À utiliser Query avec un AWS SDK ou CLI - Exemples de code de l'AWS SDK

D'autres AWS SDK exemples sont disponibles dans le GitHub dépôt AWS Doc SDK Examples.

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À utiliser Query avec un AWS SDK ou CLI

Les exemples de code suivants montrent comment utiliserQuery.

Les exemples d’actions sont des extraits de code de programmes de plus grande envergure et doivent être exécutés en contexte. Vous pouvez voir cette action en contexte dans les exemples de code suivants :

.NET
AWS SDK for .NET
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

/// <summary> /// Queries the table for movies released in a particular year and /// then displays the information for the movies returned. /// </summary> /// <param name="client">The initialized DynamoDB client object.</param> /// <param name="tableName">The name of the table to query.</param> /// <param name="year">The release year for which we want to /// view movies.</param> /// <returns>The number of movies that match the query.</returns> public static async Task<int> QueryMoviesAsync(AmazonDynamoDBClient client, string tableName, int year) { var movieTable = Table.LoadTable(client, tableName); var filter = new QueryFilter("year", QueryOperator.Equal, year); Console.WriteLine("\nFind movies released in: {year}:"); var config = new QueryOperationConfig() { Limit = 10, // 10 items per page. Select = SelectValues.SpecificAttributes, AttributesToGet = new List<string> { "title", "year", }, ConsistentRead = true, Filter = filter, }; // Value used to track how many movies match the // supplied criteria. var moviesFound = 0; Search search = movieTable.Query(config); do { var movieList = await search.GetNextSetAsync(); moviesFound += movieList.Count; foreach (var movie in movieList) { DisplayDocument(movie); } } while (!search.IsDone); return moviesFound; }
  • Pour API plus de détails, voir Requête en AWS SDK for .NET APIréférence.

Bash
AWS CLI avec le script Bash
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

############################################################################# # function dynamodb_query # # This function queries a DynamoDB table. # # Parameters: # -n table_name -- The name of the table. # -k key_condition_expression -- The key condition expression. # -a attribute_names -- Path to JSON file containing the attribute names. # -v attribute_values -- Path to JSON file containing the attribute values. # [-p projection_expression] -- Optional projection expression. # # Returns: # The items as json output. # And: # 0 - If successful. # 1 - If it fails. ########################################################################### function dynamodb_query() { local table_name key_condition_expression attribute_names attribute_values projection_expression response local option OPTARG # Required to use getopts command in a function. # ###################################### # Function usage explanation ####################################### function usage() { echo "function dynamodb_query" echo "Query a DynamoDB table." echo " -n table_name -- The name of the table." echo " -k key_condition_expression -- The key condition expression." echo " -a attribute_names -- Path to JSON file containing the attribute names." echo " -v attribute_values -- Path to JSON file containing the attribute values." echo " [-p projection_expression] -- Optional projection expression." echo "" } while getopts "n:k:a:v:p:h" option; do case "${option}" in n) table_name="${OPTARG}" ;; k) key_condition_expression="${OPTARG}" ;; a) attribute_names="${OPTARG}" ;; v) attribute_values="${OPTARG}" ;; p) projection_expression="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$table_name" ]]; then errecho "ERROR: You must provide a table name with the -n parameter." usage return 1 fi if [[ -z "$key_condition_expression" ]]; then errecho "ERROR: You must provide a key condition expression with the -k parameter." usage return 1 fi if [[ -z "$attribute_names" ]]; then errecho "ERROR: You must provide a attribute names with the -a parameter." usage return 1 fi if [[ -z "$attribute_values" ]]; then errecho "ERROR: You must provide a attribute values with the -v parameter." usage return 1 fi if [[ -z "$projection_expression" ]]; then response=$(aws dynamodb query \ --table-name "$table_name" \ --key-condition-expression "$key_condition_expression" \ --expression-attribute-names file://"$attribute_names" \ --expression-attribute-values file://"$attribute_values") else response=$(aws dynamodb query \ --table-name "$table_name" \ --key-condition-expression "$key_condition_expression" \ --expression-attribute-names file://"$attribute_names" \ --expression-attribute-values file://"$attribute_values" \ --projection-expression "$projection_expression") fi local error_code=${?} if [[ $error_code -ne 0 ]]; then aws_cli_error_log $error_code errecho "ERROR: AWS reports query operation failed.$response" return 1 fi echo "$response" return 0 }

Fonctions utilitaires utilisées dans cet exemple.

