If X needs to pass to Y, and there could be P1, P2, ..., Pn players in between and you care about the order of passing then indeed

For 2 extra players you have paths: X-Y, X-P1-Y, X-P2-Y, X-P1-P2-Y, X-P2-P1-Y

Which gives a total of 5 different paths, similarly for 3 extra players you have 16 different paths

First try to reduce the problem to something known, and for this I would eliminate X-Y, they are common to all of the above translates to question: what is the sum of k-permutations for k from 0 to n, where n is the number of P.

This can be given as

```
f(n):=sum(n!/(n-i)!,i,0,n);
```

and I can confirm your findings for 19 and 39 (20 and 40 in your notation).

For f(499) I get

```
6633351524650661171514504385285373341733228850724648887634920376333901210587244906195903313708894273811624288449277006968181762616943058027258258920058014768423359811679381900054568501151839849768338994244697593758840394106353734267539926205845992860165295957099385939316593862710470512043836452624452665801937754479602741031832540175306674471495745716725509714798824661807396000105338256698426305553340786519843729411660457896089840381658295930455362209587765698327585913037665131195504013431486823990271059962837959407778393078276213331859189770016153265512805722812864376997337140529242894215031131618375899072989922780132488077015246576266246551484603286735418485007674249207286921801779414240854077425752351919182464902664206622037834736215298295580945851569079682952183639701057397376328170754187008425429164206646365285647875545882646729176997107332605851460212415526607757545366695048460341802079614840254694664267117469603856584752270653889630424848913719533359942725361985274851471687885265903663806182184272555073708882789845441094009797907518245726494471433964169680271980763830020431957658400573531564215436064984091520
```

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