@@ -1,186 +1,210 | |||
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1 | 1 | #include "FuzzingOperations.h" |
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2 | 2 | #include "FuzzingUtils.h" |
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3 | 3 | |
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4 | 4 | #include <Data/IDataProvider.h> |
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5 | 5 | |
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6 | 6 | #include <Variable/Variable.h> |
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7 | 7 | #include <Variable/VariableController.h> |
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8 | 8 | |
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9 | 9 | #include <QUuid> |
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10 | 10 | |
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11 | 11 | #include <functional> |
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12 | 12 | |
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13 | 13 | Q_LOGGING_CATEGORY(LOG_FuzzingOperations, "FuzzingOperations") |
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14 | 14 | |
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15 | 15 | namespace { |
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16 | 16 | |
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17 | 17 | struct CreateOperation : public IFuzzingOperation { |
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18 | 18 | bool canExecute(const VariableState &variableState) const override |
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19 | 19 | { |
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20 | 20 | // A variable can be created only if it doesn't exist yet |
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21 | 21 | return variableState.m_Variable == nullptr; |
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22 | 22 | } |
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23 | 23 | |
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24 | 24 | void execute(VariableState &variableState, VariableController &variableController, |
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25 | 25 | const Properties &properties) const override |
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26 | 26 | { |
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27 | 27 | // Retrieves metadata pool from properties, and choose one of the metadata entries to |
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28 | 28 | // associate it with the variable |
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29 | 29 | auto metaDataPool = properties.value(METADATA_POOL_PROPERTY).value<MetadataPool>(); |
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30 | 30 | auto variableMetadata = RandomGenerator::instance().randomChoice(metaDataPool); |
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31 | 31 | |
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32 | 32 | // Retrieves provider |
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33 | 33 | auto variableProvider |
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34 | 34 | = properties.value(PROVIDER_PROPERTY).value<std::shared_ptr<IDataProvider> >(); |
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35 | 35 | |
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36 | 36 | auto variableName = QString{"Var_%1"}.arg(QUuid::createUuid().toString()); |
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37 | 37 | qCInfo(LOG_FuzzingOperations()).noquote() |
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38 | << "Creating variable" << variableName << "(metadata:" << variableMetadata << ")"; | |
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38 | << "Creating variable" << variableName << "(metadata:" << variableMetadata << ")..."; | |
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39 | 39 | |
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40 | 40 | auto newVariable |
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41 | 41 | = variableController.createVariable(variableName, variableMetadata, variableProvider); |
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42 | 42 | |
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43 | 43 | // Updates variable's state |
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44 | 44 | variableState.m_Range = properties.value(INITIAL_RANGE_PROPERTY).value<SqpRange>(); |
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45 | 45 | std::swap(variableState.m_Variable, newVariable); |
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46 | 46 | } |
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47 | 47 | }; |
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48 | 48 | |
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49 | struct DeleteOperation : public IFuzzingOperation { | |
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50 | bool canExecute(const VariableState &variableState) const override | |
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51 | { | |
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52 | // A variable can be delete only if it exists | |
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53 | return variableState.m_Variable != nullptr; | |
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54 | } | |
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55 | ||
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56 | void execute(VariableState &variableState, VariableController &variableController, | |
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57 | const Properties &properties) const override | |
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58 | { | |
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59 | Q_UNUSED(properties); | |
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60 | ||
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61 | qCInfo(LOG_FuzzingOperations()).noquote() | |
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62 | << "Deleting variable" << variableState.m_Variable->name() << "..."; | |
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63 | variableController.deleteVariable(variableState.m_Variable); | |
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64 | ||
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65 | // Updates variable's state | |
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66 | variableState.m_Range = INVALID_RANGE; | |
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67 | variableState.m_Variable = nullptr; | |
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68 | } | |