############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # See https://docs.aws.amazon.com/cli/latest/topic/return-codes.html#cli-aws-help-return-codes. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 }
  • Pour API plus de détails, voir Requête dans AWS CLI la référence des commandes.

C++
SDKpour C++
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

//! Perform a query on an Amazon DynamoDB Table and retrieve items. /*! \sa queryItem() \param tableName: The table name. \param partitionKey: The partition key. \param partitionValue: The value for the partition key. \param projectionExpression: The projections expression, which is ignored if empty. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ /* * The partition key attribute is searched with the specified value. By default, all fields and values * contained in the item are returned. If an optional projection expression is * specified on the command line, only the specified fields and values are * returned. */ bool AwsDoc::DynamoDB::queryItems(const Aws::String &tableName, const Aws::String &partitionKey, const Aws::String &partitionValue, const Aws::String &projectionExpression, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::DynamoDB::DynamoDBClient dynamoClient(clientConfiguration); Aws::DynamoDB::Model::QueryRequest request; request.SetTableName(tableName); if (!projectionExpression.empty()) { request.SetProjectionExpression(projectionExpression); } // Set query key condition expression. request.SetKeyConditionExpression(partitionKey + "= :valueToMatch"); // Set Expression AttributeValues. Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> attributeValues; attributeValues.emplace(":valueToMatch", partitionValue); request.SetExpressionAttributeValues(attributeValues); bool result = true; // "exclusiveStartKey" is used for pagination. Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue> exclusiveStartKey; do { if (!exclusiveStartKey.empty()) { request.SetExclusiveStartKey(exclusiveStartKey); exclusiveStartKey.clear(); } // Perform Query operation. const Aws::DynamoDB::Model::QueryOutcome &outcome = dynamoClient.Query(request); if (outcome.IsSuccess()) { // Reference the retrieved items. const Aws::Vector<Aws::Map<Aws::String, Aws::DynamoDB::Model::AttributeValue>> &items = outcome.GetResult().GetItems(); if (!items.empty()) { std::cout << "Number of items retrieved from Query: " << items.size() << std::endl; // Iterate each item and print. for (const auto &item: items) { std::cout << "******************************************************" << std::endl; // Output each retrieved field and its value. for (const auto &i: item) std::cout << i.first << ": " << i.second.GetS() << std::endl; } } else { std::cout << "No item found in table: " << tableName << std::endl; } exclusiveStartKey = outcome.GetResult().GetLastEvaluatedKey(); } else { std::cerr << "Failed to Query items: " << outcome.GetError().GetMessage(); result = false; break; } } while (!exclusiveStartKey.empty()); return result; }
  • Pour API plus de détails, voir Requête en AWS SDK for C++ APIréférence.

CLI
AWS CLI

Exemple 1 : pour interroger une table

L'queryexemple suivant interroge les éléments de la MusicCollection table. La table possède une clé hash-and-range primaire (ArtistetSongTitle), mais cette requête indique uniquement la valeur de la clé de hachage. Il renvoie les titres des chansons de l'artiste nommées « No One You Know ».

aws dynamodb query \ --table-name MusicCollection \ --projection-expression "SongTitle" \ --key-condition-expression "Artist = :v1" \ --expression-attribute-values file://expression-attributes.json \ --return-consumed-capacity TOTAL

Contenu de expression-attributes.json :

{ ":v1": {"S": "No One You Know"} }

Sortie :

{ "Items": [ { "SongTitle": { "S": "Call Me Today" }, "SongTitle": { "S": "Scared of My Shadow" } } ], "Count": 2, "ScannedCount": 2, "ConsumedCapacity": { "TableName": "MusicCollection", "CapacityUnits": 0.5 } }

Pour plus d'informations, consultez la section Utilisation des requêtes dans DynamoDB dans le manuel du développeur Amazon DynamoDB.

