364 lines
11 KiB
OCaml
364 lines
11 KiB
OCaml
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open AST
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open! Region
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(* Printing the tokens with their source locations *)
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let sprintf = Printf.sprintf
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let offsets = ref true
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let mode = ref `Point
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let compact (region: Region.t) =
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region#compact ~offsets:!offsets !mode
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let print_nsepseq sep print (head,tail) =
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let print_aux ((sep_reg:Region.t), item) =
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Printf.printf "%s: %s\n" (compact sep_reg) sep;
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print item
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in print head; List.iter print_aux tail
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let print_sepseq sep print = function
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None -> ()
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| Some seq -> print_nsepseq sep print seq
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let print_csv print = print_nsepseq "," print
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let print_token (reg: Region.t) conc =
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Printf.printf "%s: %s\n" (compact reg) conc
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let print_var Region.{region; value} =
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Printf.printf "%s: Ident %s\n" (compact region) value
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let print_uident Region.{region; value} =
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Printf.printf "%s: Uident %s\n" (compact region) value
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let print_str Region.{region; value} =
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Printf.printf "%s: Str \"%s\"\n" (compact region) value
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let print_bytes Region.{region; value=lexeme, abstract} =
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Printf.printf "%s: Bytes (\"%s\", \"0x%s\")\n"
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(compact region) lexeme (Hex.to_string abstract)
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let rec print_tokens {decl;eof} =
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Utils.nseq_iter print_statement decl; print_token eof "EOF"
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and print_statement = function
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Let {value=kwd_let, let_binding; _} ->
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print_token kwd_let "let";
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print_let_binding let_binding
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| LetEntry {value=kwd_let_entry, let_binding; _} ->
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print_token kwd_let_entry "let%entry";
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print_let_binding let_binding
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| TypeDecl {value={kwd_type; name; eq; type_expr}; _} ->
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print_token kwd_type "type";
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print_var name;
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print_token eq "=";
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print_type_expr type_expr
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and print_type_expr = function
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TProd prod -> print_cartesian prod
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| TSum {value; _} -> print_nsepseq "|" print_variant value
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| TRecord t -> print_record_type t
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| TApp app -> print_type_app app
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| TPar par -> print_type_par par
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| TAlias var -> print_var var
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| TFun t -> print_fun_type t
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and print_fun_type {value; _} =
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let domain, arrow, range = value in
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print_type_expr domain;
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print_token arrow "->";
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print_type_expr range
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and print_type_app {value; _} =
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let type_constr, type_tuple = value in
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print_type_tuple type_tuple;
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print_var type_constr
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and print_type_tuple {value; _} =
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let {lpar; inside; rpar} = value in
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print_token lpar "(";
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print_nsepseq "," print_type_expr inside;
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print_token rpar ")"
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and print_type_par {value={lpar;inside=t;rpar}; _} =
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print_token lpar "(";
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print_type_expr t;
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print_token rpar ")"
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and print_projection node =
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let {struct_name; selector; field_path} = node in
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print_var struct_name;
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print_token selector ".";
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print_nsepseq "." print_selection field_path
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and print_selection = function
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FieldName id -> print_var id
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| Component {value; _} ->
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let {lpar; inside; rpar} = value in
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let Region.{value=lexeme,z; region} = inside in
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print_token lpar "(";
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print_token region
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(sprintf "Int %s (%s)" lexeme (Z.to_string z));
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print_token rpar ")"
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and print_cartesian Region.{value;_} =
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print_nsepseq "*" print_type_expr value
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and print_variant {value = {constr; args}; _} =
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print_uident constr;
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match args with
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None -> ()
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| Some (kwd_of, cartesian) ->
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print_token kwd_of "of";
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print_cartesian cartesian
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and print_record_type record_type =
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print_injection print_field_decl record_type
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and print_field_decl {value; _} =
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let {field_name; colon; field_type} = value
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in print_var field_name;
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print_token colon ":";
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print_type_expr field_type
