/*CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC C C C COMPUTE DIFFERENCES IN NUMBER OF FRACTIONS (0 to 1/8, 1/8 to 1/4) C C 03/22/15 (DKC) C C C CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC*/ #include <stdio.h> #include <math.h> #include <stdlib.h> int liouvile(unsigned int a); double numdiv(unsigned int a, unsigned int flag); mertensh(unsigned int, unsigned int *count, unsigned int *S); // unsigned int limit=0; // partial sum flag, normally set to 0 unsigned int norm=0; // normalize, normally set to 0 unsigned int hflag=0; // histogram flag unsigned int delta=1; // increment by 3/8 (use factor of 1.77) unsigned int MAXN=200; // up to 50000 unsigned int BEGINN=2; unsigned int out=36; // 10, sgn(n(x)-m(x))+1.781072418*sum(sgn(n(x/i)-m(x/i))*i*log(log(i))) // 11, sum of m(x/i) // 12, sum of n(x/i) // 13, sum of n(x/i)-m(x/i) // 14, sum of (n(x/i)-m(x/i))*i // 15, |n(x)-m(x)|+1.781072418*sum(|n(x/i)-m(x/i)|*i*log(log(i))) // 16, sum of (n(x/i)-m(x/i))*(h+exp(h)*log(h)) // 17, differences in number of fractions before, after 1/8 // 18, number of fractions before 1/8 // 19, number of fractions after 1/8 // 20, n(x)-m(x)+1.781072418*sum((n(x/i)-m(x/i))*i*log(log(i))) // 21, sum of (n(x/i)-m(x/i))*2*d(i) (see #24) // 22, sum of (n(x/i)-m(x/i))*sigma(i) // 23, sum of (n(x/i)-m(x/i)^2*L(i) // 24, sum of (n(x/i)-m(x/i))*d(i) (see #21) // 25, sum of n(x/i)-m(x/i) when i is a perfect square // 26, sum of (n(x/i)-m(x/i))^2 // 27, sum of (n(x/i)-m(x/i))*log(i) // 28, sum of sgn(n(x/i)-m(x/i)) // 29, sum of (n(x/i)-m(x/i)*log(i)*d(i) // 30, sum of (n(x/i)-m(x/i)^2*L(i)^2 // 31, sum of sgn(n(x/i)-m(x/i))*i // 32, sum of |sgn(n(x/i)-m(x/i))| // 33, sum of (n(x/i)-m(x/i))*L(i) // 34, sum of (n(x/i)-m(x/i))*M(i) // 35, -- // 36, sum of (n(x/i)-m(x/i))*sigma2(i) // void main() { int t,tsum,sum; unsigned int N,i,temp,count[2],iters; double sum6,sum7,sum8,sum9,sum10,sum11,sum12,sum13,sum14,sum15,sum16,sum17,sum18; double sum1,sum2,sum3,sum4,sum5,h,temp1; unsigned int *S; unsigned int histo[201]; double mean,std,msum,msum2,dsum,d2sum; short M[60001]; FILE *Outfp; Outfp = fopen("out1bj.dat","w"); S=(unsigned int*) malloc(40000000); if (S==NULL) return; // // compute Mertens function // if (out==34) { M[0]=1; for (N=2; N<=(MAXN+1); N++) { sum=0; for (i=2; i<=(N/3); i++) sum=sum+M[N/i-1]; sum=sum+(N+1)/2; t=1-sum; M[N-1]=(short)t; // printf(" %d \n",M[N-1]); } } for (i=0; i<201; i++) histo[i]=0; iters=0; dsum=0.0; d2sum=0.0; for (N=BEGINN; N<=MAXN; N++) { printf(" %d \n",N); if ((out==17)||(out==18)||(out==19)) mertensh(N, count, S); if (out==17) { t=(int)count[0]-(int)count[1]; if (hflag==2) { dsum=dsum+(double)t; d2sum=d2sum+(double)t*(double)t; iters=iters+1; std=d2sum-dsum*dsum/(double)iters; if (iters!=1) std=sqrt(std/(double)(iters-1)); else std=0.0; fprintf(Outfp," %e \n",std); } if (hflag==0) fprintf(Outfp," %d\n",t); if (hflag==1) { if ((t<-100)||(t>100)) { printf("difference out of range \n"); goto zskip; } histo[t+100]=histo[t+100]+1; } continue; } if (out==18) { fprintf(Outfp," %d\n",count[0]); continue; } if (out==19) { fprintf(Outfp," %d\n",count[1]); continue; } if ((out==11)||(out==12)) { sum6=0.0; sum7=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); sum6=sum6+(double)count[0]; sum7=sum7+(double)count[1]; } if (out==11) fprintf(Outfp," %e\n",sum6); if (out==12) fprintf(Outfp," %e\n",sum7); continue; } if ((out==13)||(out==14)) { sum8=0.0; sum9=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum8=sum8+(double)count[1]-(double)count[0]; // h(x) else sum8=sum8+(double)count[0]-(double)count[1]+3.0/8.0; // h(x) sum9=sum9+(double)i*((double)count[1]-(double)count[0]); } if (out==13) { if (norm==0) fprintf(Outfp," %e\n",sum8); else fprintf(Outfp," %e\n",sum8/(double)N); } if (out==14) fprintf(Outfp," %e\n",sum9); continue; } if (out==10) { sum2=0.0; for (i=2; i<=N; i++) { mertensh(N/i, count, S); temp1=(double)count[1]-(double)count[0]; if (temp1<0.0) sum2=sum2-(double)i*log(log((double)i)); if (temp1>0.0) sum2=sum2+(double)i*log(log((double)i)); } sum2=1.781072418*sum2; mertensh(N, count, S); temp1=(double)count[1]-(double)count[0]; if (temp1<0.0) sum2=sum2-1; if (temp1>0.0) sum2=sum2+1; fprintf(Outfp," %e\n",sum2); continue; } if (out==15) { sum2=0.0; for (i=2; i<=N; i++) { mertensh(N/i, count, S); temp1=(double)count[1]-(double)count[0]; if (temp1<0.0) temp1=-temp1; // printf(" %e %e \n",temp1,(double)i*log(log((double)i))); sum2=sum2+temp1*(double)i*log(log((double)i)); } mertensh(N, count, S); temp1=(double)count[1]-(double)count[0]; if (temp1<0.0) temp1=-temp1; sum2=1.781072418*sum2+temp1; fprintf(Outfp," %e\n",sum2); continue; } if (out==16) { sum1=0.0; h=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); h=h+1.0/(double)i; sum1=sum1+((double)count[1]-(double)count[0])*(h+exp(h)*log(h)); } fprintf(Outfp," %e\n",sum1); continue; } if (out==20) { sum2=0.0; for (i=2; i<=N; i++) { mertensh(N/i, count, S); // printf(" %e %e \n",(double)count[1]-(double)count[0],(double)i*log(log((double)i))); sum2=sum2+((double)count[1]-(double)count[0])*(double)i*log(log((double)i)); } mertensh(N, count, S); sum2=1.781072418*sum2+(double)count[1]-(double)count[0]; fprintf(Outfp," %e\n",sum2); continue; } if (out==21) { sum3=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum3=sum3+((double)count[1]-(double)count[0])*2.0*numdiv(i,1); else sum3=sum3+((double)count[0]-(double)count[1]+3.0/8.0)*2.0*numdiv(i,1); } fprintf(Outfp," %e\n",sum3); continue; } if (out==22) { sum4=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum4=sum4+((double)count[1]-(double)count[0])*numdiv(i,4); else sum4=sum4+((double)count[0]-(double)count[1]+3.0/8.0)*numdiv(i,4); } fprintf(Outfp," %e\n",sum4); continue; } if (out==23) { sum5=0.0; tsum=0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); t=liouvile(i); tsum=tsum+t; sum5=sum5+((double)count[1]-(double)count[0])*((double)count[1]-(double)count[0])*(double)tsum; } if (norm!=0) sum5=sum5/(double)N; fprintf(Outfp," %e\n",sum5); continue; } if (out==24) { sum14=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum14=sum14+((double)count[1]-(double)count[0])*numdiv(i,1); else sum14=sum14+((double)count[0]-(double)count[1]+3.0/8.0)*numdiv(i,1); } fprintf(Outfp," %e\n",sum14); continue; } if (out==25) { sum13=0.0; for (i=1; i<=N; i++) { temp=(unsigned int)(sqrt((double)i)+0.001); if ((temp*temp)==i) { mertensh(N/i, count, S); if (delta==0) sum13=sum13+(double)count[1]-(double)count[0]; else sum13=sum13+(double)count[0]-(double)count[1]+3.0/8.0; } } fprintf(Outfp," %e\n",sum13); continue; } if (out==26) { sum10=0.0; for (i=1; i<=N; i++) { if ((N/i)<=limit) break; mertensh(N/i, count, S); if (delta==0) sum10=sum10+((double)count[1]-(double)count[0])*((double)count[1]-(double)count[0]); else