Uses of Class
org.djunits.value.vdouble.scalar.Frequency

Packages that use Frequency

Package	Description
org.djunits.value.vdouble.scalar	Double Scalar storage and calculations with units, absolute/relative.
org.djunits.value.vdouble.vector	Double Vector storage and calculations with units, absolute/relative, sparse/dense.

Uses of Frequency in org.djunits.value.vdouble.scalar

Methods in org.djunits.value.vdouble.scalar that return Frequency

Modifier and Type	Method and Description
Frequency	Frequency.abs() Set the value(s) to their absolute value.
Frequency	Frequency.acos() Set the value(s) to the arc cosine of the value(s); the resulting angle is in the range 0.0 through pi.
Frequency	Frequency.asin() Set the value(s) to the arc sine of the value(s); the resulting angle is in the range -pi/2 through pi/2.
Frequency	Frequency.atan() Set the value(s) to the arc tangent of the value(s); the resulting angle is in the range -pi/2 through pi/2.
Frequency	Frequency.cbrt() Set the value(s) to the(ir) cube root.
Frequency	Frequency.ceil() Set the value(s) to the smallest (closest to negative infinity) value(s) that are greater than or equal to the argument and equal to a mathematical integer.
Frequency	Frequency.cos() Set the value(s) to the trigonometric cosine of the value(s).
Frequency	Frequency.cosh() Set the value(s) to the hyperbolic cosine of the value(s).
Frequency	Frequency.divideBy(double divisor) Scale the value(s) by the inverse of a factor; i.e.
Frequency	Power.divideBy(Energy v) Calculate the division of Power and Energy, which results in a Frequency scalar.
Frequency	Speed.divideBy(Length.Rel v) Calculate the division of Speed and Length, which results in a Frequency scalar.
Frequency	FlowMass.divideBy(Mass v) Calculate the division of FlowMass and Mass, which results in a Frequency scalar.
Frequency	Acceleration.divideBy(Speed v) Calculate the division of Acceleration and Speed, which results in a Frequency scalar.
Frequency	Dimensionless.Rel.divideBy(Time.Rel v) Calculate the division of Dimensionless and Time, which results in a Frequency scalar.
Frequency	FlowVolume.divideBy(Volume v) Calculate the division of FlowVolume and Volume, which results in a Frequency scalar.
Frequency	Frequency.exp() Set the value(s) to Euler's number e raised to the power of the value(s).
Frequency	Frequency.expm1() Set the value(s) to Euler's number e raised to the power of the value(s) minus 1 (e^x - 1).
Frequency	Frequency.floor() Set the value(s) to the largest (closest to positive infinity) value(s) that are less than or equal to the argument and equal to a mathematical integer.
static Frequency	Frequency.interpolate(Frequency zero, Frequency one, double ratio) Interpolate between two values.
Frequency	Frequency.inv() Set the value(s) to the complement (1.0/x) of the value(s).
Frequency	Frequency.log() Set the value(s) to the natural logarithm (base e) of the value(s).
Frequency	Frequency.log10() Set the value(s) to the base 10 logarithm of the value(s).
Frequency	Frequency.log1p() Set the value(s) to the natural logarithm of the sum of the value(s) and 1.
Frequency	Frequency.minus(Frequency v) Relative scalar minus Relative scalar = Relative scalar.
Frequency	Frequency.multiplyBy(double factor) Scale the value(s) by a factor.
Frequency	Dimensionless.Rel.multiplyBy(Frequency v) Calculate the multiplication of Dimensionless and Frequency, which results in a Frequency scalar.
Frequency	Speed.multiplyBy(LinearDensity v) Calculate the multiplication of Speed and LinearDensity, which results in a Frequency scalar.
Frequency	LinearDensity.multiplyBy(Speed v) Calculate the multiplication of LinearDensity and Speed, which results in a Frequency scalar.
Frequency	Frequency.plus(Frequency v) Relative scalar plus Relative scalar = Relative scalar.
Frequency	Frequency.pow(double x) Set the value(s) to the value(s) raised to the power of the argument.
Frequency	Frequency.rint() Set the value(s) to the value(s) that are closest in value to the argument and equal to a mathematical integer.
Frequency	Frequency.round() Set the value(s) to the closest long to the argument with ties rounding up.
Frequency	Frequency.signum() Set the value(s) to the signum function of the value(s); zero if the argument is zero, 1.0 if the argument is greater than zero, -1.0 if the argument is less than zero.
Frequency	Frequency.sin() Set the value(s) to the trigonometric sine of the value(s).
Frequency	Frequency.sinh() Set the value(s) to the hyperbolic sine of the value(s).
Frequency	Frequency.sqrt() Set the value(s) to the correctly rounded positive square root of the value(s).
Frequency	Frequency.tan() Set the value(s) to the trigonometric tangent of the value(s).
Frequency	Frequency.tanh() Set the value(s) to the hyperbolic tangent of the value(s).
Frequency	Frequency.toDegrees() Set the value(s) to approximately equivalent angle(s) measured in degrees.
Frequency	Frequency.toRadians() Set the value(s) to approximately equivalent angle(s) measured in radians.

