Subexpr utilities for delaborator. #
This file defines utilities for MetaM computations to traverse subexpressions of an expression
in sync with the Nat "position" values that refer to them.
@[reducible, inline]
Equations
Instances For
def
Lean.PrettyPrinter.Delaborator.SubExpr.getExpr
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
:
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.getExpr = do let __do_lift ← readThe Lean.SubExpr pure __do_lift.expr
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def
Lean.PrettyPrinter.Delaborator.SubExpr.getPos
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
:
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.getPos = do let __do_lift ← readThe Lean.SubExpr pure __do_lift.pos
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def
Lean.PrettyPrinter.Delaborator.SubExpr.descend
{α : Type}
{m : Type → Type}
[MonadWithReaderOf Lean.SubExpr m]
(child : Lean.Expr)
(childIdx : Nat)
(x : m α)
:
m α
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.descend child childIdx x = withTheReader Lean.SubExpr (fun (cfg : Lean.SubExpr) => { expr := child, pos := cfg.pos.push childIdx }) x
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withAppFn
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.withAppFn x = do let __do_lift ← Lean.PrettyPrinter.Delaborator.SubExpr.getExpr Lean.PrettyPrinter.Delaborator.SubExpr.descend __do_lift.appFn! 0 x
Instances For
def
Lean.PrettyPrinter.Delaborator.SubExpr.withAppArg
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.withAppArg x = do let __do_lift ← Lean.PrettyPrinter.Delaborator.SubExpr.getExpr Lean.PrettyPrinter.Delaborator.SubExpr.descend __do_lift.appArg! 1 x
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withType
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
[MonadLiftT Lean.MetaM m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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partial def
Lean.PrettyPrinter.Delaborator.SubExpr.withAppFnArgs
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(xf : m α)
(xa : α → m α)
:
m α
Uses xa to compute the fold across the arguments of an application,
where xf provides the initial value and is evaluated in the context of the head of the application.
def
Lean.PrettyPrinter.Delaborator.SubExpr.withBoundedAppFnArgs
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(maxArgs : Nat)
(xf : m α)
(xa : α → m α)
:
m α
Uses xa to compute the fold across up to maxArgs outermost arguments of an application,
where xf provides the initial value and is evaluated in the context of the application minus
the arguments being folded across.
Instances For
def
Lean.PrettyPrinter.Delaborator.SubExpr.withBoundedAppFn
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(maxArgs : Nat)
(xf : m α)
:
m α
Runs xf in the context of Lean.Expr.getBoundedAppFn maxArgs.
This is equivalent to withBoundedAppFnArgs maxArgs xf pure.
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withBindingDomain
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withBindingBody'
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
[MonadControlT Lean.MetaM m]
{β : Type}
(n : Lake.Name)
(v : Lean.Expr → m β)
(x : β → m α)
:
m α
Assumes the SubExpr is a lambda or forall.
- Creates a local declaration for this binder using the name
n. - Evaluates
vusing the fvar for the local declaration. - Enters the binding body, and evaluates
xusing this result.
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withBindingBody
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
[MonadControlT Lean.MetaM m]
(n : Lake.Name)
(x : m α)
:
m α
Assumes the SubExpr is a lambda or forall.
Creates a local declaration for this binder using the name n, enters the binding body, and evaluates x.
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.withBindingBody n x = Lean.PrettyPrinter.Delaborator.SubExpr.withBindingBody' n (fun (x : Lean.Expr) => pure ()) fun (x_1 : Unit) => x
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withProj
{α : Type}
[Inhabited α]
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withMDataExpr
{α : Type}
[Inhabited α]
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withLetVarType
{α : Type}
[Inhabited α]
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withLetValue
{α : Type}
[Inhabited α]
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withLetBody
{α : Type}
[Inhabited α]
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
[MonadControlT Lean.MetaM m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withNaryFn
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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def
Lean.PrettyPrinter.Delaborator.SubExpr.withNaryArg
{α : Type}
{m : Type → Type}
[Monad m]
[MonadReaderOf Lean.SubExpr m]
[MonadWithReaderOf Lean.SubExpr m]
(argIdx : Nat)
(x : m α)
:
m α
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- One or more equations did not get rendered due to their size.
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Instances For
Equations
- Lean.PrettyPrinter.Delaborator.SubExpr.instInhabitedHoleIterator = { default := { curr := default, top := default } }
def
Lean.PrettyPrinter.Delaborator.SubExpr.HoleIterator.toPos
(iter : Lean.PrettyPrinter.Delaborator.SubExpr.HoleIterator)
:
Equations
- iter.toPos = iter.curr
Instances For
def
Lean.PrettyPrinter.Delaborator.SubExpr.HoleIterator.next
(iter : Lean.PrettyPrinter.Delaborator.SubExpr.HoleIterator)
:
Equations
Instances For
def
Lean.PrettyPrinter.Delaborator.SubExpr.nextExtraPos
{m : Type → Type}
[Monad m]
[MonadStateOf Lean.PrettyPrinter.Delaborator.SubExpr.HoleIterator m]
:
The positioning scheme guarantees that there will be an infinite number of extra positions
which are never used by Exprs. The HoleIterator always points at the next such "hole".
We use these to attach additional Elab.Info.
Note: these positions are incompatible with Lean.SubExpr.Pos.push since the iterator
will eventually yield every child of every returned position.
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- One or more equations did not get rendered due to their size.