ligo/src/passes/6-transpiler/transpiler.ml

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open! Trace
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open Helpers
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module AST = Ast_typed
module Append_tree = Tree.Append
open AST.Combinators
open Mini_c
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let untranspile = Untranspiler.untranspile
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let temp_unwrap_loc = Location.unwrap
let temp_unwrap_loc_list = List.map Location.unwrap
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module Errors = struct
let corner_case ~loc message =
let title () = "corner case" in
let content () = "we don't have a good error message for this case. we are
striving find ways to better report them and find the use-cases that generate
them. please report this to the developers." in
let data = [
("location" , fun () -> loc) ;
("message" , fun () -> message) ;
] in
error ~data title content
let unrecognized_type_constant name =
let title () = "unrecognized type constant" in
let content () = name in
error title content
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let row_loc l = ("location" , fun () -> Format.asprintf "%a" Location.pp l)
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let unsupported_pattern_matching kind location =
let title () = "unsupported pattern-matching" in
let content () = Format.asprintf "%s patterns aren't supported yet" kind in
let data = [
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row_loc location ;
] in
error ~data title content
let unsupported_iterator location =
let title () = "unsupported iterator" in
let content () = "only lambda are supported as iterators" in
let data = [
row_loc location ;
] in
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error ~data title content
let not_functional_main location =
let title () = "not functional main" in
let content () = "main should be a function" in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp location) ;
] in
error ~data title content
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let bad_big_map location =
let title () = "bad arguments for main" in
let content () = "only one big_map per program which must appear
on the left hand side of a pair in the contract's storage" in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp location) ;
] in
error ~data title content
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let missing_entry_point name =
let title () = "missing entry point" in
let content () = "no entry point with the given name" in
let data = [
("name" , fun () -> name) ;
] in
error ~data title content
let wrong_mini_c_value expected_type actual =
let title () = "illed typed intermediary value" in
let content () = "type of intermediary value doesn't match what was expected" in
let data = [
("expected_type" , fun () -> expected_type) ;
("actual" , fun () -> Format.asprintf "%a" Mini_c.PP.value actual ) ;
] in
error ~data title content
let bad_untranspile bad_type value =
let title () = "untranspiling bad value" in
let content () = Format.asprintf "can not untranspile %s" bad_type in
let data = [
("bad_type" , fun () -> bad_type) ;
("value" , fun () -> Format.asprintf "%a" Mini_c.PP.value value) ;
] in
error ~data title content
let unknown_untranspile unknown_type value =
let title () = "untranspiling unknown value" in
let content () = Format.asprintf "can not untranspile %s" unknown_type in
let data = [
("unknown_type" , fun () -> unknown_type) ;
("value" , fun () -> Format.asprintf "%a" Mini_c.PP.value value) ;
] in
error ~data title content
end
open Errors
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let rec transpile_type (t:AST.type_value) : type_value result =
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match t.type_value' with
| T_constant ("bool", []) -> ok (T_base Base_bool)
| T_constant ("int", []) -> ok (T_base Base_int)
| T_constant ("nat", []) -> ok (T_base Base_nat)
| T_constant ("tez", []) -> ok (T_base Base_tez)
| T_constant ("string", []) -> ok (T_base Base_string)
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| T_constant ("bytes", []) -> ok (T_base Base_bytes)
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| T_constant ("address", []) -> ok (T_base Base_address)
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| T_constant ("timestamp", []) -> ok (T_base Base_timestamp)
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| T_constant ("unit", []) -> ok (T_base Base_unit)
| T_constant ("operation", []) -> ok (T_base Base_operation)
| T_constant ("contract", [x]) ->
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let%bind x' = transpile_type x in
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ok (T_contract x')
| T_constant ("map", [key;value]) ->
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let%bind kv' = bind_map_pair transpile_type (key, value) in
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ok (T_map kv')
| T_constant ("big_map", [key;value] ) ->
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let%bind kv' = bind_map_pair transpile_type (key, value) in
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ok (T_big_map kv')
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| T_constant ("list", [t]) ->
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let%bind t' = transpile_type t in
