Package-level declarations

Returns the absolute value of this value.

Returns the absolute value of this value.

Returns the absolute value of this value.

Returns the absolute value of this value.

Returns the absolute value of this value.

Returns the absolute value of this value.

Returns the sign of this value:

Returns the sign of this value:

Returns the sign of this value:

Returns the sign of this value:

Returns the sign of this value:

Returns the sign of this value:

Returns the ulp (unit in the last place) of this value.

Returns the ulp (unit in the last place) of this value.

Returns the ulp (unit in the last place) of this value.

Returns the ulp of this value.

Returns the ulp (unit in the last place) of this value.

Returns the ulp of this value.

Returns the ulp (unit in the last place) of this value.

Returns the ulp (unit in the last place) of this value.

Returns the absolute value of the given value x.

Returns the absolute value of the given value n.

Returns the absolute value of the given value x.

Returns the absolute value of the given value n.

Returns the absolute value of the given value x.

Returns the absolute value of the given value n.

Returns the absolute value of the given value x.

Returns the absolute value of the given value n.

Returns the absolute value of the given value x.

Returns the absolute value of the given value n.

Returns the absolute value of the given value x.

Returns the absolute value of the given value n.

Computes the arc cosine of the value x; the returned value is an angle in the range from 0.0 to PI radians.

Computes the arc cosine of the value x; the returned value is an angle in the range from 0.0 to PI radians.

Computes the arc cosine of the value x; the returned value is an angle in the range from 0.0 to PI radians.

Computes the arc cosine of the value x; the returned value is an angle in the range from 0.0 to PI radians.

Computes the arc cosine of the value x; the returned value is an angle in the range from 0.0 to PI radians.

Computes the arc cosine of the value x; the returned value is an angle in the range from 0.0 to PI radians.

Computes the inverse hyperbolic cosine of the value x.

Computes the inverse hyperbolic cosine of the value x.

Computes the inverse hyperbolic cosine of the value x.

Computes the inverse hyperbolic cosine of the value x.

Computes the inverse hyperbolic cosine of the value x.

Computes the inverse hyperbolic cosine of the value x.

Computes the arc sine of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc sine of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc sine of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc sine of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc sine of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc sine of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the inverse hyperbolic sine of the value x.

Computes the inverse hyperbolic sine of the value x.

Computes the inverse hyperbolic sine of the value x.

Computes the inverse hyperbolic sine of the value x.

Computes the inverse hyperbolic sine of the value x.

Computes the inverse hyperbolic sine of the value x.

Computes the arc tangent of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc tangent of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc tangent of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc tangent of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc tangent of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Computes the arc tangent of the value x; the returned value is an angle in the range from -PI/2 to PI/2 radians.

Returns the angle theta of the polar coordinates (r, theta) that correspond to the rectangular coordinates (x, y) by computing the arc tangent of the value y / x; the returned value is an angle in the range from -PI to PI radians.

Returns the angle theta of the polar coordinates (r, theta) that correspond to the rectangular coordinates (x, y) by computing the arc tangent of the value y / x; the returned value is an angle in the range from -PI to PI radians.

Returns the angle theta of the polar coordinates (r, theta) that correspond to the rectangular coordinates (x, y) by computing the arc tangent of the value y / x; the returned value is an angle in the range from -PI to PI radians.

Returns the angle theta of the polar coordinates (r, theta) that correspond to the rectangular coordinates (x, y) by computing the arc tangent of the value y / x; the returned value is an angle in the range from -PI to PI radians.

Returns the angle theta of the polar coordinates (r, theta) that correspond to the rectangular coordinates (x, y) by computing the arc tangent of the value y / x; the returned value is an angle in the range from -PI to PI radians.

Returns the angle theta of the polar coordinates (r, theta) that correspond to the rectangular coordinates (x, y) by computing the arc tangent of the value y / x; the returned value is an angle in the range from -PI to PI radians.

Computes the inverse hyperbolic tangent of the value x.

Computes the inverse hyperbolic tangent of the value x.

Computes the inverse hyperbolic tangent of the value x.

Computes the inverse hyperbolic tangent of the value x.

Computes the inverse hyperbolic tangent of the value x.

Computes the inverse hyperbolic tangent of the value x.

Returns the cube root of x. For any x, cbrt(-x) == -cbrt(x); that is, the cube root of a negative value is the negative of the cube root of that value's magnitude. Special cases:

Returns the cube root of x. For any x, cbrt(-x) == -cbrt(x); that is, the cube root of a negative value is the negative of the cube root of that value's magnitude. Special cases:

Returns the cube root of x. For any x, cbrt(-x) == -cbrt(x); that is, the cube root of a negative value is the negative of the cube root of that value's magnitude. Special cases:

Returns the cube root of x. For any x, cbrt(-x) == -cbrt(x); that is, the cube root of a negative value is the negative of the cube root of that value's magnitude. Special cases:

Returns the cube root of x. For any x, cbrt(-x) == -cbrt(x); that is, the cube root of a negative value is the negative of the cube root of that value's magnitude. Special cases:

Returns the cube root of x. For any x, cbrt(-x) == -cbrt(x); that is, the cube root of a negative value is the negative of the cube root of that value's magnitude. Special cases:

Rounds the given value x to an integer towards positive infinity.

Rounds the given value x to an integer towards positive infinity.

Rounds the given value x to an integer towards positive infinity.

Rounds the given value x to an integer towards positive infinity.

Rounds the given value x to an integer towards positive infinity.

Rounds the given value x to an integer towards positive infinity.

Computes the cosine of the angle x given in radians.

Computes the cosine of the angle x given in radians.

