Die vorliegende Übersetzung wurde maschinell erstellt. Im Falle eines Konflikts oder eines Widerspruchs zwischen dieser übersetzten Fassung und der englischen Fassung (einschließlich infolge von Verzögerungen bei der Übersetzung) ist die englische Fassung maßgeblich.
Erkennen von Dokumenttext mit Amazon Textract
Um Text in einem Dokument zu erkennen, verwenden Sie dieDetectDocumentText-Operation, und übergeben Sie eine Dokumentdatei als Eingabe.DetectDocumentTextgibt eine JSON-Struktur zurück, die Zeilen und Wörter des erkannten Textes, die Position des Textes im Dokument und die Beziehungen zwischen erkanntem Text enthält. Weitere Informationen finden Sie unter Erkennen von Text .
Sie können ein Eingabedokument als Bild-Byte-Array (base64-verschlüsselte Bild-Bytes) oder als Amazon S3 -Objekt zur Verfügung stellen. Bei dieser Vorgehensweise laden Sie eine Bilddatei in Ihren S3-Bucket hoch und geben den Dateinamen an.
So erkennen Sie Text in einem Dokument (API)
Wenn Sie dies noch nicht getan haben:
Erstellen oder aktualisieren Sie einen IAM-Benutzer mit
AmazonTextractFullAccessundAmazonS3ReadOnlyAccessBerechtigungen Weitere Informationen finden Sie unter Schritt 1: Einrichten eines AWS-Kontos und Erstellen eines IAM-Benutzers .Installieren und konfigurieren Sie die AWS CLI- und AWS-SDKs. Weitere Informationen finden Sie unter Schritt 2: Einrichten derAWS CLIundAWS-SDKs .
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Laden Sie ein Dokument in Ihren S3-Bucket hoch.
Detaillierte Anweisungen finden Sie unterHochladen von Objekten in Amazon S3imAmazon Simple Storage Service — Benutzerhandbuchaus.
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Verwenden Sie die folgenden Beispiele zum Aufrufen der
DetectDocumentText-Operation.- Java
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Der folgende Beispielcode zeigt das Dokument und die Felder um Zeilen mit erkanntem Text an.
In der Funktion
main, ersetzen Sie die Werte vonbucketunddocumentMit den Namen des Amazon S3 S3-Bucket und des Dokuments, die Sie in Schritt 2 verwendet haben.//Calls DetectDocumentText. //Loads document from S3 bucket. Displays the document and bounding boxes around detected lines/words of text. package com.amazonaws.samples; import java.awt.*; import java.awt.image.BufferedImage; import java.util.List; import javax.imageio.ImageIO; import javax.swing.*; import com.amazonaws.services.s3.AmazonS3; import com.amazonaws.services.s3.AmazonS3ClientBuilder; import com.amazonaws.services.s3.model.S3ObjectInputStream; import com.amazonaws.client.builder.AwsClientBuilder.EndpointConfiguration; import com.amazonaws.services.textract.AmazonTextract; import com.amazonaws.services.textract.AmazonTextractClientBuilder; import com.amazonaws.services.textract.model.Block; import com.amazonaws.services.textract.model.BoundingBox; import com.amazonaws.services.textract.model.DetectDocumentTextRequest; import com.amazonaws.services.textract.model.DetectDocumentTextResult; import com.amazonaws.services.textract.model.Document; import com.amazonaws.services.textract.model.S3Object; import com.amazonaws.services.textract.model.Point; import com.amazonaws.services.textract.model.Relationship; public class DocumentText extends JPanel { private static final long serialVersionUID = 1L; BufferedImage image; DetectDocumentTextResult result; public DocumentText(DetectDocumentTextResult documentResult, BufferedImage bufImage) throws Exception { super(); result = documentResult; // Results of text detection. image = bufImage; // The image containing the document. } // Draws the image and text bounding box. public void paintComponent(Graphics g) { int height = image.getHeight(this); int width = image.getWidth(this); Graphics2D g2d = (Graphics2D) g; // Create a Java2D version of g. // Draw the image. g2d.drawImage(image, 0, 0, image.getWidth(this) , image.getHeight(this), this); // Iterate through blocks and display polygons around lines of detected text. List<Block> blocks = result.getBlocks(); for (Block block : blocks) { DisplayBlockInfo(block); if ((block.getBlockType()).equals("LINE")) { ShowPolygon(height, width, block.getGeometry().getPolygon(), g2d); /* ShowBoundingBox(height, width, block.getGeometry().getBoundingBox(), g2d); */ } else { // its a word, so just show vertical lines. ShowPolygonVerticals(height, width, block.getGeometry().getPolygon(), g2d); } } } // Show bounding box at supplied location. private void ShowBoundingBox(int imageHeight, int imageWidth, BoundingBox box, Graphics2D g2d) { float left = imageWidth * box.getLeft(); float top = imageHeight * box.getTop(); // Display bounding box. g2d.setColor(new Color(0, 212, 0)); g2d.drawRect(Math.round(left), Math.round(top), Math.round(imageWidth * box.getWidth()), Math.round(imageHeight * box.getHeight())); } // Shows polygon at supplied location private void ShowPolygon(int imageHeight, int imageWidth, List<Point> points, Graphics2D g2d) { g2d.setColor(new Color(0, 0, 0)); Polygon polygon = new Polygon(); // Construct polygon and display for (Point point : points) { polygon.addPoint((Math.round(point.getX() * imageWidth)), Math.round(point.getY() * imageHeight)); } g2d.drawPolygon(polygon); } // Draws only the vertical lines in the supplied polygon. private void ShowPolygonVerticals(int imageHeight, int imageWidth, List<Point> points, Graphics2D g2d) { g2d.setColor(new Color(0, 212, 0)); Object[] parry = points.toArray(); g2d.setStroke(new BasicStroke(2)); g2d.drawLine(Math.round(((Point) parry[0]).getX() * imageWidth), Math.round(((Point) parry[0]).getY() * imageHeight), Math.round(((Point) parry[3]).getX() * imageWidth), Math.round(((Point) parry[3]).getY() * imageHeight)); g2d.setColor(new Color(255, 0, 0)); g2d.drawLine(Math.round(((Point) parry[1]).getX() * imageWidth), Math.round(((Point) parry[1]).getY() * imageHeight), Math.round(((Point) parry[2]).getX() * imageWidth), Math.round(((Point) parry[2]).getY() * imageHeight)); } //Displays information from a block returned by text detection and text analysis private void DisplayBlockInfo(Block block) { System.out.println("Block Id : " + block.getId()); if (block.getText()!=null) System.out.println(" Detected text: " + block.getText()); System.out.println(" Type: " + block.getBlockType()); if (block.getBlockType().equals("PAGE") !=true) { System.out.println(" Confidence: " + block.getConfidence().toString()); } if(block.getBlockType().equals("CELL")) { System.out.println(" Cell information:"); System.out.println(" Column: " + block.getColumnIndex()); System.out.println(" Row: " + block.getRowIndex()); System.out.println(" Column span: " + block.getColumnSpan()); System.out.println(" Row span: " + block.getRowSpan()); } System.out.println(" Relationships"); List<Relationship> relationships=block.getRelationships(); if(relationships!=null) { for (Relationship relationship : relationships) { System.out.println(" Type: " + relationship.getType()); System.out.println(" IDs: " + relationship.getIds().toString()); } } else { System.out.println(" No related Blocks"); } System.out.println(" Geometry"); System.out.println(" Bounding Box: " + block.getGeometry().getBoundingBox().toString()); System.out.println(" Polygon: " + block.getGeometry().getPolygon().toString()); List<String> entityTypes = block.getEntityTypes(); System.out.println(" Entity Types"); if(entityTypes!=null) { for (String entityType : entityTypes) { System.out.println(" Entity Type: " + entityType); } } else { System.out.println(" No entity type"); } if(block.getPage()!=null) System.out.println(" Page: " + block.getPage()); System.out.println(); } public static void main(String arg[]) throws Exception { // The S3 bucket and document String document = ""; String bucket = ""; AmazonS3 s3client = AmazonS3ClientBuilder.standard() .withEndpointConfiguration( new EndpointConfiguration("https://s3.amazonaws.com","us-east-1")) .build(); // Get the document from S3 com.amazonaws.services.s3.model.S3Object s3object = s3client.getObject(bucket, document); S3ObjectInputStream inputStream = s3object.getObjectContent(); BufferedImage image = ImageIO.read(inputStream); // Call DetectDocumentText EndpointConfiguration endpoint = new