open Mips open Typing exception Very_bad_error of string (* Environnement pour accéder aux variables *) type whereis_var = | VGlobal | VStack of int (* position relative à $fp *) | VStackByRef of int type cg_env = { c_penv : env; c_names : whereis_var Smap.t; c_ret_ref : bool; c_fp_used : int; } let globals_env = ref Smap.empty let strings = Hashtbl.create 12 (* string -> label *) (* Identifiants uniques pour les machins - essentiellement labels *) let id = let last = ref 0 in fun prefix -> (last := !last + 1; prefix ^ (string_of_int !last)) (* Génération de code des machins *) let cr a = if a then lw a0 areg (0, a0) else nop (* conditionnally read *) (* Convention : doit garder $sp invariant *) let rec gen_expr env e = match e.te_desc with | TEInt(k) -> li a0 k, false | TENull -> move a0 zero, false | TEThis -> (* convention : this is always the last-pushed argument *) lw a0 areg (8, fp), false | TEIdent(i) -> begin match Smap.find i env.c_names with | VGlobal -> la a0 alab i, true | VStack(i) -> la a0 areg (i, fp), true | VStackByRef(i) -> lw a0 areg (i, fp), true end | TEAssign(e1, e2) -> let t1, ae1 = gen_expr env e1 in assert ae1; let t2, ae2 = gen_expr env e2 in t1 ++ push a0 ++ t2 ++ cr ae2 ++ pop a1 ++ sw a0 areg (0, a1), false | TECallFun(id, args, b) -> let code = List.fold_left (fun code (arg, byref) -> let c, r = gen_expr env arg in assert (r || not byref); c ++ cr (r && not byref) ++ push a0 ++ code) nop args in code ++ jal id ++ popn (4 * (List.length args)), b | TECallVirtual(obj, fi, args, b) -> let code = List.fold_left (fun code (arg, byref) -> let c, r = gen_expr env arg in assert (r || not byref); c ++ cr (r && not byref) ++ push a0 ++ code) nop args in let code2, a = gen_expr env obj in assert a; code ++ code2 ++ push a0 ++ lw a0 areg (0, a0) ++ lw a0 areg (fi, a0) ++ jalr a0 ++ popn (4 * (1 + List.length args)), b | TEUnary (x, e) -> let t, a = gen_expr env e in begin match x with | Ast.Deref -> t ++ cr a, true | Ast.Ref -> assert a; t, false | Ast.Plus -> t ++ cr a, false | Ast.Minus -> t ++ cr a ++ neg a0 a0, false | Ast.Not -> t ++ cr a ++ not_ a0 a0, false | Ast.PreIncr -> assert a; t ++ lw a1 areg (0, a0) ++ add a1 a1 oi 1 ++ sw a1 areg (0, a0), true | Ast.PreDecr -> assert a; t ++ lw a1 areg (0, a0) ++ sub a1 a1 oi 1 ++ sw a1 areg (0, a0), true | Ast.PostIncr -> assert a; t ++ move a1 a0 ++ lw a2 areg(0, a1) ++ move a0 a2 ++ add a2 a2 oi 1 ++ sw a2 areg(0, a1), false | Ast.PostDecr -> assert a; t ++ move a1 a0 ++ lw a2 areg(0, a1) ++ move a0 a2 ++ sub a2 a2 oi 1 ++ sw a2 areg(0, a1), false end | TEBinary(e1, op, e2) -> let t1, ae1 = gen_expr env e1 in let t2, ae2 = gen_expr env e2 in let t1 = t1 ++ cr ae1 in let t2 = t2 ++ cr ae2 in ( match op with | Ast.Add -> t1 ++ push a0 ++ t2 ++ pop a1 ++ add a0 a1 oreg a0 | Ast.Sub -> t1 ++ push a0 ++ t2 ++ pop a1 ++ sub a0 a1 oreg a0 | Ast.Mul -> t1 ++ push a0 ++ t2 ++ pop a1 ++ mul a0 a1 oreg a0 | Ast.Div -> t1 ++ push a0 ++ t2 ++ pop a1 ++ div a0 a1 oreg a0 | Ast.Modulo -> t1 ++ push a0 ++ t2 ++ pop a1 ++ rem a0 a1 oreg a0 | Ast.Equal -> t1 ++ push a0 ++ t2 ++ pop a1 ++ seq a0 a1 a0 | Ast.NotEqual -> t1 ++ push a0 ++ t2 ++ pop a1 ++ sne a0 a1 a0 | Ast.Lt -> t1 ++ push a0 ++ t2 ++ pop a1 ++ slt a0 a1 a0 | Ast.Le -> t1 ++ push a0 ++ t2 ++ pop a1 ++ sle a0 a1 a0 | Ast.Gt -> t1 ++ push a0 ++ t2 ++ pop a1 ++ sgt a0 a1 a0 | Ast.Ge -> t1 ++ push a0 ++ t2 ++ pop a1 ++ sge a0 a1 a0 | Ast.Land -> let lazy_lbl = id "_lazy" in t1 ++ beqz a0 lazy_lbl ++ t2 ++ label lazy_lbl ++ sne a0 a0 zero | Ast.Lor -> let lazy_lbl = id "_lazy" in t1 ++ bnez a0 lazy_lbl ++ t2 ++ label lazy_lbl ++ sne a0 a0 zero ), false | TEMember(e, i) -> let c, a = gen_expr env e in if i <> 0 then begin assert a; c ++ la a0 areg (i, a0), true end else c, a | TEPointerCast(e, i) -> let c, a = gen_expr env e in c ++ cr a ++ (if i = 0 then nop else la a0 areg (i, a0)), false | TENew(cls, constr, args) -> let args_code = List.fold_left (fun code (arg, byref) -> let c, r = gen_expr env arg in assert (r || not byref); c ++ cr (r && not byref) ++ push a0 ++ code) nop args in let alloc = li v0 9 ++ li a0 cls.tc_size ++ syscall in args_code ++ alloc ++ push v0 ++ jal constr ++ pop a0 ++ popn (4 * List.length args), false let rec gen_stmt env = function | TSEmpty -> nop, nop, env | TSExpr(e) -> comment "expr" ++ (fst (gen_expr env e)), nop, env | TSIf(cond, s1, s2) -> let c, a = gen_expr env cond in let l_else = id "_cond_then" in let l_end = id "_cond_end" in let c_then, d_then, _ = gen_stmt env s1 in let c_else, d_else, _ = gen_stmt env s2 in comment "if" ++ c ++ cr a ++ beqz a0 l_else ++ c_then ++ b l_end ++ label l_else ++ c_else ++ label l_end, d_then ++ d_else, env | TSWhile(cond, body) -> let c, a = gen_expr env cond in let l_begin = id "_while_begin" in let l_cond = id "_while_cond" in let c_body, d_body, _ = gen_stmt env body in comment "while" ++ b l_cond ++ label l_begin ++ c_body ++ label l_cond ++ c ++ cr a ++ bnez a0 l_begin, d_body, env | TSFor(before, cond, after, body) -> let l_begin = id "_for_begin" in let l_cond = id "_for_cond" in let c_before = List.fold_left (fun code expr -> let c, _ = gen_expr env expr in code ++ c) nop before in let c_after = List.fold_left (fun code expr -> let c, _ = gen_expr env expr in code ++ c) nop after in let c_cond = match cond with | None -> b l_begin | Some x -> let c, a = gen_expr env x in c ++ cr a ++ bnez a0 l_begin in let c_body, d_body, _ = gen_stmt env body in comment "for" ++ c_before ++ b l_cond ++ label l_begin ++ c_body ++ c_after ++ label l_cond ++ c_cond, d_body, env | TSBlock(b) -> let c, d = gen_block env b in comment "block" ++ c, d, env | TSReturn (None) -> comment "return" ++ b "_return", nop, env | TSReturn (Some e) -> let c, a = gen_expr env e in assert (a || not env.c_ret_ref); comment "return" ++ c ++ cr (not env.c_ret_ref && a) ++ b "_return", nop, env | TSDeclare (ty, id) -> let s = type_size env.c_penv ty in let new_fp_used = env.c_fp_used + s in let pos = - new_fp_used in let code = match ty with | TClass(i) -> let c = get_c env.c_penv i in let cproto = List.find (fun p -> p.tp_ret_type = None && p.tp_name = i && p.tp_args = []) c.tc_methods in