Exemple 2 : pour interroger une table à l'aide de lectures très cohérentes et parcourir l'index par ordre décroissant

L'exemple suivant exécute la même requête que le premier exemple, mais renvoie les résultats dans l'ordre inverse et utilise des lectures très cohérentes.

aws dynamodb query \ --table-name MusicCollection \ --projection-expression "SongTitle" \ --key-condition-expression "Artist = :v1" \ --expression-attribute-values file://expression-attributes.json \ --consistent-read \ --no-scan-index-forward \ --return-consumed-capacity TOTAL

Contenu de expression-attributes.json :

{ ":v1": {"S": "No One You Know"} }

Sortie :

{ "Items": [ { "SongTitle": { "S": "Scared of My Shadow" } }, { "SongTitle": { "S": "Call Me Today" } } ], "Count": 2, "ScannedCount": 2, "ConsumedCapacity": { "TableName": "MusicCollection", "CapacityUnits": 1.0 } }

Pour plus d'informations, consultez la section Utilisation des requêtes dans DynamoDB dans le manuel du développeur Amazon DynamoDB.

Exemple 3 : pour filtrer des résultats spécifiques

L'exemple suivant interroge les résultats MusicCollection mais exclut les résultats dont l'AlbumTitleattribut contient des valeurs spécifiques. Notez que cela n'affecte pas le ScannedCount ouConsumedCapacity, car le filtre est appliqué après la lecture des éléments.

aws dynamodb query \ --table-name MusicCollection \ --key-condition-expression "#n1 = :v1" \ --filter-expression "NOT (#n2 IN (:v2, :v3))" \ --expression-attribute-names file://names.json \ --expression-attribute-values file://values.json \ --return-consumed-capacity TOTAL

Contenu de values.json :

{ ":v1": {"S": "No One You Know"}, ":v2": {"S": "Blue Sky Blues"}, ":v3": {"S": "Greatest Hits"} }

Contenu de names.json :

{ "#n1": "Artist", "#n2": "AlbumTitle" }

Sortie :

{ "Items": [ { "AlbumTitle": { "S": "Somewhat Famous" }, "Artist": { "S": "No One You Know" }, "SongTitle": { "S": "Call Me Today" } } ], "Count": 1, "ScannedCount": 2, "ConsumedCapacity": { "TableName": "MusicCollection", "CapacityUnits": 0.5 } }

Pour plus d'informations, consultez la section Utilisation des requêtes dans DynamoDB dans le manuel du développeur Amazon DynamoDB.

Exemple 4 : Pour récupérer uniquement le nombre d'articles

L'exemple suivant récupère le nombre d'éléments correspondant à la requête, mais ne récupère aucun des éléments eux-mêmes.

aws dynamodb query \ --table-name MusicCollection \ --select COUNT \ --key-condition-expression "Artist = :v1" \ --expression-attribute-values file://expression-attributes.json

Contenu de expression-attributes.json :

{ ":v1": {"S": "No One You Know"} }

Sortie :

{ "Count": 2, "ScannedCount": 2, "ConsumedCapacity": null }

Pour plus d'informations, consultez la section Utilisation des requêtes dans DynamoDB dans le manuel du développeur Amazon DynamoDB.

