Module Notation
Notations
val pr_notation : Constrexpr.notation -> Pp.t
Printing
val notation_entry_eq : Constrexpr.notation_entry -> Constrexpr.notation_entry -> bool
Equality on
notation_entry
.
val notation_entry_level_eq : Constrexpr.notation_entry_level -> Constrexpr.notation_entry_level -> bool
Equality on
notation_entry_level
.
val notation_eq : Constrexpr.notation -> Constrexpr.notation -> bool
Equality on
notation
.
module NotationSet : Stdlib.Set.S with type NotationSet.elt = Constrexpr.notation
module NotationMap : CMap.ExtS with type key = Constrexpr.notation and module Set := NotationSet
Scopes
val declare_scope : Notation_term.scope_name -> unit
val ensure_scope : Notation_term.scope_name -> unit
val current_scopes : unit -> scopes
val scope_is_open_in_scopes : Notation_term.scope_name -> scopes -> bool
Check where a scope is opened or not in a scope list, or in * the current opened scopes
val scope_is_open : Notation_term.scope_name -> bool
val open_close_scope : (bool * bool * Notation_term.scope_name) -> unit
val empty_scope_stack : scopes
Extend a list of scopes
val push_scope : Notation_term.scope_name -> scopes -> scopes
val find_scope : Notation_term.scope_name -> scope
val declare_delimiters : Notation_term.scope_name -> delimiters -> unit
val remove_delimiters : Notation_term.scope_name -> unit
val find_delimiters_scope : ?loc:Loc.t -> delimiters -> Notation_term.scope_name
Declare and uses back and forth an interpretation of primitive token
type notation_location
= (Names.DirPath.t * Names.DirPath.t) * string
type required_module
= Libnames.full_path * string list
type rawnum
= Constrexpr.sign * Constrexpr.raw_numeral
type prim_token_uid
= string
type 'a prim_token_interpreter
= ?loc:Loc.t -> 'a -> Glob_term.glob_constr
type 'a prim_token_uninterpreter
= Glob_term.any_glob_constr -> 'a option
type 'a prim_token_interpretation
= 'a prim_token_interpreter * 'a prim_token_uninterpreter
val register_rawnumeral_interpretation : ?allow_overwrite:bool -> prim_token_uid -> rawnum prim_token_interpretation -> unit
val register_bignumeral_interpretation : ?allow_overwrite:bool -> prim_token_uid -> Bigint.bigint prim_token_interpretation -> unit
val register_string_interpretation : ?allow_overwrite:bool -> prim_token_uid -> string prim_token_interpretation -> unit
exception
PrimTokenNotationError of string * Environ.env * Evd.evar_map * prim_token_notation_error
type numnot_option
=
|
Nop
|
Warning of string
|
Abstract of string
type int_ty
=
{
uint : Names.inductive;
int : Names.inductive;
}
type z_pos_ty
=
{
z_ty : Names.inductive;
pos_ty : Names.inductive;
}
type decimal_ty
=
{
int : int_ty;
decimal : Names.inductive;
}
type target_kind
=
|
Int of int_ty
|
UInt of Names.inductive
|
Z of z_pos_ty
|
Int63
|
Decimal of decimal_ty
type string_target_kind
=
|
ListByte
|
Byte
type option_kind
=
|
Option
|
Direct
type 'target conversion_kind
= 'target * option_kind
type ('target, 'warning) prim_token_notation_obj
=
{
to_kind : 'target conversion_kind;
to_ty : Names.GlobRef.t;
of_kind : 'target conversion_kind;
of_ty : Names.GlobRef.t;
ty_name : Libnames.qualid;
warning : 'warning;
}
type numeral_notation_obj
= (target_kind, numnot_option) prim_token_notation_obj
type string_notation_obj
= (string_target_kind, unit) prim_token_notation_obj
type prim_token_interp_info
=
|
Uid of prim_token_uid
|
NumeralNotation of numeral_notation_obj
|
StringNotation of string_notation_obj
type prim_token_infos
=
{
pt_local : bool;
Is this interpretation local?
pt_scope : Notation_term.scope_name;
Concerned scope
pt_interp_info : prim_token_interp_info;
Unique id "pointing" to (un)interp functions, OR a numeral notation object describing (un)interp functions
pt_required : required_module;
Module that should be loaded first
pt_refs : Names.GlobRef.t list;
Entry points during uninterpretation
pt_in_match : bool;
Is this prim token legal in match patterns ?
