The mean(long x, long y) method of Guava’s LongMath Class accepts two parameters x and y and calculates arithmetic mean of them rounded towards negative infinity. This method is overflow resilient.
Syntax:
public static long mean(long x, long y)
Parameters: This method accepts two parameters x and y which are of long type.
Return Value: The method returns arithmetic mean of x and y, rounded towards negative infinity.
Exceptions: The method doesn’t have any exception.
Example 1:
// Java code to show implementation of // mean(long x, long y) method of Guava's // LongMath class import java.math.RoundingMode;
import com.google.common.math.LongMath;
class GFG {
// Driver code
public static void main(String args[])
{
long x = 1542 ;
long y = 421 ;
// Using mean(long x, long y)
// method of Guava's LongMath class
long ans = LongMath.mean(x, y);
// Displaying the result
System.out.println( "Mean of " + x + " and "
+ y + " is : " + ans);
}
} |
Output:
Mean of 1542 and 421 is : 981
Example 2:
// Java code to show implementation of // mean(long x, long y) method of Guava's // LongMath class import java.math.RoundingMode;
import com.google.common.math.LongMath;
class GFG {
// Driver code
public static void main(String args[])
{
long x = 65 ;
long y = 41 ;
// Using mean(long x, long y)
// method of Guava's LongMath class
long ans = LongMath.mean(x, y);
// Displaying the result
System.out.println( "Mean of " + x + " and "
+ y + " is : " + ans);
}
} |
Output:
Mean of 65 and 41 is : 53