Exemple 5 : Pour interroger un index

L'exemple suivant interroge l'index secondaire localAlbumTitleIndex. La requête renvoie tous les attributs de la table de base qui ont été projetés dans l'index secondaire local. Notez que lorsque vous interrogez un index secondaire local ou un index secondaire global, vous devez également fournir le nom de la table de base à l'aide du table-name paramètre.

aws dynamodb query \ --table-name MusicCollection \ --index-name AlbumTitleIndex \ --key-condition-expression "Artist = :v1" \ --expression-attribute-values file://expression-attributes.json \ --select ALL_PROJECTED_ATTRIBUTES \ --return-consumed-capacity INDEXES

Contenu de expression-attributes.json :

{ ":v1": {"S": "No One You Know"} }

Sortie :

{ "Items": [ { "AlbumTitle": { "S": "Blue Sky Blues" }, "Artist": { "S": "No One You Know" }, "SongTitle": { "S": "Scared of My Shadow" } }, { "AlbumTitle": { "S": "Somewhat Famous" }, "Artist": { "S": "No One You Know" }, "SongTitle": { "S": "Call Me Today" } } ], "Count": 2, "ScannedCount": 2, "ConsumedCapacity": { "TableName": "MusicCollection", "CapacityUnits": 0.5, "Table": { "CapacityUnits": 0.0 }, "LocalSecondaryIndexes": { "AlbumTitleIndex": { "CapacityUnits": 0.5 } } } }

Pour plus d'informations, consultez la section Utilisation des requêtes dans DynamoDB dans le manuel du développeur Amazon DynamoDB.

  • Pour API plus de détails, voir Requête dans AWS CLI la référence des commandes.

Go
SDKpour Go V2
Note

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// TableBasics encapsulates the Amazon DynamoDB service actions used in the examples. // It contains a DynamoDB service client that is used to act on the specified table. type TableBasics struct { DynamoDbClient *dynamodb.Client TableName string } // Query gets all movies in the DynamoDB table that were released in the specified year. // The function uses the `expression` package to build the key condition expression // that is used in the query. func (basics TableBasics) Query(ctx context.Context, releaseYear int) ([]Movie, error) { var err error var response *dynamodb.QueryOutput var movies []Movie keyEx := expression.Key("year").Equal(expression.Value(releaseYear)) expr, err := expression.NewBuilder().WithKeyCondition(keyEx).Build() if err != nil { log.Printf("Couldn't build expression for query. Here's why: %v\n", err) } else { queryPaginator := dynamodb.NewQueryPaginator(basics.DynamoDbClient, &dynamodb.QueryInput{ TableName: aws.String(basics.TableName), ExpressionAttributeNames: expr.Names(), ExpressionAttributeValues: expr.Values(), KeyConditionExpression: expr.KeyCondition(), }) for queryPaginator.HasMorePages() { response, err = queryPaginator.NextPage(ctx) if err != nil { log.Printf("Couldn't query for movies released in %v. Here's why: %v\n", releaseYear, err) break } else { var moviePage []Movie err = attributevalue.UnmarshalListOfMaps(response.Items, &moviePage) if err != nil { log.Printf("Couldn't unmarshal query response. Here's why: %v\n", err) break } else { movies = append(movies, moviePage...) } } } } return movies, err } // Movie encapsulates data about a movie. Title and Year are the composite primary key // of the movie in Amazon DynamoDB. Title is the sort key, Year is the partition key, // and Info is additional data. type Movie struct { Title string `dynamodbav:"title"` Year int `dynamodbav:"year"` Info map[string]interface{} `dynamodbav:"info"` } // GetKey returns the composite primary key of the movie in a format that can be // sent to DynamoDB. func (movie Movie) GetKey() map[string]types.AttributeValue { title, err := attributevalue.Marshal(movie.Title) if err != nil { panic(err) } year, err := attributevalue.Marshal(movie.Year) if err != nil { panic(err) } return map[string]types.AttributeValue{"title": title, "year": year} } // String returns the title, year, rating, and plot of a movie, formatted for the example. func (movie Movie) String() string { return fmt.Sprintf("%v\n\tReleased: %v\n\tRating: %v\n\tPlot: %v\n", movie.Title, movie.Year, movie.Info["rating"], movie.Info["plot"]) }
  • Pour API plus de détails, voir Requête en AWS SDK for Go APIréférence.

