// BASIC DATA VALIDATION FUNCTIONS: // // isWhitespace (s) Check whether string s is empty or whitespace. // isSpace(s) True is s contains nothing but blanks. ( Should be using isWhitespace ) // isLetter (c) Check whether character c is an English letter // isDigit (c) Check whether character c is a digit // isLetterOrDigit (c) Check whether character c is a letter or digit. // isInteger (s [,eok]) True if all characters in string s are numbers. // isSignedInteger (s [,eok]) True if all characters in string s are numbers; leading + or - allowed. // isPositiveInteger (s [,eok]) True if string s is an integer > 0. // isNonnegativeInteger (s [,eok]) True if string s is an integer >= 0. // isNegativeInteger (s [,eok]) True if s is an integer < 0. // isNonpositiveInteger (s [,eok]) True if s is an integer <= 0. // isFloat (s [,eok]) True if string s is an unsigned floating point (real) number. (Integers also OK.) // isSignedFloat (s [,eok]) True if string s is a floating point number; leading + or - allowed. (Integers also OK.) // isMoney(s) True is string is a float and does not contain more than two digits after the decimal point. // isAlphabetic (s [,eok]) True if string s is English letters // isAlphanumeric (s [,eok]) True if string s is English letters and numbers only. // // isEmail (s [,eok]) True if string s is a valid email address. // isYear (s [,eok]) True if string s is a valid Year number. // isIntegerInRange (s, a, b [,eok]) True if string s is an integer between a and b, inclusive. // isMonth (s [,eok]) True if string s is a valid month between 1 and 12. // isDay (s [,eok]) True if string s is a valid day between 1 and 31. // daysInFebruary (year) Returns number of days in February of that year. // isDate (year, month, day) True if string arguments form a valid date. // isDropDownDateValid( monthElement, dayElement, yearElement ) True if the date from the three drop down are valid // checkDate( year, month, day ) Should be using isDate // monthDays( month, year ) Returns the number of days for a given month and year. // FORM ELEMENT FUNCTIONS // radioButtonChecked (radioButtonObj) True if a radio option has been selected, False if not // FUNCTIONS TO REFORMAT DATA: // // replaceSubStr (srcStr, searchStr, replaceStr) Replaces all occurances of searchStr with replaceStr in srcStr // stripCharsInBag (s, bag) Removes all characters in string bag from string s. // stripCharsNotInBag (s, bag) Removes all characters NOT in string bag from string s. // stripWhitespace (s) Removes all whitespace characters from s. // stripInitialWhitespace (s) Removes initial (leading) whitespace characters from s. // trimLeadChar( s, c ) Removes all leading c from s. // reformat (TARGETSTRING, STRING, Function for inserting formatting characters or // INTEGER, STRING, INTEGER ... ) delimiters into TARGETSTRING. //************************************************************************************************************************************ // COOKIES RELATED FUNCTIONS // getCookie(Name) Get the Cookie value given a cookie name. // setCookie(name, value, expires, // path, domain, secure) Set a Cookie value. expire is a date object (opt.) // VARIABLE DECLARATIONS var digits = "0123456789"; var lowercaseLetters = "abcdefghijklmnopqrstuvwxyz" var uppercaseLetters = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" var defaultEmptyOK = false // whitespace characters var whitespace = " \t\n\r"; // decimal point character differs by language and culture var decimalPointDelimiter = "." var daysInMonth = new Array( "", 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31); //----------------------------------------------------------------------------------------------- // Check whether string s is empty. function isEmpty(s) { return ((s == null) || (s.length == 0) || (isSpace(s)) ) } // Returns true if string s is empty or // whitespace characters only. function isWhitespace (s) { var i; // Is s empty? if (isEmpty(s)) return true; // Search through string's characters one by one // until we find a non-whitespace character. // When we do, return false; if we don't, return true. for (i = 0; i < s.length; i++) { // Check that current character isn't whitespace. var c = s.charAt(i); if (whitespace.indexOf(c) == -1) return false; } // All characters are