# -*- coding: utf-8 -*-
#
-# Copyright (C) 2008-2017 EDF R&D
+# Copyright (C) 2008-2020 EDF R&D
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
default = [],
typecast = tuple,
message = "Liste de calculs supplémentaires à stocker et/ou effectuer",
- listval = ["CurrentState", "Residu", "SimulatedObservationAtCurrentState"]
+ listval = [
+ "CurrentState",
+ "Residu",
+ "SimulatedObservationAtCurrentState",
+ ]
)
self.requireInputArguments(
mandatory= ("Xb", "HO"),
)
+ self.setAttributes(tags=(
+ "Checking",
+ ))
def run(self, Xb=None, Y=None, U=None, HO=None, EM=None, CM=None, R=None, B=None, Q=None, Parameters=None):
- self._pre_run(Parameters, Xb, Y, R, B, Q)
+ self._pre_run(Parameters, Xb, Y, U, HO, EM, CM, R, B, Q)
#
Hm = HO["Direct"].appliedTo
Ht = HO["Tangent"].appliedInXTo
FX = numpy.asmatrix(numpy.ravel( Hm( Xn ) )).T
NormeX = numpy.linalg.norm( Xn )
NormeFX = numpy.linalg.norm( FX )
- if "CurrentState" in self._parameters["StoreSupplementaryCalculations"]:
+ if self._toStore("CurrentState"):
self.StoredVariables["CurrentState"].store( numpy.ravel(Xn) )
- if "SimulatedObservationAtCurrentState" in self._parameters["StoreSupplementaryCalculations"]:
+ if self._toStore("SimulatedObservationAtCurrentState"):
self.StoredVariables["SimulatedObservationAtCurrentState"].store( numpy.ravel(FX) )
#
# Fabrication de la direction de l'increment dX
# ==============================================================================
if __name__ == "__main__":
- print('\n AUTODIAGNOSTIC \n')
+ print('\n AUTODIAGNOSTIC\n')