}
val enable_prim_token_interpretation : prim_token_infos -> unit
val declare_numeral_interpreter : ?local:bool -> Notation_term.scope_name -> required_module -> Bigint.bigint prim_token_interpreter -> (Glob_term.glob_constr list * Bigint.bigint prim_token_uninterpreter * bool) -> unit
val declare_string_interpreter : ?local:bool -> Notation_term.scope_name -> required_module -> string prim_token_interpreter -> (Glob_term.glob_constr list * string prim_token_uninterpreter * bool) -> unit
val interp_prim_token : ?loc:Loc.t -> Constrexpr.prim_token -> Notation_term.subscopes -> Glob_term.glob_constr * (notation_location * Notation_term.scope_name option)
val interp_prim_token_cases_pattern_expr : ?loc:Loc.t -> (Names.GlobRef.t -> unit) -> Constrexpr.prim_token -> Notation_term.subscopes -> Glob_term.glob_constr * (notation_location * Notation_term.scope_name option)
val uninterp_prim_token : 'a Glob_term.glob_constr_g -> Notation_term.scope_name * Constrexpr.prim_token
val uninterp_prim_token_cases_pattern : 'a Glob_term.cases_pattern_g -> Names.Name.t * Notation_term.scope_name * Constrexpr.prim_token
val availability_of_prim_token : Constrexpr.prim_token -> Notation_term.scope_name -> Notation_term.subscopes -> delimiters option option
Declare and interpret back and forth a notation
type interp_rule
=
|
NotationRule of Notation_term.scope_name option * Constrexpr.notation
|
SynDefRule of Names.KerName.t
Binds a notation in a given scope to an interpretation
val declare_notation_interpretation : Constrexpr.notation -> Notation_term.scope_name option -> Notation_term.interpretation -> notation_location -> onlyprint:bool -> Deprecation.t option -> unit
val declare_uninterpretation : interp_rule -> Notation_term.interpretation -> unit
val interp_notation : ?loc:Loc.t -> Constrexpr.notation -> Notation_term.subscopes -> Notation_term.interpretation * (notation_location * Notation_term.scope_name option)
Return the interpretation bound to a notation
type notation_rule
= interp_rule * Notation_term.interpretation * int option
val uninterp_notations : 'a Glob_term.glob_constr_g -> notation_rule list
Return the possible notations for a given term
val uninterp_cases_pattern_notations : 'a Glob_term.cases_pattern_g -> notation_rule list
val uninterp_ind_pattern_notations : Names.inductive -> notation_rule list
val availability_of_notation : (Notation_term.scope_name option * Constrexpr.notation) -> Notation_term.subscopes -> (Notation_term.scope_name option * delimiters option) option
Test if a notation is available in the scopes context
scopes
; if available, the result is not None; the first argument is itself not None if a delimiters is needed
Miscellaneous
val interp_notation_as_global_reference : ?loc:Loc.t -> (Names.GlobRef.t -> bool) -> Constrexpr.notation_key -> delimiters option -> Names.GlobRef.t
val exists_notation_in_scope : Notation_term.scope_name option -> Constrexpr.notation -> bool -> Notation_term.interpretation -> bool
Checks for already existing notations
val declare_arguments_scope : bool -> Names.GlobRef.t -> Notation_term.scope_name option list -> unit
Declares and looks for scopes associated to arguments of a global ref
val find_arguments_scope : Names.GlobRef.t -> Notation_term.scope_name option list
val scope_class_compare : scope_class -> scope_class -> int
Comparison of scope_class
val subst_scope_class : Mod_subst.substitution -> scope_class -> scope_class option
val declare_scope_class : Notation_term.scope_name -> scope_class -> unit
val declare_ref_arguments_scope : Evd.evar_map -> Names.GlobRef.t -> unit
val compute_arguments_scope : Evd.evar_map -> EConstr.types -> Notation_term.scope_name option list
val compute_type_scope : Evd.evar_map -> EConstr.types -> Notation_term.scope_name option
val current_type_scope_name : unit -> Notation_term.scope_name option
Get the current scope bound to Sortclass, if it exists
val scope_class_of_class : Classops.cl_typ -> scope_class
type symbol
=
|
Terminal of string
|
NonTerminal of Names.Id.t
|
SProdList of Names.Id.t * symbol list
|
Break of int
val symbol_eq : symbol -> symbol -> bool
val make_notation_key : Constrexpr.notation_entry_level -> symbol list -> Constrexpr.notation
Make/decompose a notation of the form "_ U _"
val decompose_notation_key : Constrexpr.notation -> Constrexpr.notation_entry_level * symbol list
val decompose_raw_notation : string -> symbol list
Decompose a notation of the form "a 'U' b"
val pr_scope_class : scope_class -> Pp.t
Prints scopes (expects a pure aconstr printer)
val pr_scope : (Glob_term.glob_constr -> Pp.t) -> Notation_term.scope_name -> Pp.t
val pr_scopes : (Glob_term.glob_constr -> Pp.t) -> Pp.t
val locate_notation : (Glob_term.glob_constr -> Pp.t) -> Constrexpr.notation_key -> Notation_term.scope_name option -> Pp.t
val pr_visibility : (Glob_term.glob_constr -> Pp.t) -> Notation_term.scope_name option -> Pp.t
type entry_coercion
= Constrexpr.notation list
val declare_entry_coercion : Constrexpr.notation -> Constrexpr.notation_entry_level -> unit
val availability_of_entry_coercion : Constrexpr.notation_entry_level -> Constrexpr.notation_entry_level -> entry_coercion option
val declare_custom_entry_has_global : string -> int -> unit
val declare_custom_entry_has_ident : string -> int -> unit
val entry_has_global : Constrexpr.notation_entry_level -> bool
val entry_has_ident : Constrexpr.notation_entry_level -> bool
val with_notation_protection : ('a -> 'b) -> 'a -> 'b
val int63_of_pos_bigint : Bigint.bigint -> Uint63.t
Conversion from bigint to int63