| Package | Description |
|---|---|
| org.djunits.unit |
Classes for the unit system.
|
| org.djunits.value.vdouble.matrix |
Double Matrix storage and calculations with units, absolute/relative, sparse/dense.
|
| 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.
|
| Modifier and Type | Method and Description |
|---|---|
static DoubleScalar.Rel<AnglePlaneUnit> |
AnglePlaneUnit.normalize(DoubleScalar.Rel<AnglePlaneUnit> angle)
Normalize an angle between 0 and 2 * PI.
|
| Modifier and Type | Method and Description |
|---|---|
static DoubleScalar.Rel<AnglePlaneUnit> |
AnglePlaneUnit.normalize(DoubleScalar.Rel<AnglePlaneUnit> angle)
Normalize an angle between 0 and 2 * PI.
|
| Modifier and Type | Method and Description |
|---|---|
DoubleScalar.Rel<U> |
MutableDoubleMatrix.Rel.get(int row,
int column)
Retrieve the value stored at a specified row and column as a DoubleScalar.
|
DoubleScalar.Rel<U> |
DoubleMatrix.Rel.get(int row,
int column)
Retrieve the value stored at a specified row and column as a DoubleScalar.
|
| Constructor and Description |
|---|
Dense(DoubleScalar.Rel<U>[][] values)
Construct a new Relative Dense MutableDoubleMatrix.
|
Dense(DoubleScalar.Rel<U>[][] values)
Construct a new Relative Dense Immutable DoubleMatrix.
|
Sparse(DoubleScalar.Rel<U>[][] values)
Construct a new Relative Sparse MutableDoubleMatrix.
|
Sparse(DoubleScalar.Rel<U>[][] values)
Construct a new Relative Sparse Immutable DoubleMatrix.
|
| Modifier and Type | Class and Description |
|---|---|
class |
Acceleration
Easy access methods for the Acceleration DoubleScalar, which is relative by definition.
|
static class |
AnglePlane.Rel
Easy access methods for the AnglePlane DoubleScalar.
|
static class |
AngleSlope.Rel
Easy access methods for the AngleSlope DoubleScalar.
|
class |
AngleSolid
Easy access methods for the AngleSolid DoubleScalar, which is relative by definition.
|
class |
Area
Easy access methods for the Area DoubleScalar, which is relative by definition.
|
class |
Density
Easy access methods for the Density DoubleScalar, which is relative by definition.
|
static class |
Dimensionless.Rel
Easy access methods for the Dimensionless DoubleScalar.
|
class |
ElectricalCharge
Easy access methods for the ElectricalCharge DoubleScalar, which is relative by definition.
|
class |
ElectricalCurrent
Easy access methods for the ElectricalCurrent DoubleScalar, which is relative by definition.
|
class |
ElectricalPotential
Easy access methods for the ElectricalPotential DoubleScalar, which is relative by definition.
|
class |
ElectricalResistance
Easy access methods for the ElectricalResistance DoubleScalar, which is relative by definition.
|
class |
Energy
Easy access methods for the Energy DoubleScalar, which is relative by definition.
|
class |
FlowMass
Easy access methods for the FlowMass DoubleScalar, which is relative by definition.
|
class |
FlowVolume
Easy access methods for the FlowVolume DoubleScalar, which is relative by definition.
|
class |
Force
Easy access methods for the Force DoubleScalar, which is relative by definition.
|
class |
Frequency
Easy access methods for the Frequency DoubleScalar, which is relative by definition.
|
static class |
Length.Rel
Easy access methods for the Length DoubleScalar.
|
class |
LinearDensity
Easy access methods for the LinearDensity DoubleScalar, which is relative by definition.
|
class |
Mass
Easy access methods for the Mass DoubleScalar, which is relative by definition.
|
class |
Money
Easy access methods for the Money DoubleScalar, which is relative by definition.
|
class |
MoneyPerArea
Easy access methods for the MoneyPerArea DoubleScalar, which is relative by definition.
|
class |
MoneyPerEnergy
Easy access methods for the MoneyPerEnergy DoubleScalar, which is relative by definition.
|
class |
MoneyPerLength
Easy access methods for the MoneyPerLength DoubleScalar, which is relative by definition.
