def
Lean.Meta.substCore
(mvarId : Lean.MVarId)
(hFVarId : Lean.FVarId)
(symm : optParam Bool false)
(fvarSubst : optParam Lean.Meta.FVarSubst { map := ∅ })
(clearH : optParam Bool true)
(tryToSkip : optParam Bool false)
:
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Instances For
def
Lean.Meta.heqToEq
(mvarId : Lean.MVarId)
(fvarId : Lean.FVarId)
(tryToClear : optParam Bool true)
:
Given h : HEq α a α b
in the given goal, produce a new goal where h : Eq α a b
.
If h
is not of the give form, then just return (h, mvarId)
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Given x
, try to find an equation of the form heq : x = rhs
or heq : lhs = x
,
and runs substCore
on it. Throws an expection if no such equation is found.
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Given x
, try to find an equation of the form heq : x = rhs
or heq : lhs = x
,
and runs substCore
on it. Returns none
if no such equation is found, or if substCore
fails.
Equations
- Lean.Meta.substVar? mvarId hFVarId = Lean.observing? (Lean.Meta.substVar mvarId hFVarId)
Instances For
Equations
- Lean.Meta.subst? mvarId hFVarId = Lean.observing? (Lean.Meta.subst mvarId hFVarId)
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def
Lean.Meta.substCore?
(mvarId : Lean.MVarId)
(hFVarId : Lean.FVarId)
(symm : optParam Bool false)
(fvarSubst : optParam Lean.Meta.FVarSubst { map := ∅ })
(clearH : optParam Bool true)
(tryToSkip : optParam Bool false)
:
Equations
- Lean.Meta.substCore? mvarId hFVarId symm fvarSubst clearH tryToSkip = Lean.observing? (Lean.Meta.substCore mvarId hFVarId symm fvarSubst clearH tryToSkip)
Instances For
Equations
- Lean.Meta.trySubstVar mvarId hFVarId = do let __do_lift ← Lean.Meta.substVar? mvarId hFVarId pure (__do_lift.getD mvarId)
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- Lean.Meta.trySubst mvarId hFVarId = do let __do_lift ← Lean.Meta.subst? mvarId hFVarId pure (__do_lift.getD mvarId)
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