Remove previous version of algorithms
authorMarkus Lanthaler <mark_lanthaler@gmx.net>
Tue, 02 Apr 2013 19:10:55 +0200
changeset 1532 1ed945c4894e
parent 1531 579c2a8d4c3a
child 1533 3b38a5f36ea1
Remove previous version of algorithms
spec/latest/json-ld-api/markus.html
--- a/spec/latest/json-ld-api/markus.html	Tue Apr 02 18:42:02 2013 +0200
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,2670 +0,0 @@
-<!DOCTYPE html>
-<html>
-<head>
-<title>JSON-LD 1.0 Processing Algorithms and API</title>
-<meta http-equiv="content-type" content="text/html; charset=UTF-8"/>
-<script type="text/javascript" src="../respec-w3c-common.js" class="remove"></script>
-<script type="text/javascript" src="../respec-w3c-extensions.js" class="remove"></script>
-<script type="text/javascript" class="remove">
-//<![CDATA[
-  var respecConfig = {
-      // extend the bibliography entries
-      "localBiblio": localBibliography,
-
-      doRDFa: "1.1",
-      // specification status (e.g. WD, LCWD, NOTE, etc.). If in doubt use ED.
-      specStatus:           "ED",
-      // if you wish the publication date to be other than today, set this
-      //publishDate:          "2012-12-25",
-      copyrightStart:       "2010",
-
-      // the specification's short name, as in http://www.w3.org/TR/short-name/
-      shortName:            "json-ld-api",
-
-      // if there is a previously published draft, uncomment this and set its YYYY-MM-DD date
-      // and its maturity status
-      previousPublishDate:  "2012-09-30",
-      previousMaturity:     "ED",
-      previousURI:          "http://dvcs.w3.org/hg/json-ld/raw-file/66d980964784/spec/ED/json-ld-api/20120930/index.html",
-
-      // if there a publicly available Editor's Draft, this is the link
-      edDraftURI:           "http://json-ld.org/spec/latest/json-ld-api/index.html",
-
-      testSuiteURI:         "http://json-ld.org/test-suite/",
-
-      // if this is a LCWD, uncomment and set the end of its review period
-      // lcEnd: "2009-08-05",
-
-      // if you want to have extra CSS, append them to this list
-      // it is recommended that the respec.css stylesheet be kept
-      // extraCSS: [],
-
-      issueBase: "https://github.com/json-ld/json-ld.org/issues/",
-
-      // editors, add as many as you like
-      // only "name" is required
-      editors:  [
-          { name: "Markus Lanthaler", url: "http://www.markus-lanthaler.com/",
-            company: "Graz University of Technology", companyURL: "http://www.tugraz.at/" },
-          { name: "Gregg Kellogg", url: "http://greggkellogg.net/",
-            company: "Kellogg Associates", companyURL: "http://kellogg-assoc.com/" },
-          { name: "Manu Sporny", url: "http://manu.sporny.org/",
-            company: "Digital Bazaar", companyURL: "http://digitalbazaar.com/" }
-      ],
-
-      // authors, add as many as you like.
-      // This is optional, uncomment if you have authors as well as editors.
-      // only "name" is required. Same format as editors.
-
-      authors:  [
-          { name: "Dave Longley", url: "http://digitalbazaar.com/",
-            company: "Digital Bazaar", companyURL: "http://digitalbazaar.com/"},
-          { name: "Gregg Kellogg", url: "http://greggkellogg.net/",
-            company: "Kellogg Associates", companyURL: "http://kellogg-assoc.com/" },
-          { name: "Markus Lanthaler", url: "http://www.markus-lanthaler.com/",
-            company: "Graz University of Technology", companyURL: "http://www.tugraz.at/" },
-          { name: "Manu Sporny", url: "http://digitalbazaar.com/",
-            company: "Digital Bazaar", companyURL: "http://digitalbazaar.com/" }
-      ],
-
-      // name of the WG
-      wg:           "RDF Working Group",
-
-      // URI of the public WG page
-      wgURI:        "http://www.w3.org/2011/rdf-wg/",
-
-      // name (with the @w3c.org) of the public mailing to which comments are due
-      wgPublicList: "public-rdf-comments",
-
-      // URI of the patent status for this WG, for Rec-track documents
-      // !!!! IMPORTANT !!!!
-      // This is important for Rec-track documents, do not copy a patent URI from a random
-      // document unless you know what you're doing. If in doubt ask your friendly neighbourhood
-      // Team Contact.
-      wgPatentURI:  "http://www.w3.org/2004/01/pp-impl/46168/status",
-      maxTocLevel: 3,
-      preProcess: [ preProc ],
-      alternateFormats: [ {uri: "diff-20120930.html", label: "diff to previous version"} ],
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-//]]>
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-<style type="text/css">
-  .diff { font-weight:bold; color:#0a3; }
-</style>
-</head>
-
-<body>
-<section id="abstract">
-<p>
-JSON [[!RFC4627]] has proven to be a highly useful object serialization and
-messaging format. JSON-LD [[!JSON-LD]] harmonizes the representation of
-Linked Data in JSON by outlining a common JSON representation format for
-expressing directed graphs, mixing both Linked Data and non-Linked Data in
-a single document. This document outlines an Application Programming
-Interface and a set of algorithms for programmatically transforming
-JSON-LD documents to make them easier to work with in programming
-environments like those that use JavaScript, Python, and Ruby.
-</p>
-</section>
-
-<section id="sotd">
-<p>This document has been under development for over 18 months in the
-JSON for Linking Data Community Group. The document has recently been
-transferred to the RDF Working Group for review, improvement, and publication
-along the Recommendation track. The specification has undergone significant
-development, review, and changes during the course of the last 18 months.
-</p>
-<p>There are several independent
-<a href="http://json-ld.org/#impl">interoperable implementations</a> of
-this specification. There is
-a <a href="https://github.com/json-ld/json-ld.org/tree/master/test-suite">fairly complete test suite</a>
-and a <a href="http://json-ld.org/playground/">live JSON-LD editor</a>
-that is capable of demonstrating the features described in
-this document. While development on implementations, the test suite
-and the live editor will continue, they are believed to be mature enough
-to be integrated into a non-production system at this point in time with
-the expectation that they could be used in a production system within the
-next year.
-</p>
-<p class="issue">
-It is important for readers to understand that the scope of this document is
-currently under debate and new features may be added to the specification.
-Existing features may be modified heavily or removed entirely from the
-specification upon further review and feedback from the broader community.
-This is a work in progress and publication as a Working Draft
-does not require that all Working Group members agree on the content of the
-document.
-</p>
-
-<p>There are a number of ways that one may participate in the development of
-  this specification:</p>
-
-<ul>
-  <li>If you want to make sure that your feedback is formally addressed by
-    the RDF Working Group, you should send it to public-rdf-comments:
-    <a href="http://lists.w3.org/Archives/Public/public-rdf-comments/">public-rdf-comments@w3.org</a></li>
-
-  <li>Ad-hoc technical discussion primarily occurs on the public community mailing list:
-    <a href="http://lists.w3.org/Archives/Public/public-linked-json/">public-linked-json@w3.org</a></li>
-
-  <li><a href="http://json-ld.org/minutes/">Public JSON-LD Community Group teleconferences</a>
-    are held on Tuesdays at 1500UTC every week. Participation is open to the
-    public.</li>
-
-  <li>RDF Working Group teleconferences are held on Wednesdays at 1500UTC
-    every week. Participation is limited to RDF Working Group members.</li>
-
-  <li>Specification bugs and issues should be reported in the
-    <a href="https://github.com/json-ld/json-ld.org/issues">issue tracker</a>
-    if you do not want to send an e-mail to the public-rdf-comments mailing
-    list.</li>
-
-  <li><a href="https://github.com/json-ld/json-ld.org/tree/master/spec">Source code</a>
-    for the specification can be found on Github.</li>
-
-  <li>The <a href="http://webchat.freenode.net/?channels=json-ld">#json-ld</a>
-    IRC channel is available for real-time discussion on irc.freenode.net.</li>
-</ul>
-
-</section>
-
-<section class="informative">
-<h2>Introduction</h2>
-
-<p>
-This document is a detailed specification for an Application Programming
-Interface for the JSON-LD Syntax. The document is primarily intended for
-the following audiences:
-</p>
-
-<ul>
-  <li>Web authors and developers that want a very detailed view of how
-    a JSON-LD processor and the API operates.</li>
-  <li>Software developers that want to implement processors and APIs for
-    JSON-LD documents.</li>
-</ul>
-
-<p>
-To understand the basics in this specification you must first be familiar with
-JSON, which is detailed in [[!RFC4627]]. You must also understand the
-JSON-LD Syntax [[!JSON-LD]], which is the base syntax used by all of the
-algorithms in this document. To understand the API and how it is
-intended to operate in a programming environment, it is useful to have working
-knowledge of the JavaScript programming language [[ECMA-262]] and
-WebIDL [[!WEBIDL]]. To understand how JSON-LD maps to RDF, it is helpful to be
-familiar with the basic RDF concepts [[!RDF-CONCEPTS]].</p>
-
-</section>
-
-<section class="informative">
-<h1>Features</h1>
-
-<p>The JSON-LD Syntax specification [[!JSON-LD]] outlines a language that may be
-  used to express Linked Data in JSON. Often, it is useful to be able to transform
-  JSON-LD documents so that they may be easily processed in various programming
-  environments.</p>
-
-<p>There are four major types of transformation that are discussed in this document:
-  expansion, compaction, flattening, and RDF conversion.</p>
-
-<section class="informative">
-  <h2>Expansion</h2>
-  <p>Software algorithms are easiest to write when the data that they are processing
-    have a regular form. Since information can be represented by JSON-LD in a
-    variety of different ways, transforming all of these methods into a uniform
-    structure allows the developer to simplify their processing code. For example,
-    note that the following input uses only <tref>term</tref>s and is fairly
-    compact:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Sample JSON-LD document">
-  <!--
-  {
-    "@context": {
-      "name": "http://xmlns.com/foaf/0.1/name",
-      "homepage": {
-        "@id": "http://xmlns.com/foaf/0.1/homepage",
-        "@type": "@id"
-      }
-    },
-    "@id": "http://me.markus-lanthaler.com/",
-    "name": "Markus Lanthaler",
-    "homepage": "http://www.markus-lanthaler.com/"
-  }
-  -->
-  </pre>
-
-  <p>The next input example uses one <tref>IRI</tref> to express a property, but leaves
-    the rest of the information untouched.</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Sample JSON-LD document using a IRI instead of a term to express a property">
-  <!--
-  {
-    "@context": {
-      "homepage": {
-        "@id": "http://xmlns.com/foaf/0.1/homepage",
-        "@type": "@id"
-      }
-    },
-    "@id": "http://me.markus-lanthaler.com/",
-    "****http://xmlns.com/foaf/0.1/name****": "Markus Lanthaler",
-    "homepage": "http://www.markus-lanthaler.com/"
-  }
-  -->
-  </pre>
-
-  <p>While both inputs are valid JSON-LD, writing a program to handle every
-    permutation of possible inputs can be difficult, especially when the incoming
-    context could change as well. To ensure that the data can be given a more
-    uniform structure, JSON-LD introduces the notion of expansion. <tdef>Expansion</tdef>
-    performs two important operations. The first is to expand all values that represent
-    <tref title="IRI">IRIs</tref> to <tref title="absolute IRI">absolute IRIs</tref>.
-    The second is to express all values in <tref>expanded form</tref>. Running the
-    <a href="#expansion-algorithm">Expansion algorithm</a> against the examples provided
-    above results in the following output:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Expanded sample document">
-  <!--
-  [
-    {
-      "@id": "http://me.markus-lanthaler.com/",
-      "http://xmlns.com/foaf/0.1/name": [
-        { "@value": "Markus Lanthaler" }
-      ],
-      "http://xmlns.com/foaf/0.1/homepage": [
-        { "@id": "http://www.markus-lanthaler.com/" }
-      ]
-    }
-  ]
-  -->
-  </pre>
-
-  <p>Note that in the output above all <tref>context</tref> definitions have
-    been removed, all <tref title="term">terms</tref> and <tref title="prefix">prefixes</tref>
-    have been expanded to absolute <tref title="IRI">IRIs</tref>, and all
-    <tref title="JSON-LD value">JSON-LD values</tref> are expressed in <tref>expanded form</tref>.
-    While the output is more difficult for a human to read, it is easier for a
-    software program to process because of its very regular structure.</p>
-</section>
-
-<section class="informative">
-  <h2>Compaction</h2>
-  <p>While expansion expands a given input as much as possible, compaction performs
-    the opposite operation: it expresses a given input as succinctly as possible. In contrast
-    to expansion which is meant to produce something that is easy to process by software
-    programs, compaction is meant to produce something that is easy to read by software
-    developers. Compaction uses a developer-supplied <tref>context</tref> to compress
-    <tref title="IRI">IRIs</tref> to <tref title="term">terms</tref> or
-    <tref title="compact IRI">compact IRIs</tref> and <tref title="JSON-LD value">JSON-LD values</tref>
-    expressed in <tref>expanded form</tref> to simple values such as
-    <tref title="string">strings</tref> or <tref title="number">numbers</tref>.</p>
-
-  <p>For example, assume the following expanded JSON-LD input document:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Expanded sample document">
-  <!--
-  [
-    {
-      "@id": "http://me.markus-lanthaler.com/",
-      "http://xmlns.com/foaf/0.1/name": [
-        { "@value": "Markus Lanthaler" }
-      ],
-      "http://xmlns.com/foaf/0.1/homepage": [
-        { "@id": "http://www.markus-lanthaler.com/" }
-      ]
-    }
-  ]
-  -->
-  </pre>
-
-  <p>Additionally, assume the following developer-supplied JSON-LD <tref>context</tref>:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="JSON-LD context">
-  <!--
-  {
-    "@context": {
-      "name": "http://xmlns.com/foaf/0.1/name",
-      "homepage": {
-        "@id": "http://xmlns.com/foaf/0.1/homepage",
-        "@type": "@id"
-      }
-    }
-  }
-  -->
-  </pre>
-
-  <p>Running the <a href="#compaction-algorithm">Compaction Algorithm</a> given the context
-    supplied above against the JSON-LD input document provided above would result in the
-    following output:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Compacted sample document">
-  <!--
-  {
-    "@context": {
-      "name": "http://xmlns.com/foaf/0.1/name",
-      "homepage": {
-        "@id": "http://xmlns.com/foaf/0.1/homepage",
-        "@type": "@id"
-      }
-    },
-    "@id": "http://me.markus-lanthaler.com/",
-    "name": "Markus Lanthaler",
-    "homepage": "http://www.markus-lanthaler.com/"
-  }
-  -->
-  </pre>
-
-  <p>Note that all <tref title="IRI">IRIs</tref> have been compacted to
-    <tref title="term">terms</tref> as specified in the <tref>context</tref>
-    which consequently has been injected into the output. While compacted
-    output is most useful to humans, it can often also be used to generate
-    structures that are easy to program against. Compaction enables developers
-    to map any expanded document into an application-specific compacted document.
-    While the context provided above mapped <code>http://xmlns.com/foaf/0.1/name</code>
-    to <code>name</code>, it could have also have been mapped to any other term
-    provided by the developer.</p>
-
-</section>
-
-<section class="informative">
-  <h2>Flattening</h2>
-  <p>While expansion ensures that a document is in a uniform structure, flattening
-    goes a step further and ensures that also the shape of the data is deterministic.
-    In expanded documents properties of a single <tref>node</tref> may still be
-    spread across a number of different <tref title="JSON object">JSON objects</tref>.
-    By flattening a document, all properties of a <tref>node</tref> are collected in a
-    single <tref>JSON object</tref> and all <tref title="blank node">blank nodes</tref>
-    are labeled with a <tref>blank node identifier</tref>. Often this drastically
-    simplifies the code to process JSON-LD data.</p>
-
-  <p>For example, assume the following JSON-LD input document:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Sample JSON-LD document">
-  <!--
-  {
-    "@context": {
-      "name": "http://xmlns.com/foaf/0.1/name",
-      "knows": "http://xmlns.com/foaf/0.1/knows"
-    },
-    "@id": "http://me.markus-lanthaler.com/",
-    "name": "Markus Lanthaler",
-    "knows": [
-      {
-        "name": "Manu Sporny",
-        "knows": {
-          "@id": "http://greggkellogg.net/foaf#me"
-        }
-      },
-      {
-        "@id": "http://greggkellogg.net/foaf#me",
-        "name": "Gregg Kellogg"
-      }
-    ]
-  }
-  -->
-  </pre>
-
-  <p>Running the <a href="#flattening-algorithm">Flattening Algorithm</a>
-    with a context set to <tref>null</tref> to prevent compaction returns
-    the following document:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Flattened sample document in expanded form">
-  <!--
-  [
-    {
-      "@id": "http://me.markus-lanthaler.com/",
-      "http://xmlns.com/foaf/0.1/name": [
-        { "@value": "Markus Lanthaler" }
-      ],
-      "http://xmlns.com/foaf/0.1/knows": [
-        { "@id": "_:t0" },
-        { "@id": "http://greggkellogg.net/foaf#me" }
-      ]
-    },
-    {
-      "@id": "_:t0",
-      "http://xmlns.com/foaf/0.1/name": [
-        { "@value": "Manu Sporny" }
-      ],
-      "http://xmlns.com/foaf/0.1/knows": [
-        { "@id": "http://greggkellogg.net/foaf#me" }
-      ]
-    },
-    {
-      "@id": "http://greggkellogg.net/foaf#me",
-      "http://xmlns.com/foaf/0.1/name": [
-        { "@value": "Gregg Kellogg" }
-      ]
-    }
-  ]
-  -->
-  </pre>
-
-  <p>Note how in the output above all properties of a <tref>node</tref> are collected in a
-    single <tref>JSON object</tref> and how the <tref>blank node</tref> representing
-    &quot;Manu Sporny&quot; has been assigned the <tref>blank node identifier</tref>
-    <code>_:t0</code>.</p>
-
-  <p>To make it easier for humans to read such a flattened document can be compacted by
-    passing a context. Using the same context as the input document, the flattened
-    and compacted document looks as follows:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Flattened and compacted sample document">
-  <!--
-  {
-    "@context": {
-      "name": "http://xmlns.com/foaf/0.1/name",
-      "knows": "http://xmlns.com/foaf/0.1/knows"
-    },
-    "@graph": [
-      {
-        "@id": "http://me.markus-lanthaler.com/",
-        "name": "Markus Lanthaler",
-        "knows": [
-          { "@id": "_:t0" },
-          { "@id": "http://greggkellogg.net/foaf#me" }
-        ]
-      },
-      {
-        "@id": "_:t0",
-        "name": "Manu Sporny",
-        "knows": {
-          "@id": "http://greggkellogg.net/foaf#me"
-        }
-      },
-      {
-        "@id": "http://greggkellogg.net/foaf#me",
-        "name": "Gregg Kellogg"
-      }
-    ]
-  }
-  -->
-  </pre>
-
-  <p>Please note that the flattened and compacted result will explicitly
-    designate the default graph by the <code>@graph</code> member in the top-level
-    <tref>JSON object</tref>, except if its value contains just one item.</p>
-
-</section>
-
-<section class="informative">
-  <h2>RDF Conversion</h2>
-  <p>JSON-LD can be used to serialize data expressed in RDF as described in
-    [[RDF-CONCEPTS]]. This ensures that data can be round-tripped to and from
-    any RDF syntax without any loss in fidelity.</p>
-
-  <p>For example, assume the following RDF input serialized in Turtle [[TURTLE-TR]]:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Sample Turtle document">
-  <!--
-  <http://me.markus-lanthaler.com/> <http://xmlns.com/foaf/0.1/name> "Markus Lanthaler" .
