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k60s.cpp
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k60s.cpp
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/**********************************/
////////////////////////////////////
/********************************************
OEIS A132581.
The Function F(n).
Antichains on posets.
and using theory rules. See docs.
1' from F(1) to F(130).
on small computer, one single task.
(C) J.M.M.Aranda.Spain-UE. 2020.
Related to author works.
OEIS: A000372. Dedekind numbers.
A132581. my F(n)
********************************************/
//
// warning bug mingw gcc pragma pack(16)
// give map segfault nnnn.
//
#include <cstdbool>
#include <bitset>
#include <cstdio>
#include <iostream>
#include <conio.h>
#include <ctime>
#include <map>
#include <unordered_map>
#include <stack>
using namespace std;
#define ATALI __attribute__((aligned))
#define ATHOT __attribute__((hot))
#define EQ ==
#define NE !=
#define LT <
#define GT >
#define LE <=
#define GE >=
#define AND &&
#define OR ||
#define NOT !
#define bor |
#define band &
#define bans &=
#define bxor ^
#define bnot ~
// *************************************
#define XWIDE 128
#define ZWIDE 131
using U128=unsigned __int128;
using U64=uint64_t;
using U32=uint32_t;
static stack<U128> Q ATALI;
static array<U128,XWIDE> MASKPOW2 ATALI;
static array<U128,XWIDE> MASKNOT2;
static array<U128,XWIDE> HMASK ATALI;
static array<U64,ZWIDE> FNARR;
using XYMAPTYPE=unordered_map<U128,U32>;
static XYMAPTYPE XYMAP ATALI;
static XYMAPTYPE::iterator tera;
//******************************
void newl(void)
{
cout<<endl;
}
void binU128(U128 p)
{
U128 n;char ch;
int len=20;
n=p;
for(int b=len;b>=0;b--)
{
ch='0';if((n band MASKPOW2[b]) NE 0)ch='1';
printf("%c",ch);if(b%4 EQ 0)printf(" ");
}
newl();
}
void printU128(U128 p)
{
const int BX=40,cc=10;
char buf[BX],CHZ='0';
int k,m;U128 n;
n=p;
for(int i=0;i LT BX;i++)buf[i]=CHZ;
k=BX-1;buf[k]=0;
while(n NE 0)
{
m=n%cc;buf[--k]=CHZ+m;
n=(n-m);n=n/cc;
}
printf("U128: %s \n",buf);
}
int highbit(U128 pa) ATHOT;
int highbit(U128 pa)
{
U128 x,po(1);int hbit;
x=pa;hbit=-1;
for(int bit=0;bit LT XWIDE;bit++)
{
const U128 tmp=(x band po);
if(tmp NE 0)hbit=bit;
po<<=1;
}
if(hbit LT 0)exit(2);
return hbit;
}
static bool BOOMAP;
U32 finder(U128 pl) ATHOT;
U32 finder(U128 pl)
{
U32 y;
if(pl LE 2)
{
BOOMAP=true;
if(pl EQ 0)return 1;
if(pl EQ 1)return 2;
if(pl EQ 2)return 2;
}
//
{
tera=XYMAP.find(pl);
if(tera NE XYMAP.end())
{
BOOMAP=true;
y=tera->second;return y;
}
}
//
BOOMAP=false;
return 0;
}
void insert(U128 x,U32 y) ATHOT;
void insert(U128 x,U32 y)
{
XYMAP[x]=y;
}
U128 xleft(U128 p,int higbit) ATHOT;
U128 xleft(U128 p,int higbit)
{
U128 lef=p; // Clear hibit.
lef bans MASKNOT2[higbit];
return lef;
}
U128 xright(U128 p,int bit) ATHOT;
U128 xright(U128 p,int bit)
{
U128 rig;
// Clear bits. dleq(*,bit). see doc.
