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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* Created by Bruno Barras for Benjamin Grégoire as part of the
bytecode-based reduction machine, Oct 2004 *)
(* Support for native arithmetics by Arnaud Spiwack, May 2007 *)
(* This file defines the type of bytecode instructions *)
open Names
open Term
type tag = int
let id_tag = 0
let iddef_tag = 1
let ind_tag = 2
let fix_tag = 3
let switch_tag = 4
let cofix_tag = 5
let cofix_evaluated_tag = 6
type structured_constant =
| Const_sorts of sorts
| Const_ind of inductive
| Const_b0 of tag
| Const_bn of tag * structured_constant array
type reloc_table = (tag * int) array
type annot_switch =
{ci : case_info; rtbl : reloc_table; tailcall : bool}
module Label =
struct
type t = int
let no = -1
let counter = ref no
let create () = incr counter; !counter
let reset_label_counter () = counter := no
end
type instruction =
| Klabel of Label.t
| Kacc of int
| Kenvacc of int
| Koffsetclosure of int
| Kpush
| Kpop of int
| Kpush_retaddr of Label.t
| Kapply of int (* number of arguments *)
| Kappterm of int * int (* number of arguments, slot size *)
| Kreturn of int (* slot size *)
| Kjump
| Krestart
| Kgrab of int (* number of arguments *)
| Kgrabrec of int (* rec arg *)
| Kclosure of Label.t * int (* label, number of free variables *)
| Kclosurerec of int * int * Label.t array * Label.t array
(* nb fv, init, lbl types, lbl bodies *)
| Kclosurecofix of int * int * Label.t array * Label.t array
(* nb fv, init, lbl types, lbl bodies *)
| Kgetglobal of constant
| Kconst of structured_constant
| Kmakeblock of int * tag (* size, tag *)
| Kmakeprod
| Kmakeswitchblock of Label.t * Label.t * annot_switch * int
| Kswitch of Label.t array * Label.t array (* consts,blocks *)
| Kpushfields of int
| Kfield of int
| Ksetfield of int
| Kstop
| Ksequence of bytecodes * bytecodes
(* spiwack: instructions concerning integers *)
| Kbranch of Label.t (* jump to label *)
| Kaddint31 (* adds the int31 in the accu
and the one ontop of the stack *)
| Kaddcint31 (* makes the sum and keeps the carry *)
| Kaddcarrycint31 (* sum +1, keeps the carry *)
| Ksubint31 (* subtraction modulo *)
| Ksubcint31 (* subtraction, keeps the carry *)
| Ksubcarrycint31 (* subtraction -1, keeps the carry *)
| Kmulint31 (* multiplication modulo *)
| Kmulcint31 (* multiplication, result in two
int31, for exact computation *)
| Kdiv21int31 (* divides a double size integer
(represented by an int31 in the
accumulator and one on the top of
the stack) by an int31. The result
is a pair of the quotient and the
rest.
If the divisor is 0, it returns
0. *)
| Kdivint31 (* euclidian division (returns a pair
quotient,rest) *)
| Kaddmuldivint31 (* generic operation for shifting and
cycling. Takes 3 int31 i j and s,
and returns x*2^s+y/(2^(31-s) *)
| Kcompareint31 (* unsigned comparison of int31
cf COMPAREINT31 in
kernel/byterun/coq_interp.c
for more info *)
| Khead0int31 (* Give the numbers of 0 in head of a in31*)
| Ktail0int31 (* Give the numbers of 0 in tail of a in31
ie low bits *)
| Kisconst of Label.t (* conditional jump *)
| Kareconst of int*Label.t (* conditional jump *)
| Kcompint31 (* dynamic compilation of int31 *)
| Kdecompint31 (* dynamic decompilation of int31 *)
(* /spiwack *)
and bytecodes = instruction list
type fv_elem = FVnamed of identifier | FVrel of int
type fv = fv_elem array
(* spiwack: this exception is expected to be raised by function expecting
closed terms. *)
exception NotClosed
(*spiwack: both type have been moved from Cbytegen because I needed then
for the retroknowledge *)
type vm_env = {
size : int; (* longueur de la liste [n] *)
fv_rev : fv_elem list (* [fvn; ... ;fv1] *)
}
type comp_env = {
nb_stack : int; (* nbre de variables sur la pile *)
in_stack : int list; (* position dans la pile *)