-  <http://me.markus-lanthaler.com/> <http://xmlns.com/foaf/0.1/homepage> <http://www.markus-lanthaler.com/> .
-  -->
-  </pre>
-
-  <p>Using the <a href="#convert-from-rdf-algorithm">Convert from RDF Algorithm</a> a
-    developer could transform this document into expanded JSON-LD:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="Sample Turtle document converted to JSON-LD">
-  <!--
-  [
-    {
-      "@id": "http://me.markus-lanthaler.com/",
-      "http://xmlns.com/foaf/0.1/name": [
-        {
-          "@value": "Markus Lanthaler"
-        }
-      ],
-      "http://xmlns.com/foaf/0.1/homepage": [
-        {
-          "@id": "http://www.markus-lanthaler.com/"
-        }
-      ]
-    }
-  ]
-  -->
-  </pre>
-
-  <p>Note that the output above could easily be compacted using the technique outlined
-    in the previous section. It is also possible to transform the JSON-LD document back
-    to RDF using the <a href="#convert-to-rdf-algorithm">Convert to RDF Algorithm</a>.</p>
-  </section>
-
-</section>
-
-<section>
-  <h1>Conformance</h1>
-
-  <p>All examples and notes as well as sections marked as non-normative in this
-    specification are non-normative. Everything else in this specification is
-    normative.</p>
-
-  <p>The keywords MUST, MUST NOT, REQUIRED, SHOULD, SHOULD NOT, RECOMMENDED,
-    MAY, and OPTIONAL in this specification are to be interpreted as described
-    in [[!RFC2119]].</p>
-
-  <p>There are two classes of products that can claim conformance to this
-    specification: <tref title="JSON-LD Implementation">JSON-LD Implementations</tref>
-    and <tref title="JSON-LD Processor">JSON-LD Processors</tref>.</p>
-
-  <p>A conforming <tdef>JSON-LD Implementation</tdef> is a system capable of transforming
-    JSON-LD documents according the algorithms defined in this specification.</p>
-
-  <p>A conforming <tdef>JSON-LD Processor</tdef> is a conforming <tref>JSON-LD Implementation</tref>
-    that exposes the Application Programming Interface (API) defined in this specification.</p>
-
-  <p>The algorithms in this specification are generally written with more concern for clarity than
-    efficiency. Thus, JSON-LD Implementations and Processors may implement the algorithms
-    given in this specification in any way desired, so long as the end result is indistinguishable
-    from the result that would be obtained by the specification's algorithms.</p>
-
-  <p>This specification does not define how JSON-LD Implementations or Processors handle
-    non-conforming input documents. This implies that JSON-LD Implementations or Processors
-    MUST NOT attempt to correct malformed <tref title="IRI">IRIs</tref> or language tags;
-    however, they MAY issue validation warnings. IRIs are not modified other than converted
-    between <tref title="relative IRI">relative</tref> and
-    <tref title="absolute IRI">absolute IRIs</tref>.</p>
-
-  <p class="note">Implementers can partially check their level of conformance to
-    this specification by successfully passing the test cases of the JSON-LD test
-    suite [[JSON-LD-TESTS]]. Note, however, that passing all the tests in the test
-    suite does not imply complete conformance to this specification. It only implies
-    that the implementation conforms to aspects tested by the test suite.</p>
-</section>
-
-<section>
-  <h1>General Terminology</h1>
-
-  <p>This document uses the following terms as defined in JSON [[!RFC4627]]. Refer
-    to the <em>JSON Grammar</em> section in [[!RFC4627]] for formal definitions.</p>
-
-  <dl>
-    <dt><tdef>JSON object</tdef></dt>
-    <dd>An object structure is represented as a pair of curly brackets
-      surrounding zero or more key-value pairs. A key is a
-      <tref>string</tref>. A single colon comes after each key, separating the
-      key from the value. A single comma separates a value from a following
-      key.</dd>
-    <dt><tdef>array</tdef></dt>
-    <dd>An array structure is represented as square brackets surrounding zero
-      or more values (or elements). Elements are separated by commas.
-      In JSON, an array is an <em>ordered</em> sequence of zero or more values.
-      While JSON-LD uses the same array representation as JSON,
-      the collection is <em>unordered</em> by default. While order is
-      preserved in regular JSON arrays, it is not in regular JSON-LD arrays
-      unless specific markup is provided (see <a href="#sets-and-lists"></a>).</dd>
-    <dt><tdef>string</tdef></dt>
-    <dd>A string is a sequence of zero or more Unicode characters,
-      wrapped in double quotes, using backslash escapes (if necessary). A
-      character is represented as a single character string.</dd>
-    <dt><tdef>number</tdef></dt>
-    <dd>A number is similar to that used in most programming languages, except
-      that the octal and hexadecimal formats are not used and that leading
-      zeros are not allowed.</dd>
-    <dt><tdef>true</tdef> and <tdef>false</tdef></dt>
-    <dd>Values that are used to express one of two possible boolean states.</dd>
-    <dt><tdef>null</tdef></dt>
-    <dd>The <tref>null</tref> value. A key-value pair in the
-      <code>@context</code> where the value, or the <code>@id</code> of the
-      value, is <tref>null</tref> explicitly decouples a term's association
-      with an IRI. A key-value pair in the body of a JSON-LD document whose
-      value is <tref>null</tref> has the same meaning as if the key-value pair
-      was not defined. If <code>@value</code>, <code>@list</code>, or
-      <code>@set</code> is set to <tref>null</tref> in expanded form, then
-      the entire <tref>JSON object</tref> is ignored.</dd>
-  </dl>
-
-  <p>Furthermore, the following terminology is used throughout this document:</p>
-
-  <dl>
-    <dt><tdef>keyword</tdef></dt>
-    <dd>A JSON key that is specific to JSON-LD, specified in the JSON-LD Syntax specification [[!JSON-LD]]
-      in the section titled <cite><a href="../json-ld-syntax/#syntax-tokens-and-keywords">Syntax Tokens and Keywords</a></cite>.</dd>
-    <dt><tdef>context</tdef></dt>
-    <dd>A a set of rules for interpreting a JSON-LD document as specified in
-      <cite><a href="../json-ld-syntax/#the-context">The Context</a></cite> of the [[JSON-LD]] specification.</dd>
-    <dt><tdef>JSON-LD document</tdef></dt>
-    <dd>A <tref>JSON-LD document</tref> is a serialization of a collection of
-      <tref title="JSON-LD graph">JSON-LD graphs</tref> and comprises exactly one
-      <tref>default graph</tref> and zero or more <tref title="named graph">named graphs</tref>.</dd>
-    <dt><tdef>named graph</tdef></dt>
-    <dd>A named graph is a pair consisting of an <tref>IRI</tref> or <tref>blank node</tref>
-      (the <tdef>graph name</tdef>) and a <tref>JSON-LD graph</tref>.</dd>
-    <dt><tdef>default graph</tdef></dt>
-    <dd>The default graph is the only graph in a JSON-LD document which has no <tref>graph name</tref>.</dd>
-    <dt><tdef>JSON-LD graph</tdef></dt>
-    <dd>A labeled directed graph, i.e., a set of <tref title="node">nodes</tref> connected by <tref title="edge">edges</tref>,
-      as specified in the <cite><a href="../json-ld-syntax/#data-model">Data Model</a></cite> section of the JSON-LD syntax
-      specification [[!JSON-LD]].</dd>
-    <dt><tdef>edge</tdef></dt>
-    <dd>Every <tref>edge</tref> has a direction associated with it and is labeled with
-      an <tref>IRI</tref> or a <tref>blank node identifier</tref>. Within the JSON-LD syntax
-      these edge labels are called <tdef title="property">properties</tdef>. Whenever possible, an
-      <tref>edge</tref> SHOULD be labeled with an <tref>IRI</tref>.</dd>
-    <dt><tdef>node</tdef></dt>
-    <dd>Every <tref>node</tref> is an <tref>IRI</tref>, a <tref>blank node</tref>,
-      a <tref>JSON-LD value</tref>, or a <tref>list</tref>.</dd>
-    <dt><tdef><abbr title="Internationalized Resource Identifier">IRI</abbr></tdef></dt>
-    <dd>An <tref>IRI</tref> (Internationalized Resource Identifier) is a string that conforms to the syntax
-      defined in [[RFC3987]].</dd>
-    <dt><tdef>absolute IRI</tdef></dt>
-    <dd>An absolute IRI is defined in [[!RFC3987]] containing a <em>scheme</em> along with a <em>path</em> and
-      optional <em>query</em> and fragment segments.</dd>
-    <dt><tdef>relative IRI</tdef></dt>
-    <dd>A relative IRI is an IRI that is relative some other <tref>absolute IRI</tref>;
-      in the case of JSON-LD this is the base location of the document.</dd>
-    <dt><tdef>blank node</tdef></dt>
-    <dd>A <tref>node</tref> in a <tref>JSON-LD graph</tref> that does not contain a de-referenceable
-      identifier because it is either ephemeral in nature or does not contain information that needs to be
-      linked to from outside of the JSON-LD graph.</dd>
-    <dt><tdef>blank node identifier</tdef></dt>
-    <dd>A blank node identifier is a string that can be used as an identifier for a <tref>blank node</tref> within
-      the scope of a JSON-LD document. Blank node identifiers begin with <code>_:</code>.</dd>
-    <dt><tdef>JSON-LD value</tdef></dt>
-    <dd>A <tref>JSON-LD value</tref> is a <tref>string</tref>, a <tref>number</tref>,
-      <tref>true</tref> or <tref>false</tref>, a <tref>typed value</tref>, or a
-      <tref>language-tagged string</tref>.</dd>
-    <dt><tdef>typed value</tdef></dt>
-    <dd>A <tref>typed value</tref> consists of a value, which is a string, and a type, which is an <tref>IRI</tref>.</dd>
-    <dt><tdef>language-tagged string</tdef></dt>
-    <dd>A <tref>language-tagged string</tref> consists of a string and a non-empty language
-      tag as defined by [[BCP47]]. The language tag must be well-formed according to section
-      <a href="http://tools.ietf.org/html/bcp47#section-2.2.9">2.2.9</a> of [[BCP47]], and MUST
-      be normalized to lowercase.</dd>
-    <dt><tdef>list</tdef></dt>
-    <dd>A <tref>list</tref> is an ordered sequence of <tref title="IRI">IRIs</tref>,
-      <tref title="blank node">blank nodes</tref>, and
-      <tref title="JSON-LD value">JSON-LD values</tref>.</dd>
-  </dl>
-
-</section>
-
-<section>
-<h1>Algorithms</h1>
-
-<p>All algorithms described in this section are intended to operate on
-  language-native data structures. That is, the serialization to a text-based
-  JSON document isn't required as input or output to any of these algorithms and
-  language-native data structures MUST be used where applicable.</p>
-
-<section>
-  <h2>Algorithm Terms</h2>
-
-  <dl>
-    <dt><tdef>active graph</tdef></dt>
-    <dd>The name of the currently active graph that the processor should use when
-      processing.</dd>
-    <dt><tdef>active subject</tdef></dt>
-    <dd>The currently active subject that the processor should use when
-      processing.</dd>
-    <dt><tdef>active property</tdef></dt>
-    <dd>The currently active property that the processor should use when
-      processing. The active property is represented in the original lexical form, which
-      is used for finding type mappings in the <tref>active context</tref>.</dd>
-    <dt><tdef>active object</tdef></dt>
-    <dd>The currently active object that the processor should use when
-      processing.</dd>
-    <dt><tdef>active context</tdef></dt>
-    <dd>A context that is used to resolve <tref title="term">terms</tref> while
-      the processing algorithm is running.</dd>
-    <dt><tdef>local context</tdef></dt>
-    <dd>A context that is specified within a <tref>JSON object</tref>,
-      specified via the <code>@context</code> <tref>keyword</tref>.</dd>
-    <dt><tdef>processor state</tdef></dt>
-    <dd>The <tref>processor state</tref>, which includes the <tref>active
-      context</tref>, <tref>active subject</tref>, and
-      <tref>active property</tref>. The <tref>processor state</tref> is managed
-      as a stack with elements from the previous <tref>processor state</tref>
-      copied into a new <tref>processor state</tref> when entering a new
-      <tref>JSON object</tref>.</dd>
-    <dt><tdef>JSON-LD input</tdef></dt>
-    <dd>The JSON-LD data structure that is provided as input to the algorithm.</dd>
-    <dt><tdef>JSON-LD output</tdef></dt>
-    <dd>The JSON-LD data structure that is produced as output by the algorithm.</dd>
-    <dt><tdef>term</tdef></dt>
-    <dd>A <tref>term</tref> is a short word defined in a context that MAY be expanded to an <tref>IRI</tref></dd>
-    <dt><tdef>compact IRI</tdef></dt>
-    <dd>A compact IRI is has the form of <tdef>prefix</tdef>:<em>suffix</em> and is used as a way
-      of expressing an IRI without needing to define separate <tref>term</tref> definitions for
-      each IRI contained within a common vocabulary identified by <tref>prefix</tref>.</dd>
-    <dt><tdef>node object</tdef></dt>
-    <dd>A <tref>node object</tref> represents zero or more properties of a
-      <tref>node</tref> in the <tref>JSON-LD graph</tref> serialized by the
-      JSON-LD document. A <tref>JSON object</tref> is a <tref>node object</tref>
-      if it exists outside of the JSON-LD <tref>context</tref> and:
-      <ul>
-        <li>it does not contain the <code>@value</code>, <code>@list</code>,
-          or <code>@set</code> keywords, or</li>
-        <li>it is not the top-level <tref>JSON object</tref> in the JSON-LD document containing
-          the <code>@graph</code> keyword.</li>
-      </ul>
-    </dd>
-    <dt><tdef>list object</tdef></dt>
-    <dd>A <tref>list object</tref> is a <tref>JSON object</tref> that has an <code>@list</code>
-      member.</dd>
-    <dt><tdef>scalar</tdef></dt>
-    <dd>A scalar is either a JSON <tref>string</tref>, <tref>number</tref>, <tref>true</tref>,
-      or <tref>false</tref>.</dd>
-    <dt><tdef>quad</tdef></dt>
-    <dd>An <em>RDF triple</em> as specified by [[RDF-CONCEPTS]] augmented with
-      a fourth component, a <tref>graph name</tref>.</dd>
-  </dl>
-</section>
-
-<section>
-  <h2>Expansion Algorithm</h2>
-
-  <p>The algorithm takes three input variables: an <tref>active context</tref>,
-    an <tref>active property</tref>, and an <em>element</em> to be expanded. To
-    begin, the <tref>active context</tref> is set to the result of performing, <a
-    href="#context-processing">Context Processing</a> on the passed
-    <code class="idlMemberName"><a href="#widl-JsonLdOptions-expandContext">expandContext</a></code>,
-    or empty if <code class="idlMemberName"><a href="#widl-JsonLdOptions-expandContext">expandContext</a></code>
-    is <tref>null</tref>, <tref>active property</tref> is set to <tref>null</tref>, and
-    <em>element</em> is set to the <tref>JSON-LD input</tref>. This algorithm expects the
-    <tref>JSON-LD input</tref> to be a well-formed JSON-LD document as defined in [[!JSON-LD]].</p>
-
-  <ol class="algorithm">
-    <li>If <em>element</em> is a <tref>scalar</tref>, expand it according to the
-      <a href="#value-expansion">Value Expansion</a> algorithm, passing copies of the
-      <tref>active context</tref> and <tref>active property</tref> and return. If the
-      <tref>active property</tref> equals <tref>null</tref> or <code>@graph</code>
-      set <em>element</em> to <tref>null</tref> instead and return.</li>
-    <li>If <em>element</em> is <tref>null</tref>, return.</li>
-    <li>If <em>element</em> is an <tref>array</tref>,
-      <ol class="algorithm">
-        <li>initialize an empty array <em>result</em>.</li>
-        <li>Expand each <em>item</em> by recursively using this algorithm, passing copies of
-          the <tref>active context</tref> and <tref>active property</tref>.</li>
-        <li>If the <tref title="active property">active property's</tref>
-          <tref>container mapping</tref> is set to <code>@list</code> and the expanded
-          <em>item</em> is an <tref>array</tref> or a <tref>list object</tref> trigger
-          a <code class="error">list of lists detected</code> error.</li>
-        <li>If the expanded <em>item</em> is <tref>null</tref>, drop it.</li>
-        <li>Otherwise, if the expanded <em>item</em> is an <tref>array</tref>, merge its
-          entries with <em>result's</em> entries.</li>
-        <li>Otherwise, append <em>item</em> to <em>result</em>.</li>
-        <li>Finally, set <em>element</em> to <em>result</em> and return.</li>
-      </ol>
-    </li>
-    <li>Otherwise, <em>element</em> must be an object.
