Reconnaître les logos

L'API Video Intelligence peut détecter, suivre et reconnaître la présence de plus de 100 000 marques et logos dans du contenu vidéo.

Cette page explique comment reconnaître un logo dans une vidéo à l'aide de l'API Video Intelligence.

Annoter une vidéo dans Cloud Storage

L'exemple de code suivant montre comment détecter les logos dans une vidéo hébergée dans Cloud Storage.

REST

Envoyer la requête de processus

Pour effectuer l'annotation d'un fichier vidéo local, encodez son contenu en base64. Incluez le contenu encodé en base64 dans le champ inputContent de la requête. Pour en savoir plus sur l'encodage du contenu d'un fichier vidéo en base64, consultez la page Encoder en base64.

Vous trouverez ci-dessous la procédure à suivre pour envoyer une requête POST à la méthode videos:annotate. Cet exemple fait intervenir le jeton d'accès associé à un compte de service configuré pour le projet à l'aide de la Google Cloud CLI. Pour obtenir des instructions sur l'installation de la Google Cloud CLI, la configuration d'un projet avec un compte de service et l'obtention d'un jeton d'accès, consultez le guide de démarrage rapide de Video Intelligence.

Avant d'utiliser les données de requête, effectuez les remplacements suivants:

INPUT_URI : bucket Cloud Storage contenant le fichier que vous souhaitez annoter, y compris son nom. Doit commencer par gs://.
Par exemple :
"inputUri": "gs://cloud-videointelligence-demo/assistant.mp4",
PROJECT_NUMBER: identifiant numérique de votre projet Google Cloud

Méthode HTTP et URL :

POST https://videointelligence.googleapis.com/v1/videos:annotate

Corps JSON de la requête :

{
    "inputUri":"INPUT_URI",
    "features": ["LOGO_RECOGNITION"]
}

Pour envoyer votre requête, développez l'une des options suivantes :

curl (Linux, macOS ou Cloud Shell)

Remarque : La commande suivante suppose que vous êtes connecté à la CLI gcloud avec votre compte utilisateur en exécutant la commande gcloud init ou gcloud auth login, ou en utilisant Cloud Shell, qui vous connecte automatiquement à la CLI gcloud. Vous pouvez exécuter gcloud auth list pour vérifier le compte actuellement actif.

Enregistrez le corps de la requête dans un fichier nommé request.json et exécutez la commande suivante:

curl -X POST \
    -H "Authorization: Bearer $(gcloud auth print-access-token)" \
    -H "x-goog-user-project: PROJECT_NUMBER" \
    -H "Content-Type: application/json; charset=utf-8" \
    -d @request.json \
    "https://videointelligence.googleapis.com/v1/videos:annotate"

PowerShell (Windows)

Enregistrez le corps de la requête dans un fichier nommé request.json et exécutez la commande suivante:

$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred"; "x-goog-user-project" = "PROJECT_NUMBER" }

Invoke-WebRequest `
    -Method POST `
    -Headers $headers `
    -ContentType: "application/json; charset=utf-8" `
    -InFile request.json `
    -Uri "https://videointelligence.googleapis.com/v1/videos:annotate" | Select-Object -Expand Content

Vous devriez recevoir une réponse JSON de ce type :

{
  "name": "projects/PROJECT_NUMBER/locations/LOCATION_ID/operations/OPERATION_ID"
}

Si la réponse aboutit, l'API Video Intelligence renvoie le name de votre opération. L'exemple ci-dessus montre un exemple de ce type de réponse, où project-number est le numéro de votre projet et operation-id est l'ID de l'opération de longue durée créée pour la requête.

PROJECT_NUMBER : numéro de votre projet.
LOCATION_ID : région cloud dans laquelle l'annotation doit avoir lieu. Les régions cloud compatibles sont les suivantes : us-east1, us-west1, europe-west1 et asia-east1. Si aucune région n'est spécifiée, une région sera déterminée en fonction de l'emplacement du fichier vidéo.
OPERATION_ID : ID de l'opération de longue durée créée pour la requête, qui est fourni dans la réponse renvoyée au démarrage de l'opération, par exemple 12345...

Obtenir les résultats

Pour obtenir les résultats de votre requête, vous envoyez une requête GET utilisant le nom d'opération renvoyé par l'appel de videos:annotate, comme illustré dans l'exemple suivant.

Avant d'utiliser les données de requête, effectuez les remplacements suivants:

OPERATION_NAME: nom de l'opération tel qu'il a été renvoyé par l'API Video Intelligence. Il est au format suivant : projects/PROJECT_NUMBER/locations/LOCATION_ID/operations/OPERATION_ID.

PROJECT_NUMBER: identifiant numérique de votre projet Google Cloud

Méthode HTTP et URL :

GET https://videointelligence.googleapis.com/v1/OPERATION_NAME

Pour envoyer votre requête, développez l'une des options suivantes :

curl (Linux, macOS ou Cloud Shell)

exécutez la commande suivante :

curl -X GET \
    -H "Authorization: Bearer $(gcloud auth print-access-token)" \
    -H "x-goog-user-project: PROJECT_NUMBER" \
    "https://videointelligence.googleapis.com/v1/OPERATION_NAME"

PowerShell (Windows)

exécutez la commande suivante :

$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred"; "x-goog-user-project" = "PROJECT_NUMBER" }

Invoke-WebRequest `
    -Method GET `
    -Headers $headers `
    -Uri "https://videointelligence.googleapis.com/v1/OPERATION_NAME" | Select-Object -Expand Content

Vous devriez recevoir une réponse JSON de ce type :

