EntriesThis module defines the entry types for global declarations. This information is entered in the environments. This includes global constants/axioms, mutual inductive definitions, modules and module types
type inductive_universes_entry = | Monomorphic_ind_entry |
| Polymorphic_ind_entry of Univ.UContext.t |
| Template_ind_entry of Univ.ContextSet.t |
type variance_entry = Univ.Variance.t option arraytype 'a in_universes_entry = 'a * universes_entryAssume the following definition in concrete syntax:
Inductive I1 (x1:X1) ... (xn:Xn) : A1 := c11 : T11 | ... | c1n1 : T1n1 ... with Ip (x1:X1) ... (xn:Xn) : Ap := cp1 : Tp1 | ... | cpnp : Tpnp.
then, in ith block, mind_entry_params is xn:Xn;...;x1:X1; mind_entry_arity is Ai, defined in context x1:X1;...;xn:Xn; mind_entry_lc is Ti1;...;Tini, defined in context [A'1;...;A'p;x1:X1;...;xn:Xn] where A'i is Ai generalized over [x1:X1;...;xn:Xn].
type one_inductive_entry = {mind_entry_typename : Names.Id.t; |
mind_entry_arity : Constr.constr; |
mind_entry_consnames : Names.Id.t list; |
mind_entry_lc : Constr.constr list; |
}type mutual_inductive_entry = {mind_entry_record : Names.Id.t array option option; | (* Some (Some ids): primitive records with ids the binder name of each record in their respective projections. Not used by the kernel. Some None: non-primitive record *) |
mind_entry_finite : Declarations.recursivity_kind; | |
mind_entry_params : Constr.rel_context; | |
mind_entry_inds : one_inductive_entry list; | |
mind_entry_universes : inductive_universes_entry; | |
mind_entry_variance : variance_entry option; | |
mind_entry_private : bool option; |
}type definition_entry = {const_entry_body : Constr.constr; |
const_entry_secctx : Names.Id.Set.t option; |
const_entry_type : Constr.types option; |
const_entry_universes : universes_entry; |
const_entry_inline_code : bool; |
}type section_def_entry = {secdef_body : Constr.constr; |
secdef_secctx : Names.Id.Set.t option; |
secdef_type : Constr.types option; |
}type 'a opaque_entry = {opaque_entry_body : 'a; |
opaque_entry_secctx : Names.Id.Set.t; |
opaque_entry_type : Constr.types; |
opaque_entry_universes : universes_entry; |
}type parameter_entry = {parameter_entry_secctx : Names.Id.Set.t option; |
parameter_entry_type : Constr.types; |
parameter_entry_universes : universes_entry; |
parameter_entry_inline_code : inline; |
}type primitive_entry = {prim_entry_type : Constr.types in_universes_entry option; |
prim_entry_content : CPrimitives.op_or_type; |
}type 'a proof_output = Constr.constr Univ.in_universe_context_set * 'atype constant_entry = | DefinitionEntry : definition_entry -> constant_entry |
| ParameterEntry : parameter_entry -> constant_entry |
| PrimitiveEntry : primitive_entry -> constant_entry |
type module_struct_entry = (Constr.constr * Univ.AbstractContext.t option) Declarations.module_alg_exprtype module_params_entry = (Names.MBId.t * module_struct_entry * inline) listolder first
type module_type_entry = module_params_entry * module_struct_entrytype module_entry = | MType of module_params_entry * module_struct_entry |
| MExpr of module_params_entry * module_struct_entry * module_struct_entry option |