package coq

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Class type
val allocc : Ssrast.ssrocc
val hyp_id : Ssrast.ssrhyp -> Names.Id.t
val hyps_ids : Ssrast.ssrhyps -> Names.Id.t list
val check_hyp_exists : ('a, 'b) Context.Named.pt -> Ssrast.ssrhyp -> unit
val test_hyp_exists : ('a, 'b) Context.Named.pt -> Ssrast.ssrhyp -> bool
val check_hyps_uniq : Names.Id.t list -> Ssrast.ssrhyps -> unit
val not_section_id : Names.Id.t -> bool
val hyp_err : ?loc:Loc.t -> string -> Names.Id.t -> 'a
val hoik : (Ssrast.ssrhyp -> 'a) -> Ssrast.ssrhyp_or_id -> 'a
val mk_hint : 'a -> 'a Ssrast.ssrhint
val mk_orhint : 'a -> bool * 'a
val nullhint : bool * 'a list
val nohint : 'a Ssrast.ssrhint
val errorstrm : Pp.t -> 'a
val anomaly : string -> 'a
val array_app_tl : 'a array -> 'a list -> 'a list
val array_list_of_tl : 'a array -> 'a list
val array_fold_right_from : int -> ('a -> 'b -> 'b) -> 'a array -> 'b -> 'b
val option_assert_get : 'a option -> Pp.t -> 'a
val mkRHole : Glob_term.glob_constr
val mkRHoles : int -> Glob_term.glob_constr list
val isRHoles : Glob_term.glob_constr list -> bool
val mkRltacVar : Names.Id.t -> Glob_term.glob_constr
val mkRType : Glob_term.glob_constr
val mkRProp : Glob_term.glob_constr
val mkRnat : int -> Glob_term.glob_constr
val mkCHole : Loc.t option -> Constrexpr.constr_expr
val mkCHoles : ?loc:Loc.t -> int -> Constrexpr.constr_expr list
val mkCVar : ?loc:Loc.t -> Names.Id.t -> Constrexpr.constr_expr
val mkCType : Loc.t option -> Constrexpr.constr_expr
val mkCProp : Loc.t option -> Constrexpr.constr_expr
val isCHoles : Constrexpr.constr_expr list -> bool
val isCxHoles : (Constrexpr.constr_expr * 'a option) list -> bool
val isAppInd : Environ.env -> Evd.evar_map -> EConstr.types -> bool
val mk_ast_closure_term : [ `None | `Parens | `DoubleParens | `At ] -> Constrexpr.constr_expr -> Ssrast.ast_closure_term
val ssrterm_of_ast_closure_term : Ssrast.ast_closure_term -> Ssrast.ssrterm
val is_internal_name : string -> bool
val add_internal_name : (string -> bool) -> unit
val mk_internal_id : string -> Names.Id.t
val mk_tagged_id : string -> int -> Names.Id.t
val mk_evar_name : int -> Names.Name.t
val ssr_anon_hyp : string
val abs_evars : Environ.env -> Evd.evar_map -> ?rigid:Evar.t list -> (Evd.evar_map * EConstr.t) -> EConstr.t * Evar.t list * UState.t
val abs_cterm : Environ.env -> Evd.evar_map -> int -> EConstr.t -> EConstr.t
val constr_name : Evd.evar_map -> EConstr.t -> Names.Name.t
val mkSsrRef : string -> Names.GlobRef.t
val mkSsrRRef : string -> Glob_term.glob_constr * 'a option
val mkSsrConst : Environ.env -> Evd.evar_map -> string -> Evd.evar_map * EConstr.t
val is_discharged_id : Names.Id.t -> bool
val mk_discharged_id : Names.Id.t -> Names.Id.t
val is_tagged : string -> string -> bool
val has_discharged_tag : string -> bool
val ssrqid : string -> Libnames.qualid
val mk_anon_id : string -> Names.Id.t list -> Names.Id.t
val nbargs_open_constr : Environ.env -> (Evd.evar_map * EConstr.t) -> int
val pf_nbargs : Environ.env -> Evd.evar_map -> EConstr.t -> int
val convert_concl_no_check : EConstr.t -> unit Proofview.tactic
val convert_concl : check:bool -> EConstr.t -> unit Proofview.tactic
val red_product_skip_id : Environ.env -> Evd.evar_map -> EConstr.t -> EConstr.t
val ssrautoprop_tac : unit Proofview.tactic Stdlib.ref
val mkEtaApp : EConstr.t -> int -> int -> EConstr.t
val discharge_hyp : (Names.Id.t * (Names.Id.t * string)) -> unit Proofview.tactic
val view_error : string -> Ssrast.ssrterm -> 'a Proofview.tactic
val top_id : Names.Id.t
val abs_ssrterm : ?resolve_typeclasses:bool -> Ssrast.ist -> Environ.env -> Evd.evar_map -> Ssrast.ssrterm -> Evd.evar_map * EConstr.t * int
val ssr_n_tac : string -> int -> unit Proofview.tactic
val donetac : int -> unit Proofview.tactic
val applyn : with_evars:bool -> ?beta:bool -> ?with_shelve:bool -> ?first_goes_last:bool -> int -> EConstr.t -> unit Proofview.tactic
exception NotEnoughProducts
val saturate : ?beta:bool -> ?bi_types:bool -> Environ.env -> Evd.evar_map -> EConstr.constr -> ?ty:EConstr.types -> int -> EConstr.constr * EConstr.types * (int * EConstr.constr * EConstr.types) list * Evd.evar_map
val refine_with : ?first_goes_last:bool -> ?beta:bool -> ?with_evars:bool -> (Evd.evar_map * EConstr.t) -> unit Proofview.tactic
val resolve_typeclasses : Environ.env -> Evd.evar_map -> where:EConstr.t -> fail:bool -> Evd.evar_map
val rewritetac : ?under:bool -> Ssrast.ssrdir -> EConstr.t -> unit Proofview.tactic
type name_hint = (int * EConstr.types array) option Stdlib.ref

