} else if ( node.tagName.toLowerCase() === 'img' ) {
return $node.attr( 'alt' ) || ''; // handle undefined alt
} else {
- return $.map( $.makeArray( node.childNodes ), function( elem ) {
+ return $.map( $.makeArray( node.childNodes ), function ( elem ) {
// 1 is for document.ELEMENT_NODE (the constant is undefined on old browsers)
if ( elem.nodeType === 1 ) {
return getElementSortKey( elem );
nodeValue = '';
}
- if ( nodeValue !== '') {
+ if ( nodeValue !== '' ) {
if ( parsers[i].is( nodeValue, table ) ) {
concurrent++;
rowIndex++;
function emulateTHeadAndFoot( $table ) {
var $thead, $tfoot, i, len,
$rows = $table.find( '> tbody > tr' );
- if ( !$table.get(0).tHead ) {
+ if ( !$table.get( 0 ).tHead ) {
$thead = $( '<thead>' );
$rows.each( function () {
- if ( $(this).children( 'td' ).length ) {
+ if ( $( this ).children( 'td' ).length ) {
// This row contains a <td>, so it's not a header row
// Stop here
return false;
}
$thead.append( this );
} );
- $table.find(' > tbody:first').before( $thead );
+ $table.find( ' > tbody:first' ).before( $thead );
}
- if ( !$table.get(0).tFoot ) {
+ if ( !$table.get( 0 ).tFoot ) {
$tfoot = $( '<tfoot>' );
len = $rows.length;
for ( i = len - 1; i >= 0; i-- ) {
- if ( $( $rows[i] ).children( 'td' ).length ){
+ if ( $( $rows[i] ).children( 'td' ).length ) {
break;
}
- $tfoot.prepend( $( $rows[i] ));
+ $tfoot.prepend( $( $rows[i] ) );
}
$table.append( $tfoot );
}
// Loop through all the dom cells of the thead
$tableRows.each( function ( rowIndex, row ) {
- $.each( row.cells, function( columnIndex, cell ) {
+ $.each( row.cells, function ( columnIndex, cell ) {
rowspan = Number( cell.rowSpan );
colspan = Number( cell.colSpan );
} );
// We want to find the row that has the most columns (ignoring colspan)
$.each( exploded, function ( index, cellArray ) {
- headerCount = $.unique( $(cellArray) ).length;
+ headerCount = $.unique( $( cellArray ) ).length;
if ( headerCount >= maxSeen ) {
maxSeen = headerCount;
longestTR = index;
*/
function setHeadersOrder( $headers, sortList, headerToColumns ) {
// Loop through all headers to retrieve the indices of the columns the header spans across:
- $.each( headerToColumns, function( headerIndex, columns ) {
+ $.each( headerToColumns, function ( headerIndex, columns ) {
- $.each( columns, function( i, columnIndex ) {
+ $.each( columns, function ( i, columnIndex ) {
var header = $headers[headerIndex];
if ( !isValueInArray( columnIndex, sortList ) ) {
header.count = 0;
} else {
// Column shall be sorted: Apply designated count and order.
- $.each( sortList, function( j, sortColumn ) {
+ $.each( sortList, function ( j, sortColumn ) {
if ( sortColumn[0] === i ) {
header.order = sortColumn[1];
header.count = sortColumn[1] + 1;
function uniqueElements( array ) {
var uniques = [];
- $.each( array, function( index, elem ) {
+ $.each( array, function ( index, elem ) {
if ( elem !== undefined && $.inArray( elem, uniques ) === -1 ) {
uniques.push( elem );
}
}
function sortText( a, b ) {
- return ( (a < b) ? -1 : ((a > b) ? 1 : 0) );
+ return ( ( a < b ) ? -1 : ( ( a > b ) ? 1 : 0 ) );
}
function sortTextDesc( a, b ) {
- return ( (b < a) ? -1 : ((b > a) ? 1 : 0) );
+ return ( ( b < a ) ? -1 : ( ( b > a ) ? 1 : 0 ) );
}
function multisort( table, sortList, cache ) {
// We allow a trailing percent sign, which we just strip. This works fine
// if percents and regular numbers aren't being mixed.
