1 | ///
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2 | /// This file is part of ILNumerics Community Edition.
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3 | ///
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4 | /// ILNumerics Community Edition - high performance computing for applications.
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5 | /// Copyright (C) 2006 - 2012 Haymo Kutschbach, http://ilnumerics.net
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6 | ///
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7 | /// ILNumerics Community Edition is free software: you can redistribute it and/or modify
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8 | /// it under the terms of the GNU General Public License version 3 as published by
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9 | /// the Free Software Foundation.
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10 | ///
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11 | /// ILNumerics Community Edition is distributed in the hope that it will be useful,
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12 | /// but WITHOUT ANY WARRANTY; without even the implied warranty of
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13 | /// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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14 | /// GNU General Public License for more details.
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15 | ///
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16 | /// You should have received a copy of the GNU General Public License
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17 | /// along with ILNumerics Community Edition. See the file License.txt in the root
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18 | /// of your distribution package. If not, see <http://www.gnu.org/licenses/>.
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19 | ///
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20 | /// In addition this software uses the following components and/or licenses:
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21 | ///
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22 | /// =================================================================================
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23 | /// The Open Toolkit Library License
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24 | ///
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25 | /// Copyright (c) 2006 - 2009 the Open Toolkit library.
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26 | ///
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27 | /// Permission is hereby granted, free of charge, to any person obtaining a copy
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28 | /// of this software and associated documentation files (the "Software"), to deal
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29 | /// in the Software without restriction, including without limitation the rights to
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30 | /// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
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31 | /// the Software, and to permit persons to whom the Software is furnished to do
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32 | /// so, subject to the following conditions:
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33 | ///
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34 | /// The above copyright notice and this permission notice shall be included in all
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35 | /// copies or substantial portions of the Software.
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36 | ///
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37 | /// =================================================================================
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38 | ///
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39 |
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40 | using System;
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41 | using ILNumerics;
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42 | using ILNumerics.Misc;
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43 | using ILNumerics.Exceptions;
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44 | using ILNumerics.Storage;
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45 | using ILNumerics.Native;
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46 | using System.Text;
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47 |
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48 | namespace ILNumerics {
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49 | /// <summary>
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50 | /// Boolean array for high performance relational operations on arbitrary arrays
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51 | /// </summary>
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52 | /// <remarks>
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53 | /// Logical arrays are derived from <c><![CDATA[ILArray<byte>]]></c>. It consumes
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54 | /// 1 byte per element and is the output parameter of all relational comparisons
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55 | /// as well as the input parameter for all functions consuming <c><![CDATA[ILArray<byte>]]></c>.
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56 | /// The difference between arrays and logical arrays is: the logical array
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57 | /// stores a integer value with the number of nonzero elements as additional information.
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58 | /// Therefore functions like 'find' are able to determine the lenght of output array to
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59 | /// be created omitting the need of multiple walks through the array. Therefore ILLogicalArrays
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60 | /// consume (a little) more time while construction but are much more performand on functions like
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61 | /// 'find'.
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62 | /// </remarks>
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63 | [Serializable]
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64 | public sealed class ILLogical : ILBaseLogical {
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65 |
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66 | private static readonly bool s_isTempArray = false;
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67 |
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68 | #region constructors
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69 | /// <summary>
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70 | /// constructor - create logical array of type <c>Byte</c> of specified size
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71 | /// </summary>
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72 | /// <param name="size">
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73 | /// Variable length int array specifying the number and size of dimensions to
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74 | /// be created.
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75 | /// </param>
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76 | /// <remarks>
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77 | /// The size parameter may not be null or an empty array! An Exception will be
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78 | /// thrown in this case. The dimensions will be trimmed before processing
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79 | /// (removing trailing non singleton dimensions).
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80 | /// Depending on the requested size an ILArray < byte > of the specified dimensions
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81 | /// will be created. The type of storage will be <c>bool</c>.
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82 | /// </remarks>
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83 | internal ILLogical(params int[] size)
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84 | : base(new ILLogicalStorage(new ILSize(size)), s_isTempArray) {
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85 | NumberNonZero = sumElements();
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86 | }
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87 | /// <summary>
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88 | /// constructor - create logical array of type <c>Byte</c> of specified size
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89 | /// </summary>
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90 | /// <param name="size">
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91 | /// dimension object
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92 | /// </param>
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93 | /// <remarks>
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94 | /// The size parameter may not be null. An Exception will be
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95 | /// thrown in this case. The dimensions will be trimmed before processing
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96 | /// (removing trailing singleton dimensions).
