Cómo trabajar con datos NUMERIC

Spanner admite un tipo de datos NUMERIC en las bases de datos de GoogleSQL y PostgreSQL.

NUMERIC de GoogleSQL

NUMERIC de GoogleSQL es un tipo de datos numéricos exacto capaz de representar un valor numérico exacto con una precisión de 38 y una escala de 9. En esta página, se proporciona una descripción general de cómo se representa NUMERIC en las bibliotecas cliente.

NUMERIC de PostgreSQL

El tipo NUMERIC de PostgreSQL es un tipo de datos numéricos de precisión decimal arbitraria con una precisión máxima (dígitos totales) de 147,455 y una escala máxima (dígitos a la derecha del punto decimal) de 16,383.

El DDL de Spanner no admite la especificación de precisión y escala para las columnas NUMERIC de PostgreSQL. Sin embargo, los valores numéricos se pueden convertir en valores de precisión fijos en declaraciones DML. Por ejemplo:

update t1 set numeric_column = (numeric_column*0.8)::numeric(5,2);

El tipo DECIMAL es un alias para NUMERIC.

Las columnas NUMERIC de PostgreSQL no se pueden usar cuando se especifican claves primarias, claves externas o índices secundarios.

Representa NUMERIC en cada idioma de la biblioteca cliente

Para mantener la fidelidad de los valores NUMERIC, cada biblioteca cliente de Spanner almacena esos valores en un tipo de datos apropiado en el lenguaje de la biblioteca cliente. En la siguiente tabla, se enumeran los tipos de datos a los que NUMERIC se asigna en cada lenguaje admitido.

lenguaje GoogleSQL PostgreSQL
C++ spanner::Numeric
C# SpannerNumeric
Go big.Rat PGNumérico personalizado
Java BigDecimal Tipo personalizado. Consulta las notas de la biblioteca de Java para PostgreSQL.
Node.js Grande
PHP Numeric personalizado
Python Decimal Decimal con anotación personalizada
Rita BigDecimal

Tres bibliotecas cliente, C++, C# y PHP, implementaron un tipo personalizado para representar el tipo NUMERIC de SQL de Spanner. Todas las demás bibliotecas usan un tipo existente.

El objeto spanner::Numeric de la biblioteca cliente C++ no admite operaciones aritméticas. En cambio, convierte el número que contiene en el objeto C++ que elijas. Por ejemplo, puedes extraer el número como una string, lo que representaría el número con fidelidad completa y sin pérdida de datos. Sin embargo, si sabes de antemano que el número encaja, por ejemplo, dentro del rango de std:int64_t o double, puedes acceder al valor como ese tipo.

Notas de la biblioteca de Java para PostgreSQL

La biblioteca cliente de Java de Spanner usa un tipo Value.pgNumeric personalizado para almacenar valores NUMERIC de PostgreSQL.

Escribir en una columna NUMERIC

Se admiten varios tipos cuando se escribe en una columna NUMERIC en una tabla de PostgreSQL.

  • Caracteres numéricos

    INSERT INTO Table (id, PgNumericColumn) VALUES (1, 1.23)

  • enteros

    INSERT INTO Table (id, PgNumericColumn) VALUES (1, 1)

  • Dobles

    INSERT INTO Table (id, PgNumericColumn) VALUES (1, 1.23::float8)

  • Literales sin tipo

    INSERT INTO Table (id, PgNumericColumn) VALUES (1, 'NaN')

Consultas con parámetros

Cuando uses consultas con parámetros, especifica los parámetros con $<index>, en el que <index> denota la posición del parámetro. Luego, el parámetro debe vincularse con p<index>. Por ejemplo, INSERT INTO MyTable (PgNumericColumn) VALUES ($1) con el parámetro p1.