-      <ol class="algorithm">
-        <li>If <em>element</em> has a <code>@context</code> member, update the
-          <tref>active context</tref> according to the steps outlined in
-          <a href="#context-processing">Context Processing</a> and remove the
-          <code>@context</code> member.</li>
-        <li>Initialize an empty <tref>JSON object</tref> <em>result</em> and</li>
-        <li>then process each <em>property</em> and <em>value</em> in <em>element</em>
-          ordered by <em>property</em> as follows:
-          <ol class="algorithm">
-            <li>If the <tref>active context</tref> contains a <tref>property generator</tref> for
-               <em>property</em> set <em>expanded property</em> to its <tref title="IRI">IRIs</tref>,
-               otherwise set it to the result of expanding <em>property</em> according to the steps
-               outlined in <a href="#iri-expansion">IRI Expansion</a> (passing <code>true</code> for
-               the <em>vocabRelative</em> flag).</li>
-            <li>If <em>expanded property</em> is a <tref>keyword</tref>, process it as
-              follows:
-              <ol class="algorithm">
-                <li>If <em>expanded property</em> equals <code>@id</code>, set the <code>@id</code>
-                  member of <em>result</em> to the result of expanding <em>value</em>
-                  according the <a href="#iri-expansion">IRI Expansion algorithm</a> (passing <code>true</code>
-                  for the <em>documentRelative</em> flag). If <em>value</em> is not a <tref>string</tref>
-                  trigger an <code class="error">invalid @id value</code> error.</li>
-                <li>If <em>expanded property</em> equals <code>@type</code>, set the <code>@type</code>
-                  member of <em>result</em> to the result of expanding <em>value</em>
-                  according the <a href="#iri-expansion">IRI Expansion algorithm</a> (passing <code>true</code>
-                  for both the <em>documentRelative</em> and the <em>vocabRelative</em> flag). If <em>value</em>
-                  is neither a <tref>string</tref> nor an <tref>array</tref> of
-                  <tref title="string">strings</tref> trigger an <code class="error">invalid type value</code>
-                  error. Empty <tref title="array">arrays</tref> are ignored.</li>
-                <li>If <em>expanded property</em> equals <code>@value</code>, set the <code>@value</code>
-                  member of <em>result</em> to <em>value</em>. If <em>value</em> is neither a <tref>scalar</tref>
-                  nor <tref>null</tref> trigger an <code class="error">invalid value object value</code> error.</li>
-                <li>If <em>expanded property</em> equals <code>@language</code>, set the <code>@language</code>
-                  member of <em>result</em> to the lowercased <em>value</em>. If <em>value</em> is not
-                  a <tref>string</tref>, trigger an <code class="error">invalid language value</code> error.</li>
-                <li>If <em>expanded property</em> equals <code>@index</code>, set the <code>@index</code>
-                  member of <em>result</em> to <em>value</em>. If <em>value</em> is not a <tref>string</tref>
-                  trigger an <code class="error">invalid @index value</code> error.</li>
-                <li>If <em>expanded property</em> equals <code>@set</code> set the <em>expanded property</em>
-                  member of <em>result</em> to the result of expanding <em>value</em> by
-                  recursively using this algorithm, passing copies of the <tref>active context</tref> and
-                  <tref>active property</tref>.</li>
-                <li>If <em>expanded property</em> equals <code>@list</code>, set the <em>expanded property</em>
-                  member of <em>result</em> to the result of expanding <em>value</em> by
-                  recursively using this algorithm, passing copies of the <tref>active context</tref> and
-                  <tref>active property</tref>; if <tref>active property</tref> equals <tref>null</tref> or
-                  <code>@graph</code>, pass <code>@list</code> as <tref>active property</tref> instead.</li>
-                <li>If <em>expanded property</em> equals <code>@graph</code>, set the <code>@graph</code>
-                  member of <em>result</em> to the result of expanding <em>value</em> by
-                  recursively using this algorithm, passing copies of the <tref>active context</tref> and
-                  <code>@graph</code> as <tref>active property</tref>.</li>
-                <li>Continue with the next <em>property</em>-<em>value</em> pair from <em>element</em>.</li>
-              </ol>
-            </li>
-            <li>If <em>expanded property</em> is neither a <tref>blank node identifier</tref> nor an
-              <tref>absolute IRI</tref>,i.e., it is <tref>null</tref> or does not contain a colon
-              (<code>:</code>), continue with the next member from <em>element</em>.</li>
-            <li>Otherwise, if <em>property's</em> <tref>container mapping</tref> is set to
-              <code>@language</code>
-              <ol class="algorithm">
-                <li>Initialize a new empty <tref>array</tref> <em>language map values</em>.</li>
-                <li>Process each <em>key</em>-<em>val</em> pair of <em>value</em> ordered by
-                  <em>key</em> as follows:
-                  <ol class="algorithm">
-                    <li>If <em>val</em> is not an array, transform it to one.</li>
-                    <li>For each item of <em>val</em>, construct a new <tref>JSON object</tref>
-                      consisting of two members: <code>@value</code> set to the currently
-                      processed item and <code>@language</code> set to the lowercased <em>key</em>.
-                      If <em>val</em> is not a <tref>string</tref>, trigger a
-                      <code class="error">language map invalid value</code> error. Otherwise append
-                      the object to <em>language map values</em>.</li>
-                  </ol>
-                </li>
-                <li>Set <em>value</em> to <em>language map values</em>.</li>
-              </ol>
-            </li>
-            <li>Otherwise, if <em>property's</em> <tref>container mapping</tref> is set to
-              <code>@index</code>
-              <ol class="algorithm">
-                <li>Initialize a new empty <tref>array</tref> <em>index map values</em>.</li>
-                <li>Process each <em>key</em>-<em>val</em> pair of <em>value</em> ordered by
-                  <em>key</em> as follows:
-                  <ol class="algorithm">
-                    <li>If <em>val</em> is not an array, transform it to one.</li>
-                    <li>Expand <em>val</em> by recursively using this algorithm, passing copies of
-                      the <tref>active context</tref> and <em>property</em> as
-                      <tref>active property</tref>.</li>
-                    <li>Add to each item of <em>val</em> a member <code>@index</code> set to
-                      <em>key</em> if no such member exists yet and append the resulting
-                      <tref>JSON object</tref> to <em>index map values</em>.</li>
-                  </ol>
-                </li>
-                <li>Set <em>value</em> to <em>index map values</em>.</li>
-              </ol>
-            </li>
-            <li>Otherwise, expand <em>value</em> by recursively using this algorithm, passing
-              copies of the <tref>active context</tref> and <em>property</em> as
-              <tref>active property</tref>.</li>
-            <li>If the expanded <em>value</em> equals <tref>null</tref>, continue with the next
-              <em>property</em>-<em>value</em> pair from <em>element</em>.</li>
-            <li>If <em>property's</em> <tref>container mapping</tref> is set to <code>@list</code> and
-              <em>value</em> is either not an <tref>JSON object</tref> or a <tref>JSON object</tref>
-              without an <code>@list</code> member, replace <em>value</em> with a
-              <tref>JSON object</tref> with an <code>@list</code> member whose value is set to
-              <em>value</em> (wrapped in an <tref>array</tref> if it is not already one).</li>
-            <li>If <em>expanded property</em> is an <tref>array</tref>,
-              <ol class="algorithm">
-                <li>label all <tref title="blank node">blank nodes</tref> in <em>value</em> with
-                  <tref title="blank node identifier">blank node identifiers</tref> by using the
-                  <a href="#label-blank-nodes-algorithm">Label Blank Nodes Algorithm</a>.</li>
-                <li>Then, for each <em>iri</em> of <em>expanded property</em> merge a copy
-                  of <em>value</em> into the <em>iri</em> member of the <em>result</em>
-                  <tref>JSON object</tref>.</li>
-              </ol>
-            </li>
-            <li>Otherwise, merge <em>value</em> into the <em>iri</em> member of the <em>result</em>
-              <tref>JSON object</tref>.</li>
-          </ol>
-        </li>
-        <li>Set <em>element</em> to <em>result</em> and <em>numProperties</em> to the number of members
-          of <em>result</em>.</li>
-        <li>If <em>element</em> has an <code>@index</code> member, decrease <em>numProperties</em>
-          by 1.</li>
-        <li>If the <tref>active property</tref> equals <tref>null</tref> or <code>@graph</code> and
-          <em>element</em> has an <code>@value</code> member, <em>numProperties</em> equals <code>0</code>,
-          or <em>element</em> consists of only an <code>@id</code> member, set <em>element</em> to
-          <tref>null</tref> and return.</li>
-        <li>If <em>element</em> has an <code>@value</code> member,
-          <ol class="algorithm">
-            <li>decrease <em>numProperties</em> by 1.</li>
-            <li>If <em>element</em> has an <code>@language</code> member, decrease <em>numProperties</em>
-              by 1 and check that the value of the <code>@value</code> member is a string. If not,
-              trigger an <code class="error">invalid language tagged string</code> error.</li>
-            <li>Otherwise, if <em>element</em> has an <code>@type</code> member, decrease
-              <em>numProperties</em> by 1 and check that the value of the <code>@type</code> member is a
-              string. If not, trigger an <code class="error">invalid typed value</code> error.</li>
-            <li>If <em>numProperties</em> is greater than 0, trigger an
-              <code class="error">invalid value object</code> error.</li>
-            <li>If the value of the <code>@value</code> member equals <tref>null</tref>, set
-              <em>element</em> to <tref>null</tref>.</li>
-            <li>Return.</li>
-          </ol>
-        </li>
-        <li>If <em>element</em> has an <code>@type</code> member whose value is not an <tref>array</tref>,
-          transform it to an <tref>array</tref>.</li>
-        <li>If <em>element</em> has an <code>@list</code> or <code>@set</code> member and
-          <em>numProperties</em> is greater than 1, trigger an
-          <code class="error">invalid set or list object</code> error.</li>
-        <li>Otherwise, if <em>element</em> has an <code>@set</code> member, set <em>element</em> to
-          the value of that member.</li>
-        <li>Otherwise, if <em>element</em> has just an <code>@language</code> member, set <em>element</em>
-          to null.</li>
-      </ol>
-    </li>
-  </ol>
-
-  <p>If, after the algorithm outlined above is run, the resulting <em>element</em> is an
-    <tref>JSON object</tref> with just a <code>@graph</code> member, <em>element</em> is set to
-    the value of <code>@graph</code>'s value. Finally, if <em>element</em> is a <tref>JSON object</tref>,
-    it is wrapped into an <tref>array</tref>, if <em>element</em> equals <tref>null</tref>, an empty
-    <tref>array</tref> is returned.</p>
-</section>
-
-<section>
-  <h2 id="context">Context Processing</h2>
-
-  <p>Processing of JSON-LD data structure is managed recursively. During processing, each
-    rule is applied using information provided by the <tref>active context</tref>.</p>
-
-  <p>The <tref>active context</tref> contains the active <tdef title="term definition">term definitions</tdef>
-    which specify how properties and values have to be interpreted as well as the current
-    <tdef>vocabulary mapping</tdef> and the <tdef>default language</tdef>. Each <tref>term definition</tref> consists
-    of an <tdef>IRI mapping</tdef> and optionally a <tdef>type mapping</tdef> from terms to datatypes or
-    <tdef>language mapping</tdef> from terms to language codes, and a <tdef>container mapping</tdef>. If an
-    <tref>IRI mapping</tref> maps a term to multiple <tref="IRI">IRIs</tref> it is said to be a
-    <tdef>property generator</tdef>.</p>
-
-  <p>If a <tref>local context</tref> is encountered, information from the <tref>local context</tref>
-    is merged into the <tref>active context</tref>. A <tref>local context</tref> is identified within
-    a <tref>JSON object</tref> having a <code>@context</code> member with a <tref>string</tref>,
-    <tref>array</tref> or a <tref>JSON object</tref> value.</p>
-
-  <p>This algorithm specifies how the <tref>active context</tref> is updated with a
-    <tref>local context</tref>. The algorithm takes three input variables: an <tref>active context</tref>,
-    a <tref>local context</tref>, and an array of already included remote contexts <em>remoteContexts</em>. To
-    begin, <em>remoteContexts</em> is initialized to an empty array.</p>
-
-  <p>All calls of the <a href="#iri-expansion">IRI Expansion algorithm</a> pass the value specified in the
-    algorithm along with the <tref>active context</tref>, the currently being processed <tref>local context</tref>,
-    and <code>true</code> for the <em>vocabRelative</em> flag.</p>
-
-  <ol class="algorithm">
-    <li>If the <tref>local context</tref> is not an array, transform it to one.</li>
-    <li>Process each item <em>context</em> of the <tref>local context</tref> as follows:
-      <ol class="algorithm">
-        <li>If <em>context</em> equals <tref>null</tref>, reset the <tref>active context</tref>
-          and continue with the next item.</li>
-        <li>If <em>context</em> is a <tref>string</tref>:
-          <ol class="algorithm">
-            <li>Expand <em>context</em> according to <a href="#iri-expansion">IRI Expansion</a>.</li>
-            <li>If <em>context</em> is in the <em>remoteContexts</em> array, raise an
-              <code class="error">recursive context inclusion</code> error. Otherwise, add
-              <em>context</em> to <em>remoteContexts</em>.</li>
-            <li>Dereference <em>context</em>.</li>
-            <li>If the resulting document is a JSON document consisting of a top-level
-              <tref>JSON object</tref> that has a <code>@context</code> member recursively invoke
-              this algorithm passing a copy of <tref>active context</tref>, the value of the
-              <code>@context</code> member as <tref>local context</tref>, and a copy of
-                the <em>remoteContexts</em> array. <tref title="relative IRI">Relative IRIs</tref>
-                are expanded using the remote context's IRI. Otherwise raise an
-                <code class="error">invalid remote context</code> error.</li>
-            <li>Continue with the next item from <em>context</em>.</li>
-          </ol>
-        </li>
-        <li>If <em>context</em> is not a <tref>JSON object</tref>, raise an
-          <code class="error">invalid local context</code> error.</li>
-        <li>Otherwise, if <em>context</em> is an <tref>JSON object</tref>, perform the following steps:
-          <ol class="algorithm">
-            <li>If <em>context</em> has a <code>@vocab</code> member: if its value is neither
-              an <tref>absolute IRI</tref>, i.e., it does not contain a colon (<code>:</code>),
-              nor <tref>null</tref>, trigger an <code class="error">invalid vocab mapping</code>
-              error; otherwise set the <tref title="active context">active context's</tref>
-              <tref>vocabulary mapping</tref> to its value and remove the <code>@vocab</code>
-              member from <em>context</em>.</li>
-            <li>If <em>context</em> has a <code>@language</code> member: if its value is neither
-              a <tref>string</tref> nor <tref>null</tref>, trigger an
-              <code class="error">invalid default language</code> error; otherwise set the
-              <tref title="active context">active context's</tref> <tref>default language</tref> to
-              its value and remove the <code>@language</code> member from <em>context</em>.</li>
-            <li>For each other <em>key</em>-<em>value</em> pair in <em>context</em> perform the
-              following steps:
-              <ol class="algorithm">
-                <li>Remove the <em>key</em>-<em>value</em> pair from <em>context</em>.</li>
-                <li>If <em>key</em> is a JSON-LD <tref>keyword</tref>, raise a
-                  <code class="error">keyword redefinition</code> error.</li>
-                <li>If <em>value</em> equals <tref>null</tref>, replace the <tref>term definition</tref>
-                  for <em>key</em> in the <tref>active context</tref> with an <tref>IRI mapping</tref>
-                  set to <tref>null</tref> and continue with the next <em>key</em>-<em>value</em> pair.</li>
-                <li>If <em>value</em> is a <tref>string</tref>, expand it according to the
-                  <a href="#iri-expansion">IRI Expansion algorithm</a> and replace the
-                  <tref>term definition</tref> for <em>key</em> in the <tref>active context</tref> with
-                  an <tref>IRI mapping</tref> set to the expanded <em>value</em>. Continue with
-                  the next <em>key</em>-<em>value</em> pair.</li>
-                <li>If <em>value</em> is not a <tref>JSON object</tref>, trigger an
-                  <code class="error">invalid term definition</code> error</li>
-                <li>If <tref>term definition</tref> for <em>key</em> exists in the
-                  <tref>active context</tref>, remove it.</li>
-                <li>Initialize a new, empty <tref>term definition</tref> <em>definition</em>.</li>
-                <li>If <em>value</em> has an <code>@id</code> member with a value <em>val</em>:
-                  <ol class="algorithm">
-                    <li>if <em>val</em> is an <tref>array</tref>,:
-                      <ol class="algorithm">
-                        <li>expand each <em>item</em> in the array according the
-                          <a href="#iri-expansion">IRI Expansion algorithm</a> if it is a
-                          <tref>string</tref>. If am <em>item</em> is not a <tref>string</tref>,
-                          raise an <code class="error">invalid property generator</code> error; if
-                          <em>item</em> does not expand to an <tref>absolute IRI</tref> or
-                          <tref>blank node identifier</tref>, i.e., it does not contain a colon
-                          (<code>:</code>) after expansion, raise an
-                          <code class="error">invalid property generator IRI mapping</code> error.</li>
-                        <li>Lexicographically sort <em>val</em> and set the <tref>IRI mapping</tref>
-                          of <em>definition</em> to <em>val</em>.</li>
-                      </ol>
-                    <li>Otherwise, expand <em>val</em> according the
-                      <a href="#iri-expansion">IRI Expansion algorithm</a> and set the
-                      <tref>IRI mapping</tref> of <em>definition</em> to <em>val</em>.</li>
-                  </ol>
-                </li>
-                <li>Otherwise, set the <tref>IRI mapping</tref> of <em>definition</em> to the result of
-                  expanding <em>key</em> according the <a href="#iri-expansion">IRI Expansion algorithm</a>.</li>
-                <li>If the <tref>IRI mapping</tref> of <em>definition</em> is set to <tref>null</tref> or a
-                  <tref>keyword</tref>, store <em>definition</em> as the <tref>term definition</tref>
-                  for <em>key</em> in the <tref>active context</tref> and continue with the next
-                  <em>key</em>-<em>value</em> pair from <em>context</em>.</li>
-                <li>Otherwise, if the <tref>IRI mapping</tref> of <em>definition</em> is set to
-                  a <tref>string</tref> which does not contain a colon (<code>:</code>), i.e., it is
-                  neither an <tref>absolute IRI</tref> nor a <tref>blank node identifier</tref>,
-                  raise an <code class="error">invalid term IRI mapping</code> error.</li>
-                <li>If <em>value</em> has an <code>@type</code> member with a value <em>val</em> and <em>val</em>
-                  is not a <tref>string</tref> or does not expand to an <tref>absolute IRI</tref> using the
-                  <a href="#iri-expansion">IRI Expansion algorithm</a>, raise an
-                  <code class="error">invalid type mapping</code> error. Otherwise set the
-                  <tref>IRI mapping</tref> of <em>definition</em> to the expanded <em>val</em>.</li>
-                <li>Otherwise, if <em>value</em> has an <code>@language</code> member with a value <em>val</em>
-                  that is a <tref>string</tref> or <tref>null</tref>, set the <tref>language mapping</tref> of
-                  <em>definition</em> to the lowercased <em>val</em>. If <em>val</em> is neither a
-                  <tref>string</tref> nor <tref>null</tref>, raise an
-                  <code class="error">invalid language mapping</code> error.</li>
-                <li>If <em>value</em> has an <code>@container</code> member with a value <em>val</em> that
-                  equals <code>@list</code>, <code>@set</code>, <code>@language</code>, or <code>@index</code>,
-                  set the <tref>container mapping</tref> of <em>definition</em> to <em>val</em>.
