open import Pervasives_extra open import Sail_impl_base open import Sail_values type M 'a 'e = outcome 'a 'e val return : forall 'a 'e. 'a -> M 'a 'e let return a = Done a val bind : forall 'a 'b 'e. M 'a 'e -> ('a -> M 'b 'e) -> M 'b 'e let rec bind m f = match m with | Done a -> f a | Read_mem descr k -> Read_mem descr (fun v -> let (o,opt) = k v in (bind o f,opt)) | Read_reg descr k -> Read_reg descr (fun v -> let (o,opt) = k v in (bind o f,opt)) | Write_memv descr k -> Write_memv descr (fun v -> let (o,opt) = k v in (bind o f,opt)) | Excl_res k -> Excl_res (fun v -> let (o,opt) = k v in (bind o f,opt)) | Write_ea descr o_s -> Write_ea descr (let (o,opt) = o_s in (bind o f,opt)) | Barrier descr o_s -> Barrier descr (let (o,opt) = o_s in (bind o f,opt)) | Footprint o_s -> Footprint (let (o,opt) = o_s in (bind o f,opt)) | Write_reg descr o_s -> Write_reg descr (let (o,opt) = o_s in (bind o f,opt)) | Escape descr -> Escape descr | Fail descr -> Fail descr | Error descr -> Error descr | Exception e -> Exception e | Internal descr o_s -> Internal descr (let (o,opt) = o_s in (bind o f ,opt)) end let inline (>>=) = bind val (>>) : forall 'b 'e. M unit 'e -> M 'b 'e -> M 'b 'e let inline (>>) m n = m >>= fun (_ : unit) -> n val exit : forall 'a 'e. unit -> M 'a 'e let exit () = Fail Nothing val assert_exp : forall 'e. bool -> string -> M unit 'e let assert_exp exp msg = if exp then Done () else Fail (Just msg) val throw : forall 'a 'e. 'e -> M 'a 'e let throw e = Exception e val try_catch : forall 'a 'e1 'e2. M 'a 'e1 -> ('e1 -> M 'a 'e2) -> M 'a 'e2 let rec try_catch m h = match m with | Done a -> Done a | Read_mem descr k -> Read_mem descr (fun v -> let (o,opt) = k v in (try_catch o h,opt)) | Read_reg descr k -> Read_reg descr (fun v -> let (o,opt) = k v in (try_catch o h,opt)) | Write_memv descr k -> Write_memv descr (fun v -> let (o,opt) = k v in (try_catch o h,opt)) | Excl_res k -> Excl_res (fun v -> let (o,opt) = k v in (try_catch o h,opt)) | Write_ea descr o_s -> Write_ea descr (let (o,opt) = o_s in (try_catch o h,opt)) | Barrier descr o_s -> Barrier descr (let (o,opt) = o_s in (try_catch o h,opt)) | Footprint o_s -> Footprint (let (o,opt) = o_s in (try_catch o h,opt)) | Write_reg descr o_s -> Write_reg descr (let (o,opt) = o_s in (try_catch o h,opt)) | Escape descr -> Escape descr | Fail descr -> Fail descr | Error descr -> Error descr | Exception e -> h e | Internal descr o_s -> Internal descr (let (o,opt) = o_s in (try_catch o h ,opt)) end (* For early return, we abuse exceptions by throwing and catching the return value. The exception type is "either 'r 'e", where "Right e" represents a proper exception and "Left r" an early return of value "r". *) type MR 'a 'r 'e = M 'a (either 'r 'e) val early_return : forall 'a 'r 'e. 