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N1QL Queries from the SDK

  • how-to
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    You can query for documents in Couchbase using the N1QL query language, a language based on SQL, but designed for structured and flexible JSON documents. Querying can solve typical programming tasks such as finding a user profile by email address, facebook login, or user ID.

    Our query service uses N1QL, which will be fairly familiar to anyone who’s used any dialect of SQL. Further resources for learning about N1QL are listed at the bottom of the page. Before you get started you may wish to checkout the N1QL intro page, or just dive in with a query against our travel sample data set. In this case, the one thing that you need to know is that in order to make a Bucket queryable, it must have at least one index defined. You can define a primary index on a bucket. When a primary index is defined you can issue non-covered queries on the bucket as well.

    Use cbq, our interactive Query shell. Open it, and enter the following:

    CREATE PRIMARY INDEX ON `travel-sample`

    or replace travel-sample with a different Bucket name to build an index on a different dataset.

    The default installation places cbq in /opt/couchbase/bin/ on Linux, /Applications/Couchbase Server.app/Contents/Resources/couchbase-core/bin/cbq on OS X, and C:\Program Files\Couchbase\Server\bin\cbq.exe on Microsoft Windows.

    A Simple Query

    Here’s the basics of how to run a simple query to fetch 10 random rows from travel-sample and print the results:

    options = Cluster::QueryOptions.new
    options.metrics = true
    result = cluster.query('SELECT * FROM `travel-sample` LIMIT 10', options)
    result.rows.each do |row|
      puts row
    end
    #=>
    # {"travel-sample"=>{"callsign"=>"MILE-AIR", "country"=>"United States", "iata"=>"Q5", "icao"=>"MLA", "id"=>10, "name"=>"40-Mile Air", "type"=>"airline"}}
    # {"travel-sample"=>{"callsign"=>"TXW", "country"=>"United States", "iata"=>"TQ", "icao"=>"TXW", "id"=>10123, "name"=>"Texas Wings", "type"=>"airline"}}
    # ...
    
    puts "Reported execution time: #{result.meta_data.metrics.execution_time}"
    #=> Reported execution time: 11.377766ms

    A query is always performed at the Cluster level, using the query() method. It takes the statement as a required argument and then allows additional options if needed.

    A complete list of QueryOptions can be found in the API docs. Here we pass readonly to explicitly mark a query as being read only, and not mutating any documents on the server side.

    options = Cluster::QueryOptions.new
    options.readonly = true
    cluster.query(
        'SELECT COUNT(*) AS airport_count FROM `travel-sample` WHERE type = "airport"',
        options)

    Queries & Placeholders

    Placeholders allow you to specify variable constraints for an otherwise constant query. There are two variants of placeholders: postional and named parameters. Positional parameters use an ordinal placeholder for substitution and named parameters use variables. A named or positional parameter is a placeholder for a value in the WHERE, LIMIT or OFFSET clause of a query. Note that both parameters and options are optional.

    Positional parameter example:
    options = Cluster::QueryOptions.new
    options.positional_parameters(["France"])
    result = cluster.query(
        'SELECT COUNT(*) AS airport_count FROM `travel-sample` WHERE type = "airport" AND country = ?',
        options)
    puts "Airports in France: #{result.rows.first["airport_count"]}"
    #=> Airports in France: 221
    Named parameter example:
    options = Cluster::QueryOptions.new
    options.named_parameters({"country" => "France"})
    result = cluster.query(
        'SELECT COUNT(*) AS airport_count FROM `travel-sample` WHERE type = "airport" AND country = $country',
        options)
    puts "Airports in France: #{result.rows.first["airport_count"]}"
    #=> Airports in France: 221

    The Query Result

    When performing a query, the response you receive is a QueryResult. If no exception gets raised the request succeeded and provides access to both the rows returned and also associated QueryMetaData.

    options = Cluster::QueryOptions.new
    options.client_context_id = "user-44-#{rand}"
    result = cluster.query(
        'SELECT COUNT(*) AS airport_count FROM `travel-sample` WHERE type = "airport"',
        options)
    puts "client_context_id: #{result.meta_data.client_context_id}"
    #=> client_context_id: user-44-0.9899233780544747

    The QueryMetaData provides insight into some basic profiling/timing information as well as information like the clientContextId.

