Package com.azure.search.documents

Class SearchClient

java.lang.Object
com.azure.search.documents.SearchClient
public final class SearchClient extends Object
This class provides a client that contains the operations for querying an index and uploading, merging, or deleting documents in an Azure Cognitive Search service.
See Also:

  • Method Details

    • getIndexName

      public String getIndexName()
      Gets the name of the Azure Cognitive Search index.
      Returns:
      the indexName value.

    • getEndpoint

      public String getEndpoint()
      Gets the endpoint for the Azure Cognitive Search service.
      Returns:
      the endpoint value.

    • uploadDocuments

      public IndexDocumentsResult uploadDocuments(Iterable<?> documents)
      Uploads a collection of documents to the target index.

      Code Sample

      Upload dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelId", "1");
 searchDocument.put("hotelName", "test");
 IndexDocumentsResult result = SEARCH_CLIENT.uploadDocuments(Collections.singletonList(searchDocument));
 for (IndexingResult indexingResult : result.getResults()) {
     System.out.printf("Does document with key %s upload successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to upload to the target Index.
      Returns:
      document index result.
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • uploadDocumentsWithResponse

      public com.azure.core.http.rest.Response<IndexDocumentsResult> uploadDocumentsWithResponse(Iterable<?> documents, IndexDocumentsOptions options, com.azure.core.util.Context context)
      Uploads a collection of documents to the target index.

      Code Sample

      Upload dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelId", "1");
 searchDocument.put("hotelName", "test");
 Response<IndexDocumentsResult> resultResponse = SEARCH_CLIENT.uploadDocumentsWithResponse(
     Collections.singletonList(searchDocument), null, new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + resultResponse.getStatusCode());
 for (IndexingResult indexingResult : resultResponse.getValue().getResults()) {
     System.out.printf("Does document with key %s upload successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to upload to the target Index.
      options - Options that allow specifying document indexing behavior.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      response containing the document index result.
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • mergeDocuments

      public IndexDocumentsResult mergeDocuments(Iterable<?> documents)
      Merges a collection of documents with existing documents in the target index.

      If the type of the document contains non-nullable primitive-typed properties, these properties may not merge correctly. If you do not set such a property, it will automatically take its default value (for example, 0 for int or false for boolean), which will override the value of the property currently stored in the index, even if this was not your intent. For this reason, it is strongly recommended that you always declare primitive-typed properties with their class equivalents (for example, an integer property should be of type Integer instead of int).

      Code Sample

      Merge dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelName", "merge");
 IndexDocumentsResult result = SEARCH_CLIENT.mergeDocuments(Collections.singletonList(searchDocument));
 for (IndexingResult indexingResult : result.getResults()) {
     System.out.printf("Does document with key %s merge successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to be merged
      Returns:
      document index result
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • mergeDocumentsWithResponse

      public com.azure.core.http.rest.Response<IndexDocumentsResult> mergeDocumentsWithResponse(Iterable<?> documents, IndexDocumentsOptions options, com.azure.core.util.Context context)
      Merges a collection of documents with existing documents in the target index.

      If the type of the document contains non-nullable primitive-typed properties, these properties may not merge correctly. If you do not set such a property, it will automatically take its default value (for example, 0 for int or false for boolean), which will override the value of the property currently stored in the index, even if this was not your intent. For this reason, it is strongly recommended that you always declare primitive-typed properties with their class equivalents (for example, an integer property should be of type Integer instead of int).

      Code Sample

      Merge dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelName", "test");
 Response<IndexDocumentsResult> resultResponse = SEARCH_CLIENT.mergeDocumentsWithResponse(
     Collections.singletonList(searchDocument), null, new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + resultResponse.getStatusCode());
 for (IndexingResult indexingResult : resultResponse.getValue().getResults()) {
     System.out.printf("Does document with key %s merge successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to be merged.
      options - Options that allow specifying document indexing behavior.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      response containing the document index result.
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • mergeOrUploadDocuments

      public IndexDocumentsResult mergeOrUploadDocuments(Iterable<?> documents)
      This action behaves like merge if a document with the given key already exists in the index. If the document does not exist, it behaves like upload with a new document.