Réponse

{
  "name": "projects/PROJECT_NUMBER/locations/LOCATION_ID/operations/OPERATION_ID",
  "metadata": {
    "@type": "type.googleapis.com/google.cloud.videointelligence.v1.AnnotateVideoProgress",
    "annotationProgress": [
     {
      "inputUri": "/cloud-samples-data/video/googlework_short.mp4",
      "progressPercent": 100,
      "startTime": "2020-02-31T16:27:44.889439Z",
      "updateTime": "2020-02-31T16:27:56.526050Z"
     }
    ]
  },
  "done": true,
  "response": {
    "@type": "type.googleapis.com/google.cloud.videointelligence.v1.AnnotateVideoResponse",
    "annotationResults": [
      {
        "inputUri": "/cloud-samples-data/video/googlework_short.mp4",
        "segment": {
          "startTimeOffset": "0s",
          "endTimeOffset": "34.234200s"
        },
        "logoRecognitionAnnotations": [{
          "entity": {
            "entityId": "/m/045c7b",
            "description": "Google",
            "languageCode": "en-US"
          },
          "tracks": [{
              "segment": {
                "startTimeOffset": "10.543866s",
                "endTimeOffset": "12.345666s"
              },
              "timestampedObjects": [{
                  "normalizedBoundingBox": {
                    "left": 0.3912032,
                    "top": 0.26212785,
                    "right": 0.6469412,
                    "bottom": 0.4434373
                  },
                  "timeOffset": "10.543866s"
                },
                ...
              ],
              "confidence": 0.8588119
            },
            {
              "segment": {
                "startTimeOffset": "15.348666s",
                "endTimeOffset": "18.752066s"
              },
              "timestampedObjects": [
                {
                  "normalizedBoundingBox": {
                    "left": 0.69989866,
                    "top": 0.79943377,
                    "right": 0.76465744,
                    "bottom": 0.9271479
                  },
                  "timeOffset": "15.348666s"
                 },
                 {
                  "normalizedBoundingBox": {
                    "left": 0.68997324,
                    "top": 0.78775305,
                    "right": 0.75723547,
                    "bottom": 0.91808647
                  },
                  "timeOffset": "15.448766s"
                },
                ...
              }
            }
          ]
        }
      ]
    }
  }

Télécharger les résultats des annotations

Copiez l'annotation de la source vers le bucket de destination (consultez la page Copier des fichiers et des objets) :

gsutil cp gcs_uri gs://my-bucket

Remarque : Si l'URI GCS de sortie est fourni par l'utilisateur, l'annotation est stockée dans cet URI.

Go

Pour vous authentifier auprès de Video Intelligence, configurez les Identifiants par défaut de l'application. Pour en savoir plus, consultez Configurer l'authentification pour un environnement de développement local.

import (
	"context"
	"fmt"
	"io"
	"time"

	video "cloud.google.com/go/videointelligence/apiv1"
	videopb "cloud.google.com/go/videointelligence/apiv1/videointelligencepb"
	"github.com/golang/protobuf/ptypes"
)

// logoDetectionGCS analyzes a video and extracts logos with their bounding boxes.
func logoDetectionGCS(w io.Writer, gcsURI string) error {
	// gcsURI := "gs://cloud-samples-data/video/googlework_tiny.mp4"

	ctx := context.Background()

	// Creates a client.
	client, err := video.NewClient(ctx)
	if err != nil {
		return fmt.Errorf("video.NewClient: %w", err)
	}
	defer client.Close()

	ctx, cancel := context.WithTimeout(ctx, time.Second*180)
	defer cancel()

	op, err := client.AnnotateVideo(ctx, &videopb.AnnotateVideoRequest{
		InputUri: gcsURI,
		Features: []videopb.Feature{
			videopb.Feature_LOGO_RECOGNITION,
		},
	})
	if err != nil {
		return fmt.Errorf("AnnotateVideo: %w", err)
	}

	resp, err := op.Wait(ctx)
	if err != nil {
		return fmt.Errorf("Wait: %w", err)
	}

	// Only one video was processed, so get the first result.
	result := resp.GetAnnotationResults()[0]

	// Annotations for list of logos detected, tracked and recognized in video.
	for _, annotation := range result.LogoRecognitionAnnotations {
		fmt.Fprintf(w, "Description: %q\n", annotation.Entity.GetDescription())
		// Opaque entity ID. Some IDs may be available in Google Knowledge
		// Graph Search API (https://developers.google.com/knowledge-graph/).
		if len(annotation.Entity.EntityId) > 0 {
			fmt.Fprintf(w, "\tEntity ID: %q\n", annotation.Entity.GetEntityId())
		}

		// All logo tracks where the recognized logo appears. Each track
		// corresponds to one logo instance appearing in consecutive frames.
		for _, track := range annotation.Tracks {
			// Video segment of a track.
			segment := track.GetSegment()
			start, _ := ptypes.Duration(segment.GetStartTimeOffset())
			end, _ := ptypes.Duration(segment.GetEndTimeOffset())
			fmt.Fprintf(w, "\tSegment: %v to %v\n", start, end)
			fmt.Fprintf(w, "\tConfidence: %f\n", track.GetConfidence())

			// The object with timestamp and attributes per frame in the track.
			for _, timestampedObject := range track.TimestampedObjects {
				// Normalized Bounding box in a frame, where the object is
				// located.
				box := timestampedObject.GetNormalizedBoundingBox()
				fmt.Fprintf(w, "\tBounding box position:\n")
				fmt.Fprintf(w, "\t\tleft  : %f\n", box.GetLeft())
				fmt.Fprintf(w, "\t\ttop   : %f\n", box.GetTop())
				fmt.Fprintf(w, "\t\tright : %f\n", box.GetRight())
				fmt.Fprintf(w, "\t\tbottom: %f\n", box.GetBottom())

				// Optional. The attributes of the object in the bounding box.
				for _, attribute := range timestampedObject.Attributes {
					fmt.Fprintf(w, "\t\t\tName: %q\n", attribute.GetName())
					fmt.Fprintf(w, "\t\t\tConfidence: %f\n", attribute.GetConfidence())
					fmt.Fprintf(w, "\t\t\tValue: %q\n", attribute.GetValue())
				}
			}

			// Optional. Attributes in the track level.
			for _, trackAttribute := range track.Attributes {
				fmt.Fprintf(w, "\t\tName: %q\n", trackAttribute.GetName())
				fmt.Fprintf(w, "\t\tConfidence: %f\n", trackAttribute.GetConfidence())
				fmt.Fprintf(w, "\t\tValue: %q\n", trackAttribute.GetValue())
			}
		}

