| Package | Description |
|---|---|
| org.djunits.value.vfloat.scalar |
Float Scalar storage and calculations with units, absolute/relative.
|
| Modifier and Type | Method and Description |
|---|---|
FloatForce |
FloatForce.abs()
Set the value(s) to their absolute value.
|
FloatForce |
FloatForce.acos()
Set the value(s) to the arc cosine of the value(s); the resulting angle is in the range 0.0 through pi.
|
FloatForce |
FloatForce.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.
|
FloatForce |
FloatForce.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.
|
FloatForce |
FloatForce.cbrt()
Set the value(s) to the(ir) cube root.
|
FloatForce |
FloatForce.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.
|
FloatForce |
FloatForce.cos()
Set the value(s) to the trigonometric cosine of the value(s).
|
FloatForce |
FloatForce.cosh()
Set the value(s) to the hyperbolic cosine of the value(s).
|
FloatForce |
FloatForce.divideBy(double factor)
Divide scalar by a double factor.
|
FloatForce |
FloatForce.divideBy(float divisor)
Scale the value(s) by the inverse of a factor; i.e.
|
FloatForce |
FloatTorque.divideBy(FloatLength.Rel v)
Calculate the division of FloatTorque and FloatLength, which results in a FloatForce scalar.
|
FloatForce |
FloatEnergy.divideBy(FloatLength.Rel v)
Calculate the division of FloatEnergy and FloatLength, which results in a FloatForce scalar.
|
FloatForce |
FloatPower.divideBy(FloatSpeed v)
Calculate the division of FloatPower and FloatSpeed, which results in a FloatForce scalar.
|
FloatForce |
FloatForce.exp()
Set the value(s) to Euler's number e raised to the power of the value(s).
|
FloatForce |
FloatForce.expm1()
Set the value(s) to Euler's number e raised to the power of the value(s) minus 1 (e^x - 1).
|
FloatForce |
FloatForce.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 FloatForce |
FloatForce.interpolate(FloatForce zero,
FloatForce one,
double ratio)
Interpolate between two values.
|
static FloatForce |
FloatForce.interpolate(FloatForce zero,
FloatForce one,
float ratio)
Interpolate between two values.
|
FloatForce |
FloatForce.inv()
Set the value(s) to the complement (1.0/x) of the value(s).
|
FloatForce |
FloatForce.log()
Set the value(s) to the natural logarithm (base e) of the value(s).
|
FloatForce |
FloatForce.log10()
Set the value(s) to the base 10 logarithm of the value(s).
|
FloatForce |
FloatForce.log1p()
Set the value(s) to the natural logarithm of the sum of the value(s) and 1.
|
FloatForce |
FloatForce.minus(FloatForce v)
Relative scalar minus Relative scalar = Relative scalar.
|
FloatForce |
FloatForce.multiplyBy(double factor)
Multiply scalar with a double factor.
|
FloatForce |
FloatForce.multiplyBy(float factor)
Scale the value(s) by a factor.
|
FloatForce |
FloatMass.multiplyBy(FloatAcceleration v)
Calculate the multiplication of FloatMass and FloatAcceleration, which results in a FloatForce scalar.
|
FloatForce |
FloatPressure.multiplyBy(FloatArea v)
Calculate the multiplication of FloatPressure and FloatArea, which results in a FloatForce scalar.
|
FloatForce |
FloatLinearDensity.multiplyBy(FloatEnergy v)
Calculate the multiplication of FloatLinearDensity and FloatEnergy, which results in a FloatForce scalar.
|
FloatForce |
FloatSpeed.multiplyBy(FloatFlowMass v)
Calculate the multiplication of FloatSpeed and FloatFlowMass, which results in a FloatForce scalar.
|
FloatForce |
FloatDimensionless.Rel.multiplyBy(FloatForce v)
Calculate the multiplication of FloatDimensionless and FloatForce, which results in a FloatForce scalar.
