1 // Common/Vector.h |
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2 |
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3 #ifndef __COMMON_VECTOR_H |
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4 #define __COMMON_VECTOR_H |
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5 |
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6 #include "Defs.h" |
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7 |
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8 class CBaseRecordVector |
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9 { |
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10 void MoveItems(int destIndex, int srcIndex); |
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11 protected: |
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12 int _capacity; |
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13 int _size; |
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14 void *_items; |
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15 size_t _itemSize; |
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16 |
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17 void ReserveOnePosition(); |
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18 void InsertOneItem(int index); |
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19 void TestIndexAndCorrectNum(int index, int &num) const |
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20 { if (index + num > _size) num = _size - index; } |
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21 public: |
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22 CBaseRecordVector(size_t itemSize): |
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23 _capacity(0), _size(0), _items(0), _itemSize(itemSize) {} |
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24 virtual ~CBaseRecordVector(); |
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25 void Free(); |
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26 int Size() const { return _size; } |
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27 bool IsEmpty() const { return (_size == 0); } |
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28 void Reserve(int newCapacity); |
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29 virtual void Delete(int index, int num = 1); |
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30 void Clear(); |
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31 void DeleteFrom(int index); |
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32 void DeleteBack(); |
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33 }; |
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34 |
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35 template <class T> |
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36 class CRecordVector: public CBaseRecordVector |
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37 { |
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38 public: |
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39 CRecordVector():CBaseRecordVector(sizeof(T)){}; |
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40 CRecordVector(const CRecordVector &v): |
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41 CBaseRecordVector(sizeof(T)) { *this = v;} |
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42 CRecordVector& operator=(const CRecordVector &v) |
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43 { |
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44 Clear(); |
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45 return (*this += v); |
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46 } |
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47 CRecordVector& operator+=(const CRecordVector &v) |
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48 { |
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49 int size = v.Size(); |
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50 Reserve(Size() + size); |
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51 for(int i = 0; i < size; i++) |
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52 Add(v[i]); |
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53 return *this; |
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54 } |
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55 int Add(T item) |
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56 { |
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57 ReserveOnePosition(); |
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58 ((T *)_items)[_size] = item; |
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59 return _size++; |
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60 } |
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61 void Insert(int index, T item) |
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62 { |
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63 InsertOneItem(index); |
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64 ((T *)_items)[index] = item; |
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65 } |
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66 // T* GetPointer() const { return (T*)_items; } |
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67 // operator const T *() const { return _items; }; |
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68 const T& operator[](int index) const { return ((T *)_items)[index]; } |
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69 T& operator[](int index) { return ((T *)_items)[index]; } |
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70 const T& Front() const { return operator[](0); } |
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71 T& Front() { return operator[](0); } |
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72 const T& Back() const { return operator[](_size - 1); } |
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73 T& Back() { return operator[](_size - 1); } |
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74 |
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75 void Swap(int i, int j) |
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76 { |
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77 T temp = operator[](i); |
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78 operator[](i) = operator[](j); |
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79 operator[](j) = temp; |
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80 } |
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81 |
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82 int FindInSorted(const T& item) const |
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83 { |
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84 int left = 0, right = Size(); |
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85 while (left != right) |
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86 { |
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87 int mid = (left + right) / 2; |
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88 const T& midValue = (*this)[mid]; |
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89 if (item == midValue) |
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90 return mid; |
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91 if (item < midValue) |
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92 right = mid; |
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93 else |
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94 left = mid + 1; |
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95 } |
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96 return -1; |
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97 } |
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98 |
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99 int AddToUniqueSorted(const T& item) |
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100 { |
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101 int left = 0, right = Size(); |
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102 while (left != right) |
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103 { |
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104 int mid = (left + right) / 2; |
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105 const T& midValue = (*this)[mid]; |
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106 if (item == midValue) |
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107 return mid; |
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108 if (item < midValue) |
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109 right = mid; |
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110 else |
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111 left = mid + 1; |
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112 } |
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113 Insert(right, item); |
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114 return right; |
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115 } |
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116 |
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117 static void SortRefDown(T* p, int k, int size, int (*compare)(const T*, const T*, void *), void *param) |
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118 { |
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119 T temp = p[k]; |
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120 for (;;) |
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121 { |
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122 int s = (k << 1); |
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123 if (s > size) |
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124 break; |
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125 if (s < size && compare(p + s + 1, p + s, param) > 0) |
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126 s++; |
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127 if (compare(&temp, p + s, param) >= 0) |
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128 break; |
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129 p[k] = p[s]; |
