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1 // ------------------------------------------------------------------------------ |
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2 // Copyright (c) 2000 Cadenza New Zealand Ltd |
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3 // Distributed under the Boost Software License, Version 1.0. (See accompany- |
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4 // ing file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) |
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5 // ------------------------------------------------------------------------------ |
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6 // Boost functional.hpp header file |
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7 // See http://www.boost.org/libs/functional for documentation. |
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8 // ------------------------------------------------------------------------------ |
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9 // $Id: functional.hpp 36246 2006-12-02 14:17:26Z andreas_huber69 $ |
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10 // ------------------------------------------------------------------------------ |
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11 |
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12 #ifndef BOOST_FUNCTIONAL_HPP |
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13 #define BOOST_FUNCTIONAL_HPP |
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14 |
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15 #include <boost/config.hpp> |
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16 #include <boost/call_traits.hpp> |
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17 #include <functional> |
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18 |
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19 namespace boost |
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20 { |
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21 #ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION |
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22 // -------------------------------------------------------------------------- |
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23 // The following traits classes allow us to avoid the need for ptr_fun |
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24 // because the types of arguments and the result of a function can be |
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25 // deduced. |
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26 // |
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27 // In addition to the standard types defined in unary_function and |
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28 // binary_function, we add |
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29 // |
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30 // - function_type, the type of the function or function object itself. |
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31 // |
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32 // - param_type, the type that should be used for passing the function or |
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33 // function object as an argument. |
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34 // -------------------------------------------------------------------------- |
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35 namespace detail |
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36 { |
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37 template <class Operation> |
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38 struct unary_traits_imp; |
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39 |
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40 template <class Operation> |
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41 struct unary_traits_imp<Operation*> |
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42 { |
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43 typedef Operation function_type; |
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44 typedef const function_type & param_type; |
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45 typedef typename Operation::result_type result_type; |
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46 typedef typename Operation::argument_type argument_type; |
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47 }; |
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48 |
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49 template <class R, class A> |
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50 struct unary_traits_imp<R(*)(A)> |
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51 { |
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52 typedef R (*function_type)(A); |
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53 typedef R (*param_type)(A); |
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54 typedef R result_type; |
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55 typedef A argument_type; |
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56 }; |
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57 |
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58 template <class Operation> |
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59 struct binary_traits_imp; |
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60 |
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61 template <class Operation> |
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62 struct binary_traits_imp<Operation*> |
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63 { |
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64 typedef Operation function_type; |
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65 typedef const function_type & param_type; |
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66 typedef typename Operation::result_type result_type; |
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67 typedef typename Operation::first_argument_type first_argument_type; |
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68 typedef typename Operation::second_argument_type second_argument_type; |
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69 }; |
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70 |
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71 template <class R, class A1, class A2> |
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72 struct binary_traits_imp<R(*)(A1,A2)> |
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73 { |
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74 typedef R (*function_type)(A1,A2); |
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75 typedef R (*param_type)(A1,A2); |
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76 typedef R result_type; |
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77 typedef A1 first_argument_type; |
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78 typedef A2 second_argument_type; |
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79 }; |
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80 } // namespace detail |
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81 |
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82 template <class Operation> |
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83 struct unary_traits |
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84 { |
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85 typedef typename detail::unary_traits_imp<Operation*>::function_type function_type; |
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86 typedef typename detail::unary_traits_imp<Operation*>::param_type param_type; |
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87 typedef typename detail::unary_traits_imp<Operation*>::result_type result_type; |
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88 typedef typename detail::unary_traits_imp<Operation*>::argument_type argument_type; |
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89 }; |
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90 |
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91 template <class R, class A> |
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92 struct unary_traits<R(*)(A)> |
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93 { |
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94 typedef R (*function_type)(A); |
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95 typedef R (*param_type)(A); |
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96 typedef R result_type; |
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97 typedef A argument_type; |
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98 }; |
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99 |
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100 template <class Operation> |
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101 struct binary_traits |
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102 { |
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103 typedef typename detail::binary_traits_imp<Operation*>::function_type function_type; |
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104 typedef typename detail::binary_traits_imp<Operation*>::param_type param_type; |
