C# .Net Regular Expression For Credit Card, SSN, Address, URL, Phone etc.

The solution example defines 16 regular expression validation functions and a helper method that address a common set of application input data types. The regular expression validation functions are:

IsValidUserName IsValidCCNumber
IsValidPassword IsValidSSN
IsValidName IsValidEmailAddress
IsValidStreetAddress IsValidURL
IsValidCity IsValidIPAddress
IsValidUSState IsValidAlphaText
IsValidZIPCode IsValidAlphaNumericText
IsValidUSPhoneNumber IsValidNumericText

// Decomposed method which actually creates the pattern object and determines the match.
// Used by all of the other functions.
static bool MatchString(string str, string regexstr)
{
str = str.Trim();
System.Text.RegularExpressions.Regex pattern = new System.Text.RegularExpressions.Regex(regexstr);

return pattern.IsMatch(str);
}

static bool IsValidUserName(string strUsername)
{
// Allows word characters [A-Za-z0-9_], single quote, dash and period
// must be at least two characters long and less then 128
string regExPattern = @”^[\w-‘\.]{2,128}$”;

// We also permit email address characters in user name. Set to false
// if you don’t permit email addresses as usernames.
bool allowEmailUsernames = true;

if (allowEmailUsernames)
{
return (MatchString(strUsername, regExPattern) || IsValidEmailAddress(strUsername));
}
else
{
return MatchString(strUsername, regExPattern);
}
}

static bool IsValidPassword(string strPassword)
{
// Allows any type of character

// If complexity is enabled, the password must be longer
// and contain at least one uppercase, one lowercase,
// one numeric and one symbolic character. Set to false
// if your requirements differ.
bool passwordComplexity = true;

// These are some proposed minimum password lengths. If
// complexity is enabled (above), the stronger (longer)
// minimum password rule applies.
int minPasswordLen = 6;
int strongPasswordLen = 8;

if(passwordComplexity) {
string regExPattern = @”^.*(?=.*\d)(?=.*[a-z])(?=.*[A-Z])(?=.*[`~!@#\$%\^\&\*\(\)-_\=\+\[\{\]\}\\\|;:’,/?]).*$”;
return(strPassword.Length >= strongPasswordLen &&
MatchString(strPassword, regExPattern));
} else {
return(strPassword.Length >= minPasswordLen);
}
}

static bool IsValidName(string strName)
{
// Allows alphabetical chars, single quote, dash and space
// must be at least two characters long and caps out at 128 (database size)
string regExPattern = @”^[a-zA-Z-‘\.\s]{2,128}$”;
return MatchString(strName, regExPattern);
}

static bool IsValidStreetAddress(string strAddress)
{
// Since so many different types of address formats we’re just going to swing the bat at
// this one for now and do a match against a series of digits (potentially containing
// punctuation), followed by a series of characters representing the street name and then
// potentially a type of street and unit number
string regExPattern = @”\d{1,3}.?\d{0,3}\s[a-zA-Z]{2,30}(\s[a-zA-Z]{2,15})?([#\.0-9a-zA-Z]*)?”;
return MatchString(strAddress, regExPattern);
}

static bool IsValidCity(string strCity)
{
// Here we simply treat city names like people names and defer to our name validation function.
return IsValidName(strCity);
}

static bool IsValidUSState(string strState)
{
// Names of 50 US States
string[] stateNames= {“ALABAMA”,”ALASKA”,”ARIZONA”,”ARKANSAS”,”CALIFORNIA”,”COLORADO”,”CONNECTICUT”,”DELAWARE”,”FLORIDA”,”GEORGIA”,”HAWAII”,”IDAHO”,”ILLINOIS”,”INDIANA”,”IOWA”,”KANSAS”,”KENTUCKY”,”LOUISIANA”,”MAINE”,”MARYLAND”,”MASSACHUSETTS”,”MICHIGAN”,”MINNESOTA”,”MISSISSIPPI”,”MISSOURI”,”MONTANA”,”NEBRASKA”,”NEVADA”,”NEW HAMPSHIRE”,”NEW JERSEY”,”NEW MEXICO”,”NEW YORK”,”NORTH CAROLINA”,”NORTH DAKOTA”,”OHIO”,”OKLAHOMA”,”OREGON”,”PENNSYLVANIA”,”RHODE ISLAND”,”SOUTH CAROLINA”,”SOUTHDAKOTA”,”TENNESSEE”,”TEXAS”,”UTAH”,”VERMONT”,”VIRGINIA”,”WASHINGTON”,”WEST VIRGINIA”,”WISCONSIN”,”WYOMING”};
// Postal codes of 50 US States
string[] stateCodes = {“AL”,”AK”,”AZ”,”AR”,”CA”,”CO”,”CT”,”DE”,”DC”,”FL”,”GA”,”HI”,”ID”,”IL”,”IN”,”IA”,”KS”,”KY”,”LA”,”ME”,”MD”,”MA”,”MI”,”MN”,”MS”,”MO”,”MT”,”NE”,”NV”,”NH”,”NJ”,”NM”,”NY”,”NC”,”ND”,”OH”,”OK”,”OR”,”PA”,”RI”,”SC”,”SD”,”TN”,”TX”,”UT”,”VT”,”VA”,”WA”,”WV”,”WI”,”WY”};

