public final class Sine extends MultiscaleFunction implements NumericalConstants, java.lang.Cloneable
GAMMA, GOLDEN_RATIO, SQRT2, SQRT2PI, TWO_PI
Constructor and Description |
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Sine(int N0,
int FREQ) |
Modifier and Type | Method and Description |
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java.lang.Object |
clone()
Return a copy of this object
|
int |
dimension()
Tells you how many samples you'll get
from this function
|
int |
dimension(int jfin)
Tells you how many samples you'll get
from this function (will not depend
on the parameter)
|
boolean |
equals(java.lang.Object a)
Check if another object is equal to this
Sine object
|
double[] |
evaluate()
Return as an array the sampled values
of the function
|
double[] |
evaluate(int j1)
Return as an array the sampled values
of the function
|
int |
getFilterType()
This method is used to compute
how the number of scaling functions
changes from on scale to the other.
|
int |
getFrequency() |
double |
mass(double a,
double b,
int jfin)
Compute the mass (integral)
|
java.lang.String |
toString()
Return a String representation
of the object
|
mass
public java.lang.String toString()
toString
in class MultiscaleFunction
public boolean equals(java.lang.Object a)
equals
in class MultiscaleFunction
public int getFrequency()
public double[] evaluate()
public int dimension(int jfin)
dimension
in class MultiscaleFunction
public int dimension()
dimension
in class MultiscaleFunction
public java.lang.Object clone()
clone
in class MultiscaleFunction
public double[] evaluate(int j1)
evaluate
in class MultiscaleFunction
j
- number of iterations (doesn't do anything)public double mass(double a, double b, int jfin)
mass
in class MultiscaleFunction
a
- left boundary of the intervalb
- right boundary of the intervaljfin
- number of iterations to consider
(precision)public int getFilterType()
getFilterType
in class MultiscaleFunction