I gruppi di schede vengono utilizzati nelle campagne Performance Max per la vendita al dettaglio per specificare quali prodotti includere o escludere in ogni gruppo di asset. Pertanto, i gruppi di schede vengono applicati a livello di AssetGroup
utilizzando
oggetti
AssetGroupListingGroupFilter. Questo è simile ad altri tipi di campagne retail in cui i gruppi di prodotti vengono applicati a livello di AdGroup.
Tutti i gruppi di asset nelle campagne Performance Max per la vendita al dettaglio richiedono un albero di partizioni di prodotto valido composto da AssetGroupListingGroupFilter oggetti. Per soddisfare questo requisito, puoi utilizzare un albero a nodo singolo che includa tutti i prodotti nell'account Merchant Center.
Nell'UI, questi gruppi sono chiamati gruppi di prodotti. Puoi raggruppare utilizzando più dimensioni, il che ti consente di includere o escludere i prodotti.
Considera l'albero riportato di seguito, in cui al primo livello i prodotti sono stati divisi per condizione in Nuovo, Usato e altre condizioni del prodotto. Al secondo livello, i prodotti in altre condizioni sono stati suddivisi per brand in prodotti "CoolBrand", "CheapBrand" e altri brand.
Ogni nodo dell'albero è una suddivisione o un'unità, come definito da
ListingGroupType. Una suddivisione
introduce un nuovo livello nell'albero, mentre le unità sono le foglie dell'albero. Ogni
suddivisione deve sempre essere completamente partizionata, quindi deve contenere un nodo
che rappresenti Altro. Nell'esempio, i nodi radice e Condizione prodotto:
(Altro) sono suddivisioni. Questa struttura ad albero con suddivisioni e
unità ti consente di impostare le offerte a livello di unità e garantisce inoltre che ogni
prodotto rientri in un solo nodo unità dell'albero.
I nodi sono oggetti della classe ListingGroupInfo, che contiene il campo ListingGroupType che indica se i nodi sono unità o suddivisioni. Se imposti ListingGroupInfo su listing_group
di AdGroupCriterion, verrà collegato a
AdGroup.
Per rendere valido un albero, è necessario almeno un nodo unità. Questa unità può essere il nodo radice, che diventa la divisione "Tutti i prodotti". Gli annunci non verranno pubblicati finché non crei una struttura ad albero valida per i gruppi di schede.
Gruppi di schede Performance Max
I gruppi di schede nelle campagne Performance Max funzionano meglio quando il targeting è impostato su gruppi di prodotti, quindi questa opzione dovrebbe essere preferita al targeting di singoli prodotti per ID articolo. Puoi utilizzare diverse dimensioni come etichette personalizzate o marca nel feed dei prodotti per raggruppare i prodotti.
Codice di esempio
Java
/** * Runs the example. * * @param googleAdsClient the Google Ads API client. * @param customerId the client customer ID. * @param assetGroupId the asset group id for the Performance Max campaign. * @param replaceExistingTree option to remove existing product tree from the passed in asset * group. * @throws GoogleAdsException if an API request failed with one or more service errors. */ private void runExample( GoogleAdsClient googleAdsClient, long customerId, long assetGroupId, boolean replaceExistingTree) throws Exception { String assetGroupResourceName = ResourceNames.assetGroup(customerId, assetGroupId); List<MutateOperation> operations = new ArrayList<>(); if (replaceExistingTree) { List<AssetGroupListingGroupFilter> existingListingGroupFilters = getAllExistingListingGroupFilterAssetsInAssetGroup( googleAdsClient, customerId, assetGroupResourceName); if (!existingListingGroupFilters.isEmpty()) { // A special factory object that ensures the creation of remove operations in the // correct order (child listing group filters must be removed before their parents). AssetGroupListingGroupFilterRemoveOperationFactory removeOperationFactory = new AssetGroupListingGroupFilterRemoveOperationFactory(existingListingGroupFilters); operations.addAll(removeOperationFactory.removeAll()); } } // Uses a factory to create all the MutateOperations that manipulate a specific // AssetGroup for a specific customer. The operations returned by the factory's methods // are used to construct a new tree of filters. These filters can have parent-child // relationships, and also include a special root that includes all children. // // When creating these