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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* $Id: safe_typing.ml 7602 2005-11-23 15:10:16Z barras $ *)
open Util
open Names
open Univ
open Term
open Reduction
open Sign
open Declarations
open Inductive
open Environ
open Entries
open Typeops
open Type_errors
open Indtypes
open Term_typing
open Modops
open Subtyping
open Mod_typing
type modvariant =
| NONE
| SIG of (* funsig params *) (mod_bound_id * module_type_body) list
| STRUCT of (* functor params *) (mod_bound_id * module_type_body) list
* (* optional result type *) module_type_body option
| LIBRARY of dir_path
type module_info =
{ msid : mod_self_id;
modpath : module_path;
seed : dir_path; (* the "seed" of unique identifier generator *)
label : label;
variant : modvariant}
let check_label l labset =
if Labset.mem l labset then error_existing_label l
type library_info = dir_path * Digest.t
type safe_environment =
{ old : safe_environment;
env : env;
modinfo : module_info;
labset : Labset.t;
revsign : module_signature_body;
revstruct : module_structure_body;
imports : library_info list;
loads : (module_path * module_body) list }
(*
{ old = senv.old;
env = ;
modinfo = senv.modinfo;
labset = ;
revsign = ;
imports = senv.imports ;
loads = senv.loads }
*)
(* a small hack to avoid variants and an unused case in all functions *)
let rec empty_environment =
{ old = empty_environment;
env = empty_env;
modinfo = {
msid = initial_msid;
modpath = initial_path;
seed = initial_dir;
label = mk_label "_";
variant = NONE};
labset = Labset.empty;
revsign = [];
revstruct = [];
imports = [];
loads = [] }
let env_of_safe_env senv = senv.env
let env_of_senv = env_of_safe_env
(* Insertion of section variables. They are now typed before being
added to the environment. *)
(* Same as push_named, but check that the variable is not already
there. Should *not* be done in Environ because tactics add temporary
hypothesis many many times, and the check performed here would
cost too much. *)
let safe_push_named (id,_,_ as d) env =
let _ =
try
let _ = lookup_named id env in
error ("identifier "^string_of_id id^" already defined")
with Not_found -> () in
Environ.push_named d env
let push_named_def (id,b,topt) senv =
let (c,typ,cst) = translate_local_def senv.env (b,topt) in
let env' = add_constraints cst senv.env in
let env'' = safe_push_named (id,Some c,typ) env' in
(cst, {senv with env=env''})
let push_named_assum (id,t) senv =
let (t,cst) = translate_local_assum senv.env t in
let env' = add_constraints cst senv.env in
let env'' = safe_push_named (id,None,t) env' in
(cst, {senv with env=env''})
(* Insertion of constants and parameters in environment. *)
type global_declaration =
| ConstantEntry of constant_entry
| GlobalRecipe of Cooking.recipe
let hcons_constant_body cb =
let body = match cb.const_body with
None -> None
| Some l_constr -> let constr = Declarations.force l_constr in
Some (Declarations.from_val (hcons1_constr constr))
in
{ cb with
const_body = body;
const_type = hcons1_constr cb.const_type }
let add_constant dir l decl senv =
check_label l senv.labset;
let kn = make_con senv.modinfo.modpath dir l in
let cb =
match decl with
| ConstantEntry ce -> translate_constant senv.env kn ce
| GlobalRecipe r ->
let cb = translate_recipe senv.env kn r in
if dir = empty_dirpath then hcons_constant_body cb else cb
in
let env' = Environ.add_constraints cb.const_constraints senv.env in
let env'' = Environ.add_constant kn cb env' in
kn, { old = senv.old;
env = env'';
modinfo = senv.modinfo;
labset = Labset.add l senv.labset;
revsign = (l,SPBconst cb)::senv.revsign;
revstruct = (l,SEBconst cb)::senv.revstruct;
imports = senv.imports;
loads = senv.loads }
(* Insertion of inductive types. *)
let add_mind dir l mie senv =
if mie.mind_entry_inds = [] then
anomaly "empty inductive types declaration";
(* this test is repeated by translate_mind *)
let id = (List.nth mie.mind_entry_inds 0).mind_entry_typename in