|
class |
MoneyPerMass
Easy access methods for the MoneyPerMass DoubleScalar, which is relative by definition.
|
class |
MoneyPerTime
Easy access methods for the MoneyPerTime DoubleScalar, which is relative by definition.
|
class |
MoneyPerVolume
Easy access methods for the MoneyPerVolume DoubleScalar, which is relative by definition.
|
class |
Power
Easy access methods for the Power DoubleScalar, which is relative by definition.
|
class |
Pressure
Easy access methods for the Pressure DoubleScalar, which is relative by definition.
|
class |
Speed
Easy access methods for the Speed DoubleScalar, which is relative by definition.
|
static class |
Temperature.Rel
Easy access methods for the Temperature DoubleScalar.
|
static class |
Time.Rel
Easy access methods for the Time DoubleScalar.
|
class |
Torque
Easy access methods for the Torque DoubleScalar, which is relative by definition.
|
class |
Volume
Easy access methods for the Volume DoubleScalar, which is relative by definition.
|
| Modifier and Type | Method and Description |
|---|---|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.abs()
Set the value(s) to their absolute value.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.acos()
Set the value(s) to the arc cosine of the value(s); the resulting angle is in the range 0.0 through pi.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.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.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.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.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.cbrt()
Set the value(s) to the(ir) cube root.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.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.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.cos()
Set the value(s) to the trigonometric cosine of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.cosh()
Set the value(s) to the hyperbolic cosine of the value(s).
|
static DoubleScalar.Rel<SIUnit> |
DoubleScalar.divide(DoubleScalar.Rel<?> left,
DoubleScalar.Rel<?> right)
Divide two values; the result is a new instance with a different (existing or generated) SI unit.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.divideBy(double constant)
Scale the value(s) by the inverse of a factor; i.e.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.exp()
Set the value(s) to Euler's number e raised to the power of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.expm1()
Set the value(s) to Euler's number e raised to the power of the value(s) minus 1 (e^x - 1).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.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 <U extends Unit<U>> |
DoubleScalar.interpolate(DoubleScalar.Rel<U> zero,
DoubleScalar.Rel<U> one,
double ratio)
Interpolate between or extrapolate over two values.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.inv()
Set the value(s) to the complement (1.0/x) of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.log()
Set the value(s) to the natural logarithm (base e) of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.log10()
Set the value(s) to the base 10 logarithm of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.log1p()
Set the value(s) to the natural logarithm of the sum of the value(s) and 1.
|
static <U extends Unit<U>> |
DoubleScalar.minus(DoubleScalar.Abs<U> left,
DoubleScalar.Abs<U> right)
Subtract two absolute values.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.minus(DoubleScalar.Rel<U> decrement)
Decrement the value by the supplied value and return the result.
|
static <U extends Unit<U>> |
DoubleScalar.minus(DoubleScalar.Rel<U> left,
DoubleScalar.Rel<U> right)
Subtract a relative value from a relative value.
|
static DoubleScalar.Rel<SIUnit> |
DoubleScalar.multiply(DoubleScalar.Rel<?> left,
DoubleScalar.Rel<?> right)
Multiply two values; the result is a new instance with a different (existing or generated) SI unit.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.multiplyBy(double constant)
Scale the value(s) by a factor.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.plus(DoubleScalar.Rel<U> increment)
Increment the value by the supplied value and return the result.
|
static <U extends Unit<U>> |
DoubleScalar.plus(DoubleScalar.Rel<U> left,
DoubleScalar.Rel<U> right)
Add a Relative value to a Relative value.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.pow(double x)
Set the value(s) to the value(s) raised to the power of the argument.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.rint()
Set the value(s) to the value(s) that are closest in value to the argument and equal to a mathematical integer.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.round()
Set the value(s) to the closest long to the argument with ties rounding up.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.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.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.sin()
Set the value(s) to the trigonometric sine of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.sinh()
Set the value(s) to the hyperbolic sine of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.sqrt()
Set the value(s) to the correctly rounded positive square root of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.tan()
Set the value(s) to the trigonometric tangent of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.tanh()
Set the value(s) to the hyperbolic tangent of the value(s).
