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source: branches/HeuristicLab.Problems.GaussianProcessTuning/ILNumerics.2.14.4735.573/Functions/builtin/mean.cs @ 11316

Last change on this file since 11316 was 9102, checked in by gkronber, 12 years ago

#1967: ILNumerics source for experimentation

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[9102]1///
2///    This file is part of ILNumerics Community Edition.
3///
4///    ILNumerics Community Edition - high performance computing for applications.
5///    Copyright (C) 2006 - 2012 Haymo Kutschbach, http://ilnumerics.net
6///
7///    ILNumerics Community Edition is free software: you can redistribute it and/or modify
8///    it under the terms of the GNU General Public License version 3 as published by
9///    the Free Software Foundation.
10///
11///    ILNumerics Community Edition is distributed in the hope that it will be useful,
12///    but WITHOUT ANY WARRANTY; without even the implied warranty of
13///    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14///    GNU General Public License for more details.
15///
16///    You should have received a copy of the GNU General Public License
17///    along with ILNumerics Community Edition. See the file License.txt in the root
18///    of your distribution package. If not, see <http://www.gnu.org/licenses/>.
19///
20///    In addition this software uses the following components and/or licenses:
21///
22///    =================================================================================
23///    The Open Toolkit Library License
24///   
25///    Copyright (c) 2006 - 2009 the Open Toolkit library.
26///   
27///    Permission is hereby granted, free of charge, to any person obtaining a copy
28///    of this software and associated documentation files (the "Software"), to deal
29///    in the Software without restriction, including without limitation the rights to
30///    use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
31///    the Software, and to permit persons to whom the Software is furnished to do
32///    so, subject to the following conditions:
33///
34///    The above copyright notice and this permission notice shall be included in all
35///    copies or substantial portions of the Software.
36///
37///    =================================================================================
38///   
39
40using System;
41using System.Collections.Generic;
42using System.Text;
43using ILNumerics.Storage;
44using ILNumerics.Misc;
45using ILNumerics.Exceptions;
46
47
48
49namespace ILNumerics  {
50  public partial class ILMath {
51
52        /// <summary>
53        /// Mean of array along specified dimension
54        /// </summary>
55        /// <param name="A">Input Array</param>
56        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
57        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
58        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
59        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
60        public static ILRetArray< double> mean( ILInArray< double> A, int dim = -1) {
61            using (ILScope.Enter(A)) {
62                if (dim < 0)
63                    dim = A.Size.WorkingDimension();
64                if (dim < 0)
65                    dim = 0;
66                return sum(A, dim) / ( double)A.Size[dim];
67            }
68        }
69
70#region HYCALPER AUTO GENERATED CODE
71
72        /// <summary>
73        /// Mean of array along specified dimension
74        /// </summary>
75        /// <param name="A">Input Array</param>
76        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
77        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
78        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
79        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
80        public static ILRetArray< Int64> mean( ILInArray< Int64> A, int dim = -1) {
81            using (ILScope.Enter(A)) {
82                if (dim < 0)
83                    dim = A.Size.WorkingDimension();
84                if (dim < 0)
85                    dim = 0;
86                return sum(A, dim) / ( Int64)A.Size[dim];
87            }
88        }
89        /// <summary>
90        /// Mean of array along specified dimension
91        /// </summary>
92        /// <param name="A">Input Array</param>
93        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
94        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
95        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
96        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
97        public static ILRetArray< Int32> mean( ILInArray< Int32> A, int dim = -1) {
98            using (ILScope.Enter(A)) {
99                if (dim < 0)
100                    dim = A.Size.WorkingDimension();
101                if (dim < 0)
102                    dim = 0;
103                return sum(A, dim) / ( Int32)A.Size[dim];
104            }
105        }
106        /// <summary>
107        /// Mean of array along specified dimension
108        /// </summary>
109        /// <param name="A">Input Array</param>
110        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
111        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
112        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
113        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
114        public static ILRetArray< byte> mean( ILInArray< byte> A, int dim = -1) {
115            using (ILScope.Enter(A)) {
116                if (dim < 0)
117                    dim = A.Size.WorkingDimension();
118                if (dim < 0)
119                    dim = 0;
120                return sum(A, dim) / ( byte)A.Size[dim];
121            }
122        }
123        /// <summary>
124        /// Mean of array along specified dimension
125        /// </summary>
126        /// <param name="A">Input Array</param>
127        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
128        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
129        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
130        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
131        public static ILRetArray< fcomplex> mean( ILInArray< fcomplex> A, int dim = -1) {
132            using (ILScope.Enter(A)) {
133                if (dim < 0)
134                    dim = A.Size.WorkingDimension();
135                if (dim < 0)
136                    dim = 0;
137                return sum(A, dim) / ( fcomplex)A.Size[dim];
138            }
139        }
140        /// <summary>
141        /// Mean of array along specified dimension
142        /// </summary>
143        /// <param name="A">Input Array</param>
144        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
145        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
146        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
147        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
148        public static ILRetArray< float> mean( ILInArray< float> A, int dim = -1) {
149            using (ILScope.Enter(A)) {
150                if (dim < 0)
151                    dim = A.Size.WorkingDimension();
152                if (dim < 0)
153                    dim = 0;
154                return sum(A, dim) / ( float)A.Size[dim];
155            }
156        }
157        /// <summary>
158        /// Mean of array along specified dimension
159        /// </summary>
160        /// <param name="A">Input Array</param>
161        /// <param name="dim">[Optional] Index of the dimension to operate along. If omitted operates along the first non singleton dimension (i.e. != 1).</param>
162        /// <returns>Mean of elements along specified or first non singleton dimension</returns>
163        /// <remarks>The return array has the same shape as A, but the specified or first non singleton dimension is reduced
164        /// to length 1. If A is scalar, an scalar array will be returned. On empty input, the output will be empty.</remarks>
165        public static ILRetArray< complex> mean( ILInArray< complex> A, int dim = -1) {
166            using (ILScope.Enter(A)) {
167                if (dim < 0)
168                    dim = A.Size.WorkingDimension();
169                if (dim < 0)
170                    dim = 0;
171                return sum(A, dim) / ( complex)A.Size[dim];
172            }
173        }
174
175#endregion HYCALPER AUTO GENERATED CODE
176   }
177}
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