Inlined stage common in ast_typed (fix OCaml type errors)
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parent
b3b8fab26d
commit
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@ -1,7 +1,7 @@
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open Trace
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open Ligo_interpreter.Types
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open Ligo_interpreter.Combinators
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include Stage_common.Types
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include Ast_typed.Types
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module Env = Ligo_interpreter.Environment
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@ -210,7 +210,7 @@ let rec apply_operator : Ast_typed.constant' -> value list -> value result =
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| ( C_SET_MEM , [ v ; V_Set (elts) ] ) -> ok @@ v_bool (List.mem v elts)
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| ( C_SET_REMOVE , [ v ; V_Set (elts) ] ) -> ok @@ V_Set (List.filter (fun el -> not (el = v)) elts)
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| _ ->
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let () = Format.printf "%a\n" Stage_common.PP.constant c in
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let () = Format.printf "%a\n" Ast_typed.PP.constant c in
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let () = List.iter ( fun e -> Format.printf "%s\n" (Ligo_interpreter.PP.pp_value e)) operands in
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simple_fail "Unsupported constant op"
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)
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@ -345,7 +345,7 @@ and eval : Ast_typed.expression -> env -> value result
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let ((_, var) , body) =
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List.find
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(fun case ->
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let (Constructor c , _) = fst case in
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let (Ast_typed.Constructor c , _) = fst case in
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String.equal matched_c c)
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case_list in
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let env' = Env.extend env (var, proj) in
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@ -3,7 +3,9 @@ module Append_tree = Tree.Append
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open Trace
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open Mini_c
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open Stage_common.Types (*Todo : to remove *)
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(* open Stage_common.Types (\*Todo : to remove *\) *)
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module LMap = AST.Types.LMap
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module CMap = AST.Types.CMap
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let list_of_lmap m = List.rev @@ LMap.fold (fun _ v prev -> v :: prev) m []
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let kv_list_of_lmap m = List.rev @@ LMap.fold (fun k v prev -> (k, v) :: prev) m []
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@ -25,7 +27,7 @@ let extract_constructor (v : value) (tree : _ Append_tree.t') : (string * value
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let open Append_tree in
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let rec aux tv : (string * value * AST.type_expression) result=
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match tv with
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| Leaf (Constructor k, t), v -> ok (k, v, t)
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| Leaf (Ast_typed.Constructor k, t), v -> ok (k, v, t)
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| Node {a}, D_left v -> aux (a, v)
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| Node {b}, D_right v -> aux (b, v)
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| _ -> fail @@ internal_assertion_failure "bad constructor path"
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@ -114,6 +114,121 @@ them. please report this to the developers." in
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end
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open Errors
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let transpile_constant' : AST.constant' -> constant' = function
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| C_INT -> C_INT
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| C_UNIT -> C_UNIT
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| C_NIL -> C_NIL
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| C_NOW -> C_NOW
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| C_IS_NAT -> C_IS_NAT
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| C_SOME -> C_SOME
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| C_NONE -> C_NONE
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| C_ASSERTION -> C_ASSERTION
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| C_ASSERT_INFERRED -> C_ASSERT_INFERRED
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| C_FAILWITH -> C_FAILWITH
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| C_UPDATE -> C_UPDATE
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(* Loops *)
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| C_ITER -> C_ITER
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| C_FOLD_WHILE -> C_FOLD_WHILE
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| C_FOLD_CONTINUE -> C_FOLD_CONTINUE
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| C_FOLD_STOP -> C_FOLD_STOP
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| C_LOOP_LEFT -> C_LOOP_LEFT
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| C_LOOP_CONTINUE -> C_LOOP_CONTINUE
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| C_LOOP_STOP -> C_LOOP_STOP
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| C_FOLD -> C_FOLD
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(* MATH *)
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| C_NEG -> C_NEG
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| C_ABS -> C_ABS
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| C_ADD -> C_ADD
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| C_SUB -> C_SUB
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| C_MUL -> C_MUL
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| C_EDIV -> C_EDIV
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| C_DIV -> C_DIV
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| C_MOD -> C_MOD
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(* LOGIC *)
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| C_NOT -> C_NOT
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| C_AND -> C_AND
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| C_OR -> C_OR
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| C_XOR -> C_XOR
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| C_LSL -> C_LSL
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| C_LSR -> C_LSR
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(* COMPARATOR *)
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| C_EQ -> C_EQ
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| C_NEQ -> C_NEQ
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| C_LT -> C_LT
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| C_GT -> C_GT
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| C_LE -> C_LE
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| C_GE -> C_GE
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(* Bytes/ String *)
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| C_SIZE -> C_SIZE
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| C_CONCAT -> C_CONCAT
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| C_SLICE -> C_SLICE
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| C_BYTES_PACK -> C_BYTES_PACK
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| C_BYTES_UNPACK -> C_BYTES_UNPACK
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| C_CONS -> C_CONS
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(* Pair *)
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| C_PAIR -> C_PAIR
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| C_CAR -> C_CAR
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| C_CDR -> C_CDR
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| C_LEFT -> C_LEFT
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| C_RIGHT -> C_RIGHT
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(* Set *)
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| C_SET_EMPTY -> C_SET_EMPTY
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| C_SET_LITERAL -> C_SET_LITERAL
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| C_SET_ADD -> C_SET_ADD
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| C_SET_REMOVE -> C_SET_REMOVE
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| C_SET_ITER -> C_SET_ITER
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| C_SET_FOLD -> C_SET_FOLD
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| C_SET_MEM -> C_SET_MEM
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(* List *)
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| C_LIST_EMPTY -> C_LIST_EMPTY
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| C_LIST_LITERAL -> C_LIST_LITERAL
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| C_LIST_ITER -> C_LIST_ITER
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| C_LIST_MAP -> C_LIST_MAP
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| C_LIST_FOLD -> C_LIST_FOLD
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(* Maps *)
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| C_MAP -> C_MAP
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| C_MAP_EMPTY -> C_MAP_EMPTY
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| C_MAP_LITERAL -> C_MAP_LITERAL
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| C_MAP_GET -> C_MAP_GET
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| C_MAP_GET_FORCE -> C_MAP_GET_FORCE
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| C_MAP_ADD -> C_MAP_ADD
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| C_MAP_REMOVE -> C_MAP_REMOVE
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| C_MAP_UPDATE -> C_MAP_UPDATE
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| C_MAP_ITER -> C_MAP_ITER
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| C_MAP_MAP -> C_MAP_MAP
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| C_MAP_FOLD -> C_MAP_FOLD
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| C_MAP_MEM -> C_MAP_MEM
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| C_MAP_FIND -> C_MAP_FIND
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| C_MAP_FIND_OPT -> C_MAP_FIND_OPT
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(* Big Maps *)
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| C_BIG_MAP -> C_BIG_MAP
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| C_BIG_MAP_EMPTY -> C_BIG_MAP_EMPTY
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| C_BIG_MAP_LITERAL -> C_BIG_MAP_LITERAL
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(* Crypto *)
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| C_SHA256 -> C_SHA256