		// All video segments where the recognized logo appears. There might be
		// multiple instances of the same logo class appearing in one VideoSegment.
		for _, segment := range annotation.Segments {
			start, _ := ptypes.Duration(segment.GetStartTimeOffset())
			end, _ := ptypes.Duration(segment.GetEndTimeOffset())
			fmt.Fprintf(w, "\tSegment: %v to %v\n", start, end)
		}
	}

	return nil
}

Java


import com.google.api.gax.longrunning.OperationFuture;
import com.google.cloud.videointelligence.v1.AnnotateVideoProgress;
import com.google.cloud.videointelligence.v1.AnnotateVideoRequest;
import com.google.cloud.videointelligence.v1.AnnotateVideoResponse;
import com.google.cloud.videointelligence.v1.DetectedAttribute;
import com.google.cloud.videointelligence.v1.Entity;
import com.google.cloud.videointelligence.v1.Feature;
import com.google.cloud.videointelligence.v1.LogoRecognitionAnnotation;
import com.google.cloud.videointelligence.v1.NormalizedBoundingBox;
import com.google.cloud.videointelligence.v1.TimestampedObject;
import com.google.cloud.videointelligence.v1.Track;
import com.google.cloud.videointelligence.v1.VideoAnnotationResults;
import com.google.cloud.videointelligence.v1.VideoIntelligenceServiceClient;
import com.google.cloud.videointelligence.v1.VideoSegment;
import com.google.protobuf.Duration;
import java.io.IOException;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;

public class LogoDetectionGcs {

  public static void detectLogoGcs() throws Exception {
    // TODO(developer): Replace these variables before running the sample.
    String gcsUri = "gs://YOUR_BUCKET_ID/path/to/your/video.mp4";
    detectLogoGcs(gcsUri);
  }

  public static void detectLogoGcs(String inputUri)
      throws IOException, ExecutionException, InterruptedException, TimeoutException {
    // Initialize client that will be used to send requests. This client only needs to be created
    // once, and can be reused for multiple requests. After completing all of your requests, call
    // the "close" method on the client to safely clean up any remaining background resources.
    try (VideoIntelligenceServiceClient client = VideoIntelligenceServiceClient.create()) {
      // Create the request
      AnnotateVideoRequest request =
          AnnotateVideoRequest.newBuilder()
              .setInputUri(inputUri)
              .addFeatures(Feature.LOGO_RECOGNITION)
              .build();

      // asynchronously perform object tracking on videos
      OperationFuture<AnnotateVideoResponse, AnnotateVideoProgress> future =
          client.annotateVideoAsync(request);

      System.out.println("Waiting for operation to complete...");
      // The first result is retrieved because a single video was processed.
      AnnotateVideoResponse response = future.get(600, TimeUnit.SECONDS);
      VideoAnnotationResults annotationResult = response.getAnnotationResults(0);

      // Annotations for list of logos detected, tracked and recognized in video.
      for (LogoRecognitionAnnotation logoRecognitionAnnotation :
          annotationResult.getLogoRecognitionAnnotationsList()) {
        Entity entity = logoRecognitionAnnotation.getEntity();
        // Opaque entity ID. Some IDs may be available in
        // [Google Knowledge Graph Search API](https://developers.google.com/knowledge-graph/).
        System.out.printf("Entity Id : %s\n", entity.getEntityId());
        System.out.printf("Description : %s\n", entity.getDescription());
        // All logo tracks where the recognized logo appears. Each track corresponds to one logo
        // instance appearing in consecutive frames.
        for (Track track : logoRecognitionAnnotation.getTracksList()) {

          // Video segment of a track.
          Duration startTimeOffset = track.getSegment().getStartTimeOffset();
          System.out.printf(
              "\n\tStart Time Offset: %s.%s\n",
              startTimeOffset.getSeconds(), startTimeOffset.getNanos());
          Duration endTimeOffset = track.getSegment().getEndTimeOffset();
          System.out.printf(
              "\tEnd Time Offset: %s.%s\n", endTimeOffset.getSeconds(), endTimeOffset.getNanos());
          System.out.printf("\tConfidence: %s\n", track.getConfidence());

          // The object with timestamp and attributes per frame in the track.
          for (TimestampedObject timestampedObject : track.getTimestampedObjectsList()) {

            // Normalized Bounding box in a frame, where the object is located.
            NormalizedBoundingBox normalizedBoundingBox =
                timestampedObject.getNormalizedBoundingBox();
            System.out.printf("\n\t\tLeft: %s\n", normalizedBoundingBox.getLeft());
            System.out.printf("\t\tTop: %s\n", normalizedBoundingBox.getTop());
            System.out.printf("\t\tRight: %s\n", normalizedBoundingBox.getRight());
            System.out.printf("\t\tBottom: %s\n", normalizedBoundingBox.getBottom());

            // Optional. The attributes of the object in the bounding box.
            for (DetectedAttribute attribute : timestampedObject.getAttributesList()) {
              System.out.printf("\n\t\t\tName: %s\n", attribute.getName());
              System.out.printf("\t\t\tConfidence: %s\n", attribute.getConfidence());
              System.out.printf("\t\t\tValue: %s\n", attribute.getValue());
            }
          }

          // Optional. Attributes in the track level.
          for (DetectedAttribute trackAttribute : track.getAttributesList()) {
            System.out.printf("\n\t\tName : %s\n", trackAttribute.getName());
            System.out.printf("\t\tConfidence : %s\n", trackAttribute.getConfidence());
            System.out.printf("\t\tValue : %s\n", trackAttribute.getValue());
          }
        }

        // All video segments where the recognized logo appears. There might be multiple instances
        // of the same logo class appearing in one VideoSegment.
        for (VideoSegment segment : logoRecognitionAnnotation.getSegmentsList()) {
          System.out.printf(
              "\n\tStart Time Offset : %s.%s\n",
              segment.getStartTimeOffset().getSeconds(), segment.getStartTimeOffset().getNanos());
          System.out.printf(
              "\tEnd Time Offset : %s.%s\n",
              segment.getEndTimeOffset().getSeconds(), segment.getEndTimeOffset().getNanos());
        }
      }
    }
  }
}

Node.js

/**
 * TODO(developer): Uncomment these variables before running the sample.
 */
// const inputUri = 'gs://cloud-samples-data/video/googlework_short.mp4';

// Imports the Google Cloud client libraries
const Video = require('@google-cloud/video-intelligence');

// Instantiates a client
const client = new Video.VideoIntelligenceServiceClient();

