Remove key :i from SupportPoint dictionary
parent
4a047f4cf2
commit
94839a28c0
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@ -17,7 +17,7 @@ function addBreakFreeSection!(drivingCourse::Vector{Dict}, stateFlags::Dict, CSs
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if trainIsHalting && !endOfCSReached
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drivingMode = "breakFree"
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drivingCourse[end][:behavior] = drivingMode
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startingPoint = drivingCourse[end][:i]
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startingPoint = length(drivingCourse)
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# traction effort and resisting forces (in N)
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calculateForces!(drivingCourse[end], CSs, csId, "accelerating", train, settings.massModel) # currently the tractive effort is calculated like in the accelerating section
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@ -30,7 +30,7 @@ function addBreakFreeSection!(drivingCourse::Vector{Dict}, stateFlags::Dict, CSs
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end
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# delete every supportPoint except the first two
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while drivingCourse[end][:i] > startingPoint +1
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while length(drivingCourse) > startingPoint +1
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pop!(drivingCourse)
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end
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@ -851,7 +851,6 @@ function addBrakingSection!(drivingCourse::Vector{Dict}, stateFlags::Dict, CSs::
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if settings.stepVariable == :distance && ((drivingCourse[end][:v]/drivingCourse[end][:a])^2+2*currentStepSize/drivingCourse[end][:a])<0.0 || (drivingCourse[end][:v]^2+2*currentStepSize*drivingCourse[end][:a])<0.0
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# create empty support point and set it for the values of s_exit and v_exit
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push!(drivingCourse, SupportPoint())
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drivingCourse[end][:i] = drivingCourse[end-1][:i]+1
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drivingCourse[end][:behavior] = drivingMode
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recalculateLastBrakingPoint!(drivingCourse, CS[:s_exit], CS[:v_exit])
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else
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@ -859,7 +858,6 @@ function addBrakingSection!(drivingCourse::Vector{Dict}, stateFlags::Dict, CSs::
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push!(drivingCourse, moveAStep(drivingCourse[end], settings.stepVariable, currentStepSize, csId))
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drivingCourse[end][:behavior] = drivingMode
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end
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#println(drivingCourse[end][:i],". s=",drivingCourse[end][:s]," s_exit=", CS[:s_exit]," v_exit=", CS[:v_exit]," v=",drivingCourse[end][:v])
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# conditions for the next while cycle
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pointOfInterestReached = drivingCourse[end][:s] >= nextPointOfInterest[1]
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@ -9,7 +9,6 @@
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# calculate a train run focussing on using the minimum possible running time
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function calculateMinimumRunningTime(CSs::Vector{Dict}, settings::Settings, train::Train)
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startingPoint = SupportPoint()
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startingPoint[:i] = 1
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startingPoint[:s] = CSs[1][:s_entry]
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calculateForces!(startingPoint, CSs, 1, "default", train, settings.massModel) # traction effort and resisting forces (in N)
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drivingCourse::Vector{Dict} = [startingPoint] # List of support points
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@ -223,7 +222,6 @@ function moveAStep(previousPoint::Dict, stepVariable::Symbol, stepSize::Real, cs
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# create the next support point
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newPoint = SupportPoint()
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newPoint[:i] = previousPoint[:i]+1 # identifier
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# calculate s, t, v, E
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if stepVariable == :distance # distance step method
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@ -671,7 +671,6 @@ a SupportPoint is the smallest element of the driving course. One step of the st
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"""
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function SupportPoint()
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supportPoint = Dict(
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:i => 0, # identifier and counter variable of the driving course
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:behavior => "", # type of behavior section the support point is part of - see BehaviorSection()
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# a support point which is the last point of one behavior section and the first point of the next behavior section will be attached to the latter
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:s => 0.0, # position (in m)
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