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source: branches/HeuristicLab.Problems.GaussianProcessTuning/ILNumerics.2.14.4735.573/Array/ILOutCell.cs @ 12448

Last change on this file since 12448 was 9102, checked in by gkronber, 12 years ago

#1967: ILNumerics source for experimentation

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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.Text;
42using ILNumerics.Storage;
43using ILNumerics.Exceptions;
44using System.Collections.Generic;
45
46namespace ILNumerics {
47    /// <summary>
48    /// ILCell : container class holding arbitrary array objects
49    /// </summary>
50    /// <remarks>
51    /// ILCell acts as general purpose container. It stores arbitrary arrays of arbitrary element type.
52    ///
53    /// </remarks>
54    public sealed class ILOutCell : ILBaseCell {
55
56        #region attributes
57        ILCell m_originalCell;
58        private static readonly bool s_isTempArray = false;
59        #endregion
60
61        #region properties
62        /// <summary>
63        /// Replace the elements of this array with another array's elements, preventing memory leaks
64        /// </summary>
65        /// <param name="value">New array</param>
66        public ILRetCell a {
67            set { Assign(value); }
68            get { return this.C; }
69        }
70        #endregion
71
72        #region constructors
73
74        /// <summary>
75        /// do not use this constructor! Out arrays are to be created implicitely only!
76        /// </summary>
77        /// <param name="cellStorage">storage of source cell</param>
78        internal ILOutCell(ILCellStorage cellStorage)
79            : base(cellStorage, s_isTempArray) { }
80
81        #endregion constructors
82
83        #region implicit casts
84        /// <summary>
85        /// Implicitely convert persistent cell to output parameter type cell
86        /// </summary>
87        /// <param name="A">Original cell</param>
88        /// <returns>Output parameter cell</returns>
89        public static implicit operator ILOutCell(ILCell A) {
90            if (object.Equals(A, null))
91                return null;
92            ILOutCell ret = new ILOutCell(A.Storage);
93            ret.m_originalCell = A;
94            return ret;
95        }
96        #endregion
97
98        #region public interface
99        /// <summary>
100        /// Replaces storage of this array with new array elements, registers this array for out-of-scope disposal
101        /// </summary>
102        /// <param name="value">New array</param>
103        public void Assign(ILRetCell value) {
104            if (!IsDisposed)
105                Storage.Dispose();
106            ILCellStorage storage = (ILCellStorage)value.GiveStorageAwayOrClone();
107            m_storage = storage;
108            if (!ILMath.isnull(m_originalCell)) {
109                (m_originalCell as ILDenseArray<ILStorage>).Storage = storage;
110            }
111            //ILScope.Context.RegisterArray(this); 
112        }
113        /// <summary>
114        /// Set single element of the cell
115        /// </summary>
116        /// <param name="value">The new value</param>
117        /// <param name="idx">Indices specifying the location to set the element to</param>
118        /// <remarks>The function supports the following features:
119        /// <list type="bullet">
120        /// <item>Automatic expansion of the cell, when addressing an element outside of the cells size limits.</item>
121        /// <item>Before storing the new element into the cell, an old element may existing on the same location gets disposed.</item>
122        /// <item>A clone of the new value is stored, therefore, none of the source and the stored element are altered, whenever the other cell is altered (value semantics).</item>
123        /// <item>The function supports deep index addressing. This is the only way of altering array elements inside the cell - without recreation.</item>
124        /// </list>
125        /// <para>Removal of parts of the cell is <b>not</b> supported. If null or an empty array is provided as <paramref name="value"/>, the corresponding
126        /// element is overwritten or removed.</para>
127        /// </remarks>
128        public void SetValue(ILBaseArray value, params int[] idx) {
129            using (ILScope.Enter(value)) {
130                Storage.SetValueTyped(value.Storage, idx);
131            }
132        }
133        /// <summary>
134        /// Set single element of the cell
135        /// </summary>
136        /// <param name="value">The new value</param>
137        /// <param name="idx">Indices specifying the location to set the element to</param>
138        /// <remarks>The function supports the following features:
139        /// <list type="bullet">
140        /// <item>Automatic expansion of the cell, when addressing an element outside of the cells size limits.</item>
141        /// <item>Before storing the new element into the cell, an old element may existing on the same location gets disposed.</item>
142        /// <item>A clone of the new value is stored, therefore, none of the source and the stored element are altered, whenever the other cell is altered (value semantics).</item>
143        /// <item>The function supports deep index addressing. This is the only way of altering array elements inside the cell - without recreation.</item>
144        /// </list>
145        /// <para>Removal of parts of the cell is <b>not</b> supported. If null or an empty array is provided as <paramref name="value"/>, the corresponding
146        /// element is overwritten or removed.</para>
147        /// </remarks>
148        internal void SetValue(ILStorage value, params int[] idx) {
149            Storage.SetValueTyped(value, idx);
150        }
151        #endregion
152
153        #region Index access
154        /// <summary>
155        /// Get/set/remove single element
156        /// </summary>
157        /// <paramref name="indices" value="index to element"/>
158        /// <value>Inner element, new inner element or null</value>
159        /// <remarks>The type of access depends on the length of indices. If indices contains only one element,
160        /// the array will be accessed via sequential index access. This is sometimes called referred to as 'linear'
161        /// index addressing.
