Les traductions sont fournies par des outils de traduction automatique. En cas de conflit entre le contenu d'une traduction et celui de la version originale en anglais, la version anglaise prévaudra. # Détection ou analyse de texte dans un document multipage Cette procédure montre comment détecter ou analyser du texte dans un document multipage à l'aide des opérations de détection Amazon Textract, un document stocké dans un compartiment Amazon S3, une rubrique Amazon SNS et une file d'attente Amazon SQS. Le traitement de documents multipages est une opération asynchrone. Pour plus d'informations, consultez [Appel d'opérations asynchrones Amazon Textract](api-async.md). Vous pouvez choisir le type de traitement que le code doit effectuer : détection de texte, analyse de texte ou analyse des dépenses. Les résultats du traitement sont renvoyés dans un tableau de[Block](API_Block.md)objets, qui sont différents en fonction du type de traitement que vous utilisez. Pour détecter du texte dans des documents multipages ou les analyser, procédez comme suit : 1. Créez la rubrique Amazon SNS et la file d'attente Amazon SQS. 1. Abonnez la file d'attente à la rubrique. 1. Autorisez la rubrique à envoyer des messages à la file d'attente. 1. Commencez à traiter le document. Utilisez l'opération appropriée pour le type d'analyse que vous avez choisi : + [StartDocumentTextDetection](API_StartDocumentTextDetection.md)pour les tâches de détection de texte. + [StartDocumentAnalysis](API_StartDocumentAnalysis.md)pour les tâches d'analyse de texte. + [StartExpenseAnalysis](API_StartExpenseAnalysis.md)pour les tâches d'analyse des dépenses. 1. Obtenir le statut d'achèvement à partir de la file d'attente Amazon SQS. L'exemple de code suit l'identificateur de la tâche (`JobId`) qui est retourné par le`Start`. Il obtient uniquement les résultats pour les identifiants de tâche correspondants lus à partir du statut d'achèvement. Cela est important si d'autres applications utilisent la même file d'attente et la même rubrique. Par souci de simplicité, l'exemple supprime les tâches qui ne correspondent pas. Envisagez d'ajouter les tâches supprimées à une file d'attente de lettres mortes Amazon SQS pour un examen plus approfondi. 1. Obtenez et affichez les résultats du traitement en appelant l'opération appropriée pour le type d'analyse que vous avez choisi : + [GetDocumentTextDetection](API_GetDocumentTextDetection.md)pour les tâches de détection de texte. + [GetDocumentAnalysis](API_GetDocumentAnalysis.md)pour les tâches d'analyse de texte. + [GetExpenseAnalysis](API_GetExpenseAnalysis.md)pour les tâches d'analyse des dépenses. 1. Supprimez la rubrique Amazon SNS et la file d'attente Amazon SQS. ## Exécution d'opérations asynchrones L'exemple de code pour cette procédure est fourni en Java, Python et le fichierAWS CLI. Avant de commencer, installez leAWSSDK. Pour plus d'informations, consultez [Étape 2 : Configuration de l'AWS CLIetAWSKits SDK](setup-awscli-sdk.md). **Pour détecter ou analyser du texte dans un document multipage** 1. Configurez l'accès des utilisateurs à Amazon Textract et configurez l'accès Amazon Textract à Amazon SNS. Pour plus d'informations, consultez [Configuration d'Amazon Textract pour les opérations asynchrones](api-async-roles.md). Pour suivre cette procédure, vous devez disposer d'un fichier de documents multipages au format PDF. Ignorez les étapes 3 à 6, car l'exemple de code crée et configure la rubrique Amazon SNS et la file d'attente Amazon SQS. S'il est complexetDans l'exemple de l'interface de ligne de commande, vous n'avez pas besoin de configurer une file d'attente SQS. 1. Chargez un fichier de documents multipages au format PDF ou TIFF dans votre compartiment Amazon S3. (Les documents d'une page au format JPEG, PNG, TIFF ou PDF peuvent également être traités). Pour obtenir des instructions, consultez[Chargement d'objets dans Amazon S3](https://docs.aws.amazon.com/AmazonS3/latest/user-guide/UploadingObjectsintoAmazonS3.html)dans le*Manuel de l'utilisateur Amazon Simple Storage Service*. 