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0e98e33b33
Summary: Ref T5240. This fixes dragging stuff and using the mousewheel or keyboard to scroll the window during the drag. (It does not fix "dragging near the edge of the container should scroll it" yet.) Test Plan: Dragged stuff around on task list and workboards in Safari, Firefox and Chrome. Used mousewheel and shift + mousewheel to scroll the document and containers during drag. Object remained under the cursor. Reviewers: btrahan Reviewed By: btrahan Subscribers: epriestley Maniphest Tasks: T5240 Differential Revision: https://secure.phabricator.com/D10186
390 lines
13 KiB
JavaScript
390 lines
13 KiB
JavaScript
/**
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* @requires javelin-install
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* javelin-event
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* @provides javelin-vector
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*
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* @javelin-installs JX.$V
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*
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* @javelin
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*/
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/**
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* Convenience function that returns a @{class:JX.Vector} instance. This allows
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* you to concisely write things like:
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*
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* JX.$V(x, y).add(10, 10); // Explicit coordinates.
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* JX.$V(node).add(50, 50).setDim(node); // Position of a node.
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*
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* @param number|Node If a node, returns the node's position vector.
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* If numeric, the x-coordinate for the new vector.
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* @param number? The y-coordinate for the new vector.
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* @return @{class:JX.Vector} New vector.
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*/
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JX.$V = function(x, y) {
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return new JX.Vector(x, y);
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};
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/**
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* Query and update positions and dimensions of nodes (and other things) within
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* within a document. Each vector has two elements, 'x' and 'y', which usually
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* represent width/height ('dimension vector') or left/top ('position vector').
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*
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* Vectors are used to manage the sizes and positions of elements, events,
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* the document, and the viewport (the visible section of the document, i.e.
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* how much of the page the user can actually see in their browser window).
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* Unlike most Javelin classes, @{class:JX.Vector} exposes two bare properties,
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* 'x' and 'y'. You can read and manipulate these directly:
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*
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* // Give the user information about elements when they click on them.
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* JX.Stratcom.listen(
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* 'click',
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* null,
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* function(e) {
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* var p = new JX.Vector(e);
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* var d = JX.Vector.getDim(e.getTarget());
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*
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* alert('You clicked at <' + p.x + ',' + p.y + '> and the element ' +
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* 'you clicked is ' + d.x + 'px wide and ' + d.y + 'px high.');
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* });
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*
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* You can also update positions and dimensions using vectors:
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*
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* // When the user clicks on something, make it 10px wider and 10px taller.
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* JX.Stratcom.listen(
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* 'click',
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* null,
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* function(e) {
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* var target = e.getTarget();
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* JX.$V(target).add(10, 10).setDim(target);
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* });
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*
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* Additionally, vectors can be used to query document and viewport information:
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*
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* var v = JX.Vector.getViewport(); // Viewport (window) width and height.
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* var d = JX.Vector.getDocument(); // Document width and height.
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* var visible_area = parseInt(100 * (v.x * v.y) / (d.x * d.y), 10);
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* alert('You can currently see ' + visible_area + ' % of the document.');
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*
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* The function @{function:JX.$V} provides convenience construction of common
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* vectors.
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*
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* @task query Querying Positions and Dimensions
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* @task update Changing Positions and Dimensions
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* @task manip Manipulating Vectors
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*/
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JX.install('Vector', {
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/**
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* Construct a vector, either from explicit coordinates or from a node
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* or event. You can pass two Numbers to construct an explicit vector:
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*
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* var p = new JX.Vector(35, 42);
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*
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* Otherwise, you can pass a @{class:JX.Event} or a Node to implicitly
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* construct a vector:
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*
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* var q = new JX.Vector(some_event);
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* var r = new JX.Vector(some_node);
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*
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* These are just like calling JX.Vector.getPos() on the @{class:JX.Event} or
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* Node.
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*
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* For convenience, @{function:JX.$V} constructs a new vector so you don't
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* need to use the 'new' keyword. That is, these are equivalent:
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*
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* var s = new JX.Vector(x, y);
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* var t = JX.$V(x, y);
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*
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* Methods like @{method:getScroll}, @{method:getViewport} and
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* @{method:getDocument} also create new vectors.
