path: root/Test/dafny0/Maps.dfy

// RUN: %dafny /compile:0 /print:"%t.print" /dprint:"%t.dprint" "%s" > "%t"
// RUN: %diff "%s.expect" "%t"

// This method can be used to test compilation.
method Main()
{
   var m := map[2:=3];
   // test "in"
   if(2 in m)
   {
      print "m0\n";
   }
   else
   { assert false; }
   // test "!in"
   if(3 !in m)
   {
      print "m1\n";
   }
   else
   { assert false; }
   // dereference
   if(m[2] == 3)
   {
      print "m2\n";
   }
   else
   { assert false; }
   // test disjoint operator
   if(m !! map[3 := 3])
   {
      print "m3\n";
   }
   else
   { assert false; }
   // updates should replace values that already exist
   if(m[2 := 4] == map[2 := 4])
   {
      print "m4\n";
   }
   else
   { assert false; }
   // add something to the map
   if(m[7 := 1] == map[2 := 3,7 := 1])
   {
      print "m5\n";
   }
   else
   { assert false; }
   // test applicative nature of Map<U, V> in C#
   if(m == map[2 := 3])
   {
      print "m6\n";
   }
   else
   { assert false; }
   // this should print all m1, m2, ... m6.
}

method m()
{
   var a := map[2:=3]; var b := map[3:=2];
   assert a[b[3]] == 3;
}
method m2(a: map<int, bool>, b: map<int, bool>)
   requires forall i | 0 <= i < 100 :: i in a && i in b && a[i] != b[i];
{
   assert forall i | 0 <= i < 100 :: a[i] || b[i];
}
method m3(a: map<int, int>)
   requires forall i | 0 <= i < 100 :: i in a && a[i] == i*i;
{
   assert a[20] == 400;
}
method m4()
{
   var a := map[3 := 9];
   if(a[4] == 4) // UNSAFE, 4 not in the domain
   {
      m();
   }
}

method m5(a: map<int, int>)
   requires 20 in a;
{
   assert a[20] <= 0 || 0 < a[20];
}
method m6()
{
   var a := map[3 := 9];
   assert a[3:=5] == map[3:=5];
   assert a[2:=5] == map[2:=5, 3:=9];
   assert a[2:=5] == map[2:=6, 3:=9, 2:=5]; // test the ordering of assignments in the map literal
}
method m7()
{
   var a := map[1:=1, 2:=4, 3:=9];
   assert forall i | i in a :: a[i] == i * i;
   assert 0 !in a;
   assert 1 in a;
   assert 2 in a;
   assert 3 in a;
   assert forall i | i < 1 || i > 3 :: i !in a;
}
method m8()
{
   var a: map<int,int> := map[];
   assert forall i :: i !in a; // check emptiness
   var i,n := 0, 100;
   while(i < n)
      invariant 0 <= i <= n;
      invariant forall i | i in a :: a[i] == i * i;
      invariant forall k :: 0 <= k < i <==> k in a;
   {
      a := a[i := i * i];
      i := i + 1;
   }
   assert a !! map[-1:=2];
   m3(a);
}
method m9()
{
   var a, b := map[], map[];
   assert a !! b;
   b := map[2:=3,4:=2,5:=-6,6:=7];
   assert a !! b;
   assert b !! map[6:=3]; // ERROR, both share 6 in the domain.
}
method m10()
{
   var a, b := map[], map[];
   assert a !! b;
   b := map[2:=3,4:=2,5:=-6,6:=7];
   assert a !! b;
   a := map[3:=3,1:=2,9:=-6,8:=7];
   assert a !! b;
}
method m11<U, V>(a: map<U, V>, b: map<U, V>)
   requires forall i :: !(i in a && i in b);
{
   assert a !! b;
}

method m12()
{
   var x := map i | 0 <= i < 10 :: i * 2;
   assert 0 in x;
   assert 1 in x;
   assert 10 !in x;
   assert x[0] == 0 && x[2] == 4;
}

function domain<U, V>(m: map<U,V>): set<U>
   ensures forall i :: i in domain(m) <==> i in m;
{
   set s | s in m
}

method m13()
{
   var s := {0, 1, 3, 4};
   var x := map i | i in s :: i;
   assert forall i | i in x :: x[i] == i;
   assert domain(x) == s;
}

function union<U, V>(m: map<U,V>, m': map<U,V>): map<U,V>
   requires m !! m';
   ensures forall i :: i in union(m, m') <==> i in m || i in m';
   ensures forall i :: i in m ==> union(m, m')[i] == m[i];
   ensures forall i :: i in m' ==> union(m, m')[i] == m'[i];
{
   map i | i in (domain(m) + domain(m')) :: if i in m then m[i] else m'[i]
}

method m14()
{
   var s, t := {0, 1}, {3, 4};
   var x,y := map i | i in s :: i, map i | i in t :: 1+i;
   ghost var u := union(x,y);
   assert u[1] == 1 && u[3] == 4;
   assert domain(u) == {0, 1, 3, 4};
}

class A { var x: int; }

method m15(b: set<A>) 
  requires forall a | a in b :: a != null;
{
  var m := map a | a in b :: a.x;
  var aa := new A;
  assert aa !in m;
}