if l <> label_of_id id then
anomaly ("the label of inductive packet and its first inductive"^
" type do not match");
check_label l senv.labset;
(* TODO: when we will allow reorderings we will have to verify
all labels *)
let mib = translate_mind senv.env mie in
let env' = Environ.add_constraints mib.mind_constraints senv.env in
let kn = make_kn senv.modinfo.modpath dir l in
let env'' = Environ.add_mind kn mib env' in
kn, { old = senv.old;
env = env'';
modinfo = senv.modinfo;
labset = Labset.add l senv.labset; (* TODO: the same as above *)
revsign = (l,SPBmind mib)::senv.revsign;
revstruct = (l,SEBmind mib)::senv.revstruct;
imports = senv.imports;
loads = senv.loads }
(* Insertion of module types *)
let add_modtype l mte senv =
check_label l senv.labset;
let mtb = translate_modtype senv.env mte in
let env' = add_modtype_constraints senv.env mtb in
let kn = make_kn senv.modinfo.modpath empty_dirpath l in
let env'' = Environ.add_modtype kn mtb env' in
kn, { old = senv.old;
env = env'';
modinfo = senv.modinfo;
labset = Labset.add l senv.labset;
revsign = (l,SPBmodtype mtb)::senv.revsign;
revstruct = (l,SEBmodtype mtb)::senv.revstruct;
imports = senv.imports;
loads = senv.loads }
(* full_add_module adds module with universes and constraints *)
let full_add_module mp mb env =
let env = add_module_constraints env mb in
let env = Modops.add_module mp mb env in
env
(* Insertion of modules *)
let add_module l me senv =
check_label l senv.labset;
let mb = translate_module senv.env me in
let mspec = module_spec_of_body mb in
let mp = MPdot(senv.modinfo.modpath, l) in
let env' = full_add_module mp mb senv.env in
mp, { old = senv.old;
env = env';
modinfo = senv.modinfo;
labset = Labset.add l senv.labset;
revsign = (l,SPBmodule mspec)::senv.revsign;
revstruct = (l,SEBmodule mb)::senv.revstruct;
imports = senv.imports;
loads = senv.loads }
(* Interactive modules *)
let start_module l params result senv =
check_label l senv.labset;
let rec trans_params env = function
| [] -> env,[]
| (mbid,mte)::rest ->
let mtb = translate_modtype env mte in
let env =
full_add_module (MPbound mbid) (module_body_of_type mtb) env
in
let env,transrest = trans_params env rest in
env, (mbid,mtb)::transrest
in
let env,params_body = trans_params senv.env params in
let check_sig mtb = match scrape_modtype env mtb with
| MTBsig _ -> ()
| MTBfunsig _ -> error_result_must_be_signature mtb
| _ -> anomaly "start_module: modtype not scraped"
in
let result_body = option_app (translate_modtype env) result in
ignore (option_app check_sig result_body);
let msid = make_msid senv.modinfo.seed (string_of_label l) in
let mp = MPself msid in
let modinfo = { msid = msid;
modpath = mp;
seed = senv.modinfo.seed;
label = l;
variant = STRUCT(params_body,result_body) }
in
mp, { old = senv;
env = env;
modinfo = modinfo;
labset = Labset.empty;
revsign = [];
revstruct = [];
imports = senv.imports;
loads = [] }
let end_module l senv =
let oldsenv = senv.old in
let modinfo = senv.modinfo in
let params, restype =
match modinfo.variant with
| NONE | LIBRARY _ | SIG _ -> error_no_module_to_end ()
| STRUCT(params,restype) -> (params,restype)
in
if l <> modinfo.label then error_incompatible_labels l modinfo.label;
if not (empty_context senv.env) then error_local_context None;
let functorize_type =
List.fold_right
(fun (arg_id,arg_b) mtb -> MTBfunsig (arg_id,arg_b,mtb))
params
in
let auto_tb = MTBsig (modinfo.msid, List.rev senv.revsign) in
let mtb, mod_user_type, cst =
match restype with
| None -> functorize_type auto_tb, None, Constraint.empty
| Some res_tb ->
let cst = check_subtypes senv.env auto_tb res_tb in
let mtb = functorize_type res_tb in
mtb, Some mtb, cst
in
let mexpr =
List.fold_right
(fun (arg_id,arg_b) mtb -> MEBfunctor (arg_id,arg_b,mtb))
params
(MEBstruct (modinfo.msid, List.rev senv.revstruct))
in
let mb =
{ mod_expr = Some mexpr;
mod_user_type = mod_user_type;
mod_type = mtb;
mod_equiv = None;
mod_constraints = cst }
in
let mspec =
