Merge branch 'feature/self' into 'dev'

[LIGO-502] add self & make sure it it typechecked against the main function

See merge request ligolang/ligo!453
This commit is contained in:
Rémi Lesenechal 2020-03-09 11:41:37 +00:00
commit a734995bdc
43 changed files with 826 additions and 57 deletions

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@ -2,7 +2,11 @@
## [Unreleased]
## [Add crypto reference page to docs](https://gitlab.com/ligolang/ligo/-/merge_requests/459)
## [Support for self] (https://gitlab.com/ligolang/ligo/-/merge_requests/453)
### Added
- support for `Tezos.self(%Entrypoint)`
## [Support for create_contract](https://gitlab.com/ligolang/ligo/-/merge_requests/459)
### Added
- support for `Tezos.create_contract` origination

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@ -321,6 +321,37 @@ let main = (p : unit) : address => Tezos.self_address;
</Syntax>
## Self
Typecast the currently running contract with an entrypoint annotation.
If your are using entrypoints: use "%bar" for constructor Bar
If you are not using entrypoints: use "%default"
<Syntax syntax="pascaligo">
```pascaligo
function main (const p : unit) : contract(unit) is block {
const c : contract(unit) = Tezos.self("%Default") ;
} with c
```
</Syntax>
<Syntax syntax="cameligo">
```cameligo
let main (p : unit) : unit contract =
(Tezos.self("%Default") : unit contract)
```
</Syntax>
<Syntax syntax="reasonligo">
```reasonligo
let main = (p: unit) : contract(unit) =>
(Tezos.self("%Default") : contract(unit));
```
</Syntax>
## Implicit Account

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@ -134,7 +134,7 @@ let compile_file =
let f source_file entry_point syntax display_format michelson_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed,_ = Compile.Of_simplified.compile simplified in
let%bind typed,_ = Compile.Of_simplified.compile (Contract entry_point) simplified in
let%bind mini_c = Compile.Of_typed.compile typed in
let%bind michelson = Compile.Of_mini_c.aggregate_and_compile_contract mini_c entry_point in
let%bind contract = Compile.Of_michelson.build_contract michelson in
@ -174,7 +174,7 @@ let print_typed_ast =
let f source_file syntax display_format = (
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed,_ = Compile.Of_simplified.compile simplified in
let%bind typed,_ = Compile.Of_simplified.compile Env simplified in
ok @@ Format.asprintf "%a\n" Compile.Of_typed.pretty_print typed
)
in
@ -187,7 +187,7 @@ let print_mini_c =
let f source_file syntax display_format = (
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed,_ = Compile.Of_simplified.compile simplified in
let%bind typed,_ = Compile.Of_simplified.compile Env simplified in
let%bind mini_c = Compile.Of_typed.compile typed in
ok @@ Format.asprintf "%a\n" Compile.Of_mini_c.pretty_print mini_c
)
@ -201,7 +201,7 @@ let measure_contract =
let f source_file entry_point syntax display_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed,_ = Compile.Of_simplified.compile simplified in
let%bind typed,_ = Compile.Of_simplified.compile (Contract entry_point) simplified in
let%bind mini_c = Compile.Of_typed.compile typed in
let%bind michelson = Compile.Of_mini_c.aggregate_and_compile_contract mini_c entry_point in
let%bind contract = Compile.Of_michelson.build_contract michelson in
@ -218,7 +218,7 @@ let compile_parameter =
let f source_file entry_point expression syntax amount balance sender source predecessor_timestamp display_format michelson_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed_prg,state = Compile.Of_simplified.compile simplified in
let%bind typed_prg,state = Compile.Of_simplified.compile (Contract entry_point) simplified in
let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg entry_point in
let env = Ast_typed.program_environment typed_prg in
@ -249,7 +249,7 @@ let interpret =
let%bind (decl_list,state,env) = match init_file with
| Some init_file ->
let%bind simplified = Compile.Of_source.compile init_file (Syntax_name syntax) in
let%bind typed_prg,state = Compile.Of_simplified.compile simplified in
let%bind typed_prg,state = Compile.Of_simplified.compile Env simplified in
let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
let env = Ast_typed.program_environment typed_prg in
ok (mini_c_prg,state,env)
@ -280,7 +280,7 @@ let temp_ligo_interpreter =
let f source_file syntax display_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed,_ = Compile.Of_simplified.compile simplified in
let%bind typed,_ = Compile.Of_simplified.compile Env simplified in
let%bind res = Compile.Of_typed.some_interpret typed in
ok @@ Format.asprintf "%s\n" res
in
@ -294,7 +294,7 @@ let compile_storage =
let f source_file entry_point expression syntax amount balance sender source predecessor_timestamp display_format michelson_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed_prg,state = Compile.Of_simplified.compile simplified in
let%bind typed_prg,state = Compile.Of_simplified.compile (Contract entry_point) simplified in
let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg entry_point in
let env = Ast_typed.program_environment typed_prg in
@ -323,7 +323,7 @@ let dry_run =
let f source_file entry_point storage input amount balance sender source predecessor_timestamp syntax display_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed_prg,state = Compile.Of_simplified.compile simplified in
let%bind typed_prg,state = Compile.Of_simplified.compile (Contract entry_point) simplified in
let env = Ast_typed.program_environment typed_prg in
let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg entry_point in
@ -359,7 +359,7 @@ let run_function =
toplevel ~display_format @@
let%bind v_syntax = Helpers.syntax_to_variant (Syntax_name syntax) (Some source_file) in
let%bind simplified_prg = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed_prg,state = Compile.Of_simplified.compile simplified_prg in
let%bind typed_prg,state = Compile.Of_simplified.compile Env simplified_prg in
let env = Ast_typed.program_environment typed_prg in
let%bind mini_c_prg = Compile.Of_typed.compile typed_prg in
@ -390,7 +390,7 @@ let evaluate_value =
let f source_file entry_point amount balance sender source predecessor_timestamp syntax display_format =
toplevel ~display_format @@
let%bind simplified = Compile.Of_source.compile source_file (Syntax_name syntax) in
let%bind typed_prg,_ = Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Compile.Of_simplified.compile Env simplified in
let%bind mini_c = Compile.Of_typed.compile typed_prg in
let%bind (exp,_) = Mini_c.get_entry mini_c entry_point in
let%bind compiled = Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp in