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69 | }; | |
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70 | ||
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49 | 71 | /** |
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50 | 72 | * Defines a move operation through a range. |
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51 | 73 | * |
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52 | 74 | * A move operation is determined by three functions: |
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53 | 75 | * - Two 'move' functions, used to indicate in which direction the beginning and the end of a range |
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54 | 76 | * are going during the operation. These functions will be: |
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55 | 77 | * -- {<- / <-} for pan left |
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56 | 78 | * -- {-> / ->} for pan right |
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57 | 79 | * -- {-> / <-} for zoom in |
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58 | 80 | * -- {<- / ->} for zoom out |
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59 | 81 | * - One 'max move' functions, used to compute the max delta at which the operation can move a |
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60 | 82 | * range, according to a max range. For exemple, for a range of {1, 5} and a max range of {0, 10}, |
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61 | 83 | * max deltas will be: |
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62 | 84 | * -- {0, 4} for pan left |
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63 | 85 | * -- {6, 10} for pan right |
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64 | 86 | * -- {3, 3} for zoom in |
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65 | 87 | * -- {0, 6} for zoom out (same spacing left and right) |
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66 | 88 | */ |
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67 | 89 | struct MoveOperation : public IFuzzingOperation { |
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68 | 90 | using MoveFunction = std::function<double(double currentValue, double maxValue)>; |
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69 | 91 | using MaxMoveFunction = std::function<double(const SqpRange &range, const SqpRange &maxRange)>; |
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70 | 92 | |
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71 | 93 | explicit MoveOperation(MoveFunction rangeStartMoveFun, MoveFunction rangeEndMoveFun, |
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72 | 94 | MaxMoveFunction maxMoveFun, |
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73 | 95 | const QString &label = QStringLiteral("Move operation")) |
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74 | 96 | : m_RangeStartMoveFun{std::move(rangeStartMoveFun)}, |
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75 | 97 | m_RangeEndMoveFun{std::move(rangeEndMoveFun)}, |
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76 | 98 | m_MaxMoveFun{std::move(maxMoveFun)}, |
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77 | 99 | m_Label{label} |
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78 | 100 | { |
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79 | 101 | } |
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80 | 102 | |
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81 | 103 | bool canExecute(const VariableState &variableState) const override |
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82 | 104 | { |
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83 | 105 | return variableState.m_Variable != nullptr; |
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84 | 106 | } |
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85 | 107 | |
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86 | 108 | void execute(VariableState &variableState, VariableController &variableController, |
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87 | 109 | const Properties &properties) const override |
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88 | 110 | { |
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89 | 111 | auto variable = variableState.m_Variable; |
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90 | 112 | |
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91 | 113 | // Gets the max range defined |
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92 | 114 | auto maxRange = properties.value(MAX_RANGE_PROPERTY, QVariant::fromValue(INVALID_RANGE)) |
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93 | 115 | .value<SqpRange>(); |
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94 | 116 | auto variableRange = variable->range(); |
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95 | 117 | |
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96 | 118 | if (maxRange == INVALID_RANGE || variableRange.m_TStart < maxRange.m_TStart |
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97 | 119 | || variableRange.m_TEnd > maxRange.m_TEnd) { |
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98 | 120 | qCWarning(LOG_FuzzingOperations()) << "Can't execute operation: invalid max range"; |
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99 | 121 | return; |
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100 | 122 | } |
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101 | 123 | |
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102 | 124 | // Computes the max delta at which the variable can move, up to the limits of the max range |
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103 | 125 | auto deltaMax = m_MaxMoveFun(variable->range(), maxRange); |
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104 | 126 | |
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105 | 127 | // Generates random delta that will be used to move variable |
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106 | 128 | auto delta = RandomGenerator::instance().generateDouble(0, deltaMax); |
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107 | 129 | |
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108 | 130 | // Moves variable to its new range |
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109 | 131 | auto newVariableRange = SqpRange{m_RangeStartMoveFun(variableRange.m_TStart, delta), |
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110 | 132 | m_RangeEndMoveFun(variableRange.m_TEnd, delta)}; |