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.toDegrees()
Set the value(s) to approximately equivalent angle(s) measured in degrees.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.toRadians()
Set the value(s) to approximately equivalent angle(s) measured in radians.
|
| Modifier and Type | Method and Description |
|---|---|
int |
DoubleScalar.Rel.compareTo(DoubleScalar.Rel<U> o) |
static DoubleScalar.Rel<SIUnit> |
DoubleScalar.divide(DoubleScalar.Rel<?> left,
DoubleScalar.Rel<?> right)
Divide two values; the result is a new instance with a different (existing or generated) SI unit.
|
static DoubleScalar.Rel<SIUnit> |
DoubleScalar.divide(DoubleScalar.Rel<?> left,
DoubleScalar.Rel<?> right)
Divide two values; the result is a new instance with a different (existing or generated) SI unit.
|
boolean |
DoubleScalar.Rel.eq(DoubleScalar.Rel<U> o)
Test if this DoubleScalar.Rel<U> is equal to a DoubleScalar.Rel<U>.
|
boolean |
DoubleScalar.Rel.ge(DoubleScalar.Rel<U> o)
Test if this DoubleScalar.Rel<U> is greater than a DoubleScalar.Rel<U>.
|
boolean |
DoubleScalar.Rel.gt(DoubleScalar.Rel<U> o)
Test if this DoubleScalar.Rel<U> is greater than or equal to a DoubleScalar.Rel<U>.
|
static <U extends Unit<U>> |
DoubleScalar.interpolate(DoubleScalar.Rel<U> zero,
DoubleScalar.Rel<U> one,
double ratio)
Interpolate between or extrapolate over two values.
|
static <U extends Unit<U>> |
DoubleScalar.interpolate(DoubleScalar.Rel<U> zero,
DoubleScalar.Rel<U> one,
double ratio)
Interpolate between or extrapolate over two values.
|
boolean |
DoubleScalar.Rel.le(DoubleScalar.Rel<U> o)
Test if this DoubleScalar.Rel<U> is less than or equal to a DoubleScalar.Rel<U>.
|
boolean |
DoubleScalar.Rel.lt(DoubleScalar.Rel<U> o)
Test if this DoubleScalar.Rel<U> is less than a DoubleScalar.Rel<U>.
|
static <U extends Unit<U>> |
DoubleScalar.minus(DoubleScalar.Abs<U> left,
DoubleScalar.Rel<U> right)
Subtract a Relative value from an absolute value.
|
DoubleScalar.Abs<U> |
DoubleScalar.Abs.minus(DoubleScalar.Rel<U> decrement)
Decrement the value by the supplied value and return the result.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.minus(DoubleScalar.Rel<U> decrement)
Decrement the value by the supplied value and return the result.
|
static <U extends Unit<U>> |
DoubleScalar.minus(DoubleScalar.Rel<U> left,
DoubleScalar.Rel<U> right)
Subtract a relative value from a relative value.
|
static <U extends Unit<U>> |
DoubleScalar.minus(DoubleScalar.Rel<U> left,
DoubleScalar.Rel<U> right)
Subtract a relative value from a relative value.
|
static DoubleScalar.Rel<SIUnit> |
DoubleScalar.multiply(DoubleScalar.Rel<?> left,
DoubleScalar.Rel<?> right)
Multiply two values; the result is a new instance with a different (existing or generated) SI unit.
|
static DoubleScalar.Rel<SIUnit> |
DoubleScalar.multiply(DoubleScalar.Rel<?> left,
DoubleScalar.Rel<?> right)
Multiply two values; the result is a new instance with a different (existing or generated) SI unit.
|
boolean |
DoubleScalar.Rel.ne(DoubleScalar.Rel<U> o)
Test if this DoubleScalar.Rel<U> is not equal to a DoubleScalar.Rel<U>.
|
static <U extends Unit<U>> |
DoubleScalar.plus(DoubleScalar.Abs<U> left,
DoubleScalar.Rel<U> right)
Add a Relative value to an Absolute value.
|
DoubleScalar.Abs<U> |
DoubleScalar.Abs.plus(DoubleScalar.Rel<U> increment)
Increment the value by the supplied value and return the result.
