebaseVisionImageMetadata.ROTATION_0 90 -> result = FirebaseVisionImageMetadata.ROTATION_90 180 -> result = FirebaseVisionImageMetadata.ROTATION_180 270 -> result = FirebaseVisionImageMetadata.ROTATION_270 else -> { result = FirebaseVisionImageMetadata.ROTATION_0 Log.e(TAG, "Bad rotation value: $rotationCompensation") } } return result }
Java
private static final SparseIntArray ORIENTATIONS = new SparseIntArray(); static { ORIENTATIONS.append(Surface.ROTATION_0, 90); ORIENTATIONS.append(Surface.ROTATION_90, 0); ORIENTATIONS.append(Surface.ROTATION_180, 270); ORIENTATIONS.append(Surface.ROTATION_270, 180); } /** * Get the angle by which an image must be rotated given the device's current * orientation. */ @RequiresApi(api = Build.VERSION_CODES.LOLLIPOP) private int getRotationCompensation(String cameraId, Activity activity, Context context) throws CameraAccessException { // Get the device's current rotation relative to its "native" orientation. // Then, from the ORIENTATIONS table, look up the angle the image must be // rotated to compensate for the device's rotation. int deviceRotation = activity.getWindowManager().getDefaultDisplay().getRotation(); int rotationCompensation = ORIENTATIONS.get(deviceRotation); // On most devices, the sensor orientation is 90 degrees, but for some // devices it is 270 degrees. For devices with a sensor orientation of // 270, rotate the image an additional 180 ((270 + 270) % 360) degrees. CameraManager cameraManager = (CameraManager) context.getSystemService(CAMERA_SERVICE); int sensorOrientation = cameraManager .getCameraCharacteristics(cameraId) .get(CameraCharacteristics.SENSOR_ORIENTATION); rotationCompensation = (rotationCompensation + sensorOrientation + 270) % 360; // Return the corresponding FirebaseVisionImageMetadata rotation value. int result; switch (rotationCompensation) { case 0: result = FirebaseVisionImageMetadata.ROTATION_0; break; case 90: result = FirebaseVisionImageMetadata.ROTATION_90; break; case 180: result = FirebaseVisionImageMetadata.ROTATION_180; break; case 270: result = FirebaseVisionImageMetadata.ROTATION_270; break; default: result = FirebaseVisionImageMetadata.ROTATION_0; Log.e(TAG, "Bad rotation value: " + rotationCompensation); } return result; }
Lalu, teruskan objek
media.Image
dan nilai rotasi keFirebaseVisionImage.fromMediaImage()
:Kotlin+KTX
val image = FirebaseVisionImage.fromMediaImage(mediaImage, rotation)
Java
FirebaseVisionImage image = FirebaseVisionImage.fromMediaImage(mediaImage, rotation);
- Untuk membuat objek
FirebaseVisionImage
dari URI file, teruskan konteks aplikasi dan URI file keFirebaseVisionImage.fromFilePath()
. Hal ini berguna saat Anda menggunakan intentACTION_GET_CONTENT
untuk meminta pengguna memilih gambar dari aplikasi galeri mereka.Kotlin+KTX
val image: FirebaseVisionImage try { image = FirebaseVisionImage.fromFilePath(context, uri) } catch (e: IOException) { e.printStackTrace() }
Java
FirebaseVisionImage image; try { image = FirebaseVisionImage.fromFilePath(context, uri); } catch (IOException e) { e.printStackTrace(); }
- Untuk membuat objek
FirebaseVisionImage
dariByteBuffer
atau array byte, pertama-tama hitung rotasi gambar seperti yang dijelaskan di atas untuk inputmedia.Image
.Lalu, buat objek
FirebaseVisionImageMetadata
yang berisi tinggi, lebar, format encoding warna, dan rotasi gambar:Kotlin+KTX
val metadata = FirebaseVisionImageMetadata.Builder() .setWidth(480) // 480x360 is typically sufficient for .setHeight(360) // image recognition .setFormat(FirebaseVisionImageMetadata.IMAGE_FORMAT_NV21) .setRotation(rotation) .build()
Java
FirebaseVisionImageMetadata metadata = new FirebaseVisionImageMetadata.Builder() .setWidth(480) // 480x360 is typically sufficient for .setHeight(360) // image recognition .setFormat(FirebaseVisionImageMetadata.IMAGE_FORMAT_NV21) .setRotation(rotation) .build();
Gunakan buffering atau array, dan objek metadata, untuk membuat objek
FirebaseVisionImage
:Kotlin+KTX
val image = FirebaseVisionImage.fromByteBuffer(buffer, metadata) // Or: val image = FirebaseVisionImage.fromByteArray(byteArray, metadata)
Java
FirebaseVisionImage image = FirebaseVisionImage.fromByteBuffer(buffer, metadata); // Or: FirebaseVisionImage image = FirebaseVisionImage.fromByteArray(byteArray, metadata);
- Untuk membuat objek
FirebaseVisionImage
dari objekBitmap
:Kotlin+KTX
val image = FirebaseVisionImage.fromBitmap(bitmap)
Java
FirebaseVisionImage image = FirebaseVisionImage.fromBitmap(bitmap);
Bitmap
harus berposisi tegak, tanpa perlu rotasi tambahan.