Java
SDKpour Java 2.x
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

Interroge une table à l'aide de DynamoDbClient.

import software.amazon.awssdk.regions.Region; import software.amazon.awssdk.services.dynamodb.DynamoDbClient; import software.amazon.awssdk.services.dynamodb.model.AttributeValue; import software.amazon.awssdk.services.dynamodb.model.DynamoDbException; import software.amazon.awssdk.services.dynamodb.model.QueryRequest; import software.amazon.awssdk.services.dynamodb.model.QueryResponse; import java.util.HashMap; /** * Before running this Java V2 code example, set up your development * environment, including your credentials. * * For more information, see the following documentation topic: * * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html * * To query items from an Amazon DynamoDB table using the AWS SDK for Java V2, * its better practice to use the * Enhanced Client. See the EnhancedQueryRecords example. */ public class Query { public static void main(String[] args) { final String usage = """ Usage: <tableName> <partitionKeyName> <partitionKeyVal> Where: tableName - The Amazon DynamoDB table to put the item in (for example, Music3). partitionKeyName - The partition key name of the Amazon DynamoDB table (for example, Artist). partitionKeyVal - The value of the partition key that should match (for example, Famous Band). """; if (args.length != 3) { System.out.println(usage); System.exit(1); } String tableName = args[0]; String partitionKeyName = args[1]; String partitionKeyVal = args[2]; // For more information about an alias, see: // https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Expressions.ExpressionAttributeNames.html String partitionAlias = "#a"; System.out.format("Querying %s", tableName); System.out.println(""); Region region = Region.US_EAST_1; DynamoDbClient ddb = DynamoDbClient.builder() .region(region) .build(); int count = queryTable(ddb, tableName, partitionKeyName, partitionKeyVal, partitionAlias); System.out.println("There were " + count + " record(s) returned"); ddb.close(); } public static int queryTable(DynamoDbClient ddb, String tableName, String partitionKeyName, String partitionKeyVal, String partitionAlias) { // Set up an alias for the partition key name in case it's a reserved word. HashMap<String, String> attrNameAlias = new HashMap<String, String>(); attrNameAlias.put(partitionAlias, partitionKeyName); // Set up mapping of the partition name with the value. HashMap<String, AttributeValue> attrValues = new HashMap<>(); attrValues.put(":" + partitionKeyName, AttributeValue.builder() .s(partitionKeyVal) .build()); QueryRequest queryReq = QueryRequest.builder() .tableName(tableName) .keyConditionExpression(partitionAlias + " = :" + partitionKeyName) .expressionAttributeNames(attrNameAlias) .expressionAttributeValues(attrValues) .build(); try { QueryResponse response = ddb.query(queryReq); return response.count(); } catch (DynamoDbException e) { System.err.println(e.getMessage()); System.exit(1); } return -1; } }

Interroge une table à l'aide de DynamoDbClient et d'un index secondaire.

import software.amazon.awssdk.regions.Region; import software.amazon.awssdk.services.dynamodb.DynamoDbClient; import software.amazon.awssdk.services.dynamodb.model.AttributeValue; import software.amazon.awssdk.services.dynamodb.model.DynamoDbException; import software.amazon.awssdk.services.dynamodb.model.QueryRequest; import software.amazon.awssdk.services.dynamodb.model.QueryResponse; import java.util.HashMap; import java.util.Map; /** * Before running this Java V2 code example, set up your development * environment, including your credentials. * * For more information, see the following documentation topic: * * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html * * Create the Movies table by running the Scenario example and loading the Movie * data from the JSON file. Next create a secondary * index for the Movies table that uses only the year column. Name the index * **year-index**. For more information, see: * * https://docs.aws.amazon.com/amazondynamodb/latest/developerguide/GSI.html */ public class QueryItemsUsingIndex { public static void main(String[] args) { String tableName = "Movies"; Region region = Region.US_EAST_1; DynamoDbClient ddb = DynamoDbClient.builder() .region(region) .build(); queryIndex(ddb, tableName); ddb.close(); } public static void queryIndex(DynamoDbClient ddb, String tableName) { try { Map<String, String> expressionAttributesNames = new HashMap<>(); expressionAttributesNames.put("#year", "year"); Map<String, AttributeValue> expressionAttributeValues = new HashMap<>(); expressionAttributeValues.put(":yearValue", AttributeValue.builder().n("2013").build()); QueryRequest request = QueryRequest.builder() .tableName(tableName) .indexName("year-index") .keyConditionExpression("#year = :yearValue") .expressionAttributeNames(expressionAttributesNames) .expressionAttributeValues(expressionAttributeValues) .build(); System.out.println("=== Movie Titles ==="); QueryResponse response = ddb.query(request); response.items() .forEach(movie -> System.out.println(movie.get("title").s())); } catch (DynamoDbException e) { System.err.println(e.getMessage()); System.exit(1); } } }
  • Pour API plus de détails, voir Requête en AWS SDK for Java 2.x APIréférence.

