[@@@warning "-42"] open Utils open AST open! Region (* Printing the tokens with their source regions *) let sprintf = Printf.sprintf let offsets = ref true let mode = ref `Point let compact (region: Region.t) = region#compact ~offsets:!offsets !mode let print_nsepseq : Buffer.t -> string -> (Buffer.t -> 'a -> unit) -> ('a, Region.t) nsepseq -> unit = fun buffer sep print (head, tail) -> let print_aux (sep_reg, item) = let sep_line = sprintf "%s: %s\n" (compact sep_reg) sep in Buffer.add_string buffer sep_line; print buffer item in print buffer head; List.iter print_aux tail let print_sepseq : Buffer.t -> string -> (Buffer.t -> 'a -> unit) -> ('a, Region.t) sepseq -> unit = fun buffer sep print -> function None -> () | Some seq -> print_nsepseq buffer sep print seq let print_token buffer region lexeme = let line = sprintf "%s: %s\n"(compact region) lexeme in Buffer.add_string buffer line let print_var buffer {region; value=lexeme} = let line = sprintf "%s: Ident \"%s\"\n" (compact region) lexeme in Buffer.add_string buffer line let print_constr buffer {region; value=lexeme} = let line = sprintf "%s: Constr \"%s\"\n" (compact region) lexeme in Buffer.add_string buffer line let print_string buffer {region; value=lexeme} = let line = sprintf "%s: String %s\n" (compact region) lexeme in Buffer.add_string buffer line let print_bytes buffer {region; value = lexeme, abstract} = let line = sprintf "%s: Bytes (\"%s\", \"0x%s\")\n" (compact region) lexeme (Hex.to_string abstract) in Buffer.add_string buffer line let print_int buffer {region; value = lexeme, abstract} = let line = sprintf "%s: Int (\"%s\", %s)\n" (compact region) lexeme (Z.to_string abstract) in Buffer.add_string buffer line let print_nat buffer {region; value = lexeme, abstract} = let line = sprintf "%s: Nat (\"%s\", %s)\n" (compact region) lexeme (Z.to_string abstract) in Buffer.add_string buffer line (* Main printing function *) let rec print_tokens buffer ast = let {decl; eof} = ast in Utils.nseq_iter (print_decl buffer) decl; print_token buffer eof "EOF" and print_decl buffer = function TypeDecl decl -> print_type_decl buffer decl | ConstDecl decl -> print_const_decl buffer decl | FunDecl decl -> print_fun_decl buffer decl and print_const_decl buffer {value; _} = let {kwd_const; name; colon; const_type; equal; init; terminator} = value in print_token buffer kwd_const "const"; print_var buffer name; print_token buffer colon ":"; print_type_expr buffer const_type; print_token buffer equal "="; print_expr buffer init; print_terminator buffer terminator and print_type_decl buffer {value; _} = let {kwd_type; name; kwd_is; type_expr; terminator} = value in print_token buffer kwd_type "type"; print_var buffer name; print_token buffer kwd_is "is"; print_type_expr buffer type_expr; print_terminator buffer terminator and print_type_expr buffer = function TProd cartesian -> print_cartesian buffer cartesian | TSum sum_type -> print_sum_type buffer sum_type | TRecord record_type -> print_record_type buffer record_type | TApp type_app -> print_type_app buffer type_app | TFun type_fun -> print_type_fun buffer type_fun | TPar par_type -> print_par_type buffer par_type | TAlias type_alias -> print_var buffer type_alias and print_cartesian buffer {value; _} = print_nsepseq buffer "*" print_type_expr value and print_variant buffer ({value; _}: variant reg) = let {constr; args} = value in print_constr buffer constr; match args with None -> () | Some (kwd_of, t_expr) -> print_token buffer kwd_of "of"; print_type_expr buffer t_expr and print_sum_type buffer {value; _} = print_nsepseq buffer "|" print_variant value and print_record_type buffer record_type = print_injection buffer "record" print_field_decl record_type and print_type_app buffer {value; _} = let type_name, type_tuple = value in print_var buffer type_name; print_type_tuple buffer type_tuple and print_type_fun buffer {value; _} = let type_expr_a, arrow, type_expr_b = value in print_type_expr buffer type_expr_a; print_token buffer arrow "->"; print_type_expr buffer type_expr_b and print_par_type buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_type_expr buffer inside; print_token buffer rpar ")" and print_field_decl buffer {value; _} = let {field_name; colon; field_type} = value in print_var buffer field_name; print_token buffer colon ":"; print_type_expr buffer field_type and print_type_tuple buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_nsepseq buffer "," print_type_expr inside; print_token buffer rpar ")" and print_fun_decl buffer {value; _} = let {kwd_function; name; param; colon; ret_type; kwd_is; local_decls; block; kwd_with; return; terminator} = value in print_token buffer kwd_function "function"; print_var buffer name; print_parameters buffer param; print_token buffer colon ":"; print_type_expr buffer ret_type; print_token buffer kwd_is "is"; print_local_decls buffer local_decls; print_block buffer block; match kwd_with with | Some kwd_with -> print_token buffer kwd_with "with"; | None -> (); print_expr buffer return; print_terminator buffer terminator and print_parameters buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_nsepseq buffer ";" print_param_decl inside; print_token buffer rpar ")" and print_param_decl buffer = function ParamConst param_const -> print_param_const buffer param_const | ParamVar param_var -> print_param_var buffer param_var and print_param_const buffer {value; _} = let {kwd_const; var; colon; param_type} = value in print_token buffer kwd_const "const"; print_var buffer var; print_token