Module Vars
Occur checks
val closedn : int -> Constr.constr -> bool
closedn n M
is true iffM
is a (de Bruijn) closed term under n binders
val closed0 : Constr.constr -> bool
closed0 M
is true iffM
is a (de Bruijn) closed term
val noccurn : int -> Constr.constr -> bool
noccurn n M
returns true iffRel n
does NOT occur in termM
val noccur_between : int -> int -> Constr.constr -> bool
noccur_between n m M
returns true iffRel p
does NOT occur in termM
for n <= p < n+m
val noccur_with_meta : int -> int -> Constr.constr -> bool
Checking function for terms containing existential- or meta-variables. The function
noccur_with_meta
does not consider meta-variables applied to some terms (intended to be its local context) (for existential variables, it is necessarily the case)
Relocation and substitution
val exliftn : Esubst.lift -> Constr.constr -> Constr.constr
exliftn el c
liftsc
with arbitrary complex liftingel
val liftn : int -> int -> Constr.constr -> Constr.constr
liftn n k c
lifts byn
indexes above or equal tok
inc
Note that with respect to substitution calculi's terminology,n
is the _shift_ andk
is the _lift_.
val lift : int -> Constr.constr -> Constr.constr
lift n c
lifts byn
the positive indexes inc
val liftn_rel_context : int -> int -> Constr.rel_context -> Constr.rel_context
Same as
liftn
for a context
val lift_rel_context : int -> Constr.rel_context -> Constr.rel_context
Same as
lift
for a context
type substl
= Constr.constr list
type instance
= Constr.constr array
type instance_list
= Constr.constr list
val subst_of_rel_context_instance : Constr.rel_context -> instance -> substl
Let
Γ
be a context interleaving declarationsx₁:T₁..xn:Tn
and definitionsy₁:=c₁..yp:=cp
in some contextΓ₀
. Letu₁..un
be an instance ofΓ
, i.e. an instance inΓ₀
of thexi
. Then,subst_of_rel_context_instance_list Γ u₁..un
returns the corresponding substitution ofΓ
, i.e. the appropriate interleavingσ
of theu₁..un
with thec₁..cp
, all of them inΓ₀
, so that a derivationΓ₀, Γ, Γ₁|- t:T
can be instantiated into a derivationΓ₀, Γ₁ |- t[σ]:T[σ]
usingsubstnl σ |Γ₁| t
. Note that the instanceu₁..un
is represented starting withu₁
, as if usable inapplist
while the substitution is represented the other way round, i.e. ending with eitheru₁
orc₁
, as if usable forsubstl
.
val subst_of_rel_context_instance_list : Constr.rel_context -> instance_list -> substl
val adjust_rel_to_rel_context : ('a, 'b) Context.Rel.pt -> int -> int
Take an index in an instance of a context and returns its index wrt to the full context (e.g. 2 in
x:A;y:=b;z:C
is 3, i.e. a reference to z)
val substnl : substl -> int -> Constr.constr -> Constr.constr
substnl [a₁;...;an] k c
substitutes in parallela₁
,...,an
for respectivelyRel(k+1)
,...,Rel(k+n)
inc
; it relocates accordingly indexes inan
,...,a1
andc
. In terms of typing, if Γ ⊢ an..a₁ : Δ and Γ, Δ, Γ' ⊢ c : T with |Γ'|=k, then Γ, Γ' ⊢substnl [a₁;...;an] k c
:substnl [a₁;...;an] k T
.
val substl : substl -> Constr.constr -> Constr.constr
substl σ c
is a short-hand forsubstnl σ 0 c
val subst1 : Constr.constr -> Constr.constr -> Constr.constr
substl a c
is a short-hand forsubstnl [a] 0 c
val substnl_decl : substl -> int -> Constr.rel_declaration -> Constr.rel_declaration
substnl_decl [a₁;...;an] k Ω
substitutes in parallela₁
, ...,an
for respectivelyRel(k+1)
, ...,Rel(k+n)
in a declarationΩ
; it relocates accordingly indexes ina₁
,...,an
andc
. In terms of typing, if Γ ⊢ an..a₁ : Δ and Γ, Δ, Γ', Ω ⊢ with |Γ'|=k
, then Γ, Γ',substnl_decl [a₁;...;an]
k Ω ⊢.
