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Redlander

Redlander is Ruby bindings to Redland library written in C, which is used to manipulate RDF graphs. This is an alternative implementation of Ruby bindings (as opposed to the official bindings), aiming to be more intuitive, lightweight, high-performing and as bug-free as possible.

Installing

Installing Redlander is simple:

$ gem install redlander

Note, that you will have to install Redland runtime library (librdf) for Redlander to work.

Usage

This README outlines most obvious use cases. For more details please refer to YARD documentation of Redlander.

To start doing anything useful with Redlander, you need to initialize a model first:

$ m = Redlander::Model.new

This creates a model where all RDF statements are stored in the memory. Depending on the selected storage you may need to supply extra parameters like :user or :password. Look-up the options for Model.initialize for the list of available options. Naturally, you don't need to create a model if you just want to play around with independent statements, nodes and the like.

RDF Statements

Now that you have created a model, you can access its RDF statements:

$ m.statements

Most of Redlander functionality is accessable via these statements. The API is almost identical to ActiveRecord:

$ s = URI.parse('http://example.com/concepts#subject')
$ p = URI.parse('http://example.com/concepts#label')
$ o = "subject!"
$ m.statements.create(:subject => s, :predicate => p, :object => o)

$ m.statements.empty?  # => false

$ st = Redlander::Statement.new(:subject => s, :predicate => p, :object => "another label")
$ m.statements.add(st)

$ m.statements.size    # => 2

$ m.statements.each { |st| puts st }

Finding and enumerating statements

$ m.statements.find(:first, :object => "subject!")
$ m.statements.all(:object => "another label")
$ m.statements.each(:object => "subject!") { |statement|
    puts statement.subject
  }

Note that m.statements.each does not have to pull and instantiate all statements in one call, while m.statements.all (and other finders) can potentially create huge arrays of data before you can handle individual statements of it.

For those interested in laziness, m.statements has lazy method which works exactly as users of Ruby 2+ would expect:

$ m.statements.lazy.each {|s| puts s.object }

This, and other similar features are inherited by m.statements (which is actually an instance of Redlander::ModelProxy) from Enumerable module.

Accessing and querying subject, predicate and object

You can access the subject, predicate or object of a statement:

$ m.statements.first.subject  # => (Redlander::Node)

Please refer to Redlander::Node API doc for details.

You can also use different query languages supported by librdf ("SPARQL 1.0" being a default):

$ m.query("SELECT ?s ?p ?o WHERE {}")  # => [{"s" => ..., "p" => ..., "o" => ...}, ...]

ASK queries return true/false, SELECT queries return arrays of binding hashes, CONSTRUCT queries return an instance of a new memory-based model comprised from the statements constructed by the query. You can also supply a block to Model#query, which is ignored by ASK queries, but yields the statements constructed by CONSTRUCT queries and yields the binding hash for SELECT queries. Binding hash values are instances of Redlander::Node.

For query options and available query languages refer to Model#query documentation.

Notes on Nodes

For detailed information about creating and working with individual nodes refer to Redlander::Node documentation. We just highlight a few gotchas and tips here.

To create a blank node, just do Node.new (or Node.new(nil)). This produces a blank node with a random unique identifier, as documented in librdf API. To produce a blank node with a user-defined id, add :blank_id option: Node.new(:blank_id => "my-blank-node-1").

It is sometimes not convenient to create resource nodes from the instances of URI -- you can be given just a simple list of URIs in text format. Converting them all into Ruby URI objects, then feeding them to Node.new doesn't make much sense if you are not going to reuse those Ruby URI objects. In such cases you can use :resource option to create resource nodes directly from strings (that would otherwise be interpreted as string literals): Node.new("http://example.org/thing/1", :resource => true).

Localized string literals

Localized string literals are instantiated as LocalizedString objects. Refer to the documentation and README file in xml_schema gem for details on LocalizedString.

$ m.statments.first(:object => "bonjour".with_lang(:fr))

will return a first statement matching "bonjour@fr" literal as the object.

Parsing Input

You can fill your model with statements by parsing some external sources like plain or streamed data.

$ data = File.read("data.xml")
$ m.from(data, :format => "rdfxml")

If the input is too large, you may prefer streaming it:

$ source = URI("http://example.com/data.nt")
$ m.from(source, :format => "ntriples")

If you want to get the data from a local file, you can use "file://" schema for your URI or use from_file method with a local file name (without schema):

$ m.from_file("../data.ttl", :format => "turtle")

Most frequently used parsing methods are aliased to save you some typing: from_rdfxml, from_ntriples, from_turtle, from_uri/from_file.

Finally, you can filter the parsed input to prevent certain statements from getting into your model:

$ m.from_turtle(data) do |statement|
    statement.object.value == "good"
  end

If the block returns false, the statement will not be added to the model. The above example will add only statements having "literal" objects with a value of "good".

Serializing Model

Naturally, you can convert your model into a portable syntax:

$ m.to(:format => "rdfxml") # => RDF/XML output

There are aliases as well: to_rdfxml, to_dot, etc.

You can also dump the output directly into a local file:

$ m.to_file("data.nt", :format => "ntriples")

Transactions

It is possible to wrap all changes you perform on a model in a transaction, if transactions are supported by the backend storage. If they are not supported, all changes will be instantaneous.

$ m.transaction { m.statements.delete_all }

There are also dedicated methods to start, commit and rollback a transaction, should you not be able to explicitly wrap your changes in a block:

$ m.transaction_start
$ m.delete_all
$ if lucky?
    m.transaction_commit
  else
    m.transaction_rollback
  end

All the above methods have their "banged" counterparts (transaction_start!, transaction_commit! and transaction_rollback!) that would raise RedlandError in case of an error.

Exceptions

If anything unexpected happens, Redlander raises RedlandError.

Known Issues

Fixed in redland-1.0.15: 0000478

All Enumerator-based aggregation methods of Redlander::ModelProxy return invalid results - they are all copies of the last found statement. For example,

$ model.statements.to_a

returns statement copies, while

$ model.statements.each { ... }

yields proper results in the block. Update your redland library to 1.0.15 or newer to fix this.

SPARQL DESCRIBE is not implemented in librdf.

See 0000135 for a temporal workaround.

Authors and Contributors

Thanks

Thanks goes to Dave Beckett, the creator of Redland!

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Ruby bindings for Redland (librdf.org)

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