1 files changed, 80 insertions, 133 deletions
diff --git a/plugins/romega/const_omega.mli b/plugins/romega/const_omega.mli
index af50ea0f..64668df0 100644
--- a/plugins/romega/const_omega.mli
+++ b/plugins/romega/const_omega.mli
@@ -10,167 +10,114 @@
 (** Coq objects used in romega *)
 
 (* from Logic *)
-val coq_refl_equal : Term.constr lazy_t
-val coq_and : Term.constr lazy_t
-val coq_not : Term.constr lazy_t
-val coq_or : Term.constr lazy_t
-val coq_True : Term.constr lazy_t
-val coq_False : Term.constr lazy_t
-val coq_I : Term.constr lazy_t
+val coq_refl_equal : EConstr.t lazy_t
+val coq_and : EConstr.t lazy_t
+val coq_not : EConstr.t lazy_t
+val coq_or : EConstr.t lazy_t
+val coq_True : EConstr.t lazy_t
+val coq_False : EConstr.t lazy_t
+val coq_I : EConstr.t lazy_t
 
 (* from ReflOmegaCore/ZOmega *)
-val coq_h_step : Term.constr lazy_t
-val coq_pair_step : Term.constr lazy_t
-val coq_p_left : Term.constr lazy_t
-val coq_p_right : Term.constr lazy_t
-val coq_p_invert : Term.constr lazy_t
-val coq_p_step : Term.constr lazy_t
-
-val coq_t_int : Term.constr lazy_t
-val coq_t_plus : Term.constr lazy_t
-val coq_t_mult : Term.constr lazy_t
-val coq_t_opp : Term.constr lazy_t
-val coq_t_minus : Term.constr lazy_t
-val coq_t_var : Term.constr lazy_t
-
-val coq_proposition : Term.constr lazy_t
-val coq_p_eq : Term.constr lazy_t
-val coq_p_leq : Term.constr lazy_t
-val coq_p_geq : Term.constr lazy_t
-val coq_p_lt : Term.constr lazy_t
-val coq_p_gt : Term.constr lazy_t
-val coq_p_neq : Term.constr lazy_t
-val coq_p_true : Term.constr lazy_t
-val coq_p_false : Term.constr lazy_t
-val coq_p_not : Term.constr lazy_t
-val coq_p_or : Term.constr lazy_t
-val coq_p_and : Term.constr lazy_t
-val coq_p_imp : Term.constr lazy_t
-val coq_p_prop : Term.constr lazy_t
-
-val coq_f_equal : Term.constr lazy_t
-val coq_f_cancel : Term.constr lazy_t
-val coq_f_left : Term.constr lazy_t
-val coq_f_right : Term.constr lazy_t
-
-val coq_c_do_both : Term.constr lazy_t
-val coq_c_do_left : Term.constr lazy_t
-val coq_c_do_right : Term.constr lazy_t
-val coq_c_do_seq : Term.constr lazy_t
-val coq_c_nop : Term.constr lazy_t
-val coq_c_opp_plus : Term.constr lazy_t
-val coq_c_opp_opp : Term.constr lazy_t
-val coq_c_opp_mult_r : Term.constr lazy_t
-val coq_c_opp_one : Term.constr lazy_t
-val coq_c_reduce : Term.constr lazy_t
-val coq_c_mult_plus_distr : Term.constr lazy_t
-val coq_c_opp_left : Term.constr lazy_t
-val coq_c_mult_assoc_r : Term.constr lazy_t
-val coq_c_plus_assoc_r : Term.constr lazy_t
-val coq_c_plus_assoc_l : Term.constr lazy_t
-val coq_c_plus_permute : Term.constr lazy_t
-val coq_c_plus_comm : Term.constr lazy_t
-val coq_c_red0 : Term.constr lazy_t
-val coq_c_red1 : Term.constr lazy_t
-val coq_c_red2 : Term.constr lazy_t
-val coq_c_red3 : Term.constr lazy_t
-val coq_c_red4 : Term.constr lazy_t
-val coq_c_red5 : Term.constr lazy_t
-val coq_c_red6 : Term.constr lazy_t
-val coq_c_mult_opp_left : Term.constr lazy_t
-val coq_c_mult_assoc_reduced : Term.constr lazy_t