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*
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* Once you have a vector, you can manipulate it with add():
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*
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* var u = JX.$V(35, 42);
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* var v = u.add(5, -12); // v = <40, 30>
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*
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* @param wild 'x' component of the vector, or a @{class:JX.Event}, or a
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* Node.
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* @param Number? If providing an 'x' component, the 'y' component of the
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* vector.
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* @return @{class:JX.Vector} Specified vector.
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* @task query
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*/
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construct : function(x, y) {
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if (typeof y == 'undefined') {
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return JX.Vector.getPos(x);
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}
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this.x = (x === null) ? null : parseFloat(x);
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this.y = (y === null) ? null : parseFloat(y);
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},
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members : {
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x : null,
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y : null,
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/**
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* Move a node around by setting the position of a Node to the vector's
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* coordinates. For instance, if you want to move an element to the top left
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* corner of the document, you could do this (assuming it has 'position:
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* absolute'):
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*
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* JX.$V(0, 0).setPos(node);
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*
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* @param Node Node to move.
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* @return this
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* @task update
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*/
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setPos : function(node) {
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node.style.left = (this.x === null) ? '' : (parseInt(this.x, 10) + 'px');
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node.style.top = (this.y === null) ? '' : (parseInt(this.y, 10) + 'px');
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return this;
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},
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/**
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* Change the size of a node by setting its dimensions to the vector's
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* coordinates. For instance, if you want to change an element to be 100px
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* by 100px:
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*
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* JX.$V(100, 100).setDim(node);
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*
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* Or if you want to expand a node's dimensions by 50px:
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*
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* JX.$V(node).add(50, 50).setDim(node);
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*
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* @param Node Node to resize.
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* @return this
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* @task update
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*/
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setDim : function(node) {
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node.style.width =
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(this.x === null) ? '' : (parseInt(this.x, 10) + 'px');
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node.style.height =
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(this.y === null) ? '' : (parseInt(this.y, 10) + 'px');
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return this;
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},
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/**
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* Change a vector's x and y coordinates by adding numbers to them, or
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* adding the coordinates of another vector. For example:
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*
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* var u = JX.$V(3, 4).add(100, 200); // u = <103, 204>
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*
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* You can also add another vector:
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*
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* var q = JX.$V(777, 999);
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* var r = JX.$V(1000, 2000);
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* var s = q.add(r); // s = <1777, 2999>
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*
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* Note that this method returns a new vector. It does not modify the
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* 'this' vector.
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*
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* @param wild Value to add to the vector's x component, or another
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* vector.
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* @param Number? Value to add to the vector's y component.
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* @return @{class:JX.Vector} New vector, with summed components.
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* @task manip
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*/
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add : function(x, y) {
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if (x instanceof JX.Vector) {
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y = x.y;
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x = x.x;
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}
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return new JX.Vector(this.x + parseFloat(x), this.y + parseFloat(y));
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}
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},
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statics : {
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_viewport: null,
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/**
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* Determine where in a document an element is (or where an event, like
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* a click, occurred) by building a new vector containing the position of a
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* Node or @{class:JX.Event}. The 'x' component of the vector will
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* correspond to the pixel offset of the argument relative to the left edge
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* of the document, and the 'y' component will correspond to the pixel
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* offset of the argument relative to the top edge of the document. Note
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* that all vectors are generated in document coordinates, so the scroll
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* position does not affect them.
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*
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* See also @{method:getDim}, used to determine an element's dimensions.
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*
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* @param Node|@{class:JX.Event} Node or event to determine the position
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* of.
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* @return @{class:JX.Vector} New vector with the argument's position.
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* @task query
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*/
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getPos : function(node) {
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JX.Event && (node instanceof JX.Event) && (node = node.getRawEvent());
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if (node.getBoundingClientRect) {
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var rect;
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try {
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rect = node.getBoundingClientRect();
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} catch (e) {
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rect = { top : 0, left : 0 };
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}
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return new JX.Vector(
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rect.left + window.pageXOffset,
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rect.top + window.pageYOffset);
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}
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if (('pageX' in node) || ('clientX' in node)) {
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var c = JX.Vector._viewport;
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return new JX.Vector(
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node.pageX || (node.clientX + c.scrollLeft),
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node.pageY || (node.clientY + c.scrollTop)
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);
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}
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var x = 0;
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var y = 0;
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do {
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var offsetParent = node.offsetParent;
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var scrollLeft = 0;
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var scrollTop = 0;
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if (offsetParent && offsetParent != document.body) {
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scrollLeft = offsetParent.scrollLeft;
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scrollTop = offsetParent.scrollTop;
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}
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x += (node.offsetLeft - scrollLeft);
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y += (node.offsetTop - scrollTop);
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node = offsetParent;
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} while (node && node != document.body);
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return new JX.Vector(x, y);
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},
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/**
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* Determine the width and height of a node by building a new vector with
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* dimension information. The 'x' component of the vector will correspond
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* to the element's width in pixels, and the 'y' component will correspond
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* to its height in pixels.