|
DoubleScalar.Rel<U> |
DoubleScalar.Rel.plus(DoubleScalar.Rel<U> increment)
Increment the value by the supplied value and return the result.
|
static <U extends Unit<U>> |
DoubleScalar.plus(DoubleScalar.Rel<U> left,
DoubleScalar.Abs<U> right)
Add an Absolute value to a Relative value.
|
static <U extends Unit<U>> |
DoubleScalar.plus(DoubleScalar.Rel<U> left,
DoubleScalar.Rel<U> right)
Add a Relative value to a Relative value.
|
static <U extends Unit<U>> |
DoubleScalar.plus(DoubleScalar.Rel<U> left,
DoubleScalar.Rel<U> right)
Add a Relative value to a Relative value.
|
| Constructor and Description |
|---|
Acceleration(DoubleScalar.Rel<AccelerationUnit> value)
Construct Acceleration scalar.
|
AngleSolid(DoubleScalar.Rel<AngleSolidUnit> value)
Construct AngleSolid scalar.
|
Area(DoubleScalar.Rel<AreaUnit> value)
Construct Area scalar.
|
Density(DoubleScalar.Rel<DensityUnit> value)
Construct Density scalar.
|
ElectricalCharge(DoubleScalar.Rel<ElectricalChargeUnit> value)
Construct ElectricalCharge scalar.
|
ElectricalCurrent(DoubleScalar.Rel<ElectricalCurrentUnit> value)
Construct ElectricalCurrent scalar.
|
ElectricalPotential(DoubleScalar.Rel<ElectricalPotentialUnit> value)
Construct ElectricalPotential scalar.
|
ElectricalResistance(DoubleScalar.Rel<ElectricalResistanceUnit> value)
Construct ElectricalResistance scalar.
|
Energy(DoubleScalar.Rel<EnergyUnit> value)
Construct Energy scalar.
|
FlowMass(DoubleScalar.Rel<FlowMassUnit> value)
Construct FlowMass scalar.
|
FlowVolume(DoubleScalar.Rel<FlowVolumeUnit> value)
Construct FlowVolume scalar.
|
Force(DoubleScalar.Rel<ForceUnit> value)
Construct Force scalar.
|
Frequency(DoubleScalar.Rel<FrequencyUnit> value)
Construct Frequency scalar.
|
LinearDensity(DoubleScalar.Rel<LinearDensityUnit> value)
Construct LinearDensity scalar.
|
Mass(DoubleScalar.Rel<MassUnit> value)
Construct Mass scalar.
|
Money(DoubleScalar.Rel<MoneyUnit> value)
Construct Money scalar.
|
MoneyPerArea(DoubleScalar.Rel<MoneyPerAreaUnit> value)
Construct MoneyPerArea scalar.
|
MoneyPerEnergy(DoubleScalar.Rel<MoneyPerEnergyUnit> value)
Construct MoneyPerEnergy scalar.
|
MoneyPerLength(DoubleScalar.Rel<MoneyPerLengthUnit> value)
Construct MoneyPerLength scalar.
|
MoneyPerMass(DoubleScalar.Rel<MoneyPerMassUnit> value)
Construct MoneyPerMass scalar.
|
MoneyPerTime(DoubleScalar.Rel<MoneyPerTimeUnit> value)
Construct MoneyPerTime scalar.
|
MoneyPerVolume(DoubleScalar.Rel<MoneyPerVolumeUnit> value)
Construct MoneyPerVolume scalar.
|
Power(DoubleScalar.Rel<PowerUnit> value)
Construct Power scalar.
|
Pressure(DoubleScalar.Rel<PressureUnit> value)
Construct Pressure scalar.
|
Rel(DoubleScalar.Rel<AnglePlaneUnit> value)
Construct AnglePlane.Rel scalar.
|
Rel(DoubleScalar.Rel<AngleSlopeUnit> value)
Construct AngleSlope.Rel scalar.
|
Rel(DoubleScalar.Rel<DimensionlessUnit> value)
Construct Dimensionless.Rel scalar.
|
Rel(DoubleScalar.Rel<LengthUnit> value)
Construct Length.Rel scalar.
|
Rel(DoubleScalar.Rel<TemperatureUnit> value)
Construct Temperature.Rel scalar.
