From: Jean-Philippe ARGAUD Date: Thu, 25 Apr 2019 12:15:54 +0000 (+0200) Subject: Minor print update (+ check git repos update) X-Git-Tag: V9_3_0_0~2 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=e2999206d0d0d63858cd040fa7e92bbc492515fc;p=modules%2Fadao.git Minor print update (+ check git repos update) --- diff --git a/test/test6901/Verification_des_Assimilation_Algorithms.py b/test/test6901/Verification_des_Assimilation_Algorithms.py index e1728b1..ed4b1f2 100644 --- a/test/test6901/Verification_des_Assimilation_Algorithms.py +++ b/test/test6901/Verification_des_Assimilation_Algorithms.py @@ -30,7 +30,7 @@ from adao import adaoBuilder class Test_Adao(unittest.TestCase): def test1(self): """Verification de la disponibilite de l'ensemble des algorithmes\n(Utilisation d'un operateur matriciel)""" - print(self.test1.__doc__) + print(self.test1.__doc__.strip()+"\n") Xa = {} for algo in ("3DVAR", "Blue", "ExtendedBlue", "LinearLeastSquares", "NonLinearLeastSquares", "DerivativeFreeOptimization"): print("") diff --git a/test/test6903/Verification_des_mono_et_multi_fonctions_A.py b/test/test6903/Verification_des_mono_et_multi_fonctions_A.py index a4cf22a..042f0d0 100644 --- a/test/test6903/Verification_des_mono_et_multi_fonctions_A.py +++ b/test/test6903/Verification_des_mono_et_multi_fonctions_A.py @@ -45,7 +45,7 @@ class Test_Adao(unittest.TestCase): Verification du fonctionnement identique pour les algorithmes non-temporels en utilisant une fonction lineaire et carree """ - print(self.test1.__doc__) + print("\n "+self.test1.__doc__.strip()+"\n") Xa = {} # for algo in ("3DVAR", "Blue", "ExtendedBlue", "NonLinearLeastSquares", "DerivativeFreeOptimization"): diff --git a/test/test6903/Verification_des_mono_et_multi_fonctions_B.py b/test/test6903/Verification_des_mono_et_multi_fonctions_B.py index e9a8a1a..7549bf3 100644 --- a/test/test6903/Verification_des_mono_et_multi_fonctions_B.py +++ b/test/test6903/Verification_des_mono_et_multi_fonctions_B.py @@ -45,7 +45,7 @@ class Test_Adao(unittest.TestCase): Verification du fonctionnement identique pour les algorithmes temporels en utilisant une fonction lineaire et carree """ - print(self.test1.__doc__) + print("\n "+self.test1.__doc__.strip()+"\n") Xa = {} # for algo in ("ExtendedKalmanFilter", "KalmanFilter", "EnsembleKalmanFilter", "UnscentedKalmanFilter", "4DVAR"): diff --git a/test/test6903/Verification_des_mono_et_multi_fonctions_C.py b/test/test6903/Verification_des_mono_et_multi_fonctions_C.py index 8e82dba..e400928 100644 --- a/test/test6903/Verification_des_mono_et_multi_fonctions_C.py +++ b/test/test6903/Verification_des_mono_et_multi_fonctions_C.py @@ -45,7 +45,7 @@ class Test_Adao(unittest.TestCase): Verification du fonctionnement identique pour les algorithmes autres en utilisant une fonction lineaire et carree """ - print(self.test1.__doc__) + print("\n "+self.test1.__doc__.strip()+"\n") Xa = {} # for algo in ("ParticleSwarmOptimization", "QuantileRegression", ): diff --git a/test/test6903/Verification_des_mono_et_multi_fonctions_D.py b/test/test6903/Verification_des_mono_et_multi_fonctions_D.py index 93fc983..fe220fb 100644 --- a/test/test6903/Verification_des_mono_et_multi_fonctions_D.py +++ b/test/test6903/Verification_des_mono_et_multi_fonctions_D.py @@ -73,7 +73,7 @@ class Test_Adao(unittest.TestCase): Verification du fonctionnement identique pour les algorithmes non-temporels en utilisant une fonction non-lineaire et non-carree """ - print(self.test1.__doc__) + print("\n "+self.test1.__doc__.strip()+"\n") Xa = {} # for algo in ("3DVAR", "Blue", "ExtendedBlue", "NonLinearLeastSquares", "DerivativeFreeOptimization"): diff --git a/test/test6903/Verification_des_mono_et_multi_fonctions_E.py b/test/test6903/Verification_des_mono_et_multi_fonctions_E.py index 2c60a86..327304f 100644 --- a/test/test6903/Verification_des_mono_et_multi_fonctions_E.py +++ b/test/test6903/Verification_des_mono_et_multi_fonctions_E.py @@ -73,7 +73,7 @@ class Test_Adao(unittest.TestCase): Verification du fonctionnement identique pour les algorithmes temporels en utilisant une fonction non-lineaire et non-carree """ - print(self.test1.__doc__) + print("\n "+self.test1.__doc__.strip()+"\n") Xa = {} # for algo in ("ExtendedKalmanFilter", "KalmanFilter", "EnsembleKalmanFilter", "UnscentedKalmanFilter", "4DVAR"): diff --git a/test/test6903/Verification_des_mono_et_multi_fonctions_F.py b/test/test6903/Verification_des_mono_et_multi_fonctions_F.py index 6e47fc2..814dbc2 100644 --- a/test/test6903/Verification_des_mono_et_multi_fonctions_F.py +++ b/test/test6903/Verification_des_mono_et_multi_fonctions_F.py @@ -73,7 +73,7 @@ class Test_Adao(unittest.TestCase): Verification du fonctionnement identique pour les algorithmes autres en utilisant une fonction non-lineaire et non-carree """ - print(self.test1.__doc__) + print("\n "+self.test1.__doc__.strip()+"\n") Xa = {} # for algo in ("ParticleSwarmOptimization", "QuantileRegression", ):