// Performs asynchronous video annotation for logo recognition on a file hosted in GCS.
async function detectLogoGcs() {
  // Build the request with the input uri and logo recognition feature.
  const request = {
    inputUri: inputUri,
    features: ['LOGO_RECOGNITION'],
  };

  // Make the asynchronous request
  const [operation] = await client.annotateVideo(request);

  // Wait for the results
  const [response] = await operation.promise();

  // Get the first response, since we sent only one video.
  const annotationResult = response.annotationResults[0];
  for (const logoRecognitionAnnotation of annotationResult.logoRecognitionAnnotations) {
    const entity = logoRecognitionAnnotation.entity;
    // Opaque entity ID. Some IDs may be available in
    // [Google Knowledge Graph Search API](https://developers.google.com/knowledge-graph/).
    console.log(`Entity Id: ${entity.entityId}`);
    console.log(`Description: ${entity.description}`);

    // All logo tracks where the recognized logo appears.
    // Each track corresponds to one logo instance appearing in consecutive frames.
    for (const track of logoRecognitionAnnotation.tracks) {
      console.log(
        `\n\tStart Time Offset: ${track.segment.startTimeOffset.seconds}.${track.segment.startTimeOffset.nanos}`
      );
      console.log(
        `\tEnd Time Offset: ${track.segment.endTimeOffset.seconds}.${track.segment.endTimeOffset.nanos}`
      );
      console.log(`\tConfidence: ${track.confidence}`);

      // The object with timestamp and attributes per frame in the track.
      for (const timestampedObject of track.timestampedObjects) {
        // Normalized Bounding box in a frame, where the object is located.
        const normalizedBoundingBox = timestampedObject.normalizedBoundingBox;
        console.log(`\n\t\tLeft: ${normalizedBoundingBox.left}`);
        console.log(`\t\tTop: ${normalizedBoundingBox.top}`);
        console.log(`\t\tRight: ${normalizedBoundingBox.right}`);
        console.log(`\t\tBottom: ${normalizedBoundingBox.bottom}`);
        // Optional. The attributes of the object in the bounding box.
        for (const attribute of timestampedObject.attributes) {
          console.log(`\n\t\t\tName: ${attribute.name}`);
          console.log(`\t\t\tConfidence: ${attribute.confidence}`);
          console.log(`\t\t\tValue: ${attribute.value}`);
        }
      }

      // Optional. Attributes in the track level.
      for (const trackAttribute of track.attributes) {
        console.log(`\n\t\tName: ${trackAttribute.name}`);
        console.log(`\t\tConfidence: ${trackAttribute.confidence}`);
        console.log(`\t\tValue: ${trackAttribute.value}`);
      }
    }

    // All video segments where the recognized logo appears.
    // There might be multiple instances of the same logo class appearing in one VideoSegment.
    for (const segment of logoRecognitionAnnotation.segments) {
      console.log(
        `\n\tStart Time Offset: ${segment.startTimeOffset.seconds}.${segment.startTimeOffset.nanos}`
      );
      console.log(
        `\tEnd Time Offset: ${segment.endTimeOffset.seconds}.${segment.endTimeOffset.nanos}`
      );
    }
  }
}

detectLogoGcs();

Python


from google.cloud import videointelligence

def detect_logo_gcs(input_uri="gs://YOUR_BUCKET_ID/path/to/your/file.mp4"):
    client = videointelligence.VideoIntelligenceServiceClient()

    features = [videointelligence.Feature.LOGO_RECOGNITION]

    operation = client.annotate_video(
        request={"features": features, "input_uri": input_uri}
    )

    print("Waiting for operation to complete...")
    response = operation.result()

    # Get the first response, since we sent only one video.
    annotation_result = response.annotation_results[0]

    # Annotations for list of logos detected, tracked and recognized in video.
    for logo_recognition_annotation in annotation_result.logo_recognition_annotations:
        entity = logo_recognition_annotation.entity

        # Opaque entity ID. Some IDs may be available in [Google Knowledge Graph
        # Search API](https://developers.google.com/knowledge-graph/).
        print("Entity Id : {}".format(entity.entity_id))

        print("Description : {}".format(entity.description))

        # All logo tracks where the recognized logo appears. Each track corresponds
        # to one logo instance appearing in consecutive frames.
        for track in logo_recognition_annotation.tracks:
            # Video segment of a track.
            print(
                "\n\tStart Time Offset : {}.{}".format(
                    track.segment.start_time_offset.seconds,
                    track.segment.start_time_offset.microseconds * 1000,
                )
            )
            print(
                "\tEnd Time Offset : {}.{}".format(
                    track.segment.end_time_offset.seconds,
                    track.segment.end_time_offset.microseconds * 1000,
                )
            )
            print("\tConfidence : {}".format(track.confidence))

            # The object with timestamp and attributes per frame in the track.
            for timestamped_object in track.timestamped_objects:
                # Normalized Bounding box in a frame, where the object is located.
                normalized_bounding_box = timestamped_object.normalized_bounding_box
                print("\n\t\tLeft : {}".format(normalized_bounding_box.left))
                print("\t\tTop : {}".format(normalized_bounding_box.top))
                print("\t\tRight : {}".format(normalized_bounding_box.right))
                print("\t\tBottom : {}".format(normalized_bounding_box.bottom))

                # Optional. The attributes of the object in the bounding box.
                for attribute in timestamped_object.attributes:
                    print("\n\t\t\tName : {}".format(attribute.name))
                    print("\t\t\tConfidence : {}".format(attribute.confidence))
                    print("\t\t\tValue : {}".format(attribute.value))

            # Optional. Attributes in the track level.
            for track_attribute in track.attributes:
                print("\n\t\tName : {}".format(track_attribute.name))
                print("\t\tConfidence : {}".format(track_attribute.confidence))
                print("\t\tValue : {}".format(track_attribute.value))

        # All video segments where the recognized logo appears. There might be
        # multiple instances of the same logo class appearing in one VideoSegment.
        for segment in logo_recognition_annotation.segments:
            print(
                "\n\tStart Time Offset : {}.{}".format(
                    segment.start_time_offset.seconds,
                    segment.start_time_offset.microseconds * 1000,
                )
            )
            print(
                "\tEnd Time Offset : {}.{}".format(
                    segment.end_time_offset.seconds,
                    segment.end_time_offset.microseconds * 1000,
                )
            )

Langages supplémentaires

C# : Veuillez suivre les instructions de configuration de C# sur la page des bibliothèques clientes, puis consultez la documentation de référence sur Video Intelligence pour .NET.