1. Utilisez ce qui suitAWS SDK pour Java, kit SDK for Python (Boto3) ouAWS CLIcode permettant de détecter du texte ou d'analyser du texte dans un document multipage. Dans`main`fonction : + Remplacez la valeur de`roleArn`avec l'ARN du rôle IAM que vous avez enregistré dans[Donner à Amazon Textract l'autorisation d'accès à votre rubrique Amazon SNS](api-async-roles.md#api-async-roles-all-topics). + Remplacez les valeurs de`bucket`et`document`avec le nom du fichier de compartiment et le nom du document que vous avez spécifiés à l'étape 2. + Remplacez la valeur de l'`type`paramètre d'entrée du paramètre`ProcessDocument`avec le type de traitement que vous souhaitez effectuer. Utiliser`ProcessType.DETECTION`pour détecter du texte. Utiliser`ProcessType.ANALYSIS`pour analyser du texte. + Pour l'exemple Python, remplacez la valeur de`region_name`avec la région dans laquelle votre client opère. PourAWS CLIPar exemple, procédez comme suit : + Lorsque vous appelez[StartDocumentTextDetection](API_StartDocumentTextDetection.md), remplacez la valeur de`bucket-name`avec le nom de votre compartiment S3 et remplacez`file-name`Avec le nom du fichier que vous avez spécifié à l'étape 2. Spécifiez la région de votre compartiment en remplaçant`region-name`avec le nom de votre région. Notez que l'exemple CLI n'utilise pas SQS. + Lorsque vous appelez[GetDocumentTextDetection](API_GetDocumentTextDetection.md)remplacer`job-id-number`avec le`job-id`renvoyé par[StartDocumentTextDetection](API_StartDocumentTextDetection.md). Spécifiez la région de votre compartiment en remplaçant`region-name`avec le nom de votre région. ------ #### [ Java ] ``` package com.amazonaws.samples; import java.util.Arrays; import java.util.HashMap; import java.util.List; import java.util.Map; import com.amazonaws.auth.policy.Condition; import com.amazonaws.auth.policy.Policy; import com.amazonaws.auth.policy.Principal; import com.amazonaws.auth.policy.Resource; import com.amazonaws.auth.policy.Statement; import com.amazonaws.auth.policy.Statement.Effect; import com.amazonaws.auth.policy.actions.SQSActions; import com.amazonaws.services.sns.AmazonSNS; import com.amazonaws.services.sns.AmazonSNSClientBuilder; import com.amazonaws.services.sns.model.CreateTopicRequest; import com.amazonaws.services.sns.model.CreateTopicResult; import com.amazonaws.services.sqs.AmazonSQS; import com.amazonaws.services.sqs.AmazonSQSClientBuilder; import com.amazonaws.services.sqs.model.CreateQueueRequest; import com.amazonaws.services.sqs.model.Message; import com.amazonaws.services.sqs.model.QueueAttributeName; import com.amazonaws.services.sqs.model.SetQueueAttributesRequest; 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.DocumentLocation; import com.amazonaws.services.textract.model.DocumentMetadata; import com.amazonaws.services.textract.model.GetDocumentAnalysisRequest; import com.amazonaws.services.textract.model.GetDocumentAnalysisResult; import com.amazonaws.services.textract.model.GetDocumentTextDetectionRequest; import com.amazonaws.services.textract.model.GetDocumentTextDetectionResult; import com.amazonaws.services.textract.model.NotificationChannel; import com.amazonaws.services.textract.model.Relationship; import com.amazonaws.services.textract.model.S3Object; import com.amazonaws.services.textract.model.StartDocumentAnalysisRequest; import com.amazonaws.services.textract.model.StartDocumentAnalysisResult; import com.amazonaws.services.textract.model.StartDocumentTextDetectionRequest; import com.amazonaws.services.textract.model.StartDocumentTextDetectionResult; import com.fasterxml.jackson.databind.JsonNode; import com.fasterxml.jackson.databind.ObjectMapper;; public class DocumentProcessor { private static String sqsQueueName=null; private static String snsTopicName=null; private static String snsTopicArn = null; private static String roleArn= null; private static String sqsQueueUrl = null; private static String sqsQueueArn = null; private static String startJobId = null; private static String bucket = null; private static String document = null; private static AmazonSQS sqs=null; private static AmazonSNS sns=null; private static AmazonTextract textract = null; public enum ProcessType { DETECTION,ANALYSIS } public static void main(String[] args) throws Exception { String document = "document"; String bucket = "bucket"; String roleArn="role"; sns = AmazonSNSClientBuilder.defaultClient(); sqs= AmazonSQSClientBuilder.defaultClient(); textract=AmazonTextractClientBuilder.defaultClient(); CreateTopicandQueue(); ProcessDocument(bucket,document,roleArn,ProcessType.DETECTION); DeleteTopicandQueue(); System.out.println("Done!"); } // Creates an SNS topic and SQS queue. The queue is subscribed to the topic. static void CreateTopicandQueue() { //create a new SNS topic snsTopicName="AmazonTextractTopic" + Long.toString(System.currentTimeMillis()); CreateTopicRequest createTopicRequest = new CreateTopicRequest(snsTopicName); CreateTopicResult createTopicResult = sns.createTopic(createTopicRequest); snsTopicArn=createTopicResult.getTopicArn(); //Create a new SQS Queue sqsQueueName="AmazonTextractQueue" + Long.toString(System.currentTimeMillis()); final CreateQueueRequest createQueueRequest = new CreateQueueRequest(sqsQueueName); sqsQueueUrl = sqs.createQueue(createQueueRequest).getQueueUrl(); sqsQueueArn = sqs.getQueueAttributes(sqsQueueUrl, Arrays.asList("QueueArn")).getAttributes().get("QueueArn"); //Subscribe SQS queue to SNS topic String sqsSubscriptionArn = sns.subscribe(snsTopicArn, "sqs", sqsQueueArn).getSubscriptionArn(); // Authorize queue Policy policy = new Policy().withStatements( new Statement(Effect.Allow) .withPrincipals(Principal.AllUsers) .withActions(SQSActions.SendMessage) .withResources(new Resource(sqsQueueArn)) .withConditions(new Condition().withType("ArnEquals").withConditionKey("aws:SourceArn").withValues(snsTopicArn)) ); Map queueAttributes = new HashMap(); queueAttributes.put(QueueAttributeName.Policy.toString(), policy.toJson()); sqs.setQueueAttributes(new SetQueueAttributesRequest(sqsQueueUrl, queueAttributes)); System.out.println("Topic arn: " + snsTopicArn); System.out.println("Queue arn: " + sqsQueueArn); System.out.println("Queue url: " + sqsQueueUrl); System.out.println("Queue sub arn: " + sqsSubscriptionArn ); } static void DeleteTopicandQueue() { if (sqs !=null) { sqs.deleteQueue(sqsQueueUrl); System.out.println("SQS queue deleted"); } if (sns!=null) { sns.deleteTopic(snsTopicArn); System.out.println("SNS topic deleted"); } } //Starts the processing of the input document. static void ProcessDocument(String inBucket, String inDocument, String inRoleArn, ProcessType type) throws Exception { bucket=inBucket; document=inDocument; roleArn=inRoleArn; switch(type) { case DETECTION: StartDocumentTextDetection(bucket, document); System.out.println("Processing type: Detection"); break; case ANALYSIS: StartDocumentAnalysis(bucket,document); System.out.println("Processing type: Analysis"); break; default: System.out.println("Invalid processing type. Choose Detection or Analysis"); throw new Exception("Invalid processing type"); } System.out.println("Waiting for job: " + startJobId); //Poll queue for messages List messages=null; int dotLine=0; boolean jobFound=false; //loop until the job status is published. Ignore other messages in queue. do{ messages = sqs.receiveMessage(sqsQueueUrl).getMessages(); if (dotLine++<40){ System.out.print("."); }else{ System.out.println(); dotLine=0; } if (!messages.isEmpty()) { //Loop through messages received. for (Message message: messages) { String notification = message.getBody(); // Get status and job id from notification. ObjectMapper mapper = new ObjectMapper(); JsonNode jsonMessageTree = mapper.readTree(notification); JsonNode messageBodyText = jsonMessageTree.get("Message"); ObjectMapper operationResultMapper = new ObjectMapper(); JsonNode jsonResultTree = operationResultMapper.readTree(messageBodyText.textValue()); JsonNode operationJobId = jsonResultTree.get("JobId"); JsonNode operationStatus = jsonResultTree.get("Status"); System.out.println("Job found was " + operationJobId); // Found job. Get the results and display. if(operationJobId.asText().equals(startJobId)){ jobFound=true; System.out.println("Job id: " + operationJobId ); System.out.println("Status : " + operationStatus.toString()); if (operationStatus.asText().equals("SUCCEEDED")){ switch(type) { case DETECTION: GetDocumentTextDetectionResults(); break; case ANALYSIS: GetDocumentAnalysisResults(); break; default: System.out.println("Invalid processing type. Choose Detection or Analysis"); throw new Exception("Invalid processing type"); } } else{ System.out.println("Document analysis failed"); } sqs.deleteMessage(sqsQueueUrl,message.getReceiptHandle()); } else{ System.out.println("Job received was not job " + startJobId); //Delete unknown message. Consider moving message to dead letter queue sqs.deleteMessage(sqsQueueUrl,message.getReceiptHandle()); } } } else { Thread.sleep(5000); } } while (!jobFound); System.out.println("Finished processing document"); } private static void StartDocumentTextDetection(String bucket, String document) throws Exception{ //Create notification channel NotificationChannel channel= new NotificationChannel() .withSNSTopicArn(snsTopicArn) .withRoleArn(roleArn); StartDocumentTextDetectionRequest req = new StartDocumentTextDetectionRequest() .withDocumentLocation(new