- Author:
- David Nickerson <nickerso@users.sourceforge.net>
- Date:
- 2010-05-04 12:37:19+12:00
- Desc:
- adding initial version of SED-ML L1V1 file reproducing what is in graphs/BR-INa-variants.xml
- Permanent Source URI:
- https://models.cellml.org/workspace/a1/rawfile/a80b964384c0c7683d7c5d07b73a5af7a973d46c/dojo-presentation/js/dojo/dojox/image/MagnifierLite.js
dojo.provide("dojox.image.MagnifierLite");
dojo.experimental("dojox.image.MagnifierLite");
dojo.require("dijit._Widget");
dojo.declare("dojox.image.MagnifierLite", dijit._Widget,
{
// summary: Adds magnification on a portion of an image element
//
// description: An unobtrusive way to add an unstyled overlay
// above the srcNode image element. The overlay/glass is a
// scaled version of the src image (so larger images sized down
// are clearer).
//
// The logic behind requiring the src image to be large is
// "it's going to be downloaded, anyway" so this method avoids
// having to make thumbnails and 2 http requests among other things.
//
// glassSize: Int
// the width and height of the bounding box
glassSize: 125,
// scale: Decimal
// the multiplier of the Mangification.
scale: 6,
postCreate: function(){
this.inherited(arguments);
// images are hard to make into workable templates, so just add outer overlay
// and skip using dijit._Templated
this._adjustScale();
this._createGlass();
this.connect(this.domNode,"onmouseenter","_showGlass");
this.connect(this.glassNode,"onmousemove","_placeGlass");
this.connect(this.img,"onmouseout","_hideGlass");
// when position of domNode changes, _adjustScale needs to run.
// window.resize isn't it always, FIXME:
this.connect(window,"onresize","_adjustScale");
},
_createGlass: function(){
// summary: make img and glassNode elements as children of the body
var node = this.glassNode = dojo.doc.createElement('div');
this.surfaceNode = node.appendChild(dojo.doc.createElement('div'));
dojo.addClass(node,"glassNode");
dojo.body().appendChild(node);
dojo.style(node,{
height: this.glassSize + "px",
width: this.glassSize + "px"
});
this.img = dojo.clone(this.domNode);
node.appendChild(this.img);
// float the image around inside the .glassNode
dojo.style(this.img, {
position: "relative",
top: 0,
left: 0,
width: this._zoomSize.w + "px",
height: this._zoomSize.h + "px"
});
},
_adjustScale: function(){
// summary: update the calculations should this.scale change
this.offset = dojo.coords(this.domNode, true);
this._imageSize = { w: this.offset.w, h:this.offset.h };
this._zoomSize = {
w: this._imageSize.w * this.scale,
h: this._imageSize.h * this.scale
};
},
_showGlass: function(e){
// summary: show the overlay
this._placeGlass(e);
dojo.style(this.glassNode, {
visibility: "visible",
display:""
});
},
_hideGlass: function(e){
// summary: hide the overlay
dojo.style(this.glassNode, {
visibility: "hidden",
display:"none"
});
},
_placeGlass: function(e){
// summary: position the overlay centered under the cursor
this._setImage(e);
var sub = Math.floor(this.glassSize / 2);
dojo.style(this.glassNode,{
top: Math.floor(e.pageY - sub) + "px",
left:Math.floor(e.pageX - sub) + "px"
});
},
_setImage: function(e){
// summary: set the image's offset in the clipping window relative to the mouse position
var xOff = (e.pageX - this.offset.l) / this.offset.w;
var yOff = (e.pageY - this.offset.t) / this.offset.h;
var x = (this._zoomSize.w * xOff * -1) + (this.glassSize * xOff);
var y = (this._zoomSize.h * yOff * -1) + (this.glassSize * yOff);
dojo.style(this.img, {
top: y + "px",
left: x + "px"
});
},
destroy: function(finalize){
dojo._destroyElement(this.glassNode);
this.inherited(arguments);
}
});