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@ -1218,3 +1218,117 @@ ligo: in file "create_contract_var.mligo", line 6, character 35 to line 10, char
DIP { DIP { DUP } ; SWAP ; CDR } ;
PAIR ;
DIP { DROP 2 } } } |}]
let%expect_test _ =
run_ligo_bad [ "compile-contract" ; bad_contract "self_type_annotation.ligo" ; "main" ] ;
[%expect {|
ligo: in file "self_type_annotation.ligo", line 8, characters 41-64. bad self type: expected (TO_Contract (int)) but got (TO_Contract (nat)) {"location":"in file \"self_type_annotation.ligo\", line 8, characters 41-64"}
If you're not sure how to fix this error, you can
do one of the following:
* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
* Ask a question on our Discord: https://discord.gg/9rhYaEt
* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
* Check the changelog by running 'ligo changelog' |}] ;
run_ligo_good [ "compile-contract" ; contract "self_type_annotation.ligo" ; "main" ] ;
[%expect {|
{ parameter nat ;
storage int ;
code { DUP ;
SELF %default ;
SWAP ;
CDR ;
NIL operation ;
PAIR ;
DIP { DROP 2 } } } |}]
let%expect_test _ =
run_ligo_bad [ "compile-contract" ; bad_contract "bad_contract.mligo" ; "main" ] ;
[%expect {|
ligo: in file "", line 0, characters 0-0. badly typed contract: unexpected entrypoint type {"location":"in file \"\", line 0, characters 0-0","entrypoint":"main","entrypoint_type":"( nat * int ) -> int"}
If you're not sure how to fix this error, you can
do one of the following:
* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
* Ask a question on our Discord: https://discord.gg/9rhYaEt
* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
* Check the changelog by running 'ligo changelog' |}] ;
run_ligo_bad [ "compile-contract" ; bad_contract "bad_contract2.mligo" ; "main" ] ;
[%expect {|
ligo: in file "", line 0, characters 0-0. bad return type: expected (TO_list(operation)), got string {"location":"in file \"\", line 0, characters 0-0","entrypoint":"main"}
If you're not sure how to fix this error, you can
do one of the following:
* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
* Ask a question on our Discord: https://discord.gg/9rhYaEt
* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
* Check the changelog by running 'ligo changelog' |}] ;
run_ligo_bad [ "compile-contract" ; bad_contract "bad_contract3.mligo" ; "main" ] ;
[%expect {|
ligo: in file "", line 0, characters 0-0. badly typed contract: expected {int} and {string} to be the same in the entrypoint type {"location":"in file \"\", line 0, characters 0-0","entrypoint":"main","entrypoint_type":"( nat * int ) -> ( (TO_list(operation)) * string )"}
If you're not sure how to fix this error, you can
do one of the following:
* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
* Ask a question on our Discord: https://discord.gg/9rhYaEt
* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
* Check the changelog by running 'ligo changelog' |}]
let%expect_test _ =
run_ligo_good [ "compile-contract" ; contract "self_with_entrypoint.ligo" ; "main" ] ;
[%expect {|
{ parameter (or (unit %default) (int %toto)) ;
storage nat ;
code { SELF %toto ;
DUP ;
PUSH mutez 300000000 ;
PUSH int 2 ;
TRANSFER_TOKENS ;
DUP ;
NIL operation ;
SWAP ;
CONS ;
DIP { DIP 2 { DUP } ; DIG 2 ; CDR } ;
PAIR ;
DIP { DROP 3 } } } |}] ;
run_ligo_good [ "compile-contract" ; contract "self_without_entrypoint.ligo" ; "main" ] ;
[%expect {|
{ parameter int ;
storage nat ;
code { SELF %default ;
DUP ;
PUSH mutez 300000000 ;
PUSH int 2 ;
TRANSFER_TOKENS ;
DUP ;
NIL operation ;
SWAP ;
CONS ;
DIP { DIP 2 { DUP } ; DIG 2 ; CDR } ;
PAIR ;
DIP { DROP 3 } } } |}] ;
run_ligo_bad [ "compile-contract" ; bad_contract "self_bad_entrypoint_format.ligo" ; "main" ] ;
[%expect {|
ligo: in file "self_bad_entrypoint_format.ligo", line 8, characters 52-58. bad entrypoint format: entrypoint "Toto" is badly formatted. We expect "%bar" for entrypoint Bar and "%default" when no entrypoint used {"location":"in file \"self_bad_entrypoint_format.ligo\", line 8, characters 52-58"}
If you're not sure how to fix this error, you can
do one of the following:
* Visit our documentation: https://ligolang.org/docs/intro/what-and-why/
* Ask a question on our Discord: https://discord.gg/9rhYaEt
* Open a gitlab issue: https://gitlab.com/ligolang/ligo/issues/new
* Check the changelog by running 'ligo changelog' |}]