DocumentLocation() .withS3Object(new S3Object() .withBucket(bucket) .withName(document))) .withJobTag("DetectingText") .withNotificationChannel(channel); StartDocumentTextDetectionResult startDocumentTextDetectionResult = textract.startDocumentTextDetection(req); startJobId=startDocumentTextDetectionResult.getJobId(); } //Gets the results of processing started by StartDocumentTextDetection private static void GetDocumentTextDetectionResults() throws Exception{ int maxResults=1000; String paginationToken=null; GetDocumentTextDetectionResult response=null; Boolean finished=false; while (finished==false) { GetDocumentTextDetectionRequest documentTextDetectionRequest= new GetDocumentTextDetectionRequest() .withJobId(startJobId) .withMaxResults(maxResults) .withNextToken(paginationToken); response = textract.getDocumentTextDetection(documentTextDetectionRequest); DocumentMetadata documentMetaData=response.getDocumentMetadata(); System.out.println("Pages: " + documentMetaData.getPages().toString()); //Show blocks information List blocks= response.getBlocks(); for (Block block : blocks) { DisplayBlockInfo(block); } paginationToken=response.getNextToken(); if (paginationToken==null) finished=true; } } private static void StartDocumentAnalysis(String bucket, String document) throws Exception{ //Create notification channel NotificationChannel channel= new NotificationChannel() .withSNSTopicArn(snsTopicArn) .withRoleArn(roleArn); StartDocumentAnalysisRequest req = new StartDocumentAnalysisRequest() .withFeatureTypes("TABLES","FORMS") .withDocumentLocation(new DocumentLocation() .withS3Object(new S3Object() .withBucket(bucket) .withName(document))) .withJobTag("AnalyzingText") .withNotificationChannel(channel); StartDocumentAnalysisResult startDocumentAnalysisResult = textract.startDocumentAnalysis(req); startJobId=startDocumentAnalysisResult.getJobId(); } //Gets the results of processing started by StartDocumentAnalysis private static void GetDocumentAnalysisResults() throws Exception{ int maxResults=1000; String paginationToken=null; GetDocumentAnalysisResult response=null; Boolean finished=false; //loops until pagination token is null while (finished==false) { GetDocumentAnalysisRequest documentAnalysisRequest= new GetDocumentAnalysisRequest() .withJobId(startJobId) .withMaxResults(maxResults) .withNextToken(paginationToken); response = textract.getDocumentAnalysis(documentAnalysisRequest); DocumentMetadata documentMetaData=response.getDocumentMetadata(); System.out.println("Pages: " + documentMetaData.getPages().toString()); //Show blocks, confidence and detection times List blocks= response.getBlocks(); for (Block block : blocks) { DisplayBlockInfo(block); } paginationToken=response.getNextToken(); if (paginationToken==null) finished=true; } } //Displays Block information for text detection and text analysis private static void DisplayBlockInfo(Block block) { System.out.println("Block Id : " + block.getId()); if (block.getText()!=null) System.out.println("\tDetected text: " + block.getText()); System.out.println("\tType: " + block.getBlockType()); if (block.getBlockType().equals("PAGE") !=true) { System.out.println("\tConfidence: " + block.getConfidence().toString()); } if(block.getBlockType().equals("CELL")) { System.out.println("\tCell information:"); System.out.println("\t\tColumn: " + block.getColumnIndex()); System.out.println("\t\tRow: " + block.getRowIndex()); System.out.println("\t\tColumn span: " + block.getColumnSpan()); System.out.println("\t\tRow span: " + block.getRowSpan()); } System.out.println("\tRelationships"); List relationships=block.getRelationships(); if(relationships!=null) { for (Relationship relationship : relationships) { System.out.println("\t\tType: " + relationship.getType()); System.out.println("\t\tIDs: " + relationship.getIds().toString()); } } else { System.out.println("\t\tNo related Blocks"); } System.out.println("\tGeometry"); System.out.println("\t\tBounding Box: " + block.getGeometry().getBoundingBox().toString()); System.out.println("\t\tPolygon: " + block.getGeometry().getPolygon().toString()); List entityTypes = block.getEntityTypes(); System.out.println("\tEntity Types"); if(entityTypes!=null) { for (String entityType : entityTypes) { System.out.println("\t\tEntity Type: " + entityType); } } else { System.out.println("\t\tNo entity type"); } if(block.getBlockType().equals("SELECTION_ELEMENT")) { System.out.print(" Selection element detected: "); if (block.getSelectionStatus().equals("SELECTED")){ System.out.println("Selected"); }else { System.out.println(" Not selected"); } } if(block.getPage()!