EndpointConfiguration( "https://textract.us-east-1.amazonaws.com", "us-east-1"); AmazonTextract client = AmazonTextractClientBuilder.standard() .withEndpointConfiguration(endpoint).build(); DetectDocumentTextRequest request = new DetectDocumentTextRequest() .withDocument(new Document().withS3Object(new S3Object().withName(document).withBucket(bucket))); DetectDocumentTextResult result = client.detectDocumentText(request); // Create frame and panel. JFrame frame = new JFrame("RotateImage"); frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); DocumentText panel = new DocumentText(result, image); panel.setPreferredSize(new Dimension(image.getWidth() , image.getHeight() )); frame.setContentPane(panel); frame.pack(); frame.setVisible(true); } } - AWS CLI
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Dieser AWS CLI-Befehl zeigt die JSON-Ausgabe für die
detect-document-text-CLI-Operation an.Ersetzen Sie die Werte von
BucketundNameMit den Namen des Amazon S3 S3-Bucket und des Dokuments, die Sie in Schritt 2 verwendet haben.aws textract detect-document-text \ --document '{"S3Object":{"Bucket":"bucket","Name":"document"}}' - Python
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Der folgende Beispielcode zeigt das Dokument und die Felder um erkannte Textzeilen an.
In der Funktion
main, ersetzen Sie die Werte vonbucketunddocumentMit den Namen des Amazon S3 S3-Bucket und des Dokuments, die Sie in Schritt 2 verwendet haben.#Detects text in a document stored in an S3 bucket. Display polygon box around text and angled text import boto3 import io from io import BytesIO import sys import psutil import time import math from PIL import Image, ImageDraw, ImageFont # Displays information about a block returned by text detection and text analysis def DisplayBlockInformation(block): print('Id: {}'.format(block['Id'])) if 'Text' in block: print(' Detected: ' + block['Text']) print(' Type: ' + block['BlockType']) if 'Confidence' in block: print(' Confidence: ' + "{:.2f}".format(block['Confidence']) + "%") if block['BlockType'] == 'CELL': print(" Cell information") print(" Column: " + str(block['ColumnIndex'])) print(" Row: " + str(block['RowIndex'])) print(" ColumnSpan: " + str(block['ColumnSpan'])) print(" RowSpan: " + str(block['RowSpan'])) if 'Relationships' in block: print(' Relationships: {}'.format(block['Relationships'])) print(' Geometry: ') print(' Bounding Box: {}'.format(block['Geometry']['BoundingBox'])) print(' Polygon: {}'.format(block['Geometry']['Polygon'])) if block['BlockType'] == "KEY_VALUE_SET": print (' Entity Type: ' + block['EntityTypes'][0]) if 'Page' in block: print('Page: ' + block['Page']) print() def process_text_detection(bucket, document): #Get the document from S3 s3_connection = boto3.resource('s3') s3_object = s3_connection.Object(bucket,document) s3_response = s3_object.get() stream = io.BytesIO(s3_response['Body'].read()) image=Image.open(stream) # Detect text in the document client = boto3.client('textract') #process using image bytes #image_binary = stream.getvalue() #response = client.detect_document_text(Document={'Bytes': image_binary}) #process using S3 object response = client.detect_document_text( Document={'S3Object': {'Bucket': bucket, 'Name': document}}) #Get the text blocks blocks=response['Blocks'] width, height =image.size draw = ImageDraw.Draw(image) print ('Detected Document Text') # Create image showing bounding box/polygon the detected lines/text for block in blocks: print('Type: ' + block['BlockType']) if block['BlockType'] != 'PAGE': print('Detected: ' + block['Text']) print('Confidence: ' + "{:.2f}".format(block['Confidence']) + "%") print('Id: {}'.format(block['Id'])) if 'Relationships' in block: print('Relationships: {}'.format(block['Relationships'])) print('Bounding Box: {}'.format(block['Geometry']['BoundingBox'])) print('Polygon: {}'.format(block['Geometry']['Polygon'])) print() draw=ImageDraw.Draw(image) # Draw WORD - Green - start of word, red - end of word if block['BlockType'] == "WORD": draw.line([(width * block['Geometry']['Polygon'][0]['X'], height * block['Geometry']['Polygon'][0]['Y']), (width * block['Geometry']['Polygon'][3]['X'], height * block['Geometry']['Polygon'][3]['Y'])],fill='green', width=2) draw.line([(width * block['Geometry']['Polygon'][1]['X'], height * block['Geometry']['Polygon'][1]['Y']), (width * block['Geometry']['Polygon'][2]['X'], height * block['Geometry']['Polygon'][2]['Y'])], fill='red', width=2) # Draw box around entire LINE if block['BlockType'] == "LINE": points=[] for polygon in block['Geometry']['Polygon']: points.append((width * polygon['X'], height * polygon['Y'])) draw.polygon((points), outline='black') # Uncomment to draw bounding box #box=block['Geometry']['BoundingBox'] #left = width * box['Left'] #top = height * box['Top'] #draw.rectangle([left,top, left + (width * box['Width']), top +(height * box['Height'])],outline='black') # Display the image image.show() # display image for 10 seconds return len(blocks) def main(): bucket = '' document = '' block_count=process_text_detection(bucket,document) print("Blocks detected: " + str(block_count)) if __name__ == "__main__": main() - Node.js
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Der folgende Beispielcode von Node.js zeigt das Dokument und die Felder um erkannte Textzeilen an und gibt ein Bild der Ergebnisse in das Verzeichnis aus, aus dem Sie den Code ausführen. Es nutzt die
image-sizeundimages-Pakete.In der Funktion
main, ersetzen Sie die Werte vonbucketunddocumentMit den Namen des Amazon S3 S3-Bucket und des Dokuments, die Sie in Schritt 2 verwendet haben. Ersetzen Sie den Wert vonregionConfigmit dem Namen der Region, in der sich Ihr Konto befindet.async function main(){ // Import AWS const AWS = require("aws-sdk") // Use Image-Size to get const sizeOf = require('image-size'); // Image tool to draw buffers const images = require("images"); // Create a canvas and get the context const { createCanvas } = require('canvas') const canvas = createCanvas(200, 200) const ctx = canvas.getContext('2d') // Set variables const bucket = 'bucket-name' // the s3 bucket name const photo = 'image-name' // the name of file const regionConfig = 'region' // Set region if needed AWS.config.update({region:regionConfig}); // Connect to Textract const client = new AWS.Textract(); // Connect to S3 to display image const s3 = new AWS.S3(); // Define paramaters const params = { Document: { S3Object: { Bucket: bucket, Name: photo }, }, } // Function to display image async function getImage(){ const imageData = s3.getObject( { Bucket: bucket, Key: photo } ).promise(); return imageData; } // get image var imageData = await getImage() // Get the height, width of the image const dimensions = sizeOf(imageData.Body) const width = dimensions.width const height = dimensions.height console.log(imageData.Body) console.log(width, height) canvas.width = width; canvas.height = height; try{ // Call API and log response const res = await client.detectDocumentText(params).promise(); var image = images(imageData.Body).size(width, height) //console.log the type of block, text, text type, and confidence res.Blocks.forEach(block => { console.log(`Block Type: ${block.BlockType}`), console.log(`Text: ${block.Text}`) console.log(`TextType: ${block.TextType}`) console.log(`Confidence: ${block.Confidence}`) // Draw box around detected text using polygons ctx.strokeStyle = 'rgba(0,0,0,0.5)'; ctx.beginPath(); block.Geometry.Polygon.forEach(({X, Y}) => ctx.lineTo(width * X - 10, height * Y - 10) ); ctx.closePath(); ctx.stroke(); console.log("-----") }) // render image var buffer = canvas.toBuffer("image/png"); image.draw(images(buffer), 10, 10) image.save("output-image.jpg"); } catch (err){ console.error(err);} } main()
Führen Sie das Beispiel aus. Die Python- und Java-Beispiele zeigen das Dokumentbild an. Eine schwarze Box umgibt jede Zeile mit erkanntem Text. Eine grüne vertikale Linie ist der Beginn eines erkannten Wortes. Eine rote vertikale Linie ist das Ende eines erkannten Wortes. DieAWS CLIBeispiel zeigt nur die JSON-Ausgabe für
DetectDocumentTextverwenden.
Aufrufen von Amazon Textract synchrone Operationen
Analysieren von Text-Dokumenten