Merge branch 'dev' of gitlab.com:ligolang/ligo into rinderknecht@contracts

This commit is contained in:
Christian Rinderknecht 2020-03-04 15:59:47 +01:00
commit 8b2a182c6a
19 changed files with 119 additions and 49 deletions

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@ -136,7 +136,7 @@ returns an integer as well:
```cameligo group=b ```cameligo group=b
let add (a, b : int * int) : int = a + b // Uncurried let add (a, b : int * int) : int = a + b // Uncurried
let add_curry (a : int) (b : int) : int = add (a, b) // Curried let add_curry (a : int) (b : int) : int = add (a, b) // Curried
let increment (b : int) : int = add_curry 1 // Partial application let increment : int -> int = add_curry 1 // Partial application
``` ```
You can run the `increment` function defined above using the LIGO You can run the `increment` function defined above using the LIGO

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@ -772,7 +772,7 @@ function fold_op (const m : register) : int is
<Syntax syntax="cameligo"> <Syntax syntax="cameligo">
```cameligo group=maps ```cameligo group=maps
let fold_op (m : register) : register = let fold_op (m : register) : int =
let folded = fun (i,j : int * (address * move)) -> i + j.1.1 let folded = fun (i,j : int * (address * move)) -> i + j.1.1
in Map.fold folded m 5 in Map.fold folded m 5
``` ```
@ -781,7 +781,7 @@ let fold_op (m : register) : register =
<Syntax syntax="reasonligo"> <Syntax syntax="reasonligo">
```reasonligo group=maps ```reasonligo group=maps
let fold_op = (m : register) : register => { let fold_op = (m : register) : int => {
let folded = ((i,j): (int, (address, move))) => i + j[1][1]; let folded = ((i,j): (int, (address, move))) => i + j[1][1];
Map.fold (folded, m, 5); Map.fold (folded, m, 5);
}; };

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@ -400,7 +400,7 @@ function fold_op (const m : register) : int is
<Syntax syntax="cameligo"> <Syntax syntax="cameligo">
```cameligo group=maps ```cameligo group=maps
let fold_op (m : register) : register = let fold_op (m : register) : int =
let folded = fun (i,j : int * (address * move)) -> i + j.1.1 let folded = fun (i,j : int * (address * move)) -> i + j.1.1
in Map.fold folded m 5 in Map.fold folded m 5
``` ```
@ -409,7 +409,7 @@ let fold_op (m : register) : register =
<Syntax syntax="reasonligo"> <Syntax syntax="reasonligo">
```reasonligo group=maps ```reasonligo group=maps
let fold_op = (m : register) : register => { let fold_op = (m : register) : int => {
let folded = ((i,j): (int, (address, move))) => i + j[1][1]; let folded = ((i,j): (int, (address, move))) => i + j[1][1];
Map.fold (folded, m, 5); Map.fold (folded, m, 5);
}; };

