Equations
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@[inline]
Equations
Instances For
Equations
- Lean.NameMap.instEmptyCollection α = { emptyCollection := Lean.mkNameMap α }
Equations
- Lean.NameMap.instInhabited α = { default := ∅ }
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- m.insert n a = Lean.RBMap.insert m n a
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Equations
- m.contains n = Lean.RBMap.contains m n
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instance
Lean.NameMap.instForInProdName
{α : Type}
{m : Type u_1 → Type u_2}
:
ForIn m (Lake.NameMap α) (Lake.Name × α)
Equations
- Lean.NameMap.instForInProdName = inferInstanceAs (ForIn m (Lean.RBMap Lake.Name α Lean.Name.quickCmp) (Lake.Name × α))
Equations
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Instances For
Equations
- Lean.NameSet.instEmptyCollection = { emptyCollection := Lean.NameSet.empty }
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- Lean.NameSet.instInhabited = { default := Lean.NameSet.empty }
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- s.insert n = Lean.RBTree.insert s n
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Equations
- s.contains n = Lean.RBMap.contains s n
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Equations
- Lean.NameSet.instForInName = inferInstanceAs (ForIn m (Lean.RBTree Lake.Name Lean.Name.quickCmp) Lake.Name)
Equations
- Lean.NameSet.instAppend = { append := Lean.NameSet.append }
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- Lean.NameSSet.instEmptyCollection = { emptyCollection := Lean.NameSSet.empty }
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- Lean.NameSSet.instInhabited = { default := Lean.NameSSet.empty }
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- Lean.NameHashSet.instEmptyCollection = { emptyCollection := Lean.NameHashSet.empty }
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- Lean.NameHashSet.instInhabited = { default := ∅ }
Equations
- s.insert n = Lean.HashSet.insert s n
Instances For
Equations
- s.contains n = Lean.HashSet.contains s n