ligo/src/simplify/ligodity.ml

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[@@@warning "-45"]
open Trace
open Ast_simplified
module Raw = Parser.Ligodity.AST
module SMap = Map.String
module Option = Simple_utils.Option
open Combinators
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 () = Format.asprintf "expected a %s, got something else" expected_name in
let data = [
("actual_loc" , fun () -> Format.asprintf "%a" Location.pp_lift @@ Raw.region_of_pattern actual)
] in
error ~data title message
end
open Errors
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open Operators.Simplify.Ligodity
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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| _ -> 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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| _ -> fail @@ wrong_pattern "var/typed" 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)
let patterns_to_var : Raw.pattern list -> _ = fun ps ->
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match ps with
| [ pattern ] -> pattern_to_var pattern
| _ -> fail (simple_error "multiple patterns not supported on lets yet")
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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
| TPar x -> simpl_type_expression x.value.inside
| TAlias v -> (
match List.assoc_opt v.value type_constants with
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| Some s -> ok @@ T_constant (s , [])
| None -> ok @@ T_variable 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 @@ T_function (a , b)
)
| TApp x ->
let (name, tuple) = x.value in
let lst = npseq_to_list tuple.value.inside in
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let%bind cst =
trace_option (simple_error "unrecognized type constants") @@
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List.assoc_opt name.value type_constants
in
let%bind lst' = bind_map_list simpl_type_expression lst in
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ok @@ T_constant (cst , lst')
| TProd p ->
let%bind tpl = simpl_list_type_expression
@@ npseq_to_list p.value in
ok tpl
| TRecord r ->
let aux = fun (x, y) -> let%bind y = simpl_type_expression y in ok (x, y) in
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let%bind lst =
bind_list
@@ List.map aux
@@ List.map (fun (x:Raw.field_decl Raw.reg) -> (x.value.field_name.value, x.value.field_type))
@@ pseq_to_list r.value.elements in
let m = List.fold_left (fun m (x, y) -> SMap.add x y m) SMap.empty lst in
ok @@ T_record m
| TSum s ->
let aux (v:Raw.variant Raw.reg) =
let args =
match v.value.args with
None -> []
| Some (_, cartesian) ->
npseq_to_list cartesian.value 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) -> SMap.add x y m) SMap.empty lst in
ok @@ 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 ->
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let%bind lst = bind_map_list simpl_type_expression lst in
ok @@ 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 = p.struct_name.value in
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e_variable name in
let path = p.field_path in
let path' =
let aux (s:Raw.selection) =
match s with
| FieldName property -> Access_record property.value
| Component index ->
let index = index.value.inside in
Access_tuple (Z.to_int (snd index.value))
in
List.map aux @@ npseq_to_list path in
return @@ e_accessor ~loc var path'
in
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trace (
let title () = "simplifying expression" in
let message () = "" in
let data = [
("expression" , thunk @@ Format.asprintf "%a" (PP_helpers.printer Raw.print_expr) t)
] in
error ~data title message
) @@
match t with
| Raw.ELetIn e -> (
let Raw.{binding ; body ; _} = e.value in
let Raw.{bindings ; lhs_type ; let_rhs ; _} = binding in
let%bind variable = patterns_to_var bindings in
let%bind ty_opt =
bind_map_option
(fun (_ , type_expr) -> simpl_type_expression type_expr)
lhs_type in
let%bind rhs = simpl_expression let_rhs in
let rhs' =
match ty_opt with
| None -> rhs
| Some ty -> e_annotation rhs ty in
let%bind body = simpl_expression body in
return @@ e_let_in (variable.value , None) rhs' body
)
| Raw.EAnnot a -> (
let (a , loc) = r_split a in
let (expr , type_expr) = 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'
)
| EVar c -> (
let c' = c.value in
match List.assoc_opt c' constants with
| None -> return @@ e_variable c.value
| Some s -> return @@ e_constant s []
)
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| ECall x -> (
let ((e1 , e2) , loc) = r_split x in
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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 List.assoc_opt f constants with
| None -> (
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let%bind arg = simpl_tuple_expression (nseq_to_list e2) in
return @@ e_application ~loc (e_variable ~loc:f_loc f) arg
)
| Some s -> return @@ e_constant ~loc s args
)
| 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
| EUnit reg -> (
let (_ , loc) = r_split reg in
return @@ e_literal ~loc Literal_unit
)
| 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)
| 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))
@@ pseq_to_list r.elements in
let map = SMap.of_list fields in
return @@ e_record ~loc map
)
| EProj p -> simpl_projection p
| EConstr 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
None -> []
| Some arg -> [arg] in
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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)
)
| EArith (Mtz n) -> (
let (n , loc) = r_split n in
let n = Z.to_int @@ snd @@ n in
