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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2015 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Util
open Names
open Term
open Pattern
open Misctypes
open Genarg
open Stdarg
open Constrarg
exception CannotCoerceTo of string
let (wit_constr_context : (Empty.t, Empty.t, constr) Genarg.genarg_type) =
Genarg.create_arg None "constr_context"
(* includes idents known to be bound and references *)
let (wit_constr_under_binders : (Empty.t, Empty.t, constr_under_binders) Genarg.genarg_type) =
Genarg.create_arg None "constr_under_binders"
module Value =
struct
type t = tlevel generic_argument
let rec normalize v =
if has_type v (topwit wit_genarg) then
normalize (out_gen (topwit wit_genarg) v)
else v
let of_constr c = in_gen (topwit wit_constr) c
let to_constr v =
let v = normalize v in
if has_type v (topwit wit_constr) then
let c = out_gen (topwit wit_constr) v in
Some c
else if has_type v (topwit wit_constr_under_binders) then
let vars, c = out_gen (topwit wit_constr_under_binders) v in
match vars with [] -> Some c | _ -> None
else None
let of_uconstr c = in_gen (topwit wit_uconstr) c
let to_uconstr v =
let v = normalize v in
if has_type v (topwit wit_uconstr) then
Some (out_gen (topwit wit_uconstr) v)
else None
let of_int i = in_gen (topwit wit_int) i
let to_int v =
let v = normalize v in
if has_type v (topwit wit_int) then
Some (out_gen (topwit wit_int) v)
else None
let to_list v =
let v = normalize v in
let list_unpacker wit l = List.map (fun v -> in_gen (topwit wit) v) (top l) in
try Some (list_unpack { list_unpacker } v)
with Failure _ -> None
end
let is_variable env id =
Id.List.mem id (Termops.ids_of_named_context (Environ.named_context env))
(* Transforms an id into a constr if possible, or fails with Not_found *)
let constr_of_id env id =
Term.mkVar (let _ = Environ.lookup_named id env in id)
(* Gives the constr corresponding to a Constr_context tactic_arg *)
let coerce_to_constr_context v =
let v = Value.normalize v in
if has_type v (topwit wit_constr_context) then
out_gen (topwit wit_constr_context) v
else raise (CannotCoerceTo "a term context")
(* Interprets an identifier which must be fresh *)
let coerce_to_ident fresh env v =
let v = Value.normalize v in
let fail () = raise (CannotCoerceTo "a fresh identifier") in
if has_type v (topwit wit_intro_pattern) then
match out_gen (topwit wit_intro_pattern) v with
| _, IntroNaming (IntroIdentifier id) -> id
| _ -> fail ()
else if has_type v (topwit wit_var) then
out_gen (topwit wit_var) v
else match Value.to_constr v with
| None -> fail ()
| Some c ->
(* We need it fresh for intro e.g. in "Tac H = clear H; intro H" *)
if isVar c && not (fresh && is_variable env (destVar c)) then
destVar c
else fail ()
let coerce_to_intro_pattern env v =
let v = Value.normalize v in
if has_type v (topwit wit_intro_pattern) then
snd (out_gen (topwit wit_intro_pattern) v)
else if has_type v (topwit wit_var) then
let id = out_gen (topwit wit_var) v in
IntroNaming (IntroIdentifier id)
else match Value.to_constr v with
| Some c when isVar c ->
(* This happens e.g. in definitions like "Tac H = clear H; intro H" *)
(* but also in "destruct H as (H,H')" *)
IntroNaming (IntroIdentifier (destVar c))
| _ -> raise (CannotCoerceTo "an introduction pattern")
let coerce_to_intro_pattern_naming env v =
match coerce_to_intro_pattern env v with
| IntroNaming pat -> pat
| _ -> raise (CannotCoerceTo "a naming introduction pattern")
let coerce_to_hint_base v =
let v = Value.normalize v in
if has_type v (topwit wit_intro_pattern) then
match out_gen (topwit wit_intro_pattern) v with
| _, IntroNaming (IntroIdentifier id) -> Id.to_string id
| _ -> raise (CannotCoerceTo "a hint base name")
else raise (CannotCoerceTo "a hint base name")
let coerce_to_int v =
let v = Value.normalize v in
if has_type v (topwit wit_int) then
out_gen (topwit wit_int) v
else raise (CannotCoerceTo "an integer")
let coerce_to_constr env v =
let v = Value.normalize v in
let fail () = raise (CannotCoerceTo "a term") in
if has_type v (topwit wit_intro_pattern) then
match out_gen (topwit wit_intro_pattern) v with
| _, IntroNaming (IntroIdentifier id) ->
(try ([], constr_of_id env id) with Not_found -> fail ())