buffer colon ":"; print_type_expr buffer param_type and print_param_var buffer {value; _} = let {kwd_var; var; colon; param_type} = value in print_token buffer kwd_var "var"; print_var buffer var; print_token buffer colon ":"; print_type_expr buffer param_type and print_block buffer reg = match reg with | Some reg -> let value = reg.value in let {opening; statements; terminator; closing} = value in print_block_opening buffer opening; print_statements buffer statements; print_terminator buffer terminator; print_block_closing buffer closing | None -> () and print_block_opening buffer = function Block (kwd_block, lbrace) -> print_token buffer kwd_block "block"; print_token buffer lbrace "{" | Begin kwd_begin -> print_token buffer kwd_begin "begin" and print_block_closing buffer = function Block rbrace -> print_token buffer rbrace "}" | End kwd_end -> print_token buffer kwd_end "end" and print_local_decls buffer sequence = match sequence with | Some sequence -> List.iter (print_local_decl buffer) sequence | None -> () and print_local_decl buffer = function LocalFun decl -> print_fun_decl buffer decl | LocalData decl -> print_data_decl buffer decl and print_data_decl buffer = function LocalConst decl -> print_const_decl buffer decl | LocalVar decl -> print_var_decl buffer decl and print_var_decl buffer {value; _} = let {kwd_var; name; colon; var_type; assign; init; terminator} = value in print_token buffer kwd_var "var"; print_var buffer name; print_token buffer colon ":"; print_type_expr buffer var_type; print_token buffer assign ":="; print_expr buffer init; print_terminator buffer terminator and print_statements buffer sequence = print_nsepseq buffer ";" print_statement sequence and print_statement buffer = function Instr instr -> print_instruction buffer instr | Data data -> print_data_decl buffer data and print_instruction buffer = function Cond {value; _} -> print_conditional buffer value | CaseInstr {value; _} -> print_case_instr buffer value | Assign assign -> print_assignment buffer assign | Loop loop -> print_loop buffer loop | ProcCall fun_call -> print_fun_call buffer fun_call | Skip kwd_skip -> print_token buffer kwd_skip "skip" | RecordPatch {value; _} -> print_record_patch buffer value | MapPatch {value; _} -> print_map_patch buffer value | SetPatch {value; _} -> print_set_patch buffer value | MapRemove {value; _} -> print_map_remove buffer value | SetRemove {value; _} -> print_set_remove buffer value and print_cond_expr buffer (node: cond_expr) = print_token buffer node.kwd_if "if"; print_expr buffer node.test; print_token buffer node.kwd_then "then"; print_expr buffer node.ifso; print_terminator buffer node.terminator; print_token buffer node.kwd_else "else"; print_expr buffer node.ifnot and print_conditional buffer (node: conditional) = print_token buffer node.kwd_if "if"; print_expr buffer node.test; print_token buffer node.kwd_then "then"; print_if_clause buffer node.ifso; print_terminator buffer node.terminator; print_token buffer node.kwd_else "else"; print_if_clause buffer node.ifnot and print_if_clause buffer = function ClauseInstr instr -> print_instruction buffer instr | ClauseBlock block -> print_clause_block buffer block and print_clause_block buffer = function LongBlock block -> print_block buffer (Some block) | ShortBlock {value; _} -> let {lbrace; inside; rbrace} = value in let statements, terminator = inside in print_token buffer lbrace "{"; print_statements buffer statements; print_terminator buffer terminator; print_token buffer rbrace "}" and print_case_instr buffer (node : instruction case) = let {kwd_case; expr; opening; lead_vbar; cases; closing} = node in print_token buffer kwd_case "case"; print_expr buffer expr; print_opening buffer "of" opening; print_token_opt buffer lead_vbar "|"; print_cases_instr buffer cases; print_closing buffer closing and print_token_opt buffer = function None -> fun _ -> () | Some region -> print_token buffer region and print_cases_instr buffer {value; _} = print_nsepseq buffer "|" print_case_clause_instr value and print_case_clause_instr buffer {value; _} = let {pattern; arrow; rhs} = value in print_pattern buffer pattern; print_token buffer arrow "->"; print_instruction buffer rhs and print_assignment buffer {value; _} = let {lhs; assign; rhs} = value in print_lhs buffer lhs; print_token buffer assign ":="; print_rhs buffer rhs and print_rhs buffer e = print_expr buffer e and print_lhs buffer = function Path path -> print_path buffer path | MapPath {value; _} -> print_map_lookup buffer value and print_loop buffer = function While {value; _} -> print_while_loop buffer value | For for_loop -> print_for_loop buffer for_loop and print_while_loop buffer value = let {kwd_while; cond; block} = value in print_token buffer kwd_while "while"; print_expr buffer cond; print_block buffer (Some block) and print_for_loop buffer = function ForInt for_int -> print_for_int buffer for_int | ForCollect for_collect -> print_for_collect buffer for_collect and print_for_int buffer ({value; _} : for_int reg) = let {kwd_for; assign; kwd_to; bound; block} = value in print_token buffer kwd_for "for"; print_var_assign buffer assign; print_token buffer kwd_to "to"; print_expr buffer bound; print_block buffer (Some block) and print_var_assign buffer {value; _} = let {name; assign; expr} = value in print_var buffer name; print_token buffer assign ":="; print_expr buffer expr and print_for_collect buffer ({value; _} : for_collect reg) = let {kwd_for; var; bind_to; colon; elt_type; kwd_in; collection; expr; block} = value