1 /* |
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2 * Copyright (c) 2007-2008 Nokia Corporation and/or its subsidiary(-ies). |
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3 * All rights reserved. |
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4 * This component and the accompanying materials are made available |
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5 * under the terms of "Eclipse Public License v1.0" |
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6 * which accompanies this distribution, and is available |
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7 * at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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8 * |
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9 * Initial Contributors: |
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10 * Nokia Corporation - initial contribution. |
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11 * |
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12 * Contributors: |
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13 * |
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14 * Description: MulTree Implementaiton |
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15 * |
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16 */ |
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17 |
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18 |
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19 #include "multree.h" |
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20 |
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21 #include <stdexcept> |
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22 |
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23 #include "mulassert.h" |
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24 #include "mulmodeldef.h" |
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25 #include "muldatapath.h" |
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26 |
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27 namespace Alf |
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28 { |
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29 |
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30 // ============================ MEMBER FUNCTIONS =============================== |
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31 |
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32 // ----------------------------------------------------------------------------- |
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33 // AddNode |
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34 // ----------------------------------------------------------------------------- |
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35 // |
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36 void MulTree::AddNode(const MulDataPath& aPath,int aIndex) |
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37 { |
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38 //Find parent node |
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39 MulTreeNode* node = FindNode( aPath ); |
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40 |
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41 //update index of other child |
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42 for( int i = 0 ; i < node->ChildCount() ; i++ ) |
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43 { |
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44 MulTreeNode* childNode = node->Child(i); |
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45 int index = childNode->Index(); |
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46 if( childNode->Index() >= aIndex ) |
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47 { |
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48 childNode->SetIndex( childNode->Index()+1 ); |
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49 } |
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50 } |
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51 |
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52 //insert node in to parent node |
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53 std::auto_ptr<MulTreeNode> childNode( new (EMM) MulTreeNode(aIndex)); |
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54 node->InsertChild(childNode,aIndex); |
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55 } |
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56 |
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57 // ----------------------------------------------------------------------------- |
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58 // RemoveNode |
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59 // ----------------------------------------------------------------------------- |
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60 // |
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61 void MulTree::RemoveNode(const MulDataPath& aPath, int aIndex ) |
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62 { |
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63 MulTreeNode* node = FindNode( aPath ); |
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64 node->RemoveChild(aIndex); |
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65 |
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66 //update index of other child |
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67 for( int i = 0 ; i < node->ChildCount() ; i++ ) |
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68 { |
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69 MulTreeNode* childNode = node->Child(i); |
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70 int index = childNode->Index(); |
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71 if( childNode->Index() > aIndex ) |
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72 { |
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73 childNode->SetIndex( childNode->Index()-1 ); |
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74 } |
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75 } |
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76 } |
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77 |
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78 // ----------------------------------------------------------------------------- |
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79 // FindNode |
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80 // ----------------------------------------------------------------------------- |
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81 // |
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82 MulTreeNode* MulTree::FindNode( const MulDataPath& aPath ) const |
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83 { |
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84 MulTreeNode* currentNode = mRootNode.get(); |
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85 for( int i = 0; i < aPath.Depth() ;i++ ) |
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86 { |
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87 int index = aPath[i]; |
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88 if( currentNode->HasChild() ) |
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89 { |
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90 currentNode = FindChildNode( currentNode,index); |
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91 } |
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92 else |
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93 { |
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94 __MUL_ASSERT_DEBUG( false , KLInvalidArgument ); |
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95 } |
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96 } |
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97 return currentNode; |
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98 } |
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99 |
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100 // ----------------------------------------------------------------------------- |
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101 // FindNode |
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102 // ----------------------------------------------------------------------------- |
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103 // |
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104 MulTreeNode* MulTree::FindChildNode(MulTreeNode* aParentNode,int aIndex) const |
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105 { |
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106 MulTreeNode* currentNode = aParentNode; |
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107 MulTreeNode* foundNode = NULL; |
