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@ -1118,38 +1118,25 @@ void DivePlannerPointsModel::updateDiveProfile()
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if (diveplan.is_empty())
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if (diveplan.is_empty())
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return;
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return;
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// For calculating variations, we need a copy of the plan. We have to copy _before_
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// calling plan(), because that adds deco stops.
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bool computeVariations = isPlanner() && shouldComputeVariations();
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struct diveplan plan_copy;
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if (computeVariations)
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plan_copy = diveplan;
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deco_state_cache cache;
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deco_state_cache cache;
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struct deco_state plan_deco_state;
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struct deco_state plan_deco_state;
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plan(&plan_deco_state, diveplan, d, dcNr, decotimestep, cache, isPlanner(), false);
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plan(&plan_deco_state, diveplan, d, dcNr, decotimestep, cache, isPlanner(), false);
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updateMaxDepth();
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updateMaxDepth();
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if (isPlanner() && shouldComputeVariations()) {
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if (computeVariations) {
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auto plan_copy = std::make_unique<struct diveplan>();
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lock_planner();
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*plan_copy = diveplan;
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unlock_planner();
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#ifdef VARIATIONS_IN_BACKGROUND
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#ifdef VARIATIONS_IN_BACKGROUND
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// Since we're calling computeVariations asynchronously and plan_deco_state is allocated
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QtConcurrent::run([this, plan = std::move(plan_copy), deco = plan_deco_state] ()
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// on the stack, it must be copied and freed by the worker-thread.
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{ this->computeVariations(std::move(plan), deco); });
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auto deco_copy = std::make_unique<deco_state>(plan_deco_state);
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// Ideally, we would pass the unique_ptrs to the lambda for QtConcurrent::run().
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// This, in principle, can be done as such:
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// [ptr = std::move(ptr)] () mutable { f(std::move(ptr)) };
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// However, this make the lambda uncopyable and QtConcurrent::run() sadly
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// uses copy semantics.
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// So let's be pragmatic and do a release/reaquire pair.
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// Somewhat disappointing, but what do you want to do?
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// Note 1: this is now not exception safe, but Qt doesn't support
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// exceptions anyway.
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// Note 2: We also can't use the function / argument syntax of QtConcurrent::run(),
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// because it likewise uses copy-semantics. How annoying.
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QtConcurrent::run([this, plan = plan_copy.release(), deco = deco_copy.release()] ()
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{ this->computeVariationsFreeDeco(std::unique_ptr<struct diveplan>(plan),
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std::unique_ptr<deco_state>(deco)); });
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#else
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#else
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computeVariations(std::move(plan_copy), &plan_deco_state);
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computeVariations(std::move(plan_copy), plan_deco_state);
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#endif
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#endif
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final_deco_state = plan_deco_state;
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final_deco_state = plan_deco_state;
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}
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}
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@ -1194,12 +1181,6 @@ int DivePlannerPointsModel::analyzeVariations(const std::vector<decostop> &min,
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return (leftsum + rightsum) / 2;
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return (leftsum + rightsum) / 2;
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}
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}
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void DivePlannerPointsModel::computeVariationsFreeDeco(std::unique_ptr<struct diveplan> original_plan, std::unique_ptr<struct deco_state> previous_ds)
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{
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computeVariations(std::move(original_plan), previous_ds.get());
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// Note: previous ds automatically free()d by virtue of being a unique_ptr.
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}
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// Return reference to second to last element.
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// Return reference to second to last element.
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// Caller is responsible for checking that there are at least two elements.
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// Caller is responsible for checking that there are at least two elements.
