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//Should not verify, as ghost loops should not be allowed to diverge.
method GhostDivergentLoop()
{
var a := new int [2];
a[0] := 1;
a[1] := -1;
ghost var i := 0;
while (i < 2)
decreases *; // error: not allowed on a ghost loop
invariant i <= 2;
invariant (forall j :: 0 <= j && j < i ==> a[j] > 0);
{
i := 0;
}
assert a[1] != a[1]; // ...for then this would incorrectly verify
}
method ManyIndices<T>(a: array3<T>, b: array<T>, m: int, n: int)
{
// the following invalid expressions were once incorrectly resolved:
var x := a[m, n]; // error
var y := a[m]; // error
var z := b[m, n, m, n]; // error
}
method SB(b: array2<int>, s: int) returns (x: int, y: int)
requires b != null;
{
while
{
case b[x,y] == s =>
}
}
// -------- name resolution
class Global {
var X: int;
function method F(x: int): int { x }
static function method G(x: int): int { x }
method M(x: int) returns (r: int)
{
r := x + X;
}
static method N(x: int) returns (r: int)
{
r := x + X; // error: cannot access instance field X from static method
}
}
method TestNameResolution0() {
var z: int;
z := Global.X; // error: X is an instance field
z := F(2); // error: cannot resolve F
z := Global.F(2); // error: invocation of instance function requires an instance
z := G(2); // error: cannot resolve G
z := Global.G(2);
z := M(2); // error: cannot resolve M
z := Global.M(2); // error: call to instance method requires an instance
z := N(1); // error: cannot resolve N
z := Global.N(1);
z := z(5); // error: using local as if it were a function
z := Global.z; // error: class Global does not have a member z
var Global: Global; // a local variable with the name 'Global'
z := Global.X; // this means the instance field X of the object stored in the local variable 'Global'
var gg: Global := null;
var y := gg.G(5);
y := gg.N(5);
}
datatype Abc = Abel | Benny | Cecilia(y: int) | David(x: int) | Eleanor;
datatype Xyz = Alberta | Benny | Constantine(y: int) | David(x: int);
datatype Rst = David(x: int, y: int);
function Tuv(arg0: Abc, arg1: bool): int { 10 }
var Eleanor: bool;
method TestNameResolution1() {
var a0 := Abel;
var a1 := Alberta;
var b0 := Benny; // error: there's more than one constructor with the name Benny; needs qualification
var b1 := Abc.Benny;
var b2 := Xyz.Benny;
var Benny := 15; // introduce a local variable with the name 'Benny'
var b3 := Benny;
var d0 := David(20); // error: constructor name David is ambiguous
var d1 := David; // error: constructor name David is ambiguous (never mind that the signature does
// not match either of them)
var d2 := David(20, 40); // error: constructor name Davis is ambiguous (never mind that the given
// parameters match the signature of only one of those constructors)
var d3 := Abc.David(20, 40); // error: wrong number of parameters
var d4 := Rst.David(20, 40);
var e := Eleanor;
assert Tuv(e, this.Eleanor) == 10;
}
// --------------- ghost tests -------------------------------------
datatype GhostDt =
Nil(ghost extraInfo: int) |
Cons(data: int, tail: GhostDt, ghost moreInfo: int);
class GhostTests {
method M(dt: GhostDt) returns (r: int) {
ghost var g := 5;
r := g; // error: RHS is ghost, LHS is not
r := F(18, g); // error: RHS is a ghost and will not be available at run time
r := G(20, g); // it's fine to pass a ghost as a parameter to a non-ghost, because
// only the ghost goes away during compilation
r := N(22, g); // ditto
r := N(g, 22); // error: passing in 'g' as non-ghost parameter
r := P(24, 22); // error: 'P' is ghost, but its result is assigned to a non-ghost
match (dt) {
case Nil(gg) =>
case Cons(dd, tt, gg) =>
r := G(dd, dd); // fine
r := G(dd, gg); // fine
r := G(gg, gg); // error: cannot pass ghost 'gg' as non-ghost parameter to 'G'
}
var dd;
dd := GhostDt.Nil(g); // fine
dd := GhostDt.Cons(g, dt, 2); // error: cannot pass 'g' as non-ghost parameter
ghost var dtg := GhostDt.Cons(g, dt, 2); // fine, since result is ghost
}
function F(x: int, y: int): int {
y
}
function method G(x: int, ghost y: int): int {
y // error: cannot return a ghost from a non-ghost function
}
function method H(dt: GhostDt): int {
match dt
case Nil(gg) => gg // error: cannot return a ghost from a non-ghost function
case Cons(dd, tt, gg) => dd + gg // error: ditto