JavaScript
SDKpour JavaScript (v3)
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

Cet exemple utilise le client de document pour simplifier l'utilisation d'éléments dans DynamoDB. Pour API plus de détails, voir QueryCommand.

import { DynamoDBClient } from "@aws-sdk/client-dynamodb"; import { QueryCommand, DynamoDBDocumentClient } from "@aws-sdk/lib-dynamodb"; const client = new DynamoDBClient({}); const docClient = DynamoDBDocumentClient.from(client); export const main = async () => { const command = new QueryCommand({ TableName: "CoffeeCrop", KeyConditionExpression: "OriginCountry = :originCountry AND RoastDate > :roastDate", ExpressionAttributeValues: { ":originCountry": "Ethiopia", ":roastDate": "2023-05-01", }, ConsistentRead: true, }); const response = await docClient.send(command); console.log(response); return response; };
SDKpour JavaScript (v2)
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

// Load the AWS SDK for Node.js var AWS = require("aws-sdk"); // Set the region AWS.config.update({ region: "REGION" }); // Create DynamoDB document client var docClient = new AWS.DynamoDB.DocumentClient({ apiVersion: "2012-08-10" }); var params = { ExpressionAttributeValues: { ":s": 2, ":e": 9, ":topic": "PHRASE", }, KeyConditionExpression: "Season = :s and Episode > :e", FilterExpression: "contains (Subtitle, :topic)", TableName: "EPISODES_TABLE", }; docClient.query(params, function (err, data) { if (err) { console.log("Error", err); } else { console.log("Success", data.Items); } });
Kotlin
SDKpour Kotlin
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

suspend fun queryDynTable( tableNameVal: String, partitionKeyName: String, partitionKeyVal: String, partitionAlias: String, ): Int { val attrNameAlias = mutableMapOf<String, String>() attrNameAlias[partitionAlias] = partitionKeyName // Set up mapping of the partition name with the value. val attrValues = mutableMapOf<String, AttributeValue>() attrValues[":$partitionKeyName"] = AttributeValue.S(partitionKeyVal) val request = QueryRequest { tableName = tableNameVal keyConditionExpression = "$partitionAlias = :$partitionKeyName" expressionAttributeNames = attrNameAlias this.expressionAttributeValues = attrValues } DynamoDbClient { region = "us-east-1" }.use { ddb -> val response = ddb.query(request) return response.count } }
  • Pour API plus de détails, voir Query in AWS SDKfor Kotlin API reference.