| _ -> fail ()
else if has_type v (topwit wit_constr) then
let c = out_gen (topwit wit_constr) v in
([], c)
else if has_type v (topwit wit_constr_under_binders) then
out_gen (topwit wit_constr_under_binders) v
else if has_type v (topwit wit_var) then
let id = out_gen (topwit wit_var) v in
(try [], constr_of_id env id with Not_found -> fail ())
else fail ()
let coerce_to_uconstr env v =
let v = Value.normalize v in
if has_type v (topwit wit_uconstr) then
out_gen (topwit wit_uconstr) v
else
raise (CannotCoerceTo "an untyped term")
let coerce_to_closed_constr env v =
let ids,c = coerce_to_constr env v in
let () = if not (List.is_empty ids) then raise (CannotCoerceTo "a term") in
c
let coerce_to_evaluable_ref env v =
let fail () = raise (CannotCoerceTo "an evaluable reference") in
let v = Value.normalize v in
if has_type v (topwit wit_intro_pattern) then
match out_gen (topwit wit_intro_pattern) v with
| _, IntroNaming (IntroIdentifier id) when is_variable env id -> EvalVarRef id
| _ -> fail ()
else if has_type v (topwit wit_var) then
let id = out_gen (topwit wit_var) v in
if Id.List.mem id (Termops.ids_of_context env) then EvalVarRef id
else fail ()
else if has_type v (topwit wit_ref) then
let open Globnames in
let r = out_gen (topwit wit_ref) v in
match r with
| VarRef var -> EvalVarRef var
| ConstRef c -> EvalConstRef c
| IndRef _ | ConstructRef _ -> fail ()
else
let ev = match Value.to_constr v with
| Some c when isConst c -> EvalConstRef (Univ.out_punivs (destConst c))
| Some c when isVar c -> EvalVarRef (destVar c)
| _ -> fail ()
in
if Tacred.is_evaluable env ev then ev else fail ()
let coerce_to_constr_list env v =
let v = Value.to_list v in
match v with
| Some l ->
let map v = coerce_to_closed_constr env v in
List.map map l
| None -> raise (CannotCoerceTo "a term list")
let coerce_to_intro_pattern_list loc env v =
match Value.to_list v with
| None -> raise (CannotCoerceTo "an intro pattern list")
| Some l ->
let map v = (loc, coerce_to_intro_pattern env v) in
List.map map l
let coerce_to_hyp env v =
let fail () = raise (CannotCoerceTo "a variable") in
let v = Value.normalize v in
if has_type v (topwit wit_intro_pattern) then
match out_gen (topwit wit_intro_pattern) v with
| _, IntroNaming (IntroIdentifier id) when is_variable env id -> id
| _ -> fail ()
else if has_type v (topwit wit_var) then
let id = out_gen (topwit wit_var) v in
if is_variable env id then id else fail ()
else match Value.to_constr v with
| Some c when isVar c -> destVar c
| _ -> fail ()
let coerce_to_hyp_list env v =
let v = Value.to_list v in
match v with
| Some l ->
let map n = coerce_to_hyp env n in
List.map map l
| None -> raise (CannotCoerceTo "a variable list")
(* Interprets a qualified name *)
let coerce_to_reference env v =
let v = Value.normalize v in
match Value.to_constr v with
| Some c ->
begin
try Globnames.global_of_constr c
with Not_found -> raise (CannotCoerceTo "a reference")
end
| None -> raise (CannotCoerceTo "a reference")
(* Quantified named or numbered hypothesis or hypothesis in context *)
(* (as in Inversion) *)
let coerce_to_quantified_hypothesis v =
let v = Value.normalize v in
if has_type v (topwit wit_intro_pattern) then
let v = out_gen (topwit wit_intro_pattern) v in
match v with
| _, IntroNaming (IntroIdentifier id) -> NamedHyp id
| _ -> raise (CannotCoerceTo "a quantified hypothesis")
else if has_type v (topwit wit_var) then
let id = out_gen (topwit wit_var) v in
NamedHyp id
else if has_type v (topwit wit_int) then
AnonHyp (out_gen (topwit wit_int) v)
else match Value.to_constr v with
| Some c when isVar c -> NamedHyp (destVar c)
| _ -> raise (CannotCoerceTo "a quantified hypothesis")
(* Quantified named or numbered hypothesis or hypothesis in context *)
(* (as in Inversion) *)
let coerce_to_decl_or_quant_hyp env v =
let v = Value.normalize v in
if has_type v (topwit wit_int) then
AnonHyp (out_gen (topwit wit_int) v)
else
try coerce_to_quantified_hypothesis v
with CannotCoerceTo _ ->
raise (CannotCoerceTo "a declared or quantified hypothesis")
let coerce_to_int_or_var_list v =
match Value.to_list v with
| None -> raise (CannotCoerceTo "an int list")
| Some l ->
let map n = ArgArg (coerce_to_int n) in
List.map map l
|