    Table 1. QueryMetaData
    Name Description

    String #request_Id

    Returns the request identifer string of the query request.

    String #client_context_id

    Returns the context ID either generated by the SDK or supplied by the user.

    Symbol #status

    Returns raw query execution status as returned by the query engine.

    QueryMetrics #metrics

    Metrics as returned by the query engine, if enabled.

    Hash #signature

    Returns the signature as returned by the query engine which is then decoded as JSON object.

    List<QueryWarning> #warnings

    Non-fatal errors are available to consume as warnings on this method.

    Hash #profile

    If enabled returns additional profiling information of the query.

    For example, here is how you can print the executionTime of a query:

    options = Cluster::QueryOptions.new
    options.metrics = true
    result = cluster.query(
        'SELECT COUNT(*) AS airport_count FROM `travel-sample` WHERE type = "airport"',
        options)
    puts "Reported execution time: #{result.meta_data.metrics.execution_time}"
    #=> Reported execution time: 2.516245ms

    Scan Consistency

    Setting a staleness parameter for queries, with scan_consistency, enables a tradeoff between latency and (eventual) consistency.

    • A N1QL query using the default Not Bounded Scan Consistency will not wait for any indexes to finish updating before running the query and returning results, meaning that results are returned quickly, but the query will not return any documents that are yet to be indexed.

    • With Scan Consistency set to request_plus, all document changes and index updates are processed before the query is run. Select this when consistency is always more important than performance.

    • For a middle ground, AtPlus is a "read your own write" (RYOW) option, which means it just waits for the new documents that you specify to be indexed, rather than an entire index of multiple documents.

    ScanConsisteny (request_plus)
    options = Cluster::QueryOptions.new
    options.scan_consistency = :request_plus
    result = cluster.query(
        'SELECT COUNT(*) AS airport_count FROM `travel-sample` WHERE type = "airport"',
        options)
    puts "Airports in the database: #{result.rows.first["airport_count"]}"
    #=> Airports in the database: 1968

    Querying at Scope Level

    It is possible to query off the Scope level with the latest version of Couchbase Server release, 7.0, using the query() method. It takes the statement as a required argument, and then allows additional options if needed.

    The code snippet below shows how to run a simple query to fetch 10 random rows from travel-sample and print the results, the assumption is that the airline collection exists within a scope us.

    bucket = cluster.bucket("travel-sample")
    
    myscope = bucket.scope("us")
    mycollection = "airline"
    
    options = Couchbase::Cluster::QueryOptions.new
    options.metrics = true
    result = myscope.query("SELECT * FROM #{mycollection} LIMIT 10", options)
    result.rows.each do |row|
      puts row
    end
    puts "Reported execution time: #{result.meta_data.metrics.execution_time}"
    
    #=>
    #{"airline"=>{"callsign"=>"TXW", "iata"=>"TQ", "icao"=>"TXW", "name"=>"Texas Wings"}}
    #{"airline"=>{"callsign"=>"SASQUATCH", "iata"=>"K5", "icao"=>"SQH", "name"=>"SeaPort Airlines"}}
    
    #Reported execution time: 3.620224ms

    A complete list of QueryOptions can be found in the API docs.

    Additional Resources

    N1QL is not the only query option in Couchbase. Be sure to check that your use case fits your selection of query service.

    For a deeper dive into N1QL from the SDK, refer to our N1QL SDK concept doc.

    The Server doc N1QL intro introduces up a complete guide to the N1QL language, including all of the latest additions.

    The N1QL interactive tutorial is a good introduction to the basics of N1QL use.