-val coq_c_minus : Term.constr lazy_t
-val coq_c_mult_comm : Term.constr lazy_t
-
-val coq_s_constant_not_nul : Term.constr lazy_t
-val coq_s_constant_neg : Term.constr lazy_t
-val coq_s_div_approx : Term.constr lazy_t
-val coq_s_not_exact_divide : Term.constr lazy_t
-val coq_s_exact_divide : Term.constr lazy_t
-val coq_s_sum : Term.constr lazy_t
-val coq_s_state : Term.constr lazy_t
-val coq_s_contradiction : Term.constr lazy_t
-val coq_s_merge_eq : Term.constr lazy_t
-val coq_s_split_ineq : Term.constr lazy_t
-val coq_s_constant_nul : Term.constr lazy_t
-val coq_s_negate_contradict : Term.constr lazy_t
-val coq_s_negate_contradict_inv : Term.constr lazy_t
-
-val coq_direction : Term.constr lazy_t
-val coq_d_left : Term.constr lazy_t
-val coq_d_right : Term.constr lazy_t
-val coq_d_mono : Term.constr lazy_t
-
-val coq_e_split : Term.constr lazy_t
-val coq_e_extract : Term.constr lazy_t
-val coq_e_solve : Term.constr lazy_t
-
-val coq_interp_sequent : Term.constr lazy_t
-val coq_do_omega : Term.constr lazy_t
-
-(** Building expressions *)
-
-val do_left : Term.constr -> Term.constr
-val do_right : Term.constr -> Term.constr
-val do_both : Term.constr -> Term.constr -> Term.constr
-val do_seq : Term.constr -> Term.constr -> Term.constr
-val do_list : Term.constr list -> Term.constr
-
-val mk_nat : int -> Term.constr
+
+val coq_t_int : EConstr.t lazy_t
+val coq_t_plus : EConstr.t lazy_t
+val coq_t_mult : EConstr.t lazy_t
+val coq_t_opp : EConstr.t lazy_t
+val coq_t_minus : EConstr.t lazy_t
+val coq_t_var : EConstr.t lazy_t
+
+val coq_proposition : EConstr.t lazy_t
+val coq_p_eq : EConstr.t lazy_t
+val coq_p_leq : EConstr.t lazy_t
+val coq_p_geq : EConstr.t lazy_t
+val coq_p_lt : EConstr.t lazy_t
+val coq_p_gt : EConstr.t lazy_t
+val coq_p_neq : EConstr.t lazy_t
+val coq_p_true : EConstr.t lazy_t
+val coq_p_false : EConstr.t lazy_t
+val coq_p_not : EConstr.t lazy_t
+val coq_p_or : EConstr.t lazy_t
+val coq_p_and : EConstr.t lazy_t
+val coq_p_imp : EConstr.t lazy_t
+val coq_p_prop : EConstr.t lazy_t
+
+val coq_s_bad_constant : EConstr.t lazy_t
+val coq_s_divide : EConstr.t lazy_t
+val coq_s_not_exact_divide : EConstr.t lazy_t
+val coq_s_sum : EConstr.t lazy_t
+val coq_s_merge_eq : EConstr.t lazy_t
+val coq_s_split_ineq : EConstr.t lazy_t
+
+val coq_direction : EConstr.t lazy_t
+val coq_d_left : EConstr.t lazy_t
+val coq_d_right : EConstr.t lazy_t
+
+val coq_e_split : EConstr.t lazy_t
+val coq_e_extract : EConstr.t lazy_t
+val coq_e_solve : EConstr.t lazy_t
+
+val coq_interp_sequent : EConstr.t lazy_t
+val coq_do_omega : EConstr.t lazy_t
+
+val mk_nat : int -> EConstr.t
+val mk_N : int -> EConstr.t
+
 (** Precondition: the type of the list is in Set *)
-val mk_list : Term.constr -> Term.constr list -> Term.constr
-val mk_plist : Term.types list -> Term.types
-val mk_shuffle_list : Term.constr list -> Term.constr
+val mk_list : EConstr.t -> EConstr.t list -> EConstr.t
+val mk_plist : EConstr.types list -> EConstr.types
 