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97 | /// Depending on the requested size an logical array of the specified dimensions
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98 | /// will be created. The element type is be <c>bool</c>.
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99 | /// </remarks>
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100 | internal ILLogical(ILSize size)
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101 | : base(new ILLogicalStorage(size), s_isTempArray) {
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102 | NumberNonZero = sumElements();
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103 | }
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104 | /// <summary>
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105 | /// Constructor creating logical array from dense storage
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106 | /// </summary>
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107 | /// <param name="A">input array, the storage of this ILArray will directly be used for
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108 | /// storage of the new logical array</param>
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109 | internal ILLogical(ILLogicalStorage A)
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110 | : base(A, s_isTempArray) {
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111 | NumberNonZero = sumElements();
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112 | }
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113 | /// <summary>
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114 | /// Constructor creating logical array from (dense) storage
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115 | /// </summary>
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116 | /// <param name="A">input array, the storage of this ILArray will directly be used for
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117 | /// storage of the new logical array</param>
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118 | /// <param name="numberNonZero">number of nonzero elements in A. Must be positive or 0.</param>
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119 | /// <remarks> Providing this parameter prevents the constructor from having to count the
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120 | /// 'true' elements in A.</remarks>
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121 | internal ILLogical(ILLogicalStorage A, long numberNonZero)
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122 | : base(A, s_isTempArray) {
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123 | if (numberNonZero < 0)
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124 | throw new ILNumerics.Exceptions.ILArgumentException("invalid number of non-zero-elements given!");
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125 | NumberNonZero = numberNonZero;
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126 | }
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127 | /// <summary>
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128 | /// constructor - create logical array of specified size
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129 | /// from data array
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130 | /// </summary>
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131 | /// <param name="size">
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132 | /// Variable length int array specifying the number and size of dimensions to
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133 | /// be created.
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134 | /// </param>
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135 | /// <param name="data"> byte array matching the size of the dimensions
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136 | /// specified. The data will directly be used as storage! No copy will be made!</param>
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137 | /// <remarks>
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138 | /// The size parameter may not be null or an empty array! An Exception will be
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139 | /// thrown in this case. The dimensions will be trimmed before processing
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140 | /// (removing trailing non singleton dimensions).
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141 | /// Depending on the requested size an logical array of the specified size
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142 | /// will be created. The type of storage will be <c>byte</c>.
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143 | /// </remarks>
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144 | internal ILLogical(byte[] data, params int[] size)
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145 | : base(new ILLogicalStorage(data, new ILSize(size)), s_isTempArray) {
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146 | NumberNonZero = sumElements();
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147 | }
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148 | /// <summary>
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149 | /// Constructor creating logical array, provide predefined storage
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150 | /// </summary>
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151 | /// <param name="data">predefined storage elements. The array will directly be used
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152 | /// as underlying storage. No copy will be made! </param>
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153 | /// <param name="dimension">Dimensions specification.</param>
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154 | internal ILLogical(byte[] data, ILSize dimension)
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155 | : base(new ILLogicalStorage(data, dimension), s_isTempArray) {
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156 | NumberNonZero = sumElements();
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157 | }
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158 | /// <summary>
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159 | /// Constructor creating logical array, predefined storage (fast version)
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160 | /// </summary>
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161 | /// <param name="data">predefined storage elements. The array will directly be used
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162 | /// as underlying storage. No copy will be made! </param>
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163 | /// <param name="dimension">Dimensions specification.</param>
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164 | /// <param name="nonZeroCount">number of nonzero elements in <paramref name="data"/>.
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165 | /// Providing this parameter prevents from counting the 'true' elements (again). </param>
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166 | internal ILLogical(byte[] data, ILSize dimension, long nonZeroCount)
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167 | : base(new ILLogicalStorage(data, dimension), s_isTempArray) {
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168 | if (nonZeroCount < 0)
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169 | throw new ILNumerics.Exceptions.ILArgumentException("invalid number of non-zero-elements given!");
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170 | NumberNonZero = nonZeroCount;
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171 | }
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172 | #endregion
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173 |
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174 | #region operator overloading
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175 | #region constructional operators
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176 | /// <summary>
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177 | /// Implicitly convert boolean scalar to logical array of size 1x1 (scalar).
