Loading JSON data from Cloud Storage
You can load newline-delimited JSON (ndJSON) data from Cloud Storage into a new table or partition, or append to or overwrite an existing table or partition. When your data is loaded into BigQuery, it is converted into columnar format for Capacitor (BigQuery's storage format).
When you load data from Cloud Storage into a BigQuery table, the dataset that contains the table must be in the same regional or multi- regional location as the Cloud Storage bucket.
The ndJSON format is the same format as the JSON Lines format.
Limitations
You are subject to the following limitations when you load data into BigQuery from a Cloud Storage bucket:
- If your dataset's location is set to a value other than the
US
multi-region, then the Cloud Storage bucket must be in the same region or contained in the same multi-region as the dataset. - BigQuery does not guarantee data consistency for external data sources. Changes to the underlying data while a query is running can result in unexpected behavior.
- BigQuery does not support Cloud Storage object versioning. If you include a generation number in the Cloud Storage URI, then the load job fails.
When you load JSON files into BigQuery, note the following:
- JSON data must be newline delimited, or ndJSON. Each JSON object must be on a separate line in the file.
- If you use gzip compression, BigQuery cannot read the data in parallel. Loading compressed JSON data into BigQuery is slower than loading uncompressed data.
- You cannot include both compressed and uncompressed files in the same load job.
- The maximum size for a gzip file is 4 GB.
BigQuery supports the
JSON
type even if schema information is not known at the time of ingestion. A field that is declared asJSON
type is loaded with the raw JSON values.If you use the BigQuery API to load an integer outside the range of [-253+1, 253-1] (usually this means larger than 9,007,199,254,740,991), into an integer (INT64) column, pass it as a string to avoid data corruption. This issue is caused by a limitation on integer size in JSON or ECMAScript. For more information, see the Numbers section of RFC 7159.
- When you load CSV or JSON data, values in
DATE
columns must use the dash (-
) separator and the date must be in the following format:YYYY-MM-DD
(year-month-day). - When you load JSON or CSV data, values in
TIMESTAMP
columns must use a dash (-
) or slash (/
) separator for the date portion of the timestamp, and the date must be in one of the following formats:YYYY-MM-DD
(year-month-day) orYYYY/MM/DD
(year/month/day). Thehh:mm:ss
(hour-minute-second) portion of the timestamp must use a colon (:
) separator. Your files must meet the JSON file size limits described in the load jobs limits.
Before you begin
Grant Identity and Access Management (IAM) roles that give users the necessary permissions to perform each task in this document, and create a dataset to store your data.
Required permissions
To load data into BigQuery, you need IAM permissions to run a load job and load data into BigQuery tables and partitions. If you are loading data from Cloud Storage, you also need IAM permissions to access the bucket that contains your data.
Permissions to load data into BigQuery
To load data into a new BigQuery table or partition or to append or overwrite an existing table or partition, you need the following IAM permissions:
bigquery.tables.create
bigquery.tables.updateData
bigquery.tables.update
bigquery.jobs.create
Each of the following predefined IAM roles includes the permissions that you need in order to load data into a BigQuery table or partition:
roles/bigquery.dataEditor
roles/bigquery.dataOwner
roles/bigquery.admin
(includes thebigquery.jobs.create
permission)bigquery.user
(includes thebigquery.jobs.create
permission)bigquery.jobUser
(includes thebigquery.jobs.create
permission)
Additionally, if you have the bigquery.datasets.create
permission, you can create and
update tables using a load job in the datasets that you create.
For more information on IAM roles and permissions in BigQuery, see Predefined roles and permissions.
Permissions to load data from Cloud Storage
To get the permissions that you need to load data from a Cloud Storage bucket,
ask your administrator to grant you the
Storage Admin (roles/storage.admin
) IAM role on the bucket.
For more information about granting roles, see Manage access to projects, folders, and organizations.
This predefined role contains the permissions required to load data from a Cloud Storage bucket. To see the exact permissions that are required, expand the Required permissions section:
Required permissions
The following permissions are required to load data from a Cloud Storage bucket:
-
storage.buckets.get
-
storage.objects.get
-
storage.objects.list (required if you are using a URI wildcard)
You might also be able to get these permissions with custom roles or other predefined roles.
Create a dataset
Create a BigQuery dataset to store your data.
JSON compression
You can use the gzip
utility to compress JSON files. Note that gzip
performs
full file compression, unlike the file content compression performed by
compression codecs for other file formats, such as Avro. Using gzip
to
compress your JSON files might have a performance impact; for more information
about the trade-offs, see
Loading compressed and uncompressed data.