in print_token buffer kwd_for "for"; print_var buffer var; print_bind_to buffer bind_to; print_token buffer colon ":"; print_type_expr buffer elt_type; print_token buffer kwd_in "in"; print_collection buffer collection; print_expr buffer expr; print_block buffer (Some block) and print_collection buffer = function Map kwd_map -> print_token buffer kwd_map "map" | Set kwd_set -> print_token buffer kwd_set "set" | List kwd_list -> print_token buffer kwd_list "list" and print_bind_to buffer = function Some (arrow, variable) -> print_token buffer arrow "->"; print_var buffer variable | None -> () and print_expr buffer = function ECase {value;_} -> print_case_expr buffer value | ECond {value;_} -> print_cond_expr buffer value | EAnnot {value;_} -> print_annot_expr buffer value | ELogic e -> print_logic_expr buffer e | EArith e -> print_arith_expr buffer e | EString e -> print_string_expr buffer e | EList e -> print_list_expr buffer e | ESet e -> print_set_expr buffer e | EConstr e -> print_constr_expr buffer e | ERecord e -> print_record_expr buffer e | EProj e -> print_projection buffer e | EMap e -> print_map_expr buffer e | EVar v -> print_var buffer v | ECall e -> print_fun_call buffer e | EBytes b -> print_bytes buffer b | EUnit r -> print_token buffer r "Unit" | ETuple e -> print_tuple_expr buffer e | EPar e -> print_par_expr buffer e and print_annot_expr buffer (expr , type_expr) = print_expr buffer expr; print_type_expr buffer type_expr and print_case_expr buffer (node : expr case) = let {kwd_case; expr; opening; lead_vbar; cases; closing} = node in print_token buffer kwd_case "case"; print_expr buffer expr; print_opening buffer "of" opening; print_token_opt buffer lead_vbar "|"; print_cases_expr buffer cases; print_closing buffer closing and print_cases_expr buffer {value; _} = print_nsepseq buffer "|" print_case_clause_expr value and print_case_clause_expr buffer {value; _} = let {pattern; arrow; rhs} = value in print_pattern buffer pattern; print_token buffer arrow "->"; print_expr buffer rhs and print_map_expr buffer = function MapLookUp {value; _} -> print_map_lookup buffer value | MapInj inj -> print_injection buffer "map" print_binding inj and print_set_expr buffer = function SetInj inj -> print_injection buffer "set" print_expr inj | SetMem mem -> print_set_membership buffer mem and print_set_membership buffer {value; _} = let {set; kwd_contains; element} = value in print_expr buffer set; print_token buffer kwd_contains "contains"; print_expr buffer element and print_map_lookup buffer {path; index} = let {lbracket; inside; rbracket} = index.value in print_path buffer path; print_token buffer lbracket "["; print_expr buffer inside; print_token buffer rbracket "]" and print_path buffer = function Name var -> print_var buffer var | Path path -> print_projection buffer path and print_logic_expr buffer = function BoolExpr e -> print_bool_expr buffer e | CompExpr e -> print_comp_expr buffer e and print_bool_expr buffer = function Or {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "||"; print_expr buffer arg2 | And {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "&&"; print_expr buffer arg2 | Not {value = {op; arg}; _} -> print_token buffer op "not"; print_expr buffer arg | False region -> print_token buffer region "False" | True region -> print_token buffer region "True" and print_comp_expr buffer = function Lt {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "<"; print_expr buffer arg2 | Leq {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "<="; print_expr buffer arg2 | Gt {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op ">"; print_expr buffer arg2 | Geq {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op ">="; print_expr buffer arg2 | Equal {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "="; print_expr buffer arg2 | Neq {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "=/="; print_expr buffer arg2 and print_arith_expr buffer = function Add {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "+"; print_expr buffer arg2 | Sub {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "-"; print_expr buffer arg2 | Mult {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "*"; print_expr buffer arg2 | Div {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "/"; print_expr buffer arg2 | Mod {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "mod"; print_expr buffer arg2 | Neg {value = {op; arg}; _} -> print_token buffer op "-"; print_expr buffer arg | Int i | Nat i | Mtz i -> print_int buffer i and print_string_expr buffer = function Cat {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "^"; print_expr buffer arg2 | String s -> print_string buffer s and print_list_expr buffer = function Cons {value = {arg1; op; arg2}; _} -> print_expr buffer arg1; print_token buffer op "#"; print_expr buffer arg2 | List e -> print_injection buffer "list" print_expr e | Nil e -> print_nil buffer e and print_constr_expr buffer = function SomeApp e -> print_some_app buffer e | NoneExpr e -> print_none_expr buffer e | ConstrApp e -> print_constr_app buffer e and print_record_expr buffer e = print_injection buffer "record" print_field_assign e and print_field_assign buffer {value; _} = let {field_name; equal; field_expr} = value in print_var buffer field_name; print_token buffer equal "="; print_expr buffer field_expr and print_projection buffer {value; _} = let {struct_name; selector; field_path} = value in print_var buffer struct_name; print_token buffer selector "."; print_field_path buffer field_path