test for tail recursion
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@ -1174,7 +1174,7 @@ let%expect_test _ =
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let%expect_test _ =
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run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_toplevel.mligo" ; "main" ] ;
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[%expect {|
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ligo: in file "create_contract_toplevel.mligo", line 4, character 35 to line 8, character 8. No free variable allowed in this lambda: variable 'store' {"expression":"CREATE_CONTRACT(lambda (#P:Some(( nat * string ))) : None return let rhs#808 = #P in let p = rhs#808.0 in let s = rhs#808.1 in ( list[] : (TO_list(operation)) , store ) , NONE() : (TO_option(key_hash)) , 300000000mutez , \"un\")","location":"in file \"create_contract_toplevel.mligo\", line 4, character 35 to line 8, character 8"}
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ligo: in file "create_contract_toplevel.mligo", line 4, character 35 to line 8, character 8. No free variable allowed in this lambda: variable 'store' {"expression":"CREATE_CONTRACT(lambda (#P:Some(( nat * string ))) : None return let rhs#809 = #P in let p = rhs#809.0 in let s = rhs#809.1 in ( list[] : (TO_list(operation)) , store ) , NONE() : (TO_option(key_hash)) , 300000000mutez , \"un\")","location":"in file \"create_contract_toplevel.mligo\", line 4, character 35 to line 8, character 8"}
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If you're not sure how to fix this error, you can
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@ -1187,7 +1187,7 @@ ligo: in file "create_contract_toplevel.mligo", line 4, character 35 to line 8,
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run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_var.mligo" ; "main" ] ;
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[%expect {|
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ligo: in file "create_contract_var.mligo", line 6, character 35 to line 10, character 5. No free variable allowed in this lambda: variable 'a' {"expression":"CREATE_CONTRACT(lambda (#P:Some(( nat * int ))) : None return let rhs#811 = #P in let p = rhs#811.0 in let s = rhs#811.1 in ( list[] : (TO_list(operation)) , a ) , NONE() : (TO_option(key_hash)) , 300000000mutez , 1)","location":"in file \"create_contract_var.mligo\", line 6, character 35 to line 10, character 5"}
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ligo: in file "create_contract_var.mligo", line 6, character 35 to line 10, character 5. No free variable allowed in this lambda: variable 'a' {"expression":"CREATE_CONTRACT(lambda (#P:Some(( nat * int ))) : None return let rhs#812 = #P in let p = rhs#812.0 in let s = rhs#812.1 in ( list[] : (TO_list(operation)) , a ) , NONE() : (TO_option(key_hash)) , 300000000mutez , 1)","location":"in file \"create_contract_var.mligo\", line 6, character 35 to line 10, character 5"}
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If you're not sure how to fix this error, you can
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@ -32,6 +32,19 @@ let%expect_test _ =
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ligo: in file "", line 0, characters 0-0. different kinds: {"a":"( (TO_list(operation)) * sum[Add -> int , Sub -> int] )","b":"sum[Add -> int , Sub -> int]"}
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If you're not sure how to fix this error, you can
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do one of the following:
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* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
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* Ask a question on our Discord: https://discord.gg/9rhYaEt
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* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
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* Check the changelog by running 'ligo changelog' |}];
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run_ligo_bad [ "compile-contract" ; "../../test/contracts/negative/error_no_tail_recursive_function.mligo"; "f"];
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[%expect {|
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ligo: in file "error_no_tail_recursive_function.mligo", line 2, characters 14-21. Recursive call is only allowed as the last operation: {"function":"unvalid","location":"in file \"error_no_tail_recursive_function.mligo\", line 2, characters 14-21"}
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If you're not sure how to fix this error, you can
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do one of the following:
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@ -9,10 +9,10 @@
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interpreter
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ast_simplified
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self_ast_simplified
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self_ast_typed
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typer_new
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typer
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ast_typed
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self_ast_typed
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transpiler
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mini_c
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self_mini_c
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@ -7,10 +7,11 @@ type form =
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let compile (cform: form) (program : Ast_simplified.program) : (Ast_typed.program * Typer.Solver.state) result =
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let%bind (prog_typed , state) = Typer.type_program program in
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let () = Typer.Solver.discard_state state in
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let%bind prog_typed' = match cform with
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| Contract entrypoint -> Self_ast_typed.all_contract entrypoint prog_typed
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| Env -> ok prog_typed in
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ok @@ (prog_typed', state)
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let%bind applied = Self_ast_typed.all_program prog_typed in
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let%bind applied' = match cform with
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| Contract entrypoint -> Self_ast_typed.all_contract entrypoint applied
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| Env -> ok applied in
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ok @@ (applied', state)
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let compile_expression ?(env = Ast_typed.Environment.full_empty) ~(state : Typer.Solver.state) (ae : Ast_simplified.expression)
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: (Ast_typed.expression * Typer.Solver.state) result =
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@ -25,6 +25,7 @@ let rec fold_expression : 'a folder -> 'a -> expression -> 'a result = fun f ini
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ok res
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)
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| E_lambda { binder = _ ; result = e }
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| E_recursive {lambda= {result=e}}
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| E_constructor {element=e} -> (
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let%bind res = self init' e in
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ok res
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@ -148,6 +149,10 @@ let rec map_expression : mapper -> expression -> expression result = fun f e ->
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let%bind result = self result in
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return @@ E_lambda { binder ; result }
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)