Loading JSON data into a new table
To load JSON data from Cloud Storage into a new BigQuery table:
Console
In the Google Cloud console, go to the BigQuery page.
- In the Explorer pane, expand your project, and then select a dataset.
- In the Dataset info section, click Create table.
- In the Create table panel, specify the following details:
- In the Source section, select Google Cloud Storage in the Create table from list.
Then, do the following:
- 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.
- For File format, select JSONL (Newline delimited JSON).
- In the Destination section, specify the following details:
- For Dataset, select the dataset in which you want to create the table.
- In the Table field, enter the name of the table that you want to create.
- Verify that the Table type field is set to Native table.
- 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 Type, and Mode. Add field and enter the table schema. Specify each field's Name,
- 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:
- Optional: Specify Partition and cluster settings. For more information, see Creating partitioned tables and Creating and using clustered tables.
- 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 aninvalid
message and fail. This option applies only to CSV and JSON files. - 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.
- Click Create table.
SQL
Use the
LOAD DATA
DDL statement.
The following example loads a JSON file into the new table mytable
:
In the Google Cloud console, go to the BigQuery page.
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']);
Click
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 is0
. 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.--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 areHOUR
,DAY
,MONTH
, andYEAR
. This flag is optional when you create a table partitioned on aDATE
,DATETIME
, orTIMESTAMP
column. The default partition type for time-based partitioning isDAY
. 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
: TheDATE
orTIMESTAMP
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 aWHERE
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:
For more information on clustered tables, see:
For more information on table encryption, see:
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 toasia-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
Create a
load
job that points to the source data in Cloud Storage.(Optional) Specify your location in the
location
property in thejobReference
section of the job resource.The
source URIs
property must be fully qualified, in the formatgs://BUCKET/OBJECT
. Each URI can contain one '*' wildcard character.Specify the
JSON
data format by setting thesourceFormat
property toNEWLINE_DELIMITED_JSON
.To check the job status, call
jobs.get(JOB_ID*)
, replacingJOB_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'sstatus.errors
property.
- If
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 callingjobs.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#
Before trying this sample, follow the C# setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery C# API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
BigQueryClient.CreateLoadJob()
method to start a load job
from Cloud Storage. To use JSONL, create a
CreateLoadJobOptions
object and set its
SourceFormat
property to
FileFormat.NewlineDelimitedJson
.
Go
Before trying this sample, follow the Go setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Go API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Java
Before trying this sample, follow the Java setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Java API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Node.js
Before trying this sample, follow the Node.js setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Node.js API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
PHP
Before trying this sample, follow the PHP setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery PHP API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Python
Before trying this sample, follow the Python setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Python API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
NEWLINE_DELIMITED_JSON
and pass the job config as the
job_config
argument to the load_table_from_uri()
method.
Ruby
Before trying this sample, follow the Ruby setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Ruby API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
format
parameter to "json"
.
Loading nested and repeated JSON data
BigQuery supports loading nested and repeated data from source formats that support object-based schemas, such as JSON, Avro, ORC, Parquet, Firestore, and Datastore.
One JSON object, including any nested or repeated fields, must appear on each line.
The following example shows sample nested or repeated data. This table contains information about people. It consists of the following fields:
id
first_name
last_name
dob
(date of birth)addresses
(a nested and repeated field)addresses.status
(current or previous)addresses.address
addresses.city
addresses.state
addresses.zip
addresses.numberOfYears
(years at the address)
The JSON data file would look like the following. Notice that the address field
contains an array of values (indicated by [ ]
).
{"id":"1","first_name":"John","last_name":"Doe","dob":"1968-01-22","addresses":[{"status":"current","address":"123 First Avenue","city":"Seattle","state":"WA","zip":"11111","numberOfYears":"1"},{"status":"previous","address":"456 Main Street","city":"Portland","state":"OR","zip":"22222","numberOfYears":"5"}]} {"id":"2","first_name":"Jane","last_name":"Doe","dob":"1980-10-16","addresses":[{"status":"current","address":"789 Any Avenue","city":"New York","state":"NY","zip":"33333","numberOfYears":"2"},{"status":"previous","address":"321 Main Street","city":"Hoboken","state":"NJ","zip":"44444","numberOfYears":"3"}]}
The schema for this table would look like the following:
[ { "name": "id", "type": "STRING", "mode": "NULLABLE" }, { "name": "first_name", "type": "STRING", "mode": "NULLABLE" }, { "name": "last_name", "type": "STRING", "mode": "NULLABLE" }, { "name": "dob", "type": "DATE", "mode": "NULLABLE" }, { "name": "addresses", "type": "RECORD", "mode": "REPEATED", "fields": [ { "name": "status", "type": "STRING", "mode": "NULLABLE" }, { "name": "address", "type": "STRING", "mode": "NULLABLE" }, { "name": "city", "type": "STRING", "mode": "NULLABLE" }, { "name": "state", "type": "STRING", "mode": "NULLABLE" }, { "name": "zip", "type": "STRING", "mode": "NULLABLE" }, { "name": "numberOfYears", "type": "STRING", "mode": "NULLABLE" } ] } ]
For information on specifying a nested and repeated schema, see Specifying nested and repeated fields.