and print_field_path buffer sequence = print_nsepseq buffer "." print_selection sequence and print_selection buffer = function FieldName name -> print_var buffer name | Component int -> print_int buffer int and print_record_patch buffer node = let {kwd_patch; path; kwd_with; record_inj} = node in print_token buffer kwd_patch "patch"; print_path buffer path; print_token buffer kwd_with "with"; print_record_expr buffer record_inj and print_set_patch buffer node = let {kwd_patch; path; kwd_with; set_inj} = node in print_token buffer kwd_patch "patch"; print_path buffer path; print_token buffer kwd_with "with"; print_injection buffer "set" print_expr set_inj and print_map_patch buffer node = let {kwd_patch; path; kwd_with; map_inj} = node in print_token buffer kwd_patch "patch"; print_path buffer path; print_token buffer kwd_with "with"; print_injection buffer "map" print_binding map_inj and print_map_remove buffer node = let {kwd_remove; key; kwd_from; kwd_map; map} = node in print_token buffer kwd_remove "remove"; print_expr buffer key; print_token buffer kwd_from "from"; print_token buffer kwd_map "map"; print_path buffer map and print_set_remove buffer node = let {kwd_remove; element; kwd_from; kwd_set; set} = node in print_token buffer kwd_remove "remove"; print_expr buffer element; print_token buffer kwd_from "from"; print_token buffer kwd_set "set"; print_path buffer set and print_injection : 'a.Buffer.t -> string -> (Buffer.t -> 'a -> unit) -> 'a injection reg -> unit = fun buffer kwd print {value; _} -> let {opening; elements; terminator; closing} = value in print_opening buffer kwd opening; print_sepseq buffer ";" print elements; print_terminator buffer terminator; print_closing buffer closing and print_opening buffer lexeme = function Kwd kwd -> print_token buffer kwd lexeme | KwdBracket (kwd, lbracket) -> print_token buffer kwd lexeme; print_token buffer lbracket "{" and print_closing buffer = function RBracket rbracket -> print_token buffer rbracket "}" | End kwd_end -> print_token buffer kwd_end "end" and print_binding buffer {value; _} = let {source; arrow; image} = value in print_expr buffer source; print_token buffer arrow "->"; print_expr buffer image and print_tuple_expr buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_nsepseq buffer "," print_expr inside; print_token buffer rpar ")" and print_nil buffer value = print_token buffer value "nil" and print_none_expr buffer value = print_token buffer value "None" and print_fun_call buffer {value; _} = let fun_name, arguments = value in print_var buffer fun_name; print_tuple_expr buffer arguments and print_constr_app buffer {value; _} = let constr, arguments = value in print_constr buffer constr; match arguments with None -> () | Some args -> print_tuple_expr buffer args and print_some_app buffer {value; _} = let c_Some, arguments = value in print_token buffer c_Some "Some"; print_tuple_expr buffer arguments and print_par_expr buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_expr buffer inside; print_token buffer rpar ")" and print_pattern buffer = function PCons {value; _} -> print_nsepseq buffer "#" print_pattern value | PVar var -> print_var buffer var | PWild wild -> print_token buffer wild "_" | PInt i -> print_int buffer i | PNat n -> print_nat buffer n | PBytes b -> print_bytes buffer b | PString s -> print_string buffer s | PUnit region -> print_token buffer region "Unit" | PFalse region -> print_token buffer region "False" | PTrue region -> print_token buffer region "True" | PNone region -> print_token buffer region "None" | PSome psome -> print_psome buffer psome | PList pattern -> print_list_pattern buffer pattern | PTuple ptuple -> print_ptuple buffer ptuple | PConstr pattern -> print_constr_pattern buffer pattern and print_constr_pattern buffer {value; _} = let (constr, args) = value in print_constr buffer constr; match args with None -> () | Some tuple -> print_ptuple buffer tuple and print_psome buffer {value; _} = let c_Some, patterns = value in print_token buffer c_Some "Some"; print_patterns buffer patterns and print_patterns buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_pattern buffer inside; print_token buffer rpar ")" and print_list_pattern buffer = function Sugar sugar -> print_injection buffer "list" print_pattern sugar | PNil kwd_nil -> print_token buffer kwd_nil "nil" | Raw raw -> print_raw buffer raw and print_raw buffer {value; _} = let {lpar; inside; rpar} = value in let head, cons, tail = inside in print_token buffer lpar "("; print_pattern buffer head; print_token buffer cons "#"; print_pattern buffer tail; print_token buffer rpar ")" and print_ptuple buffer {value; _} = let {lpar; inside; rpar} = value in print_token buffer lpar "("; print_nsepseq buffer "," print_pattern inside; print_token buffer rpar ")" and print_terminator buffer = function Some semi -> print_token buffer semi ";" | None -> () (* Conversion to string *) let to_string printer node = let buffer = Buffer.create 131 in let () = printer buffer node in Buffer.contents buffer let tokens_to_string = to_string print_tokens let path_to_string = to_string print_path let pattern_to_string = to_string print_pattern let instruction_to_string = to_string print_instruction (* Pretty-printing the AST *) let mk_pad len rank pc = pc ^ (if rank = len-1 then "`-- " else "|-- "), pc ^ (if rank = len-1 then " " else "| ") let pp_ident buffer ~pad:(pd,_) name = let node = sprintf "%s%s\n" pd name in Buffer.add_string buffer node let pp_string buffer = pp_ident buffer let pp_node