- ts.numberRegex = new RegExp('^(' + '[-+\u2212]?[0-9][0-9,]*(\\.[0-9,]*)?(E[-+\u2212]?[0-9][0-9,]*)?' + // Fortran-style scientific
+ ts.numberRegex = new RegExp( '^(' + '[-+\u2212]?[0-9][0-9,]*(\\.[0-9,]*)?(E[-+\u2212]?[0-9][0-9,]*)?' + // Fortran-style scientific
'|' + '[-+\u2212]?' + digitClass + '+[\\s\\xa0]*%?' + // Generic localised
- ')$', 'i');
+ ')$', 'i' );
}
function buildDateTable() {
// Build RegEx
// Any date formated with . , ' - or /
- ts.dateRegex[0] = new RegExp( /^\s*(\d{1,2})[\,\.\-\/'\s]{1,2}(\d{1,2})[\,\.\-\/'\s]{1,2}(\d{2,4})\s*?/i);
+ ts.dateRegex[0] = new RegExp( /^\s*(\d{1,2})[\,\.\-\/'\s]{1,2}(\d{1,2})[\,\.\-\/'\s]{1,2}(\d{2,4})\s*?/i );
// Written Month name, dmy
ts.dateRegex[1] = new RegExp( '^\\s*(\\d{1,2})[\\,\\.\\-\\/\'\\s]+(' + regex + ')' + '[\\,\\.\\-\\/\'\\s]+(\\d{2,4})\\s*$', 'i' );
// Build array of key names
for ( key in ts.collationTable ) {
// Check hasOwn to be safe
- if ( ts.collationTable.hasOwnProperty(key) ) {
- keys.push(key);
+ if ( ts.collationTable.hasOwnProperty( key ) ) {
+ keys.push( key );
}
}
if ( keys.length ) {
}
ts.rgx = {
IPAddress: [
- new RegExp( /^\d{1,3}[\.]\d{1,3}[\.]\d{1,3}[\.]\d{1,3}$/)
+ new RegExp( /^\d{1,3}[\.]\d{1,3}[\.]\d{1,3}[\.]\d{1,3}$/ )
],
currency: [
- new RegExp( /(^[£$€¥]|[£$€¥]$)/),
- new RegExp( /[£$€¥]/g)
+ new RegExp( /(^[£$€¥]|[£$€¥]$)/ ),
+ new RegExp( /[£$€¥]/g )
],
url: [
- new RegExp( /^(https?|ftp|file):\/\/$/),
- new RegExp( /(https?|ftp|file):\/\//)
+ new RegExp( /^(https?|ftp|file):\/\/$/ ),
+ new RegExp( /(https?|ftp|file):\/\// )
],
isoDate: [
- new RegExp( /^\d{4}[\/\-]\d{1,2}[\/\-]\d{1,2}$/)
+ new RegExp( /^\d{4}[\/\-]\d{1,2}[\/\-]\d{1,2}$/ )
],
usLongDate: [
- new RegExp( /^[A-Za-z]{3,10}\.? [0-9]{1,2}, ([0-9]{4}|'?[0-9]{2}) (([0-2]?[0-9]:[0-5][0-9])|([0-1]?[0-9]:[0-5][0-9]\s(AM|PM)))$/)
+ new RegExp( /^[A-Za-z]{3,10}\.? [0-9]{1,2}, ([0-9]{4}|'?[0-9]{2}) (([0-2]?[0-9]:[0-5][0-9])|([0-1]?[0-9]:[0-5][0-9]\s(AM|PM)))$/ )
],
time: [
- new RegExp( /^(([0-2]?[0-9]:[0-5][0-9])|([0-1]?[0-9]:[0-5][0-9]\s(am|pm)))$/)
+ new RegExp( /^(([0-2]?[0-9]:[0-5][0-9])|([0-1]?[0-9]:[0-5][0-9]\s(am|pm)))$/ )
]
};
}
function convertSortList( sortObjects ) {
var sortList = [];
- $.each( sortObjects, function( i, sortObject ) {
- $.each ( sortObject, function( columnIndex, order ) {
+ $.each( sortObjects, function ( i, sortObject ) {
+ $.each( sortObject, function ( columnIndex, order ) {
var orderIndex = ( order === 'desc' ) ? 1 : 0;
sortList.push( [parseInt( columnIndex, 10 ), orderIndex] );
} );
if ( $sortbottoms.length ) {
var $tfoot = $table.children( 'tfoot' );
if ( $tfoot.length ) {
- $tfoot.eq(0).prepend( $sortbottoms );
+ $tfoot.eq( 0 ).prepend( $sortbottoms );
} else {
$table.append( $( '<tfoot>' ).append( $sortbottoms ) );
}
newSortList = $.map( columns, function ( c ) {
// jQuery "helpfully" flattens the arrays...