Computes the cosine of the angle x given in radians.

Computes the cosine of the angle x given in radians.

Computes the cosine of the angle x given in radians.

Computes the cosine of the angle x given in radians.

Computes the hyperbolic cosine of the value x.

Computes the hyperbolic cosine of the value x.

Computes the hyperbolic cosine of the value x.

Computes the hyperbolic cosine of the value x.

Computes the hyperbolic cosine of the value x.

Computes the hyperbolic cosine of the value x.

Computes Euler's number e raised to the power of the value x.

Computes Euler's number e raised to the power of the value x.

Computes Euler's number e raised to the power of the value x.

Computes Euler's number e raised to the power of the value x.

Computes Euler's number e raised to the power of the value x.

Computes Euler's number e raised to the power of the value x.

Computes exp(x) - 1.

Computes exp(x) - 1.

Computes exp(x) - 1.

Computes exp(x) - 1.

Computes exp(x) - 1.

Computes exp(x) - 1.

Rounds the given value x to an integer towards negative infinity.

Rounds the given value x to an integer towards negative infinity.

Rounds the given value x to an integer towards negative infinity.

Rounds the given value x to an integer towards negative infinity.

Rounds the given value x to an integer towards negative infinity.

Rounds the given value x to an integer towards negative infinity.

Computes sqrt(x^2 + y^2) without intermediate overflow or underflow.

Computes sqrt(x^2 + y^2) without intermediate overflow or underflow.

Computes sqrt(x^2 + y^2) without intermediate overflow or underflow.

Computes sqrt(x^2 + y^2) without intermediate overflow or underflow.

Computes sqrt(x^2 + y^2) without intermediate overflow or underflow.

Computes sqrt(x^2 + y^2) without intermediate overflow or underflow.

Computes the remainder of division of this value by the divisor value according to the IEEE 754 standard.

Computes the remainder of division of this value by the divisor value according to the IEEE 754 standard.

Computes the natural logarithm (base E) of the value x.

Computes the natural logarithm (base E) of the value x.

Computes the natural logarithm (base E) of the value x.

Computes the natural logarithm (base E) of the value x.

Computes the natural logarithm (base E) of the value x.

Computes the natural logarithm (base E) of the value x.

Computes ln(x + 1).

Computes ln(x + 1).

Computes ln(x + 1).

Computes ln(x + 1).

Computes ln(x + 1).

Computes ln(a + 1).

Computes ln(x + 1).

Computes ln(a + 1).

Computes the logarithm of the value x to the given base.

Computes the logarithm of the value x to the given base.

Computes the logarithm of the value x to the given base.

Computes the logarithm of the value x to the given base.

Computes the logarithm of the value x to the given base.

Computes the logarithm of the value x to the given base.

Computes the common logarithm (base 10) of the value x.

Computes the common logarithm (base 10) of the value x.

Computes the common logarithm (base 10) of the value x.

Computes the common logarithm (base 10) of the value x.

Computes the common logarithm (base 10) of the value x.

Computes the common logarithm (base 10) of the value x.

Computes the binary logarithm (base 2) of the value x.

Computes the binary logarithm (base 2) of the value x.

Computes the binary logarithm (base 2) of the value x.

Computes the binary logarithm (base 2) of the value x.

Computes the binary logarithm (base 2) of the value x.

Computes the binary logarithm (base 2) of the value x.

Returns the greater of two values.

Returns the greater of two values.

Returns the greater of two values.

Returns the greater of two values.

Returns the greater of two values.

Returns the greater of two values.

Returns the greater of two values.

Returns the smaller of two values.

Returns the smaller of two values.

Returns the smaller of two values.

Returns the smaller of two values.

Returns the smaller of two values.

Returns the smaller of two values.

Returns the smaller of two values.

Returns the Double value nearest to this value in direction of negative infinity.

Returns the Double value nearest to this value in direction of negative infinity.

Returns the Double value nearest to this value in direction of negative infinity.

Returns the Float value nearest to this value in direction of negative infinity.

Returns the Double value nearest to this value in direction of negative infinity.

Returns the Float value nearest to this value in direction of negative infinity.

Returns the Double value nearest to this value in direction of negative infinity.

Returns the Double value nearest to this value in direction of negative infinity.

Returns the Double value nearest to this value in direction from this value towards the value to.

Returns the Double value nearest to this value in direction from this value towards the value to.

Returns the Double value nearest to this value in direction from this value towards the value to.

Returns the Float value nearest to this value in direction from this value towards the value to.

Returns the Double value nearest to this value in direction from this value towards the value to.

Returns the Float value nearest to this value in direction from this value towards the value to.

Returns the Double value nearest to this value in direction from this value towards the value to.

Returns the Double value nearest to this value in direction from this value towards the value to.

Returns the Double value nearest to this value in direction of positive infinity.

Returns the Double value nearest to this value in direction of positive infinity.

Returns the Double value nearest to this value in direction of positive infinity.

Returns the Float value nearest to this value in direction of positive infinity.

Returns the Double value nearest to this value in direction of positive infinity.

Returns the Float value nearest to this value in direction of positive infinity.

Returns the Double value nearest to this value in direction of positive infinity.

Returns the Double value nearest to this value in direction of positive infinity.

Raises this value to the power x.

Raises this value to the integer power n.

Raises this value to the power x.

Raises this value to the integer power n.

Raises this value to the power x.

Raises this value to the integer power n.

Raises this value to the power x.

Raises this value to the integer power n.

Raises this value to the power x.

Raises this value to the integer power n.

Raises this value to the power x.

Raises this value to the integer power n.

Rounds the given value x towards the closest integer with ties rounded towards even integer.