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@ -9,6 +9,7 @@
interpreter
ast_simplified
self_ast_simplified
self_ast_typed
typer_new
typer
ast_typed

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@ -1,14 +1,23 @@
open Trace
let compile (program : Ast_simplified.program) : (Ast_typed.program * Typer.Solver.state) result =
type form =
| Contract of string
| Env
let compile (cform: form) (program : Ast_simplified.program) : (Ast_typed.program * Typer.Solver.state) result =
let%bind (prog_typed , state) = Typer.type_program program in
let () = Typer.Solver.discard_state state in
ok @@ (prog_typed, state)
let%bind prog_typed' = match cform with
| Contract entrypoint -> Self_ast_typed.all_contract entrypoint prog_typed
| Env -> ok prog_typed in
ok @@ (prog_typed', state)
let compile_expression ?(env = Ast_typed.Environment.full_empty) ~(state : Typer.Solver.state) (ae : Ast_simplified.expression)
: (Ast_typed.expression * Typer.Solver.state) result =
let%bind (ae_typed,state) = Typer.type_expression_subst env state ae in
let () = Typer.Solver.discard_state state in
Typer.type_expression_subst env state ae
let%bind ae_typed' = Self_ast_typed.all_expression ae_typed in
ok @@ (ae_typed',state)
let apply (entry_point : string) (param : Ast_simplified.expression) : Ast_simplified.expression result =
let name = Var.of_name entry_point in

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@ -1,12 +0,0 @@
open Trace
let source_to_typed syntax source_file =
let%bind simplified = Of_source.compile source_file syntax in
let%bind typed,state = Of_simplified.compile simplified in
let env = Ast_typed.program_environment typed in
ok (typed,state,env)
let source_to_typed_expression ~env ~state parameter syntax =
let%bind simplified = Of_source.compile_expression syntax parameter in
let%bind (typed,_) = Of_simplified.compile_expression ~env ~state simplified in
ok typed

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@ -0,0 +1,72 @@
open Ast_typed
open Trace
type contract_pass_data = {
contract_type : Helpers.contract_type ;
main_name : string ;
}
module Errors = struct
let bad_self_type expected got loc () =
let title = thunk "bad self type" in
let message () = Format.asprintf "expected %a but got %a" Ast_typed.PP.type_expression expected Ast_typed.PP.type_expression got in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp loc)
] in
error ~data title message ()
let bad_format_entrypoint_ann ep loc () =
let title = thunk "bad entrypoint format" in
let message () = Format.asprintf "entrypoint \"%s\" is badly formatted. We expect \"%%bar\" for entrypoint Bar and \"%%default\" when no entrypoint used" ep in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp loc) ;
] in
error ~data title message ()
let entrypoint_annotation_not_literal loc () =
let title = thunk "entrypoint annotation must be a string literal" in
let message () = Format.asprintf "" in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp loc) ;
] in
error ~data title message ()
let unmatched_entrypoint loc () =
let title = thunk "No constructor matches the entrypoint annotation" in
let message () = Format.asprintf "" in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp loc) ;
] in
error ~data title message ()
end
let check_entrypoint_annotation_format ep exp =
match String.split_on_char '%' ep with
| [ "" ; ep'] ->
let cap = String.capitalize_ascii ep' in
if String.equal cap ep' then fail @@ Errors.bad_format_entrypoint_ann ep exp.location
else ok cap
| _ -> fail @@ Errors.bad_format_entrypoint_ann ep exp.location
let self_typing : contract_pass_data -> expression -> (bool * contract_pass_data * expression) result = fun dat e ->
let bad_self_err () = Errors.bad_self_type
e.type_expression
{e.type_expression with type_content = T_operator (TC_contract dat.contract_type.parameter)}
e.location
in
match e.expression_content , e.type_expression with
| E_constant {cons_name=C_SELF ; arguments=[entrypoint_exp]}, {type_content = T_operator (TC_contract t) ; type_meta=_} ->
let%bind entrypoint = match entrypoint_exp.expression_content with
| E_literal (Literal_string ep) -> check_entrypoint_annotation_format ep entrypoint_exp
| _ -> 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
| t -> ok {dat.contract_type.parameter with type_content = t} in
let%bind () =
trace_strong (bad_self_err ()) @@
Ast_typed.assert_type_expression_eq (entrypoint_t , t) in
ok (true, dat, e)
| _ -> ok (true,dat,e)

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@ -0,0 +1,12 @@
(library
(name self_ast_typed)
(public_name ligo.self_ast_typed)
(libraries
simple-utils
ast_typed
)
(preprocess
(pps ppx_let bisect_ppx --conditional)
)
(flags (:standard -w +1..62-4-9-44-40-42-48-30@39@33 -open Simple_utils ))
)

