1 | // [License]
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2 | // The Ariba-Underlay Copyright
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3 | //
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4 | // Copyright (c) 2008-2009, Institute of Telematics, UniversitÀt Karlsruhe (TH)
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5 | //
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6 | // Institute of Telematics
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7 | // UniversitÀt Karlsruhe (TH)
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8 | // Zirkel 2, 76128 Karlsruhe
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9 | // Germany
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10 | //
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11 | // Redistribution and use in source and binary forms, with or without
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12 | // modification, are permitted provided that the following conditions are
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13 | // met:
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14 | //
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15 | // 1. Redistributions of source code must retain the above copyright
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16 | // notice, this list of conditions and the following disclaimer.
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17 | // 2. Redistributions in binary form must reproduce the above copyright
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18 | // notice, this list of conditions and the following disclaimer in the
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19 | // documentation and/or other materials provided with the distribution.
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20 | //
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21 | // THIS SOFTWARE IS PROVIDED BY THE INSTITUTE OF TELEMATICS ``AS IS'' AND
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22 | // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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23 | // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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24 | // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE ARIBA PROJECT OR
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25 | // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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26 | // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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27 | // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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28 | // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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29 | // LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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30 | // NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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31 | // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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32 | //
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33 | // The views and conclusions contained in the software and documentation
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34 | // are those of the authors and should not be interpreted as representing
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35 | // official policies, either expressed or implied, of the Institute of
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36 | // Telematics.
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37 | // [License]
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38 |
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39 | #ifndef DATA_HPP_
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40 | #define DATA_HPP_
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41 |
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42 | //== library includes ==
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43 | #include <stdlib.h>
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44 | #include <iostream>
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45 | #include <boost/cstdint.hpp>
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46 | #include <boost/type_traits/make_unsigned.hpp>
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47 |
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48 | // forward declaration
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49 | template<typename T> class DefaultDataModel;
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50 | template<typename T = uint8_t, typename DataModel = DefaultDataModel<uint8_t> > class DataTpl;
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51 | typedef DataTpl<> Data;
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52 | template<typename T, typename DataModel> std::ostream& operator<<(std::ostream& stream, const DataTpl<T, DataModel>& data);
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53 |
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54 | //== internal includes ==
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55 | #include "../internal/Utilities.hpp"
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56 |
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57 | //== local includes ==
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58 | #include "DataUtilities.hpp"
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59 | #include "Serialization.hpp"
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60 |
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61 | /**
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62 | * This class implements a wrapper for binary data. And this time, when the
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63 | * word binary is used -- it really means binary! Length and manipulation
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64 | * are specified and operate in bit precision. Most of the operations are
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65 | * highly effective using inline functions and compiler optimizations.
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66 | *
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67 | * Two versions of binaries are supported: static, non-resizeable binaries
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68 | * and dynamic, resizeable ones. Please note, this class does not manage
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69 | * memory, reference counting etc. you have to take care about memory
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70 | * management yourself! However you can use the <code>release()</code>
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71 | * to delete the underlaying array.
