This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A269925 #23 Aug 10 2018 17:36:44
%S A269925 59520825,4304016990,4304016990,158959754226,354949166565,
%T A269925 158959754226,4034735959800,14805457339920,14805457339920,
%U A269925 4034735959800,79553497760100,420797306522502,691650582088536,420797306522502,79553497760100,1302772718028600,9220982517965400,21853758736216200,21853758736216200,9220982517965400,1302772718028600
%N A269925 Triangle read by rows: T(n,f) is the number of rooted maps with n edges and f faces on an orientable surface of genus 5.
%C A269925 Row n contains n-9 terms.
%H A269925 Gheorghe Coserea, <a href="/A269925/b269925.txt">Rows n = 10..210, flattened</a>
%H A269925 Sean R. Carrell, Guillaume Chapuy, <a href="http://arxiv.org/abs/1402.6300">Simple recurrence formulas to count maps on orientable surfaces</a>, arXiv:1402.6300 [math.CO], 2014.
%e A269925 Triangle starts:
%e A269925 n\f [1] [2] [3] [4]
%e A269925 [10] 59520825;
%e A269925 [11] 4304016990, 4304016990;
%e A269925 [12] 15895975422, 354949166565, 158959754226;
%e A269925 [13] 4034735959800, 14805457339920, 14805457339920, 4034735959800;
%e A269925 [14] ...
%t A269925 Q[0, 1, 0] = 1; Q[n_, f_, g_] /; n<0 || f<0 || g<0 = 0;
%t A269925 Q[n_, f_, g_] := Q[n, f, g] = 6/(n+1)((2n-1)/3 Q[n-1, f, g] + (2n-1)/3 Q[n - 1, f-1, g] + (2n-3)(2n-2)(2n-1)/12 Q[n-2, f, g-1] + 1/2 Sum[l = n-k; Sum[v = f-u; Sum[j = g-i; Boole[l >= 1 && v >= 1 && j >= 0] (2k-1)(2l-1) Q[k-1, u, i] Q[l-1, v, j], {i, 0, g}], {u, 1, f}], {k, 1, n}]);
%t A269925 Table[Q[n, f, 5], {n, 10, 15}, {f, 1, n-9}] // Flatten (* _Jean-François Alcover_, Aug 10 2018 *)
%o A269925 (PARI)
%o A269925 N = 15; G = 5; gmax(n) = min(n\2, G);
%o A269925 Q = matrix(N + 1, N + 1);
%o A269925 Qget(n, g) = { if (g < 0 || g > n/2, 0, Q[n+1, g+1]) };
%o A269925 Qset(n, g, v) = { Q[n+1, g+1] = v };
%o A269925 Quadric({x=1}) = {
%o A269925 Qset(0, 0, x);
%o A269925 for (n = 1, length(Q)-1, for (g = 0, gmax(n),
%o A269925 my(t1 = (1+x)*(2*n-1)/3 * Qget(n-1, g),
%o A269925 t2 = (2*n-3)*(2*n-2)*(2*n-1)/12 * Qget(n-2, g-1),
%o A269925 t3 = 1/2 * sum(k = 1, n-1, sum(i = 0, g,
%o A269925 (2*k-1) * (2*(n-k)-1) * Qget(k-1, i) * Qget(n-k-1, g-i))));
%o A269925 Qset(n, g, (t1 + t2 + t3) * 6/(n+1))));
%o A269925 };
%o A269925 Quadric('x);
%o A269925 concat(apply(p->Vecrev(p/'x), vector(N+1 - 2*G, n, Qget(n-1 + 2*G, G))))
%Y A269925 Rooted maps of genus 5 with n edges and f faces for 1<=f<=10: A288281 f=1, A288282 f=2, A288283 f=3, A288284 f=4, A288285 f=5, A288286 f=6, A288287 f=7, A288288 f=8, A288289 f=9, A288290 f=10.
%Y A269925 Row sums give A238355 (column 5 of A269919).
%Y A269925 Cf. A035309, A269921, A269922, A269923, A269924, A270406, A270407, A270408, A270409, A270410, A270411, A270412.
%K A269925 nonn,tabl
%O A269925 10,1
%A A269925 _Gheorghe Coserea_, Mar 15 2016