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.NET Framework Regular Expressions

Regular expressions provide a powerful, flexible, and efficient method for processing text. The extensive pattern-matching notation of regular expressions enables you to quickly parse large amounts of text to find specific character patterns; to validate text to ensure that it matches a predefined pattern (such as an e-mail address); to extract, edit, replace, or delete text substrings; and to add the extracted strings to a collection in order to generate a report. For many applications that deal with strings or that parse large blocks of text, regular expressions are an indispensable tool.

The centerpiece of text processing with regular expressions is the regular expression engine, which is represented by the System.Text.RegularExpressions.Regex object in the .NET Framework. At a minimum, processing text using regular expressions requires that the regular expression engine be provided with the following two items of information:

  • The regular expression pattern to identify in the text.

    In the .NET Framework, regular expression patterns are defined by a special syntax or language, which is compatible with Perl 5 regular expressions and adds some additional features such as right-to-left matching. For more information, see Regular Expression Language - Quick Reference.

  • The text to parse for the regular expression pattern.

The methods of the Regex class let you perform the following operations:

For an overview of the regular expression object model, see The Regular Expression Object Model.

The String class includes a number of string search and replacement methods that you can use when you want to locate literal strings in a larger string. Regular expressions are most useful either when you want to locate one of several substrings in a larger string, or when you want to identify patterns in a string, as the following examples illustrate.

Example 1: Replacing Substrings

Assume that a mailing list contains names that sometimes include a title (Mr., Mrs., Miss, or Ms.) along with a first and last name. If you do not want to include the titles when you generate envelope labels from the list, you can use a regular expression to remove the titles, as the following example illustrates.

using System;
using System.Text.RegularExpressions;

public class Example
   public static void Main()
      string pattern = "(Mr\\.? |Mrs\\.? |Miss |Ms\\.? )";
      string[] names = { "Mr. Henry Hunt", "Ms. Sara Samuels", 
                         "Abraham Adams", "Ms. Nicole Norris" };
      foreach (string name in names)
         Console.WriteLine(Regex.Replace(name, pattern, String.Empty));
// The example displays the following output:
//    Henry Hunt
//    Sara Samuels
//    Abraham Adams
//    Nicole Norris

The regular expression pattern (Mr\.? |Mrs\.? |Miss |Ms\.? ) matches any occurrence of "Mr ", "Mr. ", "Mrs ", "Mrs. ", "Miss ", "Ms or "Ms. ". The call to the Regex.Replace method replaces the matched string with String.Empty; in other words, it removes it from the original string.

Example 2: Identifying Duplicated Words

Accidentally duplicating words is a common error that writers make. A regular expression can be used to identify duplicated words, as the following example shows.

using System;
using System.Text.RegularExpressions;

public class Class1
   public static void Main()
      string pattern = @"\b(\w+?)\s\1\b";
      string input = "This this is a nice day. What about this? This tastes good. I saw a a dog.";
      foreach (Match match in Regex.Matches(input, pattern, RegexOptions.IgnoreCase))
         Console.WriteLine("{0} (duplicates '{1}') at position {2}", 
                           match.Value, match.Groups[1].Value, match.Index);
// The example displays the following output:
//       This this (duplicates 'This)' at position 0
//       a a (duplicates 'a)' at position 66

The regular expression pattern \b(\w+?)\s\1\b can be interpreted as follows:


Start at a word boundary.


Match one or more word characters. Together, they form a group that can be referred to as \1.


Match a white-space character.


Match the substring that is equal to the group named \1.


Match a word boundary.

The Regex.Matches method is called with regular expression options set to RegexOptions.IgnoreCase. Therefore, the match operation is case-insensitive, and the example identifies the substring "This this" as a duplication.

Note that the input string includes the substring "this? This". However, because of the intervening punctuation mark, it is not identified as a duplication.

