ligo/src/passes/2-simplify/cameligo.ml

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[@@@warning "-45"]
open Trace
open Ast_simplified
module Raw = Parser.Cameligo.AST
module SMap = Map.String
module Option = Simple_utils.Option
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
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(* TODO: move 1-parser/shared/Utils.ml{i} to Simple_utils/ *)
open Combinators
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
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type 'a nseq = 'a * 'a list
let nseq_to_list (hd, tl) = hd :: tl
let npseq_to_list (hd, tl) = hd :: (List.map snd tl)
let npseq_to_nelist (hd, tl) = hd, (List.map snd tl)
let pseq_to_list = function
| None -> []
| Some lst -> npseq_to_list lst
let get_value : 'a Raw.reg -> 'a = fun x -> x.value
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module Errors = struct
let wrong_pattern expected_name actual =
let title () = "wrong pattern" in
let message () = "" in
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let data = [
("expected", fun () -> expected_name);
("actual_loc" , fun () -> Format.asprintf "%a" Location.pp_lift @@ Raw.pattern_to_region actual)
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] in
error ~data title message
let multiple_patterns construct (patterns: Raw.pattern list) =
let title () = "multiple patterns" in
let message () =
Format.asprintf "multiple patterns in \"%s\" are not supported yet" construct in
let patterns_loc =
List.fold_left (fun a p -> Region.cover a (Raw.pattern_to_region p))
Region.ghost patterns in
let data = [
("patterns_loc", fun () -> Format.asprintf "%a" Location.pp_lift @@ patterns_loc)
] in
error ~data title message
let unknown_predefined_type name =
let title () = "type constants" in
let message () =
Format.asprintf "unknown predefined type \"%s\"" name.Region.value in
let data = [
("typename_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ name.Region.region)
] in
error ~data title message
let untyped_fun_param var =
let title () = "function parameter" in
let message () =
Format.asprintf "untyped function parameters are not supported yet" in
let param_loc = var.Region.region in
let data = [
("param_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ param_loc)
] in
error ~data title message
let unsupported_tuple_pattern p =
let title () = "tuple pattern" in
let message () =
Format.asprintf "tuple patterns are not supported yet" in
let pattern_loc = Raw.pattern_to_region p in
let data = [
("pattern_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ pattern_loc)
] in
error ~data title message
let unsupported_cst_constr p =
let title () = "constant constructor" in
let message () =
Format.asprintf "constant constructors are not supported yet" in
let pattern_loc = Raw.pattern_to_region p in
let data = [
("pattern_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ pattern_loc)
] in
error ~data title message
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let unsupported_non_var_pattern p =
let title () = "pattern is not a variable" in
let message () =
Format.asprintf "non-variable patterns in constructors \
are not supported yet" in
let pattern_loc = Raw.pattern_to_region p in
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let data = [
("pattern_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ pattern_loc)
] in
error ~data title message
let simplifying_expr t =
let title () = "simplifying expression" in
let message () = "" in
let data = [
Refactoring of comments (for [dune build @doc]). Refactoring of parsing command-line arguments * The type [options] is now abstract and implemented as an object type to avoid struggling with scoping and type inference when record types share some common field names. Refactoring of ParserLog for PascaLIGO and CameLIGO * The immediate motivation behind that refactoring was to remove the use of a couple of global references. A consequence is that we have a nicer and more compact code, by threading a state. The files [pascaligo/Tests/pp.ligo] and [ligodity/Tests/pp.mligo]. * Another consequence is that the choice of making strings from AST nodes depends on the CLI (offsets? mode?). After this refactoring, that choice is hardcoded in the simplifiers in a few places (TODO), waiting for a general solution that would have all CL options flow through the compiler. * I removed the use of vendors [x_option.ml], [x_map.ml] and [x_list.ml] when handling optional values. (Less dependencies this way.) Refactoring of the ASTs * I removed the node [local_decl], which was set to [[]] already in a previous commit (which removed local declarations as being redundant, as statements could already be instructions or declarations). * I changed [StrLit] to [String] in the AST of CameLIGO and ReasonLIGO. * I also changed the type [fun_expr] so now either a block is present, and therefore followed by the [with] keyword, or it is not. (Before, the presence of a block was not enforced in the type with the presence of the keyword.) Notes * [LexerMain.ml] and [ParserMain.ml] for CameLIGO and PascaLIGO are almost identical and differ in the same way (language name and file extension), which suggests that they should be in the [shared] folder and instanciated as a functor in the future (TODO). * I removed the blank characters at the end of many lines in the parser of ReasonLIGO.
