Package org.djunits.value.vfloat.vector.data

Class FloatVectorData

java.lang.Object
org.djunits.value.storage.AbstractStorage<FloatVectorData>
org.djunits.value.vfloat.vector.data.FloatVectorData
All Implemented Interfaces:
Serializable, Cloneable
Direct Known Subclasses:
FloatVectorDataDense, FloatVectorDataSparse
public abstract class FloatVectorData
extends AbstractStorage<FloatVectorData>
implements Serializable
Stores the data for a FloatVector and carries out basic operations.

Copyright (c) 2013-2019 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved.
BSD-style license. See OpenTrafficSim License.

Author:
Alexander Verbraeck, Peter Knoppers
See Also:
Serialized Form

  • Field Details

    • vectorSI

      protected float[] vectorSI
      The internal storage of the Vector; can be sparse or dense.

  • Constructor Details

    • FloatVectorData

      FloatVectorData​(StorageType storageType)
      Construct a new FloatVectorData object.
      Parameters:
      storageType - StorageType; the data type.

  • Method Details

    • instantiate

      public static FloatVectorData instantiate​(float[] values, Scale scale, StorageType storageType) throws ValueRuntimeException
      Instantiate a FloatVectorData with the right data type.
      Parameters:
      values - float[]; the (SI) values to store
      scale - Scale; the scale of the unit to use for conversion to SI
      storageType - StorageType; the data type to use
      Returns:
      FloatVectorData; the FloatVectorData with the right data type
      Throws:
      ValueRuntimeException - when values are null, or storageType is null

    • instantiate

      public static FloatVectorData instantiate​(List<Float> values, Scale scale, StorageType storageType) throws ValueRuntimeException
      Instantiate a FloatVectorData with the right data type.
      Parameters:
      values - List<Float>; the values to store
      scale - Scale; the scale of the unit to use for conversion to SI
      storageType - StorageType; the data type to use
      Returns:
      FloatVectorData; the FloatVectorData with the right data type
      Throws:
      ValueRuntimeException - when list is null, or storageType is null

    • instantiate

      public static <U extends Unit<U>,​ S extends FloatScalarInterface<U,​ S>> FloatVectorData instantiate​(S[] values, StorageType storageType) throws ValueRuntimeException
      Instantiate a FloatVectorData with the right data type.
      Type Parameters:
      U - the unit type
      S - the corresponding scalar type
      Parameters:
      values - FloatScalarInterface[]; the values to store
      storageType - StorageType; the data type to use
      Returns:
      FloatVectorData; the FloatVectorData with the right data type
      Throws:
      ValueRuntimeException - when values is null, or storageType is null

    • instantiateList

      public static <U extends Unit<U>,​ S extends FloatScalarInterface<U,​ S>> FloatVectorData instantiateList​(List<S> valueList, StorageType storageType) throws ValueRuntimeException
      Instantiate a FloatVectorData with the right data type.
      Type Parameters:
      U - the unit type
      S - the corresponding scalar type
      Parameters:
      valueList - List<? extends FloatScalarInterface>; the FloatScalar values to store
      storageType - StorageType; the data type to use
      Returns:
      FloatVectorData; the FloatVectorData with the right data type
      Throws:
      ValueRuntimeException - when values is null, or storageType is null

    • instantiate

      public static FloatVectorData instantiate​(SortedMap<Integer,​Float> valueMap, int length, Scale scale, StorageType storageType) throws ValueRuntimeException
      Instantiate a FloatVectorData with the right data type.
      Parameters:
      valueMap - SortedMap<Integer,Float>; the FloatScalar values to store
      length - int; the length of the vector to pad with 0 after last entry in map
      scale - Scale; the scale of the unit to use for conversion to SI
      storageType - StorageType; the data type to use
      Returns:
      FloatVectorData; the FloatVectorData with the right data type
      Throws:
      ValueRuntimeException - when values is null, or storageType is null

    • instantiateMap

      public static <U extends Unit<U>,​ S extends FloatScalarInterface<U,​ S>> FloatVectorData instantiateMap​(SortedMap<Integer,​S> values, int length, StorageType storageType) throws ValueRuntimeException
      Instantiate a FloatVectorData with the right data type.
      Type Parameters:
      U - the unit type
      S - the scalar type to use
      Parameters:
      values - SortedMap<Integer,S>; the FloatScalar values to store
      length - int; the length of the vector to pad with 0 after last entry in map
      storageType - StorageType; the data type to use
      Returns:
      FloatVectorData; the FloatVectorData with the right data type
      Throws:
      ValueRuntimeException - when values is null, or storageType is null

    • size

      public abstract int size()
      Retrieve the size of the vector.
      Returns:
      int; the size of the vector

    • toDense

      public abstract FloatVectorDataDense toDense()
      Return the densely stored equivalent of this data.
      Returns:
      FloatVectorDataDense; the dense transformation of this data

    • toSparse

      public abstract FloatVectorDataSparse toSparse()
      Return the sparsely stored equivalent of this data.
      Returns:
      FloatVectorDataSparse; the sparse transformation of this data

    • getSI

      public abstract float getSI​(int index)
      Retrieve the SI value of one element of this data.
      Parameters:
      index - int; the index to get the value for
      Returns:
      the value at the index