Example 3: Dynamically Building a Culture-Sensitive Regular Expression

The following example illustrates the power of regular expressions combined with the flexibility offered by the .NET Framework's globalization features. It uses the NumberFormatInfo object to determine the format of currency values in the system's current culture. It then uses that information to dynamically construct a regular expression that extracts currency values from the text. For each match, it extracts the subgroup that contains the numeric string only, converts it to a Decimal value, and calculates a running total.

using System;
using System.Collections.Generic;
using System.Globalization;
using System.Text.RegularExpressions;

public class Example
   public static void Main()
      // Define text to be parsed.
      string input = "Office expenses on 2/13/2008:\n" + 
                     "Paper (500 sheets)                      $3.95\n" + 
                     "Pencils (box of 10)                     $1.00\n" + 
                     "Pens (box of 10)                        $4.49\n" + 
                     "Erasers                                 $2.19\n" + 
                     "Ink jet printer                        $69.95\n\n" + 
                     "Total Expenses                        $ 81.58\n"; 

      // Get current culture's NumberFormatInfo object.
      NumberFormatInfo nfi = CultureInfo.CurrentCulture.NumberFormat;
      // Assign needed property values to variables.
      string currencySymbol = nfi.CurrencySymbol;
      bool symbolPrecedesIfPositive = nfi.CurrencyPositivePattern % 2 == 0;
      string groupSeparator = nfi.CurrencyGroupSeparator;
      string decimalSeparator = nfi.CurrencyDecimalSeparator;

      // Form regular expression pattern.
      string pattern = Regex.Escape( symbolPrecedesIfPositive ? currencySymbol : "") + 
                       @"\s*[-+]?" + "([0-9]{0,3}(" + groupSeparator + "[0-9]{3})*(" + 
                       Regex.Escape(decimalSeparator) + "[0-9]+)?)" + 
                       (! symbolPrecedesIfPositive ? currencySymbol : ""); 
      Console.WriteLine( "The regular expression pattern is:");
      Console.WriteLine("   " + pattern);      

      // Get text that matches regular expression pattern.
      MatchCollection matches = Regex.Matches(input, pattern, 
      Console.WriteLine("Found {0} matches.", matches.Count); 

      // Get numeric string, convert it to a value, and add it to List object.
      List<decimal> expenses = new List<Decimal>();

      foreach (Match match in matches)

      // Determine whether total is present and if present, whether it is correct.
      decimal total = 0;
      foreach (decimal value in expenses)
         total += value;

      if (total / 2 == expenses[expenses.Count - 1]) 
         Console.WriteLine("The expenses total {0:C2}.", expenses[expenses.Count - 1]);
         Console.WriteLine("The expenses total {0:C2}.", total);
// The example displays the following output:
//       The regular expression pattern is:
//          \$\s*[-+]?([0-9]{0,3}(,[0-9]{3})*\.?[0-9]+)
//       Found 6 matches.
//       The expenses total $81.58.

On a computer whose current culture is English - United States (en-US), the example dynamically builds the regular expression \$\s*[-+]?([0-9]{0,3}(,[0-9]{3})*(\.[0-9]+)?). This regular expression pattern can be interpreted as follows:


Look for a single occurrence of the dollar symbol ($) in the input string. The regular expression pattern string includes a backslash to indicate that the dollar symbol is to be interpreted literally rather than as a regular expression anchor. (The $ symbol alone would indicate that the regular expression engine should try to begin its match at the end of a string.) To ensure that the current culture's currency symbol is not misinterpreted as a regular expression symbol, the example calls the Escape method to escape the character.


Look for zero or more occurrences of a white-space character.


Look for zero or one occurrence of either a positive sign or a negative sign.


The outer parentheses around this expression define it as a capturing group or a subexpression. If a match is found, information about this part of the matching string can be retrieved from the second Group object in the GroupCollection object returned by the Match.Groups property. (The first element in the collection represents the entire match.)


Look for zero to three occurrences of the decimal digits 0 through 9.


Look for zero or more occurrences of a group separator followed by three decimal digits.


Look for a single occurrence of the decimal separator.


Look for one or more decimal digits.


Look for zero or one occurrence of the decimal separator followed by at least one decimal digit.

If each of these subpatterns is found in the input string, the match succeeds, and a Match object that contains information about the match is added to the MatchCollection object.



Regular Expression Language - Quick Reference

Provides information on the set of characters, operators, and constructs that you can use to define regular expressions.

Best Practices for Regular Expressions in the .NET Framework

Provides recommendations for optimizing regular expression performance and creating robust, reliable regular expression patterns.

The Regular Expression Object Model

Provides information and code examples that illustrate how to use the regular expression classes.

Details of Regular Expression Behavior

Provides information about the capabilities and behavior of .NET Framework regular expressions.

Regular Expression Examples

Provides code examples that illustrate typical uses of regular expressions.

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