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108 int index = 0; |
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109 bool found(false); |
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110 int childCount = currentNode->ChildCount(); |
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111 while( !found && index < childCount ) |
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112 { |
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113 MulTreeNode* childNode = currentNode->Child(index); |
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114 if( aIndex == childNode->Index() ) |
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115 { |
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116 found = true; |
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117 foundNode = childNode; |
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118 } |
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119 index++; |
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120 } |
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121 |
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122 if( found == false ) |
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123 { |
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124 __MUL_ASSERT_DEBUG( false , KLInvalidArgument ); |
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125 } |
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126 |
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127 return foundNode; |
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128 } |
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129 |
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130 // ----------------------------------------------------------------------------- |
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131 // FindNode |
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132 // ----------------------------------------------------------------------------- |
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133 // |
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134 MulDataPath MulTree::FindNode( int aIndex ) const |
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135 { |
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136 int absoluteIndex = -1; |
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137 return FindNode( mRootNode.get(), absoluteIndex, aIndex ); |
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138 } |
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139 |
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140 // ----------------------------------------------------------------------------- |
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141 // FindNode |
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142 // ----------------------------------------------------------------------------- |
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143 // |
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144 MulDataPath MulTree::FindNode( MulTreeNode* aNode, int& aAbsoluteIndex, int aIndex ) const |
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145 { |
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146 MulTreeNode* currentNode = aNode; |
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147 if( currentNode->HasChild() ) |
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148 { |
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149 for(int i = 0 ; i < currentNode->ChildCount() ; i++ ) |
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150 { |
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151 aAbsoluteIndex++; |
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152 MulTreeNode* childNode = currentNode->Child(i); |
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153 |
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154 #ifdef _DEBUG |
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155 bool hasChild = childNode->HasChild(); |
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156 int count = childNode->ChildCount(); |
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157 bool isExpanded = childNode->IsExpanded(); |
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158 #endif //_DEBUG |
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159 |
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160 if( aAbsoluteIndex == aIndex ) |
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161 { |
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162 MulDataPath path= Path(*childNode); |
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163 path.SetIndex(i); |
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164 return path; |
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165 } |
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166 else if( childNode->HasChild() && childNode->IsExpanded() ) |
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167 { |
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168 MulDataPath path = FindNode( childNode, aAbsoluteIndex , aIndex ); |
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169 if(path.Index() != KNotInitialized ) |
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170 { |
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171 return path; |
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172 } |
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173 } |
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174 } |
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175 } |
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176 //__MUL_ASSERT_DEBUG( false , KLInvalidArgument ); |
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177 MulDataPath path; |
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178 path.SetIndex(KNotInitialized); |
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179 return path; |
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180 } |
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181 |
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182 // ----------------------------------------------------------------------------- |
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183 // Path |
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184 // ----------------------------------------------------------------------------- |
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185 // |
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186 MulDataPath MulTree::Path(MulTreeNode& aNode) const |
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187 { |
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188 MulTreeNode* parentNode = aNode.Parent(); |
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189 std::vector<int> pathArray; |
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190 while( parentNode && parentNode != mRootNode.get() ) |
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191 { |
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192 int index = parentNode->Index(); |
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193 pathArray.push_back( parentNode->Index() ); |
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194 parentNode = parentNode->Parent(); |
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195 } |
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196 |
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197 int count = pathArray.size(); |
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198 |
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199 MulDataPath path; |
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200 for( int i= pathArray.size()- 1 ; i >=0 ; i-- ) |
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201 { |
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202 path.Append( pathArray[i] ); |
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203 } |
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204 pathArray.clear(); |
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205 return path; |
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206 } |
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207 |
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208 // ----------------------------------------------------------------------------- |
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209 // NodeCount |
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210 // ----------------------------------------------------------------------------- |
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211 // |
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212 int MulTree::NodeCount() const |
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213 { |
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214 int nodeCount =NodeCount( mRootNode.get() ); |
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215 return nodeCount; |