    • setSI

      public abstract void setSI​(int index, float valueSI)
      Sets a value at the index in the vector.
      Parameters:
      index - int; the index to set the value for
      valueSI - float; the value at the index

    • zSum

      public final float zSum()
      Compute and return the sum of all values.
      Returns:
      double; the sum of the values of all cells

    • getDenseVectorSI

      public abstract float[] getDenseVectorSI()
      Create and return a dense copy of the data.
      Returns:
      float[]; a safe copy of VectorSI

    • checkSizes

      protected void checkSizes​(FloatVectorData other) throws ValueRuntimeException
      Check the sizes of this data object and the other data object.
      Parameters:
      other - FloatVectorData; the other data object
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • assign

      public abstract FloatVectorData assign​(FloatFunction floatFunction)
      Apply an operation to each cell.
      Parameters:
      floatFunction - FloatFunction; the operation to apply
      Returns:
      FloatVectorData; this (modified) float vector data object

    • assign

      abstract FloatVectorData assign​(FloatFunction2 floatFunction2, FloatVectorData right) throws ValueRuntimeException
      Apply a binary operation on a cell by cell basis.
      Parameters:
      floatFunction2 - FloatFunction2; the binary operation to apply
      right - FloatVectorData; the right operand for the binary operation
      Returns:
      DoubleMatrixData; this (modified) float vector data object
      Throws:
      ValueRuntimeException - when the sizes of the vectors do not match

    • plus

      public abstract FloatVectorData plus​(FloatVectorData right) throws ValueRuntimeException
      Add two vectors on a cell-by-cell basis. If both vectors are sparse, a sparse vector is returned, otherwise a dense vector is returned.
      Parameters:
      right - FloatVectorData; the other data object to add
      Returns:
      FloatVectorData; the sum of this data object and the other data object
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • incrementBy

      public final FloatVectorData incrementBy​(FloatVectorData right) throws ValueRuntimeException
      Add a vector to this vector on a cell-by-cell basis. The type of vector (sparse, dense) stays the same.
      Parameters:
      right - FloatVectorData; the other data object to add
      Returns:
      FloatVectorData; this modified float vector data object
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • minus

      public abstract FloatVectorData minus​(FloatVectorData right) throws ValueRuntimeException
      Subtract two vectors on a cell-by-cell basis. If both vectors are sparse, a sparse vector is returned, otherwise a dense vector is returned.
      Parameters:
      right - FloatVectorData; the other data object to subtract
      Returns:
      FloatVectorData; the difference of this data object and the other data object
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • decrementBy

      public final FloatVectorData decrementBy​(FloatVectorData right) throws ValueRuntimeException
      Subtract a vector from this vector on a cell-by-cell basis. The type of vector (sparse, dense) stays the same.
      Parameters:
      right - FloatVectorData; the other data object to subtract
      Returns:
      FloatVectorData; this modified float vector data object
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • times

      public abstract FloatVectorData times​(FloatVectorData right) throws ValueRuntimeException
      Multiply two vector on a cell-by-cell basis. If both vectors are dense, a dense vector is returned, otherwise a sparse vector is returned.
      Parameters:
      right - FloatVectorData; the other data object to multiply with
      Returns:
      FloatVectorData; a new double vector data store holding the result of the multiplications
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • multiplyBy

      public final FloatVectorData multiplyBy​(FloatVectorData right) throws ValueRuntimeException
      Multiply a vector with the values of another vector on a cell-by-cell basis. The type of vector (sparse, dense) stays the same.
      Parameters:
      right - FloatVectorData; the other data object to multiply with
      Returns:
      FloatVectorData; this modified float vector data store
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • divide

      public abstract FloatVectorData divide​(FloatVectorData right) throws ValueRuntimeException
      Divide two vectors on a cell-by-cell basis. If this vector is sparse and right is dense, a sparse vector is returned, otherwise a dense vector is returned.
      Parameters:
      right - FloatVectorData; the other data object to divide by
      Returns:
      FloatVectorData; the ratios of the values of this data object and the other data object
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • divideBy

      public final FloatVectorData divideBy​(FloatVectorData right) throws ValueRuntimeException
      Divide the values of a vector by the values of another vector on a cell-by-cell basis. The type of vector (sparse, dense) stays the same.
      Parameters:
      right - FloatVectorData; the other data object to divide by
      Returns:
      FloatVectorData; this modified float vector data store
      Throws:
      ValueRuntimeException - if vectors have different lengths

    • hashCode

      public int hashCode()
      Overrides:
      hashCode in class Object

    • compareDenseVectorWithSparseVector

      protected boolean compareDenseVectorWithSparseVector​(FloatVectorDataDense dm, FloatVectorDataSparse sm)
      Compare contents of a dense and a sparse vector.
      Parameters:
      dm - FloatVectorDataDense; the dense vector
      sm - FloatVectorDataSparse; the sparse vector
      Returns:
      boolean; true if the contents are equal

    • equals

      public boolean equals​(Object obj)
      Overrides:
      equals in class Object

    • toString

      public String toString()
      Overrides:
      toString in class Object