return @@ e_literal ~loc (Literal_tez n)
)
| EArith _ -> simple_fail "arith: not supported yet"
| 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 _ -> simple_fail "string: not supported yet"
| ELogic l -> simpl_logic_expression l
| EList l -> simpl_list_expression l
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| 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
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let default_action () =
let%bind cases = simpl_cases lst in
return @@ e_matching ~loc e cases in
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(* Hack to take care of patterns introduced by `parser/ligodity/Parser.mly` in "norm_fun_expr" *)
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 = y.value in
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 ()
)
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| 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})
)
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and simpl_fun lamb' : expr result =
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let return x = ok x in
let (lamb , loc) = r_split lamb' in
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let%bind args' =
let args = lamb.params 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 ->
simple_fail "untyped function parameter"
| _ , 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
let arguments_name = "arguments" in
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
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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 (name.value , Some ty) accessor wrapped
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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 input_type) output_type wrapped_result
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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
| Cons c -> simpl_binop "CONS" c
| List 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
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
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 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
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ok @@ loc x @@ Declaration_type (name.value , type_expression)
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| LetEntry x (* -> simple_fail "no entry point yet" *)
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| Let x -> (
let _ , binding = x.value in
let {bindings ; lhs_type ; let_rhs} = binding in
let%bind (var , args) =
let%bind (hd , tl) = match bindings with
| [] -> simple_fail "let without bindgings"
| hd :: tl -> 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.value , lhs_type' , rhs'))
)
| _ -> (
let fun_ = {
kwd_fun = Region.ghost ;
params = args ;
p_annot = 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.value , None , rhs'))
)
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)
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and simpl_cases : type a . (Raw.pattern * a) list -> a matching result = fun t ->
let open Raw in
let get_var (t:Raw.pattern) = match t with
| PVar v -> ok v.value
| _ ->
let error =
let title () = "not a var" in
let content () = Format.asprintf "%a" (PP_helpers.printer Raw.print_pattern) t in
error title content
in
fail error
in
let get_tuple (t:Raw.pattern) = match t with
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| PTuple v -> npseq_to_list v.value
| x -> [ x ]
in
let get_single (t:Raw.pattern) =
let t' = get_tuple t in
let%bind () =
trace_strong (simple_error "not single") @@
Assert.assert_list_size t' 1 in
ok (List.hd t') in
let get_constr (t:Raw.pattern) = match t with
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| PConstr v -> (
let (const , pat_opt) = v.value in
let%bind pat =
trace_option (simple_error "No constructor without variable yet") @@
pat_opt in
let%bind single_pat = get_single pat in
let%bind var = get_var single_pat in
ok (const.value , var)
)
| _ -> simple_fail "not a constr"
in
let%bind patterns =
let aux (x , y) =
let xs = get_tuple x in
trace_strong (simple_error "no tuple in patterns yet") @@
Assert.assert_list_size xs 1 >>? fun () ->
ok (List.hd xs , y)
in
bind_map_list aux t in
match patterns with
| [(PFalse _ , f) ; (PTrue _ , t)]
| [(PTrue _ , t) ; (PFalse _ , f)] -> ok @@ Match_bool {match_true = t ; match_false = f}
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| [(PList (PCons c) , cons) ; (PList (Sugar sugar_nil) , nil)]
| [(PList (Sugar sugar_nil) , nil) ; (PList (PCons c), cons)] -> (
let%bind () =
trace_strong (simple_error "Only empty list patterns and cons are allowed yet")
@@ Assert.assert_list_empty
@@ pseq_to_list
@@ sugar_nil.value.elements in
let%bind (a, b) =
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let (a , _ , b) = c.value in
let%bind a = get_var a in
let%bind b = get_var b in
ok (a, b)
in
ok @@ Match_list {match_cons = (a, b, cons) ; match_nil = nil}
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)
| lst -> (
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trace (simple_info "weird patterns not supported yet") @@
let%bind constrs =
let aux (x , y) =
let error =
let title () = "Pattern" in
let content () =
Format.asprintf "Pattern : %a" (PP_helpers.printer Raw.print_pattern) x in
error title content in
let%bind x' =
trace error @@
get_constr x in
ok (x' , y) in
bind_map_list aux lst in
ok @@ Match_variant constrs
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)
let simpl_program : Raw.ast -> program result = fun t ->
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bind_list @@ List.map simpl_declaration @@ List.rev @@ nseq_to_list t.decl