=null) System.out.println("\tPage: " + block.getPage()); System.out.println(); } } ``` ------ #### [ AWS CLI ] CetteAWS CLIlance la détection asynchrone de texte dans un document spécifié. Elle renvoie un objet .`job-id`qui peuvent être utilisés pour récupérer les résultats de la détection. ``` aws textract start-document-text-detection --document-location "{\"S3Object\":{\"Bucket\":\"bucket-name\",\"Name\":\"file-name\"}}" --region region-name ``` CetteAWS CLIrenvoie les résultats d'une opération asynchrone Amazon Textract lorsqu'elle est fournie avec un`job-id`. ``` aws textract get-document-text-detection --region region-name --job-id job-id-number ``` Si vous accédez à l'interface de ligne de commande sur un appareil Windows, utilisez des guillemets doubles au lieu de guillemets simples et échappez aux guillemets doubles internes par une barre oblique inverse (c'est-à-dire \$1) pour résoudre les erreurs d'analyseur que vous pourriez rencontrer. Pour un exemple, consultez ci-dessous ``` aws textract start-document-text-detection --document-location "{\"S3Object\":{\"Bucket\":\"bucket\",\"Name\":\"document\"}}" --region region-name ``` ------ #### [ Python ] ``` import boto3 import json import sys import time class ProcessType: DETECTION = 1 ANALYSIS = 2 class DocumentProcessor: jobId = '' region_name = '' roleArn = '' bucket = '' document = '' sqsQueueUrl = '' snsTopicArn = '' processType = '' def __init__(self, role, bucket, document, region): self.roleArn = role self.bucket = bucket self.document = document self.region_name = region self.textract = boto3.client('textract', region_name=self.region_name) self.sqs = boto3.client('sqs') self.sns = boto3.client('sns') def ProcessDocument(self, type): jobFound = False self.processType = type validType = False # Determine which type of processing to perform if self.processType == ProcessType.DETECTION: response = self.textract.start_document_text_detection( DocumentLocation={'S3Object': {'Bucket': self.bucket, 'Name': self.document}}, NotificationChannel={'RoleArn': self.roleArn, 'SNSTopicArn': self.snsTopicArn}) print('Processing type: Detection') validType = True if self.processType == ProcessType.ANALYSIS: response = self.textract.start_document_analysis( DocumentLocation={'S3Object': {'Bucket': self.bucket, 'Name': self.document}}, FeatureTypes=["TABLES", "FORMS"], NotificationChannel={'RoleArn': self.roleArn, 'SNSTopicArn': self.snsTopicArn}) print('Processing type: Analysis') validType = True if validType == False: print("Invalid processing type. Choose Detection or Analysis.") return print('Start Job Id: ' + response['JobId']) dotLine = 0 while jobFound == False: sqsResponse = self.sqs.receive_message(QueueUrl=self.sqsQueueUrl, MessageAttributeNames=['ALL'], MaxNumberOfMessages=10) if sqsResponse: if 'Messages' not in sqsResponse: if dotLine < 40: print('.', end='') dotLine = dotLine + 1 else: print() dotLine = 0 sys.stdout.flush() time.sleep(5) continue for message in sqsResponse['Messages']: notification = json.loads(message['Body']) textMessage = json.loads(notification['Message']) print(textMessage['JobId']) print(textMessage['Status']) if str(textMessage['JobId']) == response['JobId']: print('Matching Job Found:' + textMessage['JobId']) jobFound = True self.GetResults(textMessage['JobId']) self.sqs.delete_message(QueueUrl=self.sqsQueueUrl, ReceiptHandle=message['ReceiptHandle']) else: print("Job didn't match:" + str(textMessage['JobId']) + ' : ' + str(response['JobId'])) # Delete the unknown message. Consider sending to dead letter queue self.sqs.delete_message(QueueUrl=self.sqsQueueUrl, ReceiptHandle=message['ReceiptHandle']) print('Done!') def CreateTopicandQueue(self): millis = str(int(round(time.time() * 1000))) # Create SNS topic snsTopicName = "AmazonTextractTopic" + millis topicResponse = self.sns.create_topic(Name=snsTopicName) self.snsTopicArn = topicResponse['TopicArn'] # create SQS queue sqsQueueName = "AmazonTextractQueue" + millis self.sqs.create_queue(QueueName=sqsQueueName) self.sqsQueueUrl = self.sqs.get_queue_url(QueueName=sqsQueueName)['QueueUrl'] attribs = self.sqs.get_queue_attributes(QueueUrl=self.sqsQueueUrl, AttributeNames=['QueueArn'])['Attributes'] sqsQueueArn = attribs['QueueArn'] # Subscribe SQS queue to SNS topic self.sns.subscribe( TopicArn=self.snsTopicArn, Protocol='sqs', Endpoint=sqsQueueArn) # Authorize