buffer = pp_ident buffer let rec pp_ast buffer ~pad:(_,pc as pad) {decl; _} = let apply len rank = let pad = mk_pad len rank pc in pp_declaration buffer ~pad in let decls = Utils.nseq_to_list decl in pp_node buffer ~pad ""; List.iteri (List.length decls |> apply) decls and pp_declaration buffer ~pad:(_,pc as pad) = function TypeDecl {value; _} -> pp_node buffer ~pad "TypeDecl"; pp_ident buffer ~pad:(mk_pad 2 0 pc) value.name.value; pp_type_expr buffer ~pad:(mk_pad 2 1 pc) value.type_expr | ConstDecl {value; _} -> pp_node buffer ~pad "ConstDecl"; pp_const_decl buffer ~pad:(mk_pad 1 0 pc) value | FunDecl {value; _} -> pp_node buffer ~pad "FunDecl"; pp_fun_decl buffer ~pad:(mk_pad 1 0 pc) value and pp_const_decl buffer ~pad:(_,pc) decl = pp_ident buffer ~pad:(mk_pad 3 0 pc) decl.name.value; pp_type_expr buffer ~pad:(mk_pad 3 1 pc) decl.const_type; pp_expr buffer ~pad:(mk_pad 3 2 pc) decl.init and pp_type_expr buffer ~pad:(_,pc as pad) = function TProd cartesian -> pp_node buffer ~pad "TProd"; pp_cartesian buffer ~pad cartesian | TAlias {value; _} -> pp_node buffer ~pad "TAlias"; pp_ident buffer ~pad:(mk_pad 1 0 pc) value | TPar {value; _} -> pp_node buffer ~pad "TPar"; pp_type_expr buffer ~pad:(mk_pad 1 0 pc) value.inside | TApp {value=name,tuple; _} -> pp_node buffer ~pad "TApp"; pp_ident buffer ~pad:(mk_pad 1 0 pc) name.value; pp_type_tuple buffer ~pad:(mk_pad 2 1 pc) tuple | TFun {value; _} -> pp_node buffer ~pad "TFun"; let apply len rank = let pad = mk_pad len rank pc in pp_type_expr buffer ~pad in let domain, _, range = value in List.iteri (apply 2) [domain; range] | TSum {value; _} -> pp_node buffer ~pad "TSum"; let apply len rank variant = let pad = mk_pad len rank pc in pp_variant buffer ~pad variant.value in let variants = Utils.nsepseq_to_list value in List.iteri (List.length variants |> apply) variants | TRecord {value; _} -> pp_node buffer ~pad "TRecord"; let apply len rank field_decl = pp_field_decl buffer ~pad:(mk_pad len rank pc) field_decl.value in let fields = Utils.sepseq_to_list value.elements in List.iteri (List.length fields |> apply) fields and pp_cartesian buffer ~pad:(_,pc) {value; _} = let apply len rank = pp_type_expr buffer ~pad:(mk_pad len rank pc) in let components = Utils.nsepseq_to_list value in List.iteri (List.length components |> apply) components and pp_variant buffer ~pad:(_,pc as pad) {constr; args} = pp_node buffer ~pad constr.value; match args with None -> () | Some (_,c) -> pp_type_expr buffer ~pad:(mk_pad 1 0 pc) c and pp_field_decl buffer ~pad:(_,pc as pad) decl = pp_node buffer ~pad decl.field_name.value; pp_type_expr buffer ~pad:(mk_pad 1 0 pc) decl.field_type and pp_type_tuple buffer ~pad:(_,pc) {value; _} = let components = Utils.nsepseq_to_list value.inside in let apply len rank = pp_type_expr buffer ~pad:(mk_pad len rank pc) in List.iteri (List.length components |> apply) components and pp_fun_decl buffer ~pad:(_,pc) decl = let () = let pad = mk_pad 6 0 pc in pp_ident buffer ~pad decl.name.value in let () = let pad = mk_pad 6 1 pc in pp_node buffer ~pad ""; pp_parameters buffer ~pad decl.param in let () = let _, pc as pad = mk_pad 6 2 pc in pp_node buffer ~pad ""; pp_type_expr buffer ~pad:(mk_pad 1 0 pc) decl.ret_type in let () = let pad = mk_pad 6 3 pc in pp_node buffer ~pad ""; pp_local_decls buffer ~pad decl.local_decls in let () = let pad = mk_pad 6 4 pc in pp_node buffer ~pad ""; let statements = match decl.block with | Some block -> block.value.statements | None -> Instr (Skip Region.ghost), [] in pp_statements buffer ~pad statements in let () = let _, pc as pad = mk_pad 6 5 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) decl.return in () and pp_parameters buffer ~pad:(_,pc) {value; _} = let params = Utils.nsepseq_to_list value.inside in let arity = List.length params in let apply len rank = pp_param_decl buffer ~pad:(mk_pad len rank pc) in List.iteri (apply arity) params and pp_param_decl buffer ~pad:(_,pc as pad) = function ParamConst {value; _} -> pp_node buffer ~pad "ParamConst"; pp_ident buffer ~pad:(mk_pad 2 0 pc) value.var.value; pp_type_expr buffer ~pad:(mk_pad 2 1 pc) value.param_type | ParamVar {value; _} -> pp_node buffer ~pad "ParamVar"; pp_ident buffer ~pad:(mk_pad 2 0 pc) value.var.value; pp_type_expr buffer ~pad:(mk_pad 2 1 pc) value.param_type and pp_statements buffer ~pad:(_,pc) statements = let statements = Utils.nsepseq_to_list statements in let length = List.length statements in let apply len rank = pp_statement buffer ~pad:(mk_pad len rank pc) in List.iteri (apply length) statements and pp_statement buffer ~pad:(_,pc as pad) = function Instr instr -> pp_node buffer ~pad "Instr"; pp_instruction buffer ~pad:(mk_pad 1 0 pc) instr | Data data_decl -> pp_node buffer ~pad "Data"; pp_data_decl buffer ~pad:(mk_pad 1 0 pc) data_decl and pp_instruction buffer ~pad:(_,pc as pad) = function Cond {value; _} -> pp_node buffer ~pad "Cond"; pp_conditional buffer ~pad value | CaseInstr {value; _} -> pp_node buffer ~pad "CaseInstr"; pp_case pp_instruction buffer ~pad value | Assign {value; _} -> pp_node buffer ~pad "Assign"; pp_assignment buffer ~pad value | Loop loop -> pp_node buffer ~pad "Loop"; pp_loop buffer ~pad:(mk_pad 1 0 pc) loop | ProcCall {value; _} -> pp_node buffer ~pad "ProcCall"; pp_fun_call buffer ~pad value | Skip _ -> pp_node buffer ~pad "Skip" | RecordPatch {value; _} -> pp_node buffer ~pad "RecordPatch"; pp_record_patch buffer ~pad value | MapPatch {value; _} -> pp_node buffer ~pad "MapPatch"; pp_map_patch buffer ~pad value | SetPatch {value; _} -> pp_node buffer ~pad "SetPatch"; pp_set_patch buffer ~pad value | MapRemove {value; _} -> pp_node buffer ~pad "MapRemove"; pp_map_remove buffer ~pad value | SetRemove {value; _} -> pp_node buffer ~pad "SetRemove"; pp_set_remove buffer ~pad value and pp_cond_expr buffer ~pad:(_,pc) (cond: cond_expr) = let () = let _, pc as pad = mk_pad 3 0 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) cond.test in let () = let _, pc as pad = mk_pad 3 1 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) cond.ifso in let () = let _, pc as pad = mk_pad 3 2 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) cond.ifnot in () and pp_conditional buffer ~pad:(_,pc) (cond: conditional) = let () = let _, pc as pad = mk_pad 3 0 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) cond.test in let () = let _, pc as pad = mk_pad 3 1 pc in pp_node buffer ~pad ""; pp_if_clause buffer ~pad:(mk_pad 1 0 pc) cond.ifso in let () = let _, pc as pad = mk_pad 3 2 pc in pp_node buffer ~pad ""; pp_if_clause buffer ~pad:(mk_pad 1 0 pc) cond.ifnot in () and pp_if_clause buffer ~pad:(_,pc as pad) = function ClauseInstr instr -> pp_node buffer ~pad "ClauseInstr"; pp_instruction buffer ~pad:(mk_pad 1 0 pc) instr | ClauseBlock block -> pp_node buffer ~pad "ClauseBlock"; pp_clause_block buffer ~pad:(mk_pad 1 0 pc) block and pp_clause_block buffer ~pad = function LongBlock {value; _} -> pp_node buffer ~pad "LongBlock"; pp_statements buffer ~pad value.statements | ShortBlock {value; _} -> pp_node buffer ~pad "ShortBlock"; let statements = fst value.inside in pp_statements buffer ~pad statements and pp_case : 'a.(Buffer.t -> pad:(string*string) -> 'a -> unit) -> Buffer.t -> pad:(string*string) -> 'a case -> unit = fun printer buffer ~pad:(_,pc) case -> let clauses = Utils.nsepseq_to_list case.cases.value in let clauses = List.map (fun {value; _} -> value) clauses in let length = List.length clauses + 1 in let apply len rank = pp_case_clause printer buffer ~pad:(mk_pad len (rank+1) pc) in pp_expr buffer ~pad:(mk_pad length 0 pc) case.expr; List.iteri (apply length) clauses and pp_case_clause : 'a.(Buffer.t -> pad:(string*string) -> 'a -> unit) -> Buffer.t -> pad:(string*string) -> 'a case_clause -> unit = fun printer buffer ~pad:(_,pc as pad) clause -> pp_node buffer ~pad ""; pp_pattern buffer ~pad:(mk_pad 2 0 pc) clause.pattern; printer buffer ~pad:(mk_pad 2 1 pc) clause.rhs and pp_pattern buffer ~pad:(_,pc as pad) = function PNone _ -> pp_node buffer ~pad "PNone" | PSome {value=_,{value=par; _}; _} -> pp_node buffer ~pad "PSome"; pp_pattern buffer ~pad:(mk_pad 1 0 pc) par.inside | PWild _ -> pp_node buffer ~pad "PWild" | PConstr {value; _} -> pp_node buffer ~pad "PConstr"; pp_constr_pattern buffer ~pad:(mk_pad 1 0 pc) value | PCons {value; _} -> let patterns = Utils.nsepseq_to_list value in let length = List.length patterns in let apply len rank = pp_pattern buffer ~pad:(mk_pad len rank pc) in pp_node buffer ~pad "PCons"; List.iteri (apply length) patterns | PVar {value; _} -> pp_node buffer ~pad "PVar"; pp_ident buffer ~pad:(mk_pad 1 0 pc) value | PInt {value; _} -> pp_node buffer ~pad "PInt"; pp_int buffer ~pad value | PNat {value; _} -> pp_node buffer ~pad "PNat"; pp_int buffer ~pad value | PBytes {value; _} -> pp_node buffer ~pad "PBytes"; pp_bytes buffer ~pad value | PString {value; _} -> pp_node buffer ~pad "PString"; pp_ident buffer ~pad:(mk_pad 1 0 pc) value | PUnit _ -> pp_node buffer ~pad "PUnit" | PFalse _ -> pp_node buffer ~pad "PFalse" | PTrue _ -> pp_node buffer ~pad "PTrue" | PList plist -> pp_node buffer ~pad "PList"; pp_plist buffer ~pad:(mk_pad 1 0 pc) plist | PTuple {value; _} -> pp_node buffer ~pad "PTuple"; pp_tuple_pattern buffer ~pad:(mk_pad 1 0 pc) value and pp_bytes buffer ~pad:(_,pc) (lexeme, hex) = pp_string buffer ~pad:(mk_pad 2 0 pc) lexeme; pp_string buffer ~pad:(mk_pad 2 1 pc) (Hex.to_string hex) and pp_int buffer ~pad:(_,pc) (lexeme, z) = pp_string buffer ~pad:(mk_pad 2 0 pc) lexeme; pp_string buffer ~pad:(mk_pad 2 1 pc) (Z.to_string z) and pp_constr_pattern buffer ~pad = function {value; _}, None -> pp_ident buffer ~pad value | {value=id; _}, Some {value=ptuple; _} -> pp_ident buffer ~pad id; pp_tuple_pattern buffer ~pad ptuple and pp_plist buffer ~pad:(_,pc as pad) = function Sugar {value; _} -> pp_node buffer ~pad "Sugar"; pp_injection pp_pattern buffer ~pad:(mk_pad 1 0 pc) value | PNil _ -> pp_node buffer ~pad "PNil" | Raw {value; _} -> pp_node buffer ~pad "Raw"; pp_raw buffer ~pad:(mk_pad 1 0 pc) value.inside and pp_raw buffer ~pad:(_,pc) (head, _, tail) = pp_pattern buffer ~pad:(mk_pad 2 0 pc) head; pp_pattern buffer ~pad:(mk_pad 2 1 pc) tail and pp_injection : 'a.(Buffer.t -> pad:(string*string) -> 'a -> unit) -> Buffer.t -> pad:(string*string) -> 'a injection -> unit = fun printer buffer ~pad:(_,pc) inj -> let elements = Utils.sepseq_to_list inj.elements in let length = List.length elements in let apply len rank = printer buffer ~pad:(mk_pad len rank pc) in List.iteri (apply length) elements and pp_tuple_pattern buffer ~pad:(_,pc) tuple = let patterns = Utils.nsepseq_to_list tuple.inside in let length = List.length patterns in let apply len rank = pp_pattern buffer ~pad:(mk_pad len rank pc) in List.iteri (apply length) patterns and pp_assignment buffer ~pad:(_,pc) asgn = pp_lhs buffer ~pad:(mk_pad 2 0 pc) asgn.lhs; pp_expr buffer ~pad:(mk_pad 2 1 pc) asgn.rhs and pp_lhs buffer ~pad:(_,pc as pad) = function Path path -> pp_node buffer ~pad "Path"; pp_path buffer ~pad:(mk_pad 1 0 pc) path | MapPath {value; _} -> pp_node buffer ~pad "MapPath"; pp_map_lookup