Loading semi-structured JSON data
BigQuery supports loading semi-structured data, in which a field
can take values of different types. The following example shows data similar to
the preceding
nested and repeated JSON data
example, except that the address
field can be a STRING
, a STRUCT
, or
an ARRAY
:
{"id":"1","first_name":"John","last_name":"Doe","dob":"1968-01-22","address":"123 First Avenue, Seattle WA 11111"} {"id":"2","first_name":"Jane","last_name":"Doe","dob":"1980-10-16","address":{"status":"current","address":"789 Any Avenue","city":"New York","state":"NY","zip":"33333","numberOfYears":"2"}} {"id":"3","first_name":"Bob","last_name":"Doe","dob":"1982-01-10","address":[{"status":"current","address":"789 Any Avenue","city":"New York","state":"NY","zip":"33333","numberOfYears":"2"}, "321 Main Street Hoboken NJ 44444"]}
You can load this data into BigQuery by using the following schema:
[ { "name": "id", "type": "STRING", "mode": "NULLABLE" }, { "name": "first_name", "type": "STRING", "mode": "NULLABLE" }, { "name": "last_name", "type": "STRING", "mode": "NULLABLE" }, { "name": "dob", "type": "DATE", "mode": "NULLABLE" }, { "name": "address", "type": "JSON", "mode": "NULLABLE" } ]
The address
field is loaded into a column with type
JSON
that allows
it to hold
the mixed types in the example. You can ingest data as JSON
whether it
contains mixed types or not. For example, you could specify JSON
instead of
STRING
as the type for the first_name
field. For more information, see
Working with JSON data in GoogleSQL.
Appending to or overwriting a table with JSON data
You can load additional data into a table either from source files or by appending query results.
In the Google Cloud console, use the Write preference option to specify what action to take when you load data from a source file or from a query result.
You have the following options when you load additional data into a table:
Console option | bq tool flag | BigQuery API property | Description |
---|---|---|---|
Write if empty | Not supported | WRITE_EMPTY |
Writes the data only if the table is empty. |
Append to table | --noreplace or --replace=false ; if
--[no]replace is unspecified, the default is append |
WRITE_APPEND |
(Default) Appends the data to the end of the table. |
Overwrite table | --replace or --replace=true |
WRITE_TRUNCATE |
Erases all existing data in a table before writing the new data. This action also deletes the table schema, row level security, and removes any Cloud KMS key. |
If you load data into an existing table, the load job can append the data or overwrite the table.
You can append or overwrite a table by using one of the following:
- The Google Cloud console
- The bq command-line tool's
bq load
command - The
jobs.insert
API method and configuring aload
job - The client libraries
Console
In the Google Cloud console, go to the BigQuery page.
- In the Explorer pane, expand your project, and then select a dataset.
- In the Dataset info section, click Create table.
- In the Create table panel, specify the following details:
- In the Source section, select Google Cloud Storage in the Create table from list.
Then, do the following:
- 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.
- For File format, select JSONL (Newline delimited JSON).
- In the Destination section, specify the following details:
- For Dataset, select the dataset in which you want to create the table.
- In the Table field, enter the name of the table that you want to create.
- Verify that the Table type field is set to Native table.
- 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 Type, and Mode. Add field and enter the table schema. Specify each field's Name,
- 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:
- Optional: Specify Partition and cluster settings. For more information, see Creating partitioned tables and Creating and using clustered tables. You cannot convert a table to a partitioned or clustered table by appending or overwriting it. The Google Cloud console does not support appending to or overwriting partitioned or clustered tables in a load job.
- Click Advanced options and do the following:
- For Write preference, choose Append to table or Overwrite table.
- 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 aninvalid
message and fail. This option applies only to CSV and JSON files. - 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.
- Click Create table.
SQL
Use the
LOAD DATA
DDL statement.