filters, temporary IDs are used to create the hierarchy between // each of the nodes in the tree, beginning with the root listing group filter. // // The factory created below is specific to a customerId and assetGroupId. AssetGroupListingGroupFilterCreateOperationFactory createOperationFactory = new AssetGroupListingGroupFilterCreateOperationFactory( customerId, assetGroupId, TEMPORARY_ID_LISTING_GROUP_ROOT); // Creates the operation to add the root node of the tree. operations.add(createOperationFactory.createRoot()); // Creates an operation to add a leaf node for new products. ListingGroupFilterDimension newProductDimension = ListingGroupFilterDimension.newBuilder() .setProductCondition( ProductCondition.newBuilder() .setCondition(ListingGroupFilterProductCondition.NEW) .build()) .build(); operations.add( createOperationFactory.createUnit( TEMPORARY_ID_LISTING_GROUP_ROOT, createOperationFactory.nextId(), newProductDimension)); // Creates an operation to add a leaf node for used products. ListingGroupFilterDimension usedProductDimension = ListingGroupFilterDimension.newBuilder() .setProductCondition( ProductCondition.newBuilder() .setCondition(ListingGroupFilterProductCondition.USED) .build()) .build(); operations.add( createOperationFactory.createUnit( TEMPORARY_ID_LISTING_GROUP_ROOT, createOperationFactory.nextId(), usedProductDimension)); // This represents the ID of the "other" category in the ProductCondition subdivision. This ID // is saved because the node with this ID will be further partitioned, and this ID will serve as // the parent ID for subsequent child nodes of the "other" category. long otherSubdivisionId = createOperationFactory.nextId(); // Creates an operation to add a subdivision node for other products in the ProductCondition // subdivision. ListingGroupFilterDimension otherProductDimension = ListingGroupFilterDimension.newBuilder() .setProductCondition(ProductCondition.newBuilder().build()) .build(); operations.add( // Calls createSubdivision because this listing group will have children. createOperationFactory.createSubdivision( TEMPORARY_ID_LISTING_GROUP_ROOT, otherSubdivisionId, otherProductDimension)); // Creates an operation to add a leaf node for products with the brand "CoolBrand". ListingGroupFilterDimension coolBrandProductDimension = ListingGroupFilterDimension.newBuilder() .setProductBrand(ProductBrand.newBuilder().setValue("CoolBrand").build()) .build(); operations.add( createOperationFactory.createUnit( otherSubdivisionId, createOperationFactory.nextId(), coolBrandProductDimension)); // Creates an operation to add a leaf node for products with the brand "CheapBrand". ListingGroupFilterDimension cheapBrandProductDimension = ListingGroupFilterDimension.newBuilder() .setProductBrand(ProductBrand.newBuilder().setValue("CheapBrand").build()) .build(); operations.add( createOperationFactory.createUnit( otherSubdivisionId, createOperationFactory.nextId(), cheapBrandProductDimension)); // Creates an operation to add a leaf node for other products in the ProductBrand subdivision. ListingGroupFilterDimension otherBrandProductDimension = ListingGroupFilterDimension.newBuilder() .setProductBrand(ProductBrand.newBuilder().build()) .build(); operations.add( createOperationFactory.createUnit( otherSubdivisionId, createOperationFactory.nextId(), otherBrandProductDimension)); try (GoogleAdsServiceClient googleAdsServiceClient = googleAdsClient.getLatestVersion().createGoogleAdsServiceClient()) { MutateGoogleAdsRequest request = MutateGoogleAdsRequest.newBuilder() .setCustomerId(Long.toString(customerId)) .addAllMutateOperations(operations) .build(); MutateGoogleAdsResponse response = googleAdsServiceClient.mutate(request); printResponseDetails(request, response); } }
C#
