Loading JSON data from Cloud Storage

Console

1. In the Google Cloud console, go to the BigQuery page.

   Go to BigQuery

2. In the left pane, click explore Explorer.
3. In the Explorer pane, expand your project, click Datasets, and then select a dataset.
4. In the Dataset info section, click add_box Create table.
5. In the Create table pane, specify the following details:
1. In the Source section, select Google Cloud Storage in the Create table from list. Then, do the following:
   1. Select a file from the Cloud Storage bucket, or enter the Cloud Storage URI. You cannot include multiple URIs in the Google Cloud console, but wildcards are supported. The Cloud Storage bucket must be in the same location as the dataset that contains the table you want to create, append, or overwrite.
   2. For File format, select JSONL (Newline delimited JSON).
2. In the Destination section, specify the following details:
   1. For Dataset, select the dataset in which you want to create the table.
   2. In the Table field, enter the name of the table that you want to create.
   3. Verify that the Table type field is set to Native table.
3. In the Schema section, enter the schema definition. To enable the auto detection of a schema, select Auto detect. You can enter schema information manually by using one of the following methods:
   • Option 1: Click Edit as text and paste the schema in the form of a JSON array. When you use a JSON array, you generate the schema using the same process as creating a JSON schema file. You can view the schema of an existing table in JSON format by entering the following command:

         bq show --format=prettyjson dataset.table
         

   • Option 2: Click add_box Add field and enter the table schema. Specify each field's Name, Type, and Mode.
4. Optional: Specify Partition and cluster settings. For more information, see Creating partitioned tables and Creating and using clustered tables.
5. Click Advanced options and do the following:
   • For Write preference, leave Write if empty selected. This option creates a new table and loads your data into it.
   • For Number of errors allowed, accept the default value of 0 or enter the maximum number of rows containing errors that can be ignored. If the number of rows with errors exceeds this value, the job will result in an invalid message and fail. This option applies only to CSV and JSON files.
   • For Time zone, enter the default time zone that will apply when parsing timestamp values that have no specific time zone. Check here for more valid time zone names. If this value is not present, the timestamp values without specific time zone is parsed using default time zone UTC.
   • For Date Format, enter the format elements that define how the DATE values are formatted in the input files. This field expects SQL styles format (for example, MM/DD/YYYY). If this value is present, this format is the only compatible DATE format. Schema autodetection will also decide DATE column type based on this format instead of the existing format. If this value is not present, the DATE field is parsed with the default formats.
   • For Datetime Format, enter the format elements that define how the DATETIME values are formatted in the input files. This field expects SQL styles format (for example, MM/DD/YYYY HH24:MI:SS.FF3). If this value is present, this format is the only compatible DATETIME format. Schema autodetection will also decide DATETIME column type based on this format instead of the existing format. If this value is not present, the DATETIME field is parsed with the default formats.
   • For Time Format, enter the format elements that define how the TIME values are formatted in the input files. This field expects SQL styles format (for example, HH24:MI:SS.FF3). If this value is present, this format is the only compatible TIME format. Schema autodetection will also decide TIME column type based on this format instead of the existing format. If this value is not present, the TIME field is parsed with the default formats.
   • For Timestamp Format, enter the format elements that define how the TIMESTAMP values are formatted in the input files. This field expects SQL styles format (for example, MM/DD/YYYY HH24:MI:SS.FF3). If this value is present, this format is the only compatible TIMESTAMP format. Schema autodetection will also decide TIMESTAMP column type based on this format instead of the existing format. If this value is not present, the TIMESTAMP field is parsed with the default formats.
   • If you want to ignore values in a row that are not present in the table's schema, then select Unknown values.
   • For Encryption, click Customer-managed key to use a Cloud Key Management Service key. If you leave the Google-managed key setting, BigQuery encrypts the data at rest.
6. Click Create table.