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@ -0,0 +1,394 @@
open Ast_typed
open Trace
open Stage_common.Helpers
type 'a folder = 'a -> expression -> 'a result
let rec fold_expression : 'a folder -> 'a -> expression -> 'a result = fun f init e ->
let self = fold_expression f in
let%bind init' = f init e in
match e.expression_content with
| E_literal _ | E_variable _ -> ok init'
| E_list lst | E_set lst | E_constant {arguments=lst} -> (
let%bind res = bind_fold_list self init' lst in
ok res
)
| E_map lst | E_big_map lst -> (
let%bind res = bind_fold_list (bind_fold_pair self) init' lst in
ok res
)
| E_look_up ab ->
let%bind res = bind_fold_pair self init' ab in
ok res
| E_loop {condition;body} ->
let ab = (condition,body) in
let%bind res = bind_fold_pair self init' ab in
ok res
| E_application {expr1;expr2} -> (
let ab = (expr1,expr2) in
let%bind res = bind_fold_pair self init' ab in
ok res
)
| E_lambda { binder = _ ; result = e }
| E_constructor {element=e} -> (
let%bind res = self init' e in
ok res
)
| E_matching {matchee=e; cases} -> (
let%bind res = self init' e in
let%bind res = fold_cases f res cases in
ok res
)
| E_record m -> (
let aux init'' _ expr =
let%bind res = fold_expression self init'' expr in
ok res
in
let%bind res = bind_fold_lmap aux (ok init') m in
ok res
)
| E_record_update {record;update} -> (
let%bind res = self init' record in
let%bind res = fold_expression self res update in
ok res
)
| E_record_accessor {expr} -> (
let%bind res = self init' expr in
ok res
)
| E_let_in { let_binder = _ ; rhs ; let_result } -> (
let%bind res = self init' rhs in
let%bind res = self res let_result in
ok res
)
and fold_cases : 'a folder -> 'a -> matching_expr -> 'a result = fun f init m ->
match m with
| Match_bool { match_true ; match_false } -> (
let%bind res = fold_expression f init match_true in
let%bind res = fold_expression f res match_false in
ok res
)
| Match_list { match_nil ; match_cons = (_ , _ , cons, _) } -> (
let%bind res = fold_expression f init match_nil in
let%bind res = fold_expression f res cons in
ok res
)
| Match_option { match_none ; match_some = (_ , some, _) } -> (
let%bind res = fold_expression f init match_none in
let%bind res = fold_expression f res some in
ok res
)
| Match_tuple ((_ , e), _) -> (
let%bind res = fold_expression f init e in
ok res
)
| Match_variant (lst, _) -> (
let aux init' ((_ , _) , e) =
let%bind res' = fold_expression f init' e in
ok res' in
let%bind res = bind_fold_list aux init lst in
ok res
)
type mapper = expression -> expression result
let rec map_expression : mapper -> expression -> expression result = fun f e ->
let self = map_expression f in
let%bind e' = f e in
let return expression_content = ok { e' with expression_content } in
match e'.expression_content with
| E_list lst -> (
let%bind lst' = bind_map_list self lst in
return @@ E_list lst'
)
| E_set lst -> (
let%bind lst' = bind_map_list self lst in
return @@ E_set lst'
)
| E_map lst -> (
let%bind lst' = bind_map_list (bind_map_pair self) lst in
return @@ E_map lst'
)
| E_big_map lst -> (
let%bind lst' = bind_map_list (bind_map_pair self) lst in
return @@ E_big_map lst'
)
| E_look_up ab -> (
let%bind ab' = bind_map_pair self ab in
return @@ E_look_up ab'
)
| E_loop {condition;body} -> (
let ab = (condition,body) in
let%bind (a,b) = bind_map_pair self ab in
return @@ E_loop {condition = a; body = b}
)
| E_matching {matchee=e;cases} -> (
let%bind e' = self e in
let%bind cases' = map_cases f cases in
return @@ E_matching {matchee=e';cases=cases'}
)
| E_record_accessor acc -> (
let%bind e' = self acc.expr in
return @@ E_record_accessor {acc with expr = e'}
)
| E_record m -> (
let%bind m' = bind_map_lmap self m in
return @@ E_record m'
)
| E_record_update {record; path; update} -> (
let%bind record = self record in
let%bind update = self update in
return @@ E_record_update {record;path;update}
)
| E_constructor c -> (
let%bind e' = self c.element in
return @@ E_constructor {c with element = e'}
)
| E_application {expr1;expr2} -> (
let ab = (expr1,expr2) in
let%bind (a,b) = bind_map_pair self ab in
return @@ E_application {expr1=a;expr2=b}
)
| E_let_in { let_binder ; rhs ; let_result; inline } -> (
let%bind rhs = self rhs in
let%bind let_result = self let_result in
return @@ E_let_in { let_binder ; rhs ; let_result; inline }
)
| E_lambda { binder ; result } -> (
let%bind result = self result in
return @@ E_lambda { binder ; result }
)
| E_constant c -> (
let%bind args = bind_map_list self c.arguments in
return @@ E_constant {c with arguments=args}
)
| E_literal _ | E_variable _ as e' -> return e'
and map_cases : mapper -> matching_expr -> matching_expr result = fun f m ->
match m with
| Match_bool { match_true ; match_false } -> (
let%bind match_true = map_expression f match_true in
let%bind match_false = map_expression f match_false in
ok @@ Match_bool { match_true ; match_false }
)
| Match_list { match_nil ; match_cons = (hd , tl , cons, te) } -> (
let%bind match_nil = map_expression f match_nil in
let%bind cons = map_expression f cons in
ok @@ Match_list { match_nil ; match_cons = (hd , tl , cons, te) }
)
| Match_option { match_none ; match_some = (name , some, te) } -> (
let%bind match_none = map_expression f match_none in
let%bind some = map_expression f some in
ok @@ Match_option { match_none ; match_some = (name , some, te) }
)
| Match_tuple ((names , e), _) -> (
let%bind e' = map_expression f e in
ok @@ Match_tuple ((names , e'), [])
)
| Match_variant (lst, te) -> (
let aux ((a , b) , e) =
let%bind e' = map_expression f e in
ok ((a , b) , e')
in
let%bind lst' = bind_map_list aux lst in
ok @@ Match_variant (lst', te)
)
and map_program : mapper -> program -> program result = fun m p ->
let aux = fun (x : declaration) ->
match x with
| Declaration_constant (v , e , i, env) -> (
let%bind e' = map_expression m e in
ok (Declaration_constant (v , e' , i, env))
)
in
bind_map_list (bind_map_location aux) p
type 'a fold_mapper = 'a -> expression -> (bool * 'a * expression) result
let rec fold_map_expression : 'a fold_mapper -> 'a -> expression -> ('a * expression) result = fun f a e ->
let self = fold_map_expression f in
let%bind (continue, init',e') = f a e in
if (not continue) then ok(init',e')
else
let return expression_content = { e' with expression_content } in
match e'.expression_content with
| E_list lst -> (
let%bind (res, lst') = bind_fold_map_list self init' lst in
