1 // eval_rational_series<bool>().
4 #include "base/cl_sysdep.h"
7 #include "float/transcendental/cl_LF_tran.h"
12 #include "cln/lfloat.h"
13 #include "cln/integer.h"
14 #include "cln/exception.h"
15 #include "float/lfloat/cl_LF.h"
20 // Evaluates S = sum(N1 <= n < N2, a(n)/b(n) * (p(N1)...p(n))/(q(N1)...q(n)))
21 // and returns P = p(N1)...p(N2-1), Q = q(N1)...q(N2-1), B = B(N1)...B(N2-1)
22 // and T = B*Q*S (all integers). On entry N1 < N2.
23 // P will not be computed if a NULL pointer is passed.
25 static void eval_qa_series_aux (uintC N1, uintC N2,
26 const cl_qa_series& args,
31 throw runtime_exception(); break;
37 *Q = args.qv[N1] * args.qv[N1+1];
38 *T = args.qv[N1+1] * args.av[N1]
43 var cl_I q12 = args.qv[N1+1] * args.qv[N1+2];
44 *Q = args.qv[N1] * q12;
45 *T = q12 * args.av[N1]
46 + args.qv[N1+2] * args.av[N1+1]
51 var cl_I q23 = args.qv[N1+2] * args.qv[N1+3];
52 var cl_I q123 = args.qv[N1+1] * q23;
53 *Q = args.qv[N1] * q123;
54 *T = q123 * args.av[N1]
56 + args.qv[N1+3] * args.av[N1+2]
61 var uintC Nm = (N1+N2)/2; // midpoint
64 eval_qa_series_aux(N1,Nm,args,&LQ,<);
65 // Compute right part.
67 eval_qa_series_aux(Nm,N2,args,&RQ,&RT);
68 // Put together partial results.
70 // S = LS + 1/LQ * RS, so T = RQ*LT + RT.
78 const cl_LF eval_rational_series<false> (uintC N, const cl_qa_series& args, uintC len)
81 return cl_I_to_LF(0,len);
83 eval_qa_series_aux(0,N,args,&Q,&T);
84 return cl_I_to_LF(T,len) / cl_I_to_LF(Q,len);
86 // Bit complexity (if p(n), q(n), a(n), b(n) have length O(log(n))):