rig=p;
rig bans HMASK[bit];
return rig;
}
U128 binposet(int n) ATHOT;
U128 binposet(int n)
{
U128 t=MASKPOW2[n]-1;
return t;
}
U64 FUNCB(U128 p0) ATHOT;
U64 FUNCB(U128 p0)
{
U64 FSUM;
if(p0 EQ 0)return 1;
if(p0 EQ 1)return 2;
FSUM=0;
while(NOT Q.empty())Q.pop();
Q.push(p0);
while(NOT Q.empty())
{
U32 ylar,ylef,yrig;U128 xlar,xlef,xrig;
int higbit;bool blef,brig;
//
xlar=Q.top();Q.pop();higbit=highbit(xlar);
if(xlar EQ 0){FSUM++;continue;};
//
ylar=finder(xlar);
if(BOOMAP){FSUM+=ylar;continue;}
//
xlef=xleft(xlar,higbit);
xrig=xright(xlar,higbit);
ylef=finder(xlef);blef=BOOMAP;
if(xrig EQ xlef){brig=blef;yrig=ylef;}
else
{
yrig=finder(xrig);brig=BOOMAP;
}
//
if(blef AND brig)
{
ylar=ylef+yrig;
insert(xlar,ylar);FSUM+=ylar;
}
else
{
if(blef)FSUM+=ylef; else Q.push(xlef);
if(brig)FSUM+=yrig; else Q.push(xrig);
}
} // end main while
insert(p0,FSUM);
return FSUM;
}
U64 FUNCA(int pn) ATHOT;
U64 FUNCA(int pn)
{
U128 code0,xrig0;
U64 FSUM;
U64 VB;int hbit0;
if(pn EQ 0)return 1;
code0=binposet(pn);
hbit0=highbit(code0);
xrig0=xright(code0,hbit0);
FSUM=0;
if(pn GE 1)FSUM=FNARR[pn-1];
if(xrig0 EQ 0)VB=1;
else VB=FUNCB(xrig0);
FSUM+=VB;
return FSUM;
}
U64 FUNCD(int pn);
U64 FUNCD(int pn)
{
U64 VFNX,VFAA;
int pnx=pn;
VFNX=0;
if(pnx EQ 1 )VFNX = FNARR[ 0]+FNARR[ 0];
else if(pnx EQ 2 )VFNX = FNARR[ 1]+FNARR[ 0];
else if(pnx EQ 3 )VFNX = FNARR[ 2]+FNARR[ 1];
else if(pnx EQ 4 )VFNX = FNARR[ 3]+FNARR[ 0];
else if(pnx EQ 5 )VFNX = FNARR[ 4]+FNARR[ 3];
else if(pnx EQ 6 )VFNX = FNARR[ 5]+FNARR[ 2];
else if(pnx EQ 7 )VFNX = FNARR[ 6]+FNARR[ 3];
else if(pnx EQ 8 )VFNX = FNARR[ 7]+FNARR[ 0];
else if(pnx EQ 9 )VFNX = FNARR[ 8]+FNARR[ 7];
else if(pnx EQ 10 )VFNX = FNARR[ 9]+FNARR[ 6];
else if(pnx EQ 12 )VFNX = FNARR[ 11]+FNARR[ 4];
else if(pnx EQ 14 )VFNX = FNARR[ 13]+FNARR[ 6];
else if(pnx EQ 15 )VFNX = FNARR[ 14]+FNARR[ 7];
else if(pnx EQ 16 )VFNX = FNARR[ 15]+FNARR[ 0];
else if(pnx EQ 17 )VFNX = FNARR[ 16]+FNARR[ 15];
else if(pnx EQ 18 )VFNX = FNARR[ 17]+FNARR[ 14];
else if(pnx EQ 24 )VFNX = FNARR[ 23]+FNARR[ 8];
else if(pnx EQ 28 )VFNX = FNARR[ 27]+FNARR[ 12];
else if(pnx EQ 30 )VFNX = FNARR[ 29]+FNARR[ 14];
else if(pnx EQ 31 )VFNX = FNARR[ 30]+FNARR[ 15];
else if(pnx EQ 32 )VFNX = FNARR[ 31]+FNARR[ 0];
else if(pnx EQ 32 )VFNX = FNARR[ 31]+FNARR[ 0];
else if(pnx EQ 33 )VFNX = FNARR[ 32]+FNARR[ 31];
else if(pnx EQ 34 )VFNX = FNARR[ 33]+FNARR[ 30];
else if(pnx EQ 48 )VFNX = FNARR[ 47]+FNARR[ 16];
else if(pnx EQ 56 )VFNX = FNARR[ 55]+FNARR[ 24];
else if(pnx EQ 60 )VFNX = FNARR[ 59]+FNARR[ 28];
else if(pnx EQ 62 )VFNX = FNARR[ 61]+FNARR[ 30];
else if(pnx EQ 63 )VFNX = FNARR[ 62]+FNARR[ 31];
else if(pnx EQ 64 )VFNX = FNARR[ 63]+FNARR[ 0];
else if(pnx EQ 65 )VFNX = FNARR[ 64]+FNARR[ 63];
else if(pnx EQ 66 )VFNX = FNARR[ 65]+FNARR[ 62];
else if(pnx EQ 96 )VFNX = FNARR[ 95]+FNARR[ 32];
else if(pnx EQ 112 )VFNX = FNARR[ 111]+FNARR[ 48];
else if(pnx EQ 120 )VFNX = FNARR[ 119]+FNARR[ 56];
else if(pnx EQ 124 )VFNX = FNARR[ 123]+FNARR[ 60];
else if(pnx EQ 126 )VFNX = FNARR[ 125]+FNARR[ 62];
else if(pnx EQ 127 )VFNX = FNARR[ 126]+FNARR[ 63];
else if(pnx EQ 128 )VFNX = FNARR[ 127]+FNARR[ 0];
else if(pnx EQ 129 )VFNX = FNARR[ 128]+FNARR[ 127];
else if(pnx EQ 130 )VFNX = FNARR[ 129]+FNARR[ 126];
if(VFNX EQ 0LL)VFAA=FUNCA(pnx);
else
{
printf(" - this solved by theory rules. \n");
VFAA=VFNX;
}
FNARR[pnx]=VFAA;
return VFAA;
}
void initTAB(void)
{
U128 VPOW(1);
for(int n=0;n LT XWIDE;n++)
{
U128 VNOT=(bnot VPOW);
MASKPOW2[n]=VPOW;MASKNOT2[n]=VNOT;VPOW<<=1;
}
}
void initHMASK(void)
{
U128 maskones(0);
for(int b=0;b LT XWIDE;b++)
{maskones<<=1;maskones++;
}
for(int h=0;h LT XWIDE;h++)
{
U128 imask=maskones;
for(int bit=0;bit LE h;bit++)
{ // dleq(bit,h).