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("expression" ,
(** TODO: The labelled arguments should be flowing from the CLI. *)
thunk @@ Parser.Cameligo.ParserLog.expr_to_string
Refactoring of comments (for [dune build @doc]). Refactoring of parsing command-line arguments * The type [options] is now abstract and implemented as an object type to avoid struggling with scoping and type inference when record types share some common field names. Refactoring of ParserLog for PascaLIGO and CameLIGO * The immediate motivation behind that refactoring was to remove the use of a couple of global references. A consequence is that we have a nicer and more compact code, by threading a state. The files [pascaligo/Tests/pp.ligo] and [ligodity/Tests/pp.mligo]. * Another consequence is that the choice of making strings from AST nodes depends on the CLI (offsets? mode?). After this refactoring, that choice is hardcoded in the simplifiers in a few places (TODO), waiting for a general solution that would have all CL options flow through the compiler. * I removed the use of vendors [x_option.ml], [x_map.ml] and [x_list.ml] when handling optional values. (Less dependencies this way.) Refactoring of the ASTs * I removed the node [local_decl], which was set to [[]] already in a previous commit (which removed local declarations as being redundant, as statements could already be instructions or declarations). * I changed [StrLit] to [String] in the AST of CameLIGO and ReasonLIGO. * I also changed the type [fun_expr] so now either a block is present, and therefore followed by the [with] keyword, or it is not. (Before, the presence of a block was not enforced in the type with the presence of the keyword.) Notes * [LexerMain.ml] and [ParserMain.ml] for CameLIGO and PascaLIGO are almost identical and differ in the same way (language name and file extension), which suggests that they should be in the [shared] folder and instanciated as a functor in the future (TODO). * I removed the blank characters at the end of many lines in the parser of ReasonLIGO.
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~offsets:true ~mode:`Point t)
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] in
error ~data title message
let only_constructors p =
let title () = "constructors in patterns" in
let message () =
Format.asprintf "currently, only constructors are supported in patterns" in
let pattern_loc = Raw.pattern_to_region p in
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let data = [
("pattern_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ pattern_loc)
] in
error ~data title message
let unsupported_sugared_lists region =
let title () = "lists in patterns" in
let message () =
Format.asprintf "currently, only empty lists and constructors (::) \
are supported in patterns" in
let data = [
("pattern_loc",
fun () -> Format.asprintf "%a" Location.pp_lift @@ region)
] in
error ~data title message
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end
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open Errors
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open Operators.Simplify.Cameligo
let r_split = Location.r_split
let rec pattern_to_var : Raw.pattern -> _ = fun p ->
match p with
| Raw.PPar p -> pattern_to_var p.value.inside
| Raw.PVar v -> ok v
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| Raw.PWild r -> ok @@ ({ region = r ; value = "_" } : Raw.variable)
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| _ -> fail @@ wrong_pattern "var" p
let rec pattern_to_typed_var : Raw.pattern -> _ = fun p ->
match p with
| Raw.PPar p -> pattern_to_typed_var p.value.inside
| Raw.PTyped tp -> (
let tp = tp.value in
let%bind v = pattern_to_var tp.pattern in
ok (v , Some tp.type_expr)
)
| Raw.PVar v -> ok (v , None)
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| Raw.PWild r -> ok (({ region = r ; value = "_" } : Raw.variable) , None)
| _ -> fail @@ wrong_pattern "typed variable" p
let rec expr_to_typed_expr : Raw.expr -> _ = fun e ->
match e with
| EPar e -> expr_to_typed_expr e.value.inside
| EAnnot a -> ok (fst a.value , Some (snd a.value))
| _ -> ok (e , None)
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
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let patterns_to_var : Raw.pattern nseq -> _ = fun ps ->
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match ps with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
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| pattern, [] -> pattern_to_var pattern
| _ -> fail @@ multiple_patterns "let" (nseq_to_list ps)
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let rec simpl_type_expression : Raw.type_expr -> type_expression result = fun te ->
trace (simple_info "simplifying this type expression...") @@
match te with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
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TPar x -> simpl_type_expression x.value.inside
| TVar v -> (
match type_constants v.value with
| Ok (s,_) -> ok @@ make_t @@ T_constant s
| Error _ -> ok @@ make_t @@ T_variable (Var.of_name v.value)
)
| TFun x -> (
let%bind (a , b) =
let (a , _ , b) = x.value in