PHP : Veuillez suivre les instructions de configuration pour PHP sur la page des bibliothèques clientes, puis consultez la documentation de référence sur Video Intelligence pour PHP.

Ruby : Veuillez suivre les instructions de configuration pour Ruby sur la page des bibliothèques clientes, puis consultez la documentation de référence sur Video Intelligence pour Ruby.

Annoter une vidéo locale

L'exemple de code suivant montre comment détecter les logos dans un fichier vidéo local.

REST

Envoyer une requête d'annotation vidéo

Pour effectuer l'annotation d'un fichier vidéo local, veillez à encoder son contenu en base64. Incluez le contenu encodé en base64 dans le champ inputContent de la requête. Pour en savoir plus sur l'encodage du contenu d'un fichier vidéo en base64, consultez la page Encoder en base64.

Vous trouverez ci-dessous la procédure à suivre pour envoyer une requête à la méthode videos:annotate. Cet exemple fait intervenir le jeton d'accès associé à un compte de service configuré pour le projet à l'aide de la Google Cloud CLI. Pour obtenir des instructions sur l'installation de la Google Cloud CLI, la configuration d'un projet avec un compte de service et l'obtention d'un jeton d'accès, consultez le guide de démarrage rapide de l'API Video Intelligence.

Avant d'utiliser les données de requête, effectuez les remplacements suivants:

"inputContent": BASE64_ENCODED_CONTENT
Par exemple:
"UklGRg41AwBBVkkgTElTVAwBAABoZHJsYXZpaDgAAAA1ggAAxPMBAAAAAAAQCAA..."
LANGUAGE_CODE : [facultatif] Consultez la liste des langues compatibles
PROJECT_NUMBER: identifiant numérique de votre projet Google Cloud

Méthode HTTP et URL :

POST https://videointelligence.googleapis.com/v1/videos:annotate

Corps JSON de la requête :

{
  "inputContent": "BASE64_ENCODED_CONTENT",
  "features": ["LOGO_RECOGNITION"],
  "videoContext": {
  }
}

Pour envoyer votre requête, développez l'une des options suivantes :

curl (Linux, macOS ou Cloud Shell)

Enregistrez le corps de la requête dans un fichier nommé request.json et exécutez la commande suivante:

curl -X POST \
    -H "Authorization: Bearer $(gcloud auth print-access-token)" \
    -H "x-goog-user-project: PROJECT_NUMBER" \
    -H "Content-Type: application/json; charset=utf-8" \
    -d @request.json \
    "https://videointelligence.googleapis.com/v1/videos:annotate"

PowerShell (Windows)

Enregistrez le corps de la requête dans un fichier nommé request.json et exécutez la commande suivante:

$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred"; "x-goog-user-project" = "PROJECT_NUMBER" }

Invoke-WebRequest `
    -Method POST `
    -Headers $headers `
    -ContentType: "application/json; charset=utf-8" `
    -InFile request.json `
    -Uri "https://videointelligence.googleapis.com/v1/videos:annotate" | Select-Object -Expand Content

Vous devriez recevoir une réponse JSON de ce type :

{
  "name": "projects/PROJECT_NUMBER/locations/LOCATION_ID/operations/OPERATION_ID"
}

Si la réponse aboutit, l'API Video Intelligence renvoie le name de votre opération. L'exemple ci-dessus montre un exemple de ce type de réponse, où project-number est le nom de votre projet et operation-id est l'ID de l'opération de longue durée créée pour la requête.

OPERATION_ID: fourni dans la réponse lorsque vous avez démarré l'opération, par exemple 12345...

Obtenir des résultats d'annotation

Pour récupérer le résultat de l'opération, exécutez une requête GET en utilisant le nom d'opération renvoyé par l'appel à videos:annotate, comme indiqué dans l'exemple suivant.

Avant d'utiliser les données de requête, effectuez les remplacements suivants:

PROJECT_NUMBER: identifiant numérique de votre projet Google Cloud

Méthode HTTP et URL :

GET https://videointelligence.googleapis.com/v1/OPERATION_NAME

Pour envoyer votre requête, développez l'une des options suivantes :

curl (Linux, macOS ou Cloud Shell)

exécutez la commande suivante :

curl -X GET \
    -H "Authorization: Bearer $(gcloud auth print-access-token)" \
    -H "x-goog-user-project: PROJECT_NUMBER" \
    "https://videointelligence.googleapis.com/v1/OPERATION_NAME"

PowerShell (Windows)

exécutez la commande suivante :

$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred"; "x-goog-user-project" = "PROJECT_NUMBER" }

Invoke-WebRequest `
    -Method GET `
    -Headers $headers `
    -Uri "https://videointelligence.googleapis.com/v1/OPERATION_NAME" | Select-Object -Expand Content

Vous devriez recevoir une réponse JSON de ce type :

Réponse

"name": "projects/512816187662/locations/us-east1/operations/8399514592783793684",
  "metadata": {
    "@type": "type.googleapis.com/google.cloud.videointelligence.v1p3beta1.AnnotateVideoProgress",
    "annotationProgress": [
      {
        "inputUri": "/videointelligence-prober-videos/face.mkv",
        "progressPercent": 100,
        "startTime": "2020-03-18T19:45:17.725359Z",
        "updateTime": "2020-03-18T19:45:26.532315Z"
      }
    ]
  },
  "done": true,
  "response": {
    "@type": "type.googleapis.com/google.cloud.videointelligence.v1p3beta1.AnnotateVideoResponse",
    "annotationResults": [
      {
        "inputUri": "/videointelligence-prober-videos/face.mkv",
        "segment": {
          "startTimeOffset": "0s",
          "endTimeOffset": "10.010s"
        },
        "logoRecognitionAnnotations": [
          {
            "entity": {
              "entityId": "/m/02z_b",
              "description": "Fox News",
              "languageCode": "en-US"
            },
            "tracks": [
              {
                "segment": {
                  "startTimeOffset": "0s",
                  "endTimeOffset": "1.901900s"
                },
                "timestampedObjects": [
                  {
                    "normalizedBoundingBox": {
                      "left": 0.032402553,
                      "top": 0.73683465,
                      "right": 0.16249886,
                      "bottom": 0.8664769
                    },
                    "timeOffset": "0s"
                  },
                  {
                    "normalizedBoundingBox": {
                      "left": 0.03267879,
                      "top": 0.73522913,
                      "right": 0.1627307,
                      "bottom": 0.86775583
                    },
                    "timeOffset": "0.100100s"
                  },
                  {
                    "normalizedBoundingBox": {
                      "left": 0.031819325,
                      "top": 0.73514116,
                      "right": 0.16305345,
                      "bottom": 0.8677738
                    },
                    "timeOffset": "0.200200s"
                  },
                  {
                    "normalizedBoundingBox": {
                      "left": 0.03155339,
                      "top": 0.7349258,
                      "right": 0.16275825,
                      "bottom": 0.86660737
                    },
                    "timeOffset": "0.300300s"
                  },
         ....
  ]
}