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105 typedef typename detail::binary_traits_imp<Operation*>::result_type result_type; |
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106 typedef typename detail::binary_traits_imp<Operation*>::first_argument_type first_argument_type; |
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107 typedef typename detail::binary_traits_imp<Operation*>::second_argument_type second_argument_type; |
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108 }; |
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109 |
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110 template <class R, class A1, class A2> |
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111 struct binary_traits<R(*)(A1,A2)> |
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112 { |
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113 typedef R (*function_type)(A1,A2); |
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114 typedef R (*param_type)(A1,A2); |
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115 typedef R result_type; |
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116 typedef A1 first_argument_type; |
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117 typedef A2 second_argument_type; |
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118 }; |
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119 #else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION |
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120 // -------------------------------------------------------------------------- |
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121 // If we have no partial specialisation available, decay to a situation |
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122 // that is no worse than in the Standard, i.e., ptr_fun will be required. |
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123 // -------------------------------------------------------------------------- |
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124 |
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125 template <class Operation> |
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126 struct unary_traits |
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127 { |
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128 typedef Operation function_type; |
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129 typedef const Operation& param_type; |
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130 typedef typename Operation::result_type result_type; |
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131 typedef typename Operation::argument_type argument_type; |
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132 }; |
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133 |
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134 template <class Operation> |
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135 struct binary_traits |
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136 { |
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137 typedef Operation function_type; |
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138 typedef const Operation & param_type; |
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139 typedef typename Operation::result_type result_type; |
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140 typedef typename Operation::first_argument_type first_argument_type; |
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141 typedef typename Operation::second_argument_type second_argument_type; |
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142 }; |
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143 #endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION |
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144 |
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145 // -------------------------------------------------------------------------- |
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146 // unary_negate, not1 |
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147 // -------------------------------------------------------------------------- |
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148 template <class Predicate> |
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149 class unary_negate |
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150 : public std::unary_function<typename unary_traits<Predicate>::argument_type,bool> |
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151 { |
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152 public: |
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153 explicit unary_negate(typename unary_traits<Predicate>::param_type x) |
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154 : |
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155 pred(x) |
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156 {} |
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157 bool operator()(typename call_traits<typename unary_traits<Predicate>::argument_type>::param_type x) const |
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158 { |
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159 return !pred(x); |
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160 } |
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161 private: |
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162 typename unary_traits<Predicate>::function_type pred; |
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163 }; |
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164 |
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165 template <class Predicate> |
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166 unary_negate<Predicate> not1(const Predicate &pred) |
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167 { |
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168 // The cast is to placate Borland C++Builder in certain circumstances. |
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169 // I don't think it should be necessary. |
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170 return unary_negate<Predicate>((typename unary_traits<Predicate>::param_type)pred); |
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171 } |
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172 |
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173 template <class Predicate> |
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174 unary_negate<Predicate> not1(Predicate &pred) |
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175 { |
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176 return unary_negate<Predicate>(pred); |
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177 } |
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178 |
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179 // -------------------------------------------------------------------------- |
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180 // binary_negate, not2 |
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181 // -------------------------------------------------------------------------- |
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182 template <class Predicate> |
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183 class binary_negate |
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184 : public std::binary_function<typename binary_traits<Predicate>::first_argument_type, |
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185 typename binary_traits<Predicate>::second_argument_type, |
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186 bool> |
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187 { |
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188 public: |
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189 explicit binary_negate(typename binary_traits<Predicate>::param_type x) |
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190 : |
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191 pred(x) |
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192 {} |
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193 bool operator()(typename call_traits<typename binary_traits<Predicate>::first_argument_type>::param_type x, |
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194 typename call_traits<typename binary_traits<Predicate>::second_argument_type>::param_type y) const |
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195 { |
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196 return !pred(x,y); |
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197 } |
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198 private: |
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199 typename binary_traits<Predicate>::function_type pred; |
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200 }; |
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201 |
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202 template <class Predicate> |
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203 binary_negate<Predicate> not2(const Predicate &pred) |
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204 { |
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205 // The cast is to placate Borland C++Builder in certain circumstances. |