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and print_injection :
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'a.('a -> unit) -> 'a injection reg -> unit =
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fun print {value; _} ->
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let {opening; elements; terminator; closing} = value in
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print_opening opening;
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print_sepseq ";" print elements;
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print_terminator terminator;
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print_closing closing
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and print_opening = function
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Begin region -> print_token region "begin"
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| With region -> print_token region "with"
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| LBrace region -> print_token region "{"
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| LBracket region -> print_token region "["
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and print_closing = function
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End region -> print_token region "end"
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| RBrace region -> print_token region "}"
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| RBracket region -> print_token region "]"
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and print_terminator = function
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Some semi -> print_token semi ";"
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| None -> ()
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and print_let_binding {bindings; lhs_type; eq; let_rhs} =
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List.iter print_pattern bindings;
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(match lhs_type with
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None -> ()
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| Some (colon, type_expr) ->
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print_token colon ":";
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print_type_expr type_expr);
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(print_token eq "="; print_expr let_rhs)
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and print_pattern = function
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PTuple {value=patterns;_} -> print_csv print_pattern patterns
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| PList p -> print_list_pattern p
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| PVar {region; value} ->
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Printf.printf "%s: PVar %s\n" (compact region) value
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| PUnit {value=lpar,rpar; _} ->
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print_token lpar "("; print_token rpar ")"
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| PInt {region; value=lex,z} ->
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print_token region (sprintf "PInt %s (%s)" lex (Z.to_string z))
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| PTrue kwd_true -> print_token kwd_true "true"
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| PFalse kwd_false -> print_token kwd_false "false"
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| PString s -> print_str s
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| PWild wild -> print_token wild "_"
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| PPar {value={lpar;inside=p;rpar}; _} ->
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print_token lpar "("; print_pattern p; print_token rpar ")"
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| PConstr p -> print_constr_pattern p
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| PRecord r -> print_record_pattern r
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| PTyped t -> print_typed_pattern t
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and print_list_pattern = function
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Sugar p -> print_injection print_pattern p
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| PCons p -> print_raw p
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and print_raw {value=p1,c,p2; _} =
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print_pattern p1; print_token c "::"; print_pattern p2
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and print_typed_pattern {value; _} =
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let {pattern; colon; type_expr} = value in
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print_pattern pattern;
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print_token colon ":";
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print_type_expr type_expr
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and print_record_pattern record_pattern =
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print_injection print_field_pattern record_pattern
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and print_field_pattern {value; _} =
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let {field_name; eq; pattern} = value in
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print_var field_name;
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print_token eq "=";
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print_pattern pattern
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and print_constr_pattern {value=constr, p_opt; _} =
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print_uident constr;
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match p_opt with
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None -> ()
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| Some pattern -> print_pattern pattern
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and print_expr = function
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ELetIn {value;_} -> print_let_in value
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| ECond cond -> print_conditional cond
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| ETuple {value;_} -> print_csv print_expr value
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| ECase {value;_} -> print_match_expr value
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| EFun e -> print_fun_expr e
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| EAnnot e -> print_annot_expr e
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| ELogic e -> print_logic_expr e
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| EArith e -> print_arith_expr e
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| EString e -> print_string_expr e
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| ECall {value=f,l; _} ->
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print_expr f; Utils.nseq_iter print_expr l
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| EVar v -> print_var v
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| EProj p -> print_projection p.value
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| EUnit {value=lpar,rpar; _} ->
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print_token lpar "("; print_token rpar ")"
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| EBytes b -> print_bytes b
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| EPar {value={lpar;inside=e;rpar}; _} ->
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print_token lpar "("; print_expr e; print_token rpar ")"
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| EList e -> print_list_expr e
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| ESeq seq -> print_sequence seq
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| ERecord e -> print_record_expr e
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| EConstr {value=constr,None; _} -> print_uident constr
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| EConstr {value=(constr, Some arg); _} ->
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print_uident constr; print_expr arg
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and print_annot_expr {value=e,t; _} =
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print_expr e;
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print_token Region.ghost ":";
