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In "Types and Programming Languages", section 6.1.2 they talk about a naming context used to number free variables in lambda expressions. Using the example scheme they've provided, both λx.xb and λx.xx will have their de Bruijn representation as λ.00 when they're clearly different terms. How does this work?

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What makes you think the representation of the first one would be λ.00. I don't think the first can be represented at all since b isn't bound anywhere. –  sepp2k Feb 26 '12 at 4:06
In the section I mentioned, they talk about how free variables can be represented using a naming context. –  SCombinator Feb 26 '12 at 4:27
Ah, I see now. I'll write an answer shortly. –  sepp2k Feb 26 '12 at 4:42

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up vote 7 down vote accepted

As you mentioned the book uses a naming context which maps n free variables to the numbers from 0 to n-1. However if you look closely at the examples in the book, you'll notice that it doesn't use those numbers directly to represent the variables. For example it represents λw. y w as λ. 4 0 even though the mapping for y is 3, not 4.

What's happening here is that he adds the nesting depth of the variable to the number. I.e. if a free variable v is nested in d lambdas, it gets the index Γ(v)+d, not just Γ(v).

So in your example using the context Γ {b -> 0} λx.xb would be represented as λ. 0 1, not λ. 0 0. Thus there's no ambiguity.

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I created a web based interpreter for a simpler index based method in an effort to learn the workings of the Lambda Calculus. I would appreciate your feedback on it. –  dansalmo Mar 22 '13 at 18:58

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