lean4-htt/tests/bench/unionfind.lean

def StateT' (m : Type → Type) (σ : Type) (α : Type) := σ → m (α × σ)
namespace StateT'
variable {m : Type → Type} [Monad m] {σ : Type} {α β : Type}
@[inline] protected def pure (a : α) : StateT' m σ α := fun s => pure (a, s)
@[inline] protected def bind (x : StateT' m σ α) (f : α → StateT' m σ β) : StateT' m σ β := fun s => do let (a, s') ← x s; f a s'
@[inline] def read : StateT' m σ σ := fun s => pure (s, s)
@[inline] def write (s' : σ) : StateT' m σ Unit := fun s => pure ((), s')
@[inline] def updt (f : σ → σ) : StateT' m σ Unit := fun s => pure ((), f s)
instance : Monad (StateT' m σ) :=
{pure := @StateT'.pure _ _ _, bind := @StateT'.bind _ _ _}
end StateT'

def ExceptT' (m : Type → Type) (ε : Type) (α : Type) := m (Except ε α)
namespace ExceptT'
variable {m : Type → Type} [Monad m] {ε : Type} {α β : Type}
@[inline] protected def pure (a : α) : ExceptT' m ε α := (pure (Except.ok a) : m (Except ε α))
@[inline] protected def bind (x : ExceptT' m ε α) (f : α → ExceptT' m ε β) : ExceptT' m ε β :=
(do { let v ← x; match v with
       | Except.error e => pure (Except.error e)
       | Except.ok a    => f a } : m (Except ε β))
@[inline] def error (e : ε) : ExceptT' m ε α := (pure (Except.error e) : m (Except ε α))
@[inline] def lift (x : m α) : ExceptT' m ε α := (do {let a ← x; pure (Except.ok a) } : m (Except ε α))
instance : Monad (ExceptT' m ε) :=
{pure := @ExceptT'.pure _ _ _, bind := @ExceptT'.bind _ _ _}
end ExceptT'

abbrev Node := Nat

structure nodeData :=
(find : Node) (rank : Nat := 0)

abbrev ufData := Array nodeData

abbrev M (α : Type) := ExceptT' (StateT' Id ufData) String α
@[inline] def read : M ufData := ExceptT'.lift StateT'.read
@[inline] def write (s : ufData) : M Unit := ExceptT'.lift (StateT'.write s)
@[inline] def updt (f : ufData → ufData) : M Unit := ExceptT'.lift (StateT'.updt f)
@[inline] def error {α : Type} (e : String) : M α := ExceptT'.error e
def run {α : Type} (x : M α) (s : ufData := ∅) : Except String α × ufData :=
x s

def capacity : M Nat :=
do let d ← read; pure d.size

def findEntryAux : Nat → Node → M nodeData
| 0,   n => error "out of fuel"
| i+1, n =>
  do let s ← read;
     if h : n < s.size then
       do { let e := s.get ⟨n, h⟩;
            if e.find = n then pure e
            else do let e₁ ← findEntryAux i e.find;
                    updt (fun s => s.set! n e₁);
                    pure e₁ }
     else error "invalid Node"

def findEntry (n : Node) : M nodeData :=
do let c ← capacity;
   findEntryAux c n

def find (n : Node) : M Node :=
do let e ← findEntry n; pure e.find

def mk : M Node :=
do let n ← capacity;
   updt $ fun s => s.push {find := n, rank := 1};
   pure n

def union (n₁ n₂ : Node) : M Unit :=
do let r₁ ← findEntry n₁;
   let r₂ ← findEntry n₂;
   if r₁.find = r₂.find then pure ()
   else updt $ fun s =>
     if r₁.rank < r₂.rank then s.set! r₁.find { find := r₂.find }
     else if r₁.rank = r₂.rank then
        let s₁ := s.set! r₁.find { find := r₂.find };
        s₁.set! r₂.find { r₂ with rank := r₂.rank + 1 }
     else s.set! r₂.find { find := r₁.find }


def mkNodes : Nat → M Unit
| 0   => pure ()
| n+1 => do _ ← mk; mkNodes n

def checkEq (n₁ n₂ : Node) : M Unit :=
do let r₁ ← find n₁; let r₂ ← find n₂;
   unless (r₁ = r₂) do error "nodes are not equal"

def mergePackAux : Nat → Nat → Nat → M Unit
| 0,   _, _ => pure ()
| i+1, n, d => do
  let c ← capacity;
  if (n+d) < c
  then union n (n+d) *> mergePackAux i (n+1) d
  else pure ()

def mergePack (d : Nat) : M Unit :=
do let c ← capacity; mergePackAux c 0 d

def numEqsAux : Nat → Node → Nat → M Nat
| 0,   _, r => pure r
| i+1, n, r =>
  do let c ← capacity;
     if n < c
     then do { let n₁ ← find n; numEqsAux i (n+1) (if n = n₁ then r else r+1) }
     else pure r

def numEqs : M Nat :=
do let c ← capacity;
   numEqsAux c 0 0

def test (n : Nat) : M Nat :=
if n < 2 then error "input must be greater than 1"
else do
  mkNodes n;
  mergePack 50000;
  mergePack 10000;
  mergePack 5000;
  mergePack 1000;
  numEqs

def main (xs : List String) : IO UInt32 :=
let n := xs.head!.toNat!;
match run (test n) with
| (Except.ok v, s)    => IO.println ("ok " ++ toString v) *> pure 0
| (Except.error e, s) => IO.println ("Error : " ++ e) *> pure 1