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<title>State Chart XML (SCXML): State Machine Notation for Control
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alt="W3C" src="http://www.w3.org/Icons/w3c_home" /></a></p>

<h1><a id="title" name="title" />State Chart XML (SCXML): State
Machine Notation for Control Abstraction</h1>

<h2><a id="w3c-doctype" name="w3c-doctype" />W3C Working Draft
<i>26</i> <i>April</i> <i>2011</i></h2>

<dl>
<dt>This version:</dt>

<dd><a
href="http://www.w3.org/TR/2011/WD-scxml-20110426/">http://www.w3.org/TR/2011/WD-scxml-20110426/</a></dd>

<dt>Latest version:</dt>

<dd><a
href="http://www.w3.org/TR/scxml/">http://www.w3.org/TR/scxml/</a></dd>

<dt>Previous version:</dt>

<dd><a
href="http://www.w3.org/TR/2010/WD-scxml-20101216/">http://www.w3.org/TR/2010/WD-scxml-20101216/</a></dd>

<dt>Editors:</dt>

<dd>Jim Barnett, Genesys (Editor-in-Chief)</dd>

<dd>Rahul Akolkar, IBM</dd>

<dd>RJ Auburn, Voxeo</dd>

<dd>Michael Bodell, Microsoft</dd>

<dd>Daniel C. Burnett, Voxeo</dd>

<dd>Jerry Carter, (until 2008, when at Nuance)</dd>

<dd>Scott McGlashan, HP</dd>

<dd>Torbjörn Lager, Invited Expert</dd>

<dd>Mark Helbing, (until 2006, when at Nuance)</dd>

<dd>Rafah Hosn, (until 2008, when at IBM)</dd>

<dd>T.V. Raman, (until 2005, when at IBM)</dd>

<dd>Klaus Reifenrath, (until 2006, when at Nuance)</dd>

<dd>No'am Rosenthal, (until 2009, when at Nokia)</dd>
</dl>

<p class="copyright"><a
href="http://www.w3.org/Consortium/Legal/ipr-notice#Copyright">Copyright</a>
© 2011 <a href="http://www.w3.org/"><acronym
title="World Wide Web Consortium">W3C</acronym></a><sup>®</sup> (<a
href="http://www.csail.mit.edu/"><acronym
title="Massachusetts Institute of Technology">MIT</acronym></a>, <a
href="http://www.ercim.eu/"><acronym
title="European Research Consortium for Informatics and Mathematics">
ERCIM</acronym></a>, <a href="http://www.keio.ac.jp/">Keio</a>),
All Rights Reserved. W3C <a
href="http://www.w3.org/Consortium/Legal/ipr-notice#Legal_Disclaimer">
liability</a>, <a
href="http://www.w3.org/Consortium/Legal/ipr-notice#W3C_Trademarks">
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<hr />
<div>
<h2><a id="abstract" name="abstract" />Abstract</h2>

<p>This document describes SCXML, or the "State Chart extensible
Markup Language". SCXML provides a generic state-machine based
execution environment based on CCXML and Harel State Tables.</p>
</div>

<div>
<h2><a id="status" name="status" />Status of this Document</h2>

<p><em>This section describes the status of this document at the
time of its publication. Other documents may supersede this
document. A list of current W3C publications and the latest
revision of this technical report can be found in the <a
href="http://www.w3.org/TR/">W3C technical reports index</a> at
http://www.w3.org/TR/.</em></p>

<p>This document is the ninth Public Working Draft of SCXML
published on 26 April 2010 for review by W3C Members and other
interested parties, and has been developed by the <a
href="http://www.w3.org/Voice/">Voice Browser Working Group</a> as
part of the W3C <a
href="http://www.w3.org/Voice/Activity.html">Voice Browser
Activity</a>. The main difference from the previous draft is
corrections to the interpretation algorithm. A <a
href="diff.html">diff-marked version</a> of this document is also
available for comparison purposes.</p>

<p>Comments for this specification are welcomed to <a
href="mailto:www-voice@w3.org">www-voice@w3.org</a> (<a
href="http://lists.w3.org/Archives/Public/www-voice/">archives</a>).</p>

<p>This document was produced by a group operating under the <a
href="http://www.w3.org/Consortium/Patent-Policy-20040205/">5
February 2004 W3C Patent Policy</a>. W3C maintains a <a
href="http://www.w3.org/2004/01/pp-impl/34665/status">public list
of any patent disclosures</a> made in connection with the
deliverables of the group; that page also includes instructions for
disclosing a patent. An individual who has actual knowledge of a
patent which the individual believes contains <a
href="http://www.w3.org/Consortium/Patent-Policy-20040205/#def-essential">
Essential Claim(s)</a> must disclose the information in accordance
with <a
href="http://www.w3.org/Consortium/Patent-Policy-20040205/#sec-Disclosure">
section 6 of the W3C Patent Policy.</a></p>

<p>Publication as a Working Draft does not imply endorsement by the
W3C Membership. This is a draft document and may be updated,
replaced or obsoleted by other documents at any time. It is
inappropriate to cite this document as other than work in
progress.</p>
</div>

<div class="toc">
<h2><a id="contents" name="contents" />Table of Contents</h2>

<p class="toc">1 <a href="#terminology">Terminology</a><br />
2 <a href="#overview">Overview</a><br />
3 <a href="#Basic">Core Constructs</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.1 <a
href="#CoreIntroduction">Introduction</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.2 <a
href="#scxml">&lt;scxml&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.3 <a
href="#state">&lt;state&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.4 <a
href="#parallel">&lt;parallel&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.5 <a
href="#transition">&lt;transition&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.6 <a
href="#initial">&lt;initial&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.7 <a
href="#final">&lt;final&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.8 <a
href="#onentry">&lt;onentry&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.9 <a
href="#onexit">&lt;onexit&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.10 <a
href="#history">&lt;history&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.11 <a
href="#LegalStateConfigurations">Legal State Configurations and
Specifications</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.12 <a href="#events">SCXML
Events</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.13 <a
href="#SelectingTransitions">Selecting and Executing
Transitions</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;3.14 <a href="#IDs">IDs</a><br />
4 <a href="#executable">Executable Content</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.1 <a
href="#ExecutableIntroduction">Introduction</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.2 <a
href="#raise">&lt;raise&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.3 <a href="#if">&lt;if&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.4 <a
href="#elseif">&lt;elseif&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.5 <a href="#else">&lt;else&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.6 <a
href="#foreach">&lt;foreach&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.7 <a href="#log">&lt;log&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.8 <a
href="#profile-dependentexecutablecontent">Other Executable
Content</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.9 <a
href="#EvaluationofExecutableContent">Evaluation of Executable
Content</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;4.10 <a href="#extensibility">Extensibility
of Executable Content</a><br />
5 <a href="#data-module">Data Model and Data Manipulation</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.1 <a
href="#DataModelIntroduction">Introduction</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.2 <a
href="#datamodel">&lt;datamodel&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.3 <a href="#data">&lt;data&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.4 <a
href="#assign">&lt;assign&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.5 <a
href="#validate">&lt;validate&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.6 <a
href="#donedata">&lt;donedata&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.7 <a
href="#content">&lt;content&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.8 <a
href="#param">&lt;param&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.9 <a
href="#script">&lt;script&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.10 <a
href="#Expressions">Expressions</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;5.11 <a href="#SystemVariables">System
Variables</a><br />
6 <a href="#external-module">External Communications</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;6.1 <a
href="#ExternalIntroduction">Introduction</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;6.2 <a href="#send">&lt;send&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;6.3 <a
href="#cancel">&lt;cancel&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;6.4 <a
href="#invoke">&lt;invoke&gt;</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;6.5 <a
href="#finalize">&lt;finalize&gt;</a><br />
</p>

<h3><a id="appendices" name="appendices" />Appendices</h3>

<p class="toc">A <a
href="#AlgorithmforSCXMLInterpretation">Algorithm for SCXML
Interpretation</a><br />
B <a href="#schemas">Schema</a><br />
C <a href="#conformance">Conformance</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;C.1 <a
href="#ConformingDocuments">Conforming Documents</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;C.2 <a
href="#ConformingProcessors">Conforming Processors</a><br />
D <a href="#profiles">Data Models</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;D.1 <a href="#minimal-profile">The Null
Data Model</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;D.2 <a href="#ecma-profile">The ECMAScript
Data Model</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;D.3 <a href="#xpath-profile">The XPath Data
Model</a><br />
E <a href="#eventioprocessors">Event I/O Processors</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;E.1 <a href="#SCXMLEventProcessor">SCXML
Event I/O Processor</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;E.2 <a
href="#BasicHTTPEventProcessor">Basic HTTP Event I/O
Processor</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;E.3 <a href="#DOMEventProcessor">DOM Event
I/O Processor</a><br />
F <a href="#relatedWork">Related Work</a><br />
G <a href="#Examples">Examples</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.1 <a href="#N1181C">Language
Overview</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.2 <a href="#N1182D">Microwave
Example</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.3 <a href="#MicrowaveParallel">Microwave
Example (Using parallel)</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.4 <a href="#N11844">Calculator
Example</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.5 <a href="#N1184F">Shale
Example</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.6 <a href="#invokeex">Examples of Invoke
and finalize</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.7 <a
href="#content_and_namespaces">Inline Content and
Namespaces</a><br />
&nbsp;&nbsp;&nbsp;&nbsp;G.8 <a href="#custom_action">Custom Action
Elements</a><br />
H <a href="#references">References</a><br />
</p>
</div>

<hr />
<div class="body">
<div class="div1">
<h2><a id="terminology" name="terminology" />1 Terminology</h2>

<p>The key words <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em>, <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em>, <em
title="REQUIRED in RFC2119 context" class="RFC2119">REQUIRED</em>,
<em title="SHALL in RFC2119 context" class="RFC2119">SHALL</em>,
<em title="SHALL NOT in RFC2119 context" class="RFC2119">SHALL
NOT</em>, <em title="SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em>, <em
title="SHOULD NOT in RFC2119 context" class="RFC2119">SHOULD
NOT</em>, <em title="RECOMMENDED in RFC2119 context"
class="RFC2119">RECOMMENDED</em>, <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em>, and <em
title="OPTIONAL in RFC2119 context" class="RFC2119">OPTIONAL</em>
in this specification are to be interpreted as described in <a
href="#RFC2119">[IETF RFC 2119]</a>.</p>

<p>The terms base URI and relative URI are used in this
specification as they are defined in <a href="#RFC2396">[IETF RFC
2396]</a>.</p>

<p>All sections not marked as "informative" are normative.</p>
</div>

<div class="div1">
<h2><a id="overview" name="overview" />2 Overview</h2>

<p>[This section is informative.]</p>

<p>This document outlines State Chart XML (SCXML), which is a
general-purpose event-based state machine language that combines
concepts from CCXML and Harel State Tables. CCXML <a
href="#CCXML">[W3C CCXML 1.0]</a> is an event-based state machine
language designed to support call control features in Voice
Applications (specifically including VoiceXML but not limited to
it). The CCXML 1.0 specification defines both a state machine and
event handing syntax and a standardized set of call control
elements. Harel State Tables are a state machine notation that was
developed by the mathematician David Harel <a
href="#Harel_Politi">[Harel and Politi]</a> and is included in UML
<a href="#UML">[UML 2.3]</a>. They offer a clean and well-thought
out semantics for sophisticated constructs such as a parallel
states. They have been defined as a graphical specification
language, however, and hence do not have an XML representation. The
goal of this document is to combine Harel semantics with an XML
syntax that is a logical extension of CCXML's state and event
notation.</p>

<p><a href="#Basic"><b>3 Core Constructs</b></a> presents the core
state machine concepts, while <a href="#executable"><b>4 Executable
Content</b></a> contains an extensible set of actions that the
state machine can take in response to events. <a
href="#data-module"><b>5 Data Model and Data Manipulation</b></a>
defines constructs for storing and modifying data, while <a
href="#external-module"><b>6 External Communications</b></a>
provides the capability of communicating with external
entities.</p>
</div>

<div class="div1">
<h2><a id="Basic" name="Basic" />3 Core Constructs</h2>

<div class="div2">
<h3><a id="CoreIntroduction" name="CoreIntroduction" />3.1
Introduction</h3>

<p>[This section is informative.]</p>

<div class="div3">
<h4><a id="BasicState" name="BasicState" />3.1.1 Basic State
Machine Notation</h4>

<p>The most basic state machine concepts are <a
href="#state"><b>3.3 &lt;state&gt;</b></a>, <a
href="#transition"><b>3.5 &lt;transition&gt;</b></a> and event (<a
href="#events"><b>3.12 SCXML Events</b></a>). Each state contains a
set of transitions that define how it reacts to events. Events can
be generated by the state machine itself or by external entities.
In a traditional state machine, the machine is always in a single
state. This state is called the active state. When an event occurs,
the state machine checks the transitions that are defined in the
active state. If it finds one that matches the event, it moves from
the active state to the state specified by the transition (called
the "target" of the transition.) Thus the target state becomes the
new active state.</p>

<p>The Harel state notation defines several extensions to these
basic notions. First of all, the state machine may take actions (as
defined in <a href="#executable"><b>4 Executable Content</b></a>)
while taking transitions. Specifically, each state may contain <a
href="#onentry"><b>3.8 &lt;onentry&gt;</b></a> and <a
href="#onexit"><b>3.9 &lt;onexit&gt;</b></a> actions. Transitions
may also contain actions. If a state machine takes transition T
from state S1 to state S2, it first performs the onexit actions in
S1, then the actions in T, then the onentry actions in S2.
Secondly, in addition to the 'event' attribute that specifies the
event(s) that can trigger it, transitions also have a 'cond'
attribute. If a transition has both 'event' and 'cond' attributes,
it will be selected only if an event is raised whose name matches
the 'event' attribute (see <a href="#EventDescriptors"><b>3.12.1
Event Descriptors</b></a> for details) and the 'cond' condition
evaluates to true. If the 'event' attribute is missing, the
transition is taken whenever the 'cond' evaluates to true. If more
than one transition matches, the first one in document order will
be taken. Thus, in the following example, the system will
transition to s1 when event e (or e.foo, etc.) occurs if x is equal
to 1, but will transition to s2 if event e (or e.foo, etc.) occurs
and x is not equal to 1, and will go to s3 if any other event
occurs.</p>

<div class="exampleInner">
<pre>
&lt;state id=s"&gt;
   &lt;transition event="e" cond="x==1" target="s1"/&gt;
   &lt;transition event="e" target="s2"/&gt;
   &lt;transition event="*" target="s3"/&gt;
&lt;/state&gt;
</pre>
</div>

<p>The data model can be changed only by the execution of
&lt;invoke&gt; or executable content. Therefore transitions with
missing 'event' attributes need be checked only after a transition
has been taken. See <a href="#AlgorithmforSCXMLInterpretation"><b>A
Algorithm for SCXML Interpretation</b></a> for details.</p>
</div>

<div class="div3">
<h4><a id="N10153" name="N10153" />3.1.2 Compound States</h4>

<p>One of the most powerful concepts in Harel notation is the idea
that states may have internal structure. In particular, a
&lt;state&gt; element may contain nested &lt;state&gt; elements.
Such a state is called a compound state and we speak of it as the
parent state, while the nested elements are child states. The child
states may themselves have nested children and the nesting may
proceed to any depth. Ultimately we will reach a state that does
not contain any child states. Such a state is called an atomic
state. When a compound state is active, one and only one of its
child states is active. Conversely, when an child state is active,
its parent state must be active too. Thus at any point we have a
set of active states, containing an atomic state and all of its
ancestors. (We will see in the next section that multiple atomic
states can be active at the same time.)</p>

<div class="div4">
<h5><a id="N10158" name="N10158" />3.1.2.1 Initial, Final, and
History States</h5>

<p>In the presence of compound states, transitions no longer simply
move from the current active state to a new active state, but from
one set of active states to another. (See <a
href="#LegalStateConfigurations"><b>3.11 Legal State Configurations
and Specifications</b></a> for details.) If the target of a
transition is an atomic state, the state machine will enter not
only the atomic state, but also any of its ancestor states that are
not already active. Conversely, a transition may take a compound
state as its target. In this case, one of the compound state's
children must also become active, but the transition does not
specify which one. In this case we look at the target state's <a
href="#initial"><b>3.6 &lt;initial&gt;</b></a> child which
specifies the state's default initial state, that is, the child
state to enter if the transition does not specify one. (If the
default initial state is itself compound, the state machine will
also enter its default initial state, and so on recursively until
it reaches an atomic state.) The presence of default initial states
provides a form of encapsulation, since a transition may select a
compound state as its target without understanding its internal
substate structure.</p>

<p>The default initial state of a compound state may also be
specified via the 'initial' attribute. The only difference between
the &lt;initial&gt; element and the 'initial' attribute is that the
&lt;initial&gt; element contains a &lt;transition&gt; element which
may in turn contain executable content which will be executed
before the default state is entered. If the 'initial' attribute is
specified instead, the specified state will be entered, but no
executable content will be executed. (If neither the
&lt;initial&gt; child or the 'initial' element is specified, the
default initial state is the first child state in document order.)
As an example, suppose that parent state S contains child states S1
and S2 in that order. If S specifies S1 as its default initial
state via the 'initial' attribute (or fails to specify any initial
state), then any transition that specifies S as its target will
result in the state machine entering S1 as well as S. In this case,
the result is exactly the same as if the transition had taken S1 as
its target. If, on the other hand, S specifies S1 as its default
initial state via an &lt;initial&gt; element containing a
&lt;transition&gt; with S1 as its target, the &lt;transition&gt;
can contain executable content which will execute before the
default entry into S1. In this case, there is a difference between
a transition that takes S as its target and one that takes S1 as
its target. In the former case, but not in the latter, the
executable content inside the &lt;initial&gt; transition will be
executed.</p>

<p>A compound state may also have final and history states as
children. <a href="#final"><b>3.7 &lt;final&gt;</b></a> is used to
signify that the parent state is in some sense "done" with its
processing. When a state machine enters a &lt;final&gt; substate of
a compound state, the parent state remains active, but the event
"done.state.<em>id</em>" is generated, where <em>id</em> is the
state id of the parent state. This event can trigger a transition
in any ancestor state (including the parent). If the transition
takes a target outside the parent state, the
"done.state.<em>id</em>" event in effect serves as a signal that it
is time to leave the parent state. <a href="#history"><b>3.10
&lt;history&gt;</b></a> allows for pause and resume semantics in
compound states. Before the state machine exits a compound state,
it records the state's active descendents. If the 'type' attribute
of the &lt;history&gt; state is set to "deep", the state machine
saves the state's full active descendent configuration, down to the
atomic descendant(s). If 'type' is set to "shallow", the state
machine remembers only which immediate child was active. After
that, if a transition takes a &lt;history&gt; child of the state as
its target, the state machine re-enters not only the parent
compound state but also the state(s) in the saved configuration.
Thus a transition with a deep history state as its target returns
to exactly where the state was when it was last exited, while a
transition with a shallow history state as a target re-enters the
previously active child state, but will enter the child's default
initial state (if the child is itself compound.)</p>
</div>

<div class="div4">
<h5><a id="N10176" name="N10176" />3.1.2.2 Compound States and
Transitions</h5>

<p>Compound states also affect how transitions are selected. When
looking for transitions, the state machine first looks in the most
deeply nested active state(s), i.e., in the atomic state(s) that
have no substates. If no transitions match in the atomic state, the
state machine will look in its parent state, then in the parent's
parent, etc. Thus transitions in ancestor states serve as defaults
that will be taken if no transition matches in a descendant state.
If no transition matches in any state, the event is discarded.</p>

<p>In the case of a transition located in a compound state, the
'type' attribute is significant. The behavior of a transition with
'type' of "external" (the default) is defined in terms of the
transition's source state (which is the state that contains the
transition), the transition's target state(or states), and the <a
href="#LCA">Least Common Ancestor (LCA)</a> of the source and
target states (which is the closest state that is an ancestor of
all the source and target states). When a transition is taken, the
state machine will exit all active states that are proper
descendants of the LCA, starting with the innermost one(s) and
working up to the immediate descendant(s) of the LCA. Then the
state machine enters the target state(s), plus any states that are
between it and the LCA, starting with the outermost one (i.e., the
immediate descendant of the LCA) and working down to the target
state(s). As states are exited, their &lt;onexit&gt; handlers are
executed. Then the executable content in the transition is
executed, followed by the &lt;onentry&gt; handlers of the states
that are entered. If the target state(s) of the transition is not
atomic, the state machine will enter their default initial states
recursively until it reaches an atomic state(s).</p>

<p>In the example below, assume that state s11 is active when event
'e' occurs. The source of the transition is state s1, its target is
state s21, and the LCA is state S. When the transition is taken,
first state S11 is exited, then state s1, then state s2 is entered,
then state s21. Note that the LCA S is neither entered nor exited.
For more details see <a href="#SelectingTransitions"><b>3.13
Selecting and Executing Transitions</b></a> and <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a>.</p>

<div class="exampleInner">
<pre>
&lt;state id="S" initial="s1"&gt;
   &lt;state id="s1" initial="s11"&gt;
      &lt;onexit&gt;
         &lt;log expr="'leaving s1'"/&gt;
     &lt;/onexit&gt;

     &lt;state id="s11"&gt;
        &lt;onexit&gt;
           &lt;log expr="'leaving s11'"/&gt;
        &lt;/onexit&gt;
     &lt;/state&gt;

     &lt;transition event="e" target="s21"&gt;
        &lt;log expr="'executing transition'"/&gt;
     &lt;/transition&gt;

   &lt;/state&gt;

   &lt;state id="s2" initial="s21"&gt;
      &lt;state id="s21"&gt;
         &lt;onentry&gt;
            &lt;log expr="'entering s21'"/&gt;
         &lt;/onentry&gt;
      &lt;/state&gt;
      &lt;onentry&gt;
         &lt;log expr="'entering s2'"/&gt;
      &lt;/onentry&gt;
   &lt;/state&gt;

   &lt;onentry&gt;
     &lt;log expr="'entering S'"/&gt;
   &lt;onentry&gt;
   &lt;onexit&gt;
     &lt;log expr="'leaving S'"/&gt;
   &lt;onexit&gt;
&lt;/state&gt;

==== log output will be ======&gt;

leaving s11
leaving s1
executing transition
entering s2
entering s21
</pre>
</div>

<p>The behavior of transitions with 'type' of "internal" is
identical, except in the case of a transition whose source state is
a compound state and whose target(s) is a descendant of the source.
In such a case, an internal transition will not exit and re-enter
its source state, while an external one will, as shown in the
example below.</p>

<div class="exampleInner">
<pre>
&lt;state id="S" initial="s1"&gt;
   &lt;state id="s1" initial="s11"&gt;
      &lt;onentry&gt;
        &lt;log expr="entering S1"/&gt;
        &lt;/onentry&gt;
      &lt;onexit&gt;
         &lt;log expr="'leaving s1'"/&gt;
     &lt;/onexit&gt;

     &lt;state id="s11"&gt;
       &lt;onentry&gt;
        &lt;log expr="entering s11"/&gt;
       &lt;/onentry&gt;
        &lt;onexit&gt;
           &lt;log expr="'leaving s11'"/&gt;
        &lt;/onexit&gt;
     &lt;/state&gt;

     &lt;transition event="e" target="s11" type="internal"&gt;
        &lt;log expr="'executing transition'"/&gt;
     &lt;/transition&gt;

   &lt;/state&gt;


==== log output will be ======&gt;

leaving s11
executing transition
entering s11

=== if transition were external, log output would be ====&gt;

leaving s11
leaving s1
executing transition
entering s1
entering s11

</pre>
</div>

<p>If the 'target' on a &lt;transition&gt; is omitted, then the
value of 'type' does not have any effect and taking the transition
does not change the state configuration but does invoke the
executable content that is included in the transition. Note that
this is different from a &lt;transition&gt; whose 'target' is its
source state. In the latter case, the state is exited and
reentered, triggering execution of its &lt;onentry&gt; and
&lt;onexit&gt; executable content.</p>
</div>
</div>

<div class="div3">
<h4><a id="N10193" name="N10193" />3.1.3 Parallel States</h4>

<p>The &lt;parallel&gt; element represents a state whose children
execute in parallel. Like &lt;state&gt;, the &lt;parallel&gt;
element contains &lt;onentry&gt;, &lt;onexit&gt;,
&lt;transition&gt;, and &lt;state&gt; or &lt;parallel&gt; children.
However, the semantics of &lt;parallel&gt; are different. When a
&lt;state&gt; is active, exactly one of its children is active.
When a &lt;parallel&gt; element is active, <em>all</em> of its
children are active. Specifically, when the state machine enters
the parent &lt;parallel&gt; state, it also enters each child state.
The child states execute in parallel in the sense that any event
that is processed is processed in each child state independently,
and each child state may take a different transition in response to
the event. (Similarly, one child state may take a transition in
reponse to an event, while another child ignores it.) When all of
the children reach final states, the &lt;parallel&gt; element
itself is considered to be in a final state, and a completion event
done.state.<em>id</em> is generated, where <em>id</em> is the id of
the &lt;parallel&gt; element.</p>

<p>Transitions <em>within</em> the individual child elements
operate normally. However whenever a transition is taken with a
target <em>outside</em> the &lt;parallel&gt; element, the
&lt;parallel&gt; element and all of its child elements are exited
and the corresponding &lt;onexit&gt; handlers are executed. The
handlers for the child elements execute first, in document order,
followed by those of the parent &lt;parallel&gt; element, followed
by an action expression in the &lt;transition&gt; element, and then
the &lt;onentry&gt; handlers in the "target" state.</p>

<p>In the following example, parallel state 'p' has two children S1
and S2. Suppose a transition takes S1's child S12 as a target.
(Note that this is permitted even though S12 is not the default
initial state for S1 and that S11 is not, in fact, visited in the
course of this example). Upon this transition, the state machine,
in addition to enterering S1 and S12, will also enter S1's parallel
sibling S2 and its initial state S21. Once the transition has been
taken, p, S1, S2, S12, and S21 will all be active. If event 'e1'
occurs, it will cause S12 to transition to S1Final, and S21 to
transition to S22. Entering S1Final will cause the event
done.state.S1 to be generated. At this point, S1 is in a final
state, but S2 is still active. Now suppose event 'e2' occurs. This
will cause S22 to transition to S2Final, and the event
done.state.S2 will be generated. Furthermore, since all of p's
children are now in final states, the event 'done.state.p' will be
generated, which will cause the transition contained in p to be
triggered, exiting the entire region.</p>

<div class="exampleInner">
<pre>
&lt;parallel id="p"&gt;

    &lt;transition event="done.state.p" target="someOtherState"/&gt;

    &lt;state id="S1" initial="S11"&gt;
        &lt;state id="S11"&gt;
            &lt;transition event="e4" target="S12"/&gt;
        &lt;/state&gt;
        &lt;state id="S12"&gt;
            &lt;transition event="e1" target="S1Final"/&gt;
        &lt;/state&gt;
        &lt;final id="S1Final"/&gt;
    &lt;/state&gt;

    &lt;state id="S2" initial="S21"&gt;
        &lt;state id=S21"&gt;
            &lt;transition event="e1" target="S22"/&gt;
        &lt;/state&gt;
        &lt;state id="S22"&gt;
            &lt;transition event="e2" target="S2Final/&gt;
        &lt;/state&gt;
        &lt;final id="S2Final"/&gt;
    &lt;/state&gt;

&lt;/parallel&gt;
</pre>
</div>

<p>Note that the semantics of the &lt;parallel&gt; does not call
for multiple threads or truly concurrent processing. The children
of &lt;parallel&gt; execute in parallel in the sense that they are
all simultaneously active and each one independently selects
transitions for any event that is received. However, the parallel
children process the event in a defined, serial order, so no
conflicts or race conditions can occur. See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for a detailed description of the semantics
&lt;parallel&gt; and the rest of SCXML.</p>
</div>
</div>

<div class="div2">
<h3><a id="scxml" name="scxml" />3.2 &lt;scxml&gt;</h3>

<p>The top-level wrapper element, which carries version
information. The actual state machine consists of its children.</p>

<div class="div3">
<h4><a id="scxml-attr" name="scxml-attr" />3.2.1 Attribute
Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>initial</td>
<td>false</td>
<td>none</td>
<td>IDREFS</td>
<td>none</td>
<td>A legal state specification. See <a
href="#LegalStateConfigurations"><b>3.11 Legal State Configurations
and Specifications</b></a> for details.</td>
<td>The id of the initial state(s) for the document. If not
specified, the default initial state is the first child state in
document order.</td>
</tr>

<tr>
<td>name</td>
<td>false</td>
<td>none</td>
<td>NMTOKEN</td>
<td>none</td>
<td>Any valid NMTOKEN</td>
<td>The name of this state machine. It is for purely informational
purposes.</td>
</tr>

<tr>
<td>xmlns</td>
<td>true</td>
<td>none</td>
<td>URI</td>
<td>none</td>
<td>The value must be "http://www.w3.org/2005/07/scxml".</td>
<td></td>
</tr>

<tr>
<td>version</td>
<td>true</td>
<td>none</td>
<td>decimal</td>
<td>none</td>
<td>The only legal value is "1.0"</td>
<td></td>
</tr>

<tr>
<td>datamodel</td>
<td>false</td>
<td>none</td>
<td>NMTOKEN</td>
<td>"none"</td>
<td>"none", "ecmascript", "xpath" or other platform-defined
values.</td>
<td>The datamodel that this document requires. "none" denotes the
Empty datamodel, "ecmascript" the ECMAScript datamodel, and "xpath"
the XPath datamodel, as defined in <a href="#profiles"><b>D Data
Models</b></a>.</td>
</tr>

<tr>
<td>binding</td>
<td>false</td>
<td />
<td>enum</td>
<td>"early"</td>
<td>"early", "late"</td>
<td>The data binding to use. See <a href="#DataBinding"><b>5.3.3
Data Binding and Scoping</b></a> for details.</td>
</tr>

<tr>
<td>exmode</td>
<td>false</td>
<td />
<td>enum</td>
<td>"lax"</td>
<td>"lax", "strict"</td>
<td>Determines whether the processor should silently ignore markup
that it does not support.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10242" name="N10242" />3.2.2 Children</h4>

<ul>
<li>&lt;state&gt; A compound or atomic state. Occurs zero or more
times. See <a href="#state"><b>3.3 &lt;state&gt;</b></a> for
details.</li>

<li>&lt;parallel&gt; A parallel state. Occurs zero or more times.
See <a href="#parallel"><b>3.4 &lt;parallel&gt;</b></a> for
details.</li>

<li>&lt;final&gt; A top-level final state in the state machine.
Occurs zero or more times. The SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> terminate
processing when the state machine reaches this state. See <a
href="#final"><b>3.7 &lt;final&gt;</b></a> for details.</li>

<li>&lt;datamodel&gt; Defines part or all of the datamodel. Occurs
0 or 1 times. See <a href="#datamodel"><b>5.2
&lt;datamodel&gt;</b></a></li>

<li>&lt;script&gt; Provides scripting capability. Occurs 0 or 1
times. <a href="#script"><b>5.9 &lt;script&gt;</b></a></li>
</ul>
</div>

<p>If 'exmode' is "lax", the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> silently
ignore any markup that it does not support, including markup in
non-scxml namespaces. (Examples of unsupported elements include
elements that are not part of the specified data model or
executable content that some other platform has defined as an
extension.) If 'exmode' is "strict", the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> treat
such markup as syntactically invalid and reject the document at
initialization time.</p>
</div>

<div class="div2">
<h3><a id="state" name="state" />3.3 &lt;state&gt;</h3>

<p>Holds the representation of a state.</p>

<div class="div3">
<h4><a id="N10273" name="N10273" />3.3.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>id</td>
<td>false</td>
<td>none</td>
<td>ID</td>
<td>none</td>
<td>A valid id as defined in <a href="#Schema">[XML
Schema]</a></td>
<td>The identifier for this state. See <a href="#IDs"><b>3.14
IDs</b></a> for details.</td>
</tr>

<tr>
<td>initial</td>
<td>false</td>
<td>May not be specified in conjunction with the &lt;initial&gt;
element. May only occur in states that have child &lt;state&gt; or
&lt;parallel&gt; elements.</td>
<td>IDREFS</td>
<td>none</td>
<td>A legal state specification. See <a
href="#LegalStateConfigurations"><b>3.11 Legal State Configurations
and Specifications</b></a> for details.</td>
<td>The id of the default initial state (or states) for this
state.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N102B0" name="N102B0" />3.3.2 Children</h4>

<ul>
<li>&lt;onentry&gt; Optional element holding executable content to
be run upon entering this &lt;state&gt;. Occurs 0 or more times.
See <a href="#onentry"><b>3.8 &lt;onentry&gt;</b></a></li>

<li>&lt;onexit&gt; Optional element holding executable content to
be run when exiting this &lt;state&gt;. Occurs 0 or more times. See
<a href="#onexit"><b>3.9 &lt;onexit&gt;</b></a></li>

<li>&lt;transition&gt; Defines an outgoing transition from this
state. Occurs 0 or more times. See <a href="#transition"><b>3.5
&lt;transition&gt;</b></a></li>

<li>&lt;initial&gt; In states that have substates, an optional
child which identifies the default initial state. Any transition
which takes the parent state as its target will result in the
statemachine also taking the transition contained inside the
&lt;initial&gt; element. See <a href="#initial"><b>3.6
&lt;initial&gt;</b></a></li>

<li>&lt;state&gt; Defines a sequential substate of the parent
state. Occurs 0 or more times.</li>

<li>&lt;parallel&gt; Defines a parallel substate. Occurs 0 or more
times. See <a href="#parallel"><b>3.4 &lt;parallel&gt;</b></a></li>

<li>&lt;final&gt;. Defines a final substate. Occurs 0 or more
times. See <a href="#final"><b>3.7 &lt;final&gt;</b></a>.</li>

<li>&lt;history&gt; A child pseudo-state which records the
descendant state(s) that the parent state was in the last time the
system transitioned <em>from</em> the parent. May occur 0 or more
times. See <a href="#history"><b>3.10 &lt;history&gt;</b></a>.</li>

<li>&lt;datamodel&gt; Defines part or all of the datamodel. Occurs
0 or 1 times. See <a href="#datamodel"><b>5.2
&lt;datamodel&gt;</b></a></li>

<li>&lt;invoke&gt; Invokes an external service. Occurs 0 or more
times. See <a href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> for
details.</li>
</ul>
</div>