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111 | 133 | qCInfo(LOG_FuzzingOperations()).noquote() |
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112 | 134 | << "Performing" << m_Label << "on" << variable->name() << "(from" << variableRange |
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113 | 135 | << "to" << newVariableRange << ")..."; |
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114 | 136 | variableController.onRequestDataLoading({variable}, newVariableRange, false); |
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115 | 137 | |
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116 | 138 | // Updates variable's state |
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117 | 139 | variableState.m_Range = newVariableRange; |
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118 | 140 | } |
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119 | 141 | |
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120 | 142 | MoveFunction m_RangeStartMoveFun; |
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121 | 143 | MoveFunction m_RangeEndMoveFun; |
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122 | 144 | MaxMoveFunction m_MaxMoveFun; |
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123 | 145 | QString m_Label; |
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124 | 146 | }; |
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125 | 147 | |
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126 | 148 | struct UnknownOperation : public IFuzzingOperation { |
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127 | 149 | bool canExecute(const VariableState &variableState) const override |
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128 | 150 | { |
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129 | 151 | Q_UNUSED(variableState); |
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130 | 152 | return false; |
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131 | 153 | } |
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132 | 154 | |
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133 | 155 | void execute(VariableState &variableState, VariableController &variableController, |
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134 | 156 | const Properties &properties) const override |
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135 | 157 | { |
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136 | 158 | Q_UNUSED(variableState); |
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137 | 159 | Q_UNUSED(variableController); |
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138 | 160 | Q_UNUSED(properties); |
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139 | 161 | // Does nothing |
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140 | 162 | } |
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141 | 163 | }; |
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142 | 164 | |
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143 | 165 | } // namespace |
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144 | 166 | |
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145 | 167 | std::unique_ptr<IFuzzingOperation> FuzzingOperationFactory::create(FuzzingOperationType type) |
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146 | 168 | { |
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147 | 169 | switch (type) { |
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148 | 170 | case FuzzingOperationType::CREATE: |
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149 | 171 | return std::make_unique<CreateOperation>(); |
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172 | case FuzzingOperationType::DELETE: | |
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173 | return std::make_unique<DeleteOperation>(); | |
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150 | 174 | case FuzzingOperationType::PAN_LEFT: |
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151 | 175 | return std::make_unique<MoveOperation>( |
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152 | 176 | std::minus<double>(), std::minus<double>(), |
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153 | 177 | [](const SqpRange &range, const SqpRange &maxRange) { |
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154 | 178 | return range.m_TStart - maxRange.m_TStart; |
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155 | 179 | }, |
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156 | 180 | QStringLiteral("Pan left operation")); |
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157 | 181 | case FuzzingOperationType::PAN_RIGHT: |
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158 | 182 | return std::make_unique<MoveOperation>( |
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159 | 183 | std::plus<double>(), std::plus<double>(), |
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160 | 184 | [](const SqpRange &range, const SqpRange &maxRange) { |
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161 | 185 | return maxRange.m_TEnd - range.m_TEnd; |
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162 | 186 | }, |
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163 | 187 | QStringLiteral("Pan right operation")); |
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164 | 188 | case FuzzingOperationType::ZOOM_IN: |
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165 | 189 | return std::make_unique<MoveOperation>( |
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166 | 190 | std::plus<double>(), std::minus<double>(), |
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167 | 191 | [](const SqpRange &range, const SqpRange &maxRange) { |
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168 | 192 | Q_UNUSED(maxRange) |
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169 | 193 | return range.m_TEnd - (range.m_TStart + range.m_TEnd) / 2.; |
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170 | 194 | }, |
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171 | 195 | QStringLiteral("Zoom in operation")); |
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172 | 196 | case FuzzingOperationType::ZOOM_OUT: |
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173 | 197 | return std::make_unique<MoveOperation>( |
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174 | 198 | std::minus<double>(), std::plus<double>(), |
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175 | 199 | [](const SqpRange &range, const SqpRange &maxRange) { |
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176 | 200 | return std::min(range.m_TStart - maxRange.m_TStart, |
