##// END OF EJS Templates
Implements execute() method of sync operation
Alexandre Leroux -
r1240:b9a9a3a9f506
parent child
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@@ -1,50 +1,77
1 #include "FuzzingDefs.h"
1 #include "FuzzingDefs.h"
2
2
3 const QString NB_MAX_OPERATIONS_PROPERTY = QStringLiteral("component");
3 const QString NB_MAX_OPERATIONS_PROPERTY = QStringLiteral("component");
4 const QString NB_MAX_SYNC_GROUPS_PROPERTY = QStringLiteral("nbSyncGroups");
4 const QString NB_MAX_SYNC_GROUPS_PROPERTY = QStringLiteral("nbSyncGroups");
5 const QString NB_MAX_VARIABLES_PROPERTY = QStringLiteral("nbMaxVariables");
5 const QString NB_MAX_VARIABLES_PROPERTY = QStringLiteral("nbMaxVariables");
6 const QString AVAILABLE_OPERATIONS_PROPERTY = QStringLiteral("availableOperations");
6 const QString AVAILABLE_OPERATIONS_PROPERTY = QStringLiteral("availableOperations");
7 const QString CACHE_TOLERANCE_PROPERTY = QStringLiteral("cacheTolerance");
7 const QString CACHE_TOLERANCE_PROPERTY = QStringLiteral("cacheTolerance");
8 const QString INITIAL_RANGE_PROPERTY = QStringLiteral("initialRange");
8 const QString INITIAL_RANGE_PROPERTY = QStringLiteral("initialRange");
9 const QString MAX_RANGE_PROPERTY = QStringLiteral("maxRange");
9 const QString MAX_RANGE_PROPERTY = QStringLiteral("maxRange");
10 const QString METADATA_POOL_PROPERTY = QStringLiteral("metadataPool");
10 const QString METADATA_POOL_PROPERTY = QStringLiteral("metadataPool");
11 const QString PROVIDER_PROPERTY = QStringLiteral("provider");
11 const QString PROVIDER_PROPERTY = QStringLiteral("provider");
12 const QString OPERATION_DELAY_PROPERTY = QStringLiteral("operationDelay");
12 const QString OPERATION_DELAY_PROPERTY = QStringLiteral("operationDelay");
13 const QString VALIDATORS_PROPERTY = QStringLiteral("validators");
13 const QString VALIDATORS_PROPERTY = QStringLiteral("validators");
14
14
15 // //////////// //
15 // //////////// //
16 // FuzzingState //
16 // FuzzingState //
17 // //////////// //
17 // //////////// //
18
18
19 const SyncGroup &FuzzingState::syncGroup(SyncGroupId id) const
19 const SyncGroup &FuzzingState::syncGroup(SyncGroupId id) const
20 {
20 {
21 return m_SyncGroupsPool.at(id);
21 return m_SyncGroupsPool.at(id);
22 }
22 }
23
23
24 SyncGroup &FuzzingState::syncGroup(SyncGroupId id)
24 SyncGroup &FuzzingState::syncGroup(SyncGroupId id)
25 {
25 {
26 return m_SyncGroupsPool.at(id);
26 return m_SyncGroupsPool.at(id);
27 }
27 }
28
28
29 const VariableState &FuzzingState::variableState(VariableId id) const
29 const VariableState &FuzzingState::variableState(VariableId id) const
30 {
30 {
31 return m_VariablesPool.at(id);
31 return m_VariablesPool.at(id);
32 }
32 }
33
33
34 VariableState &FuzzingState::variableState(VariableId id)
34 VariableState &FuzzingState::variableState(VariableId id)
35 {
35 {
36 return m_VariablesPool.at(id);
36 return m_VariablesPool.at(id);
37 }
37 }
38
38
39 SyncGroupId FuzzingState::syncGroupId(VariableId variableId) const
39 SyncGroupId FuzzingState::syncGroupId(VariableId variableId) const
40 {
40 {
41 auto end = m_SyncGroupsPool.cend();
41 auto end = m_SyncGroupsPool.cend();
42 auto it
42 auto it