whitespace. return true; } // Removes all characters which appear in string bag from string s. function stripCharsInBag (s, bag) { var i; var returnString = ""; // Search through string's characters one by one. // If character is not in bag, append to returnString. for (i = 0; i < s.length; i++) { // Check that current character isn't whitespace. var c = s.charAt(i); if (bag.indexOf(c) == -1) returnString += c; } return returnString; } // Removes all characters which do NOT appear in string bag // from string s. function stripCharsNotInBag (s, bag) { var i; var returnString = ""; // Search through string's characters one by one. // If character is in bag, append to returnString. for (i = 0; i < s.length; i++) { // Check that current character isn't whitespace. var c = s.charAt(i); if (bag.indexOf(c) != -1) returnString += c; } return returnString; } // Removes all whitespace characters from s. // Global variable whitespace (see above) // defines which characters are considered whitespace. function stripWhitespace (s) { return stripCharsInBag (s, whitespace) } // Removes initial (leading) whitespace characters from s. // Global variable whitespace (see above) // defines which characters are considered whitespace. function stripInitialWhitespace (s) { var i = 0; while ((i < s.length) && charInString (s.charAt(i), whitespace)) i++; return s.substring (i, s.length); } // Returns true if character c is an English letter // (A .. Z, a..z). // // NOTE: Need i18n version to support European characters. // This could be tricky due to different character // sets and orderings for various languages and platforms. function isLetter (c) { return ( ((c >= "a") && (c <= "z")) || ((c >= "A") && (c <= "Z")) ) } // Returns true if character c is a digit // (0 .. 9). function isDigit (c) { return ((c >= "0") && (c <= "9")) } // Returns true if character c is a letter or digit. function isLetterOrDigit (c) { return (isLetter(c) || isDigit(c)) } // isInteger (STRING s [, BOOLEAN emptyOK]) // // Returns true if all characters in string s are numbers. // // Accepts non-signed integers only. Does not accept floating // point, exponential notation, etc. // // We don't use parseInt because that would accept a string // with trailing non-numeric characters. // // By default, returns defaultEmptyOK if s is empty. // There is an optional second argument called emptyOK. // emptyOK is used to override for a single function call // the default behavior which is specified globally by // defaultEmptyOK. // If emptyOK is false (or any value other than true), // the function will return false if s is empty. // If emptyOK is true, the function will return true if s is empty. // // EXAMPLE FUNCTION CALL: RESULT: // isInteger ("5") true // isInteger ("") defaultEmptyOK // isInteger ("-5") false // isInteger ("", true) true // isInteger ("", false) false // isInteger ("5", false) true function isInteger (s) { var i; if (isEmpty(s)) if (isInteger.arguments.length == 1) return defaultEmptyOK; else return (isInteger.arguments[1] == true); // Search through string's characters one by one // until we find a non-numeric character. // When we do, return false; if we don't, return true. for (i = 0; i < s.length; i++) { // Check that current character is number. var c = s.charAt(i); if (!isDigit(c)) return false; } // All characters are numbers. return true; } // isSignedInteger (STRING s [, BOOLEAN emptyOK]) // // Returns true if all characters are numbers; // first character is allowed to be + or - as well. // // Does not accept floating point, exponential notation, etc. // // We don't use parseInt because that would accept a string // with trailing non-numeric characters. // // For explanation of optional argument emptyOK, // see comments of function isInteger. // // EXAMPLE FUNCTION CALL: RESULT: // isSignedInteger ("5") true // isSignedInteger ("") defaultEmptyOK // isSignedInteger ("-5") true // isSignedInteger ("+5") true // isSignedInteger ("", false) false // isSignedInteger ("", true) true function isSignedInteger (s) { if (isEmpty(s)) if (isSignedInteger.arguments.length == 1) return defaultEmptyOK; else return (isSignedInteger.arguments[1] == true); else { var startPos = 0; var secondArg = defaultEmptyOK; if (isSignedInteger.arguments.length > 1) secondArg = isSignedInteger.arguments[1]; // skip leading + or - if ( (s.charAt(0) == "-") || (s.charAt(0) == "+") ) startPos = 1; return (isInteger(s.substring(startPos, s.length), secondArg)) } } // isPositiveInteger (STRING s [, BOOLEAN emptyOK]) // // Returns true if string s is an integer > 0. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isPositiveInteger (s) { var secondArg = defaultEmptyOK; if (isPositiveInteger.arguments.length > 1) secondArg = isPositiveInteger.arguments[1]; // The next line is a bit byzantine. What it means is: // a) s must be a signed integer, AND // b) one of the following must be true: // i) s is empty and we are supposed to return true for // empty strings // ii) this is a positive, not negative, number return (isSignedInteger(s, secondArg) && ( (isEmpty(s) && secondArg) || (parseInt (s, 10) > 0) ) ); } // isNonnegativeInteger (STRING s [, BOOLEAN emptyOK]) // // Returns true if string s is an integer >= 0. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isNonnegativeInteger (s) { var secondArg = defaultEmptyOK; if (isNonnegativeInteger.arguments.length > 1) secondArg = isNonnegativeInteger.arguments[1]; // The next line is a bit byzantine. What it means is: // a) s must be a signed integer, AND // b) one of the following must be true: // i) s is empty and we are supposed to return true for // empty strings // ii) this is a number >= 0 return (isSignedInteger(s, secondArg) && ( (isEmpty(s) && secondArg) || (parseInt (s, 10) >= 0) ) ); } // isNegativeInteger (STRING s [, BOOLEAN emptyOK]) // // Returns true if string s is an integer < 0. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isNegativeInteger (s) { var secondArg = defaultEmptyOK; if (isNegativeInteger.arguments.length > 1) secondArg = isNegativeInteger.arguments[1]; // The next line is a bit byzantine. What it means is: // a) s must be a signed integer, AND // b) one of the following must be true: // i) s is empty and we are supposed to return true for // empty strings // ii) this is a negative, not positive, number return (isSignedInteger(s, secondArg) && ( (isEmpty(s) && secondArg) || (parseInt (s, 10) < 0) ) ); } // isNonpositiveInteger (STRING s [, BOOLEAN emptyOK]) // // Returns true if string s is an integer <= 0. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isNonpositiveInteger (s) { var secondArg = defaultEmptyOK; if (isNonpositiveInteger.arguments.length > 1) secondArg = isNonpositiveInteger.arguments[1]; // The next line is a bit byzantine. What it means is: // a) s must be a signed integer, AND // b) one of the following must be true: // i) s is empty and we are supposed to return true for // empty strings // ii) this is a number <= 0 return (isSignedInteger(s, secondArg) && ( (isEmpty(s) && secondArg) || (parseInt (s, 10) <= 0) ) ); } // isFloat (STRING s [, BOOLEAN emptyOK]) // // True if string s is an unsigned floating point (real) number. // // Also returns true for unsigned integers. If you wish // to distinguish between integers and floating point numbers, // first call isInteger, then call isFloat. // // Does not accept exponential notation. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isFloat (s) { var i; var seenDecimalPoint = false; if (isEmpty(s)) if (isFloat.arguments.length == 1) return defaultEmptyOK; else return (isFloat.arguments[1] == true); if (s == decimalPointDelimiter) return false; // Search through string's characters one by one // until we find a non-numeric character. // When we do, return false; if we don't, return true. for (i = 0; i < s.length; i++) { // Check that current character is number. var c = s.charAt(i); if ((c == decimalPointDelimiter) && !seenDecimalPoint) seenDecimalPoint = true; else if (!isDigit(c)) return false; } // All characters are numbers. return true; } // isSignedFloat (STRING s [, BOOLEAN emptyOK]) // // True if string s is a signed or unsigned floating point // (real) number. First character is allowed to be + or -. // // Also returns true for unsigned integers. If you wish // to distinguish between integers and floating point numbers, // first call isSignedInteger, then call isSignedFloat. // // Does not accept exponential notation. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isSignedFloat (s) { if (isEmpty(s)) if (isSignedFloat.arguments.length == 1) return defaultEmptyOK; else return (isSignedFloat.arguments[1] == true); else { var startPos = 0; var secondArg = defaultEmptyOK; if (isSignedFloat.arguments.length > 1) secondArg = isSignedFloat.arguments[1]; // skip leading + or - if ( (s.charAt(0) == "-") || (s.charAt(0) == "+") ) startPos = 1; return (isFloat(s.substring(startPos, s.length), secondArg)) } } //True is string is a float and does not contain more than two digits after the decimal point. // isAlphabetic(STRING s) function isMoney(s) { var decimalPos, strLength; if ( !isSignedFloat(s) ) { return false; } strLength = s.length //alert( strLength ); //find the position of the '.' character. decimalPos = s.indexOf(decimalPointDelimiter); if ( decimalPos < 0 ) { return true; } decimalPos++; //alert( decimalPos ); if ( ((strLength - decimalPos) >= 0 ) && ((strLength - decimalPos) <= 2 ) ) { return true; } return false; } // isAlphabetic (STRING s [, BOOLEAN emptyOK]) // // Returns true if string s is English letters // (A .. Z, a..z) only. // // For explanation of optional argument emptyOK, // see comments of function isInteger. // // NOTE: Need i18n version to support European characters. // This could be tricky due to different character // sets and orderings for various languages and platforms. function isAlphabetic (s) { var i; if (isEmpty(s)) if (isAlphabetic.arguments.length == 1) return defaultEmptyOK; else return (isAlphabetic.arguments[1] == true); // Search through string's characters one by one // until we find a non-alphabetic character. // When we do, return false; if we don't, return true. for (i = 0; i < s.length; i++) { // Check that current character is letter. var c = s.charAt(i); if (!isLetter(c)) return false; } // All characters are letters. return true; } // isAlphanumeric (STRING s [, BOOLEAN emptyOK]) // // Returns true if string s is English letters // (A .. Z, a..z) and numbers only. // // For explanation of optional argument emptyOK, // see comments of function isInteger. // // NOTE: Need i18n version to support European characters. // This could be tricky due to different character // sets and orderings for various languages and platforms. function isAlphanumeric (s) { var i; if (isEmpty(s)) if (isAlphanumeric.arguments.length == 1) return defaultEmptyOK; else return (isAlphanumeric.arguments[1] == true); // Search through string's characters one by one // until we find a non-alphanumeric character. // When we do, return false; if we don't, return true. for (i = 0; i < s.length; i++) { // Check that current character is number or letter. var c = s.charAt(i); if (! (isLetter(c) || isDigit(c) ) ) return false; } // All characters are numbers or letters. return true; } // reformat (TARGETSTRING, STRING, INTEGER, STRING, INTEGER ... ) // // Handy function for arbitrarily inserting formatting characters // or delimiters of various kinds within TARGETSTRING. // // reformat takes one named argument, a string s, and any number // of other arguments. The other arguments must be integers or // strings. These other arguments specify how string s is to be // reformatted and how and where other strings are to be inserted // into it. // // reformat processes the other arguments in order one by one. // * If the argument is an integer, reformat appends that number // of sequential characters from s to the resultString. // * If the argument is a string, reformat appends the string // to the resultString. // // NOTE: The first argument after TARGETSTRING must be a string. // (It can be empty.) The second argument must be an integer. // Thereafter, integers and strings must alternate. This is to // provide backward compatibility to Navigator 2.0.2 JavaScript // by avoiding use of the typeof operator. // // It is the caller's responsibility to make sure that we do not // try to copy more characters from s than s.length. // // EXAMPLES: // // * To reformat a 10-digit U.S. phone number from "1234567890" // to "(123) 456-7890" make this function call: // reformat("1234567890", "(", 3, ") ", 3, "-", 4) // // * To reformat a 9-digit U.S. Social Security number from // "123456789" to "123-45-6789" make this function call: // reformat("123456789", "", 3, "-", 2, "-", 4) // // HINT: // // If you have a string which is already delimited in one way // (example: a phone number delimited with spaces as "123 456 