-                  If <em>val</em> is not one of those values, raise an
-                  <code class="error">invalid container mapping</code> error.</li>
-              </ol>
-            </li>
-          </ol>
-        </li>
-      </ol>
-    </li>
-  </ol>
-</section>
-
-<section>
-  <h2>IRI Expansion</h2>
-
-  <p>In JSON-LD documents keys and some values are evaluated to produce an <tref>IRI</tref>.
-    This section defines an algorithm for transforming strings representing an IRI into an
-    <tref>absolute IRI</tref>. If IRI expansion occurs during context processing, the
-    <tref>local context</tref> that is being processed is passed to this algorithm.
-    After application of this algorithm, values processed by this algorithm are said to be
-    in <tdef>expanded IRI form</tdef>, although this may also include
-    <tref title="blank node identifier">blank node identifiers</tref> and
-    JSON-LD <tref title="keyword">keywords</tref>.</p>
-
-  <p>The algorithm takes two mandatory and four optional input variables: a <em>value</em>
-    to be expanded, an <tref>active context</tref>, two flags <em>documentRelative</em> and
-    <em>vocabRelative</em> specifying whether <em>value</em> should be interpreted as
-    <tref>relative IRI</tref> against the document's base IRI or the
-    <tref title="active context">active context's</tref> <tref>vocabulary mapping</tref>,
-    along with an <tref>local context</tref> passed when this algorithm is used in
-    <a href="#context-processing">Context Processing</a>, and finally an array
-    <em>path</em> which is used to detect cyclic <tref title="IRI mapping">IRI mappings</tref>.
-    If not passed, the two flags are set to <code>false</code> and <em>path</em> is
-    initialized to an empty <tref>array</tref> by default.</p>
-
-  <p>The algorithm for generating an IRI is:</p>
-
-  <ol class="algorithm">
-    <li>If <em>value</em> is <tref>null</tref> or a JSON-LD <tref>keyword</tref>, return
-      <em>value</em> as is.</li>
-    <li>If a <tref>local context</tref> has been passed
-      <ol class="algorithm">
-        <li>and <em>value</em> is in the <em>path</em> array, raise a
-          <code class="error">cyclic IRI mapping</code> error. Otherwise append <em>value</em>
-          to <em>path</em>.</li>
-        <li>If <tref>local context</tref> contains an <tref>IRI mapping</tref> for <em>value</em>
-          that is not a <tref>property generator</tref> return the result of recursively calling
-          this algorithm passing the <tref>IRI</tref> of the <tref>IRI mapping</tref> as new
-          <em>value</em>, the <tref>active context</tref> and <tref>local context</tref>,
-          <em>path</em>, and <code>true</code> for the <em>vocabRelative</em> flag. If the result
-          is a <tref>property generator</tref>, raise an
-          <code class="error">property generator in term definition</code> error.</li>
-      </ol>
-    </li>
-    <li>If the <em>vocabRelative</em> flag is set to <code>true</code> and an <tref>IRI mapping</tref>
-      exists for <em>value</em> in the <tref>active context</tref> that is not a
-      <tref>property generator</tref>, return the value of the <tref>IRI mapping</tref>.</li>
-    <li>If <em>value</em> contains a colon (<code>:</code>), perform the following steps:
-      <ol class="algorithm">
-        <li>Split <em>value</em> into a <em>prefix</em> and <em>suffix</em> at the first occurrence of
-          a colon (<code>:</code>).</li>
-        <li>If <em>suffix</em> begins with <code>//</code> or <em>prefix</em> equals <code>_</code>,
-          return <em>value</em> as is.</li>
-        <li>If a <tref>local context</tref> has been passed, expand <em>prefix</em> by recursively
-          invoking this algorithm passing <em>prefix</em> as <em>value</em>, the <tref>active context</tref>
-          and <tref>local context</tref>, <em>path</em>, and <code>true</code> for the
-          <em>vocabRelative</em> flag. If the expanded <em>prefix</em> contains a colon (<code>:</code>)
-          generate and return an <tref>IRI</tref> by prepending the expanded <em>prefix</em> to the
-          (possibly empty) <em>suffix</em> using textual concatenation.</li>
-        <li>Otherwise, if the <tref>active context</tref> contains an <tref>IRI mapping</tref> for
-          <em>prefix</em> that is not a <tref>property generator</tref>, generate and return an
-          <tref>IRI</tref> by prepending the <tref>IRI</tref> mapped to <em>prefix</em> to the
-          (possibly empty) <em>suffix</em> using textual concatenation.</li>
-      </ol>
-    </li>
-    <li>Otherwise, if the <em>vocabRelative</em> flag is set to <code>true</code> and the
-      <tref>active context</tref> contains a <tref>vocabulary mapping</tref>, generate and return an
-      <tref>IRI</tref> by prepending the <tref>IRI</tref> of the <tref>vocabulary mapping</tref>
-      to the <em>value</em> using textual concatenation.</li>
-    <li>Otherwise, if the <em>documentRelative</em> flag is set to <code>true</code>, resolve <em>value</em>
-      against the base IRI as per [[!RFC3986]] and return the resulting <tref>IRI</tref>. Only the basic
-      algorithm in section&nbsp;5.2 of [[!RFC3986]] is used; neither <em>Syntax-Based Normalization</em>
-      nor <em>Scheme-Based Normalization</em> (as described in sections&nbsp;6.2.2 and&nbsp;6.2.3 of [[!RFC3986]])
-      are performed. Characters additionally allowed in IRI references are treated in the same way that
-      unreserved characters are treated in URI references, per section&nbsp;6.5 of [[!RFC3987]]</li>
-    <li>Otherwise return <em>value</em> as is.</li>
-  </ol>
-
-  <p>If the result of the algorithm above is a <tref>blank node identifier</tref>, i.e., a string that begins with
-    <code>_:</code>, and no <tref>local context</tref> has been passed,
-    <a href="#generate-blank-node-identifier">generated a new blank node identifier</a> before returning the
-    final result.</p>
-</section>
-
-<section>
-  <h2>Value Expansion</h2>
-
-  <p>Some values in JSON-LD can be expressed in a <tref>compacted form</tref>. These values
-    are required to be expanded at times when processing JSON-LD documents.
-    A value is said to be in <tdef>expanded form</tdef> after
-    the application of this algorithm.</p>
-
-  <p>The algorithm for expanding a <em>value</em> takes an <tref>active property</tref>
-    and <tref>active context</tref>. It is implemented as follows:</p>
-
-  <ol class="algorithm">
-    <li>If <em>value</em> is <tref>null</tref>, return <tref>null</tref>.</li>
-    <li>Initialize an empty object <em>result</em>.</li>
-    <li>If <tref>active property</tref> is <code>@graph</code> or the
-      <tref title="active property">active property's</tref> <tref>type mapping</tref> is set to
-      <code>@id</code>, add a key-value pair to <em>result</em> where the key is <code>@id</code>
-      and the value is the result of expanding <em>value</em> according to the
-      <a href="#iri-expansion">IRI Expansion algorithm</a> passing <code>true</code> for the
-      <em>documentRelative</em> flag. Then return <em>result</em>.</li>
-    <li>Add a key-value pair to <em>result</em> where the key is <code>@value</code>
-      and the value is <em>value</em>.</li>
-    <li>If the <tref>active property</tref> has a <tref>type mapping</tref>, add a key-value
-      pair to <em>result</em> where the key is <code>@type</code> and the value is the
-      <tref>IRI</tref> associated with the <tref>type mapping</tref> or a newly
-      <a href="#generate-blank-node-identifier">generated blank node identifier</a> if the
-      <tref>type mapping</tref> is set to a <tref>blank node identifier</tref>.</li>
-    <li>Otherwise, if <em>value</em> is a <tref>string</tref> and the <tref>active property</tref> has a
-      <tref>language mapping</tref> or an <tref>default language</tref> is set in the <tref>active context</tref>,
-      add a key-value pair to <em>result</em> where the key is <code>@language</code> and the value is the
-      language tag associated with the <tref>language mapping</tref> or the <tref>active property</tref> or the
-      <tref>default language</tref>.</li>
-    <li>Return <em>result</em>.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Label Blank Nodes Algorithm</h2>
-
-  <p>The algorithm takes a single input variable: an <em>element</em> to be labeled with
-    <tref title="blank node identifier">blank node identifiers</tref>.</p>
-
-  <ol class="algorithm">
-    <li>If <em>element</em> is an <tref>array</tref>, recursively apply this
-      algorithm to all its items.</li>
-    <li>Otherwise, if <em>element</em> is a <tref>JSON object</tref> with a
-      <code>@list</code> member, recursively apply this algorithm to all items
-      of the <code>@list</code> member's value.</li>
-    <li>Otherwise, if <em>element</em> is a <tref>JSON object</tref>
-      <ol class="algorithm">
-        <li>For each <em>key</em>-<em>value</em> pair ordered by <em>key</em>
-          recursively apply this algorithm to <em>value</em>.</li>
-        <li>If <em>element</em> is a <tref>node object</tref> without an <code>@id</code> member,
-          create a new <code>@id</code> member and assign it a new
-          <tref>blank node identifier</tref> according the
-          <a href="#generate-blank-node-identifier">Generate Blank Node Identifier</a> algorithm.</li>
-      </ol>
-    </li>
-  </ol>
-</section>
-
-<section>
-  <h2>Generate Blank Node Identifier</h2>
-
-  <p>This algorithm is used to generate new
-    <tref title="blank node identifier">blank node identifiers</tref> or to relabel existing
-    <tref title="blank node identifier">blank node identifiers</tref> with a new one to avoid
-    collision by the introduction of new ones. It needs to keep an <em>identifier map</em>,
-    a <em>counter</em>, and a <em>prefix</em> between its executions to be able to generate new
-    <tref title="blank node identifier">blank node identifiers</tref>. The <em>counter</em>
-    is initialized to <code>0</code> and <em>prefix</em> is set to <code>_:t</code> by default.</p>
-
-  <p>The algorithm takes a single input variable <em>identifier</em> which might be
-    <tref>null</tref>.</p>
-
-  <ol class="algorithm">
-    <li>If the <em>identifier</em> is not <tref>null</tref> and is in the <em>identifier map</em>,
-      return the mapped identifier.</li>
-    <li>Otherwise, generate a new <em>blankNodeIdentifier</em> by concatenating <em>prefix</em>
-      and <em>counter</em>.</li>
-    <li>Increment <em>counter</em> by <code>1</code>.</li>
-    <li>If <em>identifier</em> is not <tref>null</tref>, create a new entry in
-      <em>identifier map</em> set to <em>blankNodeIdentifer</em>.</li>
-    <li>Return <em>blankNodeIdentifier</em>.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Compaction Algorithm</h2>
-
-  <p>The algorithm takes four input variables: an <tref>active context</tref>,
-    an <tref>inverse context</tref>, an <tref>active property</tref>, and an <em>element</em>
-    to be compacted. To begin, the <tref>active context</tref> is set to the result of performing
-    <a href="#context-processing">Context Processing</a> on the passed <em>context</em>,
-    <tref>inverse context</tref> is set to the result of
-    <a href="#context-processing">creating an inverse context</a> from the <tref>active context</tref>,
-    <tref>active property</tref> is set to <tref>null</tref>, and <em>element</em> is set to
-    the result of performing the <a href="#expansion-algorithm">Expansion Algorithm</a>
-    on the <tref>JSON-LD input</tref>.</p>
-
-  <ol class="algorithm">
-    <li>If <em>element</em> is an <tref>array</tref>,
-      <ol class="algorithm">
-        <li>Initialize a new empty array <em>result</em>.</li>
-        <li>Process each item in <em>element</em> recursively using this algorithm,
-          passing a copy of the <tref>active context</tref>, <tref>inverse context</tref>,
-          and the <tref>active property</tref>. Add each compacted item to <em>result</em>
-          unless it is <tref>null</tref>.</li>
-        <li>If <em>result</em> has a single item and the
-          <code class="idlMemberName"><a href="#widl-JsonLdOptions-compactArrays">compactArrays</a></code>
-          option is set to <code>true</code>, return that item; otherwise return
-          <em>result</em>.</li>
-      </ol>
-    </li>
-    <li>If <em>element</em> is not a <tref>JSON object</tref> it is already in
-      compact form, return it as is.</li>
-    <li>If <em>element</em> has an <code>@value</code> or <code>@id</code> member,
-      replace <em>element</em> with the result of the
-      <a href="#value-compaction">Value Compaction algorithm</a>. If the updated
-      <em>element</em> is a <tref>scalar</tref>, return it as it cannot be further
-      compacted.</li>
-    <li>Initialize a new empty <tref>JSON object</tref> result.</li>
-    <li>Process each <em>property</em> and <em>value</em> in <em>element</em> ordered
-      by <em>property</em> as follows:
-      <ol class="algorithm">
-        <li>If <em>property</em> is a JSON-LD <tref>keyword</tref>
-          <ol class="algorithm">
-            <li>and <em>property</em> equals <code>@id</code>, compact <em>value</em>
-              according the rules of the <a href="#iri-compaction-algorithm">IRI Compaction algorithm</a>.</li>
-            <li>Otherwise, if <em>property</em> equals <code>@type</code>, compact <em>value</em>
-              (or each item of <em>value</em> if it is an <tref>array</tref>) according the rules of the
-              <a href="#iri-compaction-algorithm">IRI Compaction algorithm</a> with the
-              <em>vocabRelative</em> flag set to <code>true</code>. If <em>value</em> is an
-              <tref>array</tref> consisting of just one item, replace <em>value</em> with that item.</li>
-            <li>Otherwise, if <em>property</em> equals <code>@graph</code> or <code>@list</code>, compact <em>value</em>
-              by recursively invoking this algorithm, passing a copy of the <tref>active context</tref>,
-              <tref>inverse context</tref>, and <em>property</em> as <tref>active property</tref>
-              ensuring that the result is an <tref>array</tref>.</li>
-            <li>Set <tref>active property</tref> to the result of performing
-              <a href="#iri-compaction-algorithm">IRI Compaction</a> on <em>property</em>.</li>
-            <li>Set the <tref>active property</tref> member of <em>result</em> to <em>value</em>.</li>
-            <li>Continue with the next <em>property</em>-<em>value</em> pair from <em>element</em>.</li>
-        </li>
-      </ol>
-    </li>
-    <li>If <em>value</em> is an empty <tref>array</tref>,
-      <ol class="algorithm">
-        <li>set <tref>active property</tref> to the result of performing
-          <a href="#iri-compaction-algorithm">IRI Compaction</a> on <em>property</em> with the
-          <em>vocabRelative</em> flag set to <code>true</code>.</li>
-        <li>If <tref>active property</tref> is a <tref>JSON object</tref>, i.e., it is a
-          <tref>property generator</tref>, set <tref>active property</tref> to the result of performing the
-          <a href="#find-and-remove-property-generator-duplicates">Find and Remove Property Generator Duplicates</a>
-          algorithm passing <em>element</em>, <em>property</em>, <tref>null</tref> for value, the
-          <tref>active context</tref>, and <tref>active property</tref>.</li>
-        <li>Ensure that <em>result</em> has an <tref>active property</tref> member; if not create it
-          and set its value to an empty <tref>array</tref>.</li>
-        <li>Continue with the next <em>property</em>-<em>value</em> pair from <em>element</em>.</li>
-      </ol>
-    </li>
-    <li>Otherwise perform the following steps for each <em>item</em> of <em>value</em>:
-      <ol class="algorithm">
-        <li>Set <tref>active property</tref> to the result of performing
-          <a href="#iri-compaction-algorithm">IRI Compaction</a> on <em>property</em> with the
-              <em>vocabRelative</em> flag set to <code>true</code>.</li>
-        <li>If <tref>active property</tref> is a <tref>JSON object</tref>, i.e., it is a
-          <tref>property generator</tref>, set <tref>active property</tref> to the result of performing the
-          <a href="#find-and-remove-property-generator-duplicates">Find and Remove Property Generator Duplicates</a>
-          algorithm passing <em>element</em>, <em>property</em>, <em>item</em>, the
-          <tref>active context</tref>, and <tref>active property</tref>.</li>
-        </li>
-        <li>If the <tref title="active property">active property's</tref> <tref>container mapping</tref>
-          is set to <code>@language</code> or <code>@index</code>