'r -> MR 'a 'r 'e let early_return r = throw (Left r) val catch_early_return : forall 'a 'e. MR 'a 'a 'e -> M 'a 'e let catch_early_return m = try_catch m (function | Left a -> return a | Right e -> throw e end) (* Lift to monad with early return by wrapping exceptions *) val liftR : forall 'a 'r 'e. M 'a 'e -> MR 'a 'r 'e let liftR m = try_catch m (fun e -> throw (Right e)) (* Catch exceptions in the presence of early returns *) val try_catchR : forall 'a 'r 'e1 'e2. MR 'a 'r 'e1 -> ('e1 -> MR 'a 'r 'e2) -> MR 'a 'r 'e2 let try_catchR m h = try_catch m (function | Left r -> throw (Left r) | Right e -> h e end) val read_mem : forall 'a 'b 'e. Bitvector 'a, Bitvector 'b => read_kind -> 'a -> integer -> M 'b 'e let read_mem rk addr sz = let addr = address_lifted_of_bitv (bits_of addr) in let sz = natFromInteger sz in let k memory_value = let bitv = of_bits (internal_mem_value memory_value) in (Done bitv,Nothing) in Read_mem (rk,addr,sz) k val excl_result : forall 'e. unit -> M bool 'e let excl_result () = let k successful = (return successful,Nothing) in Excl_res k val write_mem_ea : forall 'a 'e. Bitvector 'a => write_kind -> 'a -> integer -> M unit 'e let write_mem_ea wk addr sz = let addr = address_lifted_of_bitv (bits_of addr) in let sz = natFromInteger sz in Write_ea (wk,addr,sz) (Done (),Nothing) val write_mem_val : forall 'a 'e. Bitvector 'a => 'a -> M bool 'e let write_mem_val v = let v = external_mem_value (bits_of v) in let k successful = (return successful,Nothing) in Write_memv v k val read_reg_aux : forall 'a 'e. Bitvector 'a => reg_name -> M 'a 'e let read_reg_aux reg = let k reg_value = let v = of_bits (internal_reg_value reg_value) in (Done v,Nothing) in Read_reg reg k let read_reg reg = read_reg_aux (external_reg_whole reg) let read_reg_range reg i j = read_reg_aux (external_reg_slice reg (natFromInteger i,natFromInteger j)) let read_reg_bit reg i = read_reg_aux (external_reg_slice reg (natFromInteger i,natFromInteger i)) >>= fun v -> return (extract_only_element v) let read_reg_field reg regfield = read_reg_aux (external_reg_field_whole reg regfield.field_name) let read_reg_bitfield reg regfield = read_reg_aux (external_reg_field_whole reg regfield.field_name) >>= fun v -> return (extract_only_element v) let reg_deref = read_reg val write_reg_aux : forall 'a 'e. Bitvector 'a => reg_name -> 'a -> M unit 'e let write_reg_aux reg_name v = let regval = external_reg_value reg_name (bits_of v) in Write_reg (reg_name,regval) (Done (), Nothing) let write_reg reg v = write_reg_aux (external_reg_whole reg) v let write_reg_range reg i j v = write_reg_aux (external_reg_slice reg (natFromInteger i,natFromInteger j)) v let write_reg_pos reg i v = let iN = natFromInteger i in write_reg_aux (external_reg_slice reg (iN,iN)) [v] let write_reg_bit = write_reg_pos let write_reg_field reg regfield v = write_reg_aux (external_reg_field_whole reg regfield.field_name) v (*let write_reg_field_bit reg regfield bit = write_reg_aux (external_reg_field_whole reg regfield.field_name) (Vector [bit] 0 (is_inc_of_reg reg))*) let write_reg_field_range reg regfield i j v = write_reg_aux (external_reg_field_slice reg regfield.field_name (natFromInteger i,natFromInteger j)) v let write_reg_field_pos reg regfield i v = write_reg_field_range reg regfield i i [v] let write_reg_field_bit = write_reg_field_pos let write_reg_ref (reg, v) = write_reg reg v val barrier : forall 'e. barrier_kind -> M unit 'e let barrier bk = Barrier bk (Done (), Nothing) val footprint : forall 'e. M unit 'e let footprint = Footprint (Done (),Nothing)