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Module: Google::Cloud::Bigquery
- Defined in:
- lib/google/cloud/bigquery.rb,
lib/google/cloud/bigquery/job.rb,
lib/google/cloud/bigquery/data.rb,
lib/google/cloud/bigquery/view.rb,
lib/google/cloud/bigquery/table.rb,
lib/google/cloud/bigquery/schema.rb,
lib/google/cloud/bigquery/dataset.rb,
lib/google/cloud/bigquery/project.rb,
lib/google/cloud/bigquery/service.rb,
lib/google/cloud/bigquery/version.rb,
lib/google/cloud/bigquery/copy_job.rb,
lib/google/cloud/bigquery/job/list.rb,
lib/google/cloud/bigquery/load_job.rb,
lib/google/cloud/bigquery/query_job.rb,
lib/google/cloud/bigquery/query_data.rb,
lib/google/cloud/bigquery/table/list.rb,
lib/google/cloud/bigquery/credentials.rb,
lib/google/cloud/bigquery/extract_job.rb,
lib/google/cloud/bigquery/dataset/list.rb,
lib/google/cloud/bigquery/project/list.rb,
lib/google/cloud/bigquery/dataset/access.rb,
lib/google/cloud/bigquery/insert_response.rb
Overview
Google Cloud BigQuery
Google Cloud BigQuery enables super-fast, SQL-like queries against massive datasets, using the processing power of Google's infrastructure. To learn more, read What is BigQuery?.
The goal of google-cloud is to provide an API that is comfortable to Rubyists. Authentication is handled by #bigquery. You can provide the project and credential information to connect to the BigQuery service, or if you are running on Google Compute Engine this configuration is taken care of for you. You can read more about the options for connecting in the Authentication Guide.
To help you get started quickly, the first few examples below use a public dataset provided by Google. As soon as you have signed up to use BigQuery, and provided that you stay in the free tier for queries, you should be able to run these first examples without the need to set up billing or to load data (although we'll show you how to do that too.)
Listing Datasets and Tables
A BigQuery project holds datasets, which in turn hold tables. Assuming
that you have not yet created datasets or tables in your own project,
let's connect to Google's publicdata project, and see what you find.
require "google/cloud"
gcloud = Google::Cloud.new "publicdata"
bigquery = gcloud.bigquery
bigquery.datasets.count #=> 1
bigquery.datasets.first.dataset_id #=> "samples"
dataset = bigquery.datasets.first
tables = dataset.tables
tables.count #=> 7
tables.map &:table_id #=> [..., "shakespeare", "trigrams", "wikipedia"]
In addition listing all datasets and tables in the project, you can also
retrieve individual datasets and tables by ID. Let's look at the structure
of the shakespeare table, which contains an entry for every word in
every play written by Shakespeare.
require "google/cloud"
gcloud = Google::Cloud.new "publicdata"
bigquery = gcloud.bigquery
dataset = bigquery.dataset "samples"
table = dataset.table "shakespeare"
table.headers #=> ["word", "word_count", "corpus", "corpus_date"]
table.rows_count #=> 164656
Now that you know the column names for the Shakespeare table, you can write and run a query.
Running queries
BigQuery offers both synchronous and asynchronous methods, as explained in Querying Data.
Synchronous queries
Let's start with the simpler synchronous approach. Notice that this time you are connecting using your own default project. This is necessary for running a query, since queries need to be able to create tables to hold results.
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
sql = "SELECT TOP(word, 50) as word, COUNT(*) as count " +
"FROM publicdata:samples.shakespeare"
data = bigquery.query sql
data.count #=> 50
data.next? #=> false
data.first #=> {"word"=>"you", "count"=>42}
The TOP function shown above is just one of a variety of functions
offered by BigQuery. See the Query
Reference for a full
listing.
Asynchronous queries
Because you probably should not block for most BigQuery operations, including querying as well as importing, exporting, and copying data, the BigQuery API enables you to manage longer-running jobs. In the asynchronous approach to running a query, an instance of QueryJob is returned, rather than an instance of QueryData.
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
sql = "SELECT TOP(word, 50) as word, COUNT(*) as count " +
"FROM publicdata:samples.shakespeare"
job = bigquery.query_job sql
job.wait_until_done!
if !job.failed?
job.query_results.each do |row|
puts row["word"]
end
end
Once you have determined that the job is done and has not failed, you can obtain an instance of QueryData by calling QueryJob#query_results. The query results for both of the above examples are stored in temporary tables with a lifetime of about 24 hours. See the final example below for a demonstration of how to store query results in a permanent table.