|
FloatForce |
FloatTorque.multiplyBy(FloatLinearDensity v)
Calculate the multiplication of FloatTorque and FloatLinearDensity, which results in a FloatForce scalar.
|
FloatForce |
FloatEnergy.multiplyBy(FloatLinearDensity v)
Calculate the multiplication of FloatEnergy and FloatLinearDensity, which results in a FloatForce scalar.
|
FloatForce |
FloatAcceleration.multiplyBy(FloatMass v)
Calculate the multiplication of FloatAcceleration and FloatMass, which results in a FloatForce scalar.
|
FloatForce |
FloatArea.multiplyBy(FloatPressure v)
Calculate the multiplication of FloatArea and FloatPressure, which results in a FloatForce scalar.
|
FloatForce |
FloatFlowMass.multiplyBy(FloatSpeed v)
Calculate the multiplication of FloatFlowMass and FloatSpeed, which results in a FloatForce scalar.
|
FloatForce |
FloatForce.plus(FloatForce v)
Relative scalar plus Relative scalar = Relative scalar.
|
FloatForce |
FloatForce.pow(double x)
Set the value(s) to the value(s) raised to the power of the argument.
|
FloatForce |
FloatForce.rint()
Set the value(s) to the value(s) that are closest in value to the argument and equal to a mathematical integer.
|
FloatForce |
FloatForce.round()
Set the value(s) to the closest long to the argument with ties rounding up.
|
FloatForce |
FloatForce.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.
|
FloatForce |
FloatForce.sin()
Set the value(s) to the trigonometric sine of the value(s).
|
FloatForce |
FloatForce.sinh()
Set the value(s) to the hyperbolic sine of the value(s).
|
FloatForce |
FloatForce.sqrt()
Set the value(s) to the correctly rounded positive square root of the value(s).
|
FloatForce |
FloatForce.tan()
Set the value(s) to the trigonometric tangent of the value(s).
|
FloatForce |
FloatForce.tanh()
Set the value(s) to the hyperbolic tangent of the value(s).
|
FloatForce |
FloatForce.toDegrees()
Set the value(s) to approximately equivalent angle(s) measured in degrees.
|
FloatForce |
FloatForce.toRadians()
Set the value(s) to approximately equivalent angle(s) measured in radians.
|
| Modifier and Type | Method and Description |
|---|---|
FloatLength.Rel |
FloatTorque.divideBy(FloatForce v)
Calculate the division of FloatTorque and FloatForce, which results in a FloatLength scalar.
|
FloatSpeed |
FloatPower.divideBy(FloatForce v)
Calculate the division of FloatPower and FloatForce, which results in a FloatSpeed scalar.
|
FloatDimensionless.Rel |
FloatForce.divideBy(FloatForce v)
Calculate the division of FloatForce and FloatForce, which results in a FloatDimensionless scalar.
|
FloatLength.Rel |
FloatEnergy.divideBy(FloatForce v)
Calculate the division of FloatEnergy and FloatForce, which results in a FloatLength scalar.
|
static FloatForce |
FloatForce.interpolate(FloatForce zero,
FloatForce one,
double ratio)
Interpolate between two values.
|
static FloatForce |
FloatForce.interpolate(FloatForce zero,
FloatForce one,
float ratio)
Interpolate between two values.
|
FloatForce |
FloatForce.minus(FloatForce v)
Relative scalar minus Relative scalar = Relative scalar.
|
FloatPower |
FloatSpeed.multiplyBy(FloatForce v)
Calculate the multiplication of FloatSpeed and FloatForce, which results in a FloatPower scalar.
|
FloatEnergy |
FloatLength.Rel.multiplyBy(FloatForce v)
Calculate the multiplication of FloatLength and FloatForce, which results in a FloatEnergy scalar.
|
FloatForce |
FloatDimensionless.Rel.multiplyBy(FloatForce v)
Calculate the multiplication of FloatDimensionless and FloatForce, which results in a FloatForce scalar.
|
FloatForce |
FloatForce.plus(FloatForce v)
Relative scalar plus Relative scalar = Relative scalar.
|
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