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177 | 201 | maxRange.m_TEnd - range.m_TEnd); |
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178 | 202 | }, |
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179 | 203 | QStringLiteral("Zoom out operation")); |
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180 | 204 | default: |
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181 | 205 | // Default case returns unknown operation |
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182 | 206 | break; |
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183 | 207 | } |
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184 | 208 | |
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185 | 209 | return std::make_unique<UnknownOperation>(); |
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186 | 210 | } |
@@ -1,48 +1,48 | |||
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1 | 1 | #ifndef SCIQLOP_FUZZINGOPERATIONS_H |
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2 | 2 | #define SCIQLOP_FUZZINGOPERATIONS_H |
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3 | 3 | |
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4 | 4 | #include "FuzzingDefs.h" |
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5 | 5 | |
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6 | 6 | #include <memory> |
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7 | 7 | #include <set> |
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8 | 8 | |
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9 | 9 | #include <QLoggingCategory> |
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10 | 10 | #include <QMetaType> |
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11 | 11 | |
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12 | 12 | Q_DECLARE_LOGGING_CATEGORY(LOG_FuzzingOperations) |
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13 | 13 | |
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14 | 14 | class VariableController; |
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15 | 15 | |
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16 | 16 | /** |
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17 | 17 | * Enumeration of types of existing fuzzing operations |
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18 | 18 | */ |
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19 | enum class FuzzingOperationType { CREATE, PAN_LEFT, PAN_RIGHT, ZOOM_IN, ZOOM_OUT }; | |
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19 | enum class FuzzingOperationType { CREATE, DELETE, PAN_LEFT, PAN_RIGHT, ZOOM_IN, ZOOM_OUT }; | |
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20 | 20 | |
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21 | 21 | /// Interface that represents an operation that can be executed during a fuzzing test |
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22 | 22 | struct IFuzzingOperation { |
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23 | 23 | virtual ~IFuzzingOperation() noexcept = default; |
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24 | 24 | |
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25 | 25 | /// Checks if the operation can be executed according to the current variable state passed in |
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26 | 26 | /// parameter |
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27 | 27 | virtual bool canExecute(const VariableState &variableState) const = 0; |
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28 | 28 | /// Executes the operation on the variable state passed in parameter |
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29 | 29 | /// @param variableState the variable state on which to execute the operation |
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30 | 30 | /// @param variableController the controller associated to the operation |
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31 | 31 | /// @param properties properties that can be used to configure the operation |
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32 | 32 | /// @remarks variableState is passed as a reference because, according to the operation, it can |
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33 | 33 | /// be |
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34 | 34 | /// modified (in/out parameter) |
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35 | 35 | virtual void execute(VariableState &variableState, VariableController &variableController, |
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36 | 36 | const Properties &properties = {}) const = 0; |
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37 | 37 | }; |
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38 | 38 | |
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39 | 39 | /// Factory of @sa IFuzzingOperation |
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40 | 40 | struct FuzzingOperationFactory { |
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41 | 41 | /// Creates a fuzzing operation from a type |
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42 | 42 | static std::unique_ptr<IFuzzingOperation> create(FuzzingOperationType type); |
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43 | 43 | }; |
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44 | 44 | |
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45 | 45 | using WeightedOperationsTypes = std::map<FuzzingOperationType, double>; |
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46 | 46 | Q_DECLARE_METATYPE(WeightedOperationsTypes) |
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47 | 47 | |
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48 | 48 | #endif // SCIQLOP_FUZZINGOPERATIONS_H |
@@ -1,280 +1,280 | |||
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1 | 1 | #include "FuzzingDefs.h" |
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2 | 2 | #include "FuzzingOperations.h" |
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3 | 3 | #include "FuzzingUtils.h" |
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4 | 4 | |
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5 | 5 | #include "AmdaProvider.h" |
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6 | 6 | |
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7 | 7 | #include <Network/NetworkController.h> |
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8 | 8 | #include <Settings/SqpSettingsDefs.h> |
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9 | 9 | #include <SqpApplication.h> |