/// <summary> /// Runs the code example. /// </summary> /// <param name="client">The Google Ads client.</param> /// <param name="customerId">The Google Ads customer ID.</param> /// <param name="assetGroupId">The asset group id for the Performance Max campaign.</param> /// <param name="replaceExistingTree">Option to remove existing product tree /// from the passed in asset group.</param> public void Run( GoogleAdsClient client, long customerId, long assetGroupId, bool replaceExistingTree) { GoogleAdsServiceClient googleAdsServiceClient = client.GetService(Services.V21.GoogleAdsService); string assetGroupResourceName = ResourceNames.AssetGroup(customerId, assetGroupId); // We use a factory to create all the MutateOperations that manipulate a specific // AssetGroup for a specific customer. The operations returned by the factory's methods // are used to optionally remove all AssetGroupListingGroupFilters from the tree, and // then to construct a new tree of filters. These filters can have a parent-child // relationship, and also include a special root that includes all children. // // When creating these filters, we use temporary IDs to create the hierarchy between // the root listing group filter, and the subdivisions and leave nodes beneath that. // // The factory specific to a customerId and assetGroupId is created below. AssetGroupListingGroupFilterCreateOperationFactory createOperationFactory = new AssetGroupListingGroupFilterCreateOperationFactory( customerId, assetGroupId, TEMPORARY_ID_LISTING_GROUP_ROOT ); MutateGoogleAdsRequest request = new MutateGoogleAdsRequest { CustomerId = customerId.ToString() }; if (replaceExistingTree) { List<AssetGroupListingGroupFilter> existingListingGroupFilters = GetAllExistingListingGroupFilterAssetsInAssetGroup( client, customerId, assetGroupResourceName ); if (existingListingGroupFilters.Count > 0) { // A special factory object that ensures the creation of remove operations in the // correct order (child listing group filters must be removed before their parents). AssetGroupListingGroupFilterRemoveOperationFactory removeOperationFactory = new AssetGroupListingGroupFilterRemoveOperationFactory( existingListingGroupFilters ); request.MutateOperations.AddRange(removeOperationFactory.RemoveAll()); } } request.MutateOperations.Add(createOperationFactory.CreateRoot()); request.MutateOperations.Add( createOperationFactory.CreateUnit( TEMPORARY_ID_LISTING_GROUP_ROOT, createOperationFactory.NextId(), new ListingGroupFilterDimension() { ProductCondition = new ListingGroupFilterDimension.Types.ProductCondition() { Condition = ListingGroupFilterProductCondition.New } } ) ); request.MutateOperations.Add( createOperationFactory.CreateUnit( TEMPORARY_ID_LISTING_GROUP_ROOT, createOperationFactory.NextId(), new ListingGroupFilterDimension() { ProductCondition = new ListingGroupFilterDimension.Types.ProductCondition() { Condition = ListingGroupFilterProductCondition.Used } } ) ); // We save this ID because create child nodes underneath it. long subdivisionIdConditionOther = createOperationFactory.NextId(); request.MutateOperations.Add( // We're calling CreateSubdivision because this listing group will have children. createOperationFactory.CreateSubdivision( TEMPORARY_ID_LISTING_GROUP_ROOT, subdivisionIdConditionOther, new ListingGroupFilterDimension() { // All sibling nodes must have the same dimension type. We use an empty // ProductCondition to indicate that this is an "Other" partition. ProductCondition = new ListingGroupFilterDimension.Types.ProductCondition() } ) ); request.MutateOperations.Add( createOperationFactory.CreateUnit( subdivisionIdConditionOther, createOperationFactory.NextId(), new ListingGroupFilterDimension() { ProductBrand = new ProductBrand() { Value = "CoolBrand" } } ) ); request.MutateOperations.Add( createOperationFactory.CreateUnit( subdivisionIdConditionOther, createOperationFactory.NextId(), new ListingGroupFilterDimension() { ProductBrand = new ProductBrand() { Value = "CheapBrand" } } ) ); request.MutateOperations.Add( createOperationFactory.CreateUnit( subdivisionIdConditionOther, createOperationFactory.NextId(), new ListingGroupFilterDimension() { ProductBrand = new ProductBrand() } ) ); MutateGoogleAdsResponse response = googleAdsServiceClient.Mutate(request); PrintResponseDetails(request, response); }
PHP