PHP
SDK pour PHP
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

$birthKey = [ 'Key' => [ 'year' => [ 'N' => "$birthYear", ], ], ]; $result = $service->query($tableName, $birthKey); public function query(string $tableName, $key) { $expressionAttributeValues = []; $expressionAttributeNames = []; $keyConditionExpression = ""; $index = 1; foreach ($key as $name => $value) { $keyConditionExpression .= "#" . array_key_first($value) . " = :v$index,"; $expressionAttributeNames["#" . array_key_first($value)] = array_key_first($value); $hold = array_pop($value); $expressionAttributeValues[":v$index"] = [ array_key_first($hold) => array_pop($hold), ]; } $keyConditionExpression = substr($keyConditionExpression, 0, -1); $query = [ 'ExpressionAttributeValues' => $expressionAttributeValues, 'ExpressionAttributeNames' => $expressionAttributeNames, 'KeyConditionExpression' => $keyConditionExpression, 'TableName' => $tableName, ]; return $this->dynamoDbClient->query($query); }
  • Pour API plus de détails, voir Requête en AWS SDK for PHP APIréférence.

PowerShell
Outils pour PowerShell

Exemple 1 : invoque une requête qui renvoie des éléments DynamoDB avec les valeurs spécifiées et Artist. SongTitle

$invokeDDBQuery = @{ TableName = 'Music' KeyConditionExpression = ' SongTitle = :SongTitle and Artist = :Artist' ExpressionAttributeValues = @{ ':SongTitle' = 'Somewhere Down The Road' ':Artist' = 'No One You Know' } | ConvertTo-DDBItem } Invoke-DDBQuery @invokeDDBQuery | ConvertFrom-DDBItem

Sortie :

Name Value ---- ----- Genre Country Artist No One You Know Price 1.94 CriticRating 9 SongTitle Somewhere Down The Road AlbumTitle Somewhat Famous
  • Pour API plus de détails, voir Requête dans la référence des AWS Tools for PowerShell applets de commande.

Python
SDKpour Python (Boto3)
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

Interrogez des éléments à l'aide d'une expression de condition clé.

class Movies: """Encapsulates an Amazon DynamoDB table of movie data. Example data structure for a movie record in this table: { "year": 1999, "title": "For Love of the Game", "info": { "directors": ["Sam Raimi"], "release_date": "1999-09-15T00:00:00Z", "rating": 6.3, "plot": "A washed up pitcher flashes through his career.", "rank": 4987, "running_time_secs": 8220, "actors": [ "Kevin Costner", "Kelly Preston", "John C. Reilly" ] } } """ def __init__(self, dyn_resource): """ :param dyn_resource: A Boto3 DynamoDB resource. """ self.dyn_resource = dyn_resource # The table variable is set during the scenario in the call to # 'exists' if the table exists. Otherwise, it is set by 'create_table'. self.table = None def query_movies(self, year): """ Queries for movies that were released in the specified year. :param year: The year to query. :return: The list of movies that were released in the specified year. """ try: response = self.table.query(KeyConditionExpression=Key("year").eq(year)) except ClientError as err: logger.error( "Couldn't query for movies released in %s. Here's why: %s: %s", year, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise else: return response["Items"]

Interrogez des éléments et projetez-les pour renvoyer un sous-ensemble de données.

class UpdateQueryWrapper: def __init__(self, table): self.table = table def query_and_project_movies(self, year, title_bounds): """ Query for movies that were released in a specified year and that have titles that start within a range of letters. A projection expression is used to return a subset of data for each movie. :param year: The release year to query. :param title_bounds: The range of starting letters to query. :return: The list of movies. """ try: response = self.table.query( ProjectionExpression="#yr, title, info.genres, info.actors[0]", ExpressionAttributeNames={"#yr": "year"}, KeyConditionExpression=( Key("year").eq(year) & Key("title").between( title_bounds["first"], title_bounds["second"] ) ), ) except ClientError as err: if err.response["Error"]["Code"] == "ValidationException": logger.warning( "There's a validation error. Here's the message: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) else: logger.error( "Couldn't query for movies. Here's why: %s: %s", err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise else: return response["Items"]
Ruby
SDKpour Ruby
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