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206 // I don't think it should be necessary. |
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207 return binary_negate<Predicate>((typename binary_traits<Predicate>::param_type)pred); |
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208 } |
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209 |
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210 template <class Predicate> |
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211 binary_negate<Predicate> not2(Predicate &pred) |
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212 { |
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213 return binary_negate<Predicate>(pred); |
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214 } |
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215 |
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216 // -------------------------------------------------------------------------- |
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217 // binder1st, bind1st |
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218 // -------------------------------------------------------------------------- |
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219 template <class Operation> |
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220 class binder1st |
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221 : public std::unary_function<typename binary_traits<Operation>::second_argument_type, |
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222 typename binary_traits<Operation>::result_type> |
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223 { |
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224 public: |
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225 binder1st(typename binary_traits<Operation>::param_type x, |
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226 typename call_traits<typename binary_traits<Operation>::first_argument_type>::param_type y) |
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227 : |
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228 op(x), value(y) |
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229 {} |
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230 |
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231 typename binary_traits<Operation>::result_type |
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232 operator()(typename call_traits<typename binary_traits<Operation>::second_argument_type>::param_type x) const |
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233 { |
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234 return op(value, x); |
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235 } |
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236 |
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237 protected: |
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238 typename binary_traits<Operation>::function_type op; |
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239 typename binary_traits<Operation>::first_argument_type value; |
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240 }; |
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241 |
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242 template <class Operation> |
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243 inline binder1st<Operation> bind1st(const Operation &op, |
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244 typename call_traits< |
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245 typename binary_traits<Operation>::first_argument_type |
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246 >::param_type x) |
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247 { |
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248 // The cast is to placate Borland C++Builder in certain circumstances. |
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249 // I don't think it should be necessary. |
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250 return binder1st<Operation>((typename binary_traits<Operation>::param_type)op, x); |
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251 } |
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252 |
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253 template <class Operation> |
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254 inline binder1st<Operation> bind1st(Operation &op, |
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255 typename call_traits< |
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256 typename binary_traits<Operation>::first_argument_type |
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257 >::param_type x) |
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258 { |
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259 return binder1st<Operation>(op, x); |
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260 } |
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261 |
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262 // -------------------------------------------------------------------------- |
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263 // binder2nd, bind2nd |
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264 // -------------------------------------------------------------------------- |
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265 template <class Operation> |
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266 class binder2nd |
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267 : public std::unary_function<typename binary_traits<Operation>::first_argument_type, |
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268 typename binary_traits<Operation>::result_type> |
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269 { |
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270 public: |
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271 binder2nd(typename binary_traits<Operation>::param_type x, |
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272 typename call_traits<typename binary_traits<Operation>::second_argument_type>::param_type y) |
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273 : |
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274 op(x), value(y) |
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275 {} |
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276 |
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277 typename binary_traits<Operation>::result_type |
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278 operator()(typename call_traits<typename binary_traits<Operation>::first_argument_type>::param_type x) const |
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279 { |
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280 return op(x, value); |
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281 } |
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282 |
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283 protected: |
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284 typename binary_traits<Operation>::function_type op; |
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285 typename binary_traits<Operation>::second_argument_type value; |
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286 }; |
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287 |
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288 template <class Operation> |
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289 inline binder2nd<Operation> bind2nd(const Operation &op, |
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290 typename call_traits< |
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291 typename binary_traits<Operation>::second_argument_type |
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292 >::param_type x) |
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293 { |
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294 // The cast is to placate Borland C++Builder in certain circumstances. |
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295 // I don't think it should be necessary. |
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296 return binder2nd<Operation>((typename binary_traits<Operation>::param_type)op, x); |
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297 } |
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298 |
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299 template <class Operation> |
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300 inline binder2nd<Operation> bind2nd(Operation &op, |
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301 typename call_traits< |
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302 typename binary_traits<Operation>::second_argument_type |
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303 >::param_type x) |
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304 { |
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305 return binder2nd<Operation>(op, x); |
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306 } |
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307 |
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308 // -------------------------------------------------------------------------- |
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309 // mem_fun, etc |
