public class MutableFloatEnergyVector extends AbstractMutableFloatVectorRel<EnergyUnit,FloatEnergyVector,MutableFloatEnergyVector,FloatEnergy>
Copyright (c) 2013-2018 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
BSD-style license. See OpenTrafficSim License.
AbstractFloatVectorRel.Itr
data
Constructor and Description |
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MutableFloatEnergyVector(float[] values,
EnergyUnit unit,
StorageType storageType)
Construct a new Relative Immutable Float EnergyVector.
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MutableFloatEnergyVector(FloatEnergy[] values,
StorageType storageType)
Construct a new Relative Immutable Float EnergyVector.
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MutableFloatEnergyVector(FloatVectorData data,
EnergyUnit unit) |
MutableFloatEnergyVector(List<Float> values,
EnergyUnit unit,
StorageType storageType)
Construct a new Relative Immutable Float EnergyVector.
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MutableFloatEnergyVector(List<FloatEnergy> values,
StorageType storageType)
Construct a new Relative Immutable Float EnergyVector.
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MutableFloatEnergyVector(SortedMap<Integer,Float> values,
EnergyUnit unit,
int length,
StorageType storageType)
Construct a new Relative Immutable Float EnergyVector.
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MutableFloatEnergyVector(SortedMap<Integer,FloatEnergy> values,
int length,
StorageType storageType)
Construct a new Relative Immutable Float EnergyVector.
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Modifier and Type | Method and Description |
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protected MutableFloatEnergyVector |
instantiateMutableType(FloatVectorData dvd,
EnergyUnit unit)
Construct a new Relative Mutable FloatVector of the right type.
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protected FloatEnergy |
instantiateScalar(float value,
EnergyUnit unit)
Construct a new Relative Immutable FloatScalar of the right type.
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protected FloatEnergyVector |
instantiateType(FloatVectorData dvd,
EnergyUnit unit)
Construct a new Relative Immutable FloatVector of the right type.
|
FloatEnergy[] |
toArray()
Return an array of FloatEnergy Scalars from this vector.
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MutableFloatEnergyVector |
toDense()
return a dense version of this vector.
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MutableFloatEnergyVector |
toSparse()
return a sparse version of this vector.
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abs, assign, ceil, checkCopyOnWrite, copy, decrementBy, decrementBy, decrementBy, divideBy, divideBy, divideBy, floor, immutable, incrementBy, incrementBy, incrementBy, multiplyBy, multiplyBy, multiplyBy, mutable, neg, normalize, rint, round, set, setCopyOnWrite, setInUnit, setSI
checkUnit, checkUnit, checkUnit, divide, get, iterator, minus, plus, times
cardinality, checkIndex, checkSize, checkSize, equals, getData, getInUnit, getInUnit, getSI, getStorageType, getValuesInUnit, getValuesInUnit, getValuesSI, hashCode, size, toString, toString, toString, toString, zSum
expressAsSIUnit, expressAsSpecifiedUnit, getUnit, isAbsolute, isRelative, setDisplayUnit
clone, finalize, getClass, notify, notifyAll, wait, wait, wait
DIV, MULT, POW
cardinality, getInUnit, getInUnit, getSI, getValuesInUnit, getValuesInUnit, getValuesSI, size, toString, toString, toString, toString, zSum
forEach, spliterator
public MutableFloatEnergyVector(float[] values, EnergyUnit unit, StorageType storageType) throws ValueException
values
- float[]; the values of the entries in the new Relative Immutable Float EnergyVectorunit
- U; the unit of the new Relative Immutable Float EnergyVectorstorageType
- the data type to use (e.g., DENSE or SPARSE)ValueException
- when values is nullpublic MutableFloatEnergyVector(List<Float> values, EnergyUnit unit, StorageType storageType) throws ValueException
values
- List; the values of the entries in the new Relative Immutable Float EnergyVectorunit
- U; the unit of the new Relative Immutable Float EnergyVectorstorageType
- the data type to use (e.g., DENSE or SPARSE)ValueException
- when values is nullpublic MutableFloatEnergyVector(FloatEnergy[] values, StorageType storageType) throws ValueException
values
- FloatScalar.Rel<U>[]; the values of the entries in the new Relative Immutable Float EnergyVectorstorageType
- the data type to use (e.g., DENSE or SPARSE)ValueException
- when values has zero entriespublic MutableFloatEnergyVector(List<FloatEnergy> values, StorageType storageType) throws ValueException
values
- List; the values of the entries in the new Relative Immutable Float EnergyVectorstorageType
- the data type to use (e.g., DENSE or SPARSE)ValueException
- when values has zero entriespublic MutableFloatEnergyVector(SortedMap<Integer,FloatEnergy> values, int length, StorageType storageType) throws ValueException
values
- FloatScalar.Rel<U>[]; the values of the entries in the new Relative Sparse Mutable Float EnergyVectorlength
- the size of the vectorstorageType
- the data type to use (e.g., DENSE or SPARSE)ValueException
- when values has zero entriespublic MutableFloatEnergyVector(SortedMap<Integer,Float> values, EnergyUnit unit, int length, StorageType storageType) throws ValueException
values
- Map; the map of indexes to values of the Relative Sparse Mutable Float EnergyVectorunit
- U; the unit of the new Relative Sparse Mutable Float EnergyVectorlength
- the size of the vectorstorageType
- the data type to use (e.g., DENSE or SPARSE)ValueException
- when values is nullMutableFloatEnergyVector(FloatVectorData data, EnergyUnit unit)
data
- an internal data objectunit
- the unitprotected final FloatEnergyVector instantiateType(FloatVectorData dvd, EnergyUnit unit)
instantiateType
in class AbstractFloatVectorRel<EnergyUnit,FloatEnergyVector,MutableFloatEnergyVector,FloatEnergy>
dvd
- an internal data objectunit
- the unitprotected final MutableFloatEnergyVector instantiateMutableType(FloatVectorData dvd, EnergyUnit unit)
instantiateMutableType
in class AbstractFloatVectorRel<EnergyUnit,FloatEnergyVector,MutableFloatEnergyVector,FloatEnergy>
dvd
- an internal data objectunit
- the unitprotected final FloatEnergy instantiateScalar(float value, EnergyUnit unit)
instantiateScalar
in class AbstractFloatVectorRel<EnergyUnit,FloatEnergyVector,MutableFloatEnergyVector,FloatEnergy>
value
- the valueunit
- the unitpublic final MutableFloatEnergyVector toDense()
public final MutableFloatEnergyVector toSparse()
public FloatEnergy[] toArray()
RuntimeException
- wrapping a ValueException on error getting one of the valuesCopyright © 2015–2018 Delft University of Technology. All rights reserved.