function popUp(openurl, obj){
	ret = window.showModalDialog(openurl);	
	obj.value = ret;
	return "mod";
}

function openPopUp(url, h, w){
	window.open(url,'','height=' + h + ',width=' + w + ',status=yes,toolbar=no,menubar=no,scrollbars=yes,location=no');
}

function emailCheck (emailStr) {
/* The following pattern is used to check if the entered e-mail address
   fits the user@domain format.  It also is used to separate the username
   from the domain. */
var emailPat=/^(.+)@(.+)$/
/* The following string represents the pattern for matching all special
   characters.  We don't want to allow special characters in the address. 
   These characters include ( ) < > @ , ; : \ " . [ ]    */
var specialChars="\\(\\)<>@,;:\\\\\\\"\\.\\[\\]"
/* The following string represents the range of characters allowed in a 
   username or domainname.  It really states which chars aren't allowed. */
var validChars="\[^\\s" + specialChars + "\]"
/* The following pattern applies if the "user" is a quoted string (in
   which case, there are no rules about which characters are allowed
   and which aren't; anything goes).  E.g. "jiminy cricket"@disney.com
   is a legal e-mail address. */
var quotedUser="(\"[^\"]*\")"
/* The following pattern applies for domains that are IP addresses,
   rather than symbolic names.  E.g. joe@[123.124.233.4] is a legal
   e-mail address. NOTE: The square brackets are required. */
var ipDomainPat=/^\[(\d{1,3})\.(\d{1,3})\.(\d{1,3})\.(\d{1,3})\]$/
/* The following string represents an atom (basically a series of
   non-special characters.) */
var atom=validChars + '+'
/* The following string represents one word in the typical username.
   For example, in john.doe@somewhere.com, john and doe are words.
   Basically, a word is either an atom or quoted string. */
var word="(" + atom + "|" + quotedUser + ")"
// The following pattern describes the structure of the user
var userPat=new RegExp("^" + word + "(\\." + word + ")*$")
/* The following pattern describes the structure of a normal symbolic
   domain, as opposed to ipDomainPat, shown above. */
var domainPat=new RegExp("^" + atom + "(\\." + atom +")*$")
/* Finally, let's start trying to figure out if the supplied address is
   valid. */
/* Begin with the coarse pattern to simply break up user@domain into
   different pieces that are easy to analyze. */
var matchArray=emailStr.match(emailPat)
if (matchArray==null) {
  /* Too many/few @'s or something; basically, this address doesn't
     even fit the general mould of a valid e-mail address. */
	alert("L'indirizzo e-mail non sembra corretto")
	return false
}
var user=matchArray[1]
var domain=matchArray[2]
// See if "user" is valid 
if (user.match(userPat)==null) {
    // user is not valid
    alert("Il nome utente non sembra valido")
    return false
}
/* if the e-mail address is at an IP address (as opposed to a symbolic
   host name) make sure the IP address is valid. */
var IPArray=domain.match(ipDomainPat)
if (IPArray!=null) {
    // this is an IP address
	  for (var i=1;i<=4;i++) {
	    if (IPArray[i]>255) {
	        alert("L'IP di destinazione non è valido")
		return false
	    }
    }
    return true
}
// Domain is symbolic name
var domainArray=domain.match(domainPat)
if (domainArray==null) {
	alert("Il dominio non e' valido")
    return false
}
/* domain name seems valid, but now make sure that it ends in a
   three-letter word (like com, edu, gov) or a two-letter word,
   representing country (uk, nl), and that there's a hostname preceding 
   the domain or country. */
/* Now we need to break up the domain to get a count of how many atoms
   it consists of. */
var atomPat=new RegExp(atom,"g")
var domArr=domain.match(atomPat)
var len=domArr.length
if (domArr[domArr.length-1].length<2 || 
    domArr[domArr.length-1].length>3) {
   // the address must end in a two letter or three letter word.
   alert("Il dominio deve terminare con due o tre caratteri")
   return false
}
// Make sure there's a host name preceding the domain.
if (len<2) {
   var errStr="L'indirizzo e-mail non ha dominio"
   alert(errStr)
   return false
}
// If we've gotten this far, everything's valid!
return true;
}

function MM_swapImgRestore() { //v3.0
  var i,x,a=document.MM_sr; for(i=0;a&&i<a.length&&(x=a[i])&&x.oSrc;i++) x.src=x.oSrc;
}

