open Printf ;; open Interp_ast ;; open Interp ;; open Interp_lib ;; open Big_int ;; let lit_to_string = function | L_unit -> "unit" | L_zero -> "bitzero" | L_one -> "bitone" | L_true -> "true" | L_false -> "false" | L_num n -> string_of_big_int n | L_hex s -> s | L_bin s -> s | L_undef -> "undefined" | L_string s -> "\"" ^ s ^ "\"" ;; let id_to_string = function | Id s | DeIid s -> s ;; let rec val_to_string = function | V_boxref n -> sprintf "boxref %d" n | V_lit l -> sprintf "literal %s" (lit_to_string l) | V_tuple l -> let repr = String.concat ", " (List.map val_to_string l) in sprintf "tuple (%s)" repr | V_list l -> let repr = String.concat "; " (List.map val_to_string l) in sprintf "list [%s]" repr | V_vector (first_index, inc, l) -> let order = if inc then "little-endian" else "big-endian" in let repr = String.concat "; " (List.map val_to_string l) in sprintf "vector [%s] (%s, from %s)" repr order (string_of_big_int first_index) | V_record l -> let pp (id, value) = sprintf "%s = %s" (id_to_string id) (val_to_string value) in let repr = String.concat "; " (List.map pp l) in sprintf "record {%s}" repr | V_ctor (id, value) -> sprintf "constructor %s %s" (id_to_string id) (val_to_string value) ;; let rec env_to_string = function | [] -> "" | [id,v] -> sprintf "%s |-> %s" (id_to_string id) (val_to_string v) | (id,v)::env -> sprintf "%s |-> %s, %s" (id_to_string id) (val_to_string v) (env_to_string env) let rec stack_to_string = function | Top -> "Top" | Frame(id,exp,env,mem,s) -> sprintf "(Frame of %s, e, (%s), m, %s)" (id_to_string id) (env_to_string env) (stack_to_string s) ;; let reg_to_string = function Reg (id,_) | SubReg (id,_,_) -> id_to_string id ;; let sub_to_string = function None -> "" | Some (x, y) -> sprintf " (%s, %s)" (string_of_big_int x) (string_of_big_int y) let act_to_string = function | Read_reg (reg, sub) -> sprintf "read_reg %s%s" (reg_to_string reg) (sub_to_string sub) | Write_reg (reg, sub, value) -> sprintf "write_reg %s%s = %s" (reg_to_string reg) (sub_to_string sub) (val_to_string value) | Read_mem (id, args, sub) -> sprintf "read_mem %s(%s)%s" (id_to_string id) (val_to_string args) (sub_to_string sub) | Write_mem (id, args, sub, value) -> sprintf "write_mem %s(%s)%s = %s" (id_to_string id) (val_to_string args) (sub_to_string sub) (val_to_string value) | Call_extern (name, arg) -> sprintf "extern call %s applied to %s" name (val_to_string arg) ;; module Reg = struct include Map.Make(struct type t = id let compare = compare end) end ;; module Mem = struct include Map.Make(struct type t = (id * big_int) let compare (i1, v1) (i2, v2) = match compare i1 i2 with | 0 -> compare_big_int v1 v2 | n -> n end) end ;; let slice v = function | None -> v | Some (n, m) -> slice_vector v n m ;; let perform_action ((reg, mem) as env) = function | Read_reg ((Reg (id, _) | SubReg (id, _, _)), sub) -> slice (Reg.find id reg) sub, env | Read_mem (id, V_lit(L_num n), sub) -> slice (Mem.find (id, n) mem) sub, env | Write_reg ((Reg (id, _) | SubReg (id, _, _)), None, value) -> V_lit L_unit, (Reg.add id value reg, mem) | Write_mem (id, V_lit(L_num n), None, value) -> V_lit L_unit, (reg, Mem.add (id, n) value mem) | Call_extern (name, arg) -> eval_external name arg, env | _ -> failwith "partial write not implemented" (* XXX *) ;; let run (name, test) = let rec loop env = function | Value v -> eprintf "%s: returned %s\n" name (val_to_string v) | Action (a, s) -> eprintf "%s: suspended on action %s\n" name (act_to_string a); (*eprintf "%s: suspended on action %s, with stack %s\n" name (act_to_string a) (stack_to_string s);*) let return, env' = perform_action env a in eprintf "%s: action returned %s\n" name (val_to_string return); loop env' (resume test s return) | Error e -> eprintf "%s: error: %s\n" name e in let entry = E_app((Id "main"), [E_lit L_unit]) in eprintf "%s: starting\n" name; try Printexc.record_backtrace true; loop (Reg.empty, Mem.empty) (interp test entry) with e -> let trace = Printexc.get_backtrace () in eprintf "%s: interpretor error %s\n%s\n" name (Printexc.to_string e) trace ;;