La biblioteca cliente de Java admite los siguientes tipos como valores parametrizados:

  • Value.pgNumeric personalizada

    Statement
  .newBuilder("INSERT INTO MyTable (PgNumericColumn) VALUES ($1), ($2)")
  .bind("p1")
  .to(Value.pgNumeric("1.23"))
  .bind("p2")
  .to(Value.pgNumeric("NaN"))
  .build()

  • Dobles

    Statement
  .newBuilder("INSERT INTO MyTable (PgNumericColumn) VALUES ($1), ($2)")
  .bind("p1")
  .to(1.23D)
  .bind("p2")
  .to(Double.NaN)
  .build()

  • enteros

      Statement
    .newBuilder("INSERT INTO MyTable (PgNumericColumn) VALUES ($1)")
    .bind("p1")
    .to(1)
    .build()

  • Longs

      Statement
    .newBuilder("INSERT INTO MyTable (PgNumericColumn) VALUES ($1)")
    .bind("p1")
    .to(1L)
    .build()

Mutaciones

Cuando se utilizan mutaciones, los siguientes valores se pueden escribir en columnas de tipo numérico:

  • Strings

    Mutation
  .newInsertBuilder("MyTable")
  .set("PgNumericColumn")
  .to("1.23")
  .build()

  • Valores de los tipos de BigDecimal

    BigDecimals

    Mutation
  .newInsertBuilder("MyTable")
  .set("PgNumericColumn")
  .to(new BigDecimal("1.23"))
  .build()

    Ints

    Mutation
  .newInsertBuilder("MyTable")
  .set("PgNumericColumn")
  .to(1)
  .build()

    Longs

    Mutation
  .newInsertBuilder("MyTable")
  .set("PgNumericColumn")
  .to(1L)
  .build()

  • Valores obtenidos como resultado de una llamada a Value.pgNumeric

    Mutation
  .newInsertBuilder("MyTable")
  .set("PgNumericColumn")
  .to(Value.pgNumeric("1.23"))
  .build()

Recuperar de una columna NUMERIC

Para obtener valores almacenados en columnas numéricas de un ResultSet, usa ResultSet.getString() o ResultSet.getValue().

  • Strings

    resultSet.getString("PgNumericColumn")

  • Valor personalizado

    Value pgNumeric = resultSet.getValue("PgNumericColumn");
pgNumeric.getString(); // get underlying value as a String
pgNumeric.getNumeric(); // get underlying value as a BigDecimal
pgNumeric.getFloat64(); // get underlying value as aDouble

Agregar una columna NUMERIC

En el siguiente ejemplo, se muestra cómo agregar una columna NUMERIC a una tabla llamada Venues mediante las bibliotecas cliente de Spanner.

C++

void AddNumericColumn(google::cloud::spanner_admin::DatabaseAdminClient client,
                      std::string const& project_id,
                      std::string const& instance_id,
                      std::string const& database_id) {
  google::cloud::spanner::Database database(project_id, instance_id,
                                            database_id);
  auto metadata = client
                      .UpdateDatabaseDdl(database.FullName(), {R"""(
                        ALTER TABLE Venues ADD COLUMN Revenue NUMERIC)"""})
                      .get();
  if (!metadata) throw std::move(metadata).status();
  std::cout << "`Venues` table altered, new DDL:\n" << metadata->DebugString();
}

C#


using Google.Cloud.Spanner.Data;
using System;
using System.Threading.Tasks;

public class AddNumericColumnAsyncSample
{
    public async Task AddNumericColumnAsync(string projectId, string instanceId, string databaseId)
    {
        string connectionString = $"Data Source=projects/{projectId}/instances/{instanceId}/databases/{databaseId}";
        string alterStatement = "ALTER TABLE Venues ADD COLUMN Revenue NUMERIC";

        using var connection = new SpannerConnection(connectionString);
        using var updateCmd = connection.CreateDdlCommand(alterStatement);
        await updateCmd.ExecuteNonQueryAsync();
        Console.WriteLine("Added the Revenue column.");
    }
}