SNS to write SQS queue policy = """{{ "Version":"2012-10-17", "Statement":[ {{ "Sid":"MyPolicy", "Effect":"Allow", "Principal" : {{"AWS" : "*"}}, "Action":"SQS:SendMessage", "Resource": "{}", "Condition":{{ "ArnEquals":{{ "aws:SourceArn": "{}" }} }} }} ] }}""".format(sqsQueueArn, self.snsTopicArn) response = self.sqs.set_queue_attributes( QueueUrl=self.sqsQueueUrl, Attributes={ 'Policy': policy }) def DeleteTopicandQueue(self): self.sqs.delete_queue(QueueUrl=self.sqsQueueUrl) self.sns.delete_topic(TopicArn=self.snsTopicArn) # Display information about a block def DisplayBlockInfo(self, block): print("Block Id: " + block['Id']) print("Type: " + block['BlockType']) if 'EntityTypes' in block: print('EntityTypes: {}'.format(block['EntityTypes'])) if 'Text' in block: print("Text: " + block['Text']) if block['BlockType'] != 'PAGE': print("Confidence: " + "{:.2f}".format(block['Confidence']) + "%") print('Page: {}'.format(block['Page'])) if block['BlockType'] == 'CELL': print('Cell Information') print('\tColumn: {} '.format(block['ColumnIndex'])) print('\tRow: {}'.format(block['RowIndex'])) print('\tColumn span: {} '.format(block['ColumnSpan'])) print('\tRow span: {}'.format(block['RowSpan'])) if 'Relationships' in block: print('\tRelationships: {}'.format(block['Relationships'])) print('Geometry') print('\tBounding Box: {}'.format(block['Geometry']['BoundingBox'])) print('\tPolygon: {}'.format(block['Geometry']['Polygon'])) if block['BlockType'] == 'SELECTION_ELEMENT': print(' Selection element detected: ', end='') if block['SelectionStatus'] == 'SELECTED': print('Selected') else: print('Not selected') def GetResults(self, jobId): maxResults = 1000 paginationToken = None finished = False while finished == False: response = None if self.processType == ProcessType.ANALYSIS: if paginationToken == None: response = self.textract.get_document_analysis(JobId=jobId, MaxResults=maxResults) else: response = self.textract.get_document_analysis(JobId=jobId, MaxResults=maxResults, NextToken=paginationToken) if self.processType == ProcessType.DETECTION: if paginationToken == None: response = self.textract.get_document_text_detection(JobId=jobId, MaxResults=maxResults) else: response = self.textract.get_document_text_detection(JobId=jobId, MaxResults=maxResults, NextToken=paginationToken) blocks = response['Blocks'] print('Detected Document Text') print('Pages: {}'.format(response['DocumentMetadata']['Pages'])) # Display block information for block in blocks: self.DisplayBlockInfo(block) print() print() if 'NextToken' in response: paginationToken = response['NextToken'] else: finished = True def GetResultsDocumentAnalysis(self, jobId): maxResults = 1000 paginationToken = None finished = False while finished == False: response = None if paginationToken == None: response = self.textract.get_document_analysis(JobId=jobId, MaxResults=maxResults) else: response = self.textract.get_document_analysis(JobId=jobId, MaxResults=maxResults, NextToken=paginationToken) # Get the text blocks blocks = response['Blocks'] print('Analyzed Document Text') print('Pages: {}'.format(response['DocumentMetadata']['Pages'])) # Display block information for block in blocks: self.DisplayBlockInfo(block) print() print() if 'NextToken' in response: paginationToken = response['NextToken'] else: finished = True def main(): roleArn = '' bucket = '' document = '' region_name = '' analyzer = DocumentProcessor(roleArn, bucket, document, region_name) analyzer.CreateTopicandQueue() analyzer.ProcessDocument(ProcessType.DETECTION) analyzer.DeleteTopicandQueue() if __name__ == "__main__": main() ``` ------ #### [ Node.JS ] Dans cet exemple, remplacez la valeur de`roleArn`avec l'ARN du rôle IAM que vous avez enregistré dans[Donner à Amazon Textract l'autorisation d'accès à votre rubrique Amazon SNS](api-async-roles.md#api-async-roles-all-topics). Remplacez les valeurs de`bucket`et`document`Avec le nom du fichier de compartiment et le nom du document que vous avez spécifiés à l'étape 2 ci-dessus. Remplacez la valeur de`processType`avec le type de traitement que vous souhaitez utiliser sur le document d'entrée. Enfin, remplacez la valeur de`REGION`avec la région dans laquelle votre client opère. ``` // snippet-start:[sqs.JavaScript.queues.createQueueV3] // Import required AWS SDK clients and commands for Node.js import { CreateQueueCommand, GetQueueAttributesCommand, GetQueueUrlCommand, SetQueueAttributesCommand, DeleteQueueCommand, ReceiveMessageCommand, DeleteMessageCommand } from "@aws-sdk/client-sqs"; import {CreateTopicCommand, SubscribeCommand, DeleteTopicCommand } from "@aws-sdk/client-sns"; import { SQSClient } from "@aws-sdk/client-sqs"; import { SNSClient } from "@aws-sdk/client-sns"; import { TextractClient, StartDocumentTextDetectionCommand, StartDocumentAnalysisCommand, GetDocumentAnalysisCommand, GetDocumentTextDetectionCommand, DocumentMetadata } from "@aws-sdk/client-textract"; import { stdout } from "process"; // Set the AWS Region. const REGION = "us-east-1"; //e.g. "us-east-1" // Create SNS service object. const sqsClient = new SQSClient({ region: REGION }); const snsClient = new SNSClient({ region: REGION }); const textractClient = new TextractClient({ region: REGION }); // Set bucket and video variables const bucket = "bucket-name"; const documentName = "document-name"; const roleArn = "role-arn" const processType = "DETECTION" var startJobId = "" var ts = Date.now(); const snsTopicName = "AmazonTextractExample" + ts; const snsTopicParams = {Name: snsTopicName} const sqsQueueName = "AmazonTextractQueue-" + ts; // Set the parameters const sqsParams = { QueueName: sqsQueueName, //SQS_QUEUE_URL Attributes: { DelaySeconds: "60", // Number of seconds delay. MessageRetentionPeriod: "86400", // Number of seconds delay. }, }; // Process a document based on operation type const processDocumment = async (type, bucket, videoName, roleArn, sqsQueueUrl, snsTopicArn) => { try { // Set job found and success status to false initially var jobFound = false var succeeded = false var dotLine = 0 var processType = type var validType = false if (processType == "DETECTION"){ var response = await textractClient.send(new StartDocumentTextDetectionCommand({DocumentLocation:{S3Object:{Bucket:bucket, Name:videoName}}, NotificationChannel:{RoleArn: roleArn, SNSTopicArn: snsTopicArn}})) console.log("Processing type: Detection") validType = true } if (processType == "ANALYSIS"){ var response = await textractClient.send(new StartDocumentAnalysisCommand({DocumentLocation:{S3Object:{Bucket:bucket, Name:videoName}}, NotificationChannel:{RoleArn: roleArn, SNSTopicArn: snsTopicArn}})) console.log("Processing type: Analysis") validType = true } if (validType == false){ console.log("Invalid processing type. Choose Detection or Analysis.") return } // while not found, continue to poll for response console.log(`Start Job ID: ${response.JobId}`) while (jobFound == false){ var sqsReceivedResponse = await sqsClient.send(new ReceiveMessageCommand({QueueUrl:sqsQueueUrl, MaxNumberOfMessages:'ALL', MaxNumberOfMessages:10})); if (sqsReceivedResponse){ var responseString = JSON.stringify(sqsReceivedResponse) if (!responseString.includes('Body')){ if (dotLine < 40) { console.log('.') dotLine = dotLine + 1 }else { console.log('') dotLine = 0 }; stdout.write('', () => { console.log(''); }); await new Promise(resolve => setTimeout(resolve, 5000)); continue } } // Once job found, log Job ID and return true if status is succeeded for (var message of sqsReceivedResponse.Messages){ console.log("Retrieved messages:") var notification = JSON.parse(message.Body) var rekMessage = JSON.parse(notification.Message) var messageJobId = rekMessage.JobId if (String(rekMessage.JobId).includes(String(startJobId))){ console.log('Matching job found:') console.log(rekMessage.JobId) jobFound = true // GET RESUlTS FUNCTION HERE var operationResults = await GetResults(processType, rekMessage.JobId) //GET RESULTS FUMCTION HERE console.log(rekMessage.Status) if (String(rekMessage.Status).includes(String("SUCCEEDED"))){ succeeded = true console.log("Job processing succeeded.") var sqsDeleteMessage = await sqsClient.send(new DeleteMessageCommand({QueueUrl:sqsQueueUrl, ReceiptHandle:message.ReceiptHandle})); } }else{ console.log("Provided Job ID did not match returned ID.") var sqsDeleteMessage = await sqsClient.send(new DeleteMessageCommand({QueueUrl:sqsQueueUrl, ReceiptHandle:message.ReceiptHandle})); } } console.log("Done!") } }catch (err) { console.log("Error", err); } } // Create the SNS topic and SQS Queue const createTopicandQueue = async () => { try { // Create SNS topic const topicResponse = await snsClient.send(new CreateTopicCommand(snsTopicParams)); const topicArn = topicResponse.TopicArn console.log("Success", topicResponse); // Create SQS Queue const sqsResponse = await sqsClient.send(new CreateQueueCommand(sqsParams)); console.log("Success", sqsResponse); const sqsQueueCommand = await