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178 | /// </summary>
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179 | /// <param name="val">Boolean scalar</param>
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180 | /// <returns>New logical array of size 1x1 holding the only element of type Byte
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181 | /// with value of val.</returns>
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182 | public static implicit operator ILLogical(bool val) {
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183 | ILLogical ret = new ILLogical(new byte[1] { val ? (byte)1 : (byte)0 }, 1, 1);
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184 | return ret;
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185 | }
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186 | /// <summary>
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187 | /// Implicitly convert logical array to bool
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188 | /// </summary>
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189 | /// <param name="A">logical array</param>
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190 | /// <returns>true if <b>all</b> elements of A are non-zero, false otherwise
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191 | /// </returns>
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192 | /// <remarks> If A is null or empty, the function returns false. Otherwise allall returns true,
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193 | /// if all elements of A are non-zero and returns false, if A contains any zero elements.</remarks>
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194 | public static implicit operator bool(ILLogical A) {
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195 | // this operator is implicit for convenience reasons:
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196 | // if(tmp[0]!=-10.0) { ... is only possible this way
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197 | if (object.Equals(A, null) || A.IsEmpty)
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198 | return false;
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199 | if (A.IsScalar)
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200 | return A.GetValue(0, 0) == 1;
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201 | return ILMath.allall(A).GetValue(0) == 1;
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202 | }
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203 | /// <summary>
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204 | /// Implicitly convert integer scalar to logical array of size 1x1 (scalar).
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205 | /// </summary>
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206 | /// <param name="val">Scalar value</param>
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207 | /// <returns>New logical array of size 1x1 holding the only element of type Byte
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208 | /// with value of val.</returns>
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209 | public static implicit operator ILLogical(int val) {
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210 | ILLogical ret = new ILLogical(new Byte[1] {
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211 | val != 0 ? (byte)1:(byte)0 }, 1, 1);
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212 | return ret;
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213 | }
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214 | /// <summary>
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215 | /// Implicitly cast one dimensional System.Array to ILNumerics array (vector)
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216 | /// </summary>
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217 | /// <param name="A">1-dimensional system array, arbitrary type</param>
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218 | /// <returns>ILNumerics array of same element type as elements of A.
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219 | /// Row vector. If A is null: empty array.</returns>
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220 | /// <remarks>The System.Array A will directly be used for the new ILNumerics array!
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221 | /// No copy will be done! Make sure, not to reference A after this conversion!</remarks>
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222 | public static implicit operator ILLogical(byte[] A) {
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223 | if (A == null) {
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224 | ILLogicalStorage dS = new ILLogicalStorage(new byte[0], ILSize.Empty00);
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225 | return new ILLogical(dS);
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226 | }
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227 | return new ILLogical(A, 1, A.Length);
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228 | }
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229 | /// <summary>
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230 | /// Implicitly convert n-dim. System.Array to ILNumerics array
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231 | /// </summary>
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232 | /// <param name="A">Arbitrarily sized System.Array</param>
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233 | /// <returns>If A is null: empty array. Else: new ILNumerics array of the same size as A</returns>
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234 | /// <remarks>The inner type of input array <paramref name="A"/> must match the requested type
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235 | /// <typeparamref name="ElementType"/>. The resulting ILArray will reflect all dimensions of
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236 | /// A. Elements of A will get copied to elements of output array (shallow copy).</remarks>
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237 | /// <exception cref="ILNumerics.Exceptions.ILCastException"> if type of input does not match
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238 | /// ElementType</exception>
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239 | public static implicit operator ILLogical(Array elements) {
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240 | if (elements == null || elements.Length == 0) {
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241 | return new ILLogical(ILSize.Empty00);
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242 | }
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243 | if (elements.GetType().GetElementType() != typeof(byte))
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244 | throw new ILCastException("inner type of System.Array must match");
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245 | int[] dims = new int[elements.Rank];
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246 | byte[] retArr = ILMemoryPool.Pool.New<byte>(elements.Length);
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247 | int posArr = 0;
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248 | for (int i = 0; i < dims.Length; i++) {
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249 | dims[i] = elements.GetLength(dims.Length - i - 1);
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250 | }
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251 | foreach (byte item in elements)
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252 | retArr[posArr++] = item;
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253 | return new ILLogical(retArr, dims);
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254 | }
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255 | /// <summary>
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256 | /// Implicitly cast two dimensional System.Array to ILNumerics array
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257 | /// </summary>
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258 | /// <param name="A">2D System.Array</param>
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259 | /// <returns>If A is null: empty array. ILNumerics array of same size and type as A otherwise.</returns>
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260 | public static implicit operator ILLogical(byte[,] A) {
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261 | if (A == null || A.Length == 0) {
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262 | return new ILLogical(ILSize.Empty00);
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263 | }
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264 | int[] dims = new int[2];
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265 | byte[] retArr = ILMemoryPool.Pool.New<byte>(A.Length);
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266 | int posArr = 0;
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267 | for (int i = 0; i < 2; i++) {
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268 | dims[i] = A.GetLength(dims.Length - i - 1);