Go


import (
	"context"
	"fmt"
	"io"

	database "cloud.google.com/go/spanner/admin/database/apiv1"
	adminpb "google.golang.org/genproto/googleapis/spanner/admin/database/v1"
)

func addNumericColumn(ctx context.Context, w io.Writer, db string) error {
	adminClient, err := database.NewDatabaseAdminClient(ctx)
	if err != nil {
		return err
	}
	defer adminClient.Close()

	op, err := adminClient.UpdateDatabaseDdl(ctx, &adminpb.UpdateDatabaseDdlRequest{
		Database: db,
		Statements: []string{
			"ALTER TABLE Venues ADD COLUMN Revenue NUMERIC",
		},
	})
	if err != nil {
		return err
	}
	if err := op.Wait(ctx); err != nil {
		return err
	}
	fmt.Fprintf(w, "Added Revenue column\n")
	return nil
}

Java


import com.google.cloud.spanner.Spanner;
import com.google.cloud.spanner.SpannerOptions;
import com.google.cloud.spanner.admin.database.v1.DatabaseAdminClient;
import com.google.common.collect.ImmutableList;
import com.google.spanner.admin.database.v1.DatabaseName;
import java.util.concurrent.ExecutionException;

class AddNumericColumnSample {

  static void addNumericColumn() throws InterruptedException, ExecutionException {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "my-project";
    String instanceId = "my-instance";
    String databaseId = "my-database";

    addNumericColumn(projectId, instanceId, databaseId);
  }

  static void addNumericColumn(String projectId, String instanceId, String databaseId)
      throws InterruptedException, ExecutionException {
    try (Spanner spanner =
        SpannerOptions.newBuilder()
            .setProjectId(projectId)
            .build()
            .getService();
        DatabaseAdminClient databaseAdminClient = spanner.createDatabaseAdminClient()) {
      // Wait for the operation to finish.
      // This will throw an ExecutionException if the operation fails.
      databaseAdminClient.updateDatabaseDdlAsync(
          DatabaseName.of(projectId, instanceId, databaseId),
          ImmutableList.of("ALTER TABLE Venues ADD COLUMN Revenue NUMERIC")).get();
      System.out.printf("Successfully added column `Revenue`%n");
    }
  }
}

Node.js


/**
 * TODO(developer): Uncomment the following lines before running the sample.
 */
// const projectId = 'my-project-id';
// const instanceId = 'my-instance';
// const databaseId = 'my-database';

// Imports the Google Cloud client library
const {Spanner} = require('@google-cloud/spanner');

// creates a client
const spanner = new Spanner({
  projectId: projectId,
});

const databaseAdminClient = spanner.getDatabaseAdminClient();

const request = ['ALTER TABLE Venues ADD COLUMN Revenue NUMERIC'];

// Alter existing table to add a column.
const [operation] = await databaseAdminClient.updateDatabaseDdl({
  database: databaseAdminClient.databasePath(
    projectId,
    instanceId,
    databaseId
  ),
  statements: request,
});

console.log(`Waiting for operation on ${databaseId} to complete...`);

await operation.promise();

console.log(
  `Added Revenue column to Venues table in database ${databaseId}.`
);

PHP

use Google\Cloud\Spanner\Admin\Database\V1\Client\DatabaseAdminClient;
use Google\Cloud\Spanner\Admin\Database\V1\UpdateDatabaseDdlRequest;

/**
 * Adds a NUMERIC column to a table.
 * Example:
 * ```
 * add_numeric_column($projectId, $instanceId, $databaseId);
 * ```
 *
 * @param string $projectId The Google Cloud project ID.
 * @param string $instanceId The Spanner instance ID.
 * @param string $databaseId The Spanner database ID.
 */
function add_numeric_column(string $projectId, string $instanceId, string $databaseId): void
{
    $databaseAdminClient = new DatabaseAdminClient();
    $databaseName = DatabaseAdminClient::databaseName($projectId, $instanceId, $databaseId);

    $request = new UpdateDatabaseDdlRequest([
        'database' => $databaseName,
        'statements' => ['ALTER TABLE Venues ADD COLUMN Revenue NUMERIC']
    ]);