/** * Runs the example. * * @param GoogleAdsClient $googleAdsClient the Google Ads API client * @param int $customerId the customer ID * @param int $assetGroupId the asset group ID * @param bool $replaceExistingTree true if it should replace the existing listing group * tree on the asset group */ public static function runExample( GoogleAdsClient $googleAdsClient, int $customerId, int $assetGroupId, bool $replaceExistingTree ) { // We create all the mutate operations that manipulate a specific asset group for a specific // customer. The operations are used to optionally remove all asset group listing group // filters from the tree, and then to construct a new tree of filters. These filters can // have a parent-child relationship, and also include a special root that includes all // children. // // When creating these filters, we use temporary IDs to create the hierarchy between // the root listing group filter, and the subdivisions and leave nodes beneath that. $mutateOperations = []; if ($replaceExistingTree === true) { $existingListingGroupFilters = self::getAllExistingListingGroupFilterAssetsInAssetGroup( $googleAdsClient, $customerId, ResourceNames::forAssetGroup($customerId, $assetGroupId) ); if (count($existingListingGroupFilters) > 0) { $mutateOperations = array_merge( $mutateOperations, // Ensures the creation of remove operations in the correct order (child listing // group filters must be removed before their parents). self::createMutateOperationsForRemovingListingGroupFiltersTree( $existingListingGroupFilters ) ); } } $mutateOperations[] = self::createMutateOperationForRoot( $customerId, $assetGroupId, self::LISTING_GROUP_ROOT_TEMPORARY_ID ); // The temporary ID to be used for creating subdivisions and units. static $tempId = self::LISTING_GROUP_ROOT_TEMPORARY_ID - 1; $mutateOperations[] = self::createMutateOperationForUnit( $customerId, $assetGroupId, $tempId--, self::LISTING_GROUP_ROOT_TEMPORARY_ID, new ListingGroupFilterDimension([ 'product_condition' => new ProductCondition([ 'condition' => ListingGroupFilterProductCondition::PBNEW ]) ]) ); $mutateOperations[] = self::createMutateOperationForUnit( $customerId, $assetGroupId, $tempId--, self::LISTING_GROUP_ROOT_TEMPORARY_ID, new ListingGroupFilterDimension([ 'product_condition' => new ProductCondition([ 'condition' => ListingGroupFilterProductCondition::USED ]) ]) ); // We save this ID to create child nodes underneath it. $conditionOtherSubdivisionId = $tempId--; // We're calling createMutateOperationForSubdivision() because this listing group will // have children. $mutateOperations[] = self::createMutateOperationForSubdivision( $customerId, $assetGroupId, $conditionOtherSubdivisionId, self::LISTING_GROUP_ROOT_TEMPORARY_ID, new ListingGroupFilterDimension([ // All sibling nodes must have the same dimension type. We use an empty // ProductCondition to indicate that this is an "Other" partition. 'product_condition' => new ProductCondition() ]) ); $mutateOperations[] = self::createMutateOperationForUnit( $customerId, $assetGroupId, $tempId--, $conditionOtherSubdivisionId, new ListingGroupFilterDimension( ['product_brand' => new ProductBrand(['value' => 'CoolBrand'])] ) ); $mutateOperations[] = self::createMutateOperationForUnit( $customerId, $assetGroupId, $tempId--, $conditionOtherSubdivisionId, new ListingGroupFilterDimension([ 'product_brand' => new ProductBrand(['value' => 'CheapBrand']) ]) ); $mutateOperations[] = self::createMutateOperationForUnit( $customerId, $assetGroupId, $tempId--, $conditionOtherSubdivisionId, // All other product brands. new ListingGroupFilterDimension(['product_brand' => new ProductBrand()]) ); // Issues a mutate request to create everything and prints its information. $googleAdsServiceClient = $googleAdsClient->getGoogleAdsServiceClient(); $response = $googleAdsServiceClient->mutate( MutateGoogleAdsRequest::build($customerId, $mutateOperations) ); self::printResponseDetails($mutateOperations, $response); }
Python
def main( client: GoogleAdsClient, customer_id: str, asset_group_id: int, # Will be str for path construction replace_existing_tree: bool, ) -> None: """The main method that creates all necessary entities for the example. Args: client: an initialized GoogleAdsClient instance. customer_id: a client customer ID. asset_group_id: the asset group id for the Performance Max campaign. replace_existing_tree: option to remove existing product tree from the passed in asset group. """ googleads_service: GoogleAdsServiceClient = client.get_service( "GoogleAdsService" ) # asset_group_id is used as a string in path construction. asset_group_resource_name: str = googleads_service.asset_group_path( customer_id, str(asset_group_id) ) operations: List[MutateOperation] = [] if replace_existing_tree: # Retrieve a list of existing AssetGroupListingGroupFilters