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let%bind a = simpl_type_expression a in
let%bind b = simpl_type_expression b in
ok (a , b)
in
ok @@ make_t @@ T_arrow (a , b)
)
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| TApp x -> (
let (name, tuple) = x.value in
let lst = npseq_to_list tuple.value.inside in
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let%bind lst' = bind_map_list simpl_type_expression lst in
let%bind cst =
trace (unknown_predefined_type name) @@
type_operators name.value in
ok @@ t_operator cst lst'
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)
| TProd p -> (
let%bind tpl = simpl_list_type_expression @@ npseq_to_list p.value in
ok tpl
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)
| TRecord r ->
let aux = fun (x, y) -> let%bind y = simpl_type_expression y in ok (x, y) in
2019-06-04 15:45:21 +04:00
let apply (x:Raw.field_decl Raw.reg) =
(x.value.field_name.value, x.value.field_type) in
2019-06-03 16:23:46 +04:00
let%bind lst =
bind_list
@@ List.map aux
2019-06-04 15:45:21 +04:00
@@ List.map apply
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
@@ npseq_to_list r.value.ne_elements in
let m = List.fold_left (fun m (x, y) -> LMap.add (Label x) y m) LMap.empty lst in
ok @@ make_t @@ T_record m
| TSum s ->
let aux (v:Raw.variant Raw.reg) =
let args =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
match v.value.arg with
None -> []
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| Some (_, TProd product) -> npseq_to_list product.value
| Some (_, t_expr) -> [t_expr] in
let%bind te = simpl_list_type_expression @@ args in
ok (v.value.constr.value, te) in
let%bind lst = bind_list
@@ List.map aux
@@ npseq_to_list s.value in
let m = List.fold_left (fun m (x, y) -> CMap.add (Constructor x) y m) CMap.empty lst in
ok @@ make_t @@ T_sum m
and simpl_list_type_expression (lst:Raw.type_expr list) : type_expression result =
match lst with
| [] -> assert false
| [hd] -> simpl_type_expression hd
| lst ->
2019-06-03 16:23:46 +04:00
let%bind lst = bind_map_list simpl_type_expression lst in
ok @@ make_t @@ T_tuple lst
let rec simpl_expression :
Raw.expr -> expr result = fun t ->
let return x = ok x in
let simpl_projection = fun (p:Raw.projection Region.reg) ->
let (p , loc) = r_split p in
let var =
let name = Var.of_name p.struct_name.value in
2019-05-23 11:49:06 +04:00
e_variable name in
let path = p.field_path in
let path' =
let aux (s:Raw.selection) =
match s with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
FieldName property -> Access_record property.value
| Component index -> Access_tuple (Z.to_int (snd index.value))
in
List.map aux @@ npseq_to_list path in
return @@ e_accessor ~loc var path'
in
2019-06-04 15:45:21 +04:00
trace (simplifying_expr t) @@
match t with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
Raw.ELetIn e ->
let Raw.{binding; body; _} = e.value in
let Raw.{binders; lhs_type; let_rhs; _} = binding in
let%bind variable = patterns_to_var binders in
let%bind ty_opt =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
bind_map_option (fun (_,te) -> simpl_type_expression te) lhs_type in
let%bind rhs = simpl_expression let_rhs in
let rhs' =
match ty_opt with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
None -> rhs
| Some ty -> e_annotation rhs ty in
let%bind body = simpl_expression body in
return @@ e_let_in (Var.of_name variable.value , None) rhs' body
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| Raw.EAnnot a ->
let (expr , type_expr), loc = r_split a in
let%bind expr' = simpl_expression expr in
let%bind type_expr' = simpl_type_expression type_expr in
return @@ e_annotation ~loc expr' type_expr'
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| EVar c ->
let c' = c.value in
(match constants c' with
| Error _ -> return @@ e_variable (Var.of_name c.value)
| Ok (s,_) -> return @@ e_constant s [])
2019-05-15 17:04:03 +04:00
| ECall x -> (
let ((e1 , e2) , loc) = r_split x in
2019-05-15 17:04:03 +04:00
let%bind args = bind_map_list simpl_expression (nseq_to_list e2) in
match e1 with
| EVar f -> (
let (f , f_loc) = r_split f in
match constants f with
| Error _ -> (
2019-05-15 17:04:03 +04:00
let%bind arg = simpl_tuple_expression (nseq_to_list e2) in
return @@ e_application ~loc (e_variable ~loc:f_loc (Var.of_name f)) arg
)
| Ok (s,_) -> return @@ e_constant ~loc s args
)
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| e1 ->
let%bind e1' = simpl_expression e1 in
let%bind arg = simpl_tuple_expression (nseq_to_list e2) in
return @@ e_application ~loc e1' arg
)
| EPar x -> simpl_expression x.value.inside
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| EUnit reg ->
let (_ , loc) = r_split reg in
return @@ e_literal ~loc Literal_unit
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| EBytes x ->
let (x , loc) = r_split x in
return @@ e_literal ~loc (Literal_bytes (Bytes.of_string @@ fst x))
| ETuple tpl -> simpl_tuple_expression @@ (npseq_to_list tpl.value)
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| ERecord r ->
let (r , loc) = r_split r in
let%bind fields = bind_list
@@ List.map (fun ((k : _ Raw.reg), v) -> let%bind v = simpl_expression v in ok (k.value, v))
