Thms myhill nerode Sections AutomataTheory Doc

action_set Def ActionSet(T) == car:TypeTcarcar

Thm* T:Type{i}. ActionSet(T) Type{i'}

mn_quo_append Def z@x == z @ x

Thm* A:Type, R:(A*A*Prop). (EquivRel x,y:A*. x R y) (x,y,z:A*. (x R y) ((z @ x) R (z @ y))) (z:A*, y:x,y:A*//(x R y). z@y x,y:A*//(x R y))

append Def as @ bs == Case of as; nil bs ; a.as' a.(as' @ bs) (recursive)

Thm* T:Type, as,bs:T*. (as @ bs) T*

beq Def p = q == if p q else q fi

Thm* p,q:. p = q

decidable Def Dec(P) == P P

Thm* A:Prop. Dec(A) Prop

equiv_rel Def EquivRel x,y:T. E(x;y) == Refl(T;x,y.E(x;y)) & Sym x,y:T. E(x;y) & Trans x,y:T. E(x;y)

Thm* T:Type, E:(TTProp). (EquivRel x,y:T. E(x,y)) Prop

finite Def Fin(s) == n:, f:(ns). Bij(n; s; f)

Thm* T:Type. Fin(T) Prop

bnot Def b == if b false else true fi

Thm* b:. b

int_seg Def {i..j} == {k:| i k < j }

Thm* m,n:. {m..n} Type

nat Def == {i:| 0i }

Thm* Type

lelt Def i j < k == ij & j < k

le Def AB == B < A

Thm* i,j:. ij Prop

not Def A == A False

Thm* A:Prop. (A) Prop

trans Def Trans x,y:T. E(x;y) == a,b,c:T. E(a;b) E(b;c) E(a;c)

Thm* T:Type, E:(TTProp). Trans x,y:T. E(x,y) Prop

sym Def Sym x,y:T. E(x;y) == a,b:T. E(a;b) E(b;a)

Thm* T:Type, E:(TTProp). Sym x,y:T. E(x,y) Prop

refl Def Refl(T;x,y.E(x;y)) == a:T. E(a;a)

Thm* T:Type, E:(TTProp). Refl(T;x,y.E(x,y)) Prop

biject Def Bij(A; B; f) == Inj(A; B; f) & Surj(A; B; f)

Thm* A,B:Type, f:(AB). Bij(A; B; f) Prop

surject Def Surj(A; B; f) == b:B. a:A. f(a) = b

Thm* A,B:Type, f:(AB). Surj(A; B; f) Prop

inject Def Inj(A; B; f) == a1,a2:A. f(a1) = f(a2) B a1 = a2

Thm* A,B:Type, f:(AB). Inj(A; B; f) Prop

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