val substl_decl : substl -> Constr.rel_declaration -> Constr.rel_declaration
substl_decl σ Ω
is a short-hand forsubstnl_decl σ 0 Ω
val subst1_decl : Constr.constr -> Constr.rel_declaration -> Constr.rel_declaration
subst1_decl a Ω
is a short-hand forsubstnl_decl [a] 0 Ω
val substnl_rel_context : substl -> int -> Constr.rel_context -> Constr.rel_context
substnl_rel_context [a₁;...;an] k Ω
substitutes in parallela₁
, ...,an
for respectivelyRel(k+1)
, ...,Rel(k+n)
in a contextΩ
; it relocates accordingly indexes ina₁
,...,an
andc
. In terms of typing, if Γ ⊢ an..a₁ : Δ and Γ, Δ, Γ', Ω ⊢ with |Γ'|=k
, then Γ, Γ',substnl_rel_context [a₁;...;an]
k Ω ⊢.
val substl_rel_context : substl -> Constr.rel_context -> Constr.rel_context
substl_rel_context σ Ω
is a short-hand forsubstnl_rel_context σ 0 Ω
val subst1_rel_context : Constr.constr -> Constr.rel_context -> Constr.rel_context
subst1_rel_context a Ω
is a short-hand forsubstnl_rel_context [a] 0 Ω
val esubst : (int -> 'a -> Constr.constr) -> 'a Esubst.subs -> Constr.constr -> Constr.constr
esubst lift σ c
substitutesc
with arbitrary complex substitutionσ
, usinglift
to lift subterms where necessary.
val replace_vars : (Names.Id.t * Constr.constr) list -> Constr.constr -> Constr.constr
replace_vars k [(id₁,c₁);...;(idn,cn)] t
substitutesVar idj
bycj
int
.
val substn_vars : int -> Names.Id.t list -> Constr.constr -> Constr.constr
substn_vars k [id₁;...;idn] t
substitutesVar idj
byRel j+k-1
int
. If two names are identical, the one of least index is kept. In terms of typing, if Γ,xn:Un,...,x₁:U₁,Γ' ⊢ t:T, together with idj:Tj and Γ,xn:Un,...,x₁:U₁,Γ' ⊢ Tj[idj+1..idn:=xj+1..xn] ≡ Uj, then Γ\{id₁,...,idn},xn:Un,...,x₁:U₁,Γ' ⊢substn_vars (|Γ'|+1) [id₁;...;idn] t
:substn_vars (|Γ'|+1) [id₁;...;idn] T
.
val subst_vars : Names.Id.t list -> Constr.constr -> Constr.constr
subst_vars [id1;...;idn] t
is a short-hand forsubstn_vars [id1;...;idn] 1 t
: it substitutesVar idj
byRel j
int
. If two names are identical, the one of least index is kept.
val subst_var : Names.Id.t -> Constr.constr -> Constr.constr
subst_var id t
is a short-hand forsubstn_vars [id] 1 t
: it substitutesVar id
byRel 1
int
.
val smash_rel_context : Constr.rel_context -> Constr.rel_context
Expand lets in context
Substitution of universes
val subst_univs_level_constr : Univ.universe_level_subst -> Constr.constr -> Constr.constr
val subst_univs_level_context : Univ.universe_level_subst -> Constr.rel_context -> Constr.rel_context
val subst_instance_constr : Univ.Instance.t -> Constr.constr -> Constr.constr
Instance substitution for polymorphism.
val subst_instance_context : Univ.Instance.t -> Constr.rel_context -> Constr.rel_context
val univ_instantiate_constr : Univ.Instance.t -> Constr.constr Univ.univ_abstracted -> Constr.constr
Ignores the constraints carried by
univ_abstracted
.
val universes_of_constr : Constr.constr -> Univ.Level.Set.t
Low-level cached lift type
val make_substituend : Constr.constr -> substituend
val lift_substituend : int -> substituend -> Constr.constr