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import Interp
import Interp_lib
open import Interp_ast
open import Interp_interface
open import Pervasives
val intern_value : value -> Interp.value
val extern_value : bool -> Interp.value -> value
val extern_reg : Interp.reg_form -> maybe (integer * integer) -> reg_name
let build_context defs = Interp.to_top_env defs
let to_bits l = (List.map (fun b -> match b with
| false -> (Interp.V_lit (L_aux L_zero Interp_ast.Unknown))
| true -> (Interp.V_lit (L_aux L_one Interp_ast.Unknown)) end) l)
let from_bits l = (List.map (fun b -> match b with
| Interp.V_lit (L_aux L_zero _) -> false
| _ -> true end) l)
let rec to_bytes l = match l with
| [] -> []
| (a::b::c::d::e::f::g::h::rest) ->
(natFromInteger(integerFromBoolList (true,[a;b;c;d;e;f;g;h])))::(to_bytes rest)
end
let intern_value v = match v with
| Bitvector bs -> Interp.V_vector 0 true (to_bits bs)
| Bytevector bys -> Interp.V_vector 0 true (to_bits (List.concat (List.map (fun n -> boolListFrombitSeq 8 (bitSeqFromInteger (Just 8) (integerFromNat n))) bys)))
| Unknown -> Interp.V_unknown
end
let extern_value for_mem v = match v with
| Interp.V_vector _ true bits ->
if for_mem
then Bytevector (to_bytes (from_bits bits))
else Bitvector (from_bits bits)
| _ -> Unknown
end
let extern_reg r slice = match (r,slice) with
| (Interp.Reg (Id_aux (Id x) _) _,Nothing) -> Reg x
| (Interp.Reg (Id_aux (Id x) _) _,Just(i1,i2)) -> Reg_slice x (i1,i2)
| (Interp.SubReg (Id_aux (Id x) _) (Interp.Reg (Id_aux (Id y) _) _) (BF_aux(BF_single i) _),Nothing) -> Reg_field x y (i,i)
end
let initial_instruction_state top_level main arg =
Interp.Thunk_frame (E_aux (E_app (Id_aux (Id main) Interp_ast.Unknown) [ Interp.to_exp (intern_value arg) ]) (Interp_ast.Unknown, Nothing)) top_level [] Interp.emem
(*For now, append to this list to add more external functions; should add to the mode record for more perhaps *)
let external_functions =
Interp_lib.function_map
type mem_function = (string * (maybe read_kind * maybe write_kind * Interp.value -> value))
(*List of memory functions; needs to be expanded with all of the memory functions needed for PPCMem.
Should probably be expanded into a parameter to mode as with above
*)
let memory_functions =
[ ("MEM", (Just(Interp.Read_plain), Just(Interp.Write_plain), (fun v -> extern_value true v)));
]
let rec interp_to_outcome mode thunk =
match thunk () with
| Interp.Value _ _ -> Done
| Interp.Error l msg -> Error msg (*Todo, add the l information the string format*)
| Interp.Action a next_state ->
match a with
| Interp.Read_reg reg_form slice -> Read_reg (extern_reg reg_form slice) (fun v -> Interp.add_answer_to_stack next_state (intern_value v))
| Interp.Write_reg reg_form slice value -> Write_reg (extern_reg reg_form slice) (extern_value false value) next_state
| Interp.Read_mem (Id_aux (Id i) _) value slice ->
match List.lookup i memory_functions with
| (Just (Just read_k,_,f)) -> Read_mem read_k (f value) (fun v -> Interp.add_answer_to_stack next_state (intern_value v))
| _ -> Error ("Memory " ^ i ^ " function with read kind not found")
end
| Interp.Write_mem (Id_aux (Id i) _) loc_val slice write_val ->
match List.lookup i memory_functions with
| (Just (_,Just write_k,f)) -> Write_mem write_k (f loc_val) (extern_value true write_val) (fun b -> next_state)
| _ -> Error ("Memory " ^ i ^ " function with write kind not found")
end
| Interp.Call_extern i value ->
match List.lookup i external_functions with
| Nothing -> Error ("External function not available " ^ i)
| Just f -> interp_to_outcome mode (fun _ -> Interp.resume mode next_state (Just (f value))) end
| Interp.Debug l -> Internal next_state
end
end
let interp mode i_state = interp_to_outcome mode (fun _ -> Interp.resume mode i_state Nothing)
let rec ie_loop mode i_state =
match (interp mode i_state) with
| Done -> []
| Error msg -> [E_error msg]
| Read_reg reg i_state_fun ->
(E_read_reg reg)::(ie_loop mode (i_state_fun Unknown))
| Write_reg reg value i_state->
(E_write_reg reg value)::(ie_loop mode i_state)
| Read_mem read_k loc i_state_fun ->
(E_read_mem read_k loc)::(ie_loop mode (i_state_fun Unknown))
| Write_mem write_k loc value i_state_fun ->
(E_write_mem write_k loc value)::(ie_loop mode (i_state_fun true))
| Internal next -> (ie_loop mode next)
end ;;
let interp_exhaustive i_state =
let mode = <| Interp.eager_eval = true |> in
ie_loop mode i_state
|
