 scala

# math

#### package math

The package object `scala.math` contains methods for performing basic numeric operations such as elementary exponential, logarithmic, root and trigonometric functions.

Visibility
1. Public
2. All

### Type Members

3. #### trait Equiv[T] extends AnyRef

A trait for representing equivalence relations.

9. #### trait Ordered[A] extends Comparable[A]

A trait for data that have a single, natural ordering.

10. #### trait Ordering[T] extends Comparator[T] with PartialOrdering[T] with Serializable

Ordering is a trait whose instances each represent a strategy for sorting instances of a type.

11. #### trait PartialOrdering[T] extends Equiv[T]

A trait for representing partial orderings.

12. #### trait PartiallyOrdered[+A] extends AnyRef

A class for partially ordered data.

13. #### trait ScalaNumericConversions extends ScalaNumber

Conversions which present a consistent conversion interface across all the numeric types.

### Value Members

3. #### val E: Double

The `double` value that is closer than any other to `e`, the base of the natural logarithms.

The `double` value that is closer than any other to `e`, the base of the natural logarithms.

Definition Classes
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6. #### def IEEEremainder(x: Double, y: Double): Double

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10. #### object Ordering extends LowPriorityOrderingImplicits with Serializable

This is the companion object for the Ordering trait.

11. #### val Pi: Double

The `double` value that is closer than any other to `pi`, the ratio of the circumference of a circle to its diameter.

The `double` value that is closer than any other to `pi`, the ratio of the circumference of a circle to its diameter.

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12. #### def abs(x: Double): Double

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13. #### def abs(x: Float): Float

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14. #### def abs(x: Long): Long

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15. #### def abs(x: Int): Int

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16. #### def acos(x: Double): Double

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17. #### def asin(x: Double): Double

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18. #### def atan(x: Double): Double

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19. #### def atan2(y: Double, x: Double): Double

Converts rectangular coordinates `(x, y)` to polar `(r, theta)`.

Converts rectangular coordinates `(x, y)` to polar `(r, theta)`.

y

the abscissa coordinate

x

the ordinate coordinate

returns

the theta component of the point `(r, theta)` in polar coordinates that corresponds to the point `(x, y)` in Cartesian coordinates.

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20. #### def cbrt(x: Double): Double

Returns the cube root of the given `Double` value.

Returns the cube root of the given `Double` value.

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21. #### def ceil(x: Double): Double

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22. #### def cos(x: Double): Double

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23. #### def cosh(x: Double): Double

Returns the hyperbolic cosine of the given `Double` value.

Returns the hyperbolic cosine of the given `Double` value.

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24. #### def exp(x: Double): Double

Returns Euler's number `e` raised to the power of a `double` value.

Returns Euler's number `e` raised to the power of a `double` value.

x

the exponent to raise `e` to.

returns

the value `ea`, where `e` is the base of the natural logarithms.

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25. #### def expm1(x: Double): Double

Returns `exp(x) - 1`.

Returns `exp(x) - 1`.

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26. #### def floor(x: Double): Double

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27. #### def hypot(x: Double, y: Double): Double

Returns the square root of the sum of the squares of both given `Double` values without intermediate underflow or overflow.

Returns the square root of the sum of the squares of both given `Double` values without intermediate underflow or overflow.

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28. #### def log(x: Double): Double

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29. #### def log10(x: Double): Double

Returns the base 10 logarithm of the given `Double` value.

Returns the base 10 logarithm of the given `Double` value.

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30. #### def log1p(x: Double): Double

Returns the natural logarithm of the sum of the given `Double` value and 1.

Returns the natural logarithm of the sum of the given `Double` value and 1.

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31. #### def max(x: Double, y: Double): Double

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32. #### def max(x: Float, y: Float): Float

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33. #### def max(x: Long, y: Long): Long

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34. #### def max(x: Int, y: Int): Int

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35. #### def min(x: Double, y: Double): Double

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36. #### def min(x: Float, y: Float): Float

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37. #### def min(x: Long, y: Long): Long

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38. #### def min(x: Int, y: Int): Int

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39. #### def pow(x: Double, y: Double): Double

Returns the value of the first argument raised to the power of the second argument.

Returns the value of the first argument raised to the power of the second argument.

x

the base.

y

the exponent.

returns

the value `xy`.

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40. #### def random: Double

Returns a `double` value with a positive sign, greater than or equal to `0.0` and less than `1.0`.

Returns a `double` value with a positive sign, greater than or equal to `0.0` and less than `1.0`.

Definition Classes
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41. #### def rint(x: Double): Double

Returns the `double` value that is closest in value to the argument and is equal to a mathematical integer.

Returns the `double` value that is closest in value to the argument and is equal to a mathematical integer.

x

a `double` value

returns

the closest floating-point value to a that is equal to a mathematical integer.

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42. #### def round(x: Double): Long

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43. #### def round(x: Float): Int

Returns the closest `long` to the argument.

Returns the closest `long` to the argument.

x

a floating-point value to be rounded to a `long`.

returns

the value of the argument rounded to the nearest`long` value.

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44. #### def signum(x: Int): Int

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45. #### def signum(x: Long): Long

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46. #### def signum(x: Float): Float

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47. #### def signum(x: Double): Double

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48. #### def sin(x: Double): Double

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49. #### def sinh(x: Double): Double

Returns the hyperbolic sine of the given `Double` value.

Returns the hyperbolic sine of the given `Double` value.

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50. #### def sqrt(x: Double): Double

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51. #### def tan(x: Double): Double

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52. #### def tanh(x: Double): Double

Returns the hyperbolic tangent of the given `Double` value.

Returns the hyperbolic tangent of the given `Double` value.

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53. #### def toDegrees(x: Double): Double

Converts an angle measured in radians to an approximately equivalent angle measured in degrees.

Converts an angle measured in radians to an approximately equivalent angle measured in degrees.

x

angle, in radians

returns

the measurement of the angle `x` in degrees.

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54. #### def toRadians(x: Double): Double

Converts an angle measured in degrees to an approximately equivalent angle measured in radians.

Converts an angle measured in degrees to an approximately equivalent angle measured in radians.

x

an angle, in degrees

returns

the measurement of the angle `x` in radians.

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55. #### def ulp(x: Float): Float

Returns the size of an ulp of the given `Float` value.

Returns the size of an ulp of the given `Float` value.

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56. #### def ulp(x: Double): Double

Returns the size of an ulp of the given `Double` value.

Returns the size of an ulp of the given `Double` value.

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