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269 | }
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270 | foreach (byte item in A)
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271 | retArr[posArr++] = item;
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272 | return new ILLogical(retArr, dims);
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273 | }
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274 | /// <summary>
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275 | /// Implicitly cast three dimensional System.Array to ILNumerics array
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276 | /// </summary>
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277 | /// <param name="A">3-dimensional System.Array</param>
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278 | /// <returns>If A is null: empty array. ILNumerics array of same size and type as A otherwise.</returns>
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279 | public static implicit operator ILLogical(byte[, ,] A) {
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280 | if (A == null || A.Length == 0) {
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281 | return new ILLogical(ILSize.Empty00);
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282 | }
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283 | int[] dims = new int[3];
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284 | byte[] retArr = ILMemoryPool.Pool.New<byte>(A.Length);
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285 | int posArr = 0;
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286 | for (int i = 0; i < 3; i++) {
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287 | dims[i] = A.GetLength(dims.Length - i - 1);
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288 | }
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289 | foreach (byte item in A)
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290 | retArr[posArr++] = item;
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291 | return new ILLogical(retArr, dims);
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292 | }
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293 | #endregion
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294 |
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295 | #region operational operators
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296 | /// <summary>
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297 | /// Invert values of array elements
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298 | /// </summary>
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299 | /// <param name="in1">Input array</param>
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300 | /// <returns>New solid logical array, inverted element values</returns>
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301 | public static ILRetLogical operator !(ILLogical in1) {
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302 | if (object.Equals(in1, null))
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303 | throw new ILArgumentException("operator -(): parameter must not be null!");
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304 | return (in1 != (byte)1);
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305 | }
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306 | #endregion
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307 |
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308 | #region conversional operators
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309 | public static implicit operator ILLogical(ILRetLogical A) {
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310 | if (object.Equals(A, null))
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311 | return null;
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312 | ILLogicalStorage aStorage = (ILLogicalStorage)A.GiveStorageAwayOrClone();
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313 | ILLogical ret = new ILLogical(aStorage, aStorage.NumberNonZero);
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314 | ILScope.Context.RegisterArray(ret);
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315 | return ret;
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316 | }
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317 | public static implicit operator ILLogical(ILInLogical A) {
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318 | if (object.Equals(A, null))
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319 | return null;
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320 | ILLogicalStorage storage = A.Storage;
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321 | ILLogical ret = new ILLogical(
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322 | new ILLogicalStorage(storage.GetDataArray(), storage.Size));
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323 | ILScope.Context.RegisterArray(ret);
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324 | return ret;
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325 | }
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326 | public static implicit operator ILLogical(ILArray<byte> A) {
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327 | if (object.Equals(A, null))
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328 | return null;
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329 | ILLogical ret = new ILLogical(
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330 | new ILLogicalStorage(A.Storage.GetDataArray(), A.Size));
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331 | ILScope.Context.RegisterArray(ret);
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332 | return ret;
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333 | }
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334 | public static implicit operator ILLogical(ILInArray<byte> A) {
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335 | if (object.Equals(A, null))
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336 | return null;
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337 | ILLogical ret = new ILLogical(
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338 | new ILLogicalStorage(A.Storage.GetDataArray(), A.Size));
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339 | ILScope.Context.RegisterArray(ret);
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340 | return ret;
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341 | }
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342 |
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343 | public static implicit operator ILArray<byte>(ILLogical A) {
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344 | if (object.Equals(A, null))
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345 | return null;
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346 | ILArray<byte> ret = new ILArray<byte>(
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347 | new ILDenseStorage<byte>(A.Storage.GetDataArray(), A.Size));
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348 | ILScope.Context.RegisterArray(ret);
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349 | return ret;
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350 | }
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351 | public static implicit operator ILInArray<byte>(ILLogical A) {
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352 | if (object.Equals(A,null))
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353 | return null;
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354 | ILInArray<byte> ret = new ILInArray<byte>(
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355 | new ILDenseStorage<byte>(A.Storage.GetDataArray(), A.Size));
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356 | return ret;
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357 | }
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358 | #endregion
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359 |
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360 | #endregion operator overloads
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361 |
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362 | #region index access + mutability
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363 | /// <summary>
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364 | /// Subarray access
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365 | /// </summary>
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366 | /// <param name="range">Range specification</param>
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367 | /// <returns>Reference pointing to the elements of this array specified by range. If used for removal:
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368 | /// the array will be changed to a referencing array having the parts requested removed and reshaped accordingly.</returns>
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369 | /// <remarks>Query access: for N-dimensional arrays trailing dimensions will be choosen to be 0. Therefore you
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370 | /// may ommit those trailing dimensions in range.