@@ List.map (fun (x:Raw.field_assign Raw.reg) -> (x.value.field_name, x.value.field_expr))
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
@@ npseq_to_list r.ne_elements in
let map = SMap.of_list fields in
return @@ e_record ~loc map
| EProj p -> simpl_projection p
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| EConstr (ESomeApp a) ->
let (_, args), loc = r_split a in
let%bind arg = simpl_expression args in
return @@ e_constant ~loc C_SOME [arg]
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| EConstr (ENone reg) ->
let loc = Location.lift reg in
return @@ e_none ~loc ()
| EConstr (EConstrApp c) ->
let (c_name, args), loc = r_split c in
let c_name, _c_loc = r_split c_name in
let args =
match args with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
None -> []
| Some arg -> [arg] in
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let%bind arg = simpl_tuple_expression @@ args
in return @@ e_constructor ~loc c_name arg
| EArith (Add c) ->
simpl_binop "ADD" c
| EArith (Sub c) ->
simpl_binop "SUB" c
| EArith (Mult c) ->
simpl_binop "TIMES" c
| EArith (Div c) ->
simpl_binop "DIV" c
| EArith (Mod c) ->
simpl_binop "MOD" c
| EArith (Int n) -> (
let (n , loc) = r_split n in
let n = Z.to_int @@ snd @@ n in
return @@ e_literal ~loc (Literal_int n)
)
| EArith (Nat n) -> (
let (n , loc) = r_split n in
let n = Z.to_int @@ snd @@ n in
return @@ e_literal ~loc (Literal_nat n)
)
2019-10-27 20:50:24 +04:00
| EArith (Mutez n) -> (
let (n , loc) = r_split n in
let n = Z.to_int @@ snd @@ n in
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return @@ e_literal ~loc (Literal_mutez n)
)
2019-10-29 20:28:20 +04:00
| EArith (Neg e) -> simpl_unop "NEG" e
Refactoring of comments (for [dune build @doc]). Refactoring of parsing command-line arguments * The type [options] is now abstract and implemented as an object type to avoid struggling with scoping and type inference when record types share some common field names. Refactoring of ParserLog for PascaLIGO and CameLIGO * The immediate motivation behind that refactoring was to remove the use of a couple of global references. A consequence is that we have a nicer and more compact code, by threading a state. The files [pascaligo/Tests/pp.ligo] and [ligodity/Tests/pp.mligo]. * Another consequence is that the choice of making strings from AST nodes depends on the CLI (offsets? mode?). After this refactoring, that choice is hardcoded in the simplifiers in a few places (TODO), waiting for a general solution that would have all CL options flow through the compiler. * I removed the use of vendors [x_option.ml], [x_map.ml] and [x_list.ml] when handling optional values. (Less dependencies this way.) Refactoring of the ASTs * I removed the node [local_decl], which was set to [[]] already in a previous commit (which removed local declarations as being redundant, as statements could already be instructions or declarations). * I changed [StrLit] to [String] in the AST of CameLIGO and ReasonLIGO. * I also changed the type [fun_expr] so now either a block is present, and therefore followed by the [with] keyword, or it is not. (Before, the presence of a block was not enforced in the type with the presence of the keyword.) Notes * [LexerMain.ml] and [ParserMain.ml] for CameLIGO and PascaLIGO are almost identical and differ in the same way (language name and file extension), which suggests that they should be in the [shared] folder and instanciated as a functor in the future (TODO). * I removed the blank characters at the end of many lines in the parser of ReasonLIGO.
2019-12-13 15:21:52 +04:00
| EString (String s) -> (
let (s , loc) = r_split s in
let s' =
let s = s in
String.(sub s 1 ((length s) - 2))
in
return @@ e_literal ~loc (Literal_string s')
)
| EString (Cat c) ->
let (c, loc) = r_split c in
let%bind string_left = simpl_expression c.arg1 in
let%bind string_right = simpl_expression c.arg2 in
return @@ e_string_cat ~loc string_left string_right
| ELogic l -> simpl_logic_expression l
| EList l -> simpl_list_expression l
2019-06-01 02:03:06 +04:00
| ECase c -> (
let (c , loc) = r_split c in
let%bind e = simpl_expression c.expr in
let%bind lst =
let aux (x : Raw.expr Raw.case_clause) =
let%bind expr = simpl_expression x.rhs in
ok (x.pattern, expr) in
bind_list
@@ List.map aux
@@ List.map get_value
@@ npseq_to_list c.cases.value in
2019-06-01 02:03:06 +04:00
let default_action () =
let%bind cases = simpl_cases lst in
return @@ e_matching ~loc e cases in
(* Hack to take care of patterns introduced by `parser/cameligo/Parser.mly` in "norm_fun_expr". TODO: Still needed? *)
2019-06-01 02:03:06 +04:00
match lst with
| [ (pattern , rhs) ] -> (
match pattern with
| Raw.PPar p -> (
let p' = p.value.inside in
match p' with
| Raw.PTyped x -> (
let x' = x.value in
match x'.pattern with
| Raw.PVar y ->
let var_name = Var.of_name y.value in
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let%bind type_expr = simpl_type_expression x'.type_expr in
return @@ e_let_in (var_name , Some type_expr) e rhs
| _ -> default_action ()
)
| _ -> default_action ()
)
| _ -> default_action ()
)
| _ -> default_action ()