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template <typename T>
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template <typename T>
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@ -1208,17 +1189,16 @@ auto &second_to_last(T &v)
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return *std::prev(std::prev(v.end()));
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return *std::prev(std::prev(v.end()));
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}
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}
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void DivePlannerPointsModel::computeVariations(std::unique_ptr<struct diveplan> original_plan, const struct deco_state *previous_ds)
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void DivePlannerPointsModel::computeVariations(struct diveplan original_plan, struct deco_state ds)
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{
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{
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// nothing to do unless there's an original plan
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// nothing to do unless there's an original plan
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if (!original_plan)
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if (original_plan.dp.empty())
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return;
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return;
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auto dive = std::make_unique<struct dive>();
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auto dive = std::make_unique<struct dive>();
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copy_dive(d, dive.get());
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copy_dive(d, dive.get());
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deco_state_cache cache, save;
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deco_state_cache cache, save;
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struct diveplan plan_copy;
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struct diveplan plan_copy;
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struct deco_state ds = *previous_ds;
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int my_instance = ++instanceCounter;
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int my_instance = ++instanceCounter;
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save.cache(&ds);
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save.cache(&ds);
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@ -1236,7 +1216,7 @@ void DivePlannerPointsModel::computeVariations(std::unique_ptr<struct diveplan>
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depth_units = tr("ft");
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depth_units = tr("ft");
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}
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}
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plan_copy = *original_plan;
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plan_copy = original_plan;
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if (plan_copy.dp.size() < 2)
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if (plan_copy.dp.size() < 2)
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return;
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return;
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if (my_instance != instanceCounter)
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if (my_instance != instanceCounter)
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@ -1244,7 +1224,7 @@ void DivePlannerPointsModel::computeVariations(std::unique_ptr<struct diveplan>
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auto original = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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auto original = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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save.restore(&ds, false);
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save.restore(&ds, false);
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plan_copy = *original_plan;
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plan_copy = original_plan;
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second_to_last(plan_copy.dp).depth.mm += delta_depth.mm;
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second_to_last(plan_copy.dp).depth.mm += delta_depth.mm;
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plan_copy.dp.back().depth.mm += delta_depth.mm;
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plan_copy.dp.back().depth.mm += delta_depth.mm;
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if (my_instance != instanceCounter)
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if (my_instance != instanceCounter)
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@ -1252,6 +1232,7 @@ void DivePlannerPointsModel::computeVariations(std::unique_ptr<struct diveplan>
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auto deeper = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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auto deeper = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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save.restore(&ds, false);
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save.restore(&ds, false);
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plan_copy = original_plan;
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second_to_last(plan_copy.dp).depth.mm -= delta_depth.mm;
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second_to_last(plan_copy.dp).depth.mm -= delta_depth.mm;
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plan_copy.dp.back().depth.mm -= delta_depth.mm;
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plan_copy.dp.back().depth.mm -= delta_depth.mm;
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if (my_instance != instanceCounter)
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if (my_instance != instanceCounter)
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@ -1259,13 +1240,14 @@ void DivePlannerPointsModel::computeVariations(std::unique_ptr<struct diveplan>
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auto shallower = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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auto shallower = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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save.restore(&ds, false);
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save.restore(&ds, false);
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plan_copy = *original_plan;
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plan_copy = original_plan;
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plan_copy.dp.back().time += delta_time.seconds;
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plan_copy.dp.back().time += delta_time.seconds;
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if (my_instance != instanceCounter)
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if (my_instance != instanceCounter)
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return;
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return;
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auto longer = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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auto longer = plan(&ds, plan_copy, dive.get(), dcNr, 1, cache, true, false);
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save.restore(&ds, false);
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save.restore(&ds, false);
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plan_copy = original_plan;
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plan_copy.dp.back().time -= delta_time.seconds;
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plan_copy.dp.back().time -= delta_time.seconds;
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if (my_instance != instanceCounter)
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if (my_instance != instanceCounter)
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return;
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return;
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@ -1308,15 +1290,16 @@ void DivePlannerPointsModel::createPlan(bool saveAsNew)
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removeDeco();
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removeDeco();
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createTemporaryPlan();
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createTemporaryPlan();
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// For calculating variations, we need a copy of the plan. We have to copy _before_
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// calling plan(), because that adds deco stops.
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struct diveplan plan_copy;
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if (shouldComputeVariations())
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plan_copy = diveplan;
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plan(&ds_after_previous_dives, diveplan, d, dcNr, decotimestep, cache, isPlanner(), true);
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plan(&ds_after_previous_dives, diveplan, d, dcNr, decotimestep, cache, isPlanner(), true);
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if (shouldComputeVariations()) {
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if (shouldComputeVariations())
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auto plan_copy = std::make_unique<struct diveplan>();
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computeVariations(std::move(plan_copy), ds_after_previous_dives);
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lock_planner();
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*plan_copy = diveplan;
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unlock_planner();
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computeVariations(std::move(plan_copy), &ds_after_previous_dives);
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}
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// Fixup planner notes.
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// Fixup planner notes.
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if (current_dive && d->id == current_dive->id) {
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if (current_dive && d->id == current_dive->id) {
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