(* PRETTY PRINTER These functions enable the dumping of an AST Used for debugging the parser. *) open Parser open Typing open Ast let csl f l = List.fold_left (fun x t -> (if x = "" then "" else x ^ ", ") ^ (f t)) "" l (* printing AST's *) let binop_str = function | Equal -> "==" | NotEqual -> "!=" | Lt -> "<" | Le -> "<=" | Gt -> ">" | Ge -> ">=" | Add -> "+" | Sub -> "-" | Mul -> "*" | Div -> "/" | Modulo -> "%" | Land -> "&&" | Lor -> "||" let unop_str = function | PreIncr -> "++." | PostIncr -> ".++" | PreDecr -> "--." | PostDecr -> ".--" | Ref -> "&" | Deref -> "*" | Not -> "!" | Minus -> "-" | Plus -> "+" let rec var_type_str = function | T_Void -> "void" | T_Int -> "int" | TPoint(k) -> "*" ^ (var_type_str k) | TClass s -> "" | Typenull -> "NULL" let rec expr_string e = match e.te_desc with | TEInt(i) -> string_of_int i | TENull -> "NULL" | TEThis -> "this" | TEIdent(i) -> i | TEAssign(k, p) -> "(" ^ (expr_string k) ^ " = " ^ (expr_string p) ^ ")" | TECallFun(i, f) -> i ^ "(" ^ (csl expr_string f) ^ ")" (* ici, le second ast a changé par rapport au premier *) | TEUnary(e, f) -> (unop_str e) ^ (expr_string f) | TEBinary(e1, o, e2) -> "(" ^ (expr_string e1) ^ " " ^ (binop_str o) ^ " " ^ (expr_string e2) ^ ")" (* | TEMember(e1, x) -> "(" ^ (expr_string e1) ^ ")." ^ x | TENew(c, arg) -> "new " ^ c ^ " (" ^ (csl expr_string arg) ^ ")"*) | _ -> "" let rec print_stmt l x = for i = 1 to l do print_string " " done; match x.ts_desc with | TSEmpty -> print_string ";\n" | TSExpr(e) -> print_string ((expr_string e) ^ "\n") | TSIf(e, a, b) -> print_string ("if " ^ (expr_string e) ^ "\n"); print_stmt (l+1) a; for i = 1 to l do print_string " " done; print_string "else\n"; print_stmt (l+1) b | TSWhile(e, a) -> print_string ("while " ^ (expr_string e) ^ "\n"); print_stmt (l+1) a; | TSFor(i, c, f, s) -> print_string ("for " ^ (List.fold_left (fun x k -> x ^ ", " ^ (expr_string k)) "" i) ^ "; " ^ (match c with | None -> "" | Some(a) -> expr_string a) ^ "; " ^ (List.fold_left (fun x k -> x ^ ", " ^ (expr_string k)) "" f) ^ "\n"); print_stmt (l+1) s | TSBlock(b) -> print_block l b | TSReturn(None) -> print_string "return\n" | TSReturn(Some k) -> print_string ("return " ^ (expr_string k) ^ "\n") | TSDeclare((ty,b), i) -> let addr = (if b then "&" else "") in print_string (addr ^ i ^ " : " ^ (var_type_str ty) ^ "\n") | TSDeclareAssignExpr((ty,b), i, e) -> let addr = (if b then "&" else "") in print_string (addr ^ i ^ " : " ^ (var_type_str ty) ^ " = " ^ (expr_string e) ^ "\n") | TSDeclareAssignConstructor(t, i, c, a) -> () (*print_string (i ^ " : " ^ (var_type_str t) ^ " = " ^ c ^ "(" ^ (csl expr_string a) ^ ")\n")*) | TSWriteCout(k) -> print_string ("std::cout" ^ (List.fold_left (fun x k -> x ^ " << " ^ (match k with | TSEExpr e -> expr_string e | TSEStr("\n") -> "std::endl" | TSEStr s -> "`" ^ s ^ "`")) "" k) ^ "\n") and print_block n b = let prefix = String.make n ' ' in print_string (prefix ^ "{\n"); List.iter (fun s -> print_stmt (n+1) s) b; print_string (prefix ^ "}\n") let proto_str p = (match p.tp_class with | Some c -> c ^ "::" | None -> "") ^ p.tp_name ^ " (" ^ (csl (fun ((ty,b), i) -> let addr = (if b then "&" else "") in addr ^ i ^ " : " ^ (var_type_str ty) ) p.tp_args) ^ ") : " ^ (match p.tp_ret_type with | Some (ty,b) -> var_type_str ty | None -> "constructor") (*let print_class_decl c = print_string ("class " ^ c.c_name ^ (match c.c_supers with | None -> "" | Some(s) -> " : " ^ (List.fold_left (fun x t -> x ^ " public " ^ t) "" s)) ^ " {\n"); List.iter (function | CVar(t, i) -> print_string (" " ^ i ^ " : " ^ (var_type_str t) ^ "\n") | CMethod(p) -> print_string (" " ^ (proto_str p) ^ "\n") | CVirtualMethod(p) -> print_string (" virtual " ^ (proto_str p) ^ "\n") ) c.c_members; print_string "}\n"*) let print_prog p = List.iter (function | TDGlobal((ty,b),i) -> let addr = (if b then "&" else "") in print_string ("decl " ^ addr ^ i ^ " : " ^ (var_type_str ty) ^ "\n") | TDFunction(p,b) -> print_string (proto_str p ^"\n"); print_block 0 b | TDClass(c) -> () (* print_class_decl c *) | TDNothing -> () ) p