-          <ol class="algorithm">
-            <li>Unless <em>result</em> has already an <tref>active property</tref> member, create one and
-              initialize its value to an empty <tref>JSON object</tref>. This object is called <em>mapObject</em>.</li>
-            <li>Set <em>index</em> to the value of the <code>@language</code> or
-              <code>@index</code> member of <em>item</em> (depending on the value of the
-              <tref title="active property">active property's</tref> <tref>container mapping</tref>).</li>
-            <li>First compact <em>item</em> using the <a href="#value-compaction">Value Compaction algorithm</a>
-              passing <em>index</em> as <em>containerValue</em>, then compact it by recursively invoking this
-              algorithm passing a copy of the <tref>active context</tref>, <tref>inverse context</tref>, and the
-              <tref>active property</tref>.</li>
-            <li>If no <em>index</em> member exists in the <em>mapObject</em> create one and set its value
-              to <em>item</em>; otherwise append <em>item</em> to the <em>index</em> member (converting it to
-              an array if it is not one already).</li>
-            <li>Continue with the next <em>property</em>-<em>value</em> pair from <em>element</em>.</li>
-          </ol>
-        </li>
-        <li>If <em>item</em> is a <tref>JSON object</tref> having a <code>@list</code> member,
-          <ol class="algorithm">
-            <li>compact the value of that member by recursively invoking this algorithm passing
-              a copy of the <tref>active context</tref>, <tref>inverse context</tref>, and the
-              <tref>active property</tref> ensuring that the result is an <tref>array</tref>.</li>
-            <li>If the <tref title="active property">active property's</tref> <tref>container mapping</tref>
-              is set to <code>@list</code>, set the <tref>active property</tref> member of <em>result</em>
-              to the value of <em>item's</em> <code>@list</code> member. If such an member already exists
-              in result, raise an <code class="error">compaction to list of lists</code> error; otherwise
-              continue with the next <em>property</em>-<em>value</em> pair from <em>element</em>.</li>
-          </ol>
-        </li>
-        <li>If <em>item</em> is a <tref>JSON object</tref>, compact it by recursively
-          invoking this algorithm passing a copy of the <tref>active context</tref>,
-          <tref>inverse context</tref>, and the <tref>active property</tref>.</li>
-        <li>If no <tref>active property</tref> member exists in <em>result</em> create one and set its value
-          to <em>item</em>; otherwise append <em>item</em> to the <tref>active property</tref> member
-          (converting it to an <tref>array</tref> if it is not one already).</li>
-        <li>If the <code class="idlMemberName"><a href="#widl-JsonLdOptions-compactArrays">compactArrays</a></code>
-          option is set to <code>false</code> or the <tref title="active property">active property's</tref>
-          <tref>container mapping</tref> is set to <code>@list</code> or <code>@set</code>, convert the
-          value of the <tref>active property</tref> member of <em>result</em> to an <tref>array</tref> if
-          it is not one already.</li>
-      </ol>
-    </li>
-  </ol>
-
-  <p>If, after the algorithm outlined above is run, the resulting <em>element</em> is an <tref>array</tref>
-    with one or more items, replace it with a new <tref>JSON object</tref> with a single member whose name
-    is the result of compacting the value <code>@graph</code> with the
-    <a href="#iri-compaction-algorithm">IRI Compaction algorithm</a> and whose value is <em>element</em>. If
-    the resulting <em>element</em> is an <tref>array</tref> with zero items, replace it with an empty
-    <tref>JSON object</tref>. Finally, if a <em>context</em> has been passed, add a <code>@context</code>
-    property to <em>element</em> and set its value to the initially passed <em>context</em>.</p>
-</section>
-
-<section>
-  <h2>IRI Compaction Algorithm</h2>
-
-  <p>This section defines an algorithm for transforming an <tref>IRI</tref> to a
-    <tref>term</tref> or <tref>compact IRI</tref>. If a <em>value</em> is passed
-    it is used to choose the best matching <tref>term</tref>.</p>
-
-  <p>This algorithm takes three mandatory and three optional parameters. The mandatory
-    parameters are the <em>iri</em> to be compacted, an <tref>active context</tref>,
-    and an <tref>inverse context</tref>. Optionally it is possible to pass a <em>value</em>,
-    and a <em>vocabRelative</em> flag which specifies whether the passed <em>iri</em>
-    should be compacted using the <tref title="active context">active context's</tref>
-    <tref>vocabulary mapping</tref>, and a base <tref>IRI</tref> which, when passed, is used
-    to transform the passed <em>iri</em> to a <tref title="relative IRI">relative IRIs</tref>
-    if the <em>vocabRelative</em> flag is set to false (which is its default value).</p>
-
-  <p>The algorithm for generating a <tref>compact IRI</tref> is:</p>
-
-  <ol class="algorithm">
-    <li>Initialize a variable <em>result</em> to <tref>null</tref>.</li>
-    <li>If the <em>vocabRelative</em> flag is set to <code>true</code> and an entry for
-      <em>iri</em> exists in the <tref>inverse context</tref>, perform the following steps:
-      <ol class="algorithm">
-        <li>If a <em>value</em> has been passed, perform the following steps:
-          <ol class="algorithm">
-            <li>Initialize <em>queryPath</em>, which will be used to query the
-              <tref>inverse context</tref>, to an empty <tref>array</tref></li>
-            <li id="calculate-value-profile-algorithm">Initialize <em>container</em>
-              to <code>@set</code>, <em>typeOrLanguage</em>, and <em>typeLanguageValue</em>
-              to <tref>null</tref>.</li>
-            <li>If <em>value</em> is a <tref>JSON object</tref>
-              <ol class="algorithm">
-                <li>and it has an <code>@index</code> member, set <em>container</em> to
-                  <code>@index</code>.</li>
-                <li>If <em>value</em> has an <code>@id</code> member, set
-                  <em>typeOrLanguage</em> to <code>@type</code> and <em>typeLanguageValue</em>
-                  to <code>@id</code>.</li>
-                <li>Otherwise, if <em>value</em> has an <code>@value</code> member,
-                  <ol class="algorithm">
-                    <li>and an <code>@type</code> member, set <em>typeOrLanguage</em> to
-                      <code>@type</code> and <em>typeLanguageValue</em> to the value of the
-                      <code>@type</code> member of <em>value</em>.</li>
-                    <li>Otherwise, if it has an <code>@language</code> member, set
-                      <em>typeOrLanguage</em> to <code>@language</code> and
-                      <em>typeLanguageValue</em> to the value of the <code>@language</code>
-                      member of <em>value</em>. If <em>value</em> has no <code>@index</code>
-                      member, set <em>container</em> to <code>@language</code></li>
-                    <li>Otherwise, set <em>typeOrLanguage</em> to <code>@language</code> and
-                      <em>typeLanguageValue</em> to <code>@null</code>.</li>
-                  </ol>
-                </li>
-                <li>Otherwise, if <em>value</em> has an <code>@list</code> member,
-                  <ol class="algorithm">
-                    <li>If the <code>@list</code> member has at least one item, update
-                      <em>container</em>, <em>typeOrLanguage</em>, and
-                      <em>typeLanguageValue</em> by recursively running the steps
-                      <a href="#calculate-value-profile-algorithm">2.1.2</a> to
-                      2.1.3.4 (which will never be true since list of lists are not
-                      allowed) of this algorithm passing the first item of <em>value's</em>
-                      <code>@list</code> member as new <em>value</em>.</li>
-                    <li>If <em>value</em> has no <code>@index</code> member, set
-                      <em>container</em> to <code>@list</code>.</li>
-                    <li>Starting from the second item of <em>value's</em> <code>@list</code>
-                      member, recursively run the steps
-                      <a href="#calculate-value-profile-algorithm">2.1.2</a> to
-                      2.1.3.4 (which will never be true since list of lists are not
-                      allowed) of this algorithm passing the item as new <em>value</em>. If
-                      the resulting <em>typeOrLanguage</em> or <em>typeLanguageValue</em>
-                      differ from the current value of <em>typeOrLanguage</em> or
-                      <em>typeLanguageValue</em>, set both to <tref>null</tref> and stop
-                      processing the <code>@list</code> items.</li>
-                  </ol>
-                </li>
-              </ol>
-            </li>
-            <li>If the <em>container</em> equals <code>@list</code>, set the first item of
-              <em>queryPath</em> to an <tref>array</tref> consisting of the two elements
-              <code>@list</code> and <code>null</code>; otherwise set it to an array
-              consisting of three elements where the first element is the value of <em>container</em>
-               and the other two elements are <code>@set</code> and <code>@null</code>.</li>
-            <li>If <em>typeOrLanguage</em> is <tref>null</tref>, set the second and the the
-              third item of <em>queryPath</em> to an <tref>array</tref> consisting of a
-              single element <code>@null</code>.</li>
-            <li>Otherwise, set the second item of <em>queryPath</em> to an <tref>array</tref>
-              consisting of two elements where the first element is the value of
-              <em>typeOrLanguage</em> and the second element is <code>@null</code>. Set the
-              third item of <em>queryPath</em> to an <tref>array</tref> whose first element
-              <em>typeLanguageValue</em> and whose second element is <code>@null</code>.</li>
-            <li><a href="#inverse-context-query-algorithm">Query the inverse context</a> and
-              store the result in <em>result</em>.</li>
-            <li>If <em>result</em> is a a <tref>string</tref> or a <tref>JSON object</tref> with a
-              <code>term</code> member, return <em>result</em>.</li>
-          </ol>
-        </li>
-        <li>Otherwise, if the entry for <em>iri</em> in the <tref>inverse context</tref>
-          has a <code>term</code> member, return its value.</li>
-      </ol>
-    </li>
-    <li>For each <em>termIri</em>-<em>termDefinition</em> pair in <tref>inverse context</tref>
-      sorted in reverse order by <em>termIri</em> the (longest <em>termIri</em> comes first),
-      perform the following steps:
-      <ol class="algorithm">
-        <li>If <em>termDefinition</em> does not have a <code>term</code> member, i.e., it is
-          a property generator, continue with the next <em>termIri</em>-<em>termDefinition</em>
-          pair from <tref>inverse context</tref>.</li>
-        <li>Otherwise, if <em>iri</em> begins with <em>termIri</em> and is longer than
-          <em>termIri</em>, generate a <tref>compact IRI</tref> by concatenating the value
-          of the <code>term</code> member of <em>termDefinition</em> with a colon
-          (<code>:</code>) character and the unmatched part of <em>iri</em>.</li>
-        <li>If the resulting <tref>compact IRI</tref> has an entry in the <tref>active context</tref>
-          and the <em>vocabRelative</em> flag is set to <code>true</code> or the <tref>IRI mapping</tref>
-          does not correspond to <em>iri</em>, continue with the next <em>termIri</em>-<em>termDefinition</em>
-          pair from <tref>inverse context</tref> as the <tref>compact IRI</tref> cannot be used.</li>
-        <li>Otherwise, if result is <tref>null</tref>, return the <tref>compact IRI</tref>; if it is
-          not null, set the <code>term</code> member of <em>result</em> to the <tref>compact IRI</tref>
-          and return <em>result</em>.</li>
-      </ol>
-    </li>
-    <li>If the <em>vocabRelative</em> flag is set to <code>false</code> and a base <tref>IRI</tref> has
-       been passed, transform <em>iri</em> to a <tref>relative IRI</tref>.</li>
-    <li>Otherwise, if the <em>vocabRelative</em> flag is set to <code>true</code>, the
-      <tref>active context</tref> has a <tref>vocabulary mapping</tref>, and <em>iri</em>
-      begins with the IRI of the <tref>vocabulary mapping</tref> but is longer
-      <ol class="algorithm">
-        <li>Set <em>vocabIri</em> to the unmatched part of <em>iri</em>.</li>
-        <li>If there does not exist an entry for <em>vocabIri</em> in the <tref>active context</tref>,
-          return <em>vocabIri</em> if <em>result</em> is <tref>null</tref>; if it is not
-          <tref>null</tref> set the <code>term</code> member of <em>result</em> to
-          <em>vocabIri</em> and return <em>result</em>.</li>
-      </ol>
-    </li>
-    <li>If <em>result</em> is <tref>null</tref>, return <em>iri</em> as is.</li>
-    <li>Otherwise set the <code>term</code> member of <em>result</em> to <em>iri</em> and
-      return <em>result</em>.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Inverse Context Creation</h2>
-
-  <p>An <tref>active context</tref> as produced by the
-    <a href="#context-processing">Context Processing</a> algorithm is very
-    efficient for <a href="#iri-expansion">expanding</a>
-    <tref title="term">terms</tref> and <tref title="compact IRI">compact IRIs</tref>
-    to <tref title="IRI">IRIs</tref> but is of limited use for the opposite
-    operation: <a href="#iri-compaction-algorithm">IRI compaction</a>. Hence,
-    this algorithm introduces the notion of an <tref>inverse context</tref>
-    which brings the same efficiency to <a href="#iri-compaction-algorithm">IRI compaction</a>.
-    An <tdef>inverse context</tdef> is a tree of <tref title="JSON object">JSON objects</tref>
-    which allow to efficiently select a <tref>term</tref> for a <tref>IRI</tref>-value
-    pair. Consider the following <tref>context</tref>:</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="A context containing of two terms and a property generator">
-  <!--
-  {
-    "@context": {
-      ****"name"****: "http://xmlns.com/foaf/0.1/name",
-      ****"homepage"****: {
-        "@id": "http://xmlns.com/foaf/0.1/homepage",
-        "@type": "@id"
-      },
-      ****"gender"****: {
-        "@id": [ "http://xmlns.com/foaf/0.1/gender", "http://schema.org/gender" ],
-        "@language": "en"
-      }
-    }
-  }
-  -->
-  </pre>
-
-  <p>The corresponding <tref>inverse context</tref> looks as shown below. All entries of
-    the <tref>context</tref> above are first indexed by <tref>IRI</tref>, followed by
-    their <tref>container mapping</tref>, and finally by their
-    <tref title="language mapping">language</tref> or <tref>type mapping</tref>. If a
-    specific mapping is not set or <tref>null</tref>, the entry is indexed under the
-     respective <code>@null</code> member instead.</p>
-
-  <pre class="example" data-transform="updateExample"
-       title="The inverse context corresponding to the context above">
-  <!--
-  {
-    "http://xmlns.com/foaf/0.1/homepage": {
-      "term": "homepage",
-      "@null": {
-        "@type": {
-          "@id": {
-            "term": ****"homepage"****
-          }
-        }
-      }
-    },
-    "http://xmlns.com/foaf/0.1/gender": {
-      "@null": {
-        "@language": {
-          "en": {
-            "propertyGenerators": [ ****"gender"**** ]
-          }
-        }
-      }
-    },
-    "http://xmlns.com/foaf/0.1/name": {
-      "term": "name",
-      "@null": {
-        "@language": {
-          "@null": {
-            "term": ****"name"****
-          }
-        },
-        "@null": {
-          "@null": {
-            "term": ****"name"****
-          }
-        }
-      }
-    },
-    "http://schema.org/gender": {
-      "@null": {
-        "@language": {
-          "en": {
-            "propertyGenerators": [ ****"gender"**** ]
-          }
-        }
-      }
-    }
-  }
-  -->
-  </pre>
-
-  <p>Please note that the <tref>property generator</tref> <code>gender</code> and the <tref>term</tref>
-    <code>name</code> are included twice in <tref>inverse context</tref>. While <code>gender</code>
-    is included once for each <tref>IRI</tref> it is mapped to, <code>name</code> is included
-    twice since it has neither a <tref>type mapping</tref> nor a <tref>language mapping</tref>.