    $operation = $databaseAdminClient->updateDatabaseDdl($request);

    print('Waiting for operation to complete...' . PHP_EOL);
    $operation->pollUntilComplete();

    printf('Added Revenue as a NUMERIC column in Venues table' . PHP_EOL);
}

Python

def add_numeric_column(instance_id, database_id):
    """Adds a new NUMERIC column to the Venues table in the example database."""

    from google.cloud.spanner_admin_database_v1.types import \
        spanner_database_admin

    spanner_client = spanner.Client()
    database_admin_api = spanner_client.database_admin_api

    request = spanner_database_admin.UpdateDatabaseDdlRequest(
        database=database_admin_api.database_path(
            spanner_client.project, instance_id, database_id
        ),
        statements=["ALTER TABLE Venues ADD COLUMN Revenue NUMERIC"],
    )

    operation = database_admin_api.update_database_ddl(request)

    print("Waiting for operation to complete...")
    operation.result(OPERATION_TIMEOUT_SECONDS)

    print(
        'Altered table "Venues" on database {} on instance {}.'.format(
            database_id, instance_id
        )
    )

Rita

# project_id  = "Your Google Cloud project ID"
# instance_id = "Your Spanner instance ID"
# database_id = "Your Spanner database ID"

require "google/cloud/spanner"
require "google/cloud/spanner/admin/database"

database_admin_client = Google::Cloud::Spanner::Admin::Database.database_admin

db_path = database_admin_client.database_path project: project_id,
                                              instance: instance_id,
                                              database: database_id

job = database_admin_client.update_database_ddl database: db_path,
                                                statements: [
                                                  "ALTER TABLE Venues ADD COLUMN Revenue NUMERIC"
                                                ]

puts "Waiting for database update to complete"

job.wait_until_done!

puts "Added the Revenue as a numeric column in Venues table"

Actualizar datos de NUMERIC

En el siguiente ejemplo, se muestra cómo actualizar los datos de NUMERIC mediante las bibliotecas cliente de Spanner.

C++

void UpdateDataWithNumeric(google::cloud::spanner::Client client) {
  namespace spanner = ::google::cloud::spanner;
  auto insert_venues =
      spanner::InsertMutationBuilder(
          "Venues", {"VenueId", "VenueName", "Revenue", "LastUpdateTime"})
          .EmplaceRow(1, "Venue 1", spanner::MakeNumeric(35000).value(),
                      spanner::CommitTimestamp())
          .EmplaceRow(6, "Venue 6", spanner::MakeNumeric(104500).value(),
                      spanner::CommitTimestamp())
          .EmplaceRow(
              14, "Venue 14",
              spanner::MakeNumeric("99999999999999999999999999999.99").value(),
              spanner::CommitTimestamp())
          .Build();

  auto commit_result = client.Commit(spanner::Mutations{insert_venues});
  if (!commit_result) throw std::move(commit_result).status();
  std::cout
      << "Insert was successful [spanner_update_data_with_numeric_column]\n";
}

C#


using Google.Cloud.Spanner.Data;
using Google.Cloud.Spanner.V1;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;

public class UpdateDataWithNumericAsyncSample
{
    public class Venue
    {
        public int VenueId { get; set; }
        public SpannerNumeric Revenue { get; set; }
    }

    public async Task<int> UpdateDataWithNumericAsync(string projectId, string instanceId, string databaseId)
    {
        string connectionString = $"Data Source=projects/{projectId}/instances/{instanceId}/databases/{databaseId}";
        List<Venue> venues = new List<Venue>
        {
            new Venue { VenueId = 4, Revenue = SpannerNumeric.Parse("35000") },
            new Venue { VenueId = 19, Revenue = SpannerNumeric.Parse("104500") },
            new Venue { VenueId = 42, Revenue = SpannerNumeric.Parse("99999999999999999999999999999.99") },
        };
        // Create connection to Cloud Spanner.
        using var connection = new SpannerConnection(connectionString);
        await connection.OpenAsync();

        var affectedRows = await Task.WhenAll(venues.Select(venue =>
        {
            // Update rows in the Venues table.
            using var cmd = connection.CreateUpdateCommand("Venues", new SpannerParameterCollection
            {
                { "VenueId", SpannerDbType.Int64, venue.VenueId },
                { "Revenue", SpannerDbType.Numeric, venue.Revenue }
            });
            return cmd.ExecuteNonQueryAsync();
        }));