{ msb_modtype = mtb;
msb_equiv = None;
msb_constraints = Constraint.empty }
in
let mp = MPdot (oldsenv.modinfo.modpath, l) in
let newenv = oldsenv.env in
let newenv =
List.fold_left
(fun env (mp,mb) -> full_add_module mp mb env)
newenv
senv.loads
in
let newenv =
full_add_module mp mb newenv
in
mp, { old = oldsenv.old;
env = newenv;
modinfo = oldsenv.modinfo;
labset = Labset.add l oldsenv.labset;
revsign = (l,SPBmodule mspec)::oldsenv.revsign;
revstruct = (l,SEBmodule mb)::oldsenv.revstruct;
imports = senv.imports;
loads = senv.loads@oldsenv.loads }
(* Interactive module types *)
let start_modtype l params senv =
check_label l senv.labset;
let rec trans_params env = function
| [] -> env,[]
| (mbid,mte)::rest ->
let mtb = translate_modtype env mte in
let env =
full_add_module (MPbound mbid) (module_body_of_type mtb) env
in
let env,transrest = trans_params env rest in
env, (mbid,mtb)::transrest
in
let env,params_body = trans_params senv.env params in
let msid = make_msid senv.modinfo.seed (string_of_label l) in
let mp = MPself msid in
let modinfo = { msid = msid;
modpath = mp;
seed = senv.modinfo.seed;
label = l;
variant = SIG params_body }
in
mp, { old = senv;
env = env;
modinfo = modinfo;
labset = Labset.empty;
revsign = [];
revstruct = [];
imports = senv.imports;
loads = [] }
let end_modtype l senv =
let oldsenv = senv.old in
let modinfo = senv.modinfo in
let params =
match modinfo.variant with
| LIBRARY _ | NONE | STRUCT _ -> error_no_modtype_to_end ()
| SIG params -> params
in
if l <> modinfo.label then error_incompatible_labels l modinfo.label;
if not (empty_context senv.env) then error_local_context None;
let res_tb = MTBsig (modinfo.msid, List.rev senv.revsign) in
let mtb =
List.fold_right
(fun (arg_id,arg_b) mtb -> MTBfunsig (arg_id,arg_b,mtb))
params
res_tb
in
let kn = make_kn oldsenv.modinfo.modpath empty_dirpath l in
let newenv = oldsenv.env in
let newenv =
List.fold_left
(fun env (mp,mb) -> full_add_module mp mb env)
newenv
senv.loads
in
let newenv =
add_modtype_constraints newenv mtb
in
let newenv =
Environ.add_modtype kn mtb newenv
in
kn, { old = oldsenv.old;
env = newenv;
modinfo = oldsenv.modinfo;
labset = Labset.add l oldsenv.labset;
revsign = (l,SPBmodtype mtb)::oldsenv.revsign;
revstruct = (l,SEBmodtype mtb)::oldsenv.revstruct;
imports = senv.imports;
loads = senv.loads@oldsenv.loads }
let current_modpath senv = senv.modinfo.modpath
let current_msid senv = senv.modinfo.msid
let add_constraints cst senv =
{senv with env = Environ.add_constraints cst senv.env}
(* Check that the engagement expected by a library matches the initial one *)
let check_engagement env c =
match Environ.engagement env, c with
| Some ImpredicativeSet, Some ImpredicativeSet -> ()
| _, None -> ()
| _, Some ImpredicativeSet ->
error "Needs option -impredicative-set"
let set_engagement c senv =
{senv with env = Environ.set_engagement c senv.env}
(* Libraries = Compiled modules *)
type compiled_library =
dir_path * module_body * library_info list * engagement option
(* We check that only initial state Require's were performed before
[start_library] was called *)
let is_empty senv =
senv.revsign = [] &&
senv.modinfo.msid = initial_msid &&
senv.modinfo.variant = NONE
let start_library dir senv =
if not (is_empty senv) then
anomaly "Safe_typing.start_library: environment should be empty";
let dir_path,l =
match (repr_dirpath dir) with
[] -> anomaly "Empty dirpath in Safe_typing.start_library"
| hd::tl ->
make_dirpath tl, label_of_id hd
in
let msid = make_msid dir_path (string_of_label l) in
let mp = MPself msid in
let modinfo = { msid = msid;
modpath = mp;
seed = dir;
label = l;
variant = LIBRARY dir }
in
mp, { old = senv;
env = senv.env;
modinfo = modinfo;
labset = Labset.empty;
revsign = [];
revstruct = [];
imports = senv.imports;
loads = [] }
let export senv dir =
let modinfo = senv.modinfo in
begin
match modinfo.variant with
| LIBRARY dp ->
if dir <> dp then
anomaly "We are not exporting the right library!"