<p>[<a title="" id="atomic-state"
name="atomic-state">Definition</a>: An <b>atomic state</b> is one
that has no &lt;state&gt; or &lt;parallel&gt; children.]</p>

<p>[<a title="" id="compound-state"
name="compound-state">Definition</a>: A <b>compound state</b> is
one that has &lt;state&gt;, &lt;parallel&gt;, or &lt;final&gt;
children (or a combination of these).]</p>

<p>In a conformant SCXML document, a compound state <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> specify
either an "initial" attribute or an &lt;initial&gt; element, but
not both. See <a href="#initial"><b>3.6 &lt;initial&gt;</b></a> for
a discussion of the difference between the two notations. If
neither the "initial" attribute nor an &lt;initial&gt; element is
specified, the default initial state is the first child state in
document order.</p>
</div>

<div class="div2">
<h3><a id="parallel" name="parallel" />3.4 &lt;parallel&gt;</h3>

<p>The &lt;parallel&gt; element encapsulates a set of child states
which are simultaneously active when the parent element is
active.</p>

<div class="div3">
<h4><a id="N1030B" name="N1030B" />3.4.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>id</td>
<td>false</td>
<td />
<td>ID</td>
<td>none</td>
<td>A valid id as defined in <a href="#Schema">[XML Schema]</a>
</td>
<td>The identifier for this state. See <a href="#IDs"><b>3.14
IDs</b></a> for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10337" name="N10337" />3.4.2 Children</h4>

<ul>
<li>&lt;onentry&gt; Holds executable content to be run upon
entering the &lt;parallel&gt; element. Occurs 0 or more times. See
<a href="#onentry"><b>3.8 &lt;onentry&gt;</b></a></li>

<li>&lt;onexit&gt; Holds executable content to be run when exiting
this element. Occurs 0 or more times. See <a href="#onexit"><b>3.9
&lt;onexit&gt;</b></a></li>

<li>&lt;transition&gt; Defines an outgoing transition from this
state. Occurs 0 or more times. See <a href="#transition"><b>3.5
&lt;transition&gt;</b></a></li>

<li>&lt;state&gt; Defines a parallel substate region. Occurs 0 or
more times. See <a href="#state"><b>3.3 &lt;state&gt;</b></a>.</li>

<li>&lt;parallel&gt; Defines a nested set of parallel regions.
Occurs 0 or more times.</li>

<li>&lt;history&gt; A child which represents the state
configuration that this state was in the last time the system
transitioned <em>from</em> it. A transition with this history
pseudo-state as its target is in fact a transition to the set of
descendant states that were active the last time this state was
exited. Occurs 0 or more times. See <a href="#history"><b>3.10
&lt;history&gt;</b></a>.</li>

<li>&lt;datamodel&gt; Defines part or all of the datamodel. Occurs
0 or 1 times. See <a href="#datamodel"><b>5.2
&lt;datamodel&gt;</b></a></li>

<li>&lt;invoke&gt; Invokes an external service. Occurs 0 or more
times. See <a href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> for
details.</li>
</ul>

<p>A conformant SCXML document <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
contain any transitions between parallel siblings. Specifically, if
states Si and Sj are children of a &lt;parallel&gt; element, no
transition may have Si (or a descendant of Si) as its source and Sj
(or a descendent of Sj) as its target.</p>
</div>
</div>

<div class="div2">
<h3><a id="transition" name="transition" />3.5
&lt;transition&gt;</h3>

<p>Transitions between states are triggered by events and
conditionalized via guard conditions. They may contain executable
content, which is executed when the transition is taken.</p>

<div class="div3">
<h4><a id="N10373" name="N10373" />3.5.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>event</td>
<td>false</td>
<td>At least one of 'event', 'cond' or 'target' must be
specified.</td>
<td>EventsTypes.datatype.</td>
<td>none</td>
<td>A space-separated list of event descriptors. See <a
href="#EventDescriptors"><b>3.12.1 Event Descriptors</b></a> for
details.</td>
<td>A list of designators of events that trigger this transition.
The transition will be taken only when an event is generated that
matches a descriptor on this list (see <a
href="#EventDescriptors"><b>3.12.1 Event Descriptors</b></a> for
details.) Also see <a href="#SelectingTransitions"><b>3.13
Selecting and Executing Transitions</b></a> and <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details on how transitions are selected.
See <a href="#schemas"><b>B Schema</b></a> for the definition of
the datatype.</td>
</tr>

<tr>
<td>cond</td>
<td>false</td>
<td>At least one of 'event', 'cond' or 'target' must be
specified.</td>
<td>Boolean expression</td>
<td>'true'</td>
<td>Any boolean expression.</td>
<td>The guard condition for this transition. The transition is
selected only if the condition evaluates to <code>true</code>. See
<a href="#ConditionalExpressions"><b>5.10.1 Conditional
Expressions</b></a> for details.</td>
</tr>

<tr>
<td>target</td>
<td>false</td>
<td>At least one of 'event', 'cond' or 'target' must be
specified.</td>
<td>IDREFS</td>
<td>none</td>
<td>A legal state specification. See <a
href="#LegalStateConfigurations"><b>3.11 Legal State Configurations
and Specifications</b></a> for details.</td>
<td>The identifier(s) of the state or parallel region to transition
to. See <a href="#SelectingTransitions"><b>3.13 Selecting and
Executing Transitions</b></a> and <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.</td>
</tr>

<tr>
<td>type</td>
<td>false</td>
<td>None</td>
<td>enum</td>
<td>"external"</td>
<td>"internal" "external"</td>
<td>Determines whether the source state is exited in transitions
whose target state is a descendant of the source state. See <a
href="#SelectingTransitions"><b>3.13 Selecting and Executing
Transitions</b></a> for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N103E7" name="N103E7" />3.5.2 Children</h4>

<ul>
<li>The children of &lt;transition&gt; are executable content that
is run after all the &lt;onexit&gt; handlers and before the all
&lt;onentry&gt; handlers that are triggered by this transition. See
<a href="#executable"><b>4 Executable Content</b></a></li>
</ul>
</div>

<p><a href="#SelectingTransitions"><b>3.13 Selecting and Executing
Transitions</b></a> contains more detail on the semantics of
transitions.</p>
</div>

<div class="div2">
<h3><a id="initial" name="initial" />3.6 &lt;initial&gt;</h3>

<p>This element represents the default initial state for a complex
&lt;state&gt; element (i.e. one one containing child &lt;state&gt;
or &lt;parallel&gt; elements.</p>

<div class="div3">
<h4><a id="N103FB" name="N103FB" />3.6.1 Attribute Details</h4>

<p>None</p>
</div>

<div class="div3">
<h4><a id="N10400" name="N10400" />3.6.2 Children</h4>

<ul>
<li>&lt;transition&gt; A transition whose 'target' specifies the
default initial state(s). In a conformant SCXML document, this
transition <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> contain 'cond' or 'event' attributes,
and <em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
specify a non-null 'target' whose value is a valid state
specification (see <a href="#LegalStateConfigurations"><b>3.11
Legal State Configurations and Specifications</b></a> for details).
This transition <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> contain executable content.</li>
</ul>
</div>
</div>

<div class="div2">
<h3><a id="final" name="final" />3.7 &lt;final&gt;</h3>

<p>&lt;final&gt; represents a final state of an &lt;scxml&gt; or
compound &lt;state&gt; element.</p>

<div class="div3">
<h4><a id="N10419" name="N10419" />3.7.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>id</td>
<td>false</td>
<td />
<td>ID</td>
<td>none</td>
<td>A valid id as defined in <a href="#Schema">[XML
Schema]</a></td>
<td>The identifier for this state. See <a href="#IDs"><b>3.14
IDs</b></a> for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10444" name="N10444" />3.7.2 Children</h4>

<ul>
<li>&lt;onentry&gt; Optional element holding executable content to
be run upon entering this state. Occurs 0 or 1 times. See <a
href="#onentry"><b>3.8 &lt;onentry&gt;</b></a> for details.</li>

<li>&lt;onexit&gt; Optional element holding executable content to
be run when exiting this state. Occurs 0 or 1 times. See <a
href="#onexit"><b>3.9 &lt;onexit&gt;</b></a> for details.</li>

<li>&lt;donedata&gt; Optional element specifying data to be
included in the done.state.<em>id</em> or done.invoke.<em>id</em>
event. See <a href="#donedata"><b>5.6 &lt;donedata&gt;</b></a> for
details.</li>
</ul>
</div>

<p>When the state machine enters the &lt;final&gt; child of a
&lt;state&gt; element, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> after
generate the event done.state.<em>id</em> after completion of the
&lt;onentry&gt; elements, where <em>id</em> is the id of the parent
state. When the state machine reaches the &lt;final&gt; child of an
&lt;scxml&gt; element, it <em title=" MUST in RFC2119 context"
class="RFC2119">MUST</em> terminate. See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details. If the SCXML session was
triggered as the result by an &lt;invoke&gt; element in another
session, the SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> generate the event
done.invoke.<em>id</em> after termination and return it to the
other session, where <em>id</em> is the unique identifier generated
when the &lt;invoke&gt; element was executed. See <a
href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> for details.</p>
</div>

<div class="div2">
<h3><a id="onentry" name="onentry" />3.8 &lt;onentry&gt;</h3>

<p>A wrapper element containing executable content to be executed
when the state is entered.</p>

<div class="div3">
<h4><a id="N10483" name="N10483" />3.8.1 Attribute Details</h4>

<p>None.</p>
</div>

<div class="div3">
<h4><a id="N10488" name="N10488" />3.8.2 Children</h4>

<p>The children of the &lt;onentry&gt; handler consist of
executable content as defined in <a href="#executable"><b>4
Executable Content</b></a>.</p>
</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> execute the &lt;onentry&gt; handlers of a
state in document order when the state is entered. In doing so, it
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> treat
each handler as a separate block of executable content. See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.</p>
</div>

<div class="div2">
<h3><a id="onexit" name="onexit" />3.9 &lt;onexit&gt;</h3>

<p>A wrapper element containing executable content to be executed
when the state is exited.</p>

<div class="div3">
<h4><a id="N104A1" name="N104A1" />3.9.1 Attribute Details</h4>

<p>None.</p>
</div>

<div class="div3">
<h4><a id="N104A6" name="N104A6" />3.9.2 Children</h4>

<p>The children of the &lt;onexit&gt; handler consist of executable
content as defined in <a href="#executable"><b>4 Executable
Content</b></a>.</p>
</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> execute the &lt;onexit&gt; handlers of a
state in document order when the state is exited. In doing so, it
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> treat
each handler as a separate block of executable content. See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.</p>
</div>

<div class="div2">
<h3><a id="history" name="history" />3.10 &lt;history&gt;</h3>

<p>The &lt;history&gt; pseudo-state allows allows a state machine
to remember its state configuration. A &lt;transition&gt; taking
the &lt;history&gt; state as its target will return the state
machine to this recorded configuration.</p>

<div class="div3">
<h4><a id="N104BF" name="N104BF" />3.10.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>id</td>
<td>false</td>
<td />
<td>ID</td>
<td>none</td>
<td>A valid id as defined in <a href="#Schema">[XML
Schema]</a></td>
<td>Identifier for this pseudo-state. See <a href="#IDs"><b>3.14
IDs</b></a> for details.</td>
</tr>

<tr>
<td>type</td>
<td>false</td>
<td />
<td>enum</td>
<td>"shallow"</td>
<td>"deep" or "shallow"</td>
<td>Determines whether the active atomic substate(s) of the current
state or only its immediate active substate(s) are recorded.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N104F8" name="N104F8" />3.10.2 Children</h4>

<ul>
<li>&lt;transition&gt; A transition whose 'target' specifies the
default history configuration. In a conformant SCXML document, this
transition <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> contain 'cond' or 'event' attributes,
and <em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
specify a non-null 'target' whose value is a valid state
specification (see <a href="#LegalStateConfigurations"><b>3.11
Legal State Configurations and Specifications</b></a>). This
transition <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> contain executable content. If 'type' is
"shallow", then the 'target' of this &lt;transition&gt; <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> contain
only immediate children of the parent state. Otherwise it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> contain
only atomic descendants of the parent. Occurs once. (Note that
under the definition of a legal state specification, if the parent
of the history element is &lt;state&gt; and the default state
specification contains a multiple states, then, in a conformant
SCXML document, the 'type' of the history element <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> be "deep"
and the states <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> be atomic descendents of a
&lt;parallel&gt; element that is itself a descendent of the parent
&lt;state&gt; element.)</li>
</ul>
</div>

<p>If the 'type' of a &lt;history&gt; element is "shallow", the
SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> record the immediately active children of
its parent before taking any transition that exits the parent. If
the 'type' of a &lt;history&gt; element is "deep", the SCXML
processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> record the active atomic descendents of
the parent before taking any transition that exits the parent.
Before the parent state has been visited for the first time, the
SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> treat the default history configuration,
which is specified by the 'target' of the &lt;history&gt; element's
&lt;transition&gt; child, as if it were the stored configuration.
If a transition is executed that takes the &lt;history&gt; state as
its target, the SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> behave as if the transition had taken the
stored state configuration as its target. (Note that in a
conformant SCXML document, a &lt;state&gt; or &lt;parallel&gt;
element <em title="MAY in RFC2119 context" class="RFC2119">MAY</em>
have both "deep" and "shallow" &lt;history&gt; children.)</p>
</div>

<div class="div2">
<h3><a id="LegalStateConfigurations"
name="LegalStateConfigurations" />3.11 Legal State Configurations
and Specifications</h3>

<p>[<a title="" id="state-active"
name="state-active">Definition</a>: A &lt;state&gt; or
&lt;parallel&gt; element is <b>active</b> if it has been entered by
a transition and has not subsequently been exited.]</p>

<p>[<a title="" id="state-configuration"
name="state-configuration">Definition</a>: The <b>state
configuration</b> of a state machine is the set of currently active
states. ]</p>

<p>An SCXML document places the state machine in an initial state
configuration at initialization time (via the 'initial' attribute
of the &lt;scxml&gt; element). Each transition that the state
machine takes thereafter places the state machine in another state
configuration (which need not be distinct from the former one.) A
conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the state machine only in legal
state configurations, where a legal state configuration is one that
meets the following conditions:</p>

<ul>
<li>The configuration contains exactly one child of the
&lt;scxml&gt; element.</li>

<li>The configuration contains one or more atomic states.</li>

<li>When the configuration contains an atomic state, it contains
all of its &lt;state&gt; and &lt;parallel&gt; ancestors.</li>

<li>When the configuration contains a non-atomic &lt;state&gt;, it
contains one and only one of the state's children.</li>

<li>If the configuration contains a &lt;parallel&gt; state, it
contains all of its children.</li>
</ul>

<p>It follows from this definition that if a state machine is in
more than one atomic state, the atomic states can be traced back
through a chain of &lt;state&gt; or &gt;parallel&gt; ancestors to a
single &lt;parallel&gt; ancestor.</p>

<p>The 'target' attribute of a &lt;transition&gt; (or the 'initial'
attribute of a &lt;state&gt; or &lt;scxml&gt; element) do not in
the general case specify a full legal state configuration since 1)
they can contain &lt;parallel&gt; or non-atomic &lt;state&gt;
elements 2) they do not contain the ancestors of the states in the
list. We therefore define a legal state specification to be a set
of states such that 1) no state is an ancestor of any other state
on the list, and 2) a full legal state configuration results when
all ancestors and default initial descendants have been added.
(Note that the process of adding default initial descendants is
recursive, since the 'initial' value may itself be non-atomic.) In
a conformant SCXML document, the value of an 'initial' attribute or
the 'target' of a &lt;transition&gt; <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> either be
empty or contain a legal state specification.</p>

<p>In a conformant SCXML document, there is an additional
requirement on the value of the 'initial' attribute of a
&lt;state&gt; and on the 'target' of a &lt;transition&gt; inside an
&lt;initial&gt; element: all the states <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> be
descendants of the containing &lt;state&gt; element.</p>
</div>

<div class="div2">
<h3><a id="events" name="events" />3.12 SCXML Events</h3>

<p>Events are one of the basic concepts in SCXML since they drive
most transitions. The internal structure of events is
platform-specific as long as the following external interface is
observed:</p>

<ul>
<li>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> make the data contained in an event
accessible via the 'event' variable, as specified in <a
href="#SystemVariables"><b>5.11 System Variables</b></a>.</li>

<li>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> make the event's name accessible via the
'event' variable, as specified in <a
href="#SystemVariables"><b>5.11 System Variables</b></a>. The SCXML
processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> use this same name value to match against
the 'event' attribute of transitions.</li>
</ul>

<p>For the most part, the set of events raised during the execution
of an SCXML document is application-specific and generated under
author control by use of the &lt;raise&gt; and &lt;send&gt;
elements. However, certain events are mandatory and generated
automatically by the interpreter. These are described in <a
href="#events"><b>3.12 SCXML Events</b></a>. Platforms <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> extend the
names of these automatically generated events by adding a suffix.
For example, a platform could extend done.state.<em>id</em> with a
timestamp suffix and generate done.state.<em>id.timestamp</em>
instead. Because any prefix of done.state.<em>id</em> is also a
prefix of done.state.<em>id.timestamp</em>, any transition that
matches the former event will also match the latter.</p>

<div class="div3">
<h4><a id="EventDescriptors" name="EventDescriptors" />3.12.1 Event
Descriptors</h4>

<p>Like an event name, an event descriptor is a series of
alphanumeric characters segemented into tokens by the "."
character. The 'event' attribute of a transition consists of one or
more such event descriptors separated by spaces.</p>

<p>[<a title="" id="transition-match"
name="transition-match">Definition</a>: A transition <b>matches</b>
an event if at least one of its event descriptors matches the
event's name. ]</p>

<p>[<a title="" id="event-match" name="event-match">Definition</a>:
An event descriptor <b>matches</b> an event name if its string of
tokens is an exact match or a prefix of the set of tokens in the
event's name. In all cases, the token matching is case sensitive.
]</p>

<p>For example, a transition with an 'event' attribute of "error
foo" will match event names "error", "error.send",
"error.send.failed", etc. (or "foo", "foo.bar" etc.) but would not
match events named "errors.my.custom",
"errorhandler.mistake","errOr.send" or "foobar".</p>

<p>For compatibility with CCXML, and to make the prefix matching
possibly more clear to a reader of the SCXML document, an event
descriptor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> also end with the wildcard '.*', which
matches zero or more tokens at the end of the processed event's
name. Note that a transition with 'event' of "error", one with
"error.", and one with "error.*" are functionally equivalent since
they are token prefixes of exactly the same set of event names.</p>

<p>An event designator consisting solely of "*" can be used as a
wildcard matching any sequence of tokens, and thus any event. Note
that this is different from a transition lacking the 'event'
attribute altogether. Such an eventless transition does not match
any event, but will be taken whenever its 'cond' attribute
evaluates to 'true'. As shown in <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a>, the SCXML interpreter will check for such
eventless transitions when it first enters a state, before it looks
for transitions driven by internal or external events.</p>
</div>

<div class="div3">
<h4><a id="ErrorEvents" name="ErrorEvents" />3.12.2 Errors</h4>

<p>Once the SCXML processor has begun executing a well-formed SCXML
document, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> signal any errors that occur by raising
SCXML events whose names begin with 'error.'. the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place
these events in the internal event queue and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> process
them like any other event. (Note in particular, they are not
processed immediately if there are other events in the queue and
they are ignored if no transition is found that matches them.) Two
error events are defined in this specification:
'error.communication' and 'error.execution'. The former cover
errors occurring while trying to communicate with external
entities, such as those arising from &lt;send&gt; and
&lt;invoke&gt;, while the latter category consists of errors
internal to the execution of the document, such as those arising
from expression evaluation.</p>

<p>The set of error events may be extended in future versions of
this specification. However, the set of names beginning with
'error.platform' is reserved for platform- and application-specific
errors. Therefore applications and platforms <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> extend the
set of errors defined in this specification in two ways. First by
adding a suffix to an error name defined in this specification, and
second by using 'error.platform' with or without a suffix. In
addition, platforms <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> include additional information about the
nature of the error in the 'data' field of the event. See <a
href="#SystemVariables"><b>5.11 System Variables</b></a> for
details.</p>

<p>Note however that authors can arrange for otherwise unhandled
errors to cause the interpreter to exit by creating a transition
with "event" attribute of 'error' and a target of any top-level
final state (i.e. one that is a child of &lt;scxml&gt;). If such a
transition T is placed in a state S, it will cause the state
machine to terminate on any error that is raised in S or one of its
substates and is not handled by another transition that is placed
in a substate of S or in S and preceding T in document order.</p>
</div>

<div class="div3">
<h4><a id="errorsAndEvents" name="errorsAndEvents" />3.12.3 List of
Errors and Events</h4>

<p>The following events are generated automatically by the SCXML
implementation under conditions defined elsewhere in this
document.</p>

<table border="1" cellpadding="2" cellspacing="2"
summary="errors and events" width="100%">
<tbody>
<tr>
<th align="center">Name</th>
<th align="center">Description</th>
<th align="center">Defined in</th>
<th align="center">See also</th>
</tr>

<tr>
<td align="center">done.state.<em>id</em></td>
<td>Indicates that the state machine has entered a final substate
of state <em>id</em>.</td>
<td><a href="#final"><b>3.7 &lt;final&gt;</b></a></td>
<td><a href="#CoreIntroduction"><b>3.1 Introduction</b></a></td>
</tr>

<tr>
<td align="center">done.invoke.<em>id</em></td>
<td>Indicates that the invoked process with invokeid <em>id</em>
has completed processing.</td>
<td><a href="#invoke"><b>6.4 &lt;invoke&gt;</b></a></td>
<td><a href="#final"><b>3.7 &lt;final&gt;</b></a>, exitInterpreter
procedure in <a href="#AlgorithmforSCXMLInterpretation"><b>A
Algorithm for SCXML Interpretation</b></a> </td>
</tr>

<tr>
<td align="center">cancel.invoke.<em>id</em></td>
<td>Sent from an invoking session to an invoked session to
terminate its processing.</td>
<td><a href="#invokeimplementation"><b>6.4.3 Implementation of
&lt;invoke&gt;</b></a> </td>
<td><a href="#SCXMLEventProcessor"><b>E.1 SCXML Event I/O
Processor</b></a></td>
</tr>

<tr>
<td align="center">error.communication</td>
<td>Indicates that an error has occurred while trying to
communicate with an external entity.</td>
<td><a href="#ErrorEvents"><b>3.12.2 Errors</b></a></td>
<td><a href="#send"><b>6.2 &lt;send&gt;</b></a>, <a
href="#SCXMLEventProcessor"><b>E.1 SCXML Event I/O
Processor</b></a>, <a href="#BasicHTTPEventProcessor"><b>E.2 Basic
HTTP Event I/O Processor</b></a>, <a
href="#DOMEventProcessor"><b>E.3 DOM Event I/O
Processor</b></a></td>
</tr>

<tr>
<td align="center">error.execution</td>
<td>Indicates that an error internal to the execution of the
document has occurred, such as one arising from expression
evaluation.</td>
<td><a href="#ErrorEvents"><b>3.12.2 Errors</b></a></td>
<td><a href="#foreach"><b>4.6 &lt;foreach&gt;</b></a>, <a
href="#assign"><b>5.4 &lt;assign&gt;</b></a>, <a
href="#param"><b>5.8 &lt;param&gt;</b></a>, <a
href="#ConditionalExpressions"><b>5.10.1 Conditional
Expressions</b></a>, <a href="#LocationExpressions"><b>5.10.2
Location Expressions</b></a>, <a href="#ValueExpressions"><b>5.10.3
Legal Data Values and Value Expressions</b></a>, <a
href="#ErrorsinExpressions"><b>5.10.4 Errors in
Expressions</b></a>, <a href="#SystemVariables"><b>5.11 System
Variables</b></a>, <a href="#send"><b>6.2 &lt;send&gt;</b></a>, <a
href="#ecma_location_expressions"><b>D.2.3 Location
Expressions</b></a>, <a href="#ecma_assign"><b>D.2.5
&lt;assign&gt;</b></a>, <a href="#xpath_assign"><b>D.3.5
&lt;assign&gt;</b></a> </td>
</tr>

<tr>
<td align="center">error.platform</td>
<td>Indicates that a platform- or application-specific error has
occurred.</td>
<td><a href="#ErrorEvents"><b>3.12.2 Errors</b></a></td>
<td /></tr>
</tbody>
</table>
</div>
</div>

<div class="div2">
<h3><a id="SelectingTransitions" name="SelectingTransitions" />3.13
Selecting and Executing Transitions</h3>

<p>To simplify the following definitions, we introduce the event
NULL. NULL has no name and is used only in these definitions. It
nevers occurs in the event queues of an SCXML Processor. All other
events have names and are distinct from NULL. (In effect, NULL is a
pseudo-event that is used in these definitions as a trigger for
eventless transitions.)</p>

<p>[<a title="" id="transition-enabled"
name="transition-enabled">Definition</a>: A transition T is
<b>enabled</b> by named event E in atomic state S if a) T's source
state is S or an ancestor of S, b) T matches E's name (see <a
href="#EventDescriptors"><b>3.12.1 Event Descriptors</b></a>) c) T
lacks a 'cond' attribute or its 'cond' attribute evaluates to
"true". A transition is <b>enabled</b> by NULL in atomic state S if
a) T lacks an 'event' attribute b) T's source state is S or an
ancestor of S c) T lacks an 'cond' attribute or its 'cond'
attribute evaluates to "true". (Note that such a transition can
never be enabled by any named event.)]</p>

<p>[<a title="" id="optimally-enabled"
name="optimally-enabled">Definition</a>: A transition T is
<b>optimally enabled</b> by event E in atomic state S if a) T is
enabled by E in S and b) no transition that precedes T in document
order in T's source state is enabled by E in S and c) no transition
is enabled by E in S in any descendent of T's source state.]</p>

<p>[<a title="" id="optimal-transition-set"
name="optimal-transition-set">Definition</a>: The <b>optimal
transition set</b> enabled by event E in state configuration C is
the largest set of transitions such that each transition in the set
is optimally enabled by E in an atomic state in C and no transition
has a source state that is exited by another transition in the set
that proceeds it in document order. ]</p>

<p>[<a title="" id="source-state"
name="source-state">Definition</a>: The <b>source state</b> of a
transition is the &lt;state&gt; or &lt;parallel&gt; element that it
occurs in. The <b>target state(s)</b> of the transition is the
state or set of states specified by its 'target' attribute. The
<b>complete target set</b> of a transition consists of all the
states that will be active after the transition is taken. It
contains the target states of the transition plus all their
ancestors, expanded by the recursive application of the following
two operations: 1) if any &lt;parallel&gt; element is a member of
the set, any of its children that are not members of the set must
be added 2) if any compound &lt;state&gt; is in the set and none of
its children is in the set, its default initial state is added to
the set. Any state whose child(ren) are added to the complete
target set by clause 2 is called a <b>default entry state</b>.
]</p>

<p>[<a title="" id="exit-set" name="exit-set">Definition</a>: The
<b>exit set</b> of a transition is the set of states that are
exited when the transition is taken. If the transition does not
contain a 'target', its exit set is empty. Otherwise (i.e., if the
transition contains a 'target'), if it 'type' of "external", its
exit set consists of all active states that are proper descendents
of the <a href="#LCA">Least Common Ancestor (LCA)</a> of the source
and target states. Otherwise, if the transition has 'type'
"internal" and all its target states are proper descendents of its
source state, the target set consists of all active states that are
proper descendents of its source state. (If a transition has 'type'
of "internal", but its target states are not all proper descendents
of its source state, its exit set is defined as if it had 'type' of
"external". The exit set of a set of transitions is the union of
the exit sets of the individual transitions. ]</p>

<p>[<a title="" id="entry-set" name="entry-set">Definition</a>: The
<b>entry set</b> of a transition is the set of states that are
entered when the transition is taken. If a transition does not
contain a 'target', its entry set is empty. Otherwise, it consists
of all members of the transitions complete target set that are not
currently active. The entry set of a set of transitions is the
union of the transition sets of the individual transitions.]</p>

<p>[<a title="" id="microstep" name="microstep">Definition</a>: A
<b>microstep</b> consists of the execution of the transitions in an
optimal enabled transition set.]</p>

<p>[<a title="" id="macrostep" name="macrostep">Definition</a>: A
<b>macrostep</b> is a series of one or more microsteps ending in a
configuration where the internal event queue is empty and no
transitions are enabled by NULL. ]</p>

<p>To execute a microstep, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
the transitions in the corresponding optimal enabled transition To
execute a set of transitions, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> first
exit all the states in the transitions' exit set in <a
href="#exitOrder">exit order</a>. It <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> then
execute the executable content contained in the transitions in
document order. It <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> then enter the states in the transitions'
entry set in <a href="#entryOrder">entry order</a>.</p>

<p>To exit a state, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
the executable content in the state's &lt;onexit&gt; handler. Then
it <em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
cancel any ongoing invocations that were triggered by that state.
Finally, the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> remove the state from the active state's
list.</p>

<p>To enter a state, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> add the
state to the active state's list. Then it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
the executable content in the state's &lt;onentry&gt; handler. If
the state is a default entry state and has an &lt;initial&gt;
child, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> then execute the executable content in
the &lt;initial&gt; child's &lt;transition&gt;.</p>

<p>At startup, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
state machine in the configuration specified by the 'initial'
attribute of the &lt;scxml&gt; element.</p>

<p>After entering the initial configuration, and after executing
each microstep, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> check the
state configuration for &lt;final&gt; states that it has entered
during the microstep. If it has entered a &lt;final&gt; state that
is a child of &lt;scxml&gt;, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> halt processing. If it has entered a
&lt;final&gt; state that is a child of a compound state, it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> generate
the event done.state.<em>id</em>, where <em>id</em> is the id of
the compound state. If the compound state is itself the child of a
&lt;parallel&gt; element, and all the &lt;parallel&gt; element's
other children are in final states, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> generate
the event done.state.<em>id</em>, where <em>id</em> is the id of
the &lt;parallel&gt; elements.</p>

<p>After checking the state configuration, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> select
the optimal transition set enabled by NULL in the current
configuration. If the set is not empty, it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
it as a microstep. If the set is empty, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> remove
events from the internal event queue until the queue is empty or it
finds an event that enables a non-empty optimal transition set in
the current configuration. If it finds such a set, the processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> then
execute it as a microstep. (Otherwise the internal event queue is
empty and the Processor has completed a macrostep.)</p>

<p>After completing a macrostep, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
in document order the &lt;invoke&gt; handlers in all states that
have been entered since the completion of the last macrostep. Then
the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> remove events from the external event
queue, waiting till events appear if necessary, until it finds one
that enables a non-empty optimal transition set in the current
configuration. The Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> then execute that set as a microstep.</p>

<p>See <a href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm
for SCXML Interpretation</b></a> for more details.</p>
</div>

<div class="div2">
<h3><a id="IDs" name="IDs" />3.14 IDs</h3>

<p>In a conformant SCXML document, the values of all attributes of
type "id" <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> be unique within the session. When such
an attribute is defined to be optional and the author omits it, the
SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> generate a unique one automatically at
document load time. (Note that Such system generated IDs cannot
normally be referenced elsewhere in the document because they are
not known to the author. In particular, a state with a system
generated ID cannot be the target of a transition.) The ids for
&lt;send&gt; and &lt;invoke&gt; are subtly different. In a
conformant SCXML document, they <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> be unique within the session, but in the
case where the author does not provide them, the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> generate
a new unique ID not at load time but <em>each time the element is
executed</em>. Furthermore the attribute 'idlocation' can be used
to capture this automatically generated id. Finally note that the
automatically generated id for &lt;invoke&gt; has a special format.
See <a href="#invokeattrs"><b>6.4.1 Attribute Details</b></a> for
details. The SCXML processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> generate all other ids in any format, as
long as they are unique.</p>
</div>
</div>

<div class="div1">
<h2><a id="executable" name="executable" />4 Executable
Content</h2>

<div class="div2">
<h3><a id="ExecutableIntroduction"
name="ExecutableIntroduction" />4.1 Introduction</h3>

<p>[This section is informative.]</p>

<p>Executable content allows the state machine to <em>do</em>
things. It provides the hooks that allow an SCXML session to modify
its data model and interact with external entities. Executable
content consists of actions that are performed as part of taking
transitions. In particular, executable content occurs inside
&lt;onentry&gt; and &lt;onexit&gt; elements as well as inside
transitions. When the state machine takes a transition, it executes
the &lt;onexit&gt; executable content in the states it is leaving,
followed by the content in the transition, followed by the
&lt;onentry&gt; content in the states it is entering. See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.</p>

<p>This standard defines elements of executable content which can
raise events<a href="#raise"><b>4.2 &lt;raise&gt;</b></a>,
communicate with external entities <a href="#send"><b>6.2
&lt;send&gt;</b></a>, log information <a href="#log"><b>4.7
&lt;log&gt;</b></a> execute scripts <a href="#script"><b>5.9
&lt;script&gt;</b></a> and modify the data model <a
href="#assign"><b>5.4 &lt;assign&gt;</b></a>, as well as control
constructs to conditionalize execution <a href="#if"><b>4.3
&lt;if&gt;</b></a> and to iterate over the items in a collection <a
href="#foreach"><b>4.6 &lt;foreach&gt;</b></a>. In addition, SCXML
implementations are allowed to define their own, platform-specific
executable content (see <a href="#extensibility"><b>4.10
Extensibility of Executable Content</b></a>).</p>
</div>

<div class="div2">
<h3><a id="raise" name="raise" />4.2 &lt;raise&gt;</h3>

<p>The &lt;raise&gt; element raises an event in the current SCXML
session. Note that the event will not be processed until the
current block of executable content has completed and all events
that are already in the internal event queue have been processed.
For example, suppose the &lt;raise&gt; element occurs first in the
&lt;onentry&gt; handler of state S followed by executable content
elements ec1 and ec2. If event e1 is already in the internal event
queue when S is entered, the event generated by &lt;raise&gt; will
not be processed until ec1 and ec2 have finished execution and e1
has been processed. For details of event processing, see <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a>. Note that the <a href="#send"><b>6.2
&lt;send&gt;</b></a> element may also be used to raise internal
events in an SCXML session. The &lt;send&gt; is a general-purpose
message element, while &lt;raise&gt; has a simpler syntax.</p>

