143 lines
2.7 KiB
HolyC
Executable File
143 lines
2.7 KiB
HolyC
Executable File
/*
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On an 8-core machine, this takes the top 3-bits
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of random numbers and distributes them to the 8 cores
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for sorting. Then, it merge sorts them.
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*/
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#define NUM 1000000
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I64 my_mp_cnt=1<<Bsr(mp_cnt);//Power of 2
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I32 *arg1,*arg2;
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I32 *b[my_mp_cnt],bn[my_mp_cnt];
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I64 mp_not_done_flags;
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I64 Compare(I32 *e1,I32 *e2)
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{
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return *e1-*e2;
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}
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U0 QSortU32(I32 *base,I64 num)
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{//By customizing, we dramatically improve it!
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//Cut and paste from $LK,"QSortI64",A="MN:QSortI64"$().
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I64 i;
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I32 *less,*greater,pivot;
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if (num>1) {
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do {
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less=base;
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greater=base+num;
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pivot=base[num/2];
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while (less<greater) {
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if (*less<=pivot)
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less++;
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else {
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greater--;
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SwapU32(less,greater);
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}
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}
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i=less-base;
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if (i==num) {//All less or equ to pivot
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//Point greater to first less
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do greater--;
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while (--i && *greater==pivot);
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if (i) {
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less=base+num/2; //Pivot was not moved, point to it
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if (less<greater)
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SwapU32(less,greater);
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num=i;
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} else //All equ
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break;
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} else if (i<num/2) {
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QSortU32(base,i);
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num-=i;
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base=greater;
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} else {
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QSortU32(greater,num-i);
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num=i;
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}
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} while (num>1);
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}
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}
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U0 MPSort(I64 dummy=0)
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{
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no_warn dummy;
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QSortU32(b[Gs->num],bn[Gs->num]);
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LBtr(&mp_not_done_flags,Gs->num);
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}
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U0 MPRadixSortDemo(I64 dummy=0)
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{
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no_warn dummy;
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I64 i,j,k1,k2;
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F64 t0;
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arg1=MAlloc(NUM*sizeof(I32));
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for (i=0;i<NUM;i++)
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arg1[i]=RandI32;
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arg2=MAlloc(NUM*sizeof(I32));
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"$$GREEN$$QSort$$FG$$\n";
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t0=tS;
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MemCpy(arg2,arg1,sizeof(I32)*NUM);
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QSort(arg2,NUM,sizeof(I32),&Compare);
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"Time:%9.6f\n",tS-t0;
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D(arg2+NUM/4);
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"$$GREEN$$QSortU32$$FG$$\n";
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t0=tS;
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MemCpy(arg2,arg1,sizeof(I32)*NUM);
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QSortU32(arg2,NUM);
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"Time:%9.6f\n",tS-t0;
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D(arg2+NUM/4);
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for (i=0;i<my_mp_cnt;i++) {
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//$WW,0$We must do full size, just in case.
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//There will be uneven split between cores
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//depending on the distribution of rand numbers.
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b[i]=MAlloc(NUM*sizeof(I32));
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bn[i]=0;
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}
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if (my_mp_cnt<2) throw('MultCore');
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"$$GREEN$$MP Radix QSortU32$$FG$$\n";
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t0=tS;
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k1=32-Bsr(my_mp_cnt);
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k2=my_mp_cnt/2;
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for (i=0;i<NUM;i++) {
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j=arg1[i]>>k1+k2; //This is a preliminary radix sort.
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b[j][bn[j]++]=arg1[i];
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}
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mp_not_done_flags=1<<my_mp_cnt-1;
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for (i=0;i<my_mp_cnt;i++)
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Spawn(&MPSort,NULL,NULL,i);
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while (mp_not_done_flags)
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Yield;
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j=0;
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for (i=0;i<my_mp_cnt;i++) {
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MemCpy(&arg2[j],b[i],bn[i]*sizeof(I32));
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j+=bn[i];
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}
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"Time:%9.6f\n",tS-t0;
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D(arg2+NUM/4);
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Free(arg1);
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Free(arg2);
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for (i=0;i<my_mp_cnt;i++)
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Free(b[i]);
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}
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MPRadixSortDemo;
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/*$HL,0$ Results on 8 Cores 3.397GHz Core i7:
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$FG,2$QSort$FG$
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Time: 0.759998
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$FG,2$QSortU32$FG$
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Time: 0.093684
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$FG,2$MP Radix QSortU32$FG$
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Time: 0.045450
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$HL,1$*/
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