function MM_preloadImages() { //v3.0
  var d=document; if(d.images){ if(!d.MM_p) d.MM_p=new Array();
    var i,j=d.MM_p.length,a=MM_preloadImages.arguments; for(i=0; i<a.length; i++)
    if (a[i].indexOf("#")!=0){ d.MM_p[j]=new Image; d.MM_p[j++].src=a[i];}}
}

function MM_findObj(n, d) { //v3.0
  var p,i,x;  if(!d) d=document; if((p=n.indexOf("?"))>0&&parent.frames.length) {
    d=parent.frames[n.substring(p+1)].document; n=n.substring(0,p);}
  if(!(x=d[n])&&d.all) x=d.all[n]; for (i=0;!x&&i<d.forms.length;i++) x=d.forms[i][n];
  for(i=0;!x&&d.layers&&i<d.layers.length;i++) x=MM_findObj(n,d.layers[i].document); return x;
}

function MM_swapImage() { //v3.0
  var i,j=0,x,a=MM_swapImage.arguments; document.MM_sr=new Array; for(i=0;i<(a.length-2);i+=3)
   if ((x=MM_findObj(a[i]))!=null){document.MM_sr[j++]=x; if(!x.oSrc) x.oSrc=x.src; x.src=a[i+2];}
}





//************************************************************************
//************************************************************************
//                    QUESTA PARTE e' PER IL CONTROLLO DELLE DATE
//************************************************************************
//************************************************************************
//************************************************************************
/* Here's the list of tokens we support:
   m (or M) : month number, one or two digits.
   mm (or MM) : month number, strictly two digits (i.e. April is 04).
   d (or D) : day number, one or two digits.
   dd (or DD) : day number, strictly two digits.
   y (or Y) : year, two or four digits.
   yy (or YY) : year, strictly two digits.
   yyyy (or YYYY) : year, strictly four digits.
   mon : abbreviated month name (April is apr, Apr, APR, etc.)
   Mon : abbreviated month name, mixed-case (i.e. April is Apr only).
   MON : abbreviated month name, all upper-case (i.e. April is APR only).
   mon_strict : abbreviated month name, all lower-case (i.e. April is apr 
         only).
   month : full month name (April is april, April, APRIL, etc.)
   Month : full month name, mixed-case (i.e. April only).
   MONTH: full month name, all upper-case (i.e. APRIL only).
   month_strict : full month name, all lower-case (i.e. april only).
   h (or H) : hour, one or two digits.
   hh (or HH) : hour, strictly two digits.
   min (or MIN): minutes, one or two digits.
   mins (or MINS) : minutes, strictly two digits.
   s (or S) : seconds, one or two digits.
   ss (or SS) : seconds, strictly two digits.
   ampm (or AMPM) : am/pm setting.  Valid values to match this token are
         am, pm, AM, PM, a.m., p.m., A.M., P.M.
*/
// Be careful with this pattern.  Longer tokens should be placed before shorter
// tokens to disambiguate them.  For example, parsing "mon_strict" should 
// result in one token "mon_strict" and not two tokens "mon" and a literal
// "_strict".

var tokPat=new RegExp("^month_strict|month|Month|MONTH|yyyy|YYYY|mins|MINS|mon_strict|ampm|AMPM|mon|Mon|MON|min|MIN|dd|DD|mm|MM|yy|YY|hh|HH|ss|SS|m|M|d|D|y|Y|h|H|s|S");

// lowerMonArr is used to map months to their numeric values.

var lowerMonArr={jan:1, feb:2, mar:3, apr:4, may:5, jun:6, jul:7, aug:8, sep:9, oct:10, nov:11, dec:12}

// monPatArr contains regular expressions used for matching abbreviated months
// in a date string.

var monPatArr=new Array();
monPatArr['mon_strict']=new RegExp(/jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec/);
monPatArr['Mon']=new RegExp(/Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec/);
monPatArr['MON']=new RegExp(/JAN|FEB|MAR|APR|MAY|JUN|JUL|AUG|SEP|OCT|NOV|DEC/);
monPatArr['mon']=new RegExp("jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec",'i');

// monthPatArr contains regular expressions used for matching full months
// in a date string.

var monthPatArr=new Array();
monthPatArr['month']=new RegExp(/^january|february|march|april|may|june|july|august|september|october|november|december/i);
monthPatArr['Month']=new RegExp(/^January|February|March|April|May|June|July|August|September|October|November|December/);
monthPatArr['MONTH']=new RegExp(/^JANUARY|FEBRUARY|MARCH|APRIL|MAY|JUNE|JULY|AUGUST|SEPTEMBER|OCTOBER|NOVEMBER|DECEMBER/);
monthPatArr['month_strict']=new RegExp(/^january|february|march|april|may|june|july|august|september|october|november|december/);

