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vaultwarden/src/static/scripts/datatables.js
Mathijs van Veluw d6b97090fa
Update crates, GHA and a Python/JS scripts (#4357) 
- Update all crates
- Update GHA
- Update Global Domains script to use main instead of master
  Also fixed some Python linting warnings
- Updated Admin JS and CSS libraries
2024-02-25 23:26:46 +01:00

13735 Zeilen
374 KiB
JavaScript
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/*
* This combined file was created by the DataTables downloader builder:
* https://datatables.net/download
*
* To rebuild or modify this file with the latest versions of the included
* software please visit:
* https://datatables.net/download/#bs5/dt-2.0.0
*
* Included libraries:
* DataTables 2.0.0
*/
/*! DataTables 2.0.0
* © SpryMedia Ltd - datatables.net/license
*/
/**
* @summary DataTables
* @description Paginate, search and order HTML tables
* @version 2.0.0
* @author SpryMedia Ltd
* @contact www.datatables.net
* @copyright SpryMedia Ltd.
*
* This source file is free software, available under the following license:
* MIT license - https://datatables.net/license
*
* This source file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the license files for details.
*
* For details please refer to: https://www.datatables.net
*/
(function( factory ) {
"use strict";
if ( typeof define === 'function' && define.amd ) {
// AMD
define( ['jquery'], function ( $ ) {
return factory( $, window, document );
} );
}
else if ( typeof exports === 'object' ) {
// CommonJS
// jQuery's factory checks for a global window - if it isn't present then it
// returns a factory function that expects the window object
var jq = require('jquery');
if (typeof window === 'undefined') {
module.exports = function (root, $) {
if ( ! root ) {
// CommonJS environments without a window global must pass a
// root. This will give an error otherwise
root = window;
}
if ( ! $ ) {
$ = jq( root );
}
return factory( $, root, root.document );
};
}
else {
module.exports = factory( jq, window, window.document );
}
}
else {
// Browser
window.DataTable = factory( jQuery, window, document );
}
}(function( $, window, document ) {
"use strict";
var DataTable = function ( selector, options )
{
// Check if called with a window or jQuery object for DOM less applications
// This is for backwards compatibility
if (DataTable.factory(selector, options)) {
return DataTable;
}
// When creating with `new`, create a new DataTable, returning the API instance
if (this instanceof DataTable) {
return $(selector).DataTable(options);
}
else {
// Argument switching
options = selector;
}
var _that = this;
var emptyInit = options === undefined;
var len = this.length;
if ( emptyInit ) {
options = {};
}
// Method to get DT API instance from jQuery object
this.api = function ()
{
return new _Api( this );
};
this.each(function() {
// For each initialisation we want to give it a clean initialisation
// object that can be bashed around
var o = {};
var oInit = len > 1 ? // optimisation for single table case
_fnExtend( o, options, true ) :
options;
var i=0, iLen;
var sId = this.getAttribute( 'id' );
var bInitHandedOff = false;
var defaults = DataTable.defaults;
var $this = $(this);
/* Sanity check */
if ( this.nodeName.toLowerCase() != 'table' )
{
_fnLog( null, 0, 'Non-table node initialisation ('+this.nodeName+')', 2 );
return;
}
$(this).trigger( 'options.dt', oInit );
/* Backwards compatibility for the defaults */
_fnCompatOpts( defaults );
_fnCompatCols( defaults.column );
/* Convert the camel-case defaults to Hungarian */
_fnCamelToHungarian( defaults, defaults, true );
_fnCamelToHungarian( defaults.column, defaults.column, true );
/* Setting up the initialisation object */
_fnCamelToHungarian( defaults, $.extend( oInit, $this.data() ), true );
/* Check to see if we are re-initialising a table */
var allSettings = DataTable.settings;
for ( i=0, iLen=allSettings.length ; i<iLen ; i++ )
{
var s = allSettings[i];
/* Base check on table node */
if (
s.nTable == this ||
(s.nTHead && s.nTHead.parentNode == this) ||
(s.nTFoot && s.nTFoot.parentNode == this)
) {
var bRetrieve = oInit.bRetrieve !== undefined ? oInit.bRetrieve : defaults.bRetrieve;
var bDestroy = oInit.bDestroy !== undefined ? oInit.bDestroy : defaults.bDestroy;
if ( emptyInit || bRetrieve )
{
return s.oInstance;
}
else if ( bDestroy )
{
new DataTable.Api(s).destroy();
break;
}
else
{
_fnLog( s, 0, 'Cannot reinitialise DataTable', 3 );
return;
}
}
/* If the element we are initialising has the same ID as a table which was previously
* initialised, but the table nodes don't match (from before) then we destroy the old
* instance by simply deleting it. This is under the assumption that the table has been
* destroyed by other methods. Anyone using non-id selectors will need to do this manually
*/
if ( s.sTableId == this.id )
{
allSettings.splice( i, 1 );
break;
}
}
/* Ensure the table has an ID - required for accessibility */
if ( sId === null || sId === "" )
{
sId = "DataTables_Table_"+(DataTable.ext._unique++);
this.id = sId;
}
/* Create the settings object for this table and set some of the default parameters */
var oSettings = $.extend( true, {}, DataTable.models.oSettings, {
"sDestroyWidth": $this[0].style.width,
"sInstance": sId,
"sTableId": sId,
colgroup: $('<colgroup>').prependTo(this),
fastData: function (row, column, type) {
return _fnGetCellData(oSettings, row, column, type);
}
} );
oSettings.nTable = this;
oSettings.oInit = oInit;
allSettings.push( oSettings );
// Make a single API instance available for internal handling
oSettings.api = new _Api( oSettings );
// Need to add the instance after the instance after the settings object has been added
// to the settings array, so we can self reference the table instance if more than one
oSettings.oInstance = (_that.length===1) ? _that : $this.dataTable();
// Backwards compatibility, before we apply all the defaults
_fnCompatOpts( oInit );
// If the length menu is given, but the init display length is not, use the length menu
if ( oInit.aLengthMenu && ! oInit.iDisplayLength )
{
oInit.iDisplayLength = Array.isArray(oInit.aLengthMenu[0])
? oInit.aLengthMenu[0][0]
: $.isPlainObject( oInit.aLengthMenu[0] )
? oInit.aLengthMenu[0].value
: oInit.aLengthMenu[0];
}
// Apply the defaults and init options to make a single init object will all
// options defined from defaults and instance options.
oInit = _fnExtend( $.extend( true, {}, defaults ), oInit );
// Map the initialisation options onto the settings object
_fnMap( oSettings.oFeatures, oInit, [
"bPaginate",
"bLengthChange",
"bFilter",
"bSort",
"bSortMulti",
"bInfo",
"bProcessing",
"bAutoWidth",
"bSortClasses",
"bServerSide",
"bDeferRender"
] );
_fnMap( oSettings, oInit, [
"ajax",
"fnFormatNumber",
"sServerMethod",
"aaSorting",
"aaSortingFixed",
"aLengthMenu",
"sPaginationType",
"iStateDuration",
"bSortCellsTop",
"iTabIndex",
"sDom",
"fnStateLoadCallback",
"fnStateSaveCallback",
"renderer",
"searchDelay",
"rowId",
"caption",
"layout",
[ "iCookieDuration", "iStateDuration" ], // backwards compat
[ "oSearch", "oPreviousSearch" ],
[ "aoSearchCols", "aoPreSearchCols" ],
[ "iDisplayLength", "_iDisplayLength" ]
] );
_fnMap( oSettings.oScroll, oInit, [
[ "sScrollX", "sX" ],
[ "sScrollXInner", "sXInner" ],
[ "sScrollY", "sY" ],
[ "bScrollCollapse", "bCollapse" ]
] );
_fnMap( oSettings.oLanguage, oInit, "fnInfoCallback" );
/* Callback functions which are array driven */
_fnCallbackReg( oSettings, 'aoDrawCallback', oInit.fnDrawCallback );
_fnCallbackReg( oSettings, 'aoStateSaveParams', oInit.fnStateSaveParams );
_fnCallbackReg( oSettings, 'aoStateLoadParams', oInit.fnStateLoadParams );
_fnCallbackReg( oSettings, 'aoStateLoaded', oInit.fnStateLoaded );
_fnCallbackReg( oSettings, 'aoRowCallback', oInit.fnRowCallback );
_fnCallbackReg( oSettings, 'aoRowCreatedCallback', oInit.fnCreatedRow );
_fnCallbackReg( oSettings, 'aoHeaderCallback', oInit.fnHeaderCallback );
_fnCallbackReg( oSettings, 'aoFooterCallback', oInit.fnFooterCallback );
_fnCallbackReg( oSettings, 'aoInitComplete', oInit.fnInitComplete );
_fnCallbackReg( oSettings, 'aoPreDrawCallback', oInit.fnPreDrawCallback );
oSettings.rowIdFn = _fnGetObjectDataFn( oInit.rowId );
/* Browser support detection */
_fnBrowserDetect( oSettings );
var oClasses = oSettings.oClasses;
$.extend( oClasses, DataTable.ext.classes, oInit.oClasses );
$this.addClass( oClasses.table );
if (! oSettings.oFeatures.bPaginate) {
oInit.iDisplayStart = 0;
}
if ( oSettings.iInitDisplayStart === undefined )
{
/* Display start point, taking into account the save saving */
oSettings.iInitDisplayStart = oInit.iDisplayStart;
oSettings._iDisplayStart = oInit.iDisplayStart;
}
/* Language definitions */
var oLanguage = oSettings.oLanguage;
$.extend( true, oLanguage, oInit.oLanguage );
if ( oLanguage.sUrl )
{
/* Get the language definitions from a file - because this Ajax call makes the language
* get async to the remainder of this function we use bInitHandedOff to indicate that
* _fnInitialise will be fired by the returned Ajax handler, rather than the constructor
*/
$.ajax( {
dataType: 'json',
url: oLanguage.sUrl,
success: function ( json ) {
_fnCamelToHungarian( defaults.oLanguage, json );
$.extend( true, oLanguage, json, oSettings.oInit.oLanguage );
_fnCallbackFire( oSettings, null, 'i18n', [oSettings]);
_fnInitialise( oSettings );
},
error: function () {
// Error occurred loading language file
_fnLog( oSettings, 0, 'i18n file loading error', 21 );
// continue on as best we can
_fnInitialise( oSettings );
}
} );
bInitHandedOff = true;
}
else {
_fnCallbackFire( oSettings, null, 'i18n', [oSettings]);
}
/*
* Columns
* See if we should load columns automatically or use defined ones
*/
var columnsInit = [];
var thead = this.getElementsByTagName('thead');
var initHeaderLayout = _fnDetectHeader( oSettings, thead[0] );
// If we don't have a columns array, then generate one with nulls
if ( oInit.aoColumns ) {
columnsInit = oInit.aoColumns;
}
else if ( initHeaderLayout.length ) {
for ( i=0, iLen=initHeaderLayout[0].length ; i<iLen ; i++ ) {
columnsInit.push( null );
}
}
// Add the columns
for ( i=0, iLen=columnsInit.length ; i<iLen ; i++ ) {
_fnAddColumn( oSettings );
}
// Apply the column definitions
_fnApplyColumnDefs( oSettings, oInit.aoColumnDefs, columnsInit, initHeaderLayout, function (iCol, oDef) {
_fnColumnOptions( oSettings, iCol, oDef );
} );
/* HTML5 attribute detection - build an mData object automatically if the
* attributes are found
*/
var rowOne = $this.children('tbody').find('tr').eq(0);
if ( rowOne.length ) {
var a = function ( cell, name ) {
return cell.getAttribute( 'data-'+name ) !== null ? name : null;
};
$( rowOne[0] ).children('th, td').each( function (i, cell) {
var col = oSettings.aoColumns[i];
if (! col) {
_fnLog( oSettings, 0, 'Incorrect column count', 18 );
}
if ( col.mData === i ) {
var sort = a( cell, 'sort' ) || a( cell, 'order' );
var filter = a( cell, 'filter' ) || a( cell, 'search' );
if ( sort !== null || filter !== null ) {
col.mData = {
_: i+'.display',
sort: sort !== null ? i+'.@data-'+sort : undefined,
type: sort !== null ? i+'.@data-'+sort : undefined,
filter: filter !== null ? i+'.@data-'+filter : undefined
};
col._isArrayHost = true;
_fnColumnOptions( oSettings, i );
}
}
} );
}
var features = oSettings.oFeatures;
var loadedInit = function () {
/*
* Sorting
* @todo For modularisation (1.11) this needs to do into a sort start up handler
*/
// If aaSorting is not defined, then we use the first indicator in asSorting
// in case that has been altered, so the default sort reflects that option
if ( oInit.aaSorting === undefined ) {
var sorting = oSettings.aaSorting;
for ( i=0, iLen=sorting.length ; i<iLen ; i++ ) {
sorting[i][1] = oSettings.aoColumns[ i ].asSorting[0];
}
}
/* Do a first pass on the sorting classes (allows any size changes to be taken into
* account, and also will apply sorting disabled classes if disabled
*/
_fnSortingClasses( oSettings );
_fnCallbackReg( oSettings, 'aoDrawCallback', function () {
if ( oSettings.bSorted || _fnDataSource( oSettings ) === 'ssp' || features.bDeferRender ) {
_fnSortingClasses( oSettings );
}
} );
/*
* Final init
* Cache the header, body and footer as required, creating them if needed
*/
var caption = $this.children('caption');
if ( oSettings.caption ) {
if ( caption.length === 0 ) {
caption = $('<caption/>').appendTo( $this );
}
caption.html( oSettings.caption );
}
// Store the caption side, so we can remove the element from the document
// when creating the element
if (caption.length) {
caption[0]._captionSide = caption.css('caption-side');
oSettings.captionNode = caption[0];
}
if ( thead.length === 0 ) {
thead = $('<thead/>').appendTo($this);
}
oSettings.nTHead = thead[0];
$('tr', thead).addClass(oClasses.thead.row);
var tbody = $this.children('tbody');
if ( tbody.length === 0 ) {
tbody = $('<tbody/>').insertAfter(thead);
}
oSettings.nTBody = tbody[0];
var tfoot = $this.children('tfoot');
if ( tfoot.length === 0 ) {
// If we are a scrolling table, and no footer has been given, then we need to create
// a tfoot element for the caption element to be appended to
tfoot = $('<tfoot/>').appendTo($this);
}
oSettings.nTFoot = tfoot[0];
$('tr', tfoot).addClass(oClasses.tfoot.row);
// Check if there is data passing into the constructor
if ( oInit.aaData ) {
for ( i=0 ; i<oInit.aaData.length ; i++ ) {
_fnAddData( oSettings, oInit.aaData[ i ] );
}
}
else if ( _fnDataSource( oSettings ) == 'dom' ) {
// Grab the data from the page
_fnAddTr( oSettings, $(oSettings.nTBody).children('tr') );
}
/* Copy the data index array */
oSettings.aiDisplay = oSettings.aiDisplayMaster.slice();
/* Initialisation complete - table can be drawn */
oSettings.bInitialised = true;
/* Check if we need to initialise the table (it might not have been handed off to the
* language processor)
*/
if ( bInitHandedOff === false ) {
_fnInitialise( oSettings );
}
};
/* Must be done after everything which can be overridden by the state saving! */
_fnCallbackReg( oSettings, 'aoDrawCallback', _fnSaveState );
if ( oInit.bStateSave )
{
features.bStateSave = true;
_fnLoadState( oSettings, oInit, loadedInit );
}
else {
loadedInit();
}
} );
_that = null;
return this;
};
/**
* DataTables extensions
*
* This namespace acts as a collection area for plug-ins that can be used to
* extend DataTables capabilities. Indeed many of the build in methods
* use this method to provide their own capabilities (sorting methods for
* example).
*
* Note that this namespace is aliased to `jQuery.fn.dataTableExt` for legacy
* reasons
*
* @namespace
*/
DataTable.ext = _ext = {
/**
* Buttons. For use with the Buttons extension for DataTables. This is
* defined here so other extensions can define buttons regardless of load
* order. It is _not_ used by DataTables core.
*
* @type object
* @default {}
*/
buttons: {},
/**
* Element class names
*
* @type object
* @default {}
*/
classes: {},
/**
* DataTables build type (expanded by the download builder)
*
* @type string
*/
build:"bs5/dt-2.0.0",
/**
* Error reporting.
*
* How should DataTables report an error. Can take the value 'alert',
* 'throw', 'none' or a function.
*
* @type string|function
* @default alert
*/
errMode: "alert",
/**
* Legacy so v1 plug-ins don't throw js errors on load
*/
feature: [],
/**
* Feature plug-ins.
*
* This is an object of callbacks which provide the features for DataTables
* to be initialised via the `layout` option.
*/
features: {},
/**
* Row searching.
*
* This method of searching is complimentary to the default type based
* searching, and a lot more comprehensive as it allows you complete control
* over the searching logic. Each element in this array is a function
* (parameters described below) that is called for every row in the table,
* and your logic decides if it should be included in the searching data set
* or not.
*
* Searching functions have the following input parameters:
*
* 1. `{object}` DataTables settings object: see
* {@link DataTable.models.oSettings}
* 2. `{array|object}` Data for the row to be processed (same as the
* original format that was passed in as the data source, or an array
* from a DOM data source
* 3. `{int}` Row index ({@link DataTable.models.oSettings.aoData}), which
* can be useful to retrieve the `TR` element if you need DOM interaction.
*
* And the following return is expected:
*
* * {boolean} Include the row in the searched result set (true) or not
* (false)
*
* Note that as with the main search ability in DataTables, technically this
* is "filtering", since it is subtractive. However, for consistency in
* naming we call it searching here.
*
* @type array
* @default []
*
* @example
* // The following example shows custom search being applied to the
* // fourth column (i.e. the data[3] index) based on two input values
* // from the end-user, matching the data in a certain range.
* $.fn.dataTable.ext.search.push(
* function( settings, data, dataIndex ) {
* var min = document.getElementById('min').value * 1;
* var max = document.getElementById('max').value * 1;
* var version = data[3] == "-" ? 0 : data[3]*1;
*
* if ( min == "" && max == "" ) {
* return true;
* }
* else if ( min == "" && version < max ) {
* return true;
* }
* else if ( min < version && "" == max ) {
* return true;
* }
* else if ( min < version && version < max ) {
* return true;
* }
* return false;
* }
* );
*/
search: [],
/**
* Selector extensions
*
* The `selector` option can be used to extend the options available for the
* selector modifier options (`selector-modifier` object data type) that
* each of the three built in selector types offer (row, column and cell +
* their plural counterparts). For example the Select extension uses this
* mechanism to provide an option to select only rows, columns and cells
* that have been marked as selected by the end user (`{selected: true}`),
* which can be used in conjunction with the existing built in selector
* options.
*
* Each property is an array to which functions can be pushed. The functions
* take three attributes:
*
* * Settings object for the host table
* * Options object (`selector-modifier` object type)
* * Array of selected item indexes
*
* The return is an array of the resulting item indexes after the custom
* selector has been applied.
*
* @type object
*/
selector: {
cell: [],
column: [],
row: []
},
/**
* Legacy configuration options. Enable and disable legacy options that
* are available in DataTables.
*
* @type object
*/
legacy: {
/**
* Enable / disable DataTables 1.9 compatible server-side processing
* requests
*
* @type boolean
* @default null
*/
ajax: null
},
/**
* Pagination plug-in methods.
*
* Each entry in this object is a function and defines which buttons should
* be shown by the pagination rendering method that is used for the table:
* {@link DataTable.ext.renderer.pageButton}. The renderer addresses how the
* buttons are displayed in the document, while the functions here tell it
* what buttons to display. This is done by returning an array of button
* descriptions (what each button will do).
*
* Pagination types (the four built in options and any additional plug-in
* options defined here) can be used through the `paginationType`
* initialisation parameter.
*
* The functions defined take two parameters:
*
* 1. `{int} page` The current page index
* 2. `{int} pages` The number of pages in the table
*
* Each function is expected to return an array where each element of the
* array can be one of:
*
* * `first` - Jump to first page when activated
* * `last` - Jump to last page when activated
* * `previous` - Show previous page when activated
* * `next` - Show next page when activated
* * `{int}` - Show page of the index given
* * `{array}` - A nested array containing the above elements to add a
* containing 'DIV' element (might be useful for styling).
*
* Note that DataTables v1.9- used this object slightly differently whereby
* an object with two functions would be defined for each plug-in. That
* ability is still supported by DataTables 1.10+ to provide backwards
* compatibility, but this option of use is now decremented and no longer
* documented in DataTables 1.10+.
*
* @type object
* @default {}
*
* @example
* // Show previous, next and current page buttons only
* $.fn.dataTableExt.oPagination.current = function ( page, pages ) {
* return [ 'previous', page, 'next' ];
* };
*/
pager: {},
renderer: {
pageButton: {},
header: {}
},
/**
* Ordering plug-ins - custom data source
*
* The extension options for ordering of data available here is complimentary
* to the default type based ordering that DataTables typically uses. It
* allows much greater control over the the data that is being used to
* order a column, but is necessarily therefore more complex.
*
* This type of ordering is useful if you want to do ordering based on data
* live from the DOM (for example the contents of an 'input' element) rather
* than just the static string that DataTables knows of.
*
* The way these plug-ins work is that you create an array of the values you
* wish to be ordering for the column in question and then return that
* array. The data in the array much be in the index order of the rows in
* the table (not the currently ordering order!). Which order data gathering
* function is run here depends on the `dt-init columns.orderDataType`
* parameter that is used for the column (if any).
*
* The functions defined take two parameters:
*
* 1. `{object}` DataTables settings object: see
* {@link DataTable.models.oSettings}
* 2. `{int}` Target column index
*
* Each function is expected to return an array:
*
* * `{array}` Data for the column to be ordering upon
*
* @type array
*
* @example
* // Ordering using `input` node values
* $.fn.dataTable.ext.order['dom-text'] = function ( settings, col )
* {
* return this.api().column( col, {order:'index'} ).nodes().map( function ( td, i ) {
* return $('input', td).val();
* } );
* }
*/
order: {},
/**
* Type based plug-ins.
*
* Each column in DataTables has a type assigned to it, either by automatic
* detection or by direct assignment using the `type` option for the column.
* The type of a column will effect how it is ordering and search (plug-ins
* can also make use of the column type if required).
*
* @namespace
*/
type: {
/**
* Automatic column class assignment
*/
className: {},
/**
* Type detection functions.
*
* The functions defined in this object are used to automatically detect
* a column's type, making initialisation of DataTables super easy, even
* when complex data is in the table.
*
* The functions defined take two parameters:
*
* 1. `{*}` Data from the column cell to be analysed
* 2. `{settings}` DataTables settings object. This can be used to
* perform context specific type detection - for example detection
* based on language settings such as using a comma for a decimal
* place. Generally speaking the options from the settings will not
* be required
*
* Each function is expected to return:
*
* * `{string|null}` Data type detected, or null if unknown (and thus
* pass it on to the other type detection functions.
*
* @type array
*
* @example
* // Currency type detection plug-in:
* $.fn.dataTable.ext.type.detect.push(
* function ( data, settings ) {
* // Check the numeric part
* if ( ! data.substring(1).match(/[0-9]/) ) {
* return null;
* }
*
* // Check prefixed by currency
* if ( data.charAt(0) == '$' || data.charAt(0) == '&pound;' ) {
* return 'currency';
* }
* return null;
* }
* );
*/
detect: [],
/**
* Automatic renderer assignment
*/
render: {},
/**
* Type based search formatting.
*
* The type based searching functions can be used to pre-format the
* data to be search on. For example, it can be used to strip HTML
* tags or to de-format telephone numbers for numeric only searching.
*
* Note that is a search is not defined for a column of a given type,
* no search formatting will be performed.
*
* Pre-processing of searching data plug-ins - When you assign the sType
* for a column (or have it automatically detected for you by DataTables
* or a type detection plug-in), you will typically be using this for
* custom sorting, but it can also be used to provide custom searching
* by allowing you to pre-processing the data and returning the data in
* the format that should be searched upon. This is done by adding
* functions this object with a parameter name which matches the sType
* for that target column. This is the corollary of <i>afnSortData</i>
* for searching data.
*
* The functions defined take a single parameter:
*
* 1. `{*}` Data from the column cell to be prepared for searching
*
* Each function is expected to return:
*
* * `{string|null}` Formatted string that will be used for the searching.
*
* @type object
* @default {}
*
* @example
* $.fn.dataTable.ext.type.search['title-numeric'] = function ( d ) {
* return d.replace(/\n/g," ").replace( /<.*?>/g, "" );
* }
*/
search: {},
/**
* Type based ordering.
*
* The column type tells DataTables what ordering to apply to the table
* when a column is sorted upon. The order for each type that is defined,
* is defined by the functions available in this object.
*
* Each ordering option can be described by three properties added to
* this object:
*
* * `{type}-pre` - Pre-formatting function
* * `{type}-asc` - Ascending order function
* * `{type}-desc` - Descending order function
*
* All three can be used together, only `{type}-pre` or only
* `{type}-asc` and `{type}-desc` together. It is generally recommended
* that only `{type}-pre` is used, as this provides the optimal
* implementation in terms of speed, although the others are provided
* for compatibility with existing Javascript sort functions.
*
* `{type}-pre`: Functions defined take a single parameter:
*
* 1. `{*}` Data from the column cell to be prepared for ordering
*
* And return:
*
* * `{*}` Data to be sorted upon
*
* `{type}-asc` and `{type}-desc`: Functions are typical Javascript sort
* functions, taking two parameters:
*
* 1. `{*}` Data to compare to the second parameter
* 2. `{*}` Data to compare to the first parameter
*
* And returning:
*
* * `{*}` Ordering match: <0 if first parameter should be sorted lower
* than the second parameter, ===0 if the two parameters are equal and
* >0 if the first parameter should be sorted height than the second
* parameter.
*
* @type object
* @default {}
*
* @example
* // Numeric ordering of formatted numbers with a pre-formatter
* $.extend( $.fn.dataTable.ext.type.order, {
* "string-pre": function(x) {
* a = (a === "-" || a === "") ? 0 : a.replace( /[^\d\-\.]/g, "" );
* return parseFloat( a );
* }
* } );
*
* @example
* // Case-sensitive string ordering, with no pre-formatting method
* $.extend( $.fn.dataTable.ext.order, {
* "string-case-asc": function(x,y) {
* return ((x < y) ? -1 : ((x > y) ? 1 : 0));
* },
* "string-case-desc": function(x,y) {
* return ((x < y) ? 1 : ((x > y) ? -1 : 0));
* }
* } );
*/
order: {}
},
/**
* Unique DataTables instance counter
*
* @type int
* @private
*/
_unique: 0,
//
// Depreciated
// The following properties are retained for backwards compatibility only.
// The should not be used in new projects and will be removed in a future
// version
//
/**
* Version check function.
* @type function
* @depreciated Since 1.10
*/
fnVersionCheck: DataTable.fnVersionCheck,
/**
* Index for what 'this' index API functions should use
* @type int
* @deprecated Since v1.10
*/
iApiIndex: 0,
/**
* Software version
* @type string
* @deprecated Since v1.10
*/
sVersion: DataTable.version
};
//
// Backwards compatibility. Alias to pre 1.10 Hungarian notation counter parts
//
$.extend( _ext, {
afnFiltering: _ext.search,
aTypes: _ext.type.detect,
ofnSearch: _ext.type.search,
oSort: _ext.type.order,
afnSortData: _ext.order,
aoFeatures: _ext.feature,
oStdClasses: _ext.classes,
oPagination: _ext.pager
} );
$.extend( DataTable.ext.classes, {
container: 'dt-container',
empty: {
row: 'dt-empty'
},
info: {
container: 'dt-info'
},
length: {
container: 'dt-length',
select: 'dt-input'
},
order: {
canAsc: 'dt-orderable-asc',
canDesc: 'dt-orderable-desc',
isAsc: 'dt-ordering-asc',
isDesc: 'dt-ordering-desc',
none: 'dt-orderable-none',
position: 'sorting_'
},
processing: {
container: 'dt-processing'
},
scrolling: {
body: 'dt-scroll-body',
container: 'dt-scroll',
footer: {
self: 'dt-scroll-foot',
inner: 'dt-scroll-footInner'
},
header: {
self: 'dt-scroll-head',
inner: 'dt-scroll-headInner'
}
},
search: {
container: 'dt-search',
input: 'dt-input'
},
table: 'dataTable',
tbody: {
cell: '',
row: ''
},
thead: {
cell: '',
row: ''
},
tfoot: {
cell: '',
row: ''
},
paging: {
active: 'current',
button: 'dt-paging-button',
container: 'dt-paging',
disabled: 'disabled'
}
} );
/*
* It is useful to have variables which are scoped locally so only the
* DataTables functions can access them and they don't leak into global space.
* At the same time these functions are often useful over multiple files in the
* core and API, so we list, or at least document, all variables which are used
* by DataTables as private variables here. This also ensures that there is no
* clashing of variable names and that they can easily referenced for reuse.
*/
// Defined else where
// _selector_run
// _selector_opts
// _selector_row_indexes
var _ext; // DataTable.ext
var _Api; // DataTable.Api
var _api_register; // DataTable.Api.register
var _api_registerPlural; // DataTable.Api.registerPlural
var _re_dic = {};
var _re_new_lines = /[\r\n\u2028]/g;
var _re_html = /<.*?>/g;
// This is not strict ISO8601 - Date.parse() is quite lax, although
// implementations differ between browsers.
var _re_date = /^\d{2,4}[./-]\d{1,2}[./-]\d{1,2}([T ]{1}\d{1,2}[:.]\d{2}([.:]\d{2})?)?$/;
// Escape regular expression special characters
var _re_escape_regex = new RegExp( '(\\' + [ '/', '.', '*', '+', '?', '|', '(', ')', '[', ']', '{', '}', '\\', '$', '^', '-' ].join('|\\') + ')', 'g' );
// https://en.wikipedia.org/wiki/Foreign_exchange_market
// - \u20BD - Russian ruble.
// - \u20a9 - South Korean Won
// - \u20BA - Turkish Lira
// - \u20B9 - Indian Rupee
// - R - Brazil (R$) and South Africa
// - fr - Swiss Franc
// - kr - Swedish krona, Norwegian krone and Danish krone
// - \u2009 is thin space and \u202F is narrow no-break space, both used in many
// - Ƀ - Bitcoin
// - Ξ - Ethereum
// standards as thousands separators.
var _re_formatted_numeric = /['\u00A0,$£€¥%\u2009\u202F\u20BD\u20a9\u20BArfkɃΞ]/gi;
var _empty = function ( d ) {
return !d || d === true || d === '-' ? true : false;
};
var _intVal = function ( s ) {
var integer = parseInt( s, 10 );
return !isNaN(integer) && isFinite(s) ? integer : null;
};
// Convert from a formatted number with characters other than `.` as the
// decimal place, to a Javascript number
var _numToDecimal = function ( num, decimalPoint ) {
// Cache created regular expressions for speed as this function is called often
if ( ! _re_dic[ decimalPoint ] ) {
_re_dic[ decimalPoint ] = new RegExp( _fnEscapeRegex( decimalPoint ), 'g' );
}
return typeof num === 'string' && decimalPoint !== '.' ?
num.replace( /\./g, '' ).replace( _re_dic[ decimalPoint ], '.' ) :
num;
};
var _isNumber = function ( d, decimalPoint, formatted ) {
var type = typeof d;
var strType = type === 'string';
if ( type === 'number' || type === 'bigint') {
return true;
}
// If empty return immediately so there must be a number if it is a
// formatted string (this stops the string "k", or "kr", etc being detected
// as a formatted number for currency
if ( _empty( d ) ) {
return true;
}
if ( decimalPoint && strType ) {
d = _numToDecimal( d, decimalPoint );
}
if ( formatted && strType ) {
d = d.replace( _re_formatted_numeric, '' );
}
return !isNaN( parseFloat(d) ) && isFinite( d );
};
// A string without HTML in it can be considered to be HTML still
var _isHtml = function ( d ) {
return _empty( d ) || typeof d === 'string';
};
// Is a string a number surrounded by HTML?
var _htmlNumeric = function ( d, decimalPoint, formatted ) {
if ( _empty( d ) ) {
return true;
}
// input and select strings mean that this isn't just a number
if (typeof d === 'string' && d.match(/<(input|select)/i)) {
return null;
}
var html = _isHtml( d );
return ! html ?
null :
_isNumber( _stripHtml( d ), decimalPoint, formatted ) ?
true :
null;
};
var _pluck = function ( a, prop, prop2 ) {
var out = [];
var i=0, ien=a.length;
// Could have the test in the loop for slightly smaller code, but speed
// is essential here
if ( prop2 !== undefined ) {
for ( ; i<ien ; i++ ) {
if ( a[i] && a[i][ prop ] ) {
out.push( a[i][ prop ][ prop2 ] );
}
}
}
else {
for ( ; i<ien ; i++ ) {
if ( a[i] ) {
out.push( a[i][ prop ] );
}
}
}
return out;
};
// Basically the same as _pluck, but rather than looping over `a` we use `order`
// as the indexes to pick from `a`
var _pluck_order = function ( a, order, prop, prop2 )
{
var out = [];
var i=0, ien=order.length;
// Could have the test in the loop for slightly smaller code, but speed
// is essential here
if ( prop2 !== undefined ) {
for ( ; i<ien ; i++ ) {
if ( a[ order[i] ][ prop ] ) {
out.push( a[ order[i] ][ prop ][ prop2 ] );
}
}
}
else {
for ( ; i<ien ; i++ ) {
if ( a[ order[i] ] ) {
out.push( a[ order[i] ][ prop ] );
}
}
}
return out;
};
var _range = function ( len, start )
{
var out = [];
var end;
if ( start === undefined ) {
start = 0;
end = len;
}
else {
end = start;
start = len;
}
for ( var i=start ; i<end ; i++ ) {
out.push( i );
}
return out;
};
var _removeEmpty = function ( a )
{
var out = [];
for ( var i=0, ien=a.length ; i<ien ; i++ ) {
if ( a[i] ) { // careful - will remove all falsy values!
out.push( a[i] );
}
}
return out;
};
// Replaceable function in api.util
var _stripHtml = function ( d ) {
return d
.replace( _re_html, '' ) // Complete tags
.replace(/<script/i, ''); // Safety for incomplete script tag
};
// Replaceable function in api.util
var _escapeHtml = function ( d ) {
if (Array.isArray(d)) {
d = d.join(',');
}
return typeof d === 'string' ?
d
.replace(/&/g, '&amp;')
.replace(/</g, '&lt;')
.replace(/>/g, '&gt;')
.replace(/"/g, '&quot;') :
d;
};
// Remove diacritics from a string by decomposing it and then removing
// non-ascii characters
var _normalize = function (str, both) {
if (typeof str !== 'string') {
return str;
}
// It is faster to just run `normalize` than it is to check if
// we need to with a regex!
var res = str.normalize("NFD");
// Equally, here we check if a regex is needed or not
return res.length !== str.length
? (both === true ? str + ' ' : '' ) + res.replace(/[\u0300-\u036f]/g, "")
: res;
}
/**
* Determine if all values in the array are unique. This means we can short
* cut the _unique method at the cost of a single loop. A sorted array is used
* to easily check the values.
*
* @param {array} src Source array
* @return {boolean} true if all unique, false otherwise
* @ignore
*/
var _areAllUnique = function ( src ) {
if ( src.length < 2 ) {
return true;
}
var sorted = src.slice().sort();
var last = sorted[0];
for ( var i=1, ien=sorted.length ; i<ien ; i++ ) {
if ( sorted[i] === last ) {
return false;
}
last = sorted[i];
}
return true;
};
/**
* Find the unique elements in a source array.
*
* @param {array} src Source array
* @return {array} Array of unique items
* @ignore
*/
var _unique = function ( src )
{
if (Array.from && Set) {
return Array.from(new Set(src));
}
if ( _areAllUnique( src ) ) {
return src.slice();
}
// A faster unique method is to use object keys to identify used values,
// but this doesn't work with arrays or objects, which we must also
// consider. See jsperf.app/compare-array-unique-versions/4 for more
// information.
var
out = [],
val,
i, ien=src.length,
j, k=0;
again: for ( i=0 ; i<ien ; i++ ) {
val = src[i];
for ( j=0 ; j<k ; j++ ) {
if ( out[j] === val ) {
continue again;
}
}
out.push( val );
k++;
}
return out;
};
// Surprisingly this is faster than [].concat.apply
// https://jsperf.com/flatten-an-array-loop-vs-reduce/2
var _flatten = function (out, val) {
if (Array.isArray(val)) {
for (var i=0 ; i<val.length ; i++) {
_flatten(out, val[i]);
}
}
else {
out.push(val);
}
return out;
}
// Similar to jQuery's addClass, but use classList.add
function _addClass(el, name) {
if (name) {
name.split(' ').forEach(function (n) {
if (n) {
// `add` does deduplication, so no need to check `contains`
el.classList.add(n);
}
});
}
}
/**
* DataTables utility methods
*
* This namespace provides helper methods that DataTables uses internally to
* create a DataTable, but which are not exclusively used only for DataTables.
* These methods can be used by extension authors to save the duplication of
* code.
*
* @namespace
*/
DataTable.util = {
/**
* Return a string with diacritic characters decomposed
* @param {*} mixed Function or string to normalize
* @param {*} both Return original string and the normalized string
* @returns String or undefined
*/
diacritics: function (mixed, both) {
var type = typeof mixed;
if (type !== 'function') {
return _normalize(mixed, both);
}
_normalize = mixed;
},
/**
* Debounce a function
*
* @param {function} fn Function to be called
* @param {integer} freq Call frequency in mS
* @return {function} Wrapped function
*/
debounce: function ( fn, timeout ) {
var timer;
return function () {
var that = this;
var args = arguments;
clearTimeout(timer);
timer = setTimeout( function () {
fn.apply(that, args);
}, timeout || 250 );
};
},
/**
* Throttle the calls to a function. Arguments and context are maintained
* for the throttled function.
*
* @param {function} fn Function to be called
* @param {integer} freq Call frequency in mS
* @return {function} Wrapped function
*/
throttle: function ( fn, freq ) {
var
frequency = freq !== undefined ? freq : 200,
last,
timer;
return function () {
var
that = this,
now = +new Date(),
args = arguments;
if ( last && now < last + frequency ) {
clearTimeout( timer );
timer = setTimeout( function () {
last = undefined;
fn.apply( that, args );
}, frequency );
}
else {
last = now;
fn.apply( that, args );
}
};
},
/**
* Escape a string such that it can be used in a regular expression
*
* @param {string} val string to escape
* @returns {string} escaped string
*/
escapeRegex: function ( val ) {
return val.replace( _re_escape_regex, '\\$1' );
},
/**
* Create a function that will write to a nested object or array
* @param {*} source JSON notation string
* @returns Write function
*/
set: function ( source ) {
if ( $.isPlainObject( source ) ) {
/* Unlike get, only the underscore (global) option is used for for
* setting data since we don't know the type here. This is why an object
* option is not documented for `mData` (which is read/write), but it is
* for `mRender` which is read only.
*/
return DataTable.util.set( source._ );
}
else if ( source === null ) {
// Nothing to do when the data source is null
return function () {};
}
else if ( typeof source === 'function' ) {
return function (data, val, meta) {
source( data, 'set', val, meta );
};
}
else if (
typeof source === 'string' && (source.indexOf('.') !== -1 ||
source.indexOf('[') !== -1 || source.indexOf('(') !== -1)
) {
// Like the get, we need to get data from a nested object
var setData = function (data, val, src) {
var a = _fnSplitObjNotation( src ), b;
var aLast = a[a.length-1];
var arrayNotation, funcNotation, o, innerSrc;
for ( var i=0, iLen=a.length-1 ; i<iLen ; i++ ) {
// Protect against prototype pollution
if (a[i] === '__proto__' || a[i] === 'constructor') {
throw new Error('Cannot set prototype values');
}
// Check if we are dealing with an array notation request
arrayNotation = a[i].match(__reArray);
funcNotation = a[i].match(__reFn);
if ( arrayNotation ) {
a[i] = a[i].replace(__reArray, '');
data[ a[i] ] = [];
// Get the remainder of the nested object to set so we can recurse
b = a.slice();
b.splice( 0, i+1 );
innerSrc = b.join('.');
// Traverse each entry in the array setting the properties requested
if ( Array.isArray( val ) ) {
for ( var j=0, jLen=val.length ; j<jLen ; j++ ) {
o = {};
setData( o, val[j], innerSrc );
data[ a[i] ].push( o );
}
}
else {
// We've been asked to save data to an array, but it
// isn't array data to be saved. Best that can be done
// is to just save the value.
data[ a[i] ] = val;
}
// The inner call to setData has already traversed through the remainder
// of the source and has set the data, thus we can exit here
return;
}
else if ( funcNotation ) {
// Function call
a[i] = a[i].replace(__reFn, '');
data = data[ a[i] ]( val );
}
// If the nested object doesn't currently exist - since we are
// trying to set the value - create it
if ( data[ a[i] ] === null || data[ a[i] ] === undefined ) {
data[ a[i] ] = {};
}
data = data[ a[i] ];
}
// Last item in the input - i.e, the actual set
if ( aLast.match(__reFn ) ) {
// Function call
data = data[ aLast.replace(__reFn, '') ]( val );
}
else {
// If array notation is used, we just want to strip it and use the property name
// and assign the value. If it isn't used, then we get the result we want anyway
data[ aLast.replace(__reArray, '') ] = val;
}
};
return function (data, val) { // meta is also passed in, but not used
return setData( data, val, source );
};
}
else {
// Array or flat object mapping
return function (data, val) { // meta is also passed in, but not used
data[source] = val;
};
}
},
/**
* Create a function that will read nested objects from arrays, based on JSON notation
* @param {*} source JSON notation string
* @returns Value read
*/
get: function ( source ) {
if ( $.isPlainObject( source ) ) {
// Build an object of get functions, and wrap them in a single call
var o = {};
$.each( source, function (key, val) {
if ( val ) {
o[key] = DataTable.util.get( val );
}
} );
return function (data, type, row, meta) {
var t = o[type] || o._;
return t !== undefined ?
t(data, type, row, meta) :
data;
};
}
else if ( source === null ) {
// Give an empty string for rendering / sorting etc
return function (data) { // type, row and meta also passed, but not used
return data;
};
}
else if ( typeof source === 'function' ) {
return function (data, type, row, meta) {
return source( data, type, row, meta );
};
}
else if (
typeof source === 'string' && (source.indexOf('.') !== -1 ||
source.indexOf('[') !== -1 || source.indexOf('(') !== -1)
) {
/* If there is a . in the source string then the data source is in a
* nested object so we loop over the data for each level to get the next
* level down. On each loop we test for undefined, and if found immediately
* return. This allows entire objects to be missing and sDefaultContent to
* be used if defined, rather than throwing an error
*/
var fetchData = function (data, type, src) {
var arrayNotation, funcNotation, out, innerSrc;
if ( src !== "" ) {
var a = _fnSplitObjNotation( src );
for ( var i=0, iLen=a.length ; i<iLen ; i++ ) {
// Check if we are dealing with special notation
arrayNotation = a[i].match(__reArray);
funcNotation = a[i].match(__reFn);
if ( arrayNotation ) {
// Array notation
a[i] = a[i].replace(__reArray, '');
// Condition allows simply [] to be passed in
if ( a[i] !== "" ) {
data = data[ a[i] ];
}
out = [];
// Get the remainder of the nested object to get
a.splice( 0, i+1 );
innerSrc = a.join('.');
// Traverse each entry in the array getting the properties requested
if ( Array.isArray( data ) ) {
for ( var j=0, jLen=data.length ; j<jLen ; j++ ) {
out.push( fetchData( data[j], type, innerSrc ) );
}
}
// If a string is given in between the array notation indicators, that
// is used to join the strings together, otherwise an array is returned
var join = arrayNotation[0].substring(1, arrayNotation[0].length-1);
data = (join==="") ? out : out.join(join);
// The inner call to fetchData has already traversed through the remainder
// of the source requested, so we exit from the loop
break;
}
else if ( funcNotation ) {
// Function call
a[i] = a[i].replace(__reFn, '');
data = data[ a[i] ]();
continue;
}
if (data === null || data[ a[i] ] === null) {
return null;
}
else if ( data === undefined || data[ a[i] ] === undefined ) {
return undefined;
}
data = data[ a[i] ];
}
}
return data;
};
return function (data, type) { // row and meta also passed, but not used
return fetchData( data, type, source );
};
}
else {
// Array or flat object mapping
return function (data) { // row and meta also passed, but not used
return data[source];
};
}
},
stripHtml: function (mixed) {
var type = typeof mixed;
if (type === 'function') {
_stripHtml = mixed;
return;
}
else if (type === 'string') {
return _stripHtml(mixed);
}
return mixed;
},
escapeHtml: function (mixed) {
var type = typeof mixed;
if (type === 'function') {
_escapeHtml = mixed;
return;
}
else if (type === 'string' || Array.isArray(mixed)) {
return _escapeHtml(mixed);
}
return mixed;
},
unique: _unique
};
/**
* Create a mapping object that allows camel case parameters to be looked up
* for their Hungarian counterparts. The mapping is stored in a private
* parameter called `_hungarianMap` which can be accessed on the source object.