43 = std::find_if(m_SyncGroupsPool.cbegin(), end, [&variableId](const auto &syncGroupEntry) {
43 = std::find_if(m_SyncGroupsPool.cbegin(), end, [&variableId](const auto &syncGroupEntry) {
44 const auto &syncGroup = syncGroupEntry.second;
44 const auto &syncGroup = syncGroupEntry.second;
45 return syncGroup.m_Variables.find(variableId) != syncGroup.m_Variables.end();
45 return syncGroup.m_Variables.find(variableId) != syncGroup.m_Variables.end();
46 });
46 });
47
47
48 return it != end ? it->first : SyncGroupId{};
48 return it != end ? it->first : SyncGroupId{};
49 }
49 }
50
50
51 std::vector<SyncGroupId> FuzzingState::syncGroupsIds() const
52 {
53 std::vector<SyncGroupId> result{};
54
55 for (const auto &entry : m_SyncGroupsPool) {
56 result.push_back(entry.first);
57 }
58
59 return result;
60 }
61
62 void FuzzingState::synchronizeVariable(VariableId variableId, SyncGroupId syncGroupId)
63 {
64 if (syncGroupId.isNull()) {
65 return;
66 }
67
68 // Registers variable into sync group: if it's the first variable, sets the variable range as
69 // the sync group range
70 auto &syncGroup = m_SyncGroupsPool.at(syncGroupId);
71 syncGroup.m_Variables.insert(variableId);
72 if (syncGroup.m_Variables.size() == 1) {
73 auto &variableState = m_VariablesPool.at(variableId);
74 syncGroup.m_Range = variableState.m_Range;
75 }
76 }
77
@@ -1,105 +1,113
1 #ifndef SCIQLOP_FUZZINGDEFS_H
1 #ifndef SCIQLOP_FUZZINGDEFS_H
2 #define SCIQLOP_FUZZINGDEFS_H
2 #define SCIQLOP_FUZZINGDEFS_H
3
3
4 #include <Data/SqpRange.h>
4 #include <Data/SqpRange.h>
5
5
6 #include <QString>
6 #include <QString>
7 #include <QUuid>
7 #include <QUuid>
8 #include <QVariantHash>
8 #include <QVariantHash>
9
9
10 #include <memory>
10 #include <memory>
11 #include <set>
11 #include <set>
12
12
13 // /////// //
13 // /////// //
14 // Aliases //
14 // Aliases //
15 // /////// //
15 // /////// //
16
16
17 using MetadataPool = std::vector<QVariantHash>;
17 using MetadataPool = std::vector<QVariantHash>;
18 Q_DECLARE_METATYPE(MetadataPool)
18 Q_DECLARE_METATYPE(MetadataPool)
19
19
20 using Properties = QVariantHash;
20 using Properties = QVariantHash;
21
21
22 // ///////// //
22 // ///////// //
23 // Constants //
23 // Constants //
24 // ///////// //
24 // ///////// //
25
25
26 /// Max number of operations to generate
26 /// Max number of operations to generate
27 extern const QString NB_MAX_OPERATIONS_PROPERTY;
27 extern const QString NB_MAX_OPERATIONS_PROPERTY;
28
28
29 /// Max number of sync groups to create through operations
29 /// Max number of sync groups to create through operations
30 extern const QString NB_MAX_SYNC_GROUPS_PROPERTY;
30 extern const QString NB_MAX_SYNC_GROUPS_PROPERTY;
31
31
32 /// Max number of variables to manipulate through operations
32 /// Max number of variables to manipulate through operations
33 extern const QString NB_MAX_VARIABLES_PROPERTY;
33 extern const QString NB_MAX_VARIABLES_PROPERTY;
34
34
35 /// Set of operations available for the test
35 /// Set of operations available for the test
36 extern const QString AVAILABLE_OPERATIONS_PROPERTY;
36 extern const QString AVAILABLE_OPERATIONS_PROPERTY;
37
37
38 /// Tolerance used for variable's cache (in ratio)
