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Im looking for an example of a weakly normalising lambda term. Am I right in saying that the following:


Reduces to:



doesnt terminate (if you try to reduce (λx.xx)(λx.xx))

I wasnt sure if the first reduction is correct so just need some clarification, thanks.

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closed as off-topic by Barmar, Fred Foo, Wooble, Ganesh Sittampalam, J. Abrahamson Jan 9 '14 at 14:47

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This question appears to be off-topic because it is about CS theory: cstheory.stackexchange.com would be better. – Barmar Jan 9 '14 at 12:39
The answer should be "b". Because for any a (\a.b) reduces b, we even don't need to evaluate a. – d12frosted Jan 9 '14 at 12:48
great, thanks. thought that was right just wasnt sure of my answer ^^ – UltraViolent Jan 9 '14 at 12:49

If you evaluate the right term first and continually then it will never reach a normal form, thus it is not strongly normalizable. If you evaluate the left term first it will immediately reach a normal form, thus it is normalizable and demonstrates that this term is weakly normalizable. It's also an example of the non-confluence of the untyped lambda calculus.

Note that you're more likely to want to talk about how a rewriting system is normalizing than a particular term. This term is thus a counterexample to the strong normalization property of untyped lambda calculus, but does not provide positive evidence that ULC is weakly normalizing (and it isn't).

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