A regular expression is a pattern that could be matched against an input text. The .Net framework provides a regular expression engine that allows such matching. A pattern consists of one or more character literals, operators, or constructs.
There are various categories of characters, operators, and constructs that lets you to define regular expressions. Click the following links to find these constructs.
The Regex class is used for representing a regular expression. It has the following commonly used methods −
Sr.No. | Methods & Description |
---|---|
1 | public bool IsMatch(string input) Indicates whether the regular expression specified in the Regex constructor finds a match in a specified input string. |
2 | public bool IsMatch(string input, int startat) Indicates whether the regular expression specified in the Regex constructor finds a match in the specified input string, beginning at the specified starting position in the string. |
3 | public static bool IsMatch(string input, string pattern) Indicates whether the specified regular expression finds a match in the specified input string. |
4 | public MatchCollection Matches(string input) Searches the specified input string for all occurrences of a regular expression. |
5 | public string Replace(string input, string replacement) In a specified input string, replaces all strings that match a regular expression pattern with a specified replacement string. |
6 | public string[] Split(string input) Splits an input string into an array of substrings at the positions defined by a regular expression pattern specified in the Regex constructor. |
For the complete list of methods and properties, please read the Microsoft documentation on C#.
The following example matches words that start with 'S' −
using System; using System.Text.RegularExpressions; namespace RegExApplication { class Program { private static void showMatch(string text, string expr) { Console.WriteLine("The Expression: " + expr); MatchCollection mc = Regex.Matches(text, expr); foreach (Match m in mc) { Console.WriteLine(m); } } static void Main(string[] args) { string str = "A Thousand Splendid Suns"; Console.WriteLine("Matching words that start with 'S': "); showMatch(str, @"\bS\S*"); Console.ReadKey(); } } }
When the above code is compiled and executed, it produces the following result −
Matching words that start with 'S': The Expression: \bS\S* Splendid Suns
The following example matches words that start with 'm' and ends with 'e' −
using System; using System.Text.RegularExpressions; namespace RegExApplication { class Program { private static void showMatch(string text, string expr) { Console.WriteLine("The Expression: " + expr); MatchCollection mc = Regex.Matches(text, expr); foreach (Match m in mc) { Console.WriteLine(m); } } static void Main(string[] args) { string str = "make maze and manage to measure it"; Console.WriteLine("Matching words start with 'm' and ends with 'e':"); showMatch(str, @"\bm\S*e\b"); Console.ReadKey(); } } }
When the above code is compiled and executed, it produces the following result −
Matching words start with 'm' and ends with 'e': The Expression: \bm\S*e\b make maze manage measure
This example replaces extra white space −
using System; using System.Text.RegularExpressions; namespace RegExApplication { class Program { static void Main(string[] args) { string input = "Hello World "; string pattern = "\\s+"; string replacement = " "; Regex rgx = new Regex(pattern); string result = rgx.Replace(input, replacement); Console.WriteLine("Original String: {0}", input); Console.WriteLine("Replacement String: {0}", result); Console.ReadKey(); } } }
When the above code is compiled and executed, it produces the following result −
Original String: Hello World Replacement String: Hello World