Algebraic structures on the set of positive numbers #
In this file we define various instances (AddSemigroup
, OrderedCommMonoid
etc) on the
type {x : R // 0 < x}
. In each case we try to require the weakest possible typeclass
assumptions on R
but possibly, there is a room for improvements.
instance
Positive.instAddSubtypeLtToLTOfNatToOfNat0ToZero
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
instance
Positive.addSemigroup
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
AddSemigroup { x : M // 0 < x }
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.addCommSemigroup
{M : Type u_4}
[AddCommMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
AddCommSemigroup { x : M // 0 < x }
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.addLeftCancelSemigroup
{M : Type u_4}
[AddLeftCancelMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
AddLeftCancelSemigroup { x : M // 0 < x }
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.addRightCancelSemigroup
{M : Type u_4}
[AddRightCancelMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
AddRightCancelSemigroup { x : M // 0 < x }
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.covariantClass_add_lt
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.covariantClass_swap_add_lt
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
[CovariantClass M M (Function.swap fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
CovariantClass { x : M // 0 < x } { x : M // 0 < x } (Function.swap fun (x x_1 : { x : M // 0 < x }) => x + x_1)
fun (x x_1 : { x : M // 0 < x }) => x < x_1
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.contravariantClass_add_lt
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
[ContravariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.contravariantClass_swap_add_lt
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
[ContravariantClass M M (Function.swap fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
ContravariantClass { x : M // 0 < x } { x : M // 0 < x } (Function.swap fun (x x_1 : { x : M // 0 < x }) => x + x_1)
fun (x x_1 : { x : M // 0 < x }) => x < x_1
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.contravariantClass_add_le
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
[ContravariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x ≤ x_1]
:
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.contravariantClass_swap_add_le
{M : Type u_1}
[AddMonoid M]
[Preorder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
[ContravariantClass M M (Function.swap fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x ≤ x_1]
:
ContravariantClass { x : M // 0 < x } { x : M // 0 < x } (Function.swap fun (x x_1 : { x : M // 0 < x }) => x + x_1)
fun (x x_1 : { x : M // 0 < x }) => x ≤ x_1
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.covariantClass_add_le
{M : Type u_1}
[AddMonoid M]
[PartialOrder M]
[CovariantClass M M (fun (x x_1 : M) => x + x_1) fun (x x_1 : M) => x < x_1]
:
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.instMulSubtypeLtToLTToPreorderToPartialOrderOfNatToOfNat0ToZeroToMonoidWithZeroToSemiring
{R : Type u_2}
[StrictOrderedSemiring R]
:
Equations
- One or more equations did not get rendered due to their size.
@[simp]
theorem
Positive.val_mul
{R : Type u_2}
[StrictOrderedSemiring R]
(x : { x : R // 0 < x })
(y : { x : R // 0 < x })
:
instance
Positive.instPowSubtypeLtToLTToPreorderToPartialOrderOfNatToOfNat0ToZeroToMonoidWithZeroToSemiringNat
{R : Type u_2}
[StrictOrderedSemiring R]
:
Equations
- One or more equations did not get rendered due to their size.
@[simp]
theorem
Positive.val_pow
{R : Type u_2}
[StrictOrderedSemiring R]
(x : { x : R // 0 < x })
(n : ℕ)
:
instance
Positive.instSemigroupSubtypeLtToLTToPreorderToPartialOrderOfNatToOfNat0ToZeroToMonoidWithZeroToSemiring
{R : Type u_2}
[StrictOrderedSemiring R]
:
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.instDistribSubtypeLtToLTToPreorderToPartialOrderOfNatToOfNat0ToZeroToMonoidWithZeroToSemiring
{R : Type u_2}
[StrictOrderedSemiring R]
:
Equations
- One or more equations did not get rendered due to their size.
@[simp]
instance
Positive.instMonoidSubtypeLtToLTToPreorderToPartialOrderOfNatToOfNat0ToZeroToMonoidWithZeroToSemiring
{R : Type u_2}
[StrictOrderedSemiring R]
[Nontrivial R]
:
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.orderedCommMonoid
{R : Type u_2}
[StrictOrderedCommSemiring R]
[Nontrivial R]
:
OrderedCommMonoid { x : R // 0 < x }
Equations
- One or more equations did not get rendered due to their size.
instance
Positive.linearOrderedCancelCommMonoid
{R : Type u_2}
[LinearOrderedCommSemiring R]
:
LinearOrderedCancelCommMonoid { x : R // 0 < x }
If R
is a nontrivial linear ordered commutative semiring, then {x : R // 0 < x}
is a linear
ordered cancellative commutative monoid.
Equations
- One or more equations did not get rendered due to their size.