Les annotations de détection de texte sont renvoyées sous forme de liste textAnnotations. Remarque : Le champ done n'est renvoyé que lorsque sa valeur est True. Il n'est pas inclus dans les réponses pour lesquelles l'opération n'est pas terminée.

Go

import (
	"context"
	"fmt"
	"io"
	"io/ioutil"
	"time"

	video "cloud.google.com/go/videointelligence/apiv1"
	videopb "cloud.google.com/go/videointelligence/apiv1/videointelligencepb"
	"github.com/golang/protobuf/ptypes"
)

// logoDetection analyzes a video and extracts logos with their bounding boxes.
func logoDetection(w io.Writer, filename string) error {
	// filename := "../testdata/googlework_short.mp4"

	ctx := context.Background()

	// Creates a client.
	client, err := video.NewClient(ctx)
	if err != nil {
		return fmt.Errorf("video.NewClient: %w", err)
	}
	defer client.Close()

	ctx, cancel := context.WithTimeout(ctx, time.Second*180)
	defer cancel()

	fileBytes, err := ioutil.ReadFile(filename)
	if err != nil {
		return fmt.Errorf("ioutil.ReadFile: %w", err)
	}

	op, err := client.AnnotateVideo(ctx, &videopb.AnnotateVideoRequest{
		InputContent: fileBytes,
		Features: []videopb.Feature{
			videopb.Feature_LOGO_RECOGNITION,
		},
	})
	if err != nil {
		return fmt.Errorf("AnnotateVideo: %w", err)
	}

	resp, err := op.Wait(ctx)
	if err != nil {
		return fmt.Errorf("Wait: %w", err)
	}

	// Only one video was processed, so get the first result.
	result := resp.GetAnnotationResults()[0]

	// Annotations for list of logos detected, tracked and recognized in video.
	for _, annotation := range result.LogoRecognitionAnnotations {
		fmt.Fprintf(w, "Description: %q\n", annotation.Entity.GetDescription())
		// Opaque entity ID. Some IDs may be available in Google Knowledge
		// Graph Search API (https://developers.google.com/knowledge-graph/).
		if len(annotation.Entity.EntityId) > 0 {
			fmt.Fprintf(w, "\tEntity ID: %q\n", annotation.Entity.GetEntityId())
		}

		// All logo tracks where the recognized logo appears. Each track
		// corresponds to one logo instance appearing in consecutive frames.
		for _, track := range annotation.Tracks {
			// Video segment of a track.
			segment := track.GetSegment()
			start, _ := ptypes.Duration(segment.GetStartTimeOffset())
			end, _ := ptypes.Duration(segment.GetEndTimeOffset())
			fmt.Fprintf(w, "\tSegment: %v to %v\n", start, end)
			fmt.Fprintf(w, "\tConfidence: %f\n", track.GetConfidence())

			// The object with timestamp and attributes per frame in the track.
			for _, timestampedObject := range track.TimestampedObjects {
				// Normalized Bounding box in a frame, where the object is
				// located.
				box := timestampedObject.GetNormalizedBoundingBox()
				fmt.Fprintf(w, "\tBounding box position:\n")
				fmt.Fprintf(w, "\t\tleft  : %f\n", box.GetLeft())
				fmt.Fprintf(w, "\t\ttop   : %f\n", box.GetTop())
				fmt.Fprintf(w, "\t\tright : %f\n", box.GetRight())
				fmt.Fprintf(w, "\t\tbottom: %f\n", box.GetBottom())

				// Optional. The attributes of the object in the bounding box.
				for _, attribute := range timestampedObject.Attributes {
					fmt.Fprintf(w, "\t\t\tName: %q\n", attribute.GetName())
					fmt.Fprintf(w, "\t\t\tConfidence: %f\n", attribute.GetConfidence())
					fmt.Fprintf(w, "\t\t\tValue: %q\n", attribute.GetValue())
				}
			}

			// Optional. Attributes in the track level.
			for _, trackAttribute := range track.Attributes {
				fmt.Fprintf(w, "\t\tName: %q\n", trackAttribute.GetName())
				fmt.Fprintf(w, "\t\tConfidence: %f\n", trackAttribute.GetConfidence())
				fmt.Fprintf(w, "\t\tValue: %q\n", trackAttribute.GetValue())
			}
		}

		// All video segments where the recognized logo appears. There might be
		// multiple instances of the same logo class appearing in one VideoSegment.
		for _, segment := range annotation.Segments {
			start, _ := ptypes.Duration(segment.GetStartTimeOffset())
			end, _ := ptypes.Duration(segment.GetEndTimeOffset())
			fmt.Fprintf(w, "\tSegment: %v to %v\n", start, end)
		}
	}

	return nil
}

Java


import com.google.api.gax.longrunning.OperationFuture;
import com.google.cloud.videointelligence.v1.AnnotateVideoProgress;
import com.google.cloud.videointelligence.v1.AnnotateVideoRequest;
import com.google.cloud.videointelligence.v1.AnnotateVideoResponse;
import com.google.cloud.videointelligence.v1.DetectedAttribute;
import com.google.cloud.videointelligence.v1.Entity;
import com.google.cloud.videointelligence.v1.Feature;
import com.google.cloud.videointelligence.v1.LogoRecognitionAnnotation;
import com.google.cloud.videointelligence.v1.NormalizedBoundingBox;
import com.google.cloud.videointelligence.v1.TimestampedObject;
import com.google.cloud.videointelligence.v1.Track;
import com.google.cloud.videointelligence.v1.VideoAnnotationResults;
import com.google.cloud.videointelligence.v1.VideoIntelligenceServiceClient;
import com.google.cloud.videointelligence.v1.VideoSegment;
import com.google.protobuf.ByteString;
import com.google.protobuf.Duration;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;