| _ ->
anomaly "We are not exporting the library"
end;
(*if senv.modinfo.params <> [] || senv.modinfo.restype <> None then
(* error_export_simple *) (); *)
let mb =
{ mod_expr = Some (MEBstruct (modinfo.msid, List.rev senv.revstruct));
mod_type = MTBsig (modinfo.msid, List.rev senv.revsign);
mod_user_type = None;
mod_equiv = None;
mod_constraints = Constraint.empty }
in
modinfo.msid, (dir,mb,senv.imports,engagement senv.env)
let check_imports senv needed =
let imports = senv.imports in
let check (id,stamp) =
try
let actual_stamp = List.assoc id imports in
if stamp <> actual_stamp then
error ("Inconsistent assumptions over module " ^(string_of_dirpath id))
with Not_found ->
error ("Reference to unknown module " ^ (string_of_dirpath id))
in
List.iter check needed
(* we have an inefficiency: Since loaded files are added to the
environment every time a module is closed, their components are
calculated many times. Thic could be avoided in several ways:
1 - for each file create a dummy environment containing only this
file's components, merge this environment with the global
environment, and store for the future (instead of just its type)
2 - create "persistent modules" environment table in Environ add put
loaded by side-effect once and for all (like it is done in OCaml).
Would this be correct with respect to undo's and stuff ?
*)
let import (dp,mb,depends,engmt) digest senv =
check_imports senv depends;
check_engagement senv.env engmt;
let mp = MPfile dp in
let env = senv.env in
mp, { senv with
env = full_add_module mp mb env;
imports = (dp,digest)::senv.imports;
loads = (mp,mb)::senv.loads }
(* Remove the body of opaque constants in modules *)
let rec lighten_module mb =
{ mb with
mod_expr = option_app lighten_modexpr mb.mod_expr;
mod_type = lighten_modtype mb.mod_type;
mod_user_type = option_app lighten_modtype mb.mod_user_type }
and lighten_modtype = function
| MTBident kn as x -> x
| MTBfunsig (mbid,mtb1,mtb2) ->
MTBfunsig (mbid, lighten_modtype mtb1, lighten_modtype mtb2)
| MTBsig (msid,sign) -> MTBsig (msid, lighten_sig sign)
and lighten_modspec ms =
{ ms with msb_modtype = lighten_modtype ms.msb_modtype }
and lighten_sig sign =
let lighten_spec (l,spec) = (l,match spec with
| SPBconst ({const_opaque=true} as x) -> SPBconst {x with const_body=None}
| (SPBconst _ | SPBmind _) as x -> x
| SPBmodule m -> SPBmodule (lighten_modspec m)
| SPBmodtype m -> SPBmodtype (lighten_modtype m))
in
List.map lighten_spec sign
and lighten_struct struc =
let lighten_body (l,body) = (l,match body with
| SEBconst ({const_opaque=true} as x) -> SEBconst {x with const_body=None}
| (SEBconst _ | SEBmind _) as x -> x
| SEBmodule m -> SEBmodule (lighten_module m)
| SEBmodtype m -> SEBmodtype (lighten_modtype m))
in
List.map lighten_body struc
and lighten_modexpr = function
| MEBfunctor (mbid,mty,mexpr) ->
MEBfunctor (mbid,lighten_modtype mty,lighten_modexpr mexpr)
| MEBident mp as x -> x
| MEBstruct (msid, struc) ->
MEBstruct (msid, lighten_struct struc)
| MEBapply (mexpr,marg,u) ->
MEBapply (lighten_modexpr mexpr,lighten_modexpr marg,u)
let lighten_library (dp,mb,depends,s) = (dp,lighten_module mb,depends,s)
type judgment = unsafe_judgment
let j_val j = j.uj_val
let j_type j = j.uj_type
let safe_infer senv = infer (env_of_senv senv)
let typing senv = Typeops.typing (env_of_senv senv)
|