open Asm
open Printf
open Lexing
let init_string n f =
let res = String.make n 'a' in
for i = 0 to n - 1 do res.[i] <- f i done; res
let bts n = init_string 8 (fun i ->
if (n lsr i) land 1 = 1 then '1' else '0')
let wts n =
sprintf "%s %s" (bts (n land 0xFF)) (bts ((n lsr 8) land 0xFF))
let rev_keywords = List.map (fun (i,j) -> (j,i)) keywords_r
let rts = function
| 0 -> "Z"
| 1 -> "A"
| 2 -> "B"
| 3 -> "C"
| 4 -> "D"
| 5 -> "E"
| 6 -> "RA"
| 7 -> "SP"
| _ -> assert false
let byte n b =
if b >= 0 then b
else b + (1 lsl n)
let r (o,f) r1 r2 r3 =
(o lsl 11) lxor (r1 lsl 8) lxor (r2 lsl 5) lxor (r3 lsl 2) lxor f
let i o r d = (o lsl 11) lxor (r lsl 8) lxor ((byte 8 d) land 0xFF)
let j o d = (o lsl 11) lxor ((byte 11 d) land 0x07FF)
let k o r1 r2 d = (o lsl 11) lxor (r1 lsl 8) lxor (r2 lsl 5) lxor (byte 5 d)
let code = function
| Add -> (0b00000,0)
| Sub -> (0b00000,1)
| Mul -> (0b00000,2)
| Div -> (0b00000,3)
| Addu -> (0b00001,0)
| Subu -> (0b00001,1)
| Mulu -> (0b00001,2)
| Divu -> (0b00001,3)
| Or -> (0b00010,0)
| And -> (0b00010,1)
| Xor -> (0b00010,2)
| Nor -> (0b00010,3)
| Lsl -> (0b00011,0)
| Lsr -> (0b00011,2)
| Asr -> (0b00011,3)
| Se -> (0b00100,2)
| Sne -> (0b00100,3)
| Slt -> (0b00101,0)
| Sle -> (0b00101,1)
| Sltu -> (0b00101,2)
| Sleu -> (0b00101,3)
| Jer -> (0b01010,2)
| Jner -> (0b01010,3)
| Jltr -> (0b01011,0)
| Jler -> (0b01011,1)
| Jltru -> (0b01011,2)
| Jleru -> (0b01011,3)
| Lwr -> (0b10100,0)
| Swr -> (0b10101,0)
| Lbr -> (0b10110,0)
| Sbr -> (0b10111,0)
let its = function
| Imm i -> string_of_int i
| Lab l -> l
let print_program p =
let pc = ref 0 in
let value = function
| Imm i -> i
| Lab l -> fst (Imap.find l p.lbls) in
let value2 = function
| Imm i -> i
| Lab l -> fst (Imap.find l p.lbls) - !pc in
let value3 = function
| Imm i -> i
| Lab l -> (byte 16 (fst (Imap.find l p.lbls))) lsr 8 in
let get_reps = function
| R (o,r1,r2,r3) -> r (code o) r1 r2 r3,
sprintf "%s %s %s %s" (List.assoc o rev_keywords) (rts r1) (rts r2) (rts r3)
| Incri (r,d) -> i 0b00110 r d, sprintf "incri %s %d" (rts r) d
| Shi (r,d) -> i 0b00111 r d, sprintf "incri %s %d" (rts r) d
| J i -> let v = value2 i in j 0b01000 v, sprintf "j %s" (its i)
| Jal i -> let v = value2 i in j 0b01001 v, sprintf "jal %s" (its i)
| Jr reg -> r (0b01010,0) reg 0 0, sprintf "jr %s" (rts reg)
| Jalr reg -> r (0b01010,1) reg 0 0, sprintf "jalr %s" (rts reg)
| Lw (r1,r2,i) -> k 0b10000 r1 r2 i, sprintf "lw %s %d(%s)" (rts r1) i (rts r2)
| Sw (r1,r2,i) -> k 0b10001 r1 r2 i, sprintf "sw %s %d(%s)" (rts r1) i (rts r2)
| Lb (r1,r2,i) -> k 0b10010 r1 r2 i, sprintf "lb %s %d(%s)" (rts r1) i (rts r2)
| Sb (r1,r2,i) -> k 0b10011 r1 r2 i, sprintf "sb %s %d(%s)" (rts r1) i (rts r2)
| Lra i -> j 0b01100 (value2 i), sprintf "lra %s" (its i)
| Lil (r,i) -> (0b11000 lsl 11) lxor (r lsl 8) lxor ((byte 8 (value i)) land 0xFF),
sprintf "lil %s %s" (rts r) (its i)
| Lilz (r,i) -> (0b11001 lsl 11) lxor (r lsl 8) lxor ((byte 8 (value i)) land 0xFF),
sprintf "lilz %s %s" (rts r) (its i)
| Liu (r,i) -> (0b11010 lsl 11) lxor (r lsl 8) lxor ((byte 8 (value3 i)) land 0xFF),
sprintf "liu %s %s" (rts r) (its i)
| Liuz (r,i) -> (0b11011 lsl 11) lxor (r lsl 8) lxor ((byte 8 (value3 i)) land 0xFF),
sprintf "liuz %s %s" (rts r) (its i) in
let n = List.length p.text in
let rev_lbls = Array.make n "" in
Imap.iter (fun l (v,t) ->
if t then rev_lbls.(v/2) <- rev_lbls.(v/2) ^ " " ^ l) p.lbls;
let f instr =
if rev_lbls.(!pc/2) <> "" then
printf "\t#%s:\n" rev_lbls.(!pc/2);
let w,s = get_reps instr in
printf "%s\t\t# %s\n" (wts w) s;
pc := !pc + 2 in
printf "%d %d\n" (2*n) 8;
List.iter f p.text;
let n2 = List.fold_left (fun n (_,w) -> if w then n + 2 else n + 1) 0 p.data in
if n2 > 0 then (
printf "\n%d %d\n" n2 8;
let rev_lbls = Array.make n2 "" in
Imap.iter (fun l (v,t) ->
if not t then rev_lbls.(v) <- rev_lbls.(v) ^ " " ^ l) p.lbls;
pc := 0;
let f2 (b,w) =
if rev_lbls.(!pc) <> "" then
printf "\t#%s:\n" rev_lbls.(!pc);
if w then (
printf "%s\n" (wts (byte 16 b));
pc := !pc + 2
) else (
printf "%s\n" (bts (byte 8 b));
pc := !pc + 1) in
List.iter f2 p.data
);
printf "\n"
let print_error e sp ep =
eprintf "File \"%s\", line %d, characters %d-%d:\n%s\n"
Sys.argv.(1) sp.pos_lnum (sp.pos_cnum - sp.pos_bol)
(ep.pos_cnum - sp.pos_bol) e
let () =
let ic = open_in Sys.argv.(1) in
let lexbuf = Lexing.from_channel ic in
let p = try Asmpars.program Asmlex.token lexbuf
with Asmpars.Error ->
print_error "Parser error" lexbuf.lex_start_p lexbuf.lex_curr_p;
close_in ic;
exit 1
| Failure "lexing: empty token" ->
print_error "Lexer error" lexbuf.lex_start_p lexbuf.lex_curr_p;
close_in ic;
exit 1 in
close_in ic;
print_program p