38 /// Tolerance used for variable's cache (in ratio)
39 extern const QString CACHE_TOLERANCE_PROPERTY;
39 extern const QString CACHE_TOLERANCE_PROPERTY;
40
40
41 /// Range with which the timecontroller is initialized
41 /// Range with which the timecontroller is initialized
42 extern const QString INITIAL_RANGE_PROPERTY;
42 extern const QString INITIAL_RANGE_PROPERTY;
43
43
44 /// Max range that an operation can reach
44 /// Max range that an operation can reach
45 extern const QString MAX_RANGE_PROPERTY;
45 extern const QString MAX_RANGE_PROPERTY;
46
46
47 /// Set of metadata that can be associated to a variable
47 /// Set of metadata that can be associated to a variable
48 extern const QString METADATA_POOL_PROPERTY;
48 extern const QString METADATA_POOL_PROPERTY;
49
49
50 /// Provider used to retrieve data
50 /// Provider used to retrieve data
51 extern const QString PROVIDER_PROPERTY;
51 extern const QString PROVIDER_PROPERTY;
52
52
53 /// Time left for an operation to execute
53 /// Time left for an operation to execute
54 extern const QString OPERATION_DELAY_PROPERTY;
54 extern const QString OPERATION_DELAY_PROPERTY;
55
55
56 /// Validators used to validate an operation
56 /// Validators used to validate an operation
57 extern const QString VALIDATORS_PROPERTY;
57 extern const QString VALIDATORS_PROPERTY;
58
58
59 // /////// //
59 // /////// //
60 // Structs //
60 // Structs //
61 // /////// //
61 // /////// //
62
62
63 class Variable;
63 class Variable;
64 struct VariableState {
64 struct VariableState {
65 std::shared_ptr<Variable> m_Variable{nullptr};
65 std::shared_ptr<Variable> m_Variable{nullptr};
66 SqpRange m_Range{INVALID_RANGE};
66 SqpRange m_Range{INVALID_RANGE};
67 };
67 };
68
68
69 using VariableId = int;
69 using VariableId = int;
70 using VariablesPool = std::map<VariableId, VariableState>;
70 using VariablesPool = std::map<VariableId, VariableState>;
71
71
72 /**
72 /**
73 * Defines a synchronization group for a fuzzing state. A group reports the variables synchronized
73 * Defines a synchronization group for a fuzzing state. A group reports the variables synchronized
74 * with each other, and the current range of the group (i.e. range of the last synchronized variable
74 * with each other, and the current range of the group (i.e. range of the last synchronized variable
75 * that has been moved)
75 * that has been moved)
76 */
76 */
77 struct SyncGroup {
77 struct SyncGroup {
78 std::set<VariableId> m_Variables{};
78 std::set<VariableId> m_Variables{};
79 SqpRange m_Range{INVALID_RANGE};
79 SqpRange m_Range{INVALID_RANGE};
80 };
80 };
81
81
82 using SyncGroupId = QUuid;
82 using SyncGroupId = QUuid;
83 using SyncGroupsPool = std::map<SyncGroupId, SyncGroup>;
83 using SyncGroupsPool = std::map<SyncGroupId, SyncGroup>;
84
84
85 /**
85 /**
86 * Defines a current state during a fuzzing state. It contains all the variables manipulated during
86 * Defines a current state during a fuzzing state. It contains all the variables manipulated during
87 * the test, as well as the synchronization status of these variables.
87 * the test, as well as the synchronization status of these variables.