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10 | 10 | #include <Time/TimeController.h> |
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11 | 11 | #include <Variable/Variable.h> |
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12 | 12 | #include <Variable/VariableController.h> |
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13 | 13 | |
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14 | 14 | #include <QLoggingCategory> |
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15 | 15 | #include <QObject> |
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16 | 16 | #include <QtTest> |
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17 | 17 | |
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18 | 18 | #include <memory> |
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19 | 19 | |
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20 | 20 | Q_LOGGING_CATEGORY(LOG_TestAmdaFuzzing, "TestAmdaFuzzing") |
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21 | 21 | |
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22 | 22 | namespace { |
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23 | 23 | |
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24 | 24 | // /////// // |
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25 | 25 | // Aliases // |
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26 | 26 | // /////// // |
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27 | 27 | |
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28 | 28 | using VariableId = int; |
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29 | 29 | using Weight = double; |
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30 | 30 | using Weights = std::vector<Weight>; |
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31 | 31 | |
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32 | 32 | using VariableOperation = std::pair<VariableId, std::shared_ptr<IFuzzingOperation> >; |
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33 | 33 | using VariablesOperations = std::vector<VariableOperation>; |
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34 | 34 | |
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35 | 35 | using WeightedOperationsPool = std::map<std::shared_ptr<IFuzzingOperation>, Weight>; |
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36 | 36 | using VariablesPool = std::map<VariableId, VariableState>; |
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37 | 37 | |
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38 | 38 | // ///////// // |
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39 | 39 | // Constants // |
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40 | 40 | // ///////// // |
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41 | 41 | |
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42 | 42 | // Defaults values used when the associated properties have not been set for the test |
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43 | 43 | const auto NB_MAX_OPERATIONS_DEFAULT_VALUE = 100; |
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44 | 44 | const auto NB_MAX_VARIABLES_DEFAULT_VALUE = 1; |
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45 | const auto AVAILABLE_OPERATIONS_DEFAULT_VALUE | |
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46 |
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47 | {FuzzingOperationType::PAN_LEFT, 1.}, | |
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48 | {FuzzingOperationType::PAN_RIGHT, 1.}, | |
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49 | {FuzzingOperationType::ZOOM_IN, 1.}, | |
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50 | {FuzzingOperationType::ZOOM_OUT, 1.}}); | |
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45 | const auto AVAILABLE_OPERATIONS_DEFAULT_VALUE = QVariant::fromValue(WeightedOperationsTypes{ | |
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46 | {FuzzingOperationType::CREATE, 1.}, | |
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47 | {FuzzingOperationType::DELETE, 0.1}, // Delete operation is less frequent | |
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48 | {FuzzingOperationType::PAN_LEFT, 1.}, | |
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49 | {FuzzingOperationType::PAN_RIGHT, 1.}, | |
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50 | {FuzzingOperationType::ZOOM_IN, 1.}, | |
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51 | {FuzzingOperationType::ZOOM_OUT, 1.}}); | |
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51 | 52 | const auto CACHE_TOLERANCE_DEFAULT_VALUE = 0.2; |
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52 | 53 | |
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53 | 54 | /// Delay between each operation (in ms) |
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54 | 55 | const auto OPERATION_DELAY_DEFAULT_VALUE = 3000; |
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55 | 56 | |
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56 | 57 | // /////// // |
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57 | 58 | // Methods // |
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58 | 59 | // /////// // |
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59 | 60 | |
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60 | 61 | /// Goes through the variables pool and operations pool to determine the set of {variable/operation} |
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61 | 62 | /// pairs that are valid (i.e. operation that can be executed on variable) |
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62 | 63 | std::pair<VariablesOperations, Weights> |
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63 | 64 | availableOperations(const VariablesPool &variablesPool, |
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64 | 65 | const WeightedOperationsPool &operationsPool) |
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65 | 66 | { |
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66 | 67 | VariablesOperations result{}; |
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67 | 68 | Weights weights{}; |
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68 | 69 | |
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69 | 70 | for (const auto &variablesPoolEntry : variablesPool) { |
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70 | 71 | auto variableId = variablesPoolEntry.first; |
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71 | 72 | const auto &variableState = variablesPoolEntry.second; |
