Finiteness of DFunLike
types #
We show a type F
with a DFunLike F α β
is finite if both α
and β
are finite.
This corresponds to the following two pairs of declarations:
DFunLike.fintype
is a definition stating allDFunLike
s are finite if their domain and codomain are.DFunLike.finite
is a lemma stating allDFunLike
s are finite if their domain and codomain are.DFunLike.fintype'
is a non-dependent version ofDFunLike.fintype
andDFunLike.finite
is a non-dependent version ofDFunLike.finite
, because dependent instances are harder to infer.
You can use these to produce instances for specific DFunLike
types.
(Although there might be options for Fintype
instances with better definitional behaviour.)
They can't be instances themselves since they can cause loops.
All DFunLike
s are finite if their domain and codomain are.
This is not an instance because specific DFunLike
types might have a better-suited definition.
See also DFunLike.finite
.
Equations
- DFunLike.fintype F = Fintype.ofInjective (fun (f : F) => ⇑f) (_ : Function.Injective fun (f : F) => ⇑f)
Instances For
All FunLike
s are finite if their domain and codomain are.
Non-dependent version of DFunLike.fintype
that might be easier to infer.
This is not an instance because specific FunLike
types might have a better-suited definition.
Equations
Instances For
All FunLike
s are finite if their domain and codomain are.
Non-dependent version of DFunLike.finite
that might be easier to infer.
Can't be an instance because it can cause infinite loops.