A First C# Program
Here is a program that multiplies 12 by 30, and prints the result, 360, to the screen. The double forward slash indicates that the remainder of a line is a comment.
using System; // Importing namespace class Test // Class declaration { static void Main() // Method declaration { int x = 12 * 30; //Statement 1
Console.WriteLine (x); //Statement 2
} // End of method } // End of class
At the heart of this program lie two
statements. Statements in C# execute sequentially and
are terminated by a semicolon. The first statement computes the
expression 12 * 30
and stores the result in a local variable, named
x
, which is an integer type. The second
statement calls the Console
class’s
WriteLine
method
to print the variable x
to a text
window on the screen.
A method performs an action in a series of
statements called a statement block—a pair of braces
containing zero or more statements. We defined a single method named
Main
.
Writing higher-level functions that call upon lower-level functions simplifies a program. We can refactor our program with a reusable method that multiplies an integer by 12, as follows:
using System; class Test { static void Main() { Console.WriteLine (FeetToInches (30)); // 360 Console.WriteLine (FeetToInches (100)); // 1200 } static int FeetToInches (int feet) { int inches = feet * 12; return inches; } }
A method can receive input data from the caller by specifying parameters and output data back to the caller by specifying a return type. We defined a ...
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