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72 | 73 | |
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73 | 74 | for (const auto &operationsPoolEntry : operationsPool) { |
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74 | 75 | auto operation = operationsPoolEntry.first; |
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75 | 76 | auto weight = operationsPoolEntry.second; |
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76 | 77 | |
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77 | 78 | // A pair is valid if the current operation can be executed on the current variable |
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78 | 79 | if (operation->canExecute(variableState)) { |
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79 | 80 | result.push_back({variableId, operation}); |
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80 | 81 | weights.push_back(weight); |
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81 | 82 | } |
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82 | 83 | } |
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83 | 84 | } |
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84 | 85 | |
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85 | 86 | return {result, weights}; |
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86 | 87 | } |
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87 | 88 | |
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88 | 89 | WeightedOperationsPool createOperationsPool(const WeightedOperationsTypes &types) |
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89 | 90 | { |
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90 | 91 | WeightedOperationsPool result{}; |
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91 | 92 | |
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92 | 93 | std::transform( |
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93 | 94 | types.cbegin(), types.cend(), std::inserter(result, result.end()), [](const auto &type) { |
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94 | 95 | return std::make_pair(FuzzingOperationFactory::create(type.first), type.second); |
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95 | 96 | }); |
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96 | 97 | |
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97 | 98 | return result; |
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98 | 99 | } |
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99 | 100 | |
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100 | 101 | /** |
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101 | 102 | * Class to run random tests |
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102 | 103 | */ |
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103 | 104 | class FuzzingTest { |
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104 | 105 | public: |
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105 | 106 | explicit FuzzingTest(VariableController &variableController, Properties properties) |
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106 | 107 | : m_VariableController{variableController}, |
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107 | 108 | m_Properties{std::move(properties)}, |
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108 | 109 | m_VariablesPool{} |
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109 | 110 | { |
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110 | 111 | // Inits variables pool: at init, all variables are null |
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111 | 112 | for (auto variableId = 0; variableId < nbMaxVariables(); ++variableId) { |
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112 | 113 | m_VariablesPool[variableId] = VariableState{}; |
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113 | 114 | } |
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114 | 115 | } |
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115 | 116 | |
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116 | 117 | void execute() |
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117 | 118 | { |
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118 | 119 | qCInfo(LOG_TestAmdaFuzzing()).noquote() << "Running" << nbMaxOperations() << "operations on" |
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119 | 120 | << nbMaxVariables() << "variable(s)..."; |
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120 | 121 | |
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121 | 122 | auto canExecute = true; |
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122 | 123 | for (auto i = 0; i < nbMaxOperations() && canExecute; ++i) { |
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123 | 124 | // Retrieves all operations that can be executed in the current context |
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124 | 125 | VariablesOperations variableOperations{}; |
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125 | 126 | Weights weights{}; |
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126 | 127 | std::tie(variableOperations, weights) |
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127 | 128 | = availableOperations(m_VariablesPool, operationsPool()); |
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128 | 129 | |
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129 | 130 | canExecute = !variableOperations.empty(); |
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130 | 131 | if (canExecute) { |
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131 | 132 | // Of the operations available, chooses a random operation and executes it |
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132 | 133 | auto variableOperation |
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133 | 134 | = RandomGenerator::instance().randomChoice(variableOperations, weights); |
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134 | 135 | |
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135 | 136 | auto variableId = variableOperation.first; |
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136 | 137 | auto &variableState = m_VariablesPool.at(variableId); |
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137 | 138 | auto fuzzingOperation = variableOperation.second; |
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138 | 139 | |
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139 | 140 | fuzzingOperation->execute(variableState, m_VariableController, m_Properties); |
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140 | 141 | QTest::qWait(operationDelay()); |