        Console.WriteLine("Data updated.");
        return affectedRows.Sum();
    }
}

Go

import (
	"context"
	"io"

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

func updateDataWithNumericColumn(w io.Writer, db string) error {
	ctx := context.Background()

	client, err := spanner.NewClient(ctx, db)
	if err != nil {
		return err
	}
	defer client.Close()

	cols := []string{"VenueId", "Revenue"}
	_, err = client.Apply(ctx, []*spanner.Mutation{
		spanner.Update("Venues", cols, []interface{}{4, "35000"}),
		spanner.Update("Venues", cols, []interface{}{19, "104500"}),
		spanner.Update("Venues", cols, []interface{}{42, "99999999999999999999999999999.99"}),
	})
	return err
}

Java

import com.google.cloud.spanner.DatabaseClient;
import com.google.cloud.spanner.DatabaseId;
import com.google.cloud.spanner.Mutation;
import com.google.cloud.spanner.Spanner;
import com.google.cloud.spanner.SpannerOptions;
import com.google.common.collect.ImmutableList;
import java.math.BigDecimal;

class UpdateNumericDataSample {

  static void updateNumericData() {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "my-project";
    String instanceId = "my-instance";
    String databaseId = "my-database";

    try (Spanner spanner =
        SpannerOptions.newBuilder().setProjectId(projectId).build().getService()) {
      DatabaseClient client =
          spanner.getDatabaseClient(DatabaseId.of(projectId, instanceId, databaseId));
      updateNumericData(client);
    }
  }

  static void updateNumericData(DatabaseClient client) {
    client.write(
        ImmutableList.of(
            Mutation.newInsertOrUpdateBuilder("Venues")
                .set("VenueId")
                .to(4L)
                .set("Revenue")
                .to(new BigDecimal("35000"))
                .build(),
            Mutation.newInsertOrUpdateBuilder("Venues")
                .set("VenueId")
                .to(19L)
                .set("Revenue")
                .to(new BigDecimal("104500"))
                .build(),
            Mutation.newInsertOrUpdateBuilder("Venues")
                .set("VenueId")
                .to(42L)
                .set("Revenue")
                .to(new BigDecimal("99999999999999999999999999999.99"))
                .build()));
    System.out.println("Venues successfully updated");
  }
}

Node.js

// Imports the Google Cloud client library.
const {Spanner} = require('@google-cloud/spanner');

/**
 * TODO(developer): Uncomment the following lines before running the sample.
 */
// const projectId = 'my-project-id';
// const instanceId = 'my-instance';
// const databaseId = 'my-database';

// Creates a client.
const spanner = new Spanner({
  projectId: projectId,
});

// Gets a reference to a Cloud Spanner instance and database.
const instance = spanner.instance(instanceId);
const database = instance.database(databaseId);

// Instantiate Spanner table objects.
const venuesTable = database.table('Venues');

const data = [
  {
    VenueId: '4',
    Revenue: Spanner.numeric('35000'),
    LastUpdateTime: 'spanner.commit_timestamp()',
  },
  {
    VenueId: '19',
    Revenue: Spanner.numeric('104500'),
    LastUpdateTime: 'spanner.commit_timestamp()',
  },
  {
    VenueId: '42',
    Revenue: Spanner.numeric('99999999999999999999999999999.99'),
    LastUpdateTime: 'spanner.commit_timestamp()',
  },
];

// Updates rows in the Venues table.
try {
  await venuesTable.update(data);
  console.log('Updated data.');
} catch (err) {
  console.error('ERROR:', err);
} finally {
  // Close the database when finished.
  database.close();
}

PHP

use Google\Cloud\Spanner\SpannerClient;

