Inserta, actualiza o borra datos de Spanner Graph

En este documento, se describe cómo mutar datos en Spanner Graph con la console de Google Cloud, Google Cloud CLI y las bibliotecas cliente. La mutación de datos de gráfico incluye la inserción, actualización y eliminación de nodos y aristas en Spanner Graph.

Spanner Graph asigna datos de tablas a los nodos y perímetros del grafo. Cambiar datos de un gráfico, debes mutar los datos en las tablas de entrada correspondientes. Para ver más información, consulta la Descripción general del esquema del gráfico de Spanner.

Antes de comenzar

Para completar los pasos de la consola de Google Cloud y las muestras de código de esta documento, primero debes seguir los pasos Configura y consulta Spanner Graph con la consola de Google Cloud para lo siguiente:

  1. Crea una instancia.
  2. Crea una base de datos.
  3. Crea un esquema para tu base de datos de Spanner Graph.
  4. Inserta datos de gráficos.

Cómo insertar nodos o aristas

Para insertar nodos o aristas, usa la consola de Google Cloud, Google Cloud CLI o las bibliotecas cliente de Spanner para insertar filas en tablas de nodos o aristas.

En la consola de Google Cloud y en Google Cloud CLI, puedes usar el lenguaje de manipulación de datos (DML) de GoogleSQL para insertar. En la biblioteca cliente de Spanner, puedes usar archivos APIs de mutación.

Antes de insertar una arista, asegúrate de que los nodos de origen y destino conectadas por el perímetro. Si insertas un borde cuando no existe el nodo de origen o de destino conectado por el borde, es posible que recibas errores de incumplimiento de integridad de referencia. Para obtener más información, consulta El nodo de origen faltante incumple la relación INTERLEAVE IN y El nodo de destino faltante incumple la restricción de clave externa.

En los siguientes ejemplos, se insertan Account nodos y Transfer aristas en el gráfico:

Console

  1. Ejecuta sentencias en la consola de Google Cloud.

  2. En la consola de Google Cloud, ingresa la siguiente declaración DML y Haz clic en Ejecutar consulta:

-- Insert 2 Account nodes.
INSERT INTO Account (id, create_time, is_blocked)
VALUES (1, CAST('2000-08-10 08:18:48.463959-07:52' AS TIMESTAMP), false);
INSERT INTO Account (id, create_time, is_blocked)
VALUES (2, CAST('2000-08-12 07:13:16.463959-03:41' AS TIMESTAMP), true);

-- Insert 2 Transfer edges.
INSERT INTO AccountTransferAccount (id, to_id, create_time, amount)
VALUES (1, 2, CAST('2000-09-11 03:11:18.463959-06:36' AS TIMESTAMP), 100);
INSERT INTO AccountTransferAccount (id, to_id, create_time, amount)
VALUES (1, 1, CAST('2000-09-12 04:09:34.463959-05:12' AS TIMESTAMP), 200);

gcloud

  1. Ejecuta sentencias con gcloud CLI.
  2. En la CLI de gcloud, ejecuta los siguientes comandos:
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="INSERT INTO Account (id, create_time, is_blocked) VALUES (1, CAST('2000-08-10 08:18:48.463959-07:52' AS TIMESTAMP), false)"
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="INSERT INTO Account (id, create_time, is_blocked) VALUES (2, CAST('2000-08-12 07:13:16.463959-03:41'  AS TIMESTAMP), true)"
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="INSERT INTO AccountTransferAccount (id, to_id, create_time, amount) VALUES (1, 2, CAST('2000-09-11 03:11:18.463959-06:36' AS TIMESTAMP), 100)"
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="INSERT INTO AccountTransferAccount (id, to_id, create_time, amount) VALUES (1, 1, CAST('2000-09-12 04:09:34.463959-05:12' AS TIMESTAMP), 200)"

Bibliotecas cliente

Python 

def insert_data_with_dml(instance_id, database_id):
    """Inserts sample data into the given database using a DML statement."""