      If the type of the document contains non-nullable primitive-typed properties, these properties may not merge correctly. If you do not set such a property, it will automatically take its default value (for example, 0 for int or false for boolean), which will override the value of the property currently stored in the index, even if this was not your intent. For this reason, it is strongly recommended that you always declare primitive-typed properties with their class equivalents (for example, an integer property should be of type Integer instead of int).

      Code Sample

      Merge or upload dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelId", "1");
 searchDocument.put("hotelName", "test");
 IndexDocumentsResult result = SEARCH_CLIENT.mergeOrUploadDocuments(Collections.singletonList(searchDocument));
 for (IndexingResult indexingResult : result.getResults()) {
     System.out.printf("Does document with key %s mergeOrUpload successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to be merged, if exists, otherwise uploaded
      Returns:
      document index result
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • mergeOrUploadDocumentsWithResponse

      public com.azure.core.http.rest.Response<IndexDocumentsResult> mergeOrUploadDocumentsWithResponse(Iterable<?> documents, IndexDocumentsOptions options, com.azure.core.util.Context context)
      This action behaves like merge if a document with the given key already exists in the index. If the document does not exist, it behaves like upload with a new document.

      If the type of the document contains non-nullable primitive-typed properties, these properties may not merge correctly. If you do not set such a property, it will automatically take its default value (for example, 0 for int or false for boolean), which will override the value of the property currently stored in the index, even if this was not your intent. For this reason, it is strongly recommended that you always declare primitive-typed properties with their class equivalents (for example, an integer property should be of type Integer instead of int).

      Code Sample

      Merge or upload dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelId", "1");
 searchDocument.put("hotelName", "test");
 Response<IndexDocumentsResult> resultResponse = SEARCH_CLIENT.mergeOrUploadDocumentsWithResponse(
     Collections.singletonList(searchDocument), null, new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + resultResponse.getStatusCode());
 for (IndexingResult indexingResult : resultResponse.getValue().getResults()) {
     System.out.printf("Does document with key %s mergeOrUpload successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to be merged, if exists, otherwise uploaded
      options - Options that allow specifying document indexing behavior.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      response containing a document index result
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • deleteDocuments

      public IndexDocumentsResult deleteDocuments(Iterable<?> documents)
      Deletes a collection of documents from the target index.

      Code Sample

      Delete dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelId", "1");
 searchDocument.put("hotelName", "test");
 IndexDocumentsResult result = SEARCH_CLIENT.deleteDocuments(Collections.singletonList(searchDocument));
 for (IndexingResult indexingResult : result.getResults()) {
     System.out.printf("Does document with key %s delete successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to delete from the target Index. Fields other than the key are ignored.
      Returns:
      document index result.
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • deleteDocumentsWithResponse

      public com.azure.core.http.rest.Response<IndexDocumentsResult> deleteDocumentsWithResponse(Iterable<?> documents, IndexDocumentsOptions options, com.azure.core.util.Context context)
      Deletes a collection of documents from the target index.

      Code Sample

      Delete dynamic SearchDocument. 

       SearchDocument searchDocument = new SearchDocument();
 searchDocument.put("hotelId", "1");
 searchDocument.put("hotelName", "test");
 Response<IndexDocumentsResult> resultResponse = SEARCH_CLIENT.deleteDocumentsWithResponse(
     Collections.singletonList(searchDocument), null, new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + resultResponse.getStatusCode());
 for (IndexingResult indexingResult : resultResponse.getValue().getResults()) {
     System.out.printf("Does document with key %s delete successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      documents - collection of documents to delete from the target Index. Fields other than the key are ignored.
      options - Options that allow specifying document indexing behavior.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      response containing a document index result.
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • indexDocuments

      public IndexDocumentsResult indexDocuments(IndexDocumentsBatch<?> batch)
      Sends a batch of upload, merge, and/or delete actions to the search index.