-    It can thus be used for <tref title="string">strings</tref> without an associated language
-    (the first entry), or all other (untyped) <tref title="JSON-LD value">values</tref>.</p>
-
-  <p>The following algorithm takes an <tref>active context</tref> and returns the corresponding
-    <tref>inverse context</tref>.</p>
-
-  <ol class="algorithm">
-    <li>Set <em>defaultLanguage</em> to <tref title="active context">active context's</tref>
-      <tref>default language</tref> if there is one; otherwise set it to <code>@null</code>.</li>
-    <li>For each <tref>term definition</tref> in the <tref>active context</tref>
-      perform the following steps:
-      <ol class="algorithm">
-        <li>If the <tref title="term">term's</tref> <tref>IRI mapping</tref> is set to
-          <tref>null</tref> continue with the next <tref>term definition</tref>.</li>
-        <li>Set <em>container</em> to the value of the <tref title="term">term's</tref>
-          <tref>container mapping</tref> or <code>@null</code> if no such mapping exists.</li>
-        <li>If the <tref>term</tref> is a <tref>property generator</tref>, set <em>termType</em>
-          to <code>propertyGenerators</code>.</li>
-        <li>Otherwise set  set <em>termType</em> to <code>term</code> and append the
-          <tref>term</tref> to the <code>term</code> member of the <tref>JSON object</tref> for
-          the <tref title="term">term's</tref> IRI in <tref>inverse context</tref>
-          (append <em>term</em> to <code>inverseContext[iri]['term']</code>).</li>
-        <li>For each <em>iri</em> mapped to the <tref>term</tref>, perform the following steps:
-          <ol class="algorithm">
-            <li>If the <tref>term</tref> has a <tref>type mapping</tref> to <em>type</em>,
-              append the <tref>term</tref> to
-              <code>inverseContext[iri][container]['@type'][type][termType]</code> (e.g.,
-              <code>inverseContext['http://...']['@list']['@type']['http://...']['term']</code>).</li>
-            <li>Otherwise, if the <tref>term</tref> has a <tref>language mapping</tref> store the
-              associated language in <em>language</em>, replacing <tref>null</tref> with
-              <code>@null</code>. Then append the <tref>term</tref> to
-              <code>inverseContext[iri][container]['@language'][language][termType]</code> (e.g.,
-              <code>inverseContext['http://...']['@list']['@language']['de']['term']</code>).</li>
-            <li>Otherwise append the <tref>term</tref> to
-              <code>inverseContext[iri][container]['@null']['@null'][termType]</code> as well as
-              <code>inverseContext[iri][container]['@language'][defaultLanguage][termType]</code>
-              to take the <tref>default language</tref> into consideration for terms without
-              explicit <tref>language mapping</tref>.</li>
-          </ol>
-        </li>
-      </ol>
-    </li>
-    <li>Remove all but the shortest and lexicographically least <tref>term</tref> in each
-      <code>term</code> member in <tref>inverse context</tref>. The result is thus a single
-      <tref>string</tref> value.</li>
-    <li>Finally, sort the <tref>array</tref> associated with every <code>propertyGenerators</code> member in
-      <tref>inverse context</tref> lexicographically (shortest <tref title="term">terms</tref> come
-      first).</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Inverse Context Query Algorithm</h2>
-
-  <p>It is possible that multiple <tref title="term">terms</tref> that differ
-    in their <tref title="container mapping">container</tref>,
-    <tref title="type mapping">type</tref>, or <tref>language mapping</tref> are
-    mapped to the same <tref>IRI</tref>. The purpose of this algorithm is to query
-    the <tref>inverse context</tref> to return either the best matching <tref>term</tref>,
-    or a list of potential <tref title="property generator">property generators</tref>
-    along with a <tref>term</tref> to fall back to if none of the
-    <tref title="property generator">property generators</tref> can be applied.</p>
-
-  <p>This algorithm takes an <em>inverseContextSubtree</em>, a <em>queryPath</em>
-    as generated by the <a href="#iri-compaction-algorithm">IRI Compaction algorithm</a>
-    and a <em>level</em> parameter which is initialized to <code>0</code> if nothing else
-    is passed. The algorithm returns either a <tref>string</tref> representing the best matching
-    <tref>term</tref> or a <tref>JSON object</tref> consisting of a
-    <code>propertyGenerators</code> member, containing a sorted <tref>array</tref> of
-    potential <tref title="property generator">property generators</tref>,
-    and an optional <code>term</code> member containing a <tref>term</tref> to fall back
-    to if none of the <tref title="property generator">property generators</tref>
-    can be applied.</p>
-
-  <ol class="algorithm">
-    <li>Initialize <em>result</em> to <tref>null</tref>.</li>
-    <li>If <em>level</em> equals <code>3</code>, i.e., the deepest nested
-      <tref>JSON object</tref> in the <tref>inverse context</tref> has been reached,
-      perform the following steps:
-      <ol class="algorithm">
-        <li>If <em>inverseContextSubtree</em> has a <code>propertyGenerators</code> member,
-          copy that member into a new <tref>JSON object</tref> and store that object in
-          <em>result</em>.</li>
-        <li>If <em>inverseContextSubtree</em> has a <code>term</code> member and
-          <em>result</em> is <tref>null</tref>, return the value of that member;
-          otherwise <em>result</em> is a <tref>JSON object</tref>, copy the <code>term</code>
-          member into <em>result</em> and return <em>result</em>.</li>
-      </ol>
-    </li>
-    <li>Otherwise, for each <em>entry</em> of the <tref>array</tref> in <em>queryPath's</em>
-      <em>level'd</em> position (<code>queryPath[level]</code>), perform the following steps:
-      <ol class="algorithm">
-        <li>If <em>inverseContextSubtree</em> has no <em>entry</em> member, continue with
-          the next <em>entry</em>.</li>
-        <li>Otherwise set <em>tmpResult</em> to the result of recursively invoking this
-          algorithm passing the <em>entry</em> member of <em>inverseContextSubtree</em> as
-          new <em>inverseContextSubtree</em>, <em>queryPath</em>, and <em>level</em> + <code>1</code>
-          as new <em>level</em>.</li>
-        <li>If <em>tmpResult</em> is a <tref>string</tref> and <em>result</em> is
-          <tref>null</tref>, return <em>tmpResult</em>; otherwise, if <em>result</em> is
-          not <tref>null</tref>, transform <em>tmpResult</em> to a <tref>JSON object</tref>
-          whose <code>propertyGenerators</code> member is set to an empty <tref>array</tref>
-          and whose <code>term</code> member is set to <em>tmpResult</em>.</li>
-        <li>If <em>result</em> is <tref>null</tref>, replace it with <em>tmpResult</em>.</li>
-        <li>Otherwise, append each item of the <code>propertyGenerator</code> member of
-          <em>tmpResult</em> to the <code>propertyGenerator</code> member of <em>result</em>
-          unless it is already in <em>result's</em> member. If <em>result</em> has no
-          <code>term</code> member but <em>tmpResult</em> does, copy <em>tmpResult's</em>
-          <code>term</code> member into <em>result</em>.</li>
-      </ol>
-    </li>
-    <li>Return <em>result</em>.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Value Compaction</h2>
-
-  <p>Expansion transforms all values into <tref>expanded form</tref>in JSON-LD. This algorithm
-    does the opposite, it compacts an algorithm according the <tref>term definition</tref>
-    of the passed <tref>active property</tref>. After the application of this algorithm a value
-    is said to be in <tdef>compacted form</tdef>.</p>
-
-  <p>This algorithm takes a <em>value</em>, an <tref>active context</tref>, an
-    <tref>inverse context</tref>, an <tref>active property</tref>, and an optional
-    <em>containerValue</em>.</p>
-
-  <ol class="algorithm">
-    <li>If a <em>containerValue</em> has been passed, the <tref>active property</tref> has a
-      <tref>container mapping</tref> set to <code>@index</code> and <em>value</em>
-      has an <code>@index</code> member which equals <em>containerValue</em>, remove that member.</li>
-    <li>If <em>value</em> is a <tref>JSON object</tref> having a single member <code>@id</code>,
-      return the result of performing <a href="#iri-compaction-algorithm">IRI Compaction</a> on that
-      member's value.</li>
-    <li>Otherwise, if <em>value</em> is a <tref>JSON object</tref> having a <code>@value</code>
-      member, perform the following steps:
-      <ol class="algorithm">
-        <li>If the <tref>active property</tref> has a <tref>type mapping</tref> and <em>value</em>
-          has a corresponding <code>@type</code> member, remove the <code>@type</code> member
-          from <em>value</em>.</li>
-        <li>Otherwise, if the <tref>active property</tref> has a <tref>language mapping</tref> and
-          <em>value</em> has a corresponding <code>@language</code> member, remove the
-          <code>@language</code> member from <em>value</em>.</li>
-        <li>Otherwise, if a <em>containerValue</em> has been passed, the <tref>active property</tref>
-          has a <tref>container mapping</tref> set to <code>@language</code>, and <em>value</em> has
-          a <code>@language</code> member which equals <em>containerValue</em>, remove the
-          <code>@language</code> member from <em>value</em>.</li>
-        <li>Otherwise, if the <tref>active context</tref> has a <tref>default language</tref>
-          <ol class="algorithm">
-            <li>and the <em>value</em> has a corresponding <code>@language</code> member, remove the
-              <code>@language</code> member from <em>value</em>.</li>
-            <li>Otherwise, or if the value of <em>value's</em> <code>@value</code> member is a
-              <tref>string</tref>, return <em>value</em>.</li>
-          </ol>
-        </li>
-        <li>If <em>value</em> has just a <code>@value</code> member, return the value of that
-          member.</li>
-      </ol>
-    </li>
-    <li>Return <em>value</em> as is.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Find and Remove Property Generator Duplicates</h2>
-
-  <p>This algorithm checks if a specific value exists for all <tref title="IRI">IRIs</tref>
-    associated with a <tref>property generator</tref> and if so, it removes them. The
-    algorithm takes five parameters: <em>element</em>, <em>property</em>, <em>value</em>,
-    <tref>active context</tref>, <tref>active property</tref>.</p>
-
-  <ol class="algorithm">
-    <li>For each item <em>propertyGenerator</em> of the <tref>array</tref> which is the
-      value of the <code>propertyGenerators</code> member of <tref>active property</tref> perform
-      the following steps:
-      <ol class="algorithm">
-        <li>Check that a member exists for each <tref>IRI</tref> associated with the
-          <em>propertyGenerator</em>. If <em>value</em> is not <tref>null</tref> also check
-          whether each of those members contains <em>value</em>. Values are considered to be equal
-          if they are of the same type and have the same value(s); <tref title="node object">node objects</tref>
-          are considered to be equal if all members match, except if no <code>@id</code> member exists (i.e., it is
-          an unlabeled <tref>blank node</tref>, in that case <tref title="node object">node objects</tref> are never
-          considered to be equal.
-          </li>
-        <li>If that's not the case, continue with the next <em>propertyGenerator</em>.</li>
-        <li>Otherwise, remove <em>value</em> from every member. If the resulting value
-          of a member is an empty <tref>array</tref>, remove the member altogether
-          from <em>element</em>.</li>
-        <li>Return <em>propertyGenerator</em>.</li>
-      </ol>
-    </li>
-    <li>Return the value of the <code>term</code> member of <tref>active property</tref>
-      since no matching <tref>property generator</tref> has been found.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Flattening Algorithm</h2>
-
-  <p>The algorithm takes two input variables, an <em>element</em> to flatten and a
-    <em>context</em> used to compact the flattened document.</p>
-
-  <ol class="algorithm">
-    <li>Expand <em>element</em> according the
-      <a href="#expansion-algorithm">Expansion algorithm</a>.</li>
-    <li>Generate a <em>nodeMap</em> according the
-      <a href="#node-map-generation">Node Map Generation algorithm</a>.</li>
-    <li>Let <em>defaultGraph</em> be the value of the <code>@default</code> member of
-      <em>nodeMap</em>; a <tref>JSON object</tref> representing the <tref>default graph</tref>.</li>
-    <li>For each other <em>graphName</em>-<em>graph</em> pair in <em>nodeMap</em>
-      perform the following steps:
-      <ol class="algorithm">
-        <li>If <em>defaultGraph</em> does not have a <em>graphName</em> member, create
-          one and initialize its value to a <tref>JSON object</tref> consisting of an
-          <code>@id</code> member whose value is set to <em>graphName</em>.</li>
-        <li>Add an <code>@graph</code> member set to an empty <tref>array</tref>
-          (referred to as <em>nodes</em>) to the <tref>JSON object</tref> which is the
-          value of the <em>graphName</em> member of <em>nodeMap</em>.</li>
-        <li>For each <em>id</em>-<em>node</em> pair in <em>graph</em> ordered by <em>id</em>,
-          add <em>node</em> to the <em>nodes</em> <tref>array</tref>.</li>
-      </ol>
-    </li>
-    <li>Initialize an empty <tref>array</tref> flattened.</li>
-    <li>For each <em>id</em>-<em>node</em> pair in <em>defaultGraph</em> ordered by <em>id</em>,
-      add <em>node</em> to <em>flattened</em>.</li>
-    <li>If <em>context</em> equals <tref>null</tref>, return <em>flattened</em>.</li>
-    <li>Otherwise, return the result of compacting <em>flattened</em> according the
-      <a href="#compaction-algorithm">Compaction algorithm</a> passing <em>context</em>
-      ensuring that the compaction result uses the <code>@graph</code> keyword (or its alias)
-      at the top-level, even if the context is empty or if there is only one element to
-      put in the <code>@graph</code> <tref>array</tref>. This ensures that the returned
-      document has a deterministic structure.</li>
-  </ol>
-</section>
-
-<section>
-  <h2>Node Map Generation</h2>
-
-  <p>This algorithm creates a <tref>JSON object</tref> <em>nodeMap</em> holding an indexed
-    representation of the <tref title="JSON-LD graph">graphs</tref> and <tref title="node">nodes</tref>
-    represented in the passed, expanded document. All <tref title="node">nodes</tref> that are not
-    uniquely identified by an IRI get assigned a (new) <tref>blank node identifier</tref>.
-    The resulting <em>nodeMap</em> will have a member for every graph in the document whose
-    value is another object with a member for every <tref>node</tref> represented in the document.
-    The default graph is stored under the <code>@default</code> member, all other graphs are
-    stored under their graph name</tref>.</p>
-
-  <p>The algorithm takes as input an expanded JSON-LD document <em>element</em> and a reference to
-    a <tref>JSON object</tref> <em>nodeMap</em>. Furthermore it has the optional parameters
-    <tref>active graph</tref> (which defaults to <code>@default</code>), an <tref>active subject</tref>,
-    <tref>active property</tref>, and a reference to a <tref>JSON object</tref> <em>list</em>. The
-    <em>nodeMap</em> must be initialized to a <tref>JSON object</tref> consisting of a single member
-    whose name corresponds with <tref>active graph</tref> and whose value is an empty <tref>JSON object</tref>.</p>
-
-  <ol class="algorithm">
-    <li>If <em>element</em> is an array, process each entry in <em>element</em> recursively, using this algorithm
-      and return.</li>
-    <li>Otherwise <em>element</em> is a <tref>JSON object</tref>. Let <em>activeGraph</em> be the
-      <tref>JSON object</tref> which is the value of the <tref>active graph</tref> member of
-      <em>nodeMap</em>.</li>
-    <li>If it has an <code>@type</code> member, perform for each <em>item</em> the following
-      steps:
-      <ol class="algorithm">
-        <li>If <em>item</em> is a <tref>blank node identifier</tref>, replace it with a
-          <a href="#generate-blank-node-identifier">new blank node identifier</a>.</li>
-        <li>If <em>activeGraph</em> has no member <em>item</em>, create it and initialize its
-          value to a <tref>JSON object</tref> consisting of a single member <code>@id</code>
-          with the value <em>item</em>.</li>
-      </ol>
-    </li>
-    <li>If <em>element</em> has an <code>@value</code> member, perform the following steps:
-      <ol class="algorithm">
-        <li>If no <em>list</em> has been passed, merge <em>element</em> into the
-          <tref>active property</tref> member of the <tref>active subject</tref> in
-          <em>activeGraph</em>.</li>
-        <li>Otherwise, append <em>element</em> to the <code>@list</code> member of <em>list</em>.</li>
-      </ol>
-    </li>
-    <li>Otherwise, if <em>element</em> has an <code>@list</code> member, perform
-      the following steps:
-      <ol class="algorithm">
-        <li>Initialize a new <tref>JSON object</tref> <em>result</em> having a single member
-          <code>@list</code> whose value is initialized to an empty <tref>array</tref>.</li>
-        <li>Recursively call this algorithm passing the value of <em>element's</em>
-          <code>@list</code> member as new <em>element</em> and <em>result</em> as <em>list</em>.</li>
-        <li>If <tref>active property</tref> equals <tref>null</tref> or <code>@graph</code>,
-          <a href="#generate-blank-node-identifier">generate a blank node identifier</a> <em>id</em>
-          and store <em>result</em> as value of the member <em>id</em> in <em>activeGraph</em>.</li>
-        <li>Otherwise, add <em>result</em> to the the value of the <tref>active property</tref> member
-          of the <tref>active subject</tref> in <em>activeGraph</em>.</li>
-      </ol>
-    </li>
-    <li>Otherwise <em>element</em> is a <tref>node object</tref>, perform the following
-      steps:
-      <ol class="algorithm">
-        <li>If <em>element</em> has an <code>@id</code> member, store its value in <em>id</em> and remove
-          the member from <em>element</em>. If <em>id</em> is a <tref>blank node identifier</tref>, replace it with
-          <a href="#generate-blank-node-identifier">a new blank node identifier</a>.</li>
-        <li>Otherwise <a href="#generate-blank-node-identifier">generate a new blank node identifier</a>
-          and store it as <em>id</em>.</li>
-        <li>If <em>activeGraph</em> does not contain a member <em>id</em>, create one and initialize
-          it to a <tref>JSON object</tref> consisting of a single member <code>@id</code> whose
-          value is set to <em>id</em>.</li>
-        <li>If <tref>active property</tref> is not <tref>null</tref>, perform the following steps:
-          <ol class="algorithm">
-            <li>Create a new <tref>JSON object</tref> <em>reference</em> consisting of a single member
-              <code>@id</code> whose value is <em>id</em>.</li>
-            <li>If no <em>list</em> has been passed, merge <em>element</em> into the
-              <tref>active property</tref> member of the <tref>active subject</tref> in
-              <em>activeGraph</em>.</li>
-            <li>Otherwise, append <em>element</em> to the <code>@list</code> member of <em>list</em>.</li>
-          </ol>
-        </li>
-        <li>If <em>element</em> has an <code>@type</code> member, merge each value into the <code>@type</code>
-          of <tref>active subject</tref> in <em>activeGraph</em>. Then remove the <code>@type</code> member
-          from <em>element</em>.</li>
-        <li>If <em>element</em> has an <code>@index</code> member, set the <code>@index</code>
-          of <tref>active subject</tref> in <em>activeGraph</em> to its value. If such a member already
-          exists in <tref>active subject</tref> and has a different value, raise a
-          <code class="error">conflicting indexes</code> error. Otherwise continue and remove the
-          <code>@index</code> from <em>element</em>.</li>
-        <li>If <em>element</em> has an <code>@graph</code> member, recursively invoke this algorithm passing
-          the value of the <code>@graph</code> member as new <em>element</em> and <em>id</em> as new
-          <tref>active subject</tref>. Then remove the <code>@graph</code> member from <em>element</em>.</li>
-        <li>Finally for each <em>property</em>-<em>value</em> pair in <em>element</em> ordered by
-          <em>property</em> perform the following steps:
-          <ol class="algorithm">
-            <li>If no <em>property</em> member exists in the <tref>JSON object</tref> which is the
-              value of the <em>id</em> member of <em>activeGraph</em> create the member and initialize
-              its value to an empty <tref>array</tref>.</li>
-            <li>Recursively invoke this algorithm passing <em>value</em> as new <em>element</em>, <em>id</em>
-              as new <tref>active subject</tref>, and <em>property</em> as new <tref>active property</tref>.</li>
-          </ol>
-        </li>
-      </ol>
-    </li>
-  </ol>
-</section>
-
-  <section>
-    <h2>RDF Conversion Algorithms</h2>
-
-    <p>This section describes an algorithms to transform JSON-LD documents to an array of
-      RDF <tref title="quad">quads</tref> and vice-versa. Note that many uses of JSON-LD
-      may not require generation of RDF.</p>
-
-    <p>The processing algorithms described in this section are provided in order to demonstrate
-      how one might implement a JSON-LD to RDF processor. Conformant implementations are only
-      required to produce the same type and number of <tref title="quad">quads</tref> but are
-      not required to implement the algorithm exactly as described.</p>
-
-    <p class="issue">This algorithm hasn't been updated yet.</p>
-
-    <section>
-      <h3>Convert to RDF Algorithm</h3>
-      <p>
-        The algorithm below is designed for in-memory implementations with random access to <tref>JSON object</tref> elements.