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@ -1161,7 +1161,7 @@ let%expect_test _ =
let%expect_test _ = let%expect_test _ =
run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_toplevel.mligo" ; "main" ] ; run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_toplevel.mligo" ; "main" ] ;
[%expect {| [%expect {|
ligo: in file "create_contract_toplevel.mligo", line 4, character 35 to line 8, character 8. No free variable allowed in this lambda: variable 'store' {"expression":"CREATE_CONTRACT(lambda (#P : ( nat * string ):Some(( nat * string ))) : None return let rhs#804 = #P in let p = rhs#804.0 in let s = rhs#804.1 in ( list[] : (TO_list(operation)) , store ) , NONE() : (TO_option(key_hash)) , 300000000mutez , \"un\")","location":"in file \"create_contract_toplevel.mligo\", line 4, character 35 to line 8, character 8"} ligo: in file "create_contract_toplevel.mligo", line 4, character 35 to line 8, character 8. No free variable allowed in this lambda: variable 'store' {"expression":"CREATE_CONTRACT(lambda (#P : ( nat * string ):Some(( nat * string ))) : None return let rhs#808 = #P in let p = rhs#808.0 in let s = rhs#808.1 in ( list[] : (TO_list(operation)) , store ) , NONE() : (TO_option(key_hash)) , 300000000mutez , \"un\")","location":"in file \"create_contract_toplevel.mligo\", line 4, character 35 to line 8, character 8"}
If you're not sure how to fix this error, you can If you're not sure how to fix this error, you can
@ -1174,7 +1174,7 @@ let%expect_test _ =
run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_var.mligo" ; "main" ] ; run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_var.mligo" ; "main" ] ;
[%expect {| [%expect {|
ligo: in file "create_contract_var.mligo", line 6, character 35 to line 10, character 5. No free variable allowed in this lambda: variable 'a' {"expression":"CREATE_CONTRACT(lambda (#P : ( nat * int ):Some(( nat * int ))) : None return let rhs#807 = #P in let p = rhs#807.0 in let s = rhs#807.1 in ( list[] : (TO_list(operation)) , a ) , NONE() : (TO_option(key_hash)) , 300000000mutez , 1)","location":"in file \"create_contract_var.mligo\", line 6, character 35 to line 10, character 5"} ligo: in file "create_contract_var.mligo", line 6, character 35 to line 10, character 5. No free variable allowed in this lambda: variable 'a' {"expression":"CREATE_CONTRACT(lambda (#P : ( nat * int ):Some(( nat * int ))) : None return let rhs#811 = #P in let p = rhs#811.0 in let s = rhs#811.1 in ( list[] : (TO_list(operation)) , a ) , NONE() : (TO_option(key_hash)) , 300000000mutez , 1)","location":"in file \"create_contract_var.mligo\", line 6, character 35 to line 10, character 5"}
If you're not sure how to fix this error, you can If you're not sure how to fix this error, you can
@ -1187,7 +1187,7 @@ let%expect_test _ =
run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_no_inline.mligo" ; "main" ] ; run_ligo_bad [ "compile-contract" ; bad_contract "create_contract_no_inline.mligo" ; "main" ] ;
[%expect {| [%expect {|
ligo: in file "create_contract_no_inline.mligo", line 9, characters 19-89. CREATE_CONTRACT first argument must be inlined: contract code can be inlined using a lambda {"expression":"CREATE_CONTRACT(dummy_contract , NONE() : (TO_option(key_hash)) , 300000000mutez , 1)","location":"in file \"create_contract_no_inline.mligo\", line 9, characters 19-89"} ligo: unbound type variable: {"variable":"return","in":"- E[foo -> int]\tT[] ]","did_you_mean":"no suggestion"}
If you're not sure how to fix this error, you can If you're not sure how to fix this error, you can

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@ -1,6 +1,45 @@
open Cli_expect open Cli_expect
let%expect_test _ = let%expect_test _ =
run_ligo_bad [ "compile-contract" ; "../../test/contracts/negative/error_function_annotation_1.mligo"; "main"];
[%expect {|
ligo: in file "", line 0, characters 0-0. different type constructors: Expected these two constant type constructors to be the same, but they're different {"a":"unit","b":"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" ; "../../test/contracts/negative/error_function_annotation_2.mligo"; "f"];
[%expect {|
ligo: in file "error_function_annotation_2.mligo", line 1, characters 14-43. different kinds: {"a":"int","b":"( int * 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" ; "../../test/contracts/negative/error_function_annotation_3.mligo"; "f"];
[%expect {|
ligo: in file "", line 0, characters 0-0. different kinds: {"a":"( (TO_list(operation)) * sum[Add -> int , Sub -> int] )","b":"sum[Add -> int , Sub -> int]"}
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" ; "../../test/contracts/negative/error_type.ligo" ; "main" ] ; run_ligo_bad [ "compile-contract" ; "../../test/contracts/negative/error_type.ligo" ; "main" ] ;
[%expect {| [%expect {|
ligo: in file "error_type.ligo", line 3, characters 18-28. Adding modulo with wrong types: Expected arguments with one of the following combinations of types: add(nat , nat) or add(int , int) or add(mutez , mutez) or add(nat , int) or add(int , nat) or add(timestamp , int) or add(int , timestamp) but got this combination instead: add(int , string) ligo: in file "error_type.ligo", line 3, characters 18-28. Adding modulo with wrong types: Expected arguments with one of the following combinations of types: add(nat , nat) or add(int , int) or add(mutez , mutez) or add(nat , int) or add(int , nat) or add(timestamp , int) or add(int , timestamp) but got this combination instead: add(int , string)