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310 // -------------------------------------------------------------------------- |
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311 template <class S, class T> |
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312 class mem_fun_t : public std::unary_function<T*, S> |
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313 { |
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314 public: |
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315 explicit mem_fun_t(S (T::*p)()) |
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316 : |
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317 ptr(p) |
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318 {} |
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319 S operator()(T* p) const |
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320 { |
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321 return (p->*ptr)(); |
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322 } |
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323 private: |
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324 S (T::*ptr)(); |
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325 }; |
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326 |
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327 template <class S, class T, class A> |
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328 class mem_fun1_t : public std::binary_function<T*, A, S> |
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329 { |
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330 public: |
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331 explicit mem_fun1_t(S (T::*p)(A)) |
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332 : |
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333 ptr(p) |
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334 {} |
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335 S operator()(T* p, typename call_traits<A>::param_type x) const |
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336 { |
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337 return (p->*ptr)(x); |
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338 } |
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339 private: |
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340 S (T::*ptr)(A); |
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341 }; |
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342 |
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343 template <class S, class T> |
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344 class const_mem_fun_t : public std::unary_function<const T*, S> |
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345 { |
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346 public: |
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347 explicit const_mem_fun_t(S (T::*p)() const) |
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348 : |
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349 ptr(p) |
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350 {} |
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351 S operator()(const T* p) const |
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352 { |
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353 return (p->*ptr)(); |
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354 } |
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355 private: |
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356 S (T::*ptr)() const; |
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357 }; |
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358 |
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359 template <class S, class T, class A> |
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360 class const_mem_fun1_t : public std::binary_function<const T*, A, S> |
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361 { |
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362 public: |
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363 explicit const_mem_fun1_t(S (T::*p)(A) const) |
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364 : |
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365 ptr(p) |
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366 {} |
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367 S operator()(const T* p, typename call_traits<A>::param_type x) const |
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368 { |
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369 return (p->*ptr)(x); |
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370 } |
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371 private: |
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372 S (T::*ptr)(A) const; |
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373 }; |
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374 |
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375 template<class S, class T> |
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376 inline mem_fun_t<S,T> mem_fun(S (T::*f)()) |
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377 { |
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378 return mem_fun_t<S,T>(f); |
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379 } |
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380 |
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381 template<class S, class T, class A> |
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382 inline mem_fun1_t<S,T,A> mem_fun(S (T::*f)(A)) |
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383 { |
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384 return mem_fun1_t<S,T,A>(f); |
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385 } |
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386 |
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387 #ifndef BOOST_NO_POINTER_TO_MEMBER_CONST |
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388 template<class S, class T> |
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389 inline const_mem_fun_t<S,T> mem_fun(S (T::*f)() const) |
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390 { |
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391 return const_mem_fun_t<S,T>(f); |
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392 } |
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393 |
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394 template<class S, class T, class A> |
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395 inline const_mem_fun1_t<S,T,A> mem_fun(S (T::*f)(A) const) |
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396 { |
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397 return const_mem_fun1_t<S,T,A>(f); |
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398 } |
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399 #endif // BOOST_NO_POINTER_TO_MEMBER_CONST |
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400 |
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401 // -------------------------------------------------------------------------- |
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402 // mem_fun_ref, etc |
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403 // -------------------------------------------------------------------------- |
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404 template <class S, class T> |
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405 class mem_fun_ref_t : public std::unary_function<T&, S> |
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406 { |
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407 public: |
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408 explicit mem_fun_ref_t(S (T::*p)()) |
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409 : |
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410 ptr(p) |
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411 {} |
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412 S operator()(T& p) const |
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413 { |
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414 return (p.*ptr)(); |
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415 } |
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416 private: |
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417 S (T::*ptr)(); |
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418 }; |
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419 |
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420 template <class S, class T, class A> |
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421 class mem_fun1_ref_t : public std::binary_function<T&, A, S> |
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422 { |
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423 public: |
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424 explicit mem_fun1_ref_t(S (T::*p)(A)) |
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425 : |
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426 ptr(p) |
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427 {} |
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428 S operator()(T& p, typename call_traits<A>::param_type x) const |
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429 { |
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430 return (p.*ptr)(x); |