SQL

Use the LOAD DATA DDL statement. The following example loads a JSON file into the new table mytable:

1. In the Google Cloud console, go to the BigQuery page.

   Go to BigQuery

2. In the query editor, enter the following statement:

   LOAD DATA OVERWRITE mydataset.mytable
   (x INT64,y STRING)
   FROM FILES (
     format = 'JSON',
     uris = ['gs://bucket/path/file.json']);

3. Click play_circle Run.

For more information about how to run queries, see Run an interactive query.

bq

Use the bq load command, specify NEWLINE_DELIMITED_JSON using the --source_format flag, and include a Cloud Storage URI. You can include a single URI, a comma-separated list of URIs, or a URI containing a wildcard. Supply the schema inline, in a schema definition file, or use schema auto-detect.

(Optional) Supply the --location flag and set the value to your location.

Other optional flags include:

• --max_bad_records: An integer that specifies the maximum number of bad records allowed before the entire job fails. The default value is 0. At most, five errors of any type are returned regardless of the --max_bad_records value.
• --ignore_unknown_values: When specified, allows and ignores extra, unrecognized values in CSV or JSON data.
• --time_zone: (Preview) An optional default time zone that will apply when parsing timestamp values that have no specific time zone in CSV or JSON data.
• --date_format: (Preview) An optional custom string that defines how the DATE values are formatted in CSV or JSON data.
• --datetime_format: (Preview) An optional custom string that defines how the DATETIME values are formatted in CSV or JSON data.
• --time_format: (Preview) An optional custom string that defines how the TIME values are formatted in CSV or JSON data.
• --timestamp_format: (Preview) An optional custom string that defines how the TIMESTAMP values are formatted in CSV or JSON data.
• --autodetect: When specified, enable schema auto-detection for CSV and JSON data.
• --time_partitioning_type: Enables time-based partitioning on a table and sets the partition type. Possible values are HOUR, DAY, MONTH, and YEAR. This flag is optional when you create a table partitioned on a DATE, DATETIME, or TIMESTAMP column. The default partition type for time-based partitioning is DAY. You cannot change the partitioning specification on an existing table.
• --time_partitioning_expiration: An integer that specifies (in seconds) when a time-based partition should be deleted. The expiration time evaluates to the partition's UTC date plus the integer value.
• --time_partitioning_field: The DATE or TIMESTAMP column used to create a partitioned table. If time-based partitioning is enabled without this value, an ingestion-time partitioned table is created.
• --require_partition_filter: When enabled, this option requires users to include a WHERE clause that specifies the partitions to query. Requiring a partition filter can reduce cost and improve performance. For more information, see Require a partition filter in queries.
• --clustering_fields: A comma-separated list of up to four column names used to create a clustered table.

• --destination_kms_key: The Cloud KMS key for encryption of the table data.

  For more information on partitioned tables, see:

  • Creating partitioned tables

  For more information on clustered tables, see:

  • Creating and using clustered tables

  For more information on table encryption, see:

  • Protecting data with Cloud KMS keys

To load JSON data into BigQuery, enter the following command:

bq --location=LOCATION load \
--source_format=FORMAT \
DATASET.TABLE \
PATH_TO_SOURCE \
SCHEMA

Replace the following:

• LOCATION: your location. The --location flag is optional. For example, if you are using BigQuery in the Tokyo region, you can set the flag's value to asia-northeast1. You can set a default value for the location using the .bigqueryrc file.
• FORMAT: NEWLINE_DELIMITED_JSON.
• DATASET: an existing dataset.
• TABLE: the name of the table into which you're loading data.
• PATH_TO_SOURCE: a fully qualified Cloud Storage URI or a comma-separated list of URIs. Wildcards are also supported.
• SCHEMA: a valid schema. The schema can be a local JSON file, or it can be typed inline as part of the command. If you use a schema file, do not give it an extension. You can also use the --autodetect flag instead of supplying a schema definition.

