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- reduce: Lean.Meta.ACLt.ReduceMode
- reduceSimpleOnly: Lean.Meta.ACLt.ReduceMode
- none: Lean.Meta.ACLt.ReduceMode
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An AC-compatible ordering.
Recall that an AC-compatible ordering if it is monotonic, well-founded, and total. Both KBO and LPO are AC-compatible. KBO is faster, but we do not cache the weight of each expression in Lean 4. Even if we did, we would need to have a weight where implicit instance arguments are ignored. So, we use a LPO-like term ordering.
Remark: this method is used to implement ordered rewriting. We ignore implicit instance arguments to address an issue reported at issue #972.
Remark: the order is not really total on terms since
- We instance implicit arguments.
- We ignore metadata.
- We ignore universe parameterst at constants.
Equations
- Lean.Meta.ACLt.main a b mode = Lean.Meta.ACLt.main.lt mode a b
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- Lean.Meta.ACLt.main.getParamsInfo f numArgs = if f.hasLooseBVars = true then pure #[] else do let __do_lift ← Lean.Meta.getFunInfoNArgs f numArgs pure __do_lift.paramInfo
Instances For
An AC-compatible ordering.
Recall that an AC-compatible ordering if it is monotonic, well-founded, and total. Both KBO and LPO are AC-compatible. KBO is faster, but we do not cache the weight of each expression in Lean 4. Even if we did, we would need to have a weight where implicit instance arguments are ignored. So, we use a LPO-like term ordering.
Remark: this method is used to implement ordered rewriting. We ignore implicit instance arguments to address an issue reported at issue #972.
Remark: the order is not really total on terms since
- We instance implicit arguments.
- We ignore metadata.
- We ignore universe parameterst at constants.
Equations
- Lean.Meta.acLt a b mode = Lean.Meta.ACLt.main a b mode