      Code Sample

      Index batch operation on dynamic SearchDocument. 

       SearchDocument searchDocument1 = new SearchDocument();
 searchDocument1.put("hotelId", "1");
 searchDocument1.put("hotelName", "test1");
 SearchDocument searchDocument2 = new SearchDocument();
 searchDocument2.put("hotelId", "2");
 searchDocument2.put("hotelName", "test2");
 IndexDocumentsBatch<SearchDocument> indexDocumentsBatch = new IndexDocumentsBatch<>();
 indexDocumentsBatch.addUploadActions(Collections.singletonList(searchDocument1));
 indexDocumentsBatch.addDeleteActions(Collections.singletonList(searchDocument2));
 IndexDocumentsResult result = SEARCH_CLIENT.indexDocuments(indexDocumentsBatch);
 for (IndexingResult indexingResult : result.getResults()) {
     System.out.printf("Does document with key %s finish successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      batch - The batch of index actions
      Returns:
      Response containing the status of operations for all actions in the batch
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • indexDocumentsWithResponse

      public com.azure.core.http.rest.Response<IndexDocumentsResult> indexDocumentsWithResponse(IndexDocumentsBatch<?> batch, IndexDocumentsOptions options, com.azure.core.util.Context context)
      Sends a batch of upload, merge, and/or delete actions to the search index.

      Code Sample

      Index batch operation on dynamic SearchDocument. 

       SearchDocument searchDocument1 = new SearchDocument();
 searchDocument1.put("hotelId", "1");
 searchDocument1.put("hotelName", "test1");
 SearchDocument searchDocument2 = new SearchDocument();
 searchDocument2.put("hotelId", "2");
 searchDocument2.put("hotelName", "test2");
 IndexDocumentsBatch<SearchDocument> indexDocumentsBatch = new IndexDocumentsBatch<>();
 indexDocumentsBatch.addUploadActions(Collections.singletonList(searchDocument1));
 indexDocumentsBatch.addDeleteActions(Collections.singletonList(searchDocument2));
 Response<IndexDocumentsResult> resultResponse = SEARCH_CLIENT.indexDocumentsWithResponse(indexDocumentsBatch,
     null, new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + resultResponse.getStatusCode());
 for (IndexingResult indexingResult : resultResponse.getValue().getResults()) {
     System.out.printf("Does document with key %s finish successfully? %b%n", indexingResult.getKey(),
         indexingResult.isSucceeded());
 }
      Parameters:
      batch - The batch of index actions
      options - Options that allow specifying document indexing behavior.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      Response containing the status of operations for all actions in the batch
      Throws:
      IndexBatchException - If some of the indexing actions fail but other actions succeed and modify the state of the index. This can happen when the Search Service is under heavy indexing load. It is important to explicitly catch this exception and check the return value IndexBatchException.getIndexingResults(). The indexing result reports the status of each indexing action in the batch, making it possible to determine the state of the index after a partial failure.
      See Also:

    • getDocument

      public <T> T getDocument(String key, Class<T> modelClass)
      Retrieves a document from the Azure Cognitive Search index.

      View naming rules for guidelines on constructing valid document keys.

      Code Sample

      Get dynamic SearchDocument. 

       SearchDocument result = SEARCH_CLIENT.getDocument("hotelId", SearchDocument.class);
 for (Map.Entry<String, Object> keyValuePair : result.entrySet()) {
     System.out.printf("Document key %s, Document value %s", keyValuePair.getKey(), keyValuePair.getValue());
 }
      Type Parameters:
      T - Convert document to the generic type.
      Parameters:
      key - The key of the document to retrieve.
      modelClass - The model class converts to.
      Returns:
      document object
      See Also:

    • getDocumentWithResponse

      public <T> com.azure.core.http.rest.Response<T> getDocumentWithResponse(String key, Class<T> modelClass, List<String> selectedFields, com.azure.core.util.Context context)
      Retrieves a document from the Azure Cognitive Search index.

      View naming rules for guidelines on constructing valid document keys.