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| C_SHA512 -> C_SHA512
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| C_BLAKE2b -> C_BLAKE2b
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| C_HASH -> C_HASH
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| C_HASH_KEY -> C_HASH_KEY
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| C_CHECK_SIGNATURE -> C_CHECK_SIGNATURE
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| C_CHAIN_ID -> C_CHAIN_ID
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(* Blockchain *)
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| C_CALL -> C_CALL
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| C_CONTRACT -> C_CONTRACT
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| C_CONTRACT_OPT -> C_CONTRACT_OPT
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| C_CONTRACT_ENTRYPOINT -> C_CONTRACT_ENTRYPOINT
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| C_CONTRACT_ENTRYPOINT_OPT -> C_CONTRACT_ENTRYPOINT_OPT
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| C_AMOUNT -> C_AMOUNT
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| C_BALANCE -> C_BALANCE
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| C_SOURCE -> C_SOURCE
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| C_SENDER -> C_SENDER
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| C_ADDRESS -> C_ADDRESS
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| C_SELF -> C_SELF
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| C_SELF_ADDRESS -> C_SELF_ADDRESS
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| C_IMPLICIT_ACCOUNT -> C_IMPLICIT_ACCOUNT
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| C_SET_DELEGATE -> C_SET_DELEGATE
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| C_CREATE_CONTRACT -> C_CREATE_CONTRACT
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let rec transpile_type (t:AST.type_expression) : type_value result =
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match t.type_content with
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| T_variable (name) -> fail @@ no_type_variable @@ name
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@ -170,20 +285,20 @@ let rec transpile_type (t:AST.type_expression) : type_value result =
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ok (None, T_or (a, b))
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in
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let%bind m' = Append_tree.fold_ne
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(fun (Stage_common.Types.Constructor ann, a) ->
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(fun (Ast_typed.Types.Constructor ann, a) ->
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let%bind a = transpile_type a in
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ok (Some (String.uncapitalize_ascii ann), a))
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aux node in
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ok @@ snd m'
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| T_record m ->
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let node = Append_tree.of_list @@ Stage_common.Helpers.kv_list_of_record_or_tuple m in
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let node = Append_tree.of_list @@ Ast_typed.Helpers.kv_list_of_record_or_tuple m in
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let aux a b : type_value annotated result =
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let%bind a = a in
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let%bind b = b in
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ok (None, T_pair (a, b))
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in
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let%bind m' = Append_tree.fold_ne
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(fun (Stage_common.Types.Label ann, a) ->
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(fun (Ast_typed.Types.Label ann, a) ->
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let%bind a = transpile_type a in
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ok (Some ann, a))
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aux node in
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@ -195,7 +310,7 @@ let rec transpile_type (t:AST.type_expression) : type_value result =
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)
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let record_access_to_lr : type_value -> type_value AST.label_map -> AST.label -> (type_value * [`Left | `Right]) list result = fun ty tym ind ->
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let tys = Stage_common.Helpers.kv_list_of_record_or_tuple tym in
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let tys = Ast_typed.Helpers.kv_list_of_record_or_tuple tym in
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let node_tv = Append_tree.of_list tys in
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let%bind path =
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let aux (i , _) = i = ind in
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@ -295,7 +410,7 @@ and transpile_annotated_expression (ae:AST.expression) : expression result =
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)
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| E_record m -> (
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(*list_of_lmap to record_to_list*)
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let node = Append_tree.of_list @@ Stage_common.Helpers.list_of_record_or_tuple m in
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let node = Append_tree.of_list @@ Ast_typed.Helpers.list_of_record_or_tuple m in
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let aux a b : expression result =
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let%bind a = a in
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let%bind b = b in
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@ -312,7 +427,7 @@ and transpile_annotated_expression (ae:AST.expression) : expression result =
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let%bind ty_lmap =
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trace_strong (corner_case ~loc:__LOC__ "not a record") @@
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get_t_record (get_type_expression record) in
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let%bind ty'_lmap = Stage_common.Helpers.bind_map_lmap transpile_type ty_lmap in
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let%bind ty'_lmap = Ast_typed.Helpers.bind_map_lmap transpile_type ty_lmap in
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let%bind path =
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trace_strong (corner_case ~loc:__LOC__ "record access") @@
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record_access_to_lr ty' ty'_lmap path in
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@ -329,7 +444,7 @@ and transpile_annotated_expression (ae:AST.expression) : expression result =
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let%bind ty_lmap =
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trace_strong (corner_case ~loc:__LOC__ "not a record") @@
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get_t_record (get_type_expression record) in
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let%bind ty'_lmap = Stage_common.Helpers.bind_map_lmap transpile_type ty_lmap in
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let%bind ty'_lmap = Ast_typed.Helpers.bind_map_lmap transpile_type ty_lmap in
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let%bind path =
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trace_strong (corner_case ~loc:__LOC__ "record access") @@
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record_access_to_lr ty' ty'_lmap path in
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@ -388,7 +503,7 @@ and transpile_annotated_expression (ae:AST.expression) : expression result =
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| (C_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 {cons_name=name;arguments=lst'}
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return @@ E_constant {cons_name=transpile_constant' name;arguments=lst'}
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)
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)
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| E_lambda l ->
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@ -244,7 +244,7 @@ let rec untranspile (v : value) (t : AST.type_expression) : AST.expression resul
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let%bind sub = untranspile v tv in
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return (E_constructor {constructor=Constructor name;element=sub})
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| T_record m ->
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let lst = Stage_common.Helpers.kv_list_of_record_or_tuple m in
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let lst = Ast_typed.Helpers.kv_list_of_record_or_tuple m in
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let%bind node = match Append_tree.of_list lst with
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| Empty -> fail @@ corner_case ~loc:__LOC__ "empty record"
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| Full t -> ok t in
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@ -163,6 +163,274 @@ end
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open Errors
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let convert_constructor' (I.Constructor c) = O.Constructor c
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let unconvert_constructor' (O.Constructor c) = I.Constructor c
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let convert_label (I.Label c) = O.Label c
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let unconvert_label (O.Label c) = I.Label c
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let convert_type_constant : I.type_constant -> O.type_constant = function
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| TC_unit -> TC_unit
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| TC_string -> TC_string
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| TC_bytes -> TC_bytes
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| TC_nat -> TC_nat
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| TC_int -> TC_int
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| TC_mutez -> TC_mutez
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| TC_bool -> TC_bool
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| TC_operation -> TC_operation
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| TC_address -> TC_address
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| TC_key -> TC_key
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| TC_key_hash -> TC_key_hash
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| TC_chain_id -> TC_chain_id
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| TC_signature -> TC_signature
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| TC_timestamp -> TC_timestamp
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| TC_void -> TC_void
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let unconvert_type_constant : O.type_constant -> I.type_constant = function