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| E_recursive { fun_name; fun_type; lambda = {binder;result}} -> (
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let%bind result = self result in
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return @@ E_recursive { fun_name; fun_type; lambda = {binder;result}}
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)
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| E_constant c -> (
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let%bind args = bind_map_list self c.arguments in
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return @@ E_constant {c with arguments=args}
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@ -172,9 +177,9 @@ and map_cases : mapper -> matching_expr -> matching_expr result = fun f m ->
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let%bind some = map_expression f some in
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ok @@ Match_option { match_none ; match_some = (name , some, te) }
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)
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| Match_tuple ((names , e), _) -> (
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| Match_tuple ((names , e), te) -> (
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let%bind e' = map_expression f e in
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ok @@ Match_tuple ((names , e'), [])
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ok @@ Match_tuple ((names , e'), te)
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)
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| Match_variant (lst, te) -> (
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let aux ((a , b) , e) =
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@ -188,9 +193,9 @@ and map_cases : mapper -> matching_expr -> matching_expr result = fun f m ->
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and map_program : mapper -> program -> program result = fun m p ->
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let aux = fun (x : declaration) ->
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match x with
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| Declaration_constant (v , e , i, env) -> (
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| Declaration_constant (n , e , i, env) -> (
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let%bind e' = map_expression m e in
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ok (Declaration_constant (v , e' , i, env))
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ok (Declaration_constant (n , e' , i, env))
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)
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in
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bind_map_list (bind_map_location aux) p
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@ -260,6 +265,10 @@ let rec fold_map_expression : 'a fold_mapper -> 'a -> expression -> ('a * expres
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let%bind (res,result) = self init' result in
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ok ( res, return @@ E_lambda { binder ; result })
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)
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| E_recursive { fun_name; fun_type; lambda={binder;result}} -> (
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let%bind (res,result) = self init' result in
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ok (res, return @@ E_recursive {fun_name; fun_type; lambda={binder;result}})
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)
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| E_constant c -> (
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let%bind (res,args) = bind_fold_map_list self init' c.arguments in
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ok (res, return @@ E_constant {c with arguments=args})
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@ -283,9 +292,9 @@ and fold_map_cases : 'a fold_mapper -> 'a -> matching_expr -> ('a * matching_exp
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let%bind (init, some) = fold_map_expression f init some in
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ok @@ (init, Match_option { match_none ; match_some = (name , some, te) })
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)
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| Match_tuple ((names , e), _) -> (
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| Match_tuple ((names , e), te) -> (
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let%bind (init, e') = fold_map_expression f init e in
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ok @@ (init, Match_tuple ((names , e'), []))
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ok @@ (init, Match_tuple ((names , e'), te))
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)
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| Match_variant (lst, te) -> (
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let aux init ((a , b) , e) =
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0
src/passes/5-self_ast_typed/main.ml
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0
src/passes/5-self_ast_typed/main.ml
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@ -1,6 +1,8 @@
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open Trace
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let all_passes = []
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let all_passes = [
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Tail_recursion.peephole_expression
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]
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let contract_passes = [
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Contract_passes.self_typing ;
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@ -22,3 +24,12 @@ let all_contract main_name prg =
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} in
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let all_p = List.map (fun pass -> Helpers.fold_map_program pass data) contract_passes in
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bind_chain_ignore_acc all_p prg
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let all = [
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Tail_recursion.peephole_expression
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]
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let map_expression = Helpers.map_expression
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let fold_expression = Helpers.fold_expression
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let fold_map_expression = Helpers.fold_map_expression
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108
src/passes/5-self_ast_typed/tail_recursion.ml
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108
src/passes/5-self_ast_typed/tail_recursion.ml
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@ -0,0 +1,108 @@
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open Ast_typed
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open Trace
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module Errors = struct
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let recursive_call_is_only_allowed_as_the_last_operation name loc () =
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let title = (thunk ("Recursive call is only allowed as the last operation")) in
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let message () = "" in
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let data = [
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("function" , fun () -> Format.asprintf "%a" PP.expression_variable name);
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("location" , fun () -> Format.asprintf "%a" Location.pp loc)
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] in
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error ~data title message ()
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end
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open Errors