Creating Datasets and Tables
The first thing you need to do in a new BigQuery project is to create a Dataset. Datasets hold tables and control access to them.
require "google/cloud/bigquery"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
dataset = bigquery.create_dataset "my_dataset"
Now that you have a dataset, you can use it to create a table. Every table
is defined by a schema that may contain nested and repeated fields. The
example below shows a schema with a repeated record field named
cities_lived. (For more information about nested and repeated fields,
see Preparing Data for
BigQuery.)
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
dataset = bigquery.dataset "my_dataset"
table = dataset.create_table "people" do |schema|
schema.string "first_name", mode: :required
schema.record "cities_lived", mode: :repeated do |nested_schema|
nested_schema.string "place", mode: :required
nested_schema.integer "number_of_years", mode: :required
end
end
Because of the repeated field in this schema, we cannot use the CSV format to load data into the table.
Loading records
In addition to CSV, data can be imported from files that are formatted as Newline-delimited JSON or Avro, or from a Google Cloud Datastore backup. It can also be "streamed" into BigQuery.
To follow along with these examples, you will need to set up billing on the Google Developers Console.
Streaming records
For situations in which you want new data to be available for querying as soon as possible, inserting individual records directly from your Ruby application is a great approach.
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
dataset = bigquery.dataset "my_dataset"
table = dataset.table "people"
rows = [
{
"first_name" => "Anna",
"cities_lived" => [
{
"place" => "Stockholm",
"number_of_years" => 2
}
]
},
{
"first_name" => "Bob",
"cities_lived" => [
{
"place" => "Seattle",
"number_of_years" => 5
},
{
"place" => "Austin",
"number_of_years" => 6
}
]
}
]
table.insert rows
There are some trade-offs involved with streaming, so be sure to read the discussion of data consistency in Streaming Data Into BigQuery.
Uploading a file
To follow along with this example, please download the names.zip archive from the U.S. Social Security Administration. Inside the archive you will find over 100 files containing baby name records since the year 1880. A PDF file also contained in the archive specifies the schema used below.
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
dataset = bigquery.dataset "my_dataset"
table = dataset.create_table "baby_names" do |schema|
schema.string "name", mode: :required
schema.string "sex", mode: :required
schema.integer "number", mode: :required
end
file = File.open "names/yob2014.txt"
load_job = table.load file, format: "csv"
Because the names data, although formatted as CSV, is distributed in files
with a .txt extension, this example explicitly passes the format
option in order to demonstrate how to handle such situations. Because CSV
is the default format for load operations, the option is not actually
necessary. For JSON saved with a .txt extension, however, it would be.
Exporting query results to Google Cloud Storage
The example below shows how to pass the table option with a query in
order to store results in a permanent table. It also shows how to export
the result data to a Google Cloud Storage file. In order to follow along,
you will need to enable the Google Cloud Storage API in addition to
setting up billing.
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery
dataset = bigquery.dataset "my_dataset"
source_table = dataset.table "baby_names"
result_table = dataset.create_table "baby_names_results"
sql = "SELECT name, number as count " +
"FROM baby_names " +
"WHERE name CONTAINS 'Sam' " +
"ORDER BY count DESC"
query_job = dataset.query_job sql, table: result_table
query_job.wait_until_done!
if !query_job.failed?
storage = gcloud.storage
bucket_id = "bigquery-exports-#{SecureRandom.uuid}"
bucket = storage.create_bucket bucket_id
extract_url = "gs://#{bucket.id}/baby-names-sam.csv"
extract_job = result_table.extract extract_url
extract_job.wait_until_done!
# Download to local filesystem
bucket.files.first.download "baby-names-sam.csv"
end
If a table you wish to export contains a large amount of data, you can pass a wildcard URI to export to multiple files (for sharding), or an array of URIs (for partitioning), or both. See Exporting Data From BigQuery for details.
Configuring retries and timeout
You can configure how many times API requests may be automatically
retried. When an API request fails, the response will be inspected to see
if the request meets criteria indicating that it may succeed on retry,
such as 500 and 503 status codes or a specific internal error code
such as rateLimitExceeded. If it meets the criteria, the request will be
retried after a delay. If another error occurs, the delay will be
increased before a subsequent attempt, until the retries limit is
reached.
You can also set the request timeout value in seconds.
require "google/cloud"
gcloud = Google::Cloud.new
bigquery = gcloud.bigquery retries: 10, timeout: 120
See the BigQuery error table for a list of error conditions.
Defined Under Namespace
Classes: CopyJob, Data, Dataset, ExtractJob, InsertResponse, Job, LoadJob, Project, QueryData, QueryJob, Schema, Table, View
Constant Summary collapse
- VERSION =
"0.20.2"
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