ok (res, return @@ E_list lst')
)
| E_set lst -> (
let%bind (res, lst') = bind_fold_map_list self init' lst in
ok (res, return @@ E_set lst')
)
| E_map lst -> (
let%bind (res, lst') = bind_fold_map_list (bind_fold_map_pair self) init' lst in
ok (res, return @@ E_map lst')
)
| E_big_map lst -> (
let%bind (res, lst') = bind_fold_map_list (bind_fold_map_pair self) init' lst in
ok (res, return @@ E_big_map lst')
)
| E_look_up ab -> (
let%bind (res, ab') = bind_fold_map_pair self init' ab in
ok (res, return @@ E_look_up ab')
)
| E_loop {condition;body} -> (
let ab = (condition,body) in
let%bind (res,(a,b)) = bind_fold_map_pair self init' ab in
ok (res, return @@ E_loop {condition = a; body = b})
)
| E_matching {matchee=e;cases} -> (
let%bind (res, e') = self init' e in
let%bind (res,cases') = fold_map_cases f res cases in
ok (res, return @@ E_matching {matchee=e';cases=cases'})
)
| E_record_accessor acc -> (
let%bind (res, e') = self init' acc.expr in
ok (res, return @@ E_record_accessor {acc with expr = e'})
)
| E_record m -> (
let%bind (res, lst') = bind_fold_map_list (fun res (k,e) -> let%bind (res,e) = self res e in ok (res,(k,e))) init' (LMap.to_kv_list m) in
let m' = LMap.of_list lst' in
ok (res, return @@ E_record m')
)
| E_record_update {record; path; update} -> (
let%bind (res, record) = self init' record in
let%bind (res, update) = self res update in
ok (res, return @@ E_record_update {record;path;update})
)
| E_constructor c -> (
let%bind (res,e') = self init' c.element in
ok (res, return @@ E_constructor {c with element = e'})
)
| E_application {expr1;expr2} -> (
let ab = (expr1,expr2) in
let%bind (res,(a,b)) = bind_fold_map_pair self init' ab in
ok (res, return @@ E_application {expr1=a;expr2=b})
)
| E_let_in { let_binder ; rhs ; let_result; inline } -> (
let%bind (res,rhs) = self init' rhs in
let%bind (res,let_result) = self res let_result in
ok (res, return @@ E_let_in { let_binder ; rhs ; let_result ; inline })
)
| E_lambda { binder ; result } -> (
let%bind (res,result) = self init' result in
ok ( res, return @@ E_lambda { binder ; result })
)
| E_constant c -> (
let%bind (res,args) = bind_fold_map_list self init' c.arguments in
ok (res, return @@ E_constant {c with arguments=args})
)
| E_literal _ | E_variable _ as e' -> ok (init', return e')
and fold_map_cases : 'a fold_mapper -> 'a -> matching_expr -> ('a * matching_expr) result = fun f init m ->
match m with
| Match_bool { match_true ; match_false } -> (
let%bind (init, match_true) = fold_map_expression f init match_true in
let%bind (init, match_false) = fold_map_expression f init match_false in
ok @@ (init, Match_bool { match_true ; match_false })
)
| Match_list { match_nil ; match_cons = (hd , tl , cons, te) } -> (
let%bind (init, match_nil) = fold_map_expression f init match_nil in
let%bind (init, cons) = fold_map_expression f init cons in
ok @@ (init, Match_list { match_nil ; match_cons = (hd , tl , cons, te) })
)
| Match_option { match_none ; match_some = (name , some, te) } -> (
let%bind (init, match_none) = fold_map_expression f init match_none in
let%bind (init, some) = fold_map_expression f init some in
ok @@ (init, Match_option { match_none ; match_some = (name , some, te) })
)
| Match_tuple ((names , e), _) -> (
let%bind (init, e') = fold_map_expression f init e in
ok @@ (init, Match_tuple ((names , e'), []))
)
| Match_variant (lst, te) -> (
let aux init ((a , b) , e) =
let%bind (init,e') = fold_map_expression f init e in
ok (init, ((a , b) , e'))
in
let%bind (init,lst') = bind_fold_map_list aux init lst in
ok @@ (init, Match_variant (lst', te))
)
and fold_map_program : 'a fold_mapper -> 'a -> program -> ('a * program) result = fun m init p ->
let aux = fun (acc,acc_prg) (x : declaration Location.wrap) ->
match Location.unwrap x with
| Declaration_constant (v , e , i, env) -> (
let%bind (acc',e') = fold_map_expression m acc e in
let wrap_content = Declaration_constant (v , e' , i, env) in
ok (acc', List.append acc_prg [{x with wrap_content}])
)
in
bind_fold_list aux (init,[]) p
module Errors = struct
let bad_contract_io entrypoint e () =
let title = thunk "badly typed contract" in
let message () = Format.asprintf "unexpected entrypoint type" in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp e.location);
("entrypoint" , fun () -> entrypoint);
("entrypoint_type" , fun () -> Format.asprintf "%a" Ast_typed.PP.type_expression e.type_expression)
] in
error ~data title message ()
let expected_list_operation entrypoint got e () =
let title = thunk "bad return type" in
let message () = Format.asprintf "expected %a, got %a"
Ast_typed.PP.type_expression {got with type_content= T_operator (TC_list {got with type_content=T_constant TC_operation})}
Ast_typed.PP.type_expression got
in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp e.location);
("entrypoint" , fun () -> entrypoint)
] in
error ~data title message ()
let expected_same entrypoint t1 t2 e () =
let title = thunk "badly typed contract" in
let message () = Format.asprintf "expected {%a} and {%a} to be the same in the entrypoint type"
Ast_typed.PP.type_expression t1
Ast_typed.PP.type_expression t2
in
let data = [
("location" , fun () -> Format.asprintf "%a" Location.pp e.location);
("entrypoint" , fun () -> entrypoint);
("entrypoint_type" , fun () -> Format.asprintf "%a" Ast_typed.PP.type_expression e.type_expression)
] in
error ~data title message ()
end
type contract_type = {
parameter : Ast_typed.type_expression ;
storage : Ast_typed.type_expression ;
}
let fetch_contract_type : string -> program -> contract_type result = fun main_fname program ->
let main_decl = List.rev @@ List.filter
(fun declt ->
let (Declaration_constant (v , _ , _ , _)) = Location.unwrap declt in
String.equal (Var.to_name v) main_fname
)
program
in
match main_decl with
| (hd::_) -> (
let (Declaration_constant (_,e,_,_)) = Location.unwrap hd in
match e.type_expression.type_content with
| 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 () = 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) @@
Ast_typed.assert_type_expression_eq (storage,storage') in
(* TODO: on storage/parameter : assert_storable, assert_passable ? *)
ok { parameter ; storage }
| _ -> fail @@ Errors.bad_contract_io main_fname e
)
| _ -> fail @@ Errors.bad_contract_io main_fname e
)
| [] -> simple_fail ("Entrypoint '"^main_fname^"' does not exist")

