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(*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
(* [@@@warning "-32"] *)
let%test_module _ =
( module struct
let () =
Trace.init ~margin:68
~config:(Result.ok_exn (Trace.parse "+Solver.infer_frame"))
()
(* let () =
* Trace.init ~margin:160
* ~config:
* (Result.ok_exn (Trace.parse "+Solver.infer_frame+Solver.excise"))
* () *)
let infer_frame p xs q =
Solver.infer_frame p (Var.Set.of_list xs) q
|> (ignore : Sh.t option -> _)
let check_frame p xs q =
Solver.infer_frame p (Var.Set.of_list xs) q
|> fun r -> assert (Option.is_some r)
let ( ! ) i = Term.integer (Z.of_int i)
let ( + ) = Term.add
let ( - ) = Term.sub
let ( * ) = Term.mul
let wrt = Var.Set.empty
let a_, wrt = Var.fresh "a" ~wrt
let a2_, wrt = Var.fresh "a" ~wrt
let a3_, wrt = Var.fresh "a" ~wrt
let b_, wrt = Var.fresh "b" ~wrt
let k_, wrt = Var.fresh "k" ~wrt
let l_, wrt = Var.fresh "l" ~wrt
let l2_, wrt = Var.fresh "l" ~wrt
let m_, wrt = Var.fresh "m" ~wrt
let n_, _ = Var.fresh "n" ~wrt
let a = Term.var a_
let a2 = Term.var a2_
let a3 = Term.var a3_
let b = Term.var b_
let k = Term.var k_
let l = Term.var l_
let l2 = Term.var l2_
let m = Term.var m_
let n = Term.var n_
let%expect_test _ =
check_frame Sh.emp [] Sh.emp ;
[%expect
{|
( infer_frame: emp \- emp
) infer_frame: emp |}]
let%expect_test _ =
check_frame (Sh.false_ Var.Set.empty) [] Sh.emp ;
[%expect
{|
( infer_frame: false \- emp
) infer_frame: false |}]
let%expect_test _ =
check_frame Sh.emp [n_; m_] (Sh.and_ (Term.eq m n) Sh.emp) ;
[%expect
{|
( infer_frame: emp \- %m_8, %n_9 . %m_8 = %n_9 emp
) infer_frame: %m_8 = %n_9 emp |}]
let%expect_test _ =
check_frame
(Sh.seg {loc= l; bas= b; len= m; siz= n; arr= a})
[] Sh.emp ;
[%expect
{|
( infer_frame: %l_6 -[ %b_4, %m_8 )-> %n_9,%a_1 \- emp
) infer_frame: %l_6 -[ %b_4, %m_8 )-> %n_9,%a_1 |}]
let%expect_test _ =
check_frame
(Sh.seg {loc= l; bas= b; len= m; siz= n; arr= a})
[]
(Sh.seg {loc= l; bas= b; len= m; siz= n; arr= a}) ;
[%expect
{|
( infer_frame:
%l_6 -[ %b_4, %m_8 )-> %n_9,%a_1
\- %l_6 -[ %b_4, %m_8 )-> %n_9,%a_1
) infer_frame: emp |}]
let%expect_test _ =
let common = Sh.seg {loc= l2; bas= b; len= !10; siz= !10; arr= a2} in
let seg1 = Sh.seg {loc= l; bas= b; len= !10; siz= !10; arr= a} in
let minued = Sh.star common seg1 in
let subtrahend =
Sh.and_ (Term.eq m n)
(Sh.exists
(Var.Set.of_list [m_])
(Sh.extend_us (Var.Set.of_list [m_]) common))
in
infer_frame minued [n_; m_] subtrahend ;
[%expect
{|
( infer_frame:
%l_6 -[ %b_4, 10 )-> 10,%a_1 * %l_7 -[ %b_4, 10 )-> 10,%a_2
\- %m_8, %n_9 .
%m_10 . %m_8 = %n_9 %l_7 -[ %b_4, 10 )-> 10,%a_2
) infer_frame:
%m_10 . %m_8 = %n_9 %l_6 -[ %b_4, 10 )-> 10,%a_1 |}]
let%expect_test _ =
check_frame
(Sh.star
(Sh.seg {loc= l; bas= b; len= m; siz= n; arr= a})
(Sh.seg {loc= l2; bas= b; len= m; siz= n; arr= a2}))
[]
(Sh.seg {loc= l; bas= b; len= m; siz= n; arr= a}) ;
[%expect
{|
( infer_frame:
%l_6 -[ %b_4, %m_8 )-> %n_9,%a_1
* %l_7 -[ %b_4, %m_8 )-> %n_9,%a_2
\- %l_6 -[ %b_4, %m_8 )-> %n_9,%a_1
) infer_frame: %l_7 -[ %b_4, %m_8 )-> %n_9,%a_2 |}]
let%expect_test _ =
check_frame
(Sh.star
(Sh.seg {loc= l; bas= l; len= !16; siz= !8; arr= a})
(Sh.seg {loc= l + !8; bas= l; len= !16; siz= !8; arr= a2}))
[a3_]
(Sh.seg {loc= l; bas= l; len= !16; siz= !16; arr= a3}) ;
[%expect
{|
( infer_frame:
%l_6 -[)-> 8,%a_1^8,%a_2 \- %a_3 . %l_6 -[)-> 16,%a_3
) infer_frame: %a_2 = _ (8,%a_1^8,%a_2) = %a_3 emp |}]
let%expect_test _ =
check_frame
(Sh.star
(Sh.seg {loc= l; bas= l; len= !16; siz= !8; arr= a})
(Sh.seg {loc= l + !8; bas= l; len= !16; siz= !8; arr= a2}))
[a3_; m_]
(Sh.seg {loc= l; bas= l; len= m; siz= !16; arr= a3}) ;
[%expect
{|
( infer_frame:
%l_6 -[)-> 8,%a_1^8,%a_2
\- %a_3, %m_8 .