Methods in org.djunits.value.vdouble.scalar with parameters of type Frequency

Modifier and Type	Method and Description
Length.Rel	Speed.divideBy(Frequency v) Calculate the division of Speed and Frequency, which results in a Length scalar.
Energy	Power.divideBy(Frequency v) Calculate the division of Power and Frequency, which results in a Energy scalar.
Money	MoneyPerTime.divideBy(Frequency v) Calculate the division of MoneyPerTime and Frequency, which results in a Money scalar.
Dimensionless.Rel	Frequency.divideBy(Frequency v) Calculate the division of Frequency and Frequency, which results in a Dimensionless scalar.
Volume	FlowVolume.divideBy(Frequency v) Calculate the division of FlowVolume and Frequency, which results in a Volume scalar.
Mass	FlowMass.divideBy(Frequency v) Calculate the division of FlowMass and Frequency, which results in a Mass scalar.
Time.Rel	Dimensionless.Rel.divideBy(Frequency v) Calculate the division of Dimensionless and Frequency, which results in a Time scalar.
Speed	Acceleration.divideBy(Frequency v) Calculate the division of Acceleration and Frequency, which results in a Speed scalar.
static Frequency	Frequency.interpolate(Frequency zero, Frequency one, double ratio) Interpolate between two values.
Frequency	Frequency.minus(Frequency v) Relative scalar minus Relative scalar = Relative scalar.
Power	Torque.multiplyBy(Frequency v) Calculate the multiplication of Torque and Frequency, which results in a Power scalar.
Dimensionless.Rel	Time.Rel.multiplyBy(Frequency v) Calculate the multiplication of Time and Frequency, which results in a Dimensionless scalar.
Acceleration	Speed.multiplyBy(Frequency v) Calculate the multiplication of Speed and Frequency, which results in a Acceleration scalar.
MoneyPerTime	Money.multiplyBy(Frequency v) Calculate the multiplication of Money and Frequency, which results in a MoneyPerTime scalar.
FlowMass	Mass.multiplyBy(Frequency v) Calculate the multiplication of Mass and Frequency, which results in a FlowMass scalar.
Speed	Length.Rel.multiplyBy(Frequency v) Calculate the multiplication of Length and Frequency, which results in a Speed scalar.
Power	Energy.multiplyBy(Frequency v) Calculate the multiplication of Energy and Frequency, which results in a Power scalar.
Frequency	Dimensionless.Rel.multiplyBy(Frequency v) Calculate the multiplication of Dimensionless and Frequency, which results in a Frequency scalar.
Frequency	Frequency.plus(Frequency v) Relative scalar plus Relative scalar = Relative scalar.

Uses of Frequency in org.djunits.value.vdouble.vector

Methods in org.djunits.value.vdouble.vector that return Frequency

Modifier and Type	Method and Description
Frequency	MutableFrequencyVector.get(int index) Retrieve the value stored at a specified index as a DoubleScalar.
Frequency	FrequencyVector.get(int index) Retrieve the value stored at a specified index as a DoubleScalar.

Constructors in org.djunits.value.vdouble.vector with parameters of type Frequency

Constructor and Description
Dense(Frequency[] values) Construct a new Relative Dense Immutable Frequency Vector.
Dense(Frequency[] values) Construct a new Relative Dense Immutable Frequency Vector.
Sparse(Frequency[] values) Construct a new Relative Sparse Immutable Frequency Vector.
Sparse(Frequency[] values) Construct a new Relative Sparse Immutable Frequency Vector.