Examples:

The following command loads data from gs://mybucket/mydata.json into a table named mytable in mydataset. The schema is defined in a local schema file named myschema.

    bq load \
    --source_format=NEWLINE_DELIMITED_JSON \
    mydataset.mytable \
    gs://mybucket/mydata.json \
    ./myschema

The following command loads data from gs://mybucket/mydata.json into a new ingestion-time partitioned table named mytable in mydataset. The schema is defined in a local schema file named myschema.

    bq load \
    --source_format=NEWLINE_DELIMITED_JSON \
    --time_partitioning_type=DAY \
    mydataset.mytable \
    gs://mybucket/mydata.json \
    ./myschema

The following command loads data from gs://mybucket/mydata.json into a partitioned table named mytable in mydataset. The table is partitioned on the mytimestamp column. The schema is defined in a local schema file named myschema.

    bq load \
    --source_format=NEWLINE_DELIMITED_JSON \
    --time_partitioning_field mytimestamp \
    mydataset.mytable \
    gs://mybucket/mydata.json \
    ./myschema

The following command loads data from gs://mybucket/mydata.json into a table named mytable in mydataset. The schema is auto-detected.

    bq load \
    --autodetect \
    --source_format=NEWLINE_DELIMITED_JSON \
    mydataset.mytable \
    gs://mybucket/mydata.json

The following command loads data from gs://mybucket/mydata.json into a table named mytable in mydataset. The schema is defined inline in the format FIELD:DATA_TYPE, FIELD:DATA_TYPE.

    bq load \
    --source_format=NEWLINE_DELIMITED_JSON \
    mydataset.mytable \
    gs://mybucket/mydata.json \
    qtr:STRING,sales:FLOAT,year:STRING

The following command loads data from multiple files in gs://mybucket/ into a table named mytable in mydataset. The Cloud Storage URI uses a wildcard. The schema is auto-detected.

    bq load \
    --autodetect \
    --source_format=NEWLINE_DELIMITED_JSON \
    mydataset.mytable \
    gs://mybucket/mydata*.json

The following command loads data from multiple files in gs://mybucket/ into a table named mytable in mydataset. The command includes a comma- separated list of Cloud Storage URIs with wildcards. The schema is defined in a local schema file named myschema.

    bq load \
    --source_format=NEWLINE_DELIMITED_JSON \
    mydataset.mytable \
    "gs://mybucket/00/*.json","gs://mybucket/01/*.json" \
    ./myschema

API

1. Create a load job that points to the source data in Cloud Storage.

2. (Optional) Specify your location in the location property in the jobReference section of the job resource.

3. The source URIs property must be fully qualified, in the format gs://BUCKET/OBJECT. Each URI can contain one '*' wildcard character.

4. Specify the JSON data format by setting the sourceFormat property to NEWLINE_DELIMITED_JSON.

5. To check the job status, call jobs.get(JOB_ID*), replacing JOB_ID with the ID of the job returned by the initial request.

   • If status.state = DONE, the job completed successfully.
   • If the status.errorResult property is present, the request failed, and that object includes information describing what went wrong. When a request fails, no table is created and no data is loaded.
   • If status.errorResult is absent, the job finished successfully; although, there might have been some nonfatal errors, such as problems importing a few rows. Nonfatal errors are listed in the returned job object's status.errors property.

API notes:

• Load jobs are atomic and consistent; if a load job fails, none of the data is available, and if a load job succeeds, all of the data is available.

• As a best practice, generate a unique ID and pass it as jobReference.jobId when calling jobs.insert to create a load job. This approach is more robust to network failure because the client can poll or retry on the known job ID.

• Calling jobs.insert on a given job ID is idempotent. You can retry as many times as you like on the same job ID, and at most, one of those operations succeed.

C#

using Google.Apis.Bigquery.v2.Data;
using Google.Cloud.BigQuery.V2;
using System;

public class BigQueryLoadTableGcsJson
{
    public void LoadTableGcsJson(
        string projectId = "your-project-id",
        string datasetId = "your_dataset_id"
    )
    {
        BigQueryClient client = BigQueryClient.Create(projectId);
        var gcsURI = "gs://cloud-samples-data/bigquery/us-states/us-states.json";
        var dataset = client.GetDataset(datasetId);
        var schema = new TableSchemaBuilder {
            { "name", BigQueryDbType.String },
            { "post_abbr", BigQueryDbType.String }
        }.Build();
        TableReference destinationTableRef = dataset.GetTableReference(
            tableId: "us_states");
        // Create job configuration
        var jobOptions = new CreateLoadJobOptions()
        {
            SourceFormat = FileFormat.NewlineDelimitedJson
        };
        // Create and run job
        BigQueryJob loadJob = client.CreateLoadJob(
            sourceUri: gcsURI, destination: destinationTableRef,
            schema: schema, options: jobOptions);
        loadJob = loadJob.PollUntilCompleted().ThrowOnAnyError();  // Waits for the job to complete.
        // Display the number of rows uploaded
        BigQueryTable table = client.GetTable(destinationTableRef);
        Console.WriteLine(
            $"Loaded {table.Resource.NumRows} rows to {table.FullyQualifiedId}");
    }
}