-
Dapatkan instance
FirebaseVisionDocumentTextRecognizer
:Kotlin+KTX
val detector = FirebaseVision.getInstance() .cloudDocumentTextRecognizer
// Or, to provide language hints to assist with language detection: // See https://cloud.google.com/vision/docs/languages for supported languages val options = FirebaseVisionCloudDocumentRecognizerOptions.Builder() .setLanguageHints(listOf("en", "hi")) .build() val detector = FirebaseVision.getInstance() .getCloudDocumentTextRecognizer(options)
Java
FirebaseVisionDocumentTextRecognizer detector = FirebaseVision.getInstance() .getCloudDocumentTextRecognizer();
// Or, to provide language hints to assist with language detection: // See https://cloud.google.com/vision/docs/languages for supported languages FirebaseVisionCloudDocumentRecognizerOptions options = new FirebaseVisionCloudDocumentRecognizerOptions.Builder() .setLanguageHints(Arrays.asList("en", "hi")) .build(); FirebaseVisionDocumentTextRecognizer detector = FirebaseVision.getInstance() .getCloudDocumentTextRecognizer(options);
Terakhir, teruskan gambar ke metode
processImage
:Kotlin+KTX
detector.processImage(myImage) .addOnSuccessListener { firebaseVisionDocumentText -> // Task completed successfully // ... } .addOnFailureListener { e -> // Task failed with an exception // ... }
Java
detector.processImage(myImage) .addOnSuccessListener(new OnSuccessListener<FirebaseVisionDocumentText>() { @Override public void onSuccess(FirebaseVisionDocumentText result) { // Task completed successfully // ... } }) .addOnFailureListener(new OnFailureListener() { @Override public void onFailure(@NonNull Exception e) { // Task failed with an exception // ... } });
2. Mengekstrak teks dari blok teks yang dikenali
Jika operasi pengenalan teks berhasil, objek FirebaseVisionDocumentText
akan ditampilkan. Objek FirebaseVisionDocumentText
berisi teks lengkap yang dikenali dalam gambar, dan hierarki objek yang mencerminkan struktur dokumen yang dikenali:
FirebaseVisionDocumentText.Block
FirebaseVisionDocumentText.Paragraph
FirebaseVisionDocumentText.Word
FirebaseVisionDocumentText.Symbol
Untuk setiap objek Block
, Paragraph
, Word
, dan Symbol
, Anda bisa mendapatkan teks yang dikenali di area dan koordinat pembatas area tersebut.
Contoh:
Kotlin+KTX
val resultText = result.text for (block in result.blocks) { val blockText = block.text val blockConfidence = block.confidence val blockRecognizedLanguages = block.recognizedLanguages val blockFrame = block.boundingBox for (paragraph in block.paragraphs) { val paragraphText = paragraph.text val paragraphConfidence = paragraph.confidence val paragraphRecognizedLanguages = paragraph.recognizedLanguages val paragraphFrame = paragraph.boundingBox for (word in paragraph.words) { val wordText = word.text val wordConfidence = word.confidence val wordRecognizedLanguages = word.recognizedLanguages val wordFrame = word.boundingBox for (symbol in word.symbols) { val symbolText = symbol.text val symbolConfidence = symbol.confidence val symbolRecognizedLanguages = symbol.recognizedLanguages val symbolFrame = symbol.boundingBox } } } }
Java
String resultText = result.getText(); for (FirebaseVisionDocumentText.Block block: result.getBlocks()) { String blockText = block.getText(); Float blockConfidence = block.getConfidence(); List<RecognizedLanguage> blockRecognizedLanguages = block.getRecognizedLanguages(); Rect blockFrame = block.getBoundingBox(); for (FirebaseVisionDocumentText.Paragraph paragraph: block.getParagraphs()) { String paragraphText = paragraph.getText(); Float paragraphConfidence = paragraph.getConfidence(); List<RecognizedLanguage> paragraphRecognizedLanguages = paragraph.getRecognizedLanguages(); Rect paragraphFrame = paragraph.getBoundingBox(); for (FirebaseVisionDocumentText.Word word: paragraph.getWords()) { String wordText = word.getText(); Float wordConfidence = word.getConfidence(); List<RecognizedLanguage> wordRecognizedLanguages = word.getRecognizedLanguages(); Rect wordFrame = word.getBoundingBox(); for (FirebaseVisionDocumentText.Symbol symbol: word.getSymbols()) { String symbolText = symbol.getText(); Float symbolConfidence = symbol.getConfidence(); List<RecognizedLanguage> symbolRecognizedLanguages = symbol.getRecognizedLanguages(); Rect symbolFrame = symbol.getBoundingBox(); } } } }
Langkah berikutnya
- Sebelum men-deploy aplikasi yang menggunakan Cloud API ke lingkungan production, Anda harus mengambil beberapa langkah tambahan untuk mencegah dan mengurangi edampak akses API tanpa izin.