162        /// Sequential index access reflects the index of internal storage the way the data are actually organized
163        /// in memory. This access method is mainly convinient for vectors where you are not interested of orientation.
164        /// The following example demonstrates sequential index access for ILArray's (which also holds for ILCells):
165        /// <example>For <c>ILArray&lt;double&gt; A = ILMath.counter(1,12);</c>, <c>A[2]</c> gives: 3.0.
166        /// But the transpose
167        /// <c>A.T[2]</c> gives also: 3.0.
168        /// For matrices and N-dimensional arrays this holds as well:
169        /// <code>
170        /// ILArray&lt;double&gt; A = ILMath.counter(1.0,1.0,3,2,2);
171        /// A =
172        /// [1.0 4.0
173        ///  2.0 5.0
174        ///  3.0 6.0
175        ///
176        ///  7.0 10.0
177        ///  8.0 11.0
178        ///  9.0 12.0]
179        ///
180        /// A = ILMath.Reshape(A,3,2,2);
181        /// A[10] gives 11.0
182        /// A[10,1] gives ILArgumentException -> out of range
183        /// A[2,1,1] gives 12.0
184        /// A[2,1] gives 6.0 (set trailing dimension to '0')</code></example>
185        /// <para>If the element addressed is a ILCell itself, a deep reference to this element will be returned instead.
186        /// I.e. all elements of the ILCell will be recursively replaced with references to itself. Therefore, altering the
187        /// elements returned will not alter the elements contained in the cell.</para>
188        /// <para>
189        /// <list type="bullet">
190        /// <listheader>The type of the element returned depends on the type of the element addressed:</listheader>
191        /// <item>For ILArray&lt;ElementType&gt; the array returned will be a clone of the original array.</item>
192        /// <item>For ILCell the ILBaseArray returned is a deep reference of the original elements stored.</item>
193        /// <item>For other types the behavior is undefined. (since other types are not implemented yet ;)</item>
194        /// </list> </para>
195        /// <para>This indexer may also be used for direct access to inner elements of (elements of elements of ...) this cell:
196        /// <example>
197        /// <code>
198        /// ILCell innerCell = new ILCell(2,1);
199        /// innerCell[0] = ILMath.vec(10,200);
200        /// innerCell[1] = new int[] {-10,-20,-30};
201        /// ILCell cell = new ILCell(2,1);
202        /// cell[0] = innerCell;
203        /// cell[1] = new string[] {"foobla"};
204        /// // cell is now:
205        /// // [ILCell,(1x2)]
206        /// //      [innerCell[0], ILArray&lt;double&gt;(1x181)]
207        /// //      [innerCell[0], ILArray&lt;double&gt;(1x3)]
208        /// // [ILArray&lt;string&gt;,(1x1)]
209        ///
210        /// cell[0,0] -&gt; will give innerCell eq. ILCell (1x2)
211        /// cell[0,1] -&gt; will give ILArray&lt;string&gt;
212        /// cell[0,0,0,1] -&gt; will give innerCell[1] eq. ILArray&lt;int&gt;(1x3)
213        /// </code>
214        /// </example>
215        /// In the last example above the trailing indices specified make the indexer walk down into the ILCell element and retrieve
216        /// the content of this element. This kind of index access may be done as deep as you want. Just
217        /// append the inner indices into inner elements to the right side of index specification. Addressing inner elements
218        /// this way is the only way to alter elements <b>directly</b> inside the ILCell. </para>
219        /// <para>Output parameter type cell carry a reference to the original array they were created from.