* @param {object} o
* @memberof DataTable#oApi
*/
function _fnHungarianMap ( o )
{
var
hungarian = 'a aa ai ao as b fn i m o s ',
match,
newKey,
map = {};
$.each( o, function (key) {
match = key.match(/^([^A-Z]+?)([A-Z])/);
if ( match && hungarian.indexOf(match[1]+' ') !== -1 )
{
newKey = key.replace( match[0], match[2].toLowerCase() );
map[ newKey ] = key;
if ( match[1] === 'o' )
{
_fnHungarianMap( o[key] );
}
}
} );
o._hungarianMap = map;
}
/**
* Convert from camel case parameters to Hungarian, based on a Hungarian map
* created by _fnHungarianMap.
* @param {object} src The model object which holds all parameters that can be
* mapped.
* @param {object} user The object to convert from camel case to Hungarian.
* @param {boolean} force When set to `true`, properties which already have a
* Hungarian value in the `user` object will be overwritten. Otherwise they
* won't be.
* @memberof DataTable#oApi
*/
function _fnCamelToHungarian ( src, user, force )
{
if ( ! src._hungarianMap ) {
_fnHungarianMap( src );
}
var hungarianKey;
$.each( user, function (key) {
hungarianKey = src._hungarianMap[ key ];
if ( hungarianKey !== undefined && (force || user[hungarianKey] === undefined) )
{
// For objects, we need to buzz down into the object to copy parameters
if ( hungarianKey.charAt(0) === 'o' )
{
// Copy the camelCase options over to the hungarian
if ( ! user[ hungarianKey ] ) {
user[ hungarianKey ] = {};
}
$.extend( true, user[hungarianKey], user[key] );
_fnCamelToHungarian( src[hungarianKey], user[hungarianKey], force );
}
else {
user[hungarianKey] = user[ key ];
}
}
} );
}
/**
* Map one parameter onto another
* @param {object} o Object to map
* @param {*} knew The new parameter name
* @param {*} old The old parameter name
*/
var _fnCompatMap = function ( o, knew, old ) {
if ( o[ knew ] !== undefined ) {
o[ old ] = o[ knew ];
}
};
/**
* Provide backwards compatibility for the main DT options. Note that the new
* options are mapped onto the old parameters, so this is an external interface
* change only.
* @param {object} init Object to map
*/
function _fnCompatOpts ( init )
{
_fnCompatMap( init, 'ordering', 'bSort' );
_fnCompatMap( init, 'orderMulti', 'bSortMulti' );
_fnCompatMap( init, 'orderClasses', 'bSortClasses' );
_fnCompatMap( init, 'orderCellsTop', 'bSortCellsTop' );
_fnCompatMap( init, 'order', 'aaSorting' );
_fnCompatMap( init, 'orderFixed', 'aaSortingFixed' );
_fnCompatMap( init, 'paging', 'bPaginate' );
_fnCompatMap( init, 'pagingType', 'sPaginationType' );
_fnCompatMap( init, 'pageLength', 'iDisplayLength' );
_fnCompatMap( init, 'searching', 'bFilter' );
// Boolean initialisation of x-scrolling
if ( typeof init.sScrollX === 'boolean' ) {
init.sScrollX = init.sScrollX ? '100%' : '';
}
if ( typeof init.scrollX === 'boolean' ) {
init.scrollX = init.scrollX ? '100%' : '';
}
// Column search objects are in an array, so it needs to be converted
// element by element
var searchCols = init.aoSearchCols;
if ( searchCols ) {
for ( var i=0, ien=searchCols.length ; i<ien ; i++ ) {
if ( searchCols[i] ) {
_fnCamelToHungarian( DataTable.models.oSearch, searchCols[i] );
}
}
}
// Enable search delay if server-side processing is enabled
if (init.serverSide && ! init.searchDelay) {
init.searchDelay = 400;
}
}
/**
* Provide backwards compatibility for column options. Note that the new options
* are mapped onto the old parameters, so this is an external interface change
* only.
* @param {object} init Object to map
*/
function _fnCompatCols ( init )
{
_fnCompatMap( init, 'orderable', 'bSortable' );
_fnCompatMap( init, 'orderData', 'aDataSort' );
_fnCompatMap( init, 'orderSequence', 'asSorting' );
_fnCompatMap( init, 'orderDataType', 'sortDataType' );
// orderData can be given as an integer
var dataSort = init.aDataSort;
if ( typeof dataSort === 'number' && ! Array.isArray( dataSort ) ) {
init.aDataSort = [ dataSort ];
}
}
/**
* Browser feature detection for capabilities, quirks
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnBrowserDetect( settings )
{
// We don't need to do this every time DataTables is constructed, the values
// calculated are specific to the browser and OS configuration which we
// don't expect to change between initialisations
if ( ! DataTable.__browser ) {
var browser = {};
DataTable.__browser = browser;
// Scrolling feature / quirks detection
var n = $('<div/>')
.css( {
position: 'fixed',
top: 0,
left: -1 * window.pageXOffset, // allow for scrolling
height: 1,
width: 1,
overflow: 'hidden'
} )
.append(
$('<div/>')
.css( {
position: 'absolute',
top: 1,
left: 1,
width: 100,
overflow: 'scroll'
} )
.append(
$('<div/>')
.css( {
width: '100%',
height: 10
} )
)
)
.appendTo( 'body' );
var outer = n.children();
var inner = outer.children();
// Get scrollbar width
browser.barWidth = outer[0].offsetWidth - outer[0].clientWidth;
// In rtl text layout, some browsers (most, but not all) will place the
// scrollbar on the left, rather than the right.
browser.bScrollbarLeft = Math.round( inner.offset().left ) !== 1;
n.remove();
}
$.extend( settings.oBrowser, DataTable.__browser );
settings.oScroll.iBarWidth = DataTable.__browser.barWidth;
}
/**
* Add a column to the list used for the table with default values
* @param {object} oSettings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnAddColumn( oSettings )
{
// Add column to aoColumns array
var oDefaults = DataTable.defaults.column;
var iCol = oSettings.aoColumns.length;
var oCol = $.extend( {}, DataTable.models.oColumn, oDefaults, {
"aDataSort": oDefaults.aDataSort ? oDefaults.aDataSort : [iCol],
"mData": oDefaults.mData ? oDefaults.mData : iCol,
idx: iCol,
searchFixed: {},
colEl: $('<col>')
} );
oSettings.aoColumns.push( oCol );
// Add search object for column specific search. Note that the `searchCols[ iCol ]`
// passed into extend can be undefined. This allows the user to give a default
// with only some of the parameters defined, and also not give a default
var searchCols = oSettings.aoPreSearchCols;
searchCols[ iCol ] = $.extend( {}, DataTable.models.oSearch, searchCols[ iCol ] );
}
/**
* Apply options for a column
* @param {object} oSettings dataTables settings object
* @param {int} iCol column index to consider
* @param {object} oOptions object with sType, bVisible and bSearchable etc
* @memberof DataTable#oApi
*/
function _fnColumnOptions( oSettings, iCol, oOptions )
{
var oCol = oSettings.aoColumns[ iCol ];
/* User specified column options */
if ( oOptions !== undefined && oOptions !== null )
{
// Backwards compatibility
_fnCompatCols( oOptions );
// Map camel case parameters to their Hungarian counterparts
_fnCamelToHungarian( DataTable.defaults.column, oOptions, true );
/* Backwards compatibility for mDataProp */
if ( oOptions.mDataProp !== undefined && !oOptions.mData )
{
oOptions.mData = oOptions.mDataProp;
}
if ( oOptions.sType )
{
oCol._sManualType = oOptions.sType;
}
// `class` is a reserved word in Javascript, so we need to provide
// the ability to use a valid name for the camel case input
if ( oOptions.className && ! oOptions.sClass )
{
oOptions.sClass = oOptions.className;
}
var origClass = oCol.sClass;
$.extend( oCol, oOptions );
_fnMap( oCol, oOptions, "sWidth", "sWidthOrig" );
// Merge class from previously defined classes with this one, rather than just
// overwriting it in the extend above
if (origClass !== oCol.sClass) {
oCol.sClass = origClass + ' ' + oCol.sClass;
}
/* iDataSort to be applied (backwards compatibility), but aDataSort will take
* priority if defined
*/
if ( oOptions.iDataSort !== undefined )
{
oCol.aDataSort = [ oOptions.iDataSort ];
}
_fnMap( oCol, oOptions, "aDataSort" );
}
/* Cache the data get and set functions for speed */
var mDataSrc = oCol.mData;
var mData = _fnGetObjectDataFn( mDataSrc );
// The `render` option can be given as an array to access the helper rendering methods.
// The first element is the rendering method to use, the rest are the parameters to pass
if ( oCol.mRender && Array.isArray( oCol.mRender ) ) {
var copy = oCol.mRender.slice();
var name = copy.shift();
oCol.mRender = DataTable.render[name].apply(window, copy);
}
oCol._render = oCol.mRender ? _fnGetObjectDataFn( oCol.mRender ) : null;
var attrTest = function( src ) {
return typeof src === 'string' && src.indexOf('@') !== -1;
};
oCol._bAttrSrc = $.isPlainObject( mDataSrc ) && (
attrTest(mDataSrc.sort) || attrTest(mDataSrc.type) || attrTest(mDataSrc.filter)
);
oCol._setter = null;
oCol.fnGetData = function (rowData, type, meta) {
var innerData = mData( rowData, type, undefined, meta );
return oCol._render && type ?
oCol._render( innerData, type, rowData, meta ) :
innerData;
};
oCol.fnSetData = function ( rowData, val, meta ) {
return _fnSetObjectDataFn( mDataSrc )( rowData, val, meta );
};
// Indicate if DataTables should read DOM data as an object or array
// Used in _fnGetRowElements
if ( typeof mDataSrc !== 'number' && ! oCol._isArrayHost ) {
oSettings._rowReadObject = true;
}
/* Feature sorting overrides column specific when off */
if ( !oSettings.oFeatures.bSort )
{
oCol.bSortable = false;
}
}
/**
* Adjust the table column widths for new data. Note: you would probably want to
* do a redraw after calling this function!
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnAdjustColumnSizing ( settings )
{
_fnCalculateColumnWidths( settings );
_fnColumnSizes( settings );
var scroll = settings.oScroll;
if ( scroll.sY !== '' || scroll.sX !== '') {
_fnScrollDraw( settings );
}
_fnCallbackFire( settings, null, 'column-sizing', [settings] );
}
/**
* Apply column sizes
*
* @param {*} settings DataTables settings object
*/
function _fnColumnSizes ( settings )
{
var cols = settings.aoColumns;
for (var i=0 ; i<cols.length ; i++) {
var width = _fnColumnsSumWidth(settings, [i], false, false);
cols[i].colEl.css('width', width);
}
}
/**
* Convert the index of a visible column to the index in the data array (take account
* of hidden columns)
* @param {object} oSettings dataTables settings object
* @param {int} iMatch Visible column index to lookup
* @returns {int} i the data index
* @memberof DataTable#oApi
*/
function _fnVisibleToColumnIndex( oSettings, iMatch )
{
var aiVis = _fnGetColumns( oSettings, 'bVisible' );
return typeof aiVis[iMatch] === 'number' ?
aiVis[iMatch] :
null;
}
/**
* Convert the index of an index in the data array and convert it to the visible
* column index (take account of hidden columns)
* @param {int} iMatch Column index to lookup
* @param {object} oSettings dataTables settings object
* @returns {int} i the data index
* @memberof DataTable#oApi
*/
function _fnColumnIndexToVisible( oSettings, iMatch )
{
var aiVis = _fnGetColumns( oSettings, 'bVisible' );
var iPos = aiVis.indexOf(iMatch);
return iPos !== -1 ? iPos : null;
}
/**
* Get the number of visible columns
* @param {object} oSettings dataTables settings object
* @returns {int} i the number of visible columns
* @memberof DataTable#oApi
*/
function _fnVisbleColumns( settings )
{
var layout = settings.aoHeader;
var columns = settings.aoColumns;
var vis = 0;
if ( layout.length ) {
for ( var i=0, ien=layout[0].length ; i<ien ; i++ ) {
if ( columns[i].bVisible && $(layout[0][i].cell).css('display') !== 'none' ) {
vis++;
}
}
}
return vis;
}
/**
* Get an array of column indexes that match a given property
* @param {object} oSettings dataTables settings object
* @param {string} sParam Parameter in aoColumns to look for - typically
* bVisible or bSearchable
* @returns {array} Array of indexes with matched properties
* @memberof DataTable#oApi
*/
function _fnGetColumns( oSettings, sParam )
{
var a = [];
oSettings.aoColumns.map( function(val, i) {
if ( val[sParam] ) {
a.push( i );
}
} );
return a;
}
/**
* Calculate the 'type' of a column
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnColumnTypes ( settings )
{
var columns = settings.aoColumns;
var data = settings.aoData;
var types = DataTable.ext.type.detect;
var i, ien, j, jen, k, ken;
var col, detectedType, cache;
// For each column, spin over the
for ( i=0, ien=columns.length ; i<ien ; i++ ) {
col = columns[i];
cache = [];
if ( ! col.sType && col._sManualType ) {
col.sType = col._sManualType;
}
else if ( ! col.sType ) {
for ( j=0, jen=types.length ; j<jen ; j++ ) {
for ( k=0, ken=data.length ; k<ken ; k++ ) {
if (! data[k]) {
continue;
}
// Use a cache array so we only need to get the type data
// from the formatter once (when using multiple detectors)
if ( cache[k] === undefined ) {
cache[k] = _fnGetCellData( settings, k, i, 'type' );
}
detectedType = types[j]( cache[k], settings );
// If null, then this type can't apply to this column, so
// rather than testing all cells, break out. There is an
// exception for the last type which is `html`. We need to
// scan all rows since it is possible to mix string and HTML
// types
if ( ! detectedType && j !== types.length-2 ) {
break;
}
// Only a single match is needed for html type since it is
// bottom of the pile and very similar to string - but it
// must not be empty
if ( detectedType === 'html' && ! _empty(cache[k]) ) {
break;
}
}
// Type is valid for all data points in the column - use this
// type
if ( detectedType ) {
col.sType = detectedType;
break;
}
}
// Fall back - if no type was detected, always use string
if ( ! col.sType ) {
col.sType = 'string';
}
}
// Set class names for header / footer for auto type classes
var autoClass = _ext.type.className[col.sType];
if (autoClass) {
_columnAutoClass(settings.aoHeader, i, autoClass);
_columnAutoClass(settings.aoFooter, i, autoClass);
}
var renderer = _ext.type.render[col.sType];
// This can only happen once! There is no way to remover
// a renderer. After the first time the renderer has
// already been set so createTr will run the renderer itself.
if (renderer && ! col._render) {
col._render = DataTable.util.get(renderer);
_columnAutoRender(settings, i);
}
}
}
/**
* Apply an auto detected renderer to data which doesn't yet have
* a renderer
*/
function _columnAutoRender(settings, colIdx) {
var data = settings.aoData;
for (var i=0 ; i<data.length ; i++) {
if (data[i].nTr) {
// We have to update the display here since there is no
// invalidation check for the data
var display = _fnGetCellData( settings, i, colIdx, 'display' );
data[i].displayData[colIdx] = display;
_fnWriteCell(data[i].anCells[colIdx], display);
// No need to update sort / filter data since it has
// been invalidated and will be re-read with the
// renderer now applied
}
}
}
/**
* Apply a class name to a column's header cells
*/
function _columnAutoClass(container, colIdx, className) {
container.forEach(function (row) {
if (row[colIdx].unique) {
_addClass(row[colIdx].cell, className);
}
});
}
/**
* Take the column definitions and static columns arrays and calculate how
* they relate to column indexes. The callback function will then apply the
* definition found for a column to a suitable configuration object.
* @param {object} oSettings dataTables settings object
* @param {array} aoColDefs The aoColumnDefs array that is to be applied
* @param {array} aoCols The aoColumns array that defines columns individually
* @param {array} headerLayout Layout for header as it was loaded
* @param {function} fn Callback function - takes two parameters, the calculated
* column index and the definition for that column.
* @memberof DataTable#oApi
*/
function _fnApplyColumnDefs( oSettings, aoColDefs, aoCols, headerLayout, fn )
{
var i, iLen, j, jLen, k, kLen, def;
var columns = oSettings.aoColumns;
if ( aoCols ) {
for ( i=0, iLen=aoCols.length ; i<iLen ; i++ ) {
if (aoCols[i] && aoCols[i].name) {
columns[i].sName = aoCols[i].name;
}
}
}
// Column definitions with aTargets
if ( aoColDefs )
{
/* Loop over the definitions array - loop in reverse so first instance has priority */
for ( i=aoColDefs.length-1 ; i>=0 ; i-- )
{
def = aoColDefs[i];
/* Each definition can target multiple columns, as it is an array */
var aTargets = def.target !== undefined
? def.target
: def.targets !== undefined
? def.targets
: def.aTargets;
if ( ! Array.isArray( aTargets ) )
{
aTargets = [ aTargets ];
}
for ( j=0, jLen=aTargets.length ; j<jLen ; j++ )
{
var target = aTargets[j];
if ( typeof target === 'number' && target >= 0 )
{
/* Add columns that we don't yet know about */
while( columns.length <= target )
{
_fnAddColumn( oSettings );
}
/* Integer, basic index */
fn( target, def );
}
else if ( typeof target === 'number' && target < 0 )
{
/* Negative integer, right to left column counting */
fn( columns.length+target, def );
}
else if ( typeof target === 'string' )
{
for ( k=0, kLen=columns.length ; k<kLen ; k++ ) {
if (target.indexOf(':name') !== -1) {
if (columns[k].sName === target.replace(':name', '')) {
fn( k, def );
}
}
else {
headerLayout.forEach(function (row) {
var cell = $(row[k].cell);
// Legacy support. Note that it means that we don't support
// an element name selector only, since they are treated as
// class names for 1.x compat.
if (target.match(/^[a-z][\w-]*$/i)) {
target = '.' + target;
}
if (target === '_all' || cell.is( target )) {
fn( k, def );
}
});
}
}
}
}
}
}
// Statically defined columns array
if ( aoCols ) {
for ( i=0, iLen=aoCols.length ; i<iLen ; i++ ) {
fn( i, aoCols[i] );
}
}
}
/**
* Get the width for a given set of columns
*
* @param {*} settings DataTables settings object
* @param {*} targets Columns - comma separated string or array of numbers
* @param {*} original Use the original width (true) or calculated (false)
* @param {*} incVisible Include visible columns (true) or not (false)
* @returns Combined CSS value
*/
function _fnColumnsSumWidth( settings, targets, original, incVisible ) {
if ( ! Array.isArray( targets ) ) {
targets = _fnColumnsFromHeader( targets );
}
var sum = 0;
var unit;
var columns = settings.aoColumns;
for ( var i=0, ien=targets.length ; i<ien ; i++ ) {
var column = columns[ targets[i] ];
var definedWidth = original ?
column.sWidthOrig :
column.sWidth;
if ( ! incVisible && column.bVisible === false ) {
continue;
}
if ( definedWidth === null || definedWidth === undefined ) {
return null; // can't determine a defined width - browser defined
}
else if ( typeof definedWidth === 'number' ) {
unit = 'px';
sum += definedWidth;
}
else {
var matched = definedWidth.match(/([\d\.]+)([^\d]*)/);
if ( matched ) {
sum += matched[1] * 1;
unit = matched.length === 3 ?
matched[2] :
'px';
}
}
}
return sum + unit;
}
function _fnColumnsFromHeader( cell )
{
var attr = $(cell).closest('[data-dt-column]').attr('data-dt-column');
if ( ! attr ) {
return [];
}
return attr.split(',').map( function (val) {
return val * 1;
} );
}
/**
* Add a data array to the table, creating DOM node etc. This is the parallel to
* _fnGatherData, but for adding rows from a Javascript source, rather than a
* DOM source.
* @param {object} settings dataTables settings object
* @param {array} data data array to be added
* @param {node} [tr] TR element to add to the table - optional. If not given,
* DataTables will create a row automatically
* @param {array} [tds] Array of TD|TH elements for the row - must be given
* if nTr is.
* @returns {int} >=0 if successful (index of new aoData entry), -1 if failed
* @memberof DataTable#oApi
*/
function _fnAddData ( settings, dataIn, tr, tds )
{
/* Create the object for storing information about this new row */
var rowIdx = settings.aoData.length;
var rowModel = $.extend( true, {}, DataTable.models.oRow, {
src: tr ? 'dom' : 'data',
idx: rowIdx
} );
rowModel._aData = dataIn;
settings.aoData.push( rowModel );
var columns = settings.aoColumns;
for ( var i=0, iLen=columns.length ; i<iLen ; i++ )
{
// Invalidate the column types as the new data needs to be revalidated
columns[i].sType = null;
}
/* Add to the display array */
settings.aiDisplayMaster.push( rowIdx );
var id = settings.rowIdFn( dataIn );
if ( id !== undefined ) {
settings.aIds[ id ] = rowModel;
}
/* Create the DOM information, or register it if already present */
if ( tr || ! settings.oFeatures.bDeferRender )
{
_fnCreateTr( settings, rowIdx, tr, tds );
}
return rowIdx;
}
/**
* Add one or more TR elements to the table. Generally we'd expect to
* use this for reading data from a DOM sourced table, but it could be
* used for an TR element. Note that if a TR is given, it is used (i.e.
* it is not cloned).
* @param {object} settings dataTables settings object
* @param {array|node|jQuery} trs The TR element(s) to add to the table
* @returns {array} Array of indexes for the added rows
* @memberof DataTable#oApi
*/
function _fnAddTr( settings, trs )
{
var row;
// Allow an individual node to be passed in
if ( ! (trs instanceof $) ) {
trs = $(trs);
}
return trs.map( function (i, el) {
row = _fnGetRowElements( settings, el );
return _fnAddData( settings, row.data, el, row.cells );
} );
}
/**
* Get the data for a given cell from the internal cache, taking into account data mapping
* @param {object} settings dataTables settings object
* @param {int} rowIdx aoData row id
* @param {int} colIdx Column index
* @param {string} type data get type ('display', 'type' 'filter|search' 'sort|order')
* @returns {*} Cell data
* @memberof DataTable#oApi
*/
function _fnGetCellData( settings, rowIdx, colIdx, type )
{
if (type === 'search') {
type = 'filter';
}
else if (type === 'order') {
type = 'sort';
}
var draw = settings.iDraw;
var col = settings.aoColumns[colIdx];
var rowData = settings.aoData[rowIdx]._aData;
var defaultContent = col.sDefaultContent;
var cellData = col.fnGetData( rowData, type, {
settings: settings,
row: rowIdx,
col: colIdx
} );
// Allow for a node being returned for non-display types
if (type !== 'display' && cellData && typeof cellData === 'object' && cellData.nodeName) {
cellData = cellData.innerHTML;
}
if ( cellData === undefined ) {
if ( settings.iDrawError != draw && defaultContent === null ) {
_fnLog( settings, 0, "Requested unknown parameter "+
(typeof col.mData=='function' ? '{function}' : "'"+col.mData+"'")+
" for row "+rowIdx+", column "+colIdx, 4 );
settings.iDrawError = draw;
}
return defaultContent;
}
// When the data source is null and a specific data type is requested (i.e.
// not the original data), we can use default column data
if ( (cellData === rowData || cellData === null) && defaultContent !== null && type !== undefined ) {
cellData = defaultContent;
}
else if ( typeof cellData === 'function' ) {
// If the data source is a function, then we run it and use the return,
// executing in the scope of the data object (for instances)
return cellData.call( rowData );
}
if ( cellData === null && type === 'display' ) {
return '';
}
if ( type === 'filter' ) {
var fomatters = DataTable.ext.type.search;
if ( fomatters[ col.sType ] ) {
cellData = fomatters[ col.sType ]( cellData );
}
}
return cellData;
}
/**
* Set the value for a specific cell, into the internal data cache
* @param {object} settings dataTables settings object
* @param {int} rowIdx aoData row id
* @param {int} colIdx Column index
* @param {*} val Value to set
* @memberof DataTable#oApi
*/
function _fnSetCellData( settings, rowIdx, colIdx, val )
{
var col = settings.aoColumns[colIdx];
var rowData = settings.aoData[rowIdx]._aData;
col.fnSetData( rowData, val, {
settings: settings,
row: rowIdx,
col: colIdx
} );
}
/**
* Write a value to a cell
* @param {*} td Cell
* @param {*} val Value
*/
function _fnWriteCell(td, val)
{
if (val && typeof val === 'object' && val.nodeName) {
$(td)
.empty()
.append(val);
}
else {
td.innerHTML = val;
}
}
// Private variable that is used to match action syntax in the data property object
var __reArray = /\[.*?\]$/;
var __reFn = /\(\)$/;
/**
* Split string on periods, taking into account escaped periods
* @param {string} str String to split
* @return {array} Split string
*/
function _fnSplitObjNotation( str )
{
var parts = str.match(/(\\.|[^.])+/g) || [''];
return parts.map( function ( s ) {
return s.replace(/\\\./g, '.');
} );
}
/**
* Return a function that can be used to get data from a source object, taking
* into account the ability to use nested objects as a source
* @param {string|int|function} mSource The data source for the object
* @returns {function} Data get function
* @memberof DataTable#oApi
*/
var _fnGetObjectDataFn = DataTable.util.get;
/**
* Return a function that can be used to set data from a source object, taking
* into account the ability to use nested objects as a source
* @param {string|int|function} mSource The data source for the object
* @returns {function} Data set function
* @memberof DataTable#oApi
*/
var _fnSetObjectDataFn = DataTable.util.set;
/**
* Return an array with the full table data
* @param {object} oSettings dataTables settings object
* @returns array {array} aData Master data array
* @memberof DataTable#oApi
*/
function _fnGetDataMaster ( settings )
{
return _pluck( settings.aoData, '_aData' );
}
/**
* Nuke the table
* @param {object} oSettings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnClearTable( settings )
{
settings.aoData.length = 0;
settings.aiDisplayMaster.length = 0;
settings.aiDisplay.length = 0;
settings.aIds = {};
}
/**
* Mark cached data as invalid such that a re-read of the data will occur when
* the cached data is next requested. Also update from the data source object.
*
* @param {object} settings DataTables settings object
* @param {int} rowIdx Row index to invalidate
* @param {string} [src] Source to invalidate from: undefined, 'auto', 'dom'
* or 'data'
* @param {int} [colIdx] Column index to invalidate. If undefined the whole
* row will be invalidated
* @memberof DataTable#oApi
*
* @todo For the modularisation of v1.11 this will need to become a callback, so
* the sort and filter methods can subscribe to it. That will required
* initialisation options for sorting, which is why it is not already baked in
*/
function _fnInvalidate( settings, rowIdx, src, colIdx )
{
var row = settings.aoData[ rowIdx ];
var i, ien;
// Remove the cached data for the row
row._aSortData = null;
row._aFilterData = null;
row.displayData = null;
// Are we reading last data from DOM or the data object?
if ( src === 'dom' || ((! src || src === 'auto') && row.src === 'dom') ) {
// Read the data from the DOM
row._aData = _fnGetRowElements(
settings, row, colIdx, colIdx === undefined ? undefined : row._aData
)
.data;
}
else {
// Reading from data object, update the DOM
var cells = row.anCells;
var display = _fnGetRowDisplay(settings, rowIdx);
if ( cells ) {
if ( colIdx !== undefined ) {
_fnWriteCell(cells[colIdx], display[colIdx]);
}
else {
for ( i=0, ien=cells.length ; i<ien ; i++ ) {
_fnWriteCell(cells[i], display[i]);
}
}
}
}
// Column specific invalidation
var cols = settings.aoColumns;
if ( colIdx !== undefined ) {
// Type - the data might have changed
cols[ colIdx ].sType = null;
// Max length string. Its a fairly cheep recalculation, so not worth
// something more complicated
cols[ colIdx ].maxLenString = null;
}
else {
for ( i=0, ien=cols.length ; i<ien ; i++ ) {
cols[i].sType = null;
cols[i].maxLenString = null;
}
// Update DataTables special `DT_*` attributes for the row
_fnRowAttributes( settings, row );
}
}
/**
* Build a data source object from an HTML row, reading the contents of the
* cells that are in the row.
*
* @param {object} settings DataTables settings object
* @param {node|object} TR element from which to read data or existing row
* object from which to re-read the data from the cells
* @param {int} [colIdx] Optional column index
* @param {array|object} [d] Data source object. If `colIdx` is given then this
* parameter should also be given and will be used to write the data into.
* Only the column in question will be written
* @returns {object} Object with two parameters: `data` the data read, in
* document order, and `cells` and array of nodes (they can be useful to the
* caller, so rather than needing a second traversal to get them, just return
* them from here).
* @memberof DataTable#oApi
*/
function _fnGetRowElements( settings, row, colIdx, d )
{
var
tds = [],
td = row.firstChild,
name, col, i=0, contents,
columns = settings.aoColumns,
objectRead = settings._rowReadObject;
// Allow the data object to be passed in, or construct
d = d !== undefined ?
d :
objectRead ?
{} :
[];
var attr = function ( str, td ) {
if ( typeof str === 'string' ) {
var idx = str.indexOf('@');
if ( idx !== -1 ) {
var attr = str.substring( idx+1 );
var setter = _fnSetObjectDataFn( str );
setter( d, td.getAttribute( attr ) );
}
}
};
// Read data from a cell and store into the data object
var cellProcess = function ( cell ) {
if ( colIdx === undefined || colIdx === i ) {
col = columns[i];
contents = (cell.innerHTML).trim();
if ( col && col._bAttrSrc ) {
var setter = _fnSetObjectDataFn( col.mData._ );
setter( d, contents );
attr( col.mData.sort, cell );
attr( col.mData.type, cell );
attr( col.mData.filter, cell );
}
else {
// Depending on the `data` option for the columns the data can
// be read to either an object or an array.
if ( objectRead ) {
if ( ! col._setter ) {
// Cache the setter function
col._setter = _fnSetObjectDataFn( col.mData );
}
col._setter( d, contents );
}
else {
d[i] = contents;
}
}
}
i++;
};
if ( td ) {
// `tr` element was passed in
while ( td ) {
name = td.nodeName.toUpperCase();
if ( name == "TD" || name == "TH" ) {
cellProcess( td );
tds.push( td );
}
td = td.nextSibling;
}
}
else {
// Existing row object passed in
tds = row.anCells;
for ( var j=0, jen=tds.length ; j<jen ; j++ ) {
cellProcess( tds[j] );
}
}
// Read the ID from the DOM if present
var rowNode = row.firstChild ? row : row.nTr;
if ( rowNode ) {
var id = rowNode.getAttribute( 'id' );
if ( id ) {
_fnSetObjectDataFn( settings.rowId )( d, id );
}
}
return {
data: d,
cells: tds
};
}
/**
* Render and cache a row's display data for the columns, if required
* @returns
*/
function _fnGetRowDisplay (settings, rowIdx) {
let rowModal = settings.aoData[rowIdx];
let columns = settings.aoColumns;
if (! rowModal.displayData) {
// Need to render and cache
rowModal.displayData = [];
for ( var colIdx=0, len=columns.length ; colIdx<len ; colIdx++ ) {
rowModal.displayData.push(
_fnGetCellData( settings, rowIdx, colIdx, 'display' )
);
}
}
return rowModal.displayData;
}
/**
* Create a new TR element (and it's TD children) for a row
* @param {object} oSettings dataTables settings object
* @param {int} iRow Row to consider
* @param {node} [nTrIn] TR element to add to the table - optional. If not given,
* DataTables will create a row automatically
* @param {array} [anTds] Array of TD|TH elements for the row - must be given
* if nTr is.
* @memberof DataTable#oApi
*/
function _fnCreateTr ( oSettings, iRow, nTrIn, anTds )
{
var
row = oSettings.aoData[iRow],
rowData = row._aData,
cells = [],
nTr, nTd, oCol,
i, iLen, create,
trClass = oSettings.oClasses.tbody.row;
if ( row.nTr === null )
{
nTr = nTrIn || document.createElement('tr');
row.nTr = nTr;
row.anCells = cells;
_addClass(nTr, trClass);
/* Use a private property on the node to allow reserve mapping from the node
* to the aoData array for fast look up
*/
nTr._DT_RowIndex = iRow;
/* Special parameters can be given by the data source to be used on the row */
_fnRowAttributes( oSettings, row );
/* Process each column */
for ( i=0, iLen=oSettings.aoColumns.length ; i<iLen ; i++ )
{
oCol = oSettings.aoColumns[i];
create = nTrIn ? false : true;
nTd = create ? document.createElement( oCol.sCellType ) : anTds[i];
if (! nTd) {
_fnLog( oSettings, 0, 'Incorrect column count', 18 );
}
nTd._DT_CellIndex = {
row: iRow,
column: i
};
cells.push( nTd );
var display = _fnGetRowDisplay(oSettings, iRow);
// Need to create the HTML if new, or if a rendering function is defined
if (
create ||
(
(oCol.mRender || oCol.mData !== i) &&
(!$.isPlainObject(oCol.mData) || oCol.mData._ !== i+'.display')
)
) {
_fnWriteCell(nTd, display[i]);
}
// Visibility - add or remove as required
if ( oCol.bVisible && ! nTrIn )
{
nTr.appendChild( nTd );
}
else if ( ! oCol.bVisible && nTrIn )
{
nTd.parentNode.removeChild( nTd );
}
if ( oCol.fnCreatedCell )
{
oCol.fnCreatedCell.call( oSettings.oInstance,
nTd, _fnGetCellData( oSettings, iRow, i ), rowData, iRow, i
);
}
}
_fnCallbackFire( oSettings, 'aoRowCreatedCallback', 'row-created', [nTr, rowData, iRow, cells] );
}
else {
_addClass(row.nTr, trClass);
}
}
/**
* Add attributes to a row based on the special `DT_*` parameters in a data
* source object.
* @param {object} settings DataTables settings object
* @param {object} DataTables row object for the row to be modified
* @memberof DataTable#oApi
*/
function _fnRowAttributes( settings, row )
{
var tr = row.nTr;
var data = row._aData;
if ( tr ) {
var id = settings.rowIdFn( data );
if ( id ) {
tr.id = id;
}
if ( data.DT_RowClass ) {
// Remove any classes added by DT_RowClass before
var a = data.DT_RowClass.split(' ');
row.__rowc = row.__rowc ?
_unique( row.__rowc.concat( a ) ) :
a;
$(tr)
.removeClass( row.__rowc.join(' ') )
.addClass( data.DT_RowClass );
}
if ( data.DT_RowAttr ) {
$(tr).attr( data.DT_RowAttr );
}
if ( data.DT_RowData ) {
$(tr).data( data.DT_RowData );
}
}
}
/**
* Create the HTML header for the table
* @param {object} oSettings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnBuildHead( settings, side )
{
var classes = settings.oClasses;
var columns = settings.aoColumns;
var i, ien, row;
var target = side === 'header'
? settings.nTHead
: settings.nTFoot;
var titleProp = side === 'header' ? 'sTitle' : side;
// Footer might be defined
if (! target) {
return;
}
// If no cells yet and we have content for them, then create
if ( $('th, td', target).length === 0 && (side === 'header' || _pluck(settings.aoColumns, titleProp).join('')) ) {
row = $('<tr/>')
.appendTo( target );
for ( i=0, ien=columns.length ; i<ien ; i++ ) {
$('<th/>')
.html( columns[i][titleProp] || '' )
.appendTo( row );
}
}
var detected = _fnDetectHeader( settings, target, true );
if (side === 'header') {
settings.aoHeader = detected;
}
else {
settings.aoFooter = detected;
}
// ARIA role for the rows
$(target).children('tr').attr('role', 'row');
// Every cell needs to be passed through the renderer
$(target).children('tr').children('th, td')
.each( function () {
_fnRenderer( settings, side )(
settings, $(this), classes
);
} );
}
/**
* Build a layout structure for a header or footer
*
* @param {*} settings DataTables settings
* @param {*} source Source layout array
* @param {*} incColumns What columns should be included
* @returns Layout array
*/
function _fnHeaderLayout( settings, source, incColumns )
{
var row, column, cell;
var local = [];
var structure = [];
var columns = settings.aoColumns;
var columnCount = columns.length;
var rowspan, colspan;
if ( ! source ) {
return;
}
// Default is to work on only visible columns
if ( ! incColumns ) {
incColumns = _range(columnCount)
.filter(function (idx) {
return columns[idx].bVisible;
});
}
// Make a copy of the master layout array, but with only the columns we want
for ( row=0 ; row<source.length ; row++ ) {
// Remove any columns we haven't selected
local[row] = source[row].slice().filter(function (cell, i) {
return incColumns.includes(i);
});
// Prep the structure array - it needs an element for each row
structure.push( [] );
}
for ( row=0 ; row<local.length ; row++ ) {
for ( column=0 ; column<local[row].length ; column++ ) {
rowspan = 1;
colspan = 1;
// Check to see if there is already a cell (row/colspan) covering our target
// insert point. If there is, then there is nothing to do.
if ( structure[row][column] === undefined ) {
cell = local[row][column].cell;
// Expand for rowspan
while (
local[row+rowspan] !== undefined &&
local[row][column].cell == local[row+rowspan][column].cell
) {
structure[row+rowspan][column] = null;
rowspan++;
}
// And for colspan
while (
local[row][column+colspan] !== undefined &&
local[row][column].cell == local[row][column+colspan].cell
) {
// Which also needs to go over rows
for ( var k=0 ; k<rowspan ; k++ ) {
structure[row+k][column+colspan] = null;
}
colspan++;
}
structure[row][column] = {
cell: cell,
colspan: colspan,
rowspan: rowspan,
title: $('span.dt-column-title', cell).html()
};
}
}
}
return structure;
}
/**
* Draw the header (or footer) element based on the column visibility states.