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ok (T_list t')
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| T_constant ("set", [t]) ->
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let%bind t' = transpile_type t in
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ok (T_set t')
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| T_constant ("option", [o]) ->
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let%bind o' = transpile_type o in
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ok (T_option o')
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| T_constant (name , _lst) -> fail @@ unrecognized_type_constant name
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| T_sum m ->
let node = Append_tree.of_list @@ list_of_map m in
let aux a b : type_value result =
let%bind a = a in
let%bind b = b in
ok (T_or (a, b))
in
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Append_tree.fold_ne transpile_type aux node
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| T_record m ->
let node = Append_tree.of_list @@ list_of_map m in
let aux a b : type_value result =
let%bind a = a in
let%bind b = b in
ok (T_pair (a, b))
in
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Append_tree.fold_ne transpile_type aux node
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| T_tuple lst ->
let node = Append_tree.of_list lst in
let aux a b : type_value result =
let%bind a = a in
let%bind b = b in
ok (T_pair (a, b))
in
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Append_tree.fold_ne transpile_type aux node
| T_function (param, result) -> (
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let%bind param' = transpile_type param in
let%bind result' = transpile_type result in
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ok (T_function (param', result'))
)
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let tuple_access_to_lr : type_value -> type_value list -> int -> (type_value * [`Left | `Right]) list result = fun ty tys ind ->
let node_tv = Append_tree.of_list @@ List.mapi (fun i a -> (i, a)) tys in
let%bind path =
let aux (i , _) = i = ind in
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trace_option (corner_case ~loc:__LOC__ "tuple access leaf") @@
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Append_tree.exists_path aux node_tv in
let lr_path = List.map (fun b -> if b then `Right else `Left) path in
let%bind (_ , lst) =
let aux = fun (ty' , acc) cur ->
let%bind (a , b) =
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trace_strong (corner_case ~loc:__LOC__ "tuple access pair") @@
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Mini_c.get_t_pair ty' in
match cur with
| `Left -> ok (a , acc @ [(a , `Left)])
| `Right -> ok (b , acc @ [(b , `Right)])
in
bind_fold_list aux (ty , []) lr_path in
ok lst
let record_access_to_lr : type_value -> type_value AST.type_name_map -> string -> (type_value * [`Left | `Right]) list result = fun ty tym ind ->
let tys = kv_list_of_map tym in
let node_tv = Append_tree.of_list tys in
let%bind path =
let aux (i , _) = i = ind in
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trace_option (corner_case ~loc:__LOC__ "record access leaf") @@
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Append_tree.exists_path aux node_tv in
let lr_path = List.map (fun b -> if b then `Right else `Left) path in
let%bind (_ , lst) =
let aux = fun (ty , acc) cur ->
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let%bind (a , b) =
trace_strong (corner_case ~loc:__LOC__ "recard access pair") @@
Mini_c.get_t_pair ty in
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match cur with
| `Left -> ok (a , acc @ [(a , `Left)])
| `Right -> ok (b , acc @ [(b , `Right)] ) in
bind_fold_list aux (ty , []) lr_path in
ok lst
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let rec transpile_literal : AST.literal -> value = fun l -> match l with
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| Literal_bool b -> D_bool b
| Literal_int n -> D_int n
| Literal_nat n -> D_nat n
| Literal_timestamp n -> D_timestamp n
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| Literal_mutez n -> D_mutez n
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| Literal_bytes s -> D_bytes s
| Literal_string s -> D_string s
| Literal_address s -> D_string s
| Literal_operation op -> D_operation op
| Literal_unit -> D_unit
and transpile_environment_element_type : AST.environment_element -> type_value result = fun ele ->
match (AST.get_type' ele.type_value , ele.definition) with
| (AST.T_function (f , arg) , ED_declaration (ae , ((_ :: _) as captured_variables)) ) ->
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let%bind f' = transpile_type f in
let%bind arg' = transpile_type arg in
let%bind env' = transpile_environment ae.environment in
let sub_env = Mini_c.Environment.select captured_variables env' in
ok @@ Combinators.t_deep_closure sub_env f' arg'
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| _ -> transpile_type ele.type_value
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and transpile_small_environment : AST.small_environment -> Environment.t result = fun x ->
let x' = AST.Environment.Small.get_environment x in
let aux prec (name , (ele : AST.environment_element)) =
let%bind tv' = transpile_environment_element_type ele in
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ok @@ Environment.add (name , tv') prec
in
let%bind result =