    spanner_client = spanner.Client()
    instance = spanner_client.instance(instance_id)
    database = instance.database(database_id)

    def insert_accounts(transaction):
        row_ct = transaction.execute_update(
            "INSERT INTO Account (id, create_time, is_blocked) "
            "  VALUES"
            "    (1, CAST('2000-08-10 08:18:48.463959-07:52' AS TIMESTAMP), false),"
            "    (2, CAST('2000-08-12 07:13:16.463959-03:41' AS TIMESTAMP), true)"
        )

        print("{} record(s) inserted into Account.".format(row_ct))

    def insert_transfers(transaction):
        row_ct = transaction.execute_update(
            "INSERT INTO AccountTransferAccount (id, to_id, create_time, amount) "
            "  VALUES"
            "    (1, 2, CAST('2000-09-11 03:11:18.463959-06:36' AS TIMESTAMP), 100),"
            "    (1, 1, CAST('2000-09-12 04:09:34.463959-05:12' AS TIMESTAMP), 200) "
        )

        print("{} record(s) inserted into AccountTransferAccount.".format(row_ct))

    database.run_in_transaction(insert_accounts)
    database.run_in_transaction(insert_transfers)

Java 

static void insertUsingDml(DatabaseClient dbClient) {
  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql =
                "INSERT INTO Account (id, create_time, is_blocked) "
                    + "  VALUES"
                    + "    (1, CAST('2000-08-10 08:18:48.463959-07:52' AS TIMESTAMP), false),"
                    + "    (2, CAST('2000-08-12 07:13:16.463959-03:41' AS TIMESTAMP), true)";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d record(s) inserted into Account.\n", rowCount);
            return null;
          });

  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql =
                "INSERT INTO AccountTransferAccount (id, to_id, create_time, amount) "
                    + "  VALUES"
                    + "    (1, 2, CAST('2000-09-11 03:11:18.463959-06:36' AS TIMESTAMP), 100),"
                    + "    (1, 1, CAST('2000-09-12 04:09:34.463959-05:12' AS TIMESTAMP), 200) ";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d record(s) inserted into AccountTransferAccount.\n", rowCount);
            return null;
          });
}

Go


import (
	"context"
	"fmt"
	"io"

	"cloud.google.com/go/spanner"
)

func insertGraphDataWithDml(w io.Writer, db string) error {
	ctx := context.Background()
	client, err := spanner.NewClient(ctx, db)
	if err != nil {
		return err
	}
	defer client.Close()

	// Execute a ReadWriteTransaction to insert values into the 'Account' table
	// underpinning 'Account' nodes in 'FinGraph'. The function run by ReadWriteTransaction
	// executes an 'INSERT' SQL DML statement. Graph queries run after this
	// transaction is committed will observe the effects of the new 'Account's
	// added to the graph.
	_, err1 := client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{
			SQL: `INSERT INTO Account (id, create_time, is_blocked)
            		VALUES
            	    	(1, CAST('2000-08-10 08:18:48.463959-07:52' AS TIMESTAMP), false),
            			(2, CAST('2000-08-12 07:13:16.463959-03:41' AS TIMESTAMP), true)`,
		}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d Account record(s) inserted.\n", rowCount)
		return err
	})

	if err1 != nil {
		return err1
	}

	// Execute a ReadWriteTransaction to insert values into the 'AccountTransferAccount'
	// table underpinning 'AccountTransferAccount' edges in 'FinGraph'. The function run
	// by ReadWriteTransaction executes an 'INSERT' SQL DML statement.
	// Graph queries run after this transaction is committed will observe the effects
	// of the edges added to the graph.
	_, err2 := client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{
			SQL: `INSERT INTO AccountTransferAccount (id, to_id, create_time, amount)
					VALUES
						(1, 2, CAST('2000-09-11 03:11:18.463959-06:36' AS TIMESTAMP), 100),
						(1, 1, CAST('2000-09-12 04:09:34.463959-05:12' AS TIMESTAMP), 200)`,
		}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d AccountTransferAccount record(s) inserted.\n", rowCount)
		return err
	})

	return err2
}

C++ 

void InsertDataWithDml(google::cloud::spanner::Client client) {
  using ::google::cloud::StatusOr;
  namespace spanner = ::google::cloud::spanner;

  std::int64_t rows_inserted;
  auto commit_result = client.Commit(
      [&client, &rows_inserted](
          spanner::Transaction txn) -> StatusOr<spanner::Mutations> {
        auto insert =
            client.ExecuteDml(std::move(txn), spanner::SqlStatement(R"""(
          INSERT INTO Account (id, create_time, is_blocked)
          VALUES
          (1, CAST('2000-08-10 08:18:48.463959-07:52' AS TIMESTAMP), false),
          (2, CAST('2000-08-12 07:13:16.463959-03:41' AS TIMESTAMP), true)
        )"""));
        if (!insert) return std::move(insert).status();
        rows_inserted = insert->RowsModified();
        return spanner::Mutations{};
      });
  if (!commit_result) throw std::move(commit_result).status();
  std::cout << "Rows inserted into Account: " << rows_inserted << "\n";