<div class="div3">
<h4><a id="N1077E" name="N1077E" />4.2.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>event</td>
<td>true</td>
<td />
<td>NMTOKEN</td>
<td>none</td>
<td></td>
<td>Specifies the name of the event. This will be matched against
the 'event' attribute of transitions.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N107A4" name="N107A4" />4.2.2 Children</h4>

None.</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the event that is generated at the
rear of the session's internal event queue.</p>
</div>

<div class="div2">
<h3><a id="if" name="if" />4.3 &lt;if&gt;</h3>

<p>&lt;if&gt; is a container for conditionally executed
elements.</p>

<div class="div3">
<h4><a id="N107B3" name="N107B3" />4.3.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>cond</td>
<td>true</td>
<td />
<td>Conditional expression</td>
<td>none</td>
<td>A valid conditional expression</td>
<td>A boolean expression. See <a
href="#ConditionalExpressions"><b>5.10.1 Conditional
Expressions</b></a> for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N107DC" name="N107DC" />4.3.2 Children</h4>

<ul>
<li>&lt;elseif&gt; Occurs 0 or more times. See <a
href="#elseif"><b>4.4 &lt;elseif&gt;</b></a></li>

<li>&lt;else&gt; Occurs 0 or 1 times. See <a href="#else"><b>4.5
&lt;else&gt;</b></a></li>

<li>The other children of &lt;if&gt; consist of executable content.
Note that since &lt;if&gt; itself is executable content, nested
&lt;if&gt; statements are allowed.</li>
</ul>
</div>

<p>The behavior of &lt;if&gt; is defined in terms of partitions of
executable content. The first partition consists of the executable
content between the &lt;if&gt; and the first &lt;elseif&gt;,
&lt;else&gt; or &lt;/if&gt; tag. Each &lt;elseif&gt; tag defines a
partition that extends from it to the next &lt;elseif&gt;,
&lt;else&gt; or &lt;/if&gt; tag. The &lt;else&gt; tag defines a
partition that extends from it to the closing &lt;/if&gt; tag. In a
conformant SCXML document, a partition <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> be empty.
In a conformant SCXML document, &lt;else&gt; <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> occur
after all &lt;elseif&gt; tags.</p>

<p>When the &lt;if&gt; element is executed, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
the first partition in document order that is defined by a tag
whose 'cond' attribute evaluates to true, if there is one.
Otherwise, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> execute the partition defined by the
&lt;else&gt; tag, if there is one. Otherwise it <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
execute any of the executable content.</p>

<p>Here is an example:</p>

<div class="exampleInner">
<pre>
&lt;if cond="cond1"&gt;
  &lt;!-- selected when "cond1" is true --&gt;
&lt;elseif cond="cond2"/&gt;
  &lt;!-- selected when "cond1" is false and "cond2" is true --&gt;
&lt;elseif cond="cond3"/&gt;
  &lt;!-- selected when "cond1" and "cond2" are false and "cond3" is true --&gt;
&lt;else/&gt;
  &lt;!-- selected when "cond1", "cond2", and "cond3" are false --&gt;
&lt;/if&gt;

</pre>
</div>
</div>

<div class="div2">
<h3><a id="elseif" name="elseif" />4.4 &lt;elseif&gt;</h3>

<div class="div3">
<h4><a id="N10809" name="N10809" />4.4.1 Overview</h4>

<p>&lt;elseif&gt; is an empty element that partitions the content
of an &lt;if&gt;, and provides a condition that determines whether
the partition is executed.</p>
</div>

<div class="div3" /></div>

<div class="div2">
<h3><a id="else" name="else" />4.5 &lt;else&gt;</h3>

<div class="div3">
<h4><a id="N10813" name="N10813" />4.5.1 Overview</h4>

<p>&lt;else&gt; is an empty element that partitions the content of
an &lt;if&gt;. It is equivalent to an &lt;elseif&gt; with a "cond"
that always evaluates to true.</p>
</div>

<div class="div3">
<h4><a id="N10818" name="N10818" />4.5.2 Attribute Details</h4>

<p>None.</p>
</div>
</div>

<div class="div2">
<h3><a id="foreach" name="foreach" />4.6 &lt;foreach&gt;</h3>

<div class="div3">
<h4><a id="N10821" name="N10821" />4.6.1 Overview</h4>

<p>The &lt;foreach&gt; element allows an SCXML application to
iterate through a collection in the data model and to execute the
actions contained within it for each item in the collection.</p>
</div>

<div class="div3">
<h4><a id="N10826" name="N10826" />4.6.2 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>array</td>
<td>true</td>
<td />
<td>Value expression</td>
<td>none</td>
<td>A value expression that evaluates to an iterable
collection.</td>
<td>The &lt;foreach&gt; element will iterate over a shallow copy of
this collection.</td>
</tr>

<tr>
<td>item</td>
<td>true</td>
<td />
<td>xsd:string</td>
<td>none</td>
<td>Any variable name that is valid in the specified data
model.</td>
<td>A variable that stores a different item of the collection in
each iteration of the loop.</td>
</tr>

<tr>
<td>index</td>
<td>false</td>
<td />
<td>xsd:string</td>
<td>none</td>
<td>Any variable name that is valid in the specified data
model.</td>
<td>A variable that stores the current iteration index upon each
iteration of the foreach loop.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10868" name="N10868" />4.6.3 Children</h4>

<p>The children of &lt;foreach&gt; consist of one or more items of
executable content. (Note that they are considered to be part of
the same block of executable content as the parent &lt;foreach&gt;
element.)</p>
</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> declare a new variable if the one
specified by 'item' is not already defined. If 'index' is present,
the SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> declare a new variable if the one
specified by 'index' is not already defined. If 'array' does not
evaluate to a legal iterable collection, or if 'item' does not
specify a legal variable name, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> terminate
execution of the &lt;foreach&gt; element and the block that
contains it, and place the error error.execution on the internal
event queue.</p>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> start with the first item in the
collection and proceed to the last item in the iteration order that
is defined for the collection. (This order depends on the data
model in use. ) For each item, the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> act as if
it has made a shallow copy or reference and assign it to the item
variable. (Note that the assigned value <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> be null or
undefined if the collection contains a null or undefined item.)
After making the assignment, the SCXML processor <em
title=" MUST in RFC2119 context" class="RFC2119">MUST</em> evaluate
its child executable content. It <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> then
proceed to the next item in iteration order. If the evaluation of
any child element causes an error, the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> cease
execution of the &lt;foreach&gt; element and the block that
contains it. (Note that SCXML does not provide break functionality
to interrupt &lt;foreach&gt;, however targetless and/or eventless
transitions can provide sophisticated iterative behavior within the
SCXML application itself.)</p>
</div>

<div class="div2">
<h3><a id="log" name="log" />4.7 &lt;log&gt;</h3>

<div class="div3">
<h4><a id="N10890" name="N10890" />4.7.1 Overview</h4>

<p>&lt;log&gt; allows an application to generate a logging or debug
message.</p>
</div>

<div class="div3">
<h4><a id="N10895" name="N10895" />4.7.2 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>label</td>
<td>false</td>
<td />
<td>string</td>
<td>empty string</td>
<td />
<td>A character string with an implementation-dependent
interpretation.</td>
</tr>

<tr>
<td>expr</td>
<td>true</td>
<td />
<td>Value expression</td>
<td>none</td>
<td />
<td>An expression returning the value to be logged. See <a
href="#ValueExpressions"><b>5.10.3 Legal Data Values and Value
Expressions</b></a> for details. The nature of the logging
mechanism is implementation-dependent. For example, the SCXML
processor may convert this value to a convenient format before
logging it.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N108CA" name="N108CA" />4.7.3 Children</h4>

<p>None.</p>
</div>

<p>The manner in which the message is displayed or logged is
platform-dependent. The SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> insure
that &lt;log&gt; has no side-effects on document
interpretation.</p>
</div>

<div class="div2">
<h3><a id="profile-dependentexecutablecontent"
name="profile-dependentexecutablecontent" />4.8 Other Executable
Content</h3>

<p>The following elements of executable content are defined
elsewhere in this specification. They <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> occur
wherever executable content is allowed and <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
occur anyplace else.</p>

<ul>
<li>&lt;assign&gt;. Changes the value of a location in the data
model. See <a href="#assign"><b>5.4 &lt;assign&gt;</b></a> for
details.</li>

<li>&lt;validate&gt;. Validates the data model. See <a
href="#validate"><b>5.5 &lt;validate&gt;</b></a> for details.</li>

<li>&lt;script&gt;. Provides scripting capabilties. See <a
href="#script"><b>5.9 &lt;script&gt;</b></a> for details.</li>

<li>&lt;send&gt;. Sends an event to a specified destination. See <a
href="#send"><b>6.2 &lt;send&gt;</b></a> for details.</li>

<li>&lt;cancel&gt;. Cancels an event that was to be sent See <a
href="#cancel"><b>6.3 &lt;cancel&gt;</b></a> for details.</li>
</ul>
</div>

<div class="div2">
<h3><a id="EvaluationofExecutableContent"
name="EvaluationofExecutableContent" />4.9 Evaluation of Executable
Content</h3>

<p>Wherever executable content is permitted, an arbitrary number of
elements <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> occur. Such a sequence of elements of
executable content is called a block. For example, if transition t
takes the state machine from atomic state S1 to atomic state S2,
there are three blocks of executable content executed: the one in
the &lt;onexit&gt; handler of S1, the one inside t, and the one
inside the &lt;onentry&gt; handler of S2. The SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
the elements of a block in document order. If the processing of an
element causes an error to be raised, the processor <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
process the remaining elements of the block. (The execution of
other blocks of executable content is not affected.)</p>

<p>Events raised during the processing of executable content are
treated like any other events. Note in particular, that error
events will not be removed from the queue and processed until all
events preceding them in the queue have been processed. See <a
href="#ErrorEvents"><b>3.12.2 Errors</b></a> and <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.</p>
</div>

<div class="div2">
<h3><a id="extensibility" name="extensibility" />4.10 Extensibility
of Executable Content</h3>

<p>Implementations <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> may provide additional executable content
corresponding to special features of their implementations. The
functionality of such platform-specific content is not restricted,
except that it <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> cause transitions or any form of
change of state (except indirectly, by raising events that trigger
transitions). Note that SCXML treats the executable content
triggered by a transition as a single blocking operation and that
no events are processed until all the executable content has
completed. For example, when taking a transition into state S, the
SCXML processor will not process any events or take any transitions
until all &lt;onentry&gt; handlers in S have finished. It is thus
important that all executable content, including platform-specific
extensions, execute swiftly.</p>

<p>In a conformant SCXML document any extensions to executable
content <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> be defined the 'scxml' namespace.
(Note that the schema <a href="#schemas"><b>B Schema</b></a> allows
elements from arbitrary namespaces inside blocks of executable
content.) The following example shows the incorporation of CCXML
functionality (see <a href="#CCXML">[W3C CCXML 1.0]</a>) into
SCXML. In particular an &lt;accept&gt; element in the 'ccxml'
namespace is invoked as executable content inside a transition.</p>

<div class="exampleInner">
<pre>
&lt;transition event="ccxml:connection.alerting"&gt;
  &lt;ccxml:accept connectionid="_event.data.connectionid"/&gt;
&lt;/transition&gt;
</pre>
</div>

<p>This markup is legal on any SCXML interpreter, but the behavior
of &lt;accept&gt; element is platform-dependent. See <a
href="#ConformingProcessors"><b>C.2 Conforming Processors</b></a>
for details.</p>

<p>A general method for implementing extensions using the
&lt;send&gt; element is presented in <a
href="#custom_action"><b>G.8 Custom Action Elements</b></a>.</p>
</div>
</div>

<div class="div1">
<h2><a id="data-module" name="data-module" />5 Data Model and Data
Manipulation</h2>

<div class="div2">
<h3><a id="DataModelIntroduction"
name="DataModelIntroduction" />5.1 Introduction</h3>

<p>[This section is informative.]</p>

<p>The Data Model offers the capability of storing, reading, and
modifying a set of data that is internal to the state machine. This
specification does not mandate any specific data model, but instead
defines a set of abstract capabilities that can be realized by
various languages, such as ECMAScript or XML/XPath. Implementations
may choose the set of data models that they support. In addition to
the underlying data structure, the data model defines a set of
expression as described in <a href="#Expressions"><b>5.10
Expressions</b></a>. These expressions are used to refer to
specific locations in the data model, to compute values to assign
to those locations, and to evaluate boolean conditions. Finally,
the data model includes a set of system variables, as defined in <a
href="#SystemVariables"><b>5.11 System Variables</b></a>, which are
automatically maintained by the SCXML processor.</p>

<p>The data model is defined via the <a href="#datamodel"><b>5.2
&lt;datamodel&gt;</b></a> element, which contains zero or more <a
href="#data"><b>5.3 &lt;data&gt;</b></a> elements, each of which
defines a single data element and assigns an initial value to it.
These values may be specified in-line or loaded from an external
source. They can then be updated via the <a href="#assign"><b>5.4
&lt;assign&gt;</b></a> element. The <a href="#validate"><b>5.5
&lt;validate&gt;</b></a> element can be used to validate the data
(in data models where that makes sense), while the <a
href="#donedata"><b>5.6 &lt;donedata&gt;</b></a>, <a
href="#content"><b>5.7 &lt;content&gt;</b></a> , and <a
href="#param"><b>5.8 &lt;param&gt;</b></a> elements can be used to
incorporate data into communications with external entities.
Finally, the <a href="#script"><b>5.9 &lt;script&gt;</b></a>
element permits the incorporation of a scripting language.</p>

<p>The interpretation of these elements depends on the datamodel in
question, and not all elements are supported in all datamodels. For
the details of specific data models, see <a href="#profiles"><b>D
Data Models</b></a>.</p>
</div>

<div class="div2">
<h3><a id="datamodel" name="datamodel" />5.2 &lt;datamodel&gt;</h3>

<p>&lt;datamodel&gt; is a wrapper element which encapsulates any
number of &lt;data&gt; elements, each of which defines a single
data object. The exact nature of the data object depends on the
data model language used.</p>

<div class="div3">
<h4><a id="N10972" name="N10972" />5.2.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>schema</td>
<td>false</td>
<td />
<td>URI</td>
<td>none</td>
<td>Location of the schema for this datamodel</td>
<td>URL of the schema for this datamodel. See <a
href="#validate"><b>5.5 &lt;validate&gt;</b></a> for its use. The
exact nature of the schema depends on the data model language being
used.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N1099B" name="N1099B" />5.2.2 Children</h4>

<ul>
<li>&lt;data&gt; Occurs 0 or more times. Each instance defines a
named data element.</li>
</ul>
</div>

<p>In a conformant SCXML document, the 'schema' attribute <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> occur on
the top-level &lt;datamodel&gt; elemen, namely the one that is a
child of &lt;scxml&gt;. It <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> occur on any other element.</p>
</div>

<div class="div2">
<h3><a id="data" name="data" />5.3 &lt;data&gt;</h3>

<p>The &lt;data&gt; element is used to declare and populate
portions of the datamodel.</p>

<div class="div3">
<h4><a id="N109B0" name="N109B0" />5.3.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>id</td>
<td>true</td>
<td />
<td>ID</td>
<td>none</td>
<td></td>
<td>The name of the data item. See <a href="#IDs"><b>3.14
IDs</b></a> for details.</td>
</tr>

<tr>
<td>src</td>
<td>false</td>
<td />
<td>URI</td>
<td>none</td>
<td />
<td>Gives the location from which the data object should be
fetched. See <a href="#ValueExpressions"><b>5.10.3 Legal Data
Values and Value Expressions</b></a> for details.</td>
</tr>

<tr>
<td>expr</td>
<td>false</td>
<td />
<td>Expression</td>
<td>none</td>
<td>Any valid value expression</td>
<td>Evaluates to provide the value of the data item. See <a
href="#ValueExpressions"><b>5.10.3 Legal Data Values and Value
Expressions</b></a> for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N109FA" name="N109FA" />5.3.2 Children</h4>

<p>The children of the &lt;data&gt; element represent an in-line
specification of the value of the data object.</p>

<p>In a conformant SCXML document, a &lt;data&gt; element <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> have either
a 'src' or an 'expr' attribute, but <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
have both. Furthermore, if either attribute is present, the element
<em title="MUST NOT in RFC2119 context" class="RFC2119">MUST
NOT</em> have any children. Thus 'src', 'expr' and children are
mutually exclusive in the &lt;data&gt; element.</p>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> must allow the environment to provide
values for top-level &lt;data&gt; elements (namely those that are
children of the &lt;datamodel &gt; element that is a child of
&lt;scxml&gt;). Specifically, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use the
values provided at instantiation time instead of those contained in
thee &lt;data&gt; elements. The manner in which the environment
specifies these values is platform-dependent.</p>

<p>If the value specified (by 'src', children, or the environment)
is not a legal data value, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> create an
empty data element in the data model with the specified id. Note
that what constitutes a legal data value depends on the data model
language used. See <a href="#profiles"><b>D Data Models</b></a> for
details.</p>
</div>

<div class="div3">
<h4><a id="DataBinding" name="DataBinding" />5.3.3 Data Binding and
Scoping</h4>

<p>There is a single globally visible data model for the entire
state machine. Specifically, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> allow any
data element to be accessed from any state. Thus the data model has
no concept of scoping. However, authors control when the initial
values are assigned to the data elements by means of the 'binding'
attribute on the &lt;scxml&gt; element. When 'binding' is assigned
the value "early" (the default), the scxml processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> create
all data elements and assign their initial values at document
initialization time. When 'binding' is assigned the value "late",
the scxml processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> create the data elements at document
initialization time, but <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> assign the value specified by 'expr' to a
given data element only when the state that contains it is entered
for the first time, before any &lt;onentry&gt; markup. (The value
of the data element between the time it is created and the time its
parent state is first entered will depend on the data language
chosen. The value specified by 'expr' will be assigned to the data
element even if the element already has a non-null value when the
parent state is first entered.)</p>

<p>Ordering dependencies between &lt;data&gt; elements are not
permitted. In the case of early binding, the scxml processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> evaluate
all &lt;data&gt; elements at initialization time but <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> do so in
any order it chooses. Suppose, for example, that the declaration of
element "a" precedes the declaration of element "b" in a document.
It is not safe to assume that "a" will be instantiated and have a
value when the declaration of "b" is executed. Therefore the "expr"
in "b" cannot safely reference the value of "a" (and vice-versa).
When late binding is selected, the scxml processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> create
data model elements at initialization time but <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> do so in
any order it chooses. Similarly, the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> assign
the value specified by 'expr' to data elements only when the state
containing them is first entered, but <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> do so in
any order it chooses.</p>

<p>Values created by &lt;data&gt; elements are local to their
session. In particular, the scxml processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> insure
that such values are changed only by the execution of executable
content or the &lt;finalize&gt; element. Note that in addition to
the author-controlled &lt;data&gt; elements there are system
variables whose values are maintained by the scxml processor. See
<a href="#SystemVariables"><b>5.11 System Variables</b></a> for
details.</p>
</div>
</div>

<div class="div2">
<h3><a id="assign" name="assign" />5.4 &lt;assign&gt;</h3>

<p>The &lt;assign&gt; element is used to modify the data model.</p>

<div class="div3">
<h4><a id="N10A4E" name="N10A4E" />5.4.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>location</td>
<td>true</td>
<td />
<td>path expression</td>
<td>none</td>
<td>Any valid location expression.</td>
<td>The location in the data model into which to insert the new
value. See <a href="#LocationExpressions"><b>5.10.2 Location
Expressions</b></a> for details.</td>
</tr>

<tr>
<td>expr</td>
<td>false</td>
<td>This attribute must not occur in an &lt;assign&gt; element that
has children.</td>
<td>value expression</td>
<td>none</td>
<td>Any valid value expression</td>
<td>An expression returning the value to be assigned. See <a
href="#ValueExpressions"><b>5.10.3 Legal Data Values and Value
Expressions</b></a> for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10A89" name="N10A89" />5.4.2 Children</h4>

<p>The children of the &lt;assign&gt;element provide an in-line
specification of legal data value (see <a
href="#ValueExpressions"><b>5.10.3 Legal Data Values and Value
Expressions</b></a>) to be inserted into the datamodel at the
specified location.</p>
</div>

<p>A conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify either "expr" or children of
&lt;assign&gt;, but not both.</p>

<p>Assignment to a data model is done by using a location
expression to denote the part of the data model where the insertion
is to be made. If the location expression does not denote a valid
location in the datamodel or if the value specified ( by 'expr' or
children) is not a legal value for the location specified, the
processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the error error.execution in the
internal event queue. Otherwise, the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
specified value at the specified location. Note that the nature of
the insertion and the definition of a legal value depends on the
data model language used. Note also that datamodels <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> additional
attributes for &lt;assign&gt; beyond those specified here. See <a
href="#profiles"><b>D Data Models</b></a> for details.</p>
</div>

<div class="div2">
<h3><a id="validate" name="validate" />5.5 &lt;validate&gt;</h3>

<p>The &lt;validate&gt; element causes the datamodel to be
validated.</p>

<div class="div3">
<h4><a id="N10AAA" name="N10AAA" />5.5.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>location</td>
<td>false</td>
<td />
<td>location expression</td>
<td>none</td>
<td>Any valid location expression.</td>
<td>The location of the subtree to validate. If it is not present,
the entire datamodel is validated. See <a
href="#LocationExpressions"><b>5.10.2 Location Expressions</b></a>
for details.</td>
</tr>

<tr>
<td>schema</td>
<td>false</td>
<td />
<td>URI</td>
<td>none</td>
<td>Any valid URI</td>
<td>The location of the schema to use for validation. If this
attribute is not present, the schema specified in the top-level
&lt;datamodel&gt; is used.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10AE1" name="N10AE1" />5.5.2 Children</h4>

<p>None.</p>
</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> validate the datamodel only when
instructed to do so by the &lt;validate&gt; element. A valid SCXML
document containing the &lt;validate&gt; element <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> specify a
schema with the 'schema'attribute of the &lt;validate&gt; element
or with the 'schema' attribute of the &lt;datamodel&gt; element (or
with both). If the &lt;validate&gt; element specifies a schema, the
processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> use this schema to validate the
datamodel. Otherwise, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> use the value specified in the
&lt;datamodel&gt; element.</p>
</div>

<div class="div2">
<h3><a id="donedata" name="donedata" />5.6 &lt;donedata&gt;</h3>

<p>A wrapper element holding data to be returned when a
&lt;final&gt; state is entered.</p>

<div class="div3">
<h4><a id="N10AFA" name="N10AFA" />5.6.1 Attribute Details</h4>

<p>None.</p>
</div>

<div class="div3">
<h4><a id="N10AFF" name="N10AFF" />5.6.2 Children</h4>

<ul>
<li>&lt;content&gt;. Specifies in-line data to include in the
event. May occur 0 or 1 times. See <a href="#content"><b>5.7
&lt;content&gt;</b></a> .</li>

<li>&lt;param&gt; Extracts data from the data model to include in
the event. See <a href="#param"><b>5.8 &lt;param&gt;</b></a> for
details. May occur 0 or more times.</li>
</ul>
</div>

<p>A conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify either a single &lt;content&gt;
element or one or more &lt;param&gt; elements as children of
&lt;donedata&gt;, but not both. .</p>

<p>In cases where the SCXML processor generates a 'done' event upon
entry into the final state, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the data specified by this element
in the _event.data field, but exact format of that data will be
determined by the datamodel (see <a href="#profiles"><b>D Data
Models</b></a> for details). In other cases (namely when the
&lt;final&gt; element is a child of &lt;scxml&gt; and the state
machine has not been triggered by &lt;invoke&gt;), the SCXML
processor <em title="SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em> return the data to the environment in
an implementation-dependent manner.</p>
</div>

<div class="div2">
<h3><a id="content" name="content" />5.7 &lt;content&gt;</h3>

<p>A container element holding in-line data to be passed to an
external service.</p>

<div class="div3">
<h4><a id="N10B25" name="N10B25" />5.7.1 Attribute Details</h4>

<p>None.</p>
</div>

<div class="div3">
<h4><a id="N10B2A" name="N10B2A" />5.7.2 Children</h4>

<p>In a conformant SCXML document, the child elements of
&lt;content&gt; contain arbitrary markup which <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> consist of
text, XML from any namespace, or a mixture of both. The use of this
markup depends on the context in which the &lt;content&gt; element
occurs. See <a href="#donedata"><b>5.6 &lt;donedata&gt;</b></a>, <a
href="#send"><b>6.2 &lt;send&gt;</b></a> and <a
href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> for details. For the
use of namespaces inside &lt;content&gt;, see <a
href="#content_and_namespaces"><b>G.7 Inline Content and
Namespaces</b></a>.</p>
</div>
</div>

<div class="div2">
<h3><a id="param" name="param" />5.8 &lt;param&gt;</h3>

<p>The &lt;param&gt; tag provides a general way of identifying a
name/key and a dynamically calcuated value, which can be passed to
an external service or included in an event.</p>

<div class="div3">
<h4><a id="N10B44" name="N10B44" />5.8.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>name</td>
<td>true</td>
<td />
<td>NMTOKEN</td>
<td>none</td>
<td>A string literal</td>
<td>The name of the key.</td>
</tr>

<tr>
<td>expr</td>
<td>false</td>
<td>May not occur with 'location'</td>
<td>value expression</td>
<td>none</td>
<td>Valid value expression</td>
<td>A value expression (see <a href="#ValueExpressions"><b>5.10.3
Legal Data Values and Value Expressions</b></a>) that is evaluated
to provide the value.</td>
</tr>

<tr>
<td>location</td>
<td>false</td>
<td>May not occur with 'expr'</td>
<td>location expression</td>
<td>none</td>
<td>Valid location expression</td>
<td>A location expression (see <a
href="#LocationExpressions"><b>5.10.2 Location Expressions</b></a>)
that specifies the location in the datamodel to use as the
value.</td>
</tr>
</tbody>
</table>

<p>A conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify either the 'expr' attribute of
&lt;param&gt; or the 'location' attribute, but <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
specify both. If the 'location' attribute does not refer to a valid
location in the data model, or if the evaluation of the 'expr'
produces an error, the processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.execution on the internal event queue and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> ignore
the name and value. Otherwise the use of the name and value depends
on the context in which the &lt;param&gt; element occurs. See <a
href="#donedata"><b>5.6 &lt;donedata&gt;</b></a>, <a
href="#send"><b>6.2 &lt;send&gt;</b></a> and <a
href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> for details.</p>
</div>

<div class="div3">
<h4><a id="N10BA5" name="N10BA5" />5.8.2 Children</h4>

<p>None.</p>
</div>
</div>

<div class="div2">
<h3><a id="script" name="script" />5.9 &lt;script&gt;</h3>

<p>The &lt;script&gt; element adds scripting capability to the
state machine.</p>

<div class="div3">
<h4><a id="N10BB0" name="N10BB0" />5.9.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>src</td>
<td>false</td>
<td>May not occur if the element has children.</td>
<td />
<td>none</td>
<td>A valid URI</td>
<td>Gives the location from which the script should be
downloaded.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10BD6" name="N10BD6" />5.9.2 Children</h4>

<p>The children of the &lt;script&gt; element represent the script
code to be executed.</p>
</div>

<p>A conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify either the 'src' attribute or
child content, but not both. If 'src' is specified, the SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> download the script from the specified
location at load time. If the script can not be downloaded within a
platform-specific timeout interval, the document is considered
non-conformant, and the platform <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> reject
it.</p>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate any &lt;script&gt; element that
is a child of &lt;scxml&gt; at document load time. It <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> evaluate
all other &lt;script&gt; elements as part of normal executable
content evaluation.</p>

<p>In a conformant SCXML document, the name of any script variable
<em title="MAY in RFC2119 context" class="RFC2119">MAY</em> be used
as a location expression (see <a
href="#LocationExpressions"><b>5.10.2 Location
Expressions</b></a>).</p>

<p>For an example of a data model incorporating scripting, see <a
href="#ecma-profile"><b>D.2 The ECMAScript Data Model</b></a>.</p>
</div>

<div class="div2">
<h3><a id="Expressions" name="Expressions" />5.10 Expressions</h3>

<p>SCXML contains three types of expressions, as described below.
Different datamodels will support different languages for these
expression types, but certain properties of the expressions are
constant across languages and are defined here.</p>

<p>The SCXML processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> optimize expression evaluation. Thus the
SCXML processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> not evaluate expressions as often as
indicated in <a href="#AlgorithmforSCXMLInterpretation"><b>A
Algorithm for SCXML Interpretation</b></a> or at the same points in
the algorithm.</p>

<p>When "late" data binding is used, accessing data substructure in
expressions before the corresponding &lt;data&gt; element is loaded
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> yield
the same execution-time behavior as accessing non-existent data
substructure in a loaded &lt;data&gt; instance. Such behavior is
defined by the data expression language in use.</p>

<div class="div3">
<h4><a id="ConditionalExpressions"
name="ConditionalExpressions" />5.10.1 Conditional Expressions</h4>

<p>Conditional expressions are used inside the 'cond' attribute of
&lt;transition&gt;, &lt;if&gt; and &lt;elseif&gt;. The SCXML
processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> insure that boolean expressions do not
contain side effects that would effect the datamodel or the
execution of the state machine. If a conditional expression cannot
be evaluated as a boolean value ('true' or 'false') or if its
evaluation causes an error, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> treat the
expression as if it evaluated to 'false' and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error 'error.execution' in the internal event queue. The set of
operators in conditional expressions varies depending on the
datamodel, but all datamodels <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support the 'In()' predicate, which takes
a stateID as its argument and returns true if the state machine is
in that state. This predicate allows coordination among parallel
regions.</p>
</div>

<div class="div3">
<h4><a id="LocationExpressions" name="LocationExpressions" />5.10.2
Location Expressions</h4>

<p>Location expressions are used to specify a location in the
datamodel as part of the &lt;assign&gt;element. The exact nature of
a location depends on the datamodel. For example, in the XPath
datamodel (<a href="#xpath-profile"><b>D.3 The XPath Data
Model</b></a>), the underlying data structure is an XML tree and
the set of valid locations consists of the existing nodes and
nodesets in the tree. If a location expression cannot be evaluated
to yield a valid location, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.execution in the internal event queue.</p>
</div>

<div class="div3">
<h4><a id="ValueExpressions" name="ValueExpressions" />5.10.3 Legal
Data Values and Value Expressions</h4>

<p>A data model definition contains a specification of the
underlying data structure. For example, the XPath datamodel (<a
href="#xpath-profile"><b>D.3 The XPath Data Model</b></a>) defines
the data structure to be an XML tree. Such a specification of the
data structure implicitly defines a set of "legal data values",
namely the objects that can be part of such a data structure. For
an XML data model, the set of legal data values consists of XML
trees and subtrees, plus strings (as values of attributes or text
children). In conjunction with this, the datamodel definition
specifies a set of value expressions which can be evaluated at
runtime to return legal data values. If a value expression does not
return a legal data value, the SCXML processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.execution in the internal event queue.</p>
</div>

<div class="div3">
<h4><a id="ErrorsinExpressions" name="ErrorsinExpressions" />5.10.4
Errors in Expressions</h4>

<p>The SCXML processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> reject documents containing syntactically
ill-formed expressions at document load time, or it <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> wait and
place error.execution in the internal event queue at runtime when
the expressions are evaluated. If the processor waits until it
evaluates the expressions at runtime to raise errors, it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> raise
errors caused by expressions returning illegal values at the points
at which <a href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm
for SCXML Interpretation</b></a> indicates that the expressions are
to be evaluated. Note that this requirement holds even if the
implementation is optimizing expression evaluation.</p>
</div>
</div>

<div class="div2">
<h3><a id="SystemVariables" name="SystemVariables" />5.11 System
Variables</h3>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> maintain a protected portion of the data
model containing information that can be useful to applications. We
refer to the items in this special part of the data model as
'system variables'. Implementations <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> provide
the following system variables, and <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> support
others.</p>

<ul>
<li><em>_event</em>. The SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use the
variable '_event' to hold a structure containing the current
event's name and any data contained in the event (see <a
href="#InternalStructureofEvents"><b>5.11.1 The Internal Structure
of Events</b></a>. The exact nature of the structure depends on the
datamodel being used. See <a href="#profiles"><b>D Data
Models</b></a> for details. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> bind the
_event variable when an event is pulled off the internal or
external event queue to be processed, and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> keep the
variable bound to that event until another event is processed. (It
follows that when an application is testing the 'cond' attribute of
a &lt;transition&gt; element that contains an 'event' attribute,
_event will be bound to the event that the transition is being
matched against. If the transition is selected to be executed,
_event will remain bound to that event in the &lt;onexit&gt;
handlers of the states being exited, the executable content of the
transition itself, and the &lt;onentry&gt; handlers of the states
being entered. In the case of &lt;transition&gt; elements that do
not contain an 'event' attribute and the &lt;onexit&gt; and
&lt;onentry&gt; handlers of any states that are exited or entered
by such transitions, the _event variable will not have a
predictable value since the transition is not being driven by an
event. In these cases, _event will be bound to the last event that
was matched against a transition.) The SCXML Processor <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
bind _event at initialization time until the first event is
processed. Hence _event is unbound when the state machine starts
up. See <a href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm
for SCXML Interpretation</b></a> for details. If the data in the
event is not a legal instance of the data model language, and the
Processor cannot translate it into one, then the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.execution in the internal event queue at the point at
which it attempts to bind _event. In this case, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> leave the
event data part of the _event structure unbound. (Note that the
event's name will still be available, however and that processing
of both the original event and the error event will proceed as
usual.)</li>

<li><em>_sessionid</em>. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> bind the
variable _sessionid at load time to the system-generated id for the
current SCXML session. (This is of of type NMTOKEN.) The Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> keep
the variable bound to this value until the session terminates.</li>

<li><em>_name</em>. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> bind the
variable _name at load time to the value of the 'name' attribute of
the &lt;scxml&gt; element. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> keep the
variable bound to this value until the session terminates.</li>

<li><em>_ioprocessors</em>. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> bind the
variable _ioprocessors to a set of values, one for each Event I/O
Processor that it supports. The value associated with each I/O
Processor gives an address that external entities can use to
communicate with this SCXML session using that Event I/O Processor.
The underlying data structure and the syntax to access it depend on
the data model. See <a href="#profiles"><b>D Data Models</b></a>
for details. The nature of the values associated with the
individual Event I/O Processors depends on the Event I/O Processor
in question. See <a href="#eventioprocessors"><b>E Event I/O
Processors</b></a> for details. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> keep the
variable bound to this set of values until the session
terminates.</li>