*
* @param object oSettings dataTables settings object
* @param array aoSource Layout array from _fnDetectHeader
* @memberof DataTable#oApi
*/
function _fnDrawHead( settings, source )
{
var layout = _fnHeaderLayout(settings, source);
var tr, n;
for ( var row=0 ; row<source.length ; row++ ) {
tr = source[row].row;
// All cells are going to be replaced, so empty out the row
// Can't use $().empty() as that kills event handlers
if (tr) {
while( (n = tr.firstChild) ) {
tr.removeChild( n );
}
}
for ( var column=0 ; column<layout[row].length ; column++ ) {
var point = layout[row][column];
if (point) {
$(point.cell)
.appendTo(tr)
.attr('rowspan', point.rowspan)
.attr('colspan', point.colspan);
}
}
}
}
/**
* Insert the required TR nodes into the table for display
* @param {object} oSettings dataTables settings object
* @param ajaxComplete true after ajax call to complete rendering
* @memberof DataTable#oApi
*/
function _fnDraw( oSettings, ajaxComplete )
{
// Allow for state saving and a custom start position
_fnStart( oSettings );
/* Provide a pre-callback function which can be used to cancel the draw is false is returned */
var aPreDraw = _fnCallbackFire( oSettings, 'aoPreDrawCallback', 'preDraw', [oSettings] );
if ( aPreDraw.indexOf(false) !== -1 )
{
_fnProcessingDisplay( oSettings, false );
return;
}
var anRows = [];
var iRowCount = 0;
var bServerSide = _fnDataSource( oSettings ) == 'ssp';
var aiDisplay = oSettings.aiDisplay;
var iDisplayStart = oSettings._iDisplayStart;
var iDisplayEnd = oSettings.fnDisplayEnd();
var columns = oSettings.aoColumns;
var body = $(oSettings.nTBody);
oSettings.bDrawing = true;
/* Server-side processing draw intercept */
if ( !bServerSide )
{
oSettings.iDraw++;
}
else if ( !oSettings.bDestroying && !ajaxComplete)
{
// Show loading message for server-side processing
if (oSettings.iDraw === 0) {
body.empty().append(_emptyRow(oSettings));
}
_fnAjaxUpdate( oSettings );
return;
}
if ( aiDisplay.length !== 0 )
{
var iStart = bServerSide ? 0 : iDisplayStart;
var iEnd = bServerSide ? oSettings.aoData.length : iDisplayEnd;
for ( var j=iStart ; j<iEnd ; j++ )
{
var iDataIndex = aiDisplay[j];
var aoData = oSettings.aoData[ iDataIndex ];
if ( aoData.nTr === null )
{
_fnCreateTr( oSettings, iDataIndex );
}
var nRow = aoData.nTr;
// Add various classes as needed
for (var i=0 ; i<columns.length ; i++) {
var col = columns[i];
var td = aoData.anCells[i];
_addClass(td, _ext.type.className[col.sType]); // auto class
_addClass(td, col.sClass); // column class
_addClass(td, oSettings.oClasses.tbody.cell); // all cells
}
// Row callback functions - might want to manipulate the row
// iRowCount and j are not currently documented. Are they at all
// useful?
_fnCallbackFire( oSettings, 'aoRowCallback', null,
[nRow, aoData._aData, iRowCount, j, iDataIndex] );
anRows.push( nRow );
iRowCount++;
}
}
else
{
anRows[ 0 ] = _emptyRow(oSettings);
}
/* Header and footer callbacks */
_fnCallbackFire( oSettings, 'aoHeaderCallback', 'header', [ $(oSettings.nTHead).children('tr')[0],
_fnGetDataMaster( oSettings ), iDisplayStart, iDisplayEnd, aiDisplay ] );
_fnCallbackFire( oSettings, 'aoFooterCallback', 'footer', [ $(oSettings.nTFoot).children('tr')[0],
_fnGetDataMaster( oSettings ), iDisplayStart, iDisplayEnd, aiDisplay ] );
body.children().detach();
body.append( $(anRows) );
// Empty table needs a specific class
$(oSettings.nTableWrapper).toggleClass('dt-empty-footer', $('tr', oSettings.nTFoot).length === 0);
/* Call all required callback functions for the end of a draw */
_fnCallbackFire( oSettings, 'aoDrawCallback', 'draw', [oSettings], true );
/* Draw is complete, sorting and filtering must be as well */
oSettings.bSorted = false;
oSettings.bFiltered = false;
oSettings.bDrawing = false;
}
/**
* Redraw the table - taking account of the various features which are enabled
* @param {object} oSettings dataTables settings object
* @param {boolean} [holdPosition] Keep the current paging position. By default
* the paging is reset to the first page
* @memberof DataTable#oApi
*/
function _fnReDraw( settings, holdPosition, recompute )
{
var
features = settings.oFeatures,
sort = features.bSort,
filter = features.bFilter;
if (recompute === undefined || recompute === true) {
if ( sort ) {
_fnSort( settings );
}
if ( filter ) {
_fnFilterComplete( settings, settings.oPreviousSearch );
}
else {
// No filtering, so we want to just use the display master
settings.aiDisplay = settings.aiDisplayMaster.slice();
}
}
if ( holdPosition !== true ) {
settings._iDisplayStart = 0;
}
// Let any modules know about the draw hold position state (used by
// scrolling internally)
settings._drawHold = holdPosition;
_fnDraw( settings );
settings._drawHold = false;
}
/*
* Table is empty - create a row with an empty message in it
*/
function _emptyRow ( settings ) {
var oLang = settings.oLanguage;
var zero = oLang.sZeroRecords;
var dataSrc = _fnDataSource( settings );
if ( settings.iDraw <= 1 && (dataSrc === 'ajax' || dataSrc === 'ssp') )
{
zero = oLang.sLoadingRecords;
}
else if ( oLang.sEmptyTable && settings.fnRecordsTotal() === 0 )
{
zero = oLang.sEmptyTable;
}
return $( '<tr/>' )
.append( $('<td />', {
'colSpan': _fnVisbleColumns( settings ),
'class': settings.oClasses.empty.row
} ).html( zero ) )[0];
}
/**
* Convert a `layout` object given by a user to the object structure needed
* for the renderer. This is done twice, once for above and once for below
* the table. Ordering must also be considered.
*
* @param {*} settings DataTables settings object
* @param {*} layout Layout object to convert
* @param {string} side `top` or `bottom`
* @returns Converted array structure - one item for each row.
*/
function _layoutArray ( settings, layout, side )
{
var groups = {};
// Combine into like groups (e.g. `top`, `top2`, etc)
$.each( layout, function ( pos, val ) {
if (val === null) {
return;
}
var splitPos = pos.replace(/([A-Z])/g, ' $1').split(' ');
if ( ! groups[ splitPos[0] ] ) {
groups[ splitPos[0] ] = {};
}
var align = splitPos.length === 1 ?
'full' :
splitPos[1].toLowerCase();
var group = groups[ splitPos[0] ];
// Transform to an object with a contents property
if ( $.isPlainObject( val ) ) {
// Already a group from a previous pass
if (val.contents) {
group[ align ] = val;
}
else {
// For objects, each property becomes an entry in the contents
// array for this insert position
group[ align ] = {
contents: Object.keys(val).map(function (key) {
return {
feature: key,
opts: val[key]
};
})
};
}
}
else {
group[ align ] = {
contents: val
};
}
// And make contents an array
if ( ! Array.isArray( group[ align ].contents ) ) {
group[ align ].contents = [ group[ align ].contents ];
}
} );
var filtered = Object.keys(groups)
.map( function ( pos ) {
// Filter to only the side we need
if ( pos.indexOf(side) !== 0 ) {
return null;
}
return {
name: pos,
val: groups[pos]
};
} )
.filter( function (item) {
return item !== null;
});
// Order by item identifier
filtered.sort( function ( a, b ) {
var order1 = a.name.replace(/[^0-9]/g, '') * 1;
var order2 = b.name.replace(/[^0-9]/g, '') * 1;
return order2 - order1;
} );
if ( side === 'bottom' ) {
filtered.reverse();
}
// Split into rows
var rows = [];
for ( var i=0, ien=filtered.length ; i<ien ; i++ ) {
if ( filtered[i].val.full ) {
rows.push( { full: filtered[i].val.full } );
_layoutResolve( settings, rows[ rows.length - 1 ] );
delete filtered[i].val.full;
}
if ( Object.keys(filtered[i].val).length ) {
rows.push( filtered[i].val );
_layoutResolve( settings, rows[ rows.length - 1 ] );
}
}
return rows;
}
/**
* Convert the contents of a row's layout object to nodes that can be inserted
* into the document by a renderer. Execute functions, look up plug-ins, etc.
*
* @param {*} settings DataTables settings object
* @param {*} row Layout object for this row
*/
function _layoutResolve( settings, row ) {
var getFeature = function (feature, opts) {
if ( ! _ext.features[ feature ] ) {
_fnLog( settings, 0, 'Unknown feature: '+ feature );
}
return _ext.features[ feature ].apply( this, [settings, opts] );
};
var resolve = function ( item ) {
var line = row[ item ].contents;
for ( var i=0, ien=line.length ; i<ien ; i++ ) {
if ( ! line[i] ) {
continue;
}
else if ( typeof line[i] === 'string' ) {
line[i] = getFeature( line[i], null );
}
else if ( $.isPlainObject(line[i]) ) {
// If it's an object, it just has feature and opts properties from
// the transform in _layoutArray
line[i] = getFeature(line[i].feature, line[i].opts);
}
else if ( typeof line[i].node === 'function' ) {
line[i] = line[i].node( settings );
}
else if ( typeof line[i] === 'function' ) {
var inst = line[i]( settings );
line[i] = typeof inst.node === 'function' ?
inst.node() :
inst;
}
}
};
$.each( row, function ( key ) {
resolve( key );
} );
}
/**
* Add the options to the page HTML for the table
* @param {object} settings DataTables settings object
* @memberof DataTable#oApi
*/
function _fnAddOptionsHtml ( settings )
{
var classes = settings.oClasses;
var table = $(settings.nTable);
// Wrapper div around everything DataTables controls
var insert = $('<div/>')
.attr({
id: settings.sTableId+'_wrapper',
'class': classes.container
})
.insertBefore(table);
settings.nTableWrapper = insert[0];
var top = _layoutArray( settings, settings.layout, 'top' );
var bottom = _layoutArray( settings, settings.layout, 'bottom' );
var renderer = _fnRenderer( settings, 'layout' );
if (settings.sDom) {
// Legacy
_fnLayoutDom(settings, settings.sDom, insert);
}
else {
// Everything above - the renderer will actually insert the contents into the document
top.forEach(function (item) {
renderer( settings, insert, item );
});
// The table - always the center of attention
renderer( settings, insert, {
full: {
table: true,
contents: [ _fnFeatureHtmlTable(settings) ]
}
} );
// Everything below
bottom.forEach(function (item) {
renderer( settings, insert, item );
});
}
// Processing floats on top, so it isn't an inserted feature
_processingHtml( settings );
}
/**
* Draw the table with the legacy DOM property
* @param {*} settings DT settings object
* @param {*} dom DOM string
* @param {*} insert Insert point
*/
function _fnLayoutDom( settings, dom, insert )
{
var parts = dom.match(/(".*?")|('.*?')|./g);
var featureNode, option, newNode, next, attr;
for ( var i=0 ; i<parts.length ; i++ ) {
featureNode = null;
option = parts[i];
if ( option == '<' ) {
// New container div
newNode = $('<div/>');
// Check to see if we should append an id and/or a class name to the container
next = parts[i+1];
if ( next[0] == "'" || next[0] == '"' ) {
attr = next.replace(/['"]/g, '');
var id = '', className;
/* The attribute can be in the format of "#id.class", "#id" or "class" This logic
* breaks the string into parts and applies them as needed
*/
if ( attr.indexOf('.') != -1 ) {
var split = attr.split('.');
id = split[0];
className = split[1];
}
else if ( attr[0] == "#" ) {
id = attr;
}
else {
className = attr;
}
newNode
.attr('id', id.substring(1))
.addClass(className);
i++; // Move along the position array
}
insert.append( newNode );
insert = newNode;
}
else if ( option == '>' ) {
// End container div
insert = insert.parent();
}
else if ( option == 't' ) {
// Table
featureNode = _fnFeatureHtmlTable( settings );
}
else
{
DataTable.ext.feature.forEach(function(feature) {
if ( option == feature.cFeature ) {
featureNode = feature.fnInit( settings );
}
});
}
// Add to the display
if ( featureNode ) {
insert.append( featureNode );
}
}
}
/**
* Use the DOM source to create up an array of header cells. The idea here is to
* create a layout grid (array) of rows x columns, which contains a reference
* to the cell that that point in the grid (regardless of col/rowspan), such that
* any column / row could be removed and the new grid constructed
* @param {node} thead The header/footer element for the table
* @returns {array} Calculated layout array
* @memberof DataTable#oApi
*/
function _fnDetectHeader ( settings, thead, write )
{
var columns = settings.aoColumns;
var rows = $(thead).children('tr');
var row, cell;
var i, k, l, iLen, shifted, column, colspan, rowspan;
var isHeader = thead && thead.nodeName.toLowerCase() === 'thead';
var layout = [];
var unique;
var shift = function ( a, i, j ) {
var k = a[i];
while ( k[j] ) {
j++;
}
return j;
};
// We know how many rows there are in the layout - so prep it
for ( i=0, iLen=rows.length ; i<iLen ; i++ ) {
layout.push( [] );
}
for ( i=0, iLen=rows.length ; i<iLen ; i++ ) {
row = rows[i];
column = 0;
// For every cell in the row..
cell = row.firstChild;
while ( cell ) {
if (
cell.nodeName.toUpperCase() == 'TD' ||
cell.nodeName.toUpperCase() == 'TH'
) {
var cols = [];
// Get the col and rowspan attributes from the DOM and sanitise them
colspan = cell.getAttribute('colspan') * 1;
rowspan = cell.getAttribute('rowspan') * 1;
colspan = (!colspan || colspan===0 || colspan===1) ? 1 : colspan;
rowspan = (!rowspan || rowspan===0 || rowspan===1) ? 1 : rowspan;
// There might be colspan cells already in this row, so shift our target
// accordingly
shifted = shift( layout, i, column );
// Cache calculation for unique columns
unique = colspan === 1 ?
true :
false;
// Perform header setup
if ( write ) {
if (unique) {
// Allow column options to be set from HTML attributes
_fnColumnOptions( settings, shifted, $(cell).data() );
// Get the width for the column. This can be defined from the
// width attribute, style attribute or `columns.width` option
var columnDef = columns[shifted];
var width = cell.getAttribute('width') || null;
var t = cell.style.width.match(/width:\s*(\d+[pxem%]+)/);
if ( t ) {
width = t[1];
}
columnDef.sWidthOrig = columnDef.sWidth || width;
if (isHeader) {
// Column title handling - can be user set, or read from the DOM
// This happens before the render, so the original is still in place
if ( columnDef.sTitle !== null && ! columnDef.autoTitle ) {
cell.innerHTML = columnDef.sTitle;
}
if (! columnDef.sTitle && unique) {
columnDef.sTitle = cell.innerHTML.replace( /<.*?>/g, "" );
columnDef.autoTitle = true;
}
}
else {
// Footer specific operations
if (columnDef.footer) {
cell.innerHTML = columnDef.footer;
}
}
// Fall back to the aria-label attribute on the table header if no ariaTitle is
// provided.
if (! columnDef.ariaTitle) {
columnDef.ariaTitle = $(cell).attr("aria-label") || columnDef.sTitle;
}
// Column specific class names
if ( columnDef.className ) {
$(cell).addClass( columnDef.className );
}
}
// Wrap the column title so we can write to it in future
if ( $('span.dt-column-title', cell).length === 0) {
$('<span>')
.addClass('dt-column-title')
.append(cell.childNodes)
.appendTo(cell);
}
if ( isHeader && $('span.dt-column-order', cell).length === 0) {
$('<span>')
.addClass('dt-column-order')
.appendTo(cell);
}
}
// If there is col / rowspan, copy the information into the layout grid
for ( l=0 ; l<colspan ; l++ ) {
for ( k=0 ; k<rowspan ; k++ ) {
layout[i+k][shifted+l] = {
cell: cell,
unique: unique
};
layout[i+k].row = row;
}
cols.push( shifted+l );
}
// Assign an attribute so spanning cells can still be identified
// as belonging to a column
cell.setAttribute('data-dt-column', _unique(cols).join(','));
}
cell = cell.nextSibling;
}
}
return layout;
}
/**
* Set the start position for draw
* @param {object} oSettings dataTables settings object
*/
function _fnStart( oSettings )
{
var bServerSide = _fnDataSource( oSettings ) == 'ssp';
var iInitDisplayStart = oSettings.iInitDisplayStart;
// Check and see if we have an initial draw position from state saving
if ( iInitDisplayStart !== undefined && iInitDisplayStart !== -1 )
{
oSettings._iDisplayStart = bServerSide ?
iInitDisplayStart :
iInitDisplayStart >= oSettings.fnRecordsDisplay() ?
0 :
iInitDisplayStart;
oSettings.iInitDisplayStart = -1;
}
}
/**
* Create an Ajax call based on the table's settings, taking into account that
* parameters can have multiple forms, and backwards compatibility.
*
* @param {object} oSettings dataTables settings object
* @param {array} data Data to send to the server, required by
* DataTables - may be augmented by developer callbacks
* @param {function} fn Callback function to run when data is obtained
*/
function _fnBuildAjax( oSettings, data, fn )
{
var ajaxData;
var ajax = oSettings.ajax;
var instance = oSettings.oInstance;
var callback = function ( json ) {
var status = oSettings.jqXHR
? oSettings.jqXHR.status
: null;
if ( json === null || (typeof status === 'number' && status == 204 ) ) {
json = {};
_fnAjaxDataSrc( oSettings, json, [] );
}
var error = json.error || json.sError;
if ( error ) {
_fnLog( oSettings, 0, error );
}
oSettings.json = json;
_fnCallbackFire( oSettings, null, 'xhr', [oSettings, json, oSettings.jqXHR], true );
fn( json );
};
if ( $.isPlainObject( ajax ) && ajax.data )
{
ajaxData = ajax.data;
var newData = typeof ajaxData === 'function' ?
ajaxData( data, oSettings ) : // fn can manipulate data or return
ajaxData; // an object object or array to merge
// If the function returned something, use that alone
data = typeof ajaxData === 'function' && newData ?
newData :
$.extend( true, data, newData );
// Remove the data property as we've resolved it already and don't want
// jQuery to do it again (it is restored at the end of the function)
delete ajax.data;
}
var baseAjax = {
"url": typeof ajax === 'string' ?
ajax :
'',
"data": data,
"success": callback,
"dataType": "json",
"cache": false,
"type": oSettings.sServerMethod,
"error": function (xhr, error) {
var ret = _fnCallbackFire( oSettings, null, 'xhr', [oSettings, null, oSettings.jqXHR], true );
if ( ret.indexOf(true) === -1 ) {
if ( error == "parsererror" ) {
_fnLog( oSettings, 0, 'Invalid JSON response', 1 );
}
else if ( xhr.readyState === 4 ) {
_fnLog( oSettings, 0, 'Ajax error', 7 );
}
}
_fnProcessingDisplay( oSettings, false );
}
};
// If `ajax` option is an object, extend and override our default base
if ( $.isPlainObject( ajax ) ) {
$.extend( baseAjax, ajax )
}
// Store the data submitted for the API
oSettings.oAjaxData = data;
// Allow plug-ins and external processes to modify the data
_fnCallbackFire( oSettings, null, 'preXhr', [oSettings, data, baseAjax], true );
if ( typeof ajax === 'function' )
{
// Is a function - let the caller define what needs to be done
oSettings.jqXHR = ajax.call( instance, data, callback, oSettings );
}
else if (ajax.url === '') {
callback({});
}
else {
// Object to extend the base settings
oSettings.jqXHR = $.ajax( baseAjax );
// Restore for next time around
if ( ajaxData ) {
ajax.data = ajaxData;
}
}
}
/**
* Update the table using an Ajax call
* @param {object} settings dataTables settings object
* @returns {boolean} Block the table drawing or not
* @memberof DataTable#oApi
*/
function _fnAjaxUpdate( settings )
{
settings.iDraw++;
_fnProcessingDisplay( settings, true );
_fnBuildAjax(
settings,
_fnAjaxParameters( settings ),
function(json) {
_fnAjaxUpdateDraw( settings, json );
}
);
}
/**
* Build up the parameters in an object needed for a server-side processing
* request.
* @param {object} oSettings dataTables settings object
* @returns {bool} block the table drawing or not
* @memberof DataTable#oApi
*/
function _fnAjaxParameters( settings )
{
var
columns = settings.aoColumns,
features = settings.oFeatures,
preSearch = settings.oPreviousSearch,
preColSearch = settings.aoPreSearchCols,
colData = function ( idx, prop ) {
return typeof columns[idx][prop] === 'function' ?
'function' :
columns[idx][prop];
};
return {
draw: settings.iDraw,
columns: columns.map( function ( column, i ) {
return {
data: colData(i, 'mData'),
name: column.sName,
searchable: column.bSearchable,
orderable: column.bSortable,
search: {
value: preColSearch[i].search,
regex: preColSearch[i].regex,
fixed: Object.keys(column.searchFixed).map( function(name) {
return {
name: name,
term: column.searchFixed[name].toString()
}
})
}
};
} ),
order: _fnSortFlatten( settings ).map( function ( val ) {
return {
column: val.col,
dir: val.dir,
name: colData(val.col, 'sName')
};
} ),
start: settings._iDisplayStart,
length: features.bPaginate ?
settings._iDisplayLength :
-1,
search: {
value: preSearch.search,
regex: preSearch.regex,
fixed: Object.keys(settings.searchFixed).map( function(name) {
return {
name: name,
term: settings.searchFixed[name].toString()
}
})
}
};
}
/**
* Data the data from the server (nuking the old) and redraw the table
* @param {object} oSettings dataTables settings object
* @param {object} json json data return from the server.
* @param {string} json.sEcho Tracking flag for DataTables to match requests
* @param {int} json.iTotalRecords Number of records in the data set, not accounting for filtering
* @param {int} json.iTotalDisplayRecords Number of records in the data set, accounting for filtering
* @param {array} json.aaData The data to display on this page
* @param {string} [json.sColumns] Column ordering (sName, comma separated)
* @memberof DataTable#oApi
*/
function _fnAjaxUpdateDraw ( settings, json )
{
var data = _fnAjaxDataSrc(settings, json);
var draw = _fnAjaxDataSrcParam(settings, 'draw', json);
var recordsTotal = _fnAjaxDataSrcParam(settings, 'recordsTotal', json);
var recordsFiltered = _fnAjaxDataSrcParam(settings, 'recordsFiltered', json);
if ( draw !== undefined ) {
// Protect against out of sequence returns
if ( draw*1 < settings.iDraw ) {
return;
}
settings.iDraw = draw * 1;
}
// No data in returned object, so rather than an array, we show an empty table
if ( ! data ) {
data = [];
}
_fnClearTable( settings );
settings._iRecordsTotal = parseInt(recordsTotal, 10);
settings._iRecordsDisplay = parseInt(recordsFiltered, 10);
for ( var i=0, ien=data.length ; i<ien ; i++ ) {
_fnAddData( settings, data[i] );
}
settings.aiDisplay = settings.aiDisplayMaster.slice();
_fnDraw( settings, true );
_fnInitComplete( settings );
_fnProcessingDisplay( settings, false );
}
/**
* Get the data from the JSON data source to use for drawing a table. Using
* `_fnGetObjectDataFn` allows the data to be sourced from a property of the
* source object, or from a processing function.
* @param {object} settings dataTables settings object
* @param {object} json Data source object / array from the server
* @return {array} Array of data to use
*/
function _fnAjaxDataSrc ( settings, json, write )
{
var dataProp = 'data';
if ($.isPlainObject( settings.ajax ) && settings.ajax.dataSrc !== undefined) {
// Could in inside a `dataSrc` object, or not!
var dataSrc = settings.ajax.dataSrc;
// string, function and object are valid types
if (typeof dataSrc === 'string' || typeof dataSrc === 'function') {
dataProp = dataSrc;
}
else if (dataSrc.data !== undefined) {
dataProp = dataSrc.data;
}
}
if ( ! write ) {
if ( dataProp === 'data' ) {
// If the default, then we still want to support the old style, and safely ignore
// it if possible
return json.aaData || json[dataProp];
}
return dataProp !== "" ?
_fnGetObjectDataFn( dataProp )( json ) :
json;
}
// set
_fnSetObjectDataFn( dataProp )( json, write );
}
/**
* Very similar to _fnAjaxDataSrc, but for the other SSP properties
* @param {*} settings DataTables settings object
* @param {*} param Target parameter
* @param {*} json JSON data
* @returns Resolved value
*/
function _fnAjaxDataSrcParam (settings, param, json) {
var dataSrc = $.isPlainObject( settings.ajax )
? settings.ajax.dataSrc
: null;
if (dataSrc && dataSrc[param]) {
// Get from custom location
return _fnGetObjectDataFn( dataSrc[param] )( json );
}
// else - Default behaviour
var old = '';
// Legacy support
if (param === 'draw') {
old = 'sEcho';
}
else if (param === 'recordsTotal') {
old = 'iTotalRecords';
}
else if (param === 'recordsFiltered') {
old = 'iTotalDisplayRecords';
}
return json[old] !== undefined
? json[old]
: json[param];
}
/**
* Filter the table using both the global filter and column based filtering
* @param {object} settings dataTables settings object
* @param {object} input search information
* @memberof DataTable#oApi
*/
function _fnFilterComplete ( settings, input )
{
var columnsSearch = settings.aoPreSearchCols;
// Resolve any column types that are unknown due to addition or invalidation
// @todo As per sort - can this be moved into an event handler?
_fnColumnTypes( settings );
// In server-side processing all filtering is done by the server, so no point hanging around here
if ( _fnDataSource( settings ) != 'ssp' )
{
// Check if any of the rows were invalidated
_fnFilterData( settings );
// Start from the full data set
settings.aiDisplay = settings.aiDisplayMaster.slice();
// Global filter first
_fnFilter( settings.aiDisplay, settings, input.search, input );
$.each(settings.searchFixed, function (name, term) {
_fnFilter(settings.aiDisplay, settings, term, {});
});
// Then individual column filters
for ( var i=0 ; i<columnsSearch.length ; i++ )
{
var col = columnsSearch[i];
_fnFilter(
settings.aiDisplay,
settings,
col.search,
col,
i
);
$.each(settings.aoColumns[i].searchFixed, function (name, term) {
_fnFilter(settings.aiDisplay, settings, term, {}, i);
});
}
// And finally global filtering
_fnFilterCustom( settings );
}
// Tell the draw function we have been filtering
settings.bFiltered = true;
_fnCallbackFire( settings, null, 'search', [settings] );
}
/**
* Apply custom filtering functions
*
* This is legacy now that we have named functions, but it is widely used
* from 1.x, so it is not yet deprecated.
* @param {object} oSettings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnFilterCustom( settings )
{
var filters = DataTable.ext.search;
var displayRows = settings.aiDisplay;
var row, rowIdx;
for ( var i=0, ien=filters.length ; i<ien ; i++ ) {
var rows = [];
// Loop over each row and see if it should be included
for ( var j=0, jen=displayRows.length ; j<jen ; j++ ) {
rowIdx = displayRows[ j ];
row = settings.aoData[ rowIdx ];
if ( filters[i]( settings, row._aFilterData, rowIdx, row._aData, j ) ) {
rows.push( rowIdx );
}
}
// So the array reference doesn't break set the results into the
// existing array
displayRows.length = 0;
displayRows.push.apply(displayRows, rows);
}
}
/**
* Filter the data table based on user input and draw the table
*/
function _fnFilter( searchRows, settings, input, options, column )
{
if ( input === '' ) {
return;
}
var i = 0;
// Search term can be a function, regex or string - if a string we apply our
// smart filtering regex (assuming the options require that)
var searchFunc = typeof input === 'function' ? input : null;
var rpSearch = input instanceof RegExp
? input
: searchFunc
? null
: _fnFilterCreateSearch( input, options );
// Then for each row, does the test pass. If not, lop the row from the array
while (i < searchRows.length) {
var row = settings.aoData[ searchRows[i] ];
var data = column === undefined
? row._sFilterRow
: row._aFilterData[ column ];
if ( (searchFunc && ! searchFunc(data, row._aData, searchRows[i], column)) || (rpSearch && ! rpSearch.test(data)) ) {
searchRows.splice(i, 1);
i--;
}
i++;
}
}
/**
* Build a regular expression object suitable for searching a table
* @param {string} sSearch string to search for
* @param {bool} bRegex treat as a regular expression or not
* @param {bool} bSmart perform smart filtering or not
* @param {bool} bCaseInsensitive Do case insensitive matching or not
* @returns {RegExp} constructed object
* @memberof DataTable#oApi
*/
function _fnFilterCreateSearch( search, inOpts )
{
var not = [];
var options = $.extend({}, {
boundary: false,
caseInsensitive: true,
exact: false,
regex: false,
smart: true
}, inOpts);
if (typeof search !== 'string') {
search = search.toString();
}
if (options.exact) {
return new RegExp(
'^'+_fnEscapeRegex(search)+'$',
options.caseInsensitive ? 'i' : ''
);
}
search = options.regex ?
search :
_fnEscapeRegex( search );
if ( options.smart ) {
/* For smart filtering we want to allow the search to work regardless of
* word order. We also want double quoted text to be preserved, so word
* order is important - a la google. And a negative look around for
* finding rows which don't contain a given string.
*
* So this is the sort of thing we want to generate:
*
* ^(?=.*?\bone\b)(?=.*?\btwo three\b)(?=.*?\bfour\b).*$
*/
var parts = search.match( /!?["\u201C][^"\u201D]+["\u201D]|[^ ]+/g ) || [''];
var a = parts.map( function ( word ) {
var negative = false;
var m;
// Determine if it is a "does not include"
if ( word.charAt(0) === '!' ) {
negative = true;
word = word.substring(1);
}
// Strip the quotes from around matched phrases
if ( word.charAt(0) === '"' ) {
m = word.match( /^"(.*)"$/ );
word = m ? m[1] : word;
}
else if ( word.charAt(0) === '\u201C' ) {
// Smart quote match (iPhone users)
m = word.match( /^\u201C(.*)\u201D$/ );
word = m ? m[1] : word;
}
// For our "not" case, we need to modify the string that is
// allowed to match at the end of the expression.
if (negative) {
if (word.length > 1) {
not.push('(?!'+word+')');
}
word = '';
}
return word.replace('"', '');
} );
var match = not.length
? not.join('')
: '';
var boundary = options.boundary
? '\\b'
: '';
search = '^(?=.*?'+boundary+a.join( ')(?=.*?'+boundary )+')('+match+'.)*$';
}
return new RegExp( search, options.caseInsensitive ? 'i' : '' );
}
/**
* Escape a string such that it can be used in a regular expression
* @param {string} sVal string to escape
* @returns {string} escaped string
* @memberof DataTable#oApi
*/
var _fnEscapeRegex = DataTable.util.escapeRegex;
var __filter_div = $('<div>')[0];
var __filter_div_textContent = __filter_div.textContent !== undefined;
// Update the filtering data for each row if needed (by invalidation or first run)
function _fnFilterData ( settings )
{
var columns = settings.aoColumns;
var data = settings.aoData;
var column;
var j, jen, filterData, cellData, row;
var wasInvalidated = false;
for ( var rowIdx=0 ; rowIdx<data.length ; rowIdx++ ) {
if (! data[rowIdx]) {
continue;
}
row = data[rowIdx];
if ( ! row._aFilterData ) {
filterData = [];
for ( j=0, jen=columns.length ; j<jen ; j++ ) {
column = columns[j];
if ( column.bSearchable ) {
cellData = _fnGetCellData( settings, rowIdx, j, 'filter' );
// Search in DataTables is string based
if ( cellData === null ) {
cellData = '';
}
if ( typeof cellData !== 'string' && cellData.toString ) {
cellData = cellData.toString();
}
}
else {
cellData = '';
}
// If it looks like there is an HTML entity in the string,
// attempt to decode it so sorting works as expected. Note that
// we could use a single line of jQuery to do this, but the DOM
// method used here is much faster https://jsperf.com/html-decode
if ( cellData.indexOf && cellData.indexOf('&') !== -1 ) {
__filter_div.innerHTML = cellData;
cellData = __filter_div_textContent ?
__filter_div.textContent :
__filter_div.innerText;
}
if ( cellData.replace ) {
cellData = cellData.replace(/[\r\n\u2028]/g, '');
}
filterData.push( cellData );
}
row._aFilterData = filterData;
row._sFilterRow = filterData.join(' ');
wasInvalidated = true;
}
}
return wasInvalidated;
}
/**
* Draw the table for the first time, adding all required features
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnInitialise ( settings )
{
var i, iAjaxStart=settings.iInitDisplayStart;
/* Ensure that the table data is fully initialised */
if ( ! settings.bInitialised ) {
setTimeout( function(){ _fnInitialise( settings ); }, 200 );
return;
}
/* Build and draw the header / footer for the table */
_fnBuildHead( settings, 'header' );
_fnBuildHead( settings, 'footer' );
_fnDrawHead( settings, settings.aoHeader );
_fnDrawHead( settings, settings.aoFooter );
// Enable features
_fnAddOptionsHtml( settings );
_fnSortInit( settings );
_colGroup( settings );
/* Okay to show that something is going on now */
_fnProcessingDisplay( settings, true );
_fnCallbackFire( settings, null, 'preInit', [settings], true );
// If there is default sorting required - let's do it. The sort function
// will do the drawing for us. Otherwise we draw the table regardless of the
// Ajax source - this allows the table to look initialised for Ajax sourcing
// data (show 'loading' message possibly)
_fnReDraw( settings );
var dataSrc = _fnDataSource( settings );
// Server-side processing init complete is done by _fnAjaxUpdateDraw
if ( dataSrc != 'ssp' ) {
// if there is an ajax source load the data
if ( dataSrc == 'ajax' ) {
_fnBuildAjax( settings, {}, function(json) {
var aData = _fnAjaxDataSrc( settings, json );
// Got the data - add it to the table
for ( i=0 ; i<aData.length ; i++ ) {
_fnAddData( settings, aData[i] );
}
// Reset the init display for cookie saving. We've already done
// a filter, and therefore cleared it before. So we need to make
// it appear 'fresh'
settings.iInitDisplayStart = iAjaxStart;
_fnReDraw( settings );
_fnProcessingDisplay( settings, false );
_fnInitComplete( settings );
}, settings );
}
else {
_fnInitComplete( settings );
_fnProcessingDisplay( settings, false );
}
}
}
/**
* Draw the table for the first time, adding all required features
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnInitComplete ( settings )
{
if (settings._bInitComplete) {
return;
}
var args = [settings, settings.json];
settings._bInitComplete = true;
// Table is fully set up and we have data, so calculate the
// column widths
_fnAdjustColumnSizing( settings );
_fnCallbackFire( settings, null, 'plugin-init', args, true );
_fnCallbackFire( settings, 'aoInitComplete', 'init', args, true );
}
function _fnLengthChange ( settings, val )
{
var len = parseInt( val, 10 );
settings._iDisplayLength = len;
_fnLengthOverflow( settings );
// Fire length change event
_fnCallbackFire( settings, null, 'length', [settings, len] );
}
/**
* Alter the display settings to change the page
* @param {object} settings DataTables settings object
* @param {string|int} action Paging action to take: "first", "previous",
* "next" or "last" or page number to jump to (integer)
* @param [bool] redraw Automatically draw the update or not
* @returns {bool} true page has changed, false - no change
* @memberof DataTable#oApi
*/
function _fnPageChange ( settings, action, redraw )
{
var
start = settings._iDisplayStart,
len = settings._iDisplayLength,
records = settings.fnRecordsDisplay();
if ( records === 0 || len === -1 )
{
start = 0;
}
else if ( typeof action === "number" )
{
start = action * len;
if ( start > records )
{
start = 0;
}
}
else if ( action == "first" )
{
start = 0;
}
else if ( action == "previous" )
{
start = len >= 0 ?
start - len :
0;
if ( start < 0 )
{
start = 0;
}
}
else if ( action == "next" )
{
if ( start + len < records )
{
start += len;
}
}
else if ( action == "last" )
{
start = Math.floor( (records-1) / len) * len;
}
else if ( action === 'ellipsis' )
{
return;
}
else
{
_fnLog( settings, 0, "Unknown paging action: "+action, 5 );
}
var changed = settings._iDisplayStart !== start;
settings._iDisplayStart = start;
_fnCallbackFire( settings, null, changed ? 'page' : 'page-nc', [settings] );
if ( changed && redraw ) {
_fnDraw( settings );
}
return changed;
}
/**
* Generate the node required for the processing node
* @param {object} settings DataTables settings object
*/
function _processingHtml ( settings )
{
var table = settings.nTable;
if ( settings.oFeatures.bProcessing ) {
var n = $('<div/>', {
'id': settings.sTableId + '_processing',
'class': settings.oClasses.processing.container,
'role': 'status'
} )
.html( settings.oLanguage.sProcessing )
.append('<div><div></div><div></div><div></div><div></div></div>')
.insertBefore( table );
$(table).on( 'processing.dt.DT', function (e, s, show) {
n.css( 'display', show ? 'block' : 'none' );
} );
}
}
/**
* Display or hide the processing indicator
* @param {object} settings DataTables settings object
* @param {bool} show Show the processing indicator (true) or not (false)
*/
function _fnProcessingDisplay ( settings, show )
{
_fnCallbackFire( settings, null, 'processing', [settings, show] );
}
/**
* Add any control elements for the table - specifically scrolling
* @param {object} settings dataTables settings object
* @returns {node} Node to add to the DOM
* @memberof DataTable#oApi
*/
function _fnFeatureHtmlTable ( settings )
{
var table = $(settings.nTable);
// Scrolling from here on in
var scroll = settings.oScroll;
if ( scroll.sX === '' && scroll.sY === '' ) {
return settings.nTable;
}
var scrollX = scroll.sX;
var scrollY = scroll.sY;
var classes = settings.oClasses.scrolling;
var caption = settings.captionNode;
var captionSide = caption ? caption._captionSide : null;
var headerClone = $( table[0].cloneNode(false) );
var footerClone = $( table[0].cloneNode(false) );
var footer = table.children('tfoot');
var _div = '<div/>';
var size = function ( s ) {
return !s ? null : _fnStringToCss( s );
};
if ( ! footer.length ) {
footer = null;
}
/*
* The HTML structure that we want to generate in this function is:
* div - scroller
* div - scroll head
* div - scroll head inner
* table - scroll head table
* thead - thead
* div - scroll body
* table - table (master table)
* thead - thead clone for sizing
* tbody - tbody
* div - scroll foot
* div - scroll foot inner
* table - scroll foot table
* tfoot - tfoot
*/
var scroller = $( _div, { 'class': classes.container } )
.append(
$(_div, { 'class': classes.header.self } )
.css( {
overflow: 'hidden',
position: 'relative',
border: 0,
width: scrollX ? size(scrollX) : '100%'
} )
.append(
$(_div, { 'class': classes.header.inner } )
.css( {
'box-sizing': 'content-box',
width: scroll.sXInner || '100%'
} )
.append(
headerClone
.removeAttr('id')
.css( 'margin-left', 0 )
.append( captionSide === 'top' ? caption : null )
.append(
table.children('thead')
)
)
)
)
.append(
$(_div, { 'class': classes.body } )
.css( {
position: 'relative',
overflow: 'auto',
width: size( scrollX )
} )
.append( table )
);
if ( footer ) {
scroller.append(
$(_div, { 'class': classes.footer.self } )
.css( {
overflow: 'hidden',
border: 0,
width: scrollX ? size(scrollX) : '100%'
} )
.append(
$(_div, { 'class': classes.footer.inner } )
.append(
footerClone
.removeAttr('id')
.css( 'margin-left', 0 )
.append( captionSide === 'bottom' ? caption : null )
.append(
table.children('tfoot')
)
)
)
);
}
var children = scroller.children();
var scrollHead = children[0];
var scrollBody = children[1];
var scrollFoot = footer ? children[2] : null;
// When the body is scrolled, then we also want to scroll the headers
$(scrollBody).on( 'scroll.DT', function () {
var scrollLeft = this.scrollLeft;
scrollHead.scrollLeft = scrollLeft;
if ( footer ) {
scrollFoot.scrollLeft = scrollLeft;
}
} );
// When focus is put on the header cells, we might need to scroll the body
$('th, td', scrollHead).on('focus', function () {
var scrollLeft = scrollHead.scrollLeft;
scrollBody.scrollLeft = scrollLeft;
if ( footer ) {
scrollBody.scrollLeft = scrollLeft;
}
});
$(scrollBody).css('max-height', scrollY);
if (! scroll.bCollapse) {
$(scrollBody).css('height', scrollY);
}
settings.nScrollHead = scrollHead;
settings.nScrollBody = scrollBody;
settings.nScrollFoot = scrollFoot;
// On redraw - align columns
settings.aoDrawCallback.push(_fnScrollDraw);
return scroller[0];
}
/**
* Update the header, footer and body tables for resizing - i.e. column
* alignment.
*
* Welcome to the most horrible function DataTables. The process that this
* function follows is basically:
* 1. Re-create the table inside the scrolling div
* 2. Correct colgroup > col values if needed
* 3. Copy colgroup > col over to header and footer
* 4. Clean up
*
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnScrollDraw ( settings )
{
// Given that this is such a monster function, a lot of variables are use
// to try and keep the minimised size as small as possible
var
scroll = settings.oScroll,
barWidth = scroll.iBarWidth,
divHeader = $(settings.nScrollHead),
divHeaderInner = divHeader.children('div'),
divHeaderTable = divHeaderInner.children('table'),
divBodyEl = settings.nScrollBody,
divBody = $(divBodyEl),
divFooter = $(settings.nScrollFoot),
divFooterInner = divFooter.children('div'),
divFooterTable = divFooterInner.children('table'),
header = $(settings.nTHead),
table = $(settings.nTable),
footer = settings.nTFoot && $('th, td', settings.nTFoot).length ? $(settings.nTFoot) : null,
browser = settings.oBrowser,
headerCopy, footerCopy;
// If the scrollbar visibility has changed from the last draw, we need to
// adjust the column sizes as the table width will have changed to account
// for the scrollbar
var scrollBarVis = divBodyEl.scrollHeight > divBodyEl.clientHeight;
if ( settings.scrollBarVis !== scrollBarVis && settings.scrollBarVis !== undefined ) {
settings.scrollBarVis = scrollBarVis;
_fnAdjustColumnSizing( settings );
return; // adjust column sizing will call this function again
}
else {
settings.scrollBarVis = scrollBarVis;
}
// 1. Re-create the table inside the scrolling div
// Remove the old minimised thead and tfoot elements in the inner table
table.children('thead, tfoot').remove();
// Clone the current header and footer elements and then place it into the inner table
headerCopy = header.clone().prependTo( table );
headerCopy.find('th, td').removeAttr('tabindex');
headerCopy.find('[id]').removeAttr('id');
if ( footer ) {
footerCopy = footer.clone().prependTo( table );
footerCopy.find('[id]').removeAttr('id');
}
// 2. Correct colgroup > col values if needed
// It is possible that the cell sizes are smaller than the content, so we need to
// correct colgroup>col for such cases. This can happen if the auto width detection
// uses a cell which has a longer string, but isn't the widest! For example
// "Chief Executive Officer (CEO)" is the longest string in the demo, but
// "Systems Administrator" is actually the widest string since it doesn't collapse.
if (settings.aiDisplay.length) {
// Get the column sizes from the first row in the table
var colSizes = table.find('tbody tr').eq(0).find('th, td').map(function () {
return $(this).outerWidth();
});
// Check against what the colgroup > col is set to and correct if needed
$('col', settings.colgroup).each(function (i) {
var colWidth = this.style.width.replace('px', '');
if (colWidth !== colSizes[i]) {
this.style.width = colSizes[i] + 'px';
}
});
}
// 3. Copy the colgroup over to the header and footer
divHeaderTable
.find('colgroup')
.remove();
divHeaderTable.append(settings.colgroup.clone());
if ( footer ) {
divFooterTable
.find('colgroup')
.remove();
divFooterTable.append(settings.colgroup.clone());
}
// "Hide" the header and footer that we used for the sizing. We need to keep
// the content of the cell so that the width applied to the header and body
// both match, but we want to hide it completely.
