I have a dynamical system for which many events could occur. I want to terminate the integration of the trajectory on an event, but I also want to known which event has been activated.
The workaround I found is to use a global variable to save the event index in the affect! function. Here is a modified version of the bouncing ball example:
using DifferentialEquations
function f(du,u,p,t)
du[1] = u[2]
du[2] = -p
du[3] = u[4]
du[4] = 0.0
end
function condition(out,u,t,integrator) # Event when event_f(u,t) == 0
out[1] = u[1]
out[2] = (u[3] - 10.0)u[3]
end
event_idx = [0, ] # global variable
function affect!(integrator, idx)
event_idx[1] = idx
terminate!(integrator)
end
cb = VectorContinuousCallback(condition,affect!,2)
u0 = [50.0,0.0,0.0,2.0]
tspan = (0.0,15.0)
p = 9.8
prob = ODEProblem(f,u0,tspan,p)
sol = solve(prob,Tsit5(),callback=cb,dt=1e-3,adaptive=false)
println(sol.retcode)
println(event_idx) # [1]
Is there a better solution for doing this?
integrator.pas a cache, and change around that value, and usesol.prob.pat the end. But yeah, this or aRefis a fine way to do it.sol.prob.p(and for differentialequations.jl, it's the reason I am trying to move to Julia)