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141 | ||
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142 | 142 | } |
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143 | 143 | else { |
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144 | 144 | qCInfo(LOG_TestAmdaFuzzing()).noquote() |
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145 | 145 | << "No more operations are available, the execution of the test will stop..."; |
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146 | 146 | } |
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147 | 147 | } |
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148 | 148 | |
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149 | 149 | qCInfo(LOG_TestAmdaFuzzing()).noquote() << "Execution of the test completed."; |
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150 | 150 | } |
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151 | 151 | |
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152 | 152 | private: |
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153 | 153 | int nbMaxOperations() const |
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154 | 154 | { |
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155 | 155 | static auto result |
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156 | 156 | = m_Properties.value(NB_MAX_OPERATIONS_PROPERTY, NB_MAX_OPERATIONS_DEFAULT_VALUE) |
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157 | 157 | .toInt(); |
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158 | 158 | return result; |
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159 | 159 | } |
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160 | 160 | |
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161 | 161 | int nbMaxVariables() const |
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162 | 162 | { |
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163 | 163 | static auto result |
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164 | 164 | = m_Properties.value(NB_MAX_VARIABLES_PROPERTY, NB_MAX_VARIABLES_DEFAULT_VALUE).toInt(); |
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165 | 165 | return result; |
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166 | 166 | } |
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167 | 167 | |
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168 | 168 | int operationDelay() const |
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169 | 169 | { |
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170 | 170 | static auto result |
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171 | 171 | = m_Properties.value(OPERATION_DELAY_PROPERTY, OPERATION_DELAY_DEFAULT_VALUE).toInt(); |
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172 | 172 | return result; |
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173 | 173 | } |
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174 | 174 | |
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175 | 175 | WeightedOperationsPool operationsPool() const |
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176 | 176 | { |
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177 | 177 | static auto result = createOperationsPool( |
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178 | 178 | m_Properties.value(AVAILABLE_OPERATIONS_PROPERTY, AVAILABLE_OPERATIONS_DEFAULT_VALUE) |
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179 | 179 | .value<WeightedOperationsTypes>()); |
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180 | 180 | return result; |
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181 | 181 | } |
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182 | 182 | |
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183 | 183 | VariableController &m_VariableController; |
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184 | 184 | Properties m_Properties; |
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185 | 185 | VariablesPool m_VariablesPool; |
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186 | 186 | }; |
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187 | 187 | |
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188 | 188 | } // namespace |
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189 | 189 | |
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190 | 190 | class TestAmdaFuzzing : public QObject { |
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191 | 191 | Q_OBJECT |
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192 | 192 | |
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193 | 193 | private slots: |
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194 | 194 | /// Input data for @sa testFuzzing() |
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195 | 195 | void testFuzzing_data(); |
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196 | 196 | void testFuzzing(); |
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197 | 197 | }; |
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198 | 198 | |
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199 | 199 | void TestAmdaFuzzing::testFuzzing_data() |
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200 | 200 | { |
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201 | 201 | // ////////////// // |
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202 | 202 | // Test structure // |
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203 | 203 | // ////////////// // |
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204 | 204 | |
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205 | 205 | QTest::addColumn<Properties>("properties"); // Properties for random test |
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206 | 206 | |
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207 | 207 | // ////////// // |
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208 | 208 | // Test cases // |
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209 | 209 | // ////////// // |
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210 | 210 | |
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211 | 211 | auto maxRange = SqpRange::fromDateTime({2017, 1, 1}, {0, 0}, {2017, 1, 5}, {0, 0}); |
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212 | 212 | MetadataPool metadataPool{{{"dataType", "vector"}, {"xml:id", "imf"}}}; |
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213 | 213 | |
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214 | 214 | // Note: we don't use auto here as we want to pass std::shared_ptr<IDataProvider> as is in the |
