WithBot
, WithTop
#
Adding a bot
or a top
to an order.
Main declarations #
With<Top/Bot> α
: EquipsOption α
with the order onα
plusnone
as the top/bottom element.
Specialization of Option.getD
to values in WithBot α
that respects API boundaries.
Equations
- WithBot.unbot' d x = WithBot.recBotCoe d id x
Instances For
Lift a map f : α → β
to WithBot α → WithBot β
. Implemented using Option.map
.
Equations
- WithBot.map f = Option.map f
Instances For
Deconstruct a x : WithBot α
to the underlying value in α
, given a proof that x ≠ ⊥
.
Equations
- WithBot.unbot (some x_2) x_3 = x_2
Instances For
Equations
- WithBot.orderBot = OrderBot.mk ⋯
Equations
- WithBot.orderTop = OrderTop.mk ⋯
Equations
- WithBot.instBoundedOrder = BoundedOrder.mk
There is a general version le_bot_iff
, but this lemma does not require a PartialOrder
.
A version of bot_lt_iff_ne_bot
for WithBot
that only requires LT α
, not
PartialOrder α
.
Equations
- WithBot.preorder = Preorder.mk ⋯ ⋯ ⋯
Equations
- WithBot.partialOrder = PartialOrder.mk ⋯
Alias of the reverse direction of WithBot.monotone_map_iff
.
Alias of the reverse direction of WithBot.strictMono_map_iff
.
Equations
- One or more equations did not get rendered due to their size.
Equations
- WithBot.semilatticeInf = SemilatticeInf.mk (WithBot.map₂ fun (x1 x2 : α) => x1 ⊓ x2) ⋯ ⋯ ⋯
Equations
- WithBot.lattice = Lattice.mk SemilatticeInf.inf ⋯ ⋯ ⋯
Equations
- WithBot.distribLattice = DistribLattice.mk ⋯
Equations
- WithBot.decidableEq = inferInstanceAs (DecidableEq (Option α))
Equations
- WithBot.decidableLE none x = isTrue ⋯
- WithBot.decidableLE (some x_2) (some y) = if h : x_2 ≤ y then isTrue ⋯ else isFalse ⋯
- WithBot.decidableLE (some x_2) none = isFalse ⋯
Equations
- WithBot.linearOrder = Lattice.toLinearOrder (WithBot α)
WithTop.toDual
is the equivalence sending ⊤
to ⊥
and any a : α
to toDual a : αᵒᵈ
.
See WithTop.toDualBotEquiv
for the related order-iso.
Equations
- WithTop.toDual = Equiv.refl (WithTop α)
Instances For
WithTop.ofDual
is the equivalence sending ⊤
to ⊥
and any a : αᵒᵈ
to ofDual a : α
.
See WithTop.toDualBotEquiv
for the related order-iso.
Equations
- WithTop.ofDual = Equiv.refl (WithTop αᵒᵈ)
Instances For
WithBot.toDual
is the equivalence sending ⊥
to ⊤
and any a : α
to toDual a : αᵒᵈ
.
See WithBot.toDual_top_equiv
for the related order-iso.
Equations
- WithBot.toDual = Equiv.refl (WithBot α)
Instances For
WithBot.ofDual
is the equivalence sending ⊥
to ⊤
and any a : αᵒᵈ
to ofDual a : α
.
See WithBot.ofDual_top_equiv
for the related order-iso.
Equations
- WithBot.ofDual = Equiv.refl (WithBot αᵒᵈ)
Instances For
Specialization of Option.getD
to values in WithTop α
that respects API boundaries.
Equations
- WithTop.untop' d x = WithTop.recTopCoe d id x
Instances For
Lift a map f : α → β
to WithTop α → WithTop β
. Implemented using Option.map
.
Equations
- WithTop.map f = Option.map f
Instances For
Deconstruct a x : WithTop α
to the underlying value in α
, given a proof that x ≠ ⊤
.
Equations
- WithTop.untop (some x_2) x_3 = x_2
Instances For
Equations
- WithTop.orderTop = OrderTop.mk ⋯
Equations
- WithTop.orderBot = OrderBot.mk ⋯
Equations
- WithTop.boundedOrder = BoundedOrder.mk
There is a general version top_le_iff
, but this lemma does not require a PartialOrder
.
A version of lt_top_iff_ne_top
for WithTop
that only requires LT α
, not
PartialOrder α
.
Equations
- WithTop.preorder = Preorder.mk ⋯ ⋯ ⋯
Equations
- WithTop.partialOrder = PartialOrder.mk ⋯
Alias of the reverse direction of WithTop.monotone_map_iff
.
Alias of the reverse direction of WithTop.strictMono_map_iff
.
Equations
- WithTop.semilatticeInf = SemilatticeInf.mk (Option.liftOrGet fun (x1 x2 : α) => x1 ⊓ x2) ⋯ ⋯ ⋯
Equations
- WithTop.semilatticeSup = SemilatticeSup.mk (WithTop.map₂ fun (x1 x2 : α) => x1 ⊔ x2) ⋯ ⋯ ⋯
Equations
- WithTop.lattice = Lattice.mk SemilatticeInf.inf ⋯ ⋯ ⋯
Equations
- WithTop.distribLattice = DistribLattice.mk ⋯
Equations
- WithTop.decidableEq = inferInstanceAs (DecidableEq (Option α))
Equations
- x✝.decidableLE x = decidable_of_decidable_of_iff ⋯
Equations
- x✝.decidableLT x = decidable_of_decidable_of_iff ⋯
Equations
- WithTop.linearOrder = Lattice.toLinearOrder (WithTop α)