sum10=sum10+((double)count[0]-(double)count[1]+3.0/8.0)*((double)count[0]-(double)count[1]+3.0/8.0); } fprintf(Outfp," %e\n",sum10); continue; } if (out==27) { sum11=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum11=sum11+((double)count[1]-(double)count[0])*log((double)i); else sum11=sum11+((double)count[0]-(double)count[1]+3.0/8.0)*log((double)i); } fprintf(Outfp," %e\n",sum11); continue; } if (out==28) { sum12=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (count[0]>count[1]) // sum of sgn(n(x/i)-m(x/i)) sum12=sum12-1.0; if (count[0]<count[1]) sum12=sum12+1.0; } if (norm==0) fprintf(Outfp," %e\n",sum12); else fprintf(Outfp," %e\n",sum12/(double)N); continue; } if (out==29) { sum18=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum18=sum18+((double)count[1]-(double)count[0])*log((double)i)*numdiv(i,1); else sum18=sum18+((double)count[0]-(double)count[1]+3.0/8.0)*log((double)i)*numdiv(i,1); } fprintf(Outfp," %e\n",sum18); continue; } if (out==30) { sum17=0.0; tsum=0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); t=liouvile(i); tsum=tsum+t; sum17=sum17+((double)count[1]-(double)count[0])*((double)count[1]-(double)count[0])*(double)tsum*(double)tsum; } if (norm!=0) sum17=sum17/(double)N; fprintf(Outfp," %e\n",sum17); continue; } if (out==31) { sum15=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (count[0]>count[1]) // sum of sgn(n(x/i)-m(x/i))*i sum15=sum15-(double)i; if (count[0]<count[1]) sum15=sum15+(double)i; } fprintf(Outfp," %e\n",sum15); continue; } if (out==32) { sum16=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (count[0]!=count[1]) // sum of |sgn(n(x/i)-m(x/i))| sum16=sum16+1.0; } if (norm==0) fprintf(Outfp," %e\n",sum16); else fprintf(Outfp," %e\n",sum16/(double)N); } if (out==33) { sum17=0.0; tsum=0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); t=liouvile(i); tsum=tsum+t; sum17=sum17+((double)count[1]-(double)count[0])*(double)tsum; } if (norm!=0) sum17=sum17/(double)N; fprintf(Outfp," %e\n",sum17); continue; } if (out==34) { sum18=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum18=sum18+((double)count[1]-(double)count[0])*(double)M[i-1]; else { if (delta==1) sum18=sum18+((double)count[0]-(double)count[1]+3.0/8.0)*(double)M[i-1]; else { if (delta==2) sum18=sum18+(double)count[0]*(double)M[i-1]; else { if (delta==3) sum18=sum18+(double)count[1]*(double)M[i-1]; else { if (delta==4) sum18=sum18+((double)count[1]-(double)count[0])*(double)M[N/i-1]; else sum18=sum18+((double)count[0]-(double)count[1]+3.0/8.0)*(double)M[N/i-1]; } } } } } fprintf(Outfp," %e\n",sum18); continue; } if (out==36) { sum4=0.0; for (i=1; i<=N; i++) { mertensh(N/i, count, S); if (delta==0) sum4=sum4+((double)count[1]-(double)count[0])*numdiv(i,5); else sum4=sum4+((double)count[0]-(double)count[1]+3.0/8.0)*numdiv(i,5); } fprintf(Outfp," %e\n",sum4); continue; } } if ((out==17)&&(hflag==1)) { mean=0.0; msum2=0.0; for (i=0; i<201; i++) { fprintf(Outfp," %d\n",histo[i]); mean=mean+((double)i-100.0)*histo[i]; // printf(" %d %d %d %e\n",(int)(i-100),histo[i],(int)(i-100)*histo[i],mean); msum2=msum2+((double)i-100.0)*histo[i]*((double)i-100.0); } msum=mean; mean=mean/(double)(MAXN-1); std=(double)(MAXN-1)*msum2-msum*msum; std=sqrt(std/((double)(MAXN-1)*(double)(MAXN-2))); printf("mean=%e, std=%e \n",mean,std); } zskip: free(S); fclose(Outfp); return; }