(Generalized) Boolean algebras #
A Boolean algebra is a bounded distributive lattice with a complement operator. Boolean algebras generalize the (classical) logic of propositions and the lattice of subsets of a set.
Generalized Boolean algebras may be less familiar, but they are essentially Boolean algebras which
do not necessarily have a top element (⊤
) (and hence not all elements may have complements). One
example in mathlib is Finset α
, the type of all finite subsets of an arbitrary
(not-necessarily-finite) type α
.
GeneralizedBooleanAlgebra α
is defined to be a distributive lattice with bottom (⊥
) admitting
a relative complement operator, written using "set difference" notation as x \ y
(sdiff x y
).
For convenience, the BooleanAlgebra
type class is defined to extend GeneralizedBooleanAlgebra
so that it is also bundled with a \
operator.
(A terminological point: x \ y
is the complement of y
relative to the interval [⊥, x]
. We do
not yet have relative complements for arbitrary intervals, as we do not even have lattice
intervals.)
Main declarations #
GeneralizedBooleanAlgebra
: a type class for generalized Boolean algebrasBooleanAlgebra
: a type class for Boolean algebras.Prop.booleanAlgebra
: the Boolean algebra instance onProp
Implementation notes #
The sup_inf_sdiff
and inf_inf_sdiff
axioms for the relative complement operator in
GeneralizedBooleanAlgebra
are taken from
Wikipedia.
[Stone's paper introducing generalized Boolean algebras][Stone1935] does not define a relative
complement operator a \ b
for all a
, b
. Instead, the postulates there amount to an assumption
that for all a, b : α
where a ≤ b
, the equations x ⊔ a = b
and x ⊓ a = ⊥
have a solution
x
. Disjoint.sdiff_unique
proves that this x
is in fact b \ a
.
References #
- [Postulates for Boolean Algebras and Generalized Boolean Algebras, M.H. Stone][Stone1935]
- [Lattice Theory: Foundation, George Grätzer][Gratzer2011]
Tags #
generalized Boolean algebras, Boolean algebras, lattices, sdiff, compl
Generalized Boolean algebras #
Some of the lemmas in this section are from:
- [Lattice Theory: Foundation, George Grätzer][Gratzer2011]
A generalized Boolean algebra is a distributive lattice with ⊥
and a relative complement
operation \
(called sdiff
, after "set difference") satisfying (a ⊓ b) ⊔ (a \ b) = a
and
(a ⊓ b) ⊓ (a \ b) = ⊥
, i.e. a \ b
is the complement of b
in a
.
This is a generalization of Boolean algebras which applies to Finset α
for arbitrary
(not-necessarily-Fintype
) α
.
- sup : α → α → α
- le : α → α → Prop
- lt : α → α → Prop
- le_refl : ∀ (a : α), a ≤ a
- inf : α → α → α
- sdiff : α → α → α
- bot : α
For any
a
,b
,(a ⊓ b) ⊔ (a / b) = a
For any
a
,b
,(a ⊓ b) ⊓ (a / b) = ⊥
Instances
Equations
- GeneralizedBooleanAlgebra.toOrderBot = let src := GeneralizedBooleanAlgebra.toBot; OrderBot.mk (_ : ∀ (a : α), ⊥ ≤ a)
Equations
- One or more equations did not get rendered due to their size.
Boolean algebras #
A Boolean algebra is a bounded distributive lattice with a complement operator ᶜ
such that
x ⊓ xᶜ = ⊥
and x ⊔ xᶜ = ⊤
. For convenience, it must also provide a set difference operation \
and a Heyting implication ⇨
satisfying x \ y = x ⊓ yᶜ
and x ⇨ y = y ⊔ xᶜ
.
This is a generalization of (classical) logic of propositions, or the powerset lattice.
Since BoundedOrder
, OrderBot
, and OrderTop
are mixins that require LE
to be present at define-time, the extends
mechanism does not work with them.
Instead, we extend using the underlying Bot
and Top
data typeclasses, and replicate the
order axioms of those classes here. A "forgetful" instance back to BoundedOrder
is provided.
- sup : α → α → α
- le : α → α → Prop
- lt : α → α → Prop
- le_refl : ∀ (a : α), a ≤ a
- inf : α → α → α
- compl : α → α
- sdiff : α → α → α
- himp : α → α → α
- top : α
- bot : α
The infimum of
x
andxᶜ
is at most⊥
The supremum of
x
andxᶜ
is at least⊤
⊤
is the greatest element⊥
is the least elementx \ y
is equal tox ⊓ yᶜ
x ⇨ y
is equal toy ⊔ xᶜ
Instances
Equations
- BooleanAlgebra.toBoundedOrder = BoundedOrder.mk
A bounded generalized boolean algebra is a boolean algebra.
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Instances For
Equations
- (_ : ComplementedLattice α) = (_ : ComplementedLattice α)
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Pullback a GeneralizedBooleanAlgebra
along an injection.
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Instances For
Pullback a BooleanAlgebra
along an injection.
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Instances For
Equations
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