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print_type_expr t
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and print_list_expr = function
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Cons {value={arg1;op;arg2}; _} ->
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print_expr arg1;
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print_token op "::";
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print_expr arg2
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| List e -> print_injection print_expr e
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(*| Append {value=e1,append,e2; _} ->
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print_expr e1;
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print_token append "@";
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print_expr e2 *)
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and print_arith_expr = function
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Add {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "+"; print_expr arg2
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| Sub {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "-"; print_expr arg2
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| Mult {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "*"; print_expr arg2
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| Div {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "/"; print_expr arg2
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| Mod {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "mod"; print_expr arg2
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| Neg {value={op;arg}; _} -> print_token op "-"; print_expr arg
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| Int {region; value=lex,z} ->
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print_token region (sprintf "Int %s (%s)" lex (Z.to_string z))
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| Mtz {region; value=lex,z} ->
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print_token region (sprintf "Mtz %s (%s)" lex (Z.to_string z))
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| Nat {region; value=lex,z} ->
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print_token region (sprintf "Nat %s (%s)" lex (Z.to_string z))
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and print_string_expr = function
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Cat {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "^"; print_expr arg2
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| String s -> print_str s
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and print_logic_expr = function
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BoolExpr e -> print_bool_expr e
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| CompExpr e -> print_comp_expr e
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and print_bool_expr = function
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Or {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "||"; print_expr arg2
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| And {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "&&"; print_expr arg2
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| Not {value={op;arg}; _} -> print_token op "not"; print_expr arg
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| True kwd_true -> print_token kwd_true "true"
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| False kwd_false -> print_token kwd_false "false"
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and print_comp_expr = function
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Lt {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "<"; print_expr arg2
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| Leq {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "<="; print_expr arg2
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| Gt {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op ">"; print_expr arg2
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| Geq {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op ">="; print_expr arg2
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| Neq {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "<>"; print_expr arg2
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| Equal {value={arg1;op;arg2}; _} ->
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print_expr arg1; print_token op "="; print_expr arg2
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and print_record_expr e =
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print_injection print_field_assign e
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and print_field_assign {value; _} =
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let {field_name; assignment; field_expr} = value in
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print_var field_name;
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print_token assignment "=";
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print_expr field_expr
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and print_sequence seq = print_injection print_expr seq
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and print_match_expr expr =
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let {kwd_match; expr; opening;
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lead_vbar; cases; closing} = expr in
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print_token kwd_match "match";
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print_expr expr;
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print_opening opening;
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print_token_opt lead_vbar "|";
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print_cases cases;
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print_closing closing
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and print_token_opt = function
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None -> fun _ -> ()
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| Some region -> print_token region
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and print_cases {value; _} =
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print_nsepseq "|" print_case_clause value
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and print_case_clause {value; _} =
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let {pattern; arrow; rhs} = value in
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print_pattern pattern;
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print_token arrow "->";
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print_expr rhs
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and print_let_in (bind: let_in) =
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let {kwd_let; binding; kwd_in; body} = bind in
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print_token kwd_let "let";
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print_let_binding binding;
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print_token kwd_in "in";
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print_expr body
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and print_fun_expr {value; _} =
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let {kwd_fun; params; p_annot; arrow; body} = value in
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print_token kwd_fun "fun";
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(match p_annot with
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None -> List.iter print_pattern params
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| Some (colon, type_expr) ->
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print_token colon ":";
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print_type_expr type_expr);
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print_token arrow "->";
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print_expr body
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|
|
|
||
|
|
and print_conditional {value; _} =
|
||
|
|
let open Region in
|
||
|
|
let {kwd_if; test; kwd_then; ifso; kwd_else; ifnot} = value
|
||
|
|
in print_token ghost "(";
|
||
|
|
print_token kwd_if "if";
|
||
|
|
print_expr test;
|
||
|
|
print_token kwd_then "then";
|
||
|
|
print_expr ifso;
|
||
|
|
print_token kwd_else "else";
|
||
|
|
print_expr ifnot;
|
||
|
|
print_token ghost ")"
|