class DynamoDBBasics attr_reader :dynamo_resource, :table def initialize(table_name) client = Aws::DynamoDB::Client.new(region: 'us-east-1') @dynamo_resource = Aws::DynamoDB::Resource.new(client: client) @table = @dynamo_resource.table(table_name) end # Queries for movies that were released in the specified year. # # @param year [Integer] The year to query. # @return [Array] The list of movies that were released in the specified year. def query_items(year) response = @table.query( key_condition_expression: '#yr = :year', expression_attribute_names: { '#yr' => 'year' }, expression_attribute_values: { ':year' => year } ) rescue Aws::DynamoDB::Errors::ServiceError => e puts("Couldn't query for movies released in #{year}. Here's why:") puts("\t#{e.code}: #{e.message}") raise else response.items end
  • Pour API plus de détails, voir Requête en AWS SDK for Ruby APIréférence.

Rust
SDKpour Rust
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

Trouvez les films réalisés au cours de l'année spécifiée.

pub async fn movies_in_year( client: &Client, table_name: &str, year: u16, ) -> Result<Vec<Movie>, MovieError> { let results = client .query() .table_name(table_name) .key_condition_expression("#yr = :yyyy") .expression_attribute_names("#yr", "year") .expression_attribute_values(":yyyy", AttributeValue::N(year.to_string())) .send() .await?; if let Some(items) = results.items { let movies = items.iter().map(|v| v.into()).collect(); Ok(movies) } else { Ok(vec![]) } }
  • Pour API plus de détails, voir Query in AWS SDKfor Rust API reference.

SAP ABAP
SDKpour SAP ABAP
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

TRY. " Query movies for a given year . DATA(lt_attributelist) = VALUE /aws1/cl_dynattributevalue=>tt_attributevaluelist( ( NEW /aws1/cl_dynattributevalue( iv_n = |{ iv_year }| ) ) ). DATA(lt_key_conditions) = VALUE /aws1/cl_dyncondition=>tt_keyconditions( ( VALUE /aws1/cl_dyncondition=>ts_keyconditions_maprow( key = 'year' value = NEW /aws1/cl_dyncondition( it_attributevaluelist = lt_attributelist iv_comparisonoperator = |EQ| ) ) ) ). oo_result = lo_dyn->query( iv_tablename = iv_table_name it_keyconditions = lt_key_conditions ). DATA(lt_items) = oo_result->get_items( ). "You can loop over the results to get item attributes. LOOP AT lt_items INTO DATA(lt_item). DATA(lo_title) = lt_item[ key = 'title' ]-value. DATA(lo_year) = lt_item[ key = 'year' ]-value. ENDLOOP. DATA(lv_count) = oo_result->get_count( ). MESSAGE 'Item count is: ' && lv_count TYPE 'I'. CATCH /aws1/cx_dynresourcenotfoundex. MESSAGE 'The table or index does not exist' TYPE 'E'. ENDTRY.
  • Pour API plus de détails, voir Query in AWS SDKpour SAP ABAP API référence.

Swift
SDKpour Swift
Note

Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le référentiel d’exemples de code AWS.

import AWSDynamoDB /// Get all the movies released in the specified year. /// /// - Parameter year: The release year of the movies to return. /// /// - Returns: An array of `Movie` objects describing each matching movie. /// func getMovies(fromYear year: Int) async throws -> [Movie] { do { guard let client = self.ddbClient else { throw MoviesError.UninitializedClient } let input = QueryInput( expressionAttributeNames: [ "#y": "year" ], expressionAttributeValues: [ ":y": .n(String(year)) ], keyConditionExpression: "#y = :y", tableName: self.tableName ) // Use "Paginated" to get all the movies. // This lets the SDK handle the 'lastEvaluatedKey' property in "QueryOutput". let pages = client.queryPaginated(input: input) var movieList: [Movie] = [] for try await page in pages { guard let items = page.items else { print("Error: no items returned.") continue } // Convert the found movies into `Movie` objects and return an array // of them. for item in items { let movie = try Movie(withItem: item) movieList.append(movie) } } return movieList } catch { print("ERROR: getMovies:", dump(error)) throw error } }
  • Pour API plus de détails, voir Query in AWS SDKfor Swift API reference.