)
2019-06-01 12:37:43 +04:00
| EFun lamb -> simpl_fun lamb
| ESeq s -> (
let (s , loc) = r_split s in
let items : Raw.expr list = pseq_to_list s.elements in
(match items with
[] -> return @@ e_skip ~loc ()
| expr::more ->
let expr' = simpl_expression expr in
let apply (e1: Raw.expr) (e2: expression Trace.result) =
let%bind a = simpl_expression e1 in
let%bind e2' = e2 in
return @@ e_sequence a e2'
in List.fold_right apply more expr')
)
| ECond c -> (
let (c , loc) = r_split c in
let%bind expr = simpl_expression c.test in
let%bind match_true = simpl_expression c.ifso in
let%bind match_false = simpl_expression c.ifnot in
return @@ e_matching ~loc expr (Match_bool {match_true; match_false})
)
2019-06-01 02:03:06 +04:00
and simpl_fun lamb' : expr result =
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let return x = ok x in
let (lamb , loc) = r_split lamb' in
2019-06-01 12:37:43 +04:00
let%bind args' =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let args = nseq_to_list lamb.binders in
let%bind p_args = bind_map_list pattern_to_typed_var args in
let aux ((var : Raw.variable) , ty_opt) =
match var.value , ty_opt with
| "storage" , None ->
ok (var , t_variable "storage")
| _ , None ->
fail @@ untyped_fun_param var
| _ , Some ty -> (
let%bind ty' = simpl_type_expression ty in
ok (var , ty')
)
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in
bind_map_list aux p_args
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in
match args' with
| [ single ] -> (
let (binder , input_type) =
(Var.of_name (fst single).value , snd single) in
let%bind (body , body_type) = expr_to_typed_expr lamb.body in
let%bind output_type =
bind_map_option simpl_type_expression body_type in
let%bind result = simpl_expression body in
return @@ e_lambda ~loc binder (Some input_type) output_type result
)
| _ -> (
let arguments_name = Var.of_name "arguments" in (* TODO wrong, should be fresh? *)
let (binder , input_type) =
let type_expression = T_tuple (List.map snd args') in
(arguments_name , type_expression) in
let%bind (body , body_type) = expr_to_typed_expr lamb.body in
let%bind output_type =
bind_map_option simpl_type_expression body_type in
let%bind result = simpl_expression body in
let wrapped_result =
let aux = fun i ((name : Raw.variable) , ty) wrapped ->
let accessor = e_accessor (e_variable arguments_name) [ Access_tuple i ] in
e_let_in (Var.of_name name.value , Some ty) accessor wrapped
in
let wraps = List.mapi aux args' in
List.fold_right' (fun x f -> f x) result wraps in
return @@ e_lambda ~loc binder (Some (make_t @@ input_type)) output_type wrapped_result
)
2019-06-01 12:37:43 +04:00
2019-06-01 02:03:06 +04:00
2019-05-23 11:49:06 +04:00
and simpl_logic_expression ?te_annot (t:Raw.logic_expr) : expr result =
let return x = ok @@ make_option_typed x te_annot in
match t with
| BoolExpr (False reg) -> (
let loc = Location.lift reg in
return @@ e_literal ~loc (Literal_bool false)
)
| BoolExpr (True reg) -> (
let loc = Location.lift reg in
return @@ e_literal ~loc (Literal_bool true)
)
| BoolExpr (Or b) ->
simpl_binop "OR" b
| BoolExpr (And b) ->
simpl_binop "AND" b
| BoolExpr (Not b) ->
simpl_unop "NOT" b
| CompExpr (Lt c) ->
simpl_binop "LT" c
| CompExpr (Gt c) ->
simpl_binop "GT" c
| CompExpr (Leq c) ->
simpl_binop "LE" c
| CompExpr (Geq c) ->
simpl_binop "GE" c
| CompExpr (Equal c) ->
simpl_binop "EQ" c
| CompExpr (Neq c) ->
simpl_binop "NEQ" c
and simpl_list_expression (t:Raw.list_expr) : expression result =
let return x = ok @@ x in
match t with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
ECons c -> simpl_binop "CONS" c
| EListComp lst -> (
let (lst , loc) = r_split lst in
let%bind lst' =
bind_map_list simpl_expression @@
pseq_to_list lst.elements in
return @@ e_list ~loc lst'
)
and simpl_binop (name:string) (t:_ Raw.bin_op Region.reg) : expression result =
let return x = ok @@ x in
let (args , loc) = r_split t in
let%bind a = simpl_expression args.arg1 in
let%bind b = simpl_expression args.arg2 in
let%bind name = constants name in
return @@ e_constant ~loc name [ a ; b ]
and simpl_unop (name:string) (t:_ Raw.un_op Region.reg) : expression result =
let return x = ok @@ x in
let (t , loc) = r_split t in
let%bind a = simpl_expression t.arg in
let%bind name = constants name in
return @@ e_constant ~loc name [ a ]
and simpl_tuple_expression ?loc (lst:Raw.expr list) : expression result =
let return x = ok @@ x in
match lst with
| [] -> return @@ e_literal ?loc Literal_unit
| [hd] -> simpl_expression hd
| lst ->
let%bind lst = bind_list @@ List.map simpl_expression lst in
return @@ e_tuple ?loc lst
and simpl_declaration : Raw.declaration -> declaration Location.wrap list result =
fun t ->
let open! Raw in
let loc : 'a . 'a Raw.reg -> _ -> _ =
fun x v -> Location.wrap ~loc:(File x.region) v in
match t with
| TypeDecl x ->
let {name;type_expr} : Raw.type_decl = x.value in
let%bind type_expression = simpl_type_expression type_expr in
ok @@ [loc x @@ Declaration_type (Var.of_name name.value , type_expression)]
2019-05-23 11:49:06 +04:00
| Let x -> (
let binding, _ = r_split x in
let binding = snd binding in
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let {binders; lhs_type; let_rhs} = binding in