const int tmp=(bit band h);
if(tmp EQ bit)imask=imask band MASKNOT2[bit];
HMASK[h]=imask;
}
}
}
void initMAPS(void)
{
XYMAP.clear();
XYMAP.reserve(60111000);
for(int i=0;i LT ZWIDE;i++)FNARR[i]=0;
FNARR[0]=1;
insert(0,1);insert(1,2);insert(2,2);
}
void ALGBINPOSET(void)
{
for(int n=0;n LT ZWIDE;n++)
{
U64 RESU;
printf("** n= %d \n",n);
RESU=FUNCD(n);
printf("n=%4d F=%lld \n",n,RESU);
}
}
int main(void)
{
time_t pini,pend;
cout<<"OEIS A132581. The function F(n)."<<endl;
cout<<"(C) JM M Aranda Spain-UE. 2020."<<endl;
cout<<" Counting antichains on posets."<<endl;
cout<<" and using theory rules."<<endl;
cout<<" Related to author works."<<endl;
cout<<endl;
printf("Init tables. \n");
initTAB();initHMASK();initMAPS();
//
time(&pini);
ALGBINPOSET();
time(&pend);
printf("START %s \n",ctime(&pini));
printf("END %s \n",ctime(&pend));
return EXIT_SUCCESS;
}
/***************************************
int powdose(int e)
{
int r=1;
for(int i=0;i LT e;i++)r*=2;
return r;
}
void printrule(int a,int b,int c)
{
printf("if($1$ EQ %4d )$2$ = $3$[%4d]+$3$[%4d]; \n"
,a,b,c);
}
void theFrules(void)
{
int L=9;
printf("RULE ONE \n");
for(int a=1;a LT L;a++)
for(int b=0;b LT L;b++)
{
int e,f;
e=(p(a)-1)*p(b);f=(p(a-1)-1)*p(b);
if(e GT 256)continue;
pr(e,e-1,f);
}
printf("RULE TWO \n");
for(int a=1;a LT L;a++)
for(int b=0;b LT L;b++)
{
int e,f;
e=(p(a)-1)*p(b);f=(p(a-1)-1)*p(b);
if(e GT 256)continue;
pr(e,e-1,f);
}
printf("RULES 3,4,5 \n");
for(int a=0;a LT L;a++)
{
int e;
e=p(a);
pr(e,e-1,0);
pr(e+1,e,e-1);
pr(e+2,e+1,e-2);
}
printf("RULE 08 \n");
for(int a=0;a LT L;a++)
for(int b=0;b LE a;b++)
{
int e,f,g;
e=p(a);
f=p(a)-p(b);
g=p(a)-p(a-b);
pr(e,f,g);
}
exit(0);
}
if(pnx EQ 128 )VFNX = FNARR[ 127]+FNARR[ 0];
if(pnx EQ 129 )VFNX = FNARR[ 128]+FNARR[ 127];
if(pnx EQ 130 )VFNX = FNARR[ 129]+FNARR[ 126];
if(pnx EQ 192 )VFNX = FNARR[ 191]+FNARR[ 64];
if(pnx EQ 224 )VFNX = FNARR[ 223]+FNARR[ 96];
if(pnx EQ 240 )VFNX = FNARR[ 239]+FNARR[ 112];
if(pnx EQ 248 )VFNX = FNARR[ 247]+FNARR[ 120];
if(pnx EQ 252 )VFNX = FNARR[ 251]+FNARR[ 124];
if(pnx EQ 254 )VFNX = FNARR[ 253]+FNARR[ 126];
if(pnx EQ 255 )VFNX = FNARR[ 254]+FNARR[ 127];
if(pnx EQ 256 )VFNX = FNARR[ 255]+FNARR[ 0];
***************************************/
/***********************
END SOURCE CODE
***********************/