SizeOf #
- sizeOf : α → Nat
The "size" of an element, a natural number which decreases on fields of each inductive type.
SizeOf
is a typeclass automatically derived for every inductive type,
which equips the type with a "size" function to Nat
.
The default instance defines each constructor to be 1
plus the sum of the
sizes of all the constructor fields.
This is used for proofs by well-founded induction, since every field of the
constructor has a smaller size than the constructor itself,
and in many cases this will suffice to do the proof that a recursive function
is only called on smaller values.
If the default proof strategy fails, it is recommended to supply a custom
size measure using the termination_by
argument on the function definition.
Instances
Declare SizeOf
instances and theorems for types declared before SizeOf
.
From now on, the inductive compiler will automatically generate SizeOf
instances and theorems.
Every type α
has a default SizeOf
instance that just returns 0
for every element of α
.
Equations
- default.sizeOf α x = match x with | x => 0
Instances For
Equations
- instSizeOf α = { sizeOf := default.sizeOf α }
We manually define the Lean.Name
instance because we use
an opaque function for computing the hashcode field.
Equations
- Lean.Name.sizeOf Lean.Name.anonymous = 1
- Lean.Name.sizeOf (Lean.Name.str p s) = 1 + Lean.Name.sizeOf p + sizeOf s
- Lean.Name.sizeOf (Lean.Name.num p n) = 1 + Lean.Name.sizeOf p + sizeOf n
Instances For
Equations
- Lean.instSizeOfName = { sizeOf := fun n => Lean.Name.sizeOf n }