Go

import (
	"context"
	"fmt"

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

// importJSONExplicitSchema demonstrates loading newline-delimited JSON data from Cloud Storage
// into a BigQuery table and providing an explicit schema for the data.
func importJSONExplicitSchema(projectID, datasetID, tableID string) error {
	// projectID := "my-project-id"
	// datasetID := "mydataset"
	// tableID := "mytable"
	ctx := context.Background()
	client, err := bigquery.NewClient(ctx, projectID)
	if err != nil {
		return fmt.Errorf("bigquery.NewClient: %v", err)
	}
	defer client.Close()

	gcsRef := bigquery.NewGCSReference("gs://cloud-samples-data/bigquery/us-states/us-states.json")
	gcsRef.SourceFormat = bigquery.JSON
	gcsRef.Schema = bigquery.Schema{
		{Name: "name", Type: bigquery.StringFieldType},
		{Name: "post_abbr", Type: bigquery.StringFieldType},
	}
	loader := client.Dataset(datasetID).Table(tableID).LoaderFrom(gcsRef)
	loader.WriteDisposition = bigquery.WriteEmpty

	job, err := loader.Run(ctx)
	if err != nil {
		return err
	}
	status, err := job.Wait(ctx)
	if err != nil {
		return err
	}

	if status.Err() != nil {
		return fmt.Errorf("job completed with error: %v", status.Err())
	}
	return nil
}

Java

import com.google.cloud.bigquery.BigQuery;
import com.google.cloud.bigquery.BigQueryException;
import com.google.cloud.bigquery.BigQueryOptions;
import com.google.cloud.bigquery.Field;
import com.google.cloud.bigquery.FormatOptions;
import com.google.cloud.bigquery.Job;
import com.google.cloud.bigquery.JobInfo;
import com.google.cloud.bigquery.LoadJobConfiguration;
import com.google.cloud.bigquery.Schema;
import com.google.cloud.bigquery.StandardSQLTypeName;
import com.google.cloud.bigquery.TableId;

// Sample to load JSON data from Cloud Storage into a new BigQuery table
public class LoadJsonFromGCS {

  public static void runLoadJsonFromGCS() {
    // TODO(developer): Replace these variables before running the sample.
    String datasetName = "MY_DATASET_NAME";
    String tableName = "MY_TABLE_NAME";
    String sourceUri = "gs://cloud-samples-data/bigquery/us-states/us-states.json";
    Schema schema =
        Schema.of(
            Field.of("name", StandardSQLTypeName.STRING),
            Field.of("post_abbr", StandardSQLTypeName.STRING));
    loadJsonFromGCS(datasetName, tableName, sourceUri, schema);
  }

  public static void loadJsonFromGCS(
      String datasetName, String tableName, String sourceUri, Schema schema) {
    try {
      // Initialize client that will be used to send requests. This client only needs to be created
      // once, and can be reused for multiple requests.
      BigQuery bigquery = BigQueryOptions.getDefaultInstance().getService();

      TableId tableId = TableId.of(datasetName, tableName);
      LoadJobConfiguration loadConfig =
          LoadJobConfiguration.newBuilder(tableId, sourceUri)
              .setFormatOptions(FormatOptions.json())
              .setSchema(schema)
              .build();

      // Load data from a GCS JSON file into the table
      Job job = bigquery.create(JobInfo.of(loadConfig));
      // Blocks until this load table job completes its execution, either failing or succeeding.
      job = job.waitFor();
      if (job.isDone()) {
        System.out.println("Json from GCS successfully loaded in a table");
      } else {
        System.out.println(
            "BigQuery was unable to load into the table due to an error:"
                + job.getStatus().getError());
      }
    } catch (BigQueryException | InterruptedException e) {
      System.out.println("Column not added during load append \n" + e.toString());
    }
  }
}

