//////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // Pi void Pi_BSR(BigFloat &P,BigFloat &Q,BigFloat &R,uint32_t a,uint32_t b,size_t p){ // Binary Splitting recursion for the Chudnovsky Formula. if (b - a == 1){ // P = (13591409 + 545140134 b)(2b-1)(6b-5)(6b-1) (-1)^b P = BigFloat(b).mul(545140134); P = P.add(BigFloat(13591409)); P = P.mul(2*b - 1); P = P.mul(6*b - 5); P = P.mul(6*b - 1); if (b % 2 == 1) P.negate(); // Q = 10939058860032000 * b^3 Q = BigFloat(b); Q = Q.mul(Q).mul(Q).mul(26726400).mul(409297880); // R = (2b-1)(6b-5)(6b-1) R = BigFloat(2*b - 1); R = R.mul(6*b - 5); R = R.mul(6*b - 1); return; } uint32_t m = (a + b) / 2; BigFloat P0,Q0,R0,P1,Q1,R1; Pi_BSR(P0,Q0,R0,a,m,p); Pi_BSR(P1,Q1,R1,m,b,p); P = P0.mul(Q1,p).add(P1.mul(R0,p),p); Q = Q0.mul(Q1,p); R = R0.mul(R1,p); }
//////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // Pi void Pi_BSR(BigFloat &P,BigFloat &Q,BigFloat &R,uint32_t a,uint32_t b,size_t p,int tds = 1){ // Binary Splitting recursion for the Chudnovsky Formula. if (b - a == 1){ // P = (13591409 + 545140134 b)(2b-1)(6b-5)(6b-1) (-1)^b P = BigFloat(b).mul(545140134); P = P.add(BigFloat(13591409)); P = P.mul(2*b - 1); P = P.mul(6*b - 5); P = P.mul(6*b - 1); if (b % 2 == 1) P.negate(); // Q = 10939058860032000 * b^3 Q = BigFloat(b); Q = Q.mul(Q).mul(Q).mul(26726400).mul(409297880); // R = (2b-1)(6b-5)(6b-1) R = BigFloat(2*b - 1); R = R.mul(6*b - 5); R = R.mul(6*b - 1); return; } uint32_t m = (a + b) / 2; BigFloat P0,Q0,R0,P1,Q1,R1; if (b - a < 1000 || tds < 2){ // No more threads. Pi_BSR(P0,Q0,R0,a,m,p); Pi_BSR(P1,Q1,R1,m,b,p); }else{ // Run sub-recursions in parallel. int tds0 = tds / 2; int tds1 = tds - tds0; #pragma omp parallel num_threads(2) { int tid = omp_get_thread_num(); if (tid == 0){ Pi_BSR(P0,Q0,R0,a,m,p,tds0); } if (tid != 0 || omp_get_num_threads() < 2){ Pi_BSR(P1,Q1,R1,m,b,p,tds1); } } } P = P0.mul(Q1,p,tds).add(P1.mul(R0,p,tds),p); Q = Q0.mul(Q1,p,tds); R = R0.mul(R1,p,tds); }
int main() { BigFloat *sum; sum = new BigFloat(0.0); for ( int i = 1; i <= 100 ; i ++) { BigFloat index(1.0); BigFloat temp((double)i); if ( 0 == index.divide(&index, &temp)) sum->add(sum,&index); else { printf("error"); exit(1); } } sum->printAll(); sum->print_fraction_portion_in_decimal(1000,NULL); }