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72 | *
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73 | * @author Sebastian Mies
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74 | */
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75 | template<typename T, typename DataModel>
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76 | class DataTpl: public Serializeable { SERIALIZEABLE
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77 | protected:
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78 | typedef DataTpl<T,DataModel> _Data;
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79 | DataModel model;
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80 |
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81 | public:
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82 | static const size_t word_width = sizeof(T) * 8;
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83 |
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84 | class DataManipulator {
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85 | private:
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86 | DataModel bits;
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87 | size_t index;
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88 |
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89 | public:
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90 | finline DataManipulator( DataModel& _bits, size_t _index) :
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91 | bits(_bits), index(_index) {
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92 | }
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93 |
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94 | template<typename X>
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95 | finline operator X() const {
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96 | return bitget<X>(bits.buffer(), index);
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97 | }
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98 |
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99 | template<typename X>
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100 | finline DataManipulator& operator=(X value) {
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101 | bitset(value, bits.buffer(), index );
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102 | return *this;
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103 | }
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104 |
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105 | template<typename X>
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106 | finline void set(X value, size_t length = sizeof(X) * 8, if_uint(X)) {
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107 | bitcpy(value, 0, bits.buffer(), index, length);
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108 | }
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109 |
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110 | template<typename X>
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111 | finline void set(X value, size_t length = sizeof(X) * 8, if_int(X)) {
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112 | set(_unsigned(value),length);
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113 | }
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114 |
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115 | template<typename X>
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116 | finline void get(X& value, size_t length = sizeof(X) * 8, if_uint(X)) const {
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117 | value = bitget<X> (bits.buffer(), index, length);
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118 | }
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119 |
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120 | template<typename X>
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121 | finline void get(X& value, size_t length = sizeof(X) * 8, if_int(X)) const {
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122 | typedef typename boost::make_unsigned<X>::type unsigned_type;
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123 | _unsigned(value) = bitget<unsigned_type> (bits.buffer(), index, length);
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124 | }
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125 |
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126 | finline void get(bool& value) const {
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127 | value = bitget( bits.buffer(), index );
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128 | }
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129 | };
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130 |
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131 | public:
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132 | static const Data UNSPECIFIED;
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133 |
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134 | /**
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135 | * Constructs a dynamic bit-data object of variable size.
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136 | */
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137 | finline DataTpl() : model() {
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138 | }
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139 |
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140 | /**
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141 | * Contructs a copy of an existing data buffer
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142 | */
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143 | finline DataTpl(const DataTpl<T, DataModel>& copy) {
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144 | this->model = copy.model;
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145 | }
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146 |
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147 | finline DataTpl( const DataModel& _model ) : model( _model ) {
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148 | }
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149 |
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150 | /**
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151 | * Constructs a static bit-data object with the given buffer.
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152 | */
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153 | finline DataTpl(const T* buffer, size_t length) {
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154 | model.buffer() = buffer;
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155 | model.length() = length;
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156 | }
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157 |
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158 | /**
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159 | * Constructs a dynamic bit-data object with the given buffer.
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160 | */
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161 | finline DataTpl( T* buffer, size_t length ) {
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162 | model.buffer() = buffer;
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163 | model.length() = length;
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164 | }
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165 |
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166 | /**
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167 | * Constructs a dynamic bit-data object of variable size with the given
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168 | * initial size.
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169 | */
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170 | finline DataTpl(size_t length) : model() {
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171 | model.resize(length);
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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 | * Returns the internal buffer of the data.
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177 | */
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178 | finline T* getBuffer() const {
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179 | return model.buffer();
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180 | }
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181 |
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182 | /**
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183 | * Returns the length of the data in bits
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184 | */
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185 | finline size_t getLength() const {
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186 | return model.length();
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187 | }
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188 | /**
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189 | * Sets the length of the data in bits
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190 | */
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191 | void setLength(size_t new_length) {
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192 | model.resize(new_length);
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193 | }
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194 |
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195 | /**
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196 | * Ensures that the buffer pointer has the given
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197 | * number of bits of memory reserved.
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198 | *
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199 | * @param neededLength The minimum data length required.
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200 | */
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201 | finline void ensureLength( size_t neededLength ) {
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202 | if ((int) neededLength > model.length() ) model.resize(neededLength);
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203 | }
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204 |
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205 | /**
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206 | * Returns a manipulator object for a certain bit position.
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207 | *
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208 | * @param index The index in bits quantitites.
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209 | * @return A data manipulation object
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210 | */
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211 | finline DataManipulator operator[](size_t index) {
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212 | return DataManipulator(model, index);
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213 | }
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214 |
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215 | /**
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216 | * Returns a constant manipulator object for a certain bit position.
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217 | *
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218 | * @param index The index in bits quantitites.