sub sp sp oi s ++ la a0 areg (pos, fp) ++ push a0 ++ jal cproto.tp_unique_ident | _ -> push zero in comment ("declare " ^ id) ++ code, nop, { c_penv = env.c_penv; c_names = Smap.add id (VStack pos) env.c_names; c_ret_ref = env.c_ret_ref; c_fp_used = new_fp_used } | TSDeclareAssignConstructor(cls, id, constr, args) -> let new_fp_used = env.c_fp_used + cls.tc_size in let pos = - new_fp_used in let code = let args_code = List.fold_left (fun code (arg, byref) -> let c, r = gen_expr env arg in assert (r || not byref); c ++ cr (r && not byref) ++ push a0 ++ code) nop args in sub sp sp oi cls.tc_size ++ args_code ++ la a0 areg(pos, fp) ++ push a0 ++ jal constr ++ popn (4 * (List.length args + 1)) in comment ("declare " ^ id) ++ code, nop, { c_penv = env.c_penv; c_names = Smap.add id (VStack pos) env.c_names; c_ret_ref = env.c_ret_ref; c_fp_used = new_fp_used; } | TSDeclareAssignExpr ((ty, r), id, e) -> let s = if r then 4 else type_size env.c_penv ty in assert (s = 4); let new_fp_used = env.c_fp_used + 4 in let pos = - new_fp_used in let code, a = gen_expr env e in assert (a || not r); comment ("declare " ^ id) ++ sub sp sp oi 4 ++ code ++ cr (a && not r) ++ sw a0 areg (pos, fp), nop, { c_penv = env.c_penv; c_names = Smap.add id (if r then VStackByRef pos else VStack pos) env.c_names; c_ret_ref = env.c_ret_ref; c_fp_used = new_fp_used } | TSWriteCout(sl) -> let text1, data1 = List.fold_left (fun (text, data) s -> match s with | TSEExpr(e) -> let t, a = gen_expr env e in text ++ t ++ cr a ++ li v0 1 ++ syscall, data | TSEStr(s) -> let l, d = if Hashtbl.mem strings s then Hashtbl.find strings s, nop else let l = id "_s" in Hashtbl.add strings s l; l, label l ++ asciiz s in text ++ la a0 alab l ++ li v0 4 ++ syscall, data ++ d) (nop, nop) sl in comment "cout<<..." ++ text1, data1, env and gen_block env b = let text, data, fin_env = List.fold_left (fun (t, d, e) s -> let tt, dd, e = gen_stmt e s in t ++ tt, d ++ dd, e) (nop, nop, env) b in let n = (fin_env.c_fp_used - env.c_fp_used) in text ++ (if n = 0 then nop else popn n), data let gen_decl tenv decl = match decl with | TDGlobal(ty, id) -> globals_env := Smap.add id VGlobal !globals_env; let bytes = type_size tenv ty in nop, (label id) ++ (dword (let rec a n = if n > 0 then 0::(a (n-4)) else [] in a bytes)) | TDFunction(proto, block) -> let names, _ = List.fold_left (fun (env, p) ((ty, r), id) -> Smap.add id (if r then VStackByRef p else VStack p) env, p + (type_size tenv ty)) (!globals_env, (match proto.tp_class with | None -> 8 | Some k -> 12)) proto.tp_args in let env = { c_penv = tenv; c_names = names; c_ret_ref = (match proto.tp_ret_type with | None -> false | Some(_, r) -> r); c_fp_used = 0; } in let code_for_constructor = match proto.tp_ret_type with | Some _ -> nop | None -> let cls_name = (match proto.tp_class with | Some k -> k | None -> assert false) in lw v0 areg (8, fp) ++ jal ("_c_" ^ cls_name) in let code_for_virtual = match proto.tp_virtual with | Some (c, _) when c.h_pos <> 0 -> lw a0 areg (8, fp) ++ la a0 areg (-c.h_pos, a0) ++ sw a0 areg (8, fp) | _ -> nop in let