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| TC_unit -> TC_unit
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| TC_string -> TC_string
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| TC_bytes -> TC_bytes
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| TC_nat -> TC_nat
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| TC_int -> TC_int
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| TC_mutez -> TC_mutez
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| TC_bool -> TC_bool
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| TC_operation -> TC_operation
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| TC_address -> TC_address
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| TC_key -> TC_key
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| TC_key_hash -> TC_key_hash
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| TC_chain_id -> TC_chain_id
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| TC_signature -> TC_signature
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| TC_timestamp -> TC_timestamp
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| TC_void -> TC_void
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let convert_constant' : I.constant' -> O.constant' = function
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| C_INT -> C_INT
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| C_UNIT -> C_UNIT
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| C_NIL -> C_NIL
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| C_NOW -> C_NOW
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| C_IS_NAT -> C_IS_NAT
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| C_SOME -> C_SOME
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| C_NONE -> C_NONE
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| C_ASSERTION -> C_ASSERTION
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| C_ASSERT_INFERRED -> C_ASSERT_INFERRED
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| C_FAILWITH -> C_FAILWITH
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| C_UPDATE -> C_UPDATE
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(* Loops *)
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| C_ITER -> C_ITER
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| C_FOLD_WHILE -> C_FOLD_WHILE
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| C_FOLD_CONTINUE -> C_FOLD_CONTINUE
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| C_FOLD_STOP -> C_FOLD_STOP
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| C_LOOP_LEFT -> C_LOOP_LEFT
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| C_LOOP_CONTINUE -> C_LOOP_CONTINUE
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| C_LOOP_STOP -> C_LOOP_STOP
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| C_FOLD -> C_FOLD
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(* MATH *)
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| C_NEG -> C_NEG
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| C_ABS -> C_ABS
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| C_ADD -> C_ADD
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| C_SUB -> C_SUB
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| C_MUL -> C_MUL
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| C_EDIV -> C_EDIV
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| C_DIV -> C_DIV
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| C_MOD -> C_MOD
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(* LOGIC *)
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| C_NOT -> C_NOT
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| C_AND -> C_AND
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| C_OR -> C_OR
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| C_XOR -> C_XOR
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| C_LSL -> C_LSL
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| C_LSR -> C_LSR
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(* COMPARATOR *)
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| C_EQ -> C_EQ
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| C_NEQ -> C_NEQ
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| C_LT -> C_LT
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| C_GT -> C_GT
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| C_LE -> C_LE
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| C_GE -> C_GE
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(* Bytes/ String *)
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| C_SIZE -> C_SIZE
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| C_CONCAT -> C_CONCAT
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| C_SLICE -> C_SLICE
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| C_BYTES_PACK -> C_BYTES_PACK
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| C_BYTES_UNPACK -> C_BYTES_UNPACK
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| C_CONS -> C_CONS
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(* Pair *)
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| C_PAIR -> C_PAIR
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| C_CAR -> C_CAR
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| C_CDR -> C_CDR
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| C_LEFT -> C_LEFT
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| C_RIGHT -> C_RIGHT
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(* Set *)
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| C_SET_EMPTY -> C_SET_EMPTY
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| C_SET_LITERAL -> C_SET_LITERAL
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| C_SET_ADD -> C_SET_ADD
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| C_SET_REMOVE -> C_SET_REMOVE
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| C_SET_ITER -> C_SET_ITER
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| C_SET_FOLD -> C_SET_FOLD
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| C_SET_MEM -> C_SET_MEM
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(* List *)
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| C_LIST_EMPTY -> C_LIST_EMPTY
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| C_LIST_LITERAL -> C_LIST_LITERAL
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| C_LIST_ITER -> C_LIST_ITER
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| C_LIST_MAP -> C_LIST_MAP
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| C_LIST_FOLD -> C_LIST_FOLD
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(* Maps *)
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| C_MAP -> C_MAP
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| C_MAP_EMPTY -> C_MAP_EMPTY
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| C_MAP_LITERAL -> C_MAP_LITERAL
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| C_MAP_GET -> C_MAP_GET
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| C_MAP_GET_FORCE -> C_MAP_GET_FORCE
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| C_MAP_ADD -> C_MAP_ADD
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| C_MAP_REMOVE -> C_MAP_REMOVE
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| C_MAP_UPDATE -> C_MAP_UPDATE
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| C_MAP_ITER -> C_MAP_ITER
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| C_MAP_MAP -> C_MAP_MAP
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| C_MAP_FOLD -> C_MAP_FOLD
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| C_MAP_MEM -> C_MAP_MEM
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| C_MAP_FIND -> C_MAP_FIND
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| C_MAP_FIND_OPT -> C_MAP_FIND_OPT
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(* Big Maps *)
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| C_BIG_MAP -> C_BIG_MAP
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| C_BIG_MAP_EMPTY -> C_BIG_MAP_EMPTY
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| C_BIG_MAP_LITERAL -> C_BIG_MAP_LITERAL
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(* Crypto *)
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| C_SHA256 -> C_SHA256
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| C_SHA512 -> C_SHA512
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| C_BLAKE2b -> C_BLAKE2b
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| C_HASH -> C_HASH
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| C_HASH_KEY -> C_HASH_KEY
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| C_CHECK_SIGNATURE -> C_CHECK_SIGNATURE
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| C_CHAIN_ID -> C_CHAIN_ID
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(* Blockchain *)
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| C_CALL -> C_CALL
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||||
| C_CONTRACT -> C_CONTRACT
|
||||
| C_CONTRACT_OPT -> C_CONTRACT_OPT
|
||||
| C_CONTRACT_ENTRYPOINT -> C_CONTRACT_ENTRYPOINT
|
||||
| C_CONTRACT_ENTRYPOINT_OPT -> C_CONTRACT_ENTRYPOINT_OPT
|
||||
| C_AMOUNT -> C_AMOUNT
|
||||
| C_BALANCE -> C_BALANCE
|
||||
| C_SOURCE -> C_SOURCE
|
||||
| C_SENDER -> C_SENDER
|
||||
| C_ADDRESS -> C_ADDRESS
|
||||
| C_SELF -> C_SELF
|
||||
| C_SELF_ADDRESS -> C_SELF_ADDRESS
|
||||
| C_IMPLICIT_ACCOUNT -> C_IMPLICIT_ACCOUNT
|
||||
| C_SET_DELEGATE -> C_SET_DELEGATE
|
||||
| C_CREATE_CONTRACT -> C_CREATE_CONTRACT
|
||||
|
||||
let unconvert_constant' : O.constant' -> I.constant' = function
|
||||
| C_INT -> C_INT
|
||||
| C_UNIT -> C_UNIT
|
||||
| C_NIL -> C_NIL
|
||||
| C_NOW -> C_NOW
|
||||
| C_IS_NAT -> C_IS_NAT
|
||||
| C_SOME -> C_SOME
|
||||
| C_NONE -> C_NONE
|
||||
| C_ASSERTION -> C_ASSERTION
|
||||
| C_ASSERT_INFERRED -> C_ASSERT_INFERRED
|
||||
| C_FAILWITH -> C_FAILWITH
|
||||
| C_UPDATE -> C_UPDATE
|
||||
(* Loops *)
|
||||
| C_ITER -> C_ITER
|
||||
| C_FOLD_WHILE -> C_FOLD_WHILE
|
||||
| C_FOLD_CONTINUE -> C_FOLD_CONTINUE
|
||||
| C_FOLD_STOP -> C_FOLD_STOP
|
||||
| C_LOOP_LEFT -> C_LOOP_LEFT
|
||||
| C_LOOP_CONTINUE -> C_LOOP_CONTINUE
|
||||
| C_LOOP_STOP -> C_LOOP_STOP
|
||||
| C_FOLD -> C_FOLD
|
||||
(* MATH *)
|
||||
| C_NEG -> C_NEG
|
||||
| C_ABS -> C_ABS
|
||||
| C_ADD -> C_ADD
|
||||
| C_SUB -> C_SUB
|
||||
| C_MUL -> C_MUL
|
||||
| C_EDIV -> C_EDIV
|
||||
| C_DIV -> C_DIV
|
||||
| C_MOD -> C_MOD
|
||||
(* LOGIC *)
|
||||
| C_NOT -> C_NOT
|
||||
| C_AND -> C_AND
|
||||
| C_OR -> C_OR
|
||||
| C_XOR -> C_XOR
|
||||
| C_LSL -> C_LSL
|
||||
| C_LSR -> C_LSR
|
||||
(* COMPARATOR *)
|
||||
| C_EQ -> C_EQ
|
||||
| C_NEQ -> C_NEQ
|
||||
| C_LT -> C_LT
|
||||
| C_GT -> C_GT
|
||||
| C_LE -> C_LE
|
||||
| C_GE -> C_GE
|
||||
(* Bytes/ String *)
|
||||
| C_SIZE -> C_SIZE
|
||||
| C_CONCAT -> C_CONCAT
|
||||
| C_SLICE -> C_SLICE
|
||||
| C_BYTES_PACK -> C_BYTES_PACK
|
||||
| C_BYTES_UNPACK -> C_BYTES_UNPACK
|
||||
| C_CONS -> C_CONS
|
||||
(* Pair *)
|
||||
| C_PAIR -> C_PAIR
|
||||
| C_CAR -> C_CAR
|
||||
| C_CDR -> C_CDR
|
||||
| C_LEFT -> C_LEFT
|
||||
| C_RIGHT -> C_RIGHT
|
||||
(* Set *)
|
||||
| C_SET_EMPTY -> C_SET_EMPTY
|
||||
| C_SET_LITERAL -> C_SET_LITERAL
|
||||
| C_SET_ADD -> C_SET_ADD
|
||||
| C_SET_REMOVE -> C_SET_REMOVE
|
||||
| C_SET_ITER -> C_SET_ITER
|
||||
| C_SET_FOLD -> C_SET_FOLD
|
||||
| C_SET_MEM -> C_SET_MEM
|
||||
(* List *)
|
||||
| C_LIST_EMPTY -> C_LIST_EMPTY
|
||||
| C_LIST_LITERAL -> C_LIST_LITERAL
|
||||
| C_LIST_ITER -> C_LIST_ITER
|
||||
| C_LIST_MAP -> C_LIST_MAP
|
||||
| C_LIST_FOLD -> C_LIST_FOLD
|
||||
(* Maps *)
|
||||
