Lexicographic product of algebraic order structures #
This file proves that the lexicographic order on pi types is compatible with the pointwise algebraic operations.
instance
Pi.Lex.orderedCancelCommMonoid
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[(i : ι) → OrderedCancelCommMonoid (α i)]
:
OrderedCancelCommMonoid (Lex ((i : ι) → α i))
Equations
- Pi.Lex.orderedCancelCommMonoid = OrderedCancelCommMonoid.mk ⋯
instance
Pi.Lex.orderedAddCancelCommMonoid
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[(i : ι) → OrderedCancelAddCommMonoid (α i)]
:
OrderedCancelAddCommMonoid (Lex ((i : ι) → α i))
Equations
- Pi.Lex.orderedAddCancelCommMonoid = OrderedCancelAddCommMonoid.mk ⋯
instance
Pi.Lex.orderedCommGroup
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[(i : ι) → OrderedCommGroup (α i)]
:
OrderedCommGroup (Lex ((i : ι) → α i))
Equations
- Pi.Lex.orderedCommGroup = OrderedCommGroup.mk ⋯
instance
Pi.Lex.orderedAddCommGroup
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[(i : ι) → OrderedAddCommGroup (α i)]
:
OrderedAddCommGroup (Lex ((i : ι) → α i))
Equations
- Pi.Lex.orderedAddCommGroup = OrderedAddCommGroup.mk ⋯
noncomputable instance
Pi.Lex.linearOrderedCancelCommMonoid
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[WellFoundedLT ι]
[(i : ι) → LinearOrderedCancelCommMonoid (α i)]
:
LinearOrderedCancelCommMonoid (Lex ((i : ι) → α i))
Equations
- Pi.Lex.linearOrderedCancelCommMonoid = LinearOrderedCancelCommMonoid.mk ⋯ LinearOrder.decidableLE LinearOrder.decidableEq LinearOrder.decidableLT ⋯ ⋯ ⋯
noncomputable instance
Pi.Lex.linearOrderedAddCancelCommMonoid
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[WellFoundedLT ι]
[(i : ι) → LinearOrderedCancelAddCommMonoid (α i)]
:
LinearOrderedCancelAddCommMonoid (Lex ((i : ι) → α i))
Equations
- Pi.Lex.linearOrderedAddCancelCommMonoid = LinearOrderedCancelAddCommMonoid.mk ⋯ LinearOrder.decidableLE LinearOrder.decidableEq LinearOrder.decidableLT ⋯ ⋯ ⋯
noncomputable instance
Pi.Lex.linearOrderedCommGroup
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[WellFoundedLT ι]
[(i : ι) → LinearOrderedCommGroup (α i)]
:
LinearOrderedCommGroup (Lex ((i : ι) → α i))
Equations
- Pi.Lex.linearOrderedCommGroup = LinearOrderedCommGroup.mk ⋯ LinearOrder.decidableLE LinearOrder.decidableEq LinearOrder.decidableLT ⋯ ⋯ ⋯
noncomputable instance
Pi.Lex.linearOrderedAddCommGroup
{ι : Type u_1}
{α : ι → Type u_2}
[LinearOrder ι]
[WellFoundedLT ι]
[(i : ι) → LinearOrderedAddCommGroup (α i)]
:
LinearOrderedAddCommGroup (Lex ((i : ι) → α i))
Equations
- Pi.Lex.linearOrderedAddCommGroup = LinearOrderedAddCommGroup.mk ⋯ LinearOrder.decidableLE LinearOrder.decidableEq LinearOrder.decidableLT ⋯ ⋯ ⋯