  commit_result = client.Commit(
      [&client, &rows_inserted](
          spanner::Transaction txn) -> StatusOr<spanner::Mutations> {
        auto insert =
            client.ExecuteDml(std::move(txn), spanner::SqlStatement(R"""(
          INSERT INTO AccountTransferAccount (id, to_id, create_time, amount)
          VALUES
          (1, 2, CAST('2000-09-11 03:11:18.463959-06:36' AS TIMESTAMP), 100),
          (1, 1, CAST('2000-09-12 04:09:34.463959-05:12' AS TIMESTAMP), 200)
        )"""));
        if (!insert) return std::move(insert).status();
        rows_inserted = insert->RowsModified();
        return spanner::Mutations{};
      });
  if (!commit_result) throw std::move(commit_result).status();
  std::cout << "Rows inserted into AccountTransferAccount: " << rows_inserted
            << "\n";

  std::cout << "Insert was successful [spanner_insert_graph_data_with_dml]\n";
}

Actualiza nodos o aristas

Para actualizar nodos o aristas existentes, usa la consola de Google Cloud, gcloud CLI o las bibliotecas cliente de Spanner.

Puedes actualizar los nodos o las aristas existentes con un SQL Lenguaje de manipulación de datos (DML) o consultas de Spanner Graph con una declaración DML. En la biblioteca cliente de Spanner, también puedes usar las APIs de Mutation.

Actualiza nodos o aristas con DML

En los siguientes ejemplos, se actualizan un nodo Account y un borde Transfer en el gráfico con la DML:

Console

  1. Ejecuta sentencias en la consola de Google Cloud.

  2. En la consola de Google Cloud, ingresa la siguiente sentencia DML y haz clic en Ejecutar consulta:

-- Update Account node
UPDATE Account SET is_blocked = false WHERE id = 2;

-- Update Transfer edge
UPDATE AccountTransferAccount
SET amount = 300
WHERE id = 1 AND to_id = 2;

Console

  1. Ejecuta sentencias con gcloud CLI.
  2. En gcloud CLI, ejecuta los siguientes comandos:
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="UPDATE Account SET is_blocked = false WHERE id = 2"
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="UPDATE AccountTransferAccount SET amount = 300 WHERE id = 1 AND to_id = 2"

Bibliotecas cliente

Python 

def update_data_with_dml(instance_id, database_id):
    """Updates sample data from the database using a DML statement."""

    spanner_client = spanner.Client()
    instance = spanner_client.instance(instance_id)
    database = instance.database(database_id)

    def update_accounts(transaction):
        row_ct = transaction.execute_update(
            "UPDATE Account SET is_blocked = false WHERE id = 2"
        )

        print("{} Account record(s) updated.".format(row_ct))

    def update_transfers(transaction):
        row_ct = transaction.execute_update(
            "UPDATE AccountTransferAccount SET amount = 300 WHERE id = 1 AND to_id = 2"
        )

        print("{} AccountTransferAccount record(s) updated.".format(row_ct))

    database.run_in_transaction(update_accounts)
    database.run_in_transaction(update_transfers)

Java 

static void updateUsingDml(DatabaseClient dbClient) {
  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql = "UPDATE Account SET is_blocked = false WHERE id = 2";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d Account record(s) updated.\n", rowCount);
            return null;
          });

  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql =
                "UPDATE AccountTransferAccount SET amount = 300 WHERE id = 1 AND to_id = 2";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d AccountTransferAccount record(s) updated.\n", rowCount);
            return null;
          });
}

Go


import (
	"context"
	"fmt"
	"io"

	"cloud.google.com/go/spanner"
)

func updateGraphDataWithDml(w io.Writer, db string) error {
	ctx := context.Background()
	client, err := spanner.NewClient(ctx, db)
	if err != nil {
		return err
	}
	defer client.Close()

