Module Glob_term

Untyped intermediate terms

type existential_name = Names.Id.t
type glob_sort_name =
| GSProp

representation of SProp literal

| GProp

representation of Prop level

| GSet

representation of Set level

| GUniv of Univ.Level.t
| GLocalUniv of Names.lident

Locally bound universes (may also be nonstrict declaration)

| GRawUniv of Univ.Level.t

Hack for funind, DO NOT USE

Note that producing the similar Constrexpr.CRawType for printing is OK, just don't try to reinterp it.

type 'a glob_sort_gen =
| UAnonymous of {
rigid : bool;
}

not rigid = unifiable by minimization

| UNamed of 'a
type glob_level = glob_sort_name glob_sort_gen

levels, occurring in universe instances

type glob_sort = (glob_sort_name * int) list glob_sort_gen

sort expressions

type glob_constraint = glob_sort_name * Univ.constraint_type * glob_sort_name
type glob_recarg = int option
and glob_fix_kind =
| GFix of glob_recarg array * int
| GCoFix of int
type 'a cases_pattern_r =
| PatVar of Names.Name.t
| PatCstr of Names.constructor * 'a cases_pattern_g list * Names.Name.t

PatCstr(p,C,l,x) = "|'C' 'l' as 'x'"

The kind of patterns that occurs in "match ... with ... end"

locs here refers to the ident's location, not whole pat

and 'a cases_pattern_g = ('a cases_pattern_r'a) DAst.t
type cases_pattern = [ `any ] cases_pattern_g
type binding_kind =
| Explicit
| MaxImplicit
| NonMaxImplicit
type 'a glob_constr_r =
| GRef of Names.GlobRef.t * glob_level list option

An identifier that represents a reference to an object defined either in the (global) environment or in the (local) context.

| GVar of Names.Id.t

An identifier that cannot be regarded as "GRef". Bound variables are typically represented this way.

| GEvar of existential_name CAst.t * (Names.lident * 'a glob_constr_g) list
| GPatVar of Evar_kinds.matching_var_kind

Used for patterns only

| GApp of 'a glob_constr_g * 'a glob_constr_g list
| GLambda of Names.Name.t * binding_kind * 'a glob_constr_g * 'a glob_constr_g
| GProd of Names.Name.t * binding_kind * 'a glob_constr_g * 'a glob_constr_g
| GLetIn of Names.Name.t * 'a glob_constr_g * 'a glob_constr_g option * 'a glob_constr_g
| GCases of Constr.case_style * 'a glob_constr_g option * 'a tomatch_tuples_g * 'a cases_clauses_g

GCases(style,r,tur,cc) = "match 'tur' return 'r' with 'cc'" (in MatchStyle)

| GLetTuple of Names.Name.t list * Names.Name.t * 'a glob_constr_g option * 'a glob_constr_g * 'a glob_constr_g
| GIf of 'a glob_constr_g * Names.Name.t * 'a glob_constr_g option * 'a glob_constr_g * 'a glob_constr_g
| GRec of glob_fix_kind * Names.Id.t array * 'a glob_decl_g list array * 'a glob_constr_g array * 'a glob_constr_g array
| GSort of glob_sort
| GHole of Evar_kinds.t * Namegen.intro_pattern_naming_expr * Genarg.glob_generic_argument option
| GCast of 'a glob_constr_g * Constr.cast_kind * 'a glob_constr_g
| GProj of Names.Constant.t * glob_level list option * 'a glob_constr_g list * 'a glob_constr_g
| GInt of Uint63.t
| GFloat of Float64.t
| GArray of glob_level list option * 'a glob_constr_g array * 'a glob_constr_g * 'a glob_constr_g

Representation of an internalized (or in other words globalized) term.

and 'a glob_constr_g = ('a glob_constr_r'a) DAst.t
and 'a glob_decl_g = Names.Name.t * binding_kind * 'a glob_constr_g option * 'a glob_constr_g
and 'a predicate_pattern_g = Names.Name.t * (Names.inductive * Names.Name.t list) CAst.t option

(na,id) = "as 'na' in 'id'" where if id is Some(l,I,k,args).

and 'a tomatch_tuple_g = 'a glob_constr_g * 'a predicate_pattern_g
and 'a tomatch_tuples_g = 'a tomatch_tuple_g list
and 'a cases_clause_g = (Names.Id.t list * 'a cases_pattern_g list * 'a glob_constr_g) CAst.t

(p,il,cl,t) = "|'cl' => 't'". Precondition: the free variables of t are members of il.

and 'a cases_clauses_g = 'a cases_clause_g list
type glob_constr = [ `any ] glob_constr_g
type tomatch_tuple = [ `any ] tomatch_tuple_g
type tomatch_tuples = [ `any ] tomatch_tuples_g
type cases_clause = [ `any ] cases_clause_g
type cases_clauses = [ `any ] cases_clauses_g
type glob_decl = [ `any ] glob_decl_g
type predicate_pattern = [ `any ] predicate_pattern_g
type any_glob_constr =
| AnyGlobConstr : 'r glob_constr_g -> any_glob_constr
type 'a disjunctive_cases_clause_g = (Names.Id.t list * 'a cases_pattern_g list list * 'a glob_constr_g) CAst.t
type 'a disjunctive_cases_clauses_g = 'a disjunctive_cases_clause_g list
type 'a cases_pattern_disjunction_g = 'a cases_pattern_g list
type disjunctive_cases_clause = [ `any ] disjunctive_cases_clause_g
type disjunctive_cases_clauses = [ `any ] disjunctive_cases_clauses_g
type cases_pattern_disjunction = [ `any ] cases_pattern_disjunction_g
type 'a extended_glob_local_binder_r =
| GLocalAssum of Names.Name.t * binding_kind * 'a glob_constr_g
| GLocalDef of Names.Name.t * 'a glob_constr_g * 'a glob_constr_g option
| GLocalPattern of 'a cases_pattern_disjunction_g * Names.Id.t list * Names.Id.t * binding_kind * 'a glob_constr_g
and 'a extended_glob_local_binder_g = ('a extended_glob_local_binder_r'a) DAst.t
type extended_glob_local_binder = [ `any ] extended_glob_local_binder_g