Module Coqlib
val register_ref : string -> Names.GlobRef.t -> unit
Registers a global reference under the given name.
val lib_ref : string -> Names.GlobRef.t
Retrieves the reference bound to the given name (by a previous call to
register_ref
). RaisesNotFoundRef
if no reference is bound to this name.
val lib_ref_opt : string -> Names.GlobRef.t option
As
lib_ref
but returnsNone
instead of raising.
val has_ref : string -> bool
Checks whether a name refers to a registered constant. For any name
n
, ifhas_ref n
returnstrue
,lib_ref n
will succeed.
val check_ind_ref : string -> Names.inductive -> bool
Checks whether a name is bound to a known inductive.
val get_lib_refs : unit -> (string * Names.GlobRef.t) list
List of all currently bound names.
For Equality tactics
type coq_sigma_data
=
{
proj1 : Names.GlobRef.t;
proj2 : Names.GlobRef.t;
elim : Names.GlobRef.t;
intro : Names.GlobRef.t;
typ : Names.GlobRef.t;
}
val build_sigma_set : coq_sigma_data Util.delayed
val build_sigma_type : coq_sigma_data Util.delayed
val build_sigma : coq_sigma_data Util.delayed
type coq_eq_data
=
{
eq : Names.GlobRef.t;
ind : Names.GlobRef.t;
refl : Names.GlobRef.t;
sym : Names.GlobRef.t;
trans : Names.GlobRef.t;
congr : Names.GlobRef.t;
}
val build_coq_eq_data : coq_eq_data Util.delayed
val build_coq_identity_data : coq_eq_data Util.delayed
val build_coq_jmeq_data : coq_eq_data Util.delayed
val check_required_library : string list -> unit
For tactics/commands requiring vernacular libraries
DEPRECATED
val find_reference : string -> string list -> string -> Names.GlobRef.t
find_reference caller_message [dir;subdir;...] s
returns a global reference to the name dir.subdir.(...).s; the corresponding module must have been required or in the process of being compiled so that it must be used lazily; it raises an anomaly with the given message if not found
val coq_reference : string -> string list -> string -> Names.GlobRef.t
This just prefixes find_reference with Coq...
val gen_reference_in_modules : string -> string list list -> string -> Names.GlobRef.t
Search in several modules (not prefixed by "Coq")
val arith_modules : string list list
val zarith_base_modules : string list list
val init_modules : string list list
Global references
val logic_module : Names.ModPath.t
Modules
val logic_type_module : Names.DirPath.t
val id : Names.Constant.t
Identity
val type_of_id : Names.Constant.t
val nat_path : Libnames.full_path
val glob_nat : Names.GlobRef.t
val path_of_O : Names.constructor
val path_of_S : Names.constructor
val glob_O : Names.GlobRef.t
val glob_S : Names.GlobRef.t
val glob_bool : Names.GlobRef.t
Booleans
val path_of_true : Names.constructor
val path_of_false : Names.constructor
val glob_true : Names.GlobRef.t
val glob_false : Names.GlobRef.t
val glob_eq : Names.GlobRef.t
Equality
val glob_identity : Names.GlobRef.t
val glob_jmeq : Names.GlobRef.t
...
type coq_bool_data
=
{
andb : Names.GlobRef.t;
andb_prop : Names.GlobRef.t;
andb_true_intro : Names.GlobRef.t;
}
val build_bool_type : coq_bool_data Util.delayed
val build_prod : coq_sigma_data Util.delayed
Non-dependent pairs in Set from Datatypes
val build_coq_eq : Names.GlobRef.t Util.delayed
=
(build_coq_eq_data()).eq
val build_coq_eq_refl : Names.GlobRef.t Util.delayed
=
(build_coq_eq_data()).refl
val build_coq_eq_sym : Names.GlobRef.t Util.delayed
=
(build_coq_eq_data()).sym
val build_coq_f_equal2 : Names.GlobRef.t Util.delayed
type coq_inversion_data
=
{
inv_eq : Names.GlobRef.t;
: forall params, args -> Prop
inv_ind : Names.GlobRef.t;
: forall params P (H : P params) args, eq params args -> P args
inv_congr : Names.GlobRef.t;
: forall params B (f:t->B) args, eq params args -> f params = f args
}
val build_coq_inversion_eq_data : coq_inversion_data Util.delayed
val build_coq_inversion_identity_data : coq_inversion_data Util.delayed
val build_coq_inversion_jmeq_data : coq_inversion_data Util.delayed
val build_coq_inversion_eq_true_data : coq_inversion_data Util.delayed
val build_coq_sumbool : Names.GlobRef.t Util.delayed
Specif
val build_coq_False : Names.GlobRef.t Util.delayed
...
Connectives The False proposition
val build_coq_True : Names.GlobRef.t Util.delayed
The True proposition and its unique proof
val build_coq_I : Names.GlobRef.t Util.delayed
val build_coq_not : Names.GlobRef.t Util.delayed
Negation
val build_coq_and : Names.GlobRef.t Util.delayed
Conjunction
val build_coq_conj : Names.GlobRef.t Util.delayed
val build_coq_iff : Names.GlobRef.t Util.delayed
val build_coq_iff_left_proj : Names.GlobRef.t Util.delayed
val build_coq_iff_right_proj : Names.GlobRef.t Util.delayed
val build_coq_prod : Names.GlobRef.t Util.delayed
Pairs
val build_coq_pair : Names.GlobRef.t Util.delayed
val build_coq_or : Names.GlobRef.t Util.delayed
Disjunction
val build_coq_ex : Names.GlobRef.t Util.delayed
Existential quantifier
val coq_eq_ref : Names.GlobRef.t lazy_t
val coq_identity_ref : Names.GlobRef.t lazy_t
val coq_jmeq_ref : Names.GlobRef.t lazy_t
val coq_eq_true_ref : Names.GlobRef.t lazy_t
val coq_existS_ref : Names.GlobRef.t lazy_t
val coq_existT_ref : Names.GlobRef.t lazy_t
val coq_exist_ref : Names.GlobRef.t lazy_t
val coq_not_ref : Names.GlobRef.t lazy_t
val coq_False_ref : Names.GlobRef.t lazy_t
val coq_sumbool_ref : Names.GlobRef.t lazy_t
val coq_sig_ref : Names.GlobRef.t lazy_t
val coq_or_ref : Names.GlobRef.t lazy_t
val coq_iff_ref : Names.GlobRef.t lazy_t