The following example appends a JSON file to the table mytable
:
In the Google Cloud console, go to the BigQuery page.
In the query editor, enter the following statement:
LOAD DATA INTO mydataset.mytable FROM FILES ( format = 'JSON', uris = ['gs://bucket/path/file.json']);
Click
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.
Specify the --replace
flag to overwrite the
table. Use the --noreplace
flag to append data to the table. If no flag is
specified, the default is to append data.
It is possible to modify the table's schema when you append or overwrite it. For more information on supported schema changes during a load operation, see Modifying table schemas.
(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 is0
. 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.--autodetect
: When specified, enable schema auto-detection for CSV and JSON data.--destination_kms_key
: The Cloud KMS key for encryption of the table data.
bq --location=LOCATION load \ --[no]replace \ --source_format=FORMAT \ DATASET.TABLE \ PATH_TO_SOURCE \ SCHEMA
Replace the following:
LOCATION
: your location. The--location
flag is optional. 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. You can also use the--autodetect
flag instead of supplying a schema definition.
Examples:
The following command loads data from gs://mybucket/mydata.json
and
overwrites a table named mytable
in mydataset
. The schema is defined
using schema auto-detection.
bq load \
--autodetect \
--replace \
--source_format=NEWLINE_DELIMITED_JSON \
mydataset.mytable \
gs://mybucket/mydata.json
The following command loads data from gs://mybucket/mydata.json
and
appends data to a table named mytable
in mydataset
. The schema is
defined using a JSON schema file — myschema
.
bq load \
--noreplace \
--source_format=NEWLINE_DELIMITED_JSON \
mydataset.mytable \
gs://mybucket/mydata.json \
./myschema
API
Create a
load
job that points to the source data in Cloud Storage.(Optional) Specify your location in the
location
property in thejobReference
section of the job resource.The
source URIs
property must be fully-qualified, in the formatgs://BUCKET/OBJECT
. You can include multiple URIs as a comma-separated list. The wildcards are also supported.Specify the data format by setting the
configuration.load.sourceFormat
property toNEWLINE_DELIMITED_JSON
.Specify the write preference by setting the
configuration.load.writeDisposition
property toWRITE_TRUNCATE
orWRITE_APPEND
.
Go
Before trying this sample, follow the Go setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Go API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Java
Node.js
Before trying this sample, follow the Node.js setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Node.js API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
PHP
Before trying this sample, follow the PHP setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery PHP API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Python
To replace the rows in an existing table, set the
LoadJobConfig.write_disposition property
to the string WRITE_TRUNCATE
.
Before trying this sample, follow the Python setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Python API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Ruby
To replace the rows in an existing table, set the write
parameter of
Table.load_job()
to "WRITE_TRUNCATE"
.
Before trying this sample, follow the Ruby setup instructions in the
BigQuery quickstart using
client libraries.
For more information, see the
BigQuery Ruby API
reference documentation.
To authenticate to BigQuery, set up Application Default Credentials.
For more information, see
Set up authentication for client libraries.
Loading hive-partitioned JSON data
BigQuery supports loading hive partitioned JSON data stored on Cloud Storage and populates the hive partitioning columns as columns in the destination BigQuery managed table. For more information, see Loading externally partitioned data.
Details of loading JSON data
This section describes how BigQuery parses various data types when loading JSON data.
Data types
Boolean. BigQuery can parse any of the following pairs for Boolean data: 1 or 0, true or false, t or f, yes or no, or y or n (all case insensitive). Schema autodetection automatically detects any of these except 0 and 1.Bytes. Columns with BYTES types must be encoded as Base64.
Date. Columns with DATE types must be in the format YYYY-MM-DD
.
Datetime. Columns with DATETIME types must be in the format YYYY-MM-DD
HH:MM:SS[.SSSSSS]
.
Geography. Columns with GEOGRAPHY types must contain strings in one of the following formats:
- Well-known text (WKT)
- Well-known binary (WKB)
- GeoJSON
If you use WKB, the value should be hex encoded.
The following list shows examples of valid data:
- WKT:
POINT(1 2)
- GeoJSON:
{ "type": "Point", "coordinates": [1, 2] }
- Hex encoded WKB:
0101000000feffffffffffef3f0000000000000040
Before loading GEOGRAPHY data, also read Loading geospatial data.
Interval. Columns with INTERVAL types must be in
ISO 8601 format
PYMDTHMS
, where:
- P = Designator that indicates that the value represents a duration. You must always include this.
- Y = Year
- M = Month
- D = Day
- T = Designator that denotes the time portion of the duration. You must always include this.
