- Author:
- David Nickerson <nickerso@users.sourceforge.net>
- Date:
- 2009-07-07 17:11:57+12:00
- Desc:
- update for modified HH graphs in tutorial description
- Permanent Source URI:
- https://models.physiomeproject.org/workspace/a1/rawfile/98909b01e6b21653a5e1cd28865dd259c586d490/dojo-presentation/js/dojo/dojox/layout/ScrollPane.js
dojo.provide("dojox.layout.ScrollPane");
dojo.experimental("dojox.layout.ScrollPane");
dojo.require("dijit.layout._LayoutWidget");
dojo.require("dijit._Templated");
dojo.declare("dojox.layout.ScrollPane",
[dijit.layout._LayoutWidget,dijit._Templated],
{
// summary: A pane that "scrolls" its content based on the mouse poisition inside
//
// description:
// A sizable container that takes it's content's natural size and creates
// a scroll effect based on the relative mouse position. It is an interesting
// way to display lists of data, or blocks of content, within a confined
// space.
//
// Horizontal scrolling is supported. Combination scrolling is not.
//
// FIXME: need to adust the _line somehow, it stops scrolling
//
// example:
// | <div dojoType="dojox.layout.ScrollPane" style="width:150px height:300px;">
// | <!-- any height content -->
// | </div>
//
// _line: dojo._Line
// storage for our top and bottom most scrollpoints
_line: null,
// _lo: the height of the visible pane
_lo: null,
_offset: 15,
// orientation: String
// either "horizontal" or "vertical" for scroll orientation.
orientation: "vertical",
templatePath: dojo.moduleUrl("dojox.layout","resources/ScrollPane.html"),
layout: function(){
// summary: calculates required sizes. Call this if you add/remove content manually, or reload the content.
var dir = this._dir,
vert = this._vertical,
val = this.containerNode[(vert ? "scrollHeight" : "scrollWidth")];
dojo.style(this.wrapper, dir, this.domNode.style[dir]);
this._lo = dojo.coords(this.wrapper, true);
this._size = Math.max(0, val - this._lo[(vert ? "h" : "w")]);
this._line = new dojo._Line(0 - this._offset, this._size + (this._offset * 2));
// share a relative position w the scroll offset via a line
var u = this._lo[(vert ? "h" : "w")],
r = Math.min(1, u / val), // ratio
s = u * r, // size
c = Math.floor(u - (u * r)); // center
this._helpLine = new dojo._Line(0, c);
// size the helper
dojo.style(this.helper, dir, Math.floor(s) + "px");
},
postCreate: function(){
this.inherited(arguments);
// for the helper
this._showAnim = dojo._fade({ node:this.helper, end:0.5, duration:350 });
this._hideAnim = dojo.fadeOut({ node:this.helper, duration: 750 });
// orientation helper
this._vertical = (this.orientation == "vertical");
if(!this._vertical){
dojo.addClass(this.containerNode,"dijitInline");
this._dir = "width";
this._edge = "left";
}else{
this._dir = "height";
this._edge = "top";
}
this._hideAnim.play();
dojo.style(this.wrapper,"overflow","hidden");
},
_set: function(/* Float */n){
// summary: set the pane's scroll offset, and position the virtual scroll helper
this.wrapper[(this._vertical ? "scrollTop" : "scrollLeft")] = Math.floor(this._line.getValue(n));
dojo.style(this.helper, this._edge, Math.floor(this._helpLine.getValue(n)) + "px");
},
_calc: function(/* Event */e){
// summary: calculate the relative offset of the cursor over the node, and call _set
this._set(this._vertical ?
((e.pageY - this._lo.y) / this._lo.h) :
((e.pageX - this._lo.x) / this._lo.w)
);
},
_enter: function(e){
if(this._hideAnim && this._hideAnim.status() == "playing"){
this._hideAnim.stop();
}
this._showAnim.play();
},
_leave: function(e){
this._hideAnim.play();
}
});
