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1   /*
2    * Licensed to the Apache Software Foundation (ASF) under one or more
3    * contributor license agreements.  See the NOTICE file distributed with
4    * this work for additional information regarding copyright ownership.
5    * The ASF licenses this file to You under the Apache License, Version 2.0
6    * (the "License"); you may not use this file except in compliance with
7    * the License.  You may obtain a copy of the License at
8    *
9    *      http://www.apache.org/licenses/LICENSE-2.0
10   *
11   * Unless required by applicable law or agreed to in writing, software
12   * distributed under the License is distributed on an "AS IS" BASIS,
13   * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14   * See the License for the specific language governing permissions and
15   * limitations under the License.
16   */
17  
18  package org.apache.commons.math;
19  
20  import java.util.ListResourceBundle;
21  
22  /** 
23   * French localization message resources for the commons-math library.
24   * @version $Revision: 620312 $ $Date: 2008-02-10 12:28:59 -0700 (Sun, 10 Feb 2008) $
25   * @since 1.2
26   */
27  public class MessagesResources_fr
28    extends ListResourceBundle {
29  
30    /** 
31     * Simple constructor.
32     */
33    public MessagesResources_fr() {
34    }
35  
36    /** 
37     * Get the non-translated/translated messages arrays from this resource bundle.
38     * @return non-translated/translated messages arrays
39     */
40    public Object[][] getContents() {
41      return (Object[][]) contents.clone();
42    }
43  
44    /** Non-translated/translated messages arrays. */
45    static final Object[][] contents = {
46  
47      // org.apache.commons.math.FunctionEvaluationException
48      { "Evaluation failed for argument = {0}",
49        "Erreur d''\u00e9valuation pour l''argument {0}" },
50  
51      // org.apache.commons.math.DuplicateSampleAbscissaException
52      { "Abscissa {0} is duplicated at both indices {1} and {2}",
53        "Abscisse {0} dupliqu\u00e9e aux indices {1} et {2}" },
54  
55      // org.apache.commons.math.ConvergenceException
56      { "Convergence failed",
57        "\u00c9chec de convergence" },
58  
59      // org.apache.commons.math.ArgumentOutsideDomainException
60      { "Argument {0} outside domain [{1} ; {2}]",
61        "Argument {0} hors du domaine [{1} ; {2}]" },
62  
63      // org.apache.commons.math.MaxIterationsExceededException
64      { "Maximal number of iterations ({0}) exceeded",
65        "Nombre maximal d''it\u00e9rations ({0}) d\u00e9pass\u00e9" },
66  
67      // org.apache.commons.math.DimensionMismatchException
68      { "dimension mismatch {0} != {1}",
69        "dimensions incompatibles {0} != {1}" },
70  
71      // org.apache.commons.math.random.NotPositiveDefiniteMatrixException
72      { "not positive definite matrix",
73        "matrice non d\u00e9finie positive" },
74  
75      // org.apache.commons.math.fraction.FractionConversionException
76      { "Unable to convert {0} to fraction after {1} iterations",
77        "Impossible de convertir {0} en fraction apr\u00e8s {1} it\u00e9rations" },
78      { "Overflow trying to convert {0} to fraction ({1}/{2})",
79        "D\u00e9passement de capacit\u00e9 lors de la conversion de {0} en fraction ({1}/{2})" },
80  
81      // org.apache.commons.math.analysis.UnivariateRealSolverUtils
82      { "Number of iterations={0}, maximum iterations={1}, initial={2}, lower bound={3}, upper bound={4}," +
83            " final a value={5}, final b value={6}, f(a)={7}, f(b)={8}",
84        "Nombre d''it\u00e9rations = {0}, it\u00e9rations maximum = {1}, valeur initiale = {2}," +
85            " borne inf\u00e9rieure = {3}, borne sup\u00e9rieure = {4}," +
86            " valeur a finale = {5}, valeur b finale = {6}, f(a) = {7}, f(b) = {8}" },
87  
88      // org.apache.commons.math.util.ContinuedFraction
89      { "Continued fraction convergents diverged to +/- infinity for value {0}",
90        "Divergence de fraction continue \u00e0 l''infini pour la valeur {0}" },
91      { "Continued fraction convergents failed to converge for value {0}",
92        "\u00c9chec de convergence de fraction continue pour la valeur {0}" },
93  
94      // org.apache.commons.math.util.DefaultTransformer