/**
 * Updates sample data in a table with a NUMERIC column.
 *
 * Before executing this method, a new column Revenue has to be added to the Venues
 * table by applying the DDL statement "ALTER TABLE Venues ADD COLUMN Revenue NUMERIC".
 *
 * Example:
 * ```
 * update_data_with_numeric_column($instanceId, $databaseId);
 * ```
 *
 * @param string $instanceId The Spanner instance ID.
 * @param string $databaseId The Spanner database ID.
 */
function update_data_with_numeric_column(string $instanceId, string $databaseId): void
{
    $spanner = new SpannerClient();
    $instance = $spanner->instance($instanceId);
    $database = $instance->database($databaseId);

    $database->transaction(['singleUse' => true])
        ->updateBatch('Venues', [
            ['VenueId' => 4, 'Revenue' => $spanner->numeric('35000')],
            ['VenueId' => 19, 'Revenue' => $spanner->numeric('104500')],
            ['VenueId' => 42, 'Revenue' => $spanner->numeric('99999999999999999999999999999.99')],
        ])
        ->commit();

    print('Updated data.' . PHP_EOL);
}

Python

def update_data_with_numeric(instance_id, database_id):
    """Updates Venues tables in the database with the NUMERIC
    column.

    This updates the `Revenue` column which must be created before
    running this sample. You can add the column by running the
    `add_numeric_column` sample or by running this DDL statement
     against your database:

        ALTER TABLE Venues ADD COLUMN Revenue NUMERIC
    """
    spanner_client = spanner.Client()
    instance = spanner_client.instance(instance_id)

    database = instance.database(database_id)

    with database.batch() as batch:
        batch.update(
            table="Venues",
            columns=("VenueId", "Revenue"),
            values=[
                (4, decimal.Decimal("35000")),
                (19, decimal.Decimal("104500")),
                (42, decimal.Decimal("99999999999999999999999999999.99")),
            ],
        )

    print("Updated data.")

Rita

# project_id  = "Your Google Cloud project ID"
# instance_id = "Your Spanner instance ID"
# database_id = "Your Spanner database ID"

require "google/cloud/spanner"

spanner = Google::Cloud::Spanner.new project: project_id
client  = spanner.client instance_id, database_id

client.commit do |c|
  c.update "Venues", [
    { VenueId: 4, Revenue: "35000" },
    { VenueId: 19, Revenue: "104500" },
    { VenueId: 42, Revenue: "99999999999999999999999999999.99" }
  ]
end

puts "Updated data"

Consulta datos NUMERIC

En el siguiente ejemplo, se muestra cómo consultar datos de NUMERIC mediante las bibliotecas cliente de Spanner.

C++

void QueryWithNumericParameter(google::cloud::spanner::Client client) {
  namespace spanner = ::google::cloud::spanner;

  auto revenue = spanner::MakeNumeric(100000).value();
  spanner::SqlStatement select(
      "SELECT VenueId, Revenue"
      "  FROM Venues"
      " WHERE Revenue < @revenue",
      {{"revenue", spanner::Value(std::move(revenue))}});
  using RowType = std::tuple<std::int64_t, absl::optional<spanner::Numeric>>;

  auto rows = client.ExecuteQuery(std::move(select));
  for (auto& row : spanner::StreamOf<RowType>(rows)) {
    if (!row) throw std::move(row).status();
    std::cout << "VenueId: " << std::get<0>(*row) << "\t";
    auto revenue = std::get<1>(*row).value();
    std::cout << "Revenue: " << revenue.ToString()
              << " (d.16=" << std::setprecision(16)
              << spanner::ToDouble(revenue)
              << ", i*10^2=" << spanner::ToInteger<int>(revenue, 2).value()
              << ")\n";
  }
}