bind_fold_right_list aux Environment.empty x' in
ok result
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and transpile_environment : AST.full_environment -> Environment.t result = fun x ->
let%bind nlst = bind_map_ne_list transpile_small_environment x in
ok @@ Environment.concat @@ List.Ne.to_list nlst
and tree_of_sum : AST.type_value -> (type_name * AST.type_value) Append_tree.t result = fun t ->
let%bind map_tv = get_t_sum t in
ok @@ Append_tree.of_list @@ kv_list_of_map map_tv
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and transpile_annotated_expression (ae:AST.annotated_expression) : expression result =
let%bind tv = transpile_type ae.type_annotation in
let return ?(tv = tv) expr = ok @@ Combinators.Expression.make_tpl (expr, tv) in
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let f = transpile_annotated_expression in
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let info =
let title () = "translating expression" in
let content () = Format.asprintf "%a" Location.pp ae.location in
info title content in
trace info @@
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match ae.expression with
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| E_let_in {binder; rhs; result} ->
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let%bind rhs' = transpile_annotated_expression rhs in
let%bind result' = transpile_annotated_expression result in
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return (E_let_in ((binder, rhs'.type_value), rhs', result'))
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| E_failwith ae -> (
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let%bind ae' = transpile_annotated_expression ae in
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return @@ E_constant ("FAILWITH" , [ae'])
)
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| E_literal l -> return @@ E_literal (transpile_literal l)
| E_variable name -> (
let%bind ele =
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trace_option (corner_case ~loc:__LOC__ "name not in environment") @@
AST.Environment.get_opt name ae.environment in
let%bind tv = transpile_environment_element_type ele in
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return ~tv @@ E_variable name
)
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| E_application (a, b) ->
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let%bind a = transpile_annotated_expression a in
let%bind b = transpile_annotated_expression b in
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return @@ E_application (a, b)
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| E_constructor (m, param) -> (
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let%bind param' = transpile_annotated_expression param in
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let (param'_expr , param'_tv) = Combinators.Expression.(get_content param' , get_type param') in
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let%bind node_tv =
trace_strong (corner_case ~loc:__LOC__ "getting lr tree") @@
tree_of_sum ae.type_annotation in
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let leaf (k, tv) : (expression' option * type_value) result =
if k = m then (
let%bind _ =
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trace_strong (corner_case ~loc:__LOC__ "wrong type for constructor parameter")
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@@ AST.assert_type_value_eq (tv, param.type_annotation) in
ok (Some (param'_expr), param'_tv)
) else (
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let%bind tv = transpile_type tv in
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ok (None, tv)
) in
let node a b : (expression' option * type_value) result =
let%bind a = a in
let%bind b = b in
match (a, b) with
| (None, a), (None, b) -> ok (None, T_or (a, b))
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| (Some _, _), (Some _, _) -> fail @@ corner_case ~loc:__LOC__ "multiple identical constructors in the same variant"
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| (Some v, a), (None, b) -> ok (Some (E_constant ("LEFT", [Combinators.Expression.make_tpl (v, a)])), T_or (a, b))
| (None, a), (Some v, b) -> ok (Some (E_constant ("RIGHT", [Combinators.Expression.make_tpl (v, b)])), T_or (a, b))
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in
let%bind (ae_opt, tv) = Append_tree.fold_ne leaf node node_tv in
let%bind ae =
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trace_option (corner_case ~loc:__LOC__ "inexistant constructor")
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ae_opt in
return ~tv ae
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)
| E_tuple lst -> (
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let node = Append_tree.of_list lst in
let aux (a:expression result) (b:expression result) : expression result =
let%bind a = a in
let%bind b = b in
let a_ty = Combinators.Expression.get_type a in
let b_ty = Combinators.Expression.get_type b in
let tv = T_pair (a_ty , b_ty) in
return ~tv @@ E_constant ("PAIR", [a; b])
in
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Append_tree.fold_ne (transpile_annotated_expression) aux node
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)
| E_tuple_accessor (tpl, ind) -> (
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let%bind ty' = transpile_type tpl.type_annotation in
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let%bind ty_lst =