buffer ~pad value and pp_path buffer ~pad:(_,pc as pad) = function Name {value; _} -> pp_node buffer ~pad "Name"; pp_ident buffer ~pad:(mk_pad 1 0 pc) value | Path {value; _} -> pp_node buffer ~pad "Path"; pp_projection buffer ~pad value and pp_projection buffer ~pad:(_,pc) proj = let selections = Utils.nsepseq_to_list proj.field_path in let len = List.length selections in let apply len rank = pp_selection buffer ~pad:(mk_pad len rank pc) in pp_ident buffer ~pad:(mk_pad (1+len) 0 pc) proj.struct_name.value; List.iteri (apply len) selections and pp_selection buffer ~pad:(_,pc as pad) = function FieldName {value; _} -> pp_node buffer ~pad "FieldName"; pp_ident buffer ~pad:(mk_pad 1 0 pc) value | Component {value; _} -> pp_node buffer ~pad "Component"; pp_int buffer ~pad value and pp_map_lookup buffer ~pad:(_,pc) lookup = pp_path buffer ~pad:(mk_pad 2 0 pc) lookup.path; pp_expr buffer ~pad:(mk_pad 2 1 pc) lookup.index.value.inside and pp_loop buffer ~pad:(_,pc as pad) = function While {value; _} -> pp_node buffer ~pad ""; let () = let _, pc as pad = mk_pad 2 0 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) value.cond in let () = let pad = mk_pad 2 1 pc in let statements = value.block.value.statements in pp_node buffer ~pad ""; pp_statements buffer ~pad statements in () | For for_loop -> pp_node buffer ~pad ""; pp_for_loop buffer ~pad:(mk_pad 1 0 pc) for_loop and pp_for_loop buffer ~pad = function ForInt {value; _} -> pp_node buffer ~pad "ForInt"; pp_for_int buffer ~pad value | ForCollect {value; _} -> pp_node buffer ~pad "ForCollect"; pp_for_collect buffer ~pad value and pp_for_int buffer ~pad:(_,pc) for_int = let () = let pad = mk_pad 3 0 pc in pp_node buffer ~pad ""; pp_var_assign buffer ~pad for_int.assign.value in let () = let _, pc as pad = mk_pad 3 1 pc in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 1 0 pc) for_int.bound in let () = let pad = mk_pad 3 2 pc in let statements = for_int.block.value.statements in pp_node buffer ~pad ""; pp_statements buffer ~pad statements in () and pp_var_assign buffer ~pad:(_,pc) asgn = let pad = mk_pad 2 0 pc in pp_ident buffer ~pad asgn.name.value; let pad = mk_pad 2 1 pc in pp_expr buffer ~pad asgn.expr and pp_for_collect buffer ~pad:(_,pc) collect = let () = let pad = mk_pad 4 0 pc in match collect.bind_to with None -> pp_ident buffer ~pad collect.var.value | Some (_, var) -> pp_var_binding buffer ~pad (collect.var, var) in let () = let _, pc as pad = mk_pad 4 1 pc in pp_node buffer ~pad ""; pp_type_expr buffer ~pad:(mk_pad 1 0 pc) collect.elt_type in let () = let _, pc as pad = mk_pad 4 2 pc in pp_node buffer ~pad ""; pp_collection buffer ~pad:(mk_pad 2 0 pc) collect.collection; pp_expr buffer ~pad:(mk_pad 1 0 pc) collect.expr in let () = let pad = mk_pad 4 3 pc in let statements = collect.block.value.statements in pp_node buffer ~pad ""; pp_statements buffer ~pad statements in () and pp_collection buffer ~pad = function Map _ -> pp_string buffer ~pad "map" | Set _ -> pp_string buffer ~pad "set" | List _ -> pp_string buffer ~pad "list" and pp_var_binding buffer ~pad:(_,pc as pad) (source, image) = pp_node buffer ~pad ""; pp_ident buffer ~pad:(mk_pad 2 0 pc) source.value; pp_ident buffer ~pad:(mk_pad 2 1 pc) image.value and pp_fun_call buffer ~pad:(_,pc) (name, args) = let args = Utils.nsepseq_to_list args.value.inside in let arity = List.length args in let apply len rank = pp_expr buffer ~pad:(mk_pad len rank pc) in pp_ident buffer ~pad:(mk_pad (1+arity) 0 pc) name.value; List.iteri (apply arity) args and pp_record_patch buffer ~pad:(_,pc as pad) patch = pp_path buffer ~pad:(mk_pad 2 0 pc) patch.path; pp_injection pp_field_assign buffer ~pad patch.record_inj.value and pp_field_assign buffer ~pad:(_,pc as pad) {value; _} = pp_node buffer ~pad ""; pp_ident buffer ~pad:(mk_pad 2 0 pc) value.field_name.value; pp_expr buffer ~pad:(mk_pad 2 1 pc) value.field_expr and pp_map_patch buffer ~pad:(_,pc as pad) patch = pp_path buffer ~pad:(mk_pad 2 0 pc) patch.path; pp_injection pp_binding buffer ~pad patch.map_inj.value and pp_binding buffer ~pad:(_,pc as pad) {value; _} = let source, image = value.source, value.image in pp_node buffer ~pad ""; pp_expr buffer ~pad:(mk_pad 2 0 pc) source; pp_expr buffer ~pad:(mk_pad 2 1 pc) image and pp_set_patch buffer ~pad:(_,pc as pad) patch = pp_path buffer ~pad:(mk_pad 2 0 pc) patch.path; pp_injection pp_expr buffer ~pad patch.set_inj.value and pp_map_remove buffer ~pad:(_,pc) rem = pp_expr buffer ~pad:(mk_pad 2 0 pc) rem.key; pp_path buffer ~pad:(mk_pad 2 1 pc) rem.map and pp_set_remove buffer ~pad:(_,pc) rem = pp_expr buffer ~pad:(mk_pad 2 0 pc) rem.element; pp_path buffer ~pad:(mk_pad 2 1 pc) rem.set and pp_local_decls buffer ~pad:(_,pc) decls = match decls with | Some decls -> let apply len rank = pp_local_decl buffer ~pad:(mk_pad len rank pc) in List.iteri (List.length decls |> apply) decls | None -> () and pp_local_decl buffer ~pad:(_,pc as pad) = function LocalFun {value; _} -> pp_node buffer ~pad "LocalFun"; pp_fun_decl buffer ~pad:(mk_pad 1 0 pc) value | LocalData data -> pp_node buffer ~pad "LocalData"; pp_data_decl buffer ~pad:(mk_pad 1 0 pc) data and pp_data_decl buffer ~pad = function LocalConst {value; _} -> pp_node buffer ~pad "LocalConst"; pp_const_decl buffer ~pad value | LocalVar {value; _} -> pp_node buffer ~pad "LocalVar"; pp_var_decl buffer ~pad value and pp_var_decl buffer ~pad:(_,pc) decl = pp_ident buffer ~pad:(mk_pad 3 0 pc) decl.name.value; pp_type_expr buffer ~pad:(mk_pad 3 1 pc) decl.var_type; pp_expr buffer ~pad:(mk_pad 3 2 