$('th, td', headerCopy).each(function () {
$(this).children().wrapAll('<div class="dt-scroll-sizing">');
});
if ( footer ) {
$('th, td', footerCopy).each(function () {
$(this).children().wrapAll('<div class="dt-scroll-sizing">');
});
}
// 4. Clean up
// Figure out if there are scrollbar present - if so then we need a the header and footer to
// provide a bit more space to allow "overflow" scrolling (i.e. past the scrollbar)
var isScrolling = Math.floor(table.height()) > divBodyEl.clientHeight || divBody.css('overflow-y') == "scroll";
var paddingSide = 'padding' + (browser.bScrollbarLeft ? 'Left' : 'Right' );
// Set the width's of the header and footer tables
var outerWidth = table.outerWidth();
divHeaderTable.css('width', _fnStringToCss( outerWidth ));
divHeaderInner
.css('width', _fnStringToCss( outerWidth ))
.css(paddingSide, isScrolling ? barWidth+"px" : "0px");
if ( footer ) {
divFooterTable.css('width', _fnStringToCss( outerWidth ));
divFooterInner
.css('width', _fnStringToCss( outerWidth ))
.css(paddingSide, isScrolling ? barWidth+"px" : "0px");
}
// Correct DOM ordering for colgroup - comes before the thead
table.children('colgroup').prependTo(table);
// Adjust the position of the header in case we loose the y-scrollbar
divBody.trigger('scroll');
// If sorting or filtering has occurred, jump the scrolling back to the top
// only if we aren't holding the position
if ( (settings.bSorted || settings.bFiltered) && ! settings._drawHold ) {
divBodyEl.scrollTop = 0;
}
}
/**
* Calculate the width of columns for the table
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnCalculateColumnWidths ( settings )
{
// Not interested in doing column width calculation if auto-width is disabled
if (! settings.oFeatures.bAutoWidth) {
return;
}
var
table = settings.nTable,
columns = settings.aoColumns,
scroll = settings.oScroll,
scrollY = scroll.sY,
scrollX = scroll.sX,
scrollXInner = scroll.sXInner,
visibleColumns = _fnGetColumns( settings, 'bVisible' ),
tableWidthAttr = table.getAttribute('width'), // from DOM element
tableContainer = table.parentNode,
i, column, columnIdx;
var styleWidth = table.style.width;
if ( styleWidth && styleWidth.indexOf('%') !== -1 ) {
tableWidthAttr = styleWidth;
}
// Let plug-ins know that we are doing a recalc, in case they have changed any of the
// visible columns their own way (e.g. Responsive uses display:none).
_fnCallbackFire(
settings,
null,
'column-calc',
{visible: visibleColumns},
false
);
// Construct a single row, worst case, table with the widest
// node in the data, assign any user defined widths, then insert it into
// the DOM and allow the browser to do all the hard work of calculating
// table widths
var tmpTable = $(table.cloneNode())
.css( 'visibility', 'hidden' )
.removeAttr( 'id' );
// Clean up the table body
tmpTable.append('<tbody>')
var tr = $('<tr/>').appendTo( tmpTable.find('tbody') );
// Clone the table header and footer - we can't use the header / footer
// from the cloned table, since if scrolling is active, the table's
// real header and footer are contained in different table tags
tmpTable
.append( $(settings.nTHead).clone() )
.append( $(settings.nTFoot).clone() );
// Remove any assigned widths from the footer (from scrolling)
tmpTable.find('tfoot th, tfoot td').css('width', '');
// Apply custom sizing to the cloned header
tmpTable.find('thead th, thead td').each( function () {
// Get the `width` from the header layout
var width = _fnColumnsSumWidth( settings, this, true, false );
if ( width ) {
this.style.width = width;
// For scrollX we need to force the column width otherwise the
// browser will collapse it. If this width is smaller than the
// width the column requires, then it will have no effect
if ( scrollX ) {
$( this ).append( $('<div/>').css( {
width: width,
margin: 0,
padding: 0,
border: 0,
height: 1
} ) );
}
}
else {
this.style.width = '';
}
} );
// Find the widest piece of data for each column and put it into the table
for ( i=0 ; i<visibleColumns.length ; i++ ) {
columnIdx = visibleColumns[i];
column = columns[ columnIdx ];
var longest = _fnGetMaxLenString(settings, columnIdx);
var autoClass = _ext.type.className[column.sType];
var text = longest + column.sContentPadding;
var insert = longest.indexOf('<') === -1
? document.createTextNode(text)
: text
$('<td/>')
.addClass(autoClass)
.addClass(column.sClass)
.append(insert)
.appendTo(tr);
}
// Tidy the temporary table - remove name attributes so there aren't
// duplicated in the dom (radio elements for example)
$('[name]', tmpTable).removeAttr('name');
// Table has been built, attach to the document so we can work with it.
// A holding element is used, positioned at the top of the container
// with minimal height, so it has no effect on if the container scrolls
// or not. Otherwise it might trigger scrolling when it actually isn't
// needed
var holder = $('<div/>').css( scrollX || scrollY ?
{
position: 'absolute',
top: 0,
left: 0,
height: 1,
right: 0,
overflow: 'hidden'
} :
{}
)
.append( tmpTable )
.appendTo( tableContainer );
// When scrolling (X or Y) we want to set the width of the table as
// appropriate. However, when not scrolling leave the table width as it
// is. This results in slightly different, but I think correct behaviour
if ( scrollX && scrollXInner ) {
tmpTable.width( scrollXInner );
}
else if ( scrollX ) {
tmpTable.css( 'width', 'auto' );
tmpTable.removeAttr('width');
// If there is no width attribute or style, then allow the table to
// collapse
if ( tmpTable.width() < tableContainer.clientWidth && tableWidthAttr ) {
tmpTable.width( tableContainer.clientWidth );
}
}
else if ( scrollY ) {
tmpTable.width( tableContainer.clientWidth );
}
else if ( tableWidthAttr ) {
tmpTable.width( tableWidthAttr );
}
// Get the width of each column in the constructed table
var total = 0;
var bodyCells = tmpTable.find('tbody tr').eq(0).children();
for ( i=0 ; i<visibleColumns.length ; i++ ) {
// Use getBounding for sub-pixel accuracy, which we then want to round up!
var bounding = bodyCells[i].getBoundingClientRect().width;
// Total is tracked to remove any sub-pixel errors as the outerWidth
// of the table might not equal the total given here
total += bounding;
// Width for each column to use
columns[ visibleColumns[i] ].sWidth = _fnStringToCss( bounding );
}
table.style.width = _fnStringToCss( total );
// Finished with the table - ditch it
holder.remove();
// If there is a width attr, we want to attach an event listener which
// allows the table sizing to automatically adjust when the window is
// resized. Use the width attr rather than CSS, since we can't know if the
// CSS is a relative value or absolute - DOM read is always px.
if ( tableWidthAttr ) {
table.style.width = _fnStringToCss( tableWidthAttr );
}
if ( (tableWidthAttr || scrollX) && ! settings._reszEvt ) {
var bindResize = function () {
$(window).on('resize.DT-'+settings.sInstance, DataTable.util.throttle( function () {
if (! settings.bDestroying) {
_fnAdjustColumnSizing( settings );
}
} ) );
};
bindResize();
settings._reszEvt = true;
}
}
/**
* Get the maximum strlen for each data column
* @param {object} settings dataTables settings object
* @param {int} colIdx column of interest
* @returns {string} string of the max length
* @memberof DataTable#oApi
*/
function _fnGetMaxLenString( settings, colIdx )
{
var column = settings.aoColumns[colIdx];
if (! column.maxLenString) {
var s, max='', maxLen = -1;
for ( var i=0, ien=settings.aiDisplayMaster.length ; i<ien ; i++ ) {
var rowIdx = settings.aiDisplayMaster[i];
var data = _fnGetRowDisplay(settings, rowIdx)[colIdx];
var cellString = data && typeof data === 'object' && data.nodeType
? data.innerHTML
: data+'';
// Remove id / name attributes from elements so they
// don't interfere with existing elements
cellString = cellString
.replace(/id=".*?"/g, '')
.replace(/name=".*?"/g, '');
s = _stripHtml(cellString)
.replace( /&nbsp;/g, ' ' );
if ( s.length > maxLen ) {
// We want the HTML in the string, but the length that
// is important is the stripped string
max = cellString;
maxLen = s.length;
}
}
column.maxLenString = max;
}
return column.maxLenString;
}
/**
* Append a CSS unit (only if required) to a string
* @param {string} value to css-ify
* @returns {string} value with css unit
* @memberof DataTable#oApi
*/
function _fnStringToCss( s )
{
if ( s === null ) {
return '0px';
}
if ( typeof s == 'number' ) {
return s < 0 ?
'0px' :
s+'px';
}
// Check it has a unit character already
return s.match(/\d$/) ?
s+'px' :
s;
}
/**
* Re-insert the `col` elements for current visibility
*
* @param {*} settings DT settings
*/
function _colGroup( settings ) {
var cols = settings.aoColumns;
settings.colgroup.empty();
for (i=0 ; i<cols.length ; i++) {
if (cols[i].bVisible) {
settings.colgroup.append(cols[i].colEl);
}
}
}
function _fnSortInit( settings ) {
var target = settings.nTHead;
var headerRows = target.querySelectorAll('tr');
var legacyTop = settings.bSortCellsTop;
var notSelector = ':not([data-dt-order="disable"]):not([data-dt-order="icon-only"])';
// Legacy support for `orderCellsTop`
if (legacyTop === true) {
target = headerRows[0];
}
else if (legacyTop === false) {
target = headerRows[ headerRows.length - 1 ];
}
_fnSortAttachListener(
settings,
target,
target === settings.nTHead
? 'tr'+notSelector+' th'+notSelector+', tr'+notSelector+' td'+notSelector
: 'th'+notSelector+', td'+notSelector
);
// Need to resolve the user input array into our internal structure
var order = [];
_fnSortResolve( settings, order, settings.aaSorting );
settings.aaSorting = order;
}
function _fnSortAttachListener(settings, node, selector, column, callback) {
_fnBindAction( node, selector, function (e) {
var columns = column === undefined
? _fnColumnsFromHeader( e.target )
: [column];
if ( columns.length ) {
_fnProcessingDisplay( settings, true );
// Allow the processing display to show
setTimeout( function () {
for ( var i=0, ien=columns.length ; i<ien ; i++ ) {
var append = e.shiftKey || i > 0;
_fnSortAdd( settings, columns[i], append );
}
_fnSort( settings );
_fnSortDisplay( settings );
_fnReDraw( settings, false, false );
_fnProcessingDisplay( settings, false );
if (callback) {
callback();
}
}, 0);
}
} );
}
/**
* Sort the display array to match the master's order
* @param {*} settings
*/
function _fnSortDisplay(settings) {
var display = settings.aiDisplay;
var master = settings.aiDisplayMaster;
display.sort(function(a, b){
return master.indexOf(a) - master.indexOf(b);
});
}
function _fnSortResolve (settings, nestedSort, sort) {
var push = function ( a ) {
if ($.isPlainObject(a)) {
if (a.idx !== undefined) {
// Index based ordering
nestedSort.push([a.idx, a.dir]);
}
else if (a.name) {
// Name based ordering
var cols = _pluck( settings.aoColumns, 'sName');
var idx = cols.indexOf(a.name);
if (idx !== -1) {
nestedSort.push([idx, a.dir]);
}
}
}
else {
// Plain column index and direction pair
nestedSort.push(a);
}
};
if ( $.isPlainObject(sort) ) {
// Object
push(sort);
}
else if ( sort.length && typeof sort[0] === 'number' ) {
// 1D array
push(sort);
}
else if ( sort.length ) {
// 2D array
for (var z=0; z<sort.length; z++) {
push(sort[z]); // Object or array
}
}
}
function _fnSortFlatten ( settings )
{
var
i, k, kLen,
aSort = [],
extSort = DataTable.ext.type.order,
aoColumns = settings.aoColumns,
aDataSort, iCol, sType, srcCol,
fixed = settings.aaSortingFixed,
fixedObj = $.isPlainObject( fixed ),
nestedSort = [];
if ( ! settings.oFeatures.bSort ) {
return aSort;
}
// Build the sort array, with pre-fix and post-fix options if they have been
// specified
if ( Array.isArray( fixed ) ) {
_fnSortResolve( settings, nestedSort, fixed );
}
if ( fixedObj && fixed.pre ) {
_fnSortResolve( settings, nestedSort, fixed.pre );
}
_fnSortResolve( settings, nestedSort, settings.aaSorting );
if (fixedObj && fixed.post ) {
_fnSortResolve( settings, nestedSort, fixed.post );
}
for ( i=0 ; i<nestedSort.length ; i++ )
{
srcCol = nestedSort[i][0];
if ( aoColumns[ srcCol ] ) {
aDataSort = aoColumns[ srcCol ].aDataSort;
for ( k=0, kLen=aDataSort.length ; k<kLen ; k++ )
{
iCol = aDataSort[k];
sType = aoColumns[ iCol ].sType || 'string';
if ( nestedSort[i]._idx === undefined ) {
nestedSort[i]._idx = aoColumns[iCol].asSorting.indexOf(nestedSort[i][1]);
}
if ( nestedSort[i][1] ) {
aSort.push( {
src: srcCol,
col: iCol,
dir: nestedSort[i][1],
index: nestedSort[i]._idx,
type: sType,
formatter: extSort[ sType+"-pre" ],
sorter: extSort[ sType+"-"+nestedSort[i][1] ]
} );
}
}
}
}
return aSort;
}
/**
* Change the order of the table
* @param {object} oSettings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnSort ( oSettings, col, dir )
{
var
i, ien, iLen,
aiOrig = [],
extSort = DataTable.ext.type.order,
aoData = oSettings.aoData,
sortCol,
displayMaster = oSettings.aiDisplayMaster,
aSort;
// Resolve any column types that are unknown due to addition or invalidation
// @todo Can this be moved into a 'data-ready' handler which is called when
// data is going to be used in the table?
_fnColumnTypes( oSettings );
// Allow a specific column to be sorted, which will _not_ alter the display
// master
if (col !== undefined) {
var srcCol = oSettings.aoColumns[col];
aSort = [{
src: col,
col: col,
dir: dir,
index: 0,
type: srcCol.sType,
formatter: extSort[ srcCol.sType+"-pre" ],
sorter: extSort[ srcCol.sType+"-"+dir ]
}];
displayMaster = displayMaster.slice();
}
else {
aSort = _fnSortFlatten( oSettings );
}
for ( i=0, ien=aSort.length ; i<ien ; i++ ) {
sortCol = aSort[i];
// Load the data needed for the sort, for each cell
_fnSortData( oSettings, sortCol.col );
}
/* No sorting required if server-side or no sorting array */
if ( _fnDataSource( oSettings ) != 'ssp' && aSort.length !== 0 )
{
// Reset the initial positions on each pass so we get a stable sort
for ( i=0, iLen=displayMaster.length ; i<iLen ; i++ ) {
aiOrig[ i ] = i;
}
// If the first sort is desc, then reverse the array to preserve original
// order, just in reverse
if (aSort.length && aSort[0].dir === 'desc') {
aiOrig.reverse();
}
/* Do the sort - here we want multi-column sorting based on a given data source (column)
* and sorting function (from oSort) in a certain direction. It's reasonably complex to
* follow on it's own, but this is what we want (example two column sorting):
* fnLocalSorting = function(a,b){
* var test;
* test = oSort['string-asc']('data11', 'data12');
* if (test !== 0)
* return test;
* test = oSort['numeric-desc']('data21', 'data22');
* if (test !== 0)
* return test;
* return oSort['numeric-asc']( aiOrig[a], aiOrig[b] );
* }
* Basically we have a test for each sorting column, if the data in that column is equal,
* test the next column. If all columns match, then we use a numeric sort on the row
* positions in the original data array to provide a stable sort.
*/
displayMaster.sort( function ( a, b ) {
var
x, y, k, test, sort,
len=aSort.length,
dataA = aoData[a]._aSortData,
dataB = aoData[b]._aSortData;
for ( k=0 ; k<len ; k++ ) {
sort = aSort[k];
// Data, which may have already been through a `-pre` function
x = dataA[ sort.col ];
y = dataB[ sort.col ];
if (sort.sorter) {
// If there is a custom sorter (`-asc` or `-desc`) for this
// data type, use it
test = sort.sorter(x, y);
if ( test !== 0 ) {
return test;
}
}
else {
// Otherwise, use generic sorting
test = x<y ? -1 : x>y ? 1 : 0;
if ( test !== 0 ) {
return sort.dir === 'asc' ? test : -test;
}
}
}
x = aiOrig[a];
y = aiOrig[b];
return x<y ? -1 : x>y ? 1 : 0;
} );
}
else if ( aSort.length === 0 ) {
// Apply index order
displayMaster.sort(function (x, y) {
return x<y ? -1 : x>y ? 1 : 0;
});
}
if (col === undefined) {
// Tell the draw function that we have sorted the data
oSettings.bSorted = true;
_fnCallbackFire( oSettings, null, 'order', [oSettings, aSort] );
}
return displayMaster;
}
/**
* Function to run on user sort request
* @param {object} settings dataTables settings object
* @param {node} attachTo node to attach the handler to
* @param {int} colIdx column sorting index
* @param {boolean} [append=false] Append the requested sort to the existing
* sort if true (i.e. multi-column sort)
* @param {function} [callback] callback function
* @memberof DataTable#oApi
*/
function _fnSortAdd ( settings, colIdx, append )
{
var col = settings.aoColumns[ colIdx ];
var sorting = settings.aaSorting;
var asSorting = col.asSorting;
var nextSortIdx;
var next = function ( a, overflow ) {
var idx = a._idx;
if ( idx === undefined ) {
idx = asSorting.indexOf(a[1]);
}
return idx+1 < asSorting.length ?
idx+1 :
overflow ?
null :
0;
};
if ( ! col.bSortable ) {
return;
}
// Convert to 2D array if needed
if ( typeof sorting[0] === 'number' ) {
sorting = settings.aaSorting = [ sorting ];
}
// If appending the sort then we are multi-column sorting
if ( append && settings.oFeatures.bSortMulti ) {
// Are we already doing some kind of sort on this column?
var sortIdx = _pluck(sorting, '0').indexOf(colIdx);
if ( sortIdx !== -1 ) {
// Yes, modify the sort
nextSortIdx = next( sorting[sortIdx], true );
if ( nextSortIdx === null && sorting.length === 1 ) {
nextSortIdx = 0; // can't remove sorting completely
}
if ( nextSortIdx === null ) {
sorting.splice( sortIdx, 1 );
}
else {
sorting[sortIdx][1] = asSorting[ nextSortIdx ];
sorting[sortIdx]._idx = nextSortIdx;
}
}
else {
// No sort on this column yet
sorting.push( [ colIdx, asSorting[0], 0 ] );
sorting[sorting.length-1]._idx = 0;
}
}
else if ( sorting.length && sorting[0][0] == colIdx ) {
// Single column - already sorting on this column, modify the sort
nextSortIdx = next( sorting[0] );
sorting.length = 1;
sorting[0][1] = asSorting[ nextSortIdx ];
sorting[0]._idx = nextSortIdx;
}
else {
// Single column - sort only on this column
sorting.length = 0;
sorting.push( [ colIdx, asSorting[0] ] );
sorting[0]._idx = 0;
}
}
/**
* Set the sorting classes on table's body, Note: it is safe to call this function
* when bSort and bSortClasses are false
* @param {object} oSettings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnSortingClasses( settings )
{
var oldSort = settings.aLastSort;
var sortClass = settings.oClasses.order.position;
var sort = _fnSortFlatten( settings );
var features = settings.oFeatures;
var i, ien, colIdx;
if ( features.bSort && features.bSortClasses ) {
// Remove old sorting classes
for ( i=0, ien=oldSort.length ; i<ien ; i++ ) {
colIdx = oldSort[i].src;
// Remove column sorting
$( _pluck( settings.aoData, 'anCells', colIdx ) )
.removeClass( sortClass + (i<2 ? i+1 : 3) );
}
// Add new column sorting
for ( i=0, ien=sort.length ; i<ien ; i++ ) {
colIdx = sort[i].src;
$( _pluck( settings.aoData, 'anCells', colIdx ) )
.addClass( sortClass + (i<2 ? i+1 : 3) );
}
}
settings.aLastSort = sort;
}
// Get the data to sort a column, be it from cache, fresh (populating the
// cache), or from a sort formatter
function _fnSortData( settings, colIdx )
{
// Custom sorting function - provided by the sort data type
var column = settings.aoColumns[ colIdx ];
var customSort = DataTable.ext.order[ column.sSortDataType ];
var customData;
if ( customSort ) {
customData = customSort.call( settings.oInstance, settings, colIdx,
_fnColumnIndexToVisible( settings, colIdx )
);
}
// Use / populate cache
var row, cellData;
var formatter = DataTable.ext.type.order[ column.sType+"-pre" ];
var data = settings.aoData;
for ( var rowIdx=0 ; rowIdx<data.length ; rowIdx++ ) {
// Sparse array
if (! data[rowIdx]) {
continue;
}
row = data[rowIdx];
if ( ! row._aSortData ) {
row._aSortData = [];
}
if ( ! row._aSortData[colIdx] || customSort ) {
cellData = customSort ?
customData[rowIdx] : // If there was a custom sort function, use data from there
_fnGetCellData( settings, rowIdx, colIdx, 'sort' );
row._aSortData[ colIdx ] = formatter ?
formatter( cellData, settings ) :
cellData;
}
}
}
/**
* State information for a table
*
* @param {*} settings
* @returns State object
*/
function _fnSaveState ( settings )
{
if (settings._bLoadingState) {
return;
}
/* Store the interesting variables */
var state = {
time: +new Date(),
start: settings._iDisplayStart,
length: settings._iDisplayLength,
order: $.extend( true, [], settings.aaSorting ),
search: $.extend({}, settings.oPreviousSearch),
columns: settings.aoColumns.map( function ( col, i ) {
return {
visible: col.bVisible,
search: $.extend({}, settings.aoPreSearchCols[i])
};
} )
};
settings.oSavedState = state;
_fnCallbackFire( settings, "aoStateSaveParams", 'stateSaveParams', [settings, state] );
if ( settings.oFeatures.bStateSave && !settings.bDestroying )
{
settings.fnStateSaveCallback.call( settings.oInstance, settings, state );
}
}
/**
* Attempt to load a saved table state
* @param {object} oSettings dataTables settings object
* @param {object} oInit DataTables init object so we can override settings
* @param {function} callback Callback to execute when the state has been loaded
* @memberof DataTable#oApi
*/
function _fnLoadState ( settings, init, callback )
{
if ( ! settings.oFeatures.bStateSave ) {
callback();
return;
}
var loaded = function(state) {
_fnImplementState(settings, state, callback);
}
var state = settings.fnStateLoadCallback.call( settings.oInstance, settings, loaded );
if ( state !== undefined ) {
_fnImplementState( settings, state, callback );
}
// otherwise, wait for the loaded callback to be executed
return true;
}
function _fnImplementState ( settings, s, callback) {
var i, ien;
var columns = settings.aoColumns;
settings._bLoadingState = true;
// When StateRestore was introduced the state could now be implemented at any time
// Not just initialisation. To do this an api instance is required in some places
var api = settings._bInitComplete ? new DataTable.Api(settings) : null;
if ( ! s || ! s.time ) {
settings._bLoadingState = false;
callback();
return;
}
// Reject old data
var duration = settings.iStateDuration;
if ( duration > 0 && s.time < +new Date() - (duration*1000) ) {
settings._bLoadingState = false;
callback();
return;
}
// Allow custom and plug-in manipulation functions to alter the saved data set and
// cancelling of loading by returning false
var abStateLoad = _fnCallbackFire( settings, 'aoStateLoadParams', 'stateLoadParams', [settings, s] );
if ( abStateLoad.indexOf(false) !== -1 ) {
settings._bLoadingState = false;
callback();
return;
}
// Number of columns have changed - all bets are off, no restore of settings
if ( s.columns && columns.length !== s.columns.length ) {
settings._bLoadingState = false;
callback();
return;
}
// Store the saved state so it might be accessed at any time
settings.oLoadedState = $.extend( true, {}, s );
// This is needed for ColReorder, which has to happen first to allow all
// the stored indexes to be usable. It is not publicly documented.
_fnCallbackFire( settings, null, 'stateLoadInit', [settings, s], true );
// Page Length
if ( s.length !== undefined ) {
// If already initialised just set the value directly so that the select element is also updated
if (api) {
api.page.len(s.length)
}
else {
settings._iDisplayLength = s.length;
}
}
// Restore key features - todo - for 1.11 this needs to be done by
// subscribed events
if ( s.start !== undefined ) {
if(api === null) {
settings._iDisplayStart = s.start;
settings.iInitDisplayStart = s.start;
}
else {
_fnPageChange(settings, s.start/settings._iDisplayLength);
}
}
// Order
if ( s.order !== undefined ) {
settings.aaSorting = [];
$.each( s.order, function ( i, col ) {
settings.aaSorting.push( col[0] >= columns.length ?
[ 0, col[1] ] :
col
);
} );
}
// Search
if ( s.search !== undefined ) {
$.extend( settings.oPreviousSearch, s.search );
}
// Columns
if ( s.columns ) {
for ( i=0, ien=s.columns.length ; i<ien ; i++ ) {
var col = s.columns[i];
// Visibility
if ( col.visible !== undefined ) {
// If the api is defined, the table has been initialised so we need to use it rather than internal settings
if (api) {
// Don't redraw the columns on every iteration of this loop, we will do this at the end instead
api.column(i).visible(col.visible, false);
}
else {
columns[i].bVisible = col.visible;
}
}
// Search
if ( col.search !== undefined ) {
$.extend( settings.aoPreSearchCols[i], col.search );
}
}
// If the api is defined then we need to adjust the columns once the visibility has been changed
if (api) {
api.columns.adjust();
}
}
settings._bLoadingState = false;
_fnCallbackFire( settings, 'aoStateLoaded', 'stateLoaded', [settings, s] );
callback();
}
/**
* Log an error message
* @param {object} settings dataTables settings object
* @param {int} level log error messages, or display them to the user
* @param {string} msg error message
* @param {int} tn Technical note id to get more information about the error.
* @memberof DataTable#oApi
*/
function _fnLog( settings, level, msg, tn )
{
msg = 'DataTables warning: '+
(settings ? 'table id='+settings.sTableId+' - ' : '')+msg;
if ( tn ) {
msg += '. For more information about this error, please see '+
'https://datatables.net/tn/'+tn;
}
if ( ! level ) {
// Backwards compatibility pre 1.10
var ext = DataTable.ext;
var type = ext.sErrMode || ext.errMode;
if ( settings ) {
_fnCallbackFire( settings, null, 'dt-error', [ settings, tn, msg ], true );
}
if ( type == 'alert' ) {
alert( msg );
}
else if ( type == 'throw' ) {
throw new Error(msg);
}
else if ( typeof type == 'function' ) {
type( settings, tn, msg );
}
}
else if ( window.console && console.log ) {
console.log( msg );
}
}
/**
* See if a property is defined on one object, if so assign it to the other object
* @param {object} ret target object
* @param {object} src source object
* @param {string} name property
* @param {string} [mappedName] name to map too - optional, name used if not given
* @memberof DataTable#oApi
*/
function _fnMap( ret, src, name, mappedName )
{
if ( Array.isArray( name ) ) {
$.each( name, function (i, val) {
if ( Array.isArray( val ) ) {
_fnMap( ret, src, val[0], val[1] );
}
else {
_fnMap( ret, src, val );
}
} );
return;
}
if ( mappedName === undefined ) {
mappedName = name;
}
if ( src[name] !== undefined ) {
ret[mappedName] = src[name];
}
}
/**
* Extend objects - very similar to jQuery.extend, but deep copy objects, and
* shallow copy arrays. The reason we need to do this, is that we don't want to
* deep copy array init values (such as aaSorting) since the dev wouldn't be
* able to override them, but we do want to deep copy arrays.
* @param {object} out Object to extend
* @param {object} extender Object from which the properties will be applied to
* out
* @param {boolean} breakRefs If true, then arrays will be sliced to take an
* independent copy with the exception of the `data` or `aaData` parameters
* if they are present. This is so you can pass in a collection to
* DataTables and have that used as your data source without breaking the
* references
* @returns {object} out Reference, just for convenience - out === the return.
* @memberof DataTable#oApi
* @todo This doesn't take account of arrays inside the deep copied objects.
*/
function _fnExtend( out, extender, breakRefs )
{
var val;
for ( var prop in extender ) {
if ( Object.prototype.hasOwnProperty.call(extender, prop) ) {
val = extender[prop];
if ( $.isPlainObject( val ) ) {
if ( ! $.isPlainObject( out[prop] ) ) {
out[prop] = {};
}
$.extend( true, out[prop], val );
}
else if ( breakRefs && prop !== 'data' && prop !== 'aaData' && Array.isArray(val) ) {
out[prop] = val.slice();
}
else {
out[prop] = val;
}
}
}
return out;
}
/**
* Bind an event handers to allow a click or return key to activate the callback.
* This is good for accessibility since a return on the keyboard will have the
* same effect as a click, if the element has focus.
* @param {element} n Element to bind the action to
* @param {object|string} selector Selector (for delegated events) or data object
* to pass to the triggered function
* @param {function} fn Callback function for when the event is triggered
* @memberof DataTable#oApi
*/
function _fnBindAction( n, selector, fn )
{
$(n)
.on( 'click.DT', selector, function (e) {
fn(e);
} )
.on( 'keypress.DT', selector, function (e){
if ( e.which === 13 ) {
e.preventDefault();
fn(e);
}
} )
.on( 'selectstart.DT', selector, function () {
// Don't want a double click resulting in text selection
return false;
} );
}
/**
* Register a callback function. Easily allows a callback function to be added to
* an array store of callback functions that can then all be called together.
* @param {object} settings dataTables settings object
* @param {string} store Name of the array storage for the callbacks in oSettings
* @param {function} fn Function to be called back
* @memberof DataTable#oApi
*/
function _fnCallbackReg( settings, store, fn )
{
if ( fn ) {
settings[store].push(fn);
}
}
/**
* Fire callback functions and trigger events. Note that the loop over the
* callback array store is done backwards! Further note that you do not want to
* fire off triggers in time sensitive applications (for example cell creation)
* as its slow.
* @param {object} settings dataTables settings object
* @param {string} callbackArr Name of the array storage for the callbacks in
* oSettings
* @param {string} eventName Name of the jQuery custom event to trigger. If
* null no trigger is fired
* @param {array} args Array of arguments to pass to the callback function /
* trigger
* @param {boolean} [bubbles] True if the event should bubble
* @memberof DataTable#oApi
*/
function _fnCallbackFire( settings, callbackArr, eventName, args, bubbles )
{
var ret = [];
if ( callbackArr ) {
ret = settings[callbackArr].slice().reverse().map( function (val) {
return val.apply( settings.oInstance, args );
} );
}
if ( eventName !== null) {
var e = $.Event( eventName+'.dt' );
var table = $(settings.nTable);
// Expose the DataTables API on the event object for easy access
e.dt = settings.api;
table[bubbles ? 'trigger' : 'triggerHandler']( e, args );
// If not yet attached to the document, trigger the event
// on the body directly to sort of simulate the bubble
if (bubbles && table.parents('body').length === 0) {
$('body').trigger( e, args );
}
ret.push( e.result );
}
return ret;
}
function _fnLengthOverflow ( settings )
{
var
start = settings._iDisplayStart,
end = settings.fnDisplayEnd(),
len = settings._iDisplayLength;
/* If we have space to show extra rows (backing up from the end point - then do so */
if ( start >= end )
{
start = end - len;
}
// Keep the start record on the current page
start -= (start % len);
if ( len === -1 || start < 0 )
{
start = 0;
}
settings._iDisplayStart = start;
}
function _fnRenderer( settings, type )
{
var renderer = settings.renderer;
var host = DataTable.ext.renderer[type];
if ( $.isPlainObject( renderer ) && renderer[type] ) {
// Specific renderer for this type. If available use it, otherwise use
// the default.
return host[renderer[type]] || host._;
}
else if ( typeof renderer === 'string' ) {
// Common renderer - if there is one available for this type use it,
// otherwise use the default
return host[renderer] || host._;
}
// Use the default
return host._;
}
/**
* Detect the data source being used for the table. Used to simplify the code
* a little (ajax) and to make it compress a little smaller.
*
* @param {object} settings dataTables settings object
* @returns {string} Data source
* @memberof DataTable#oApi
*/
function _fnDataSource ( settings )
{
if ( settings.oFeatures.bServerSide ) {
return 'ssp';
}
else if ( settings.ajax ) {
return 'ajax';
}
return 'dom';
}
/**
* Common replacement for language strings
*
* @param {*} settings DT settings object
* @param {*} str String with values to replace
* @param {*} entries Plural number for _ENTRIES_ - can be undefined
* @returns String
*/
function _fnMacros ( settings, str, entries )
{
// When infinite scrolling, we are always starting at 1. _iDisplayStart is
// used only internally
var
formatter = settings.fnFormatNumber,
start = settings._iDisplayStart+1,
len = settings._iDisplayLength,
vis = settings.fnRecordsDisplay(),
max = settings.fnRecordsTotal(),
all = len === -1;
return str.
replace(/_START_/g, formatter.call( settings, start ) ).
replace(/_END_/g, formatter.call( settings, settings.fnDisplayEnd() ) ).
replace(/_MAX_/g, formatter.call( settings, max ) ).
replace(/_TOTAL_/g, formatter.call( settings, vis ) ).
replace(/_PAGE_/g, formatter.call( settings, all ? 1 : Math.ceil( start / len ) ) ).
replace(/_PAGES_/g, formatter.call( settings, all ? 1 : Math.ceil( vis / len ) ) ).
replace(/_ENTRIES_/g, settings.api.i18n('entries', '', entries) ).
replace(/_ENTRIES-MAX_/g, settings.api.i18n('entries', '', max) ).
replace(/_ENTRIES-TOTAL_/g, settings.api.i18n('entries', '', vis) );
}
/**
* Computed structure of the DataTables API, defined by the options passed to
* `DataTable.Api.register()` when building the API.
*
* The structure is built in order to speed creation and extension of the Api
* objects since the extensions are effectively pre-parsed.
*
* The array is an array of objects with the following structure, where this
* base array represents the Api prototype base:
*
* [
* {
* name: 'data' -- string - Property name
* val: function () {}, -- function - Api method (or undefined if just an object
* methodExt: [ ... ], -- array - Array of Api object definitions to extend the method result
* propExt: [ ... ] -- array - Array of Api object definitions to extend the property
* },
* {
* name: 'row'
* val: {},
* methodExt: [ ... ],
* propExt: [
* {
* name: 'data'
* val: function () {},
* methodExt: [ ... ],
* propExt: [ ... ]
* },
* ...
* ]
* }
* ]
*
* @type {Array}
* @ignore
*/
var __apiStruct = [];
/**
* `Array.prototype` reference.
*
* @type object
* @ignore
*/
var __arrayProto = Array.prototype;
/**
* Abstraction for `context` parameter of the `Api` constructor to allow it to
* take several different forms for ease of use.
*
* Each of the input parameter types will be converted to a DataTables settings
* object where possible.
*
* @param {string|node|jQuery|object} mixed DataTable identifier. Can be one
* of:
*
* * `string` - jQuery selector. Any DataTables' matching the given selector
* with be found and used.
* * `node` - `TABLE` node which has already been formed into a DataTable.
* * `jQuery` - A jQuery object of `TABLE` nodes.
* * `object` - DataTables settings object
* * `DataTables.Api` - API instance
* @return {array|null} Matching DataTables settings objects. `null` or
* `undefined` is returned if no matching DataTable is found.
* @ignore
*/
var _toSettings = function ( mixed )
{
var idx, jq;
var settings = DataTable.settings;
var tables = _pluck(settings, 'nTable');
if ( ! mixed ) {
return [];
}
else if ( mixed.nTable && mixed.oFeatures ) {
// DataTables settings object
return [ mixed ];
}
else if ( mixed.nodeName && mixed.nodeName.toLowerCase() === 'table' ) {
// Table node
idx = tables.indexOf(mixed);
return idx !== -1 ? [ settings[idx] ] : null;
}
else if ( mixed && typeof mixed.settings === 'function' ) {
return mixed.settings().toArray();
}
else if ( typeof mixed === 'string' ) {
// jQuery selector
jq = $(mixed).get();
}
else if ( mixed instanceof $ ) {
// jQuery object (also DataTables instance)
jq = mixed.get();
}
if ( jq ) {
return settings.filter(function (v, idx) {
return jq.includes(tables[idx]);
});
}
};
/**
* DataTables API class - used to control and interface with one or more
* DataTables enhanced tables.
*
* The API class is heavily based on jQuery, presenting a chainable interface
* that you can use to interact with tables. Each instance of the API class has
* a "context" - i.e. the tables that it will operate on. This could be a single
* table, all tables on a page or a sub-set thereof.
*
* Additionally the API is designed to allow you to easily work with the data in
* the tables, retrieving and manipulating it as required. This is done by
* presenting the API class as an array like interface. The contents of the
* array depend upon the actions requested by each method (for example
* `rows().nodes()` will return an array of nodes, while `rows().data()` will
* return an array of objects or arrays depending upon your table's
* configuration). The API object has a number of array like methods (`push`,
* `pop`, `reverse` etc) as well as additional helper methods (`each`, `pluck`,
* `unique` etc) to assist your working with the data held in a table.
*
* Most methods (those which return an Api instance) are chainable, which means
* the return from a method call also has all of the methods available that the
* top level object had. For example, these two calls are equivalent:
*
* // Not chained
* api.row.add( {...} );
* api.draw();
*
* // Chained
* api.row.add( {...} ).draw();
*
* @class DataTable.Api
* @param {array|object|string|jQuery} context DataTable identifier. This is
* used to define which DataTables enhanced tables this API will operate on.
* Can be one of:
*
* * `string` - jQuery selector. Any DataTables' matching the given selector
* with be found and used.
* * `node` - `TABLE` node which has already been formed into a DataTable.
* * `jQuery` - A jQuery object of `TABLE` nodes.
* * `object` - DataTables settings object
* @param {array} [data] Data to initialise the Api instance with.
*
* @example
* // Direct initialisation during DataTables construction
* var api = $('#example').DataTable();
*
* @example
* // Initialisation using a DataTables jQuery object
* var api = $('#example').dataTable().api();
*
* @example
* // Initialisation as a constructor
* var api = new DataTable.Api( 'table.dataTable' );
*/
_Api = function ( context, data )
{
if ( ! (this instanceof _Api) ) {
return new _Api( context, data );
}
var settings = [];
var ctxSettings = function ( o ) {
var a = _toSettings( o );
if ( a ) {
settings.push.apply( settings, a );
}
};
if ( Array.isArray( context ) ) {
for ( var i=0, ien=context.length ; i<ien ; i++ ) {
ctxSettings( context[i] );
}
}
else {
ctxSettings( context );
}
// Remove duplicates
this.context = settings.length > 1
? _unique( settings )
: settings;
// Initial data
if ( data ) {
this.push.apply(this, data);
}
// selector
this.selector = {
rows: null,
cols: null,
opts: null
};
_Api.extend( this, this, __apiStruct );
};
DataTable.Api = _Api;
// Don't destroy the existing prototype, just extend it. Required for jQuery 2's
// isPlainObject.
$.extend( _Api.prototype, {
any: function ()
{
return this.count() !== 0;
},
context: [], // array of table settings objects
count: function ()
{
return this.flatten().length;
},
each: function ( fn )
{
for ( var i=0, ien=this.length ; i<ien; i++ ) {
fn.call( this, this[i], i, this );
}
return this;
},
eq: function ( idx )
{
var ctx = this.context;
return ctx.length > idx ?
new _Api( ctx[idx], this[idx] ) :
null;
},
filter: function ( fn )
{
var a = __arrayProto.filter.call( this, fn, this );
return new _Api( this.context, a );
},
flatten: function ()
{
var a = [];
return new _Api( this.context, a.concat.apply( a, this.toArray() ) );
},
get: function ( idx )
{
return this[ idx ];
},
join: __arrayProto.join,
includes: function ( find ) {
return this.indexOf( find ) === -1 ? false : true;
},
indexOf: __arrayProto.indexOf,
iterator: function ( flatten, type, fn, alwaysNew ) {
var
a = [], ret,
i, ien, j, jen,
context = this.context,
rows, items, item,
selector = this.selector;
// Argument shifting
if ( typeof flatten === 'string' ) {
alwaysNew = fn;
fn = type;
type = flatten;
flatten = false;
}
for ( i=0, ien=context.length ; i<ien ; i++ ) {
var apiInst = new _Api( context[i] );
if ( type === 'table' ) {
ret = fn.call( apiInst, context[i], i );
if ( ret !== undefined ) {
a.push( ret );
}
}
else if ( type === 'columns' || type === 'rows' ) {
// this has same length as context - one entry for each table
ret = fn.call( apiInst, context[i], this[i], i );
if ( ret !== undefined ) {
a.push( ret );
}
}
else if ( type === 'every' || type === 'column' || type === 'column-rows' || type === 'row' || type === 'cell' ) {
// columns and rows share the same structure.