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130 k = s; |
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131 } |
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132 p[k] = temp; |
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133 } |
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134 |
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135 void Sort(int (*compare)(const T*, const T*, void *), void *param) |
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136 { |
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137 int size = _size; |
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138 if (size <= 1) |
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139 return; |
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140 T* p = (&Front()) - 1; |
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141 { |
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142 int i = size / 2; |
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143 do |
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144 SortRefDown(p, i, size, compare, param); |
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145 while(--i != 0); |
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146 } |
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147 do |
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148 { |
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149 T temp = p[size]; |
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150 p[size--] = p[1]; |
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151 p[1] = temp; |
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152 SortRefDown(p, 1, size, compare, param); |
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153 } |
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154 while (size > 1); |
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155 } |
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156 }; |
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157 |
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158 typedef CRecordVector<int> CIntVector; |
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159 typedef CRecordVector<unsigned int> CUIntVector; |
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160 typedef CRecordVector<bool> CBoolVector; |
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161 typedef CRecordVector<unsigned char> CByteVector; |
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162 typedef CRecordVector<void *> CPointerVector; |
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163 |
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164 template <class T> |
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165 class CObjectVector: public CPointerVector |
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166 { |
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167 public: |
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168 CObjectVector(){}; |
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169 ~CObjectVector() { Clear(); } |
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170 CObjectVector(const CObjectVector &objectVector) |
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171 { *this = objectVector; } |
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172 CObjectVector& operator=(const CObjectVector &objectVector) |
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173 { |
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174 Clear(); |
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175 return (*this += objectVector); |
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176 } |
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177 CObjectVector& operator+=(const CObjectVector &objectVector) |
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178 { |
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179 int size = objectVector.Size(); |
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180 Reserve(Size() + size); |
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181 for(int i = 0; i < size; i++) |
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182 Add(objectVector[i]); |
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183 return *this; |
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184 } |
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185 const T& operator[](int index) const { return *((T *)CPointerVector::operator[](index)); } |
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186 T& operator[](int index) { return *((T *)CPointerVector::operator[](index)); } |
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187 T& Front() { return operator[](0); } |
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188 const T& Front() const { return operator[](0); } |
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189 T& Back() { return operator[](_size - 1); } |
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190 const T& Back() const { return operator[](_size - 1); } |
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191 int Add(const T& item) |
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192 { return CPointerVector::Add(new T(item)); } |
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193 void Insert(int index, const T& item) |
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194 { CPointerVector::Insert(index, new T(item)); } |
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195 virtual void Delete(int index, int num = 1) |
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196 { |
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197 TestIndexAndCorrectNum(index, num); |
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198 for(int i = 0; i < num; i++) |
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199 delete (T *)(((void **)_items)[index + i]); |
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200 CPointerVector::Delete(index, num); |
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201 } |
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202 int Find(const T& item) const |
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203 { |
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204 for(int i = 0; i < Size(); i++) |
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205 if (item == (*this)[i]) |
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206 return i; |
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207 return -1; |
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208 } |
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209 int FindInSorted(const T& item) const |
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210 { |
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211 int left = 0, right = Size(); |
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212 while (left != right) |
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213 { |
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214 int mid = (left + right) / 2; |
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215 const T& midValue = (*this)[mid]; |
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216 if (item == midValue) |
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217 return mid; |
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218 if (item < midValue) |
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219 right = mid; |
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220 else |
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221 left = mid + 1; |
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222 } |
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223 return -1; |
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224 } |
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225 int AddToSorted(const T& item) |
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226 { |
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227 int left = 0, right = Size(); |
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228 while (left != right) |
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229 { |
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230 int mid = (left + right) / 2; |
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231 const T& midValue = (*this)[mid]; |
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232 if (item == midValue) |
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233 { |
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234 right = mid + 1; |
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235 break; |
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236 } |
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237 if (item < midValue) |
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238 right = mid; |
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239 else |
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240 left = mid + 1; |
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241 } |
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242 Insert(right, item); |
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243 return right; |
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244 } |
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245 |
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246 void Sort(int (*compare)(void *const *, void *const *, void *), void *param) |
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247 { CPointerVector::Sort(compare, param); } |
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248 |
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249 static int CompareObjectItems(void *const *a1, void *const *a2, void * /* param */) |
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250 { return MyCompare(*(*((const T **)a1)), *(*((const T **)a2))); } |
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251 void Sort() { CPointerVector::Sort(CompareObjectItems, 0); } |
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252 }; |
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253 |
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254 #endif |
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