	// Execute a ReadWriteTransaction to update the 'Account' table underpinning
	// 'Account' nodes in 'FinGraph'. The function run by ReadWriteTransaction
	// executes an 'UPDATE' SQL DML statement. Graph queries run after this
	// transaction is committed will observe the effects of the update to 'Account'
	// with 'id' = 2.
	_, err1 := client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{
			SQL: `UPDATE Account SET is_blocked = false WHERE id = 2`,
		}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d Account record(s) updated.\n", rowCount)
		return err
	})

	if err1 != nil {
		return err1
	}

	// Execute a ReadWriteTransaction to update the 'AccountTransferAccount' table
	// underpinning 'AccountTransferAccount' edges in 'FinGraph'. The function run
	// by ReadWriteTransaction executes an 'UPDATE' SQL DML statement.
	// Graph queries run after this transaction is committed will observe the effects
	// of the update to 'AccountTransferAccount' where the source of the transfer has
	// 'id' 1 and the destination has 'id' 2.
	_, err2 := client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{
			SQL: `UPDATE AccountTransferAccount SET amount = 300 WHERE id = 1 AND to_id = 2`,
		}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d AccountTransferAccount record(s) updated.\n", rowCount)
		return err
	})

	return err2
}

C++ 

void UpdateDataWithDml(google::cloud::spanner::Client client) {
  using ::google::cloud::StatusOr;
  namespace spanner = ::google::cloud::spanner;

  auto commit_result = client.Commit(
      [&client](spanner::Transaction txn) -> StatusOr<spanner::Mutations> {
        auto update = client.ExecuteDml(
            std::move(txn),
            spanner::SqlStatement(
                "UPDATE Account SET is_blocked = false WHERE id = 2"));
        if (!update) return std::move(update).status();
        return spanner::Mutations{};
      });
  if (!commit_result) throw std::move(commit_result).status();

  commit_result = client.Commit(
      [&client](spanner::Transaction txn) -> StatusOr<spanner::Mutations> {
        auto update =
            client.ExecuteDml(std::move(txn), spanner::SqlStatement(R"""(
          UPDATE AccountTransferAccount
            SET amount = 300 WHERE id = 1 AND to_id = 2)"""));
        if (!update) return std::move(update).status();
        return spanner::Mutations{};
      });
  if (!commit_result) throw std::move(commit_result).status();

  std::cout << "Update was successful [spanner_update_graph_data_with_dml]\n";
}

Actualiza nodos o aristas con consultas de grafos y DML

En los siguientes ejemplos, se actualizan un nodo Account y un borde Transfer en el gráfico con consultas de Spanner Graph con DML:

Console

  1. Ejecuta sentencias en la consola de Google Cloud.

  2. En la consola de Google Cloud, ingresa el siguiente grafo de Spanner con una declaración DML y, luego, haz clic en Ejecutar consulta:

-- Use Graph pattern matching to identify Account nodes to update:
UPDATE Account SET is_blocked = false
WHERE id IN {
  GRAPH FinGraph
  MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->{1,2}(b:Account)
  RETURN b.id
}

gcloud

  1. Ejecuta sentencias con la CLI de gcloud.
  2. En la CLI de gcloud, ejecuta los siguientes comandos:
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="UPDATE Account SET is_blocked = false"
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="UPDATE AccountTransferAccount SET amount = 300 WHERE id = 1 AND to_id = 2"
    --sql=" WHERE id IN { GRAPH FinGraph MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->{1,2}(b:Account) RETURN b.id }"

Bibliotecas cliente

Python 

def update_data_with_graph_query_in_dml(instance_id, database_id):
    """Updates sample data from the database using a DML statement."""

    spanner_client = spanner.Client()
    instance = spanner_client.instance(instance_id)
    database = instance.database(database_id)

    def update_accounts(transaction):
        row_ct = transaction.execute_update(
            "UPDATE Account SET is_blocked = true "
            "WHERE id IN {"
            "  GRAPH FinGraph"
            "  MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->{1,2}(b:Account)"
            "  RETURN b.id}"
        )

        print("{} Account record(s) updated.".format(row_ct))

    database.run_in_transaction(update_accounts)

Java 

static void updateUsingGraphQueryInDml(DatabaseClient dbClient) {
  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql =
                "UPDATE Account SET is_blocked = true "
                    + "WHERE id IN {"
                    + "  GRAPH FinGraph"
                    + "  MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->{1,2}(b:Account)"
                    + "  RETURN b.id}";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d Account record(s) updated.\n", rowCount);
            return null;
          });
}

