Pulling back ordered rings along injective maps. #

@[reducible]

def Function.Injective.orderedSemiring {α : Type u} {β : Type u_1} [OrderedSemiring α] [Zero β] [One β] [Add β] [Mul β] [Pow β ℕ] [SMul ℕ β] [NatCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) :

OrderedSemiring β

Pullback an OrderedSemiring under an injective map.

Equations

Function.Injective.orderedSemiring f hf zero one add mul nsmul npow nat_cast = let __spread.0 := Function.Injective.orderedAddCommMonoid f hf zero add nsmul; OrderedSemiring.mk ⋯ ⋯ ⋯ ⋯

source

@[reducible]

def Function.Injective.orderedCommSemiring {α : Type u} {β : Type u_1} [OrderedCommSemiring α] [Zero β] [One β] [Add β] [Mul β] [Pow β ℕ] [SMul ℕ β] [NatCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) :

OrderedCommSemiring β

Pullback an OrderedCommSemiring under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.orderedRing {α : Type u} {β : Type u_1} [OrderedRing α] [Zero β] [One β] [Add β] [Mul β] [Neg β] [Sub β] [SMul ℕ β] [SMul ℤ β] [Pow β ℕ] [NatCast β] [IntCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (neg : ∀ (x : β), f (-x) = -f x) (sub : ∀ (x y : β), f (x - y) = f x - f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (zsmul : ∀ (x : β) (n : ℤ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (int_cast : ∀ (n : ℤ), f ↑n = ↑n) :

OrderedRing β

Pullback an OrderedRing under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.orderedCommRing {α : Type u} {β : Type u_1} [OrderedCommRing α] [Zero β] [One β] [Add β] [Mul β] [Neg β] [Sub β] [Pow β ℕ] [SMul ℕ β] [SMul ℤ β] [NatCast β] [IntCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (neg : ∀ (x : β), f (-x) = -f x) (sub : ∀ (x y : β), f (x - y) = f x - f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (zsmul : ∀ (x : β) (n : ℤ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (int_cast : ∀ (n : ℤ), f ↑n = ↑n) :

OrderedCommRing β

Pullback an OrderedCommRing under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.strictOrderedSemiring {α : Type u} {β : Type u_1} [StrictOrderedSemiring α] [Zero β] [One β] [Add β] [Mul β] [Pow β ℕ] [SMul ℕ β] [NatCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) :

StrictOrderedSemiring β

Pullback a StrictOrderedSemiring under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.strictOrderedCommSemiring {α : Type u} {β : Type u_1} [StrictOrderedCommSemiring α] [Zero β] [One β] [Add β] [Mul β] [Pow β ℕ] [SMul ℕ β] [NatCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) :

StrictOrderedCommSemiring β

Pullback a strictOrderedCommSemiring under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.strictOrderedRing {α : Type u} {β : Type u_1} [StrictOrderedRing α] [Zero β] [One β] [Add β] [Mul β] [Neg β] [Sub β] [SMul ℕ β] [SMul ℤ β] [Pow β ℕ] [NatCast β] [IntCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (neg : ∀ (x : β), f (-x) = -f x) (sub : ∀ (x y : β), f (x - y) = f x - f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (zsmul : ∀ (x : β) (n : ℤ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (int_cast : ∀ (n : ℤ), f ↑n = ↑n) :

StrictOrderedRing β

Pullback a StrictOrderedRing under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.strictOrderedCommRing {α : Type u} {β : Type u_1} [StrictOrderedCommRing α] [Zero β] [One β] [Add β] [Mul β] [Neg β] [Sub β] [Pow β ℕ] [SMul ℕ β] [SMul ℤ β] [NatCast β] [IntCast β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (neg : ∀ (x : β), f (-x) = -f x) (sub : ∀ (x y : β), f (x - y) = f x - f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (zsmul : ∀ (x : β) (n : ℤ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (int_cast : ∀ (n : ℤ), f ↑n = ↑n) :

StrictOrderedCommRing β

Pullback a StrictOrderedCommRing under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.linearOrderedSemiring {α : Type u} {β : Type u_1} [LinearOrderedSemiring α] [Zero β] [One β] [Add β] [Mul β] [Pow β ℕ] [SMul ℕ β] [NatCast β] [Sup β] [Inf β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (sup : ∀ (x y : β), f (x ⊔ y) = max (f x) (f y)) (inf : ∀ (x y : β), f (x ⊓ y) = min (f x) (f y)) :

LinearOrderedSemiring β

Pullback a LinearOrderedSemiring under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.linearOrderedCommSemiring {α : Type u} {β : Type u_1} [LinearOrderedCommSemiring α] [Zero β] [One β] [Add β] [Mul β] [Pow β ℕ] [SMul ℕ β] [NatCast β] [Sup β] [Inf β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (hsup : ∀ (x y : β), f (x ⊔ y) = max (f x) (f y)) (hinf : ∀ (x y : β), f (x ⊓ y) = min (f x) (f y)) :

LinearOrderedCommSemiring β

Pullback a LinearOrderedSemiring under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.linearOrderedRing {α : Type u} {β : Type u_1} [LinearOrderedRing α] [Zero β] [One β] [Add β] [Mul β] [Neg β] [Sub β] [SMul ℕ β] [SMul ℤ β] [Pow β ℕ] [NatCast β] [IntCast β] [Sup β] [Inf β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (neg : ∀ (x : β), f (-x) = -f x) (sub : ∀ (x y : β), f (x - y) = f x - f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (zsmul : ∀ (x : β) (n : ℤ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (int_cast : ∀ (n : ℤ), f ↑n = ↑n) (hsup : ∀ (x y : β), f (x ⊔ y) = max (f x) (f y)) (hinf : ∀ (x y : β), f (x ⊓ y) = min (f x) (f y)) :

LinearOrderedRing β

Pullback a LinearOrderedRing under an injective map.

Equations

One or more equations did not get rendered due to their size.

source

@[reducible]

def Function.Injective.linearOrderedCommRing {α : Type u} {β : Type u_1} [LinearOrderedCommRing α] [Zero β] [One β] [Add β] [Mul β] [Neg β] [Sub β] [Pow β ℕ] [SMul ℕ β] [SMul ℤ β] [NatCast β] [IntCast β] [Sup β] [Inf β] (f : β → α) (hf : Function.Injective f) (zero : f 0 = 0) (one : f 1 = 1) (add : ∀ (x y : β), f (x + y) = f x + f y) (mul : ∀ (x y : β), f (x * y) = f x * f y) (neg : ∀ (x : β), f (-x) = -f x) (sub : ∀ (x y : β), f (x - y) = f x - f y) (nsmul : ∀ (x : β) (n : ℕ), f (n • x) = n • f x) (zsmul : ∀ (x : β) (n : ℤ), f (n • x) = n • f x) (npow : ∀ (x : β) (n : ℕ), f (x ^ n) = f x ^ n) (nat_cast : ∀ (n : ℕ), f ↑n = ↑n) (int_cast : ∀ (n : ℤ), f ↑n = ↑n) (sup : ∀ (x y : β), f (x ⊔ y) = max (f x) (f y)) (inf : ∀ (x y : β), f (x ⊓ y) = min (f x) (f y)) :

LinearOrderedCommRing β

Pullback a LinearOrderedCommRing under an injective map.

Equations

One or more equations did not get rendered due to their size.

Documentation

Mathlib.Algebra.Order.Ring.InjSurj

Pulling back ordered rings along injective maps. #