<li><em>_x</em>. The variable _x is the root element for
platform-specific system variables. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place all
platform-specific system variables underneath it. The exact
structure of the platform-specific variables depends on the data
model. For example, in the ECMAScript datamodel <a
href="#ecma-profile"><b>D.2 The ECMAScript Data Model</b></a>, '_x'
will be a top-level ECMAScript object and the platform-specific
system variables will be its properties.</li>
</ul>

<p>The set of system variables may be expanded in future versions
of this specification. Variable names beginning with '_' are
reserved for system use. A conformant SCXML document <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
contain ids beginning with '_' in the &lt;data&gt; element.
Platforms <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place all platform-specific system
variables under the '_x' root.</p>

<p>The concrete realization of these variables in a specific data
model depends on the language used. For the exact location of these
variables in an XML data model, see <a href="#xpath-profile"><b>D.3
The XPath Data Model</b></a>. The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> cause any
attempt to change the value of a system variable to fail and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.execution on the internal event queue when such an
attempt is made.</p>

<div class="div3">
<h4><a id="InternalStructureofEvents"
name="InternalStructureofEvents" />5.11.1 The Internal Structure of
Events</h4>

<p>Events have an internal structure which is reflected in the
_event variable. This variable can be accessed to condition
transitions (via boolean expressions in the 'cond' attribute) or to
update the datamodel (via &lt;assign&gt;), etc.</p>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> insure that the following fields are
present in all events, whether internal or external.</p>

<ul>
<li><em>name</em>. This is a character string giving the name of
the event. It is what is matched against the 'event' attribute of
&lt;transition&gt;. Note that transitions can do additional tests
by using the value of this field inside boolean expressions in the
'cond' attribute.</li>

<li><em>type</em>. This field describes the event type. The SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> set it to: "platform" (for events raised
by the platform itself, such as error events), "internal" (for
events raised by &lt;raise&gt; and &lt;send&gt; with target
'_internal') or "external" (for all other events).</li>

<li><em>sendid</em>. In the case of error events triggered by a
failed attempt to send an event, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> set this
field to the send id of the triggering &lt;send&gt; element.
Otherwise it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> leave it blank.</li>

<li><em>origin</em>. This a URI, equivalent to the 'target'
attribute on the &lt;send&gt; element. If this event was received
from an external entity, the SCXML Processor <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em> set
this field to a value which, in combination with the "origintype"
field, will allow the receiver of the event to &lt;send&gt; a
response back to the originating entity. Otherwise, the Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> leave
this field blank.</li>

<li><em>origintype</em>. If this event was received from an
external entity, the SCXML Processor <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em> set
this field to a value which, in combination with the 'origin'
field, will allow the receiver of the event to &lt;send&gt; a
response back to the originating entity. Otherwise, the Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> leave
this field blank.</li>

<li><em>invokeid</em>. If this event is generated from an invoked
child process, the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> set this field to the invoke id of the
invocation that triggered the child process. Otherwise it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> leave it
blank.</li>

<li><em>data</em>. This field contains whatever data the sending
entity chose to include in this event. The receiving SCXML
Processor <em title="SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em> reformat this data to match its data
model, but <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> otherwise modify it. If the
conversion is not possible, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> leave the
field blank and <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> place an error in the internal event
queue.</li>
</ul>
</div>
</div>
</div>

<div class="div1">
<h2><a id="external-module" name="external-module" />6 External
Communications</h2>

<div class="div2">
<h3><a id="ExternalIntroduction" name="ExternalIntroduction" />6.1
Introduction</h3>

<p>[This section is informative.]</p>

<p>The External Communications capability allows an SCXML session
to send and receive events from external entities, and to invoke
external services. <a href="#send"><b>6.2 &lt;send&gt;</b></a>
provides "fire and forget" capability to deliver events and data to
any destination, including other SCXML sessions. The 'delay'
attribute allows for deferred event delivery and can be used to
implement a timer. The details of event transport as well as the
format of the event and data are determined by the Event I/O
Processor selected. Each implementation will support one or more
such processor, and the author of the SCXML markup can choose the
one that is appropriate for the type of endpoint he is trying to
reach.</p>

<p><a href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> offers a more
tightly coupled form of communication, specifically the ability to
trigger a platform-defined service and pass data to it. It and its
child &lt;finalize&gt; are useful in states that model the behavior
of an external service. The &lt;invoke&gt; element is executed
after the state's &lt;onentry&gt; element and causes an instance of
the external service to be created. The &lt;param&gt; and
&lt;content&gt; elements and the 'namelist' attribute can be used
to pass data to the service. Any events that are received by the
state machine from the invoked component during the invocation are
preprocessed by the &lt;finalize&gt; handler <em>before</em>
transitions are selected. The &lt;finalize&gt; code is used to
normalize the form of the returned data and to update the data
model before the transitions' "event" and "cond" clauses are
evaluated.</p>

<p>When parallel states invoke the same external service
concurrently, separate instances of the external service will be
started. They can be distinguished by ids which are associated with
them. Similarly, the ids contained in the events returned from the
external services can be used to determine which events are
responses to which invocation. Each event that is returned will be
processed only by the &lt;finalize&gt; in the state that invoked
it, but that event is then processed like any other event that the
state machine receives. The finalize code can thus be thought of as
a preprocessing stage that applies before the event is added to the
event queue. Note that the event will be passed to all parallel
states to check for transitions.</p>

<p>Since an invocation will be canceled when the state machine
leaves the invoking state, it does not make sense to start an
invocation in a state that will be exited immediately. Therefore
the &lt;invoke&gt; element is executed upon entry into the state,
but only <em>after</em> checking for eventless transitions and
transitions driven by pending internal events. If any such enabled
transition is found , it is taken and the state is exited
immediately, without triggering the invocation. Thus invocations
are triggered only when the state machine has reached a stable
configuration, i.e., one that it will be staying in while it waits
for external events. (See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.)</p>
</div>

<div class="div2">
<h3><a id="send" name="send" />6.2 &lt;send&gt;</h3>

<div class="div3">
<h4><a id="N10D38" name="N10D38" />6.2.1 Overview</h4>

<p>&lt;send&gt; is used to send events and data to external
systems, including external SCXML Interpreters, or to raise events
in the current SCXML session.</p>
</div>

<div class="div3">
<h4><a id="N10D3D" name="N10D3D" />6.2.2 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>event</td>
<td>false</td>
<td>Must not occur with 'eventexpr'. If the type is 'scxml', either
this attribute or 'eventexpr' must be present.</td>
<td>EventType.datatype</td>
<td>none</td>
<td></td>
<td>A string indicating the name of message being generated. See <a
href="#schemas"><b>B Schema</b></a> for details on the data
type.</td>
</tr>

<tr>
<td>eventexpr</td>
<td>false</td>
<td>Must not occur with 'event'. If the type is 'scxml', either
this attribute or 'event' must be present.</td>
<td>Value expression</td>
<td>none</td>
<td></td>
<td>A dynamic alternative to 'event'. If this attribute is present,
the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent &lt;send&gt;
element is evaluated and treat the result as if it had been entered
as the value of 'event'.</td>
</tr>

<tr>
<td>target</td>
<td>false</td>
<td>Must not occur with 'targetexpr'</td>
<td>URI</td>
<td>none</td>
<td>A valid target URI</td>
<td>The unique identifier of the message target that the platform
should send the event to. See <a href="#SendTargets"><b>6.2.4 The
Target of Send</b></a> for details.</td>
</tr>

<tr>
<td>targetexpr</td>
<td>false</td>
<td>Must not occur with 'target'</td>
<td>Value expression</td>
<td>none</td>
<td>An expression evaluating to a valid target URI</td>
<td>A dynamic alternative to 'target'. If this attribute is
present, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent &lt;send&gt;
element is evaluated and treat the result as if it had been entered
as the value of 'target'.</td>
</tr>

<tr>
<td>type</td>
<td>false</td>
<td>Must not occur with 'typeexpr'</td>
<td>string</td>
<td>none</td>
<td></td>
<td>A token that specifies the transport mechanism for the message.
See <a href="#SendTypes"><b>6.2.5 The Type of Send</b></a> for
details.</td>
</tr>

<tr>
<td>typeexpr</td>
<td>false</td>
<td>Must not occur with 'type'</td>
<td>value expression</td>
<td>none</td>
<td></td>
<td>A dynamic alternative to 'type'. If this attribute is present,
the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent &lt;send&gt;
element is evaluated and treat the result as if it had been entered
as the value of 'type'.</td>
</tr>

<tr>
<td>id</td>
<td>false</td>
<td>Must not occur with 'idlocation'.</td>
<td>xml:ID</td>
<td>none</td>
<td>Any valid token</td>
<td>A string literal to be used as the identifier for this instance
of &lt;send&gt;. See <a href="#IDs"><b>3.14 IDs</b></a> for
details.</td>
</tr>

<tr>
<td>idlocation</td>
<td>false</td>
<td>Must not occur with 'id'.</td>
<td>Location expression</td>
<td>none</td>
<td>Any valid location expression</td>
<td>Any location expression evaluating to a data model location in
which a system-generated id can be stored. See below for details.
for details.</td>
</tr>

<tr>
<td>delay</td>
<td>false</td>
<td>Must not occur with 'delayexpr' or when the attribute 'target'
has the value "_internal".</td>
<td>Duration.datatype</td>
<td>None</td>
<td>A time designation as defined in CSS2 <a
href="#CSS2">[CSS2]</a> format</td>
<td>Indicates how long the processor should wait before dispatching
the message. See <a href="#schemas"><b>B Schema</b></a> for details
on the data type.</td>
</tr>

<tr>
<td>delayexpr</td>
<td>false</td>
<td>Must not occur with 'delay' or when the attribute 'target' has
the value "_internal".</td>
<td>Value expression</td>
<td>None</td>
<td>A value expression which returns a time designation as defined
in CSS2 <a href="#CSS2">[CSS2]</a> format</td>
<td>A dynamic alternative to 'delay'. If this attribute is present,
the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent &lt;send&gt;
element is evaluated and treat the result as if it had been entered
as the value of 'delay'.</td>
</tr>

<tr>
<td>namelist</td>
<td>false</td>
<td>Must not be specified in conjunction with the &lt;content&gt;
element.</td>
<td>List of location expressions</td>
<td>none</td>
<td>List of data model locations</td>
<td>A space-separated list of one or more data model locations to
be included with the message. See <a
href="#LocationExpressions"><b>5.10.2 Location Expressions</b></a>
for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N10E1E" name="N10E1E" />6.2.3 Children</h4>

<ul>
<li>&lt;param&gt;. The SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> evaluate
this element when the parent &lt;send&gt; element is evaluated and
pass the resulting data unmodified to the external service when the
message is delivered. Occurs 0 or more times. See <a
href="#param"><b>5.8 &lt;param&gt;</b></a> for details. If
&lt;param&gt; and 'namelist' both occur, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
values generated by &lt;param&gt; after those in the 'namelist'. If
any &lt;param&gt; item has the same name as a 'namelist' item, the
SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> include both.</li>

<li>&lt;content&gt;. The SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> extract
the children of this element when the parent &lt;send&gt; element
is evaluated and pass the resulting data unmodified to the external
service when the message is delivered. The material <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> consist of
non-XML markup or XML markup in any namespace. Occurs 0 or 1 times.
See <a href="#content"><b>5.7 &lt;content&gt;</b></a> for
details.</li>
</ul>

<p>A conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify either 'event', 'eventexpr' or
in-line content. A conformant document <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
specify 'event' in conjunction with the inline content. A
conformant document <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> specify both "namelist" and
&lt;content&gt;.</p>

<p>If 'idlocation' is present, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> generate
an id when the parent &lt;send&gt; element is evaluated and store
it in this location. See <a href="#IDs"><b>3.14 IDs</b></a> for
details.</p>

<p>If a delay is specified via 'delay' or 'delayexpr', the SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> interpret the character string as a time
interval. It <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> dispatch the message only when the delay
interval elapses. (Note that the evaluation of the
<code>send</code> tag will return immediately.) The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> evaluate
all arguments to &lt;send&gt; when the &lt;send&gt; element is
evaluated, and not when the message is actually dispatched. If the
SCXML session terminates before the delay interval has elapsed, the
SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> discard the message without attempting to
deliver it.</p>
</div>

<div class="div3">
<h4><a id="SendTargets" name="SendTargets" />6.2.4 The Target of
Send</h4>

<p>The target of the &lt;send&gt; operation specifies the
destination of the event. The target is defined by either the
'target' or the 'targetexpr' attribute. In most cases, the format
of the target depends on the type of the target (for example a SIP
URL for SIP-INFO messages or a HTTP URL for Web Services). In
addition, this specification defines the following special values,
which SCXML Processors <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support:</p>

<ul>
<li>#_internal. If the target is the special term '#_internal', the
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> add the event to the internal event queue
of the sending session.</li>

<li>#_scxml_<em>sessionid</em>. If the target is the special term
'#_scxml_<em>sessionid</em>', where <em>sessionid</em> is the id of
an SCXML session that is accessible to the Processor, the Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> add
the event to the external queue of that session. The set of SCXML
sessions that are accessible to a given SCXML Processor is
platform-dependent.</li>

<li>#_parent. If the target is the special term '#_parent', the
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> add the event to the external event queue
of the SCXML session that invoked the sending session, if there is
one. See <a href="#invoke"><b>6.4 &lt;invoke&gt;</b></a> for
details.</li>

<li>#_<em>invokeid</em>. If the target is the special term
'#_<em>invokeid</em>', where <em>invokeid</em> is the invokeid of
an SCXML session that the sending session has created by
&lt;invoke&gt;, the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> must add the event to the external queue
of that session. See <a href="#invoke"><b>6.4
&lt;invoke&gt;</b></a> for details.</li>
</ul>

<p>If neither the 'target' nor the 'targetexpr' attribute is
specified, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> add the event will be added to the
external event queue of the sending session. If the value of the
'target' or 'targetexpr' attribute is not supported or invalid, the
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the error error.execution on the
internal event queue. If it is unable to reach the target, the
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the error error.communication on
the internal event queue.</p>
</div>

<div class="div3">
<h4><a id="SendTypes" name="SendTypes" />6.2.5 The Type of
Send</h4>

<p>The type of the &lt;send&gt; operation specifies the method that
the SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> use to deliver the message to its target.
A conformant SCXML document <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> use either the 'type' or the 'typeexpr'
attribute to define the type. If neither the 'type' nor the
'typeexpr' is defined, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> assume
the default value of 'scxml. If the SCXML Processor does not
support the type that is specified, it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
event error.execution on the internal event queue.</p>

<p>SCXML Processors <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support the following type:</p>

<table border="1" cellpadding="2" cellspacing="2"
summary="send type values" width="100%">
<tbody>
<tr>
<th align="center">Value</th>
<th align="center">Details</th>
</tr>

<tr>
<td align="center">"scxml"</td>
<td align="left">Target is an SCXML session. The transport
mechanism is platform-specific.</td>
</tr>
</tbody>
</table>

<p>For details on the 'scxml' type, see <a
href="#SCXMLEventProcessor"><b>E.1 SCXML Event I/O
Processor</b></a>.</p>

<p>Support for HTTP POST is optional, however Processors that
support it <em>must</em> use the following value for the "type"
attribute:</p>

<table border="1" cellpadding="2" cellspacing="2"
summary="send type values" width="100%">
<tbody>
<tr>
<th align="center">Value</th>
<th align="center">Details</th>
</tr>

<tr>
<td align="center">"basichttp"</td>
<td align="left">Target is a URL. Data is sent via HTTP POST</td>
</tr>
</tbody>
</table>

<p>For details on the 'basichttp' type, see <a
href="#BasicHTTPEventProcessor"><b>E.2 Basic HTTP Event I/O
Processor</b></a>.</p>

<p>Support for DOM event delivery is optional, however Processors
that support it <em>must</em> use the following value for the
"type" attribute:</p>

<table border="1" cellpadding="2" cellspacing="2"
summary="send type values" width="100%">
<tbody>
<tr>
<th align="center">Value</th>
<th align="center">Details</th>
</tr>

<tr>
<td align="center">"DOM"</td>
<td align="left">Target is a node in the current document, which
may contain markup from multiple namespaces. A DOM event will be
targeted at that node.</td>
</tr>
</tbody>
</table>

<p>For details on the 'DOM' type, see <a
href="#DOMEventProcessor"><b>E.3 DOM Event I/O
Processor</b></a>.</p>

<p>Processors <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> support other types such as web-services,
SIP or basic HTTP GET. However, they <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em>
assign such types names beginning with "x-" to signify that they
are platform dependent.</p>
</div>

<div class="div3">
<h4><a id="SendContent" name="SendContent" />6.2.6 Message
Content</h4>

<p>The sending SCXML Interpreter <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> not alter
the content of the &lt;send&gt; and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> include
it in the message that it sends to the destination specified in the
target attribute of &lt;send&gt;.</p>

<p>Note that the document author can specify the message content in
one of two mutually exclusive ways:</p>

<ul>
<li>An optional 'event' attribute, combined with an optional
'namelist' attribute, combined with 0 or more &lt;param&gt;
children. Here is an example using the 'event' and 'namelist'
attributes:

<div class="exampleInner">
<pre>
&lt;datamodel&gt;
&lt;data id="target" expr="'tel:+18005551212'"/&gt;
&lt;data id="content" expr="'http://www.example.com/mycontent.txt'"/&gt;
&lt;/datamodel&gt;
   ...
&lt;send target="target" type="x-messaging" event="fax.SEND" namelist="content"/&gt;
</pre>
</div>
</li>

<li>A single &lt;content&gt; child containing explicit inline XML
content specifying the message body. See <a href="#content"><b>5.7
&lt;content&gt;</b></a> for details.

<div class="exampleInner">
<pre>
&lt;send target="csta://csta-server.example.com/" type="x-csta"&gt;
      &lt;content&gt;
      &lt;csta:MakeCall&gt;
        &lt;csta:callingDevice&gt;22343&lt;/callingDevice&gt;
        &lt;csta:calledDirectoryNumber&gt;18005551212&lt;/csta:calledDirectoryNumber&gt;
      &lt;/csta:MakeCall&gt;
      &lt;/content&gt;
&lt;/send&gt;
</pre>
</div>
</li>
</ul>

<p>Note that the absence of any error events does not mean that the
event was successfully delivered to its target, but only that the
platform was able to dispatch the event.</p>
</div>
</div>

<div class="div2">
<h3><a id="cancel" name="cancel" />6.3 &lt;cancel&gt;</h3>

<p>The &lt;cancel&gt; element is used to cancel a delayed
&lt;send&gt; event. The SCXML Processor <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
allow &lt;cancel&gt; to affect events that were not raised in the
same document. The Processor <em title="SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em> make its best attempt to cancel the
delayed event. Note, however, that it can not be guaranteed to
succeed, for example if the event has already been delivered by the
time the &lt;cancel&gt; tag executes.</p>

<div class="div3">
<h4><a id="N10F61" name="N10F61" />6.3.1 Attribute Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>sendid</td>
<td>false</td>
<td>Must not occur with sendidexpr.</td>
<td>IDREF</td>
<td>none</td>
<td>The ID of a delayed event</td>
<td>The ID of the event which is to be canceled.</td>
</tr>

<tr>
<td>sendidexpr</td>
<td>false</td>
<td>Must occur with sendid.</td>
<td>Value Expression</td>
<td>none</td>
<td>Any expression that evaluates to the ID of a delayed event</td>
<td>A dynamic alternative to 'sendid'. If this attribute is
present, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent
&lt;cancel&gt; element is evaluated and treat the result as if it
had been entered as the value of 'sendid'.</td>
</tr>
</tbody>
</table>
</div>

<p>A conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify exactly one of sendid or
sendidexpr.</p>

<div class="div3">
<h4><a id="N10F9F" name="N10F9F" />6.3.2 Children</h4>

<p>None</p>
</div>
</div>

<div class="div2">
<h3><a id="invoke" name="invoke" />6.4 &lt;invoke&gt;</h3>

<p>The &lt;invoke element is used to create an instance of an
external service.</p>

<div class="div3">
<h4><a id="invokeattrs" name="invokeattrs" />6.4.1 Attribute
Details</h4>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>type</td>
<td>false</td>
<td>Must not occur with the 'typeexpr' attribute.</td>
<td>NMTOKEN</td>
<td>none</td>
<td>'scxml', 'vxml2', 'vxml3', 'ccxml', plus other
platform-specific values.</td>
<td>A string specifying the type of the external service. See below
for details.</td>
</tr>

<tr>
<td>typeexpr</td>
<td>false</td>
<td>Must not occur with the 'type' attribute.</td>
<td>value expression</td>
<td>none</td>
<td>Any value expression that evaluates to a character string that
would be a valid value for 'type'.</td>
<td>A dynamic alternative to 'type'. If this attribute is present,
the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent
&lt;invoke&gt; element is evaluated and treat the result as if it
had been entered as the value of 'type'.</td>
</tr>

<tr>
<td>src</td>
<td>false</td>
<td>Must not occur with the 'srcexpr' attribute or the
&lt;content&gt; element.</td>
<td>URI</td>
<td>None</td>
<td>Any URI.</td>
<td>A URI to be passed to the external service. See below for
details.</td>
</tr>

<tr>
<td>srcexpr</td>
<td>false</td>
<td>Must not occur with the 'src' attribute or the &lt;content&gt;
element.</td>
<td>Value expression</td>
<td>None</td>
<td>Any expression evaluating to a valid URI.</td>
<td>A dynamic alternative to 'src'. If this attribute is present,
the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> evaluate it when the parent
&lt;invoke&gt; element is evaluated and treat the result as if it
had been entered as the value of 'src'.</td>
</tr>

<tr>
<td>id</td>
<td>false</td>
<td>Must not occur with the 'idlocation' attribute.</td>
<td>ID</td>
<td>none</td>
<td>Any valid token</td>
<td>A string literal to be used as the identifier for this instance
of &lt;invoke&gt;. See <a href="#IDs"><b>3.14 IDs</b></a> for
details.</td>
</tr>

<tr>
<td>idlocation</td>
<td>false</td>
<td>Must not occur with the 'id' attribute.</td>
<td>Location expression</td>
<td>none</td>
<td>Any valid location expression</td>
<td>Any data model expression evaluating to a data model location.
See <a href="#LocationExpressions"><b>5.10.2 Location
Expressions</b></a> for details.</td>
</tr>

<tr>
<td>namelist</td>
<td>false</td>
<td>Must not occur with the &lt;content&gt; element.</td>
<td>List of location expressions</td>
<td>none</td>
<td>List of data model locations</td>
<td>A space-separated list of zero or more data model locations to
be passed to the invoked service. See See <a
href="#DataSharing"><b>6.4.4 Data Sharing</b></a> and <a
href="#LocationExpressions"><b>5.10.2 Location Expressions</b></a>
for details.</td>
</tr>

<tr>
<td>autoforward</td>
<td>false</td>
<td />
<td>boolean</td>
<td>false</td>
<td>true or false</td>
<td>A flag indicating whether to forward events to the invoked
process. See below for details.</td>
</tr>
</tbody>
</table>
</div>

<div class="div3">
<h4><a id="N1104C" name="N1104C" />6.4.2 Children</h4>

<ul>
<li>&lt;param&gt;. Element containing data to be passed to the
external service. Occurs 0 or more times. See <a
href="#param"><b>5.8 &lt;param&gt;</b></a>.</li>

<li>&lt;finalize&gt;. Element containing executable content to
massage the data returned from the invoked component. Occurs 0 or 1
times. See <a href="#finalize"><b>6.5 &lt;finalize&gt;</b></a> for
details.</li>

<li>&lt;content&gt;. Element containing arbitrary material to be
passed to the invoked component. The material <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> consist of
non-XML markup or XML markup in any namespace. Occurs 0 or 1 times.
See <a href="#content"><b>5.7 &lt;content&gt;</b></a> for
details.</li>
</ul>

<p>A conformant SCXML Document <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
specify more than one of 'src', &lt;param&gt;, or &lt;content&gt;.
However it <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> specify &lt;param&gt; multiple times.</p>
</div>

<p>Platforms <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support 'scxml' as a value for the 'type'
attribute. Platforms <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> support 'vxml2', which indicates a
VoiceXML 2.x interpreter, 'vxml3' which indicates a VoiceXML 3.x
interpreter, and 'ccxml', which indicates a CCXML 1.0 interpreter.
Platforms <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> support additional values, but they <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em> name
the values beginning with "x-" to signify that they are platform
dependent.</p>

<p>A conformant SCXML document <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> specify either the 'id' or 'idlocation'
attribute, but <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> specify both. If the 'idlocation'
attribute is present, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> generate
an id automatically when the &lt;invoke&gt; element is evaluated
and store it in the location specified by 'idlocation'. (In the
rest of this document, we will refer to this identifier as the
"invokeid", regardless of whether it is specified by the author or
generated by the platform). The automatically generated identifier
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> have
the form <em>stateid.platformid</em>, where <em>stateid</em> is the
id of the state containing this element and <em>platformid</em> is
automatically generated. <em>platformid</em> <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> be unique
within the current session.</p>

<p>When the &lt;invoke&gt; element is executed, the SCXML Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> start
a new logical instance of the external service specified in 'type'
or 'typexpr', passing it the URL specified by 'src' or the data
specified by &lt;content&gt;, or &lt;param&gt;. The service
instance <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> be local or remote. In addition to the
explicit arguments, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> keep
track of the unique invokeid and insure that it is included in all
events that the invoked service returns to the invoking
session.</p>

<p>When the 'autoforward' attribute is set to true, the SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> send an exact copy of every external
event it receives to the invoked process. All the fields specified
in <a href="#InternalStructureofEvents"><b>5.11.1 The Internal
Structure of Events</b></a> <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> have the same values in the forwarded
copy of the event. The SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> forward
the event at the point at which it removes it from the external
event queue of the invoking session for processing. See <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> for details.</p>

<p>The external service <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> return multiple events while it is
processing. If there is a &lt;finalize&gt; handler in the instance
of &lt;invoke&gt; that created the service that generated the
event, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> execute the code in that &lt;finalize&gt;
handler right before it removes the event from the event queue for
processing. It <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> execute the &lt;finalize&gt; handler
in any other instance of &lt;invoke&gt;. Once the external service
has finished processing it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> return a special event
'done.invoke.<em>id</em>' to the external event queue of the
invoking process, where <em>id</em> is the invokeid for the
corresponding &lt;invoke&gt; element. The external service <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
generate any other events after this done event. If the invoking
session takes a transition out of the state containing the
&lt;invoke&gt; before it receives the 'done.invoke.<em>id</em>'
event, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> automatically cancel the invoked
component and stop its processing. The cancel operation <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> act as if
it were the final &lt;onexit&gt; handler in the invoking state.</p>

<p>Invoked services of type 'scxml', 'ccxml', 'vxml2' or 'vxml3'
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
interpret values specified by the &lt;content&gt; element or 'src'
attribute as markup to be executed. Similarly, they <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> interpret
values specified by &lt;param&gt; element or 'namelist' attribute
as values that are to be injected into their data models. For
targets of other invoked service types, the interpretation of
&lt;param&gt; and &lt;content&gt; elements and the 'src' and
'namelist' attributes is platform-specific. However, these services
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> treat
values specified by &lt;param&gt; and namelist identically. They
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> also
treat values specified by 'src' and &lt;content&gt;
identically.</p>

<div class="div3">
<h4><a id="invokeimplementation"
name="invokeimplementation" />6.4.3 Implementation of
&lt;invoke&gt;</h4>

<p>The implementation of &lt;invoke&gt;, including communication
between parent and child processes, is platform-specific, but the
following requirements hold in the case where the invoked process
is itself an SCXML session:</p>

<ul>
<li>If the 'name' of a &lt;param&gt; element in the &lt;invoke&gt;
matches the 'id' of a &lt;data&gt; element in the top-level data
declarations of the invoked session, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use the
value of the &lt;param&gt; element as the initial value of the
corresponding &lt;data&gt; element. (The top-level data
declarations are those that are contained in the &lt;datamodel&gt;
element that is a child of &lt;scxml&gt;.) (Note that this means
that any value specified in the &lt;data&gt; element is ignored.)
The behavior of 'namelist' is similar. If the value of a key in the
namelist matches the 'id' of a &lt;data&gt; element in the
top-level data model of the invoked session, the SCXML Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> use
the value of the key as the initial value of the corresponding
&lt;data&gt; element. If the names do not match, the Processor <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
add the value of the &lt;param&gt; element or namelist key/value
pair the invoked session's data model. However the Processor <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> make the
values available by some other platform-specific means.</li>

<li>When the invoked state machine reaches a top-level final state,
the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the event done.invoke.<em>id</em>
on the external event queue of the invoking machine, where
<em>id</em> is the invokeid for this invocation. Note that reaching
a top level final state corresponds to normal termination of the
machine and that it cannot generate or process any further events
once it is in this state.</li>

<li>As described above, if the invoking state machine exits the
state containing the invocation before it receives the
done.invoke.<em>id</em> event, it cancels the invoked session. To
do this, the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> send the event cancel.invoke.<em>id</em>
to the invoked session, where <em>id</em> is the identifier
corresponding to the &lt;invoke&gt; element. When the invoked
session receives this event, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> act as if
the 'continue' variable specified in <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a> has been set to 'false'. (This will cause
the invoked session to exit at the end of the next microstep. Note
that the cancel.invoke.<em>id</em> is not inserted into the event
queue of the invoked session and is not visible to markup in the
invoked document.) The Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> execute
the &lt;onexit&gt; handlers for all active states in the invoked
session, but it <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> generate the done.invoke.<em>id</em>
event. Once it cancels the invoked session, the Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> ignore
any events it receives from that session. In particular it <em
title="MUST NOT in RFC2119 context" class="RFC2119">MUST NOT</em>
not insert them into the external event queue of the invoking
session.</li>

<li>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> use the SCXML Event/IO processor (<a
href="#SCXMLEventProcessor"><b>E.1 SCXML Event I/O
Processor</b></a>) to communicate between the invoking and the
invoked sessions.</li>
</ul>
</div>

<div class="div3">
<h4><a id="DataSharing" name="DataSharing" />6.4.4 Data
Sharing</h4>

<p>[This section is informative.]</p>

<p>The invoked external resource is logically separate from the
state machine that invokes it and does not share data with it
unless the author explicitly requests this with the &lt;param&gt;
or &lt;content&gt; elements and/or the 'src' and 'namelist'
attributes.</p>

<p>The invoked and invoking process can also communicate via
events. In addition to automatic forwarding specified by the
'autoforward' attribute. SCXML scripts can also use the
&lt;send&gt; tag to send messages to the child process on an ad-hoc
basis. The 'type' attribute of &lt;send&gt; is set to the same
value as was used in the original &lt;invoke&gt;, while the target
has the special form #_<em>invokeid</em>, where <em>invokeid</em>
is the identifier corresponding to the original &lt;invoke&gt; tag.
For example, in a document using ECMAScript as the data model, the
following code would invoke a VXML session:</p>

<div class="exampleInner">
<pre>
  &lt;invoke type="vxml" idlocation="myInvoke"/&gt;

</pre>
</div>

<p>In this case, the unique invoke identifier has been stored in
the data model location MyInvoke. Since the target attribute is an
expression which is evaluated, the following code will extract that
identifier and send a message to the invoked VXML session:</p>

<div class="exampleInner">
<pre>

  &lt;send type="vxml" targetexpr="'#' + myInvoke"/&gt;

</pre>
</div>

<p>Finally, in the case where the invoked external service is an
SCXML session, it can use &lt;send&gt; with the special target
'_parent' and type 'scxml' to send events, possibly containing
data, to the invoking session.</p>
</div>
</div>

<div class="div2">
<h3><a id="finalize" name="finalize" />6.5 &lt;finalize&gt;</h3>

<p>The &lt;finalize&gt; element enables an invoking session to
update its data model with data contained in events returned by the
invoked session. &lt;finalize&gt; contains executable content that
is executed whenever the external service returns an event after
the &lt;invoke&gt; has been executed. This content is applied
before the system looks for transitions that match the event.
Within the executable content, the system variable '_event' can be
used to refer to the data contained in the event which is being
processed.In the case of parallel states, only the finalize code in
the original invoking state is executed.</p>

<div class="div3">
<h4><a id="N11150" name="N11150" />6.5.1 Attribute Details</h4>

<p>None.</p>
</div>

<div class="div3">
<h4><a id="N11155" name="N11155" />6.5.2 Children</h4>

<p>&lt;finalize&gt;'s children consist of 0 or more elements of
executable content.</p>
</div>

<p>In a conformant SCXML document, the executable content inside
&lt;finalize&gt; <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> raise events or invoke external
actions. In particular, the &lt;send&gt; and &lt;raise&gt; elements
<em title="MUST NOT in RFC2119 context" class="RFC2119">MUST
NOT</em> occur.</p>

<p>If no executable content is specified, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> update
the data model with any return values that have a name that matches
the 'location' attribute of a &lt;param&gt; element inside the
&lt;invoke&gt;. Thus the effect of an &lt;invoke&gt; with
&lt;param&gt; element with a 'location' attribute coupled with an
empty &lt;finalize&gt; element is first to send the part of the
data model specified by 'location' to the invoked component and
then to update that part of the data model with the returned
values. Note that the automatic update does not take place if the
&lt;finalize&gt; element is absent as opposed to empty.</p>

<p>In the example below, a state machine using an ECMAScript data
model invokes a clock object that returns the current time in a
ping event with an XML payload that includes the currentSecond,
currentMinute, currentHour (1-12), and an isAm flag.
&lt;finalize&gt; maps this data into an ECMAScript date object that
is used in the condition of a transition. Thus &lt;finalize&gt;
normalizes the data before the conditions on transitions are
evaluated.</p>

<div class="exampleInner">
<pre>
&lt;scxml version="1.0" datamodel="ecmascript"&gt;
....
 &lt;state id="getTime"&gt;
   &lt;transition event="ping" cond="time.getHours() &gt; 17 ||  time.getHours() &lt; 9" target="storeClosed"/&gt;
   &lt;transition event="ping" target="takeOrder"/&gt;
   &lt;datamodel&gt;
     &lt;data id="time" expr="new Date()"/&gt;
   &lt;/datamodel&gt;
   &lt;invoke id="timer" type="x-clock" src="clock.pl"&gt;
     &lt;finalize&gt;
       &lt;script&gt;
         time.setSeconds(_event.data.currentSecond);
         time.setMinutes(_event.data.currentMinute);
         time.setHours(_event.data.currentHour + (_event.isAm ? 0 : 12) - 1);
       &lt;/script&gt;
     &lt;/finalize&gt;
   &lt;/invoke&gt;
 &lt;/state&gt;
....