-      </p>
-      <p>
-        A conforming JSON-LD processor implementing RDF conversion MUST implement a
-        processing algorithm that results in the same set of RDF <tref title="quad">quads</tref> that the following
-        algorithm generates.
-      </p>
-
-      <p>The algorithm takes four input variables: a <em>element</em> to be converted, an
-        <tref>active subject</tref>, <tref>active property</tref> and <tref>graph name</tref>.
-        To begin, the <tref>active subject</tref>, <tref>active property</tref> and <tref>graph name</tref>
-        are set to <tref>null</tref>, and <em>element</em> is
-        set to the result of performing the <a href="#expansion-algorithm">Expansion Algorithm</a> on
-        the <tref>JSON-LD input</tref> which is expected to be a a well-formed JSON-LD document as defined in [[!JSON-LD]].
-        This removes any existing context to allow the given context to be cleanly applied.</p>
-
-      <ol class="algorithm">
-        <li id="processing-step-associative">
-          If <em>element</em> is a <tref>JSON object</tref>, perform the following steps:
-          <ol class="algorithm">
-            <li>Set <tref>active object</tref> to <tref>null</tref>.</li>
-            <li>
-              If <em>element</em> has a <code>@value</code> property:
-              <ol class="algorithm">
-                <li>If the value of <code>@value</code> is a <tref>number</tref>, set the
-                  <tref>active object</tref> to a <tref>typed value</tref> using a <tref>canonical lexical form</tref>
-                  of the value as defined in the section <a href="#data-round-tripping">Data Round Tripping</a>.
-                  Set datatype to the value of the <code>@type</code> property if it exists, otherwise
-                  either <code>xsd:integer</code> or <code>xsd:double</code>, depending
-                  on if the value contains a fractional and/or an exponential component.</li>
-                <li>Otherwise, if the value of <code>@value</code> is <strong>true</strong> or <strong>false</strong>,
-                  set the <tref>active object</tref> to a <tref>typed value</tref> created from the
-                  <tref>canonical lexical form</tref> of the value. Set datatype to the value of the <code>@type</code>
-                  property if it exists, otherwise <code>xsd:boolean</code>.</li>
-                <li>
-                  Otherwise, if <em>element</em> contains a <code>@type</code> property, set the
-                  <tref>active object</tref> to a <tref>typed value</tref>.
-                </li>
-                <li>
-                  Otherwise, if <em>element</em> contains a <code>@language</code> property, set the
-                  <tref>active object</tref> to a <tref>language-tagged string</tref>.
-                </li>
-                <li>
-                  Otherwise, set the <tref>active object</tref> to a <tref>typed value</tref>
-                  using <code>xsd:string</code> as the datatype.
-                </li>
-              </ol>
-            </li>
-            <li>
-              If <em>element</em> has a <code>@list</code> property the value MUST be an <tref>array</tref>.
-              Process its value as a list as described in <a href="#list-conversion">List Conversion</a> using
-              the return value as the <tref>active object</tref>
-            </li>
-            <li>If <tref>active object</tref> is not <tref>null</tref>:
-              <ol class="algorithm">
-                <li>If neither <tref>active subject</tref> nor <tref>active property</tref> are <tref>null</tref>,
-                  generate a <tref>Quad</tref>
-                  representing <tref>active subject</tref>, <tref>active property</tref>,
-                  <tref>active object</tref>, and <tref>graph name</tref>.</li>
-                <li>Return <tref>active object</tref>.</li>
-              </ol>
-            </li>
-            <li id="processing-step-subject">If <em>element</em> has a <code>@id</code> property,
-              the value MUST be a <tref>string</tref>, set the <tref>active subject</tref> to the previously
-              expanded value (either a <tref>blank node</tref> or an <tref>IRI</tref>).</li>
-            <li>
-              Otherwise, if <em>element</em> does not have a <code>@id</code> property, set the <tref>active
-              subject</tref> to newly generated <tref>blank node</tref>.</li>
-            <li>
-              Process each <em>property</em> and <em>value</em> in <em>element</em>, ordered by
-              <em>property</em>, as follows:
-              <ol class="algorithm">
-                <li>
-                  If <em>property</em> is <code>@type</code>, set the <tref>active property</tref>
-                  to <code>rdf:type</code>.
-                </li>
-                <li>Otherwise, if <em>property</em> is <code>@graph</code>,
-                  process <em>value</em> algorithm recursively, using <tref>active subject</tref> as <tref>graph name</tref>
-                  and null values for <tref>active subject</tref> and <tref>active property</tref> and then
-                  proceed to next property.</li>
-                <li>Otherwise, if <em>property</em> is a <tref>keyword</tref>, skip this step.</li>
-                <li>Otherwise, set <tref>active property</tref> to the <tref>expanded IRI form</tref> of <em>property</em>.</li>
-                <li>Process <em>value</em> recursively using this algorithm, passing copies of
-                  <tref>active subject</tref>, <tref>active property</tref> and <tref>graph name</tref>.
-                </li>
-              </ol>
-            </li>
-            <li>
-              Set <tref>active object</tref> to <tref>active subject</tref>.
-            </li>
-          </ol>
-        </li>
-
-        <li>Otherwise, if <em>element</em> is an <tref>array</tref>, process each value in the <tref>array</tref>
-          as follows, process <em>element</em> recursively using this algorithm, using copies of
-          <tref>active subject</tref>, <tref>active property</tref>, and <tref>graph name</tref>.</li>
-
-        <li>Otherwise, if <em>element</em> is a <tref>string</tref>, then the <tref>active property</tref>
-          must be <code>rdf:type</code> so set the <tref>active object</tref> to an <tref>IRI</tref>.</li>
-
-        <li>If any of these steps created an <tref>active object</tref> and neither <tref>active subject</tref>
-          nor <tref>active property</tref> are <tref>null</tref>, generate a <tref>Quad</tref> using
-          <tref>active subject</tref>,<tref>active property</tref>, <tref>active object</tref> and
-          <tref>graph name</tref>.
-        </li>
-        <li>Return <tref>active object</tref>.</li>
-      </ol>
-    </section>
-
-    <section id="list-conversion">
-      <h3>List Conversion</h3>
-
-      <p>List Conversion is the process of taking an <tref>array</tref> of values and adding them to a newly
-        created <cite><a href="http://www.w3.org/TR/rdf-schema/#ch_collectionvocab">RDF Collection</a></cite> (see
-        [[!RDF-SCHEMA]]) by linking each element of the list using <code>rdf:first</code> and <code>rdf:next</code>,
-        terminating the list with <code>rdf:nil</code> using the following sequence:</p>
-      <p>The algorithm is invoked with an <tref>array</tref> <em>array</em>, the <tref>active property</tref>
-        and returns a value to be used as an <tref>active object</tref> in the calling location.</p>
-      <div class="note">This algorithm does not support lists containing lists.</div>
-
-      <p class="issue">This algorithm hasn't been updated yet.</p>
-
-      <ol class="algorithm">
-        <li>
-          If <em>array</em> is empty return <code>rdf:nil</code>.
-        </li>
-        <li>
-          Otherwise, generate a <tref>Quad</tref> using using the <tref>active subject</tref>, <tref>active property</tref>
-          and a newly generated <tref>blank node</tref> identified as <em>first <tref>blank node</tref></em>.
-        </li>
-        <li>
-          For each element in <em>array</em> other than the last element:
-          <ol class="algorithm">
-            <li>Create a processor state using
-              <em>first blank node</em> as the <tref>active subject</tref>, and
-              <code>rdf:first</code> as the <tref>active property</tref>.
-              <ol class="algorithm">
-                <li>Process the value starting at <a href="#processing-step-associative">Step 1</a>.</li>
-                <li>Proceed using the previous <tref>processor state</tref>.</li>
-              </ol>
-            </li>
-            <li>Unless this is the last element in <em>array</em>, generate a new <tref>blank node</tref> identified as
-              <em>rest blank node</em>, otherwise use <code>rdf:nil</code>.</li>
-            <li>Generate a new <tref>Quad</tref> using <em>first blank node</em>,
-              <code>rdf:rest</code> and <em>rest blank node</em>.</li>
-            <li>Set <em>first blank node</em> to
-              <em>rest blank node</em>.</li>
-            <li>Return <em>first blank node</em>.</li>
-          </ol>
-        </li>
-      </ol>
-    </section>
-
-    <section>
-      <h2>Convert from RDF Algorithm</h2>
-      <p>In some cases, data exists natively in the form of triples or or <tref title="quad">quads</tref>;
-        for example, if the data was originally represented in an RDF graph or triple/quad store. This
-        algorithm is designed to simply translate an array of <tref title="quad">quads</tref> into a
-        JSON-LD document.</p>
-      <p>When expanding <tref title="typed value">typed values</tref> having a datatype of <code>xsd:string</code>,
-        the <code>@type</code> MUST NOT be set to <code>xsd:string</code> and the resulting value
-        MUST have only an <code>@value</code> property.</p>
-
-      <p>The conversion algorithm takes a single parameter <em>input</em> in the form of an
-        array of <tref>Quad</tref> representations.</p>
-
-      <p class="issue">This algorithm hasn't been updated yet.</p>
-
-      <ol class="algorithm">
-        <li id="new_graph">Construct <em>defaultGraph</em> as a <tref>JSON object</tref>
-          containing <em>nodes</em> and <em>listMap</em>, each an empty <tref>JSON object</tref>.</li>
-        <li>Construct <em>graphs</em> as a <tref>JSON object</tref> containing <em>defaultGraph</em>
-          identified by
-          an empty <tref>string</tref>.</li>
-        <li>For each <tref>quad</tref> in <em>input</em>:
-          <ol class="algorithm">
-            <li>Set <em>graph</em> to the entry in <em>graphs</em> identified
-              by <em>name</em>, initializing it to a new entry using the mechanism
-              described in <a href="#new_graph">Step 1</a>.</li>
-            <li>If <em>property</em> is <code>rdf:first</code>,
-              use the entry in <em>graph.listMap</em> indexed by <em>subject</em>,
-              initializing it to a new <tref>JSON object</tref> if nesessary. Represent
-              <em>object</em> in <tref>expanded form</tref>, as described in
-              <a href="#value-expansion">Value Expansion</a>. Add the
-              resulting <em>object representation</em> to the entry indexed by
-              <em>first</em>, and skip to the next <tref>quad</tref>.</li>
-            <li>If <em>property</em> is <code>rdf:rest</code>:
-              <ol class="algorithm">
-                <li>If <em>object</em> is a <tref>blank node</tref>, use the entry in
-                  <em>graph.listMap</em> indexed by <em>subject</em>, initializing it
-                  to a new <tref>JSON object</tref> if necessary. Add the <em>nominalValue</em> of
-                  <em>object</em> to the entry indexed by <em>rest</em>.
-                </li>
-                <li>Skip to the next <tref>quad</tref>.</li>
-              </ol>
-            </li>
-            <li>If <em>name</em> is not <tref>null</tref>, and <em>defaultGraph.nodes</em>
-              does not contain an entry for <em>name</em>,
-              create a new entry for <em>name</em> from a new
-              <tref>JSON object</tref> with key/value pair of <code>@id</code> and
-              <em>name</em> represented in <tref>expanded IRI form</tref>.</li>
-            <li>Set <em>value</em> as the entry from <em>graph.nodes</em> for
-              <em>subject</em>, initializing it to a new
-              <tref>JSON object</tref> with key/value pair of <code>@id</code> and
-              <em>subject</em> represented in <tref>expanded IRI form</tref> if necessary.</li>
-            <li>If <em>property</em> is <code>rdf:type</code>, <em>object</em> is not a <tref>JSON-LD value</tref>, and the
-              <code class="idlMemberName"><a href="#widl-JsonLdOptions-useRdfType">useRdfType</a></code>
-              option is not present or <tref>false</tref>:
-              <ol class="algorithm">
-                <li>Append <em>object</em> represented in <tref>expanded IRI form</tref> to the array value for the
-                  key <code>@type</code>, creating an entry in <em>value</em> if necessary.</li>
-              </ol>
-            </li>
-
-            <li>Otherwise, if <em>object</em> is a <tref>typed value</tref> and the
-              <code class="idlMemberName"><a href="#widl-JsonLdOptions-useNativeTypes">useNativeTypes</a></code>
-              option is set to <tref>true</tref>:
-              <ol class="algorithm">
-                <li>Generate a <em>converted value</em>:
-                  <ol class="algorithm">
-                    <li>If the literal's type is <code>xsd:boolean</code>, the
-                      <em>converted value</em> is <tref>true</tref> if the literal
-                      matches the value <code>true</code> or <code>false</code> if
-                      the literal matches the value <code>false</code>.</li>
-                    <li>If the literal's type is <code>xsd:integer</code> or
-                      <code>xsd:double</code>, try to convert the literal to a
-                      JSON <tref>number</tref>. If the conversion is successful,
-                      store the result in <em>converted value</em>, otherwise
-                      set <em>converted value</em> to <em>value</em>.</li>
-                    <li>Otherwise, do not perform a conversion. Set
-                      the <em>converted value</em> to the <em>value</em>.</li>
-                  </ol>
-                </li>
-                <li>Append the <em>converted value</em> to the array value for the
-                  key, creating an entry in <em>value</em> if necessary.</li>
-              </ol>
-            </li>
-
-            <li>Otherwise, if <em>object</em> is <code>rdf:nil</code>:
-              <ol class="algorithm">
-                <li>Let <em>key</em> be <em>property</em> expressed in <tref>expanded IRI form</tref>.</li>
-                <li>Append an empty <code>@list</code> representation to the array value for
-                  <em>key</em>, creating an entry in <em>value</em> if necessary.</li>
-              </ol>
-            </li>
-            <li>Otherwise,
-              <ol class="algorithm">
-                <li>Let <em>key</em> be <em>property</em> expressed in <tref>expanded IRI form</tref> and let
-                  <em>object representation</em>
-                  be <em>object</em> represented in <tref>expanded form</tref> as described in
-                  <a href="#value-expansion">Value Expansion</a>.</li>
-                <li>If <em>object</em> is a <tref>blank node</tref>,
-                  use the entry in <em>graph.listMap</em> indexed by <em>object</em>,
-                  initializing it to a new <tref>JSON object</tref> if nesessary.
-                  Add an entry for <em>head</em> with <em>object representation</em>.</li>
-                <li>Append <em>object representation</em> to the array value for
-                  <em>key</em>, creating an entry in <em>value</em> if necessary.</li>
-              </ol>
-            </li>
-          </ol>
-        </li>
-        <li>For each <em>name</em> and <em>graph</em> in <em>graphs</em>:
-          <ol class="algorithm">
-            <li>For each <em>subject</em> and <em>entry</em> in <em>graph</em>
-              where <em>entry</em> has both <em>head</em> and <em>first</em> keys:
-              <ol class="algorithm">
-                <li>Set <em>value</em> to the value of <em>head</em> in <em>entry</em>.</li>
-                <li>Remove the entry for <code>@id</code> in <em>value</em>.</li>
-                <li>Add an entry to <em>value</em> for <code>@list</code> initialized to a new array
-                  containing the value of <em>first</em> from <em>entry</em>.</li>
-                <li>While <em>entry</em> has a key for <em>rest</em>:
-                  <ol class="algorithm">
-                    <li>Set <em>entry</em> to the value of <em>graph.listMap</em> for <em>entry.rest</em>.</li>
-                    <li>Add the value for <em>entry.first</em> to the list array.</li>
-                  </ol>
-                </li>
-              </ol>
-            </li>
-          </ol>
-        </li>
-        <li>Create <em>array</em> as an empty <tref>array</tref>.</li>
-        <li>For each <em>subject</em> and <em>entry</em> in <em>defaultGraph.nodes</em>
-          ordered by <em>subject</em>:
-          <ol class="algorithm">
-            <li>Add <em>entry</em> to <em>array</em>.</li>
-            <li>If <em>graphs</em> has an entry for <em>subject</em>, add a property
-              <code>@graph</code> in <em>entry</em> containing the ordered entries
-              from <em>graphs[subject].nodes</em>.</li>
-          </ol>
-        </li>
-        <li>Return <em>array</em> as the result.</li>
-      </ol>
-    </section>
-
-    <section>
-      <h3>Data Round Tripping</h3>
-
-      <p>When <a href="#rdf-conversion">converting JSON-LD to RDF</a> JSON-native types such as
-        <em>numbers</em> and <em>booleans</em> are automatically coerced to <strong>xsd:integer</strong>,
-        <strong>xsd:double</strong>, or <strong>xsd:boolean</strong>. Implementers MUST ensure that the
-        result is in <tref>canonical lexical form</tref>. A
-        <tdef>canonical lexical form</tdef> is a set of literals from among the valid set of literals for
-        a datatype such that there is a one-to-one mapping between the <tref>canonical lexical form</tref> and a value
-        in the value space as defined in [[!XMLSCHEMA11-2]]. In other words, every value MUST be converted
-        to a deterministic <tref>string</tref> representation.</p>
-
-      <p>The canonical lexical form of an <em>integer</em>, i.e., a number without fractions
-        or a number coerced to <strong>xsd:integer</strong>, is a finite-length sequence of decimal
-        digits (<code>0-9</code>) with an optional leading minus sign; leading zeroes are prohibited.
