NOTE: my spare time is limited which means I am unable to dedicate a lot of time on Oga. If you're interested in contributing to FOSS, please take a look at the open issues and submit a pull request to address them where possible.
Oga is an XML/HTML parser written in Ruby. It provides an easy to use API for parsing, modifying and querying documents (using XPath expressions). Oga does not require system libraries such as libxml, making it easier and faster to install on various platforms. To achieve better performance Oga uses a small, native extension (C for MRI/Rubinius, Java for JRuby).
Oga provides an API that allows you to safely parse and query documents in a multi-threaded environment, without having to worry about your applications blowing up.
From Wikipedia:
Oga: A large two-person saw used for ripping large boards in the days before power saws. One person stood on a raised platform, with the board below him, and the other person stood underneath them.
The name is a pun on Nokogiri.
Oga uses the version format MAJOR.MINOR (e.g. 2.1). An increase of the MAJOR
version indicates backwards incompatible changes were introduced. The MINOR
version is only increased when changes are backwards compatible, regardless of
whether those changes are bugfixes or new features. Up until version 1.0 the
code should be considered unstable meaning it can change (and break) at any
given moment.
APIs explicitly tagged as private (e.g. using Ruby's private keyword or YARD's
@api private tag) are not covered by these rules.
Parsing a simple string of XML:
Oga.parse_xml('<people><person>Alice</person></people>')
Parsing XML using strict mode (disables automatic tag insertion):
Oga.parse_xml('<people>foo</people>', :strict => true) # works fine
Oga.parse_xml('<people>foo', :strict => true) # throws an error
Parsing a simple string of HTML:
Oga.parse_html('<link rel="stylesheet" href="foo.css">')
Parsing an IO handle pointing to XML (this also works when using
Oga.parse_html):
handle = File.open('path/to/file.xml')
Oga.parse_xml(handle)
Parsing an IO handle using the pull parser:
handle = File.open('path/to/file.xml')
parser = Oga::XML::PullParser.new(handle)
parser.parse do |node|
parser.on(:text) do
puts node.text
end
end
Using an Enumerator to download and parse an XML document on the fly:
enum = Enumerator.new do |yielder|
HTTPClient.get('http://some-website.com/some-big-file.xml') do |chunk|
yielder << chunk
end
end
document = Oga.parse_xml(enum)
Parse a string of XML using the SAX parser:
class ElementNames
attr_reader :names
def initialize
@names = []
end
def on_element(namespace, name, attrs = {})
@names << name
end
end
handler = ElementNames.new
Oga.sax_parse_xml(handler, '<foo><bar></bar></foo>')
handler.names # => ["foo", "bar"]
Querying a document using XPath:
document = Oga.parse_xml <<-EOF
<people>
<person id="1">
<name>Alice</name>
<age>28</name>
</person>
</people>
EOF
# The "xpath" method returns an enumerable (Oga::XML::NodeSet) that you can
# iterate over.
document.xpath('people/person').each do |person|
puts person.get('id') # => "1"
# The "at_xpath" method returns a single node from a set, it's the same as
# person.xpath('name').first.
puts person.at_xpath('name').text # => "Alice"
end
Querying the same document using CSS:
document = Oga.parse_xml <<-EOF
<people>
<person id="1">
<name>Alice</name>
<age>28</name>
</person>
</people>
EOF
# The "css" method returns an enumerable (Oga::XML::NodeSet) that you can
# iterate over.
document.css('people person').each do |person|
puts person.get('id') # => "1"
# The "at_css" method returns a single node from a set, it's the same as
# person.css('name').first.
puts person.at_css('name').text # => "Alice"
end
Modifying a document and serializing it back to XML:
document = Oga.parse_xml('<people><person>Alice</person></people>')
name = document.at_xpath('people/person[1]/text()')
name.text = 'Bob'
document.to_xml # => "<people><person>Bob</person></people>"
Querying a document using a namespace:
document = Oga.parse_xml('<root xmlns:x="foo"><x:div></x:div></root>')
div = document.xpath('root/x:div').first
div.namespace # => Namespace(name: "x" uri: "foo")
- Support for parsing XML and HTML(5)
- DOM parsing
- Stream/pull parsing
- SAX parsing
- Low memory footprint
- High performance (taking into account most work happens in Ruby)
- Support for XPath 1.0
- CSS3 selector support
- XML namespace support (registering, querying, etc)
- Windows support
| Ruby | Required | Recommended |
|---|---|---|
| MRI | >= 2.3.0 | >= 2.6.0 |
| JRuby | >= 1.7 | >= 1.7.12 |
| Rubinius | Not supported | |
| Maglev | Not supported | |
| Topaz | Not supported | |
| mruby | Not supported |
Maglev and Topaz are not supported due to the lack of a C API (that I know of) and the lack of active development of these Ruby implementations. mruby is not supported because it's a very different implementation all together.
