ligo/vendors/ligo-utils/tezos-utils/x_michelson.ml

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open Tezos_micheline
open Micheline
open Memory_proto_alpha.Protocol
include Michelson_v1_primitives
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type michelson = (int, prim) node
type t = michelson
let prim ?(annot=[]) ?(children=[]) p : michelson =
Prim (0, p, children, annot)
let annotate annot = function
| Prim (l, p, c, []) -> Prim (l, p, c, [annot])
| _ -> raise (Failure "annotate")
let seq s : michelson = Seq (0, s)
let contract parameter storage code =
seq [
prim ~children:[parameter] K_parameter ;
prim ~children:[storage] K_storage ;
prim ~children:[code] K_code ;
]
let int n : michelson = Int (0, n)
let string s : michelson = String (0, s)
let bytes s : michelson = Bytes (0, s)
let t_unit = prim T_unit
let t_string = prim T_string
let t_pair a b = prim ~children:[a;b] T_pair
let t_lambda a b = prim ~children:[a;b] T_lambda
let d_unit = prim D_Unit
let d_pair a b = prim ~children:[a;b] D_Pair
let i_dup = prim I_DUP
let i_car = prim I_CAR
let i_cdr = prim I_CDR
let i_pair = prim I_PAIR
let i_swap = prim I_SWAP
let i_piar = seq [ i_swap ; i_pair ]
let i_push ty code = prim ~children:[ty;code] I_PUSH
let i_push_unit = i_push t_unit d_unit
let i_push_string str = i_push t_string (string str)
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let i_apply = prim I_APPLY
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let i_comment s : michelson = seq [ i_push_string s ; prim I_DROP ]
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let i_none ty = prim ~children:[ty] I_NONE
let i_nil ty = prim ~children:[ty] I_NIL
let i_empty_set ty = prim ~children:[ty] I_EMPTY_SET
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let i_iter body = prim ~children:[body] I_ITER
let i_map body = prim ~children:[body] I_MAP
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let i_some = prim I_SOME
let i_lambda arg ret body = prim ~children:[arg;ret;body] I_LAMBDA
let i_empty_map src dst = prim ~children:[src;dst] I_EMPTY_MAP
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let i_empty_big_map src dst = prim ~children:[src;dst] I_EMPTY_BIG_MAP
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let i_drop = prim I_DROP
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let i_dropn n = prim I_DROP ~children:[int (Z.of_int n)]
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let i_exec = prim I_EXEC
let i_if a b = prim ~children:[seq [a] ; seq[b]] I_IF
let i_if_none a b = prim ~children:[seq [a] ; seq[b]] I_IF_NONE
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let i_if_cons a b = prim ~children:[seq [a] ; seq[b]] I_IF_CONS
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let i_if_left a b = prim ~children:[seq [a] ; seq[b]] I_IF_LEFT
let i_failwith = prim I_FAILWITH
let i_assert_some = i_if_none (seq [i_push_string "ASSERT_SOME" ; i_failwith]) (seq [])
let i_assert_some_msg msg = i_if_none (seq [msg ; i_failwith]) (seq [])
let dip code : michelson = prim ~children:[seq [code]] I_DIP
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let dipn n code = prim ~children:[Int (0 , Z.of_int n) ; seq [code]] I_DIP
let i_dig n : michelson = prim ~children:[Int (0 , Z.of_int n)] I_DIG
let i_dug n : michelson = prim ~children:[Int (0 , Z.of_int n)] I_DUG
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let i_unpair = seq [i_dup ; i_car ; dip i_cdr]
let i_unpiar = seq [i_dup ; i_cdr ; dip i_car]
let rec strip_annots : michelson -> michelson = function
| Seq(l, s) -> Seq(l, List.map strip_annots s)
| Prim (l, p, lst, _) -> Prim (l, p, List.map strip_annots lst, [])
| x -> x
let pp ppf (michelson:michelson) =
let open Micheline_printer in
let canonical = strip_locations michelson in
let node = printable string_of_prim canonical in
print_expr ppf node
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let pp_json ppf (michelson : michelson) =
let open Micheline_printer in
let canonical = strip_locations michelson in
let node = printable string_of_prim canonical in
let json = Tezos_data_encoding.(
Json.construct
(Micheline.erased_encoding ~variant:"???" {comment = None} Data_encoding.string)
node
)
in
Format.fprintf ppf "%a" Tezos_data_encoding.Json.pp json
let pp_hex ppf (michelson : michelson) =
let canonical = strip_locations michelson in
let bytes = Tezos_data_encoding.Binary_writer.to_bytes_exn Script_repr.expr_encoding canonical in
let hex = Hex.of_bytes bytes in
Format.fprintf ppf "%a" Hex.pp hex