text, data = gen_block env block in label proto.tp_unique_ident ++ push fp ++ push ra ++ move fp sp ++ code_for_constructor ++ code_for_virtual ++ text ++ b "_return", data | TDClass(c) -> (* Call default constructor of parent classes *) let code_parents = List.fold_left (fun code parent -> let cn = parent.h_class in let c = get_c tenv cn in let proto = List.find (fun p -> p.tp_ret_type = None && p.tp_args = [] && p.tp_name = cn) c.tc_methods in code ++ lw v0 areg(0, sp) ++ la v0 areg(parent.h_pos, v0) ++push v0 ++ jal proto.tp_unique_ident ++ popn 4) nop c.tc_hier.h_supers in let code_parents = if code_parents <> nop then push v0 ++ code_parents ++ pop v0 else nop in (* Build vtables and build constructor *) let rec make_vtables hh = (* calculate vtable contents *) let vtable_size = List.fold_left (fun k (p, _) -> max k (p+4)) 0 hh.h_vtable in let vtable_as_array = Array.make (vtable_size / 4) "_nothing" in List.iter (fun (p, s) -> vtable_as_array.(p/4) <- s.tp_unique_ident) hh.h_vtable; let vt_l = Array.to_list vtable_as_array in (* code for vtable initialization *) let vtable = if vt_l = [] then nop else label ("_vt_" ^ c.tc_name ^ "_as_" ^ hh.h_class) ++ address vt_l in let constructor_code = if vt_l = [] then sw zero areg (hh.h_pos, v0) else la a0 alab ("_vt_" ^ c.tc_name ^ "_as_" ^ hh.h_class) ++ sw a0 areg (hh.h_pos, v0) in (* code for subclasses initialization *) List.fold_left (fun (vt, cc) sup -> let mvt, mcc = make_vtables sup in vt ++ mvt, cc ++ mcc) (vtable, constructor_code) hh.h_supers in let vtables, vtable_init_code = make_vtables c.tc_hier in let init_code_proper = Smap.fold (fun _ (ty, pos) code -> (match ty with | TClass(s) -> let cs = get_c tenv s in let proto = List.find (fun p -> p.tp_ret_type = None && p.tp_args = [] && p.tp_name = s) cs.tc_methods in push v0 ++ la a0 areg (pos, v0) ++ push a0 ++ jal proto.tp_unique_ident ++ popn 4 ++ pop v0 | _ -> sw zero areg (pos, v0) ) ++ code) c.tc_members nop in label (c.tc_name ^ "0") ++ lw v0 areg (0, sp) ++ label ("_c_" ^ c.tc_name) ++ push ra ++ code_parents ++ vtable_init_code ++ init_code_proper ++ pop ra ++ jr ra, vtables let generate p = try let text, data = List.fold_left (fun (text, data) decl -> let more_text, more_data = gen_decl p.prog_env decl in text ++ more_text, data ++ more_data) (nop, nop) p.prog_decls in let text = label "main" ++ jal p.prog_main ++ li v0 10 ++ syscall ++ label "_return" ++ move sp fp ++ pop ra ++ pop fp ++ label "_nothing" ++ jr ra ++ text in { text = text; data = data } with | Assert_failure (k, a, b) -> raise (Very_bad_error ( "(unexpected) Assertion failure: "^k^" at "^(string_of_int a)^":"^(string_of_int b))) | Not_found -> raise (Very_bad_error ("(unexpected) Not found")) | Invalid_argument(k) -> raise (Very_bad_error ("(unexpected) Invalid argument: "^k)) | Match_failure(k, a, b) -> raise (Very_bad_error ( "(unexpected) Match failure: "^k^" at "^(string_of_int a)^":"^(string_of_int b))) | Stack_overflow -> raise (Very_bad_error ("(unexpected) Stack overflow")) | _ -> raise (Very_bad_error ("(unexpected) Other error"))