-
- print
- print "AUTODIAGNOSTIC"
- print "=============="
-
- X0 = [1, 2, 3]
-
- FDA = FDApproximation( test1 )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(3,3+2*len(X0))) )
- print
- del FDA
- FDA = FDApproximation( test1, centeredDF=True )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(3,3+2*len(X0))) )
- print
- del FDA
-
- print "=============="
- print
- X0 = range(5)
-
- FDA = FDApproximation( test1 )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(7,7+2*len(X0))) )
- print
- del FDA
- FDA = FDApproximation( test1, centeredDF=True )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(7,7+2*len(X0))) )
- print
- del FDA
-
- print "=============="
- print
- X0 = numpy.arange(3)
-
- FDA = FDApproximation( test1 )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(7,7+2*len(X0))) )
- print
- del FDA
- FDA = FDApproximation( test1, centeredDF=True )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(7,7+2*len(X0))) )
- print
- del FDA
-
- print "=============="
- print
- X0 = numpy.asmatrix(numpy.arange(4)).T
-
- FDA = FDApproximation( test1 )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(7,7+2*len(X0))) )
- print
- del FDA
- FDA = FDApproximation( test1, centeredDF=True )
- print "H(X) =", FDA.DirectOperator( X0 )
- print "Tg matrice =\n", FDA.TangentMatrix( X0 )
- print "Tg(X) =", FDA.TangentOperator( (X0, X0) )
- print "Ad((X,Y)) =", FDA.AdjointOperator( (X0,range(7,7+2*len(X0))) )
- print
- del FDA
-