Go


import (
	"context"
	"fmt"
	"io"

	"cloud.google.com/go/spanner"
)

func updateGraphDataWithGraphQueryInDml(w io.Writer, db string) error {
	ctx := context.Background()
	client, err := spanner.NewClient(ctx, db)
	if err != nil {
		return err
	}
	defer client.Close()

	// Execute a ReadWriteTransaction to update the 'Account' table underpinning
	// 'Account' nodes in 'FinGraph'. The function run by ReadWriteTransaction
	// executes an 'UPDATE' SQL DML statement. Graph queries run after this
	// transaction is committed will observe the effects of the updates to 'Account's
	//
	// The update is performed for all 'Account's whose 'id' is returned by
	// the graph query in the 'IN' subquery, i.e., all 'Account's that have
	// received transfers directly or via one intermediary from an 'Account'
	// whose 'id' is 1.
	_, err = client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{
			SQL: `UPDATE Account SET is_blocked = true 
            	  WHERE id IN {
            	    GRAPH FinGraph 
            	    MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->{1,2}(b:Account)
            	    RETURN b.id}`,
		}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d Account record(s) updated.\n", rowCount)
		return err
	})

	return err
}

C++ 

void UpdateDataWithGraphQueryInDml(google::cloud::spanner::Client client) {
  using ::google::cloud::StatusOr;
  namespace spanner = ::google::cloud::spanner;
  auto commit_result = client.Commit(
      [&client](spanner::Transaction txn) -> StatusOr<spanner::Mutations> {
        auto update =
            client.ExecuteDml(std::move(txn), spanner::SqlStatement(R"""(
              UPDATE Account SET is_blocked = true
              WHERE id IN {
                GRAPH FinGraph
                MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->{1,2}(b:Account)
                RETURN b.id})"""));
        if (!update) return std::move(update).status();
        return spanner::Mutations{};
      });
  if (!commit_result) throw std::move(commit_result).status();
  std::cout << "Update was successful "
            << "[spanner_update_graph_data_with_graph_query_in_dml]\n";
}

Borra nodos o aristas

Para borrar nodos o aristas existentes, usa la consola de Google Cloud, gcloud CLI o las bibliotecas cliente de Spanner.

En la consola de Google Cloud y la CLI de gcloud, puedes usar el lenguaje de manipulación de datos (DML) de GoogleSQL para borrar. En la biblioteca cliente de Spanner, puedes usar DML o APIs de mutación.

Antes de borrar un nodo, asegúrate de que no haya aristas que hagan referencia a él. Si existen estos tipos de aristas, podrías recibir una violación de la integridad referencial errores. Para obtener más información, consulta El borde saliente huérfano infringe la relación superior-secundaria y El borde entrante huérfano infringe la relación superior-secundaria.

En los siguientes ejemplos, se borran un borde Transfer y un nodo Account del gráfico.

Console

  1. Ejecuta sentencias en la consola de Google Cloud.
  2. En la consola de Google Cloud, ingresa la siguiente sentencia DML y haz clic en Ejecutar consulta:
-- Delete Transfer edge
DELETE FROM AccountTransferAccount
WHERE id = 1 AND to_id = 2;

-- Delete Account node
DELETE FROM Account WHERE id = 2;

gcloud

  1. Ejecuta sentencias con la CLI de gcloud.
  2. En la CLI de gcloud, ejecuta los siguientes comandos:
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="DELETE FROM AccountTransferAccount WHERE id = 1 AND to_id = 2"
gcloud spanner databases execute-sql example-db --instance=test-instance \
    --sql="DELETE FROM Account WHERE id = 2"

Bibliotecas cliente

Python 

def delete_data_with_dml(instance_id, database_id):
    """Deletes sample data from the database using a DML statement."""

    spanner_client = spanner.Client()
    instance = spanner_client.instance(instance_id)
    database = instance.database(database_id)

    def delete_transfers(transaction):
        row_ct = transaction.execute_update(
            "DELETE FROM AccountTransferAccount WHERE id = 1 AND to_id = 2"
        )

        print("{} AccountTransferAccount record(s) deleted.".format(row_ct))

    def delete_accounts(transaction):
        row_ct = transaction.execute_update("DELETE FROM Account WHERE id = 2")

        print("{} Account record(s) deleted.".format(row_ct))

    database.run_in_transaction(delete_transfers)
    database.run_in_transaction(delete_accounts)