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@ -156,6 +156,14 @@ let rec pattern_to_var : Raw.pattern -> _ = fun p ->
| Raw.PWild r -> ok @@ ({ region = r ; value = "_" } : Raw.variable) | Raw.PWild r -> ok @@ ({ region = r ; value = "_" } : Raw.variable)
| _ -> fail @@ wrong_pattern "single var" p | _ -> fail @@ wrong_pattern "single var" p
let rec tuple_pattern_to_vars : Raw.pattern -> _ = fun pattern ->
match pattern with
| Raw.PPar pp -> tuple_pattern_to_vars pp.value.inside
| Raw.PTuple pt -> bind_map_list pattern_to_var (npseq_to_list pt.value)
| Raw.PVar _ | Raw.PWild _-> bind_list [pattern_to_var pattern]
| other -> (fail @@ wrong_pattern "parenthetical, tuple, or variable" other)
let rec pattern_to_typed_var : Raw.pattern -> _ = fun p -> let rec pattern_to_typed_var : Raw.pattern -> _ = fun p ->
match p with match p with
| Raw.PPar p -> pattern_to_typed_var p.value.inside | Raw.PPar p -> pattern_to_typed_var p.value.inside
@ -180,11 +188,21 @@ let rec tuple_pattern_to_typed_vars : Raw.pattern -> _ = fun pattern ->
| Raw.PVar _ -> bind_list [pattern_to_typed_var pattern] | Raw.PVar _ -> bind_list [pattern_to_typed_var pattern]
| other -> (fail @@ wrong_pattern "parenthetical, tuple, or variable" other) | other -> (fail @@ wrong_pattern "parenthetical, tuple, or variable" other)
let rec unpar_pattern : Raw.pattern -> Raw.pattern = function let rec typed_pattern_to_typed_vars : Raw.pattern -> _ = fun pattern ->
match pattern with
| Raw.PPar pp -> typed_pattern_to_typed_vars pp.value.inside
| Raw.PTyped pt ->
let (p,t) = pt.value.pattern,pt.value.type_expr in
let%bind p = tuple_pattern_to_vars p in
let%bind t = simpl_type_expression t in
ok @@ (p,t)
| other -> (fail @@ wrong_pattern "parenthetical or type annotation" other)
and unpar_pattern : Raw.pattern -> Raw.pattern = function
| PPar p -> unpar_pattern p.value.inside | PPar p -> unpar_pattern p.value.inside
| _ as p -> p | _ as p -> p
let rec simpl_type_expression : Raw.type_expr -> type_expression result = fun te -> and simpl_type_expression : Raw.type_expr -> type_expression result = fun te ->
trace (simple_info "simplifying this type expression...") @@ trace (simple_info "simplifying this type expression...") @@
match te with match te with
TPar x -> simpl_type_expression x.value.inside TPar x -> simpl_type_expression x.value.inside
@ -793,12 +811,9 @@ and simpl_declaration : Raw.declaration -> declaration Location.wrap list result
let%bind var = pattern_to_var hd in let%bind var = pattern_to_var hd in
ok (var , tl) ok (var , tl)
in in
match args with let%bind lhs_type' = bind_map_option (fun x -> simpl_type_expression (snd x)) lhs_type in
| [] -> let%bind let_rhs,lhs_type = match args with
let%bind lhs_type' = | [] -> ok (let_rhs, lhs_type')
bind_map_option (fun (_,te) -> simpl_type_expression te) lhs_type in
let%bind rhs' = simpl_expression let_rhs in
ok @@ [loc x @@ (Declaration_constant (Var.of_name var.value , lhs_type' , inline, rhs'))]
| param1::others -> | param1::others ->
let fun_ = { let fun_ = {
kwd_fun = Region.ghost; kwd_fun = Region.ghost;
@ -807,9 +822,13 @@ and simpl_declaration : Raw.declaration -> declaration Location.wrap list result
arrow = Region.ghost; arrow = Region.ghost;
body = let_rhs body = let_rhs
} in } in
let rhs = Raw.EFun {region=Region.ghost ; value=fun_} in let f_args = nseq_to_list (param1,others) in
let%bind rhs' = simpl_expression rhs in let%bind ty = bind_map_list typed_pattern_to_typed_vars f_args in
ok @@ [loc x @@ (Declaration_constant (Var.of_name var.value , None , inline, rhs'))] let aux acc ty = Option.map (t_function (snd ty)) acc in
ok (Raw.EFun {region=Region.ghost ; value=fun_},List.fold_right' aux lhs_type' ty)
in
let%bind rhs' = simpl_expression let_rhs in
ok @@ [loc x @@ (Declaration_constant (Var.of_name var.value , lhs_type , inline, rhs'))]
) )
and simpl_cases : type a . (Raw.pattern * a) list -> (a, unit) matching_content result = and simpl_cases : type a . (Raw.pattern * a) list -> (a, unit) matching_content result =