let%bind (hd, _) =
let (hd, tl) = binders in ok (hd, tl) in
match hd with
| PTuple pt ->
let process_variable (var_pair: pattern * Raw.expr) :
Ast_simplified.declaration Location.wrap result =
(let (par_var, rhs_expr) = var_pair in
let%bind (v, v_type) = pattern_to_typed_var par_var in
let%bind v_type_expression =
match v_type with
| Some v_type -> ok @@ (simpl_type_expression v_type)
| None -> fail @@ wrong_pattern "typed var tuple" par_var in
let%bind v_type_expression = v_type_expression in
let%bind simpl_rhs_expr = simpl_expression rhs_expr in
ok @@ loc x @@ Declaration_constant (Var.of_name v.value, Some v_type_expression, simpl_rhs_expr) )
in let%bind variables = ok @@ npseq_to_list pt.value
in let%bind expr_bind_lst =
match let_rhs with
| ETuple et -> ok @@ npseq_to_list et.value
| EVar v -> (* Handle variable bound to tuple *)
let name = v.value in
let rec gen_access_tuple ?(i: int = 0)
?(accesses: Raw.expr list = []) (name: string)
: Raw.expr list =
let build_access_expr : Raw.expr = EProj
{region = v.region;
value =
{ struct_name = v;
selector = Region.ghost ;
field_path =
(
(Component
{region = Region.ghost;
value = name, Z.of_int i;} : Raw.selection)
, []);
}
}
in
if i = (List.length variables) then accesses
else
let accesses =
build_access_expr :: accesses
in
gen_access_tuple name ~i: (i + 1) ~accesses
in ok (gen_access_tuple name)
(* TODO: Improve this error message *)
| other -> fail @@ simplifying_expr other
in let%bind decls =
(* TODO: Rewrite the gen_access_tuple so there's no List.rev *)
bind_map_list process_variable (List.combine variables (List.rev expr_bind_lst))
in ok @@ decls
| PPar {region = _ ; value = { lpar = _ ; inside = pt; rpar = _; } } ->
(* Extract parenthetical multi-bind *)
let wild = fst @@ fst @@ r_split x in
simpl_declaration
(Let {
region = x.region;
value = (wild, {binders = (pt, []);
lhs_type = lhs_type;
eq = Region.ghost ;
let_rhs = let_rhs})}
: Raw.declaration)
| _ ->
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let%bind (var, args) =
let%bind (hd, tl) =
let hd, tl = binders in ok (hd, tl) in
let%bind var = pattern_to_var hd in
ok (var , tl)
in
match args with
| [] ->
let%bind 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' , rhs'))]
| param1::others ->
let fun_ = {
kwd_fun = Region.ghost;
binders = param1, others;
lhs_type;
arrow = Region.ghost;
body = let_rhs} in
let rhs = Raw.EFun {region=Region.ghost ; value=fun_} in
let%bind rhs' = simpl_expression rhs in
ok @@ [loc x @@ (Declaration_constant (Var.of_name var.value , None , rhs'))]
)
2019-05-15 17:04:03 +04:00
and simpl_cases : type a . (Raw.pattern * a) list -> (a, unit) matching result =
2019-06-04 15:45:21 +04:00
fun t ->
let open Raw in
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let rec get_var (t:Raw.pattern) =
match t with
| PVar v -> ok v.value
2019-06-04 15:45:21 +04:00
| PPar p -> get_var p.value.inside
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| _ -> fail @@ unsupported_non_var_pattern t in
2019-06-04 15:45:21 +04:00
let rec get_tuple (t:Raw.pattern) =
match t with
2019-05-23 11:49:06 +04:00
| PTuple v -> npseq_to_list v.value
| PPar p -> get_tuple p.value.inside
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| x -> [ x ] in
let get_single (t:Raw.pattern) =
let t' = get_tuple t in
let%bind () =
trace_strong (unsupported_tuple_pattern t) @@
Assert.assert_list_size t' 1 in
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
ok (List.hd t') in
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let rec get_constr (t:Raw.pattern) =
match t with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
PPar p -> get_constr p.value.inside
| PConstr v ->
let const, pat_opt =
match v with
PConstrApp {value; _} -> value
| PSomeApp {value=region,pat; _} ->
{value="Some"; region}, Some pat
| PNone region ->
{value="None"; region}, None in
2019-05-23 11:49:06 +04:00
let%bind pat =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
trace_option (unsupported_cst_constr t) @@ pat_opt in
2019-05-23 11:49:06 +04:00
let%bind single_pat = get_single pat in
let%bind var = get_var single_pat in
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
ok (const.value, var)
| _ -> fail @@ only_constructors t in
2019-09-20 22:38:04 +04:00
let rec get_constr_opt (t:Raw.pattern) =
match t with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
PPar p -> get_constr_opt p.value.inside
| PConstr v ->
let const, pat_opt =
match v with
PConstrApp {value; _} -> value
| PSomeApp {value=region,pat; _} ->
{value="Some"; region}, Some pat
| PNone region ->
{value="None"; region}, None in
2019-09-20 22:38:04 +04:00
let%bind var_opt =
match pat_opt with
| None -> ok None
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| Some pat ->
2019-09-20 22:38:04 +04:00
let%bind single_pat = get_single pat in
let%bind var = get_var single_pat in
ok (Some var)
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
in ok (const.value , var_opt)
| _ -> fail @@ only_constructors t in
let%bind patterns =
let aux (x , y) =
let xs = get_tuple x in
2019-06-04 15:45:21 +04:00
trace_strong (unsupported_tuple_pattern x) @@