C#


using Google.Cloud.Spanner.Data;
using Google.Cloud.Spanner.V1;
using System.Collections.Generic;
using System.Threading.Tasks;

public class QueryDataWithNumericParameterAsyncSample
{
    public class Venue
    {
        public int VenueId { get; set; }
        public SpannerNumeric Revenue { get; set; }
    }

    public async Task<List<Venue>> QueryDataWithNumericParameterAsync(string projectId, string instanceId, string databaseId)
    {
        string connectionString = $"Data Source=projects/{projectId}/instances/{instanceId}/databases/{databaseId}";

        using var connection = new SpannerConnection(connectionString);
        using var cmd = connection.CreateSelectCommand(
            "SELECT VenueId, Revenue FROM Venues WHERE Revenue < @maxRevenue",
            new SpannerParameterCollection
            {
                { "maxRevenue", SpannerDbType.Numeric, SpannerNumeric.Parse("100000") }
            });

        var venues = new List<Venue>();
        using var reader = await cmd.ExecuteReaderAsync();
        while (await reader.ReadAsync())
        {
            venues.Add(new Venue
            {
                VenueId = reader.GetFieldValue<int>("VenueId"),
                Revenue = reader.GetFieldValue<SpannerNumeric>("Revenue")
            });
        }
        return venues;
    }
}

Go


import (
	"context"
	"fmt"
	"io"
	"math/big"

	"cloud.google.com/go/spanner"
	"google.golang.org/api/iterator"
)

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

	stmt := spanner.Statement{
		SQL: `SELECT VenueId, Revenue FROM Venues WHERE Revenue < @revenue`,
		Params: map[string]interface{}{
			"revenue": big.NewRat(100000, 1),
		},
	}
	iter := client.Single().Query(ctx, stmt)
	defer iter.Stop()
	for {
		row, err := iter.Next()
		if err == iterator.Done {
			return nil
		}
		if err != nil {
			return err
		}
		var venueID int64
		var revenue big.Rat
		if err := row.Columns(&venueID, &revenue); err != nil {
			return err
		}
		fmt.Fprintf(w, "%v %v\n", venueID, revenue)
	}
}

Java

import com.google.cloud.spanner.DatabaseClient;
import com.google.cloud.spanner.DatabaseId;
import com.google.cloud.spanner.ResultSet;
import com.google.cloud.spanner.Spanner;
import com.google.cloud.spanner.SpannerOptions;
import com.google.cloud.spanner.Statement;
import java.math.BigDecimal;

class QueryWithNumericParameterSample {

  static void queryWithNumericParameter() {
    // TODO(developer): Replace these variables before running the sample.
    String projectId = "my-project";
    String instanceId = "my-instance";
    String databaseId = "my-database";

    try (Spanner spanner =
        SpannerOptions.newBuilder().setProjectId(projectId).build().getService()) {
      DatabaseClient client =
          spanner.getDatabaseClient(DatabaseId.of(projectId, instanceId, databaseId));
      queryWithNumericParameter(client);
    }
  }

  static void queryWithNumericParameter(DatabaseClient client) {
    Statement statement =
        Statement.newBuilder(
                "SELECT VenueId, Revenue FROM Venues WHERE Revenue < @numeric")
            .bind("numeric")
            .to(new BigDecimal("100000"))
            .build();
    try (ResultSet resultSet = client.singleUse().executeQuery(statement)) {
      while (resultSet.next()) {
        System.out.printf(
            "%d %s%n", resultSet.getLong("VenueId"), resultSet.getBigDecimal("Revenue"));
      }
    }
  }
}

Node.js

// Imports the Google Cloud client library.
const {Spanner} = require('@google-cloud/spanner');

/**
 * TODO(developer): Uncomment the following lines before running the sample.
 */
// const projectId = 'my-project-id';
// const instanceId = 'my-instance';
// const databaseId = 'my-database';

// Creates a client
const spanner = new Spanner({
  projectId: projectId,
});

// Gets a reference to a Cloud Spanner instance and database.
const instance = spanner.instance(instanceId);
const database = instance.database(databaseId);

const fieldType = {
  type: 'numeric',
};

const exampleNumeric = Spanner.numeric('100000');

const query = {
  sql: `SELECT VenueId, VenueName, Revenue FROM Venues
          WHERE Revenue < @revenue`,
  params: {
    revenue: exampleNumeric,
  },
  types: {
    revenue: fieldType,
  },
};