      Code Sample

      Get dynamic SearchDocument. 

       Response<SearchDocument> resultResponse = SEARCH_CLIENT.getDocumentWithResponse("hotelId",
     SearchDocument.class, null, new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + resultResponse.getStatusCode());
 for (Map.Entry<String, Object> keyValuePair : resultResponse.getValue().entrySet()) {
     System.out.printf("Document key %s, Document value %s", keyValuePair.getKey(), keyValuePair.getValue());
 }
      Type Parameters:
      T - Convert document to the generic type.
      Parameters:
      key - The key of the document to retrieve.
      modelClass - The model class converts to.
      selectedFields - List of field names to retrieve for the document; Any field not retrieved will have null or default as its corresponding property value in the returned object.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      response containing a document object
      See Also:

    • getDocumentCount

      public long getDocumentCount()
      Queries the number of documents in the search index.

      Code Sample

      Get document count. 

       long count = SEARCH_CLIENT.getDocumentCount();
 System.out.printf("There are %d documents in service.", count);
      Returns:
      the number of documents.

    • getDocumentCountWithResponse

      public com.azure.core.http.rest.Response<Long> getDocumentCountWithResponse(com.azure.core.util.Context context)
      Queries the number of documents in the search index.

      Code Sample

      Get document count. 

       Response<Long> countResponse = SEARCH_CLIENT.getDocumentCountWithResponse(new Context(KEY_1, VALUE_1));
 System.out.println("The status code of the response is " + countResponse.getStatusCode());
 System.out.printf("There are %d documents in service.", countResponse.getValue());
      Parameters:
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      response containing the number of documents.

    • search

      public SearchPagedIterable search(String searchText)
      Searches for documents in the Azure Cognitive Search index.

      If searchText is set to null or "*" all documents will be matched, see simple query syntax in Azure Cognitive Search for more information about search query syntax.

      Code Sample

      Search text from documents in service. 

       SearchPagedIterable searchPagedIterable = SEARCH_CLIENT.search("searchText");
 System.out.printf("There are around %d results.", searchPagedIterable.getTotalCount());

 for (SearchPagedResponse resultResponse: searchPagedIterable.iterableByPage()) {
     System.out.println("The status code of the response is " + resultResponse.getStatusCode());
     resultResponse.getValue().forEach(searchResult -> {
         for (Map.Entry<String, Object> keyValuePair: searchResult
             .getDocument(SearchDocument.class).entrySet()) {
             System.out.printf("Document key %s, document value %s", keyValuePair.getKey(),
                 keyValuePair.getValue());
         }
     });
 }
      Parameters:
      searchText - A full-text search query expression.
      Returns:
      A SearchPagedIterable that iterates over SearchResult objects and provides access to the SearchPagedResponse object for each page containing HTTP response and count, facet, and coverage information.
      See Also:

    • search

      public SearchPagedIterable search(String searchText, SearchOptions searchOptions, com.azure.core.util.Context context)
      Searches for documents in the Azure Cognitive Search index.

      If searchText is set to null or "*" all documents will be matched, see simple query syntax in Azure Cognitive Search for more information about search query syntax.

      Code Sample

      Search text from documents in service with option. 

       SearchPagedIterable searchPagedIterable = SEARCH_CLIENT.search("searchText",
     new SearchOptions().setOrderBy("hotelId desc"), new Context(KEY_1, VALUE_1));
 System.out.printf("There are around %d results.", searchPagedIterable.getTotalCount());
 for (SearchPagedResponse resultResponse: searchPagedIterable.iterableByPage()) {
     System.out.println("The status code of the response is " + resultResponse.getStatusCode());
     resultResponse.getValue().forEach(searchResult -> {
         for (Map.Entry<String, Object> keyValuePair: searchResult
             .getDocument(SearchDocument.class).entrySet()) {
             System.out.printf("Document key %s, document value %s", keyValuePair.getKey(),
                 keyValuePair.getValue());
         }
     });
 }
      Parameters:
      searchText - A full-text search query expression.
      searchOptions - Parameters to further refine the search query
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      A SearchPagedIterable that iterates over SearchResult objects and provides access to the SearchPagedResponse object for each page containing HTTP response and count, facet, and coverage information.
      See Also:

    • suggest

      public SuggestPagedIterable suggest(String searchText, String suggesterName)
      Suggests documents in the index that match the given partial query.

