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|
(************************************************************************)
(* * The Coq Proof Assistant / The Coq Development Team *)
(* v * Copyright INRIA, CNRS and contributors *)
(* <O___,, * (see version control and CREDITS file for authors & dates) *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(* * (see LICENSE file for the text of the license) *)
(************************************************************************)
open Analyze
(* This module defines validation functions to ensure an imported
value (using input_value) has the correct structure. *)
let rec pr_obj_rec mem o = match o with
| Int i ->
Format.print_int i
| Ptr p ->
let v = LargeArray.get mem p in
begin match v with
| Struct (tag, data) ->
let n = Array.length data in
Format.print_string ("#"^string_of_int tag^"(");
Format.open_hvbox 0;
for i = 0 to n-1 do
pr_obj_rec mem (Array.get data i);
if i<>n-1 then (Format.print_string ","; Format.print_cut())
done;
Format.close_box();
Format.print_string ")"
| String s ->
Format.print_string ("\""^String.escaped s^"\"")
| Int64 _
| Float64 _ ->
Format.print_string "?"
end
| Atm tag ->
Format.print_string ("#"^string_of_int tag^"()");
| Fun addr ->
Format.printf "fun@%x" addr
let pr_obj mem o = pr_obj_rec mem o; Format.print_newline()
(**************************************************************************)
(* Obj low-level validators *)
type error_frame =
| CtxAnnot of string
| CtxType of string
| CtxField of int
| CtxTag of int
type error_context = error_frame list
let mt_ec : error_context = []
let (/) (ctx:error_context) s : error_context = s::ctx
exception ValidObjError of string * error_context * data
let fail _mem ctx o s = raise (ValidObjError(s,ctx,o))
let is_block mem o = match o with
| Ptr _ | Atm _ -> true
| Fun _ | Int _ -> false
let is_int _mem o = match o with
| Int _ -> true
| Fun _ | Ptr _ | Atm _ -> false
let is_int64 mem o = match o with
| Int _ | Fun _ | Atm _ -> false
| Ptr p ->
match LargeArray.get mem p with
| Int64 _ -> true
| Float64 _ | Struct _ | String _ -> false
let is_float64 mem o = match o with
| Int _ | Fun _ | Atm _ -> false
| Ptr p ->
match LargeArray.get mem p with
| Float64 _ -> true
| Int64 _ | Struct _ | String _ -> false
let get_int _mem = function
| Int i -> i
| Fun _ | Ptr _ | Atm _ -> assert false
let tag mem o = match o with
| Atm tag -> tag
| Fun _ -> Obj.out_of_heap_tag
| Int _ -> Obj.int_tag
| Ptr p ->
match LargeArray.get mem p with
| Struct (tag, _) -> tag
| String _ -> Obj.string_tag
| Float64 _ -> Obj.double_tag
| Int64 _ -> Obj.custom_tag
let size mem o = match o with
| Atm _ -> 0
| Fun _ | Int _ -> assert false
| Ptr p ->
match LargeArray.get mem p with
| Struct (tag, blk) -> Array.length blk
| String _ | Float64 _ | Int64 _ -> assert false
let field mem o i = match o with
| Atm _ | Fun _ | Int _ -> assert false
| Ptr p ->
match LargeArray.get mem p with
| Struct (tag, blk) -> Array.get blk i
| String _ | Float64 _ | Int64 _ -> assert false
(* Check that object o is a block with tag t *)
let val_tag t mem ctx o =
if is_block mem o && tag mem o = t then ()
else fail mem ctx o ("expected tag "^string_of_int t)
let val_block mem ctx o =
if is_block mem o then
(if tag mem o > Obj.no_scan_tag then
fail mem ctx o "block: found no scan tag")
else fail mem ctx o "expected block obj"
let val_dyn mem ctx o =
let fail () = fail mem ctx o "expected a Dyn.t" in
if not (is_block mem o) then fail ()
else if not (size mem o = 2) then fail ()
else if not (tag mem (field mem o 0) = Obj.int_tag) then fail ()
else ()
open Values
let rec val_gen v mem ctx o = match v with
| Tuple (name,vs) -> val_tuple ~name vs mem ctx o
| Sum (name,cc,vv) -> val_sum name cc vv mem ctx o
| Array v -> val_array v mem ctx o
| List v0 -> val_sum "list" 1 [|[|Annot ("elem",v0);v|]|] mem ctx o
| Opt v -> val_sum "option" 1 [|[|v|]|] mem ctx o
| Int -> if not (is_int mem o) then fail mem ctx o "expected an int"
| String ->
(try val_tag Obj.string_tag mem ctx o
with Failure _ -> fail mem ctx o "expected a string")
| Any -> ()
| Fail s -> fail mem ctx o ("unexpected object " ^ s)
| Annot (s,v) -> val_gen v mem (ctx/CtxAnnot s) o
| Dyn -> val_dyn mem ctx o
| Proxy { contents = v } -> val_gen v mem ctx o
| Int64 -> val_int64 mem ctx o
| Float64 -> val_float64 mem ctx o
(* Check that an object is a tuple (or a record). vs is an array of
value representation for each field. Its size corresponds to the
expected size of the object. *)
and val_tuple ?name vs mem ctx o =
let ctx = match name with
| Some n -> ctx/CtxType n
| _ -> ctx
in
let n = Array.length vs in
let val_fld i v =
val_gen v mem (ctx/(CtxField i)) (field mem o i) in
val_block mem ctx o;
if size mem o = n then Array.iteri val_fld vs
else
fail mem ctx o
("tuple size: found "^string_of_int (size mem o)^
", expected "^string_of_int n)
(* Check that the object is either a constant constructor of tag < cc,
or a constructed variant. each element of vv is an array of
value representations of the constructor arguments.
The size of vv corresponds to the number of non-constant
constructors, and the size of vv.(i) is the expected arity of the
i-th non-constant constructor. *)
and val_sum name cc vv mem ctx o =
let ctx = ctx/CtxType name in
if is_block mem o then
(val_block mem ctx o;
let n = Array.length vv in
let i = tag mem o in
let ctx' = if n=1 then ctx else ctx/CtxTag i in
if i < n then val_tuple vv.(i) mem ctx' o
else fail mem ctx' o ("sum: unexpected tag"))
else if is_int mem o then
let (n:int) = get_int mem o in
(if n<0 || n>=cc then
fail mem ctx o ("bad constant constructor "^string_of_int n))
else fail mem ctx o "not a sum"
(* Check the o is an array of values satisfying f. *)
and val_array v mem ctx o =
val_block mem (ctx/CtxType "array") o;
for i = 0 to size mem o - 1 do
val_gen v mem ctx (field mem o i)
done
and val_int64 mem ctx o =
if not (is_int64 mem o) then
fail mem ctx o "not a 63-bit unsigned integer"
and val_float64 mem ctx o =
if not (is_float64 mem o) then
fail mem ctx o "not a 64-bit float"
let print_frame = function
| CtxType t -> t
| CtxAnnot t -> t
| CtxField i -> Printf.sprintf "fld=%i" i
| CtxTag i -> Printf.sprintf "tag=%i" i
let validate v (o, mem) =
try val_gen v mem mt_ec o
with ValidObjError(msg,ctx,obj) ->
let rctx = List.rev_map print_frame ctx in
print_endline ("Context: "^String.concat"/"rctx);
pr_obj mem obj;
failwith ("Validation failed: "^msg^" (in "^(print_frame (List.hd ctx))^")")
|
