Made the data argument in Point's __init__method to be an optional argument by making it a boost::python::optional.
#include "utilities/log.h"
#include "utilities/counter.h"
#ifdef LOGGING
static rlog::RLogChannel* rlSimulator = DEF_CHANNEL("geometry/simulator", rlog::Log_Debug);
#endif // LOGGING
#ifdef COUNTERS
static Counter* cSimulatorProcess = GetCounter("simulator/process");
#endif // COUNTERS
template<class FuncKernel_, template<class Event> class EventComparison_>
template<class Event_>
typename Simulator<FuncKernel_, EventComparison_>::Key
Simulator<FuncKernel_, EventComparison_>::
add(const Event_& e)
{
Event* ee = new Event_(e);
return queue_.push(ee);
}
template<class FuncKernel_, template<class Event> class EventComparison_>
template<class Event_>
typename Simulator<FuncKernel_, EventComparison_>::Key
Simulator<FuncKernel_, EventComparison_>::
add(const Function& f, const Event_& e)
{
Event* ee = new Event_(e);
rLog(rlSimulator, "Solving: %s", tostring(f).c_str());
int sign = FunctionKernel::sign_at_negative_infinity(f); // going to be sign after current time
rLog(rlSimulator, "Sign at -infinity: %i", sign);
if (sign != 0)
{
FunctionKernel::solve(f, ee->root_stack());
rLog(rlSimulator, "Got solution with root stack size: %i", ee->root_stack().size());
}
while (!ee->root_stack().empty() && ee->root_stack().top() < current_time())
{
// rLog(rlSimulator, "Popping expired root: %f", ee->root_stack().top());
ee->root_stack().pop();
sign *= -1;
}
if (sign == -1)
{
rLog(rlSimulator, "Popping the root because of negative sign (degeneracy)");
// rLog(rlSimulator, "Popping the root because of negative sign (degeneracy): %f", ee->root_stack().top());
// rLog(rlSimulator, " Current time: %f", current_time());
// AssertMsg(ee->root_stack().top() == current_time(),
// "If sign is negative, we must be in the degenerate case");
ee->root_stack().pop();
}
if (ee->root_stack().empty())
rLog(rlSimulator, "Pushing event with empty root stack");
else
{
rLog(rlSimulator, "Root stack size: %i", ee->root_stack().size());
rLog(rlSimulator, "Pushing: %s", tostring(ee->root_stack().top()).c_str());
}
Key k = queue_.push(ee);
return k;
}
template<class FuncKernel_, template<class Event> class EventComparison_>
void
Simulator<FuncKernel_, EventComparison_>::
update(Key k, const Function& f)
{
Event* ee = *k;
Event* e = new Event;
e->root_stack() = RootStack(); // no clear() in std::stack
FunctionKernel::solve(f, e->root_stack());
while (!e->root_stack().empty() && e->root_stack().top() < current_time())
e->root_stack().pop();
queue_.replace(k, e);
delete ee;
}
template<class FuncKernel_, template<class Event> class EventComparison_>
void
Simulator<FuncKernel_, EventComparison_>::
process()
{
Count(cSimulatorProcess);
if (reached_infinity()) return;
rLog(rlSimulator, "Queue size: %i", queue_.size());
Key top = queue_.top();
Event* e = *top;
rLog(rlSimulator, "Processing event: %s", intostring(*e).c_str());
current_ = e->root_stack().top(); e->root_stack().pop();
queue_.demoted(top);
// Get the top element out of the queue, put it back depending on what process() says
if (!(e->process(this))) { queue_.remove(top); delete e; }
++count_;
}
template<class FuncKernel_, template<class Event> class EventComparison_>
typename Simulator<FuncKernel_, EventComparison_>::Time
Simulator<FuncKernel_, EventComparison_>::
audit_time() const
{
const_Key top = queue_.top();
Event* e = *top;
if (e->root_stack().empty()) return current_ + 1;
else return FunctionKernel::between(e->root_stack().top(), current_);
}
template<class FuncKernel_, template<class Event> class EventComparison_>
std::ostream&
Simulator<FuncKernel_, EventComparison_>::
operator<<(std::ostream& out) const
{
out << "Simulator: " << std::endl;
return queue_.print(out, " ");
}
template<class FuncKernel_, template<class Event> class EventComparison_>
std::ostream&
operator<<(std::ostream& out, const Simulator<FuncKernel_, EventComparison_>& s)
{
return s.operator<<(out);
}
template<class FuncKernel_, template<class Event> class EventComparison_>
std::ostream&
operator<<(std::ostream& out, const typename Simulator<FuncKernel_, EventComparison_>::Event& e)
{
return e.operator<<(out);
}