| C_MAP -> C_MAP
|
||||
| C_MAP_EMPTY -> C_MAP_EMPTY
|
||||
| C_MAP_LITERAL -> C_MAP_LITERAL
|
||||
| C_MAP_GET -> C_MAP_GET
|
||||
| C_MAP_GET_FORCE -> C_MAP_GET_FORCE
|
||||
| C_MAP_ADD -> C_MAP_ADD
|
||||
| C_MAP_REMOVE -> C_MAP_REMOVE
|
||||
| C_MAP_UPDATE -> C_MAP_UPDATE
|
||||
| C_MAP_ITER -> C_MAP_ITER
|
||||
| C_MAP_MAP -> C_MAP_MAP
|
||||
| C_MAP_FOLD -> C_MAP_FOLD
|
||||
| C_MAP_MEM -> C_MAP_MEM
|
||||
| C_MAP_FIND -> C_MAP_FIND
|
||||
| C_MAP_FIND_OPT -> C_MAP_FIND_OPT
|
||||
(* Big Maps *)
|
||||
| C_BIG_MAP -> C_BIG_MAP
|
||||
| C_BIG_MAP_EMPTY -> C_BIG_MAP_EMPTY
|
||||
| C_BIG_MAP_LITERAL -> C_BIG_MAP_LITERAL
|
||||
(* Crypto *)
|
||||
| C_SHA256 -> C_SHA256
|
||||
| C_SHA512 -> C_SHA512
|
||||
| C_BLAKE2b -> C_BLAKE2b
|
||||
| C_HASH -> C_HASH
|
||||
| C_HASH_KEY -> C_HASH_KEY
|
||||
| C_CHECK_SIGNATURE -> C_CHECK_SIGNATURE
|
||||
| C_CHAIN_ID -> C_CHAIN_ID
|
||||
(* Blockchain *)
|
||||
| C_CALL -> C_CALL
|
||||
| C_CONTRACT -> C_CONTRACT
|
||||
| C_CONTRACT_OPT -> C_CONTRACT_OPT
|
||||
| C_CONTRACT_ENTRYPOINT -> C_CONTRACT_ENTRYPOINT
|
||||
| C_CONTRACT_ENTRYPOINT_OPT -> C_CONTRACT_ENTRYPOINT_OPT
|
||||
| C_AMOUNT -> C_AMOUNT
|
||||
| C_BALANCE -> C_BALANCE
|
||||
| C_SOURCE -> C_SOURCE
|
||||
| C_SENDER -> C_SENDER
|
||||
| C_ADDRESS -> C_ADDRESS
|
||||
| C_SELF -> C_SELF
|
||||
| C_SELF_ADDRESS -> C_SELF_ADDRESS
|
||||
| C_IMPLICIT_ACCOUNT -> C_IMPLICIT_ACCOUNT
|
||||
| C_SET_DELEGATE -> C_SET_DELEGATE
|
||||
| C_CREATE_CONTRACT -> C_CREATE_CONTRACT
|
||||
|
||||
(*
|
||||
let rec type_program (p:I.program) : O.program result =
|
||||
let aux (e, acc:(environment * O.declaration Location.wrap list)) (d:I.declaration Location.wrap) =
|
||||
@ -267,8 +535,8 @@ and type_match : environment -> Solver.state -> O.type_expression -> I.matching_
|
||||
let%bind variant_cases' =
|
||||
trace (match_error ~expected:i ~actual:t loc)
|
||||
@@ Ast_typed.Combinators.get_t_sum variant in
|
||||
let variant_cases = List.map fst @@ I.CMap.to_kv_list variant_cases' in
|
||||
let match_cases = List.map (Function.compose fst fst) lst in
|
||||
let variant_cases = List.map fst @@ O.CMap.to_kv_list variant_cases' in
|
||||
let match_cases = List.map (fun x -> convert_constructor' @@ fst @@ fst x) lst in
|
||||
let test_case = fun c ->
|
||||
Assert.assert_true (List.mem c match_cases)
|
||||
in
|
||||
@ -287,7 +555,7 @@ and type_match : environment -> Solver.state -> O.type_expression -> I.matching_
|
||||
Environment.get_constructor constructor_name e in
|
||||
let e' = Environment.add_ez_binder name constructor e in
|
||||
let%bind (b' , state') = type_expression e' state b in
|
||||
ok (state' , ((constructor_name , name) , b'))
|
||||
ok (state' , ((convert_constructor' constructor_name , name) , b'))
|
||||
in
|
||||
bind_fold_map_list aux state lst in
|
||||
ok (O.Match_variant (lst' , variant) , state'')
|
||||
@ -307,17 +575,17 @@ and evaluate_type (e:environment) (t:I.type_expression) : O.type_expression resu
|
||||
let aux k v prev =
|
||||
let%bind prev' = prev in
|
||||
let%bind v' = evaluate_type e v in
|
||||
ok @@ I.CMap.add k v' prev'
|
||||
ok @@ O.CMap.add (convert_constructor' k) v' prev'
|
||||
in
|
||||
let%bind m = I.CMap.fold aux m (ok I.CMap.empty) in
|
||||
let%bind m = I.CMap.fold aux m (ok O.CMap.empty) in
|
||||
return (T_sum m)
|
||||
| T_record m ->
|
||||
let aux k v prev =
|
||||
let%bind prev' = prev in
|
||||
let%bind v' = evaluate_type e v in
|
||||
ok @@ I.LMap.add k v' prev'
|
||||
ok @@ O.LMap.add (convert_label k) v' prev'
|
||||
in
|
||||
let%bind m = I.LMap.fold aux m (ok I.LMap.empty) in
|
||||
let%bind m = I.LMap.fold aux m (ok O.LMap.empty) in
|
||||
return (T_record m)
|
||||
| T_variable name ->
|
||||
let%bind tv =
|
||||
@ -325,7 +593,7 @@ and evaluate_type (e:environment) (t:I.type_expression) : O.type_expression resu
|
||||
@@ Environment.get_type_opt (name) e in
|
||||
ok tv
|
||||
| T_constant cst ->
|
||||
return (T_constant cst)
|
||||
return (T_constant (convert_type_constant cst))
|
||||
| T_operator opt ->
|
||||
let%bind opt = match opt with
|
||||
| TC_set s ->
|
||||
@ -482,28 +750,30 @@ and type_expression : environment -> Solver.state -> ?tv_opt:O.type_expression -
|
||||
let%bind (expr' , state') = type_expression e state element in
|
||||
let%bind _assert = O.assert_type_expression_eq (expr'.type_expression, c_tv) in
|
||||
let wrapped = Wrap.constructor expr'.type_expression c_tv sum_tv in
|
||||
let constructor = convert_constructor' constructor in
|
||||
return_wrapped (E_constructor {constructor; element=expr'}) state' wrapped
|
||||
|
||||
(* Record *)
|
||||
| E_record m ->
|
||||
let aux (acc, state) k expr =
|
||||
let%bind (expr' , state') = type_expression e state expr in
|
||||
ok (I.LMap.add k expr' acc , state')
|
||||
ok (O.LMap.add (convert_label k) expr' acc , state')
|
||||
in
|
||||
let%bind (m' , state') = Stage_common.Helpers.bind_fold_lmap aux (ok (I.LMap.empty , state)) m in
|
||||
let wrapped = Wrap.record (I.LMap.map get_type_expression m') in
|
||||
let%bind (m' , state') = Stage_common.Helpers.bind_fold_lmap aux (ok (O.LMap.empty , state)) m in
|
||||
let wrapped = Wrap.record (O.LMap.map get_type_expression m') in
|
||||
return_wrapped (E_record m') state' wrapped
|
||||
| E_record_update {record; path; update} ->
|
||||
let%bind (record, state) = type_expression e state record in
|
||||
let%bind (update,state) = type_expression e state update in
|
||||
let wrapped = get_type_expression record in
|
||||
let path = convert_label path in
|
||||
let%bind (wrapped,tv) =
|
||||
match wrapped.type_content with
|
||||
| T_record record -> (
|
||||
let field_op = I.LMap.find_opt path record in
|
||||
let field_op = O.LMap.find_opt path record in
|
||||
match field_op with
|
||||
| Some tv -> ok (record,tv)
|
||||
| None -> failwith @@ Format.asprintf "field %a is not part of record" Stage_common.PP.label path
|
||||
| None -> failwith @@ Format.asprintf "field %a is not part of record" O.PP.label path
|
||||
)
|
||||
| _ -> failwith "Update an expression which is not a record"
|
||||
in
|
||||
@ -609,7 +879,7 @@ and type_expression : environment -> Solver.state -> ?tv_opt:O.type_expression -
|
||||
let%bind (ex' , state') = type_expression e state matchee in
|
||||
let%bind (m' , state'') = type_match e state' ex'.type_expression cases ae ae.location in
|
||||
let tvs =
|
||||
let aux (cur:(O.expression, O.type_expression) O.matching_content) =
|
||||
let aux (cur : O.matching_content) =
|
||||
match cur with
|
||||
| Match_bool { match_true ; match_false } -> [ match_true ; match_false ]
|
||||
| Match_list { match_nil ; match_cons = (_ , _ , match_cons, _) } -> [ match_nil ; match_cons ]
|
||||
@ -668,7 +938,7 @@ and type_expression : environment -> Solver.state -> ?tv_opt:O.type_expression -
|
||||
return_wrapped (E_recursive {fun_name;fun_type;lambda}) state wrapped
|
||||
|
||||
| E_constant {cons_name=name; arguments=lst} ->
|
||||
let () = ignore (name , lst) in
|
||||
let name = convert_constant' name in
|
||||
let%bind t = Operators.Typer.Operators_types.constant_type name in
|
||||
let aux acc expr =
|
||||
let (lst , state) = acc in
|
||||
@ -706,6 +976,7 @@ and type_lambda e state {
|
||||
(* Advanced *)
|
||||
|
||||
and type_constant (name:I.constant') (lst:O.type_expression list) (tv_opt:O.type_expression option) : (O.constant' * O.type_expression) result =
|
||||
let name = convert_constant' name in
|
||||
let%bind typer = Operators.Typer.constant_typers name in
|
||||
let%bind tv = typer lst tv_opt in
|
||||
ok(name, tv)
|
||||
@ -815,13 +1086,21 @@ let rec untype_type_expression (t:O.type_expression) : (I.type_expression) resul
|
||||
(* TODO: or should we use t.core if present? *)
|
||||
let%bind t = match t.type_content with
|
||||
| O.T_sum x ->
|
||||
let%bind x' = Stage_common.Helpers.bind_map_cmap untype_type_expression x in
|
||||
let aux k v acc =
|
||||
let%bind acc = acc in
|
||||
let%bind v' = untype_type_expression v in
|
||||
ok @@ I.CMap.add (unconvert_constructor' k) v' acc in
|
||||
let%bind x' = O.CMap.fold aux x (ok I.CMap.empty) in
|
||||
ok @@ I.T_sum x'
|
||||
| O.T_record x ->
|
||||
let%bind x' = Stage_common.Helpers.bind_map_lmap untype_type_expression x in
|
||||
let aux k v acc =
|
||||
let%bind acc = acc in
|
||||
let%bind v' = untype_type_expression v in
|
||||
ok @@ I.LMap.add (unconvert_label k) v' acc in
|
||||
let%bind x' = O.LMap.fold aux x (ok I.LMap.empty) in
|
||||
ok @@ I.T_record x'
|
||||
| O.T_constant (tag) ->
|
||||
ok @@ I.T_constant (tag)
|
||||
ok @@ I.T_constant (unconvert_type_constant tag)
|
||||
| O.T_variable (name) -> ok @@ I.T_variable (name) (* TODO: is this the right conversion? *)
|
||||
| O.T_arrow {type1;type2} ->
|
||||
let%bind type1 = untype_type_expression type1 in
|
||||
@ -905,7 +1184,7 @@ let rec untype_expression (e:O.expression) : (I.expression) result =
|
||||
return (e_literal l)
|
||||
| E_constant {cons_name;arguments} ->
|
||||
let%bind lst' = bind_map_list untype_expression arguments in
|
||||
return (e_constant cons_name lst')
|
||||
return (e_constant (unconvert_constant' cons_name) lst')
|
||||
| E_variable (n) ->
|
||||
return (e_variable (n))
|
||||
| E_application {lamb;args} ->
|
||||
@ -921,8 +1200,8 @@ let rec untype_expression (e:O.expression) : (I.expression) result =
|
||||
let Constructor n = constructor in
|
||||
return (e_constructor n p')
|
||||
| E_record r ->
|
||||
let r = LMap.to_kv_list r in
|
||||
let%bind r' = bind_map_list (fun (k,e) -> let%bind e = untype_expression e in ok (k,e)) r in
|
||||
let r = O.LMap.to_kv_list r in
|
||||
let%bind r' = bind_map_list (fun (O.Label k,e) -> let%bind e = untype_expression e in ok (I.Label k,e)) r in
|
||||
return (e_record @@ LMap.of_list r')
|
||||
| E_record_accessor {record; path} ->
|
||||
let%bind r' = untype_expression record in
|
||||
@ -931,7 +1210,7 @@ let rec untype_expression (e:O.expression) : (I.expression) result =
|
||||
| E_record_update {record; path; update} ->
|
||||
let%bind r' = untype_expression record in
|
||||
let%bind e = untype_expression update in
|
||||
return (e_record_update r' path e)
|
||||
return (e_record_update r' (unconvert_label path) e)
|
||||
| E_matching {matchee;cases} ->
|
||||
let%bind ae' = untype_expression matchee in
|
||||
let%bind m' = untype_matching untype_expression cases in
|
||||
@ -981,6 +1260,6 @@ and untype_matching : (O.expression -> I.expression result) -> O.matching_expr -
|
||||
| Match_variant (lst , _) ->
|
||||
let aux ((a,b),c) =
|
||||
let%bind c' = f c in
|
||||
ok ((a,b),c') in
|
||||
ok ((unconvert_constructor' a,b),c') in
|
||||
let%bind lst' = bind_map_list aux lst in
|
||||
ok @@ Match_variant (lst',())
|
||||
|
@ -217,6 +217,256 @@ module Errors = struct
|
||||
end
|
||||
open Errors
|
||||
|
||||
let convert_constructor' (I.Constructor c) = O.Constructor c
|
||||
let unconvert_constructor' (O.Constructor c) = I.Constructor c
|
||||
let convert_label (I.Label c) = O.Label c
|
||||
let convert_type_constant : I.type_constant -> O.type_constant = function
|
||||
| TC_unit -> TC_unit
|
||||
| TC_string -> TC_string
|
||||
| TC_bytes -> TC_bytes
|
||||
| TC_nat -> TC_nat
|
||||
| TC_int -> TC_int
|
||||
| TC_mutez -> TC_mutez
|
||||
| TC_bool -> TC_bool
|
||||
| TC_operation -> TC_operation
|
||||
| TC_address -> TC_address
|
||||
| TC_key -> TC_key
|
||||
| TC_key_hash -> TC_key_hash
|
||||
| TC_chain_id -> TC_chain_id
|
||||
| TC_signature -> TC_signature
