egroupware_official/etemplate/js/et2_dataview_view_partitionNode.js

324 lines
6.3 KiB
JavaScript

/**
* eGroupWare eTemplate2 - Class which contains an management tree for the grid rows
*
* @license http://opensource.org/licenses/gpl-license.php GPL - GNU General Public License
* @package etemplate
* @subpackage dataview
* @link http://www.egroupware.org
* @author Andreas Stöckel
* @copyright Stylite 2011
* @version $Id$
*/
"use strict"
/*egw:uses
et2_core_common; // for et2_range functions
et2_core_inheritance;
et2_dataview_interfaces;
*/
/**
* The partition node tree manages all rows in a dataview. As a dataview may have
* many thousands of lines, the rows are organized in an a tree. The leafs of the
* tree represent the single rows, upper layers represent groups of nodes.
* Each node has a "height" value and is capable of calculate the exact position
* of a row and its top and bottom value.
* Additionaly, a leaf can represent an unlimited number of rows. In this way
* the partition tree is built dynamically and is also capable of "forgetting"
* information about the rows by simply reducing the tree nodes at a certain
* position.
*/
var et2_dataview_IPartitionHeight = new Interface({
calculateHeight: function() {}
});
/**
* Abstract base class for partition nodes - contains the code for calculating
* the top, bottom, height and (start) index of the node
*/
var et2_dataview_partitionNode = Class.extend([et2_dataview_IPartitionHeight,
et2_dataview_IInvalidatable], {
init: function(_root) {
this._root = _root;
this._parent = null;
this._pidx = 0;
// Initialize the temporary storage elements
this.doInvalidate();
this._invalid = true;
},
destroy: function() {
// Remove this element from the parent children list
if (this._parent)
{
this._parent.removePIdxNode(this._pidx);
}
},
setParent: function(_parent) {
if (this._parent != _parent)
{
this._parent = _parent;
this.invalidate();
}
},
setPIdx: function(_pidx) {
if (this._pidx != _pidx)
{
this._pidx = _pidx;
this.invalidate();
}
},
/**
* Invalidates cached values - override the "doInvalidate" function.
*
* @param _sender is the node wich originally triggerd the invalidation, can
* be ommited when calling this function.
*/
invalidate: function(_sender) {
// If the _sender parameter is not given, assume that this element is
// the one which triggered the invalidation
var origin = typeof _sender == "undefined";
if ((origin || _sender != this) && !this._invalid)
{
this.doInvalidate();
this._invalid = true;
// Invalidate the parent node
if (this._parent)
{
// Invalidate the neighbor node
if (this._pidx < this._parent._children.length - 1)
{
this._parent._children[this._pidx + 1].invalidate();
}
this._parent.invalidate(origin ? this : _sender);
}
}
},
/**
* Performs the actual invalidation.
*/
doInvalidate: function() {
this._height = false;
this._posTop = false;
this._posBottom = false;
this._startIdx = false;
this._stopIdx = false;
},
/**
* Returns the root node of the partition tree
*/
getRoot: function() {
return this._root;
},
/**
* Returns the height of this node
*/
getHeight: function() {
// Calculate the height value if it is currently invalid
if (this._height === false)
{
this._height = this.calculateHeight();
// Do a sanity check for the value - if the height wasn't a number
// it could easily destroy the posTop and posBottom values of the
// complete tree!
if (isNaN(this._height))
{
et2_debug("error", "calculateHeight returned a NaN value!");
this._height = 0;
}
this._invalid = false;
}
return this._height;
},
/**
* Returns the top position of the node in px
*/
getPosTop: function() {
if (this._posTop === false)
{
this._posTop = this._accumulateValue(this.getPosTop, this.getPosBottom);
this._invalid = false;
}
return this._posTop;
},
/**
* Returns the bottom position of the node in px
*/
getPosBottom: function() {
if (this._posBottom === false)
{
this._posBottom = this.getPosTop() + this.getHeight();
this._invalid = false;
}
return this._posBottom;
},
/**
* Returns an range object
*/
getRange: function() {
return {
"top": this.getPosTop(),
"bottom": this.getPosBottom()
};
},
/**
* Returns true if the node intersects with the given range
*/
inRange: function(_ar) {
return et2_rangeIntersect(this.getRange(), _ar);
},
/**
* Returns the overall start index of the node
*/
getStartIndex: function() {
if (this._startIdx === false)
{
this._startIdx = this._accumulateValue(this.getStartIndex,
this.getStopIndex);
this._invalid = false;
}
return this._startIdx;
},
/**
* Returns the overall stop index of the node
*/
getStopIndex: function() {
if (this._stopIdx === false)
{
this._stopIdx = this.getStartIndex() + this.getCount();
this._invalid = false;
}
return this._stopIdx;
},
/**
* Returns the index range object
*/
getIdxRange: function() {
return {
"top": this.getStartIndex(),
"bottom": this.getStopIndex()
};
},
/**
* Checks whether this element is inside the given index range
*/
inIdxRange: function(_idxRange) {
return et2_rangeIntersect(this.getIdxRange, _idxRange);
},
/**
* Returns the count of leafs which are below this node
*/
getCount: function() {
return 1;
},
/**
* Returns the nodes which reside in the given range
*/
getRangeNodes: function(_range, _create) {
if (this.inRange(_range))
{
return [this];
}
return [];
},
/**
* Returns the nodes which are inside the given index range
*/
getIdxRangeNodes: function(_idxRange, _create) {
if (this.inIdxRange(_idxRange))
{
return [this];
}
return [];
},
/**
* Returns the (maximum) depth of the tree
*/
getDepth: function() {
return 1;
},
getAvgHeightData: function(_data) {
_data.count++;
_data.height += this.getHeight();
},
getNodeIdx: function(_idx, _create) {
return null;
},
getRowProvider: function() {
return this.getRoot().getRowProvider();
},
getDataProvider: function() {
return this.getRoot().getDataProvider();
},
/* ---- PRIVATE FUNCTIONS ---- */
_accumulateValue: function(_f1, _f2) {
if (this._parent)
{
if (this._pidx == 0)
{
return _f1.call(this._parent);
}
else
{
return _f2.call(this._parent._children[this._pidx - 1]);
}
}
return 0;
}
});