A position of a subexpression in an expression.
We use a simple encoding scheme for expression positions Pos
:
every Expr
constructor has at most 3 direct expression children. Considering an expression's type
to be one extra child as well, we can injectively map a path of childIdxs
to a natural number
by computing the value of the 4-ary representation 1 :: childIdxs
, since n-ary representations
without leading zeros are unique. Note that pos
is initialized to 1
(case childIdxs == []
).
See also SubExpr
.
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The coordinate 3 = maxChildren - 1
is
reserved to denote the type of the expression.
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The Pos representing the root subexpression.
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- Lean.SubExpr.Pos.instInhabitedPos = { default := Lean.SubExpr.Pos.root }
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The coordinate deepest in the Pos.
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Fold over the position starting at the root and heading to the leaf
Fold over the position starting at the leaf and heading to the root
monad-fold over the position starting at the root and heading to the leaf
monad-fold over the position starting at the leaf and finishing at the root.
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- Lean.SubExpr.Pos.depth p = Lean.SubExpr.Pos.foldr (fun (x : Nat) => Nat.succ) p 0
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Returns true if pred
is true for each coordinate in p
.
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- Lean.SubExpr.Pos.all pred p = Option.isSome (OptionT.run (Lean.SubExpr.Pos.foldrM (fun (n : Nat) (a : Unit) => if pred n = true then pure a else failure) p ()))
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Creates a subexpression Pos
from an array of 'coordinates'.
Each coordinate is a number {0,1,2} expressing which child subexpression should be explored.
The first coordinate in the array corresponds to the root of the expression tree.
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Decodes a subexpression Pos
as a sequence of coordinates cs : Array Nat
. See Pos.ofArray
for details.
cs[0]
is the coordinate for the root expression.
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- Lean.SubExpr.Pos.toArray p = Lean.SubExpr.Pos.foldl Array.push #[] p
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- Lean.SubExpr.Pos.pushNaryFn numArgs p = Lean.SubExpr.Pos.asNat p * Lean.SubExpr.Pos.maxChildren ^ numArgs
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- Lean.SubExpr.Pos.pushNaryArg numArgs argIdx p = let_fun this := Lean.SubExpr.Pos.asNat p * Lean.SubExpr.Pos.maxChildren ^ (numArgs - argIdx) + 1; this
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- Lean.SubExpr.Pos.toString p = (fun (x : String) => "/" ++ x) (String.intercalate "/" (List.map toString (Array.toList (Lean.SubExpr.Pos.toArray p))))
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- Lean.SubExpr.Pos.instOrdPos = let_fun this := inferInstance; this
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- Lean.SubExpr.Pos.instDecidableEqPos = let_fun this := inferInstance; this
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- Lean.SubExpr.Pos.instToStringPos = { toString := Lean.SubExpr.Pos.toString }
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- Lean.SubExpr.Pos.instEmptyCollectionPos = { emptyCollection := Lean.SubExpr.Pos.root }
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- Lean.SubExpr.Pos.instToJsonPos = { toJson := Lean.toJson ∘ Lean.SubExpr.Pos.toString }
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- Lean.SubExpr.Pos.instFromJsonPos = { fromJson? := fun (j : Lean.Json) => Lean.fromJson? j >>= Lean.SubExpr.Pos.fromString? }
A subexpression of some root expression. Both its value and its position within the root are stored.
- expr : Lean.Expr
The subexpression.
- pos : Lean.SubExpr.Pos
The position of the subexpression within the root expression.
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- Lean.instInhabitedSubExpr = { default := { expr := default, pos := default } }
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- Lean.SubExpr.mkRoot e = { expr := e, pos := Lean.SubExpr.Pos.root }
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Returns true if the selected subexpression is the topmost one.
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Map from subexpr positions to values.
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- Lean.SubExpr.PosMap α = Lean.RBMap Lean.SubExpr.Pos α compare
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- Lean.SubExpr.instToJsonFVarId = { toJson := fun (f : Lean.FVarId) => Lean.toJson f.name }
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- Lean.SubExpr.instToJsonMVarId = { toJson := fun (f : Lean.MVarId) => Lean.toJson f.name }
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- Lean.SubExpr.instFromJsonFVarId = { fromJson? := fun (j : Lean.Json) => Lean.FVarId.mk <$> Lean.fromJson? j }
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- Lean.SubExpr.instFromJsonMVarId = { fromJson? := fun (j : Lean.Json) => Lean.MVarId.mk <$> Lean.fromJson? j }
A location within a goal.
- hyp: Lean.FVarId → Lean.SubExpr.GoalLocation
One of the hypotheses.
- hypType: Lean.FVarId → Lean.SubExpr.Pos → Lean.SubExpr.GoalLocation
A subexpression of the type of one of the hypotheses.
- hypValue: Lean.FVarId → Lean.SubExpr.Pos → Lean.SubExpr.GoalLocation
A subexpression of the value of one of the let-bound hypotheses.
- target: Lean.SubExpr.Pos → Lean.SubExpr.GoalLocation
A subexpression of the goal type.
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- Lean.SubExpr.instFromJsonGoalLocation = { fromJson? := Lean.SubExpr.fromJsonGoalLocation✝ }
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A location within a goal state. It identifies a specific goal together with a GoalLocation
within it.
- mvarId : Lean.MVarId
Which goal the location is in.
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- Lean.SubExpr.instFromJsonGoalsLocation = { fromJson? := Lean.SubExpr.fromJsonGoalsLocation✝ }
Same as Expr.traverseApp
but also includes a
SubExpr.Pos
argument for tracking subexpression position.
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- Lean.Expr.traverseAppWithPos visit p e = visit p e