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@ -1,4 +1,4 @@
type storage = unit type storage = unit
let main (p, store : unit * storage) : operation list * storage = let main (p, store : unit * storage) : operation list * storage =
failwith "This contract always fails" (failwith "This contract always fails" : operation list * storage)

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@ -5,4 +5,5 @@ type storage = unit;
(fun x -> ()) () (fun x -> ()) ()
*/ */
let main = ((p,s) : (unit, storage)) => (((useless : unit)) => ()) (); let main = ((p,s) : (unit, storage)) : unit =>
(((useless : unit)) => ()) ();

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@ -4,5 +4,5 @@ type storage = unit;
let main (p:unit) storage = (fun x -> ()) () let main (p:unit) storage = (fun x -> ()) ()
*/ */
let main = ((a, s) : (unit, storage)) : (operation (list), storage) => let main = ((a, s) : (unit, storage)) : unit =>
((f : (unit => unit)) => f ()) ((useless : unit) => unit); ((f : (unit => unit)) => f ()) ((useless : unit) => unit);

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@ -1,5 +1,5 @@
let sum (p : int * int) : int = let sum (p : int * int) : int =
let i, result = p in i + result let i, result = p in i + result
let sum2 (p : string * string * string * string) : int = let sum2 (p: string * string * string * string) : string =
let a, b, c, d = p in a ^ b ^ c ^ d let a, b, c, d = p in a ^ b ^ c ^ d

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@ -8,9 +8,9 @@ let x : list (int) = [];
let y : list (int) = [3, 4, 5]; let y : list (int) = [3, 4, 5];
let z : list (int) = [2, ...y]; let z : list (int) = [2, ...y];
let main = ((p,s) : (parameter, storage)) : return => { let main = ((action, s) : (parameter, storage)) : return => {
let storage = let storage =
switch (p) { switch (action) {
| [] => s | [] => s
| [hd, ...tl] => (s[0] + hd, tl) | [hd, ...tl] => (s[0] + hd, tl)
}; };

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@ -43,8 +43,8 @@ let map_op (m : foobar) : foobar =
let increment = fun (i : int * int) -> i.1 + 1 let increment = fun (i : int * int) -> i.1 + 1
in Map.map increment m in Map.map increment m
let fold_op (m : foobar) : foobar = let fold_op (m : foobar) : int =
let aggregate = fun (i : int * (int * int)) -> i.0 + i.1.0 + i.1.1 let aggregate = fun (i, m : int * (int * int)) -> i + m.0 + m.1
in Map.fold aggregate m 10 in Map.fold aggregate m 10
let deep_op (m: foobar) : foobar = let deep_op (m: foobar) : foobar =

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@ -12,7 +12,6 @@ let main = ((action, store): (parameter, storage)) => {
(switch (action) { (switch (action) {
| Add (n) => n | Add (n) => n
| Sub (n) => -n | Sub (n) => -n
} });
);
(([]: list (operation)), store); (([]: list (operation)), store);
}; };

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@ -0,0 +1 @@
let main (a:int) : unit = a

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@ -0,0 +1,2 @@
let f : int = fun (x, y : int*int) -> x + y
let g (x, y : int * int) : int = f (x, y)

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@ -0,0 +1,9 @@
type op =
| Add of int
| Sub of int
let main (p,s : int * op) : (operation list) * op =
match s with
| Add si -> Add si
| Sub si -> Sub si

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@ -1,5 +1,5 @@
let foo (u: unit) : address = let foo (u : unit) : address = Tezos.self_address
Tezos.self_address
let main (ps : unit * address) : (operation list * address) = let main (ps : unit * address) : (operation list * address) =
( ([] : operation list) , foo) let dummy = foo () in
([] : operation list), foo ()

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@ -9,7 +9,7 @@ let add_op (s : string set) : string set =
let remove_op (s : string set) : string set = let remove_op (s : string set) : string set =
Set.remove "foobar" s Set.remove "foobar" s
let remove_deep (s : string set * nat) : string set * nat = let remove_deep (s : string set * nat) : string set =
Set.remove "foobar" s.0 Set.remove "foobar" s.0
(* (*