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219 | * @return A constant data manipulation object
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220 | */
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221 | finline const DataManipulator operator[](size_t index) const {
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222 | return DataManipulator(model, index);
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223 | }
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224 |
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225 | _Data sub( size_t index, size_t length = ~0 ) {
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226 | if (length == ~0) length = model.length()-index;
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227 | return _Data(model.sub(index,length));
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228 | }
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229 |
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230 | /**
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231 | * Returns a copy of the specified bit range.
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232 | *
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233 | * @param index The first bit to copy
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234 | * @param length The length of the bit range
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235 | * @return The cloned data object
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236 | */
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237 | _Data clone( size_t index, size_t length ) const {
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238 | DataModel new_model = model.clone(index,length);
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239 | return _Data(new_model);
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240 | }
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241 |
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242 | /**
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243 | * Returns a copy of the data.
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244 | *
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245 | * @return A cloned data object
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246 | */
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247 | _Data clone() const {
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248 | DataModel new_model = model.clone( 0, model.length() );
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249 | return _Data(new_model);
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250 | }
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251 |
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252 | /**
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253 | * Returns true, if the data is empty (zero length)
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254 | *
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255 | * @return True, if the data is empty (zero length)
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256 | */
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257 | finline bool isEmpty() const {
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258 | return (model.length() == 0);
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259 | }
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260 |
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261 | /**
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262 | * Returns true, if the data buffer is unspecified.
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263 | * In this case no memory is associated with this data object.
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264 | *
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265 | * @return True, if the data buffer is unspecified.
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266 | */
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267 | finline bool isUnspecified() const {
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268 | return model.isUnspecified();
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269 | }
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270 |
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271 | /**
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272 | * This method frees the memory associated with
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273 | * this data object and sets this object into an unspecified
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274 | * state.
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275 | */
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276 | finline void release() {
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277 | model.release();
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278 | }
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279 |
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280 | // operators
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281 |
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282 | /**
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283 | * Assigns another buffer
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284 | */
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285 | template<typename X>
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286 | _Data& operator= (const DataTpl<X>& source) {
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287 | this->model = source.model;
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288 | return *this;
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289 | }
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290 |
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291 | /**
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292 | * Returns true, if the datas buffer's pointer and length
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293 | * are the same.
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294 | */
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295 | template<typename X>
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296 | finline bool operator==( DataTpl<X>& data) {
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297 | return (data.model.buffer() == model.buffer() &&
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298 | data.model.length() == model.length() );
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299 | }
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300 |
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301 | finline _Data& operator&=(_Data& data) {
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302 | return *this;
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303 | }
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304 |
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305 | finline _Data& operator|=(_Data& data) {
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306 | return *this;
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307 | }
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308 |
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309 | finline _Data& operator^=(_Data& data) {
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310 | return *this;
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311 | }
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312 |
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313 | /* implied operators */
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314 |
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315 | finline _Data operator&(_Data& data) {
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316 | return (this->clone() &= data);
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317 | }
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318 |
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319 | finline _Data operator|(_Data& data) {
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320 | return (this->clone() |= data);
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321 | }
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322 |
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323 | finline _Data operator^(_Data& data) {
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324 | return (this->clone() ^= data);
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325 | }
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326 | };
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327 |
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328 | /* unspecified type */
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329 | template<typename T, typename DataModel>
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330 | const Data DataTpl<T, DataModel>::UNSPECIFIED;
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331 |
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332 | /**
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333 | * This class implements the default data model
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334 | *
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335 | * @author Sebastian Mies
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336 | */
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337 | template<typename _T>