// cutoffYear is the cut-off for assigning "19" or "20" as century.  Any
// two-digit year >= cutoffYear will get a century of "19", and everything
// else gets a century of "20".

var cutoffYear=50;

// FormatToken is a datatype we use for storing extracted tokens from the
// format string.

function FormatToken (token, type) {
this.token=token;
this.type=type;
}

function parseFormatString (formatStr) {
var tokArr=new Array;
var tokInd=0;
var strInd=0;
var foundTok=0;
    
while (strInd < formatStr.length) {
if (formatStr.charAt(strInd)=="%" &&
(matchArray=formatStr.substr(strInd+1).match(tokPat)) != null) {
strInd+=matchArray[0].length+1;
tokArr[tokInd++]=new FormatToken(matchArray[0],"symbolic");
} else {

// No token matched current position, so current character should 
// be saved as a required literal.

if (tokInd>0 && tokArr[tokInd-1].type=="literal") {

// Literal tokens can be combined.Just add to the last token.

tokArr[tokInd-1].token+=formatStr.charAt(strInd++);
}
else {
tokArr[tokInd++]=new FormatToken(formatStr.charAt(strInd++), "literal");
      }
   }
}
return tokArr;
}

/* buildDate does all the real work.It takes a date string and format string,
 tries to match the two up, and returns a Date object (with the supplied date
 string value).If a date string doesn't contain all the fields that a Date
 object contains (for example, a date string with just the month), all
 unprovided fields are defaulted to those characteristics of the current
 date. Time fields that aren't provided default to 0.Thus, a date string
 like "3/30/2000" in "%mm/%dd/%yyyy" format results in a Date object for that
 date at midnight.formatStr is a free-form string that indicates special
 tokens via the % character.Here are some examples that will return a Date
 object:

 buildDate('3/30/2000','%mm/%dd/%y') // March 30, 2000
 buildDate('March 30, 2000','%Mon %d, %y') // Same as above.
 buildDate('Here is the date: 30-3-00','Here is the date: %dd-%m-%yy')

 If the format string does not match the string provided, an error message
 (i.e. String object) is returned.Thus, to see if buildDate succeeded, the
 caller can use the "typeof" command on the return value.For example,
 here's the dateCheck function, which returns true if a given date is
 valid,and false otherwise (and reports an error in the false case):

 function dateCheck(dateStr,formatStr) {
 var myObj=buildDate(dateStr,formatStr);
 if (typeof myObj=="object") {
 // We got a Date object, so good.
 return true;
 } else {
 // We got an error string.
 alert(myObj);
 return false;
 }
 }

*/

function buildDate(dateStr,formatStr) {
// parse the format string first.
var tokArr=parseFormatString(formatStr);
var strInd=0;
var tokInd=0;
var intMonth;
var intDay;
var intYear;
var intHour;
var intMin;
var intSec;
var ampm="";
var strOffset;

// Create a date object with the current date so that if the user only
// gives a month or day string, we can still return a valid date.

var curdate=new Date();
intMonth=curdate.getMonth()+1;
intDay=curdate.getDate();
intYear=curdate.getFullYear();

// Default time to midnight, so that if given just date info, we return
// a Date object for that date at midnight.

intHour=0;
intMin=0;
intSec=0;

// Walk across dateStr, matching the parsed formatStr until we find a 
// mismatch or succeed.

while (strInd < dateStr.length && tokInd < tokArr.length) {

// Start with the easy case of matching a literal.

if (tokArr[tokInd].type=="literal") {
if (dateStr.indexOf(tokArr[tokInd].token,strInd)==strInd) {

// The current position in the string does match the format 
// pattern.

strInd+=tokArr[tokInd++].token.length;
continue;
}
else {

// ACK! There was a mismatch; return error.

return "\"" + dateStr + "\" non corrisponde al formato richiesto: " + formatStr;
   }
}

// If we get here, we're matching to a symbolic token.
switch (tokArr[tokInd].token) {
case 'm':
case 'M':
case 'd':
case 'D':
case 'h':
case 'H':
case 'min':
case 'MIN':
case 's':
case 'S':

// Extract one or two characters from the date-time string and if 
// it's a number, save it as the month, day, hour, or minute, as
// appropriate.