220        /// Modifications of outpur parameter type cells are immediately applied to the original array also.</para></remarks>
221        public ILRetCell this[params int[] indices] {
222            get {
223                ILStorage val = Storage.GetValueTyped(indices);
224                if (val is ILCellStorage)
225                    return new ILRetCell((ILCellStorage)val);
226                else
227                    return new ILRetCell(new ILStorage[] { val }, ILSize.Scalar1_1);
228            }
229            set {
230                using (ILScope.Enter(value)) {
231                    if (!object.Equals(value, null) && value.Storage.FromImplicitCast && value.IsScalar) {
232                        SetValue((value as ILDenseArray<ILStorage>).GetValue(0), indices);
233                    } else {
234                        SetValue((object.Equals(value, null)) ? null : value.Storage, indices);
235                    }
236                }
237            }
238        }
239
240        /// <summary>
241        /// Subarray access. Get/set regular subarray.
242        /// </summary>
243        /// <param name="indices">Address range</param>
244        /// <returns>Reference cell array with subarray addressed by <c>indices</c>. </returns>
245        /// <remarks>Query access: for N-dimensional cell arrays missing trailing dimensions indices will be choosen to be 0. Therefore you
246        /// may ommit those trailing dimensions in <c>indices</c>.
247        /// <para>The indexer may be used for querying or altering single/any elements
248        /// in this cell. <c>indices</c> may contains index specifications for one to any
249        /// dimension. The cell array returned will have the size specified by <c>indices</c>.</para>
250        /// <para>Values returned will be reference cells. All elements contained will be 'deep references' created by
251        /// recursively walking downwards the elements and replacing them by references to itself. Therefore altering the
252        /// values returned will not alter the original elements.</para>
253        /// <para>The indexer may also be used for removing parts of the cell. Therefore null must be assigned to the range specified by <c>indices</c> (using the set-access). <c>indices</c>
254        /// must contain exactly one dimension specification other than 'full' in this case. This may be any vector-sized numeric ILArray of any
255        /// numeric type. If <c>indices</c> apply to fewer dimensions than the number of dimensions existing, the upper dimensions will be
256        /// merged and the array will be reshaped before applying the removal to it.
257        /// <example>
258        /// <code>
259        /// ILCell C = new ILCell(4,10);
260        /// C[":",2] = null;  // &gt;- will remove the third column (index: 2) from the cell.
261        /// C[full,vec(2,5)] = null;  &gt;- will remove columns 3...6
262        /// C[1,1] = null; &gt;- will produce an error. Only one dimension can be specified not full!
263        /// </code></example></para>
264        /// <para>The general behavior of this access methods is full compatible with the corresponding Matlab/Octave/Scilab access: a(:) = []. </para>
265        /// <para>Output parameter type cell carry a reference to the original array they were created from.
266        /// Modifications of outpur parameter type cells are immediately applied to the original array also.</para></remarks>
267        public new ILRetCell this[params ILBaseArray[] indices] {
268            get {
269                using (ILScope.Enter(indices)) {
270                    ILCellStorage elements = (ILCellStorage)Storage.Subarray(indices);
271                    return new ILRetCell(elements);
272                }
273            }
274            set {
275                using (ILScope.Enter(indices))
276                using (ILScope.Enter(value)) {
277                    if (Object.ReferenceEquals(value, null)) {
278                        Storage.IndexSubrange(null, indices);
279                    } else {
280                        //if (value.Storage.FromImplicitCast && value.IsScalar) {
281                        //    Storage.IndexSubrange((ILDenseStorage<ILStorage>)value.GetValue(0), indices);
282                        //} else {
283                        Storage.IndexSubrange((ILCellStorage)value.Storage.Clone(), indices);
284                        //}
285                    }
286                }
287            }
288        }
289
290        #endregion index access
291
292        #region memory management
293        internal override bool EnterScope() {
294            return false;
295        }
296        #endregion
297    }
298}
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