88 */
88 */
89 struct FuzzingState {
89 struct FuzzingState {
90 const SyncGroup &syncGroup(SyncGroupId id) const;
90 const SyncGroup &syncGroup(SyncGroupId id) const;
91 SyncGroup &syncGroup(SyncGroupId id);
91 SyncGroup &syncGroup(SyncGroupId id);
92
92
93 const VariableState &variableState(VariableId id) const;
93 const VariableState &variableState(VariableId id) const;
94 VariableState &variableState(VariableId id);
94 VariableState &variableState(VariableId id);
95
95
96 /// @return the identifier of the synchronization group in which the variable passed in
96 /// @return the identifier of the synchronization group in which the variable passed in
97 /// parameter is located. If the variable is not in any group, returns an invalid identifier
97 /// parameter is located. If the variable is not in any group, returns an invalid identifier
98 SyncGroupId syncGroupId(VariableId variableId) const;
98 SyncGroupId syncGroupId(VariableId variableId) const;
99
99
100 /// @return the set of synchronization group identifiers
101 std::vector<SyncGroupId> syncGroupsIds() const;
102
103 /// Updates fuzzing state according to a variable synchronization
104 /// @param variableId the variable that is synchronized
105 /// @param syncGroupId the synchronization group
106 void synchronizeVariable(VariableId variableId, SyncGroupId syncGroupId);
107
100
108
101 VariablesPool m_VariablesPool;
109 VariablesPool m_VariablesPool;
102 SyncGroupsPool m_SyncGroupsPool;
110 SyncGroupsPool m_SyncGroupsPool;
103 };
111 };
104
112
105 #endif // SCIQLOP_FUZZINGDEFS_H
113 #endif // SCIQLOP_FUZZINGDEFS_H
@@ -1,234 +1,245
1 #include "FuzzingOperations.h"
1 #include "FuzzingOperations.h"
2 #include "FuzzingUtils.h"
2 #include "FuzzingUtils.h"
3
3
4 #include <Data/IDataProvider.h>
4 #include <Data/IDataProvider.h>
5
5
6 #include <Variable/Variable.h>
6 #include <Variable/Variable.h>
7 #include <Variable/VariableController.h>
7 #include <Variable/VariableController.h>
8
8
9 #include <QUuid>
9 #include <QUuid>
10
10
11 #include <functional>
11 #include <functional>
12
12
13 Q_LOGGING_CATEGORY(LOG_FuzzingOperations, "FuzzingOperations")
13 Q_LOGGING_CATEGORY(LOG_FuzzingOperations, "FuzzingOperations")
14
14
15 namespace {
15 namespace {
16
16
17 struct CreateOperation : public IFuzzingOperation {
17 struct CreateOperation : public IFuzzingOperation {
18 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
18 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
19 {
19 {
20 // A variable can be created only if it doesn't exist yet
20 // A variable can be created only if it doesn't exist yet
21 return fuzzingState.variableState(variableId).m_Variable == nullptr;
21 return fuzzingState.variableState(variableId).m_Variable == nullptr;
22 }
22 }
23
23
24 void execute(VariableId variableId, FuzzingState &fuzzingState,
24 void execute(VariableId variableId, FuzzingState &fuzzingState,
25 VariableController &variableController,
25 VariableController &variableController,
26 const Properties &properties) const override
26 const Properties &properties) const override
27 {
27 {
28 // Retrieves metadata pool from properties, and choose one of the metadata entries to
28 // Retrieves metadata pool from properties, and choose one of the metadata entries to
29 // associate it with the variable
29 // associate it with the variable
30 auto metaDataPool = properties.value(METADATA_POOL_PROPERTY).value<MetadataPool>();
30 auto metaDataPool = properties.value(METADATA_POOL_PROPERTY).value<MetadataPool>();
31 auto variableMetadata = RandomGenerator::instance().randomChoice(metaDataPool);
31 auto variableMetadata = RandomGenerator::instance().randomChoice(metaDataPool);
32
32
33 // Retrieves provider
33 // Retrieves provider
34 auto variableProvider
34 auto variableProvider
35 = properties.value(PROVIDER_PROPERTY).value<std::shared_ptr<IDataProvider> >();
35 = properties.value(PROVIDER_PROPERTY).value<std::shared_ptr<IDataProvider> >();
36
36
37 auto variableName = QString{"Var_%1"}.arg(QUuid::createUuid().toString());