7890") // and you want to delimit it in another way using function reformat, // call function stripCharsNotInBag to remove the unwanted // characters, THEN call function reformat to delimit as desired. // // EXAMPLE: // // reformat (stripCharsNotInBag ("123 456 7890", digits), // "(", 3, ") ", 3, "-", 4) function reformat (s) { var arg; var sPos = 0; var resultString = ""; for (var i = 1; i < reformat.arguments.length; i++) { arg = reformat.arguments[i]; if (i % 2 == 1) resultString += arg; else { resultString += s.substring(sPos, sPos + arg); sPos += arg; } } return resultString; } // isEmail (STRING s [, BOOLEAN emptyOK]) // // Email address must be of form a@b.c -- in other words: // * there must be at least one character before the @ // * there must be at least one character before and after the . // * the characters @ and . are both required // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isEmail (s) { if (isEmpty(s)) if (isEmail.arguments.length == 1) return defaultEmptyOK; else return (isEmail.arguments[1] == true); // is s whitespace? if (isWhitespace(s)) return false; // there must be >= 1 character before @, so we // start looking at character position 1 // (i.e. second character) var i = 1; var sLength = s.length; // look for @ while ((i < sLength) && (s.charAt(i) != "@")) { i++ } if ((i >= sLength) || (s.charAt(i) != "@")) return false; else i += 2; // look for . while ((i < sLength) && (s.charAt(i) != ".")) { i++ } // there must be at least one character after the . if ((i >= sLength - 1) || (s.charAt(i) != ".")) return false; else return true; } // isYear (STRING s [, BOOLEAN emptyOK]) // // isYear returns true if string s is a valid // Year number. Must be 2 or 4 digits only. // // For Year 2000 compliance, you are advised // to use 4-digit year numbers everywhere. // // And yes, this function is not Year 10000 compliant, but // because I am giving you 8003 years of advance notice, // I don't feel very guilty about this ... // // For B.C. compliance, write your own function. ;-> // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isYear (s) { if (isEmpty(s)) if (isYear.arguments.length == 1) return defaultEmptyOK; else return (isYear.arguments[1] == true); if (!isNonnegativeInteger(s)) return false; return ((s.length == 2) || (s.length == 4)); } // isIntegerInRange (STRING s, INTEGER a, INTEGER b [, BOOLEAN emptyOK]) // // isIntegerInRange returns true if string s is an integer // within the range of integer arguments a and b, inclusive. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isIntegerInRange (s, a, b) { if (isEmpty(s)) if (isIntegerInRange.arguments.length == 1) return defaultEmptyOK; else return (isIntegerInRange.arguments[1] == true); // Catch non-integer strings to avoid creating a NaN below, // which isn't available on JavaScript 1.0 for Windows. if (!isInteger(s, false)) return false; // Now, explicitly change the type to integer via parseInt // so that the comparison code below will work both on // JavaScript 1.2 (which typechecks in equality comparisons) // and JavaScript 1.1 and before (which doesn't). //alert( "s before parseInt is " + s ); var num = parseInt (s, 10); //alert( "num is " + num ); return ((num >= a) && (num <= b)); } // isMonth (STRING s [, BOOLEAN emptyOK]) // // isMonth returns true if string s is a valid // month number between 1 and 12. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isMonth (s) { if (isEmpty(s)) if (isMonth.arguments.length == 1) return defaultEmptyOK; else return (isMonth.arguments[1] == true); return isIntegerInRange (s, 1, 12); } // isDay (STRING s [, BOOLEAN emptyOK]) // // isDay returns true if string s is a valid // day number between 1 and 31. // // For explanation of optional argument emptyOK, // see comments of function isInteger. function isDay (s) { if (isEmpty(s)) if (isDay.arguments.length == 1) return defaultEmptyOK; else return (isDay.arguments[1] == true); //alert( "isDay s is " + s ); return isIntegerInRange (s, 1, 31); } // daysInFebruary (INTEGER year) // // Given integer argument year, // returns number of days in February of that year. function daysInFebruary (year) { // February has 29 days in any year evenly divisible by four, // EXCEPT for centurial years which are not also divisible by 400. return ( ((year % 4 == 0) && ( (!