      Code Sample

      Suggest text from documents in service. 

       SuggestPagedIterable suggestPagedIterable = SEARCH_CLIENT.suggest("searchText", "sg");
 for (SuggestResult result: suggestPagedIterable) {
     SearchDocument searchDocument = result.getDocument(SearchDocument.class);
     for (Map.Entry<String, Object> keyValuePair: searchDocument.entrySet()) {
         System.out.printf("Document key %s, document value %s", keyValuePair.getKey(), keyValuePair.getValue());
     }
 }
      Parameters:
      searchText - The search text on which to base suggestions
      suggesterName - The name of the suggester as specified in the suggesters collection that's part of the index definition
      Returns:
      A SuggestPagedIterable that iterates over SuggestResult objects and provides access to the SuggestPagedResponse object for each page containing HTTP response and coverage information.
      See Also:

    • suggest

      public SuggestPagedIterable suggest(String searchText, String suggesterName, SuggestOptions suggestOptions, com.azure.core.util.Context context)
      Suggests documents in the index that match the given partial query.

      Code Sample

      Suggest text from documents in service with option. 

       SuggestPagedIterable suggestPagedIterable = SEARCH_CLIENT.suggest("searchText", "sg",
     new SuggestOptions().setOrderBy("hotelId desc"), new Context(KEY_1, VALUE_1));
 for (SuggestResult result: suggestPagedIterable) {
     SearchDocument searchDocument = result.getDocument(SearchDocument.class);
     for (Map.Entry<String, Object> keyValuePair: searchDocument.entrySet()) {
         System.out.printf("Document key %s, document value %s", keyValuePair.getKey(), keyValuePair.getValue());
     }
 }
      Parameters:
      searchText - The search text on which to base suggestions
      suggesterName - The name of the suggester as specified in the suggesters collection that's part of the index definition
      suggestOptions - Parameters to further refine the suggestion query.
      context - additional context that is passed through the Http pipeline during the service call
      Returns:
      A SuggestPagedIterable that iterates over SuggestResult objects and provides access to the SuggestPagedResponse object for each page containing HTTP response and coverage information.
      See Also:

    • autocomplete

      public AutocompletePagedIterable autocomplete(String searchText, String suggesterName)
      Autocompletes incomplete query terms based on input text and matching terms in the index.

      Code Sample

      Autocomplete text from documents in service. 

       AutocompletePagedIterable autocompletePagedIterable = SEARCH_CLIENT.autocomplete("searchText", "sg");
 for (AutocompleteItem result: autocompletePagedIterable) {
     System.out.printf("The complete term is %s", result.getText());
 }
      Parameters:
      searchText - search text
      suggesterName - suggester name
      Returns:
      auto complete result.

    • autocomplete

      public AutocompletePagedIterable autocomplete(String searchText, String suggesterName, AutocompleteOptions autocompleteOptions, com.azure.core.util.Context context)
      Autocompletes incomplete query terms based on input text and matching terms in the index.

      Code Sample

      Autocomplete text from documents in service with option. 

       AutocompletePagedIterable autocompletePagedIterable = SEARCH_CLIENT.autocomplete("searchText", "sg",
     new AutocompleteOptions().setAutocompleteMode(AutocompleteMode.ONE_TERM_WITH_CONTEXT),
     new Context(KEY_1, VALUE_1));
 for (AutocompleteItem result: autocompletePagedIterable) {
     System.out.printf("The complete term is %s", result.getText());
 }
      Parameters:
      searchText - search text
      suggesterName - suggester name
      autocompleteOptions - autocomplete options
      context - additional context that is passed through the HTTP pipeline during the service call
      Returns:
      auto complete result.