curChar=dateStr.charAt(strInd);
nextChar=dateStr.charAt(strInd+1);
matchArr=dateStr.substr(strInd).match(/^\d{1,2}/);
if (matchArr==null) {

// First character isn't a number; there's a mismatch between
// the pattern and date string, so return error.

switch (tokArr[tokInd].token.toLowerCase()) {
case 'd': var unit="day"; break;
case 'm': var unit="month"; break;
case 'h': var unit="hour"; break;
case 'min': var unit="minute"; break;
case 's': var unit="second"; break;
}
return "Bad " + unit + " \"" + curChar + "\" or \"" + curChar +
nextChar + "\".";
}
strOffset=matchArr[0].length;
switch (tokArr[tokInd].token.toLowerCase()) {
case 'd': intDay=parseInt(matchArr[0],10); break;
case 'm': intMonth=parseInt(matchArr[0],10); break;
case 'h': intHour=parseInt(matchArr[0],10); break;
case 'min': intMin=parseInt(matchArr[0],10); break;
case 's': intSec=parseInt(matchArr[0],10); break;
}
break;
case 'mm':
case 'MM':
case 'dd':
case 'DD':
case 'hh':
case 'HH':
case 'mins':
case 'MINS':
case 'ss':
case 'SS':

// Extract two characters from the date string and if it's a 
// number, save it as the month, day, or hour, as appropriate.

strOffset=2;
matchArr=dateStr.substr(strInd).match(/^\d{2}/);
if (matchArr==null) {

// The two characters aren't a number; there's a mismatch 
// between the pattern and date string, so return an error
// message.

switch (tokArr[tokInd].token.toLowerCase()) {
case 'dd': var unit="day"; break;
case 'mm': var unit="month"; break;
case 'hh': var unit="hour"; break;
case 'mins': var unit="minute"; break;
case 'ss': var unit="second"; break;
}
return "Bad " + unit + " \"" + dateStr.substr(strInd,2) + 
"\".";
}
switch (tokArr[tokInd].token.toLowerCase()) {
case 'dd': intDay=parseInt(matchArr[0],10); break;
case 'mm': intMonth=parseInt(matchArr[0],10); break;
case 'hh': intHour=parseInt(matchArr[0],10); break;
case 'mins': intMin=parseInt(matchArr[0],10); break;
case 'ss': intSec=parseInt(matchArr[0],10); break;
}
break;
case 'y':
case 'Y':

// Extract two or four characters from the date string and if it's
// a number, save it as the year.Convert two-digit years to four
// digit years by assigning a century of '19' if the year is >= 
// cutoffYear, and '20' otherwise.

if (dateStr.substr(strInd,4).search(/\d{4}/) != -1) {

// Four digit year.

intYear=parseInt(dateStr.substr(strInd,4),10);
strOffset=4;
}
else {
if (dateStr.substr(strInd,2).search(/\d{2}/) != -1) {

// Two digit year.

intYear=parseInt(dateStr.substr(strInd,2),10);
if (intYear>=cutoffYear) {
intYear+=1900;
}
else {
intYear+=2000;
}
strOffset=2;
}
else {

// Bad year; return error.

return "Bad year \"" + dateStr.substr(strInd,2) + 
"\". Deve essere two or four digits.";
   }
}
break;
case 'yy':
case 'YY':

// Extract two characters from the date string and if it's a 
// number, save it as the year.Convert two-digit years to four 
// digit years by assigning a century of '19' if the year is >= 
// cutoffYear, and '20' otherwise.

if (dateStr.substr(strInd,2).search(/\d{2}/) != -1) {

// Two digit year.

intYear=parseInt(dateStr.substr(strInd,2),10);
if (intYear>=cutoffYear) {
intYear+=1900;
}
else {
intYear+=2000;
}
strOffset=2;
} else {
// Bad year; return error
return "Bad year \"" + dateStr.substr(strInd,2) + 
"\". Deve essere two digits.";
}
break;
case 'yyyy':
case 'YYYY':

// Extract four characters from the date string and if it's a 
// number, save it as the year.

if (dateStr.substr(strInd,4).search(/\d{4}/) != -1) {

// Four digit year.

intYear=parseInt(dateStr.substr(strInd,4),10);
strOffset=4;
}
else {

// Bad year; return error.

return "Bad year \"" + dateStr.substr(strInd,4) + 
"\". Deve essere four digits.";
}
break;
case 'mon':
case 'Mon':
case 'MON':
case 'mon_strict':

// Extract three characters from dateStr and parse them as 
// lower-case, mixed-case, or upper-case abbreviated months,
// as appropriate.