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@ -0,0 +1,24 @@
open Trace
let all_passes = []
let contract_passes = [
Contract_passes.self_typing ;
]
let all_program =
let all_p = List.map Helpers.map_program all_passes in
bind_chain all_p
let all_expression =
let all_p = List.map Helpers.map_expression all_passes in
bind_chain all_p
let all_contract main_name prg =
let%bind contract_type = Helpers.fetch_contract_type main_name prg in
let data : Contract_passes.contract_pass_data = {
contract_type = contract_type ;
main_name = main_name ;
} in
let all_p = List.map (fun pass -> Helpers.fold_map_program pass data) contract_passes in
bind_chain_ignore_acc all_p prg

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@ -32,6 +32,20 @@ let rec get_operator : constant' -> type_value -> expression list -> predicate r
| Ok (x,_) -> ok x
| Error _ -> (
match s with
| C_SELF -> (
let%bind entrypoint_as_string = match lst with
| [{ content = E_literal (D_string s); type_value = _ }] -> (
match String.split_on_char '%' s with
| ["" ; s] -> ok @@ String.concat "" ["%" ; (String.uncapitalize_ascii s)]
| _ -> fail @@ corner_case ~loc:__LOC__ "mini_c . SELF"
)
| _ ->
fail @@ corner_case ~loc:__LOC__ "mini_c . SELF" in
ok @@ simple_unary @@ seq [
i_drop ;
prim ~annot:[entrypoint_as_string] I_SELF
]
)
| C_NONE -> (
let%bind ty' = Mini_c.get_t_option ty in
let%bind m_ty = Compiler_type.type_ ty' in