}
method N(x: int, ghost y: int) returns (r: int) {
r := x;
}
ghost method P(x: int, y: int) returns (r: int) {
ghost var g := 5;
r := y; // allowed, since the entire method is ghost
r := r + g; // fine, for the same reason
r := N(20, 20); // error: call to non-ghost method from ghost method is not okay
}
ghost method NiceTry()
ensures false;
{
while (true)
decreases *; // error: not allowed in ghost context
{
}
}
ghost method BreaksAreFineHere(t: int)
{
var n := 0;
ghost var k := 0;
while (true)
invariant n <= 112;
decreases 112 - n;
{
label MyStructure: {
if (k % 17 == 0) { break MyStructure; } // this is fine, because it's a ghost method
k := k + 1;
}
label MyOtherStructure:
if (k % 17 == 0) {
break MyOtherStructure;
} else {
k := k + 1;
}
if (n == 112) {
break;
} else if (n == t) {
return;
}
n := n + 1;
}
}
method BreakMayNotBeFineHere(ghost t: int)
{
var n := 0;
ghost var k := 0;
var p := 0;
while (true)
invariant n <= 112;
decreases 112 - n;
{
label MyStructure: {
if (k % 17 == 0) { break MyStructure; } // error: break from ghost to non-ghost point
k := k + 1;
}
label MyOtherStructure:
if (k % 17 == 0) {
break MyOtherStructure; // this break is fine
} else {
k := k + 1;
}
var dontKnow;
if (n == 112) {
ghost var m := 0;
label LoopLabel0:
label LoopLabel1:
while (m < 200) {
if (m % 103 == 0) {
if {
case true => break; // fine, since this breaks out of the enclosing ghost loop
case true => break LoopLabel0; // fine
case true => break LoopLabel1; // fine
}
} else if (m % 101 == 0) {
break break; // error: break out of non-ghost loop from ghost context
}
m := m + 3;
}
break;
} else if (dontKnow == 708) {
var q := 0;
while (q < 1) {
label IfNest:
if (p == 67) {
break break; // fine, since this is not a ghost context
} else if (*) {
break break break; // error: tries to break out of more loop levels than there are
} else if (*) {
break break; // fine, since this is not a ghost context
} else if (k == 67) {
break break; // error, because this is a ghost context
}
q := q + 1;
}
} else if (n == t) {
return; // error: this is a ghost context trying to return from a non-ghost method
}
n := n + 1;
p := p + 1;
}
}
}
method DuplicateLabels(n: int) {
var x;
if (n < 7) {
label DuplicateLabel: x := x + 1;
} else {
label DuplicateLabel: x := x + 1;
}
label DuplicateLabel: x := x + 1;
label DuplicateLabel: {
label AnotherLabel:
label DuplicateLabel: // error: duplicate label
label OneMoreTime:
x := x + 1;
}
label DuplicateLabel:
label DuplicateLabel: // error: duplicate label
x := x + 1;
label DuplicateLabel: x := x + 1;
}
// --------------- constructors -------------------------------------
class ClassWithConstructor {
var y: int;
method NotTheOne() { }
constructor InitA() { }
constructor InitB() modifies this; { y := 20; }
}
class ClassWithoutConstructor {
method Init() modifies this; { }
}
method ConstructorTests()
{
var o := new object; // fine: does not have any constructors
o := new ClassWithoutConstructor; // fine: don't need to call anything particular method
o := new ClassWithoutConstructor.Init(); // this is also fine
var c := new ClassWithConstructor.InitA();
c := new ClassWithConstructor; // error: must call a constructor
c := new ClassWithConstructor.NotTheOne(); // error: must call a constructor, not an arbitrary method
c := new ClassWithConstructor.InitB();
c.InitB(); // error: not allowed to call constructors except during allocation
}
// ------------------- datatype destructors ---------------------------------------
datatype DTD_List = DTD_Nil | DTD_Cons(Car: int, Cdr: DTD_List, ghost g: int);
method DatatypeDestructors(d: DTD_List) {
if {
case d.DTD_Nil? =>
assert d == DTD_Nil;
case d.DTD_Cons? =>
var hd := d.Car;
var tl := d.Cdr;
assert hd == d.Cdr; // type error
assert tl == d.Car; // type error
assert d.DTD_Cons? == d.Car; // type error
assert d == DTD_Cons(hd, tl, 5);
ghost var g0 := d.g; // fine
var g1 := d.g; // error: cannot use ghost member in non-ghost code
}
}
// ------------------- print statements ---------------------------------------
method PrintOnlyNonGhosts(a: int, ghost b: int)
{
print "a: ", a, "\n";
print "b: ", b, "\n"; // error: print statement cannot take ghosts
}
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