To install Oga on MRI or Rubinius you'll need to have a working compiler such as gcc or clang. Oga's C extension can be compiled with both. JRuby does not require a compiler as the native extension is compiled during the Gem building process and bundled inside the Gem itself.
Oga does not use a unsynchronized global mutable state. As a result of this you can parse/create documents concurrently without any problems. Modifying documents concurrently can lead to bugs as these operations are not synchronized.
Some querying operations will cache data in instance variables, without
synchronization. An example is Oga::XML::Element#namespace which will cache an
element's namespace after the first call.
In general it's recommended to not use the same document in multiple threads at the same time.
Oga fully supports parsing/registering XML namespaces as well as querying them using XPath. For example, take the following XML:
<root xmlns="http://example.com">
<bar>bar</bar>
</root>
If one were to try and query the bar element (e.g. using XPath root/bar)
they'd end up with an empty node set. This is due to <root> defining an
alternative default namespace. Instead you can query this element using the
following XPath:
*[local-name() = "root"]/*[local-name() = "bar"]
Alternatively, if you don't really care where the <bar> element is located you
can use the following:
descendant::*[local-name() = "bar"]
And if you want to specify an explicit namespace URI, you can use this:
descendant::*[local-name() = "bar" and namespace-uri() = "http://example.com"]
Like Nokogiri, Oga provides a way to create "dynamic" namespaces. That is, Oga allows one to query the above document as following:
document = Oga.parse_xml('<root xmlns="http://example.com"><bar>bar</bar></root>')
document.xpath('x:root/x:bar', namespaces: {'x' => 'http://example.com'})
Moreover, because Oga assigns the name "xmlns" to default namespaces you can use this in your XPath queries:
document = Oga.parse_xml('<root xmlns="http://example.com"><bar>bar</bar></root>')
document.xpath('xmlns:root/xmlns:bar')
When using this you can still restrict the query to the correct namespace URI:
document.xpath('xmlns:root[namespace-uri() = "http://example.com"]/xmlns:bar')
Oga fully supports HTML5 including the omission of certain tags. For example, the following is parsed just fine:
<li>Hello
<li>World
This is effectively parsed into:
<li>Hello</li>
<li>World</li>
One exception Oga makes is that it does not automatically insert html,
head and body tags. Automatically inserting these tags requires a
distinction between documents and fragments as a user might not always want
these tags to be inserted if left out. This complicates the user facing API as
well as complicating the parsing internals of Oga. As a result I have decided
that Oga does not insert these tags when left out.
A more in depth explanation can be found here: #98
The documentation is best viewed on the documentation website.
- {file:CONTRIBUTING Contributing}
- {file:changelog Changelog}
- {file:migrating_from_nokogiri Migrating From Nokogiri}
- {Oga::XML::Parser XML Parser}
- {Oga::XML::SaxParser XML SAX Parser}
- {file:xml_namespaces XML Namespaces}
Currently there are a few existing parser out there, the most famous one being Nokogiri. Another parser that's becoming more popular these days is Ox. Ruby's standard library also comes with REXML.
The sad truth is that these existing libraries are problematic in their own ways. Nokogiri for example is extremely unstable on Rubinius. On MRI it works because of the non concurrent nature of MRI, on JRuby it works because it's implemented as Java. Nokogiri also uses libxml2 which is a massive beast of a library, is not thread-safe and problematic to install on certain platforms (apparently). I don't want to compile libxml2 every time I install Nokogiri either.
To give an example about the issues with Nokogiri on Rubinius (or any other Ruby implementation that is not MRI or JRuby), take a look at these issues:
- rubinius/rubinius#2957
- rubinius/rubinius#2908
- rubinius/rubinius#2462
- sparklemotion/nokogiri#1047
- sparklemotion/nokogiri#939
Some of these have been fixed, some have not. The core problem remains: Nokogiri acts in a way that there can be a large number of places where it might break due to throwing around void pointers and what not and expecting that things magically work. Note that I have nothing against the people running these projects, I just heavily, heavily dislike the resulting codebase one has to deal with today.
Ox looks very promising but it lacks a rather crucial feature: parsing HTML (without using a SAX API). It's also again a C extension making debugging more of a pain (at least for me).
I just want an XML/HTML parser that I can rely on stability wise and that is written in Ruby so I can actually debug it. In theory it should also make it easier for other Ruby developers to contribute.
All source code in this repository is subject to the terms of the Mozilla Public License, version 2.0 unless stated otherwise. A copy of this license can be found the file "LICENSE" or at https://www.mozilla.org/MPL/2.0/.