- H = Hour
- M = Minute
- S = Second. Seconds can be denoted as a whole value or as a fractional value of up to six digits, at microsecond precision.
You can indicate a negative value by prepending a dash (-).
The following list shows examples of valid data:
P-10000Y0M-3660000DT-87840000H0M0S
P0Y0M0DT0H0M0.000001S
P10000Y0M3660000DT87840000H0M0S
To load INTERVAL data, you must use the bq load
command and use the --schema
flag to specify a schema. You can't upload INTERVAL data by using the console.
Time. Columns with TIME types must be in the format HH:MM:SS[.SSSSSS]
.
Timestamp. BigQuery accepts various timestamp formats. The timestamp must include a date portion and a time portion.
The date portion can be formatted as
YYYY-MM-DD
orYYYY/MM/DD
.The timestamp portion must be formatted as
HH:MM[:SS[.SSSSSS]]
(seconds and fractions of seconds are optional).The date and time must be separated by a space or 'T'.
Optionally, the date and time can be followed by a UTC offset or the UTC zone designator (
Z
). For more information, see Time zones.
For example, any of the following are valid timestamp values:
- 2018-08-19 12:11
- 2018-08-19 12:11:35
- 2018-08-19 12:11:35.22
- 2018/08/19 12:11
- 2018-07-05 12:54:00 UTC
- 2018-08-19 07:11:35.220 -05:00
- 2018-08-19T12:11:35.220Z
If you provide a schema, BigQuery also accepts Unix epoch time for timestamp values. However, schema autodetection doesn't detect this case, and treats the value as a numeric or string type instead.
Examples of Unix epoch timestamp values:
- 1534680695
- 1.534680695e11
Array (repeated field). The value must be a JSON array or null
. JSON
null
is converted to SQL NULL
. The array itself cannot contain null
values.
Schema auto-detection
This section describes the behavior of schema auto-detection when loading JSON files.
JSON nested and repeated fields
BigQuery infers nested and repeated fields in JSON files. If a
field value is a JSON object, then BigQuery loads the column as a
RECORD
type. If a field value is an array, then BigQuery loads
the column as a repeated column. For an example of JSON data with nested and
repeated data, see
Loading nested and repeated JSON data.
String conversion
If you enable schema auto-detection, then BigQuery converts
strings into Boolean, numeric, or date/time types when possible. For example,
using the following JSON data, schema auto-detection converts the id
field
to an INTEGER
column:
{ "name":"Alice","id":"12"}
{ "name":"Bob","id":"34"}
{ "name":"Charles","id":"45"}
Encoding types
BigQuery expects JSON data to be UTF-8 encoded. If you have
JSON files with other supported encoding types, you should explicitly specify
the encoding by using the --encoding
flag so that
BigQuery converts the data to UTF-8.
BigQuery supports the following encoding types for JSON files:
- UTF-8
- ISO-8859-1
- UTF-16BE (UTF-16 Big Endian)
- UTF-16LE (UTF-16 Little Endian)
- UTF-32BE (UTF-32 Big Endian)
- UTF-32LE (UTF-32 Little Endian)
JSON options
To change how BigQuery parses JSON data, specify additional options in the Google Cloud console, the bq command-line tool, the API, or the client libraries.
JSON option | Console option | bq tool flag | BigQuery API property | Description |
---|---|---|---|---|
Number of bad records allowed | Number of errors allowed | --max_bad_records |
maxBadRecords
(Java,
Python)
|
(Optional) The maximum number of bad records that BigQuery can ignore when running the job. If the number of bad records exceeds this value, an invalid error is returned in the job result. The default value is `0`, which requires that all records are valid. |
Unknown values | Ignore unknown values | --ignore_unknown_values |
ignoreUnknownValues
(Java,
Python)
|
(Optional) Indicates whether BigQuery should allow extra values that are not represented in the table schema. If true, the extra values are ignored. If false, records with extra columns are treated as bad records, and if there are too many bad records, an invalid error is returned in the job result. The default value is false. The `sourceFormat` property determines what BigQuery treats as an extra value: CSV: trailing columns, JSON: named values that don't match any column names. |
Encoding | None | -E or --encoding |
encoding
(Python) |
(Optional) The character encoding of the data. The supported values are UTF-8, ISO-8859-1, UTF-16BE, UTF-16LE, UTF-32BE, or UTF-32LE. The default value is UTF-8. |
What's next
- For information about loading JSON data from a local file, see Loading data from local files.
- For more information about creating, ingesting, and querying JSON data, see Working with JSON data in GoogleSQL.