</pre>
</div>
</div>
</div>
</div>

<div class="back">
<div class="div1">
<h2><a id="AlgorithmforSCXMLInterpretation"
name="AlgorithmforSCXMLInterpretation" />A Algorithm for SCXML
Interpretation</h2>

<p>This section presents a normative algorithm for the
interpretation of an SCXML document. Implementations are free to
implement SCXML interpreters in any way they choose, but they must
behave <em>as if</em> they were using the algorithm defined
here.</p>

<p>The fact that SCXML implements a variant of the Statechart
formalism does not as such determine a semantics for SCXML. Many
different Statechart variants have been proposed, each with its own
semantics. This section presents an informal semantics of SCXML
documents, as well as a normative algorithm for the interpretation
of SCXML documents.</p>

<h2 id="InformalSemantics">Informal Semantics</h2>

<p>The following definitions and highlevel principles and
constraint are intended to provide a background to the normative
algorithm, and to serve as a guide for the proper understanding of
it.</p>

<h3 id="PrelimaryDefinitions">Preliminary definitions</h3>

<dl>
<dt class="label">state</dt>

<dd>An element of type &lt;state&gt;, &lt;parallel&gt;,
&lt;final&gt; or &lt;scxml&gt;.</dd>

<dt class="label">pseudo state</dt>

<dd>An element of type &lt;initial&gt; or &lt;history&gt;.</dd>

<dt class="label">transition target</dt>

<dd>A state, or an element of type &lt;history&gt;.</dd>

<dt class="label">atomic state</dt>

<dd>A state of type &lt;state&gt; with no child states, or a state
of type &lt;final&gt;.</dd>

<dt class="label">compound state</dt>

<dd>A state of type &lt;state&gt; with at least one child
state.</dd>

<dt class="label">configuration</dt>

<dd>The maximal consistent set of states (including parallel and
final states) that the machine is currently in. We note that if a
state s is in the configuration c, it is always the case that the
parent of s (if any) is also in c. Note, however, that
&lt;scxml&gt; is not a(n explicit) member of the
configuration.</dd>

<dt class="label">source state</dt>

<dd>The source state of a transition is the atomic state from which
the transition departs.</dd>

<dt class="label">target state</dt>

<dd>A target state of a transition is a state that the transition
is entering. Note that a transition can have zero or more target
states.</dd>

<dt class="label">targetless transition</dt>

<dd>A transition having zero target states.</dd>

<dt class="label">eventless transition</dt>

<dd>A transition lacking the 'event' attribute.</dd>

<dt class="label">external event</dt>

<dd>An SCXML event appearing in the external event queue. Such
events are either sent by external sources or generated with the
&lt;send&gt; element.</dd>

<dt class="label">internal event</dt>

<dd>An event appearing in the internal event queue. Such events are
either raised automatically by the platform or generated with the
&lt;event&gt; element.</dd>

<dt class="label">microstep</dt>

<dd>A microstep involves the processing of a single transition (or,
in the case of parallel states, a single set of transitions.) A
microstep may change the the current configuration, update the
datamodel and/or generate new (internal and/or external) events.
This, by causality, may in turn enable additional transitions which
will be handled in the next microstep in the sequence, and so
on.</dd>

<dt class="label">macrostep</dt>

<dd>A macrostep consists of a sequence (a chain) of microsteps, at
the end of which the state machine is in a stable state and ready
to process an external event. Each external event causes an SCXML
state machine to take exactly one macrostep. However, if the
external event does not enable any transitions, no microstep will
be taken, and the corresponding macrostep will be empty.</dd>
</dl>

<h3 id="PrinciplesandConstraints">Principles and Constraints</h3>

<p>We state here some principles and constraints, on the level of
semantics, that SCXML adheres to:</p>

<dl>
<dt class="label">Encapsulation</dt>

<dd>An SCXML processor is a <em>pure event processor</em>. The only
way to get data into an SCXML statemachine is to send external
events to it. The only way to get data out is to receive events
from it.</dd>

<dt class="label">Causality</dt>

<dd>There shall be a <em>causal justification</em> of why events
are (or are not) returned back to the environment, which can be
traced back to the events provided by the system environment.</dd>

<dt class="label">Determinism</dt>

<dd>An SCXML statemachine which does not invoke any external event
processor must always react with the same behavior (i.e. the same
sequence of output events) to a given sequence of input events
(unless, of course, the statemachine is explicitly programmed to
exhibit an non-deterministic behavior). In particular, the
availability of the &lt;parallel&gt; element must not introduce any
non-determinism of the kind often associated with concurrency. Note
that observable determinism does not necessarily hold for state
machines that invoke other event processors.</dd>

<dt class="label">Completeness</dt>

<dd>An SCXML interpreter must always treat an SCXML document as
<em>completely</em> specifying the behavior of a statemachine. In
particular, SCXML is designed to use priorities (based on document
order) to resolve situations which other statemachine frameworks
would allow to remain under-specified (and thus non-deterministic,
although in a different sense from the above).</dd>

<dt class="label">Run to completion</dt>

<dd>SCXML adheres to a run to completion semantics in the sense
that an external event can only be processed when the processing of
the previous external event has completed, i.e. when all microsteps
(involving all triggered transitions) have been completely
taken.</dd>

<dt class="label">Termination</dt>

<dd>A microstep always terminates. A macrostep may not. A macrostep
that does not terminate may be said to consist of an infinitely
long sequence of microsteps. This is currently allowed.</dd>
</dl>

<h2 id="Algorithm">Algorithm</h2>

<p>This section presents a normative algorithm for the
interpretation of SCXML documents. Implementations are free to
implement SCXML interpreters in any way they choose, but they must
behave as <em>if</em> they were using the algorithm defined here.
Note that the algorithm assumes a Lisp-like semantics in which the
empty Set null is equivalent to boolean 'false' and all other
entities are equivalent to 'true'.</p>

<h3 id="Datatypes">Datatypes</h3>

<p>These are the abstract datatypes that are used in the
algorithm.</p>

<pre>
datatype List
   <code>function</code> head()      // Returns the head of the list
   <code>function</code> tail()      // Returns the tail of the list
   <code>function</code> append(l)   // Returns the list appended with l
   <code>function</code> filter(f)   // Returns the list of elements that satisfy the predicate f
   <code>function</code> some(f)     // Returns true if some element in the list satisfies the predicate f
   <code>function</code> every(f)    // Returns true if every element in the list satisfies the predicate f

datatype OrderedSet
   <code>procedure</code> add(e)     // Adds e to the set if it is not already a member
   <code>procedure</code> delete(e)  // Deletes e from the set
   <code>function</code> member(e)   // Is e a member of set?
   <code>function</code> isEmpty()   // Is the set empty?
   <code>function</code> toList()    // Converts the set to a list that reflects the order in which elements were originally added.
   <code>procedure</code> clear()    // Remove all elements from the set (make it empty)
   <code>function</code> diff(set2)  // Returns an OrderedSet containing all members of OrderedSet that are not in set2, preserving the original set order.


datatype Queue
   <code>procedure</code> enqueue(e) // Puts e last in the queue
   <code>function</code> dequeue()   // Removes and returns first element in queue
   <code>function</code> isEmpty()   // Is the queue empty?

datatype BlockingQueue
   <code>procedure</code> enqueue(e) // Puts e last in the queue
   <code>function</code> dequeue()   // Removes and returns first element in queue, blocks if queue is empty
</pre>

<h3 id="GlobalVariables">Global variables</h3>

<p>The following variables are global from the point of view of the
algorithm. Their values will be set in the
procedureinterpret().</p>

<pre>
global configuration
global previousConfiguration
global statesToInvoke
global datamodel
global internalQueue
global externalQueue
global historyValue
global continue
global binding
</pre>

<h3 id="Predicates">Predicates</h3>

<p>The following binary predicates are used for determining the
order in which states are entered and exited.</p>

<pre>
<code><a id="entryOrder"
name="entryOrder">entryOrder</a></code> // Ancestors precede descendants, with document order being used to break ties
<code><a id="exitOrder"
name="exitOrder">exitOrder</a></code>  // Descendants precede ancestors, with reverse document order being used to break ties
</pre>

<h3 id="ProceduresandFunctions">Procedures and Functions</h3>

<p>This section defines the procedures and functions that make up
the core of the SCXML interpreter.</p>

<h4 id="interpret"><code>procedure</code> interpret(scxml,id)</h4>

<p>The purpose of this procedure is to initialize the interpreter
and to start processing. It is called with a parsed representation
of an SCXML document.</p>

<p>In order to interpret an SCXML document, first convert initial
attributes to &lt;initial&gt; container children with transitions
to the state specified by the attribute (such transitions will not
contain any executable content). Then (optionally) validate the
resulting SCXML, and throw an exception if validation fails. Create
an empty configuration complete with a new populated instance of
the data model and a execute the global scripts. Create the two
queues to handle events and set the global continue variable to
true. Finally call enterState on the initial transition that is a
child of scxml and start the interpreter's event loop.</p>

<pre>
procedure interpret(doc):
    expandScxmlSource(doc)
    if not valid(doc): failWithError()
    configuration = new OrderedSet()
    previousConfiguration = new OrderedSet()
    statesToInvoke = new OrderedSet()
    datamodel = new Datamodel(doc)
    executeGlobalScriptElements(doc)
    internalQueue = new Queue()
    externalQueue = new BlockingQueue()
    continue = true
    binding = doc.binding
    if binding == "early":
        initializeDatamodel(datamodel, doc)
    enterState([doc.initial.transition])
    startEventLoop()
</pre>

<h4 id="startEventLoop"><code>procedure</code>
startEventLoop()</h4>

<p>Upon entering the state machine, we take all internally enabled
transitions, namely those that either don't require an event or
that are triggered by internal events. (Internal events can only be
generated by the state machine itself.) When all such transitions
have been taken, we move to the main event loop, which is driven by
external events.</p>

<pre>
procedure startEventLoop():
    initialStepComplete = false
    until initialStepComplete:
        enabledTransitions = selectEventlessTransitions()
        if enabledTransitions.isEmpty():
            if internalQueue.isEmpty():
                initialStepComplete = true
            else:
                internalEvent = internalQueue.dequeue()
                datamodel["event"] = internalEvent
                enabledTransitions = selectTransitions(internalEvent)
        if not enabledTransitions.isEmpty():
            microstep(enabledTransitions.toList())
    mainEventLoop()
</pre>

<h4 id="mainEventLoop"><code>procedure</code> mainEventLoop()</h4>

<p>This loop runs until we enter a top-level final state or an
external entity cancels processing. In either case 'continue' will
be set to false (see EnterStates, below, for termination by
entering a top-level final state.)</p>

<p>Each iteration through the loop consists of three main steps: 1)
execute any &lt;invoke&gt; tags for states that we entered on the
last iteration through the loop 2) Wait for an external event and
then execute any transitions that it triggers. However special
preliminary processing is applied to the event if the state has
executed any &lt;invoke&gt; elements. First, if this event was
generated by an invoked process, apply &lt;finalize&gt; processing
to it. Secondly, if any &lt;invoke&gt; elements have autoforwarding
set, forward the event to them. These steps apply before the
transitions are taken. 3) Take any subsequent internally enabled
transitions, namely those that don't require an event or that are
triggered by an internal event.</p>

<p>This event loop thus enforces run-to-completion semantics, in
which the system process an external event and then takes all the
'follow-up' transitions that the processing has enabled before
looking for another external event. For example, suppose that the
<em>external</em> event queue contains events ext1 and ext2 and the
machine is in state s1. If processing ext1 takes the machine to s2
and generates <em>internal</em> event int1, and s2 contains a
transition t triggered by int1, the system is guaranteed to take t,
no matter what transitions s2 or other states have that would be
triggered by ext2. Note that this is true even though ext2 was
already in the external event queue when int1 was generated. In
effect, the algorithm treats the processing of int1 as finishing up
the processing of ext1.</p>

<pre>
procedure mainEventLoop():
    while continue:
        for state in statesToInvoke:
            for inv in state.invoke:
                invoke(inv)
        statesToInvoke.clear()
        previousConfiguration = configuration
        externalEvent = externalQueue.dequeue() # this call blocks until an event is available
        datamodel["event"] = externalEvent
        for state in configuration:
            for inv in state.invoke:
                if inv.invokeid == externalEvent.invokeid:  # event is the result of an &lt;invoke&gt; in this state
                    applyFinalize(inv, externalEvent)
                if inv.autoforward:
                    send(inv.id, externalEvent)
        enabledTransitions = selectTransitions(externalEvent)
        if not enabledTransitions.isEmpty():
            microstep(enabledTransitions.toList())
            # now take any newly enabled null transitions and any transitions triggered by internal events
            macroStepComplete = false
            until macroStepComplete:
                enabledTransitions = selectEventlessTransitions()
                if enabledTransitions.isEmpty():
                    if internalQueue.isEmpty():
                        macroStepComplete = true
                    else:
                        internalEvent = internalQueue.dequeue()
                        datamodel["event"] = internalEvent
                        enabledTransitions = selectTransitions(internalEvent)
                if not enabledTransitions.isEmpty():
                    microstep(enabledTransitions.toList())
    # if we get here, we have reached a top-level final state or some external entity has set continue to false
    exitInterpreter()
</pre>

<h4 id="exitInterpreter"><code>procedure</code>
exitInterpreter()</h4>

<p>The purpose of this procedure is to exit the current SCXML
process by exiting all active states. If the machine is in a
top-level final state, a Done event is generated. (Note that in
this case, the final state will be the only active state.) The
implementation of returnDoneEvent is platform-dependent, but if
this session is the result of an &lt;invoke&gt; in another SCXML
session, returnDoneEvent will cause the event
done.invoke.&lt;id&gt; to be placed in the external event queue of
that session, where &lt;id&gt; is the id generated in that session
when the &lt;invoke&gt; was executed.</p>

<pre>
procedure exitInterpreter():
    statesToExit = configuration.toList().sort(exitOrder)
    for s in statesToExit:
        for content in s.onexit:
            executeContent(content)
        for inv in s.invoke:
            cancelInvoke(inv)
        configuration.delete(s)
        if isFinalState(s) and isScxmlState(s.parent):
            returnDoneEvent(s.donedata)
</pre>

<h4 id="selectEventlessTransitions"><code>function</code>
selectEventlessTransitions()</h4>

<p>This function selects all transitions that are enabled in the
current configuration that do not require an event trigger. First
test if the state has been preempted by a transition that has
already been selected and that will cause the state to be exited
when it is taken. If the state has not been preempted, find a
transition with no 'event' attribute whose condition evaluates to
<code>true</code>. If multiple matching transitions are present,
take the first in document order. If none are present, search in
the state's ancestors in ancestry order until one is found. As soon
as such a transition is found, add it to enabledTransitions, and
proceed to the next atomic state in the configuration. If no such
transition is found in the state or its ancestors, proceed to the
next state in the configuration. When all atomic states have been
visited and transitions selected, return the set of enabled
transitions.</p>

<pre>
function selectEventlessTransitions():
    enabledTransitions = new OrderedSet()
    atomicStates = configuration.toList().filter(isAtomicState).sort(documentOrder)
    for state in atomicStates:
        if not isPreempted(state, enabledTransitions):
            loop: for s in [state].append(getProperAncestors(state, null)):
                for t in s.transition:
                    if not t.event and conditionMatch(t):
                        enabledTransitions.add(t)
                        break loop
    return enabledTransitions
</pre>

<h4 id="selectTransitions"><code>function</code>
selectTransitions(event)</h4>

<p>The purpose of the selectTransitions()procedure is to collect
the transitions that are enabled by this event in the current
configuration.</p>

<p>Create an empty set of <code>enabledTransitions</code>. For each
atomic state test if the state has been preempted by a transition
that has already been selected and that will cause the state to be
exited when it is taken. If the state has not been preempted, find
a transition whose 'event' attribute matches <code>event</code> and
whose condition evaluates to <code>true</code>. If multiple
matching transitions are present, take the first in document order.
If none are present, search in the state's ancestors in ancestry
order until one is found. As soon as such a transition is found,
add it to enabledTransitions, and proceed to the next atomic state
in the configuration. If no such transition is found in the state
or its ancestors, proceed to the next state in the configuration.
When all atomic states have been visited and transitions selected,
return the set of enabled transitions.</p>

<pre>
function selectTransitions(event):
    enabledTransitions = new OrderedSet()
    atomicStates = configuration.toList().filter(isAtomicState).sort(documentOrder)
    for state in atomicStates:
        if not isPreempted(state, enabledTransitions):
            loop: for s in [state].append(getProperAncestors(state, null)):
                for t in s.transition:
                    if t.event and nameMatch(t.event, event.name) and conditionMatch(t):
                        enabledTransitions.add(t)
                        break loop
    return enabledTransitions
</pre>

<h4 id="isPreempted"><code>function</code> isPreempted(s
transitionList)</h4>

<p>Return true if a transition T in transitionList exits an
ancestor of state s. In this case, taking T will pull the state
machine out of s and thus we say that it preempts the selection of
a transition from s. Such preemption will occur only if s is a
descendant of a parallel region and T exits that region. If we did
not do this preemption check, we could end up in an illegal
configuration, namely one in which there were multiple active
states that were not all descendants of a common parallel
ancestor.</p>

<pre>
function isPreempted(s, transitionList):
    preempted = false
    for t in transitionList:
        if t.target:
            LCA = findLCA([t.source].append(getTargetStates(t.target)))
            if isDescendant(s,LCA):
                preempted = true
                break
    return preempted
</pre>

<h4 id="microstepProcedure"><code>procedure</code>
microstep(enabledTransitions)</h4>

<p>The purpose of the microstep <code>procedure</code> is to
process a single set of transitions. These may have been enabled by
an external event, an internal event, or by the presence or absence
of certain values in the datamodel at the current point in time.
The processing of the enabled transitions must be done in parallel
('lock step') in the sense that their source states must first be
exited, then their actions must be executed, and finally their
target states entered.</p>

<p>If a single atomic state is active, then enabledTransitions will
contain only a single transition. If multiple states are active
(i.e., we are in a parallel region), then there may be multiple
transitions, one per active atomic state (though some states may
not select a transition.) In this case, the transitions are taken
in the document order of the atomic states that selected them.</p>

<pre>
procedure microstep(enabledTransitions):
    exitStates(enabledTransitions)
    executeTransitionContent(enabledTransitions)
    enterStates(enabledTransitions)
</pre>

<h4 id="exitStates"><code>procedure</code>
exitStates(enabledTransitions)</h4>

<p>Create an empty statesToExit set. For each transition t in
enabledTransitions, if t is targetless then do nothing, else let
LCA be the least common ancestor state of the source state and
target states of t. Add to the statesToExit set all states in the
configuration that are descendants of LCA. Next remove all the
states on statesToExit from the set of states that will have invoke
processing done at the start of the next macrostep. (Suppose
macrostep M1 consists of microsteps m11 and m12. We may enter state
s in m11 and exit it in m12. We will add s to statesToInvoke in
m11, and must remove it in m12. In the subsequent macrostep M2, we
will apply invoke processing to all states that were enter, and not
exited, in M1.) Then convert statesToExit to a list and sort it in
exitOrder.</p>

<p>For each state s in the list, if s has a deep history state h,
set the history value of h to be the list of all atomic descendants
of s that are members in the current configuration, else set its
value to be the list of all immediate children of s that are
members of the current configuration. Again for each state s in the
list, first execute any onexit handlers, then cancel any ongoing
invocations, and finally remove s from the current
configuration.</p>

<pre>
procedure exitStates(enabledTransitions):
   statesToExit = new OrderedSet()
   for t in enabledTransitions:
       if t.target:
           if t.type == "internal" and getTargetStates(t.target).every(lambda s: isDescendant(s,t.source)):
               ancestor = t.source
           else:
               ancestor = findLCA([t.source].append(getTargetStates(t.target)))
           for s in configuration:
               if isDescendant(s,ancestor):
                   statesToExit.add(s)
    for s in statesToExit:
        statesToInvoke.delete(s)
    statesToExit = statesToExit.toList().sort(exitOrder)
    for s in statesToExit:
        for h in s.history:
            if h.type == "deep":
                f = lambda s0: isAtomicState(s0) and isDescendant(s0,s)
            else:
                f = lambda s0: s0.parent == s
            historyValue[h.id] = configuration.toList().filter(f)
    for s in statesToExit:
        for content in s.onexit:
            executeContent(content)
        for inv in s.invoke:
            cancelInvoke(inv)
        configuration.delete(s)
</pre>

<h4 id="executeTransitionContent"><code>procedure</code>
executeTransitionContent(enabledTransitions)</h4>

<p>For each transition in the list of
<code>enabledTransitions</code>, execute its executable
content.</p>

<pre>
procedure executeTransitionContent(enabledTransitions):
    for t in enabledTransitions:
        executeContent(t)
</pre>

<h4 id="enterStates"><code>procedure</code>
enterStates(enabledTransitions)</h4>

<p>Create an empty statesToEnter set, and an empty
statesForDefaultEntry set. For each transition t in
enabledTransitions, if t is targetless then do nothing, else for
each target state s, call addStatesToEnter. This will add to
statesToEnter s plus any descendent states that will have to be
entered by default once s is entered. (If s is atomic, there will
not be any such states.) Now for each target state s, add any of
s's ancestors that must be entered when s is entered. (These will
be any ancestors of s that are not currently active. Note that
statesToEnter is a set, so it is harmless if the same ancestor is
entered multiple times.) In the case where the ancestor state is
parallel, call addStatesToEnter on any of its child states that do
not already have a descendent on statesToEnter. (If a child state
already has a descendant on statesToEnter, it will get added to the
list when we examine the ancestors of that descendant.)</p>

<p>We now have a complete list of all the states that will be
entered as a result of taking the transitions in
enabledTransitions. Add them to statesToInvoke so that invoke
processing can be done at the start of the next macrostep. Convert
statesToEnter to a list and sort it in entryorder. For each state s
in the list, first add s to the current configuration. Then if we
are using late binding, and this is the first time we have entered
s, initialize its data model. Then execute any onentry handlers. If
s's initial state is being entered by default, execute any
executable content in the initial transition. Finally, if s is a
final state, generate relevant Done events. If we have reached a
top-level final state, set continue to false as a signal to stop
processing.</p>

<pre>
procedure enterStates(enabledTransitions):
    statesToEnter = new OrderedSet()
    statesForDefaultEntry = new OrderedSet()
    for t in enabledTransitions:
        if t.target:
            tstates = getTargetStates(t.target)
            if t.type == "internal" and tstates.every(lambda s: isDescendant(s,t.source)):
                ancestor = t.source
            else:
                ancestor = findLCA([t.source].append(tstates))
            for s in tstates:
                addStatesToEnter(s,statesToEnter,statesForDefaultEntry)
            for s in tstates:
                for anc in getProperAncestors(s,ancestor):
                    statesToEnter.add(anc)
                    if isParallelState(anc):
                        for child in getChildStates(anc):
                            if not statesToEnter.some(lambda s: isDescendant(s,child)):
                                addStatesToEnter(child,statesToEnter,statesForDefaultEntry)
    for s in statesToEnter:
        statesToInvoke.add(s)
    statesToEnter = statesToEnter.toList().sort(enterOrder)
    for s in statesToEnter:
        configuration.add(s)
        if binding == "late" and s.isFirstEntry:
            initializeDataModel(datamodel.s,doc.s)
            s.isFirstEntry = false
        for content in s.onentry:
            executeContent(content)
        if statesForDefaultEntry.member(s):
            executeContent(s.initial.transition)
        if isFinalState(s):
            parent = s.parent
            grandparent = parent.parent
            internalQueue.enqueue(new Event("done.state." + parent.id, parent.donedata))
            if isParallelState(grandparent):
                if getChildStates(grandparent).every(isInFinalState):
                    internalQueue.enqueue(new Event("done.state." + grandparent.id, grandparent.donedata))
    for s in configuration:
        if isFinalState(s) and isScxmlState(s.parent):
            continue = false
</pre>

<h4 id="addStatesToEnter"><code>procedure</code>
addStatesToEnter(state,root,statesToEnter,statesForDefaultEntry)</h4>

<p>The purpose of this procedure is to add to statesToEnter state
and/or any of its descendants that must be entered as a result of
state being the target of a transition. Note that this procedure
permanently modifies both statesToEnter and
statesForDefaultEntry.</p>

<p>First, If state is a history state then add either the history
values associated with state or state's default target to
statesToEnter. Else (if state is not a history state), add state to
statesToEnter. Then, if state is a a compound state, add state to
statesForDefaultEntry and recursively call addStatesToenter on its
default initial state(s). Otherwise, if state is a parallel state,
recursively call addStatesToEnter on each of its child states.</p>

<pre>
procedure addStatesToEnter(state,statesToEnter,statesForDefaultEntry):
    if isHistoryState(state):
        if historyValue[state.id]:
            for s in historyValue[state.id]:
                addStatesToEnter(s,statesToEnter,statesForDefaultEntry)
        else:
            for t in state.transition:
                for s in getTargetStates(t.target):
                    addStatesToEnter(s,statesToEnter,statesForDefaultEntry)
    else:
        statesToEnter.add(state)
        if isCompoundState(state):
            statesForDefaultEntry.add(state)
            for s in getTargetStates(state.initial):
                addStatesToEnter(s,statesToEnter,statesForDefaultEntry)
        elif isParallelState(state):
            for s in getChildStates(state):
                addStatesToEnter(s,statesToEnter,statesForDefaultEntry)
</pre>

<h4 id="isInFinalState"><code>procedure</code>
isInFinalState(s)</h4>

<p>Return true if s is a compound &lt;state&gt; and one of its
children is an active &lt;final&gt; state (i.e. is a member of the
current configuration), or if s is a &lt;parallel&gt; state and
isInFinalState is true of all its children.</p>

<pre>
function isInFinalState(s):
    if isCompoundState(s):
        return getChildStates(s).some(lambda s: isFinalState(s) and configuration.member(s))
    elif isParallelState(s):
        return getChildStates(s).every(isInFinalState)
    else:
        return false
</pre>

<h4 id="findLCA"><code>function</code> findLCA(stateList)</h4>

<p>The <a id="LCA" name="LCA">Least Common Ancestor</a> is the
element s such that s is a proper ancestor of all states on
stateList and no descendant of s has this property. Note that there
is guaranteed to be such an element since the &lt;scxml&gt; wrapper
element is a common ancestor of all states. Note also that since we
are speaking of proper ancestor (parent or parent of a parent,
etc.) the LCA is never a member of stateList.</p>

<pre>
function findLCA(stateList):
    for anc in getProperAncestors(stateList.head(), null):
        if stateList.tail().every(lambda s: isDescendant(s,anc)):
            return anc
</pre>
</div>

<div class="div1">
<h2><a id="schemas" name="schemas" />B Schema</h2>

<p>The schemas for SCXML can be found in <a
href="http://www.w3.org/2011/04/SCXML/">www.w3.org/2011/04/SCXML</a>.
The master schema is <a
href="http://www.w3.org/2011/04/SCXML/scxml.xsd">http://www.w3.org/2011/04/SCXML/scxml.xsd</a>.
The schema for SCXML messages is <a
href="http://www.w3.org/2011/04/SCXML/scxml.xsd">http://www.w3.org/2011/04/SCXML/scxml-message.xsd</a></p>
</div>

<div class="div1">
<h2><a id="conformance" name="conformance" />C Conformance</h2>

<p>This section is normative.</p>

<div class="div2">
<h3><a id="ConformingDocuments" name="ConformingDocuments" />C.1
Conforming Documents</h3>

<p>The following conformance requirements hold for all SCXML
documents.</p>

<ol class="enumar">
<li>The root element of the document <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> be
&lt;scxml&gt;.</li>

<li>The &lt;scxml&gt; element <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> include a "version" attribute with the
value "1.0".</li>

<li>The &lt;scxml&gt; element <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> designate the SCXML namespace. This can
be achieved by declaring an "xmlns" attribute or an attribute with
an "xmlns" prefix <a href="#XMLNames">[XMLNames]</a>. The namespace
for SCXML is defined to be http://www.w3.org/2005/07/scxml.</li>

<li>The document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> conform to all the syntactic constraints
defined in this specification, including those contained in the
schema, those contained in the "Attribute Constraints" and "Valid
Values" fields in the attribute tables, and those contained in the
definition of its children.</li>

<li>The document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> conform to any additional syntactic
constraints that are defined for the data model that it has chosen.
See <a href="#profiles"><b>D Data Models</b></a> for the definition
of the individual data models.</li>
</ol>
</div>

<div class="div2">
<h3><a id="ConformingProcessors" name="ConformingProcessors" />C.2
Conforming Processors</h3>

<p>A SCXML 1.0 processor is a user agent that can parse and process
Conforming SCXML 1.0 documents.</p>

<p>In a Conforming SCXML 1.0 Processor, the XML parser <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> be able
to parse and process all well-formed XML constructs defined within
<a href="#XML">[XML]</a> and <a href="#XMLNames">[XMLNames]</a>. It
is not required that a Conforming SCXML 1.0 processor use a
validating parser.</p>

<p>A Conforming SCXML 1.0 Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> support
the syntax and semantics of all mandatory SCXML elements described
in this document. A Conforming SCXML 1.0 Processor <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> support the
syntax and semantics of any optional SCXML elements described in
this document. A Conforming SCXML 1.0 Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> behave as
if it were executing the algorithm specified in <a
href="#AlgorithmforSCXMLInterpretation"><b>A Algorithm for SCXML
Interpretation</b></a>.</p>

<p>When a Conforming SCXML 1.0 Processor encounters a Conforming
SCXML 1.0 Document with non-SCXML elements or attributes which are
proprietary, or defined in a non-SCXML namespace, it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> behave as
instructed by the 'exmode' attribute.</p>

<p>When a Conforming SCXML 1.0 Processor encounters a nonconformant
document, then if 'exmode' is "strict", it <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> reject
the document and <em title="SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em> signal an error to the entity that
requested the execution of the document. The means of signaling
this error are platform-specific and outside the scope of this
specification. Note specifically that in this case, a Conforming
SCXML Processor <em title="MUST NOT in RFC2119 context"
class="RFC2119">MUST NOT</em> enter the initial state of a
nonconformant SCXML document. When a Conforming SCXML 1.0 Processor
encounters a nonconformant document, and 'exmode' is not "strict",
its behavior is undefined.</p>

<p>There is no conformance requirement with respect to performance
characteristics of the SCXML 1.0 Processor.</p>
</div>
</div>

<div class="div1">
<h2><a id="profiles" name="profiles" />D Data Models</h2>

<p>The 'datamodel' attribute on &lt;scxml&gt; defines the data
model that the document uses. The data model includes the
underlying data structure plus languages for boolean expressions,
location expressions, value expressions, and scripting. Each
conformant SCXML document <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> specify the data model it uses. (Note
that the "null" data model is the default.) Conformant SCXML
processors <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support the null data model, and <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> support
other data models, including the ECMAScript and XPath data models.
The ECMAScript and XPath model definitions given here are normative
in the sense that they define how implementations that support one
of these languages <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> behave. The intent is to insure
interoperability among all processors that support ECMAScript, and
all those that support XPath, without requiring all implementations
to support either of those data model languages.</p>

<p>The definition of a data model <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em>:</p>

<ul>
<li>Specify the boolean expression language used as the value of
the'cond' attribute in &lt;transition&gt;, &lt;if&gt; and
&lt;elseif&gt; This language <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> not have side effects and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> include
the predicate 'In', which takes a single argument, the id of a
state in the enclosing state machine, and returns 'true' if the
state machine is in that state.</li>

<li>Specify the location expression language that is used as the
value of the 'location' attribute of the &lt;assign&gt; tag.</li>

<li>Specify the value expression language that is used as the value
of the 'expr' attribute of the &lt;data&gt; and &lt;assign&gt;
elements.</li>

<li>Specify the scripting language used inside the &lt;script&gt;
element</li>
</ul>

<div class="div2">
<h3><a id="minimal-profile" name="minimal-profile" />D.1 The Null
Data Model</h3>

<p>The value "null" for the 'datamodel' attribute results in an
absent or empty data model. In particular:</p>

<div class="div3">
<h4><a id="N11387" name="N11387" />D.1.1 Data Model</h4>

<p>There is no underlying data model.</p>
</div>

<div class="div3">
<h4><a id="N1138C" name="N1138C" />D.1.2 Conditional
Expressions</h4>

<p>The boolean expression language consists of the In predicate
<em>only</em>. It has the form 'In(<em>id</em>)', where <em>id</em>
is the id of a state in the enclosing state machine. The predicate
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
return 'true' if and only if that state is in the current state
configuration.</p>
</div>

<div class="div3">
<h4><a id="N1139D" name="N1139D" />D.1.3 Location Expressions</h4>

<p>There is no location expression language.</p>
</div>

<div class="div3">
<h4><a id="N113A2" name="N113A2" />D.1.4 Value Expressions</h4>

<p>There is no value expression language.</p>
</div>

<div class="div3">
<h4><a id="N113A7" name="N113A7" />D.1.5 Scripting</h4>

<p>There is no scripting language.</p>
</div>

<div class="div3">
<h4><a id="N113AC" name="N113AC" />D.1.6 System Variables</h4>

<p>System variables are not accessible.</p>
</div>

<div class="div3">
<h4><a id="N113B1" name="N113B1" />D.1.7 Unsupported Elements</h4>

<p>The &lt;foreach&gt; element and the elements defined in <a
href="#data-module"><b>5 Data Model and Data Manipulation</b></a>
are not supported in the Null Data Model. If the SCXML processor
encounters a document specifying the Null Data Model and containing
one of these elements, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> behave as instructed by the 'exmode'
attribute on &lt;scxml&gt;. See <a href="#scxml"><b>3.2
&lt;scxml&gt;</b></a> for details.</p>
</div>
</div>

<div class="div2">
<h3><a id="ecma-profile" name="ecma-profile" />D.2 The ECMAScript
Data Model</h3>