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338 | class DefaultDataModel {
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339 | public:
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340 | typedef _T T;
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341 | typedef DefaultDataModel<T> _Model;
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342 |
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343 | private:
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344 |
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345 | int32_t bufferLen;
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346 | T* bufferPtr;
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347 |
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348 | static finline int calcLength(int length) {
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349 | if (length<0) return 0;
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350 | return ((length/8)/sizeof(T)+1);
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351 | }
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352 | public:
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353 | DefaultDataModel() {
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354 | bufferPtr = NULL;
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355 | bufferLen = -1;
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356 | }
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357 |
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358 | finline DefaultDataModel( void* buffer, size_t length ) {
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359 | bufferPtr = (T*)buffer;
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360 | bufferLen = length;
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361 | }
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362 |
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363 | finline DefaultDataModel( const _Model& source ) {
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364 | this->bufferPtr = source.bufferPtr;
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365 | this->bufferLen = source.bufferLen;
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366 | }
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367 |
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368 | finline _Model& operator=( const _Model& source ) {
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369 | this->bufferPtr = source.bufferPtr;
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370 | this->bufferLen = source.bufferLen;
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371 | return *this;
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372 | }
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373 |
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374 | finline T*& buffer() {
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375 | return bufferPtr;
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376 | }
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377 |
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378 | finline T* buffer() const {
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379 | return bufferPtr;
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380 | }
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381 |
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382 | finline int32_t& length() {
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383 | return bufferLen;
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384 | }
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385 |
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386 | finline int32_t length() const {
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387 | return (bufferLen == -1) ? 0 : bufferLen;
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388 | }
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389 |
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390 | finline bool isUnspecified() const {
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391 | return bufferLen < 0;
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392 | }
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393 |
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394 | finline void resize( size_t new_length ) {
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395 | size_t old_length = calcLength(bufferLen);
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396 | size_t res_length = calcLength(new_length);
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397 | if (old_length != res_length) {
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398 |
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399 | if(res_length <= 0){
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400 | if (bufferPtr != NULL) delete [] bufferPtr;
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401 | bufferPtr = NULL;
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402 | bufferLen = 0;
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403 | }else{
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404 | T* new_buffer = new T[res_length];
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405 | if (new_buffer != NULL) memset(new_buffer, 0, res_length*sizeof(T));
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406 | if (bufferPtr != NULL) {
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407 | size_t clength = res_length < old_length ? res_length : old_length;
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408 | memcpy( new_buffer, bufferPtr, clength*sizeof(T) );
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409 | delete [] bufferPtr;
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410 | }
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411 | bufferPtr = new_buffer;
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412 | bufferLen = new_length;
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413 | }
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414 | }
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415 | }
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416 |
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417 | finline void release() {
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418 | if (bufferPtr!=NULL && bufferLen>=0) delete [] bufferPtr;
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419 | bufferPtr = NULL;
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420 | bufferLen = -1;
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421 | }
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422 |
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423 | finline _Model sub( size_t index, size_t length ) {
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424 | return _Model( bufferPtr + index/sizeof(T), length );
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425 | }
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426 |
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427 | finline _Model clone( size_t index, size_t length ) const {
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428 | _Model new_model;
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429 | new_model.resize( length );
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430 | bitcpy( this->buffer(), index, new_model.buffer(), 0, length );
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431 | return new_model;
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432 | }
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433 | };
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434 |
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435 | /* serialization */
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436 | sznBeginDefault( Data, X ){
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437 | for (size_t i = 0; i< getLength() / word_width; i++) X && getBuffer()[i];
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438 | }sznEnd();
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439 |
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440 | /* default human readable text output */
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441 | template<typename T, typename DataModel>
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442 | std::ostream& operator<<(std::ostream& stream, const DataTpl<T, DataModel>& data) {
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443 | stream << "[" << bitstr(data.getBuffer(), data.getLength(), 4)
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444 | << "|'";
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445 | const char* buffer = (const char*) data.getBuffer();
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446 | for (size_t i = 0; i < data.getLength() / 8; i++) {
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447 | char c = buffer[i] < 32 ? '.' : buffer[i];
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448 | stream << c;
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449 | }
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450 | stream << "']";
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451 | return stream;
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452 | }
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453 | #endif /* DATA_HPP_ */
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