« Lambda counting » : différence entre les versions

Introduction

The question is: among programs, what is the probability of having a fixed property.

what kind of program : turing machines, cellular automata, combinatory logic, lambda calculus

what kind of properties : structural (for functional programs), behaviour (SN, weakly normalizable, ...

references to known results on : turing machines, cellular automata

we concentrate on combinatory logic, lambda calculus

Lambert function, Catalan and Motzkin numbers

• ${\displaystyle C(n)}$ : Catalan numbers (${\displaystyle C(n)\sim {\frac {4^{n}}{n^{3/2}{\sqrt {\pi }}}}}$).
• ${\displaystyle M(n,k)}$: Motzkin numbers.
• ${\displaystyle W(\alpha )}$: Lambert W function (${\displaystyle X=Ye^{Y}\;\Longleftrightarrow \;Y=W(X)}$).

combinatory logic

results on combinatory logic

Generality on lambda calculus

what kind of distribution ?

we look only for densities,

for that we need size.

different size for variables: zero, one, binary with optimal size, binary with fixed size, debruijn indices in unary...

we concentrate on the simple one : variable of size zero (probably similar for size one ) more later for other size

generating functions

this does not work (by now) because radius of convergence 0

no known results for the number of terms of size n (denoted ${\displaystyle L_{n}}$)

our results

(the proof of result of section k needs the result of section (k-1))

Upper and lower bounds for ${\displaystyle L_{n}}$

For the lower bound, we will first count the number ${\displaystyle LB(n,k)}$ of lambda-terms of size ${\displaystyle n}$ starting with ${\displaystyle k}$ lambdas and having no other lambda below. This means that the lower part of the term is a binary tree of size ${\displaystyle n-k}$ with ${\displaystyle k}$ possibility for each leaf. Therefore we have:

${\displaystyle LB(n,k)=C(n-k)k^{n-k}}$

From the equivalent, we have for ${\displaystyle n}$ big enough:

${\displaystyle C(n-k)\geq {\frac {4^{n-k}}{n^{\frac {3}{2}}}}}$

And therefore

${\displaystyle LB(n,k)\geq 4^{n}k^{n-k}}$

Now, for ${\displaystyle n}$ fixed, we define ${\displaystyle f(\alpha )=((1-\alpha )n)^{n\alpha }}$ (so Échec de l’analyse (SVG (MathML peut être activé via une extension du navigateur) : réponse non valide(« Math extension cannot connect to Restbase. ») du serveur « https://wikimedia.org/api/rest_v1/ » :): {\displaystyle LB(n,k) = 4^n f(1-\frac{k}{n})} ) and look for the maximum of this function. We have Échec de l’analyse (SVG (MathML peut être activé via une extension du navigateur) : réponse non valide(« Math extension cannot connect to Restbase. ») du serveur « https://wikimedia.org/api/rest_v1/ » :): {\displaystyle f'(\alpha) = n f(\alpha) \left(\ln(n(\alpha)) -\frac{1-\alpha}{(\alpha)}\right)}

upper and lower bounds for number of lambdas in a term of size n

Jakub's trik : at least 1 lambda in head position

at least ${\displaystyle o({\sqrt {n/\ln(n)}})}$ lambdas in head position and number of lambdas in one path

Remark: (may be 4) can be done directly without 3))

each of the Échec de l’analyse (SVG (MathML peut être activé via une extension du navigateur) : réponse non valide(« Math extension cannot connect to Restbase. ») du serveur « https://wikimedia.org/api/rest_v1/ » :): {\displaystyle o(\sqrt{n/\ln(n)})} head lambdas really bind "many" occurrences of the variable

every fixed closed term (including the identity !) does not appear in a random term (in fact we have much more than that)

comment : so different situation in combinatory logic and lambda calculus ; the coding uses a big size so need to count variables in a different way

Experiments

results of the experiments we have done

some experiments that have to be done : e.g. density of terms having Échec de l’analyse (SVG (MathML peut être activé via une extension du navigateur) : réponse non valide(« Math extension cannot connect to Restbase. ») du serveur « https://wikimedia.org/api/rest_v1/ » :): {\displaystyle \lambda x.y} or big Omega pattern ...

to be done

Upper and lower bounds for Échec de l’analyse (SVG (MathML peut être activé via une extension du navigateur) : réponse non valide(« Math extension cannot connect to Restbase. ») du serveur « https://wikimedia.org/api/rest_v1/ » :): {\displaystyle L_n} with other size for variables especially one, binary with fixed size

Open questions and Future work

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