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- n := 4;
- on rational, rat;
- off allfac;
- array p(n/2+2);
- harmonic u,v,w,x,y,z;
- weight e=1, b=1, d=1, a=1;
- %% Step1: Solve Kepler equation
- bige := fourier 0;
- for k:=1:n do <<
- wtlevel k;
- bige:=fourier e * hsub(fourier(sin u), u, u, bige, k);
- >>;
- write "Kepler Eqn solution:", bige$
- %% Ensure we do not calculate things of too high an order
- wtlevel n;
- %% Step 2: Calculate r/a in terms of e and l
- dd:=-e*e; hh:=3/2; j:=1; cc := 1;
- for i:=1:n/2 do <<
- j:=i*j; hh:=hh-1; cc:=cc+hh*(dd^i)/j
- >>;
- bb:=hsub(fourier(1-e*cos u), u, u, bige, n);
- aa:=fourier 1+hdiff(bige,u); ff:=hint(aa*aa*fourier cc,u);
- %% Step 3: a/r and f
- uu := hsub(bb,u,v); uu:=hsub(uu,e,b);
- vv := hsub(aa,u,v); vv:=hsub(vv,e,b);
- ww := hsub(ff,u,v); ww:=hsub(ww,e,b);
- %% Step 4: Substitute f and f' into S
- yy:=ff-ww; zz:=ff+ww;
- xx:=hsub(fourier((1-d*d)*cos(u)),u,u-v+w-x-y+z,yy,n)+
- hsub(fourier(d*d*cos(v)),v,u+v+w+x+y-z,zz,n);
- %% Step 5: Calculate R
- zz:=bb*vv; yy:=zz*zz*vv;
- on fourier;
- p(0):= fourier 1; p(1) := xx;
- for i := 2:n/2+2 do <<
- wtlevel n+4-2i;
- p(i) := fourier ((2*i-1)/i)*xx*p(i-1) - fourier ((i-1)/i)*p(i-2);
- >>;
- wtlevel n;
- for i:=n/2+2 step -1 until 3 do p(n/2+2):=fourier(a*a)*zz*p(n/2+2)+p(i-1);
- yy*p(n/2+2);
- showtime;
- end;
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