// 'this' is an array of column indexes for each context
items = this[i];
if ( type === 'column-rows' ) {
rows = _selector_row_indexes( context[i], selector.opts );
}
for ( j=0, jen=items.length ; j<jen ; j++ ) {
item = items[j];
if ( type === 'cell' ) {
ret = fn.call( apiInst, context[i], item.row, item.column, i, j );
}
else {
ret = fn.call( apiInst, context[i], item, i, j, rows );
}
if ( ret !== undefined ) {
a.push( ret );
}
}
}
}
if ( a.length || alwaysNew ) {
var api = new _Api( context, flatten ? a.concat.apply( [], a ) : a );
var apiSelector = api.selector;
apiSelector.rows = selector.rows;
apiSelector.cols = selector.cols;
apiSelector.opts = selector.opts;
return api;
}
return this;
},
lastIndexOf: __arrayProto.lastIndexOf,
length: 0,
map: function ( fn )
{
var a = __arrayProto.map.call( this, fn, this );
return new _Api( this.context, a );
},
pluck: function ( prop )
{
var fn = DataTable.util.get(prop);
return this.map( function ( el ) {
return fn(el);
} );
},
pop: __arrayProto.pop,
push: __arrayProto.push,
reduce: __arrayProto.reduce,
reduceRight: __arrayProto.reduceRight,
reverse: __arrayProto.reverse,
// Object with rows, columns and opts
selector: null,
shift: __arrayProto.shift,
slice: function () {
return new _Api( this.context, this );
},
sort: __arrayProto.sort,
splice: __arrayProto.splice,
toArray: function ()
{
return __arrayProto.slice.call( this );
},
to$: function ()
{
return $( this );
},
toJQuery: function ()
{
return $( this );
},
unique: function ()
{
return new _Api( this.context, _unique(this.toArray()) );
},
unshift: __arrayProto.unshift
} );
function _api_scope( scope, fn, struc ) {
return function () {
var ret = fn.apply( scope || this, arguments );
// Method extension
_Api.extend( ret, ret, struc.methodExt );
return ret;
};
}
function _api_find( src, name ) {
for ( var i=0, ien=src.length ; i<ien ; i++ ) {
if ( src[i].name === name ) {
return src[i];
}
}
return null;
}
window.__apiStruct = __apiStruct;
_Api.extend = function ( scope, obj, ext )
{
// Only extend API instances and static properties of the API
if ( ! ext.length || ! obj || ( ! (obj instanceof _Api) && ! obj.__dt_wrapper ) ) {
return;
}
var
i, ien,
struct;
for ( i=0, ien=ext.length ; i<ien ; i++ ) {
struct = ext[i];
// Value
obj[ struct.name ] = struct.type === 'function' ?
_api_scope( scope, struct.val, struct ) :
struct.type === 'object' ?
{} :
struct.val;
obj[ struct.name ].__dt_wrapper = true;
// Property extension
_Api.extend( scope, obj[ struct.name ], struct.propExt );
}
};
// [
// {
// name: 'data' -- string - Property name
// val: function () {}, -- function - Api method (or undefined if just an object
// methodExt: [ ... ], -- array - Array of Api object definitions to extend the method result
// propExt: [ ... ] -- array - Array of Api object definitions to extend the property
// },
// {
// name: 'row'
// val: {},
// methodExt: [ ... ],
// propExt: [
// {
// name: 'data'
// val: function () {},
// methodExt: [ ... ],
// propExt: [ ... ]
// },
// ...
// ]
// }
// ]
_Api.register = _api_register = function ( name, val )
{
if ( Array.isArray( name ) ) {
for ( var j=0, jen=name.length ; j<jen ; j++ ) {
_Api.register( name[j], val );
}
return;
}
var
i, ien,
heir = name.split('.'),
struct = __apiStruct,
key, method;
for ( i=0, ien=heir.length ; i<ien ; i++ ) {
method = heir[i].indexOf('()') !== -1;
key = method ?
heir[i].replace('()', '') :
heir[i];
var src = _api_find( struct, key );
if ( ! src ) {
src = {
name: key,
val: {},
methodExt: [],
propExt: [],
type: 'object'
};
struct.push( src );
}
if ( i === ien-1 ) {
src.val = val;
src.type = typeof val === 'function' ?
'function' :
$.isPlainObject( val ) ?
'object' :
'other';
}
else {
struct = method ?
src.methodExt :
src.propExt;
}
}
};
_Api.registerPlural = _api_registerPlural = function ( pluralName, singularName, val ) {
_Api.register( pluralName, val );
_Api.register( singularName, function () {
var ret = val.apply( this, arguments );
if ( ret === this ) {
// Returned item is the API instance that was passed in, return it
return this;
}
else if ( ret instanceof _Api ) {
// New API instance returned, want the value from the first item
// in the returned array for the singular result.
return ret.length ?
Array.isArray( ret[0] ) ?
new _Api( ret.context, ret[0] ) : // Array results are 'enhanced'
ret[0] :
undefined;
}
// Non-API return - just fire it back
return ret;
} );
};
/**
* Selector for HTML tables. Apply the given selector to the give array of
* DataTables settings objects.
*
* @param {string|integer} [selector] jQuery selector string or integer
* @param {array} Array of DataTables settings objects to be filtered
* @return {array}
* @ignore
*/
var __table_selector = function ( selector, a )
{
if ( Array.isArray(selector) ) {
var result = [];
selector.forEach(function (sel) {
var inner = __table_selector(sel, a);
result.push.apply(result, inner);
});
return result.filter( function (item) {
return item;
});
}
// Integer is used to pick out a table by index
if ( typeof selector === 'number' ) {
return [ a[ selector ] ];
}
// Perform a jQuery selector on the table nodes
var nodes = a.map( function (el) {
return el.nTable;
} );
return $(nodes)
.filter( selector )
.map( function () {
// Need to translate back from the table node to the settings
var idx = nodes.indexOf(this);
return a[ idx ];
} )
.toArray();
};
/**
* Context selector for the API's context (i.e. the tables the API instance
* refers to.
*
* @name DataTable.Api#tables
* @param {string|integer} [selector] Selector to pick which tables the iterator
* should operate on. If not given, all tables in the current context are
* used. This can be given as a jQuery selector (for example `':gt(0)'`) to
* select multiple tables or as an integer to select a single table.
* @returns {DataTable.Api} Returns a new API instance if a selector is given.
*/
_api_register( 'tables()', function ( selector ) {
// A new instance is created if there was a selector specified
return selector !== undefined && selector !== null ?
new _Api( __table_selector( selector, this.context ) ) :
this;
} );
_api_register( 'table()', function ( selector ) {
var tables = this.tables( selector );
var ctx = tables.context;
// Truncate to the first matched table
return ctx.length ?
new _Api( ctx[0] ) :
tables;
} );
// Common methods, combined to reduce size
[
['nodes', 'node', 'nTable'],
['body', 'body', 'nTBody'],
['header', 'header', 'nTHead'],
['footer', 'footer', 'nTFoot'],
].forEach(function (item) {
_api_registerPlural(
'tables().' + item[0] + '()',
'table().' + item[1] + '()' ,
function () {
return this.iterator( 'table', function ( ctx ) {
return ctx[item[2]];
}, 1 );
}
);
});
// Structure methods
[
['header', 'aoHeader'],
['footer', 'aoFooter'],
].forEach(function (item) {
_api_register( 'table().' + item[0] + '.structure()' , function (selector) {
var indexes = this.columns(selector).indexes().flatten();
var ctx = this.context[0];
return _fnHeaderLayout(ctx, ctx[item[1]], indexes);
} );
})
_api_registerPlural( 'tables().containers()', 'table().container()' , function () {
return this.iterator( 'table', function ( ctx ) {
return ctx.nTableWrapper;
}, 1 );
} );
_api_register( 'tables().every()', function ( fn ) {
var that = this;
return this.iterator('table', function (s, i) {
fn.call(that.table(i), i);
});
});
_api_register( 'caption()', function ( value, side ) {
var context = this.context;
// Getter - return existing node's content
if ( value === undefined ) {
var caption = context[0].captionNode;
return caption && context.length ?
caption.innerHTML :
null;
}
return this.iterator( 'table', function ( ctx ) {
var table = $(ctx.nTable);
var caption = $(ctx.captionNode);
var container = $(ctx.nTableWrapper);
// Create the node if it doesn't exist yet
if ( ! caption.length ) {
caption = $('<caption/>').html( value );
ctx.captionNode = caption[0];
// If side isn't set, we need to insert into the document to let the
// CSS decide so we can read it back, otherwise there is no way to
// know if the CSS would put it top or bottom for scrolling
if (! side) {
table.prepend(caption);
side = caption.css('caption-side');
}
}
caption.html( value );
if ( side ) {
caption.css( 'caption-side', side );
caption[0]._captionSide = side;
}
if (container.find('div.dataTables_scroll').length) {
var selector = (side === 'top' ? 'Head' : 'Foot');
container.find('div.dataTables_scroll'+ selector +' table').prepend(caption);
}
else {
table.prepend(caption);
}
}, 1 );
} );
_api_register( 'caption.node()', function () {
var ctx = this.context;
return ctx.length ? ctx[0].captionNode : null;
} );
/**
* Redraw the tables in the current context.
*/
_api_register( 'draw()', function ( paging ) {
return this.iterator( 'table', function ( settings ) {
if ( paging === 'page' ) {
_fnDraw( settings );
}
else {
if ( typeof paging === 'string' ) {
paging = paging === 'full-hold' ?
false :
true;
}
_fnReDraw( settings, paging===false );
}
} );
} );
/**
* Get the current page index.
*
* @return {integer} Current page index (zero based)
*//**
* Set the current page.
*
* Note that if you attempt to show a page which does not exist, DataTables will
* not throw an error, but rather reset the paging.
*
* @param {integer|string} action The paging action to take. This can be one of:
* * `integer` - The page index to jump to
* * `string` - An action to take:
* * `first` - Jump to first page.
* * `next` - Jump to the next page
* * `previous` - Jump to previous page
* * `last` - Jump to the last page.
* @returns {DataTables.Api} this
*/
_api_register( 'page()', function ( action ) {
if ( action === undefined ) {
return this.page.info().page; // not an expensive call
}
// else, have an action to take on all tables
return this.iterator( 'table', function ( settings ) {
_fnPageChange( settings, action );
} );
} );
/**
* Paging information for the first table in the current context.
*
* If you require paging information for another table, use the `table()` method
* with a suitable selector.
*
* @return {object} Object with the following properties set:
* * `page` - Current page index (zero based - i.e. the first page is `0`)
* * `pages` - Total number of pages
* * `start` - Display index for the first record shown on the current page
* * `end` - Display index for the last record shown on the current page
* * `length` - Display length (number of records). Note that generally `start
* + length = end`, but this is not always true, for example if there are
* only 2 records to show on the final page, with a length of 10.
* * `recordsTotal` - Full data set length
* * `recordsDisplay` - Data set length once the current filtering criterion
* are applied.
*/
_api_register( 'page.info()', function () {
if ( this.context.length === 0 ) {
return undefined;
}
var
settings = this.context[0],
start = settings._iDisplayStart,
len = settings.oFeatures.bPaginate ? settings._iDisplayLength : -1,
visRecords = settings.fnRecordsDisplay(),
all = len === -1;
return {
"page": all ? 0 : Math.floor( start / len ),
"pages": all ? 1 : Math.ceil( visRecords / len ),
"start": start,
"end": settings.fnDisplayEnd(),
"length": len,
"recordsTotal": settings.fnRecordsTotal(),
"recordsDisplay": visRecords,
"serverSide": _fnDataSource( settings ) === 'ssp'
};
} );
/**
* Get the current page length.
*
* @return {integer} Current page length. Note `-1` indicates that all records
* are to be shown.
*//**
* Set the current page length.
*
* @param {integer} Page length to set. Use `-1` to show all records.
* @returns {DataTables.Api} this
*/
_api_register( 'page.len()', function ( len ) {
// Note that we can't call this function 'length()' because `length`
// is a Javascript property of functions which defines how many arguments
// the function expects.
if ( len === undefined ) {
return this.context.length !== 0 ?
this.context[0]._iDisplayLength :
undefined;
}
// else, set the page length
return this.iterator( 'table', function ( settings ) {
_fnLengthChange( settings, len );
} );
} );
var __reload = function ( settings, holdPosition, callback ) {
// Use the draw event to trigger a callback
if ( callback ) {
var api = new _Api( settings );
api.one( 'draw', function () {
callback( api.ajax.json() );
} );
}
if ( _fnDataSource( settings ) == 'ssp' ) {
_fnReDraw( settings, holdPosition );
}
else {
_fnProcessingDisplay( settings, true );
// Cancel an existing request
var xhr = settings.jqXHR;
if ( xhr && xhr.readyState !== 4 ) {
xhr.abort();
}
// Trigger xhr
_fnBuildAjax( settings, {}, function( json ) {
_fnClearTable( settings );
var data = _fnAjaxDataSrc( settings, json );
for ( var i=0, ien=data.length ; i<ien ; i++ ) {
_fnAddData( settings, data[i] );
}
_fnReDraw( settings, holdPosition );
_fnInitComplete( settings );
_fnProcessingDisplay( settings, false );
} );
}
};
/**
* Get the JSON response from the last Ajax request that DataTables made to the
* server. Note that this returns the JSON from the first table in the current
* context.
*
* @return {object} JSON received from the server.
*/
_api_register( 'ajax.json()', function () {
var ctx = this.context;
if ( ctx.length > 0 ) {
return ctx[0].json;
}
// else return undefined;
} );
/**
* Get the data submitted in the last Ajax request
*/
_api_register( 'ajax.params()', function () {
var ctx = this.context;
if ( ctx.length > 0 ) {
return ctx[0].oAjaxData;
}
// else return undefined;
} );
/**
* Reload tables from the Ajax data source. Note that this function will
* automatically re-draw the table when the remote data has been loaded.
*
* @param {boolean} [reset=true] Reset (default) or hold the current paging
* position. A full re-sort and re-filter is performed when this method is
* called, which is why the pagination reset is the default action.
* @returns {DataTables.Api} this
*/
_api_register( 'ajax.reload()', function ( callback, resetPaging ) {
return this.iterator( 'table', function (settings) {
__reload( settings, resetPaging===false, callback );
} );
} );
/**
* Get the current Ajax URL. Note that this returns the URL from the first
* table in the current context.
*
* @return {string} Current Ajax source URL
*//**
* Set the Ajax URL. Note that this will set the URL for all tables in the
* current context.
*
* @param {string} url URL to set.
* @returns {DataTables.Api} this
*/
_api_register( 'ajax.url()', function ( url ) {
var ctx = this.context;
if ( url === undefined ) {
// get
if ( ctx.length === 0 ) {
return undefined;
}
ctx = ctx[0];
return $.isPlainObject( ctx.ajax ) ?
ctx.ajax.url :
ctx.ajax;
}
// set
return this.iterator( 'table', function ( settings ) {
if ( $.isPlainObject( settings.ajax ) ) {
settings.ajax.url = url;
}
else {
settings.ajax = url;
}
} );
} );
/**
* Load data from the newly set Ajax URL. Note that this method is only
* available when `ajax.url()` is used to set a URL. Additionally, this method
* has the same effect as calling `ajax.reload()` but is provided for
* convenience when setting a new URL. Like `ajax.reload()` it will
* automatically redraw the table once the remote data has been loaded.
*
* @returns {DataTables.Api} this
*/
_api_register( 'ajax.url().load()', function ( callback, resetPaging ) {
// Same as a reload, but makes sense to present it for easy access after a
// url change
return this.iterator( 'table', function ( ctx ) {
__reload( ctx, resetPaging===false, callback );
} );
} );
var _selector_run = function ( type, selector, selectFn, settings, opts )
{
var
out = [], res,
a, i, ien, j, jen,
selectorType = typeof selector;
// Can't just check for isArray here, as an API or jQuery instance might be
// given with their array like look
if ( ! selector || selectorType === 'string' || selectorType === 'function' || selector.length === undefined ) {
selector = [ selector ];
}
for ( i=0, ien=selector.length ; i<ien ; i++ ) {
// Only split on simple strings - complex expressions will be jQuery selectors
a = selector[i] && selector[i].split && ! selector[i].match(/[[(:]/) ?
selector[i].split(',') :
[ selector[i] ];
for ( j=0, jen=a.length ; j<jen ; j++ ) {
res = selectFn( typeof a[j] === 'string' ? (a[j]).trim() : a[j] );
// Remove empty items
res = res.filter( function (item) {
return item !== null && item !== undefined;
});
if ( res && res.length ) {
out = out.concat( res );
}
}
}
// selector extensions
var ext = _ext.selector[ type ];
if ( ext.length ) {
for ( i=0, ien=ext.length ; i<ien ; i++ ) {
out = ext[i]( settings, opts, out );
}
}
return _unique( out );
};
var _selector_opts = function ( opts )
{
if ( ! opts ) {
opts = {};
}
// Backwards compatibility for 1.9- which used the terminology filter rather
// than search
if ( opts.filter && opts.search === undefined ) {
opts.search = opts.filter;
}
return $.extend( {
search: 'none',
order: 'current',
page: 'all'
}, opts );
};
// Reduce the API instance to the first item found
var _selector_first = function ( old )
{
let inst = new _Api(old.context[0]);
// Use a push rather than passing to the constructor, since it will
// merge arrays down automatically, which isn't what is wanted here
if (old.length) {
inst.push( old[0] );
}
inst.selector = old.selector;
// Limit to a single row / column / cell
if (inst.length && inst[0].length > 1) {
inst[0].splice(1);
}
return inst;
};
var _selector_row_indexes = function ( settings, opts )
{
var
i, ien, tmp, a=[],
displayFiltered = settings.aiDisplay,
displayMaster = settings.aiDisplayMaster;
var
search = opts.search, // none, applied, removed
order = opts.order, // applied, current, index (original - compatibility with 1.9)
page = opts.page; // all, current
if ( _fnDataSource( settings ) == 'ssp' ) {
// In server-side processing mode, most options are irrelevant since
// rows not shown don't exist and the index order is the applied order
// Removed is a special case - for consistency just return an empty
// array
return search === 'removed' ?
[] :
_range( 0, displayMaster.length );
}
else if ( page == 'current' ) {
// Current page implies that order=current and filter=applied, since it is
// fairly senseless otherwise, regardless of what order and search actually
// are
for ( i=settings._iDisplayStart, ien=settings.fnDisplayEnd() ; i<ien ; i++ ) {
a.push( displayFiltered[i] );
}
}
else if ( order == 'current' || order == 'applied' ) {
if ( search == 'none') {
a = displayMaster.slice();
}
else if ( search == 'applied' ) {
a = displayFiltered.slice();
}
else if ( search == 'removed' ) {
// O(n+m) solution by creating a hash map
var displayFilteredMap = {};
for ( i=0, ien=displayFiltered.length ; i<ien ; i++ ) {
displayFilteredMap[displayFiltered[i]] = null;
}
displayMaster.forEach(function (item) {
if (! Object.prototype.hasOwnProperty.call(displayFilteredMap, item)) {
a.push(item);
}
});
}
}
else if ( order == 'index' || order == 'original' ) {
for ( i=0, ien=settings.aoData.length ; i<ien ; i++ ) {
if (! settings.aoData[i]) {
continue;
}
if ( search == 'none' ) {
a.push( i );
}
else { // applied | removed
tmp = displayFiltered.indexOf(i);
if ((tmp === -1 && search == 'removed') ||
(tmp >= 0 && search == 'applied') )
{
a.push( i );
}
}
}
}
else if ( typeof order === 'number' ) {
// Order the rows by the given column
var ordered = _fnSort(settings, order, 'asc');
if (search === 'none') {
a = ordered;
}
else { // applied | removed
for (i=0; i<ordered.length; i++) {
tmp = displayFiltered.indexOf(ordered[i]);
if ((tmp === -1 && search == 'removed') ||
(tmp >= 0 && search == 'applied') )
{
a.push( ordered[i] );
}
}
}
}
return a;
};
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Rows
*
* {} - no selector - use all available rows
* {integer} - row aoData index
* {node} - TR node
* {string} - jQuery selector to apply to the TR elements
* {array} - jQuery array of nodes, or simply an array of TR nodes
*
*/
var __row_selector = function ( settings, selector, opts )
{
var rows;
var run = function ( sel ) {
var selInt = _intVal( sel );
var aoData = settings.aoData;
// Short cut - selector is a number and no options provided (default is
// all records, so no need to check if the index is in there, since it
// must be - dev error if the index doesn't exist).
if ( selInt !== null && ! opts ) {
return [ selInt ];
}
if ( ! rows ) {
rows = _selector_row_indexes( settings, opts );
}
if ( selInt !== null && rows.indexOf(selInt) !== -1 ) {
// Selector - integer
return [ selInt ];
}
else if ( sel === null || sel === undefined || sel === '' ) {
// Selector - none
return rows;
}
// Selector - function
if ( typeof sel === 'function' ) {
return rows.map( function (idx) {
var row = aoData[ idx ];
return sel( idx, row._aData, row.nTr ) ? idx : null;
} );
}
// Selector - node
if ( sel.nodeName ) {
var rowIdx = sel._DT_RowIndex; // Property added by DT for fast lookup
var cellIdx = sel._DT_CellIndex;
if ( rowIdx !== undefined ) {
// Make sure that the row is actually still present in the table
return aoData[ rowIdx ] && aoData[ rowIdx ].nTr === sel ?
[ rowIdx ] :
[];
}
else if ( cellIdx ) {
return aoData[ cellIdx.row ] && aoData[ cellIdx.row ].nTr === sel.parentNode ?
[ cellIdx.row ] :
[];
}
else {
var host = $(sel).closest('*[data-dt-row]');
return host.length ?
[ host.data('dt-row') ] :
[];
}
}
// ID selector. Want to always be able to select rows by id, regardless
// of if the tr element has been created or not, so can't rely upon
// jQuery here - hence a custom implementation. This does not match
// Sizzle's fast selector or HTML4 - in HTML5 the ID can be anything,
// but to select it using a CSS selector engine (like Sizzle or
// querySelect) it would need to need to be escaped for some characters.
// DataTables simplifies this for row selectors since you can select
// only a row. A # indicates an id any anything that follows is the id -
// unescaped.
if ( typeof sel === 'string' && sel.charAt(0) === '#' ) {
// get row index from id
var rowObj = settings.aIds[ sel.replace( /^#/, '' ) ];
if ( rowObj !== undefined ) {
return [ rowObj.idx ];
}
// need to fall through to jQuery in case there is DOM id that
// matches
}
// Get nodes in the order from the `rows` array with null values removed
var nodes = _removeEmpty(
_pluck_order( settings.aoData, rows, 'nTr' )
);
// Selector - jQuery selector string, array of nodes or jQuery object/
// As jQuery's .filter() allows jQuery objects to be passed in filter,
// it also allows arrays, so this will cope with all three options
return $(nodes)
.filter( sel )
.map( function () {
return this._DT_RowIndex;
} )
.toArray();
};
var matched = _selector_run( 'row', selector, run, settings, opts );
if (opts.order === 'current' || opts.order === 'applied') {
var master = settings.aiDisplayMaster;
matched.sort(function(a, b) {
return master.indexOf(a) - master.indexOf(b);
});
}
return matched;
};
_api_register( 'rows()', function ( selector, opts ) {
// argument shifting
if ( selector === undefined ) {
selector = '';
}
else if ( $.isPlainObject( selector ) ) {
opts = selector;
selector = '';
}
opts = _selector_opts( opts );
var inst = this.iterator( 'table', function ( settings ) {
return __row_selector( settings, selector, opts );
}, 1 );
// Want argument shifting here and in __row_selector?
inst.selector.rows = selector;
inst.selector.opts = opts;
return inst;
} );
_api_register( 'rows().nodes()', function () {
return this.iterator( 'row', function ( settings, row ) {
return settings.aoData[ row ].nTr || undefined;
}, 1 );
} );
_api_register( 'rows().data()', function () {
return this.iterator( true, 'rows', function ( settings, rows ) {
return _pluck_order( settings.aoData, rows, '_aData' );
}, 1 );
} );
_api_registerPlural( 'rows().cache()', 'row().cache()', function ( type ) {
return this.iterator( 'row', function ( settings, row ) {
var r = settings.aoData[ row ];
return type === 'search' ? r._aFilterData : r._aSortData;
}, 1 );
} );
_api_registerPlural( 'rows().invalidate()', 'row().invalidate()', function ( src ) {
return this.iterator( 'row', function ( settings, row ) {
_fnInvalidate( settings, row, src );
} );
} );
_api_registerPlural( 'rows().indexes()', 'row().index()', function () {
return this.iterator( 'row', function ( settings, row ) {
return row;
}, 1 );
} );
_api_registerPlural( 'rows().ids()', 'row().id()', function ( hash ) {
var a = [];
var context = this.context;
// `iterator` will drop undefined values, but in this case we want them
for ( var i=0, ien=context.length ; i<ien ; i++ ) {
for ( var j=0, jen=this[i].length ; j<jen ; j++ ) {
var id = context[i].rowIdFn( context[i].aoData[ this[i][j] ]._aData );
a.push( (hash === true ? '#' : '' )+ id );
}
}
return new _Api( context, a );
} );
_api_registerPlural( 'rows().remove()', 'row().remove()', function () {
this.iterator( 'row', function ( settings, row ) {
var data = settings.aoData;
var rowData = data[ row ];
// Delete from the display arrays
var idx = settings.aiDisplayMaster.indexOf(row);
if (idx !== -1) {
settings.aiDisplayMaster.splice(idx, 1);
}
idx = settings.aiDisplay.indexOf(row);
if (idx !== -1) {
settings.aiDisplay.splice(idx, 1);
}
// For server-side processing tables - subtract the deleted row from the count
if ( settings._iRecordsDisplay > 0 ) {
settings._iRecordsDisplay--;
}
// Check for an 'overflow' they case for displaying the table
_fnLengthOverflow( settings );
// Remove the row's ID reference if there is one
var id = settings.rowIdFn( rowData._aData );
if ( id !== undefined ) {
delete settings.aIds[ id ];
}
data[row] = null;
} );
return this;
} );
_api_register( 'rows.add()', function ( rows ) {
var newRows = this.iterator( 'table', function ( settings ) {
var row, i, ien;
var out = [];
for ( i=0, ien=rows.length ; i<ien ; i++ ) {
row = rows[i];
if ( row.nodeName && row.nodeName.toUpperCase() === 'TR' ) {
out.push( _fnAddTr( settings, row )[0] );
}
else {
out.push( _fnAddData( settings, row ) );
}
}
return out;
}, 1 );
// Return an Api.rows() extended instance, so rows().nodes() etc can be used
var modRows = this.rows( -1 );
modRows.pop();
modRows.push.apply(modRows, newRows);
return modRows;
} );
/**
*
*/
_api_register( 'row()', function ( selector, opts ) {
return _selector_first( this.rows( selector, opts ) );
} );
_api_register( 'row().data()', function ( data ) {
var ctx = this.context;
if ( data === undefined ) {
// Get
return ctx.length && this.length && this[0].length ?
ctx[0].aoData[ this[0] ]._aData :
undefined;
}
// Set
var row = ctx[0].aoData[ this[0] ];
row._aData = data;
// If the DOM has an id, and the data source is an array
if ( Array.isArray( data ) && row.nTr && row.nTr.id ) {
_fnSetObjectDataFn( ctx[0].rowId )( data, row.nTr.id );
}
// Automatically invalidate
_fnInvalidate( ctx[0], this[0], 'data' );
return this;
} );
_api_register( 'row().node()', function () {
var ctx = this.context;
return ctx.length && this.length && this[0].length ?
ctx[0].aoData[ this[0] ].nTr || null :
null;
} );
_api_register( 'row.add()', function ( row ) {
// Allow a jQuery object to be passed in - only a single row is added from
// it though - the first element in the set
if ( row instanceof $ && row.length ) {
row = row[0];
}
var rows = this.iterator( 'table', function ( settings ) {
if ( row.nodeName && row.nodeName.toUpperCase() === 'TR' ) {
return _fnAddTr( settings, row )[0];
}
return _fnAddData( settings, row );
} );
// Return an Api.rows() extended instance, with the newly added row selected
return this.row( rows[0] );
} );
$(document).on('plugin-init.dt', function (e, context) {
var api = new _Api( context );
api.on( 'stateSaveParams.DT', function ( e, settings, d ) {
// This could be more compact with the API, but it is a lot faster as a simple
// internal loop
var idFn = settings.rowIdFn;
var rows = settings.aiDisplayMaster;
var ids = [];
for (var i=0 ; i<rows.length ; i++) {
var rowIdx = rows[i];
var data = settings.aoData[rowIdx];
if (data._detailsShow) {
ids.push( '#' + idFn(data._aData) );
}
}
d.childRows = ids;
});
// For future state loads (e.g. with StateRestore)
api.on( 'stateLoaded.DT', function (e, settings, state) {
__details_state_load( api, state );
});
// And the initial load state
__details_state_load( api, api.state.loaded() );
});
var __details_state_load = function (api, state)
{
if ( state && state.childRows ) {
api
.rows( state.childRows.map(function (id){
return id.replace(/:/g, '\\:')
}) )
.every( function () {
_fnCallbackFire( api.settings()[0], null, 'requestChild', [ this ] )
});
}
}
var __details_add = function ( ctx, row, data, klass )
{
// Convert to array of TR elements
var rows = [];
var addRow = function ( r, k ) {
// Recursion to allow for arrays of jQuery objects
if ( Array.isArray( r ) || r instanceof $ ) {
for ( var i=0, ien=r.length ; i<ien ; i++ ) {
addRow( r[i], k );
}
return;
}
// If we get a TR element, then just add it directly - up to the dev
// to add the correct number of columns etc
if ( r.nodeName && r.nodeName.toLowerCase() === 'tr' ) {
r.setAttribute( 'data-dt-row', row.idx );
rows.push( r );
}
else {
// Otherwise create a row with a wrapper
var created = $('<tr><td></td></tr>')
.attr( 'data-dt-row', row.idx )
.addClass( k );
$('td', created)
.addClass( k )
.html( r )[0].colSpan = _fnVisbleColumns( ctx );
rows.push( created[0] );
}
};
addRow( data, klass );
if ( row._details ) {
row._details.detach();
}
row._details = $(rows);
// If the children were already shown, that state should be retained
if ( row._detailsShow ) {
row._details.insertAfter( row.nTr );
}
};
// Make state saving of child row details async to allow them to be batch processed
var __details_state = DataTable.util.throttle(
function (ctx) {
_fnSaveState( ctx[0] )
},
500
);
var __details_remove = function ( api, idx )
{
var ctx = api.context;
if ( ctx.length ) {
var row = ctx[0].aoData[ idx !== undefined ? idx : api[0] ];
if ( row && row._details ) {
row._details.remove();
row._detailsShow = undefined;
row._details = undefined;
$( row.nTr ).removeClass( 'dt-hasChild' );
__details_state( ctx );
}
}
};
var __details_display = function ( api, show ) {
var ctx = api.context;
if ( ctx.length && api.length ) {
var row = ctx[0].aoData[ api[0] ];
if ( row._details ) {
row._detailsShow = show;
if ( show ) {
row._details.insertAfter( row.nTr );
$( row.nTr ).addClass( 'dt-hasChild' );
}
else {
row._details.detach();
$( row.nTr ).removeClass( 'dt-hasChild' );
}
_fnCallbackFire( ctx[0], null, 'childRow', [ show, api.row( api[0] ) ] )
__details_events( ctx[0] );
__details_state( ctx );
}
}
};
var __details_events = function ( settings )
{
var api = new _Api( settings );
var namespace = '.dt.DT_details';
var drawEvent = 'draw'+namespace;
var colvisEvent = 'column-sizing'+namespace;
var destroyEvent = 'destroy'+namespace;
var data = settings.aoData;
api.off( drawEvent +' '+ colvisEvent +' '+ destroyEvent );
if ( _pluck( data, '_details' ).length > 0 ) {
// On each draw, insert the required elements into the document
api.on( drawEvent, function ( e, ctx ) {
if ( settings !== ctx ) {
return;
}
api.rows( {page:'current'} ).eq(0).each( function (idx) {
// Internal data grab
var row = data[ idx ];
if ( row._detailsShow ) {
row._details.insertAfter( row.nTr );
}
} );
} );
// Column visibility change - update the colspan
api.on( colvisEvent, function ( e, ctx ) {
if ( settings !== ctx ) {
return;
}
// Update the colspan for the details rows (note, only if it already has
// a colspan)
var row, visible = _fnVisbleColumns( ctx );
for ( var i=0, ien=data.length ; i<ien ; i++ ) {
row = data[i];
if ( row._details ) {
row._details.each(function () {
var el = $(this).children('td');
if (el.length == 1) {
el.attr('colspan', visible);
}
});
}
}
} );
// Table destroyed - nuke any child rows
api.on( destroyEvent, function ( e, ctx ) {
if ( settings !== ctx ) {
return;
}
for ( var i=0, ien=data.length ; i<ien ; i++ ) {
if ( data[i]._details ) {
__details_remove( api, i );
}
}
} );
}
};
// Strings for the method names to help minification
var _emp = '';
var _child_obj = _emp+'row().child';
var _child_mth = _child_obj+'()';
// data can be:
// tr
// string
// jQuery or array of any of the above
_api_register( _child_mth, function ( data, klass ) {
var ctx = this.context;
if ( data === undefined ) {
// get
return ctx.length && this.length ?
ctx[0].aoData[ this[0] ]._details :
undefined;
}
else if ( data === true ) {
// show
this.child.show();
}
else if ( data === false ) {
// remove
__details_remove( this );
}
else if ( ctx.length && this.length ) {
// set
__details_add( ctx[0], ctx[0].aoData[ this[0] ], data, klass );
}
return this;
} );
_api_register( [
_child_obj+'.show()',
_child_mth+'.show()' // only when `child()` was called with parameters (without
], function () { // it returns an object and this method is not executed)
__details_display( this, true );
return this;
} );
_api_register( [
_child_obj+'.hide()',
_child_mth+'.hide()' // only when `child()` was called with parameters (without
], function () { // it returns an object and this method is not executed)
__details_display( this, false );
return this;
} );
_api_register( [
_child_obj+'.remove()',
_child_mth+'.remove()' // only when `child()` was called with parameters (without
], function () { // it returns an object and this method is not executed)
__details_remove( this );
return this;
} );
_api_register( _child_obj+'.isShown()', function () {
var ctx = this.context;
if ( ctx.length && this.length ) {
// _detailsShown as false or undefined will fall through to return false
return ctx[0].aoData[ this[0] ]._detailsShow || false;
}
return false;
} );
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Columns
*
* {integer} - column index (>=0 count from left, <0 count from right)
* "{integer}:visIdx" - visible column index (i.e. translate to column index) (>=0 count from left, <0 count from right)
* "{integer}:visible" - alias for {integer}:visIdx (>=0 count from left, <0 count from right)
* "{string}:name" - column name
* "{string}" - jQuery selector on column header nodes
*
*/
// can be an array of these items, comma separated list, or an array of comma
// separated lists
var __re_column_selector = /^([^:]+):(name|title|visIdx|visible)$/;
// r1 and r2 are redundant - but it means that the parameters match for the
// iterator callback in columns().data()
var __columnData = function ( settings, column, r1, r2, rows, type ) {
var a = [];
for ( var row=0, ien=rows.length ; row<ien ; row++ ) {
a.push( _fnGetCellData( settings, rows[row], column, type ) );
}
return a;
};
var __column_selector = function ( settings, selector, opts )
{
var
columns = settings.aoColumns,
names = _pluck( columns, 'sName' ),
titles = _pluck( columns, 'sTitle' ),
cells = DataTable.util.get('[].[].cell')(settings.aoHeader),
nodes = _unique( _flatten([], cells) );
var run = function ( s ) {
var selInt = _intVal( s );
// Selector - all
if ( s === '' ) {
return _range( columns.length );
}
// Selector - index
if ( selInt !== null ) {
return [ selInt >= 0 ?
selInt : // Count from left
columns.length + selInt // Count from right (+ because its a negative value)
];
}
// Selector = function
if ( typeof s === 'function' ) {
var rows = _selector_row_indexes( settings, opts );
return columns.map(function (col, idx) {
return s(
idx,
__columnData( settings, idx, 0, 0, rows )
) ? idx : null;
});
}
// jQuery or string selector
var match = typeof s === 'string' ?
s.match( __re_column_selector ) :
'';
if ( match ) {
switch( match[2] ) {
case 'visIdx':
case 'visible':
var idx = parseInt( match[1], 10 );
// Visible index given, convert to column index
if ( idx < 0 ) {
// Counting from the right
var visColumns = columns.map( function (col,i) {
return col.bVisible ? i : null;
} );
return [ visColumns[ visColumns.length + idx ] ];
}
// Counting from the left
return [ _fnVisibleToColumnIndex( settings, idx ) ];
case 'name':
// match by name. `names` is column index complete and in order
return names.map( function (name, i) {
return name === match[1] ? i : null;
} );
case 'title':
// match by column title
return titles.map( function (title, i) {
return title === match[1] ? i : null;
} );
default:
return [];
}
}
// Cell in the table body
if ( s.nodeName && s._DT_CellIndex ) {
return [ s._DT_CellIndex.column ];
}
// jQuery selector on the TH elements for the columns
var jqResult = $( nodes )
.filter( s )
.map( function () {
return _fnColumnsFromHeader( this ); // `nodes` is column index complete and in order
} )
.toArray();
if ( jqResult.length || ! s.nodeName ) {
return jqResult;
}
// Otherwise a node which might have a `dt-column` data attribute, or be
// a child or such an element
var host = $(s).closest('*[data-dt-column]');
return host.length ?
[ host.data('dt-column') ] :
[];
};
return _selector_run( 'column', selector, run, settings, opts );
};
var __setColumnVis = function ( settings, column, vis ) {
var
cols = settings.aoColumns,
col = cols[ column ],
data = settings.aoData,
cells, i, ien, tr;
// Get
if ( vis === undefined ) {
return col.bVisible;
}
// Set
// No change
if ( col.bVisible === vis ) {
return false;
}
if ( vis ) {
// Insert column
// Need to decide if we should use appendChild or insertBefore
var insertBefore = _pluck(cols, 'bVisible').indexOf(true, column+1);
for ( i=0, ien=data.length ; i<ien ; i++ ) {
if (data[i]) {
tr = data[i].nTr;
cells = data[i].anCells;
if ( tr ) {
// insertBefore can act like appendChild if 2nd arg is null
tr.insertBefore( cells[ column ], cells[ insertBefore ] || null );
}
}
}
}
else {
// Remove column
$( _pluck( settings.aoData, 'anCells', column ) ).detach();
}
// Common actions
col.bVisible = vis;
_colGroup(settings);
return true;
};
_api_register( 'columns()', function ( selector, opts ) {
// argument shifting
if ( selector === undefined ) {
selector = '';
}
else if ( $.isPlainObject( selector ) ) {
opts = selector;
selector = '';
}
opts = _selector_opts( opts );
var inst = this.iterator( 'table', function ( settings ) {
return __column_selector( settings, selector, opts );
}, 1 );
// Want argument shifting here and in _row_selector?
inst.selector.cols = selector;
inst.selector.opts = opts;
return inst;
} );
_api_registerPlural( 'columns().header()', 'column().header()', function ( row ) {
return this.iterator( 'column', function ( settings, column ) {
var header = settings.aoHeader;
var target = row !== undefined
? row
: settings.bSortCellsTop // legacy support
? 0
: header.length - 1;
return header[target][column].cell;
}, 1 );
} );
_api_registerPlural( 'columns().footer()', 'column().footer()', function ( row ) {
return this.iterator( 'column', function ( settings, column ) {
var footer = settings.aoFooter;
if (! footer.length) {
return null;
}
return settings.aoFooter[row !== undefined ? row : 0][column].cell;
}, 1 );
} );
_api_registerPlural( 'columns().data()', 'column().data()', function () {
return this.iterator( 'column-rows', __columnData, 1 );
} );
_api_registerPlural( 'columns().render()', 'column().render()', function ( type ) {
return this.iterator( 'column-rows', function ( settings, column, i, j, rows ) {
return __columnData( settings, column, i, j, rows, type );
}, 1 );
} );
_api_registerPlural( 'columns().dataSrc()', 'column().dataSrc()', function () {
return this.iterator( 'column', function ( settings, column ) {
return settings.aoColumns[column].mData;
}, 1 );
} );
_api_registerPlural( 'columns().cache()', 'column().cache()', function ( type ) {
return this.iterator( 'column-rows', function ( settings, column, i, j, rows ) {
return _pluck_order( settings.aoData, rows,
type === 'search' ? '_aFilterData' : '_aSortData', column
);
}, 1 );
} );
_api_registerPlural( 'columns().init()', 'column().init()', function () {
return this.iterator( 'column', function ( settings, column ) {
return settings.aoColumns[column];
}, 1 );
} );
_api_registerPlural( 'columns().nodes()', 'column().nodes()', function () {
return this.iterator( 'column-rows', function ( settings, column, i, j, rows ) {
return _pluck_order( settings.aoData, rows, 'anCells', column ) ;
}, 1 );
} );
_api_registerPlural( 'columns().titles()', 'column().title()', function (title, row) {
return this.iterator( 'column', function ( settings, column ) {
// Argument shifting
if (typeof title === 'number') {
row = title;
title = undefined;
}
var span = $('span.dt-column-title', this.column(column).header(row));
if (title !== undefined) {
span.html(title);
return this;
}
return span.html();
}, 1 );
} );
_api_registerPlural( 'columns().types()', 'column().type()', function () {
return this.iterator( 'column', function ( settings, column ) {
var type = settings.aoColumns[column].sType;
// If the type was invalidated, then resolve it. This actually does
// all columns at the moment. Would only happen once if getting all
// column's data types.
if (! type) {
_fnColumnTypes(settings);
}
return type;
}, 1 );
} );
_api_registerPlural( 'columns().visible()', 'column().visible()', function ( vis, calc ) {
var that = this;
var changed = [];
var ret = this.iterator( 'column', function ( settings, column ) {
if ( vis === undefined ) {
return settings.aoColumns[ column ].bVisible;
} // else
if (__setColumnVis( settings, column, vis )) {
changed.push(column);
}
} );
// Group the column visibility changes
if ( vis !== undefined ) {
this.iterator( 'table', function ( settings ) {
// Redraw the header after changes
_fnDrawHead( settings, settings.aoHeader );
_fnDrawHead( settings, settings.aoFooter );
// Update colspan for no records display. Child rows and extensions will use their own
// listeners to do this - only need to update the empty table item here
if ( ! settings.aiDisplay.length ) {
$(settings.nTBody).find('td[colspan]').attr('colspan', _fnVisbleColumns(settings));
}
_fnSaveState( settings );
// Second loop once the first is done for events
that.iterator( 'column', function ( settings, column ) {
if (changed.includes(column)) {
_fnCallbackFire( settings, null, 'column-visibility', [settings, column, vis, calc] );
}
} );
if ( changed.length && (calc === undefined || calc) ) {
that.columns.adjust();
}
});
}
return ret;
} );
_api_registerPlural( 'columns().widths()', 'column().width()', function () {
// Injects a fake row into the table for just a moment so the widths can
// be read, regardless of colspan in the header and rows being present in
// the body
var columns = this.columns(':visible').count();
var row = $('<tr>').html('<td>' + Array(columns).join('</td><td>') + '</td>');
$(this.table().body()).append(row);
var widths = row.children().map(function () {
return $(this).outerWidth();
});
row.remove();
return this.iterator( 'column', function ( settings, column ) {
var visIdx = _fnColumnIndexToVisible( settings, column );
return visIdx !== null ? widths[visIdx] : 0;
}, 1);
} );
_api_registerPlural( 'columns().indexes()', 'column().index()', function ( type ) {
return this.iterator( 'column', function ( settings, column ) {
return type === 'visible' ?