sqsClient.send(new GetQueueUrlCommand({QueueName: sqsQueueName})) const sqsQueueUrl = sqsQueueCommand.QueueUrl const attribsResponse = await sqsClient.send(new GetQueueAttributesCommand({QueueUrl: sqsQueueUrl, AttributeNames: ['QueueArn']})) const attribs = attribsResponse.Attributes console.log(attribs) const queueArn = attribs.QueueArn // subscribe SQS queue to SNS topic const subscribed = await snsClient.send(new SubscribeCommand({TopicArn: topicArn, Protocol:'sqs', Endpoint: queueArn})) const policy = { Version: "2012-10-17", Statement: [ { Sid: "MyPolicy", Effect: "Allow", Principal: {AWS: "*"}, Action: "SQS:SendMessage", Resource: queueArn, Condition: { ArnEquals: { 'aws:SourceArn': topicArn } } } ] }; const response = sqsClient.send(new SetQueueAttributesCommand({QueueUrl: sqsQueueUrl, Attributes: {Policy: JSON.stringify(policy)}})) console.log(response) console.log(sqsQueueUrl, topicArn) return [sqsQueueUrl, topicArn] } catch (err) { console.log("Error", err); } } const deleteTopicAndQueue = async (sqsQueueUrlArg, snsTopicArnArg) => { const deleteQueue = await sqsClient.send(new DeleteQueueCommand({QueueUrl: sqsQueueUrlArg})); const deleteTopic = await snsClient.send(new DeleteTopicCommand({TopicArn: snsTopicArnArg})); console.log("Successfully deleted.") } const displayBlockInfo = async (block) => { console.log(`Block ID: ${block.Id}`) console.log(`Block Type: ${block.BlockType}`) if (String(block).includes(String("EntityTypes"))){ console.log(`EntityTypes: ${block.EntityTypes}`) } if (String(block).includes(String("Text"))){ console.log(`EntityTypes: ${block.Text}`) } if (!String(block.BlockType).includes('PAGE')){ console.log(`Confidence: ${block.Confidence}`) } console.log(`Page: ${block.Page}`) if (String(block.BlockType).includes("CELL")){ console.log("Cell Information") console.log(`Column: ${block.ColumnIndex}`) console.log(`Row: ${block.RowIndex}`) console.log(`Column Span: ${block.ColumnSpan}`) console.log(`Row Span: ${block.RowSpan}`) if (String(block).includes("Relationships")){ console.log(`Relationships: ${block.Relationships}`) } } console.log("Geometry") console.log(`Bounding Box: ${JSON.stringify(block.Geometry.BoundingBox)}`) console.log(`Polygon: ${JSON.stringify(block.Geometry.Polygon)}`) if (String(block.BlockType).includes('SELECTION_ELEMENT')){ console.log('Selection Element detected:') if (String(block.SelectionStatus).includes('SELECTED')){ console.log('Selected') } else { console.log('Not Selected') } } } const GetResults = async (processType, JobID) => { var maxResults = 1000 var paginationToken = null var finished = false while (finished == false){ var response = null if (processType == 'ANALYSIS'){ if (paginationToken == null){ response = textractClient.send(new GetDocumentAnalysisCommand({JobId:JobID, MaxResults:maxResults})) }else{ response = textractClient.send(new GetDocumentAnalysisCommand({JobId:JobID, MaxResults:maxResults, NextToken:paginationToken})) } } if(processType == 'DETECTION'){ if (paginationToken == null){ response = textractClient.send(new GetDocumentTextDetectionCommand({JobId:JobID, MaxResults:maxResults})) }else{ response = textractClient.send(new GetDocumentTextDetectionCommand({JobId:JobID, MaxResults:maxResults, NextToken:paginationToken})) } } await new Promise(resolve => setTimeout(resolve, 5000)); console.log("Detected Documented Text") console.log(response) //console.log(Object.keys(response)) console.log(typeof(response)) var blocks = (await response).Blocks console.log(blocks) console.log(typeof(blocks)) var docMetadata = (await response).DocumentMetadata var blockString = JSON.stringify(blocks) var parsed = JSON.parse(JSON.stringify(blocks)) console.log(Object.keys(blocks)) console.log(`Pages: ${docMetadata.Pages}`) blocks.forEach((block)=> { displayBlockInfo(block) console.log() console.log() }) //console.log(blocks[0].BlockType) //console.log(blocks[1].BlockType) if(String(response).includes("NextToken")){ paginationToken = response.NextToken }else{ finished = true } } } // DELETE TOPIC AND QUEUE const main = async () => { var sqsAndTopic = await createTopicandQueue(); var process = await processDocumment(processType, bucket, documentName, roleArn, sqsAndTopic[0], sqsAndTopic[1]) var deleteResults = await deleteTopicAndQueue(sqsAndTopic[0], sqsAndTopic[1]) } main() ``` ------ 1. Exécutez le code. L'opération peut prendre un certain temps pour s'exécuter. Lorsqu'elle est terminée, une liste de blocs pour le texte détecté ou analysé s'affiche.