Merge branch 'dev' of gitlab.com:ligolang/ligo into rinderknecht-dev

This commit is contained in:
Christian Rinderknecht 2020-01-09 19:49:57 +01:00
commit 19e2ffb750
4 changed files with 48 additions and 3 deletions

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@ -1012,3 +1012,27 @@ let%expect_test _ =
let%expect_test _ =
run_ligo_good [ "dry-run" ; contract "double_main.ligo" ; "main" ; "unit" ; "0" ] ;
[%expect {|( [] , 2 ) |}]
let%expect_test _ =
run_ligo_good [ "compile-contract" ; contract "subtle_nontail_fail.mligo" ; "main" ] ;
[%expect {|
{ parameter unit ;
storage unit ;
code { PUSH bool True ;
IF { PUSH string "This contract always fails" ; FAILWITH }
{ PUSH string "This contract still always fails" ; FAILWITH } } } |}]
let%expect_test _ =
(* TODO should not be bad? *)
run_ligo_bad [ "dry-run" ; contract "subtle_nontail_fail.mligo" ; "main" ; "()" ; "()" ] ;
[%expect {|
ligo: error of execution
If you're not sure how to fix this error, you can
do one of the following:
* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
* Ask a question on our Discord: https://discord.gg/9rhYaEt
* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
* Check the changelog by running 'ligo changelog' |}]

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@ -103,7 +103,7 @@ let run_contract ?options (exp:Michelson.t) (exp_type:ex_ty) (input_michelson:Mi
let exp = Michelson.strip_annots exp in
let%bind descr =
Trace.trace_tzresult_lwt (simple_error "error parsing program code") @@
Memory_proto_alpha.parse_michelson ~top_level exp ty_stack_before ty_stack_after in
Memory_proto_alpha.parse_michelson_fail ~top_level exp ty_stack_before ty_stack_after in
let open! Memory_proto_alpha.Protocol.Script_interpreter in
let%bind (Item(output, Empty)) =
Trace.trace_tzresult_lwt (simple_error "error of execution") @@
@ -120,7 +120,7 @@ let run_expression ?options (exp:Michelson.t) (exp_type:ex_ty) : run_res result
and ty_stack_after = Script_typed_ir.Item_t (exp_type', Empty_t, None) in
let%bind descr =
Trace.trace_tzresult_lwt (simple_error "error parsing program code") @@
Memory_proto_alpha.parse_michelson ~top_level exp ty_stack_before ty_stack_after in
Memory_proto_alpha.parse_michelson_fail ~top_level exp ty_stack_before ty_stack_after in
let open! Memory_proto_alpha.Protocol.Script_interpreter in
let%bind res =
Trace.trace_tzresult_lwt (simple_error "error of execution") @@

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@ -359,13 +359,30 @@ let opt_swap2 : peep2 = function
thwarting the intent of the Michelson tail fail restriction -- the
LIGO _user_ might accidentally write dead code immediately after a
failure, and we will simply erase it. *)
let rec is_failing : michelson -> bool =
function
| Seq (_, []) -> false
| Seq (_, [arg]) -> is_failing arg
| Seq (l, _ :: args) -> is_failing (Seq (l, args))
| Prim (_, I_FAILWITH, _, _) -> true
| Prim (_, I_IF, [bt; bf], _)
| Prim (_, I_IF_CONS, [bt; bf], _)
| Prim (_, I_IF_LEFT, [bt; bf], _)
| Prim (_, I_IF_NONE, [bt; bf], _) ->
is_failing bt && is_failing bf
(* Note: the body of ITER, LOOP, LOOP_LEFT _can_ be
failing. However, the loop will _not_ be failing, because the
body might never be executed. The body of MAP _cannot_ be
failing. *)
| _ -> false
let rec opt_tail_fail : michelson -> michelson =
function
| Seq (l, args) ->
let rec aux args =
match args with
| [] -> []
| Prim (l, I_FAILWITH, args, annot) :: _ -> [ Prim (l, I_FAILWITH, args, annot) ]
| arg :: _ when is_failing arg -> [arg]
| arg :: args -> arg :: aux args in
let args = aux args in
Seq (l, List.map opt_tail_fail args)

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@ -0,0 +1,4 @@
let main (ps : unit * unit) =
if true
then failwith "This contract always fails"
else failwith "This contract still always fails"