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// Celebrity example, inspired by the Rodin tutorial
static function method Knows<Person>(a: Person, b: Person): bool
requires a != b; // forbid asking about the reflexive case
static function IsCelebrity<Person>(c: Person, people: set<Person>): bool
{
c in people &&
(forall p :: p in people && p != c ==> Knows(p, c) && !Knows(c, p))
}
method FindCelebrity0<Person>(people: set<Person>, ghost c: Person) returns (r: Person)
requires exists c :: IsCelebrity(c, people);
ensures r == c;
{
var cc; assume cc == c; // this line essentially converts ghost c to non-ghost cc
r := cc;
}
method FindCelebrity1<Person>(people: set<Person>, ghost c: Person) returns (r: Person)
requires IsCelebrity(c, people);
ensures r == c;
{
var Q := people;
var x :| x in Q;
while (Q != {x})
//invariant Q <= people; // inv1 in Rodin's Celebrity_1, but it's not needed here
invariant IsCelebrity(c, Q); // inv2
invariant x in Q;
decreases Q;
{
var y :| y in Q - {x};
if (Knows(x, y)) {
Q := Q - {x}; // remove_1
} else {
Q := Q - {y}; assert x in Q; // remove_2
}
x :| x in Q;
}
r := x;
}
method FindCelebrity2<Person>(people: set<Person>, ghost c: Person) returns (r: Person)
requires IsCelebrity(c, people);
ensures r == c;
{
var b :| b in people;
var R := people - {b};
while (R != {})
invariant R <= people; // inv1
invariant b in people; // inv2
invariant b !in R; // inv3
invariant IsCelebrity(c, R + {b}); // my non-refinement way of saying inv4
decreases R;
{
var x :| x in R;
if (Knows(x, b)) {
R := R - {x};
} else {
b := x;
R := R - {x};
}
}
r := b;
}
method FindCelebrity3(n: int, people: set<int>, ghost c: int) returns (r: int)
requires 0 < n;
requires (forall p :: p in people <==> 0 <= p && p < n);
requires IsCelebrity(c, people);
ensures r == c;
{
r := 0;
var a := 1;
var b := 0;
while (a < n)
invariant a <= n;
invariant b < a; // Celebrity_2/inv3 and Celebrity_3/inv2
invariant c == b || (a <= c && c < n);
{
if (Knows(a, b)) {
a := a + 1;
} else {
b := a;
a := a + 1;
}
}
r := b;
}
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