X3D/HTML Integration

From Web3D.org
Revision as of 10:25, 9 June 2016 by Walroy (Talk | contribs)

Jump to: navigation, search

Example to investigate X3D/HTML specification issues

As an illustration consider the X3DOM example "OnOutputChange". The source for this example is reproduced below.

<html>
<head>
    <meta http-equiv="X-UA-Compatible" content="IE=edge"/>
    <title>X3Dom Example OnOutputChange Event</title>
    <script type='text/javascript' src='http://x3dom.org/release/x3dom.js'> </script>
    <link rel='stylesheet' type='text/css' href='http://www.x3dom.org/download/x3dom.css'/>


	<script>
	/**
	 * Uses the values of a PositionInterpolator to move another ball,
	 * but instead of just routing the values, round the y component.
	 * Thus the second ball moves like he is snapping to an invisible raster
	 */
	function snapBall(eventObject)
	{
		//Check if type and output of the eventObject are correct
		//There may be multiple eventObjects but only one of them contains the value we need
		if(eventObject.type != "outputchange" || eventObject.fieldName != "value_changed")
			return;
		
		//Get the value...
		var value = eventObject.value;
		//...and create a copy with the manipulated coordinates
		var newPos = new x3dom.fields.SFVec3f(2, Math.round(value.y), 0);
	
		//Set the newly created array as new position for the second ball
		document.getElementById("ball2").setAttribute('translation', newPos.toString());
		
		//Show debug information (of course the data can be used to control non x3dom-objects, too)
		document.getElementById("posInterp").innerHTML = Math.round(value.y*100)/100;
		document.getElementById("posSnaped").innerHTML = newPos.y;
	}
	</script>

</head>
<body>

<h1>Animate Objects with X3DOM!</h1>
<p>
    Learn how to manipulate objects using values from the output of other objects.
</p>

<div>
Y-Position of output field (routed to red ball): <span id="posInterp"></span><br>
Calculated Y-Position (set directly to blue ball): <span id="posSnaped"></span>
</div>

<x3d width='500px' height='400px'>
    <scene>
        <transform DEF="ball" translation='-2 0 0'>
        <shape>
            <appearance>
                <material diffuseColor='1 0 0'></material>
            </appearance>
            <sphere></sphere>
        </shape>
        </transform>
        
        <transform DEF="ball2" translation='2 0 0' id="ball2">
        <shape>
            <appearance>
                <material diffuseColor='0 0 1'></material>
            </appearance>
            <sphere></sphere>
        </shape>
        </transform>

        <timeSensor DEF="time" cycleInterval="4" loop="true"></timeSensor>
        <PositionInterpolator DEF="move" key="0 0.5 1" keyValue="-2 -2.5 0  -2 2.5 0  -2 -2.5 0" onoutputchange="snapBall(event)"></PositionInterpolator>
        
        <Route fromNode="time" fromField ="fraction_changed" toNode="move" toField="set_fraction"></Route>
        <Route fromNode="move" fromField ="value_changed" toNode="ball" toField="translation"></Route>
    </scene>
</x3d>


</body>
</html>

Let's concentrate on a single line from this example:

        <PositionInterpolator DEF="move" key="0 0.5 1" keyValue="-2 -2.5 0  -2 2.5 0  -2 -2.5 0" onoutputchange="snapBall(event)"></PositionInterpolator>

It is clear that this is essentially an XML encoded line. It has the following structure:

  • The element type "PositionInterpolator" with attributes of:
    • DEF, with the name "move"
    • key, with three values
    • keyValue, with three sets of three values (the field type is MFVec3f)
    • onoutputchange, with a function call reference

The last attribute above, however, is not part of the current X3D V3.3 specification. How does it arise? How might it be specified?

If X3D is fully integrated into HTML there will be a DOM extension associated with the specification. This extension might define a "PositionInterpolator" interface, which would inherit, probably indirectly, from the "HTML Element" interface.