37 auto variableName = QString{"Var_%1"}.arg(QUuid::createUuid().toString());
38 qCInfo(LOG_FuzzingOperations()).noquote()
38 qCInfo(LOG_FuzzingOperations()).noquote()
39 << "Creating variable" << variableName << "(metadata:" << variableMetadata << ")...";
39 << "Creating variable" << variableName << "(metadata:" << variableMetadata << ")...";
40
40
41 auto newVariable
41 auto newVariable
42 = variableController.createVariable(variableName, variableMetadata, variableProvider);
42 = variableController.createVariable(variableName, variableMetadata, variableProvider);
43
43
44 // Updates variable's state
44 // Updates variable's state
45 auto &variableState = fuzzingState.variableState(variableId);
45 auto &variableState = fuzzingState.variableState(variableId);
46 variableState.m_Range = properties.value(INITIAL_RANGE_PROPERTY).value<SqpRange>();
46 variableState.m_Range = properties.value(INITIAL_RANGE_PROPERTY).value<SqpRange>();
47 std::swap(variableState.m_Variable, newVariable);
47 std::swap(variableState.m_Variable, newVariable);
48 }
48 }
49 };
49 };
50
50
51 struct DeleteOperation : public IFuzzingOperation {
51 struct DeleteOperation : public IFuzzingOperation {
52 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
52 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
53 {
53 {
54 // A variable can be delete only if it exists
54 // A variable can be delete only if it exists
55 return fuzzingState.variableState(variableId).m_Variable != nullptr;
55 return fuzzingState.variableState(variableId).m_Variable != nullptr;
56 }
56 }
57
57
58 void execute(VariableId variableId, FuzzingState &fuzzingState,
58 void execute(VariableId variableId, FuzzingState &fuzzingState,
59 VariableController &variableController, const Properties &) const override
59 VariableController &variableController, const Properties &) const override
60 {
60 {
61 auto &variableState = fuzzingState.variableState(variableId);
61 auto &variableState = fuzzingState.variableState(variableId);
62
62
63 qCInfo(LOG_FuzzingOperations()).noquote()
63 qCInfo(LOG_FuzzingOperations()).noquote()
64 << "Deleting variable" << variableState.m_Variable->name() << "...";
64 << "Deleting variable" << variableState.m_Variable->name() << "...";
65 variableController.deleteVariable(variableState.m_Variable);
65 variableController.deleteVariable(variableState.m_Variable);
66
66
67 // Updates variable's state
67 // Updates variable's state
68 variableState.m_Range = INVALID_RANGE;
68 variableState.m_Range = INVALID_RANGE;
69 variableState.m_Variable = nullptr;
69 variableState.m_Variable = nullptr;
70 }
70 }
71 };
71 };
72
72
73 /**
73 /**
74 * Defines a move operation through a range.
74 * Defines a move operation through a range.
75 *
75 *
76 * A move operation is determined by three functions:
76 * A move operation is determined by three functions:
77 * - Two 'move' functions, used to indicate in which direction the beginning and the end of a range
77 * - Two 'move' functions, used to indicate in which direction the beginning and the end of a range
78 * are going during the operation. These functions will be:
78 * are going during the operation. These functions will be:
79 * -- {<- / <-} for pan left
79 * -- {<- / <-} for pan left
80 * -- {-> / ->} for pan right
80 * -- {-> / ->} for pan right
81 * -- {-> / <-} for zoom in
81 * -- {-> / <-} for zoom in
82 * -- {<- / ->} for zoom out
82 * -- {<- / ->} for zoom out
83 * - One 'max move' functions, used to compute the max delta at which the operation can move a
83 * - One 'max move' functions, used to compute the max delta at which the operation can move a
84 * range, according to a max range. For exemple, for a range of {1, 5} and a max range of {0, 10},
84 * range, according to a max range. For exemple, for a range of {1, 5} and a max range of {0, 10},
85 * max deltas will be:
85 * max deltas will be:
86 * -- {0, 4} for pan left
86 * -- {0, 4} for pan left
87 * -- {6, 10} for pan right