|
||||
| TC_timestamp -> TC_timestamp
|
||||
| TC_void -> TC_void
|
||||
|
||||
let convert_constant' : I.constant' -> O.constant' = function
|
||||
| C_INT -> C_INT
|
||||
| C_UNIT -> C_UNIT
|
||||
| C_NIL -> C_NIL
|
||||
| C_NOW -> C_NOW
|
||||
| C_IS_NAT -> C_IS_NAT
|
||||
| C_SOME -> C_SOME
|
||||
| C_NONE -> C_NONE
|
||||
| C_ASSERTION -> C_ASSERTION
|
||||
| C_ASSERT_INFERRED -> C_ASSERT_INFERRED
|
||||
| C_FAILWITH -> C_FAILWITH
|
||||
| C_UPDATE -> C_UPDATE
|
||||
(* Loops *)
|
||||
| C_ITER -> C_ITER
|
||||
| C_FOLD_WHILE -> C_FOLD_WHILE
|
||||
| C_FOLD_CONTINUE -> C_FOLD_CONTINUE
|
||||
| C_FOLD_STOP -> C_FOLD_STOP
|
||||
| C_LOOP_LEFT -> C_LOOP_LEFT
|
||||
| C_LOOP_CONTINUE -> C_LOOP_CONTINUE
|
||||
| C_LOOP_STOP -> C_LOOP_STOP
|
||||
| C_FOLD -> C_FOLD
|
||||
(* MATH *)
|
||||
| C_NEG -> C_NEG
|
||||
| C_ABS -> C_ABS
|
||||
| C_ADD -> C_ADD
|
||||
| C_SUB -> C_SUB
|
||||
| C_MUL -> C_MUL
|
||||
| C_EDIV -> C_EDIV
|
||||
| C_DIV -> C_DIV
|
||||
| C_MOD -> C_MOD
|
||||
(* LOGIC *)
|
||||
| C_NOT -> C_NOT
|
||||
| C_AND -> C_AND
|
||||
| C_OR -> C_OR
|
||||
| C_XOR -> C_XOR
|
||||
| C_LSL -> C_LSL
|
||||
| C_LSR -> C_LSR
|
||||
(* COMPARATOR *)
|
||||
| C_EQ -> C_EQ
|
||||
| C_NEQ -> C_NEQ
|
||||
| C_LT -> C_LT
|
||||
| C_GT -> C_GT
|
||||
| C_LE -> C_LE
|
||||
| C_GE -> C_GE
|
||||
(* Bytes/ String *)
|
||||
| C_SIZE -> C_SIZE
|
||||
| C_CONCAT -> C_CONCAT
|
||||
| C_SLICE -> C_SLICE
|
||||
| C_BYTES_PACK -> C_BYTES_PACK
|
||||
| C_BYTES_UNPACK -> C_BYTES_UNPACK
|
||||
| C_CONS -> C_CONS
|
||||
(* Pair *)
|
||||
| C_PAIR -> C_PAIR
|
||||
| C_CAR -> C_CAR
|
||||
| C_CDR -> C_CDR
|
||||
| C_LEFT -> C_LEFT
|
||||
| C_RIGHT -> C_RIGHT
|
||||
(* Set *)
|
||||
| C_SET_EMPTY -> C_SET_EMPTY
|
||||
| C_SET_LITERAL -> C_SET_LITERAL
|
||||
| C_SET_ADD -> C_SET_ADD
|
||||
| C_SET_REMOVE -> C_SET_REMOVE
|
||||
| C_SET_ITER -> C_SET_ITER
|
||||
| C_SET_FOLD -> C_SET_FOLD
|
||||
| C_SET_MEM -> C_SET_MEM
|
||||
(* List *)
|
||||
| C_LIST_EMPTY -> C_LIST_EMPTY
|
||||
| C_LIST_LITERAL -> C_LIST_LITERAL
|
||||
| C_LIST_ITER -> C_LIST_ITER
|
||||
| C_LIST_MAP -> C_LIST_MAP
|
||||
| C_LIST_FOLD -> C_LIST_FOLD
|
||||
(* Maps *)
|
||||
| C_MAP -> C_MAP
|
||||
| C_MAP_EMPTY -> C_MAP_EMPTY
|
||||
| C_MAP_LITERAL -> C_MAP_LITERAL
|
||||
| C_MAP_GET -> C_MAP_GET
|
||||
| C_MAP_GET_FORCE -> C_MAP_GET_FORCE
|
||||
| C_MAP_ADD -> C_MAP_ADD
|
||||
| C_MAP_REMOVE -> C_MAP_REMOVE
|
||||
| C_MAP_UPDATE -> C_MAP_UPDATE
|
||||
| C_MAP_ITER -> C_MAP_ITER
|
||||
| C_MAP_MAP -> C_MAP_MAP
|
||||
| C_MAP_FOLD -> C_MAP_FOLD
|
||||
| C_MAP_MEM -> C_MAP_MEM
|
||||
| C_MAP_FIND -> C_MAP_FIND
|
||||
| C_MAP_FIND_OPT -> C_MAP_FIND_OPT
|
||||
(* Big Maps *)
|
||||
| C_BIG_MAP -> C_BIG_MAP
|
||||
| C_BIG_MAP_EMPTY -> C_BIG_MAP_EMPTY
|
||||
| C_BIG_MAP_LITERAL -> C_BIG_MAP_LITERAL
|
||||
(* Crypto *)
|
||||
| C_SHA256 -> C_SHA256
|
||||
| C_SHA512 -> C_SHA512
|
||||
| C_BLAKE2b -> C_BLAKE2b
|
||||
| C_HASH -> C_HASH
|
||||
| C_HASH_KEY -> C_HASH_KEY
|
||||
| C_CHECK_SIGNATURE -> C_CHECK_SIGNATURE
|
||||
| C_CHAIN_ID -> C_CHAIN_ID
|
||||
(* Blockchain *)
|
||||
| C_CALL -> C_CALL
|
||||
| C_CONTRACT -> C_CONTRACT
|
||||
| C_CONTRACT_OPT -> C_CONTRACT_OPT
|
||||
| C_CONTRACT_ENTRYPOINT -> C_CONTRACT_ENTRYPOINT
|
||||
| C_CONTRACT_ENTRYPOINT_OPT -> C_CONTRACT_ENTRYPOINT_OPT
|
||||
| C_AMOUNT -> C_AMOUNT
|
||||
| C_BALANCE -> C_BALANCE
|
||||
| C_SOURCE -> C_SOURCE
|
||||
| C_SENDER -> C_SENDER
|
||||
| C_ADDRESS -> C_ADDRESS
|
||||
| C_SELF -> C_SELF
|
||||
| C_SELF_ADDRESS -> C_SELF_ADDRESS
|
||||
| C_IMPLICIT_ACCOUNT -> C_IMPLICIT_ACCOUNT
|
||||
| C_SET_DELEGATE -> C_SET_DELEGATE
|
||||
| C_CREATE_CONTRACT -> C_CREATE_CONTRACT
|
||||
|
||||
let unconvert_constant' : O.constant' -> I.constant' = function
|
||||
| C_INT -> C_INT
|
||||
| C_UNIT -> C_UNIT
|
||||
| C_NIL -> C_NIL
|
||||
| C_NOW -> C_NOW
|
||||
| C_IS_NAT -> C_IS_NAT
|
||||
| C_SOME -> C_SOME
|
||||
| C_NONE -> C_NONE
|
||||
| C_ASSERTION -> C_ASSERTION
|
||||
| C_ASSERT_INFERRED -> C_ASSERT_INFERRED
|
||||
| C_FAILWITH -> C_FAILWITH
|
||||
| C_UPDATE -> C_UPDATE
|
||||
(* Loops *)
|
||||
| C_ITER -> C_ITER
|
||||
| C_FOLD_WHILE -> C_FOLD_WHILE
|
||||
| C_FOLD_CONTINUE -> C_FOLD_CONTINUE
|
||||
| C_FOLD_STOP -> C_FOLD_STOP
|
||||
| C_LOOP_LEFT -> C_LOOP_LEFT
|
||||
| C_LOOP_CONTINUE -> C_LOOP_CONTINUE
|
||||
| C_LOOP_STOP -> C_LOOP_STOP
|
||||
| C_FOLD -> C_FOLD
|
||||
(* MATH *)
|
||||
| C_NEG -> C_NEG
|
||||
| C_ABS -> C_ABS
|
||||
| C_ADD -> C_ADD
|
||||
| C_SUB -> C_SUB
|
||||
| C_MUL -> C_MUL
|
||||
| C_EDIV -> C_EDIV
|
||||
| C_DIV -> C_DIV
|
||||
| C_MOD -> C_MOD
|
||||
(* LOGIC *)
|
||||
| C_NOT -> C_NOT
|
||||
| C_AND -> C_AND
|
||||
| C_OR -> C_OR
|
||||
| C_XOR -> C_XOR
|
||||
| C_LSL -> C_LSL
|
||||
| C_LSR -> C_LSR
|
||||
(* COMPARATOR *)
|
||||
| C_EQ -> C_EQ
|
||||
| C_NEQ -> C_NEQ
|
||||
| C_LT -> C_LT
|
||||
| C_GT -> C_GT
|
||||
| C_LE -> C_LE
|
||||
| C_GE -> C_GE
|
||||
(* Bytes/ String *)
|
||||
| C_SIZE -> C_SIZE
|
||||
| C_CONCAT -> C_CONCAT
|
||||
| C_SLICE -> C_SLICE
|
||||
| C_BYTES_PACK -> C_BYTES_PACK
|
||||
| C_BYTES_UNPACK -> C_BYTES_UNPACK
|
||||
| C_CONS -> C_CONS
|
||||
(* Pair *)
|
||||
| C_PAIR -> C_PAIR
|
||||
| C_CAR -> C_CAR
|
||||
| C_CDR -> C_CDR
|
||||
| C_LEFT -> C_LEFT
|
||||
| C_RIGHT -> C_RIGHT
|
||||
(* Set *)
|
||||
| C_SET_EMPTY -> C_SET_EMPTY
|
||||
| C_SET_LITERAL -> C_SET_LITERAL
|
||||
| C_SET_ADD -> C_SET_ADD
|
||||
| C_SET_REMOVE -> C_SET_REMOVE
|
||||
| C_SET_ITER -> C_SET_ITER
|
||||
| C_SET_FOLD -> C_SET_FOLD
|
||||
| C_SET_MEM -> C_SET_MEM
|
||||
(* List *)
|
||||
| C_LIST_EMPTY -> C_LIST_EMPTY
|
||||
| C_LIST_LITERAL -> C_LIST_LITERAL
|
||||
| C_LIST_ITER -> C_LIST_ITER
|
||||
| C_LIST_MAP -> C_LIST_MAP
|
||||
| C_LIST_FOLD -> C_LIST_FOLD
|
||||
(* Maps *)
|
||||
| C_MAP -> C_MAP
|
||||
| C_MAP_EMPTY -> C_MAP_EMPTY
|
||||
| C_MAP_LITERAL -> C_MAP_LITERAL
|
||||
| C_MAP_GET -> C_MAP_GET
|
||||
| C_MAP_GET_FORCE -> C_MAP_GET_FORCE
|
||||
| C_MAP_ADD -> C_MAP_ADD
|
||||
| C_MAP_REMOVE -> C_MAP_REMOVE
|
||||
| C_MAP_UPDATE -> C_MAP_UPDATE
|
||||
| C_MAP_ITER -> C_MAP_ITER
|
||||
| C_MAP_MAP -> C_MAP_MAP
|
||||
| C_MAP_FOLD -> C_MAP_FOLD
|
||||
| C_MAP_MEM -> C_MAP_MEM
|
||||
| C_MAP_FIND -> C_MAP_FIND
|
||||
| C_MAP_FIND_OPT -> C_MAP_FIND_OPT
|
||||
(* Big Maps *)
|
||||
| C_BIG_MAP -> C_BIG_MAP
|
||||
| C_BIG_MAP_EMPTY -> C_BIG_MAP_EMPTY
|
||||
| C_BIG_MAP_LITERAL -> C_BIG_MAP_LITERAL
|
||||
(* Crypto *)
|
||||
| C_SHA256 -> C_SHA256
|
||||
| C_SHA512 -> C_SHA512
|
||||
| C_BLAKE2b -> C_BLAKE2b
|
||||
| C_HASH -> C_HASH
|
||||
| C_HASH_KEY -> C_HASH_KEY
|
||||
| C_CHECK_SIGNATURE -> C_CHECK_SIGNATURE
|
||||
| C_CHAIN_ID -> C_CHAIN_ID
|
||||
(* Blockchain *)
|
||||
| C_CALL -> C_CALL
|
||||
| C_CONTRACT -> C_CONTRACT
|
||||
| C_CONTRACT_OPT -> C_CONTRACT_OPT
|
||||
| C_CONTRACT_ENTRYPOINT -> C_CONTRACT_ENTRYPOINT
|
||||
| C_CONTRACT_ENTRYPOINT_OPT -> C_CONTRACT_ENTRYPOINT_OPT
|
||||
| C_AMOUNT -> C_AMOUNT
|
||||
| C_BALANCE -> C_BALANCE
|
||||
| C_SOURCE -> C_SOURCE
|
||||
| C_SENDER -> C_SENDER
|
||||
| C_ADDRESS -> C_ADDRESS
|
||||
| C_SELF -> C_SELF
|
||||
| C_SELF_ADDRESS -> C_SELF_ADDRESS
|
||||
| C_IMPLICIT_ACCOUNT -> C_IMPLICIT_ACCOUNT
|
||||
| C_SET_DELEGATE -> C_SET_DELEGATE
|
||||
| C_CREATE_CONTRACT -> C_CREATE_CONTRACT
|
||||
|
||||
let rec type_program (p:I.program) : (O.program * Solver.state) result =
|
||||
let aux (e, acc:(environment * O.declaration Location.wrap list)) (d:I.declaration Location.wrap) =
|
||||
let%bind ed' = (bind_map_location (type_declaration e (Solver.placeholder_for_state_of_new_typer ()))) d in
|
||||
@ -313,8 +563,8 @@ and type_match : (environment -> I.expression -> O.expression result) -> environ
|
||||
let%bind variant_cases' =
|
||||
trace (match_error ~expected:i ~actual:t loc)
|
||||
@@ Ast_typed.Combinators.get_t_sum variant in
|
||||
let variant_cases = List.map fst @@ I.CMap.to_kv_list variant_cases' in
|
||||
let match_cases = List.map (Function.compose fst fst) lst in
|
||||
let variant_cases = List.map fst @@ O.CMap.to_kv_list variant_cases' in
|
||||
let match_cases = List.map (fun x -> convert_constructor' @@ fst @@ fst x) lst in
|
||||
let test_case = fun c ->
|
||||
Assert.assert_true (List.mem c match_cases)
|
||||
in
|
||||
@ -333,7 +583,7 @@ and type_match : (environment -> I.expression -> O.expression result) -> environ
|
||||
Environment.get_constructor constructor_name e in
|
||||
let e' = Environment.add_ez_binder name constructor e in
|
||||
let%bind b' = f e' b in
|
||||
ok ((constructor_name , name) , b')
|
||||
ok ((convert_constructor' constructor_name , name) , b')
|
||||
in
|
||||
bind_map_list aux lst in
|
||||
ok (O.Match_variant (lst' , variant))
|
||||
@ -355,17 +605,17 @@ and evaluate_type (e:environment) (t:I.type_expression) : O.type_expression resu
|
||||
ok ()
|
||||
else fail (redundant_constructor e k)
|
||||
| None -> ok () in
|
||||
ok @@ I.CMap.add k v' prev'
|
||||
ok @@ O.CMap.add (convert_constructor' k) v' prev'
|
||||
in
|
||||
let%bind m = I.CMap.fold aux m (ok I.CMap.empty) in
|
||||
let%bind m = I.CMap.fold aux m (ok O.CMap.empty) in
|
||||
return (T_sum m)
|
||||
| T_record m ->
|
||||
let aux k v prev =
|
||||
let%bind prev' = prev in
|
||||
let%bind v' = evaluate_type e v in
|
||||
ok @@ I.LMap.add k v' prev'
|
||||
ok @@ O.LMap.add (convert_label k) v' prev'
|
||||
in
|
||||
let%bind m = I.LMap.fold aux m (ok I.LMap.empty) in
|
||||
let%bind m = I.LMap.fold aux m (ok O.LMap.empty) in
|
||||
return (T_record m)
|
||||
| T_variable name ->
|
||||
let%bind tv =
|
||||
@ -373,7 +623,7 @@ and evaluate_type (e:environment) (t:I.type_expression) : O.type_expression resu
|
||||
@@ Environment.get_type_opt (name) e in
|
||||
ok tv
|
||||
| T_constant cst ->
|
||||
return (T_constant cst)
|
||||
return (T_constant (convert_type_constant cst))
|
||||
| T_operator opt ->
|
||||
let%bind opt = match opt with
|
||||
| TC_set s ->
|
||||
@ -477,9 +727,9 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
||||
let%bind r_tv = get_t_record prev.type_expression in
|
||||
let%bind tv =
|
||||
generic_try (bad_record_access property ae prev.type_expression ae.location)
|
||||
@@ (fun () -> I.LMap.find property r_tv) in
|
||||
@@ (fun () -> O.LMap.find (convert_label property) r_tv) in
|
||||
let location = ae.location in
|
||||
ok @@ make_e ~location (E_record_accessor {record=prev; path=property}) tv e
|
||||
ok @@ make_e ~location (E_record_accessor {record=prev; path=convert_label property}) tv e
|
||||
in
|
||||
let%bind ae =
|
||||
trace (simple_info "accessing") @@ aux e' path in
|
||||
@ -494,7 +744,7 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
||||
let%bind expr' = type_expression' e element in
|
||||
( match t.type_content with
|
||||
| T_sum c ->
|
||||
let ct = I.CMap.find (I.Constructor s) c in
|
||||
let ct = O.CMap.find (O.Constructor s) c in
|
||||
let%bind _assert = O.assert_type_expression_eq (expr'.type_expression, ct) in
|
||||
return (E_constructor {constructor = Constructor s; element=expr'}) t
|
||||
| _ -> simple_fail "ll"
|
||||
@ -515,27 +765,28 @@ and type_expression' : environment -> ?tv_opt:O.type_expression -> I.expression
|
||||
Environment.get_constructor constructor e in
|
||||
let%bind expr' = type_expression' e element in
|
||||
let%bind _assert = O.assert_type_expression_eq (expr'.type_expression, c_tv) in
|
||||
let constructor = convert_constructor' constructor in
|
||||
return (E_constructor {constructor; element=expr'}) sum_tv
|
||||
(* Record *)