// Queries rows from the Venues table.
try {
  const [rows] = await database.run(query);

  rows.forEach(row => {
    const json = row.toJSON();
    console.log(`VenueId: ${json.VenueId}, Revenue: ${json.Revenue.value}`);
  });
} catch (err) {
  console.error('ERROR:', err);
} finally {
  // Close the database when finished.
  database.close();
}

PHP

use Google\Cloud\Spanner\SpannerClient;
use Google\Cloud\Spanner\Database;

/**
 * Queries sample data from the database using SQL with a NUMERIC parameter.
 * Example:
 * ```
 * query_data_with_numeric_parameter($instanceId, $databaseId);
 * ```
 *
 * @param string $instanceId The Spanner instance ID.
 * @param string $databaseId The Spanner database ID.
 */
function query_data_with_numeric_parameter(string $instanceId, string $databaseId): void
{
    $spanner = new SpannerClient();
    $instance = $spanner->instance($instanceId);
    $database = $instance->database($databaseId);

    $exampleNumeric = $spanner->numeric('100000');

    $results = $database->execute(
        'SELECT VenueId, Revenue FROM Venues ' .
        'WHERE Revenue < @revenue',
        [
            'parameters' => [
                'revenue' => $exampleNumeric
            ]
        ]
    );

    foreach ($results as $row) {
        printf('VenueId: %s, Revenue: %s' . PHP_EOL,
            $row['VenueId'], $row['Revenue']);
    }
}

Python

# instance_id = "your-spanner-instance"
# database_id = "your-spanner-db-id"
spanner_client = spanner.Client()
instance = spanner_client.instance(instance_id)
database = instance.database(database_id)

example_numeric = decimal.Decimal("100000")
param = {"revenue": example_numeric}
param_type = {"revenue": param_types.NUMERIC}

with database.snapshot() as snapshot:
    results = snapshot.execute_sql(
        "SELECT VenueId, Revenue FROM Venues " "WHERE Revenue < @revenue",
        params=param,
        param_types=param_type,
    )

    for row in results:
        print("VenueId: {}, Revenue: {}".format(*row))

Rita

# project_id  = "Your Google Cloud project ID"
# instance_id = "Your Spanner instance ID"
# database_id = "Your Spanner database ID"

require "google/cloud/spanner"
require "bigdecimal"

spanner = Google::Cloud::Spanner.new project: project_id
client  = spanner.client instance_id, database_id

sql_query = "SELECT VenueId, Revenue FROM Venues WHERE Revenue < @revenue"

params      = { revenue: BigDecimal("100000") }
param_types = { revenue: :NUMERIC }

client.execute(sql_query, params: params, types: param_types).rows.each do |row|
  puts "#{row[:VenueId]} #{row[:Revenue]}"
end

NUMERIC es compatible con el controlador JDBC de Spanner mediante el tipo BigDecimal de Java. Para ver ejemplos de cómo se usa NUMERIC, consulta las muestras de código en Cómo conectar JDBC a una base de datos de dialecto de GoogleSQL.

Controla NUMERIC al crear una biblioteca cliente o un controlador

El tipo NUMERIC se codifica como una string en notación decimal o científica dentro de un .proto google.protobuf.Value. Este .proto se une como ResultSet, PartialResultSet o Mutation según si se lee o se escribe. ResultSetMetadata usará el TypeCode NUMERIC para indicar que el valor correspondiente debe leerse como un NUMERIC.

Cuando trabajes con NUMERIC en una biblioteca cliente o un controlador que creas, observa la siguiente guía.

  • Para leer un NUMERIC desde el ResultSet, haz lo siguiente:

    1. Lee el string_value del proto google.protobuf.Value cuando TypeCode es NUMERIC

    2. Convierte esa string en el tipo correspondiente para el idioma específico

  • Para escribir un NUMERIC mediante mutaciones, usa la representación de string como string_value en el proto google.protobuf.Value cuando se le otorgue el tipo relevante.