95      { "Conversion Exception in Transformation, Object is null",
96        "Exception de conversion dans une transformation, l''objet est nul" },
97      { "Conversion Exception in Transformation: {0}",
98        "Exception de conversion dans une transformation : {0}" },
99  
100     // org.apache.commons.math.estimation.AbstractEstimator
101     { "maximal number of evaluations exceeded ({0})",
102       "nombre maximal d''\u00e9valuations d\u00e9pass\u00e9 ({0})" },
103     { "unable to compute covariances: singular problem",
104       "impossible de calculer les covariances : probl\u00e8me singulier"},
105     { "no degrees of freedom ({0} measurements, {1} parameters)",
106       "aucun degr\u00e9 de libert\u00e9 ({0} mesures, {1} param\u00e8tres)" },
107 
108     // org.apache.commons.math.estimation.GaussNewtonEstimator
109     { "unable to solve: singular problem",
110       "r\u00e9solution impossible : probl\u00e8me singulier" },
111 
112     // org.apache.commons.math.estimation.LevenbergMarquardtEstimator
113     { "cost relative tolerance is too small ({0}), no further reduction in the sum of squares is possible",
114       "trop petite tol\u00e9rance relative sur le co\u00fbt ({0}), aucune r\u00e9duction de la somme des carr\u00e9s n''est possible" },
115     { "parameters relative tolerance is too small ({0}), no further improvement in the approximate solution is possible",
116       "trop petite tol\u00e9rance relative sur les param\u00e8tres ({0}), aucune am\u00e9lioration de la solution approximative n''est possible" },
117     { "orthogonality tolerance is too small ({0}), solution is orthogonal to the jacobian",
118       "trop petite tol\u00e9rance sur l''orthogonalit\u00e9 ({0}), la solution est orthogonale \u00e0 la jacobienne" },
119 
120     // org.apache.commons.math.geometry.CardanEulerSingularityException
121     { "Cardan angles singularity",
122       "singularit\u00e9 d''angles de Cardan" },
123     { "Euler angles singularity",
124       "singularit\u00e9 d''angles d''Euler" },
125 
126     // org.apache.commons.math.geometry.Rotation
127     { "a {0}x{1} matrix cannot be a rotation matrix",
128       "une matrice {0}x{1} ne peut pas \u00eatre une matrice de rotation" },
129     { "the closest orthogonal matrix has a negative determinant {0}",
130       "la matrice orthogonale la plus proche a un d\u00e9terminant n\u00e9gatif {0}" },
131     { "unable to orthogonalize matrix in {0} iterations",
132       "impossible de rendre la matrice orthogonale en {0} it\u00e9rations" },
133 
134     // org.apache.commons.math.ode.AdaptiveStepsizeIntegrator
135     { "minimal step size ({0}) reached, integration needs {1}",
136       "pas minimal ({0}) atteint, l''int\u00e9gration n\u00e9cessite {1}" },
137     { "dimensions mismatch: state vector has dimension {0}," +
138       " absolute tolerance vector has dimension {1}",
139       "incompatibilit\u00e9 de dimensions entre le vecteur d''\u00e9tat ({0})," +
140       " et le vecteur de tol\u00e9rance absolue ({1})" },
141     { "dimensions mismatch: state vector has dimension {0}," +
142       " relative tolerance vector has dimension {1}",
143       "incompatibilit\u00e9 de dimensions entre le vecteur d''\u00e9tat ({0})," +
144       " et le vecteur de tol\u00e9rance relative ({1})" },
145 
146     // org.apache.commons.math.ode.AdaptiveStepsizeIntegrator,
147     // org.apache.commons.math.ode.RungeKuttaIntegrator
148     { "dimensions mismatch: ODE problem has dimension {0}," +
149       " initial state vector has dimension {1}",
150       "incompatibilit\u00e9 de dimensions entre le probl\u00e8me ODE ({0})," +
151       " et le vecteur d''\u00e9tat initial ({1})" },
152     { "dimensions mismatch: ODE problem has dimension {0}," +
153       " final state vector has dimension {1}",
154       "incompatibilit\u00e9 de dimensions entre le probl\u00e8me ODE ({0})," +
155       " et le vecteur d''\u00e9tat final ({1})" },
156     { "too small integration interval: length = {0}",
157       "intervalle d''int\u00e9gration trop petit : {0}" },
158 
159     // org.apache.commons.math.optimization.DirectSearchOptimizer
160     { "none of the {0} start points lead to convergence",
161       "aucun des {0} points de d\u00e9part n''aboutit \u00e0 une convergence"  }
162 
163   };
164 
165 }