(year % 100 == 0)) || (year % 400 == 0) ) ) ? 29 : 28 ); } // isDate (STRING year, STRING month, STRING day) // // isDate returns true if string arguments year, month, and day // form a valid date. // function isDate (year, month, day) { // catch invalid years (not 2- or 4-digit) and invalid months and days. if ( !isYear( year, false ) ) { //alert( "isYear Failed" ); return false; } if ( !isMonth(month, false) ) { //alert( "isMonth Failed" ); return false; } if ( !isDay(day, false) ) { //alert( "isDay Failed" ); return false; } //if (! (isYear(year, false) && isMonth(month, false) && isDay(day, false))) return false; // Explicitly change type to integer to make code work in both // JavaScript 1.1 and JavaScript 1.2. var intYear = parseInt(year, 10); var intMonth = parseInt(month, 10); var intDay = parseInt(day, 10); // catch invalid days, except for February if (intDay > daysInMonth[intMonth]) { //alert( "returning false 1" ); return false; } if ((intMonth == 2) && (intDay > daysInFebruary(intYear))) { //alert( "returning false 2 " ); return false; } return true; } // isDropDownDateValid ( SELECT-ELEMENT year, SELECT-ELEMENT month, SELECT-ELEMENT day) // // isDropDownDateValid returns true if string arguments year, month, and day // form a valid date. // function isDropDownDateValid( monthElement, dayElement, yearElement ) { var monthStr = monthElement.options[ monthElement.selectedIndex ].value; var dayStr = dayElement.options[ dayElement.selectedIndex ].value; var yearStr = yearElement.options[ yearElement.selectedIndex ].value; if ( isEmpty( monthStr ) || isEmpty( dayStr ) || isEmpty( yearStr ) ) { return false; } return isDate( yearStr, monthStr, dayStr ); } ///////////////////////////////////////////////////////////////////////////////////////////////// function isSpace(s) { var i; for( i = 0; i < s.length; i ++ ) { var oneChar = s.charAt( i ); if( oneChar != " " ) { return false; } } return true; } function checkDate( year, month, day ) { var numDays; numDays = monthDays( month, year ); if ( day > numDays ) { return false; } return true; } function monthDays( month, year ) { var monthDays = [ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]; if( month == 2 && ( year % 400 == 0 || ( year % 4 == 0 && year %100 != 0 ) ) ) { return ( monthDays[month -1]+1 ); } else { return( monthDays[month -1] ); } } function trimLeadChar( myString, myChar ) { var string = myString; while( string.charAt( 0 ) == myChar ) { string = string.substring( 1 ); } return string; } function replaceSubStr(srcStr, searchStr, replaceStr) { var out = searchStr; var add = replaceStr; var temp = "" + srcStr; // temporary holder while (temp.indexOf(out)>-1) { pos= temp.indexOf(out); temp = "" + (temp.substring(0, pos) + add + temp.substring((pos + out.length), temp.length)); } return temp; } function getCookie(Name) { var search = Name + "="; var str = ""; if (document.cookie.length > 0) { // if there are any cookies offset = document.cookie.indexOf(search) if (offset != -1) { offset += search.length; end = document.cookie.indexOf(";", offset); if (end == -1) { end = document.cookie.length; } str = document.cookie.substring(offset, end); return str; } } return str; } /** * Sets a Cookie with the given name and value. * * name Name of the cookie * value Value of the cookie * [expires] Expiration date of the cookie (default: end of current session) * [path] Path where the cookie is valid (default: path of calling document) * [domain] Domain where the cookie is valid * (default: domain of calling document) * [secure] Boolean value indicating if the cookie transmission requires a * secure transmission * * Source: http://www.netspade.com/articles/javascript/cookies.xml * Author: Jason Davies */ function setCookie(name, value, expires, path, domain, secure) { document.cookie= name + "=" + escape(value) + ((expires) ? "; expires=" + expires.toGMTString() : "") + ((path) ? "; path=" + path : "") + ((domain) ? "; domain=" + domain : "") + ((secure) ? "; secure" : ""); } function systemLogOut() { if( confirm( "Logging out of the system will cancel any pending transactions.\n\nAre you sure you want to log out the system now?" ) ) { window.location.href = "/cgi-bin/libRegPub.exe?act=logout"; } } function radioButtonChecked (radioButtonObj) { var i; var itemChecked=false; for (i=0;i