trace_strong (corner_case ~loc:__LOC__ "not a tuple") @@
get_t_tuple tpl.type_annotation in
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let%bind ty'_lst = bind_map_list transpile_type ty_lst in
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let%bind path =
trace_strong (corner_case ~loc:__LOC__ "tuple access") @@
tuple_access_to_lr ty' ty'_lst ind in
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let aux = fun pred (ty, lr) ->
let c = match lr with
| `Left -> "CAR"
| `Right -> "CDR" in
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Combinators.Expression.make_tpl (E_constant (c, [pred]) , ty) in
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let%bind tpl' = transpile_annotated_expression tpl in
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let expr = List.fold_left aux tpl' path in
ok expr
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)
| E_record m -> (
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let node = Append_tree.of_list @@ list_of_map m in
let aux a b : expression result =
let%bind a = a in
let%bind b = b in
let a_ty = Combinators.Expression.get_type a in
let b_ty = Combinators.Expression.get_type b in
let tv = T_pair (a_ty , b_ty) in
return ~tv @@ E_constant ("PAIR", [a; b])
in
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trace_strong (corner_case ~loc:__LOC__ "record build") @@
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Append_tree.fold_ne (transpile_annotated_expression) aux node
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)
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| E_record_accessor (record, property) ->
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let%bind ty' = transpile_type (get_type_annotation record) in
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let%bind ty_smap =
trace_strong (corner_case ~loc:__LOC__ "not a record") @@
get_t_record (get_type_annotation record) in
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let%bind ty'_smap = bind_map_smap transpile_type ty_smap in
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let%bind path =
trace_strong (corner_case ~loc:__LOC__ "record access") @@
record_access_to_lr ty' ty'_smap property in
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let aux = fun pred (ty, lr) ->
let c = match lr with
| `Left -> "CAR"
| `Right -> "CDR" in
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Combinators.Expression.make_tpl (E_constant (c, [pred]) , ty) in
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let%bind record' = transpile_annotated_expression record in
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let expr = List.fold_left aux record' path in
ok expr
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| E_constant (name , lst) -> (
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let iterator_generator iterator_name =
let lambda_to_iterator_body (f : AST.annotated_expression) (l : AST.lambda) =
let%bind body' = transpile_annotated_expression l.body in
let%bind (input , _) = AST.get_t_function f.type_annotation in
let%bind input' = transpile_type input in
ok ((l.binder , input') , body')
in
let expression_to_iterator_body (f : AST.annotated_expression) =
match f.expression with
| E_lambda l -> lambda_to_iterator_body f l
| E_variable v -> (
let%bind elt =
trace_option (corner_case ~loc:__LOC__ "missing var") @@
AST.Environment.get_opt v f.environment in
match elt.definition with
| ED_declaration (f , _) -> (
match f.expression with
| E_lambda l -> lambda_to_iterator_body f l
| _ -> fail @@ unsupported_iterator f.location
)
| _ -> fail @@ unsupported_iterator f.location
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)
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| _ -> fail @@ unsupported_iterator f.location
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in
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fun (lst : AST.annotated_expression list) -> match (lst , iterator_name) with
| [i ; f] , "ITER" | [i ; f] , "MAP" -> (
let%bind f' = expression_to_iterator_body f in
let%bind i' = transpile_annotated_expression i in
return @@ E_iterator (iterator_name , f' , i')
)
| [ collection ; initial ; f ] , "FOLD" -> (
let%bind f' = expression_to_iterator_body f in
let%bind initial' = transpile_annotated_expression initial in
let%bind collection' = transpile_annotated_expression collection in
return @@ E_fold (f' , collection' , initial')
)
| _ -> fail @@ corner_case ~loc:__LOC__ ("bad iterator arity:" ^ iterator_name)
in
let (iter , map , fold) = iterator_generator "ITER" , iterator_generator "MAP" , iterator_generator "FOLD" in
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match (name , lst) with
| ("SET_ITER" , lst) -> iter lst
| ("LIST_ITER" , lst) -> iter lst
| ("MAP_ITER" , lst) -> iter lst
| ("LIST_MAP" , lst) -> map lst
| ("MAP_MAP" , lst) -> map lst
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| ("LIST_FOLD" , lst) -> fold lst
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| ("SET_FOLD" , lst) -> fold lst
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| ("MAP_FOLD" , lst) -> fold lst
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| _ -> (
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let%bind lst' = bind_map_list (transpile_annotated_expression) lst in
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return @@ E_constant (name , lst')
)