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*
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* See also @{method:getPos}, used to determine an element's position.
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*
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* @param Node Node to determine the display size of.
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* @return @{JX.$V} New vector with the node's dimensions.
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* @task query
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*/
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getDim : function(node) {
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return new JX.Vector(node.offsetWidth, node.offsetHeight);
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},
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/**
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* Determine the current scroll position by building a new vector where
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* the 'x' component corresponds to how many pixels the user has scrolled
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* from the left edge of the document, and the 'y' component corresponds to
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* how many pixels the user has scrolled from the top edge of the document.
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*
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* See also @{method:getViewport}, used to determine the size of the
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* viewport.
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*
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* @return @{JX.$V} New vector with the document scroll position.
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* @task query
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*/
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getScroll : function() {
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// We can't use JX.Vector._viewport here because there's diversity between
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// browsers with respect to where position/dimension and scroll position
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// information is stored.
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var b = document.body;
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var e = document.documentElement;
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return new JX.Vector(
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window.pageXOffset || b.scrollLeft || e.scrollLeft,
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window.pageYOffset || b.scrollTop || e.scrollTop
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);
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},
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/**
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* Get the aggregate scroll offsets for a node and all of its parents.
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*
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* Note that this excludes scroll at the document level, because it does
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* not normally impact operations in document coordinates, which everything
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* on this class returns. Use @{method:getScroll} to get the document scroll
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* position.
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*
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* @param Node Node to determine offsets for.
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* @return JX.Vector New vector with aggregate scroll offsets.
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*/
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getAggregateScrollForNode: function(node) {
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var x = 0;
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var y = 0;
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do {
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if (node == document.body || node == document.documentElement) {
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break;
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}
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x += node.scrollLeft || 0;
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y += node.scrollTop || 0;
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node = node.parentNode;
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} while (node);
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return new JX.$V(x, y);
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},
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/**
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* Determine the size of the viewport (basically, the browser window) by
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* building a new vector where the 'x' component corresponds to the width
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* of the viewport in pixels and the 'y' component corresponds to the height
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* of the viewport in pixels.
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*
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* See also @{method:getScroll}, used to determine the position of the
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* viewport, and @{method:getDocument}, used to determine the size of the
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* entire document.
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*
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* @return @{class:JX.Vector} New vector with the viewport dimensions.
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* @task query
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*/
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getViewport : function() {
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var c = JX.Vector._viewport;
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return new JX.Vector(
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window.innerWidth || c.clientWidth || 0,
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window.innerHeight || c.clientHeight || 0
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);
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},
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/**
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* Determine the size of the document, including any area outside the
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* current viewport which the user would need to scroll in order to see, by
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* building a new vector where the 'x' component corresponds to the document
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* width in pixels and the 'y' component corresponds to the document height
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* in pixels.
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*
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* @return @{class:JX.Vector} New vector with the document dimensions.
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* @task query
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*/
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getDocument : function() {
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var c = JX.Vector._viewport;
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return new JX.Vector(c.scrollWidth || 0, c.scrollHeight || 0);
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}
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},
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/**
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* On initialization, the browser-dependent viewport root is determined and
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* stored.
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*
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* In ##__DEV__##, @{class:JX.Vector} installs a toString() method so
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* vectors print in a debuggable way:
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*
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* <23, 92>
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*
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* This string representation of vectors is not available in a production
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* context.
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*
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* @return void
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*/
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initialize : function() {
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JX.Vector._viewport = document.documentElement || document.body;
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if (__DEV__) {
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JX.Vector.prototype.toString = function() {
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return '<' + this.x + ', ' + this.y + '>';
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};
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}
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}
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});
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