Assert.assert_list_size xs 1 >>? fun () ->
ok (List.hd xs , y)
in
bind_map_list aux t in
match patterns with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| [(PFalse _, f) ; (PTrue _, t)]
| [(PTrue _, t) ; (PFalse _, f)] ->
2019-06-04 15:45:21 +04:00
ok @@ Match_bool {match_true = t ; match_false = f}
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| [(PList (PCons c), cons); (PList (PListComp sugar_nil), nil)]
| [(PList (PListComp sugar_nil), nil); (PList (PCons c), cons)] ->
2019-05-23 11:49:06 +04:00
let%bind () =
2019-06-04 15:45:21 +04:00
trace_strong (unsupported_sugared_lists sugar_nil.region)
2019-05-23 11:49:06 +04:00
@@ Assert.assert_list_empty
@@ pseq_to_list
@@ sugar_nil.value.elements in
let%bind (a, b) =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let a, _, b = c.value in
2019-05-23 11:49:06 +04:00
let%bind a = get_var a in
let%bind b = get_var b in
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
ok (a, b) in
ok @@ Match_list {match_cons=(Var.of_name a, Var.of_name b, cons, ()); match_nil=nil}
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| lst ->
2019-09-20 22:38:04 +04:00
let error x =
let title () = "Pattern" in
Refactoring of comments (for [dune build @doc]). Refactoring of parsing command-line arguments * The type [options] is now abstract and implemented as an object type to avoid struggling with scoping and type inference when record types share some common field names. Refactoring of ParserLog for PascaLIGO and CameLIGO * The immediate motivation behind that refactoring was to remove the use of a couple of global references. A consequence is that we have a nicer and more compact code, by threading a state. The files [pascaligo/Tests/pp.ligo] and [ligodity/Tests/pp.mligo]. * Another consequence is that the choice of making strings from AST nodes depends on the CLI (offsets? mode?). After this refactoring, that choice is hardcoded in the simplifiers in a few places (TODO), waiting for a general solution that would have all CL options flow through the compiler. * I removed the use of vendors [x_option.ml], [x_map.ml] and [x_list.ml] when handling optional values. (Less dependencies this way.) Refactoring of the ASTs * I removed the node [local_decl], which was set to [[]] already in a previous commit (which removed local declarations as being redundant, as statements could already be instructions or declarations). * I changed [StrLit] to [String] in the AST of CameLIGO and ReasonLIGO. * I also changed the type [fun_expr] so now either a block is present, and therefore followed by the [with] keyword, or it is not. (Before, the presence of a block was not enforced in the type with the presence of the keyword.) Notes * [LexerMain.ml] and [ParserMain.ml] for CameLIGO and PascaLIGO are almost identical and differ in the same way (language name and file extension), which suggests that they should be in the [shared] folder and instanciated as a functor in the future (TODO). * I removed the blank characters at the end of many lines in the parser of ReasonLIGO.
2019-12-13 15:21:52 +04:00
(** TODO: The labelled arguments should be flowing from the CLI. *)
2019-09-20 22:38:04 +04:00
let content () =
Printf.sprintf "Pattern : %s"
(Parser.Cameligo.ParserLog.pattern_to_string
Refactoring of comments (for [dune build @doc]). Refactoring of parsing command-line arguments * The type [options] is now abstract and implemented as an object type to avoid struggling with scoping and type inference when record types share some common field names. Refactoring of ParserLog for PascaLIGO and CameLIGO * The immediate motivation behind that refactoring was to remove the use of a couple of global references. A consequence is that we have a nicer and more compact code, by threading a state. The files [pascaligo/Tests/pp.ligo] and [ligodity/Tests/pp.mligo]. * Another consequence is that the choice of making strings from AST nodes depends on the CLI (offsets? mode?). After this refactoring, that choice is hardcoded in the simplifiers in a few places (TODO), waiting for a general solution that would have all CL options flow through the compiler. * I removed the use of vendors [x_option.ml], [x_map.ml] and [x_list.ml] when handling optional values. (Less dependencies this way.) Refactoring of the ASTs * I removed the node [local_decl], which was set to [[]] already in a previous commit (which removed local declarations as being redundant, as statements could already be instructions or declarations). * I changed [StrLit] to [String] in the AST of CameLIGO and ReasonLIGO. * I also changed the type [fun_expr] so now either a block is present, and therefore followed by the [with] keyword, or it is not. (Before, the presence of a block was not enforced in the type with the presence of the keyword.) Notes * [LexerMain.ml] and [ParserMain.ml] for CameLIGO and PascaLIGO are almost identical and differ in the same way (language name and file extension), which suggests that they should be in the [shared] folder and instanciated as a functor in the future (TODO). * I removed the blank characters at the end of many lines in the parser of ReasonLIGO.