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)
| E_lambda l ->
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let%bind env =
trace_strong (corner_case ~loc:__LOC__ "environment") @@
transpile_environment ae.environment in
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let%bind io = AST.get_t_function ae.type_annotation in
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transpile_lambda env l io
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| E_list lst -> (
let%bind t =
trace_strong (corner_case ~loc:__LOC__ "not a list") @@
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get_t_list tv in
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let%bind lst' = bind_map_list (transpile_annotated_expression) lst in
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let aux : expression -> expression -> expression result = fun prev cur ->
return @@ E_constant ("CONS", [cur ; prev]) in
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let%bind (init : expression) = return @@ E_make_empty_list t in
bind_fold_right_list aux init lst'
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)
| E_set lst -> (
let%bind t =
trace_strong (corner_case ~loc:__LOC__ "not a set") @@
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get_t_set tv in
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let%bind lst' = bind_map_list (transpile_annotated_expression) lst in
let aux : expression -> expression -> expression result = fun prev cur ->
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return @@ E_constant ("SET_ADD", [cur ; prev]) in
let%bind (init : expression) = return @@ E_make_empty_set t in
bind_fold_list aux init lst'
)
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| E_map m -> (
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let%bind (src, dst) =
trace_strong (corner_case ~loc:__LOC__ "not a map") @@
Mini_c.Combinators.get_t_map tv in
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let aux : expression result -> (AST.ae * AST.ae) -> expression result = fun prev (k, v) ->
let%bind prev' = prev in
let%bind (k', v') =
let v' = e_a_some v ae.environment in
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bind_map_pair (transpile_annotated_expression) (k , v') in
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return @@ E_constant ("UPDATE", [k' ; v' ; prev'])
in
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let init = return @@ E_make_empty_map (src, dst) in
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List.fold_left aux init m
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)
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| E_big_map m -> (
let%bind (src, dst) =
trace_strong (corner_case ~loc:__LOC__ "not a map") @@
Mini_c.Combinators.get_t_big_map tv in
let aux : expression result -> (AST.ae * AST.ae) -> expression result = fun prev (k, v) ->
let%bind prev' = prev in
let%bind (k', v') =
let v' = e_a_some v ae.environment in
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bind_map_pair (transpile_annotated_expression) (k , v') in
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return @@ E_constant ("UPDATE", [k' ; v' ; prev'])
in
let init = return @@ E_make_empty_map (src, dst) in
List.fold_left aux init m
)
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| E_look_up dsi -> (
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let%bind (ds', i') = bind_map_pair f dsi in
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return @@ E_constant ("MAP_GET", [i' ; ds'])
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)
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| E_sequence (a , b) -> (
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let%bind a' = transpile_annotated_expression a in
let%bind b' = transpile_annotated_expression b in
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return @@ E_sequence (a' , b')
)
| E_loop (expr , body) -> (
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let%bind expr' = transpile_annotated_expression expr in
let%bind body' = transpile_annotated_expression body in
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return @@ E_while (expr' , body')
)
| E_assign (typed_name , path , expr) -> (
let ty = typed_name.type_value in
let aux : ((AST.type_value * [`Left | `Right] list) as 'a) -> AST.access -> 'a result =
fun (prev, acc) cur ->
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let%bind ty' = transpile_type prev in
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match cur with
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| Access_tuple ind -> (
let%bind ty_lst =
trace_strong (corner_case ~loc:__LOC__ "not a tuple") @@
AST.Combinators.get_t_tuple prev in
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let%bind ty'_lst = bind_map_list transpile_type ty_lst in
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let%bind path = tuple_access_to_lr ty' ty'_lst ind in
let path' = List.map snd path in
ok (List.nth ty_lst ind, acc @ path')
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)
| Access_record prop -> (
let%bind ty_map =
trace_strong (corner_case ~loc:__LOC__ "not a record") @@
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AST.Combinators.get_t_record prev in
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let%bind ty'_map = bind_map_smap transpile_type ty_map in
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let%bind path = record_access_to_lr ty' ty'_map prop in