So let's look at this interface. Let's check the WhatWG specification for the HTMLElement interface. I reproduce the listing from 8th June 2016 here:

[Constructor]
interface HTMLElement : Element {
  // metadata attributes
  [CEReactions] attribute DOMString title;
  [CEReactions] attribute DOMString lang;
  [CEReactions] attribute boolean translate;
  [CEReactions] attribute DOMString dir;
  [SameObject] readonly attribute DOMStringMap dataset;

  // user interaction
  [CEReactions] attribute boolean hidden;
  void click();
  [CEReactions] attribute long tabIndex;
  void focus();
  void blur();
  [CEReactions] attribute DOMString accessKey;
  readonly attribute DOMString accessKeyLabel;
  [CEReactions] attribute boolean draggable;
  [CEReactions, SameObject, PutForwards=value] readonly attribute DOMTokenList dropzone;
  [CEReactions] attribute HTMLMenuElement? contextMenu;
  [CEReactions] attribute boolean spellcheck;
  void forceSpellCheck();
};
HTMLElement implements GlobalEventHandlers;
HTMLElement implements DocumentAndElementEventHandlers;
HTMLElement implements ElementContentEditable;

The important part for our purposes are the last three lines. That is, what other interfaces HTMLElement implements.

There are three:

  • GlobalEventHandlers
  • DocumentAndElementEventHandlers
  • ElementContentEditable

Do any of these cover the "onoutputchange". No they don't. How does it arise then?

Searching the X3DOM code base (available on GitHub) we find that this is defined in the file X3DNode.js. There is a function defined as part of the X3DNode class called postMessage, as follows:

            postMessage: function (field, msg) {
                // TODO: timestamps and stuff
                this._vf[field] = msg;  // FIXME; _cf!!!
                var listeners = this._fieldWatchers[field];

                var that = this;
                if (listeners) {
                    Array.forEach(listeners, function (l) { l.call(that, msg); });
                }

                //for Web-style access to the output data of ROUTES, provide a callback function
                var eventObject = {
                    target: that._xmlNode,
                    type: "outputchange",   // event only called onxxx if used as old-fashioned attribute
                    fieldName: field,
                    value: msg
                };

                this.callEvtHandler("onoutputchange", eventObject);
            },

This relates to the PositionInterpolator implementation, where there is a function fieldChanged:

            fieldChanged: function(fieldName)
            {
                if(fieldName === "set_fraction")
                {
                    var value = this.linearInterp(this._vf.set_fraction, function (a, b, t) {
                        return a.multiply(1.0-t).add(b.multiply(t));
                    });

                    this.postMessage('value_changed', value);
                }
            }

Now we can see the connection. When the set_fraction inputOnly field is changed an output value is calculated, and a message posted saying that the value_changed outputOnly field now has the value "value". When the postMessage function is called, it will create an event object and call the onoutputchanged event.

Now we understand how it is implemented we can consider specification possibilities. This event is generated as part of the X3DNode class. Therefore, it may be applied to any node. A definition, therefore, has to be at the X3DNode level. Hence, there needs to be a DOM extension to cover this event at that level. So we have to define an extended interface, perhaps called X3DElement. It might inherit from HTMLElement. All other X3D node interfaces would inherit from X3DElement.

So the X3DElement interface might now be:

interface X3DElement : HTMLElement {};

X3DElement implements X3DEventHandlers;

In turn, the X3DEventHandlers might be defined as:

[NoInterfaceObject]
interface X3DEventHandlers {
  attribute EventHandler onoutputchanged;
};

So, specifying the integration of X3D into HTML requires a lot more than a simple encoding. Assuming we consider generating an ISO/IEC specification, should we be generating a 19776 series document. I believe the answer is no. We need a much more overarching document. I suggest a 19775-3 document, perhaps entitled "X3D Embedding in HTML" or "X3D Integration with HTML", or some such.

I see the following actions:

  1. Review all X3DOM code, and understand the implications for specification.
  2. Review all Cobweb code, and understand the implications for specification.
  3. Review other 3D implementations, to see what lessons can be learned.

As these are reviewed we should start generating interface definitions. There's nothing like putting pen to paper, or pressing keys, and generating some technical details as we go. These can be short interface definitions, as above.

Furthermore, we are already aware of a number of general issues:

  1. Fields - DOMStrings vs X3D types
  2. Event models
  3. Capitalization
  4. Namespace
  5. Scripts and Prototypes
  6. (any I have missed)

We should look at each, and understand the implications for both 19775-1 and the new specification.