<p>The value 'ecmascript' for the 'datamodel' attribute results in
an ECMASccript data model. Implementations that support this value
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
support the third edition of ECMAScript <a
href="#ECMAScript262">[ECMASCRIPT-262]</a>. Implementations <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> support
ECMAScript for XML (E4X) <a href="#E4X">[E4X]</a>.</p>

<div class="div3">
<h4><a id="ecma_core_module" name="ecma_core_module" />D.2.1 Data
Model</h4>

<p>For each &lt;data&gt; element in the document, the SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> create an ECMAScript variable object
whose name is the value of the "id" attribute of
<code>&lt;data&gt;</code>. Note that the value of the variable can
be assigned in one of the following three ways:</p>

<ul>
<li>value of the "expr" attribute</li>

<li>resource referenced by the value of the "src" attribute</li>

<li>inline content</li>
</ul>

<p>If no value is assigned, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> assign
the variable the default value ECMAScript undefined. Note that the
assignment takes place at the time indicated by the 'binding'
attribute on the &lt;scxml&gt; element.</p>

<p>The Processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> support evaluation of JSON expressions and
of XML expressions.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N113ED" name="N113ED" />Example:
Datamodel &lt;data&gt; initialization</div>

<div class="exampleInner">
<pre>
&lt;scxml version="1.0" datamodel="ecmascript"&gt;
  &lt;datamodel&gt;
   &lt;data id="employees" src="http://example.com/employees.json"/&gt;
   &lt;data id="year" expr="2008"/&gt;
   &lt;data id="CEO" expr="\"Mr Big\""/&gt;
   &lt;data id="profitable" expr="true"/&gt;
  &lt;/datamodel&gt;
&lt;/scxml&gt;
</pre>
</div>
</div>

<p>The Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place all variables in a single global
ECMAScript scope.</p>
</div>

<div class="div3">
<h4><a id="ecma_cond_expressions"
name="ecma_cond_expressions" />D.2.2 Conditional Expressions</h4>

<p>The Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> convert ECMAScript expressions used in
conditional expressions into their effective boolean value using
the ToBoolean operator as described in Section 9.2 of <a
href="#ECMAScript262">[ECMASCRIPT-262]</a>.</p>

<p>The following example illustrates this usage.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11406" name="N11406" />Example:
Use of a boolean expression to determine whether or not a
transition is taken.</div>

<div class="exampleInner">
<pre>
&lt;state id="errorSwitch"&gt;
  &lt;datamodel&gt;
   &lt;data id="time"/&gt;
  &lt;/datamodel&gt;

  &lt;onentry&gt;
    &lt;assign location="time" expr="currentDateTime()"/&gt;
  &lt;/onentry&gt;

  &lt;transition cond="yearFromDatetime(time) &gt; 2009" target="newBehavior"/&gt;

  &lt;transition target="currentBehavior"/&gt;
&lt;/state&gt;
</pre>
</div>
</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> add an ECMAScript function to the SCXML
namespace that takes a stateID as its argument and returns 'true'
if that state is in the current state configuration, as described
in <a href="#ConditionalExpressions"><b>5.10.1 Conditional
Expressions</b></a>. Here is an example of its use, taken from <a
href="#MicrowaveParallel"><b>G.3 Microwave Example (Using
parallel)</b></a> below:</p>

<div class="exampleOuter">
<pre>

  &lt;transition cond="In('closed')" target="cooking"/&gt;
</pre>
</div>
</div>

<div class="div3">
<h4><a id="ecma_location_expressions"
name="ecma_location_expressions" />D.2.3 Location Expressions</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> accept any ECMAScript left-hand-side
expression as a location expression. The following example
illustrates this usage. (Note that the example assumes that the
data loaded from http://http://example.com/employees.json creates
the necessary data structure, so that employees.employee[12].salary
exists when &lt;assign&gt; is evaluated. If it didn't, the
Processor would raise error.execution and the &lt;assign&gt; would
have no effect.)</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11424" name="N11424" />Example:
Use of the location attribute of the assign to update the salary of
an employee.</div>

<div class="exampleInner">
<pre>
&lt;state id="errorSwitch"&gt;
    &lt;datamodel&gt;
      &lt;data id="employees" src="http://example.com/employees.json"/&gt;
    &lt;/datamodel&gt;

    &lt;onentry&gt;
        &lt;assign location="employees.employee[12].salary" expr="42000"/&gt;
    &lt;/onentry&gt;
&lt;/state&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="ecma_value_expressions"
name="ecma_value_expressions" />D.2.4 Value Expressions</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> accept any ECMAScript expression as a
value expression.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11433" name="N11433" />Example:
Copying event data into the local data model for the state.</div>

<div class="exampleInner">
<pre>
&lt;state id="processEvent"&gt;
    &lt;datamodel&gt;
        &lt;data id="myEvent"/&gt;
    &lt;/datamodel&gt;

    &lt;onentry&gt;
        &lt;assign location="myEvent" expr="_event.data"/&gt;
    &lt;/onentry&gt;
&lt;/state&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="ecma_assign" name="ecma_assign" />D.2.5
&lt;assign&gt;</h4>

<p>When evaluating an &lt;assign&gt; element in the ECMA data
model, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> replace the existing value at 'location'
with the value produced by evaluating 'expr'. If it is unable to do
so (for example, if 'location' evaluates to ECMAScript 'null' or
'undefined'), it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the error error.execution on the
internal event queue.</p>
</div>

<div class="div3">
<h4><a id="ecma_system_variables"
name="ecma_system_variables" />D.2.6 System Variables</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> define an ECMAScript read-only variable
for each system variable defined in <a
href="#SystemVariables"><b>5.11 System Variables</b></a>. The
<code>_sessionid</code> and <code>_name</code> system variables are
defined as variables with ECMAScript String values. The
<code>_event</code> system variable is defined as an object with
properties for each of the fields defined in <a
href="#InternalStructureofEvents"><b>5.11.1 The Internal Structure
of Events</b></a>: <code>name</code>,<code>type</code>,
<code>sendid</code>, <code>origin</code>, <code>origintype</code>,
and <code>invokeid</code> are String values, while
<code>data</code> is an Object value.</p>

<p>Suppose as part of executing a state machine named "myName" with
a platform-assigned sessionid "12345", we are processing an event
with the name "foo.bar" and the following object payload:</p>

<div class="exampleOuter">
<pre>
    { "answer" : 42 }

</pre>
</div>

<p>Then the underlying ECMA datamodel would have the following
form:</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N1147A" name="N1147A" />Example:
Illustration of system injected properties</div>

<div class="exampleInner">
<pre>
{
  // The three properties below are automatically populated by the system

  "_name"      : "myName" ,
  "_sessionid" : "12345"  ,
  "_event"     : {
                    "name" : "foo.bar" ,
                    "data" : {
                               "answer"  :  42
                             }
                 } ,

  // Rest of the application / developer-authored data model goes here
}

</pre>
</div>
</div>

<p>As an example, here is a sample transition that accesses the
<code>_event</code> variable in that data model.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11485" name="N11485" />Example:
Accessing system _event name in a condition</div>

<div class="exampleInner">
<pre>
&lt;state id="checkEventName"&gt;
    &lt;transition cond="_event.name=='foo.bar'" target="nextState"&gt;
     ...
    &lt;/transition&gt;
&lt;/state&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="ecma_script_module" name="ecma_script_module" />D.2.7
Scripting</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> accept any ECMAScript program as defined
in Section 14 of <a href="#ECMAScript262">[ECMASCRIPT-262]</a> as
the content of a &lt;script&gt; element.</p>
</div>

<div class="div3">
<h4><a id="ecma_foreach" name="ecma_foreach" />D.2.8
&lt;foreach&gt;</h4>

<p>In the ECMA data model, the 'array' value expression <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em>
evaluate to an ECMAScript array (i.e. the result of the expression
<em title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em>
satisfy instanceof(Array) in ECMAScript). The 'item' attribute <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em>
specify a legal ECMAScript variable name. The iteration order is
the order of the underlying ECMAScript array, and goes from an
index of 0 by increments of one to an index of array_name.length -
1. Note that since shallow copy is required &lt;foreach&gt;
assignment is equivalent to item = array_name[index] in ECMAScript.
Note also that the assigned value could be undefined for a sparse
array.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N114A6" name="N114A6" />Example:
Logging ISBN of all books in bookstore shopping cart</div>

<div class="exampleInner">
<pre>
&lt;foreach collection="cart.books" item="book"&gt;
&lt;log expr="'Cart contains book with ISBN ' + book.isbn"/&gt;
&lt;/foreach&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="N114AC" name="N114AC" />D.2.9 Unsupported Elements</h4>

<p><a href="#validate"><b>5.5 &lt;validate&gt;</b></a> is not
supported in the ECMA Data Model. If the SCXML processor encounters
a document specifying the ECMA Data Model and containing this
element, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> behave as instructed by the 'exmode'
attribute on &lt;scxml&gt;. See <a href="#scxml"><b>3.2
&lt;scxml&gt;</b></a> for details.</p>
</div>
</div>

<div class="div2">
<h3><a id="xpath-profile" name="xpath-profile" />D.3 The XPath Data
Model</h3>

<p>The value "xpath" for the 'datamodel' attribute results in an
XML data model with XPath used as the expression language.
Implementations that support this data model <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> support
<a href="#XPATH2">[XPath 2.0]</a>.</p>

<div class="div3">
<h4><a id="xpath-datamodel" name="xpath-datamodel" />D.3.1 Data
Model</h4>

<p>For each &lt;data&gt; element in the document, the SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> create an XPath variable whose name is
the value of the 'id' attribute of the element. Note that the value
of the variable can be assigned in one of the following three
ways:</p>

<ul>
<li>by means of the 'expr' attribute</li>

<li>by means of a resource referenced by the 'src' attribute</li>

<li>by means of inline content</li>
</ul>

<p>If no value is assigned, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> assign
the variable the default value as the following DOM node:</p>

<div class="exampleOuter">
<pre>
&lt;data xmlns=""&gt;&lt;/data&gt;
</pre>
</div>

<p>Note that the assignment takes place at the time indicated by
the 'binding' attribute on the &lt;scxml&gt; element.</p>

<p>The Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place all variables in a single global
XPath scope, such that they are subsequently available to all
expressions within the document.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N114E5" name="N114E5" />Example:
Syntax for XPath datamodel initialization</div>

<div class="exampleInner">
<pre>
&lt;scxml version="1.0" datamodel="xpath"&gt;
&lt;datamodel&gt;
  &lt;data id="company"&gt;
    &lt;about xmlns=""&gt;
      &lt;name&gt;Example company&lt;/name&gt;
      &lt;website&gt;example.com&lt;/website&gt;
      &lt;CEO&gt;John Doe&lt;/CEO&gt;
    &lt;/about&gt;
  &lt;/data&gt;
  &lt;data id="employees" src="http://example.com/employees.xml"/&gt;
  &lt;data id="defaultdata"/&gt;
&lt;/datamodel&gt;
&lt;/scxml&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="N114EB" name="N114EB" />D.3.2 Conditional
Expressions</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> accept any XPath 2.0 expression as a
conditional expression and <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> convert it into its effective boolean
value as described in section 2.4.3 of the <a href="#XPATH2">[XPath
2.0]</a> specification. The following example illustrates this
usage.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N114F9" name="N114F9" />Example:
Use of a boolean expression to determine whether or not a
transition is taken.</div>

<div class="exampleInner">
<pre>
&lt;state id="errorSwitch" xmlns:fn="http://www.w3.org/2005/xpath-functions"&gt;
  &lt;datamodel&gt;
    &lt;data id="time"/&gt;
  &lt;/datamodel&gt;

  &lt;onentry&gt;
    &lt;assign location="$time" expr="fn:current-dateTime()"/&gt;
  &lt;/onentry&gt;

  &lt;transition cond="fn:year-from-dateTime($time) &gt; 2009" target="newBehavior"/&gt;
  &lt;transition target="currentBehavior"/&gt;
&lt;/state&gt;

</pre>
</div>
</div>

<p>The SCXML processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> add an XPath function to the SCXML
namespace that takes a stateID as its argument and returns 'true'
if that state is in the current state configuration, as described
in <a href="#ConditionalExpressions"><b>5.10.1 Conditional
Expressions</b></a>. For examples of the use of this predicate (but
in an ECMAScript context), see <a href="#MicrowaveParallel"><b>G.3
Microwave Example (Using parallel)</b></a>.</p>

<div class="exampleOuter">
<p>Function signature: <code>In($stateID as xs:string?) as
xs:boolean</code></p>

<p>Returns an <code>xs:boolean</code> indicating whether or not the
state with ID $stateID is one of the currently active states.</p>
</div>
</div>

<div class="div3">
<h4><a id="N11514" name="N11514" />D.3.3 Location Expressions</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> accept any XPath 2.0 expression as a
location expression. The following example illustrates this
usage:</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N1151C" name="N1151C" />Example:
Use of the location attribute of the assign to update the count for
both Boston and New York.</div>

<div class="exampleInner">
<pre>
&lt;state id="errorSwitch"&gt;
  &lt;datamodel&gt;
    &lt;data id="cities"&gt;
      &lt;list xmlns=""&gt;
        &lt;city id="nyc" count="0"&gt;New York&lt;/city&gt;
        &lt;city id="bos" count="0"&gt;Boston&lt;/city&gt;
      &lt;/list&gt;
    &lt;/data&gt;
  &lt;/datamodel&gt;

  &lt;onentry&gt;
    &lt;assign location="$cities/list/city[@id='nyc']/@count" expr="1"/&gt;
  &lt;/onentry&gt;
&lt;/state&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="N11522" name="N11522" />D.3.4 Value Expressions</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> allow any XPath expression to be used as
a value expression. If the result of the value expression is a
node-set, the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> make a deep copy of the subtree rooted at
each node.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N1152D" name="N1152D" />Example:
Copying event data into the local data model for the state.</div>

<div class="exampleInner">
<pre>
&lt;state id="processEvent"&gt;
  &lt;datamodel&gt;
    &lt;data id="myEventData"/&gt;
  &lt;/datamodel&gt;

  &lt;onentry&gt;
    &lt;assign location="$myEventData" expr="$_event/data"/&gt;
  &lt;/onentry&gt;
&lt;/state&gt;
</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="xpath_assign" name="xpath_assign" />D.3.5
&lt;assign&gt;</h4>

<p>Implementations supporting the XPath datamdel <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> support
the following additional attributes for the &lt;assign&gt;
element.</p>

<table border="1" summary="attibute table">
<tbody>
<tr>
<th>Name</th>
<th>Required</th>
<th>Attribute Constraints</th>
<th>Type</th>
<th>Default Value</th>
<th>Valid Values</th>
<th>Description</th>
</tr>

<tr>
<td>type</td>
<td>false</td>
<td />
<td>enum</td>
<td>replacechildren</td>
<td>replacechildren, firstchild, lastchild, previoussibling,
nextsibling, replace, delete, addattribute</td>
<td>Defines the nature of the insertion to be performed. See below
for details.</td>
</tr>

<tr>
<td>attr</td>
<td>false</td>
<td>This attribute must be present if and only if 'type' is
'addattribute'.</td>
<td>NMTOKEN</td>
<td>none</td>
<td></td>
<td>The attribute name to add at the specified location.</td>
</tr>
</tbody>
</table>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> modify the datamodel as directed by the
'type' attribute as described below. If it is unable to do so, it
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em> place
the error error.execution on the internal event queue:</p>

<ul>
<li>replacechildren. All the children at 'location' are replaced
with the value specified by 'expr'.</li>

<li>firstchild. The value specified by 'expr' is inserted before
all of the children at 'location'.</li>

<li>lastchild. The value specified by 'expr' is inserted after all
of the children at 'location'.</li>

<li>previoussibling. The value specified by 'expr' is inserted
before the node specified by 'location', keeping the same
parent.</li>

<li>nextsibling. The value specified by 'expr' is inserted after
the node specified by 'location', keeping the same parent.</li>

<li>replace. The node specified by 'location' is replaced by the
value specified by 'expr'.</li>

<li>delete. The node specified by 'location' is deleted. 'expr' is
ignored.</li>

<li>addattribute. An attribute with the name specified by 'attr'
and value specified by 'expr' is added to the node specified by
'location'.</li>
</ul>

<p>Note that in the case of an XML data model, it is not required
to assign to the root of a tree (i.e., the "name" value in a
&lt;data&gt; tag), since the path expression can reach down into
the tree to assign a new value to an internal node. The following
examples show various aspects of assignment in the XPath data
model. Suppose we have a data model of the following form:</p>

<div class="exampleOuter">
<pre>
&lt;data id="cart"&gt;
  &lt;myCart xmlns=""&gt;
    &lt;books&gt;
      &lt;book&gt;
        &lt;title&gt;The Zen Mind&lt;/title&gt;
      &lt;/book&gt;
      &lt;book&gt;
        &lt;title&gt;Freakonomics&lt;/title&gt;
      &lt;/book&gt;
    &lt;/books&gt;
    &lt;cds&gt;
      &lt;cd name="Something"/&gt;
    &lt;/cds&gt;
  &lt;/myCart&gt;
&lt;/data&gt;
</pre>
</div>

<p>Here is an example of assignment of a string to an element
node.</p>

<div class="exampleOuter">
<pre>

&lt;assign location="$cart/myCart/books/book[1]/title"  expr="'My favorite book'"/&gt;
</pre>
</div>

<p>results in</p>

<div class="exampleOuter">
<pre>
&lt;data id="cart"&gt;
  &lt;myCart xmlns=""&gt;
    &lt;books&gt;
      &lt;book&gt;
        &lt;title&gt;My favorite book&lt;/title&gt;
      &lt;/book&gt;
      &lt;book&gt;
        &lt;title&gt;Freakonomics&lt;/title&gt;
      &lt;/book&gt;
      ...
&lt;/data&gt;
</pre>
</div>

<p>Now suppose we assign an xml structure to an element node. The
following assignment statement would have the effect of replacing
the children of the element "$cart/myCart/books/book[1]" by the XML
tree rooted in &lt;bookinfo&gt;.</p>

<div class="exampleOuter">
<pre>
&lt;assign location="$cart/myCart/books/book[0]"&gt;
  &lt;bookinfo xmlns=""&gt;
    &lt;isdn&gt;12334455&lt;/isdn&gt;
    &lt;author&gt;some author&lt;/author&gt;
  &lt;/bookinfo&gt;
&lt;/assign&gt;
</pre>
</div>

<p>results in</p>

<div class="exampleOuter">
<pre>
&lt;data id="cart"&gt;
  &lt;myCart xmlns=""&gt;
    &lt;books&gt;
      &lt;book&gt;
        &lt;bookinfo&gt;
          &lt;isdn&gt;12334455&lt;/isdn&gt;
          &lt;author&gt;some author&lt;/author&gt;
        &lt;/bookinfo&gt;
      &lt;/book&gt;
      &lt;book&gt;
        &lt;title&gt;Freakonomics&lt;/title&gt;
      &lt;/book&gt;
      ...
&lt;/data&gt;
</pre>
</div>

<p>Here are examples of legal and illegal assignment to an
attribute:</p>

<div class="exampleOuter">
<pre>
&lt;!-- Legal assignment: --&gt;
&lt;assign location="$cart/myCart/cds/cd/@name" expr"'Something Else'"/&gt;

&lt;!-- Illegal assignment: --&gt;
&lt;assign  location="$cart/myCart/cds/cd/@name" &gt;
  &lt;foo&gt;
    &lt;bar/&gt;
  &lt;/foo&gt;
&lt;/assign&gt;
</pre>
</div>

<p>Now suppose we assign a string to a nodeset. The following
assignment statement would have the effect of replacing the
children of each node in the nodeset $cart/myCart/books/book with
the string "The Zen Mind":</p>

<div class="exampleOuter">
<pre>
&lt;assign location="$cart/myCart/books/book" expr="'The Zen Mind'"/&gt;
</pre>
</div>

<p>results in</p>

<div class="exampleOuter">
<pre>
&lt;data id="cart"&gt;
  &lt;myCart xmlns=""&gt;
    &lt;books&gt;
      &lt;book&gt;The Zen Mind&lt;/book&gt;
      &lt;book&gt;The Zen Mind&lt;/book&gt;
    &lt;/books&gt;
    ...
&lt;/data&gt;
</pre>
</div>

<p>Finally suppose we assign a structure to a nodeset. The
following statement would iterate over the elements in the nodeset
of &lt;book&gt; elements and replace their children with the
&lt;price&gt; structure:</p>

<div class="exampleOuter">
<pre>
&lt;assign location="$cart/myCart/books/book"&gt;
  &lt;price&gt;20.0&lt;/price&gt;
&lt;/assign&gt;
</pre>
</div>

<p>results in</p>

<div class="exampleOuter">
<pre>
&lt;data id="cart"&gt;
  &lt;myCart xmlns=""&gt;
    &lt;books&gt;
      &lt;book&gt;
        &lt;price&gt;20.0&lt;/price&gt;
      &lt;/book&gt;
      &lt;book&gt;
        &lt;price&gt;20.0&lt;/price&gt;
      &lt;/book&gt;
    &lt;/books&gt;
    ...
&lt;/data&gt;
</pre>
</div>

<p>If the evaluation of any of the expressions in an &lt;assign&gt;
element causes an error to be raised, evaluation of the element
terminates immediately and the &lt;assign&gt; has no effect. For
example, the following assignment statement would raise an error
because the sample datamodel we are using does not have an
&lt;ISBN&gt; node as a child of &lt;book&gt;:</p>

<div class="exampleOuter">
<pre>

&lt;assign location="$cart/myCart/books/book[1]/ISBN"  expr="'....'"/&gt;
</pre>
</div>
</div>

<div class="div3">
<h4><a id="N115C9" name="N115C9" />D.3.6 System Variables</h4>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> create an implicit &lt;data&gt; element
for each system variable defined in <a
href="#SystemVariables"><b>5.11 System Variables</b></a>.</p>

<p>Suppose as part of executing a state machine named "myName" with
a platform-assigned sessionid "12345", we are processing an event
with the name "foo.bar" and the following XML payload:</p>

<div class="exampleOuter">
<pre>
&lt;payload xmlns=""&gt;
    &lt;answer&gt;42&lt;/answer&gt;
&lt;/payload&gt;
</pre>
</div>

<p>Then the underlying XML datamodel would have the following
form:</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N115DC" name="N115DC" />Example:
Illustration of system injected data</div>

<div class="exampleInner">
<pre>
  &lt;datamodel&gt;

    &lt;!-- The three data elements below are automatically populated by the system --&gt;

    &lt;data id="_name"&gt;myName&lt;/data&gt;
    &lt;data id="_sessionid"&gt;12345&lt;/data&gt;
    &lt;data id="_event"&gt;
      &lt;name xmlns=""&gt;foo.bar&lt;/name&gt;
      &lt;data xmlns=""&gt;
        &lt;payload&gt;
          &lt;answer&gt;42&lt;/answer&gt;
        &lt;/payload&gt;
      &lt;/data&gt;
    &lt;/data&gt;

    &lt;!-- Rest of the application / developer-authored
         data model goes here --&gt;

  &lt;/datamodel&gt;
</pre>
</div>
</div>

<p>As an example, here is a sample transition that accesses the
<code>$_sessionid</code> variable in that data model.</p>

<div class="exampleOuter">
<pre>
&lt;state id="checkSessionid"&gt;
  &lt;transition cond="$_sessionid = '12345'" target="nextState"/&gt;
  ...
&lt;/state&gt;
</pre>
</div>
</div>

<div class="div3">
<h4><a id="N115EB" name="N115EB" />D.3.7 Scripting</h4>

<p>There is no scripting language.</p>
</div>

<div class="div3">
<h4><a id="XML_foreach" name="XML_foreach" />D.3.8
&lt;foreach&gt;</h4>

<p>In the XPath data model, the 'array' value expression <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em>
evaluate to an Node-set The 'item' attribute <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em>
specify a legal XPath variable name. The iteration order is the
order of the underlying Node-set, and goes from an index of 1 by
increments of one to an index of count(node-set).</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N115FC" name="N115FC" />Example:
Logging ISBN of all books in bookstore shopping cart</div>

<div class="exampleInner">
<pre>
&lt;foreach collection="$cart/books" item="book"&gt;
&lt;log expr="'Cart contains book with ISBN ' + $book/isbn"/&gt;
&lt;/foreach&gt;

</pre>
</div>
</div>
</div>

<div class="div3">
<h4><a id="N11602" name="N11602" />D.3.9 Unsupported Elements</h4>

<p><a href="#script"><b>5.9 &lt;script&gt;</b></a> is not supported
in the XPath Data Model. If the SCXML processor encounters a
document specifying the XPath Data Model and containing this
element, it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> behave as instructed by the 'exmode'
attribute on &lt;scxml&gt;. See <a href="#scxml"><b>3.2
&lt;scxml&gt;</b></a> for details.</p>
</div>
</div>
</div>

<div class="div1">
<h2><a id="eventioprocessors" name="eventioprocessors" />E Event
I/O Processors</h2>

<div class="div2">
<h3><a id="SCXMLEventProcessor" name="SCXMLEventProcessor" />E.1
SCXML Event I/O Processor</h3>

<p>The SCXML Event I/O Processor is intended to transport messages
in a specific format to and from SCXML sessions. This processor
specifies the schema of the message and how it maps onto SCXML
events, but it does not define the transport mechanism, which is
platform-specific. The schema for the message is available at <a
href="http://www.w3.org/2011/04/SCXML/scxml.xsd">http://www.w3.org/2011/04/SCXML/scxml-message.xsd</a>.
SCXML Processors <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support sending messages to and receiving
messages from other SCXML sessions using the SCXML Event I/O
Processor. An SCXML Processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> support exchanging messages with non-SCXML
endpoints using the SCXML Event I/O Processor. However this
specification defines the behavior for SCXML endpoints only.</p>

<p>The contents of the message are defined as follows:</p>

<ol>
<li>'name'. The sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> take the
value of this attribute from the 'event' attribute of the
&lt;send&gt; element. The receiving SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use it as
the value the 'name' field in the event that it generates (see <a
href="#InternalStructureofEvents"><b>5.11.1 The Internal Structure
of Events</b></a>).</li>

<li>'source'. The sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> populate
this attribute with a URI that the receiving processor can use to
reply to the sending processor. The receiving SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use this
URI as the value of the 'origin' field in the event that it
generates (see <a href="#InternalStructureofEvents"><b>5.11.1 The
Internal Structure of Events</b></a>).</li>

<li>'target'. The sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> take the
value of this attribute from the 'target' attribute of the
&lt;send&gt; element. The receiving SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use this
value to determine which session to deliver the message to. See <a
href="#SendTargets"><b>6.2.4 The Target of Send</b></a> for details
on the interpretation of this identifier.</li>

<li>'sendid'. the sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> populate
this attribute with the identifier specified in the 'id' attribute
or automatically generated by the platform when the &lt;send&gt;
tag is executed in the sending session. (See <a href="#send"><b>6.2
&lt;send&gt;</b></a>.) The receiving SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use this
value as the value of the 'sendid' field in the event that it
generates. If the author of the sending session did not specify
either the 'id' or 'idlocation' attribute, the sending SCXML
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> leave this attribute empty.</li>

<li>'sourcetype'. The sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> assign
this attribute the value "scxml". (Note that other types of senders
will assign different values.) The receiving Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use this
value as the value of the 'origintype' field of the event that it
generates.</li>

<li>The 'language' attribute is used to indicate the type of data
contained in the body of the message inside the &lt;payload&gt;
element. The sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> populate
this attribute with the value of the 'datamodel' attribute in the
&lt;scxml&gt; element.</li>

<li>&lt;payload&gt;. The sending SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> populate
this element with any data specified in the 'namelist' attribute of
in &lt;param&gt; and &lt;content&gt; elements. It <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> encode
the data in the language indicated by the 'language' attribute, for
example XML or JSON. This data <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> be in any namespace, or in no namespace at
all. The receiving SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> use this
value to populate the '_data' field of the event that it
generates.</li>
</ol>

<p>Here is a summary of the mapping between &lt;send&gt;, the SCXML
message structure, and the event that is raised in the receiving
session.</p>

<table border="1" cellpadding="2" cellspacing="2"
summary="send type values" width="100%">
<tbody>
<tr>
<th align="center">&lt;send&gt; element</th>
<th align="center">SCXML Message Structure</th>
<th align="center">Target Session Event</th>
</tr>

<tr>
<td align="left">'event' attribute</td>
<td align="left">'name' attribute</td>
<td align="left">'name' field</td>
</tr>

<tr>
<td align="left">not present in &lt;send&gt; but known to
platform</td>
<td align="left">'source' attribute</td>
<td align="left">'origin' field</td>
</tr>

<tr>
<td align="left">'target' attribute</td>
<td align="left">'target' attribute</td>
<td align="left">not present</td>
</tr>

<tr>
<td align="left">literal provided by author or value generated by
platform</td>
<td align="left">'sendid' attribute</td>
<td align="left">'sendid' field</td>
</tr>

<tr>
<td align="left">not present</td>
<td align="left">'sourcetype' attribute. Always "scxml".</td>
<td align="left">'origintype' field. Always "scxml".</td>
</tr>

<tr>
<td align="left">not present</td>
<td align="left">'language' attribute.</td>
<td align="left">not present</td>
</tr>

<tr>
<td align="left">'namelist' attribute, &lt;content&gt; child, or
&lt;param&gt; children</td>
<td align="left">&lt;payload&gt; element</td>
<td align="left">data field</td>
</tr>
</tbody>
</table>

<p>When an SCXML Processor receives a message via the SCXML Event
I/O Processor it <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> validate the syntax of the incoming
message and check that it matches an active session. If the message
fails syntactic validation or does not match an active session, the
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> notify the sending processor of the error
and <em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
ignore the message. If the message passes validation, but the
receiving Processor cannot handle the data format contained in the
message, the receiving Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.communication in internal queue of the session for
which the message was intended and <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> ignore
the message. The Processor <em title="SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em> also notify the sending endpoint of the
error. If no errors occur, the receiving Processor <em
title="CONVERT in RFC2119 context" class="RFC2119">CONVERT</em> the
message into an SCXML event, using the mapping defined above, and
<em title="CONVERT in RFC2119 context" class="RFC2119">CONVERT</em>
insert the event its external event queue.</p>

<p>If the sending entity is an SCXML session, it <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em> also
report errors. For example, if the sending session specifies a
sessionid that does not exist on the receiving system, specifies a
data format that the receiving session does not support, or is
unable to connect to the receiving system, it <em
title="SHOULD in RFC2119 context" class="RFC2119">SHOULD</em> place
the error error.communication on the internal event queue.</p>

<p>If the current session was triggered by an instance of
&lt;invoke&gt;, the SCXML Event I/O Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> handle
the 'cancel.invoke.<em>id</em>' event as defined in <a
href="#invokeimplementation"><b>6.4.3 Implementation of
&lt;invoke&gt;</b></a>. In other cases (namely if the current
session was not triggered by an instance of &lt;invoke&gt; or if
the <em>id</em> does not match the invokeid of the triggering
&lt;invoke&gt; element), the SCXML Event I/O processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> discard
the event and <em title=" SHOULD in RFC2119 context"
class="RFC2119">SHOULD</em> signal an error.</p>

<div class="div3">
<h4><a id="N1172F" name="N1172F" />E.1.1 Examples</h4>

<p>Here are some examples of SCXML messages sent between SCXML
sessions. Each example shows the original &lt;send&gt; element, the
corresponding &lt;message&gt; structures and a transition handling
the resulting event in the receiving SCXML session.</p>

<p><em>EXAMPLE 1:</em> First, here is a message with an XML payload
generated by &lt;send&gt; with a 'namelist':</p>

<div class="exampleInner">
<pre>
SESSION1 : SENDING SESSION
Pattern: "event" attribute with an optional "namelist"

&lt;datamodel&gt;
  &lt;data id="email" expr="'mailto:recipient@example.com'"/&gt;
  &lt;data id="content" expr="'http://www.example.com/mycontent.txt'"/&gt;
  &lt;data id="xmlcontent"&gt;
    &lt;headers xmlns="http://www.example.com/headers"&gt;
      &lt;cc&gt;archive@example.com&lt;/cc&gt;
      &lt;subject&gt;Example email&lt;/subject&gt;
    &lt;/headers&gt;
  &lt;/data&gt;
&lt;/datamodel&gt;

  ...