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let rec check_recursive_call : expression_variable -> bool -> expression -> unit result = fun n final_path e ->
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match e.expression_content with
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| E_literal _ -> ok ()
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| E_constant c ->
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let%bind _ = bind_map_list (check_recursive_call n false) c.arguments in
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ok ()
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| E_variable v -> (
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let%bind _ = trace_strong (recursive_call_is_only_allowed_as_the_last_operation n e.location) @@
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Assert.assert_true (final_path || n <> v) in
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ok ()
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)
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| E_application {expr1;expr2} ->
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let%bind _ = check_recursive_call n final_path expr1 in
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let%bind _ = check_recursive_call n false expr2 in
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ok ()
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| E_lambda {result;_} ->
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let%bind _ = check_recursive_call n final_path result in
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ok ()
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| E_recursive { fun_name; lambda} ->
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let%bind _ = check_recursive_call fun_name true lambda.result in
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ok ()
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| E_let_in {rhs;let_result;_} ->
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let%bind _ = check_recursive_call n false rhs in
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let%bind _ = check_recursive_call n final_path let_result in
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ok ()
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| E_constructor {element;_} ->
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let%bind _ = check_recursive_call n false element in
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ok ()
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| E_matching {matchee;cases} ->
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let%bind _ = check_recursive_call n false matchee in
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let%bind _ = check_recursive_call_in_matching n final_path cases in
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ok ()
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| E_record elm ->
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let es = LMap.to_list elm in
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let%bind _ = bind_map_list (check_recursive_call n false) es in
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ok ()
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| E_record_accessor {expr;_} ->
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let%bind _ = check_recursive_call n false expr in
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ok ()
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| E_record_update {record;update;_} ->
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let%bind _ = check_recursive_call n false record in
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let%bind _ = check_recursive_call n false update in
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ok ()
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| E_map eel | E_big_map eel->
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let aux (e1,e2) =
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let%bind _ = check_recursive_call n false e1 in
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let%bind _ = check_recursive_call n false e2 in
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ok ()
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in
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let%bind _ = bind_map_list aux eel in
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ok ()
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| E_list el | E_set el ->
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let%bind _ = bind_map_list (check_recursive_call n false) el in
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ok ()
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| E_look_up (e1,e2) ->
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let%bind _ = check_recursive_call n false e1 in
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let%bind _ = check_recursive_call n false e2 in
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ok ()
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and check_recursive_call_in_matching = fun n final_path c ->
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match c with
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| Match_bool {match_true;match_false} ->
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let%bind _ = check_recursive_call n final_path match_true in
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let%bind _ = check_recursive_call n final_path match_false in
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ok ()
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| Match_list {match_nil;match_cons=(_,_,e,_)} ->
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let%bind _ = check_recursive_call n final_path match_nil in
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let%bind _ = check_recursive_call n final_path e in
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ok ()
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| Match_option {match_none; match_some=(_,e,_)} ->
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let%bind _ = check_recursive_call n final_path match_none in
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let%bind _ = check_recursive_call n final_path e in
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ok ()
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| Match_tuple ((_,e),_) ->
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let%bind _ = check_recursive_call n final_path e in
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ok ()
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| Match_variant (l,_) ->
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let aux (_,e) =
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let%bind _ = check_recursive_call n final_path e in
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ok ()
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in
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let%bind _ = bind_map_list aux l in
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ok ()
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let peephole_expression : expression -> expression result = fun e ->
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let return expression_content = ok { e with expression_content } in
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match e.expression_content with
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| E_recursive {fun_name; lambda} as e-> (
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let%bind _ = check_recursive_call fun_name true lambda.result in
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return e
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)
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| e -> return e
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@ -0,0 +1,3 @@
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let rec unvalid (n:int):int =
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let res = unvalid (n) in
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res + 1
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