87 * -- {6, 10} for pan right
88 * -- {3, 3} for zoom in
88 * -- {3, 3} for zoom in
89 * -- {0, 6} for zoom out (same spacing left and right)
89 * -- {0, 6} for zoom out (same spacing left and right)
90 */
90 */
91 struct MoveOperation : public IFuzzingOperation {
91 struct MoveOperation : public IFuzzingOperation {
92 using MoveFunction = std::function<double(double currentValue, double maxValue)>;
92 using MoveFunction = std::function<double(double currentValue, double maxValue)>;
93 using MaxMoveFunction = std::function<double(const SqpRange &range, const SqpRange &maxRange)>;
93 using MaxMoveFunction = std::function<double(const SqpRange &range, const SqpRange &maxRange)>;
94
94
95 explicit MoveOperation(MoveFunction rangeStartMoveFun, MoveFunction rangeEndMoveFun,
95 explicit MoveOperation(MoveFunction rangeStartMoveFun, MoveFunction rangeEndMoveFun,
96 MaxMoveFunction maxMoveFun,
96 MaxMoveFunction maxMoveFun,
97 const QString &label = QStringLiteral("Move operation"))
97 const QString &label = QStringLiteral("Move operation"))
98 : m_RangeStartMoveFun{std::move(rangeStartMoveFun)},
98 : m_RangeStartMoveFun{std::move(rangeStartMoveFun)},
99 m_RangeEndMoveFun{std::move(rangeEndMoveFun)},
99 m_RangeEndMoveFun{std::move(rangeEndMoveFun)},
100 m_MaxMoveFun{std::move(maxMoveFun)},
100 m_MaxMoveFun{std::move(maxMoveFun)},
101 m_Label{label}
101 m_Label{label}
102 {
102 {
103 }
103 }
104
104
105 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
105 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
106 {
106 {
107 return fuzzingState.variableState(variableId).m_Variable != nullptr;
107 return fuzzingState.variableState(variableId).m_Variable != nullptr;
108 }
108 }
109
109
110 void execute(VariableId variableId, FuzzingState &fuzzingState,
110 void execute(VariableId variableId, FuzzingState &fuzzingState,
111 VariableController &variableController,
111 VariableController &variableController,
112 const Properties &properties) const override
112 const Properties &properties) const override
113 {
113 {
114 auto &variableState = fuzzingState.variableState(variableId);
114 auto &variableState = fuzzingState.variableState(variableId);
115 auto variable = variableState.m_Variable;
115 auto variable = variableState.m_Variable;
116
116
117 // Gets the max range defined
117 // Gets the max range defined
118 auto maxRange = properties.value(MAX_RANGE_PROPERTY, QVariant::fromValue(INVALID_RANGE))
118 auto maxRange = properties.value(MAX_RANGE_PROPERTY, QVariant::fromValue(INVALID_RANGE))
119 .value<SqpRange>();
119 .value<SqpRange>();
120 auto variableRange = variable->range();
120 auto variableRange = variable->range();
121
121
122 if (maxRange == INVALID_RANGE || variableRange.m_TStart < maxRange.m_TStart
122 if (maxRange == INVALID_RANGE || variableRange.m_TStart < maxRange.m_TStart
123 || variableRange.m_TEnd > maxRange.m_TEnd) {
123 || variableRange.m_TEnd > maxRange.m_TEnd) {
124 qCWarning(LOG_FuzzingOperations()) << "Can't execute operation: invalid max range";
124 qCWarning(LOG_FuzzingOperations()) << "Can't execute operation: invalid max range";
125 return;
125 return;
126 }
126 }
127
127
128 // Computes the max delta at which the variable can move, up to the limits of the max range
128 // Computes the max delta at which the variable can move, up to the limits of the max range
129 auto deltaMax = m_MaxMoveFun(variable->range(), maxRange);
129 auto deltaMax = m_MaxMoveFun(variable->range(), maxRange);
130
130
131 // Generates random delta that will be used to move variable
131 // Generates random delta that will be used to move variable
132 auto delta = RandomGenerator::instance().generateDouble(0, deltaMax);
132 auto delta = RandomGenerator::instance().generateDouble(0, deltaMax);
133
133
134 // Moves variable to its new range
134 // Moves variable to its new range
135 auto newVariableRange = SqpRange{m_RangeStartMoveFun(variableRange.m_TStart, delta),
135 auto newVariableRange = SqpRange{m_RangeStartMoveFun(variableRange.m_TStart, delta),