_fnColumnIndexToVisible( settings, column ) :
column;
}, 1 );
} );
_api_register( 'columns.adjust()', function () {
return this.iterator( 'table', function ( settings ) {
_fnAdjustColumnSizing( settings );
}, 1 );
} );
_api_register( 'column.index()', function ( type, idx ) {
if ( this.context.length !== 0 ) {
var ctx = this.context[0];
if ( type === 'fromVisible' || type === 'toData' ) {
return _fnVisibleToColumnIndex( ctx, idx );
}
else if ( type === 'fromData' || type === 'toVisible' ) {
return _fnColumnIndexToVisible( ctx, idx );
}
}
} );
_api_register( 'column()', function ( selector, opts ) {
return _selector_first( this.columns( selector, opts ) );
} );
var __cell_selector = function ( settings, selector, opts )
{
var data = settings.aoData;
var rows = _selector_row_indexes( settings, opts );
var cells = _removeEmpty( _pluck_order( data, rows, 'anCells' ) );
var allCells = $(_flatten( [], cells ));
var row;
var columns = settings.aoColumns.length;
var a, i, ien, j, o, host;
var run = function ( s ) {
var fnSelector = typeof s === 'function';
if ( s === null || s === undefined || fnSelector ) {
// All cells and function selectors
a = [];
for ( i=0, ien=rows.length ; i<ien ; i++ ) {
row = rows[i];
for ( j=0 ; j<columns ; j++ ) {
o = {
row: row,
column: j
};
if ( fnSelector ) {
// Selector - function
host = data[ row ];
if ( s( o, _fnGetCellData(settings, row, j), host.anCells ? host.anCells[j] : null ) ) {
a.push( o );
}
}
else {
// Selector - all
a.push( o );
}
}
}
return a;
}
// Selector - index
if ( $.isPlainObject( s ) ) {
// Valid cell index and its in the array of selectable rows
return s.column !== undefined && s.row !== undefined && rows.indexOf(s.row) !== -1 ?
[s] :
[];
}
// Selector - jQuery filtered cells
var jqResult = allCells
.filter( s )
.map( function (i, el) {
return { // use a new object, in case someone changes the values
row: el._DT_CellIndex.row,
column: el._DT_CellIndex.column
};
} )
.toArray();
if ( jqResult.length || ! s.nodeName ) {
return jqResult;
}
// Otherwise the selector is a node, and there is one last option - the
// element might be a child of an element which has dt-row and dt-column
// data attributes
host = $(s).closest('*[data-dt-row]');
return host.length ?
[ {
row: host.data('dt-row'),
column: host.data('dt-column')
} ] :
[];
};
return _selector_run( 'cell', selector, run, settings, opts );
};
_api_register( 'cells()', function ( rowSelector, columnSelector, opts ) {
// Argument shifting
if ( $.isPlainObject( rowSelector ) ) {
// Indexes
if ( rowSelector.row === undefined ) {
// Selector options in first parameter
opts = rowSelector;
rowSelector = null;
}
else {
// Cell index objects in first parameter
opts = columnSelector;
columnSelector = null;
}
}
if ( $.isPlainObject( columnSelector ) ) {
opts = columnSelector;
columnSelector = null;
}
// Cell selector
if ( columnSelector === null || columnSelector === undefined ) {
return this.iterator( 'table', function ( settings ) {
return __cell_selector( settings, rowSelector, _selector_opts( opts ) );
} );
}
// The default built in options need to apply to row and columns
var internalOpts = opts ? {
page: opts.page,
order: opts.order,
search: opts.search
} : {};
// Row + column selector
var columns = this.columns( columnSelector, internalOpts );
var rows = this.rows( rowSelector, internalOpts );
var i, ien, j, jen;
var cellsNoOpts = this.iterator( 'table', function ( settings, idx ) {
var a = [];
for ( i=0, ien=rows[idx].length ; i<ien ; i++ ) {
for ( j=0, jen=columns[idx].length ; j<jen ; j++ ) {
a.push( {
row: rows[idx][i],
column: columns[idx][j]
} );
}
}
return a;
}, 1 );
// There is currently only one extension which uses a cell selector extension
// It is a _major_ performance drag to run this if it isn't needed, so this is
// an extension specific check at the moment
var cells = opts && opts.selected ?
this.cells( cellsNoOpts, opts ) :
cellsNoOpts;
$.extend( cells.selector, {
cols: columnSelector,
rows: rowSelector,
opts: opts
} );
return cells;
} );
_api_registerPlural( 'cells().nodes()', 'cell().node()', function () {
return this.iterator( 'cell', function ( settings, row, column ) {
var data = settings.aoData[ row ];
return data && data.anCells ?
data.anCells[ column ] :
undefined;
}, 1 );
} );
_api_register( 'cells().data()', function () {
return this.iterator( 'cell', function ( settings, row, column ) {
return _fnGetCellData( settings, row, column );
}, 1 );
} );
_api_registerPlural( 'cells().cache()', 'cell().cache()', function ( type ) {
type = type === 'search' ? '_aFilterData' : '_aSortData';
return this.iterator( 'cell', function ( settings, row, column ) {
return settings.aoData[ row ][ type ][ column ];
}, 1 );
} );
_api_registerPlural( 'cells().render()', 'cell().render()', function ( type ) {
return this.iterator( 'cell', function ( settings, row, column ) {
return _fnGetCellData( settings, row, column, type );
}, 1 );
} );
_api_registerPlural( 'cells().indexes()', 'cell().index()', function () {
return this.iterator( 'cell', function ( settings, row, column ) {
return {
row: row,
column: column,
columnVisible: _fnColumnIndexToVisible( settings, column )
};
}, 1 );
} );
_api_registerPlural( 'cells().invalidate()', 'cell().invalidate()', function ( src ) {
return this.iterator( 'cell', function ( settings, row, column ) {
_fnInvalidate( settings, row, src, column );
} );
} );
_api_register( 'cell()', function ( rowSelector, columnSelector, opts ) {
return _selector_first( this.cells( rowSelector, columnSelector, opts ) );
} );
_api_register( 'cell().data()', function ( data ) {
var ctx = this.context;
var cell = this[0];
if ( data === undefined ) {
// Get
return ctx.length && cell.length ?
_fnGetCellData( ctx[0], cell[0].row, cell[0].column ) :
undefined;
}
// Set
_fnSetCellData( ctx[0], cell[0].row, cell[0].column, data );
_fnInvalidate( ctx[0], cell[0].row, 'data', cell[0].column );
return this;
} );
/**
* Get current ordering (sorting) that has been applied to the table.
*
* @returns {array} 2D array containing the sorting information for the first
* table in the current context. Each element in the parent array represents
* a column being sorted upon (i.e. multi-sorting with two columns would have
* 2 inner arrays). The inner arrays may have 2 or 3 elements. The first is
* the column index that the sorting condition applies to, the second is the
* direction of the sort (`desc` or `asc`) and, optionally, the third is the
* index of the sorting order from the `column.sorting` initialisation array.
*//**
* Set the ordering for the table.
*
* @param {integer} order Column index to sort upon.
* @param {string} direction Direction of the sort to be applied (`asc` or `desc`)
* @returns {DataTables.Api} this
*//**
* Set the ordering for the table.
*
* @param {array} order 1D array of sorting information to be applied.
* @param {array} [...] Optional additional sorting conditions
* @returns {DataTables.Api} this
*//**
* Set the ordering for the table.
*
* @param {array} order 2D array of sorting information to be applied.
* @returns {DataTables.Api} this
*/
_api_register( 'order()', function ( order, dir ) {
var ctx = this.context;
var args = Array.prototype.slice.call( arguments );
if ( order === undefined ) {
// get
return ctx.length !== 0 ?
ctx[0].aaSorting :
undefined;
}
// set
if ( typeof order === 'number' ) {
// Simple column / direction passed in
order = [ [ order, dir ] ];
}
else if ( args.length > 1 ) {
// Arguments passed in (list of 1D arrays)
order = args;
}
// otherwise a 2D array was passed in
return this.iterator( 'table', function ( settings ) {
settings.aaSorting = Array.isArray(order) ? order.slice() : order;
} );
} );
/**
* Attach a sort listener to an element for a given column
*
* @param {node|jQuery|string} node Identifier for the element(s) to attach the
* listener to. This can take the form of a single DOM node, a jQuery
* collection of nodes or a jQuery selector which will identify the node(s).
* @param {integer} column the column that a click on this node will sort on
* @param {function} [callback] callback function when sort is run
* @returns {DataTables.Api} this
*/
_api_register( 'order.listener()', function ( node, column, callback ) {
return this.iterator( 'table', function ( settings ) {
_fnSortAttachListener(settings, node, {}, column, callback);
} );
} );
_api_register( 'order.fixed()', function ( set ) {
if ( ! set ) {
var ctx = this.context;
var fixed = ctx.length ?
ctx[0].aaSortingFixed :
undefined;
return Array.isArray( fixed ) ?
{ pre: fixed } :
fixed;
}
return this.iterator( 'table', function ( settings ) {
settings.aaSortingFixed = $.extend( true, {}, set );
} );
} );
// Order by the selected column(s)
_api_register( [
'columns().order()',
'column().order()'
], function ( dir ) {
var that = this;
if ( ! dir ) {
return this.iterator( 'column', function ( settings, idx ) {
var sort = _fnSortFlatten( settings );
for ( var i=0, ien=sort.length ; i<ien ; i++ ) {
if ( sort[i].col === idx ) {
return sort[i].dir;
}
}
return null;
}, 1 );
}
else {
return this.iterator( 'table', function ( settings, i ) {
settings.aaSorting = that[i].map( function (col) {
return [ col, dir ];
} );
} );
}
} );
_api_registerPlural('columns().orderable()', 'column().orderable()', function ( directions ) {
return this.iterator( 'column', function ( settings, idx ) {
var col = settings.aoColumns[idx];
return directions ?
col.asSorting :
col.bSortable;
}, 1 );
} );
_api_register( 'processing()', function ( show ) {
return this.iterator( 'table', function ( ctx ) {
_fnProcessingDisplay( ctx, show );
} );
} );
_api_register( 'search()', function ( input, regex, smart, caseInsen ) {
var ctx = this.context;
if ( input === undefined ) {
// get
return ctx.length !== 0 ?
ctx[0].oPreviousSearch.search :
undefined;
}
// set
return this.iterator( 'table', function ( settings ) {
if ( ! settings.oFeatures.bFilter ) {
return;
}
if (typeof regex === 'object') {
// New style options to pass to the search builder
_fnFilterComplete( settings, $.extend( settings.oPreviousSearch, regex, {
search: input
} ) );
}
else {
// Compat for the old options
_fnFilterComplete( settings, $.extend( settings.oPreviousSearch, {
search: input,
regex: regex === null ? false : regex,
smart: smart === null ? true : smart,
caseInsensitive: caseInsen === null ? true : caseInsen
} ) );
}
} );
} );
_api_register( 'search.fixed()', function ( name, search ) {
var ret = this.iterator( true, 'table', function ( settings ) {
var fixed = settings.searchFixed;
if (! name) {
return Object.keys(fixed)
}
else if (search === undefined) {
return fixed[name];
}
else if (search === null) {
delete fixed[name];
}
else {
fixed[name] = search;
}
return this;
} );
return name !== undefined && search === undefined
? ret[0]
: ret;
} );
_api_registerPlural(
'columns().search()',
'column().search()',
function ( input, regex, smart, caseInsen ) {
return this.iterator( 'column', function ( settings, column ) {
var preSearch = settings.aoPreSearchCols;
if ( input === undefined ) {
// get
return preSearch[ column ].search;
}
// set
if ( ! settings.oFeatures.bFilter ) {
return;
}
if (typeof regex === 'object') {
// New style options to pass to the search builder
$.extend( preSearch[ column ], regex, {
search: input
} );
}
else {
// Old style (with not all options available)
$.extend( preSearch[ column ], {
search: input,
regex: regex === null ? false : regex,
smart: smart === null ? true : smart,
caseInsensitive: caseInsen === null ? true : caseInsen
} );
}
_fnFilterComplete( settings, settings.oPreviousSearch );
} );
}
);
_api_register([
'columns().search.fixed()',
'column().search.fixed()'
],
function ( name, search ) {
var ret = this.iterator( true, 'column', function ( settings, colIdx ) {
var fixed = settings.aoColumns[colIdx].searchFixed;
if (! name) {
return Object.keys(fixed)
}
else if (search === undefined) {
return fixed[name];
}
else if (search === null) {
delete fixed[name];
}
else {
fixed[name] = search;
}
return this;
} );
return name !== undefined && search === undefined
? ret[0]
: ret;
}
);
/*
* State API methods
*/
_api_register( 'state()', function ( set, ignoreTime ) {
// getter
if ( ! set ) {
return this.context.length ?
this.context[0].oSavedState :
null;
}
var setMutate = $.extend( true, {}, set );
// setter
return this.iterator( 'table', function ( settings ) {
if ( ignoreTime !== false ) {
setMutate.time = +new Date() + 100;
}
_fnImplementState( settings, setMutate, function(){} );
} );
} );
_api_register( 'state.clear()', function () {
return this.iterator( 'table', function ( settings ) {
// Save an empty object
settings.fnStateSaveCallback.call( settings.oInstance, settings, {} );
} );
} );
_api_register( 'state.loaded()', function () {
return this.context.length ?
this.context[0].oLoadedState :
null;
} );
_api_register( 'state.save()', function () {
return this.iterator( 'table', function ( settings ) {
_fnSaveState( settings );
} );
} );
/**
* Set the jQuery or window object to be used by DataTables
*
* @param {*} module Library / container object
* @param {string} [type] Library or container type `lib`, `win` or `datetime`.
* If not provided, automatic detection is attempted.
*/
DataTable.use = function (module, type) {
if (type === 'lib' || module.fn) {
$ = module;
}
else if (type == 'win' || module.document) {
window = module;
document = module.document;
}
else if (type === 'datetime' || module.type === 'DateTime') {
DataTable.DateTime = module;
}
}
/**
* CommonJS factory function pass through. This will check if the arguments
* given are a window object or a jQuery object. If so they are set
* accordingly.
* @param {*} root Window
* @param {*} jq jQUery
* @returns {boolean} Indicator
*/
DataTable.factory = function (root, jq) {
var is = false;
// Test if the first parameter is a window object
if (root && root.document) {
window = root;
document = root.document;
}
// Test if the second parameter is a jQuery object
if (jq && jq.fn && jq.fn.jquery) {
$ = jq;
is = true;
}
return is;
}
/**
* Provide a common method for plug-ins to check the version of DataTables being
* used, in order to ensure compatibility.
*
* @param {string} version Version string to check for, in the format "X.Y.Z".
* Note that the formats "X" and "X.Y" are also acceptable.
* @param {string} [version2=current DataTables version] As above, but optional.
* If not given the current DataTables version will be used.
* @returns {boolean} true if this version of DataTables is greater or equal to
* the required version, or false if this version of DataTales is not
* suitable
* @static
* @dtopt API-Static
*
* @example
* alert( $.fn.dataTable.versionCheck( '1.9.0' ) );
*/
DataTable.versionCheck = function( version, version2 )
{
var aThis = version2 ?
version2.split('.') :
DataTable.version.split('.');
var aThat = version.split('.');
var iThis, iThat;
for ( var i=0, iLen=aThat.length ; i<iLen ; i++ ) {
iThis = parseInt( aThis[i], 10 ) || 0;
iThat = parseInt( aThat[i], 10 ) || 0;
// Parts are the same, keep comparing
if (iThis === iThat) {
continue;
}
// Parts are different, return immediately
return iThis > iThat;
}
return true;
};
/**
* Check if a `<table>` node is a DataTable table already or not.
*
* @param {node|jquery|string} table Table node, jQuery object or jQuery
* selector for the table to test. Note that if more than more than one
* table is passed on, only the first will be checked
* @returns {boolean} true the table given is a DataTable, or false otherwise
* @static
* @dtopt API-Static
*
* @example
* if ( ! $.fn.DataTable.isDataTable( '#example' ) ) {
* $('#example').dataTable();
* }
*/
DataTable.isDataTable = function ( table )
{
var t = $(table).get(0);
var is = false;
if ( table instanceof DataTable.Api ) {
return true;
}
$.each( DataTable.settings, function (i, o) {
var head = o.nScrollHead ? $('table', o.nScrollHead)[0] : null;
var foot = o.nScrollFoot ? $('table', o.nScrollFoot)[0] : null;
if ( o.nTable === t || head === t || foot === t ) {
is = true;
}
} );
return is;
};
/**
* Get all DataTable tables that have been initialised - optionally you can
* select to get only currently visible tables.
*
* @param {boolean} [visible=false] Flag to indicate if you want all (default)
* or visible tables only.
* @returns {array} Array of `table` nodes (not DataTable instances) which are
* DataTables
* @static
* @dtopt API-Static
*
* @example
* $.each( $.fn.dataTable.tables(true), function () {
* $(table).DataTable().columns.adjust();
* } );
*/
DataTable.tables = function ( visible )
{
var api = false;
if ( $.isPlainObject( visible ) ) {
api = visible.api;
visible = visible.visible;
}
var a = DataTable.settings
.filter( function (o) {
return !visible || (visible && $(o.nTable).is(':visible'))
? true
: false;
} )
.map( function (o) {
return o.nTable;
});
return api ?
new _Api( a ) :
a;
};
/**
* Convert from camel case parameters to Hungarian notation. This is made public
* for the extensions to provide the same ability as DataTables core to accept
* either the 1.9 style Hungarian notation, or the 1.10+ style camelCase
* parameters.
*
* @param {object} src The model object which holds all parameters that can be
* mapped.
* @param {object} user The object to convert from camel case to Hungarian.
* @param {boolean} force When set to `true`, properties which already have a
* Hungarian value in the `user` object will be overwritten. Otherwise they
* won't be.
*/
DataTable.camelToHungarian = _fnCamelToHungarian;
/**
*
*/
_api_register( '$()', function ( selector, opts ) {
var
rows = this.rows( opts ).nodes(), // Get all rows
jqRows = $(rows);
return $( [].concat(
jqRows.filter( selector ).toArray(),
jqRows.find( selector ).toArray()
) );
} );
// jQuery functions to operate on the tables
$.each( [ 'on', 'one', 'off' ], function (i, key) {
_api_register( key+'()', function ( /* event, handler */ ) {
var args = Array.prototype.slice.call(arguments);
// Add the `dt` namespace automatically if it isn't already present
args[0] = args[0].split( /\s/ ).map( function ( e ) {
return ! e.match(/\.dt\b/) ?
e+'.dt' :
e;
} ).join( ' ' );
var inst = $( this.tables().nodes() );
inst[key].apply( inst, args );
return this;
} );
} );
_api_register( 'clear()', function () {
return this.iterator( 'table', function ( settings ) {
_fnClearTable( settings );
} );
} );
_api_register( 'error()', function (msg) {
return this.iterator( 'table', function ( settings ) {
_fnLog( settings, 0, msg );
} );
} );
_api_register( 'settings()', function () {
return new _Api( this.context, this.context );
} );
_api_register( 'init()', function () {
var ctx = this.context;
return ctx.length ? ctx[0].oInit : null;
} );
_api_register( 'data()', function () {
return this.iterator( 'table', function ( settings ) {
return _pluck( settings.aoData, '_aData' );
} ).flatten();
} );
_api_register( 'trigger()', function ( name, args, bubbles ) {
return this.iterator( 'table', function ( settings ) {
return _fnCallbackFire( settings, null, name, args, bubbles );
} ).flatten();
} );
_api_register( 'ready()', function ( fn ) {
var ctx = this.context;
// Get status of first table
if (! fn) {
return ctx.length
? (ctx[0]._bInitComplete || false)
: null;
}
// Function to run either once the table becomes ready or
// immediately if it is already ready.
return this.tables().every(function () {
if (this.context[0]._bInitComplete) {
fn.call(this);
}
else {
this.on('init', function () {
fn.call(this);
});
}
} );
} );
_api_register( 'destroy()', function ( remove ) {
remove = remove || false;
return this.iterator( 'table', function ( settings ) {
var classes = settings.oClasses;
var table = settings.nTable;
var tbody = settings.nTBody;
var thead = settings.nTHead;
var tfoot = settings.nTFoot;
var jqTable = $(table);
var jqTbody = $(tbody);
var jqWrapper = $(settings.nTableWrapper);
var rows = settings.aoData.map( function (r) { return r ? r.nTr : null; } );
var orderClasses = classes.order;
// Flag to note that the table is currently being destroyed - no action
// should be taken
settings.bDestroying = true;
// Fire off the destroy callbacks for plug-ins etc
_fnCallbackFire( settings, "aoDestroyCallback", "destroy", [settings], true );
// If not being removed from the document, make all columns visible
if ( ! remove ) {
new _Api( settings ).columns().visible( true );
}
// Blitz all `DT` namespaced events (these are internal events, the
// lowercase, `dt` events are user subscribed and they are responsible
// for removing them
jqWrapper.off('.DT').find(':not(tbody *)').off('.DT');
$(window).off('.DT-'+settings.sInstance);
// When scrolling we had to break the table up - restore it
if ( table != thead.parentNode ) {
jqTable.children('thead').detach();
jqTable.append( thead );
}
if ( tfoot && table != tfoot.parentNode ) {
jqTable.children('tfoot').detach();
jqTable.append( tfoot );
}
settings.aaSorting = [];
settings.aaSortingFixed = [];
_fnSortingClasses( settings );
$('th, td', thead)
.removeClass(
orderClasses.canAsc + ' ' +
orderClasses.canDesc + ' ' +
orderClasses.isAsc + ' ' +
orderClasses.isDesc
)
.css('width', '');
// Add the TR elements back into the table in their original order
jqTbody.children().detach();
jqTbody.append( rows );
var orig = settings.nTableWrapper.parentNode;
var insertBefore = settings.nTableWrapper.nextSibling;
// Remove the DataTables generated nodes, events and classes
var removedMethod = remove ? 'remove' : 'detach';
jqTable[ removedMethod ]();
jqWrapper[ removedMethod ]();
// If we need to reattach the table to the document
if ( ! remove && orig ) {
// insertBefore acts like appendChild if !arg[1]
orig.insertBefore( table, insertBefore );
// Restore the width of the original table - was read from the style property,
// so we can restore directly to that
jqTable
.css( 'width', settings.sDestroyWidth )
.removeClass( classes.table );
}
/* Remove the settings object from the settings array */
var idx = DataTable.settings.indexOf(settings);
if ( idx !== -1 ) {
DataTable.settings.splice( idx, 1 );
}
} );
} );
// Add the `every()` method for rows, columns and cells in a compact form
$.each( [ 'column', 'row', 'cell' ], function ( i, type ) {
_api_register( type+'s().every()', function ( fn ) {
var opts = this.selector.opts;
var api = this;
var inst;
var counter = 0;
return this.iterator( 'every', function ( settings, selectedIdx, tableIdx ) {
inst = api[ type ](selectedIdx, opts);
if (type === 'cell') {
fn.call(inst, inst[0][0].row, inst[0][0].column, tableIdx, counter);
}
else {
fn.call(inst, selectedIdx, tableIdx, counter);
}
counter++;
} );
} );
} );
// i18n method for extensions to be able to use the language object from the
// DataTable
_api_register( 'i18n()', function ( token, def, plural ) {
var ctx = this.context[0];
var resolved = _fnGetObjectDataFn( token )( ctx.oLanguage );
if ( resolved === undefined ) {
resolved = def;
}
if ( $.isPlainObject( resolved ) ) {
resolved = plural !== undefined && resolved[ plural ] !== undefined ?
resolved[ plural ] :
resolved._;
}
return typeof resolved === 'string'
? resolved.replace( '%d', plural ) // nb: plural might be undefined,
: resolved;
} );
/**
* Version string for plug-ins to check compatibility. Allowed format is
* `a.b.c-d` where: a:int, b:int, c:int, d:string(dev|beta|alpha). `d` is used
* only for non-release builds. See https://semver.org/ for more information.
* @member
* @type string
* @default Version number
*/
DataTable.version = "2.0.0";
/**
* Private data store, containing all of the settings objects that are
* created for the tables on a given page.
*
* Note that the `DataTable.settings` object is aliased to
* `jQuery.fn.dataTableExt` through which it may be accessed and
* manipulated, or `jQuery.fn.dataTable.settings`.
* @member
* @type array
* @default []
* @private
*/
DataTable.settings = [];
/**
* Object models container, for the various models that DataTables has
* available to it. These models define the objects that are used to hold
* the active state and configuration of the table.
* @namespace
*/
DataTable.models = {};
/**
* Template object for the way in which DataTables holds information about
* search information for the global filter and individual column filters.
* @namespace
*/
DataTable.models.oSearch = {
/**
* Flag to indicate if the filtering should be case insensitive or not
*/
"caseInsensitive": true,
/**
* Applied search term
*/
"search": "",
/**
* Flag to indicate if the search term should be interpreted as a
* regular expression (true) or not (false) and therefore and special
* regex characters escaped.
*/
"regex": false,
/**
* Flag to indicate if DataTables is to use its smart filtering or not.
*/
"smart": true,
/**
* Flag to indicate if DataTables should only trigger a search when
* the return key is pressed.
*/
"return": false
};
/**
* Template object for the way in which DataTables holds information about
* each individual row. This is the object format used for the settings
* aoData array.
* @namespace
*/
DataTable.models.oRow = {
/**
* TR element for the row
*/
"nTr": null,
/**
* Array of TD elements for each row. This is null until the row has been
* created.
*/
"anCells": null,
/**
* Data object from the original data source for the row. This is either
* an array if using the traditional form of DataTables, or an object if
* using mData options. The exact type will depend on the passed in
* data from the data source, or will be an array if using DOM a data
* source.
*/
"_aData": [],
/**
* Sorting data cache - this array is ostensibly the same length as the
* number of columns (although each index is generated only as it is
* needed), and holds the data that is used for sorting each column in the
* row. We do this cache generation at the start of the sort in order that
* the formatting of the sort data need be done only once for each cell
* per sort. This array should not be read from or written to by anything
* other than the master sorting methods.
*/
"_aSortData": null,
/**
* Per cell filtering data cache. As per the sort data cache, used to
* increase the performance of the filtering in DataTables
*/
"_aFilterData": null,
/**
* Filtering data cache. This is the same as the cell filtering cache, but
* in this case a string rather than an array. This is easily computed with
* a join on `_aFilterData`, but is provided as a cache so the join isn't
* needed on every search (memory traded for performance)
*/
"_sFilterRow": null,
/**
* Denote if the original data source was from the DOM, or the data source
* object. This is used for invalidating data, so DataTables can
* automatically read data from the original source, unless uninstructed
* otherwise.
*/
"src": null,
/**
* Index in the aoData array. This saves an indexOf lookup when we have the
* object, but want to know the index
*/
"idx": -1,
/**
* Cached display value
*/
displayData: null
};
/**
* Template object for the column information object in DataTables. This object
* is held in the settings aoColumns array and contains all the information that
* DataTables needs about each individual column.
*
* Note that this object is related to {@link DataTable.defaults.column}
* but this one is the internal data store for DataTables's cache of columns.
* It should NOT be manipulated outside of DataTables. Any configuration should
* be done through the initialisation options.
* @namespace
*/
DataTable.models.oColumn = {
/**
* Column index.
*/
"idx": null,
/**
* A list of the columns that sorting should occur on when this column
* is sorted. That this property is an array allows multi-column sorting
* to be defined for a column (for example first name / last name columns
* would benefit from this). The values are integers pointing to the
* columns to be sorted on (typically it will be a single integer pointing
* at itself, but that doesn't need to be the case).
*/
"aDataSort": null,
/**
* Define the sorting directions that are applied to the column, in sequence
* as the column is repeatedly sorted upon - i.e. the first value is used
* as the sorting direction when the column if first sorted (clicked on).
* Sort it again (click again) and it will move on to the next index.
* Repeat until loop.
*/
"asSorting": null,
/**
* Flag to indicate if the column is searchable, and thus should be included
* in the filtering or not.
*/
"bSearchable": null,
/**
* Flag to indicate if the column is sortable or not.
*/
"bSortable": null,
/**
* Flag to indicate if the column is currently visible in the table or not
*/
"bVisible": null,
/**
* Store for manual type assignment using the `column.type` option. This
* is held in store so we can manipulate the column's `sType` property.
*/
"_sManualType": null,
/**
* Flag to indicate if HTML5 data attributes should be used as the data
* source for filtering or sorting. True is either are.
*/
"_bAttrSrc": false,
/**
* Developer definable function that is called whenever a cell is created (Ajax source,
* etc) or processed for input (DOM source). This can be used as a compliment to mRender
* allowing you to modify the DOM element (add background colour for example) when the
* element is available.
*/
"fnCreatedCell": null,
/**
* Function to get data from a cell in a column. You should <b>never</b>
* access data directly through _aData internally in DataTables - always use
* the method attached to this property. It allows mData to function as
* required. This function is automatically assigned by the column
* initialisation method
*/
"fnGetData": null,
/**
* Function to set data for a cell in the column. You should <b>never</b>
* set the data directly to _aData internally in DataTables - always use
* this method. It allows mData to function as required. This function
* is automatically assigned by the column initialisation method
*/
"fnSetData": null,
/**
* Property to read the value for the cells in the column from the data
* source array / object. If null, then the default content is used, if a
* function is given then the return from the function is used.
*/
"mData": null,
/**
* Partner property to mData which is used (only when defined) to get
* the data - i.e. it is basically the same as mData, but without the
* 'set' option, and also the data fed to it is the result from mData.
* This is the rendering method to match the data method of mData.
*/
"mRender": null,
/**
* The class to apply to all TD elements in the table's TBODY for the column
*/
"sClass": null,
/**
* When DataTables calculates the column widths to assign to each column,
* it finds the longest string in each column and then constructs a
* temporary table and reads the widths from that. The problem with this
* is that "mmm" is much wider then "iiii", but the latter is a longer
* string - thus the calculation can go wrong (doing it properly and putting
* it into an DOM object and measuring that is horribly(!) slow). Thus as
* a "work around" we provide this option. It will append its value to the
* text that is found to be the longest string for the column - i.e. padding.
*/
"sContentPadding": null,
/**
* Allows a default value to be given for a column's data, and will be used
* whenever a null data source is encountered (this can be because mData
* is set to null, or because the data source itself is null).
*/
"sDefaultContent": null,
/**
* Name for the column, allowing reference to the column by name as well as
* by index (needs a lookup to work by name).
*/
"sName": null,
/**
* Custom sorting data type - defines which of the available plug-ins in
* afnSortData the custom sorting will use - if any is defined.
*/
"sSortDataType": 'std',
/**
* Class to be applied to the header element when sorting on this column
*/
"sSortingClass": null,
/**
* Title of the column - what is seen in the TH element (nTh).
*/
"sTitle": null,
/**
* Column sorting and filtering type
*/
"sType": null,
/**
* Width of the column
*/
"sWidth": null,
/**
* Width of the column when it was first "encountered"
*/
"sWidthOrig": null,
/** Cached string which is the longest in the column */
maxLenString: null,
/**
* Store for named searches
*/
searchFixed: null
};
/*
* Developer note: The properties of the object below are given in Hungarian
* notation, that was used as the interface for DataTables prior to v1.10, however
* from v1.10 onwards the primary interface is camel case. In order to avoid
* breaking backwards compatibility utterly with this change, the Hungarian
* version is still, internally the primary interface, but is is not documented
* - hence the @name tags in each doc comment. This allows a Javascript function
* to create a map from Hungarian notation to camel case (going the other direction
* would require each property to be listed, which would add around 3K to the size
* of DataTables, while this method is about a 0.5K hit).
*
* Ultimately this does pave the way for Hungarian notation to be dropped
* completely, but that is a massive amount of work and will break current
* installs (therefore is on-hold until v2).
*/
/**
* Initialisation options that can be given to DataTables at initialisation
* time.
* @namespace
*/
DataTable.defaults = {
/**
* An array of data to use for the table, passed in at initialisation which
* will be used in preference to any data which is already in the DOM. This is
* particularly useful for constructing tables purely in Javascript, for
* example with a custom Ajax call.
*/
"aaData": null,
/**
* If ordering is enabled, then DataTables will perform a first pass sort on
* initialisation. You can define which column(s) the sort is performed
* upon, and the sorting direction, with this variable. The `sorting` array
* should contain an array for each column to be sorted initially containing
* the column's index and a direction string ('asc' or 'desc').
*/
"aaSorting": [[0,'asc']],
/**
* This parameter is basically identical to the `sorting` parameter, but
* cannot be overridden by user interaction with the table. What this means
* is that you could have a column (visible or hidden) which the sorting
* will always be forced on first - any sorting after that (from the user)
* will then be performed as required. This can be useful for grouping rows
* together.
*/
"aaSortingFixed": [],
/**
* DataTables can be instructed to load data to display in the table from a
* Ajax source. This option defines how that Ajax call is made and where to.
*
* The `ajax` property has three different modes of operation, depending on
* how it is defined. These are:
*
* * `string` - Set the URL from where the data should be loaded from.
* * `object` - Define properties for `jQuery.ajax`.
* * `function` - Custom data get function
*
* `string`
* --------
*
* As a string, the `ajax` property simply defines the URL from which
* DataTables will load data.
*
* `object`
* --------
*
* As an object, the parameters in the object are passed to
* [jQuery.ajax](https://api.jquery.com/jQuery.ajax/) allowing fine control
* of the Ajax request. DataTables has a number of default parameters which
* you can override using this option. Please refer to the jQuery
* documentation for a full description of the options available, although
* the following parameters provide additional options in DataTables or
* require special consideration:
*
* * `data` - As with jQuery, `data` can be provided as an object, but it
* can also be used as a function to manipulate the data DataTables sends
* to the server. The function takes a single parameter, an object of
* parameters with the values that DataTables has readied for sending. An
* object may be returned which will be merged into the DataTables
* defaults, or you can add the items to the object that was passed in and
* not return anything from the function. This supersedes `fnServerParams`
* from DataTables 1.9-.
*
* * `dataSrc` - By default DataTables will look for the property `data` (or
* `aaData` for compatibility with DataTables 1.9-) when obtaining data
* from an Ajax source or for server-side processing - this parameter
* allows that property to be changed. You can use Javascript dotted
* object notation to get a data source for multiple levels of nesting, or
* it my be used as a function. As a function it takes a single parameter,
* the JSON returned from the server, which can be manipulated as
* required, with the returned value being that used by DataTables as the
* data source for the table.
*
* * `success` - Should not be overridden it is used internally in
* DataTables. To manipulate / transform the data returned by the server
* use `ajax.dataSrc`, or use `ajax` as a function (see below).
*
* `function`
* ----------
*
* As a function, making the Ajax call is left up to yourself allowing
* complete control of the Ajax request. Indeed, if desired, a method other
* than Ajax could be used to obtain the required data, such as Web storage
* or an AIR database.
*
* The function is given four parameters and no return is required. The
* parameters are:
*
* 1. _object_ - Data to send to the server
* 2. _function_ - Callback function that must be executed when the required
* data has been obtained. That data should be passed into the callback
* as the only parameter
* 3. _object_ - DataTables settings object for the table
*/
"ajax": null,
/**
* This parameter allows you to readily specify the entries in the length drop
* down menu that DataTables shows when pagination is enabled. It can be
* either a 1D array of options which will be used for both the displayed
* option and the value, or a 2D array which will use the array in the first
* position as the value, and the array in the second position as the
* displayed options (useful for language strings such as 'All').
*
* Note that the `pageLength` property will be automatically set to the
* first value given in this array, unless `pageLength` is also provided.
*/
"aLengthMenu": [ 10, 25, 50, 100 ],
/**
* The `columns` option in the initialisation parameter allows you to define
* details about the way individual columns behave. For a full list of
* column options that can be set, please see
* {@link DataTable.defaults.column}. Note that if you use `columns` to
* define your columns, you must have an entry in the array for every single
* column that you have in your table (these can be null if you don't which
* to specify any options).
*/
"aoColumns": null,
/**
* Very similar to `columns`, `columnDefs` allows you to target a specific
* column, multiple columns, or all columns, using the `targets` property of
* each object in the array. This allows great flexibility when creating
* tables, as the `columnDefs` arrays can be of any length, targeting the
* columns you specifically want. `columnDefs` may use any of the column
* options available: {@link DataTable.defaults.column}, but it _must_
* have `targets` defined in each object in the array. Values in the `targets`
* array may be:
* <ul>
* <li>a string - class name will be matched on the TH for the column</li>
* <li>0 or a positive integer - column index counting from the left</li>
* <li>a negative integer - column index counting from the right</li>
* <li>the string "_all" - all columns (i.e. assign a default)</li>
* </ul>
*/
"aoColumnDefs": null,
/**
* Basically the same as `search`, this parameter defines the individual column
* filtering state at initialisation time. The array must be of the same size
* as the number of columns, and each element be an object with the parameters
* `search` and `escapeRegex` (the latter is optional). 'null' is also
* accepted and the default will be used.
*/
"aoSearchCols": [],
/**
* Enable or disable automatic column width calculation. This can be disabled
* as an optimisation (it takes some time to calculate the widths) if the
* tables widths are passed in using `columns`.
*/
"bAutoWidth": true,
/**
* Deferred rendering can provide DataTables with a huge speed boost when you
* are using an Ajax or JS data source for the table. This option, when set to
* true, will cause DataTables to defer the creation of the table elements for
* each row until they are needed for a draw - saving a significant amount of
* time.
*/
"bDeferRender": true,
/**
* Replace a DataTable which matches the given selector and replace it with
* one which has the properties of the new initialisation object passed. If no
* table matches the selector, then the new DataTable will be constructed as
* per normal.
*/
"bDestroy": false,
/**
* Enable or disable filtering of data. Filtering in DataTables is "smart" in
* that it allows the end user to input multiple words (space separated) and
* will match a row containing those words, even if not in the order that was
* specified (this allow matching across multiple columns). Note that if you
* wish to use filtering in DataTables this must remain 'true' - to remove the
* default filtering input box and retain filtering abilities, please use
* {@link DataTable.defaults.dom}.
*/
"bFilter": true,
/**
* Used only for compatiblity with DT1
* @deprecated
*/
"bInfo": true,
/**
* Used only for compatiblity with DT1
* @deprecated
*/
"bLengthChange": true,
/**
* Enable or disable pagination.
*/
"bPaginate": true,
/**
* Enable or disable the display of a 'processing' indicator when the table is
* being processed (e.g. a sort). This is particularly useful for tables with
* large amounts of data where it can take a noticeable amount of time to sort
* the entries.
*/
"bProcessing": false,
/**
* Retrieve the DataTables object for the given selector. Note that if the
* table has already been initialised, this parameter will cause DataTables
* to simply return the object that has already been set up - it will not take
* account of any changes you might have made to the initialisation object
* passed to DataTables (setting this parameter to true is an acknowledgement
* that you understand this). `destroy` can be used to reinitialise a table if
* you need.
*/
"bRetrieve": false,
/**
* When vertical (y) scrolling is enabled, DataTables will force the height of
* the table's viewport to the given height at all times (useful for layout).
* However, this can look odd when filtering data down to a small data set,
* and the footer is left "floating" further down. This parameter (when
* enabled) will cause DataTables to collapse the table's viewport down when
* the result set will fit within the given Y height.
*/
"bScrollCollapse": false,
/**
* Configure DataTables to use server-side processing. Note that the
* `ajax` parameter must also be given in order to give DataTables a
* source to obtain the required data for each draw.
*/
"bServerSide": false,
/**
* Enable or disable sorting of columns. Sorting of individual columns can be
* disabled by the `sortable` option for each column.
*/
"bSort": true,
/**
* Enable or display DataTables' ability to sort multiple columns at the
* same time (activated by shift-click by the user).
*/
"bSortMulti": true,
/**
* Allows control over whether DataTables should use the top (true) unique
* cell that is found for a single column, or the bottom (false - default).
* This is useful when using complex headers.
*/
"bSortCellsTop": null,
/**
* Enable or disable the addition of the classes `sorting\_1`, `sorting\_2` and
* `sorting\_3` to the columns which are currently being sorted on. This is
* presented as a feature switch as it can increase processing time (while
* classes are removed and added) so for large data sets you might want to
* turn this off.