let path' = List.map snd path in
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ok (Map.String.find prop ty_map, acc @ path')
)
| Access_map _k -> fail (corner_case ~loc:__LOC__ "no patch for map yet")
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in
let%bind (_, path) = bind_fold_right_list aux (ty, []) path in
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let%bind expr' = transpile_annotated_expression expr in
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return (E_assignment (typed_name.type_name, path, expr'))
)
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| E_matching (expr, m) -> (
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let%bind expr' = transpile_annotated_expression expr in
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match m with
| Match_bool {match_true ; match_false} ->
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let%bind (t , f) = bind_map_pair (transpile_annotated_expression) (match_true, match_false) in
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return @@ E_if_bool (expr', t, f)
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| Match_option { match_none; match_some = ((name, tv), s) } ->
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let%bind n = transpile_annotated_expression match_none in
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let%bind (tv' , s') =
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let%bind tv' = transpile_type tv in
let%bind s' = transpile_annotated_expression s in
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ok (tv' , s')
in
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return @@ E_if_none (expr' , n , ((name , tv') , s'))
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| Match_list {
match_nil ;
match_cons = (((hd_name , hd_ty) , (tl_name , tl_ty)) , match_cons) ;
} -> (
let%bind nil = transpile_annotated_expression match_nil in
let%bind cons =
let%bind hd_ty' = transpile_type hd_ty in
let%bind tl_ty' = transpile_type tl_ty in
let%bind match_cons' = transpile_annotated_expression match_cons in
ok (((hd_name , hd_ty') , (tl_name , tl_ty')) , match_cons')
in
return @@ E_if_cons (expr' , nil , cons)
)
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| Match_variant (lst , variant) -> (
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let%bind tree =
trace_strong (corner_case ~loc:__LOC__ "getting lr tree") @@
tree_of_sum variant in
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let%bind tree' = match tree with
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| Empty -> fail (corner_case ~loc:__LOC__ "match empty variant")
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| Full x -> ok x in
let%bind tree'' =
let rec aux t =
match (t : _ Append_tree.t') with
| Leaf (name , tv) ->
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let%bind tv' = transpile_type tv in
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ok (`Leaf name , tv')
| Node {a ; b} ->
let%bind a' = aux a in
let%bind b' = aux b in
let tv' = Mini_c.t_union (snd a') (snd b') in
ok (`Node (a' , b') , tv')
in aux tree'
in
let rec aux top t =
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match t with
| ((`Leaf constructor_name) , tv) -> (
let%bind ((_ , name) , body) =
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trace_option (corner_case ~loc:__LOC__ "missing match clause") @@
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List.find_opt (fun ((constructor_name' , _) , _) -> constructor_name' = constructor_name) lst in
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let%bind body' = transpile_annotated_expression body in
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return @@ E_let_in ((name , tv) , top , body')
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)
| ((`Node (a , b)) , tv) ->
let%bind a' =
let%bind a_ty = get_t_left tv in
let a_var = "left" , a_ty in
let%bind e = aux (((Expression.make (E_variable "left") a_ty))) a in
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ok (a_var , e)
in
let%bind b' =
let%bind b_ty = get_t_right tv in
let b_var = "right" , b_ty in
let%bind e = aux (((Expression.make (E_variable "right") b_ty))) b in
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ok (b_var , e)
in
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return @@ E_if_left (top , a' , b')
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in
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trace_strong (corner_case ~loc:__LOC__ "building constructor") @@
aux expr' tree''
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)
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| AST.Match_tuple _ -> fail @@ unsupported_pattern_matching "tuple" ae.location
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)
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and transpile_lambda_deep : Mini_c.Environment.t -> AST.lambda -> _ -> Mini_c.expression result =
fun env l (input_type , output_type)->
let { binder ; body } : AST.lambda = l in
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(* Deep capture. Capture the relevant part of the environment. *)
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let%bind c_env =
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let free_variables = Ast_typed.Free_variables.lambda [] l in
let sub_env = Mini_c.Environment.select free_variables env in