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431 } |
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432 private: |
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433 S (T::*ptr)(A); |
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434 }; |
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435 |
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436 template <class S, class T> |
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437 class const_mem_fun_ref_t : public std::unary_function<const T&, S> |
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438 { |
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439 public: |
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440 explicit const_mem_fun_ref_t(S (T::*p)() const) |
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441 : |
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442 ptr(p) |
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443 {} |
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444 |
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445 S operator()(const T &p) const |
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446 { |
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447 return (p.*ptr)(); |
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448 } |
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449 private: |
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450 S (T::*ptr)() const; |
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451 }; |
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452 |
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453 template <class S, class T, class A> |
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454 class const_mem_fun1_ref_t : public std::binary_function<const T&, A, S> |
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455 { |
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456 public: |
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457 explicit const_mem_fun1_ref_t(S (T::*p)(A) const) |
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458 : |
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459 ptr(p) |
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460 {} |
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461 |
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462 S operator()(const T& p, typename call_traits<A>::param_type x) const |
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463 { |
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464 return (p.*ptr)(x); |
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465 } |
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466 private: |
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467 S (T::*ptr)(A) const; |
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468 }; |
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469 |
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470 template<class S, class T> |
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471 inline mem_fun_ref_t<S,T> mem_fun_ref(S (T::*f)()) |
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472 { |
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473 return mem_fun_ref_t<S,T>(f); |
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474 } |
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475 |
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476 template<class S, class T, class A> |
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477 inline mem_fun1_ref_t<S,T,A> mem_fun_ref(S (T::*f)(A)) |
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478 { |
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479 return mem_fun1_ref_t<S,T,A>(f); |
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480 } |
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481 |
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482 #ifndef BOOST_NO_POINTER_TO_MEMBER_CONST |
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483 template<class S, class T> |
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484 inline const_mem_fun_ref_t<S,T> mem_fun_ref(S (T::*f)() const) |
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485 { |
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486 return const_mem_fun_ref_t<S,T>(f); |
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487 } |
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488 |
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489 template<class S, class T, class A> |
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490 inline const_mem_fun1_ref_t<S,T,A> mem_fun_ref(S (T::*f)(A) const) |
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491 { |
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492 return const_mem_fun1_ref_t<S,T,A>(f); |
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493 } |
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494 #endif // BOOST_NO_POINTER_TO_MEMBER_CONST |
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495 |
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496 // -------------------------------------------------------------------------- |
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497 // ptr_fun |
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498 // -------------------------------------------------------------------------- |
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499 template <class Arg, class Result> |
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500 class pointer_to_unary_function : public std::unary_function<Arg,Result> |
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501 { |
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502 public: |
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503 explicit pointer_to_unary_function(Result (*f)(Arg)) |
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504 : |
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505 func(f) |
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506 {} |
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507 |
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508 Result operator()(typename call_traits<Arg>::param_type x) const |
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509 { |
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510 return func(x); |
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511 } |
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512 |
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513 private: |
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514 Result (*func)(Arg); |
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515 }; |
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516 |
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517 template <class Arg, class Result> |
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518 inline pointer_to_unary_function<Arg,Result> ptr_fun(Result (*f)(Arg)) |
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519 { |
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520 return pointer_to_unary_function<Arg,Result>(f); |
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521 } |
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522 |
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523 template <class Arg1, class Arg2, class Result> |
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524 class pointer_to_binary_function : public std::binary_function<Arg1,Arg2,Result> |
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525 { |
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526 public: |
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527 explicit pointer_to_binary_function(Result (*f)(Arg1, Arg2)) |
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528 : |
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529 func(f) |
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530 {} |
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531 |
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532 Result operator()(typename call_traits<Arg1>::param_type x, typename call_traits<Arg2>::param_type y) const |
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533 { |
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534 return func(x,y); |
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535 } |
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536 |
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537 private: |
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538 Result (*func)(Arg1, Arg2); |
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539 }; |
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540 |
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541 template <class Arg1, class Arg2, class Result> |
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542 inline pointer_to_binary_function<Arg1,Arg2,Result> ptr_fun(Result (*f)(Arg1, Arg2)) |
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543 { |
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544 return pointer_to_binary_function<Arg1,Arg2,Result>(f); |
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545 } |
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546 } // namespace boost |
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547 |
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548 #endif |