-        To convert the number in JavaScript, implementers can use the following snippet of code:</p>
-
-      <pre class="example" data-transform="updateExample"
-           title="Sample integer serialization implementation in JavaScript">
-      <!--
-      (value).toFixed(0).toString()
-      -->
-      </pre>
-
-      <p>The canonical lexical form of a <em>double</em>, i.e., a number with fractions
-        or a number coerced to <strong>xsd:double</strong>, consists of a mantissa followed by the
-        character "E", followed by an exponent. The mantissa MUST be a decimal number. The exponent
-        MUST be an integer. Leading zeroes and a preceding plus sign (<code>+</code>) are prohibited
-        in the exponent. If the exponent is zero, it must be indicated by <code>E0</code>.
-        For the mantissa, the preceding optional plus sign is prohibited and the decimal point is
-        required. Leading and trailing zeroes are prohibited subject to the following: number
-        representations must be normalized such that there is a single digit which is non-zero to the
-        left of the decimal point and at least a single digit to the right of the decimal point unless
-        the value being represented is zero. The canonical representation for zero is <code>0.0E0</code>.
-        <strong>xsd:double</strong>'s value space is defined by the IEEE double-precision 64-bit
-        floating point type [[!IEEE-754-1985]]; in JSON-LD the mantissa is rounded to 15 digits after the
-        decimal point.</p>
-
-      <p>To convert the number in JavaScript, implementers can use the following snippet of code:</p>
-
-      <pre class="example" data-transform="updateExample"
-           title="Sample floating point number serialization implementation in JavaScript">
-      <!--
-      (value).toExponential(15).replace(/(\d)0*e\+?/,'$1E')
-      -->
-      </pre>
-
-      <p class="note">When data such as decimals need to be normalized, JSON-LD authors should
-        not use values that are going to undergo automatic conversion. This is due to the lossy nature
-        of <strong>xsd:double</strong> values. Authors should instead use the expanded object form to
-        set the canonical lexical form directly.</p>
-
-      <p>The canonical lexical form of the <em>boolean</em> values <code>true</code> and <code>false</code>
-        are the strings <strong>true</strong> and <strong>false</strong>.</p>
-
-      <p>When JSON-native <tref>number</tref>s, are type coerced, lossless data round-tripping can not
-        be guaranted as rounding errors might occur. Additionally, only literals typed as
-        <strong>xsd:integer</strong>, <strong>xsd:double</strong>, and  <strong>xsd:boolean</strong> are
-        automatically converted back to their JSON-native counterparts in when
-        <a href="#rdf-conversion">converting from RDF</a>.</p>
-
-      <p>Some JSON serializers, such as PHP's native implementation in some versions,
-        backslash-escape the forward slash character. For example, the value
-        <code>http://example.com/</code> would be serialized as <code>http:\/\/example.com\/</code>.
-        This is problematic as other JSON parsers might not understand those escaping characters.
-        There is no need to backslash-escape forward slashes in JSON-LD. To aid interoperability
-        between JSON-LD processors, a JSON-LD serializer MUST NOT backslash-escape forward slashes.</p>
-    </section>
-  </section>
-</section>
-
-<section>
-  <h2>The Application Programming Interface</h2>
-
-  <p>This API provides a clean mechanism that enables developers to convert
-  JSON-LD data into a a variety of output formats that are easier to work
-  with in JavaScript. If a JavaScript JSON-LD API is provided, the entirety
-  of the following API MUST be implemented.</p>
-
-  <section>
-    <h3>JsonLdProcessor</h3>
-
-    <p>The JSON-LD Processor interface is the high-level programming structure
-      that developers use to access the JSON-LD transformation methods.</p>
-
-    <p>It is important to highlight that conformant <tref title="JSON-LD Processor">JSON-LD processors</tref>
-      MUST NOT modify the input parameters.</p>
-
-    <dl title="[Constructor] interface JsonLdProcessor" class="idl">
-
-      <dt>void expand()</dt>
-      <dd>
-        <a href="#expansion">Expands</a> the given <code>input</code> according to
-        the steps in the <a href="#expansion-algorithm">Expansion Algorithm</a>.
-
-        <dl class="parameters">
-          <dt>(object or object[] or DOMString) input</dt>
-          <dd>The JSON-LD object or array of JSON-LD objects to perform the expansion upon or an
-            <tref>IRI</tref> referencing the JSON-LD document to expand.</dd>
-          <dt>JsonLdCallback callback</dt>
-          <dd>A callback that is called when processing completed successfully
-            on the given <code>input</code>, or a fatal error prevented
-            processing from completing.</dd>
-          <dt>optional JsonLdOptions? options</dt>
-          <dd>A set of options to configure the used algorithms such. This allows, e.g.,
-            to set the input document's base <tref>IRI</tref>.</dd>
-        </dl>
-      </dd>
-
-      <dt>void compact()</dt>
-      <dd>
-        <a href="#compaction">Compacts</a> the given <code>input</code> using the
-        <code>context</code> according to the steps in the
-        <a href="#compaction-algorithm">Compaction Algorithm</a>.
-
-        <dl class="parameters">
-          <dt>(object or object[] or DOMString) input</dt>
-           <dd>The JSON-LD object or array of JSON-LD objects to perform the compaction upon or an
-            <tref>IRI</tref> referencing the JSON-LD document to compact.</dd>
-          <dt>(object or DOMString) context</dt>
-          <dd>The context to use when compacting the <code>input</code>; either in the
-            form of an <tref>JSON object</tref> or as <tref>IRI</tref>.</dd>
-          <dt>JsonLdCallback callback</dt>
-          <dd>A callback that is called when processing completed successfully
-            on the given <code>input</code>, or a fatal error prevented
-            processing from completing.</dd>
-          <dt>optional JsonLdOptions? options</dt>
-          <dd>A set of options to configure the used algorithms such. This allows, e.g.,
-            to set the input document's base <tref>IRI</tref>. This also includes
-            the <code>optimize</code> flag, which, if set, will allow processor-specific
-            optimization.</dd>
-        </dl>
-      </dd>
-
-      <dt>void flatten()</dt>
-      <dd>
-        <a href="#flattening">Flattens</a> the given <code>input</code> and
-        <a href="#compaction">compacts</a> it using the passed <code>context</code>
-          according to the steps in the <a href="#flattening-algorithm">Flattening Algorithm</a>.
-
-        <dl class="parameters">
-          <dt>(object or object[] or DOMString) input</dt>
-           <dd>The JSON-LD object or array of JSON-LD objects or an <tref>IRI</tref>
-            referencing the JSON-LD document to flatten.</dd>
-          <dt>(object or DOMString)? context</dt>
-          <dd>The context to use when compacting the flattened <code>input</code>; either
-            in the form of an <tref>JSON object</tref> or as <tref>IRI</tref>. If
-            <tref>null</tref> is passed, the result will not be compacted but keept
-            in expanded form.</dd>
-          <dt>JsonLdCallback callback</dt>
-          <dd>A callback that is called when processing completed successfully
-            on the given <code>input</code>, or a fatal error prevented
-            processing from completing.</dd>
-          <dt>optional JsonLdOptions? options</dt>
-          <dd>A set of options to configure the used algorithms such. This allows, e.g.,
-            to set the input document's base <tref>IRI</tref>.</dd>
-        </dl>
-      </dd>
-    </dl>
-
-  </section>
-
-  <section>
-    <h3>Callbacks</h3>
-
-    <p>JSON-LD processors utilize callbacks in order to return information in an
-      asynchronous manner to calling applications. This section details the
-      parameters sent to those callbacks.</p>
-
-    <section>
-      <h3>JsonLdCallback</h3>
-      <p>The <a>JsonLdCallback</a> is called when an API method of
-        <a>JsonLdProcessor</a> has been completed, either successfully or
-        by a fatal error.</p>
-
-      <dl title="callback JsonLdCallback = void" class="idl">
-        <dt>JsonLdError error</dt>
-        <dd>If the value is <tref>null</tref>, then no issue was detected
-          during processing. Otherwise, a processing issue was detected and
-          the details are contained within the <em>error</em> object.</dd>
-        <dt>object or object[] document</dt>
-        <dd>The processed JSON-LD document.</dd>
-      </dl>
-    </section>
-  </section>
-
-  <section>
-    <h3>Data Structures</h3>
-    <p>This section describes datatype definitions used within the JSON-LD API.</p>
-
-    <section>
-      <h3>JsonLdOptions</h3>
-      <p>The <a>JsonLdOptions</a> type is used to pass various options to the <a>JsonLdProcessor</a> methods.</p>
-      <dl title="dictionary JsonLdOptions" class="idl">
-        <dt>DOMString base</dt>
-        <dd>The Base IRI to use when expanding the document. This overrides the value of
-          <em>input</em> if it is a <a>IRI</a>. If not specified and <em>input</em> is not
-          an <a>IRI</a>, the base IRI defaults to the current document IRI if in a browser context,
-          or the empty string if there is no document context.
-          <p class="issue atrisk" title="Feature at risk">The default value of this option
-            implies that all IRIs that cannot be compacted otherwise are transformed to relative IRIs
-            during compaction. To avoid that data is being lost, developers thus have to store the
-            base IRI along with the compacted document. This might be problematic in practice and
-            thus the default behavior might be changed in future.</p>
-        </dd>
-        <dt>object or DOMString expandContext = null</dt>
-        <dd>A context that is used to initialize the active context when expanding a document.</dd>
-        <dt>boolean compactArrays = true</dt>
-        <dd>If set to <code>true</code>, the JSON-LD processor replaces arrays with just
-          one element with that element during compaction. If set to <code>false</code>,
-          all arrays will remain arrays even if they have just one element.
-        </dd>
-        <dt>boolean optimize = false</dt>
-        <dd>If set to <code>true</code>, the JSON-LD processor is allowed to
-          optimize the output of the <a href="#compaction-algorithm">Compaction Algorithm</a>
-          to produce even compacter representations. The algorithm for compaction
-          optimization is beyond the scope of this specification and thus
-          not defined. Consequently, different implementations MAY implement
-          different optimization algorithms.
-        </dd>
-        <dt>boolean useRdfType = false</dt>
-        <dd>If set to <code>true</code>, the JSON-LD processor will use the
-          expanded <code>rdf:type</code> IRI as the property instead of
-          <code>@type</code> when <a href="#convert-from-rdf-algorithm">converting from RDF</a>.
-        </dd>
-        <dt>boolean useNativeTypes = true</dt>
-        <dd>If set to <code>true</code>, the JSON-LD processor will try to convert
-          <tref title="typed value">typed values</tref> to JSON native types instead of using the
-          expanded object form when <a href="#convert-from-rdf-algorithm">converting from RDF</a>.
-          <code>xsd:boolean</code> values will be converted to <tref>true</tref> or <tref>false</tref>.
-          <code>xsd:integer</code> and <code>xsd:double</code> values will be
-          converted to
-          <tref title="number">JSON numbers</tref>.
-        </dd>
-      </dl>
-    </section>
-
-    <section>
-      <h3>JsonLdError</h3>
-
-      <p>The <a>JsonLdError</a> type is used to report processing errors
-        to a <a>JsonLdCallback</a>.</p>
-
-      <dl title="dictionary JsonLdError" class="idl">
-        <dt>JsonLdErrorCode code</dt>
-        <dd>a string representing the particular error type, as described in
-          the various algorithms in this document.</dd>
-        <dt>DOMString? message</dt>
-        <dd>an optional error message containing additional debugging information.
-          The specific contents of error messages are outside the scope of this
-          specification.</dd>
-      </dl>
-    </section>
-
-    <section>
-      <h3>JsonLdErrorCode</h3>
-      <p>The <a>JsonLdErrorCode</a> represents the collection of valid JSON-LD error
-        codes.</p>
-
-      <dl title="enum JsonLdErrorCode" class="idl">
-        <dt>invalid syntax</dt>
-        <dd>The document could not be parsed as JSON.</dd>
-        <dt>list of lists detected</dt>
-        <dd>A list of lists was detected. List of lists are not supported in
-          this version of JSON-LD due to the algorithmic complexity associated
-          with conversion to RDF.</dd>
-        <dt>invalid @index value</dt>
-        <dd>An <code>@index</code> member was encountered whose value was
-          not a <tref>string</tref>.</dd>
-        <dt>conflicting indexes</dt>
-        <dd>Multiple conflicting indexes have been found for the same node.</dd>
-        <dt>invalid @id value</dt>
-        <dd>An <code>@id</code> member was encountered whose value was not a
-          <tref>string</tref>.</dd>
-        <dt>invalid local context</dt>
-        <dd>In invalid <tref>local context</tref> was detected.</dd>
-        <dt>loading remote context failed</dt>
-        <dd>There was a problem encountered loading a remote context.</dd>
-        <dt>invalid remote context</dt>
-        <dd>No valid context document has been found for a referenced,
-         remote context.</dd>
-        <dt>recursive context inclusion</dt>
-        <dd>A cycle in remote context inclusions has been detected.</dd>
-        <dt>invalid default language</dt>
-        <dd>The value of the <tref>default language</tref> is not a <tref>string</tref>
-          or <tref>null</tref> and thus invalid.</dd>
-        <dt>invalid vocab mapping</dt>
-        <dd>An invalid <tref>vocabulary mapping</tref> has been detected, i.e.,
-          it is neither an <tref>absolute IRI</tref> nor <tref>null</tref>.</dd>
-        <dt>keyword redefinition</dt>
-        <dd>A <tref>keyword</tref> redefinition has been detected.</dd>
-        <dt>invalid term definition</dt>
-        <dd>An invalid <tref>term definition</tref> has been detected.</dd>
-        <dt>invalid term IRI mapping</dt>
-        <dd>A <tref>local context</tref> contains a <tref>term</tref> that
-          has not been mapped to an <tref>absolute IRI</tref>.</dd>
-        <dt>cyclic IRI mapping</dt>
-        <dd>A cycle in <tref title="IRI mapping">IRI mappings</tref> has been detected.</dd>
-        <dt>invalid type mapping</dt>
-        <dd>An <code>@type</code> member in a <tref>term definition</tref>
-          was encountered whose value could not be expanded to an
-          <tref>absolute IRI</tref>.</dd>
-        <dt>invalid language mapping</dt>
-        <dd>An <code>@language</code> member in a <tref>term definition</tref>
-          was encountered whose value was neither a <tref>string</tref> nor
-          <tref>null</tref> and thus invalid.</dd>
-        <dt>invalid container mapping</dt>
-        <dd>An <code>@container</code> member was encountered whose value was
-          not one of the following <tref title="string">strings</tref>:
-          <code>@list</code>, <code>@set</code>, or <code>@index</code>.</dd>
-        <dt>invalid property generator</dt>
-        <dd>A non-<tref>string</tref> value has been detected in a
-          <tref title="property generator">property generator's</tref>
-          <tref>IRI mapping</tref>.</dd>
-        <dt>invalid property generator IRI mapping</dt>
-        <dd>Expanding all values of a
-          <tref title="property generator">property generator's</tref>
-          <tref>IRI mapping</tref> to <tref>absolute IRI</tref> failed.</dd>
-        <dt>property generator in term definition</dt>
-        <dd>A <tref>property generator</tref> was used in the
-          <tref>IRI mapping</tref> of another <tref>term</tref> or
-          <tref>property generator</tref>.</dd>
-        <dt>invalid type value</dt>
-        <dd>An invalid value for an <code>@type</code> member has been detected,
-          i.e., the value was neither a <tref>string</tref> nor an <tref>array</tref>
-          of <tref title="string">strings</tref>.</dd>
-        <dt>invalid value object</dt>
-        <dd>A <tdef>value object</tdef> with disallowed members has been
-          detected.</dd>
-        <dt>invalid value object value</dt>
-        <dd>An invalid value for the <code>@value</code> member of a
-          <tref>value object</tref> has been detected, i.e., it is neither
-          a <tref>scalar</tref> nor <tref>null</tref>.</dd>
-        <dt>invalid language tagged string</dt>
-        <dd>A <tref>language-tagged string</tref> with disallowed members has
-          been detected.</dd>
-        <dt>invalid language value</dt>
-        <dd>A <tref>language-tagged string</tref> with an invalid language
-          value was detected.</dd>
-        <dt>invalid typed value</dt>
-        <dd>A <tref>typed value</tref> with disallowed members has been
-          detected.</dd>
-        <dt>invalid set or list object</dt>
-        <dd>A <tdef>set object</tref> or <tref>list object</tref> with
-          disallowed members has been detected.</dd>
-        <dt>language map invalid value</dt>
-        <dd>An invalid value in a <tdef>language map</tdef> was detected. It has
-          to be a <tref>string</tref> or an <tref>array</tref> of
-          <tref title="string">strings</tref>.</dd>
-        <dt>compaction to list of lists</dt>
-        <dd>The compacted document contains a list of lists as multiple
-          lists have been compacted to the same term.</dd>
-      </dl>
-    </section>
-
-  </section>
-</section>
-
-<section class="appendix">
-  <h1>Acknowledgements</h1>
-
-  <p>A large amount of thanks goes out to the JSON-LD Community Group
-    participants who worked through many of the technical issues on the mailing
-    list and the weekly telecons - of special mention are Niklas Lindström,
-    François Daoust, Lin Clark, and Zdenko 'Denny' Vrandečić.
-    The editors would like to thank Mark Birbeck, who provided a great deal of
-    the initial push behind the JSON-LD work via his work on RDFj.
-    The work of Dave Lehn and Mike Johnson are appreciated for reviewing,
-    and performing several implementations of the specification. Ian Davis is
-    thanked for his work on RDF/JSON. Thanks also to Nathan Rixham,
-    Bradley P. Allen, Kingsley Idehen, Glenn McDonald, Alexandre Passant,
-    Danny Ayers, Ted Thibodeau Jr., Olivier Grisel, Josh Mandel, Eric Prud'hommeaux,
-    David Wood, Guus Schreiber, Pat Hayes, Sandro Hawke, and Richard Cyganiak
-    or their input on the specification.</p>
-</section>
-
-</body>
-</html>