|
||||
| E_record m ->
|
||||
let aux prev k expr =
|
||||
let%bind expr' = type_expression' e expr in
|
||||
ok (I.LMap.add k expr' prev)
|
||||
ok (O.LMap.add (convert_label k) expr' prev)
|
||||
in
|
||||
let%bind m' = Stage_common.Helpers.bind_fold_lmap aux (ok I.LMap.empty) m in
|
||||
return (E_record m') (t_record (I.LMap.map get_type_expression m') ())
|
||||
let%bind m' = Stage_common.Helpers.bind_fold_lmap aux (ok O.LMap.empty) m in
|
||||
return (E_record m') (t_record (O.LMap.map get_type_expression m') ())
|
||||
| E_record_update {record; path; update} ->
|
||||
|
||||
let path = convert_label path in
|
||||
let%bind record = type_expression' e record in
|
||||
let%bind update = type_expression' e update in
|
||||
let wrapped = get_type_expression record in
|
||||
let%bind tv =
|
||||
match wrapped.type_content with
|
||||
| T_record record -> (
|
||||
let field_op = I.LMap.find_opt path record in
|
||||
let field_op = O.LMap.find_opt path record in
|
||||
match field_op with
|
||||
| Some tv -> ok (tv)
|
||||
| None -> failwith @@ Format.asprintf "field %a is not part of record %a" Stage_common.PP.label path O.PP.type_expression wrapped
|
||||
| None -> failwith @@ Format.asprintf "field %a is not part of record %a" Ast_typed.PP.label path O.PP.type_expression wrapped
|
||||
)
|
||||
| _ -> failwith "Update an expression which is not a record"
|
||||
in
|
||||
@ -750,6 +1001,7 @@ and type_lambda e {
|
||||
|
||||
|
||||
and type_constant (name:I.constant') (lst:O.type_expression list) (tv_opt:O.type_expression option) : (O.constant' * O.type_expression) result =
|
||||
let name = convert_constant' name in
|
||||
let%bind typer = Operators.Typer.constant_typers name in
|
||||
let%bind tv = typer lst tv_opt in
|
||||
ok(name, tv)
|
||||
@ -790,7 +1042,7 @@ let rec untype_expression (e:O.expression) : (I.expression) result =
|
||||
return (e_literal l)
|
||||
| E_constant {cons_name;arguments} ->
|
||||
let%bind lst' = bind_map_list untype_expression arguments in
|
||||
return (e_constant cons_name lst')
|
||||
return (e_constant (unconvert_constant' cons_name) lst')
|
||||
| E_variable n ->
|
||||
return (e_variable (n))
|
||||
| E_application {lamb;args} ->
|
||||
@ -808,17 +1060,17 @@ let rec untype_expression (e:O.expression) : (I.expression) result =
|
||||
let Constructor n = constructor in
|
||||
return (e_constructor n p')
|
||||
| E_record r ->
|
||||
let r = LMap.to_kv_list r in
|
||||
let%bind r' = bind_map_list (fun (k,e) -> let%bind e = untype_expression e in ok (k,e)) r in
|
||||
let r = O.LMap.to_kv_list r in
|
||||
let%bind r' = bind_map_list (fun (O.Label k,e) -> let%bind e = untype_expression e in ok (I.Label k,e)) r in
|
||||
return (e_record @@ LMap.of_list r')
|
||||
| E_record_accessor {record; path} ->
|
||||
let%bind r' = untype_expression record in
|
||||
let Label s = path in
|
||||
return (e_record_accessor r' s)
|
||||
| E_record_update {record=r; path=l; update=e} ->
|
||||
| E_record_update {record=r; path=O.Label l; update=e} ->
|
||||
let%bind r' = untype_expression r in
|
||||
let%bind e = untype_expression e in
|
||||
return (e_record_update r' l e)
|
||||
return (e_record_update r' (I.Label l) e)
|
||||
| E_matching {matchee;cases} ->
|
||||
let%bind ae' = untype_expression matchee in
|
||||
let%bind m' = untype_matching untype_expression cases in
|
||||
@ -857,6 +1109,6 @@ and untype_matching : (O.expression -> I.expression result) -> O.matching_expr -
|
||||
| Match_variant (lst , _) ->
|
||||
let aux ((a,b),c) =
|
||||
let%bind c' = f c in
|
||||
ok ((a,b),c') in
|
||||
ok ((unconvert_constructor' a,b),c') in
|
||||
let%bind lst' = bind_map_list aux lst in
|
||||
ok @@ Match_variant (lst',())
|
||||
|
@ -1,4 +1,4 @@
|
||||
open Ast_typed
|
||||
open Ast_typed.Types
|
||||
open Trace
|
||||
|
||||
type contract_pass_data = {
|
||||
@ -63,7 +63,7 @@ let self_typing : contract_pass_data -> expression -> (bool * contract_pass_data
|
||||
| _ -> fail @@ Errors.entrypoint_annotation_not_literal entrypoint_exp.location in
|
||||
let%bind entrypoint_t = match dat.contract_type.parameter.type_content with
|
||||
| T_sum cmap -> trace_option (Errors.unmatched_entrypoint entrypoint_exp.location)
|
||||
@@ Stage_common.Types.CMap.find_opt (Constructor entrypoint) cmap
|
||||
@@ CMap.find_opt (Constructor entrypoint) cmap
|
||||
| t -> ok {dat.contract_type.parameter with type_content = t} in
|
||||
let%bind () =
|
||||
trace_strong (bad_self_err ()) @@
|
||||
|
@ -1,6 +1,6 @@
|
||||
open Ast_typed
|
||||
open Trace
|
||||
open Stage_common.Helpers
|
||||
open Ast_typed.Helpers
|
||||
|
||||
type 'a folder = 'a -> expression -> 'a result
|
||||
let rec fold_expression : 'a folder -> 'a -> expression -> 'a result = fun f init e ->
|
||||
@ -327,8 +327,8 @@ let fetch_contract_type : string -> program -> contract_type result = fun main_f
|
||||
| T_arrow {type1 ; type2} -> (
|
||||
match type1.type_content , type2.type_content with
|
||||
| T_record tin , T_record tout when (is_tuple_lmap tin) && (is_tuple_lmap tout) ->
|
||||
let%bind (parameter,storage) = Stage_common.Helpers.get_pair tin in
|
||||
let%bind (listop,storage') = Stage_common.Helpers.get_pair tout in
|
||||
let%bind (parameter,storage) = Ast_typed.Helpers.get_pair tin in
|
||||
let%bind (listop,storage') = Ast_typed.Helpers.get_pair tout in
|
||||
let%bind () = trace_strong (Errors.expected_list_operation main_fname listop e) @@
|
||||
Ast_typed.assert_t_list_operation listop in
|
||||
let%bind () = trace_strong (Errors.expected_same main_fname storage storage' e) @@
|
||||
|
@ -595,7 +595,7 @@ module Typer = struct
|
||||
| C_SELF_ADDRESS -> ok @@ t_self_address;
|
||||
| C_IMPLICIT_ACCOUNT -> ok @@ t_implicit_account;
|
||||
| C_SET_DELEGATE -> ok @@ t_set_delegate ;
|
||||
| c -> simple_fail @@ Format.asprintf "Typer not implemented for consant %a" Stage_common.PP.constant c
|
||||
| c -> simple_fail @@ Format.asprintf "Typer not implemented for consant %a" Ast_typed.PP.constant c
|
||||
end
|
||||
|
||||
let none = typer_0 "NONE" @@ fun tv_opt ->
|
||||
|
@ -1,7 +1,7 @@
|
||||
[@@@coverage exclude_file]
|
||||
open Types
|
||||
open Format
|
||||
open PP_helpers
|
||||
(* open Types
|
||||
* open Format
|
||||
* open PP_helpers *)
|
||||
|
||||
(* include Stage_common.PP *)
|
||||
open Types
|
||||
@ -17,34 +17,33 @@ let label ppf (l:label) : unit =
|
||||
let cmap_sep value sep ppf m =
|
||||
let lst = CMap.to_kv_list m in
|
||||
let lst = List.sort (fun (Constructor a,_) (Constructor b,_) -> String.compare a b) lst in
|
||||
let new_pp ppf (k, v) = fprintf ppf "%a -> %a" constructor k value v in
|
||||
let new_pp ppf (k, v) = fprintf ppf "@[<h>%a -> %a@]" constructor k value v in
|
||||
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||
|
||||
let record_sep value sep ppf (m : 'a label_map) =
|
||||
let lst = LMap.to_kv_list m in
|
||||
let lst = List.sort (fun (Label a,_) (Label b,_) -> String.compare a b) lst in
|
||||
let new_pp ppf (k, v) = fprintf ppf "%a -> %a" label k value v in
|
||||
let lst = List.sort_uniq (fun (Label a,_) (Label b,_) -> String.compare a b) lst in
|
||||
let new_pp ppf (k, v) = fprintf ppf "@[<h>%a -> %a@]" label k value v in
|
||||
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||
|
||||
let tuple_sep value sep ppf m =
|
||||
assert (Helpers.is_tuple_lmap m);
|
||||
let lst = LMap.to_kv_list m in
|
||||
let lst = List.sort (fun (Label a,_) (Label b,_) -> String.compare a b) lst in
|
||||
let new_pp ppf (_k, v) = fprintf ppf "%a" value v in
|
||||
let lst = Helpers.tuple_of_record m in
|
||||
let new_pp ppf (_, v) = fprintf ppf "%a" value v in
|
||||
fprintf ppf "%a" (list_sep new_pp sep) lst
|
||||
|
||||
(* Prints records which only contain the consecutive fields
|
||||
0..(cardinal-1) as tuples *)
|
||||
let tuple_or_record_sep value format_record sep_record format_tuple sep_tuple ppf m =
|
||||
if Helpers.is_tuple_lmap m then
|
||||
fprintf ppf format_tuple (tuple_sep value (const sep_tuple)) m
|
||||
fprintf ppf format_tuple (tuple_sep value (tag sep_tuple)) m
|
||||
else
|
||||
fprintf ppf format_record (record_sep value (const sep_record)) m
|
||||
fprintf ppf format_record (record_sep value (tag sep_record)) m
|
||||
|
||||
let list_sep_d x = list_sep x (const " , ")
|
||||
let cmap_sep_d x = cmap_sep x (const " , ")
|
||||
let tuple_or_record_sep_expr value = tuple_or_record_sep value "record[%a]" " , " "( %a )" " , "
|
||||
let tuple_or_record_sep_type value = tuple_or_record_sep value "record[%a]" " , " "( %a )" " * "
|
||||
let list_sep_d x = list_sep x (tag " ,@ ")
|
||||
let cmap_sep_d x = cmap_sep x (tag " ,@ ")
|
||||
let tuple_or_record_sep_expr value = tuple_or_record_sep value "@[<hv 7>record[%a]@]" " ,@ " "@[<hv 2>( %a )@]" " ,@ "
|
||||
let tuple_or_record_sep_type value = tuple_or_record_sep value "@[<hv 7>record[%a]@]" " ,@ " "@[<hv 2>( %a )@]" " *@ "
|
||||
|
||||
let constant ppf : constant' -> unit = function
|
||||
| C_INT -> fprintf ppf "INT"
|
||||
@ -112,6 +111,8 @@ let constant ppf : constant' -> unit = function
|
||||
| C_SET_FOLD -> fprintf ppf "SET_FOLD"
|
||||
| C_SET_MEM -> fprintf ppf "SET_MEM"
|
||||
(* List *)
|
||||
| C_LIST_EMPTY -> fprintf ppf "LIST_EMPTY"
|
||||
| C_LIST_LITERAL -> fprintf ppf "LIST_LITERAL"
|
||||
| C_LIST_ITER -> fprintf ppf "LIST_ITER"
|
||||
| C_LIST_MAP -> fprintf ppf "LIST_MAP"
|
||||
| C_LIST_FOLD -> fprintf ppf "LIST_FOLD"
|
||||
@ -161,103 +162,65 @@ let constant ppf : constant' -> unit = function
|
||||
|
||||
let literal ppf (l : literal) =
|
||||
match l with
|
||||
| Literal_unit ->
|
||||
fprintf ppf "unit"
|
||||
| Literal_void ->
|
||||
fprintf ppf "void"
|
||||
| Literal_bool b ->
|
||||
fprintf ppf "%b" b
|
||||
| Literal_int n ->
|
||||
fprintf ppf "%d" n
|
||||
| Literal_nat n ->
|
||||
fprintf ppf "+%d" n
|
||||
| Literal_timestamp n ->
|
||||
fprintf ppf "+%d" n
|
||||
| Literal_mutez n ->
|
||||
fprintf ppf "%dmutez" n
|
||||
| Literal_string s ->
|
||||
fprintf ppf "%S" s
|
||||
| Literal_bytes b ->
|
||||
fprintf ppf "0x%a" Hex.pp (Hex.of_bytes b)
|
||||
| Literal_address s ->
|
||||
fprintf ppf "@%S" s
|
||||
| Literal_operation _ ->
|
||||
fprintf ppf "Operation(...bytes)"
|
||||
| Literal_key s ->
|
||||
fprintf ppf "key %s" s
|
||||
| Literal_key_hash s ->
|
||||
fprintf ppf "key_hash %s" s
|
||||
| Literal_signature s ->
|
||||
fprintf ppf "Signature %s" s
|
||||
| Literal_chain_id s ->
|
||||
fprintf ppf "Chain_id %s" s
|
||||
module Ast_PP_type (PARAMETER : AST_PARAMETER_TYPE) = struct
|
||||
module Agt=Ast_generic_type(PARAMETER)
|
||||
open Agt
|
||||
open Format
|
||||
| Literal_unit -> fprintf ppf "unit"
|
||||
| Literal_void -> fprintf ppf "void"
|
||||
| Literal_bool b -> fprintf ppf "%b" b
|
||||
| Literal_int n -> fprintf ppf "%d" n
|
||||
| Literal_nat n -> fprintf ppf "+%d" n
|
||||
| Literal_timestamp n -> fprintf ppf "+%d" n
|
||||
| Literal_mutez n -> fprintf ppf "%dmutez" n
|
||||
| Literal_string s -> fprintf ppf "%S" s
|
||||
| Literal_bytes b -> fprintf ppf "0x%a" Hex.pp (Hex.of_bytes b)
|
||||
| Literal_address s -> fprintf ppf "@%S" s
|
||||
| Literal_operation _ -> fprintf ppf "Operation(...bytes)"
|
||||
| Literal_key s -> fprintf ppf "key %s" s
|
||||
| Literal_key_hash s -> fprintf ppf "key_hash %s" s
|
||||
| Literal_signature s -> fprintf ppf "Signature %s" s
|
||||
| Literal_chain_id s -> fprintf ppf "Chain_id %s" s
|
||||
|
||||
let type_variable ppf (t : type_variable) : unit = fprintf ppf "%a" Var.pp t