existing_listing_group_filters: List[AssetGroupListingGroupFilter] = ( get_all_existing_listing_group_filter_assets_in_asset_group( client, customer_id, asset_group_resource_name ) ) # If present, create MutateOperations to remove each # AssetGroupListingGroupFilter and add them to the list of operations. if existing_listing_group_filters: remove_operation_factory = ( AssetGroupListingGroupFilterRemoveOperationFactory( client, existing_listing_group_filters ) ) operations.extend(remove_operation_factory.remove_all()) create_operation_factory = ( AssetGroupListingGroupFilterCreateOperationFactory( client, customer_id, asset_group_id, # Pass as int, will be converted to str in __init__ _TEMPORARY_ID_LISTING_GROUP_ROOT, ) ) operations.append(create_operation_factory.create_root()) new_dimension: ListingGroupFilterDimension = client.get_type( "ListingGroupFilterDimension" ) new_dimension.product_condition.condition = ( client.enums.ListingGroupFilterProductConditionEnum.NEW ) operations.append( create_operation_factory.create_unit( _TEMPORARY_ID_LISTING_GROUP_ROOT, create_operation_factory.next_id(), new_dimension, ) ) used_dimension: ListingGroupFilterDimension = client.get_type( "ListingGroupFilterDimension" ) used_dimension.product_condition.condition = ( client.enums.ListingGroupFilterProductConditionEnum.USED ) operations.append( create_operation_factory.create_unit( _TEMPORARY_ID_LISTING_GROUP_ROOT, create_operation_factory.next_id(), used_dimension, ) ) # We save this ID because create child nodes underneath it. subdivision_id_condition_other: int = create_operation_factory.next_id() # All sibling nodes must have the same dimension type. We use an empty # product_condition to indicate that this is an "Other" partition. other_dimension: ListingGroupFilterDimension = client.get_type( "ListingGroupFilterDimension" ) # This triggers the presence of the product_condition field without # specifying any field values. This is important in order to tell the API # that this is an "other" node. other_dimension.product_condition._pb.SetInParent() # We're calling create_subdivision because this listing group will have # children. operations.append( create_operation_factory.create_subdivision( _TEMPORARY_ID_LISTING_GROUP_ROOT, subdivision_id_condition_other, other_dimension, ) ) cool_dimension: ListingGroupFilterDimension = client.get_type( "ListingGroupFilterDimension" ) cool_dimension.product_brand.value = "CoolBrand" operations.append( create_operation_factory.create_unit( subdivision_id_condition_other, create_operation_factory.next_id(), cool_dimension, ) ) cheap_dimension: ListingGroupFilterDimension = client.get_type( "ListingGroupFilterDimension" ) cheap_dimension.product_brand.value = "CheapBrand" operations.append( create_operation_factory.create_unit( subdivision_id_condition_other, create_operation_factory.next_id(), cheap_dimension, ) ) empty_dimension: ListingGroupFilterDimension = client.get_type( "ListingGroupFilterDimension" ) # This triggers the presence of the product_brand field without specifying # any field values. This is important in order to tell the API # that this is an "other" node. empty_dimension.product_brand._pb.SetInParent() operations.append( create_operation_factory.create_unit( subdivision_id_condition_other, create_operation_factory.next_id(), empty_dimension, ) ) response: MutateGoogleAdsResponse = googleads_service.mutate( customer_id=customer_id, mutate_operations=operations ) print_response_details(operations, response)
Ruby
def add_performance_max_product_listing_group_tree( customer_id, asset_group_id, replace_existing_tree) # GoogleAdsClient will read a config file from # ENV['HOME']/google_ads_config.rb when called without parameters client = Google::Ads::GoogleAds::GoogleAdsClient.new asset_group_resource_name = client.path.asset_group( customer_id, asset_group_id, ) # We use a factory to create all the MutateOperations that manipulate a # specific AssetGroup for a specific customer. The operations returned by the # factory's methods are used to optionally remove all # AssetGroupListingGroupFilters from the tree, and then to construct a new # tree of filters. These filters can have a parent-child relationship, and # also include a special root that includes all children. # # When creating these filters, we