Recursion
Calling a method recursively or implementing the method using recursion refers to use of a method that calls itself. Recursion is sometimes the simplest way to implement a particular algorithm. Listing 5.18 counts the lines of all the C# source files (*.cs) in a directory and its subdirectory.
Listing 5.18: Counting the Lines within *.cs Files, Given a Directory
#nullable enable using System.IO; public static class LineCounter { // Use the first argument as the directory // to search, or default to the current directory public static void Main(string[] args) { int totalLineCount = 0; string directory; if (args.Length > 0) { directory = args[0]; } else { directory = Directory.GetCurrentDirectory(); } totalLineCount = DirectoryCountLines(directory); System.Console.WriteLine(totalLineCount); } static int DirectoryCountLines(string directory) { int lineCount = 0; foreach (string file in Directory.GetFiles(directory, "*.cs")) { lineCount += CountLines(file); } foreach (string subdirectory in Directory.GetDirectories(directory)) { lineCount += DirectoryCountLines(subdirectory); } return lineCount; } private static int CountLines(string file) { string? line; int lineCount = 0; FileStream stream = new FileStream(file, FileMode.Open);4 StreamReader reader = new StreamReader(stream); line = reader.ReadLine(); while(line is object) { if (line.Trim() != "") { lineCount++; } line = reader.ReadLine(); } reader.Close(); // Automatically closes the stream return lineCount; } }
Output 5.9 shows the results of Listing 5.18.
Output 5.9
104
The program begins by passing the first command-line argument to DirectoryCountLines() or by using the current directory if no argument is provided. This method first iterates through all the files in the current directory and totals the source code lines for each file. After processing each file in the directory, the code processes each subdirectory by passing the subdirectory back into the DirectoryCountLines() method, rerunning the method using the subdirectory. The same process is repeated recursively through each subdirectory until no more directories remain to process.
Readers unfamiliar with recursion may find it confusing at first. Regardless, it is often the simplest pattern to code, especially with hierarchical type data such as the filesystem. However, although it may be the most readable approach, it is generally not the fastest implementation. If performance becomes an issue, developers should seek an alternative solution to a recursive implementation. The choice generally hinges on balancing readability with performance.