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ok sub_env in
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let%bind (f_expr' , input_tv , output_tv) =
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let%bind raw_input = transpile_type input_type in
let%bind output = transpile_type output_type in
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let%bind body = transpile_annotated_expression body in
let expr' = E_closure { binder ; body } in
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ok (expr' , raw_input , output) in
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let tv = Mini_c.t_deep_closure c_env input_tv output_tv in
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ok @@ Expression.make_tpl (f_expr' , tv)
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and transpile_lambda env l (input_type , output_type) =
let { binder ; body } : AST.lambda = l in
let fvs = AST.Free_variables.(annotated_expression (singleton binder) body) in
let%bind result =
match fvs with
| [] -> (
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let%bind result' = transpile_annotated_expression body in
let%bind input = transpile_type input_type in
let%bind output = transpile_type output_type in
let tv = Combinators.t_function input output in
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let content = D_function { binder ; body = result'} in
ok @@ Combinators.Expression.make_tpl (E_literal content , tv)
)
| _ -> (
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transpile_lambda_deep env l (input_type , output_type)
) in
ok result
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let transpile_declaration env (d:AST.declaration) : toplevel_statement result =
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match d with
| Declaration_constant ({name;annotated_expression} , _) ->
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let%bind expression = transpile_annotated_expression annotated_expression in
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let tv = Combinators.Expression.get_type expression in
let env' = Environment.add (name, tv) env in
ok @@ ((name, expression), environment_wrap env env')
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let transpile_program (lst : AST.program) : program result =
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let aux (prev:(toplevel_statement list * Environment.t) result) cur =
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let%bind (hds, env) = prev in
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let%bind ((_, env') as cur') = transpile_declaration env cur in
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ok (hds @ [ cur' ], env'.post_environment)
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in
let%bind (statements, _) = List.fold_left aux (ok ([], Environment.empty)) (temp_unwrap_loc_list lst) in
ok statements
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(* check whether the storage contains a big_map, if yes, check that
it appears on the left hand side of a pair *)
let check_storage f ty loc : (anon_function * _) result =
let rec aux (t:type_value) on_big_map =
match t with
| T_big_map _ -> on_big_map
| T_pair (a , b) -> (aux a true) && (aux b false)
| T_or (a,b) -> (aux a false) && (aux b false)
| T_function (a,b) -> (aux a false) && (aux b false)
| T_deep_closure (_,a,b) -> (aux a false) && (aux b false)
| T_map (a,b) -> (aux a false) && (aux b false)
| T_list a -> (aux a false)
| T_set a -> (aux a false)
| T_contract a -> (aux a false)
| T_option a -> (aux a false)
| _ -> true
in
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match f.body.type_value with
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| T_pair (_, storage) ->
if aux storage false then ok (f, ty) else fail @@ bad_big_map loc
| _ -> ok (f, ty)
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let extract_constructor (v : value) (tree : _ Append_tree.t') : (string * value * AST.type_value) result =
let open Append_tree in
let rec aux tv : (string * value * AST.type_value) result=
match tv with
| Leaf (k, t), v -> ok (k, v, t)
| Node {a}, D_left v -> aux (a, v)
| Node {b}, D_right v -> aux (b, v)
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| _ -> fail @@ internal_assertion_failure "bad constructor path"
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in
let%bind (s, v, t) = aux (tree, v) in
ok (s, v, t)
let extract_tuple (v : value) (tree : AST.type_value Append_tree.t') : ((value * AST.type_value) list) result =
let open Append_tree in
let rec aux tv : ((value * AST.type_value) list) result =
match tv with
| Leaf t, v -> ok @@ [v, t]
| Node {a;b}, D_pair (va, vb) ->
let%bind a' = aux (a, va) in
let%bind b' = aux (b, vb) in
ok (a' @ b')
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| _ -> fail @@ internal_assertion_failure "bad tuple path"
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in
aux (tree, v)
let extract_record (v : value) (tree : _ Append_tree.t') : (_ list) result =
let open Append_tree in
let rec aux tv : ((string * (value * AST.type_value)) list) result =
match tv with
| Leaf (s, t), v -> ok @@ [s, (v, t)]
| Node {a;b}, D_pair (va, vb) ->
let%bind a' = aux (a, va) in
let%bind b' = aux (b, vb) in
ok (a' @ b')
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| _ -> fail @@ internal_assertion_failure "bad record path"
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in
aux (tree, v)