Distributions
We represent distributions as the real part of a complex function
in the limit where the imaginary part goes to 0.
Ref.
Use new definition of derivative of abs(x) from SandBoxFunctionalSpecialFunction?
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)lib FSPECX
FunctionalSpecialFunction is now explicitly exposed in frame initial
FunctionalSpecialFunction will be automatically loaded when needed
from /var/aw/var/LatexWiki/FSPECX.NRLIB/FSPECX
abs2sqrt := rule abs(a+%i*b)==sqrt(a^2+b^2)
Type: RewriteRule
?(Integer,
Complex(Integer),
Expression(Complex(Integer)))
Derivatives
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%signum:=differentiate(abs(%z),%z)
Type: Expression(Integer)
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%diracDelta:=differentiate(%signum,%z)/2
Type: Expression(Integer)
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realSignum:=abs2sqrt(eval(%signum,%z=a+%i*b)+eval(%signum,%z=a-%i*b))/2
Type: Expression(Complex(Integer))
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signum(x)==eval(realSignum,a=x)
Type: Void
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signum(x)
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Compiling function signum with type Variable(x) -> Expression(
Complex(Integer))
Type: Expression(Complex(Integer))
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--
realDirac:=abs2sqrt(eval(%diracDelta,%z=a+%i*b)+eval(%diracDelta, %z=a-%i*b))/4
Type: Expression(Complex(Integer))
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diracDelta(x)==eval(realDirac,a=x)
Type: Void
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diracDelta(x)
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Compiling function diracDelta with type Variable(x) -> Expression(
Complex(Integer))
Type: Expression(Complex(Integer))
Properties
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limit( signum(1) ,b=0)
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Compiling function signum with type PositiveInteger -> Expression(
Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( signum(-1) ,b=0)
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Compiling function signum with type Integer -> Expression(Complex(
Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( signum(0) ,b=0)
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Compiling function signum with type NonNegativeInteger -> Expression
(Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( signum(x)^2 ,b=0)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( diracDelta(1) ,b=0)
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Compiling function diracDelta with type PositiveInteger ->
Expression(Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( diracDelta(-1) ,b=0)
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Compiling function diracDelta with type Integer -> Expression(
Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( diracDelta(0) ,b=0)
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Compiling function diracDelta with type NonNegativeInteger ->
Expression(Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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test( diracDelta(x)=diracDelta(-x) )
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Compiling function diracDelta with type Polynomial(Integer) ->
Expression(Complex(Integer))
Type: Boolean
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limit( diracDelta(x)^2 ,b=0)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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integrate(diracDelta(x),x=%minusInfinity..%plusInfinity,"noPole")
Type: Union(f1: OrderedCompletion
?(Expression(Complex(Integer))),
...)
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f(x)==x+c
Type: Void
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integrate(f(x)*diracDelta(x),x=%minusInfinity..%plusInfinity,"noPole")
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Compiling function f with type Variable(x) -> Polynomial(Integer)
Type: Union(f1: OrderedCompletion
?(Expression(Complex(Integer))),
...)
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integrate(f(x)*diracDelta(x-t),x=%minusInfinity..%plusInfinity,"noPole")
Type: Union(f1: OrderedCompletion
?(Expression(Complex(Integer))),
...)
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integrate(diracDelta(2*x),x=%minusInfinity..%plusInfinity,"noPole")
Type: Union(f1: OrderedCompletion
?(Expression(Complex(Integer))),
...)
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--
limit( signum(x)*diracDelta(x) ,b=0)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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diracDelta(x^2)
Type: Expression(Complex(Integer))
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limit(%,b=0)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
Heaviside
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realHeaviside:=integrate(diracDelta(a),a)::Expression Complex Integer
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Compiling function diracDelta with type Variable(a) -> Expression(
Complex(Integer))
Type: Expression(Complex(Integer))
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heavisideStep(x)==eval(realHeaviside,a=x)
Type: Void
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limit( heavisideStep(1), b=0)
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Compiling function heavisideStep with type PositiveInteger ->
Expression(Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( heavisideStep(-1) ,b=0)
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Compiling function heavisideStep with type Integer -> Expression(
Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( heavisideStep(0) ,b=0)
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Compiling function heavisideStep with type NonNegativeInteger ->
Expression(Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( heavisideStep(x), x=0)
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Compiling function heavisideStep with type Variable(x) -> Expression
(Complex(Integer))
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( heavisideStep(x) ,x=%plusInfinity)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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limit( heavisideStep(x) ,x=%minusInfinity)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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test(simplify( (1+signum(x))/2 - heavisideStep(x) ) = 0)
Type: Boolean
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test(limit( integrate(heavisideStep(t),t=%minusInfinity..x, "noPole") - x*heavisideStep(x), b=0) =0)
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Compiling function heavisideStep with type Variable(t) -> Expression
(Complex(Integer))
Type: Boolean
Problems?
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-- expected 1/abs(alpha)
integrate(diracDelta(alpha*x),x=%minusInfinity..%plusInfinity,"noPole")
Type: Union(f1: OrderedCompletion
?(Expression(Complex(Integer))),
...)
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-- expected x*abs(x)/2
integrate(abs(x),x)
Type: Union(Expression(Integer),...)
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eval(abs2sqrt(abs(a+%i*b)/2+abs(a-%i*b)/2),a=x)
Type: Expression(Complex(Integer))
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integrate(%,x)
Type: Union(Expression(Complex(Integer)),...)
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limit(%,b=0)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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-- expected abs(x)
integrate(%signum,%z)
Type: Union(Expression(Integer),...)
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integrate(signum(x),x)
Type: Union(Expression(Complex(Integer)),...)
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limit(%,b=0)
Type: Union(OrderedCompletion
?(Expression(Complex(Integer))),
...)
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-- expected signum(x)/2
integrate(%diracDelta,%z)
Type: Union(Expression(Integer),...)
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integrate(diracDelta(x^2+y^2), x=%minusInfinity..%plusInfinity, "noPole")
Type: Union(fail: failed,...)
Representing diracDelta as a series of bump functions
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)lib GDRAW
GnuDraw is now explicitly exposed in frame initial
GnuDraw will be automatically loaded when needed from
/var/aw/var/LatexWiki/GDRAW.NRLIB/GDRAW
X:=[(x/10)::DFLOAT for x in -100..100 by 2];
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Y:=[eval(diracDelta(x),b=1.0)::DFLOAT for x in X];
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Compiling function diracDelta with type DoubleFloat -> Expression(
Complex(DoubleFloat))
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gnuDraw(X,Y,"SandBoxDiracDelta1.dat")
Graph data being transmitted to the viewport manager...
FriCAS2D data being transmitted to the viewport manager...
Type: Void