pc) decl.init and pp_expr buffer ~pad:(_,pc as pad) = function ECase {value; _} -> pp_node buffer ~pad "ECase"; pp_case pp_expr buffer ~pad value | ECond {value; _} -> pp_node buffer ~pad "ECond"; pp_cond_expr buffer ~pad value | EAnnot {value; _} -> pp_node buffer ~pad "EAnnot"; pp_annotated buffer ~pad value | ELogic e_logic -> pp_node buffer ~pad "ELogic"; pp_e_logic buffer ~pad:(mk_pad 1 0 pc) e_logic | EArith e_arith -> pp_node buffer ~pad "EArith"; pp_arith_expr buffer ~pad:(mk_pad 1 0 pc) e_arith | EString e_string -> pp_node buffer ~pad "EString"; pp_string_expr buffer ~pad:(mk_pad 1 0 pc) e_string | EList e_list -> pp_node buffer ~pad "EList"; pp_list_expr buffer ~pad:(mk_pad 1 0 pc) e_list | ESet e_set -> pp_node buffer ~pad "ESet"; pp_set_expr buffer ~pad:(mk_pad 1 0 pc) e_set | EConstr e_constr -> pp_node buffer ~pad "EConstr"; pp_constr_expr buffer ~pad:(mk_pad 1 0 pc) e_constr | ERecord {value; _} -> pp_node buffer ~pad "ERecord"; pp_injection pp_field_assign buffer ~pad value | EProj {value; _} -> pp_node buffer ~pad "EProj"; pp_projection buffer ~pad value | EMap e_map -> pp_node buffer ~pad "EMap"; pp_map_expr buffer ~pad:(mk_pad 1 0 pc) e_map | EVar {value; _} -> pp_node buffer ~pad "EVar"; pp_ident buffer ~pad:(mk_pad 1 0 pc) value | ECall {value; _} -> pp_node buffer ~pad "ECall"; pp_fun_call buffer ~pad value | EBytes {value; _} -> pp_node buffer ~pad "EBytes"; pp_bytes buffer ~pad value | EUnit _ -> pp_node buffer ~pad "EUnit" | ETuple e_tuple -> pp_node buffer ~pad "ETuple"; pp_tuple_expr buffer ~pad e_tuple | EPar {value; _} -> pp_node buffer ~pad "EPar"; pp_expr buffer ~pad:(mk_pad 1 0 pc) value.inside and pp_list_expr buffer ~pad:(_,pc as pad) = function Cons {value; _} -> pp_node buffer ~pad "Cons"; pp_expr buffer ~pad:(mk_pad 2 0 pc) value.arg1; pp_expr buffer ~pad:(mk_pad 2 1 pc) value.arg2 | List {value; _} -> pp_node buffer ~pad "List"; pp_injection pp_expr buffer ~pad value | Nil _ -> pp_node buffer ~pad "Nil" and pp_arith_expr buffer ~pad:(_,pc as pad) = function Add {value; _} -> pp_bin_op "Add" buffer ~pad value | Sub {value; _} -> pp_bin_op "Sub" buffer ~pad value | Mult {value; _} -> pp_bin_op "Mult" buffer ~pad value | Div {value; _} -> pp_bin_op "Div" buffer ~pad value | Mod {value; _} -> pp_bin_op "Mod" buffer ~pad value | Neg {value; _} -> pp_node buffer ~pad "Neg"; pp_expr buffer ~pad:(mk_pad 1 0 pc) value.arg; | Int {value; _} -> pp_node buffer ~pad "Int"; pp_int buffer ~pad value | Nat {value; _} -> pp_node buffer ~pad "Nat"; pp_int buffer ~pad value | Mtz {value; _} -> pp_node buffer ~pad "Mtz"; pp_int buffer ~pad value and pp_set_expr buffer ~pad:(_,pc as pad) = function SetInj {value; _} -> pp_node buffer ~pad "SetInj"; pp_injection pp_expr buffer ~pad value | SetMem {value; _} -> pp_node buffer ~pad "SetMem"; pp_expr buffer ~pad:(mk_pad 2 0 pc) value.set; pp_expr buffer ~pad:(mk_pad 2 1 pc) value.element and pp_e_logic buffer ~pad = function BoolExpr e -> pp_node buffer ~pad "BoolExpr"; pp_bool_expr buffer ~pad e | CompExpr e -> pp_node buffer ~pad "CompExpr"; pp_comp_expr buffer ~pad e and pp_bool_expr buffer ~pad:(_,pc as pad) = function Or {value; _} -> pp_bin_op "Or" buffer ~pad value | And {value; _} -> pp_bin_op "And" buffer ~pad value | Not {value; _} -> let _, pc as pad = mk_pad 1 0 pc in pp_node buffer ~pad "Not"; pp_expr buffer ~pad:(mk_pad 1 0 pc) value.arg | False _ -> pp_node buffer ~pad:(mk_pad 1 0 pc) "False" | True _ -> pp_node buffer ~pad:(mk_pad 1 0 pc) "True" and pp_comp_expr buffer ~pad = function Lt {value; _} -> pp_bin_op "Lt" buffer ~pad value | Leq {value; _} -> pp_bin_op "Leq" buffer ~pad value | Gt {value; _} -> pp_bin_op "Gt" buffer ~pad value | Geq {value; _} -> pp_bin_op "Geq" buffer ~pad value | Equal {value; _} -> pp_bin_op "Equal" buffer ~pad value | Neq {value; _} -> pp_bin_op "Neq" buffer ~pad value and pp_constr_expr buffer ~pad:(_, pc as pad) = function SomeApp {value=some_region,args; _} -> let constr = {value="Some"; region=some_region} in let app = constr, Some args in pp_node buffer ~pad "SomeApp"; pp_constr_app buffer ~pad app | NoneExpr _ -> pp_node buffer ~pad "NoneExpr" | ConstrApp {value; _} -> pp_node buffer ~pad "ConstrApp"; pp_constr_app buffer ~pad:(mk_pad 1 0 pc) value and pp_constr_app buffer ~pad (constr, args_opt) = pp_ident buffer ~pad constr.value; match args_opt with None -> () | Some args -> pp_tuple_expr buffer ~pad args and pp_map_expr buffer ~pad = function MapLookUp {value; _} -> pp_node buffer ~pad "MapLookUp"; pp_map_lookup buffer ~pad value | MapInj {value; _} -> pp_node buffer ~pad "MapInj"; pp_injection pp_binding buffer ~pad value and pp_tuple_expr buffer ~pad:(_,pc) {value; _} = let exprs = Utils.nsepseq_to_list value.inside in let length = List.length exprs in let apply len rank = pp_expr buffer ~pad:(mk_pad len rank pc) in List.iteri (apply length) exprs and pp_string_expr buffer ~pad:(_,pc as pad) = function Cat {value; _} -> pp_node buffer ~pad "Cat"; pp_expr buffer ~pad:(mk_pad 2 0 pc) value.arg1; pp_expr buffer ~pad:(mk_pad 2 1 pc) value.arg2; | String {value; _} -> pp_node buffer ~pad "String"; pp_string buffer ~pad:(mk_pad 1 0 pc) value and pp_annotated buffer ~pad:(_,pc) (expr, t_expr) = pp_expr buffer ~pad:(mk_pad 2 0 pc) expr; pp_type_expr buffer ~pad:(mk_pad 2 1 pc) t_expr and pp_bin_op node buffer ~pad:(_,pc) op = pp_node buffer ~pad:(mk_pad 1 0 pc) node; let _, pc = mk_pad 1 0 pc in (pp_expr buffer ~pad:(mk_pad 2 0 pc) op.arg1; pp_expr buffer ~pad:(mk_pad 2 1 pc) op.arg2) let pp_ast buffer = pp_ast buffer ~pad:("","")