Parallele_Verteilte_Systeme/mCRL2/TrafficLights/v2/v2_spec.mcrl2

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%-----------------------------------------------------------------------
sort
CardinalDirection = struct north | east | south | west;
%-----------------------------------------------------------------------
sort
Colour = struct red | green | yellow;
map
nextColour: Colour -> Colour;
eqn
nextColour(red) = green;
nextColour(green) = yellow;
nextColour(yellow) = red;
%------------------------------------------------------------------------
%die aktuellen Werte für die verschiedenen Ampeln werden in einer KeyValue Map gespeichert.
sort
Map = K -> V;
map
_Map: V -> Map;
var
k: K;
v: V;
eqn
_Map(v)(k) = v;
sort
K = CardinalDirection;
V = Colour;
map
combinations: Map;
%------------------------------------------------------------------------
act
show : CardinalDirection # Colour;
seeColour : CardinalDirection # Colour;
colourSeen : CardinalDirection # Colour;
crossingUnsafe : Colour # Colour # Colour # Colour;
%------------------------------------------------------------------------
proc
TrafficLight(direction : CardinalDirection) = TL(direction, red);
TL(direction : CardinalDirection, colour : Colour) =
show(direction, colour) . TL(direction, nextColour(colour))
;
Monitor(status : Map) =
((status(north) in {green, yellow} || status(south) in {green, yellow}) && (status(east) in {green, yellow} || status(west) in {green, yellow})) %ist aktueller Zustand unsicher ?
-> crossingUnsafe(status(north), status(east), status(south), status(west)) . delta %unsicherer Zustand, deadlock
<>%wenn aktueller Zustand sicher:
sum direction : CardinalDirection.(
sum c : Colour .
seeColour(direction, c) . %jede mögliche Kombination anbieten
Monitor(status= status[direction -> c])%und entsprechend speichern
);
System =
allow({
colourSeen,
crossingUnsafe
},
comm({
show | seeColour -> colourSeen
},
TrafficLight(north) || TrafficLight(east) || TrafficLight(south) || TrafficLight(west) || Monitor(_Map(red))
));
init
System
;