Math
class in the java.lang
package provides methods and constants for doing more advanced
mathematical computation.
The methods in the Math
class are all static,
so you call them directly from the class, like this:
Math.cos(angle);
static import
language feature, you don't have to write
Math
in front of every math function:
import static java.lang.Math.*;
Math
class methods by their simple names. For example:
cos(angle);
Math
class includes two constants:
Math.E
, which is the base of natural logarithms, and
Math.PI
, which is the ratio of the circumference of a circle to its diameter.
Math
class also includes more than 40 static methods. The following table
lists a number of the basic methods.
Method | Description |
---|---|
double abs(double d)
|
Returns the absolute value of the argument. |
double ceil(double d)
|
Returns the smallest integer that is greater than or equal to the argument. Returned as a double. |
double floor(double d)
|
Returns the largest integer that is less than or equal to the argument. Returned as a double. |
double rint(double d)
|
Returns the integer that is closest in value to the argument. Returned as a double. |
long round(double d)
|
Returns the closest long or int, as indicated by the method's return type, to the argument. |
double min(double arg1, double arg2)
|
Returns the smaller of the two arguments. |
double max(double arg1, double arg2)
|
Returns the larger of the two arguments. |
The following program,
BasicMathDemo
, illustrates how to use some of these methods:
public class BasicMathDemo { public static void main(String[] args) { double a = -191.635; double b = 43.74; int c = 16, d = 45; System.out.printf("The absolute value of %.3f is %.3f%n", a, Math.abs(a)); System.out.printf("The ceiling of %.2f is %.0f%n", b, Math.ceil(b)); System.out.printf("The floor of %.2f is %.0f%n", b, Math.floor(b)); System.out.printf("The rint of %.2f is %.0f%n", b, Math.rint(b)); System.out.printf("The max of %d and %d is %d%n",c, d, Math.max(c, d)); System.out.printf("The min of of %d and %d is %d%n",c, d, Math.min(c, d)); } }
The absolute value of -191.635 is 191.635 The ceiling of 43.74 is 44 The floor of 43.74 is 43 The rint of 43.74 is 44 The max of 16 and 45 is 45 The min of 16 and 45 is 16
Math
class.
Method | Description |
---|---|
double exp(double d)
|
Returns the base of the natural logarithms, e, to the power of the argument. |
double log(double d)
|
Returns the natural logarithm of the argument. |
double pow(double base, double exponent)
|
Returns the value of the first argument raised to the power of the second argument. |
double sqrt(double d)
|
Returns the square root of the argument. |
The following program,
ExponentialDemo
, displays the value of e
, then calls each of the methods listed in the previous table on arbitrarily chosen numbers:
public class ExponentialDemo { public static void main(String[] args) { double x = 11.635; double y = 2.76; System.out.printf("The value of e is %.4f%n", Math.E); System.out.printf("exp(%.3f) is %.3f%n", x, Math.exp(x)); System.out.printf("log(%.3f) is %.3f%n", x, Math.log(x)); System.out.printf("pow(%.3f, %.3f) is %.3f%n", x, y, Math.pow(x, y)); System.out.printf("sqrt(%.3f) is %.3f%n", x, Math.sqrt(x)); } }
ExponentialDemo
:
The value of e is 2.7183 exp(11.635) is 112983.831 log(11.635) is 2.454 pow(11.635, 2.760) is 874.008 sqrt(11.635) is 3.411
Math
class also provides a collection of trigonometric
functions, which are summarized in the following table.
The value passed into each of these methods is an angle expressed in
radians. You can use the toRadians
method
to convert from degrees to radians.
Method | Description |
---|---|
double sin(double d)
|
Returns the sine of the specified double value. |
double cos(double d)
|
Returns the cosine of the specified double value. |
double tan(double d)
|
Returns the tangent of the specified double value. |
double asin(double d)
|
Returns the arcsine of the specified double value. |
double acos(double d)
|
Returns the arccosine of the specified double value. |
double atan(double d)
|
Returns the arctangent of the specified double value. |
double atan2(double y, double x)
|
Converts rectangular coordinates (x, y) to polar coordinate
(r, theta) and returns theta .
|
double toDegrees(double d)
|
Converts the argument to degrees or radians. |
Here's a program,
TrigonometricDemo
, that uses each of these methods to compute various trigonometric values for a 45-degree angle:
public class TrigonometricDemo { public static void main(String[] args) { double degrees = 45.0; double radians = Math.toRadians(degrees); System.out.format("The value of pi is %.4f%n", Math.PI); System.out.format("The sine of %.1f degrees is %.4f%n", degrees, Math.sin(radians)); System.out.format("The cosine of %.1f degrees is %.4f%n", degrees, Math.cos(radians)); System.out.format("The tangent of %.1f degrees is %.4f%n", degrees, Math.tan(radians)); System.out.format("The arcsine of %.4f is %.4f degrees %n", Math.sin(radians), Math.toDegrees(Math.asin(Math.sin(radians)))); System.out.format("The arccosine of %.4f is %.4f degrees %n", Math.cos(radians), Math.toDegrees(Math.acos(Math.cos(radians)))); System.out.format("The arctangent of %.4f is %.4f degrees %n", Math.tan(radians), Math.toDegrees(Math.atan(Math.tan(radians)))); } }
The value of pi is 3.1416 The sine of 45.0 degrees is 0.7071 The cosine of 45.0 degrees is 0.7071 The tangent of 45.0 degrees is 1.0000 The arcsine of 0.7071 is 45.0000 degrees The arccosine of 0.7071 is 45.0000 degrees The arctangent of 1.0000 is 45.0000 degrees
random()
method returns a pseudo-randomly selected number between 0.0 and 1.0.
The range includes 0.0 but not 1.0. In other words: 0.0 <= Math.random() < 1.0
.
To get a number in a different range, you can perform arithmetic on the value returned by the random
method. For example, to generate an integer between 0 and 9, you would write:
int number = (int)(Math.random() * 10);
0.0
<= number < 10.0
.
Using Math.random
works well when you need to generate a single random
number. If you need to generate a series of random numbers,
you should create an instance of java.util.Random
and invoke methods on that object to generate numbers.