use temporary IDs to create the hierarchy # between the root listing group filter, and the subdivisions and leave nodes # beneath that. # # The factory specific to a customerId and assetGroupId is created below. create_operation_factory = AssetGroupListingGroupFilterCreateOperationFactory.new( customer_id, asset_group_id, TEMPORARY_ID_LISTING_GROUP_ROOT, ) operations = [] if replace_existing_tree existing_listing_group_filters = get_existing_listing_group_filters_in_asset_group( client, customer_id, asset_group_resource_name, ) if existing_listing_group_filters.length > 0 # A special factory object that ensures the creation of remove operations # in the correct order (child listing group filters must be removed # before their parents). remove_operation_factory = AssetGroupListingGroupFilterRemoveOperationFactory.new( existing_listing_group_filters ) operations += remove_operation_factory.remove_all(client) end end operations << create_operation_factory.create_root(client) operations << create_operation_factory.create_unit( client, TEMPORARY_ID_LISTING_GROUP_ROOT, create_operation_factory.next_id, client.resource.listing_group_filter_dimension do |dimension| dimension.product_condition = client.resource.product_condition do |condition| condition.condition = :NEW end end, ) operations << create_operation_factory.create_unit( client, TEMPORARY_ID_LISTING_GROUP_ROOT, create_operation_factory.next_id, client.resource.listing_group_filter_dimension do |dimension| dimension.product_condition = client.resource.product_condition do |condition| condition.condition = :USED end end, ) # We save this ID because we create child nodes underneath it. subdivision_id_condition_other = create_operation_factory.next_id operations << create_operation_factory.create_subdivision( client, TEMPORARY_ID_LISTING_GROUP_ROOT, subdivision_id_condition_other, client.resource.listing_group_filter_dimension do |dimension| dimension.product_condition = client.resource.product_condition do |condition| # All sibling nodes must have the same dimension type. We use an empty # ProductCondition to indicate that this is an "Other" partition. end end, ) operations << create_operation_factory.create_unit( client, subdivision_id_condition_other, create_operation_factory.next_id, client.resource.listing_group_filter_dimension do |dimension| dimension.product_brand = client.resource.product_brand do |brand| brand.value = 'CoolBrand' end end, ) operations << create_operation_factory.create_unit( client, subdivision_id_condition_other, create_operation_factory.next_id, client.resource.listing_group_filter_dimension do |dimension| dimension.product_brand = client.resource.product_brand do |brand| brand.value = 'CheapBrand' end end, ) operations << create_operation_factory.create_unit( client, subdivision_id_condition_other, create_operation_factory.next_id, client.resource.listing_group_filter_dimension do |dimension| dimension.product_brand = client.resource.product_brand do |brand| end end, ) response = client.service.google_ads.mutate( customer_id: customer_id, mutate_operations: operations, ) print_response_details(operations, response) end
Perl
sub add_performance_max_product_listing_group_tree { my ($api_client, $customer_id, $asset_group_id, $replace_existing_tree) = @_; # We create all the mutate operations that manipulate a specific asset group for # a specific customer. The operations are used to optionally remove all asset # group listing group filters from the tree, and then to construct a new tree # of filters. These filters can have a parent-child relationship, and also include # a special root that includes all children. # # When creating these filters, we use temporary IDs to create the hierarchy between # the root listing group filter, and the subdivisions and leave nodes beneath that. my $mutate_operations = []; if (defined $replace_existing_tree) { my $existing_listing_group_filters = get_all_existing_listing_group_filter_assets_in_asset_group( $api_client, $customer_id, Google::Ads::GoogleAds::V21::Utils::ResourceNames::asset_group( $customer_id, $asset_group_id )); if (scalar @$existing_listing_group_filters > 0) { push @$mutate_operations, # Ensure the creation of remove operations in the correct order (child # listing group filters must be removed