*/
"bSortClasses": true,
/**
* Enable or disable state saving. When enabled HTML5 `localStorage` will be
* used to save table display information such as pagination information,
* display length, filtering and sorting. As such when the end user reloads
* the page the display display will match what thy had previously set up.
*/
"bStateSave": false,
/**
* This function is called when a TR element is created (and all TD child
* elements have been inserted), or registered if using a DOM source, allowing
* manipulation of the TR element (adding classes etc).
*/
"fnCreatedRow": null,
/**
* This function is called on every 'draw' event, and allows you to
* dynamically modify any aspect you want about the created DOM.
*/
"fnDrawCallback": null,
/**
* Identical to fnHeaderCallback() but for the table footer this function
* allows you to modify the table footer on every 'draw' event.
*/
"fnFooterCallback": null,
/**
* When rendering large numbers in the information element for the table
* (i.e. "Showing 1 to 10 of 57 entries") DataTables will render large numbers
* to have a comma separator for the 'thousands' units (e.g. 1 million is
* rendered as "1,000,000") to help readability for the end user. This
* function will override the default method DataTables uses.
*/
"fnFormatNumber": function ( toFormat ) {
return toFormat.toString().replace(
/\B(?=(\d{3})+(?!\d))/g,
this.oLanguage.sThousands
);
},
/**
* This function is called on every 'draw' event, and allows you to
* dynamically modify the header row. This can be used to calculate and
* display useful information about the table.
*/
"fnHeaderCallback": null,
/**
* The information element can be used to convey information about the current
* state of the table. Although the internationalisation options presented by
* DataTables are quite capable of dealing with most customisations, there may
* be times where you wish to customise the string further. This callback
* allows you to do exactly that.
*/
"fnInfoCallback": null,
/**
* Called when the table has been initialised. Normally DataTables will
* initialise sequentially and there will be no need for this function,
* however, this does not hold true when using external language information
* since that is obtained using an async XHR call.
*/
"fnInitComplete": null,
/**
* Called at the very start of each table draw and can be used to cancel the
* draw by returning false, any other return (including undefined) results in
* the full draw occurring).
*/
"fnPreDrawCallback": null,
/**
* This function allows you to 'post process' each row after it have been
* generated for each table draw, but before it is rendered on screen. This
* function might be used for setting the row class name etc.
*/
"fnRowCallback": null,
/**
* Load the table state. With this function you can define from where, and how, the
* state of a table is loaded. By default DataTables will load from `localStorage`
* but you might wish to use a server-side database or cookies.
*/
"fnStateLoadCallback": function ( settings ) {
try {
return JSON.parse(
(settings.iStateDuration === -1 ? sessionStorage : localStorage).getItem(
'DataTables_'+settings.sInstance+'_'+location.pathname
)
);
} catch (e) {
return {};
}
},
/**
* Callback which allows modification of the saved state prior to loading that state.
* This callback is called when the table is loading state from the stored data, but
* prior to the settings object being modified by the saved state. Note that for
* plug-in authors, you should use the `stateLoadParams` event to load parameters for
* a plug-in.
*/
"fnStateLoadParams": null,
/**
* Callback that is called when the state has been loaded from the state saving method
* and the DataTables settings object has been modified as a result of the loaded state.
*/
"fnStateLoaded": null,
/**
* Save the table state. This function allows you to define where and how the state
* information for the table is stored By default DataTables will use `localStorage`
* but you might wish to use a server-side database or cookies.
*/
"fnStateSaveCallback": function ( settings, data ) {
try {
(settings.iStateDuration === -1 ? sessionStorage : localStorage).setItem(
'DataTables_'+settings.sInstance+'_'+location.pathname,
JSON.stringify( data )
);
} catch (e) {
// noop
}
},
/**
* Callback which allows modification of the state to be saved. Called when the table
* has changed state a new state save is required. This method allows modification of
* the state saving object prior to actually doing the save, including addition or
* other state properties or modification. Note that for plug-in authors, you should
* use the `stateSaveParams` event to save parameters for a plug-in.
*/
"fnStateSaveParams": null,
/**
* Duration for which the saved state information is considered valid. After this period
* has elapsed the state will be returned to the default.
* Value is given in seconds.
*/
"iStateDuration": 7200,
/**
* Number of rows to display on a single page when using pagination. If
* feature enabled (`lengthChange`) then the end user will be able to override
* this to a custom setting using a pop-up menu.
*/
"iDisplayLength": 10,
/**
* Define the starting point for data display when using DataTables with
* pagination. Note that this parameter is the number of records, rather than
* the page number, so if you have 10 records per page and want to start on
* the third page, it should be "20".
*/
"iDisplayStart": 0,
/**
* By default DataTables allows keyboard navigation of the table (sorting, paging,
* and filtering) by adding a `tabindex` attribute to the required elements. This
* allows you to tab through the controls and press the enter key to activate them.
* The tabindex is default 0, meaning that the tab follows the flow of the document.
* You can overrule this using this parameter if you wish. Use a value of -1 to
* disable built-in keyboard navigation.
*/
"iTabIndex": 0,
/**
* Classes that DataTables assigns to the various components and features
* that it adds to the HTML table. This allows classes to be configured
* during initialisation in addition to through the static
* {@link DataTable.ext.oStdClasses} object).
*/
"oClasses": {},
/**
* All strings that DataTables uses in the user interface that it creates
* are defined in this object, allowing you to modified them individually or
* completely replace them all as required.
*/
"oLanguage": {
/**
* Strings that are used for WAI-ARIA labels and controls only (these are not
* actually visible on the page, but will be read by screenreaders, and thus
* must be internationalised as well).
*/
"oAria": {
/**
* ARIA label that is added to the table headers when the column may be sorted
*/
"orderable": ": Activate to sort",
/**
* ARIA label that is added to the table headers when the column is currently being sorted
*/
"orderableReverse": ": Activate to invert sorting",
/**
* ARIA label that is added to the table headers when the column is currently being
* sorted and next step is to remove sorting
*/
"orderableRemove": ": Activate to remove sorting",
paginate: {
first: 'First',
last: 'Last',
next: 'Next',
previous: 'Previous'
}
},
/**
* Pagination string used by DataTables for the built-in pagination
* control types.
*/
"oPaginate": {
/**
* Label and character for first page button
*/
"sFirst": "«",
/**
* Last page button
*/
"sLast": "»",
/**
* Next page button
*/
"sNext": "",
/**
* Previous page button
*/
"sPrevious": "",
},
/**
* Plural object for the data type the table is showing
*/
entries: {
_: "entries",
1: "entry"
},
/**
* This string is shown in preference to `zeroRecords` when the table is
* empty of data (regardless of filtering). Note that this is an optional
* parameter - if it is not given, the value of `zeroRecords` will be used
* instead (either the default or given value).
*/
"sEmptyTable": "No data available in table",
/**
* This string gives information to the end user about the information
* that is current on display on the page. The following tokens can be
* used in the string and will be dynamically replaced as the table
* display updates. This tokens can be placed anywhere in the string, or
* removed as needed by the language requires:
*
* * `\_START\_` - Display index of the first record on the current page
* * `\_END\_` - Display index of the last record on the current page
* * `\_TOTAL\_` - Number of records in the table after filtering
* * `\_MAX\_` - Number of records in the table without filtering
* * `\_PAGE\_` - Current page number
* * `\_PAGES\_` - Total number of pages of data in the table
*/
"sInfo": "Showing _START_ to _END_ of _TOTAL_ _ENTRIES-TOTAL_",
/**
* Display information string for when the table is empty. Typically the
* format of this string should match `info`.
*/
"sInfoEmpty": "Showing 0 to 0 of 0 _ENTRIES-TOTAL_",
/**
* When a user filters the information in a table, this string is appended
* to the information (`info`) to give an idea of how strong the filtering
* is. The variable _MAX_ is dynamically updated.
*/
"sInfoFiltered": "(filtered from _MAX_ total _ENTRIES-MAX_)",
/**
* If can be useful to append extra information to the info string at times,
* and this variable does exactly that. This information will be appended to
* the `info` (`infoEmpty` and `infoFiltered` in whatever combination they are
* being used) at all times.
*/
"sInfoPostFix": "",
/**
* This decimal place operator is a little different from the other
* language options since DataTables doesn't output floating point
* numbers, so it won't ever use this for display of a number. Rather,
* what this parameter does is modify the sort methods of the table so
* that numbers which are in a format which has a character other than
* a period (`.`) as a decimal place will be sorted numerically.
*
* Note that numbers with different decimal places cannot be shown in
* the same table and still be sortable, the table must be consistent.
* However, multiple different tables on the page can use different
* decimal place characters.
*/
"sDecimal": "",
/**
* DataTables has a build in number formatter (`formatNumber`) which is
* used to format large numbers that are used in the table information.
* By default a comma is used, but this can be trivially changed to any
* character you wish with this parameter.
*/
"sThousands": ",",
/**
* Detail the action that will be taken when the drop down menu for the
* pagination length option is changed. The '_MENU_' variable is replaced
* with a default select list of 10, 25, 50 and 100, and can be replaced
* with a custom select box if required.
*/
"sLengthMenu": "_MENU_ _ENTRIES_ per page",
/**
* When using Ajax sourced data and during the first draw when DataTables is
* gathering the data, this message is shown in an empty row in the table to
* indicate to the end user the the data is being loaded. Note that this
* parameter is not used when loading data by server-side processing, just
* Ajax sourced data with client-side processing.
*/
"sLoadingRecords": "Loading...",
/**
* Text which is displayed when the table is processing a user action
* (usually a sort command or similar).
*/
"sProcessing": "",
/**
* Details the actions that will be taken when the user types into the
* filtering input text box. The variable "_INPUT_", if used in the string,
* is replaced with the HTML text box for the filtering input allowing
* control over where it appears in the string. If "_INPUT_" is not given
* then the input box is appended to the string automatically.
*/
"sSearch": "Search:",
/**
* Assign a `placeholder` attribute to the search `input` element
* @type string
* @default
*
* @dtopt Language
* @name DataTable.defaults.language.searchPlaceholder
*/
"sSearchPlaceholder": "",
/**
* All of the language information can be stored in a file on the
* server-side, which DataTables will look up if this parameter is passed.
* It must store the URL of the language file, which is in a JSON format,
* and the object has the same properties as the oLanguage object in the
* initialiser object (i.e. the above parameters). Please refer to one of
* the example language files to see how this works in action.
*/
"sUrl": "",
/**
* Text shown inside the table records when the is no information to be
* displayed after filtering. `emptyTable` is shown when there is simply no
* information in the table at all (regardless of filtering).
*/
"sZeroRecords": "No matching records found"
},
/**
* This parameter allows you to have define the global filtering state at
* initialisation time. As an object the `search` parameter must be
* defined, but all other parameters are optional. When `regex` is true,
* the search string will be treated as a regular expression, when false
* (default) it will be treated as a straight string. When `smart`
* DataTables will use it's smart filtering methods (to word match at
* any point in the data), when false this will not be done.
*/
"oSearch": $.extend( {}, DataTable.models.oSearch ),
/**
* Table and control layout. This replaces the legacy `dom` option.
*/
layout: {
topStart: 'pageLength',
topEnd: 'search',
bottomStart: 'info',
bottomEnd: 'paging'
},
/**
* Legacy DOM layout option
*/
"sDom": null,
/**
* Search delay option. This will throttle full table searches that use the
* DataTables provided search input element (it does not effect calls to
* `dt-api search()`, providing a delay before the search is made.
*/
"searchDelay": null,
/**
* DataTables features six different built-in options for the buttons to
* display for pagination control:
*
* * `numbers` - Page number buttons only
* * `simple` - 'Previous' and 'Next' buttons only
* * 'simple_numbers` - 'Previous' and 'Next' buttons, plus page numbers
* * `full` - 'First', 'Previous', 'Next' and 'Last' buttons
* * `full_numbers` - 'First', 'Previous', 'Next' and 'Last' buttons, plus page numbers
* * `first_last_numbers` - 'First' and 'Last' buttons, plus page numbers
*/
"sPaginationType": "full_numbers",
/**
* Enable horizontal scrolling. When a table is too wide to fit into a
* certain layout, or you have a large number of columns in the table, you
* can enable x-scrolling to show the table in a viewport, which can be
* scrolled. This property can be `true` which will allow the table to
* scroll horizontally when needed, or any CSS unit, or a number (in which
* case it will be treated as a pixel measurement). Setting as simply `true`
* is recommended.
*/
"sScrollX": "",
/**
* This property can be used to force a DataTable to use more width than it
* might otherwise do when x-scrolling is enabled. For example if you have a
* table which requires to be well spaced, this parameter is useful for
* "over-sizing" the table, and thus forcing scrolling. This property can by
* any CSS unit, or a number (in which case it will be treated as a pixel
* measurement).
*/
"sScrollXInner": "",
/**
* Enable vertical scrolling. Vertical scrolling will constrain the DataTable
* to the given height, and enable scrolling for any data which overflows the
* current viewport. This can be used as an alternative to paging to display
* a lot of data in a small area (although paging and scrolling can both be
* enabled at the same time). This property can be any CSS unit, or a number
* (in which case it will be treated as a pixel measurement).
*/
"sScrollY": "",
/**
* __Deprecated__ The functionality provided by this parameter has now been
* superseded by that provided through `ajax`, which should be used instead.
*
* Set the HTTP method that is used to make the Ajax call for server-side
* processing or Ajax sourced data.
*/
"sServerMethod": "GET",
/**
* DataTables makes use of renderers when displaying HTML elements for
* a table. These renderers can be added or modified by plug-ins to
* generate suitable mark-up for a site. For example the Bootstrap
* integration plug-in for DataTables uses a paging button renderer to
* display pagination buttons in the mark-up required by Bootstrap.
*
* For further information about the renderers available see
* DataTable.ext.renderer
*/
"renderer": null,
/**
* Set the data property name that DataTables should use to get a row's id
* to set as the `id` property in the node.
*/
"rowId": "DT_RowId",
/**
* Caption value
*/
"caption": null
};
_fnHungarianMap( DataTable.defaults );
/*
* Developer note - See note in model.defaults.js about the use of Hungarian
* notation and camel case.
*/
/**
* Column options that can be given to DataTables at initialisation time.
* @namespace
*/
DataTable.defaults.column = {
/**
* Define which column(s) an order will occur on for this column. This
* allows a column's ordering to take multiple columns into account when
* doing a sort or use the data from a different column. For example first
* name / last name columns make sense to do a multi-column sort over the
* two columns.
*/
"aDataSort": null,
"iDataSort": -1,
ariaTitle: '',
/**
* You can control the default ordering direction, and even alter the
* behaviour of the sort handler (i.e. only allow ascending ordering etc)
* using this parameter.
*/
"asSorting": [ 'asc', 'desc', '' ],
/**
* Enable or disable filtering on the data in this column.
*/
"bSearchable": true,
/**
* Enable or disable ordering on this column.
*/
"bSortable": true,
/**
* Enable or disable the display of this column.
*/
"bVisible": true,
/**
* Developer definable function that is called whenever a cell is created (Ajax source,
* etc) or processed for input (DOM source). This can be used as a compliment to mRender
* allowing you to modify the DOM element (add background colour for example) when the
* element is available.
*/
"fnCreatedCell": null,
/**
* This property can be used to read data from any data source property,
* including deeply nested objects / properties. `data` can be given in a
* number of different ways which effect its behaviour:
*
* * `integer` - treated as an array index for the data source. This is the
* default that DataTables uses (incrementally increased for each column).
* * `string` - read an object property from the data source. There are
* three 'special' options that can be used in the string to alter how
* DataTables reads the data from the source object:
* * `.` - Dotted Javascript notation. Just as you use a `.` in
* Javascript to read from nested objects, so to can the options
* specified in `data`. For example: `browser.version` or
* `browser.name`. If your object parameter name contains a period, use
* `\\` to escape it - i.e. `first\\.name`.
* * `[]` - Array notation. DataTables can automatically combine data
* from and array source, joining the data with the characters provided
* between the two brackets. For example: `name[, ]` would provide a
* comma-space separated list from the source array. If no characters
* are provided between the brackets, the original array source is
* returned.
* * `()` - Function notation. Adding `()` to the end of a parameter will
* execute a function of the name given. For example: `browser()` for a
* simple function on the data source, `browser.version()` for a
* function in a nested property or even `browser().version` to get an
* object property if the function called returns an object. Note that
* function notation is recommended for use in `render` rather than
* `data` as it is much simpler to use as a renderer.
* * `null` - use the original data source for the row rather than plucking
* data directly from it. This action has effects on two other
* initialisation options:
* * `defaultContent` - When null is given as the `data` option and
* `defaultContent` is specified for the column, the value defined by
* `defaultContent` will be used for the cell.
* * `render` - When null is used for the `data` option and the `render`
* option is specified for the column, the whole data source for the
* row is used for the renderer.
* * `function` - the function given will be executed whenever DataTables
* needs to set or get the data for a cell in the column. The function
* takes three parameters:
* * Parameters:
* * `{array|object}` The data source for the row
* * `{string}` The type call data requested - this will be 'set' when
* setting data or 'filter', 'display', 'type', 'sort' or undefined
* when gathering data. Note that when `undefined` is given for the
* type DataTables expects to get the raw data for the object back<
* * `{*}` Data to set when the second parameter is 'set'.
* * Return:
* * The return value from the function is not required when 'set' is
* the type of call, but otherwise the return is what will be used
* for the data requested.
*
* Note that `data` is a getter and setter option. If you just require
* formatting of data for output, you will likely want to use `render` which
* is simply a getter and thus simpler to use.
*
* Note that prior to DataTables 1.9.2 `data` was called `mDataProp`. The
* name change reflects the flexibility of this property and is consistent
* with the naming of mRender. If 'mDataProp' is given, then it will still
* be used by DataTables, as it automatically maps the old name to the new
* if required.
*/
"mData": null,
/**
* This property is the rendering partner to `data` and it is suggested that
* when you want to manipulate data for display (including filtering,
* sorting etc) without altering the underlying data for the table, use this
* property. `render` can be considered to be the the read only companion to
* `data` which is read / write (then as such more complex). Like `data`
* this option can be given in a number of different ways to effect its
* behaviour:
*
* * `integer` - treated as an array index for the data source. This is the
* default that DataTables uses (incrementally increased for each column).
* * `string` - read an object property from the data source. There are
* three 'special' options that can be used in the string to alter how
* DataTables reads the data from the source object:
* * `.` - Dotted Javascript notation. Just as you use a `.` in
* Javascript to read from nested objects, so to can the options
* specified in `data`. For example: `browser.version` or
* `browser.name`. If your object parameter name contains a period, use
* `\\` to escape it - i.e. `first\\.name`.
* * `[]` - Array notation. DataTables can automatically combine data
* from and array source, joining the data with the characters provided
* between the two brackets. For example: `name[, ]` would provide a
* comma-space separated list from the source array. If no characters
* are provided between the brackets, the original array source is
* returned.
* * `()` - Function notation. Adding `()` to the end of a parameter will
* execute a function of the name given. For example: `browser()` for a
* simple function on the data source, `browser.version()` for a
* function in a nested property or even `browser().version` to get an
* object property if the function called returns an object.
* * `object` - use different data for the different data types requested by
* DataTables ('filter', 'display', 'type' or 'sort'). The property names
* of the object is the data type the property refers to and the value can
* defined using an integer, string or function using the same rules as
* `render` normally does. Note that an `_` option _must_ be specified.
* This is the default value to use if you haven't specified a value for
* the data type requested by DataTables.
* * `function` - the function given will be executed whenever DataTables
* needs to set or get the data for a cell in the column. The function
* takes three parameters:
* * Parameters:
* * {array|object} The data source for the row (based on `data`)
* * {string} The type call data requested - this will be 'filter',
* 'display', 'type' or 'sort'.
* * {array|object} The full data source for the row (not based on
* `data`)
* * Return:
* * The return value from the function is what will be used for the
* data requested.
*/
"mRender": null,
/**
* Change the cell type created for the column - either TD cells or TH cells. This
* can be useful as TH cells have semantic meaning in the table body, allowing them
* to act as a header for a row (you may wish to add scope='row' to the TH elements).
*/
"sCellType": "td",
/**
* Class to give to each cell in this column.
*/
"sClass": "",
/**
* When DataTables calculates the column widths to assign to each column,
* it finds the longest string in each column and then constructs a
* temporary table and reads the widths from that. The problem with this
* is that "mmm" is much wider then "iiii", but the latter is a longer
* string - thus the calculation can go wrong (doing it properly and putting
* it into an DOM object and measuring that is horribly(!) slow). Thus as
* a "work around" we provide this option. It will append its value to the
* text that is found to be the longest string for the column - i.e. padding.
* Generally you shouldn't need this!
*/
"sContentPadding": "",
/**
* Allows a default value to be given for a column's data, and will be used
* whenever a null data source is encountered (this can be because `data`
* is set to null, or because the data source itself is null).
*/
"sDefaultContent": null,
/**
* This parameter is only used in DataTables' server-side processing. It can
* be exceptionally useful to know what columns are being displayed on the
* client side, and to map these to database fields. When defined, the names
* also allow DataTables to reorder information from the server if it comes
* back in an unexpected order (i.e. if you switch your columns around on the
* client-side, your server-side code does not also need updating).
*/
"sName": "",
/**
* Defines a data source type for the ordering which can be used to read
* real-time information from the table (updating the internally cached
* version) prior to ordering. This allows ordering to occur on user
* editable elements such as form inputs.
*/
"sSortDataType": "std",
/**
* The title of this column.
*/
"sTitle": null,
/**
* The type allows you to specify how the data for this column will be
* ordered. Four types (string, numeric, date and html (which will strip
* HTML tags before ordering)) are currently available. Note that only date
* formats understood by Javascript's Date() object will be accepted as type
* date. For example: "Mar 26, 2008 5:03 PM". May take the values: 'string',
* 'numeric', 'date' or 'html' (by default). Further types can be adding
* through plug-ins.
*/
"sType": null,
/**
* Defining the width of the column, this parameter may take any CSS value
* (3em, 20px etc). DataTables applies 'smart' widths to columns which have not
* been given a specific width through this interface ensuring that the table
* remains readable.
*/
"sWidth": null
};
_fnHungarianMap( DataTable.defaults.column );
/**
* DataTables settings object - this holds all the information needed for a
* given table, including configuration, data and current application of the
* table options. DataTables does not have a single instance for each DataTable
* with the settings attached to that instance, but rather instances of the
* DataTable "class" are created on-the-fly as needed (typically by a
* $().dataTable() call) and the settings object is then applied to that
* instance.
*
* Note that this object is related to {@link DataTable.defaults} but this
* one is the internal data store for DataTables's cache of columns. It should
* NOT be manipulated outside of DataTables. Any configuration should be done
* through the initialisation options.
*/
DataTable.models.oSettings = {
/**
* Primary features of DataTables and their enablement state.
*/
"oFeatures": {
/**
* Flag to say if DataTables should automatically try to calculate the
* optimum table and columns widths (true) or not (false).
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bAutoWidth": null,
/**
* Delay the creation of TR and TD elements until they are actually
* needed by a driven page draw. This can give a significant speed
* increase for Ajax source and Javascript source data, but makes no
* difference at all for DOM and server-side processing tables.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bDeferRender": null,
/**
* Enable filtering on the table or not. Note that if this is disabled
* then there is no filtering at all on the table, including fnFilter.
* To just remove the filtering input use sDom and remove the 'f' option.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bFilter": null,
/**
* Used only for compatiblity with DT1
* @deprecated
*/
"bInfo": true,
/**
* Used only for compatiblity with DT1
* @deprecated
*/
"bLengthChange": true,
/**
* Pagination enabled or not. Note that if this is disabled then length
* changing must also be disabled.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bPaginate": null,
/**
* Processing indicator enable flag whenever DataTables is enacting a
* user request - typically an Ajax request for server-side processing.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bProcessing": null,
/**
* Server-side processing enabled flag - when enabled DataTables will
* get all data from the server for every draw - there is no filtering,
* sorting or paging done on the client-side.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bServerSide": null,
/**
* Sorting enablement flag.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bSort": null,
/**
* Multi-column sorting
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bSortMulti": null,
/**
* Apply a class to the columns which are being sorted to provide a
* visual highlight or not. This can slow things down when enabled since
* there is a lot of DOM interaction.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bSortClasses": null,
/**
* State saving enablement flag.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bStateSave": null
},
/**
* Scrolling settings for a table.
*/
"oScroll": {
/**
* When the table is shorter in height than sScrollY, collapse the
* table container down to the height of the table (when true).
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bCollapse": null,
/**
* Width of the scrollbar for the web-browser's platform. Calculated
* during table initialisation.
*/
"iBarWidth": 0,
/**
* Viewport width for horizontal scrolling. Horizontal scrolling is
* disabled if an empty string.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"sX": null,
/**
* Width to expand the table to when using x-scrolling. Typically you
* should not need to use this.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
* @deprecated
*/
"sXInner": null,
/**
* Viewport height for vertical scrolling. Vertical scrolling is disabled
* if an empty string.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"sY": null
},
/**
* Language information for the table.
*/
"oLanguage": {
/**
* Information callback function. See
* {@link DataTable.defaults.fnInfoCallback}
*/
"fnInfoCallback": null
},
/**
* Browser support parameters
*/
"oBrowser": {
/**
* Determine if the vertical scrollbar is on the right or left of the
* scrolling container - needed for rtl language layout, although not
* all browsers move the scrollbar (Safari).
*/
"bScrollbarLeft": false,
/**
* Browser scrollbar width
*/
"barWidth": 0
},
"ajax": null,
/**
* Array referencing the nodes which are used for the features. The
* parameters of this object match what is allowed by sDom - i.e.
* <ul>
* <li>'l' - Length changing</li>
* <li>'f' - Filtering input</li>
* <li>'t' - The table!</li>
* <li>'i' - Information</li>
* <li>'p' - Pagination</li>
* <li>'r' - pRocessing</li>
* </ul>
*/
"aanFeatures": [],
/**
* Store data information - see {@link DataTable.models.oRow} for detailed
* information.
*/
"aoData": [],
/**
* Array of indexes which are in the current display (after filtering etc)
*/
"aiDisplay": [],
/**
* Array of indexes for display - no filtering
*/
"aiDisplayMaster": [],
/**
* Map of row ids to data indexes
*/
"aIds": {},
/**
* Store information about each column that is in use
*/
"aoColumns": [],
/**
* Store information about the table's header
*/
"aoHeader": [],
/**
* Store information about the table's footer
*/
"aoFooter": [],
/**
* Store the applied global search information in case we want to force a
* research or compare the old search to a new one.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"oPreviousSearch": {},
/**
* Store for named searches
*/
searchFixed: {},
/**
* Store the applied search for each column - see
* {@link DataTable.models.oSearch} for the format that is used for the
* filtering information for each column.
*/
"aoPreSearchCols": [],
/**
* Sorting that is applied to the table. Note that the inner arrays are
* used in the following manner:
* <ul>
* <li>Index 0 - column number</li>
* <li>Index 1 - current sorting direction</li>
* </ul>
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"aaSorting": null,
/**
* Sorting that is always applied to the table (i.e. prefixed in front of
* aaSorting).
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"aaSortingFixed": [],
/**
* If restoring a table - we should restore its width
*/
"sDestroyWidth": 0,
/**
* Callback functions array for every time a row is inserted (i.e. on a draw).
*/
"aoRowCallback": [],
/**
* Callback functions for the header on each draw.
*/
"aoHeaderCallback": [],
/**
* Callback function for the footer on each draw.
*/
"aoFooterCallback": [],
/**
* Array of callback functions for draw callback functions
*/
"aoDrawCallback": [],
/**
* Array of callback functions for row created function
*/
"aoRowCreatedCallback": [],
/**
* Callback functions for just before the table is redrawn. A return of
* false will be used to cancel the draw.
*/
"aoPreDrawCallback": [],
/**
* Callback functions for when the table has been initialised.
*/
"aoInitComplete": [],
/**
* Callbacks for modifying the settings to be stored for state saving, prior to
* saving state.
*/
"aoStateSaveParams": [],
/**
* Callbacks for modifying the settings that have been stored for state saving
* prior to using the stored values to restore the state.
*/
"aoStateLoadParams": [],
/**
* Callbacks for operating on the settings object once the saved state has been
* loaded
*/
"aoStateLoaded": [],
/**
* Cache the table ID for quick access
*/
"sTableId": "",
/**
* The TABLE node for the main table
*/
"nTable": null,
/**
* Permanent ref to the thead element
*/
"nTHead": null,
/**
* Permanent ref to the tfoot element - if it exists
*/
"nTFoot": null,
/**
* Permanent ref to the tbody element
*/
"nTBody": null,
/**
* Cache the wrapper node (contains all DataTables controlled elements)
*/
"nTableWrapper": null,
/**
* Indicate if all required information has been read in
*/
"bInitialised": false,
/**
* Information about open rows. Each object in the array has the parameters
* 'nTr' and 'nParent'
*/
"aoOpenRows": [],
/**
* Dictate the positioning of DataTables' control elements - see
* {@link DataTable.model.oInit.sDom}.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"sDom": null,
/**
* Search delay (in mS)
*/
"searchDelay": null,
/**
* Which type of pagination should be used.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"sPaginationType": "two_button",
/**
* Number of paging controls on the page. Only used for backwards compatibility
*/
pagingControls: 0,
/**
* The state duration (for `stateSave`) in seconds.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"iStateDuration": 0,
/**
* Array of callback functions for state saving. Each array element is an
* object with the following parameters:
* <ul>
* <li>function:fn - function to call. Takes two parameters, oSettings
* and the JSON string to save that has been thus far created. Returns
* a JSON string to be inserted into a json object
* (i.e. '"param": [ 0, 1, 2]')</li>
* <li>string:sName - name of callback</li>
* </ul>
*/
"aoStateSave": [],
/**
* Array of callback functions for state loading. Each array element is an
* object with the following parameters:
* <ul>
* <li>function:fn - function to call. Takes two parameters, oSettings
* and the object stored. May return false to cancel state loading</li>
* <li>string:sName - name of callback</li>
* </ul>
*/
"aoStateLoad": [],
/**
* State that was saved. Useful for back reference
*/
"oSavedState": null,
/**
* State that was loaded. Useful for back reference
*/
"oLoadedState": null,
/**
* Note if draw should be blocked while getting data
*/
"bAjaxDataGet": true,
/**
* The last jQuery XHR object that was used for server-side data gathering.
* This can be used for working with the XHR information in one of the
* callbacks
*/
"jqXHR": null,
/**
* JSON returned from the server in the last Ajax request
*/
"json": undefined,
/**
* Data submitted as part of the last Ajax request
*/
"oAjaxData": undefined,
/**
* Send the XHR HTTP method - GET or POST (could be PUT or DELETE if
* required).
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"sServerMethod": null,
/**
* Format numbers for display.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"fnFormatNumber": null,
/**
* List of options that can be used for the user selectable length menu.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"aLengthMenu": null,
/**
* Counter for the draws that the table does. Also used as a tracker for
* server-side processing
*/
"iDraw": 0,
/**
* Indicate if a redraw is being done - useful for Ajax
*/
"bDrawing": false,
/**
* Draw index (iDraw) of the last error when parsing the returned data
*/
"iDrawError": -1,
/**
* Paging display length
*/
"_iDisplayLength": 10,
/**
* Paging start point - aiDisplay index
*/
"_iDisplayStart": 0,
/**
* Server-side processing - number of records in the result set
* (i.e. before filtering), Use fnRecordsTotal rather than
* this property to get the value of the number of records, regardless of
* the server-side processing setting.
*/
"_iRecordsTotal": 0,
/**
* Server-side processing - number of records in the current display set
* (i.e. after filtering). Use fnRecordsDisplay rather than
* this property to get the value of the number of records, regardless of
* the server-side processing setting.
*/
"_iRecordsDisplay": 0,
/**
* The classes to use for the table
*/
"oClasses": {},
/**
* Flag attached to the settings object so you can check in the draw
* callback if filtering has been done in the draw. Deprecated in favour of
* events.
* @deprecated
*/
"bFiltered": false,
/**
* Flag attached to the settings object so you can check in the draw
* callback if sorting has been done in the draw. Deprecated in favour of
* events.
* @deprecated
*/
"bSorted": false,
/**
* Indicate that if multiple rows are in the header and there is more than
* one unique cell per column, if the top one (true) or bottom one (false)
* should be used for sorting / title by DataTables.
* Note that this parameter will be set by the initialisation routine. To
* set a default use {@link DataTable.defaults}.
*/
"bSortCellsTop": null,
/**
* Initialisation object that is used for the table
*/
"oInit": null,
/**
* Destroy callback functions - for plug-ins to attach themselves to the
* destroy so they can clean up markup and events.
*/
"aoDestroyCallback": [],
/**
* Get the number of records in the current record set, before filtering
*/
"fnRecordsTotal": function ()
{
return _fnDataSource( this ) == 'ssp' ?
this._iRecordsTotal * 1 :
this.aiDisplayMaster.length;
},
/**
* Get the number of records in the current record set, after filtering
*/
"fnRecordsDisplay": function ()
{
return _fnDataSource( this ) == 'ssp' ?
this._iRecordsDisplay * 1 :
this.aiDisplay.length;
},
/**
* Get the display end point - aiDisplay index
*/
"fnDisplayEnd": function ()
{
var
len = this._iDisplayLength,
start = this._iDisplayStart,
calc = start + len,
records = this.aiDisplay.length,
features = this.oFeatures,
paginate = features.bPaginate;
if ( features.bServerSide ) {
return paginate === false || len === -1 ?
start + records :
Math.min( start+len, this._iRecordsDisplay );
}
else {
return ! paginate || calc>records || len===-1 ?
records :
calc;
}
},
/**
* The DataTables object for this table
*/
"oInstance": null,
/**
* Unique identifier for each instance of the DataTables object. If there
* is an ID on the table node, then it takes that value, otherwise an
* incrementing internal counter is used.
*/
"sInstance": null,
/**
* tabindex attribute value that is added to DataTables control elements, allowing
* keyboard navigation of the table and its controls.
*/
"iTabIndex": 0,
/**
* DIV container for the footer scrolling table if scrolling
*/
"nScrollHead": null,
/**
* DIV container for the footer scrolling table if scrolling
*/
"nScrollFoot": null,
/**
* Last applied sort
*/
"aLastSort": [],
/**
* Stored plug-in instances
*/
"oPlugins": {},
/**
* Function used to get a row's id from the row's data
*/
"rowIdFn": null,
/**
* Data location where to store a row's id
*/
"rowId": null,
caption: '',
captionNode: null,
colgroup: null
};
/**
* Extension object for DataTables that is used to provide all extension
* options.
*
* Note that the `DataTable.ext` object is available through
* `jQuery.fn.dataTable.ext` where it may be accessed and manipulated. It is
* also aliased to `jQuery.fn.dataTableExt` for historic reasons.
* @namespace
* @extends DataTable.models.ext
*/
/**
* DataTables extensions
*
* This namespace acts as a collection area for plug-ins that can be used to
* extend DataTables capabilities. Indeed many of the build in methods
* use this method to provide their own capabilities (sorting methods for
* example).
*
* Note that this namespace is aliased to `jQuery.fn.dataTableExt` for legacy
* reasons
*
* @namespace
*/
DataTable.ext = _ext = {
/**
* Buttons. For use with the Buttons extension for DataTables. This is
* defined here so other extensions can define buttons regardless of load
* order. It is _not_ used by DataTables core.
*
* @type object
* @default {}
*/
buttons: {},
/**
* Element class names
*
* @type object
* @default {}
*/
classes: {},
/**
* DataTables build type (expanded by the download builder)
*
* @type string
*/
build:"bs5/dt-2.0.0",
/**
* Error reporting.
*
* How should DataTables report an error. Can take the value 'alert',
* 'throw', 'none' or a function.
*
* @type string|function
* @default alert
*/
errMode: "alert",
/**
* Legacy so v1 plug-ins don't throw js errors on load
*/
feature: [],
/**
* Feature plug-ins.
*
* This is an object of callbacks which provide the features for DataTables
* to be initialised via the `layout` option.
*/
features: {},
/**
* Row searching.
*
* This method of searching is complimentary to the default type based
* searching, and a lot more comprehensive as it allows you complete control
* over the searching logic. Each element in this array is a function
* (parameters described below) that is called for every row in the table,
* and your logic decides if it should be included in the searching data set
* or not.
*
* Searching functions have the following input parameters:
*
* 1. `{object}` DataTables settings object: see
* {@link DataTable.models.oSettings}
* 2. `{array|object}` Data for the row to be processed (same as the
* original format that was passed in as the data source, or an array
* from a DOM data source
* 3. `{int}` Row index ({@link DataTable.models.oSettings.aoData}), which
* can be useful to retrieve the `TR` element if you need DOM interaction.
*
* And the following return is expected:
*
* * {boolean} Include the row in the searched result set (true) or not
* (false)
*
* Note that as with the main search ability in DataTables, technically this
* is "filtering", since it is subtractive. However, for consistency in
* naming we call it searching here.
*
* @type array
* @default []
*
* @example
* // The following example shows custom search being applied to the
* // fourth column (i.e. the data[3] index) based on two input values
* // from the end-user, matching the data in a certain range.
* $.fn.dataTable.ext.search.push(
* function( settings, data, dataIndex ) {
* var min = document.getElementById('min').value * 1;
* var max = document.getElementById('max').value * 1;
* var version = data[3] == "-" ? 0 : data[3]*1;
*
* if ( min == "" && max == "" ) {
* return true;
* }
* else if ( min == "" && version < max ) {
* return true;
* }
* else if ( min < version && "" == max ) {
* return true;
* }
* else if ( min < version && version < max ) {
* return true;
* }
* return false;
* }
* );
*/
search: [],
/**
* Selector extensions
*
* The `selector` option can be used to extend the options available for the
* selector modifier options (`selector-modifier` object data type) that
* each of the three built in selector types offer (row, column and cell +
* their plural counterparts). For example the Select extension uses this
* mechanism to provide an option to select only rows, columns and cells
* that have been marked as selected by the end user (`{selected: true}`),
* which can be used in conjunction with the existing built in selector
* options.
*
* Each property is an array to which functions can be pushed. The functions
* take three attributes:
*
* * Settings object for the host table
* * Options object (`selector-modifier` object type)
* * Array of selected item indexes
*
* The return is an array of the resulting item indexes after the custom
* selector has been applied.
*
* @type object
*/
selector: {
cell: [],
column: [],
row: []
},
/**
* Legacy configuration options. Enable and disable legacy options that
* are available in DataTables.
*
* @type object
*/
legacy: {
/**
* Enable / disable DataTables 1.9 compatible server-side processing
* requests
*
* @type boolean
* @default null
*/
ajax: null
},
/**
* Pagination plug-in methods.
*
* Each entry in this object is a function and defines which buttons should
* be shown by the pagination rendering method that is used for the table:
* {@link DataTable.ext.renderer.pageButton}. The renderer addresses how the
* buttons are displayed in the document, while the functions here tell it
* what buttons to display. This is done by returning an array of button
* descriptions (what each button will do).
*
* Pagination types (the four built in options and any additional plug-in
* options defined here) can be used through the `paginationType`
* initialisation parameter.
*
* The functions defined take two parameters:
*
* 1. `{int} page` The current page index
* 2. `{int} pages` The number of pages in the table
*
* Each function is expected to return an array where each element of the
* array can be one of:
*
* * `first` - Jump to first page when activated
* * `last` - Jump to last page when activated
* * `previous` - Show previous page when activated
* * `next` - Show next page when activated
* * `{int}` - Show page of the index given
* * `{array}` - A nested array containing the above elements to add a
* containing 'DIV' element (might be useful for styling).
*
* Note that DataTables v1.9- used this object slightly differently whereby
* an object with two functions would be defined for each plug-in. That
* ability is still supported by DataTables 1.10+ to provide backwards
* compatibility, but this option of use is now decremented and no longer
* documented in DataTables 1.10+.
*
* @type object
* @default {}
*
* @example
* // Show previous, next and current page buttons only
* $.fn.dataTableExt.oPagination.current = function ( page, pages ) {
* return [ 'previous', page, 'next' ];
* };
*/
pager: {},
renderer: {
pageButton: {},
header: {}
},
/**
* Ordering plug-ins - custom data source
*
* The extension options for ordering of data available here is complimentary
* to the default type based ordering that DataTables typically uses. It
* allows much greater control over the the data that is being used to
* order a column, but is necessarily therefore more complex.
*
* This type of ordering is useful if you want to do ordering based on data
* live from the DOM (for example the contents of an 'input' element) rather
* than just the static string that DataTables knows of.
*
* The way these plug-ins work is that you create an array of the values you
* wish to be ordering for the column in question and then return that
* array. The data in the array much be in the index order of the rows in
* the table (not the currently ordering order!). Which order data gathering
* function is run here depends on the `dt-init columns.orderDataType`
* parameter that is used for the column (if any).
*
* The functions defined take two parameters:
*
* 1. `{object}` DataTables settings object: see
* {@link DataTable.models.oSettings}
* 2. `{int}` Target column index
*
* Each function is expected to return an array:
*
* * `{array}` Data for the column to be ordering upon
*
* @type array
*
* @example
* // Ordering using `input` node values
* $.fn.dataTable.ext.order['dom-text'] = function ( settings, col )
* {
* return this.api().column( col, {order:'index'} ).nodes().map( function ( td, i ) {
* return $('input', td).val();
* } );
* }
*/
order: {},
/**
* Type based plug-ins.
*
* Each column in DataTables has a type assigned to it, either by automatic
* detection or by direct assignment using the `type` option for the column.
* The type of a column will effect how it is ordering and search (plug-ins
* can also make use of the column type if required).
*
* @namespace
*/
type: {
/**
* Automatic column class assignment
*/
className: {},
/**
* Type detection functions.
*
* The functions defined in this object are used to automatically detect
* a column's type, making initialisation of DataTables super easy, even
* when complex data is in the table.
*
* The functions defined take two parameters:
*
* 1. `{*}` Data from the column cell to be analysed
* 2. `{settings}` DataTables settings object. This can be used to
* perform context specific type detection - for example detection
* based on language settings such as using a comma for a decimal
* place. Generally speaking the options from the settings will not
* be required
*
* Each function is expected to return:
*
* * `{string|null}` Data type detected, or null if unknown (and thus
* pass it on to the other type detection functions.