public class LogoDetection {

  public static void detectLogo() throws Exception {
    // TODO(developer): Replace these variables before running the sample.
    String localFilePath = "path/to/your/video.mp4";
    detectLogo(localFilePath);
  }

  public static void detectLogo(String filePath)
      throws IOException, ExecutionException, InterruptedException, TimeoutException {
    // Initialize client that will be used to send requests. This client only needs to be created
    // once, and can be reused for multiple requests. After completing all of your requests, call
    // the "close" method on the client to safely clean up any remaining background resources.
    try (VideoIntelligenceServiceClient client = VideoIntelligenceServiceClient.create()) {
      // Read file
      Path path = Paths.get(filePath);
      byte[] data = Files.readAllBytes(path);
      // Create the request
      AnnotateVideoRequest request =
          AnnotateVideoRequest.newBuilder()
              .setInputContent(ByteString.copyFrom(data))
              .addFeatures(Feature.LOGO_RECOGNITION)
              .build();

      // asynchronously perform object tracking on videos
      OperationFuture<AnnotateVideoResponse, AnnotateVideoProgress> future =
          client.annotateVideoAsync(request);

      System.out.println("Waiting for operation to complete...");
      // The first result is retrieved because a single video was processed.
      AnnotateVideoResponse response = future.get(300, TimeUnit.SECONDS);
      VideoAnnotationResults annotationResult = response.getAnnotationResults(0);

      // Annotations for list of logos detected, tracked and recognized in video.
      for (LogoRecognitionAnnotation logoRecognitionAnnotation :
          annotationResult.getLogoRecognitionAnnotationsList()) {
        Entity entity = logoRecognitionAnnotation.getEntity();
        // Opaque entity ID. Some IDs may be available in
        // [Google Knowledge Graph Search API](https://developers.google.com/knowledge-graph/).
        System.out.printf("Entity Id : %s\n", entity.getEntityId());
        System.out.printf("Description : %s\n", entity.getDescription());
        // All logo tracks where the recognized logo appears. Each track corresponds to one logo
        // instance appearing in consecutive frames.
        for (Track track : logoRecognitionAnnotation.getTracksList()) {

          // Video segment of a track.
          Duration startTimeOffset = track.getSegment().getStartTimeOffset();
          System.out.printf(
              "\n\tStart Time Offset: %s.%s\n",
              startTimeOffset.getSeconds(), startTimeOffset.getNanos());
          Duration endTimeOffset = track.getSegment().getEndTimeOffset();
          System.out.printf(
              "\tEnd Time Offset: %s.%s\n", endTimeOffset.getSeconds(), endTimeOffset.getNanos());
          System.out.printf("\tConfidence: %s\n", track.getConfidence());

          // The object with timestamp and attributes per frame in the track.
          for (TimestampedObject timestampedObject : track.getTimestampedObjectsList()) {

            // Normalized Bounding box in a frame, where the object is located.
            NormalizedBoundingBox normalizedBoundingBox =
                timestampedObject.getNormalizedBoundingBox();
            System.out.printf("\n\t\tLeft: %s\n", normalizedBoundingBox.getLeft());
            System.out.printf("\t\tTop: %s\n", normalizedBoundingBox.getTop());
            System.out.printf("\t\tRight: %s\n", normalizedBoundingBox.getRight());
            System.out.printf("\t\tBottom: %s\n", normalizedBoundingBox.getBottom());

            // Optional. The attributes of the object in the bounding box.
            for (DetectedAttribute attribute : timestampedObject.getAttributesList()) {
              System.out.printf("\n\t\t\tName: %s\n", attribute.getName());
              System.out.printf("\t\t\tConfidence: %s\n", attribute.getConfidence());
              System.out.printf("\t\t\tValue: %s\n", attribute.getValue());
            }
          }

          // Optional. Attributes in the track level.
          for (DetectedAttribute trackAttribute : track.getAttributesList()) {
            System.out.printf("\n\t\tName : %s\n", trackAttribute.getName());
            System.out.printf("\t\tConfidence : %s\n", trackAttribute.getConfidence());
            System.out.printf("\t\tValue : %s\n", trackAttribute.getValue());
          }
        }

        // All video segments where the recognized logo appears. There might be multiple instances
        // of the same logo class appearing in one VideoSegment.
        for (VideoSegment segment : logoRecognitionAnnotation.getSegmentsList()) {
          System.out.printf(
              "\n\tStart Time Offset : %s.%s\n",
              segment.getStartTimeOffset().getSeconds(), segment.getStartTimeOffset().getNanos());
          System.out.printf(
              "\tEnd Time Offset : %s.%s\n",
              segment.getEndTimeOffset().getSeconds(), segment.getEndTimeOffset().getNanos());
        }
      }
    }
  }
}

Node.js

/**
 * TODO(developer): Uncomment these variables before running the sample.
 */
// const localFilePath = 'path/to/your/video.mp4'

// Imports the Google Cloud client libraries
const Video = require('@google-cloud/video-intelligence');
const fs = require('fs');

// Instantiates a client
const client = new Video.VideoIntelligenceServiceClient();

// Performs asynchronous video annotation for logo recognition on a file.
async function detectLogo() {
  const inputContent = fs.readFileSync(localFilePath).toString('base64');

  // Build the request with the input content and logo recognition feature.
  const request = {
    inputContent: inputContent,
    features: ['LOGO_RECOGNITION'],
  };

  // Make the asynchronous request
  const [operation] = await client.annotateVideo(request);

  // Wait for the results
  const [response] = await operation.promise();

  // Get the first response, since we sent only one video.
  const annotationResult = response.annotationResults[0];
  for (const logoRecognitionAnnotation of annotationResult.logoRecognitionAnnotations) {
    const entity = logoRecognitionAnnotation.entity;
    // Opaque entity ID. Some IDs may be available in
    // [Google Knowledge Graph Search API](https://developers.google.com/knowledge-graph/).
    console.log(`Entity Id: ${entity.entityId}`);
    console.log(`Description: ${entity.description}`);