Node.js

// Import the Google Cloud client libraries
const {BigQuery} = require('@google-cloud/bigquery');
const {Storage} = require('@google-cloud/storage');

// Instantiate clients
const bigquery = new BigQuery();
const storage = new Storage();

/**
 * This sample loads the json file at
 * https://storage.googleapis.com/cloud-samples-data/bigquery/us-states/us-states.json
 *
 * TODO(developer): Replace the following lines with the path to your file.
 */
const bucketName = 'cloud-samples-data';
const filename = 'bigquery/us-states/us-states.json';

async function loadJSONFromGCS() {
  // Imports a GCS file into a table with manually defined schema.

  /**
   * TODO(developer): Uncomment the following lines before running the sample.
   */
  // const datasetId = "my_dataset";
  // const tableId = "my_table";

  // Configure the load job. For full list of options, see:
  // https://cloud.google.com/bigquery/docs/reference/rest/v2/Job#JobConfigurationLoad
  const metadata = {
    sourceFormat: 'NEWLINE_DELIMITED_JSON',
    schema: {
      fields: [
        {name: 'name', type: 'STRING'},
        {name: 'post_abbr', type: 'STRING'},
      ],
    },
    location: 'US',
  };

  // Load data from a Google Cloud Storage file into the table
  const [job] = await bigquery
    .dataset(datasetId)
    .table(tableId)
    .load(storage.bucket(bucketName).file(filename), metadata);
  // load() waits for the job to finish
  console.log(`Job ${job.id} completed.`);

  // Check the job's status for errors
  const errors = job.status.errors;
  if (errors && errors.length > 0) {
    throw errors;
  }
}

PHP

use Google\Cloud\BigQuery\BigQueryClient;
use Google\Cloud\Core\ExponentialBackoff;

/** Uncomment and populate these variables in your code */
// $projectId  = 'The Google project ID';
// $datasetId  = 'The BigQuery dataset ID';

// instantiate the bigquery table service
$bigQuery = new BigQueryClient([
    'projectId' => $projectId,
]);
$dataset = $bigQuery->dataset($datasetId);
$table = $dataset->table('us_states');

// create the import job
$gcsUri = 'gs://cloud-samples-data/bigquery/us-states/us-states.json';
$schema = [
    'fields' => [
        ['name' => 'name', 'type' => 'string'],
        ['name' => 'post_abbr', 'type' => 'string']
    ]
];
$loadConfig = $table->loadFromStorage($gcsUri)->schema($schema)->sourceFormat('NEWLINE_DELIMITED_JSON');
$job = $table->runJob($loadConfig);
// poll the job until it is complete
$backoff = new ExponentialBackoff(10);
$backoff->execute(function () use ($job) {
    print('Waiting for job to complete' . PHP_EOL);
    $job->reload();
    if (!$job->isComplete()) {
        throw new Exception('Job has not yet completed', 500);
    }
});
// check if the job has errors
if (isset($job->info()['status']['errorResult'])) {
    $error = $job->info()['status']['errorResult']['message'];
    printf('Error running job: %s' . PHP_EOL, $error);
} else {
    print('Data imported successfully' . PHP_EOL);
}

Python

from google.cloud import bigquery

# Construct a BigQuery client object.
client = bigquery.Client()

# TODO(developer): Set table_id to the ID of the table to create.
# table_id = "your-project.your_dataset.your_table_name"

job_config = bigquery.LoadJobConfig(
    schema=[
        bigquery.SchemaField("name", "STRING"),
        bigquery.SchemaField("post_abbr", "STRING"),
    ],
    source_format=bigquery.SourceFormat.NEWLINE_DELIMITED_JSON,
)
uri = "gs://cloud-samples-data/bigquery/us-states/us-states.json"

load_job = client.load_table_from_uri(
    uri,
    table_id,
    location="US",  # Must match the destination dataset location.
    job_config=job_config,
)  # Make an API request.

load_job.result()  # Waits for the job to complete.

destination_table = client.get_table(table_id)
print("Loaded {} rows.".format(destination_table.num_rows))

Ruby