The syntax of the log1p()
method is:
Math.log1p(double x)
Here, log1p()
is a static method. Hence, we are calling the method directly using the class name Math
.
log1p() Parameters
The log1p() method takes a single parameter.
- x - the value whose logarithm is to be computed
log1p() Return Values
- returns the natural logarithm of x + 1
- returns NaN if x is NaN or less than -1
- returns positive infinity if x is positive infinity
- returns zero if x is zero
Example1 : Java Math.log1p()
class Main {
public static void main(String[] args) {
// log1p() for double value
System.out.println(Math.log1p(9.0)); // 2.302585092994046
// log1p() for zero
System.out.println(Math.log1p(0.0)); // 0.0
// log1p() for NaN
// square root of negative number is NaN
double nanValue = Math.sqrt(-5.0);
System.out.println(Math.log1p(nanValue)); // NaN
// log1p() for infinity
double infinity = Double.POSITIVE_INFINITY;
System.out.println(Math.log1p(infinity)); // Infinity
// log1p() for negative numbers
System.out.println(Math.log(-9.0)); // NaN
}
}
In the above example, notice the expression,
Math.log1p(Math.pow(10, 3))
Here, Math.pow(10, 3)
returns 103. To learn more, visit Java Math.pow().
Note: We have used the Math.sqrt() method to calculate the square root of -5. The square root of negative numeber is not a number.
Example 2: Math.log1p() and Math.log()
class Main {
public static void main(String[] args) {
double a = 9.0;
// log1p() for double value
System.out.println(Math.log1p(a)); // 2.302585092994046
// Compute log() for a + 1
a = a + 1;
System.out.println(Math.log(a)); // 2.302585092994046
// Here you can see log1p(x) == log(x + 1)
}
}