|
||||
let type_variable ppf (t : type_variable) : unit = fprintf ppf "%a" Var.pp t
|
||||
|
||||
let rec type_expression' :
|
||||
and type_constant ppf (tc : type_constant) : unit =
|
||||
let s =
|
||||
match tc with
|
||||
| TC_unit -> "unit"
|
||||
| TC_string -> "string"
|
||||
| TC_bytes -> "bytes"
|
||||
| TC_nat -> "nat"
|
||||
| TC_int -> "int"
|
||||
| TC_mutez -> "mutez"
|
||||
| TC_bool -> "bool"
|
||||
| TC_operation -> "operation"
|
||||
| TC_address -> "address"
|
||||
| TC_key -> "key"
|
||||
| TC_key_hash -> "key_hash"
|
||||
| TC_signature -> "signature"
|
||||
| TC_timestamp -> "timestamp"
|
||||
| TC_chain_id -> "chain_id"
|
||||
| TC_void -> "void"
|
||||
in
|
||||
fprintf ppf "%s" s
|
||||
|
||||
open Format
|
||||
|
||||
let rec type_expression' :
|
||||
(formatter -> type_expression -> unit)
|
||||
-> formatter
|
||||
-> type_expression
|
||||
-> unit =
|
||||
fun f ppf te ->
|
||||
match te.type_content with
|
||||
| T_sum m ->
|
||||
fprintf ppf "sum[%a]" (cmap_sep_d f) m
|
||||
| T_record m ->
|
||||
fprintf ppf "%a" (tuple_or_record_sep_type f) m
|
||||
| T_arrow a ->
|
||||
fprintf ppf "%a -> %a" f a.type1 f a.type2
|
||||
| T_variable tv ->
|
||||
type_variable ppf tv
|
||||
| T_constant tc ->
|
||||
type_constant ppf tc
|
||||
| T_operator to_ ->
|
||||
type_operator f ppf to_
|
||||
| T_sum m -> fprintf ppf "@[<hv 4>sum[%a]@]" (cmap_sep_d f) m
|
||||
| T_record m -> fprintf ppf "%a" (tuple_or_record_sep_type f) m
|
||||
| T_arrow a -> fprintf ppf "%a -> %a" f a.type1 f a.type2
|
||||
| T_variable tv -> type_variable ppf tv
|
||||
| T_constant tc -> type_constant ppf tc
|
||||
| T_operator to_ -> type_operator f ppf to_
|
||||
|
||||
and type_expression ppf (te : type_expression) : unit =
|
||||
and type_expression ppf (te : type_expression) : unit =
|
||||
type_expression' type_expression ppf te
|
||||
|
||||
and type_constant ppf (tc : type_constant) : unit =
|
||||
let s =
|
||||
match tc with
|
||||
| TC_unit ->
|
||||
"unit"
|
||||
| TC_string ->
|
||||
"string"
|
||||
| TC_bytes ->
|
||||
"bytes"
|
||||
| TC_nat ->
|
||||
"nat"
|
||||
| TC_int ->
|
||||
"int"
|
||||
| TC_mutez ->
|
||||
"mutez"
|
||||
| TC_bool ->
|
||||
"bool"
|
||||
| TC_operation ->
|
||||
"operation"
|
||||
| TC_address ->
|
||||
"address"
|
||||
| TC_key ->
|
||||
"key"
|
||||
| TC_key_hash ->
|
||||
"key_hash"
|
||||
| TC_signature ->
|
||||
"signature"
|
||||
| TC_timestamp ->
|
||||
"timestamp"
|
||||
| TC_chain_id ->
|
||||
"chain_id"
|
||||
| TC_void ->
|
||||
"void"
|
||||
in
|
||||
fprintf ppf "%s" s
|
||||
|
||||
and type_operator :
|
||||
and type_operator :
|
||||
(formatter -> type_expression -> unit)
|
||||
-> formatter
|
||||
-> type_operator
|
||||
@ -270,14 +233,13 @@ module Ast_PP_type (PARAMETER : AST_PARAMETER_TYPE) = struct
|
||||
| TC_set te -> Format.asprintf "set(%a)" f te
|
||||
| TC_map (k, v) -> Format.asprintf "Map (%a,%a)" f k f v
|
||||
| TC_big_map (k, v) -> Format.asprintf "Big Map (%a,%a)" f k f v
|
||||
| TC_michelson_or (l, r) -> Format.asprintf "michelson_or (%a,%a)" f l f r
|
||||
| TC_map_or_big_map (k, v) -> Format.asprintf "Map Or Big Map (%a,%a)" f k f v
|
||||
| TC_michelson_or (k, v) -> Format.asprintf "michelson_or (%a,%a)" f k f v
|
||||
| TC_arrow (k, v) -> Format.asprintf "arrow (%a,%a)" f k f v
|
||||
| TC_contract te -> Format.asprintf "Contract (%a)" f te
|
||||
in
|
||||
fprintf ppf "(TO_%s)" s
|
||||
end
|
||||
(* end include Stage_common.PP *)
|
||||
include Ast_PP_type(Ast_typed_type_parameter)
|
||||
|
||||
let expression_variable ppf (ev : expression_variable) : unit =
|
||||
fprintf ppf "%a" Var.pp ev
|
||||
@ -336,7 +298,7 @@ and matching_variant_case : type a . (_ -> a -> unit) -> _ -> (constructor' * ex
|
||||
fun f ppf ((c,n),a) ->
|
||||
fprintf ppf "| %a %a -> %a" constructor c expression_variable n f a
|
||||
|
||||
and matching : type a . (formatter -> a -> unit) -> _ -> (a, 'var) matching_content -> unit = fun f ppf m -> match m with
|
||||
and matching : (formatter -> expression -> unit) -> _ -> matching_content -> unit = fun f ppf m -> match m with
|
||||
| Match_tuple ((lst, b),_) ->
|
||||
fprintf ppf "let (%a) = %a" (list_sep_d expression_variable) lst f b
|
||||
| Match_variant (lst, _) ->
|
||||
|
@ -9,6 +9,7 @@ module Misc = struct
|
||||
include Misc
|
||||
include Misc_smart
|
||||
end
|
||||
module Helpers = Helpers
|
||||
|
||||
include Types
|
||||
include Misc
|
||||
|
@ -1,3 +1,10 @@
|
||||
; (rule
|
||||
; (target generated_fold.ml)
|
||||
; (deps ../adt_generator/generator.raku types.ml)
|
||||
; (action (with-stdout-to generated_fold.ml (run perl6 ../adt_generator/generator.raku types.ml)))
|
||||
; ; (mode (promote (until-clean)))
|
||||
; )
|
||||
|
||||
(library
|
||||
(name ast_typed)
|
||||
(public_name ligo.ast_typed)
|
||||
|
@ -43,12 +43,14 @@ let add_type : type_variable -> type_expression -> t -> t = fun k v -> List.Ne.h
|
||||
let get_opt : expression_variable -> t -> element option = fun k x -> List.Ne.find_map (Small.get_opt k) x
|
||||
let get_type_opt : type_variable -> t -> type_expression option = fun k x -> List.Ne.find_map (Small.get_type_opt k) x
|
||||
|
||||
let get_constructor : constructor' -> t -> (type_expression * type_expression) option = fun k x -> (* Left is the constructor, right is the sum type *)
|
||||
let convert_constructor' (S.Constructor c) = Constructor c
|
||||
|
||||
let get_constructor : Ast_core.constructor' -> t -> (type_expression * type_expression) option = fun k x -> (* Left is the constructor, right is the sum type *)
|
||||
let aux = fun x ->
|
||||
let aux = fun {type_variable=_ ; type_} ->
|
||||
match type_.type_content with
|
||||
| T_sum m ->
|
||||
(match CMap.find_opt k m with
|
||||
(match CMap.find_opt (convert_constructor' k) m with
|
||||
Some km -> Some (km , type_)
|
||||
| None -> None)
|
||||
| _ -> None
|
||||
|
@ -14,7 +14,7 @@ val add_ez_ae : expression_variable -> expression -> t -> t
|
||||
val add_type : type_variable -> type_expression -> t -> t
|
||||
val get_opt : expression_variable -> t -> element option
|
||||
val get_type_opt : type_variable -> t -> type_expression option
|
||||
val get_constructor : constructor' -> t -> (type_expression * type_expression) option
|
||||
val get_constructor : Ast_core.constructor' -> t -> (type_expression * type_expression) option
|
||||
|
||||
module Small : sig
|
||||
type t = small_environment
|
||||
|
@ -1,5 +1,6 @@
|
||||
open Trace
|
||||
open Types
|
||||
open Helpers
|
||||
|
||||
module Errors = struct
|
||||
let different_kinds a b () =
|
||||
@ -53,7 +54,7 @@ module Errors = struct
|
||||
error ~data title message ()
|
||||
|
||||
let different_props_in_record a b ra rb ka kb () =
|
||||
let names () = if Stage_common.Helpers.is_tuple_lmap ra && Stage_common.Helpers.is_tuple_lmap rb then "tuples" else "records" in
|
||||
let names () = if Helpers.is_tuple_lmap ra && Helpers.is_tuple_lmap rb then "tuples" else "records" in
|
||||
let title () = "different keys in " ^ (names ()) in
|
||||
let message () = "" in
|
||||
let data = [
|
||||
@ -65,8 +66,8 @@ module Errors = struct
|
||||
error ~data title message ()
|
||||
|
||||
let different_kind_record_tuple a b ra rb () =
|
||||
let name_a () = if Stage_common.Helpers.is_tuple_lmap ra then "tuple" else "record" in
|
||||
let name_b () = if Stage_common.Helpers.is_tuple_lmap rb then "tuple" else "record" in
|
||||
let name_a () = if Helpers.is_tuple_lmap ra then "tuple" else "record" in
|
||||
let name_b () = if Helpers.is_tuple_lmap rb then "tuple" else "record" in
|
||||
let title () = "different keys in " ^ (name_a ()) ^ " and " ^ (name_b ()) in
|
||||
let message () = "Expected these two types to be the same, but they're different (one is a " ^ (name_a ()) ^ " and the other is a " ^ (name_b ()) ^ ")" in
|
||||
let data = [
|
||||
@ -82,7 +83,7 @@ module Errors = struct
|
||||
|
||||
let different_size_records_tuples a b ra rb =
|
||||
different_size_type
|
||||
(if Stage_common.Helpers.is_tuple_lmap ra && Stage_common.Helpers.is_tuple_lmap rb
|
||||
(if Helpers.is_tuple_lmap ra && Helpers.is_tuple_lmap rb
|
||||
then "tuples"
|
||||
else "records")
|
||||
a b
|
||||
@ -231,7 +232,7 @@ module Free_variables = struct
|
||||
and matching_variant_case : type a . (bindings -> a -> bindings) -> bindings -> ((constructor' * expression_variable) * a) -> bindings = fun f b ((_,n),c) ->
|
||||
f (union (singleton n) b) c
|
||||
|
||||
and matching : type a . (bindings -> a -> bindings) -> bindings -> (a,'var) matching_content -> bindings = fun f b m ->
|
||||
and matching : (bindings -> expression -> bindings) -> bindings -> matching_content -> bindings = fun f b m ->
|
||||
match m with
|
||||
| Match_bool { match_true = t ; match_false = fa } -> union (f b t) (f b fa)
|
||||
| Match_list { match_nil = n ; match_cons = (hd, tl, c, _) } -> union (f b n) (f (union (of_list [hd ; tl]) b) c)
|
||||
@ -369,7 +370,7 @@ let rec assert_type_expression_eq (a, b: (type_expression * type_expression)) :
|
||||
)
|
||||
| T_sum _, _ -> fail @@ different_kinds a b
|
||||
| T_record ra, T_record rb
|
||||
when Stage_common.Helpers.is_tuple_lmap ra <> Stage_common.Helpers.is_tuple_lmap rb -> (
|
||||
when Helpers.is_tuple_lmap ra <> Helpers.is_tuple_lmap rb -> (
|
||||
fail @@ different_kind_record_tuple a b ra rb
|
||||
)
|
||||
| T_record ra, T_record rb -> (
|
||||
@ -489,7 +490,7 @@ let rec assert_value_eq (a, b: (expression*expression)) : unit result =
|
||||
| Some a, Some b -> Some (assert_value_eq (a, b))
|
||||
| _ -> Some (fail @@ missing_key_in_record_value k)
|
||||
in
|
||||
let%bind _all = Stage_common.Helpers.bind_lmap @@ LMap.merge aux sma smb in
|
||||
let%bind _all = Helpers.bind_lmap @@ LMap.merge aux sma smb in
|
||||
ok ()
|
||||
)
|
||||
| E_record _, _ ->
|
||||
|
@ -89,7 +89,7 @@ module Captured_variables = struct
|
||||
and matching_variant_case : type a . (bindings -> a -> bindings result) -> bindings -> ((constructor' * expression_variable) * a) -> bindings result = fun f b ((_,n),c) ->
|
||||
f (union (singleton n) b) c
|
||||
|
||||
and matching : type a . (bindings -> a -> bindings result) -> bindings -> (a, 'tv) matching_content -> bindings result = fun f b m ->
|
||||
and matching : (bindings -> expression -> bindings result) -> bindings -> matching_content -> bindings result = fun f b m ->
|
||||
match m with
|
||||
| Match_bool { match_true = t ; match_false = fa } ->
|
||||
let%bind t' = f b t in
|
||||
|
@ -6,7 +6,7 @@ val program_to_main : program -> string -> lambda result
|
||||
module Captured_variables : sig
|
||||
|
||||
type bindings = expression_variable list
|
||||
val matching : (bindings -> 'a -> bindings result) -> bindings -> ('a, type_expression) matching_content -> bindings result
|
||||
val matching : (bindings -> expression -> bindings result) -> bindings -> matching_content -> bindings result
|
||||
|
||||
val matching_expression : bindings -> matching_expr -> bindings result
|
||||
|
||||
|
@ -1,24 +1,8 @@
|
||||
[@@@warning "-30"]
|
||||
|
||||
module S = Ast_core
|
||||
include Types_utils
|
||||
|
||||
(* include Stage_common.Types *)
|
||||
type expression_
|
||||
and expression_variable = expression_ Var.t
|
||||
type type_
|
||||
and type_variable = type_ Var.t
|
||||
|
||||
|
||||
type constructor' = Constructor of string
|
||||
type label = Label of string
|
||||
|
||||
module CMap = Map.Make( struct type t = constructor' let compare (Constructor a) (Constructor b) = compare a b end)