2019-12-13 15:21:52 +04:00
~offsets:true ~mode:`Point x) in
2019-09-20 22:38:04 +04:00
error title content
in
let as_variant () =
trace (simple_info "currently, only booleans, lists, options, and constructors \
are supported in patterns") @@
let%bind constrs =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let aux (x, y) =
let%bind x' = trace (error x) @@ get_constr x
in ok (x', y)
in bind_map_list aux lst
in ok @@ ez_match_variant constrs in
2019-09-20 22:38:04 +04:00
let as_option () =
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
let aux (x, y) =
let%bind x' = trace (error x) @@ get_constr_opt x
in ok (x', y) in
2019-09-20 22:38:04 +04:00
let%bind constrs = bind_map_list aux lst in
match constrs with
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
| [ (("Some", Some some_var), some_expr);
(("None" , None) , none_expr) ]
| [ (("None", None), none_expr);
(("Some", Some some_var), some_expr) ] ->
ok @@ Match_option {
match_some = (Var.of_name some_var, some_expr, ());
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
match_none = none_expr }
2019-09-20 22:38:04 +04:00
| _ -> simple_fail "bad option pattern"
Refactoring of Ligodity (CameLIGO) and making an AST pretty-printer - AST.ml/AST.mli: - The AST now distinguishes the constructors `None` and `Some` as being predefined, as in PascaLIGO. See type `AST.constr_pattern`. - I removed the nodes specific to Liquidity, e.g. `let%entry`, and, in particular, the natural literals ending with `p`. Now it should be `n`, as in `10n`. - I renamed the node `TAlias` to `TVar`. - I have applied the rule of expanding type expressions after `of` when those were not records. - The type of the argument to a data constructor is now `type_expr`, instead of `cartesian`. - I added the patterns for bytes (`PBytes`) and natural literals (`PNat`). - I renamed the node `Sugar` into `PListComp` (meaning "pattern of list comprehension"). - Record types in CameLIGO now must have at least one field declaration. - Replaced the type `closing` and `opening` with one type `compound`, which captures only the right combinations of opening and closing. - Components of tuples in a selection must not be written between parentheses. For example, `a.b.(1).(0)` is now `a.b.1.0`, as in PascaLIGO. - LexToken.mli/LexToken.mll - I renamed the string literal `Str` into `String`. - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml) - Fixed the function `mk_sym` so it does not fail with `failwith`, but with `Error Invalid_symbol`. - Lexer.mll (shared) - I removed the character `%` from the identifiers (used to support Liquidity, like `entry%point` and `match%nat`). - I adde to the hint on broken strings: "or insert a backslash" (from a Gitlab issue). - ParToken.mly - I added the tokens `C_None` and `C_Some` (to distinguish the constructors `None` and `Some`. See AST.ml and LexToken.mll) - Parser.mly - Fixed the order of declarations in the AST (it was reversed). - I removed syntax support for Liquidity. - I added user-defined constructor applications to irrefutable patterns (the ones afer a `let`), even though only the type checker can decide that they are truly irrefutable because they are the only constructors of their types. - I added natural numbers and bytes to patterns. - Access of tuple components do not require parentheses now, like `a.b.1.0`. - I refactored the semantic actions. - I added the empty sequence `begin end`. - ParserLog.ml/ParserLog.mli - I added a pretty-printer for the AST (with source locations). - ParserMain.ml - The CLI for the pretty-printer is now `--verbose=ast`. - The old CLI `--verbose=ast` is now `--verbose=ast-tokens`. - ligodity.ml (simplifier) - I removed the constructions of sets, lists and maps with `Set [...]`, `List [...]` and `Map [...]`, as there are already better ways (that is, more like the OCaml's way), like `Set.literal [...]` and `Map.literal [...]`. (The case for lists was entirely redundant with the rest of the language as it is.) - Everywhere there is now a non-empty list of elements, I made a change. In particular, I removed a corner case ("let without binding"), thanks to more precise OCaml types for non-empty lists. - I ported all the changes to the AST above. - region.ml (vendors) - I changed the method `compact` so the end-line is not repeated if it is the same as the start line: this is even more compact. I use this in the new pretty-printer for the AST (see above) - I updated all the CameLIGO contracts.
2019-11-05 02:51:47 +04:00
in bind_or (as_option () , as_variant ())
let simpl_program : Raw.ast -> program result = fun t ->
let%bind decls = bind_list (List.map simpl_declaration @@ nseq_to_list t.decl) in
ok @@ List.concat @@ decls