&lt;send id="send-123"
      target="http://scxml-processors.example.com/session2"
      type="scxml" event="email.send"
      namelist="email content xmlcontent"/&gt;


</pre>
</div>

<p>Here is the actual XML message that will be sent over
platform-specific transport and converted into an event in the
target SCXML session:</p>

<div class="exampleInner">
<pre>
&lt;scxml:message xmlns:scxml="http://www.w3.org/2005/07/scxml" version="1.0"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xsi:schemaLocation="http://www.w3.org/2005/07/scxml scxml-message.xsd"
       source="http://scxml-processors.example.com/session1" sourcetype="scxml"
       target="http://scxml-processors.example.com/session2" type="scxml"
       sendid="send-123" name="email.send"&gt;
  &lt;scxml:payload&gt;
    &lt;scxml:property name="email"&gt;mailto:recipient@example.com&lt;/scxml:property&gt;
    &lt;scxml:property name="content"&gt;http://www.example.com/mycontent.txt&lt;/scxml:property&gt;
    &lt;scxml:property name="xmlcontent"&gt;
      &lt;headers xmlns="http://www.example.com/headers"&gt;
        &lt;cc&gt;archive@example.com&lt;/cc&gt;
        &lt;subject&gt;Example email&lt;/subject&gt;
      &lt;/headers&gt;
    &lt;/scxml:property&gt;
    &lt;scxml:hint&gt;Email headers&lt;/scxml:hint&gt;
  &lt;/scxml:payload&gt;
&lt;/scxml:message&gt;
</pre>
</div>

<p>Here is sample SCXML code to process that event in the receiving
SCXML session. In this example &lt;my:email&gt; is
platform-specific executable content that sends an email:</p>

<div class="exampleInner">
<pre>
SESSION2 : RECEIVING SESSION
Pattern: "event" attribute with an optional "namelist"

&lt;scxml:transition event="email.send"&gt;
  &lt;my:email to="data('_event')/scxml:property[@name='email']"
            cc="data('_event')/scxml:property[@name='xmlcontent']/h:headers/h:cc"
            subject="data('_event')/scxml:property[@name='xmlcontent']/h:headers/h:subject"
            content="data('_event')/scxml:property[@name='content']"/&gt;
&lt;/scxml:transition&gt;
</pre>
</div>

<p><em>EXAMPLE 2:</em> The next example shows &lt;send&gt; using
inline XML content:</p>

<div class="exampleInner">
<pre>
SESSION1 : SENDING SESSION
Pattern: "xmlns" attribute with explicit inline content

&lt;send id="send-123"
      target="http://scxml-processors.example.com/session2"
      type="scxml"
      xmlns:csta="http://www.ecma.ch/standards/ecma-323/csta"&gt;

  &lt;content&gt;
     &lt;csta:MakeCall&gt;
       &lt;csta:callingDevice&gt;22343&lt;/callingDevice&gt;
       &lt;csta:calledDirectoryNumber&gt;18005551212&lt;/csta:calledDirectoryNumber&gt;
     &lt;/csta:MakeCall&gt;
  &lt;/content&gt;

&lt;/send&gt;

</pre>
</div>

<p>Here is the actual XML message that will be sent:</p>

<div class="exampleInner">
<pre>
&lt;scxml:message xmlns:scxml="http://www.w3.org/2005/07/scxml" version="1.0"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xsi:schemaLocation="http://www.w3.org/2005/07/scxml scxml-message.xsd"
       source="http://scxml-processors.example.com/session1"
       target="http://scxml-processors.example.com/session2"
       sendid="send-123"&gt;
  &lt;scxml:payload xmlns:csta="http://www.ecma.ch/standards/ecma-323/csta"&gt;
    &lt;csta:MakeCall&gt;
      &lt;csta:callingDevice&gt;22343&lt;/csta:callingDevice&gt;
      &lt;csta:calledDirectoryNumber&gt;18005551212&lt;/csta:calledDirectoryNumber&gt;
    &lt;/csta:MakeCall&gt;
  &lt;/scxml:payload&gt;
&lt;/scxml:message&gt;
</pre>
</div>

<p>Here is sample SCXML code to process the resulting event in the
receiving SCXML session. It uses the special executable content
&lt;csta:makecall&gt; to generate a telephone call:</p>

<div class="exampleInner">
<pre>
SESSION2 : RECEIVING SESSION
Pattern: "xmlns" attribute with explicit inline content

&lt;scxml:transition event="external.event"&gt;
  &lt;csta:makecall callingDevice="data('_event')/csta:MakeCall/csta:callingDevice"
                 callingDirectoryNumber="data('_event')/csta:MakeCall/csta:callingDirectoryNumber"/&gt;
&lt;/scxml:transition&gt;
</pre>
</div>

<p><em>EXAMPLE 3:</em> Finally, here is an example generated by
&lt;send&gt; using both 'event' and 'namelist' attributes and using
JSON content:</p>

<div class="exampleInner">
<pre>
SESSION1 : SENDING SESSION
Pattern: "event" attribute with an optional "namelist"

&lt;datamodel&gt;
  &lt;data id="email" expr="'mailto:recipient@example.com'"/&gt;
  &lt;data id="content" expr="'http://www.example.com/mycontent.txt'"/&gt;
  &lt;data id="jsoncontent" src="http://www.example.com/headers.json"/&gt;
&lt;/datamodel&gt;

  ...

&lt;send sendid="send-123"
      target="'http://scxml-processors.example.com/session2'"
      type="'scxml'" event="'email.send'"
      namelist="email content jsoncontent"/&gt;

</pre>
</div>

<p>Here is the actual XML message that will be sent over
platform-specific transport and converted into an event in the
target SCXML session:</p>

<div class="exampleInner">
<pre>
&lt;scxml:message xmlns:scxml="http://www.w3.org/2005/07/scxml" version="1.0"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xsi:schemaLocation="http://www.w3.org/2005/07/scxml scxml-message.xsd"
       source="http://scxml-processors.example.com/session1"
       target="http://scxml-processors.example.com/session2"
       sendid="send-123" name="email.send" language="json"&gt;
  &lt;scxml:payload&gt;
    &lt;scxml:property name="email"&gt;mailto:recipient@example.com&lt;/scxml:property&gt;
    &lt;scxml:property name="content"&gt;http://www.example.com/mycontent.txt&lt;/scxml:property&gt;
    &lt;scxml:property name="jsoncontent"&gt;
      &lt;![CDATA[
        headers : {
          cc  : "audit@example.com" ,
          subject : "Example email"
        }
      ]]&gt;
    &lt;/scxml:property&gt;
    &lt;scxml:hint&gt;Email headers&lt;/scxml:hint&gt;
  &lt;/scxml:payload&gt;
&lt;/scxml:message&gt;
</pre>
</div>

<p>Here is sample SCXML code to process the resulting event in the
receiving SCXML session. In this example, &lt;my:email&gt; is
special executable content as in the first example.</p>

<div class="exampleInner">
<pre>
SESSION2 : RECEIVING SESSION
Pattern: "event" attribute with an optional "namelist"

&lt;scxml:transition event="email.send"&gt;
  &lt;my:email to="_event.email"
            cc="_event.jsoncontent.headers.cc"
            subject="_event.jsoncontent.headers.subject"
            content="_event.content"/&gt;
&lt;/scxml:transition&gt;
</pre>
</div>
</div>

<p>In some cases it may be convenient to included multiple
&lt;message&gt; structures in a single payload. The following
schema defines a &lt;messages&gt; element which contains multiple
&lt;message&gt; elements. Support for this schema is optional.</p>

<p>scxml-messages.xsd</p>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0" encoding="UTF-8"?&gt;
&lt;!--
    XML Schema for sending messages to SCXML processors.
--&gt;
&lt;xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema"
    targetNamespace="http://www.w3.org/2005/07/scxml"
    xmlns="http://www.w3.org/2005/07/scxml"
    elementFormDefault="qualified"&gt;

    &lt;xsd:include schemaLocation="scxml-message.xsd"/&gt;

    &lt;xsd:annotation&gt;
        &lt;xsd:documentation xml:lang="en"&gt;
            XML Schema for sending messages to SCXML processors.
            Version 1.0
        &lt;/xsd:documentation&gt;
        &lt;xsd:documentation source="scxml-copyright.xsd" /&gt;
    &lt;/xsd:annotation&gt;

    &lt;xsd:attributeGroup name="scxmlmessages.extra.attribs"&gt;
        &lt;xsd:annotation&gt;
            &lt;xsd:documentation&gt;
                Group allowing attributes from other namespaces
            &lt;/xsd:documentation&gt;
        &lt;/xsd:annotation&gt;
        &lt;xsd:anyAttribute namespace="##other" processContents="lax" /&gt;
    &lt;/xsd:attributeGroup&gt;

    &lt;xsd:attributeGroup name="scxmlmessages.messages.attlist"&gt;
        &lt;xsd:attribute name="version" type="xsd:string" fixed="1.0"
            use="required" /&gt;
        &lt;xsd:attributeGroup ref="scxmlmessages.extra.attribs" /&gt;
    &lt;/xsd:attributeGroup&gt;

    &lt;xsd:group name="scxmlmessages.messages.content"&gt;
        &lt;xsd:sequence&gt;
            &lt;xsd:element ref="message" minOccurs="1"
                maxOccurs="unbounded" /&gt;
        &lt;/xsd:sequence&gt;
    &lt;/xsd:group&gt;

    &lt;xsd:complexType name="scxmlmessages.messages.type"&gt;
        &lt;xsd:group ref="scxmlmessages.messages.content" /&gt;
        &lt;xsd:attributeGroup ref="scxmlmessages.messages.attlist" /&gt;
    &lt;/xsd:complexType&gt;

    &lt;xsd:element name="messages" type="scxmlmessages.messages.type" /&gt;

&lt;/xsd:schema&gt;
</pre>
</div>
</div>

<div class="div2">
<h3><a id="BasicHTTPEventProcessor"
name="BasicHTTPEventProcessor" />E.2 Basic HTTP Event I/O
Processor</h3>

<p>The Basic HTTP Event I/O Processor is intended as a minimal
interoperable mechanism for sending and receiving events between
external components and SCXML 1.0 implementations. Support for the
Basic HTTP Event I/O Processor is optional, but implementations
that implement this processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> support sending and receiving messages in
the SCXML message format using it(<a
href="http://www.w3.org/2011/04/SCXML/scxml.xsd">http://www.w3.org/2011/04/SCXML/scxml-message.xsd</a>).</p>

<div class="div3">
<h4><a id="accessURI" name="accessURI" />E.2.1 Access URI</h4>

<p>The access URI for the Basic HTTP Event I/O Processor is the URI
to which an external component can send an event for injection into
an active session.</p>

<p>The access URI is available via the system variable
_ioprocessors using the key "basichttp". For example, in <a
href="#ecma-profile"><b>D.2 The ECMAScript Data Model</b></a>,
_ioprocessors["basichttp"] returns the access URI (e.g.
http://www.example.com/scxml/basichttp) for the basichttp
processor.</p>

<p>The access URI may also be specified in an
implementation-specific manner (for example, product
documentation).</p>
</div>

<div class="div3">
<h4><a id="N11789" name="N11789" />E.2.2 Receiving Events</h4>

<p>An SCXML Processor that supports the Basic HTTP Event I/O
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> accept messages from external components
the access URI as HTTP POST requests (see <a
href="#HTTP">[HTTP]</a>). The SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> validate
the message it receiveds and then <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> build the
appropriate SCXML event and <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> add it to the appropriate event
queue.</p>

<p>If the HTTP parameter '_content' is present, the SCXML Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
interpret its value as a message in the SCXML message format (<a
href="http://www.w3.org/2011/04/SCXML/scxml.xsd">http://www.w3.org/2011/04/SCXML/scxml-message.xsd</a>).
The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> map such a message to an SCXML event as
described in <a href="#SCXMLEventProcessor"><b>E.1 SCXML Event I/O
Processor</b></a>. An SCXML Processor <em
title="MAY in RFC2119 context" class="RFC2119">MAY</em> accept
other parameters as well. In such cases, the mapping of their
values to SCXML events is implementation-specific.</p>

<p>After it adds the received message to the appropriate event
queue, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> then indicate the result to the external
component via a success response code 2XX. Note that this response
is sent before the event is removed from the queue and processed.
In the cases where the message cannot be formed into an SCXML
event, the Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> return an HTTP error code as defined in
<a href="#HTTP">[HTTP]</a>. The following codes are assigned a more
specific meaning in the SCXML context:</p>

<ul>
<li>400 (Bad Request). Message structure is invalid.</li>

<li>403 (Forbidden). Session id does not match an existing SCXML
session id.</li>
</ul>
</div>

<div class="div3">
<h4><a id="N117BF" name="N117BF" />E.2.3 Sending Events</h4>

<p>Events can be sent from the SCXML implementation to an external
component with the Basic HTTP Event I/O Processor using the
&lt;send&gt; element (see <a href="#send"><b>6.2
&lt;send&gt;</b></a>) with the type attribute set to "basichttp"
and the target attribute set to the access URI of the external
component.</p>

<p>The SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> attempt deliver the message using HTTP
method "POST" and with parameter values encoded by default in an
application/x-www-form-urlencoded body (POST method). An SCXML
Processor <em title="MAY in RFC2119 context"
class="RFC2119">MAY</em> support other encodings, and allow then to
be specified in a platform-specific way.</p>

<p>If the namelist attribute is defined, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> map its
variable names and values to HTTP parameters. If one or more
&lt;param&gt; children are present, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> map their
names (i.e. name attributes) and values to HTTP parameters. If a
&lt;content&gt; child is present, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> map its
value to the distinguished HTTP parameter '_content'.</p>

<p>If the external component returns any HTTP response code other
than 2XX, the SCXML Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> place the error error.communication on
the internal event queue of the session that attempted to send the
event.</p>
</div>
</div>

<div class="div2">
<h3><a id="DOMEventProcessor" name="DOMEventProcessor" />E.3 DOM
Event I/O Processor</h3>

<p>The DOM Event I/O processor handles communication between SCXML
markup and markup in other namespaces in mixed-markup XML
documents. An example of this would be a document containing both
SCXML and HTML markup. In such a case, each language retains its
own context and its own independent semantics. (For example,
SCXML's event processing algorithm is not affected by the fact that
there is HTML markup elsewhere in the document.) It is however
useful for the two languages to be able to communicate by sending
events back and forth, so that the HTML markup can notify SCXML
when the user clicks on a button, and the SCXML markup can notify
HTML when it is time to place a certain field in focus, etc. The
DOM Event I/O processor handles this communication by means of DOM
Events <a href="#DOMEvents">[DOMEvents]</a>, which are a general
means for information propagation in XML documents.</p>

<div class="div3">
<h4><a id="N117E8" name="N117E8" />E.3.1 Sending Events</h4>

<p>The SCXML author can send a DOM event to any node in the
document by selecting the DOM Event I/O processor (type="DOM") and
specifying the URI of that node as the target. The SCXML Processor
<em title="MUST in RFC2119 context" class="RFC2119">MUST</em>
populate the attributes of the event with the values specified via
"namelist" or &lt;param&gt;. "namelist" or &lt;param&gt;. The
Processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> ignore items that do not correspond to
attributes of the event. If the URI specified is not part of the
same document, the SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> place the
error error.communication in the internal event queue.</p>
</div>

<div class="div3">
<h4><a id="N117F6" name="N117F6" />E.3.2 Receiving Events</h4>

<p>When a DOM event is targeted at the &lt;scxml&gt; root node, the
DOM Event I/O processor <em title="MUST in RFC2119 context"
class="RFC2119">MUST</em> convert it into an SCXML event and insert
it in the external event queue. It <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> convert
the attributes of the DOM event into like-named elements in the
data field of the event (see <a
href="#InternalStructureofEvents"><b>5.11.1 The Internal Structure
of Events</b></a> for details.) The SCXML Processor <em
title="MUST in RFC2119 context" class="RFC2119">MUST</em> ignore
DOM events targeted at other nodes in the SCXML markup.</p>
</div>
</div>
</div>

<div class="div1">
<h2><a id="relatedWork" name="relatedWork" />F Related Work</h2>

<p>A number of other XML-based state machine notations have been
developed, but none serves the same purpose as SCXML. XMI <a
href="#XMI">[UML XMI]</a> is a notation developed for representing
UML diagrams, including Harel State charts. However it is intended
as a machine interchange format and is not readily authorable by
humans. ebXML <a href="#ebXML">[OASIS ebXML]</a> is a language for
business process specification intended to support B2B e-commerce
applications. It contains a state machine language that is in some
ways similar to the one presented here, but its syntax and
semantics are closely tied to its intended use in e-commerce. It is
therefore not suitable as a general-purpose state machine language.
XTND <a href="#XTND">[XTND]</a>, also called XML Transition Network
Definition, is a notation for simple finite state machines but
lacks Harel's notions of hierarchical and parallel states and are
thus not suitable for a general-purpose state machine that is
semantically equivalent to Harel statecharts.</p>
</div>

<div class="div1">
<p>This section is informative.</p>

<h2><a id="Examples" name="Examples" />G Examples</h2>

<div class="div2">
<h3><a id="N1181C" name="N1181C" />G.1 Language Overview</h3>

<p>This SCXML document gives an overview of the SCXML language and
shows the use of its state machine transition flows:</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11821" name="N11821" />Example:
Main.scxml</div>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0" encoding="us-ascii"?&gt;
&lt;!-- A wrapper state that contains all other states in this file
- it represents the complete state machine --&gt;
&lt;scxml xmlns="http://www.w3.org/2005/07/scxml"
       version="1.0"
       initial="Main"
       datamodel="ecmascript"&gt;
  &lt;state id="Main"&gt;
    &lt;!-- its initial state is Test1 --&gt;
    &lt;initial&gt;
      &lt;transition target="Test1"/&gt;
    &lt;/initial&gt;

    &lt;!-- Really simple state showing the basic syntax. --&gt;
    &lt;state id="Test1"&gt;
      &lt;initial&gt;
        &lt;transition target="Test1Sub1"/&gt;
      &lt;/initial&gt;
      &lt;!-- Runs before we go into the substate --&gt;
      &lt;onentry&gt;
        &lt;log expr="'Inside Test1'"/&gt;
      &lt;/onentry&gt;

      &lt;!-- Here is our first substate --&gt;
      &lt;state id="Test1Sub1"&gt;
        &lt;onentry&gt;
          &lt;log expr="'Inside Test1Sub1.'"/&gt;
        &lt;/onentry&gt;
        &lt;onexit&gt;
          &lt;log expr="'Leaving Test1Sub1'"/&gt;
        &lt;/onexit&gt;
        &lt;!-- Go to Sub2 on Event1 --&gt;
        &lt;transition event="Event1" target="Test1Sub2"/&gt;
      &lt;/state&gt;

      &lt;!-- Here is the second substate
           It is final, so Test1 is done when we get here --&gt;
      &lt;final id="Test1Sub2"/&gt;

      &lt;!-- We get this event when we reach Test1Sub2. --&gt;
      &lt;transition event="Test1.done" target="Test2"/&gt;

      &lt;!-- We run this on the way out of Test1 --&gt;
      &lt;onexit&gt;
        &lt;log expr="'Leaving Test1...'"/&gt;
      &lt;/onexit&gt;
    &lt;/state&gt;

    &lt;state id="Test2"&gt;
      &lt;initial&gt;
        &lt;transition target="Test2Sub1"/&gt;
      &lt;/initial&gt;

      &lt;!-- This time we reference a state
           defined in an external file.   --&gt;
       &lt;xi:include href="SCXMLExamples/Test2Sub1.xml" parse="text"/&gt;

      &lt;final id="Test2Sub2"/&gt;

      &lt;!-- Test2Sub2 is defined as final, so this
           event is generated when we reach it --&gt;
      &lt;transition event="done.state.Test2" next="Test3"/&gt;
    &lt;/state&gt;

    &lt;state id="Test3"&gt;
      &lt;initial&gt;
        &lt;transition target="Test3Sub1"/&gt;
      &lt;/initial&gt;

      &lt;state id="Test3Sub1"&gt;
        &lt;onentry&gt;
          &lt;log expr="'Inside Test3Sub1...'"/&gt;
          &lt;!-- Send our self an event in 5s --&gt;
          &lt;send event="'Timer'"  delay="'5s'"/&gt;
        &lt;/onentry&gt;
        &lt;!-- Transition on to Test4.
             This will exit both us and our parent. --&gt;
        &lt;transition event="Timer" target="Test4"/&gt;
        &lt;onexit&gt;
          &lt;log expr="'Leaving Test3Sub1...'"/&gt;
        &lt;/onexit&gt;
      &lt;/state&gt;

      &lt;onexit&gt;
        &lt;log expr="'Leaving Test3...'"/&gt;
      &lt;/onexit&gt;
    &lt;/state&gt;

    &lt;state id="Test4"&gt;
      &lt;onentry&gt;
        &lt;log expr="'Inside Test4...'"/&gt;
      &lt;/onentry&gt;
      &lt;initial&gt;
        &lt;transition target="Test4Sub1"/&gt;
      &lt;/initial&gt;

      &lt;state id="Test4Sub1"&gt;
        &lt;onexit&gt;
          &lt;log expr="'Leaving Test4Sub1...'"/&gt;
        &lt;/onexit&gt;
        &lt;!-- This transition causes the state to exit immediately
             after entering Test4Sub1.  The transition has no event
             or guard so it is always active --&gt;
        &lt;transition target="Test5"/&gt;
      &lt;/state&gt;
    &lt;/state&gt;

    &lt;state id="Test5"&gt;
      &lt;onentry&gt;
        &lt;log expr="'Inside Test5...'"/&gt;
      &lt;/onentry&gt;
      &lt;initial&gt;
        &lt;transition target="Test5P"/&gt;
      &lt;/initial&gt;

      &lt;!-- Fire off parallel states.  In a more realistic example
      the parallel substates Test5PSub1 and Test5PSub2 would themselves
      have substates and would do some real work before transitioning to final substates --&gt;
      &lt;parallel id="Test5P"&gt;
        &lt;state id="Test5PSub1" initial="Test5PSub1Final"&gt;
           &lt;final id="Test5PSub1Final"/&gt;
           &lt;/state&gt;
        &lt;state id="Test5PSub2" initial="Test5PSub2Final"&gt;
            &lt;final id="Test5PSub2Final"/&gt;
            &lt;/state&gt;
        &lt;onexit&gt;
          &lt;log expr="'all parallel states done'"/&gt;
        &lt;/onexit&gt;
      &lt;/parallel&gt;

      &lt;!-- The parallel states immediately transition to final substates,
      so this event is generated immediately.   --&gt;
      &lt;transition event="done.state.Test5P" target="Test6"/&gt;
    &lt;/state&gt;

    &lt;!--
         - This state shows invocation of an external component.
         - We will use CCXML + VoiceXML actions as an example
         - as it is a good smoke test to show how it all
         - fits together.
         - Note: In a real app you would likely
         - split this over several states but we
         - are trying to keep it simple here.
    --&gt;
    &lt;state id="Test6"
           xmlns:ccxml="http://www.w3.org/2002/09/ccxml"
           xmlns:v3="http://www.w3.org/2005/07/vxml3"&gt;
      &lt;datamodel&gt;
        &lt;data name="ccxmlid" expr="32459"/&gt;
        &lt;date name="v3id" expr="17620"/&gt;
        &lt;data name="dest" expr="'tel:+18315552020'"/&gt;
        &lt;data name="src" expr="'helloworld2.vxml'"/&gt;
        &lt;data name="id" expr="'HelloWorld'"/&gt;
      &lt;/datamodel&gt;

      &lt;onentry&gt;
        &lt;!-- Use &lt;send&gt; a message to a CCXML Processor asking it to run createcall --&gt;
        &lt;send target="ccxmlid" type="basichttp" event="ccxml:createcall" namelist="dest"/&gt;
      &lt;/onentry&gt;

      &lt;transition event="ccxml:connection.connected"&gt;
        &lt;!-- Here as a platform-specific extension we use example V3
             Custom Action Elements instead of send. The implementation of this logic
             would be platform-dependent. --&gt;
        &lt;v3:form id="HelloWorld"&gt;
          &lt;v3:block&gt;&lt;v3:prompt&gt;Hello World!&lt;/v3:prompt&gt;&lt;/v3:block&gt;
        &lt;/v3:form&gt;
      &lt;/transition&gt;

      &lt;transition event="v3:HelloWorld.done"&gt;
        &lt;!-- Here we are using the low level &lt;send&gt;
             element to run a v3 form. Note that the event "v3:HelloWorld.done"
             is assumed either to be set/sent explicitly by the v3:form code or
             implicitly by some process outside of the v3:form --&gt;
        &lt;send target="v3id" type="basichttp" event="v3:formstart" namelist="src id"/&gt;
      &lt;/transition&gt;

      &lt;transition event="v3:HelloWorld2.done"&gt;
        &lt;!-- we use _event.data to access data in the event we're processing.
             Again we assume the v3:HelloWorld2.done is set/sent from outside
             this document --&gt;
        &lt;ccxml:disconnect connectionid="_event.data.connectionid"/&gt;
      &lt;/transition&gt;

      &lt;transition event="ccxml:connection.disconnected" target="Done"/&gt;

      &lt;transition event="send.failed" target="Done"&gt;
        &lt;!-- If we get an error event we move to the Done state that
             is a final state. --&gt;
        &lt;log expr="'Sending to and External component failed'"/&gt;
      &lt;/transition&gt;

      &lt;onexit&gt;
        &lt;log expr="'Finished with external component'"/&gt;
      &lt;/onexit&gt;
    &lt;/state&gt;

    &lt;!-- This final state is an immediate child of Main
         -  when we get here, Main.done is generated. --&gt;
    &lt;final id="Done"/&gt;
    &lt;!-- End of Main &gt; --&gt;
  &lt;/state&gt;
&lt;/scxml&gt;
</pre>
</div>
</div>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11827" name="N11827" />Example:
Test2Sub1.xml</div>

<div class="exampleInner">
<pre>
  &lt;!-- This is an example substate defined in
  - an external file and included by Main.scxml.
  --&gt;
  &lt;state id="Test2Sub1"&gt;
    &lt;onentry&gt;
      &lt;log expr="'Inside Test2Sub1'"/&gt;
    &lt;/onentry&gt;
    &lt;transition event="Event2" target="Test2Sub2"/&gt;
  &lt;/state&gt;
</pre>
</div>
</div>
</div>

<div class="div2">
<h3><a id="N1182D" name="N1182D" />G.2 Microwave Example</h3>

<p>The example below shows the implementation of a simple microwave
oven using SCXML.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11832" name="N11832" />Example:
microwave-01.scxml</div>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0"?&gt;
&lt;scxml xmlns="http://www.w3.org/2005/07/scxml"
       version="1.0"
       datamodel="ecmascript"
       initial="off"&gt;

  &lt;!--  trivial 5 second microwave oven example --&gt;
  &lt;datamodel&gt;
    &lt;data id="cook_time" expr="5"/&gt;
    &lt;data id="door_closed" expr="true"/&gt;
    &lt;data id="timer" expr="0"/&gt;
  &lt;/datamodel&gt;

  &lt;state id="off"&gt;
    &lt;!-- off state --&gt;
    &lt;transition event="turn.on" target="on"/&gt;
  &lt;/state&gt;

  &lt;state id="on"&gt;
    &lt;initial&gt;
        &lt;transition target="idle"/&gt;
    &lt;/initial&gt;
    &lt;!-- on/pause state --&gt;

    &lt;transition event="turn.off" target="off"/&gt;
    &lt;transition cond="timer &amp;gt;= cook_time" target="off"/&gt;

    &lt;state id="idle"&gt;
      &lt;!-- default immediate transition if door is shut --&gt;
      &lt;transition cond="door_closed" target="cooking"/&gt;
      &lt;transition event="door.close" target="cooking"&gt;
        &lt;assign location="door_closed" expr="true"/&gt;
        &lt;!-- start cooking --&gt;
      &lt;/transition&gt;
    &lt;/state&gt;

    &lt;state id="cooking"&gt;
      &lt;transition event="door.open" target="idle"&gt;
        &lt;assign location="door_closed" expr="false"/&gt;
      &lt;/transition&gt;

      &lt;!-- a 'time' event is seen once a second --&gt;
      &lt;transition event="time"&gt;
        &lt;assign location="timer" expr="timer + 1"/&gt;
      &lt;/transition&gt;
    &lt;/state&gt;

  &lt;/state&gt;

&lt;/scxml&gt;
</pre>
</div>
</div>
</div>

<div class="div2">
<h3><a id="MicrowaveParallel" name="MicrowaveParallel" />G.3
Microwave Example (Using parallel)</h3>

<p>The example below shows the implementation of a simple microwave
oven using &lt;parallel&gt; and the SCXML In() predicate.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N1183E" name="N1183E" />Example:
microwave-02.scxml</div>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0"?&gt;
&lt;scxml xmlns="http://www.w3.org/2005/07/scxml"
       version="1.0"
       datamodel="ecmascript"
       initial="oven"&gt;

  &lt;!-- trivial 5 second microwave oven example --&gt;
  &lt;!-- using parallel and In() predicate --&gt;
  &lt;datamodel&gt;
    &lt;data id="cook_time" expr="5"/&gt;
    &lt;data id="door_closed" expr="true"/&gt;
    &lt;data id="timer" expr="0"/&gt;
  &lt;/datamodel&gt;

  &lt;parallel id="oven"&gt;

    &lt;!-- this region tracks the microwave state and timer --&gt;
    &lt;state id="engine"&gt;
      &lt;transition target="off"/&gt;

      &lt;state id="off"&gt;
        &lt;!-- off state --&gt;
        &lt;transition event="turn.on" target="on"/&gt;
      &lt;/state&gt;

      &lt;state id="on"&gt;
        &lt;transition target="idle"/&gt;
         &lt;!-- on/pause state --&gt;

        &lt;transition event="turn.off" target="off"/&gt;
        &lt;transition cond="timer &amp;gt;= cook_time" target="off"/&gt;

        &lt;state id="idle"&gt;
          &lt;transition cond="In('closed')" target="cooking"/&gt;
        &lt;/state&gt;

        &lt;state id="cooking"&gt;
          &lt;transition cond="In('open')" target="idle"/&gt;

          &lt;!-- a 'time' event is seen once a second --&gt;
          &lt;transition event="time"&gt;
            &lt;assign location="timer" expr="timer + 1"/&gt;
          &lt;/transition&gt;
        &lt;/state&gt;
      &lt;/state&gt;
    &lt;/state&gt;

    &lt;!-- this region tracks the microwave door state --&gt;
    &lt;state id="door"&gt;
      &lt;initial&gt;
        &lt;transition target="closed"/&gt;
      &lt;/initial&gt;
      &lt;state id="closed"&gt;
        &lt;transition event="door.open" target="open"/&gt;
      &lt;/state&gt;
      &lt;state id="open"&gt;
        &lt;transition event="door.close" target="closed"/&gt;
       &lt;/state&gt;
    &lt;/state&gt;

  &lt;/parallel&gt;

&lt;/scxml&gt;
</pre>
</div>
</div>
</div>

<div class="div2">
<h3><a id="N11844" name="N11844" />G.4 Calculator Example</h3>

<p>The example below shows the implementation of a simple
calculator in SCXML.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11849" name="N11849" />Example:
calc.scxml</div>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0" ?&gt;
&lt;scxml xmlns="http://www.w3.org/2005/07/scxml" version="1.0"
       initial="on" datamodel="ecmascript" name="calc"&gt;
    &lt;datamodel&gt;
         &lt;data id="long_expr" /&gt;
         &lt;data id="short_expr" expr="0" /&gt;
         &lt;data id="res" /&gt;
    &lt;/datamodel&gt;
    &lt;state id="on" initial="ready"&gt;
        &lt;onentry&gt;
            &lt;send event="DISPLAY.UPDATE" /&gt;
        &lt;/onentry&gt;
        &lt;state id="ready" initial="begin"&gt;
        &lt;state id="begin"&gt;
            &lt;transition event="OPER.MINUS" target="negated1" /&gt;
            &lt;onentry&gt;
                &lt;send event="DISPLAY.UPDATE" /&gt;
            &lt;/onentry&gt;
        &lt;/state&gt;
        &lt;state id="result"&gt;
        &lt;/state&gt;
            &lt;transition event="OPER" target="opEntered" /&gt;
            &lt;transition event="DIGIT.0" target="zero1"&gt;
                &lt;assign location="short_expr" expr="''" /&gt;
            &lt;/transition&gt;
            &lt;transition event="DIGIT" target="int1"&gt;
                &lt;assign location="short_expr" expr="''" /&gt;
            &lt;/transition&gt;
            &lt;transition event="POINT" target="frac1"&gt;
                &lt;assign location="short_expr" expr="''" /&gt;
            &lt;/transition&gt;
        &lt;/state&gt;
        &lt;state id="negated1"&gt;
            &lt;onentry&gt;
                &lt;assign location="short_expr" expr="'-'" /&gt;
                &lt;send event="DISPLAY.UPDATE" /&gt;
            &lt;/onentry&gt;
            &lt;transition event="DIGIT.0" target="zero1" /&gt;
            &lt;transition event="DIGIT" target="int1" /&gt;
            &lt;transition event="POINT" target="frac1" /&gt;
        &lt;/state&gt;
        &lt;state id="operand1"&gt;
            &lt;state id="zero1"&gt;
                &lt;transition event="DIGIT" cond="_event.name != 'DIGIT.0'" target="int1" /&gt;
                &lt;transition event="POINT" target="frac1" /&gt;
            &lt;/state&gt;
            &lt;state id="int1"&gt;
                &lt;transition event="POINT" target="frac1" /&gt;
                &lt;transition event="DIGIT"&gt;
                    &lt;assign location="short_expr" expr="short_expr+_event.name.substr(_event.name.lastIndexOf('.')+1)" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/transition&gt;
                &lt;onentry&gt;
                    &lt;assign location="short_expr" expr="short_expr+_event.name.substr(_event.name.lastIndexOf('.')+1)" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/onentry&gt;
            &lt;/state&gt;
            &lt;state id="frac1"&gt;
                &lt;onentry&gt;
                    &lt;assign location="short_expr" expr="short_expr+'.'" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/onentry&gt;
                &lt;transition event="DIGIT"&gt;
                    &lt;assign location="short_expr" expr="short_expr+_event.name.substr(_event.name.lastIndexOf('.')+1)" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/transition&gt;
            &lt;/state&gt;
            &lt;transition event="OPER" target="opEntered" /&gt;
        &lt;/state&gt;
        &lt;state id="opEntered"&gt;
            &lt;transition event="OPER.MINUS" target="negated2" /&gt;
            &lt;transition event="POINT" target="frac2" /&gt;
            &lt;transition event="DIGIT.0" target="zero2" /&gt;
            &lt;transition event="DIGIT" target="int2" /&gt;
            &lt;onentry&gt;
                &lt;raise event="CALC.SUB" /&gt;
                &lt;send target="_internal" event="OP.INSERT"&gt;
                    &lt;param name="operator" expr="_event.name" /&gt;
                &lt;/send&gt;
            &lt;/onentry&gt;
        &lt;/state&gt;
        &lt;state id="negated2"&gt;
            &lt;onentry&gt;
                &lt;assign location="short_expr" expr="'-'" /&gt;
                &lt;send event="DISPLAY.UPDATE" /&gt;
            &lt;/onentry&gt;
            &lt;transition event="DIGIT.0" target="zero2" /&gt;
            &lt;transition event="DIGIT" target="int2" /&gt;
            &lt;transition event="POINT" target="frac2" /&gt;
        &lt;/state&gt;
        &lt;state id="operand2"&gt;
            &lt;state id="zero2"&gt;
                &lt;transition event="DIGIT" cond="_event.name != 'DIGIT.0'" target="int2" /&gt;
                &lt;transition event="POINT" target="frac2" /&gt;
            &lt;/state&gt;
            &lt;state id="int2"&gt;
               &lt;transition event="DIGIT"&gt;
                    &lt;assign location="short_expr" expr="short_expr+_event.name.substr(_event.name.lastIndexOf('.')+1)" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/transition&gt;
                &lt;onentry&gt;
                    &lt;assign location="short_expr" expr="short_expr+_event.name.substr(_event.name.lastIndexOf('.')+1)" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/onentry&gt;
                &lt;transition event="POINT" target="frac2" /&gt;
            &lt;/state&gt;
            &lt;state id="frac2"&gt;
                &lt;onentry&gt;
                    &lt;assign location="short_expr" expr="short_expr +'.'" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/onentry&gt;
                &lt;transition event="DIGIT"&gt;
                    &lt;assign location="short_expr" expr="short_expr +_event.name.substr(_event.name.lastIndexOf('.')+1)" /&gt;
                    &lt;send event="DISPLAY.UPDATE" /&gt;
                &lt;/transition&gt;
            &lt;/state&gt;
            &lt;transition event="OPER" target="opEntered"&gt;
                &lt;raise event="CALC.SUB" /&gt;
                &lt;raise event="OP.INSERT" /&gt;
            &lt;/transition&gt;
            &lt;transition event="EQUALS" target="result"&gt;
                &lt;raise event="CALC.SUB" /&gt;
                &lt;raise event="CALC.DO" /&gt;
            &lt;/transition&gt;
        &lt;/state&gt;
        &lt;transition event="C" target="on" /&gt;
    &lt;/state&gt;
    &lt;transition event="CALC.DO"&gt;
        &lt;assign location="short_expr" expr="''+ res" /&gt;
        &lt;assign location="long_expr" expr="''" /&gt;
        &lt;assign location="res" expr="0" /&gt;
    &lt;/transition&gt;
    &lt;transition event="CALC.SUB"&gt;
        &lt;if cond="short_expr!=''"&gt;
            &lt;assign location="long_expr" expr="long_expr+'('+short_expr+')'" /&gt;
        &lt;/if&gt;
        &lt;assign location="res" expr="eval(long_expr)" /&gt;
        &lt;assign location="short_expr" expr="''" /&gt;
        &lt;send event="DISPLAY.UPDATE" /&gt;
    &lt;/transition&gt;
    &lt;transition event="DISPLAY.UPDATE"&gt;
        &lt;log level="0" label="'result'" expr=".short_expr==''?res:short_expr" /&gt;
    &lt;/transition&gt;
    &lt;transition event="OP.INSERT"&gt;
        &lt;log level="0" expr="_event.data[0]" /&gt;
        &lt;if cond="_event.data[0] == 'OPER.PLUS'"&gt;
            &lt;assign location="long_expr" expr="long_expr+'+'" /&gt;
        &lt;elseif cond="_event.data[0]=='OPER.MINUS'" /&gt;
            &lt;assign location="long_expr" expr="long_expr+'-'" /&gt;
        &lt;elseif cond="_event.data[0]=='OPER.STAR'" /&gt;
            &lt;assign location="long_expr" expr="long_expr+'*'" /&gt;
        &lt;elseif cond="_event.data[0]=='OPER.DIV'" /&gt;
            &lt;assign location="long_expr" expr="long_expr+'/'" /&gt;
        &lt;/if&gt;
    &lt;/transition&gt;
&lt;/scxml&gt;
</pre>
</div>
</div>
</div>