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371 | /// <para>The indexer may be used for querying or altering single/any elements
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372 | /// in this array. <c>range</c> may contains index specifications for one ... any
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373 | /// dimension. The array returned will have the size specified by range.</para>
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374 | /// <para>The indexer may also be used for removing parts of the array. Therefore an empty array
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375 | /// (of the same type) or 'null' must be assigned to the range specified by <c>range</c> using the set-access. <c>range</c>
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376 | /// must contain exactly one dimension specification other than null. This may be any vector-sized numeric ILArray of any
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377 | /// type. If <c>range</c> applies
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378 | /// to less dimensions than dimensions existing in the array, the upper dimensions will be
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379 | /// merged and the array will be reshaped before applying the removal to it.</para>
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380 | /// <para>In case of removal the ILArray returned will be a reference array.</para></remarks>
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381 | public ILRetLogical this[params ILBaseArray[] dims] {
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382 | get {
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383 | return new ILRetLogical((ILLogicalStorage)Storage.Subarray(dims));
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384 | }
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385 | set {
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386 | SetRange(value,dims);
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387 | NumberNonZero = sumElements();
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388 | }
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389 | }
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390 | /// <summary>
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391 | /// Set single value to element at index specified
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392 | /// </summary>
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393 | /// <param name="value">New value</param>
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394 | /// <param name="idx">Index of element to be altered</param>
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395 | public void SetValue(byte value, params int[] idx) {
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396 | Storage.SetValueTyped(value, idx);
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397 | }
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398 | /// <summary>
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399 | /// Alter a range of this array
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400 | /// </summary>
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401 | /// <param name="value">Array with new values</param>
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402 | /// <param name="range">Range specification</param>
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403 | public void SetRange(ILInLogical value, params ILBaseArray[] range) {
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404 | using (ILScope.Enter(value))
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405 | using (ILScope.Enter(range)) {
|
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406 | if (object.Equals(value, null)) {
|
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407 | Storage.IndexSubrange(null, range);
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408 | } else {
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409 | Storage.IndexSubrange(value.Storage, range);
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410 | }
|
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411 | }
|
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412 | }
|
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413 | /// <summary>
|
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414 | /// Replace the elements of this array with another array's elements, preventing memory leaks
|
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415 | /// </summary>
|
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416 | /// <param name="value">New array</param>
|
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417 | public ILRetLogical a {
|
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418 | set { Assign(value); }
|
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419 | get { return this.C; }
|
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420 | }
|
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421 | /// <summary>
|
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422 | /// Replaces storage of this array with new array elements, registers this array for out-of-scope disposal
|
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423 | /// </summary>
|
---|
424 | /// <param name="value">New array</param>
|
---|
425 | public void Assign(ILRetLogical value) {
|
---|
426 | if (!IsDisposed)
|
---|
427 | Storage.Dispose();
|
---|
428 | m_storage = value.GiveStorageAwayOrClone();
|
---|
429 | //ILScope.Context.RegisterArray(this);
|
---|
430 | }
|
---|
431 | #endregion
|
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432 |
|
---|
433 | #region memory management
|
---|
434 | internal override bool EnterScope() {
|
---|
435 | return false;
|
---|
436 | }
|
---|
437 | #endregion
|
---|
438 |
|
---|
439 | }
|
---|
440 | }
|
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