Java 

static void deleteUsingDml(DatabaseClient dbClient) {
  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql = "DELETE FROM AccountTransferAccount WHERE id = 1 AND to_id = 2";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d AccountTransferAccount record(s) deleted.\n", rowCount);
            return null;
          });

  dbClient
      .readWriteTransaction()
      .run(
          transaction -> {
            String sql = "DELETE FROM Account WHERE id = 2";
            long rowCount = transaction.executeUpdate(Statement.of(sql));
            System.out.printf("%d Account record(s) deleted.\n", rowCount);
            return null;
          });
}

Go

// Copyright 2024 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

package spanner


import (
	"context"
	"fmt"
	"io"

	"cloud.google.com/go/spanner"
)

func deleteGraphDataWithDml(w io.Writer, db string) error {
	ctx := context.Background()
	client, err := spanner.NewClient(ctx, db)
	if err != nil {
		return err
	}
	defer client.Close()

	// Execute a ReadWriteTransaction to update the 'AccountTransferAccount'
	// table underpinning 'AccountTransferAccount' edges in 'FinGraph'. The
	// function run by ReadWriteTransaction executes an 'DELETE' SQL DML
	// statement. This has the effect of deleting the 'AccountTransferAccount'
	// edge where the source 'id' is 1 and the destination 'id' is 2 from the graph.
	_, err1 := client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{SQL: `DELETE FROM AccountTransferAccount WHERE id = 1 AND to_id = 2`}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d AccountTransferAccount record(s) deleted.\n", rowCount)
		return nil
	})

	if err1 != nil {
		return err1
	}

	// Execute a ReadWriteTransaction to update the 'Account' table underpinning
	//'Account' nodes in 'FinGraph'. In 'FinGraph', nodes can only be deleted
	// after any edges referencing the nodes have been deleted first. The function
	// run by ReadWriteTransaction executes an 'DELETE' SQL DML statement. This has
	// the effect of deleting the 'Account' node whose 'id' is 1 from the graph.
	_, err2 := client.ReadWriteTransaction(ctx, func(ctx context.Context, txn *spanner.ReadWriteTransaction) error {
		stmt := spanner.Statement{SQL: `DELETE FROM Account WHERE id = 2`}
		rowCount, err := txn.Update(ctx, stmt)
		if err != nil {
			return err
		}
		fmt.Fprintf(w, "%d Account record(s) deleted.\n", rowCount)
		return nil
	})

	return err2
}

C++ 

void DeleteDataWithDml(google::cloud::spanner::Client client) {
  using ::google::cloud::StatusOr;
  namespace spanner = ::google::cloud::spanner;

  auto commit_result = client.Commit([&client](spanner::Transaction txn)
                                         -> StatusOr<spanner::Mutations> {
    auto deleted = client.ExecuteDml(
        std::move(txn),
        spanner::SqlStatement(
            "DELETE FROM AccountTransferAccount WHERE id = 1 AND to_id = 2"));
    if (!deleted) return std::move(deleted).status();
    return spanner::Mutations{};
  });
  if (!commit_result) throw std::move(commit_result).status();

  commit_result = client.Commit(
      [&client](spanner::Transaction txn) -> StatusOr<spanner::Mutations> {
        auto deleted = client.ExecuteDml(
            std::move(txn),
            spanner::SqlStatement("DELETE FROM Account WHERE id = 2"));
        if (!deleted) return std::move(deleted).status();
        return spanner::Mutations{};
      });
  if (!commit_result) throw std::move(commit_result).status();

  std::cout << "Delete was successful [spanner_delete_graph_data_with_dml]\n";
}

Puedes combinar las consultas de Spanner Graph con tu declaración DML, como se muestra en el siguiente ejemplo:

  -- Use Graph pattern matching to identify Account nodes to delete:
  DELETE FROM AccountTransferAccount
  WHERE id IN {
    GRAPH FinGraph
    MATCH (a:Account WHERE a.id = 1)-[:TRANSFERS]->(b:Account)
    RETURN b.id
  }

Opciones para mutar datos de gráficos

Puedes mutar automáticamente los datos de gráfico de las siguientes maneras:

Para actualizar y borrar de forma masiva y eficiente los nodos y los bordes del gráfico, usa la DML particionada.

¿Qué sigue?