|
Rel(DoubleScalar.Rel<TimeUnit> value)
Construct Time.Rel scalar.
|
Rel(DoubleScalar.Rel<U> value)
Construct a new Relative Immutable DoubleScalar from an existing Relative Immutable DoubleScalar.
|
Speed(DoubleScalar.Rel<SpeedUnit> value)
Construct Speed scalar.
|
Torque(DoubleScalar.Rel<TorqueUnit> value)
Construct Torque scalar.
|
Volume(DoubleScalar.Rel<VolumeUnit> value)
Construct Volume scalar.
|
| Modifier and Type | Method and Description |
|---|---|
DoubleScalar.Rel<U> |
MutableDoubleVector.Rel.get(int index)
Retrieve the value stored at a specified index as a DoubleScalar.
|
DoubleScalar.Rel<U> |
DoubleVector.Rel.get(int index)
Retrieve the value stored at a specified index as a DoubleScalar.
|
| Modifier and Type | Method and Description |
|---|---|
protected DoubleVectorDataSparse |
DoubleVector.initializeSparseMR(SortedMap<Integer,DoubleScalar.Rel<U>> values,
int length)
Import the values from a sparse map of integers and values.
|
| Constructor and Description |
|---|
Dense(DoubleScalar.Rel<U>[] values)
Construct a new Relative Dense Mutable DoubleVector.
|
Dense(DoubleScalar.Rel<U>[] values)
Construct a new Relative Dense Immutable DoubleVector.
|
Sparse(DoubleScalar.Rel<U>[] values)
Construct a new Relative Sparse Mutable DoubleVector.
|
Sparse(DoubleScalar.Rel<U>[] values)
Construct a new Relative Sparse Immutable DoubleVector.
|
| Constructor and Description |
|---|
Dense(List<DoubleScalar.Rel<AccelerationUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AccelerationUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AnglePlaneUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AnglePlaneUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AngleSlopeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AngleSlopeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AngleSolidUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AngleSolidUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AreaUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<AreaUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<DensityUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<DensityUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<DimensionlessUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<DimensionlessUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalChargeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalChargeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalCurrentUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalCurrentUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalPotentialUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalPotentialUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalResistanceUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ElectricalResistanceUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<EnergyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<EnergyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<FlowMassUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<FlowMassUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<FlowVolumeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<FlowVolumeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ForceUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<ForceUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<FrequencyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<FrequencyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<LengthUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<LengthUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<LinearDensityUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<LinearDensityUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MassUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MassUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerAreaUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerAreaUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerEnergyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerEnergyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerLengthUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerLengthUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerMassUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerMassUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerTimeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerTimeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerVolumeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyPerVolumeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<MoneyUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<PowerUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<PowerUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<PressureUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<PressureUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<SpeedUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<SpeedUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<TemperatureUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<TemperatureUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<TimeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<TimeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<TorqueUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<TorqueUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<U>> values)
Construct a new Relative Dense Mutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<U>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<VolumeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Dense(List<DoubleScalar.Rel<VolumeUnit>> values)
Construct a new Relative Dense Immutable DoubleVector.
|
Sparse(SortedMap<Integer,DoubleScalar.Rel<AccelerationUnit>> values,
int length)
Construct a new Sparse Immutable Acceleration Vector.