nb_rec : int; (* nbre de fonctions mutuellement *)
(* recursives = nbr *)
pos_rec : instruction list; (* instruction d'acces pour les variables *)
(* de point fix ou de cofix *)
offset : int;
in_env : vm_env ref
}
(* --- Pretty print *)
open Format
let rec instruction ppf = function
| Klabel lbl -> fprintf ppf "L%i:" lbl
| Kacc n -> fprintf ppf "\tacc %i" n
| Kenvacc n -> fprintf ppf "\tenvacc %i" n
| Koffsetclosure n -> fprintf ppf "\toffsetclosure %i" n
| Kpush -> fprintf ppf "\tpush"
| Kpop n -> fprintf ppf "\tpop %i" n
| Kpush_retaddr lbl -> fprintf ppf "\tpush_retaddr L%i" lbl
| Kapply n -> fprintf ppf "\tapply %i" n
| Kappterm(n, m) ->
fprintf ppf "\tappterm %i, %i" n m
| Kreturn n -> fprintf ppf "\treturn %i" n
| Kjump -> fprintf ppf "\tjump"
| Krestart -> fprintf ppf "\trestart"
| Kgrab n -> fprintf ppf "\tgrab %i" n
| Kgrabrec n -> fprintf ppf "\tgrabrec %i" n
| Kclosure(lbl, n) ->
fprintf ppf "\tclosure L%i, %i" lbl n
| Kclosurerec(fv,init,lblt,lblb) ->
fprintf ppf "\tclosurerec";
fprintf ppf "%i , %i, " fv init;
print_string "types = ";
Array.iter (fun lbl -> fprintf ppf " %i" lbl) lblt;
print_string " bodies = ";
Array.iter (fun lbl -> fprintf ppf " %i" lbl) lblb;
| Kclosurecofix (fv,init,lblt,lblb) ->
fprintf ppf "\tclosurecofix";
fprintf ppf " %i , %i, " fv init;
print_string "types = ";
Array.iter (fun lbl -> fprintf ppf " %i" lbl) lblt;
print_string " bodies = ";
Array.iter (fun lbl -> fprintf ppf " %i" lbl) lblb;
| Kgetglobal id -> fprintf ppf "\tgetglobal %s" (Names.string_of_con id)
| Kconst cst ->
fprintf ppf "\tconst"
| Kmakeblock(n, m) ->
fprintf ppf "\tmakeblock %i, %i" n m
| Kmakeprod -> fprintf ppf "\tmakeprod"
| Kmakeswitchblock(lblt,lbls,_,sz) ->
fprintf ppf "\tmakeswitchblock %i, %i, %i" lblt lbls sz
| Kswitch(lblc,lblb) ->
fprintf ppf "\tswitch";
Array.iter (fun lbl -> fprintf ppf " %i" lbl) lblc;
Array.iter (fun lbl -> fprintf ppf " %i" lbl) lblb;
| Kpushfields n -> fprintf ppf "\tpushfields %i" n
| Ksetfield n -> fprintf ppf "\tsetfield %i" n
| Kfield n -> fprintf ppf "\tgetfield %i" n
| Kstop -> fprintf ppf "\tstop"
| Ksequence (c1,c2) ->
fprintf ppf "%a@ %a" instruction_list c1 instruction_list c2
(* spiwack *)
| Kbranch lbl -> fprintf ppf "\tbranch %i" lbl
| Kaddint31 -> fprintf ppf "\taddint31"
| Kaddcint31 -> fprintf ppf "\taddcint31"
| Kaddcarrycint31 -> fprintf ppf "\taddcarrycint31"
| Ksubint31 -> fprintf ppf "\tsubint31"
| Ksubcint31 -> fprintf ppf "\tsubcint31"
| Ksubcarrycint31 -> fprintf ppf "\tsubcarrycint31"
| Kmulint31 -> fprintf ppf "\tmulint31"
| Kmulcint31 -> fprintf ppf "\tmulcint31"
| Kdiv21int31 -> fprintf ppf "\tdiv21int31"
| Kdivint31 -> fprintf ppf "\tdivint31"
| Kcompareint31 -> fprintf ppf "\tcompareint31"
| Khead0int31 -> fprintf ppf "\thead0int31"
| Ktail0int31 -> fprintf ppf "\ttail0int31"
| Kaddmuldivint31 -> fprintf ppf "\taddmuldivint31"
| Kisconst lbl -> fprintf ppf "\tisconst %i" lbl
| Kareconst(n,lbl) -> fprintf ppf "\tareconst %i %i" n lbl
| Kcompint31 -> fprintf ppf "\tcompint31"
| Kdecompint31 -> fprintf ppf "\tdecompint"
(* /spiwack *)
and instruction_list ppf = function
[] -> ()
| Klabel lbl :: il ->
fprintf ppf "L%i:%a" lbl instruction_list il
| instr :: il ->
fprintf ppf "%a@ %a" instruction instr instruction_list il
(*spiwack: moved this type in this file because I needed it for
retroknowledge which can't depend from cbytegen *)
type block =
| Bconstr of constr
| Bstrconst of structured_constant
| Bmakeblock of int * block array
| Bconstruct_app of int * int * int * block array
(* tag , nparams, arity *)
| Bspecial of (comp_env -> block array -> int -> bytecodes -> bytecodes) * block array
(* spiwack: compilation given by a function *)
(* compilation function (see get_vm_constant_dynamic_info in
retroknowledge.mli for more info) , argument array *)
let draw_instr c =
fprintf std_formatter "@[<v 0>%a@]" instruction_list c
|