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215 | 215 | // QVariant |
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216 | 216 | std::shared_ptr<IDataProvider> provider = std::make_shared<AmdaProvider>(); |
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217 | 217 | |
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218 | 218 | QTest::newRow("fuzzingTest") << Properties{ |
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219 | 219 | {MAX_RANGE_PROPERTY, QVariant::fromValue(maxRange)}, |
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220 | 220 | {METADATA_POOL_PROPERTY, QVariant::fromValue(metadataPool)}, |
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221 | 221 | {PROVIDER_PROPERTY, QVariant::fromValue(provider)}}; |
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222 | 222 | } |
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223 | 223 | |
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224 | 224 | void TestAmdaFuzzing::testFuzzing() |
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225 | 225 | { |
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226 | 226 | QFETCH(Properties, properties); |
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227 | 227 | |
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228 | 228 | // Sets cache property |
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229 | 229 | QSettings settings{}; |
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230 | 230 | auto cacheTolerance = properties.value(CACHE_TOLERANCE_PROPERTY, CACHE_TOLERANCE_DEFAULT_VALUE); |
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231 | 231 | settings.setValue(GENERAL_TOLERANCE_AT_INIT_KEY, cacheTolerance); |
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232 | 232 | settings.setValue(GENERAL_TOLERANCE_AT_UPDATE_KEY, cacheTolerance); |
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233 | 233 | |
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234 | 234 | auto &variableController = sqpApp->variableController(); |
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235 | 235 | auto &timeController = sqpApp->timeController(); |
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236 | 236 | |
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237 | 237 | // Generates random initial range (bounded to max range) |
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238 | 238 | auto maxRange = properties.value(MAX_RANGE_PROPERTY, QVariant::fromValue(INVALID_RANGE)) |
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239 | 239 | .value<SqpRange>(); |
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240 | 240 | |
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241 | 241 | QVERIFY(maxRange != INVALID_RANGE); |
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242 | 242 | |
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243 | 243 | auto initialRangeStart |
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244 | 244 | = RandomGenerator::instance().generateDouble(maxRange.m_TStart, maxRange.m_TEnd); |
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245 | 245 | auto initialRangeEnd |
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246 | 246 | = RandomGenerator::instance().generateDouble(maxRange.m_TStart, maxRange.m_TEnd); |
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247 | 247 | if (initialRangeStart > initialRangeEnd) { |
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248 | 248 | std::swap(initialRangeStart, initialRangeEnd); |
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249 | 249 | } |
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250 | 250 | |
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251 | 251 | // Sets initial range on time controller |
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252 | 252 | SqpRange initialRange{initialRangeStart, initialRangeEnd}; |
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253 | 253 | qCInfo(LOG_TestAmdaFuzzing()).noquote() << "Setting initial range to" << initialRange << "..."; |
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254 | 254 | timeController.onTimeToUpdate(initialRange); |
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255 | 255 | properties.insert(INITIAL_RANGE_PROPERTY, QVariant::fromValue(initialRange)); |
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256 | 256 | |
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257 | 257 | FuzzingTest test{variableController, properties}; |
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258 | 258 | test.execute(); |
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259 | 259 | } |
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260 | 260 | |
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261 | 261 | int main(int argc, char *argv[]) |
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262 | 262 | { |
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263 | 263 | QLoggingCategory::setFilterRules( |
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264 | 264 | "*.warning=false\n" |
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265 | 265 | "*.info=false\n" |
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266 | 266 | "*.debug=false\n" |
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267 | 267 | "FuzzingOperations.info=true\n" |
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268 | 268 | "TestAmdaFuzzing.info=true\n"); |
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269 | 269 | |
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270 | 270 | SqpApplication app{argc, argv}; |
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271 | 271 | SqpApplication::setOrganizationName("LPP"); |
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272 | 272 | SqpApplication::setOrganizationDomain("lpp.fr"); |
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273 | 273 | SqpApplication::setApplicationName("SciQLop-TestFuzzing"); |
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274 | 274 | app.setAttribute(Qt::AA_Use96Dpi, true); |
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275 | 275 | TestAmdaFuzzing testObject{}; |
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276 | 276 | QTEST_SET_MAIN_SOURCE_PATH |
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277 | 277 | return QTest::qExec(&testObject, argc, argv); |
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278 | 278 | } |
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279 | 279 | |
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280 | 280 | #include "TestAmdaFuzzing.moc" |
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