136 m_RangeEndMoveFun(variableRange.m_TEnd, delta)};
136 m_RangeEndMoveFun(variableRange.m_TEnd, delta)};
137 qCInfo(LOG_FuzzingOperations()).noquote()
137 qCInfo(LOG_FuzzingOperations()).noquote()
138 << "Performing" << m_Label << "on" << variable->name() << "(from" << variableRange
138 << "Performing" << m_Label << "on" << variable->name() << "(from" << variableRange
139 << "to" << newVariableRange << ")...";
139 << "to" << newVariableRange << ")...";
140 variableController.onRequestDataLoading({variable}, newVariableRange, false);
140 variableController.onRequestDataLoading({variable}, newVariableRange, false);
141
141
142 // Updates variable's state
142 // Updates variable's state
143 variableState.m_Range = newVariableRange;
143 variableState.m_Range = newVariableRange;
144 }
144 }
145
145
146 MoveFunction m_RangeStartMoveFun;
146 MoveFunction m_RangeStartMoveFun;
147 MoveFunction m_RangeEndMoveFun;
147 MoveFunction m_RangeEndMoveFun;
148 MaxMoveFunction m_MaxMoveFun;
148 MaxMoveFunction m_MaxMoveFun;
149 QString m_Label;
149 QString m_Label;
150 };
150 };
151
151
152 struct SynchronizeOperation : public IFuzzingOperation {
152 struct SynchronizeOperation : public IFuzzingOperation {
153 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
153 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
154 {
154 {
155 auto variable = fuzzingState.variableState(variableId).m_Variable;
155 auto variable = fuzzingState.variableState(variableId).m_Variable;
156 return variable != nullptr && !fuzzingState.m_SyncGroupsPool.empty()
156 return variable != nullptr && !fuzzingState.m_SyncGroupsPool.empty()
157 && fuzzingState.syncGroupId(variableId).isNull();
157 && fuzzingState.syncGroupId(variableId).isNull();
158 }
158 }
159
159
160 void execute(VariableId variableId, FuzzingState &fuzzingState,
160 void execute(VariableId variableId, FuzzingState &fuzzingState,
161 VariableController &variableController, const Properties &) const override
161 VariableController &variableController, const Properties &) const override
162 {
162 {
163 auto &variableState = fuzzingState.variableState(variableId);
164
165 // Chooses a random synchronization group and adds the variable into sync group
166 auto syncGroupId = RandomGenerator::instance().randomChoice(fuzzingState.syncGroupsIds());
167 qCInfo(LOG_FuzzingOperations()).noquote()
168 << "Adding" << variableState.m_Variable->name() << "into synchronization group"
169 << syncGroupId << "...";
170 variableController.onAddSynchronized(variableState.m_Variable, syncGroupId);
171
172 // Updates state
173 fuzzingState.synchronizeVariable(variableId, syncGroupId);
163 }
174 }
164 };
175 };
165
176
166 struct DesynchronizeOperation : public IFuzzingOperation {
177 struct DesynchronizeOperation : public IFuzzingOperation {
167 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
178 bool canExecute(VariableId variableId, const FuzzingState &fuzzingState) const override
168 {
179 {
169 auto variable = fuzzingState.variableState(variableId).m_Variable;
180 auto variable = fuzzingState.variableState(variableId).m_Variable;
170 return variable != nullptr && !fuzzingState.syncGroupId(variableId).isNull();
181 return variable != nullptr && !fuzzingState.syncGroupId(variableId).isNull();
171 }
182 }
172
183
173 void execute(VariableId variableId, FuzzingState &fuzzingState,
184 void execute(VariableId variableId, FuzzingState &fuzzingState,
174 VariableController &variableController, const Properties &) const override
185 VariableController &variableController, const Properties &) const override
175 {
186 {
176 struct UnknownOperation : public IFuzzingOperation {
187 struct UnknownOperation : public IFuzzingOperation {
177 bool canExecute(VariableId, const FuzzingState &) const override { return false; }
188 bool canExecute(VariableId, const FuzzingState &) const override { return false; }
178
189
179 void execute(VariableId, FuzzingState &, VariableController &,
