Throws an exception if target of the given goal contains metavariables.
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Abstracts metavariables occurring in the target.
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Returns true if declName is the name of a grind helper declaration that
should not be unfolded by unfoldReducible.
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- Lean.Meta.Grind.isGrindGadget declName = (declName == `Lean.Grind.EqMatch)
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Auxiliary function for implementing unfoldReducible and unfoldReducibleSimproc.
Performs a single step.
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Unfolds all reducible declarations occurring in e.
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Unfolds all reducible declarations occurring in the goal's target.
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- mvarId.unfoldReducible = mvarId.transformTarget Lean.Meta.Grind.unfoldReducible
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Beta-reduces the goal's target.
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- mvarId.betaReduce = mvarId.transformTarget fun (x : Lean.Expr) => liftM (Lean.Core.betaReduce x)
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Clears auxiliary and implementation detail decls used to encode recursive declarations and implementation details.
grindeliminates auxiliary declarations to ensure they are not accidentally used by its proof automation.grindeliminates implementation detail declarations because they have a support role.
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In the grind tactic, during Expr internalization, we don't expect to find Expr.mdata.
This function ensures Expr.mdata is not found during internalization.
Recall that we do not internalize Expr.lam children.
Recall that we still have to process Expr.forallE because of ForallProp.lean.
Moreover, we may not want to reduce p → q to ¬p ∨ q when (p q : Prop).
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Converts nested Expr.projs into projection applications if possible.
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Normalizes universe levels in constants and sorts.
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Normalizes the given expression using the grind simplification theorems and simprocs.
This function is used for normalizing E-matching patterns. Note that it does not return a proof.
Returns Grind.MatchCond e.
We have special support for propagating is truth value.
See comment at MatchCond.lean.
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- Lean.Meta.Grind.markAsMatchCond e = Lean.mkApp (Lean.mkConst `Lean.Grind.MatchCond) e
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- Lean.Meta.Grind.isMatchCond e = e.isAppOfArity `Lean.Grind.MatchCond 1
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Returns Grind.PreMatchCond e.
Recall that Grind.PreMatchCond is an identity function,
but the simproc reducePreMatchCond is used to prevent the term e from being simplified.
Grind.PreMatchCond is later converted into Grind.MatchCond.
See comment at MatchCond.lean.
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- Lean.Meta.Grind.markAsPreMatchCond e = Lean.mkApp (Lean.mkConst `Lean.Grind.PreMatchCond) e
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- Lean.Meta.Grind.isPreMatchCond e = e.isAppOfArity `Lean.Grind.PreMatchCond 1
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Adds reducePreMatchCond to s
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- Lean.Meta.Grind.addPreMatchCondSimproc s = s.add `Lean.Meta.Grind.reducePreMatchCond false
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Converts Grind.PreMatchCond into Grind.MatchCond.
Recall that Grind.PreMatchCond uses default reducibility setting, but
Grind.MatchCond does not.
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- Lean.Meta.Grind.isIte e = (e.isAppOf `ite && decide (e.getAppNumArgs ≥ 5))
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- Lean.Meta.Grind.isDIte e = (e.isAppOf `dite && decide (e.getAppNumArgs ≥ 5))