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Mathlib.Algebra.FreeMonoid.Count

List.count as a bundled homomorphism #

In this file we define FreeMonoid.countP, FreeMonoid.count, FreeAddMonoid.countP, and FreeAddMonoid.count. These are List.countP and List.count bundled as multiplicative and additive homomorphisms from FreeMonoid and FreeAddMonoid.

We do not use to_additive because it can't map Multiplicative to .

def FreeAddMonoid.countP {α : Type u_1} (p : αProp) [DecidablePred p] :

List.countP as a bundled additive monoid homomorphism.

Equations
  • One or more equations did not get rendered due to their size.
Instances For
    theorem FreeAddMonoid.countP_of {α : Type u_1} (p : αProp) [DecidablePred p] (x : α) :
    (FreeAddMonoid.countP p) (FreeAddMonoid.of x) = if p x = (true = true) then 1 else 0
    theorem FreeAddMonoid.countP_apply {α : Type u_1} (p : αProp) [DecidablePred p] (l : FreeAddMonoid α) :
    (FreeAddMonoid.countP p) l = List.countP (fun (b : α) => decide (p b)) l
    def FreeAddMonoid.count {α : Type u_1} [DecidableEq α] (x : α) :

    List.count as a bundled additive monoid homomorphism.

    Equations
    Instances For
      theorem FreeAddMonoid.count_of {α : Type u_1} [DecidableEq α] (x : α) (y : α) :

      List.countP as a bundled multiplicative monoid homomorphism.

      Equations
      Instances For
        theorem FreeMonoid.countP_of' {α : Type u_1} (p : αProp) [DecidablePred p] (x : α) :
        (FreeMonoid.countP p) (FreeMonoid.of x) = if p x then Multiplicative.ofAdd 1 else Multiplicative.ofAdd 0
        theorem FreeMonoid.countP_of {α : Type u_1} (p : αProp) [DecidablePred p] (x : α) :
        (FreeMonoid.countP p) (FreeMonoid.of x) = if p x then Multiplicative.ofAdd 1 else 1
        theorem FreeMonoid.countP_apply {α : Type u_1} (p : αProp) [DecidablePred p] (l : FreeAddMonoid α) :
        (FreeMonoid.countP p) l = Multiplicative.ofAdd (List.countP (fun (b : α) => decide (p b)) l)

        List.count as a bundled additive monoid homomorphism.

        Equations
        Instances For
          theorem FreeMonoid.count_apply {α : Type u_1} [DecidableEq α] (x : α) (l : FreeAddMonoid α) :
          (FreeMonoid.count x) l = Multiplicative.ofAdd (List.count x l)
          theorem FreeMonoid.count_of {α : Type u_1} [DecidableEq α] (x : α) (y : α) :
          (FreeMonoid.count x) (FreeMonoid.of y) = Pi.mulSingle x (Multiplicative.ofAdd 1) y