// This one is somewhat easier because we have a finite set of values to check against.
// We simply uppercase our value anc check against our list.
strState = strState.ToUpper();

ArrayList stateCodesArray = new ArrayList(stateCodes);
ArrayList stateNamesArray = new ArrayList(stateNames);

return (stateCodesArray.Contains(strState) || stateNamesArray.Contains(strState));
}

static bool IsValidZIPCode(string strZIP)
{
// Allows 5 digit, 5+4 digit and 9 digit zip codes
// must be at least two characters long and caps out at 128 (database size)
string regExPattern = @”^(\d{5}-\d{4}|\d{5}|\d{9})$”;
return MatchString(strZIP, regExPattern);
}

static bool IsValidUSPhoneNumber(string strPhone)
{
// Allows phone number of the format: NPA = [2-9][0-8][0-9] Nxx = [2-9][0-9][0-9] Station = [0-9][0-9][0-9][0-9]
string regExPattern = @”^[01]?[- .]?(\([2-9]\d{2}\)|[2-9]\d{2})[- .]?\d{3}[- .]?\d{4}$”;
return MatchString(strPhone, regExPattern);
}

static bool IsValidCCNumber(string strCCNumber)
{
// This expression is basically looking for series of numbers confirming to the standards
// for Visa, MC, Discover and American Express with optional dashes between groups of numbers
string regExPattern = @”^((4\d{3})|(5[1-5]\d{2})|(6011))-?\d{4}-?\d{4}-?\d{4}|3[4,7][\d\s-]{15}$”;
return MatchString(strCCNumber, regExPattern);
}

static bool IsValidSSN(string strSSN)
{
// Allows SSN’s of the format 123-456-7890. Accepts hyphen delimited SSN’s or plain numeric values.
string regExPattern = @”^\d{3}[-]?\d{2}[-]?\d{4}$”;
return MatchString(strSSN, regExPattern);
}

static bool IsValidEmailAddress(string strEmail)
{
// Allows common email address that can start with a alphanumeric char and contain word, dash and period characters
// followed by a domain name meeting the same criteria followed by a alpha suffix between 2 and 9 character lone
string regExPattern = @”^([0-9a-zA-Z]([-.\w]*[0-9a-zA-Z])*@([0-9a-zA-Z][-\w]*[0-9a-zA-Z]\.)+[a-zA-Z]{2,9})$”;
return MatchString(strEmail, regExPattern);
}

static bool IsValidURL(string strURL)
{
// Allows HTTP and FTP URL’s, domain name must start with alphanumeric and can contain a port number
// followed by a path containing a standard path character and ending in common file suffixies found in URL’s
// and accounting for potential CGI GET data
string regExPattern = @”^^(ht|f)tp(s?)\:\/\/[0-9a-zA-Z]([-.\w]*[0-9a-zA-Z])*(:(0-9)*)*(\/?)([a-zA-Z0-9\-\.\?\,\’\/\\\+&%\$#_=]*)?$”;
return MatchString(strURL, regExPattern);
}

static bool IsValidIPAddress(string strIP)
{
// Allows four octets of numbers that contain values between 4 numbers in the IP address to 0-255 and are separated by periods
string regExPattern = @”^(?:(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\.){3}(?:25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)$”;
return MatchString(strIP, regExPattern);
}

static bool IsValidAlphaText(string strAlpha)
{
// Allows one or more alphabetical characters. This is a more generic validation function.
string regExPattern = @”^[A-Za-z]+$”;
return MatchString(strAlpha, regExPattern);
}

static bool IsValidAlphaNumericText(string strAlphaNum)
{
// Allows one or more alphabetical and/or numeric characters. This is a more generic validation function.
string regExPattern = @”^[A-Za-z0-9]+$”;
return MatchString(strAlphaNum, regExPattern);
}

static bool IsValidNumericText(string strNumeric)
{
// Allows one or more positive or negative, integer or decimal numbers. This is a more generic validation function.
string regExPattern = @”/[+-]?\d+(\.\d+)?$”;
return MatchString(strNumeric, regExPattern);
}

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