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@ -66,7 +66,6 @@ module Simplify = struct
module Pascaligo = struct
let constants = function
(* Tezos module (ex-Michelson) *)
| "Tezos.chain_id" -> ok C_CHAIN_ID
| "chain_id" -> ok C_CHAIN_ID (* Deprecated *)
| "get_chain_id" -> ok C_CHAIN_ID (* Deprecated *)
@ -80,6 +79,7 @@ module Simplify = struct
| "sender" -> ok C_SENDER (* Deprecated *)
| "Tezos.address" -> ok C_ADDRESS
| "address" -> ok C_ADDRESS (* Deprecated *)
| "Tezos.self" -> ok C_SELF
| "Tezos.self_address" -> ok C_SELF_ADDRESS
| "self_address" -> ok C_SELF_ADDRESS (* Deprecated *)
| "Tezos.implicit_account" -> ok C_IMPLICIT_ACCOUNT
@ -267,6 +267,7 @@ module Simplify = struct
| "sender" -> ok C_SENDER (* Deprecated *)
| "Tezos.address" -> ok C_ADDRESS
| "Current.address" -> ok C_ADDRESS (* Deprecated *)
| "Tezos.self" -> ok C_SELF
| "Tezos.self_address" -> ok C_SELF_ADDRESS
| "Current.self_address" -> ok C_SELF_ADDRESS (* Deprecated *)
| "Tezos.implicit_account" -> ok C_IMPLICIT_ACCOUNT
@ -791,6 +792,12 @@ module Typer = struct
let self_address = typer_0 "SELF_ADDRESS" @@ fun _ ->
ok @@ t_address ()
let self = typer_1_opt "SELF" @@ fun entrypoint_as_string tv_opt ->
let%bind () = assert_t_string entrypoint_as_string in
match tv_opt with
| None -> simple_fail "untyped SELF"
| Some t -> ok @@ t
let implicit_account = typer_1 "IMPLICIT_ACCOUNT" @@ fun key_hash ->
let%bind () = assert_t_key_hash key_hash in
ok @@ t_contract (t_unit () ) ()
@ -1228,6 +1235,7 @@ module Typer = struct
| C_SENDER -> ok @@ sender ;
| C_SOURCE -> ok @@ source ;
| C_ADDRESS -> ok @@ address ;
| C_SELF -> ok @@ self;
| C_SELF_ADDRESS -> ok @@ self_address;
| C_IMPLICIT_ACCOUNT -> ok @@ implicit_account;
| C_SET_DELEGATE -> ok @@ set_delegate ;

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@ -233,6 +233,10 @@ let assert_t_bytes = fun t ->
let%bind _ = get_t_bytes t in
ok ()
let assert_t_string = fun t ->
let%bind _ = get_t_string t in
ok ()
let assert_t_operation (t:type_expression) : unit result =
match t.type_content with
| T_constant (TC_operation) -> ok ()

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@ -91,6 +91,7 @@ val is_t_bytes : type_expression -> bool
val is_t_int : type_expression -> bool
val assert_t_bytes : type_expression -> unit result
val assert_t_string : type_expression -> unit result
(*
val assert_t_operation : type_expression -> unit result
*)

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@ -143,6 +143,7 @@ let constant ppf : constant' -> unit = function
| C_SOURCE -> fprintf ppf "SOURCE"
| C_SENDER -> fprintf ppf "SENDER"
| C_ADDRESS -> fprintf ppf "ADDRESS"
| C_SELF -> fprintf ppf "SELF"
| C_SELF_ADDRESS -> fprintf ppf "SELF_ADDRESS"
| C_IMPLICIT_ACCOUNT -> fprintf ppf "IMPLICIT_ACCOUNT"
| C_SET_DELEGATE -> fprintf ppf "SET_DELEGATE"

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@ -38,3 +38,9 @@ let label_range i j =
let is_tuple_lmap m =
List.for_all (fun i -> LMap.mem i m) @@ (label_range 0 (LMap.cardinal m))
let get_pair m =
let open Trace in
match (LMap.find_opt (Label "0") m , LMap.find_opt (Label "1") m) with
| Some e1, Some e2 -> ok (e1,e2)
| _ -> simple_fail "not a pair"

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@ -16,3 +16,6 @@ val bind_map_cmap :
'a Types.constructor_map ->
('b Types.constructor_map * 'c list, 'd) result
val is_tuple_lmap : 'a Types.label_map -> bool
val get_pair :
'a Types.label_map ->
(('a * 'a) * 'b list, unit -> Trace.error) result

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@ -285,6 +285,7 @@ and constant' =
| C_SOURCE
| C_SENDER
| C_ADDRESS
| C_SELF
| C_SELF_ADDRESS
| C_IMPLICIT_ACCOUNT
| C_SET_DELEGATE

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@ -237,6 +237,7 @@ and constant ppf : constant' -> unit = function
| C_SOURCE -> fprintf ppf "SOURCE"
| C_SENDER -> fprintf ppf "SENDER"
| C_ADDRESS -> fprintf ppf "ADDRESS"
| C_SELF -> fprintf ppf "SELF"
| C_SELF_ADDRESS -> fprintf ppf "SELF_ADDRESS"
| C_IMPLICIT_ACCOUNT -> fprintf ppf "IMPLICIT_ACCOUNT"
| C_SET_DELEGATE -> fprintf ppf "SET_DELEGATE"

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@ -5,7 +5,7 @@ open Test_helpers
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "pascaligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =
@ -21,7 +21,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/coase.ligo" (Syntax_name "pascaligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -0,0 +1,5 @@
type storage = int
type parameter = nat
let main (action, store : parameter * storage) : storage =
store + 1

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@ -0,0 +1,6 @@
type storage = int
type parameter = nat
type return = string * storage
let main (action, store : parameter * storage) : return =
("bad",store + 1)

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@ -0,0 +1,6 @@
type storage = int
type parameter = nat
type return = operation list * string
let main (action, store : parameter * storage) : return =
(([]: operation list),"bad")

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@ -0,0 +1,11 @@
type parameter is Default | Toto of int
type storage is nat
type return is list (operation) * storage
function main (const p : parameter; const s : storage) : return is
block {
const self_contract: contract(int) = Tezos.self("Toto") ;
const op : operation = Tezos.transaction (2, 300tz, self_contract) ;
}
with (list [op], s)