%l_6 -[ %l_6, %m_8 )-> 16,%a_3
) infer_frame:
%a_2 = _ (8,%a_1^8,%a_2) = %a_3 16 = %m_8 emp |}]
let%expect_test _ =
check_frame
(Sh.star
(Sh.seg {loc= l; bas= l; len= !16; siz= !8; arr= a})
(Sh.seg {loc= l + !8; bas= l; len= !16; siz= !8; arr= a2}))
[a3_; m_]
(Sh.seg {loc= l; bas= l; len= m; siz= m; arr= a3}) ;
[%expect
{|
( infer_frame:
%l_6 -[)-> 8,%a_1^8,%a_2
\- %a_3, %m_8 .
%l_6 -[ %l_6, %m_8 )-> %m_8,%a_3
) infer_frame:
%a_2 = _ (8,%a_1^8,%a_2) = %a_3 16 = %m_8 emp |}]
let%expect_test _ =
check_frame
(Sh.star
(Sh.seg {loc= k; bas= k; len= !16; siz= !32; arr= a})
(Sh.seg {loc= l; bas= l; len= !8; siz= !8; arr= !16}))
[a2_; m_; n_]
(Sh.star
(Sh.seg {loc= l; bas= l; len= !8; siz= !8; arr= n})
(Sh.seg {loc= k; bas= k; len= m; siz= n; arr= a2})) ;
[%expect
{|
( infer_frame:
%k_5 -[ %k_5, 16 )-> 32,%a_1 * %l_6 -[)-> 8,16
\- %a_2, %m_8, %n_9 .
%k_5 -[ %k_5, %m_8 )-> %n_9,%a_2 * %l_6 -[)-> 8,%n_9
) infer_frame:
%a0_10, %a1_11 .
%a_2 = %a0_10
(16,%a_2^16,%a1_11) = %a_1
16 = %m_8 = %n_9
(%k_5 + 16) -[ %k_5, 16 )-> 16,%a1_11 |}]
let%expect_test _ =
infer_frame
(Sh.star
(Sh.seg {loc= k; bas= k; len= !16; siz= !32; arr= a})
(Sh.seg {loc= l; bas= l; len= !8; siz= !8; arr= !16}))
[a2_; m_; n_]
(Sh.star
(Sh.seg {loc= k; bas= k; len= m; siz= n; arr= a2})
(Sh.seg {loc= l; bas= l; len= !8; siz= !8; arr= n})) ;
[%expect
{|
( infer_frame:
%k_5 -[ %k_5, 16 )-> 32,%a_1 * %l_6 -[)-> 8,16
\- %a_2, %m_8, %n_9 .
%k_5 -[ %k_5, %m_8 )-> %n_9,%a_2 * %l_6 -[)-> 8,%n_9
) infer_frame:
%a0_10, %a1_11 .
%a_2 = %a0_10
(16,%a_2^16,%a1_11) = %a_1
16 = %m_8 = %n_9
(%k_5 + 16) -[ %k_5, 16 )-> 16,%a1_11 |}]
let seg_split_symbolically =
Sh.star
(Sh.seg {loc= l; bas= l; len= !16; siz= !8 * n; arr= a2})
(Sh.seg
{ loc= l + (!8 * n)
; bas= l
; len= !16
; siz= !16 - (!8 * n)
; arr= a3 })
let%expect_test _ =
check_frame
(Sh.and_
Term.(or_ (or_ (eq n !0) (eq n !1)) (eq n !2))
seg_split_symbolically)
[m_; a_]
(Sh.seg {loc= l; bas= l; len= m; siz= m; arr= a}) ;
[%expect
{|
( infer_frame:
%l_6 -[ %l_6, 16 )-> (8 × %n_9),%a_2^(-8 × %n_9 + 16),%a_3
* ( ( 2 = %n_9 emp)
( 0 = %n_9 emp)
( 1 = %n_9 emp)
)
\- %a_1, %m_8 .
%l_6 -[ %l_6, %m_8 )-> %m_8,%a_1
) infer_frame:
( ( %a_1 = %a_2
2 = %n_9
16 = %m_8
(%l_6 + 16) -[ %l_6, 16 )-> 0,%a_3)
( %a_3 = _
(8,%a_2^8,%a_3) = %a_1
1 = %n_9
16 = %m_8
emp)
( %a_3 = _
(0,%a_2^16,%a_3) = %a_1
0 = %n_9
16 = %m_8
emp)
) |}]
(* Incompleteness: equivalent to above but using ≤ instead of *)
let%expect_test _ =
infer_frame
(Sh.and_ (Term.le n !2) seg_split_symbolically)
[m_; a_]
(Sh.seg {loc= l; bas= l; len= m; siz= m; arr= a}) ;
[%expect
{|
( infer_frame:
(%n_9 2)
%l_6 -[ %l_6, 16 )-> (8 × %n_9),%a_2^(-8 × %n_9 + 16),%a_3
\- %a_1, %m_8 .
%l_6 -[ %l_6, %m_8 )-> %m_8,%a_1
) infer_frame: |}]
(* Incompleteness: cannot witness existentials to satisfy non-equality
pure constraints *)
let%expect_test _ =
let subtrahend = Sh.and_ (Term.eq m a) (Sh.pure (Term.dq m !0)) in
let minuend = Sh.extend_us (Var.Set.of_ a_) Sh.emp in
infer_frame minuend [m_] subtrahend ;
[%expect
{|
( infer_frame: emp \- %m_8 . %a_1 = %m_8 (%a_1 0) emp
) infer_frame: |}]
end )