 (** Analyzing a coq term *)
 
 (* The generic result shape of the analysis of a term.
    One-level depth, except when a number is found *)
 type parse_term =
-    Tplus of Term.constr * Term.constr
-  | Tmult of Term.constr * Term.constr
-  | Tminus of Term.constr * Term.constr
-  | Topp of Term.constr
-  | Tsucc of Term.constr
+    Tplus of EConstr.t * EConstr.t
+  | Tmult of EConstr.t * EConstr.t
+  | Tminus of EConstr.t * EConstr.t
+  | Topp of EConstr.t
+  | Tsucc of EConstr.t
   | Tnum of Bigint.bigint
   | Tother
 
 (* The generic result shape of the analysis of a relation.
    One-level depth. *)
 type parse_rel =
-    Req of Term.constr * Term.constr
-  | Rne of Term.constr * Term.constr
-  | Rlt of Term.constr * Term.constr
-  | Rle of Term.constr * Term.constr
-  | Rgt of Term.constr * Term.constr
-  | Rge of Term.constr * Term.constr
+    Req of EConstr.t * EConstr.t
+  | Rne of EConstr.t * EConstr.t
+  | Rlt of EConstr.t * EConstr.t
+  | Rle of EConstr.t * EConstr.t
+  | Rgt of EConstr.t * EConstr.t
+  | Rge of EConstr.t * EConstr.t
   | Rtrue
   | Rfalse
-  | Rnot of Term.constr
-  | Ror of Term.constr * Term.constr
-  | Rand of Term.constr * Term.constr
-  | Rimp of Term.constr * Term.constr
-  | Riff of Term.constr * Term.constr
+  | Rnot of EConstr.t
+  | Ror of EConstr.t * EConstr.t
+  | Rand of EConstr.t * EConstr.t
+  | Rimp of EConstr.t * EConstr.t
+  | Riff of EConstr.t * EConstr.t
   | Rother
 
 (* A module factorizing what we should now about the number representation *)
 module type Int =
   sig
     (* the coq type of the numbers *)
-    val typ : Term.constr Lazy.t
+    val typ : EConstr.t Lazy.t
+    (* Is a constr expands to the type of these numbers *)
+    val is_int_typ : Proofview.Goal.t -> EConstr.t -> bool
     (* the operations on the numbers *)
-    val plus : Term.constr Lazy.t
-    val mult : Term.constr Lazy.t
-    val opp : Term.constr Lazy.t
-    val minus : Term.constr Lazy.t
+    val plus : EConstr.t Lazy.t
+    val mult : EConstr.t Lazy.t
+    val opp : EConstr.t Lazy.t
+    val minus : EConstr.t Lazy.t
     (* building a coq number *)
-    val mk : Bigint.bigint -> Term.constr
+    val mk : Bigint.bigint -> EConstr.t
     (* parsing a term (one level, except if a number is found) *)
-    val parse_term : Term.constr -> parse_term
+    val parse_term : Evd.evar_map -> EConstr.t -> parse_term
     (* parsing a relation expression, including = < <= >= > *)
-    val parse_rel : Proof_type.goal Tacmach.sigma -> Term.constr -> parse_rel
+    val parse_rel : Proofview.Goal.t -> EConstr.t -> parse_rel
     (* Is a particular term only made of numbers and + * - ? *)
-    val is_scalar : Term.constr -> bool
+    val get_scalar : Evd.evar_map -> EConstr.t -> Bigint.bigint option
   end
 
 (* Currently, we only use Z numbers *)