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@ -1,5 +1,5 @@
let foo (u : unit) : address = Tezos.self_address
let main (ps : unit * address) : (operation list * address) =
let dummy = foo () in
([] : operation list), foo ()
let main (ps: unit * address): (operation list * address) =
let dummy = foo () in (* force not to inline foo *)
( ([] : operation list) , foo ())

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@ -0,0 +1,10 @@
type parameter is nat
type storage is int
type return is list (operation) * storage
function main (const p : parameter; const s : storage) : return is
block {
const self_contract: contract(int) = Tezos.self ("%default");
}
with ((nil: list(operation)), s)

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@ -0,0 +1,10 @@
type parameter is nat
type storage is int
type return is list (operation) * storage
function main (const p : parameter; const s : storage) : return is
block {
const self_contract: contract(parameter) = Tezos.self("%default") ;
}
with ((nil: list(operation)), s)

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@ -0,0 +1,12 @@
type parameter is Default | Toto of int
type storage is nat
type return is list (operation) * storage
function main (const p : parameter; const s : storage) : return is
block {
// const v : string = "%toto" ;
const self_contract: contract(int) = Tezos.self("%toto") ;
const op : operation = Tezos.transaction (2, 300tz, self_contract) ;
}
with (list [op], s)

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@ -0,0 +1,11 @@
type parameter is int
type storage is nat
type return is list (operation) * storage
function main (const p : parameter; const s : storage) : return is
block {
const self_contract: contract(int) = Tezos.self("%default") ;
const op : operation = Tezos.transaction (2, 300tz, self_contract) ;
}
with (list [op], s)

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

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@ -4,7 +4,7 @@ open Ast_simplified
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "cameligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =
@ -19,7 +19,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/hashlock.mligo" (Syntax_name "cameligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -5,7 +5,7 @@ open Ast_simplified
let mtype_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "cameligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok (typed,state)
let get_program =
@ -20,7 +20,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/id.mligo" (Syntax_name "cameligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -5,18 +5,18 @@ open Ast_simplified.Combinators
let retype_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "reasonligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile Env simplified in
let () = Typer.Solver.discard_state state in
let () = Typer.Solver.discard_state state in
ok typed
let mtype_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "cameligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile Env simplified in
let () = Typer.Solver.discard_state state in
ok typed
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "pascaligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile Env simplified in
let () = Typer.Solver.discard_state state in
ok typed

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@ -69,7 +69,7 @@ let compile_groups _filename grp_list =
trace (failed_to_compile_md_file _filename (s,grp,contents)) @@
let%bind v_syntax = Compile.Helpers.syntax_to_variant (Syntax_name s) None in
let%bind simplified = Compile.Of_source.compile_string contents v_syntax in
let%bind typed,_ = Compile.Of_simplified.compile simplified in
let%bind typed,_ = Compile.Of_simplified.compile Env simplified in
let%bind mini_c = Compile.Of_typed.compile typed in
bind_map_list
(fun ((_, _, exp),_) -> Compile.Of_mini_c.aggregate_and_compile_expression mini_c exp)

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@ -7,7 +7,7 @@ let refile = "./contracts/multisig.religo"
let type_file f s =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name s) in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program f st =

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@ -3,7 +3,7 @@ open Test_helpers
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "pascaligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =
@ -18,7 +18,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/multisig-v2.ligo" (Syntax_name "pascaligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -5,7 +5,7 @@ open Ast_simplified
let retype_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "reasonligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile Env simplified in
ok (typed,state)
let get_program =
@ -20,7 +20,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/pledge.religo" (Syntax_name "reasonligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile Env simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -3,7 +3,7 @@ open Test_helpers
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "pascaligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =
@ -18,7 +18,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/replaceable_id.ligo" (Syntax_name "pascaligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -4,7 +4,7 @@ open Ast_simplified
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "cameligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =
@ -19,7 +19,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/timelock_repeat.mligo" (Syntax_name "cameligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -3,7 +3,7 @@ open Test_helpers
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "pascaligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =
@ -18,7 +18,7 @@ let get_program =
let compile_main () =
let%bind simplified = Ligo.Compile.Of_source.compile "./contracts/time-lock.ligo" (Syntax_name "pascaligo") in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed_prg,_ = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
let%bind mini_c_prg = Ligo.Compile.Of_typed.compile typed_prg in
let%bind michelson_prg = Ligo.Compile.Of_mini_c.aggregate_and_compile_contract mini_c_prg "main" in
let%bind (_contract: Tezos_utils.Michelson.michelson) =

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@ -3,7 +3,7 @@ open Test_helpers
let type_file f =
let%bind simplified = Ligo.Compile.Of_source.compile f (Syntax_name "cameligo") in
let%bind typed,state = Ligo.Compile.Of_simplified.compile simplified in
let%bind typed,state = Ligo.Compile.Of_simplified.compile (Contract "main") simplified in
ok @@ (typed,state)
let get_program =

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@ -699,6 +699,16 @@ let rec bind_chain : ('a -> 'a result) list -> 'a -> 'a result = fun fs x ->
bind aux (ok x)
)
let rec bind_chain_ignore_acc : ('a -> ('b * 'a) result) list -> 'a -> 'a result = fun fs x ->
match fs with
| [] -> ok x
| hd :: tl -> (
let aux : 'a -> 'a result = fun x ->
hd x >>? fun (_,aa) ->
bind (bind_chain_ignore_acc tl) (ok aa) in
bind aux (ok x)
)
(**
Wraps a call that might trigger an exception in a result.
*)