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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2016 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Names
open Term
open Evd
open Environ
open Inductiveops
open Glob_term
open Evarutil
(** {5 Compilation of pattern-matching } *)
(** {6 Pattern-matching errors } *)
type pattern_matching_error =
| BadPattern of constructor * constr
| BadConstructor of constructor * inductive
| WrongNumargConstructor of constructor * int
| WrongNumargInductive of inductive * int
| UnusedClause of cases_pattern list
| NonExhaustive of cases_pattern list
| CannotInferPredicate of (constr * types) array
exception PatternMatchingError of env * evar_map * pattern_matching_error
val error_wrong_numarg_constructor_loc : Loc.t -> env -> constructor -> int -> 'a
val error_wrong_numarg_inductive_loc : Loc.t -> env -> inductive -> int -> 'a
(** {6 Compilation primitive. } *)
val compile_cases :
Loc.t -> case_style ->
(type_constraint -> env -> evar_map ref -> glob_constr -> unsafe_judgment) * evar_map ref ->
type_constraint ->
env -> glob_constr option * tomatch_tuples * cases_clauses ->
unsafe_judgment
val constr_of_pat :
Environ.env ->
Evd.evar_map ref ->
Context.Rel.Declaration.t list ->
Glob_term.cases_pattern ->
Names.Id.t list ->
Glob_term.cases_pattern *
(Context.Rel.Declaration.t list * Term.constr *
(Term.types * Term.constr list) * Glob_term.cases_pattern) *
Names.Id.t list
type 'a rhs =
{ rhs_env : env;
rhs_vars : Id.t list;
avoid_ids : Id.t list;
it : 'a option}
type 'a equation =
{ patterns : cases_pattern list;
rhs : 'a rhs;
alias_stack : Name.t list;
eqn_loc : Loc.t;
used : bool ref }
type 'a matrix = 'a equation list
(* 1st argument of IsInd is the original ind before extracting the summary *)
type tomatch_type =
| IsInd of types * inductive_type * Name.t list
| NotInd of constr option * types
(* spiwack: The first argument of [Pushed] is [true] for initial
Pushed and [false] otherwise. Used to decide whether the term being
matched on must be aliased in the variable case (only initial
Pushed need to be aliased). The first argument of [Alias] is [true]
if the alias was introduced by an initial pushed and [false]
otherwise.*)
type tomatch_status =
| Pushed of (bool*((constr * tomatch_type) * int list * Name.t))
| Alias of (bool * (Name.t * constr * (constr * types)))
| NonDepAlias
| Abstract of int * Context.Rel.Declaration.t
type tomatch_stack = tomatch_status list
(* We keep a constr for aliases and a cases_pattern for error message *)
type pattern_history =
| Top
| MakeConstructor of constructor * pattern_continuation
and pattern_continuation =
| Continuation of int * cases_pattern list * pattern_history
| Result of cases_pattern list
type 'a pattern_matching_problem =
{ env : env;
evdref : evar_map ref;
pred : constr;
tomatch : tomatch_stack;
history : pattern_continuation;
mat : 'a matrix;
caseloc : Loc.t;
casestyle : case_style;
typing_function: type_constraint -> env -> evar_map ref -> 'a option -> unsafe_judgment }
val compile : 'a pattern_matching_problem -> Environ.unsafe_judgment
val prepare_predicate : Loc.t ->
(Evarutil.type_constraint ->
Environ.env -> Evd.evar_map ref -> 'a -> Environ.unsafe_judgment) ->
Environ.env ->
Evd.evar_map ->
(Term.types * tomatch_type) list ->
Context.Rel.t list ->
Constr.constr option ->
'a option -> (Evd.evar_map * Names.name list * Term.constr) list
|