*
* @type array
*
* @example
* // Currency type detection plug-in:
* $.fn.dataTable.ext.type.detect.push(
* function ( data, settings ) {
* // Check the numeric part
* if ( ! data.substring(1).match(/[0-9]/) ) {
* return null;
* }
*
* // Check prefixed by currency
* if ( data.charAt(0) == '$' || data.charAt(0) == '&pound;' ) {
* return 'currency';
* }
* return null;
* }
* );
*/
detect: [],
/**
* Automatic renderer assignment
*/
render: {},
/**
* Type based search formatting.
*
* The type based searching functions can be used to pre-format the
* data to be search on. For example, it can be used to strip HTML
* tags or to de-format telephone numbers for numeric only searching.
*
* Note that is a search is not defined for a column of a given type,
* no search formatting will be performed.
*
* Pre-processing of searching data plug-ins - When you assign the sType
* for a column (or have it automatically detected for you by DataTables
* or a type detection plug-in), you will typically be using this for
* custom sorting, but it can also be used to provide custom searching
* by allowing you to pre-processing the data and returning the data in
* the format that should be searched upon. This is done by adding
* functions this object with a parameter name which matches the sType
* for that target column. This is the corollary of <i>afnSortData</i>
* for searching data.
*
* The functions defined take a single parameter:
*
* 1. `{*}` Data from the column cell to be prepared for searching
*
* Each function is expected to return:
*
* * `{string|null}` Formatted string that will be used for the searching.
*
* @type object
* @default {}
*
* @example
* $.fn.dataTable.ext.type.search['title-numeric'] = function ( d ) {
* return d.replace(/\n/g," ").replace( /<.*?>/g, "" );
* }
*/
search: {},
/**
* Type based ordering.
*
* The column type tells DataTables what ordering to apply to the table
* when a column is sorted upon. The order for each type that is defined,
* is defined by the functions available in this object.
*
* Each ordering option can be described by three properties added to
* this object:
*
* * `{type}-pre` - Pre-formatting function
* * `{type}-asc` - Ascending order function
* * `{type}-desc` - Descending order function
*
* All three can be used together, only `{type}-pre` or only
* `{type}-asc` and `{type}-desc` together. It is generally recommended
* that only `{type}-pre` is used, as this provides the optimal
* implementation in terms of speed, although the others are provided
* for compatibility with existing Javascript sort functions.
*
* `{type}-pre`: Functions defined take a single parameter:
*
* 1. `{*}` Data from the column cell to be prepared for ordering
*
* And return:
*
* * `{*}` Data to be sorted upon
*
* `{type}-asc` and `{type}-desc`: Functions are typical Javascript sort
* functions, taking two parameters:
*
* 1. `{*}` Data to compare to the second parameter
* 2. `{*}` Data to compare to the first parameter
*
* And returning:
*
* * `{*}` Ordering match: <0 if first parameter should be sorted lower
* than the second parameter, ===0 if the two parameters are equal and
* >0 if the first parameter should be sorted height than the second
* parameter.
*
* @type object
* @default {}
*
* @example
* // Numeric ordering of formatted numbers with a pre-formatter
* $.extend( $.fn.dataTable.ext.type.order, {
* "string-pre": function(x) {
* a = (a === "-" || a === "") ? 0 : a.replace( /[^\d\-\.]/g, "" );
* return parseFloat( a );
* }
* } );
*
* @example
* // Case-sensitive string ordering, with no pre-formatting method
* $.extend( $.fn.dataTable.ext.order, {
* "string-case-asc": function(x,y) {
* return ((x < y) ? -1 : ((x > y) ? 1 : 0));
* },
* "string-case-desc": function(x,y) {
* return ((x < y) ? 1 : ((x > y) ? -1 : 0));
* }
* } );
*/
order: {}
},
/**
* Unique DataTables instance counter
*
* @type int
* @private
*/
_unique: 0,
//
// Depreciated
// The following properties are retained for backwards compatibility only.
// The should not be used in new projects and will be removed in a future
// version
//
/**
* Version check function.
* @type function
* @depreciated Since 1.10
*/
fnVersionCheck: DataTable.fnVersionCheck,
/**
* Index for what 'this' index API functions should use
* @type int
* @deprecated Since v1.10
*/
iApiIndex: 0,
/**
* Software version
* @type string
* @deprecated Since v1.10
*/
sVersion: DataTable.version
};
//
// Backwards compatibility. Alias to pre 1.10 Hungarian notation counter parts
//
$.extend( _ext, {
afnFiltering: _ext.search,
aTypes: _ext.type.detect,
ofnSearch: _ext.type.search,
oSort: _ext.type.order,
afnSortData: _ext.order,
aoFeatures: _ext.feature,
oStdClasses: _ext.classes,
oPagination: _ext.pager
} );
$.extend( DataTable.ext.classes, {
container: 'dt-container',
empty: {
row: 'dt-empty'
},
info: {
container: 'dt-info'
},
length: {
container: 'dt-length',
select: 'dt-input'
},
order: {
canAsc: 'dt-orderable-asc',
canDesc: 'dt-orderable-desc',
isAsc: 'dt-ordering-asc',
isDesc: 'dt-ordering-desc',
none: 'dt-orderable-none',
position: 'sorting_'
},
processing: {
container: 'dt-processing'
},
scrolling: {
body: 'dt-scroll-body',
container: 'dt-scroll',
footer: {
self: 'dt-scroll-foot',
inner: 'dt-scroll-footInner'
},
header: {
self: 'dt-scroll-head',
inner: 'dt-scroll-headInner'
}
},
search: {
container: 'dt-search',
input: 'dt-input'
},
table: 'dataTable',
tbody: {
cell: '',
row: ''
},
thead: {
cell: '',
row: ''
},
tfoot: {
cell: '',
row: ''
},
paging: {
active: 'current',
button: 'dt-paging-button',
container: 'dt-paging',
disabled: 'disabled'
}
} );
var extPagination = DataTable.ext.pager;
// Paging buttons configuration
$.extend( extPagination, {
simple: function () {
return [ 'previous', 'next' ];
},
full: function () {
return [ 'first', 'previous', 'next', 'last' ];
},
numbers: function () {
return [ 'numbers' ];
},
simple_numbers: function () {
return [ 'previous', 'numbers', 'next' ];
},
full_numbers: function () {
return [ 'first', 'previous', 'numbers', 'next', 'last' ];
},
first_last: function () {
return ['first', 'last'];
},
first_last_numbers: function () {
return ['first', 'numbers', 'last'];
},
// For testing and plug-ins to use
_numbers: _pagingNumbers,
// Number of number buttons - legacy, use `numbers` option for paging feature
numbers_length: 7
} );
$.extend( true, DataTable.ext.renderer, {
pagingButton: {
_: function (settings, buttonType, content, active, disabled) {
var classes = settings.oClasses.paging;
var btnClasses = [classes.button];
var btn;
if (active) {
btnClasses.push(classes.active);
}
if (disabled) {
btnClasses.push(classes.disabled)
}
if (buttonType === 'ellipsis') {
btn = $('<span class="ellipsis"></span>').html(content)[0];
}
else {
btn = $('<button>', {
class: btnClasses.join(' '),
role: 'link',
type: 'button'
}).html(content);
}
return {
display: btn,
clicker: btn
}
}
},
pagingContainer: {
_: function (settings, buttons) {
// No wrapping element - just append directly to the host
return buttons;
}
}
} );
// Common function to remove new lines, strip HTML and diacritic control
var _filterString = function (stripHtml, diacritics) {
return function (str) {
if (_empty(str) || typeof str !== 'string') {
return str;
}
str = str.replace( _re_new_lines, " " );
if (stripHtml) {
str = _stripHtml(str);
}
if (diacritics) {
str = _normalize(str, true);
}
return str;
};
}
/*
* Public helper functions. These aren't used internally by DataTables, or
* called by any of the options passed into DataTables, but they can be used
* externally by developers working with DataTables. They are helper functions
* to make working with DataTables a little bit easier.
*/
function __mldFnName(name) {
return name.replace(/[\W]/g, '_')
}
// Common logic for moment, luxon or a date action
function __mld( dt, momentFn, luxonFn, dateFn, arg1 ) {
if (window.moment) {
return dt[momentFn]( arg1 );
}
else if (window.luxon) {
return dt[luxonFn]( arg1 );
}
return dateFn ? dt[dateFn]( arg1 ) : dt;
}
var __mlWarning = false;
function __mldObj (d, format, locale) {
var dt;
if (window.moment) {
dt = window.moment.utc( d, format, locale, true );
if (! dt.isValid()) {
return null;
}
}
else if (window.luxon) {
dt = format && typeof d === 'string'
? window.luxon.DateTime.fromFormat( d, format )
: window.luxon.DateTime.fromISO( d );
if (! dt.isValid) {
return null;
}
dt.setLocale(locale);
}
else if (! format) {
// No format given, must be ISO
dt = new Date(d);
}
else {
if (! __mlWarning) {
alert('DataTables warning: Formatted date without Moment.js or Luxon - https://datatables.net/tn/17');
}
__mlWarning = true;
}
return dt;
}
// Wrapper for date, datetime and time which all operate the same way with the exception of
// the output string for auto locale support
function __mlHelper (localeString) {
return function ( from, to, locale, def ) {
// Luxon and Moment support
// Argument shifting
if ( arguments.length === 0 ) {
locale = 'en';
to = null; // means toLocaleString
from = null; // means iso8601
}
else if ( arguments.length === 1 ) {
locale = 'en';
to = from;
from = null;
}
else if ( arguments.length === 2 ) {
locale = to;
to = from;
from = null;
}
var typeName = 'datetime' + (to ? '-' + __mldFnName(to) : '');
// Add type detection and sorting specific to this date format - we need to be able to identify
// date type columns as such, rather than as numbers in extensions. Hence the need for this.
if (! DataTable.ext.type.order[typeName]) {
DataTable.type(typeName, {
detect: function (d) {
// The renderer will give the value to type detect as the type!
return d === typeName ? typeName : false;
},
order: {
pre: function (d) {
// The renderer gives us Moment, Luxon or Date obects for the sorting, all of which have a
// `valueOf` which gives milliseconds epoch
return d.valueOf();
}
},
className: 'dt-right'
});
}
return function ( d, type ) {
// Allow for a default value
if (d === null || d === undefined) {
if (def === '--now') {
// We treat everything as UTC further down, so no changes are
// made, as such need to get the local date / time as if it were
// UTC
var local = new Date();
d = new Date( Date.UTC(
local.getFullYear(), local.getMonth(), local.getDate(),
local.getHours(), local.getMinutes(), local.getSeconds()
) );
}
else {
d = '';
}
}
if (type === 'type') {
// Typing uses the type name for fast matching
return typeName;
}
if (d === '') {
return type !== 'sort'
? ''
: __mldObj('0000-01-01 00:00:00', null, locale);
}
// Shortcut. If `from` and `to` are the same, we are using the renderer to
// format for ordering, not display - its already in the display format.
if ( to !== null && from === to && type !== 'sort' && type !== 'type' && ! (d instanceof Date) ) {
return d;
}
var dt = __mldObj(d, from, locale);
if (dt === null) {
return d;
}
if (type === 'sort') {
return dt;
}
var formatted = to === null
? __mld(dt, 'toDate', 'toJSDate', '')[localeString]()
: __mld(dt, 'format', 'toFormat', 'toISOString', to);
// XSS protection
return type === 'display' ?
_escapeHtml( formatted ) :
formatted;
};
}
}
// Based on locale, determine standard number formatting
// Fallback for legacy browsers is US English
var __thousands = ',';
var __decimal = '.';
if (window.Intl !== undefined) {
try {
var num = new Intl.NumberFormat().formatToParts(100000.1);
for (var i=0 ; i<num.length ; i++) {
if (num[i].type === 'group') {
__thousands = num[i].value;
}
else if (num[i].type === 'decimal') {
__decimal = num[i].value;
}
}
}
catch (e) {
// noop
}
}
// Formatted date time detection - use by declaring the formats you are going to use
DataTable.datetime = function ( format, locale ) {
var typeName = 'datetime-detect-' + __mldFnName(format);
if (! locale) {
locale = 'en';
}
if (! DataTable.ext.type.order[typeName]) {
DataTable.type(typeName, {
detect: function (d) {
var dt = __mldObj(d, format, locale);
return d === '' || dt ? typeName : false;
},
order: {
pre: function (d) {
return __mldObj(d, format, locale) || 0;
}
},
className: 'dt-right'
});
}
}
/**
* Helpers for `columns.render`.
*
* The options defined here can be used with the `columns.render` initialisation
* option to provide a display renderer. The following functions are defined:
*
* * `moment` - Uses the MomentJS library to convert from a given format into another.
* This renderer has three overloads:
* * 1 parameter:
* * `string` - Format to convert to (assumes input is ISO8601 and locale is `en`)
* * 2 parameters:
* * `string` - Format to convert from
* * `string` - Format to convert to. Assumes `en` locale
* * 3 parameters:
* * `string` - Format to convert from
* * `string` - Format to convert to
* * `string` - Locale
* * `number` - Will format numeric data (defined by `columns.data`) for
* display, retaining the original unformatted data for sorting and filtering.
* It takes 5 parameters:
* * `string` - Thousands grouping separator
* * `string` - Decimal point indicator
* * `integer` - Number of decimal points to show
* * `string` (optional) - Prefix.
* * `string` (optional) - Postfix (/suffix).
* * `text` - Escape HTML to help prevent XSS attacks. It has no optional
* parameters.
*
* @example
* // Column definition using the number renderer
* {
* data: "salary",
* render: $.fn.dataTable.render.number( '\'', '.', 0, '$' )
* }
*
* @namespace
*/
DataTable.render = {
date: __mlHelper('toLocaleDateString'),
datetime: __mlHelper('toLocaleString'),
time: __mlHelper('toLocaleTimeString'),
number: function ( thousands, decimal, precision, prefix, postfix ) {
// Auto locale detection
if (thousands === null || thousands === undefined) {
thousands = __thousands;
}
if (decimal === null || decimal === undefined) {
decimal = __decimal;
}
return {
display: function ( d ) {
if ( typeof d !== 'number' && typeof d !== 'string' ) {
return d;
}
if (d === '' || d === null) {
return d;
}
var negative = d < 0 ? '-' : '';
var flo = parseFloat( d );
var abs = Math.abs(flo);
// Scientific notation for large and small numbers
if (abs >= 100000000000 || (abs < 0.0001 && abs !== 0) ) {
var exp = flo.toExponential(precision).split(/e\+?/);
return exp[0] + ' x 10<sup>' + exp[1] + '</sup>';
}
// If NaN then there isn't much formatting that we can do - just
// return immediately, escaping any HTML (this was supposed to
// be a number after all)
if ( isNaN( flo ) ) {
return _escapeHtml( d );
}
flo = flo.toFixed( precision );
d = Math.abs( flo );
var intPart = parseInt( d, 10 );
var floatPart = precision ?
decimal+(d - intPart).toFixed( precision ).substring( 2 ):
'';
// If zero, then can't have a negative prefix
if (intPart === 0 && parseFloat(floatPart) === 0) {
negative = '';
}
return negative + (prefix||'') +
intPart.toString().replace(
/\B(?=(\d{3})+(?!\d))/g, thousands
) +
floatPart +
(postfix||'');
}
};
},
text: function () {
return {
display: _escapeHtml,
filter: _escapeHtml
};
}
};
var _extTypes = DataTable.ext.type;
// Get / set type
DataTable.type = function (name, prop, val) {
if (! prop) {
return {
className: _extTypes.className[name],
detect: _extTypes.detect.find(function (fn) {
return fn.name === name;
}),
order: {
pre: _extTypes.order[name + '-pre'],
asc: _extTypes.order[name + '-asc'],
desc: _extTypes.order[name + '-desc']
},
render: _extTypes.render[name],
search: _extTypes.search[name]
};
}
var setProp = function(prop, propVal) {
_extTypes[prop][name] = propVal;
};
var setDetect = function (fn) {
// Wrap to allow the function to return `true` rather than
// specifying the type name.
var cb = function (d, s) {
var ret = fn(d, s);
return ret === true
? name
: ret;
};
Object.defineProperty(cb, "name", {value: name});
var idx = _extTypes.detect.findIndex(function (fn) {
return fn.name === name;
});
if (idx === -1) {
_extTypes.detect.unshift(cb);
}
else {
_extTypes.detect.splice(idx, 1, cb);
}
};
var setOrder = function (obj) {
_extTypes.order[name + '-pre'] = obj.pre; // can be undefined
_extTypes.order[name + '-asc'] = obj.asc; // can be undefined
_extTypes.order[name + '-desc'] = obj.desc; // can be undefined
};
// prop is optional
if (! val) {
val = prop;
prop = null;
}
if (prop === 'className') {
setProp('className', val);
}
else if (prop === 'detect') {
setDetect(val);
}
else if (prop === 'order') {
setOrder(val);
}
else if (prop === 'render') {
setProp('render', val);
}
else if (prop === 'search') {
setProp('search', val);
}
else if (! prop) {
if (val.className) {
setProp('className', val.className);
}
if (val.detect !== undefined) {
setDetect(val.detect);
}
if (val.order) {
setOrder(val.order);
}
if (val.render !== undefined) {
setProp('render', val.render);
}
if (val.search !== undefined) {
setProp('search', val.search);
}
}
}
// Get a list of types
DataTable.types = function () {
return _extTypes.detect.map(function (fn) {
return fn.name;
});
};
//
// Built in data types
//
DataTable.type('string', {
detect: function () {
return 'string';
},
order: {
pre: function ( a ) {
// This is a little complex, but faster than always calling toString,
// http://jsperf.com/tostring-v-check
return _empty(a) ?
'' :
typeof a === 'string' ?
a.toLowerCase() :
! a.toString ?
'' :
a.toString();
}
},
search: _filterString(false, true)
});
DataTable.type('html', {
detect: function ( d ) {
return _empty( d ) || (typeof d === 'string' && d.indexOf('<') !== -1) ?
'html' : null;
},
order: {
pre: function ( a ) {
return _empty(a) ?
'' :
a.replace ?
_stripHtml(a).trim().toLowerCase() :
a+'';
}
},
search: _filterString(true, true)
});
DataTable.type('date', {
className: 'dt-type-date',
detect: function ( d )
{
// V8 tries _very_ hard to make a string passed into `Date.parse()`
// valid, so we need to use a regex to restrict date formats. Use a
// plug-in for anything other than ISO8601 style strings
if ( d && !(d instanceof Date) && ! _re_date.test(d) ) {
return null;
}
var parsed = Date.parse(d);
return (parsed !== null && !isNaN(parsed)) || _empty(d) ? 'date' : null;
},
order: {
pre: function ( d ) {
var ts = Date.parse( d );
return isNaN(ts) ? -Infinity : ts;
}
}
});
DataTable.type('html-num-fmt', {
className: 'dt-type-numeric',
detect: function ( d, settings )
{
var decimal = settings.oLanguage.sDecimal;
return _htmlNumeric( d, decimal, true ) ? 'html-num-fmt' : null;
},
order: {
pre: function ( d, s ) {
var dp = s.oLanguage.sDecimal;
return __numericReplace( d, dp, _re_html, _re_formatted_numeric );
}
},
search: _filterString(true, true)
});
DataTable.type('html-num', {
className: 'dt-type-numeric',
detect: function ( d, settings )
{
var decimal = settings.oLanguage.sDecimal;
return _htmlNumeric( d, decimal ) ? 'html-num' : null;
},
order: {
pre: function ( d, s ) {
var dp = s.oLanguage.sDecimal;
return __numericReplace( d, dp, _re_html );
}
},
search: _filterString(true, true)
});
DataTable.type('num-fmt', {
className: 'dt-type-numeric',
detect: function ( d, settings )
{
var decimal = settings.oLanguage.sDecimal;
return _isNumber( d, decimal, true ) ? 'num-fmt' : null;
},
order: {
pre: function ( d, s ) {
var dp = s.oLanguage.sDecimal;
return __numericReplace( d, dp, _re_formatted_numeric );
}
}
});
DataTable.type('num', {
className: 'dt-type-numeric',
detect: function ( d, settings )
{
var decimal = settings.oLanguage.sDecimal;
return _isNumber( d, decimal ) ? 'num' : null;
},
order: {
pre: function (d, s) {
var dp = s.oLanguage.sDecimal;
return __numericReplace( d, dp );
}
}
});
var __numericReplace = function ( d, decimalPlace, re1, re2 ) {
if ( d !== 0 && (!d || d === '-') ) {
return -Infinity;
}
var type = typeof d;
if (type === 'number' || type === 'bigint') {
return d;
}
// If a decimal place other than `.` is used, it needs to be given to the
// function so we can detect it and replace with a `.` which is the only
// decimal place Javascript recognises - it is not locale aware.
if ( decimalPlace ) {
d = _numToDecimal( d, decimalPlace );
}
if ( d.replace ) {
if ( re1 ) {
d = d.replace( re1, '' );
}
if ( re2 ) {
d = d.replace( re2, '' );
}
}
return d * 1;
};
$.extend( true, DataTable.ext.renderer, {
footer: {
_: function ( settings, cell, classes ) {
cell.addClass(classes.tfoot.cell);
}
},
header: {
_: function ( settings, cell, classes ) {
cell.addClass(classes.thead.cell);
if (! settings.oFeatures.bSort) {
cell.addClass(classes.order.none);
}
var legacyTop = settings.bSortCellsTop;
var headerRows = cell.closest('thead').find('tr');
var rowIdx = cell.parent().index();
// Conditions to not apply the ordering icons
if (
// Cells and rows which have the attribute to disable the icons
cell.attr('data-dt-order') === 'disable' ||
cell.parent().attr('data-dt-order') === 'disable' ||
// Legacy support for `orderCellsTop`. If it is set, then cells
// which are not in the top or bottom row of the header (depending
// on the value) do not get the sorting classes applied to them
(legacyTop === true && rowIdx !== 0) ||
(legacyTop === false && rowIdx !== headerRows.length - 1)
) {
return;
}
// No additional mark-up required
// Attach a sort listener to update on sort - note that using the
// `DT` namespace will allow the event to be removed automatically
// on destroy, while the `dt` namespaced event is the one we are
// listening for
$(settings.nTable).on( 'order.dt.DT', function ( e, ctx, sorting ) {
if ( settings !== ctx ) { // need to check this this is the host
return; // table, not a nested one
}
var orderClasses = classes.order;
var columns = ctx.api.columns( cell );
var col = settings.aoColumns[columns.flatten()[0]];
var orderable = columns.orderable().includes(true);
var ariaType = '';
var indexes = columns.indexes();
var sortDirs = columns.orderable(true).flatten();
var orderedColumns = sorting.map( function (val) {
return val.col;
} ).join(',');
cell
.removeClass(
orderClasses.isAsc +' '+
orderClasses.isDesc
)
.toggleClass( orderClasses.none, ! orderable )
.toggleClass( orderClasses.canAsc, orderable && sortDirs.includes('asc') )
.toggleClass( orderClasses.canDesc, orderable && sortDirs.includes('desc') );
var sortIdx = orderedColumns.indexOf( indexes.toArray().join(',') );
if ( sortIdx !== -1 ) {
// Get the ordering direction for the columns under this cell
// Note that it is possible for a cell to be asc and desc sorting
// (column spanning cells)
var orderDirs = columns.order();
cell.addClass(
orderDirs.includes('asc') ? orderClasses.isAsc : '' +
orderDirs.includes('desc') ? orderClasses.isDesc : ''
);
}
// The ARIA spec says that only one column should be marked with aria-sort
if ( sortIdx === 0 && orderedColumns.length === indexes.count() ) {
var firstSort = sorting[0];
var sortOrder = col.asSorting;
cell.attr('aria-sort', firstSort.dir === 'asc' ? 'ascending' : 'descending');
// Determine if the next click will remove sorting or change the sort
ariaType = ! sortOrder[firstSort.index + 1] ? 'Remove' : 'Reverse';
}
else {
cell.removeAttr('aria-sort');
}
cell.attr('aria-label', orderable
? col.ariaTitle + ctx.api.i18n('oAria.orderable' + ariaType)
: col.ariaTitle
);
if (orderable) {
cell.find('.dt-column-title').attr('role', 'button');
cell.attr('tabindex', 0)
}
} );
}
},
layout: {
_: function ( settings, container, items ) {
var row = $('<div/>')
.addClass('dt-layout-row')
.appendTo( container );
$.each( items, function (key, val) {
var klass = ! val.table ?
'dt-'+key+' ' :
'';
if (val.table) {
row.addClass('dt-layout-table');
}
$('<div/>')
.attr({
id: val.id || null,
"class": 'dt-layout-cell '+klass+(val.className || '')
})
.append( val.contents )
.appendTo( row );
} );
}
}
} );
DataTable.feature = {};
// Third parameter is internal only!
DataTable.feature.register = function ( name, cb, legacy ) {
DataTable.ext.features[ name ] = cb;
if (legacy) {
_ext.feature.push({
cFeature: legacy,
fnInit: cb
});
}
};
DataTable.feature.register( 'info', function ( settings, opts ) {
// For compatibility with the legacy `info` top level option
if (! settings.oFeatures.bInfo) {
return null;
}
var
lang = settings.oLanguage,
tid = settings.sTableId,
n = $('<div/>', {
'class': settings.oClasses.info.container,
} );
opts = $.extend({
callback: lang.fnInfoCallback,
empty: lang.sInfoEmpty,
postfix: lang.sInfoPostFix,
search: lang.sInfoFiltered,
text: lang.sInfo,
}, opts);
// Update display on each draw
settings.aoDrawCallback.push(function (s) {
_fnUpdateInfo(s, opts, n);
});
// For the first info display in the table, we add a callback and aria information.
if (! $('#' + tid+'_info', settings.nWrapper).length) {
n.attr({
'aria-live': 'polite',
id: tid+'_info',
role: 'status'
});
// Table is described by our info div
$(settings.nTable).attr( 'aria-describedby', tid+'_info' );
}
return n;
}, 'i' );
/**
* Update the information elements in the display
* @param {object} settings dataTables settings object
* @memberof DataTable#oApi
*/
function _fnUpdateInfo ( settings, opts, node )
{
var
start = settings._iDisplayStart+1,
end = settings.fnDisplayEnd(),
max = settings.fnRecordsTotal(),
total = settings.fnRecordsDisplay(),
out = total
? opts.text
: opts.empty;
if ( total !== max ) {
// Record set after filtering
out += ' ' + opts.search;
}
// Convert the macros
out += opts.postfix;
out = _fnMacros( settings, out );
if ( opts.callback ) {
out = opts.callback.call( settings.oInstance,
settings, start, end, max, total, out
);
}
node.html( out );
_fnCallbackFire(settings, null, 'info', [settings, node[0], out]);
}
var __searchCounter = 0;
// opts
// - text
// - placeholder
DataTable.feature.register( 'search', function ( settings, opts ) {
// Don't show the input if filtering isn't available on the table
if (! settings.oFeatures.bFilter) {
return null;
}
var classes = settings.oClasses.search;
var tableId = settings.sTableId;
var language = settings.oLanguage;
var previousSearch = settings.oPreviousSearch;
var input = '<input type="search" class="'+classes.input+'"/>';
opts = $.extend({
placeholder: language.sSearchPlaceholder,
text: language.sSearch
}, opts);
// The _INPUT_ is optional - is appended if not present
if (opts.text.indexOf('_INPUT_') === -1) {
opts.text += '_INPUT_';
}
opts.text = _fnMacros(settings, opts.text);
// We can put the <input> outside of the label if it is at the start or end
// which helps improve accessability (not all screen readers like implicit
// for elements).
var end = opts.text.match(/_INPUT_$/);
var start = opts.text.match(/^_INPUT_/);
var removed = opts.text.replace(/_INPUT_/, '');
var str = '<label>' + opts.text + '</label>';
if (start) {
str = '_INPUT_<label>' + removed + '</label>';
}
else if (end) {
str = '<label>' + removed + '</label>_INPUT_';
}
var filter = $('<div>')
.addClass(classes.container)
.append(str.replace(/_INPUT_/, input));
// add for and id to label and input
filter.find('label').attr('for', 'dt-search-' + __searchCounter);
filter.find('input').attr('id', 'dt-search-' + __searchCounter);
__searchCounter++;
var searchFn = function(event) {
var val = this.value;
if(previousSearch.return && event.key !== "Enter") {
return;
}
/* Now do the filter */
if ( val != previousSearch.search ) {
previousSearch.search = val;
_fnFilterComplete( settings, previousSearch );
// Need to redraw, without resorting
settings._iDisplayStart = 0;
_fnDraw( settings );
}
};
var searchDelay = settings.searchDelay !== null ?
settings.searchDelay :
0;
var jqFilter = $('input', filter)
.val( previousSearch.search )
.attr( 'placeholder', opts.placeholder )
.on(
'keyup.DT search.DT input.DT paste.DT cut.DT',
searchDelay ?
DataTable.util.debounce( searchFn, searchDelay ) :
searchFn
)
.on( 'mouseup.DT', function(e) {
// Edge fix! Edge 17 does not trigger anything other than mouse events when clicking
// on the clear icon (Edge bug 17584515). This is safe in other browsers as `searchFn`
// checks the value to see if it has changed. In other browsers it won't have.
setTimeout( function () {
searchFn.call(jqFilter[0], e);
}, 10);
} )
.on( 'keypress.DT', function(e) {
/* Prevent form submission */
if ( e.keyCode == 13 ) {
return false;
}
} )
.attr('aria-controls', tableId);
// Update the input elements whenever the table is filtered
$(settings.nTable).on( 'search.dt.DT', function ( ev, s ) {
if ( settings === s && jqFilter[0] !== document.activeElement ) {
jqFilter.val( typeof previousSearch.search !== 'function'
? previousSearch.search
: ''
);
}
} );
return filter;
}, 'f' );
// opts
// - type - button configuration
// - numbers - number of buttons to show - must be odd
DataTable.feature.register( 'paging', function ( settings, opts ) {
// Don't show the paging input if the table doesn't have paging enabled
if (! settings.oFeatures.bPaginate) {
return null;
}
opts = $.extend({
numbers: DataTable.ext.pager.numbers_length,
type: settings.sPaginationType
}, opts)
var host = $('<div/>').addClass( settings.oClasses.paging.container + ' paging_' + opts.type );
var draw = function () {
_pagingDraw(settings, host, opts);
};
settings.aoDrawCallback.push(draw);
// Responsive redraw of paging control
$(settings.nTable).on('column-sizing.dt.DT', draw);
return host;
}, 'p' );
function _pagingDraw(settings, host, opts) {
if (! settings._bInitComplete) {
return;
}
var
plugin = DataTable.ext.pager[ opts.type ],
aria = settings.oLanguage.oAria.paginate || {},
start = settings._iDisplayStart,
len = settings._iDisplayLength,
visRecords = settings.fnRecordsDisplay(),
all = len === -1,
page = all ? 0 : Math.ceil( start / len ),
pages = all ? 1 : Math.ceil( visRecords / len ),
buttons = plugin()
.map(function (val) {
return val === 'numbers'
? _pagingNumbers(page, pages, opts.numbers)
: val;
})
.flat();
var buttonEls = [];
for (var i=0 ; i<buttons.length ; i++) {
var button = buttons[i];
var btnInfo = _pagingButtonInfo(settings, button, page, pages);
var btn = _fnRenderer( settings, 'pagingButton' )(
settings,
button,
btnInfo.display,
btnInfo.active,
btnInfo.disabled
);
// Common attributes
$(btn.clicker).attr({
'aria-controls': settings.sTableId,
'aria-disabled': btnInfo.disabled ? 'true' : null,
'aria-current': btnInfo.active ? 'page' : null,
'aria-label': aria[ button ],
'data-dt-idx': button,
'tabIndex': btnInfo.disabled ? -1 : settings.iTabIndex,
});
if (typeof button !== 'number') {
$(btn.clicker).addClass(button);
}
_fnBindAction(
btn.clicker, {action: button}, function(e) {
e.preventDefault();
_fnPageChange( settings, e.data.action, true );
}
);
buttonEls.push(btn.display);
}
var wrapped = _fnRenderer(settings, 'pagingContainer')(
settings, buttonEls
);
var activeEl = host.find(document.activeElement).data('dt-idx');
host.empty().append(wrapped);
if ( activeEl !== undefined ) {
host.find( '[data-dt-idx='+activeEl+']' ).trigger('focus');
}
// Responsive - check if the buttons are over two lines based on the
// height of the buttons and the container.
if (
buttonEls.length && // any buttons
opts.numbers > 1 && // prevent infinite
$(host).outerHeight() >= ($(buttonEls[0]).outerHeight() * 2) - 10
) {
_pagingDraw(settings, host, $.extend({}, opts, { numbers: opts.numbers - 2 }));
}
}
/**
* Get properties for a button based on the current paging state of the table
*
* @param {*} settings DT settings object
* @param {*} button The button type in question
* @param {*} page Table's current page
* @param {*} pages Number of pages
* @returns Info object
*/
function _pagingButtonInfo(settings, button, page, pages) {
var lang = settings.oLanguage.oPaginate;
var o = {
display: '',
active: false,
disabled: false
};
switch ( button ) {
case 'ellipsis':
o.display = '&#x2026;';
o.disabled = true;
break;
case 'first':
o.display = lang.sFirst;
if (page === 0) {
o.disabled = true;
}
break;
case 'previous':
o.display = lang.sPrevious;
if ( page === 0 ) {
o.disabled = true;
}
break;
case 'next':
o.display = lang.sNext;
if ( pages === 0 || page === pages-1 ) {
o.disabled = true;
}
break;
case 'last':
o.display = lang.sLast;
if ( pages === 0 || page === pages-1 ) {
o.disabled = true;
}
break;
default:
if ( typeof button === 'number' ) {
o.display = settings.fnFormatNumber( button + 1 );
if (page === button) {
o.active = true;
}
}
break;
}
return o;
}
/**
* Compute what number buttons to show in the paging control
*
* @param {*} page Current page
* @param {*} pages Total number of pages
* @param {*} buttons Target number of number buttons
* @returns Buttons to show
*/
function _pagingNumbers ( page, pages, buttons ) {
var
numbers = [],
half = Math.floor(buttons / 2);
if ( pages <= buttons ) {
numbers = _range(0, pages);
}
else if (buttons === 1) {
// Single button - current page only
numbers = [page];
}
else if (buttons === 3) {
// Special logic for just three buttons
if (page <= 1) {
numbers = [0, 1, 'ellipsis'];
}
else if (page >= pages - 2) {
numbers = _range(pages-2, pages);
numbers.unshift('ellipsis');
}
else {
numbers = ['ellipsis', page, 'ellipsis'];
}
}
else if ( page <= half ) {
numbers = _range(0, buttons-2);
numbers.push('ellipsis', pages-1);
}
else if ( page >= pages - 1 - half ) {
numbers = _range(pages-(buttons-2), pages);
numbers.unshift(0, 'ellipsis');
}
else {
numbers = _range(page-half+2, page+half-1);
numbers.push('ellipsis', pages-1);
numbers.unshift(0, 'ellipsis');
}
return numbers;
}
var __lengthCounter = 0;
// opts
// - menu
// - text
DataTable.feature.register( 'pageLength', function ( settings, opts ) {
var features = settings.oFeatures;
// For compatibility with the legacy `pageLength` top level option
if (! features.bPaginate || ! features.bLengthChange) {
return null;
}
opts = $.extend({
menu: settings.aLengthMenu,
text: settings.oLanguage.sLengthMenu
}, opts);
var
classes = settings.oClasses.length,
tableId = settings.sTableId,
menu = opts.menu,
lengths = [],
language = [],
i;
// Options can be given in a number of ways
if (Array.isArray( menu[0] )) {
// Old 1.x style - 2D array
lengths = menu[0];
language = menu[1];
}
else {
for ( i=0 ; i<menu.length ; i++ ) {
// An object with different label and value
if ($.isPlainObject(menu[i])) {
lengths.push(menu[i].value);
language.push(menu[i].label);
}
else {
// Or just a number to display and use
lengths.push(menu[i]);
language.push(menu[i]);
}
}
}
// We can put the <select> outside of the label if it is at the start or
// end which helps improve accessability (not all screen readers like
// implicit for elements).
var end = opts.text.match(/_MENU_$/);
var start = opts.text.match(/^_MENU_/);
var removed = opts.text.replace(/_MENU_/, '');
var str = '<label>' + opts.text + '</label>';
if (start) {
str = '_MENU_<label>' + removed + '</label>';
}
else if (end) {
str = '<label>' + removed + '</label>_MENU_';
}
// Wrapper element - use a span as a holder for where the select will go
var div = $('<div/>')
.addClass( classes.container )
.append(
str.replace( '_MENU_', '<span></span>' )
);
// Save text node content for macro updating
var textNodes = [];
div.find('label')[0].childNodes.forEach(function (el) {
if (el.nodeType === Node.TEXT_NODE) {
textNodes.push({
el: el,
text: el.textContent
});
}
})
// Update the label text in case it has an entries value
var updateEntries = function (len) {
textNodes.forEach(function (node) {
node.el.textContent = _fnMacros(settings, node.text, len);
});
}
// Next, the select itself, along with the options
var select = $('<select/>', {
'name': tableId+'_length',
'aria-controls': tableId,
'class': classes.select
} );
for ( i=0 ; i<lengths.length ; i++ ) {
select[0][ i ] = new Option(
typeof language[i] === 'number' ?
settings.fnFormatNumber( language[i] ) :
language[i],
lengths[i]
);
}
// add for and id to label and input
div.find('label').attr('for', 'dt-length-' + __lengthCounter);
select.attr('id', 'dt-length-' + __lengthCounter);
__lengthCounter++;
// Swap in the select list
div.find('span').replaceWith(select);
// Can't use `select` variable as user might provide their own and the
// reference is broken by the use of outerHTML
$('select', div)
.val( settings._iDisplayLength )
.on( 'change.DT', function() {
_fnLengthChange( settings, $(this).val() );
_fnDraw( settings );
} );
// Update node value whenever anything changes the table's length
$(settings.nTable).on( 'length.dt.DT', function (e, s, len) {
if ( settings === s ) {
$('select', div).val( len );
// Resolve plurals in the text for the new length
updateEntries(len);
}
} );
updateEntries(settings._iDisplayLength);
return div;
}, 'l' );
// jQuery access
$.fn.dataTable = DataTable;
// Provide access to the host jQuery object (circular reference)
DataTable.$ = $;
// Legacy aliases
$.fn.dataTableSettings = DataTable.settings;
$.fn.dataTableExt = DataTable.ext;
// With a capital `D` we return a DataTables API instance rather than a
// jQuery object
$.fn.DataTable = function ( opts ) {
return $(this).dataTable( opts ).api();
};
// All properties that are available to $.fn.dataTable should also be
// available on $.fn.DataTable
$.each( DataTable, function ( prop, val ) {
$.fn.DataTable[ prop ] = val;
} );
return DataTable;
}));
/*! DataTables Bootstrap 5 integration
* 2020 SpryMedia Ltd - datatables.net/license
*/
(function( factory ){
if ( typeof define === 'function' && define.amd ) {
// AMD
define( ['jquery', 'datatables.net'], function ( $ ) {
return factory( $, window, document );
} );
}
else if ( typeof exports === 'object' ) {
// CommonJS
var jq = require('jquery');
var cjsRequires = function (root, $) {
if ( ! $.fn.dataTable ) {
require('datatables.net')(root, $);
}
};
if (typeof window === 'undefined') {
module.exports = function (root, $) {
if ( ! root ) {
// CommonJS environments without a window global must pass a
// root. This will give an error otherwise
root = window;
}
if ( ! $ ) {
$ = jq( root );
}
cjsRequires( root, $ );
return factory( $, root, root.document );
};
}
else {
cjsRequires( window, jq );
module.exports = factory( jq, window, window.document );
}
}
else {
// Browser
factory( jQuery, window, document );
}
}(function( $, window, document ) {
'use strict';
var DataTable = $.fn.dataTable;
/**
* DataTables integration for Bootstrap 5. This requires Bootstrap 5 and
* DataTables 2 or newer.
*
* This file sets the defaults and adds options to DataTables to style its
* controls using Bootstrap. See https://datatables.net/manual/styling/bootstrap
* for further information.
*/
/* Set the defaults for DataTables initialisation */
$.extend( true, DataTable.defaults, {
renderer: 'bootstrap'
} );
/* Default class modification */
$.extend( true, DataTable.ext.classes, {
container: "dt-container dt-bootstrap5",
search: {
input: "form-control form-control-sm"
},
length: {
select: "form-select form-select-sm"
},
processing: {
container: "dt-processing card"
}
} );
/* Bootstrap paging button renderer */
DataTable.ext.renderer.pagingButton.bootstrap = function (settings, buttonType, content, active, disabled) {
var btnClasses = ['dt-paging-button', 'page-item'];
if (active) {
btnClasses.push('active');
}
if (disabled) {
btnClasses.push('disabled')
}
var li = $('<li>').addClass(btnClasses.join(' '));
var a = $('<a>', {
'href': disabled ? null : '#',
'class': 'page-link'
})
.html(content)
.appendTo(li);
return {
display: li,
clicker: a
};
};
DataTable.ext.renderer.pagingContainer.bootstrap = function (settings, buttonEls) {
return $('<ul/>').addClass('pagination').append(buttonEls);
};
DataTable.ext.renderer.layout.bootstrap = function ( settings, container, items ) {
var row = $( '<div/>', {
"class": items.full ?
'row mt-2 justify-content-md-center' :
'row mt-2 justify-content-between'
} )
.appendTo( container );
$.each( items, function (key, val) {
var klass;
// Apply start / end (left / right when ltr) margins
if (val.table) {
klass = 'col-12';
}
else if (key === 'start') {
klass = 'col-md-auto me-auto';
}
else if (key === 'end') {
klass = 'col-md-auto ms-auto';
}
else {
klass = 'col-md';
}
$( '<div/>', {
id: val.id || null,
"class": klass + ' ' + (val.className || '')
} )
.append( val.contents )
.appendTo( row );
} );
};
return DataTable;
}));
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