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216 } |
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217 |
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218 // ----------------------------------------------------------------------------- |
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219 // NodeCount |
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220 // ----------------------------------------------------------------------------- |
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221 // |
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222 int MulTree::NodeCount(MulTreeNode* aCurrentNode ) const |
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223 { |
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224 int nodeCount = 0; |
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225 if(aCurrentNode->HasChild()) |
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226 { |
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227 nodeCount = aCurrentNode->ChildCount(); |
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228 for(int i=0;i< aCurrentNode->ChildCount();i++) |
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229 { |
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230 nodeCount+= NodeCount(aCurrentNode->Child(i)); |
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231 } |
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232 } |
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233 return nodeCount; |
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234 } |
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235 |
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236 // ----------------------------------------------------------------------------- |
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237 // ExpandedNodeCount |
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238 // ----------------------------------------------------------------------------- |
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239 // |
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240 int MulTree::ExpandedNodeCount() const |
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241 { |
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242 int nodeCount = ExpandedNodeCount( mRootNode.get() ); |
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243 return nodeCount; |
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244 } |
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245 |
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246 // ----------------------------------------------------------------------------- |
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247 // ExpandedNodeCount |
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248 // ----------------------------------------------------------------------------- |
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249 // |
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250 int MulTree::ExpandedNodeCount(MulTreeNode* aCurrentNode ) const |
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251 { |
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252 int nodeCount = 0; |
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253 if( aCurrentNode->HasChild() && aCurrentNode->IsExpanded() ) |
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254 { |
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255 nodeCount = aCurrentNode->ChildCount(); |
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256 for( int i=0; i< aCurrentNode->ChildCount() ; i++ ) |
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257 { |
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258 nodeCount+= ExpandedNodeCount( aCurrentNode->Child(i) ); |
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259 } |
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260 } |
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261 return nodeCount; |
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262 } |
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263 |
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264 // ----------------------------------------------------------------------------- |
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265 // NodeIndex |
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266 // ----------------------------------------------------------------------------- |
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267 // |
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268 int MulTree::NodeIndex( const MulDataPath& aPath, int aIndex ) const |
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269 { |
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270 MulDataPath path( aPath ); |
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271 path.SetIndex( aIndex ); |
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272 |
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273 int absoluteIndex = -1; |
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274 int index = NodeIndex( mRootNode.get(), path, absoluteIndex ); |
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275 |
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276 return index; |
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277 } |
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278 |
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279 // ----------------------------------------------------------------------------- |
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280 // NodeIndex |
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281 // ----------------------------------------------------------------------------- |
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282 // |
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283 int MulTree::NodeIndex( MulTreeNode* aCurrentNode, const MulDataPath& aPath, int& aAbsoluteIndex ) const |
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284 { |
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285 MulTreeNode* currentNode = aCurrentNode; |
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286 if( currentNode->HasChild() ) |
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287 { |
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288 for(int i = 0 ; i < currentNode->ChildCount() ; i++ ) |
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289 { |
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290 aAbsoluteIndex++; |
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291 MulTreeNode* childNode = currentNode->Child(i); |
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292 |
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293 #ifdef _DEBUG |
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294 bool hasChild = childNode->HasChild(); |
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295 int count = childNode->ChildCount(); |
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296 bool isExpanded = childNode->IsExpanded(); |
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297 #endif //_DEBUG |
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298 |
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299 MulDataPath path = Path(*childNode); |
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300 path.SetIndex(i); |
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301 |
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302 if( path.IsEqual(aPath) ) |
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303 { |
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304 return aAbsoluteIndex; |
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305 } |
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306 else if( childNode->HasChild() && childNode->IsExpanded() ) |
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307 { |
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308 int index = NodeIndex( childNode, aPath, aAbsoluteIndex ); |
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309 if( index != KNotInitialized ) |
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310 { |
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311 return index; |
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312 } |
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313 } |
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314 } |
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315 } |
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316 return KNotInitialized; |
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317 } |
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318 |
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319 } //namespace Alf |
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320 |
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321 //End of file |
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