|
Sparse(SortedMap<Integer,DoubleScalar.Rel<AccelerationUnit>> values,
int length)
Construct a new Sparse Immutable Acceleration Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AnglePlaneUnit>> values,
int angleplane)
Construct a new Sparse Immutable AnglePlane Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AnglePlaneUnit>> values,
int angleplane)
Construct a new Sparse Immutable AnglePlane Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AngleSlopeUnit>> values,
int angleslope)
Construct a new Sparse Immutable AngleSlope Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AngleSlopeUnit>> values,
int angleslope)
Construct a new Sparse Immutable AngleSlope Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AngleSolidUnit>> values,
int length)
Construct a new Sparse Immutable AngleSolid Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AngleSolidUnit>> values,
int length)
Construct a new Sparse Immutable AngleSolid Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AreaUnit>> values,
int length)
Construct a new Sparse Immutable Area Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<AreaUnit>> values,
int length)
Construct a new Sparse Immutable Area Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<DensityUnit>> values,
int length)
Construct a new Sparse Immutable Density Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<DensityUnit>> values,
int length)
Construct a new Sparse Immutable Density Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<DimensionlessUnit>> values,
int dimensionless)
Construct a new Sparse Immutable Dimensionless Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<DimensionlessUnit>> values,
int dimensionless)
Construct a new Sparse Immutable Dimensionless Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalChargeUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalCharge Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalChargeUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalCharge Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalCurrentUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalCurrent Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalCurrentUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalCurrent Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalPotentialUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalPotential Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalPotentialUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalPotential Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalResistanceUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalResistance Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ElectricalResistanceUnit>> values,
int length)
Construct a new Sparse Immutable ElectricalResistance Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<EnergyUnit>> values,
int length)
Construct a new Sparse Immutable Energy Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<EnergyUnit>> values,
int length)
Construct a new Sparse Immutable Energy Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<FlowMassUnit>> values,
int length)
Construct a new Sparse Immutable FlowMass Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<FlowMassUnit>> values,
int length)
Construct a new Sparse Immutable FlowMass Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<FlowVolumeUnit>> values,
int length)
Construct a new Sparse Immutable FlowVolume Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<FlowVolumeUnit>> values,
int length)
Construct a new Sparse Immutable FlowVolume Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ForceUnit>> values,
int length)
Construct a new Sparse Immutable Force Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<ForceUnit>> values,
int length)
Construct a new Sparse Immutable Force Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<FrequencyUnit>> values,
int length)
Construct a new Sparse Immutable Frequency Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<FrequencyUnit>> values,
int length)
Construct a new Sparse Immutable Frequency Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<LengthUnit>> values,
int length)
Construct a new Sparse Immutable Length Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<LengthUnit>> values,
int length)
Construct a new Sparse Immutable Length Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<LinearDensityUnit>> values,
int length)
Construct a new Sparse Immutable LinearDensity Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<LinearDensityUnit>> values,
int length)
Construct a new Sparse Immutable LinearDensity Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MassUnit>> values,
int length)
Construct a new Sparse Immutable Mass Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MassUnit>> values,
int length)
Construct a new Sparse Immutable Mass Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerAreaUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerArea Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerAreaUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerArea Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerEnergyUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerEnergy Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerEnergyUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerEnergy Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerLengthUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerLength Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerLengthUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerLength Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerMassUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerMass Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerMassUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerMass Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerTimeUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerTime Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerTimeUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerTime Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerVolumeUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerVolume Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyPerVolumeUnit>> values,
int length)
Construct a new Sparse Immutable MoneyPerVolume Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyUnit>> values,
int length)
Construct a new Sparse Immutable Money Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<MoneyUnit>> values,
int length)
Construct a new Sparse Immutable Money Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<PowerUnit>> values,
int length)
Construct a new Sparse Immutable Power Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<PowerUnit>> values,
int length)
Construct a new Sparse Immutable Power Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<PressureUnit>> values,
int length)
Construct a new Sparse Immutable Pressure Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<PressureUnit>> values,
int length)
Construct a new Sparse Immutable Pressure Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<SpeedUnit>> values,
int length)
Construct a new Sparse Immutable Speed Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<SpeedUnit>> values,
int length)
Construct a new Sparse Immutable Speed Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<TemperatureUnit>> values,
int temperature)
Construct a new Sparse Immutable Temperature Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<TemperatureUnit>> values,
int temperature)
Construct a new Sparse Immutable Temperature Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<TimeUnit>> values,
int time)
Construct a new Sparse Immutable Time Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<TimeUnit>> values,
int time)
Construct a new Sparse Immutable Time Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<TorqueUnit>> values,
int length)
Construct a new Sparse Immutable Torque Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<TorqueUnit>> values,
int length)
Construct a new Sparse Immutable Torque Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<U>> values,
int length)
Construct a new Relative Sparse Mutable DoubleVector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<U>> values,
int length)
Construct a new Relative Sparse Immutable DoubleVector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<VolumeUnit>> values,
int length)
Construct a new Sparse Immutable Volume Vector.
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Sparse(SortedMap<Integer,DoubleScalar.Rel<VolumeUnit>> values,
int length)
Construct a new Sparse Immutable Volume Vector.
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Copyright © 2015 Delft University of Technology. All rights reserved.