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lean4-htt/library/init/lean/parser/rec.lean
Leonardo de Moura a43a40b7f5 chore(library/init): remove fix.lean 
`partial def` is much more general
2019-03-27 13:11:00 -07:00

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/-
Copyright (c) 2018 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Sebastian Ullrich
Recursion monad transformer
-/
prelude
import init.control.reader init.lean.parser.parsec
namespace Lean.Parser
/-- A small wrapper of `ReaderT` that simplifies introducing and invoking
recursion points in a computation. -/
def RecT (α δ : Type) (m : Type → Type) (β : Type) :=
ReaderT (α → m δ) m β
namespace RecT
variables {m : Type → Type} {α δ β : Type} [Monad m]
local attribute [reducible] RecT
/-- Continue at the recursion point stored at `run`. -/
@[inline] def recurse (a : α) : RecT α δ m δ :=
λ f, f a
@[specialize] private partial def runAux : m δ → (α → RecT α δ m δ) → α → m δ
| b rec a := rec a (runAux b rec)
/-- Execute `x`, executing `rec a` whenever `recurse a` is called.
After `maxRec` recursion steps, `base` is executed instead. -/
@[inline] protected def run (x : RecT α δ m β) (base : Unit → m δ) (rec : α → RecT α δ m δ) : m β :=
x.run (runAux (base ()) rec)
@[inline] protected def runParsec {γ : Type} [MonadParsec γ m] (x : RecT α δ m β) (rec : α → RecT α δ m δ) : m β :=
RecT.run x (λ _, MonadParsec.error "RecT.runParsec: no progress") rec
-- not clear how to auto-derive these given the additional constraints
instance : Monad (RecT α δ m) := inferInstance
instance [Alternative m] : Alternative (RecT α δ m) := inferInstance
instance : HasMonadLift m (RecT α δ m) := inferInstance
instance (ε) [MonadExcept ε m] : MonadExcept ε (RecT α δ m) := inferInstance
instance (μ) [MonadParsec μ m] : MonadParsec μ (RecT α δ m) :=
inferInstance
-- NOTE: does not allow to vary `m` because of its occurrence in the Reader State
instance [Monad m] : MonadFunctor m m (RecT α δ m) (RecT α δ m) :=
inferInstance
end RecT
class MonadRec (α δ : outParam Type) (m : Type → Type) :=
(recurse {} : α → m δ)
export MonadRec (recurse)
instance MonadRec.trans (α δ m m') [HasMonadLift m m'] [MonadRec α δ m] [Monad m] : MonadRec α δ m' :=
{ recurse := λ a, monadLift (recurse a : m δ) }
instance MonadRec.base (α δ m) [Monad m] : MonadRec α δ (RecT α δ m) :=
{ recurse := RecT.recurse }
end Lean.Parser
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