190 void execute(VariableId, FuzzingState &, VariableController &,
180 const Properties &) const override
191 const Properties &) const override
181 {
192 {
182 }
193 }
183 };
194 };
184
195
185 } // namespace
196 } // namespace
186
197
187 std::unique_ptr<IFuzzingOperation> FuzzingOperationFactory::create(FuzzingOperationType type)
198 std::unique_ptr<IFuzzingOperation> FuzzingOperationFactory::create(FuzzingOperationType type)
188 {
199 {
189 switch (type) {
200 switch (type) {
190 case FuzzingOperationType::CREATE:
201 case FuzzingOperationType::CREATE:
191 return std::make_unique<CreateOperation>();
202 return std::make_unique<CreateOperation>();
192 case FuzzingOperationType::DELETE:
203 case FuzzingOperationType::DELETE:
193 return std::make_unique<DeleteOperation>();
204 return std::make_unique<DeleteOperation>();
194 case FuzzingOperationType::PAN_LEFT:
205 case FuzzingOperationType::PAN_LEFT:
195 return std::make_unique<MoveOperation>(
206 return std::make_unique<MoveOperation>(
196 std::minus<double>(), std::minus<double>(),
207 std::minus<double>(), std::minus<double>(),
197 [](const SqpRange &range, const SqpRange &maxRange) {
208 [](const SqpRange &range, const SqpRange &maxRange) {
198 return range.m_TStart - maxRange.m_TStart;
209 return range.m_TStart - maxRange.m_TStart;
199 },
210 },
200 QStringLiteral("Pan left operation"));
211 QStringLiteral("Pan left operation"));
201 case FuzzingOperationType::PAN_RIGHT:
212 case FuzzingOperationType::PAN_RIGHT:
202 return std::make_unique<MoveOperation>(
213 return std::make_unique<MoveOperation>(
203 std::plus<double>(), std::plus<double>(),
214 std::plus<double>(), std::plus<double>(),
204 [](const SqpRange &range, const SqpRange &maxRange) {
215 [](const SqpRange &range, const SqpRange &maxRange) {
205 return maxRange.m_TEnd - range.m_TEnd;
216 return maxRange.m_TEnd - range.m_TEnd;
206 },
217 },
207 QStringLiteral("Pan right operation"));
218 QStringLiteral("Pan right operation"));
208 case FuzzingOperationType::ZOOM_IN:
219 case FuzzingOperationType::ZOOM_IN:
209 return std::make_unique<MoveOperation>(
220 return std::make_unique<MoveOperation>(
210 std::plus<double>(), std::minus<double>(),
221 std::plus<double>(), std::minus<double>(),
211 [](const SqpRange &range, const SqpRange &maxRange) {
222 [](const SqpRange &range, const SqpRange &maxRange) {
212 Q_UNUSED(maxRange)
223 Q_UNUSED(maxRange)
213 return range.m_TEnd - (range.m_TStart + range.m_TEnd) / 2.;
224 return range.m_TEnd - (range.m_TStart + range.m_TEnd) / 2.;
214 },
225 },
215 QStringLiteral("Zoom in operation"));
226 QStringLiteral("Zoom in operation"));
216 case FuzzingOperationType::ZOOM_OUT:
227 case FuzzingOperationType::ZOOM_OUT:
217 return std::make_unique<MoveOperation>(
228 return std::make_unique<MoveOperation>(
218 std::minus<double>(), std::plus<double>(),
229 std::minus<double>(), std::plus<double>(),
219 [](const SqpRange &range, const SqpRange &maxRange) {
230 [](const SqpRange &range, const SqpRange &maxRange) {
220 return std::min(range.m_TStart - maxRange.m_TStart,
231 return std::min(range.m_TStart - maxRange.m_TStart,
221 maxRange.m_TEnd - range.m_TEnd);
232 maxRange.m_TEnd - range.m_TEnd);
222 },
233 },
223 QStringLiteral("Zoom out operation"));
234 QStringLiteral("Zoom out operation"));
224 case FuzzingOperationType::SYNCHRONIZE:
235 case FuzzingOperationType::SYNCHRONIZE:
225 return std::make_unique<SynchronizeOperation>();
236 return std::make_unique<SynchronizeOperation>();
226 case FuzzingOperationType::DESYNCHRONIZE:
237 case FuzzingOperationType::DESYNCHRONIZE:
227 return std::make_unique<DesynchronizeOperation>();
238 return std::make_unique<DesynchronizeOperation>();
228 default:
239 default:
229 // Default case returns unknown operation
240 // Default case returns unknown operation
230 break;
241 break;
231 }
242 }
232
243
233 return std::make_unique<UnknownOperation>();
244 return std::make_unique<UnknownOperation>();
234 }
245 }
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