Java Math class provides several methods to work on math calculations like min(), max(), avg(), sin(), cos(), tan(), round(), ceil(), floor(), abs() etc.
Unlike some of the StrictMath class numeric methods, all implementations of the equivalent function of Math class can't define to return the bit-for-bit same results. This relaxation permits implementation with better-performance where strict reproducibility is not required.
If the size is int or long and the results overflow the range of value, the methods addExact(), subtractExact(), multiplyExact(), and toIntExact() throw an ArithmeticException.
For other arithmetic operations like increment, decrement, divide, absolute value, and negation overflow occur only with a specific minimum or maximum value. It should be checked against the maximum and minimum value as appropriate.
public class JavaMathExample1 { public static void main(String[] args) { double x = 28; double y = 4; // return the maximum of two numbers System.out.println("Maximum number of x and y is: " +Math.max(x, y)); // return the square root of y System.out.println("Square root of y is: " + Math.sqrt(y)); //returns 28 power of 4 i.e. 28*28*28*28 System.out.println("Power of x and y is: " + Math.pow(x, y)); // return the logarithm of given value System.out.println("Logarithm of x is: " + Math.log(x)); System.out.println("Logarithm of y is: " + Math.log(y)); // return the logarithm of given value when base is 10 System.out.println("log10 of x is: " + Math.log10(x)); System.out.println("log10 of y is: " + Math.log10(y)); // return the log of x + 1 System.out.println("log1p of x is: " +Math.log1p(x)); // return a power of 2 System.out.println("exp of a is: " +Math.exp(x)); // return (a power of 2)-1 System.out.println("expm1 of a is: " +Math.expm1(x)); } }
public class JavaMathExample2 { public static void main(String[] args) { double a = 30; // converting values to radian double b = Math.toRadians(a); // return the trigonometric sine of a System.out.println("Sine value of a is: " +Math.sin(a)); // return the trigonometric cosine value of a System.out.println("Cosine value of a is: " +Math.cos(a)); // return the trigonometric tangent value of a System.out.println("Tangent value of a is: " +Math.tan(a)); // return the trigonometric arc sine of a System.out.println("Sine value of a is: " +Math.asin(a)); // return the trigonometric arc cosine value of a System.out.println("Cosine value of a is: " +Math.acos(a)); // return the trigonometric arc tangent value of a System.out.println("Tangent value of a is: " +Math.atan(a)); // return the hyperbolic sine of a System.out.println("Sine value of a is: " +Math.sinh(a)); // return the hyperbolic cosine value of a System.out.println("Cosine value of a is: " +Math.cosh(a)); // return the hyperbolic tangent value of a System.out.println("Tangent value of a is: " +Math.tanh(a)); } }
The java.lang.Math class contains various methods for performing basic numeric operations such as the logarithm, cube root, and trigonometric functions etc. The various java math methods are as follows:
Method | Description |
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Math.abs() | It will return the Absolute value of the given value. |
Math.max() | It returns the Largest of two values. |
Math.min() | It is used to return the Smallest of two values. |
Math.round() | It is used to round of the decimal numbers to the nearest value. |
Math.sqrt() | It is used to return the square root of a number. |
Math.cbrt() | It is used to return the cube root of a number. |
Math.pow() | It returns the value of first argument raised to the power to second argument. |
Math.signum() | It is used to find the sign of a given value. |
Math.ceil() | It is used to find the smallest integer value that is greater than or equal to the argument or mathematical integer. |
Math.copySign() | It is used to find the Absolute value of first argument along with sign specified in second argument. |
Math.nextAfter() | It is used to return the floating-point number adjacent to the first argument in the direction of the second argument. |
Math.nextUp() | It returns the floating-point value adjacent to d in the direction of positive infinity. |
Math.nextDown() | It returns the floating-point value adjacent to d in the direction of negative infinity. |
Math.floor() | It is used to find the largest integer value which is less than or equal to the argument and is equal to the mathematical integer of a double value. |
Math.floorDiv() | It is used to find the largest integer value that is less than or equal to the algebraic quotient. |
Math.random() | It returns a double value with a positive sign, greater than or equal to 0.0 and less than 1.0. |
Math.rint() | It returns the double value that is closest to the given argument and equal to mathematical integer. |
Math.hypot() | It returns sqrt(x2 +y2) without intermediate overflow or underflow. |
Math.ulp() | It returns the size of an ulp of the argument. |
Math.getExponent() | It is used to return the unbiased exponent used in the representation of a value. |
Math.IEEEremainder() | It is used to calculate the remainder operation on two arguments as prescribed by the IEEE 754 standard and returns value. |
Math.addExact() | It is used to return the sum of its arguments, throwing an exception if the result overflows an int or long. |
Math.subtractExact() | It returns the difference of the arguments, throwing an exception if the result overflows an int. |
Math.multiplyExact() | It is used to return the product of the arguments, throwing an exception if the result overflows an int or long. |
Math.incrementExact() | It returns the argument incremented by one, throwing an exception if the result overflows an int. |
Math.decrementExact() | It is used to return the argument decremented by one, throwing an exception if the result overflows an int or long. |
Math.negateExact() | It is used to return the negation of the argument, throwing an exception if the result overflows an int or long. |
Math.toIntExact() | It returns the value of the long argument, throwing an exception if the value overflows an int. |
Method | Description |
---|---|
Math.log() | It returns the natural logarithm of a double value. |
Math.log10() | It is used to return the base 10 logarithm of a double value. |
Math.log1p() | It returns the natural logarithm of the sum of the argument and 1. |
Math.exp() | It returns E raised to the power of a double value, where E is Euler's number and it is approximately equal to 2.71828. |
Math.expm1() | It is used to calculate the power of E and subtract one from it. |
Method | Description |
---|---|
Math.sin() | It is used to return the trigonometric Sine value of a Given double value. |
Math.cos() | It is used to return the trigonometric Cosine value of a Given double value. |
Math.tan() | It is used to return the trigonometric Tangent value of a Given double value. |
Math.asin() | It is used to return the trigonometric Arc Sine value of a Given double value |
Math.acos() | It is used to return the trigonometric Arc Cosine value of a Given double value. |
Math.atan() | It is used to return the trigonometric Arc Tangent value of a Given double value. |
Method | Description |
---|---|
Math.sinh() | It is used to return the trigonometric Hyperbolic Cosine value of a Given double value. |
Math.cosh() | It is used to return the trigonometric Hyperbolic Sine value of a Given double value. |
Math.tanh() | It is used to return the trigonometric Hyperbolic Tangent value of a Given double value. |
Method | Description |
---|---|
Math.toDegrees | It is used to convert the specified Radians angle to equivalent angle measured in Degrees. |
Math.toRadians | It is used to convert the specified Degrees angle to equivalent angle measured in Radians. |