monPat=monPatArr[tokArr[tokInd].token];
if (dateStr.substr(strInd,3).search(monPat) != -1) {
intMonth=lowerMonArr[dateStr.substr(strInd,3).toLowerCase()];
}
else {

// Errore nel mese, return error.

switch (tokArr[tokInd].token) {
case 'mon_strict': caseStat="lower-case"; break;
case 'Mon': caseStat="mixed-case"; break;
case 'MON': caseStat="upper-case"; break;
case 'mon': caseStat="between Jan and Dec"; break;
}
return "Errore nel mese \"" + dateStr.substr(strInd,3) + 
"\". Deve essere " + caseStat + ".";
}
strOffset=3;
break;
case 'month':
case 'Month':
case 'MONTH':
case 'month_strict':

// Extract a full month name at strInd from dateStr if possible.

monPat=monthPatArr[tokArr[tokInd].token];
matchArray=dateStr.substr(strInd).match(monPat);
if (matchArray==null) {

// Errore nel mese, return error.

return "Can't find a month beginning at \"" +
dateStr.substr(strInd) + "\".";
}

// It's a good month.

intMonth=lowerMonArr[matchArray[0].substr(0,3).toLowerCase()];
strOffset=matchArray[0].length;
break;
case 'ampm':
case 'AMPM':
matchArr=dateStr.substr(strInd).match(/^(am|pm|AM|PM|a\.m\.|p\.m\.|A\.M\.|P\.M\.)/);
if (matchArr==null) {

// There's no am/pm in the string.Return error msg.

return "Missing am/pm designation.";
}

// Store am/pm value for later (as just am or pm, to make things
// easier later).

if (matchArr[0].substr(0,1).toLowerCase() == "a") {

// This is am.

ampm = "am";
}
else {
ampm = "pm";
}
strOffset = matchArr[0].length;
break;
}
strInd += strOffset;
tokInd++;
}
if (tokInd != tokArr.length || strInd != dateStr.length) {

/* We got through the whole date string or format string, but there's 
 more data in the other, so there's a mismatch. */

return "\"" + dateStr + "\" is either missing desired information or has more information than the expected format: " + formatStr;
}

// Make sure all components are in the right ranges.

if (intMonth < 1 || intMonth > 12) {
return "Month Deve essere between 1 and 12.";
}
if (intDay < 1 || intDay > 31) {
return "Day Deve essere between 1 and 31.";
}

// Make sure user doesn't put 31 for a month that only has 30 days

if ((intMonth == 4 || intMonth == 6 || intMonth == 9 || intMonth == 11) && intDay == 31) {
return "Month "+intMonth+" doesn't have 31 days!";
}

// Check for February date validity (including leap years) 

if (intMonth == 2) {

// figure out if "year" is a leap year; don't forget that
// century years are only leap years if divisible by 400

var isleap=(intYear%4==0 && (intYear%100!=0 || intYear%400==0));
if (intDay > 29 || (intDay == 29 && !isleap)) {
return "February " + intYear + " doesn't have " + intDay + 
" days!";
   }
}

// Check that if am/pm is not provided, hours are between 0 and 23.

if (ampm == "") {
if (intHour < 0 || intHour > 23) {
return "Hour Deve essere between 0 and 23 for military time.";
   }
}
else {

// non-military time, so make sure it's between 1 and 12.

if (intHour < 1|| intHour > 12) {
return "Hour Deve essere between 1 and 12 for standard time.";
   }
}

// If user specified amor pm, convert intHour to military.

if (ampm=="am" && intHour==12) {
intHour=0;
}
if (ampm=="pm" && intHour < 12) {
intHour += 12;
}
if (intMin < 0 || intMin > 59) {
return "Minute Deve essere between 0 and 59.";
}
if (intSec < 0 || intSec > 59) {
return "Second Deve essere between 0 and 59.";
}
return new Date(intYear,intMonth-1,intDay,intHour,intMin,intSec);
}
function dateCheck(dateStr,formatStr,formatstringerrore) {
var myObj = buildDate(dateStr,formatStr);
if (typeof myObj == "object") {

// We got a Date object, so good.

return true;
}
else {

// We got an error string.

//alert(myObj);
alert('Errore nel formato della, data deve essere:'+ formatstringerrore);
return false;
   }
}

//************************************************************************
//************************************************************************
//                    FINE DELLA PARTE PER IL CONTROLLO DELLE DATE
//************************************************************************
//************************************************************************
//************************************************************************