<div class="div2">
<h3><a id="N1184F" name="N1184F" />G.5 Shale Example</h3>

<p>The example below, which is from the Apache Shale Project. Shale
is a web application framework based on JavaServer Faces (JSF).
It's composed of loosely coupled services that provide
functionality such as application event callbacks, dialogs with
conversation-scoped state, a view technology called Clay,
annotation-based functionality to reduce configuration requirements
and support for remoting. For more information on Shale please see
<a href="http://shale.apache.org/">http://shale.apache.org/</a>.
SCXML is used as a "dialog manager" service in Shale (for details
on the integration of SCXML in Shale please see <a
href="http://shale.apache.org/shale-dialog-scxml/index.html">http://shale.apache.org/shale-dialog-scxml/index.html</a>).
It allows Shale application authors to express navigation across
multiple JSF views and/or other conversations with users of a JSF
application using the SCXML markup notation. The example below
describes how the navigation across multiple JSF views can be
expressed using SCXML. It also shows how a submachine
(edit-profile-config.scxml) can be used within an SCXML file. The
binding language used in these examples is EL <a
href="#EL">[EL]</a>, which is the expression language supported in
the JSF environment.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11865" name="N11865" />Example:
log-on-config.scxml</div>

<img src="SCXMLExamples/logon.png" class="center"
alt="UML diagram for this example" />

<div class="exampleInner">
<pre>
&lt;?xml version="1.0" encoding="UTF-8"?&gt;
&lt;!--
  Dialog definitions for Shale Use Cases Example Web Application
  written out as SCXML to demonstrate use of Commons SCXML as one
  of Shale's Dialog Manager implementations.
  For details, see: http://shale.apache.org/shale-dialog-scxml/
--&gt;
&lt;scxml xmlns="http://www.w3.org/2005/07/scxml" xmlns:my="http://scxml.example.com/"
       version="1.0" initial="checkCookie" datamodel="el" &gt;

  &lt;state id="checkCookie"&gt;
    &lt;onentry&gt;
      &lt;my:var name="cookieOutcome" expr="#{profile$logon.check}" /&gt;
    &lt;/onentry&gt;
    &lt;transition cond="${cookieOutcome eq 'authenticated'}" target="exit"/&gt;
    &lt;transition cond="${cookieOutcome eq 'unauthenticated'}" target="logon"/&gt;

  &lt;/state&gt;

  &lt;state id="logon"&gt;
    &lt;transition event="faces.outcome" cond="${outcome eq 'authenticated'}" target="exit"/&gt;
    &lt;transition event="faces.outcome" cond="${outcome eq 'create'}" target="createProfile"/&gt;
  &lt;/state&gt;


  &lt;state id="createProfile" src="edit-profile-config.xml" &gt;
      &lt;transition event="createProfile.done" cond="${outcome eq 'success' or outcome eq 'cancel'}" target="exit"/&gt;
  &lt;/state&gt;

  &lt;final id="exit"/&gt;

&lt;/scxml&gt;
</pre>
</div>
</div>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11872" name="N11872" />Example:
edit-profile-config.scxml</div>

<img src="SCXMLExamples/editprofile.png" class="center"
alt="UML diagram for this example" />

<div class="exampleInner">
<pre>
&lt;?xml version="1.0" encoding="UTF-8"?&gt;
&lt;!--
  Dialog definitions for Shale Use Cases Example Web Application
  written out as SCXML to demonstrate use of Commons SCXML as one
  of Shale's Dialog Manager implementations.
  For details, see: http://shale.apache.org/shale-dialog-scxml/
--&gt;
&lt;scxml xmlns="http://www.w3.org/2005/07/scxml" xmlns:my="http://scxml.example.com/"
       version="1.0" initial="edit" datamodel="el"&gt;

  &lt;state id="edit"&gt;
    &lt;initial&gt;
      &lt;transition target="setup"/&gt;
    &lt;/initial&gt;

    &lt;!-- global transitions (within state "edit") --&gt;
    &lt;transition event="faces.outcome" cond="${outcome eq 'cancel'}" target="cancel"/&gt;
    &lt;transition event="faces.outcome" cond="${outcome eq 'finish'}" target="finish"/&gt;

    &lt;state id="setup"&gt;
      &lt;onentry&gt;
        &lt;my:var name="setupOutcome" expr="#{profile$edit.setup}" /&gt;
      &lt;/onentry&gt;
      &lt;transition cond="${setupOutcome eq 'success'}" target="page1"/&gt;
    &lt;/state&gt;

    &lt;state id="page1"&gt;
      &lt;transition event="faces.outcome" cond="${outcome eq 'next'}" target="page2"/&gt;
    &lt;/state&gt;

    &lt;state id="page2"&gt;

      &lt;transition event="faces.outcome" cond="${outcome eq 'previous'}" target="page1"/&gt;
      &lt;transition event="faces.outcome" cond="${outcome eq 'next'}" target="page3"/&gt;

    &lt;/state&gt;

    &lt;state id="page3"&gt;
      &lt;transition event="faces.outcome" cond="${outcome eq 'previous'}" target="page2"/&gt;
      &lt;transition event="faces.outcome" cond="${outcome eq 'next'}" target="editExit"/&gt;
    &lt;/state&gt;

  &lt;/state&gt;

  &lt;state id="cancel"&gt;

  &lt;onentry&gt;
      &lt;my:var name="cancelOutcome" expr="#{profile$edit.cancel}" /&gt;
    &lt;/onentry&gt;
    &lt;transition cond="${cancelOutcome eq 'success'}" target="editExit"&gt;
      &lt;my:var name="outcome" expr="cancel"/&gt;
    &lt;/transition&gt;
  &lt;/state&gt;

  &lt;state id="finish"&gt;

    &lt;onentry&gt;
      &lt;my:var name="finishOutcome" expr="#{profile$edit.finish}" /&gt;
    &lt;/onentry&gt;

    &lt;transition cond="${finishOutcome eq 'username'}" target="page1"/&gt;
    &lt;transition cond="${finishOutcome eq 'password'}" target="page1"/&gt;
    &lt;transition cond="${finishOutcome eq 'success'}" target="editExit"&gt;
      &lt;my:var name="outcome" expr="success"/&gt;
    &lt;/transition&gt;
  &lt;/state&gt;

  &lt;final id="editExit"/&gt;

&lt;/scxml&gt;
</pre>
</div>
</div>
</div>

<div class="div2">
<h3><a id="invokeex" name="invokeex" />G.6 Examples of Invoke and
finalize</h3>

<p>The following two SCXML documents demonstrate the use of Invoke
and finalize. The first example shows the control flow for a voice
portal offering traffic reports.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N11885" name="N11885" />Example:
Traffic Report</div>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0"?&gt;
&lt;?access-control allow="*"?&gt;
&lt;scxml version="1.0" initial="Intro" datamodel="ecmascript"&gt;
  &lt;state id="Intro"&gt;
    &lt;invoke src="dialog.vxml#Intro" type="vxml2"/&gt;
    &lt;transition event="success" cond="sessionChrome.playAds" target="PlayAds"/&gt;
    &lt;transition event="success" cond="!sessionChrome.playAds &amp;amp;&amp;amp; ANIQuality"
                    target="ShouldGoBack"/&gt;
    &lt;transition event="success" cond="!sessionChrome.playAds &amp;amp;&amp;amp; !ANIQuality"
                    target="StartOver"/&gt;
  &lt;/state&gt;

  &lt;state id="PlayAds"&gt;
    &lt;invoke src="dialog.vxml#PlayAds" type="vxml2"/&gt;
    &lt;transition event="success" cond="ANIQuality" target="ShouldGoBack"/&gt;
    &lt;transition event="success" cond="!ANIQuality" target="StartOver"/&gt;
  &lt;/state&gt;

  &lt;state id="StartOver"&gt;
    &lt;onenter&gt;
      &lt;script&gt;enterStartOver();&lt;/script&gt;
    &lt;/onenter&gt;
    &lt;invoke src="dialog.vxml#StartOver" type="vxml2"&gt;
      &lt;param name="gotItFromANI" expr="gotItFromANI"/&gt;
      &lt;finalize&gt;
        &lt;script&gt;finalizeStartOver();&lt;/script&gt;
      &lt;/finalize&gt;
    &lt;/invoke&gt;
    &lt;transition event="success" target="ShouldGoBack"/&gt;
    &lt;transition event="doOver" target="StartOver"/&gt;
    &lt;transition event="restart" target="Intro"/&gt; &lt;!-- bail out to caller --&gt;
  &lt;/state&gt;

  &lt;state id="ShouldGoBack"&gt;
    &lt;invoke src="dialog.vxml#ShouldGoBack" type="vxml2"&gt;
      &lt;param name="cityState" expr="cityState"/&gt;
      &lt;param name="gotItFromANI" expr="gotItFromANI"/&gt;
      &lt;finalize&gt;
        &lt;script&gt;finalizeShouldGoBack();&lt;/script&gt;
      &lt;/finalize&gt;
    &lt;/invoke&gt;
    &lt;transition event="highWay" target="HighwayReport"/&gt;
    &lt;transition event="go_back" target="StartOver"/&gt;
    &lt;transition event="doOver" target="ShouldGoBack"/&gt;
    &lt;transition event="restart" target="Intro"/&gt;
  &lt;/state&gt;

  &lt;state id="HighwayReport"&gt;
    &lt;invoke src="dialog.vxml#HighwayReport" type="vxml2"&gt;
      &lt;param name="cityState" expr="cityState"/&gt;
      &lt;param name="gotItFromANI" expr="gotItFromANI"/&gt;
      &lt;param name="playHRPrompt" expr="playHRPrompt"/&gt;
      &lt;param name="metroArea" expr="metroArea"/&gt;
      &lt;finalize&gt;
        &lt;script&gt;finalizeHighwayReport();&lt;/script&gt;
      &lt;/finalize&gt;
    &lt;/invoke&gt;
    &lt;transition event="highway" target="PlayHighway"/&gt;
    &lt;transition event="go_back" target="StartOver"/&gt;
    &lt;transition event="doOver" target="HighwayReport"/&gt;
    &lt;transition event="fullreport" target="FullReport"/&gt;
    &lt;transition event="restart" target="Intro"/&gt;
  &lt;/state&gt;

  &lt;state id="FullReport"&gt;
    &lt;invoke src="dialog.vxml#FullReport" type="vxml2"&gt;
      &lt;param name="cityState" expr="cityState"/&gt;
      &lt;param name="metroArea" expr="metroArea"/&gt;
      &lt;finalize&gt;
        &lt;script&gt;finalizeFullReport();&lt;/script&gt;
      &lt;/finalize&gt;
    &lt;/invoke&gt;
    &lt;transition event="go_back" target="HighwayReport"/&gt;
    &lt;transition event="new_city" target="StartOver"/&gt;
  &lt;/state&gt;

  &lt;state id="PlayHighway"&gt;
    &lt;invoke src="dialog.vxml#PlayHighway" type="vxml2"&gt;
      &lt;param name="cityState" expr="cityState"/&gt;
      &lt;param name="curHighway" expr="curHighway"/&gt;
      &lt;finalize&gt;
        &lt;script&gt;finalizePlayHighway();&lt;/script&gt;
      &lt;/finalize&gt;
    &lt;/invoke&gt;
    &lt;transition event="go_back" target="HighwayReport"/&gt;
  &lt;/state&gt;
&lt;/scxml&gt;

</pre>
</div>
</div>

<p>The following example shows a the control flow for a blackjack
game.</p>

<div class="exampleOuter">
<div class="exampleHeader"><a id="N1188D" name="N1188D" />Example:
Blackjack</div>

<div class="exampleInner">
<pre>
&lt;?xml version="1.0"?&gt;
&lt;?access-control allow="*"?&gt;
&lt;scxml version="1.0" datamodel="ecmascript" initial="master"&gt; &lt;state id="master"&gt;
    &lt;initial id="init1"&gt;
      &lt;transition target="_home"/&gt;
    &lt;/initial&gt;
    &lt;transition event="new_dealer" target="NewDealer"/&gt;
    &lt;transition event="mumble" target="_home"/&gt; &lt;!-- bail out to caller --&gt;
    &lt;transition event="silence" target="_home"/&gt; &lt;!-- bail out to caller --&gt;
    &lt;state id="_home"&gt;
      &lt;onenter&gt;
        &lt;script&gt;
        _data = {};
        &lt;/script&gt;
      &lt;/onenter&gt;
      &lt;invoke src="datamodel.v3#InitDataModel" type="vxml3"&gt;
        &lt;finalize&gt;
          &lt;script&gt;
          var n;
          for (n in event) {
              _data[n] = event[n];
          }
          &lt;/script&gt;
        &lt;/finalize&gt;
      &lt;/invoke&gt;
      &lt;transition event="success" target="Welcome"/&gt;
    &lt;/state&gt;

    &lt;state id="Welcome"&gt;
      &lt;invoke src="dialog.vxml#Welcome" type="vxml3"&gt;
        &lt;param name="skinpath" expr="skinpath"/&gt;
      &lt;/invoke&gt;
      &lt;transition event="success" target="Intro2"/&gt;
    &lt;/state&gt;

    &lt;state id="Intro2"&gt;
      &lt;invoke src="dialog.vxml#Intro2" type="vxml3"&gt;
        &lt;param name="skinpath" expr="skinpath"/&gt;
      &lt;/invoke&gt;
      &lt;transition event="success" target="EvalDeal"/&gt;
    &lt;/state&gt;

    &lt;state id="EvalDeal"&gt;
      &lt;onenter&gt;
        &lt;script&gt;enterEvalDeal();&lt;/script&gt;
      &lt;/onenter&gt;
      &lt;invoke src="dialog.vxml#EvalDeal" type="vxml3"&gt;
        &lt;param name="skinpath" expr="skinpath"/&gt;
        &lt;param name="playercard1" expr="playercard1"/&gt;
        &lt;param name="playercard2" expr="playercard2"/&gt;
        &lt;param name="playertotal" expr="blackjack.GetTotalOf('caller').toString()"/&gt;
        &lt;param name="dealercardshowing" expr="dealercardshowing"/&gt;
      &lt;/invoke&gt;
      &lt;transition event="success" target="AskHit"/&gt;
    &lt;/state&gt;

    &lt;state id="AskHit"&gt;
      &lt;invoke src="dialog.vxml#AskHit" type="vxml3"&gt;
        &lt;param name="skinpath" expr="skinpath"/&gt;
        &lt;finalize&gt;
          &lt;script&gt;finalizeAskHit();&lt;/script&gt;
        &lt;/finalize&gt;
      &lt;/invoke&gt;
      &lt;transition event="hit" target="PlayNewCard"/&gt;
      &lt;transition event="stand" target="PlayDone"/&gt;
    &lt;/state&gt;

    &lt;state id="PlayNewCard"&gt;
      &lt;invoke src="dialog.vxml#PlayNewCard" type="vxml3"&gt;
        &lt;param name="skinpath" expr="skinpath"/&gt;
        &lt;param name="playernewcard" expr="playernewcard"/&gt;
        &lt;param name="playertotal" expr="blackjack.GetTotalOf('caller').toString()"/&gt;
      &lt;/invoke&gt;
      &lt;transition event="success" cond="blackjack.GetTotalOf('caller') &amp;gt;= 21" target="PlayDone"/&gt;
      &lt;transition event="success" target="AskHit"/&gt; &lt;!-- less than 21 --&gt;
    &lt;/state&gt;

    &lt;state id="PlayDone"&gt;
      &lt;onenter&gt;
        &lt;script&gt;enterPlayDone();&lt;/script&gt;
      &lt;/onenter&gt;
      &lt;invoke src="dialog.vxml#PlayDone" type="vxml3"&gt;
        &lt;param name="skinpath" expr="skinpath"/&gt;
        &lt;param name="gameresult" expr="blackjack.GetGameResult()"/&gt;
        &lt;param name="dealertotal" expr="blackjack.GetTotalOf('dealer').toString()"/&gt;
      &lt;/invoke&gt;
      &lt;transition event="playagain" target="Intro2"/&gt;
      &lt;transition event="quit" target="_home"/&gt;
    &lt;/state&gt;

    &lt;state id="NewDealer"&gt;
      &lt;onenter&gt;
       &lt;script&gt;enterNewDealer();&lt;/script&gt;
      &lt;/onenter&gt;
      &lt;invoke src="dialog.vxml#Dummy" type="vxml3"/&gt;
      &lt;transition event="success" target="Welcome"/&gt;
    &lt;/state&gt;
  &lt;/state&gt;
&lt;/scxml&gt;


</pre>
</div>
</div>
</div>

<div class="div2">
<h3><a id="content_and_namespaces"
name="content_and_namespaces" />G.7 Inline Content and
Namespaces</h3>

<p>Since SCXML documents are XML documents, normal XML namespace
rules apply to inline content specified with &lt;content&gt; and
&lt;data&gt;. In particular, if no namespace is specified, the
inline content will be placed in the SCXML namespace. Consider the
following example:</p>

<div class="exampleOuter">
<pre>

 &lt;send target="http://example.com/send/target" type="'basichttp'"&gt;
   &lt;content&gt;
     &lt;a&gt;fffff&lt;/a&gt;
   &lt;/content&gt;
  &lt;/send&gt;

</pre>
</div>

<p>The recipient of the message will see the following:</p>

<div class="exampleOuter">
<pre>

 &lt;a xmlns="http://www.w3.org/2005/07/scxml"&gt;fffff&lt;/a&gt;

</pre>
</div>

<p>The following markup would cause the message to be delivered
without namespaces:</p>

<div class="exampleOuter">
<pre>

 &lt;send target="http://example.com/send/target" type="'basichttp'"&gt;
   &lt;content&gt;
     &lt;a xmlns=""&gt;fffff&lt;/a&gt;
   &lt;/content&gt;
  &lt;/send&gt;

</pre>
</div>

<p>The recipient of the message will see the following:</p>

<div class="exampleOuter">
<pre>

 &lt;a&gt;fffff&lt;/a&gt;

</pre>
</div>

<p>The sender can also specify multiple namespaces:</p>

<div class="exampleOuter">
<pre>

&lt;send target="http://example.com/send/target" type="'basichttp'"&gt;
 &lt;content&gt;
   &lt;root xmlns="http://example.com/r" xmlns:a="http://example.com/a" xmlns:b="http://example.com/b" xmlns:c="http://example.com/c"&gt;
      &lt;a:alpha&gt;1&lt;/a:alpha&gt;
      &lt;b:beta&gt;2&lt;/b:beta&gt;
      &lt;c:gamma&gt;3&lt;/c:gamma&gt;
   &lt;/root&gt;
 &lt;/content&gt;
&lt;/send&gt;

</pre>
</div>

<p>In this case, the receiver would see:</p>

<div class="exampleOuter">
<pre>

  &lt;root xmlns="http://example.com/r"&gt;
      &lt;alpha xmlns="http://example.com/a"&gt;1&lt;/alpha&gt;
      &lt;beta xmlns="http://example.com/b&gt;2&lt;/beta&gt;
      &lt;gamma xmlns="http://example.com/c&gt;3&lt;/gamma&gt;
  &lt;/root&gt;

</pre>
</div>
</div>

<div class="div2">
<h3><a id="custom_action" name="custom_action" />G.8 Custom Action
Elements</h3>

<p>Custom Action Elements can be defined in other
specifications/namespaces and are responsible for performing
actions on behalf of custom components. Logically Custom Action
Elements can be thought of as a collection of actions and handlers
to perform specific tasks. An example of this is a CCXML
&lt;accept&gt; element that is a Custom Action Element:</p>

<div class="exampleInner">
<pre>
&lt;transition event="ccxml:connection.alerting"&gt;
  &lt;ccxml:accept connectionid="_event.data.connectionid"/&gt;
&lt;/transition&gt;
</pre>
</div>

<p>This could be written using a &lt;send&gt; element using the
following syntax:</p>

<div class="exampleInner">
<pre>
&lt;datamodel&gt;
&lt;data name="connectionid"/&gt;
&lt;/datamodel&gt;
&lt;transition event="ccxml:connection.alerting"&gt;
  &lt;assign name="connectionid" expr="_event.data.connectionid"/&gt;
 &lt;send type="ccxml" event="ccxml:accept" namelist="connectionid"/&gt;
&lt;/transition&gt;
</pre>
</div>

<p>A more complicated example might be a CCXML &lt;createcall&gt;
where you are both providing variables and getting values back that
using only the &lt;send&gt; syntax would be more complex as it
would need to be broken over several steps. For example:</p>

<div class="exampleInner">
<pre>
&lt;onentry&gt;
  &lt;ccxml:createcall dest="'tel:+18315552020'" connectionid="myConnectionID"/&gt;
&lt;/onentry&gt;
</pre>
</div>

<p>Would need to be modeled in two steps using &lt;send&gt; as you
would need to do something like the following:</p>

<div class="exampleInner">
<pre>
&lt;datamodel&gt;
  &lt;data name="dest" expr="'tel:+18315552020'"/&gt;
  &lt;data name="connectionid"/&gt;
&lt;/datamodel&gt;
&lt;onentry&gt;
  &lt;send type="ccxml" event="ccxml:createcall" namelist="dest"/&gt;
&lt;/onentry&gt;
&lt;transition event="ccxml:createcall.success"&gt;
   &lt;assign name="connectionid" expr="_event.data.connectionid"/&gt;
&lt;/transition&gt;
</pre>
</div>

<p>The exact mappings between Custom Action Elements and
&lt;send&gt; actions are to be defined in the individual Custom
Action Element specifications.</p>
</div>
</div>

<div class="div1">
<h2><a id="references" name="references" />H References</h2>

<dl>
<dt class="label"><a id="CSS2" name="CSS2" />CSS2</dt>

<dd><a
href="http://www.w3.org/TR/1998/REC-CSS2-19980512/"><cite>Cascading
Style Sheets, level 2: CSS2 Specification</cite></a>. B. Bos, et
al., Editors. World Wide Web Consortium, 12 May 1998. This version
of the CSS2 Recommendation is
http://www.w3.org/TR/1998/REC-CSS2-19980512/. The latest version of
CSS2 is available at http://www.w3.org/TR/REC-CSS2/. (See
http://www.w3.org/TR/1998/REC-CSS2-19980512/.)</dd>

<dt class="label"><a id="ebXML" name="ebXML" />OASIS ebXML</dt>

<dd><a
href="http://www.oasis-open.org/committees/documents.php?wg_abbrev=ebxml-bp">
<cite>ebXML Business Process Specification Schema v2.0</cite></a>.
(See
http://www.oasis-open.org/committees/documents.php?wg_abbrev=ebxml-bp.)</dd>

<dt class="label"><a id="DOMEvents"
name="DOMEvents" />DOMEvents</dt>

<dd><a
href="http://www.w3.org/TR/DOM-Level-3-Events/"><cite>EDocument
Object Model (DOM) Level 3 Events Specification</cite></a> W3C
Working Draft, September 2009. (See
http://www.w3.org/TR/DOM-Level-3-Events/.)</dd>

<dt class="label"><a id="ECMAScript262"
name="ECMAScript262" />ECMASCRIPT-262</dt>

<dd><a
href="http://www.ecma-international.org/publications/standards/Ecma-262.htm">
<cite>ECMAScript Language Specification</cite></a> Standard
ECMA-262, 3rd Edition, December 1999. (See
http://www.ecma-international.org/publications/standards/Ecma-262.htm.)</dd>

<dt class="label"><a id="ECMAScript327"
name="ECMAScript327" />ECMASCRIPT-327</dt>

<dd><a
href="http://www.ecma-international.org/publications/standards/Ecma-327.htm">
<cite>ECMAScript 3rd Edition Compact Profile</cite></a> Standard
ECMA-327, July 2001. (See
http://www.ecma-international.org/publications/standards/Ecma-327.htm.)</dd>

<dt class="label"><a id="E4X" name="E4X" />E4X</dt>

<dd><a
href="http://www.ecma-international.org/publications/standards/Ecma-357.htm">
<cite>ECMAScript for XML (E4X) Specification</cite></a> Standard
ECMA-357, 2nd Edition, December 2005. (See
http://www.ecma-international.org/publications/standards/Ecma-357.htm.)</dd>

<dt class="label"><a id="EL" name="EL" />EL</dt>

<dd><a href="http://commons.apache.org/el/"><cite>EL: The JSP 2.0
Expression Language Interpreter</cite></a> (See
http://commons.apache.org/el/.)</dd>

<dt class="label"><a id="Harel_Politi" name="Harel_Politi" />Harel
and Politi</dt>

<dd><a
href="http://www.wisdom.weizmann.ac.il/~dharel/reactive_systems.html">
<cite>Modeling Reactive Systems with Statecharts: The STATEMATE
Approach</cite></a> By D. Harel and M. Politi. McGraw-Hill, 1998.
(See
http://www.wisdom.weizmann.ac.il/~dharel/reactive_systems.html.)</dd>

<dt class="label"><a id="RFC2119" name="RFC2119" />IETF RFC
2119</dt>

<dd><a href="http://www.ietf.org/rfc/rfc2119.txt"><cite>RFC 2119:
Key words for use in RFCs to Indicate Requirement
Levels</cite></a>. Internet Engineering Task Force, 1997. (See
http://www.ietf.org/rfc/rfc2119.txt.)</dd>

<dt class="label"><a id="RFC2396" name="RFC2396" />IETF RFC
2396</dt>

<dd><a href="http://www.ietf.org/rfc/rfc2396.txt"><cite>RFC 2396:
Uniform Resource Identifiers</cite></a>. Internet Engineering Task
Force, 1995. (See http://www.ietf.org/rfc/rfc2396.txt.)</dd>

<dt class="label"><a id="CCXML" name="CCXML" />W3C CCXML 1.0</dt>

<dd><a
href="http://www.w3.org/TR/2005/WD-ccxml-20050111/"><cite>Voice
Browser Call Control: CCXML Version 1.0</cite></a>. W3C, 2005. (See
http://www.w3.org/TR/2005/WD-ccxml-20050111/.)</dd>

<dt class="label"><a id="HTTP" name="HTTP" />HTTP</dt>

<dd><a href="http://www.ietf.org/rfc/rfc2616.txt"><cite>CMultimodal
Architecture and Interfaces Working Draft</cite></a>. W3C, 2005.
(See http://www.ietf.org/rfc/rfc2616.txt.)</dd>

<dt class="label"><a id="JSON" name="JSON" />JSON</dt>

<dd><a href="http://www.ietf.org/rfc/rfc4627.txt"><cite>The
application/json Media Type for JavaScript Object Notation
(JSON)</cite></a> RFC 4627, July 2006. (See
http://www.ietf.org/rfc/rfc4627.txt.)</dd>

<dt class="label"><a id="MMI" name="MMI" />W3C MMI</dt>

<dd><a href="http://www.w3.org/TR/mmi-arch/"><cite>"Hypertext
Transfer Protocol -- HTTP/1.1 "</cite></a>. IETF RFC 2616, 199.
(See http://www.w3.org/TR/mmi-arch/.)</dd>

<dt class="label"><a id="RFC2616" name="RFC2616" />RFC2616</dt>

<dd><a href="http://www.ietf.org/rfc/rfc2616.txt"><cite>Hypertext
Transfer Protocol -- HTTP/1.1</cite></a> IETF RFC 2616, 1999. (See
http://www.ietf.org/rfc/rfc2616.txt.)</dd>

<dt class="label"><a id="RFC2617" name="RFC2617" />RFC2617</dt>

<dd><a href="http://www.ietf.org/rfc/rfc2617.txt"><cite>HTTP
Authentication: Basic and Digest Access Authentication</cite></a>
IETF RFC 2617, June 1999. (See
http://www.ietf.org/rfc/rfc2617.txt.)</dd>

<dt class="label"><a id="VoiceXML" name="VoiceXML" />W3C VoiceXML
2.0</dt>

<dd><a href="http://www.w3.org/TR/voicexml20/"><cite>VoiceXML
2.0:</cite></a> . W3C, 2004. (See
http://www.w3.org/TR/voicexml20/.)</dd>

<dt class="label"><a id="UML" name="UML" />UML 2.3</dt>

<dd><a href="http://www.omg.org/spec/UML/2.3/"><cite>UML
Specification Version 2.3</cite></a>. OMG, 2009. (See
http://www.omg.org/spec/UML/2.3/.)</dd>

<dt class="label"><a id="XMI" name="XMI" />UML XMI</dt>

<dd><a
href="http://www.omg.org/technology/documents/modeling_spec_catalog.htm#XMI">
<cite>XML Metadata Exchange version 2.1</cite></a>. (See
http://www.omg.org/technology/documents/modeling_spec_catalog.htm#XMI.)</dd>

<dt class="label"><a id="xinclude" name="xinclude" />XInclude</dt>

<dd><a href="http://www.w3.org/TR/xinclude/"><cite>XML Inclusions
(XInclude) Version 1.0</cite></a>. W3C, 2006. (See
http://www.w3.org/TR/xinclude/.)</dd>

<dt class="label"><a id="XML" name="XML" />XML</dt>

<dd><a href="http://www.w3.org/TR/xml/"><cite>Extensible Markup
Language (XML) 1.0 (Fourth Edition)</cite></a> T. Bray et. al. eds.
World Wide Web Consortium 16 August 2006 (See
http://www.w3.org/TR/xml/.)</dd>

<dt class="label"><a id="ID" name="ID" />XML ID</dt>

<dd><a
href="http://www.w3.org/TR/2005/REC-xml-id-20050909/"><cite>xml:id
version 1.0</cite></a> J. Marsh, D. Veillard, N. Walsh. World Wide
Web Consortium, 9 September 2005. (See
http://www.w3.org/TR/2005/REC-xml-id-20050909/.)</dd>

<dt class="label"><a id="XMLNames" name="XMLNames" />XMLNames</dt>

<dd><a
href="http://www.w3.org/TR/2006/REC-xml-names-20060816/"><cite>Namespaces
in XML 1.0 (Second Edition)</cite></a> T. Bray, D. Hollander, A.
Layman, R. Tobin, Editors, W3C Recommendation, 16 August 2006 (See
http://www.w3.org/TR/2006/REC-xml-names-20060816/.)</dd>

<dt class="label"><a id="Schema" name="Schema" />XML Schema</dt>

<dd><a href="http://www.w3.org/TR/xmlschema-2/"><cite>XML Schema
Part 2: Datatypes Second Edition</cite></a> P. Biron and A.
Malhotra. World Wide Web Consortium, 28 October 2004. (See
http://www.w3.org/TR/xmlschema-2/.)</dd>

<dt class="label"><a id="XPATH2" name="XPATH2" />XPath 2.0</dt>

<dd><a href="http://www.w3.org/TR/xpath20/"><cite>XML Path Language
(XPath) 2.0</cite></a> A. Berglund, S. Boag, D. Chamberlin, M.
Fernández, M. Kay, J. Robie, J. Siméon, January 2007 (See
http://www.w3.org/TR/xpath20/.)</dd>

<dt class="label"><a id="XPATH2FO" name="XPATH2FO" />XPath 2.0
Functions and Operators</dt>

<dd><a href="http://www.w3.org/TR/xpath-functions/"><cite>XQuery
1.0 and XPath 2.0 Functions and Operators</cite></a> A. Malhotra,
J. Melton, N. Walsh, January 2007 (See
http://www.w3.org/TR/xpath-functions/.)</dd>

<dt class="label"><a id="XTND" name="XTND" />XTND</dt>

<dd><a
href="http://www.w3.org/TR/2000/NOTE-xtnd-20001121/"><cite>XML
Transition Network Definition</cite></a>. (See
http://www.w3.org/TR/2000/NOTE-xtnd-20001121/.)</dd>
</dl>
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