```
module cafeMap
-- Hipsters spend their days traveling from one cafe to another.
-- They use various means of transportation: by car, by bus, and by foot.
sig Cafe {
walk: set Cafe, -- there is a walking path between cafes
car: set Cafe, -- there is a street between cafes
bus: set Cafe -- there is a direct bus route between cafes
}
-- All Cafe pairs with a direct travel link (walk, car or bus)
fun travel[]: Cafe->Cafe {
car+walk+bus
}
-- All Cafe pairs with direct "green" travel links (walk or bus)
fun greentravel[]: Cafe->Cafe {
walk+bus
}
-- Does relation r contain every possible pair of Cafes?
pred complete[r: Cafe->Cafe] {
--your code goes here
}
-- For every pair (c,d) in r, is the reverse pair (d,c) also in r?
pred symmetric[r: Cafe->Cafe] {
r=~r
}
-- Does r contain no pairs of the form (c,c)?
pred irreflexive[r: Cafe->Cafe] {
no r & iden -- Is the intersection of r and the identity relation empty?
}
fact {
irreflexive[walk+car+bus] -- eliminate "self loops"
}
fact {
symmetric[walk]
}
pred show {}
run show for exactly 5 Cafe
```

Add the following constraints to cafe.als:

- You can get from any cafe to any other cafe by car (though there may not be a direct route).
- Walking paths between cafes are bidirectional.
- Every cafe is directly reachable from every other cafe in one or two steps.
- The bus visits every cafe, in a single nonbranching route. (Note: you will probably want to slightly change the declaration of the bus relation for this.)

I've never worked with Alloy and my professer has barely touched on it. I'm really lost, could anyone help explain what's going on or help me with any of the problems?