Basic tactics

val introid : ?orig:Names.Name.t Stdlib.ref -> Names.Id.t -> unit Proofview.tactic
val intro_anon : unit Proofview.tactic
val genclrtac : EConstr.constr -> EConstr.constr list -> Ssrast.ssrhyp list -> unit Proofview.tactic
val cleartac : Ssrast.ssrhyps -> unit Proofview.tactic
val tclMULT : (int * Ssrast.ssrmmod) -> unit Proofview.tactic -> unit Proofview.tactic
val unprotecttac : unit Proofview.tactic
val is_protect : EConstr.t -> Environ.env -> Evd.evar_map -> bool
val abs_wgen : Environ.env -> Evd.evar_map -> bool -> (Names.Id.t -> Names.Id.t) -> ('a * ((Ssrast.ssrhyp_or_id * string) * Ssrmatching_plugin.Ssrmatching.cpattern option) option) -> (EConstr.t list * EConstr.t) -> Evd.evar_map * EConstr.t list * EConstr.t
val clr_of_wgen : (Ssrast.ssrhyps * ((Ssrast.ssrhyp_or_id * 'a) * 'b option) option) -> unit Proofview.tactic list -> unit Proofview.tactic list
val unfold : EConstr.t list -> unit Proofview.tactic
val tclINTERP_AST_CLOSURE_TERM_AS_CONSTR : Ssrast.ast_closure_term -> EConstr.t list Proofview.tactic
val tclINTRO_ID : Names.Id.t -> unit Proofview.tactic
val tclINTRO_ANON : ?seed:string -> unit -> unit Proofview.tactic
type intro_id =
  1. | Anon
  2. | Id of Names.Id.t
  3. | Seed of string
val tclINTRO : id:intro_id -> conclusion: (orig_name:Names.Name.t -> new_name:Names.Id.t -> unit Proofview.tactic) -> unit Proofview.tactic
val tclRENAME_HD_PROD : Names.Name.t -> unit Proofview.tactic
val tcl0G : default:'a -> 'a Proofview.tactic -> 'a Proofview.tactic
val tclFIRSTa : 'a Proofview.tactic list -> 'a Proofview.tactic
val tclFIRSTi : (int -> 'a Proofview.tactic) -> int -> 'a Proofview.tactic
val tacCONSTR_NAME : ?name:Names.Name.t -> EConstr.t -> Names.Name.t Proofview.tactic
val tacUNIFY : EConstr.t -> EConstr.t -> unit Proofview.tactic
val tacIS_INJECTION_CASE : ?ty:EConstr.types -> EConstr.t -> bool Proofview.tactic
val tclWITHTOP : (EConstr.t -> unit Proofview.tactic) -> unit Proofview.tactic

1 shot, hands-on the top of the stack, eg for => ->

val tacMK_SSR_CONST : string -> EConstr.t Proofview.tactic
module type StateType = sig ... end
module MakeState (S : StateType) : sig ... end
val is_ind_ref : Evd.evar_map -> EConstr.t -> Names.GlobRef.t -> bool
val is_construct_ref : Evd.evar_map -> EConstr.t -> Names.GlobRef.t -> bool
val is_const_ref : Evd.evar_map -> EConstr.t -> Names.GlobRef.t -> bool
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