|
||||
module LMap = Map.Make( struct type t = label let compare (Label a) (Label b) = String.compare a b end)
|
||||
|
||||
type 'a label_map = 'a LMap.t
|
||||
type 'a constructor_map = 'a CMap.t
|
||||
|
||||
and type_constant =
|
||||
type type_constant =
|
||||
| TC_unit
|
||||
| TC_string
|
||||
| TC_bytes
|
||||
@ -34,14 +18,8 @@ type 'a constructor_map = 'a CMap.t
|
||||
| TC_signature
|
||||
| TC_timestamp
|
||||
| TC_void
|
||||
module type AST_PARAMETER_TYPE = sig
|
||||
type type_meta
|
||||
end
|
||||
|
||||
module Ast_generic_type (PARAMETER : AST_PARAMETER_TYPE) = struct
|
||||
open PARAMETER
|
||||
|
||||
type type_content =
|
||||
type type_content =
|
||||
| T_sum of type_expression constructor_map
|
||||
| T_record of type_expression label_map
|
||||
| T_arrow of arrow
|
||||
@ -49,111 +27,27 @@ module Ast_generic_type (PARAMETER : AST_PARAMETER_TYPE) = struct
|
||||
| T_constant of type_constant
|
||||
| T_operator of type_operator
|
||||
|
||||
and arrow = {type1: type_expression; type2: type_expression}
|
||||
and arrow = {
|
||||
type1: type_expression;
|
||||
type2: type_expression
|
||||
}
|
||||
|
||||
and type_operator =
|
||||
and type_operator =
|
||||
| TC_contract of type_expression
|
||||
| TC_option of type_expression
|
||||
| TC_list of type_expression
|
||||
| TC_set of type_expression
|
||||
| TC_map of type_expression * type_expression
|
||||
| TC_big_map of type_expression * type_expression
|
||||
| TC_map_or_big_map of type_expression * type_expression
|
||||
| TC_michelson_or of type_expression * type_expression
|
||||
| TC_arrow of type_expression * type_expression
|
||||
|
||||
|
||||
and type_expression = {type_content: type_content; type_meta: type_meta}
|
||||
|
||||
open Trace
|
||||
let map_type_operator f = function
|
||||
TC_contract x -> TC_contract (f x)
|
||||
| TC_option x -> TC_option (f x)
|
||||
| TC_list x -> TC_list (f x)
|
||||
| TC_set x -> TC_set (f x)
|
||||
| TC_map (x , y) -> TC_map (f x , f y)
|
||||
| TC_big_map (x , y)-> TC_big_map (f x , f y)
|
||||
| TC_arrow (x, y) -> TC_arrow (f x, f y)
|
||||
|
||||
let bind_map_type_operator f = function
|
||||
TC_contract x -> let%bind x = f x in ok @@ TC_contract x
|
||||
| TC_option x -> let%bind x = f x in ok @@ TC_option x
|
||||
| TC_list x -> let%bind x = f x in ok @@ TC_list x
|
||||
| TC_set x -> let%bind x = f x in ok @@ TC_set x
|
||||
| TC_map (x , y) -> let%bind x = f x in let%bind y = f y in ok @@ TC_map (x , y)
|
||||
| TC_big_map (x , y)-> let%bind x = f x in let%bind y = f y in ok @@ TC_big_map (x , y)
|
||||
| TC_arrow (x , y)-> let%bind x = f x in let%bind y = f y in ok @@ TC_arrow (x , y)
|
||||
|
||||
let type_operator_name = function
|
||||
TC_contract _ -> "TC_contract"
|
||||
| TC_option _ -> "TC_option"
|
||||
| TC_list _ -> "TC_list"
|
||||
| TC_set _ -> "TC_set"
|
||||
| TC_map _ -> "TC_map"
|
||||
| TC_big_map _ -> "TC_big_map"
|
||||
| TC_arrow _ -> "TC_arrow"
|
||||
|
||||
let type_expression'_of_string = function
|
||||
| "TC_contract" , [x] -> ok @@ T_operator(TC_contract x)
|
||||
| "TC_option" , [x] -> ok @@ T_operator(TC_option x)
|
||||
| "TC_list" , [x] -> ok @@ T_operator(TC_list x)
|
||||
| "TC_set" , [x] -> ok @@ T_operator(TC_set x)
|
||||
| "TC_map" , [x ; y] -> ok @@ T_operator(TC_map (x , y))
|
||||
| "TC_big_map" , [x ; y] -> ok @@ T_operator(TC_big_map (x, y))
|
||||
| ("TC_contract" | "TC_option" | "TC_list" | "TC_set" | "TC_map" | "TC_big_map"), _ ->
|
||||
failwith "internal error: wrong number of arguments for type operator"
|
||||
|
||||
| "TC_unit" , [] -> ok @@ T_constant(TC_unit)
|
||||
| "TC_string" , [] -> ok @@ T_constant(TC_string)
|
||||
| "TC_bytes" , [] -> ok @@ T_constant(TC_bytes)
|
||||
| "TC_nat" , [] -> ok @@ T_constant(TC_nat)
|
||||
| "TC_int" , [] -> ok @@ T_constant(TC_int)
|
||||
| "TC_mutez" , [] -> ok @@ T_constant(TC_mutez)
|
||||
| "TC_bool" , [] -> ok @@ T_constant(TC_bool)
|
||||
| "TC_operation" , [] -> ok @@ T_constant(TC_operation)
|
||||
| "TC_address" , [] -> ok @@ T_constant(TC_address)
|
||||
| "TC_key" , [] -> ok @@ T_constant(TC_key)
|
||||
| "TC_key_hash" , [] -> ok @@ T_constant(TC_key_hash)
|
||||
| "TC_chain_id" , [] -> ok @@ T_constant(TC_chain_id)
|
||||
| "TC_signature" , [] -> ok @@ T_constant(TC_signature)
|
||||
| "TC_timestamp" , [] -> ok @@ T_constant(TC_timestamp)
|
||||
| _, [] ->
|
||||
failwith "internal error: wrong number of arguments for type constant"
|
||||
| _ ->
|
||||
failwith "internal error: unknown type operator"
|
||||
|
||||
let string_of_type_operator = function
|
||||
| TC_contract x -> "TC_contract" , [x]
|
||||
| TC_option x -> "TC_option" , [x]
|
||||
| TC_list x -> "TC_list" , [x]
|
||||
| TC_set x -> "TC_set" , [x]
|
||||
| TC_map (x , y) -> "TC_map" , [x ; y]
|
||||
| TC_big_map (x , y) -> "TC_big_map" , [x ; y]
|
||||
| TC_arrow (x , y) -> "TC_arrow" , [x ; y]
|
||||
|
||||
let string_of_type_constant = function
|
||||
| TC_unit -> "TC_unit", []
|
||||
| TC_string -> "TC_string", []
|
||||
| TC_bytes -> "TC_bytes", []
|
||||
| TC_nat -> "TC_nat", []
|
||||
| TC_int -> "TC_int", []
|
||||
| TC_mutez -> "TC_mutez", []
|
||||
| TC_bool -> "TC_bool", []
|
||||
| TC_operation -> "TC_operation", []
|
||||
| TC_address -> "TC_address", []
|
||||
| TC_key -> "TC_key", []
|
||||
| TC_key_hash -> "TC_key_hash", []
|
||||
| TC_chain_id -> "TC_chain_id", []
|
||||
| TC_signature -> "TC_signature", []
|
||||
| TC_timestamp -> "TC_timestamp", []
|
||||
| TC_void -> "TC_void", []
|
||||
|
||||
let string_of_type_expression' = function
|
||||
| T_operator o -> string_of_type_operator o
|
||||
| T_constant c -> string_of_type_constant c
|
||||
| T_sum _ | T_record _ | T_arrow _ | T_variable _ ->
|
||||
failwith "not a type operator or constant"
|
||||
|
||||
end
|
||||
and type_expression = {
|
||||
type_content: type_content;
|
||||
type_meta: type_meta
|
||||
}
|
||||
|
||||
type literal =
|
||||
| Literal_unit
|
||||
@ -170,23 +64,33 @@ type literal =
|
||||
| Literal_key_hash of string
|
||||
| Literal_chain_id of string
|
||||
| Literal_void
|
||||
| Literal_operation of
|
||||
Memory_proto_alpha.Protocol.Alpha_context.packed_internal_operation
|
||||
and ('a,'tv) matching_content =
|
||||
| Match_bool of {
|
||||
match_true : 'a ;
|
||||
match_false : 'a ;
|
||||
| Literal_operation of Memory_proto_alpha.Protocol.Alpha_context.packed_internal_operation
|
||||
|
||||
type matching_content_bool = {
|
||||
match_true : expression ;
|
||||
match_false : expression ;
|
||||
}
|
||||
| Match_list of {
|
||||
match_nil : 'a ;
|
||||
match_cons : expression_variable * expression_variable * 'a * 'tv;
|
||||
|
||||
and matching_content_list = {
|
||||
match_nil : expression ;
|
||||
match_cons : expression_variable * expression_variable * expression * type_expression;
|
||||
}
|
||||
| Match_option of {
|
||||
match_none : 'a ;
|
||||
match_some : expression_variable * 'a * 'tv;
|
||||
|
||||
and matching_content_option = {
|
||||
match_none : expression ;
|
||||
match_some : expression_variable * expression * type_expression;
|
||||
}
|
||||
| Match_tuple of (expression_variable list * 'a) * 'tv list
|
||||
| Match_variant of ((constructor' * expression_variable) * 'a) list * 'tv
|
||||
|
||||
and matching_content_tuple = (expression_variable list * expression) * type_expression list
|
||||
|
||||
and matching_content_variant = ((constructor' * expression_variable) * expression) list * type_expression
|
||||
|
||||
and matching_content =
|
||||
| Match_bool of matching_content_bool
|
||||
| Match_list of matching_content_list
|
||||
| Match_option of matching_content_option
|
||||
| Match_tuple of matching_content_tuple
|
||||
| Match_variant of matching_content_variant
|
||||
|
||||
and constant' =
|
||||
| C_INT
|
||||
@ -254,6 +158,8 @@ and constant' =
|
||||
| C_SET_FOLD
|
||||
| C_SET_MEM
|
||||
(* List *)
|
||||
| C_LIST_EMPTY
|
||||
| C_LIST_LITERAL
|
||||
| C_LIST_ITER
|
||||
| C_LIST_MAP
|
||||
| C_LIST_FOLD
|
||||
@ -301,15 +207,7 @@ and constant' =
|
||||
| C_SET_DELEGATE
|
||||
| C_CREATE_CONTRACT
|
||||
|
||||
(* end include Stage_common.Types *)
|
||||
|
||||
module Ast_typed_type_parameter = struct
|
||||
type type_meta = S.type_expression option
|
||||
end
|
||||
|
||||
include Ast_generic_type (Ast_typed_type_parameter)
|
||||
|
||||
type program = declaration Location.wrap list
|
||||
and program = declaration Location.wrap list
|
||||
|
||||
and inline = bool
|
||||
|
||||
@ -395,7 +293,7 @@ and record_update = {
|
||||
update: expression ;
|
||||
}
|
||||
|
||||
and matching_expr = (expression,type_expression) matching_content
|
||||
and matching_expr = matching_content
|
||||
and matching =
|
||||
{ matchee: expression
|
||||
; cases: matching_expr
|
||||
|
23
src/stages/4-ast_typed/types_utils.ml
Normal file
23
src/stages/4-ast_typed/types_utils.ml
Normal file
@ -0,0 +1,23 @@
|
||||
module S = Ast_core
|
||||
|
||||
(* include Stage_common.Types *)
|
||||
(* type expression_
|
||||
* and expression_variable = expression_ Var.t
|
||||
* type type_
|
||||
* and type_variable = type_ Var.t *)
|
||||
type expression_ = Stage_common.Types.expression_
|
||||
type expression_variable = Stage_common.Types.expression_variable
|
||||
type type_ = Stage_common.Types.type_
|
||||
type type_variable = Stage_common.Types.type_variable
|
||||
|
||||
type constructor' =
|
||||
| Constructor of string
|
||||
type label =
|
||||
| Label of string
|
||||
|
||||
module CMap = Map.Make( struct type t = constructor' let compare (Constructor a) (Constructor b) = compare a b end)
|
||||
module LMap = Map.Make( struct type t = label let compare (Label a) (Label b) = String.compare a b end)
|
||||
|
||||
type 'a label_map = 'a LMap.t
|
||||
type 'a constructor_map = 'a CMap.t
|
||||
type type_meta = S.type_expression option
|
@ -77,7 +77,7 @@ and expression = {
|
||||
}
|
||||
|
||||
and constant = {
|
||||
cons_name : constant'; (* this is at the end because it is huge *)
|
||||
cons_name : constant';
|
||||
arguments : expression list;
|
||||
}
|
||||
|
||||
|
@ -1,6 +1,6 @@
|
||||
(rule
|
||||
(target generated_fold.ml)
|
||||
(deps generator.raku)
|
||||
(deps generator.raku amodule.ml)
|
||||
(action (with-stdout-to generated_fold.ml (run perl6 ./generator.raku amodule.ml)))
|
||||
; (mode (promote (until-clean)))
|
||||
)
|
||||
|
@ -1,4 +1,4 @@
|
||||
include Stage_common.Types
|
||||
include Ast_typed.Types
|
||||
|
||||
(*types*)
|
||||
module Env = Map.Make(
|
||||
|
@ -83,7 +83,7 @@ module Substitution = struct
|
||||
| None -> ok @@ T.T_variable variable
|
||||
end
|
||||
| T.T_operator type_name_and_args ->
|
||||
let%bind type_name_and_args = T.bind_map_type_operator (s_type_expression ~substs) type_name_and_args in
|
||||
let%bind type_name_and_args = T.Helpers.bind_map_type_operator (s_type_expression ~substs) type_name_and_args in
|
||||
ok @@ T.T_operator type_name_and_args
|
||||
| T.T_arrow _ ->
|
||||
let _TODO = substs in
|
||||
|
@ -56,7 +56,7 @@ module TestExpressions = struct
|
||||
|
||||
let constructor () : unit result =
|
||||
let variant_foo_bar =
|
||||
O.[(Constructor "foo", t_int ()); (Constructor "bar", t_string ())]
|
||||
O.[(Typed.Constructor "foo", t_int ()); (Constructor "bar", t_string ())]
|
||||
in test_expression
|
||||
~env:(E.env_sum_type variant_foo_bar)
|
||||
I.(e_constructor "foo" (e_int 32))
|
||||
|
Loading…
Reference in New Issue
Block a user