    // All logo tracks where the recognized logo appears.
    // Each track corresponds to one logo instance appearing in consecutive frames.
    for (const track of logoRecognitionAnnotation.tracks) {
      console.log(
        `\n\tStart Time Offset: ${track.segment.startTimeOffset.seconds}.${track.segment.startTimeOffset.nanos}`
      );
      console.log(
        `\tEnd Time Offset: ${track.segment.endTimeOffset.seconds}.${track.segment.endTimeOffset.nanos}`
      );
      console.log(`\tConfidence: ${track.confidence}`);

      // The object with timestamp and attributes per frame in the track.
      for (const timestampedObject of track.timestampedObjects) {
        // Normalized Bounding box in a frame, where the object is located.
        const normalizedBoundingBox = timestampedObject.normalizedBoundingBox;
        console.log(`\n\t\tLeft: ${normalizedBoundingBox.left}`);
        console.log(`\t\tTop: ${normalizedBoundingBox.top}`);
        console.log(`\t\tRight: ${normalizedBoundingBox.right}`);
        console.log(`\t\tBottom: ${normalizedBoundingBox.bottom}`);
        // Optional. The attributes of the object in the bounding box.
        for (const attribute of timestampedObject.attributes) {
          console.log(`\n\t\t\tName: ${attribute.name}`);
          console.log(`\t\t\tConfidence: ${attribute.confidence}`);
          console.log(`\t\t\tValue: ${attribute.value}`);
        }
      }

      // Optional. Attributes in the track level.
      for (const trackAttribute of track.attributes) {
        console.log(`\n\t\tName: ${trackAttribute.name}`);
        console.log(`\t\tConfidence: ${trackAttribute.confidence}`);
        console.log(`\t\tValue: ${trackAttribute.value}`);
      }
    }

    // All video segments where the recognized logo appears.
    // There might be multiple instances of the same logo class appearing in one VideoSegment.
    for (const segment of logoRecognitionAnnotation.segments) {
      console.log(
        `\n\tStart Time Offset: ${segment.startTimeOffset.seconds}.${segment.startTimeOffset.nanos}`
      );
      console.log(
        `\tEnd Time Offset: ${segment.endTimeOffset.seconds}.${segment.endTimeOffset.nanos}`
      );
    }
  }
}

detectLogo();

Python

import io

from google.cloud import videointelligence

def detect_logo(local_file_path="path/to/your/video.mp4"):
    """Performs asynchronous video annotation for logo recognition on a local file."""

    client = videointelligence.VideoIntelligenceServiceClient()

    with io.open(local_file_path, "rb") as f:
        input_content = f.read()
    features = [videointelligence.Feature.LOGO_RECOGNITION]

    operation = client.annotate_video(
        request={"features": features, "input_content": input_content}
    )

    print("Waiting for operation to complete...")
    response = operation.result()

    # Get the first response, since we sent only one video.
    annotation_result = response.annotation_results[0]

    # Annotations for list of logos detected, tracked and recognized in video.
    for logo_recognition_annotation in annotation_result.logo_recognition_annotations:
        entity = logo_recognition_annotation.entity

        # Opaque entity ID. Some IDs may be available in [Google Knowledge Graph
        # Search API](https://developers.google.com/knowledge-graph/).
        print("Entity Id : {}".format(entity.entity_id))

        print("Description : {}".format(entity.description))

        # All logo tracks where the recognized logo appears. Each track corresponds
        # to one logo instance appearing in consecutive frames.
        for track in logo_recognition_annotation.tracks:
            # Video segment of a track.
            print(
                "\n\tStart Time Offset : {}.{}".format(
                    track.segment.start_time_offset.seconds,
                    track.segment.start_time_offset.microseconds * 1000,
                )
            )
            print(
                "\tEnd Time Offset : {}.{}".format(
                    track.segment.end_time_offset.seconds,
                    track.segment.end_time_offset.microseconds * 1000,
                )
            )
            print("\tConfidence : {}".format(track.confidence))

            # The object with timestamp and attributes per frame in the track.
            for timestamped_object in track.timestamped_objects:
                # Normalized Bounding box in a frame, where the object is located.
                normalized_bounding_box = timestamped_object.normalized_bounding_box
                print("\n\t\tLeft : {}".format(normalized_bounding_box.left))
                print("\t\tTop : {}".format(normalized_bounding_box.top))
                print("\t\tRight : {}".format(normalized_bounding_box.right))
                print("\t\tBottom : {}".format(normalized_bounding_box.bottom))

                # Optional. The attributes of the object in the bounding box.
                for attribute in timestamped_object.attributes:
                    print("\n\t\t\tName : {}".format(attribute.name))
                    print("\t\t\tConfidence : {}".format(attribute.confidence))
                    print("\t\t\tValue : {}".format(attribute.value))

            # Optional. Attributes in the track level.
            for track_attribute in track.attributes:
                print("\n\t\tName : {}".format(track_attribute.name))
                print("\t\tConfidence : {}".format(track_attribute.confidence))
                print("\t\tValue : {}".format(track_attribute.value))

        # All video segments where the recognized logo appears. There might be
        # multiple instances of the same logo class appearing in one VideoSegment.
        for segment in logo_recognition_annotation.segments:
            print(
                "\n\tStart Time Offset : {}.{}".format(
                    segment.start_time_offset.seconds,
                    segment.start_time_offset.microseconds * 1000,
                )
            )
            print(
                "\tEnd Time Offset : {}.{}".format(
                    segment.end_time_offset.seconds,
                    segment.end_time_offset.microseconds * 1000,
                )
            )

Langages supplémentaires

C# : Veuillez suivre les instructions de configuration de C# sur la page des bibliothèques clientes, puis consultez la documentation de référence sur Video Intelligence pour .NET.

PHP : Veuillez suivre les instructions de configuration pour PHP sur la page des bibliothèques clientes, puis consultez la documentation de référence sur Video Intelligence pour PHP.

Ruby : Veuillez suivre les instructions de configuration pour Ruby sur la page des bibliothèques clientes, puis consultez la documentation de référence sur Video Intelligence pour Ruby.