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class C {
function F(c: C, d: D): bool { true }
method M(x: int) returns (y: int, c: C)
requires F(D.A, this); // 2 errors
requires F(4, 5); // 2 errors
requires F(this, D.A); // good
{ }
method Caller()
{
var m,n := M(true); // error on in-parameter
n,m := M(m); // 2 errors on out-parameters
}
}
datatype D = A;
datatype NeverendingList = Cons(int, NeverendingList); // error: no grounding constructor
datatype MutuallyRecursiveDataType<T> =
FromANumber(int) | // this is the base case
Else(TheCounterpart<T>, C);
datatype TheCounterpart<T> =
TreeLike(TheCounterpart<T>, TheCounterpart<T>) |
More(MutuallyRecursiveDataType<T>);
// these 'ReverseOrder_' order tests may be called white-box unit tests
datatype ReverseOrder_MutuallyRecursiveDataType<T> =
FromANumber(int) | // this is the base case
Else(ReverseOrder_TheCounterpart<T>, C);
datatype ReverseOrder_TheCounterpart<T> =
TreeLike(ReverseOrder_TheCounterpart<T>, ReverseOrder_TheCounterpart<T>) |
More(ReverseOrder_MutuallyRecursiveDataType<T>);
// ---------------------
class ArrayTests {
ghost method G(a: array<int>)
requires a != null && 10 <= a.Length;
modifies a;
{
a[7] := 13; // error: array elements are not ghost locations
}
}
// ---------------------
method DuplicateVarName(x: int) returns (y: int)
{
var z: int;
var z: int; // error: redeclaration of local
var x := x; // redeclaration of in-parameter is fine
var x := x; // error: but a redeclaration of that local is not fine
{
var x := x; // an inner local variable of the same name is fine
var x := x; // error: but a redeclaration thereof is not okay
var y := y; // duplicating an out-parameter here is fine
}
var y := y; // error: redeclaration of an out-parameter is not allowed (it is
// treated like an outermost-scoped local in this regard)
}
// ---------------------
method InitCalls() {
var c := new C.F(null, null); // error: F is not a method
var d := new C.M(8); // error: M has out parameters
var e := new C.Caller();
}
// ---------------------
method ArrayRangeAssignments(a: array<C>, c: C)
requires a != null && 10 <= a.Length;
{
a[0..5] := new C; // error: this is not allowed
a[1..4] := *; // error: this is not allowed
a[2..3] := c; // error: this is not allowed
var s: seq<C> := [null,null,null,null,null];
s[0..5] := new C; // error: this is not allowed
s[1..4] := *; // error: this is not allowed
s[2..3] := c; // error: this is not allowed
}
// --------------------- tests of restrictions on subranges (nat)
method K() {
var s: set<nat>; // error: not allowed to instantiate 'set' with 'nat'
var d: MutuallyRecursiveDataType<nat>; // error: not allowed to instantiate with 'nat'
var a := new nat[100]; // error: not allowed the type array<nat>
var b := new nat[100,200]; // error: not allowed the type array2<nat>
}
// --------------------- more ghost tests, for assign-such-that statements
method M()
{
ghost var b: bool;
ghost var k: int, l: int;
var m: int;
// These three statements are allowed by the resolver, but the compiler will complain
// if it ever gets them.
k :| k < 10;
k, m :| 0 <= k < m;
m :| m < 10;
// Because of the ghost guard, these 'if' statements are ghost contexts, so only
// assignments to ghosts are allowed.
if (b) {
k :| k < 10; // should be allowed
k, l :| 0 <= k < l; // ditto
}
if (b) {
m :| m < 10; // error: not allowed in ghost context
k, m :| 0 <= k < m; // error: not allowed in ghost context
}
}
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