HepLean Documentation

Lean.Widget.TaggedText

inductive Lean.Widget.TaggedText (α : Type u) :

The minimal structure needed to represent "string with interesting (tagged) substrings". Much like Lean 3 sf, but with indentation already stringified.

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    Equations
    instance Lean.Widget.instBEqTaggedText :
    {α : Type u_1} → [inst : BEq α] → BEq (Lean.Widget.TaggedText α)
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    • Lean.Widget.instBEqTaggedText = { beq := Lean.Widget.beqTaggedText✝ }
    instance Lean.Widget.instReprTaggedText :
    {α : Type u_1} → [inst : Repr α] → Repr (Lean.Widget.TaggedText α)
    Equations
    • Lean.Widget.instReprTaggedText = { reprPrec := Lean.Widget.reprTaggedText✝ }
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    • Lean.Widget.instFromJsonTaggedText = { fromJson? := Lean.Widget.fromJsonTaggedText✝ }
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    • Lean.Widget.instToJsonTaggedText = { toJson := Lean.Widget.toJsonTaggedText✝ }
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    Instances For
      partial def Lean.Widget.TaggedText.map {α : Type u_1} {β : Type u_2} (f : αβ) :
      partial def Lean.Widget.TaggedText.mapM {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} [Monad m] (f : αm β) :
      partial def Lean.Widget.TaggedText.rewriteM {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} [Monad m] (f : αLean.Widget.TaggedText αm (Lean.Widget.TaggedText β)) :

      Like mapM but allows rewriting the whole subtree at tag nodes.

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      • One or more equations did not get rendered due to their size.
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      The output is tagged with (tag, indent) where tag is from the input Format and indent is the indentation level at this point. The latter is used to print sub-trees accurately by passing it again as the indent argument.

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        Remove tags, leaving just the pretty-printed string.

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