return [[c, cell.order]];
- });
+ } );
// Index of first column belonging to this header
i = columns[0];
if ( ts.transformTable !== false ) {
out = '';
for ( p = 0; p < s.length; p++ ) {
- c = s.charAt(p);
+ c = s.charAt( p );
if ( c in ts.transformTable ) {
out += ts.transformTable[c];
} else {
},
formatFloat: function ( s ) {
- var i = parseFloat(s);
+ var i = parseFloat( s );
return isNaN( i ) ? 0 : i;
},
ts.addParser( {
id: 'IPAddress',
is: function ( s ) {
- return ts.rgx.IPAddress[0].test(s);
+ return ts.rgx.IPAddress[0].test( s );
},
format: function ( s ) {
var a = s.split( '.' ),
r += item;
}
}
- return $.tablesorter.formatFloat(r);
+ return $.tablesorter.formatFloat( r );
},
type: 'numeric'
} );
ts.addParser( {
id: 'currency',
is: function ( s ) {
- return ts.rgx.currency[0].test(s);
+ return ts.rgx.currency[0].test( s );
},
format: function ( s ) {
return $.tablesorter.formatDigit( s.replace( ts.rgx.currency[1], '' ) );
ts.addParser( {
id: 'url',
is: function ( s ) {
- return ts.rgx.url[0].test(s);
+ return ts.rgx.url[0].test( s );
},
format: function ( s ) {
return $.trim( s.replace( ts.rgx.url[1], '' ) );
ts.addParser( {
id: 'isoDate',
is: function ( s ) {
- return ts.rgx.isoDate[0].test(s);
+ return ts.rgx.isoDate[0].test( s );
},
format: function ( s ) {
- return $.tablesorter.formatFloat((s !== '') ? new Date(s.replace(
- new RegExp( /-/g), '/')).getTime() : '0' );
+ return $.tablesorter.formatFloat( ( s !== '' ) ? new Date( s.replace(
+ new RegExp( /-/g ), '/' ) ).getTime() : '0' );
},
type: 'numeric'
} );
ts.addParser( {
id: 'usLongDate',
is: function ( s ) {
- return ts.rgx.usLongDate[0].test(s);
+ return ts.rgx.usLongDate[0].test( s );
},
format: function ( s ) {
- return $.tablesorter.formatFloat( new Date(s).getTime() );
+ return $.tablesorter.formatFloat( new Date( s ).getTime() );
},
type: 'numeric'
} );
ts.addParser( {
id: 'date',
is: function ( s ) {
- return ( ts.dateRegex[0].test(s) || ts.dateRegex[1].test(s) || ts.dateRegex[2].test(s ));
+ return ( ts.dateRegex[0].test( s ) || ts.dateRegex[1].test( s ) || ts.dateRegex[2].test( s ) );
},
format: function ( s ) {
var match;
}
var y;
- if ( ( y = parseInt( s[0], 10) ) < 100 ) {
+ if ( ( y = parseInt( s[0], 10 ) ) < 100 ) {
// Guestimate years without centuries
if ( y < 30 ) {
s[0] = 2000 + y;
ts.addParser( {
id: 'time',
is: function ( s ) {
- return ts.rgx.time[0].test(s);
+ return ts.rgx.time[0].test( s );
},
format: function ( s ) {
return $.tablesorter.formatFloat( new Date( '2000/01/01 ' + s ).getTime() );
ts.addParser( {
id: 'number',
is: function ( s ) {
- return $.tablesorter.numberRegex.test( $.trim( s ));
+ return $.tablesorter.numberRegex.test( $.trim( s ) );
},
format: function ( s ) {
- return $.tablesorter.formatDigit(s);
+ return $.tablesorter.formatDigit( s );
},
type: 'numeric'
} );