before their parents). @{ create_mutate_operations_for_removing_listing_group_filters_tree( $existing_listing_group_filters)}; } } push @$mutate_operations, create_mutate_operation_for_root($customer_id, $asset_group_id, LISTING_GROUP_ROOT_TEMPORARY_ID); # The temporary ID to be used for creating subdivisions and units. my $temp_id = LISTING_GROUP_ROOT_TEMPORARY_ID - 1; push @$mutate_operations, create_mutate_operation_for_unit( $customer_id, $asset_group_id, $temp_id--, LISTING_GROUP_ROOT_TEMPORARY_ID, Google::Ads::GoogleAds::V21::Resources::ListingGroupFilterDimension->new({ productCondition => Google::Ads::GoogleAds::V21::Resources::ProductCondition->new({ condition => NEW })})); push @$mutate_operations, create_mutate_operation_for_unit( $customer_id, $asset_group_id, $temp_id--, LISTING_GROUP_ROOT_TEMPORARY_ID, Google::Ads::GoogleAds::V21::Resources::ListingGroupFilterDimension->new({ productCondition => Google::Ads::GoogleAds::V21::Resources::ProductCondition->new({ condition => USED })})); # We save this ID to create child nodes underneath it. my $condition_other_subdivision_id = $temp_id--; # We're calling create_mutate_operation_for_subdivision() because this listing # group will have children. push @$mutate_operations, create_mutate_operation_for_subdivision( $customer_id, $asset_group_id, $condition_other_subdivision_id, LISTING_GROUP_ROOT_TEMPORARY_ID, Google::Ads::GoogleAds::V21::Resources::ListingGroupFilterDimension->new({ # All sibling nodes must have the same dimension type. We use an empty # ProductCondition to indicate that this is an "Other" partition. productCondition => Google::Ads::GoogleAds::V21::Resources::ProductCondition->new({})})); push @$mutate_operations, create_mutate_operation_for_unit( $customer_id, $asset_group_id, $temp_id--, $condition_other_subdivision_id, Google::Ads::GoogleAds::V21::Resources::ListingGroupFilterDimension->new({ productBrand => Google::Ads::GoogleAds::V21::Resources::ProductBrand->new({ value => "CoolBrand" })})); push @$mutate_operations, create_mutate_operation_for_unit( $customer_id, $asset_group_id, $temp_id--, $condition_other_subdivision_id, Google::Ads::GoogleAds::V21::Resources::ListingGroupFilterDimension->new({ productBrand => Google::Ads::GoogleAds::V21::Resources::ProductBrand->new({ value => "CheapBrand" })})); push @$mutate_operations, create_mutate_operation_for_unit( $customer_id, $asset_group_id, $temp_id--, $condition_other_subdivision_id, # All other product brands. Google::Ads::GoogleAds::V21::Resources::ListingGroupFilterDimension->new({ productBrand => Google::Ads::GoogleAds::V21::Resources::ProductBrand->new({})})); # Issue a mutate request to create everything and print its information. my $response = $api_client->GoogleAdsService()->mutate({ customerId => $customer_id, mutateOperations => $mutate_operations }); print_response_details($mutate_operations, $response); return 1; }
Dimensioni disponibili per ListingDimensionInfo
Esistono più dimensioni delle schede che possono far parte di un gruppo di schede Performance Max. I seguenti tipi di ListingDimensionInfo possono essere utilizzati con le campagne Performance Max per la vendita al dettaglio:
ProductBrandInfoProductCategoryInfoProductChannelInfoProductConditionInfoProductCustomAttributeInfoProductItemIdInfoProductTypeInfo
Ogni risorsa include un elenco di localizzazioni supportate nel campo
ProductCategoryConstant.ProductCategoryLocalization.
Per comprendere i dati restituiti dalla risorsa, prova l'esempio Get Product Category Constants.
Puoi creare nodi unità Other passando un oggetto vuoto di
tipi ListingDimensionInfo a ListingGroupInfo.
ID temporanei
I criteri del gruppo di asset non vengono assegnati ID finché la richiesta di modifica che li crea non viene elaborata dal server. Tuttavia, un ListingGroupInfo non è valido finché non è completo, quindi ogni volta che crei una suddivisione, devi creare anche almeno uno dei suoi elementi secondari e un nodo Altro nella stessa richiesta.
Per impostare il parent_criterion_id di
ListingGroupInfo per i nodi secondari creati
nella stessa richiesta del nodo principale, puoi utilizzare ID criteri temporanei. Questi ID si applicano
solo nel contesto di una singola richiesta di modifica. Qualsiasi numero intero negativo può essere
utilizzato come ID temporaneo.