/** Copyright (C) powturbo 2015-2018 GPL v2 License This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. - email : powturbo [AT] gmail.com - github : https://github.com/powturbo - homepage : https://sites.google.com/site/powturbo/ - twitter : https://twitter.com/powturbo TurboPFor - "Benchmark demo application" **/ #include #include #include #include #ifdef __APPLE__ #include #else #include #endif #ifdef _MSC_VER #include "vs/getopt.h" #else #include #endif #if defined(_WIN32) #include #define srand48(x) srand(x) #define drand48() ((double)(rand()) / RAND_MAX) #define __off64_t _off64_t #endif #include // pow #include "conf.h" #include "time_.h" //--------------------------------------- Zipfian generator -------------------------------------------------------- static double a = 1.5; static unsigned xbits[65],verbose; void stprint(char *s) { int m; uint64_t t=0; for(m = 0; m <= 64; m++) t += xbits[m]; printf("\n%s bits histogram:",s); for(m = 0; m <= 64; m++) if(xbits[m]) printf("%d:%.2f%% ", m, (double)xbits[m]*100/t); printf("\n"); } int dcmp(double *a, double *b) { if(*a < *b) return -1; if(*a > *b) return 1; return 0; } void zipu32(unsigned *a, unsigned n, double alpha, unsigned x1, unsigned x2) { int i; unsigned m = x2 - x1 + 1; double prob, cum, *zmap; if(!(zmap = malloc(m*sizeof(zmap[0])))) die("mallo error %d\n", m); // generate initial sample (slow) srand48(1); if(alpha > 0) { for(cum = 0.0,i = 0; i < m; i++) cum += 1.0 / pow(i+1, alpha); cum = 1.0 / cum; for(zmap[0] = prob = cum,i = 1; i < m; i++) zmap[i] = (prob += (cum / pow(i+1, alpha))); } else for(i = 0; i < m; i++) zmap[i] = 1.0 / m; // use binary search to speed up zipfgen qsort(zmap, m, sizeof(zmap[0]), (int(*)(const void*,const void*))dcmp); for(i = 0; i < n; i++) { double r = drand48(); int l = 0, h = m-1; while(l < h) { int k = (l + h) >> 1; if(r >= zmap[k]) l = k + 1; else h = k; } a[i] = x1 + l; } free(zmap); } void zipu64(uint64_t *a, unsigned n, double alpha, unsigned x1, unsigned x2) { int i; unsigned m = x2 - x1 + 1; double prob, cum, *zmap; if(!(zmap = malloc(m*sizeof(zmap[0])))) die("mallo error %d\n", m); // generate initial sample (slow) srand48(1); if(alpha > 0) { for(cum = 0.0,i = 0; i < m; i++) cum += 1.0 / pow(i+1, alpha); cum = 1.0 / cum; for(zmap[0] = prob = cum,i = 1; i < m; i++) zmap[i] = (prob += (cum / pow(i+1, alpha))); } else for(i = 0; i < m; i++) zmap[i] = 1.0 / m; // use binary search to speed up zipfgen qsort(zmap, m, sizeof(zmap[0]), (int(*)(const void*,const void*))dcmp); for(i = 0; i < n; i++) { double r = drand48(); int l = 0, h = m-1; while(l < h) { int k = (l + h) >> 1; if(r >= zmap[k]) l = k + 1; else h = k; } a[i] = x1 + l; } free(zmap); } void zipd64(double *a, unsigned n, double alpha, unsigned x1, unsigned x2) { int i; unsigned m = x2 - x1 + 1; double prob, cum, *zmap; if(!(zmap = malloc(m*sizeof(zmap[0])))) die("mallo error %d\n", m); // generate initial sample (slow) srand48(1); if(alpha > 0) { for(cum = 0.0,i = 0; i < m; i++) cum += 1.0 / pow(i+1, alpha); cum = 1.0 / cum; for(zmap[0] = prob = cum,i = 1; i < m; i++) zmap[i] = (prob += (cum / pow(i+1, alpha))); } else for(i = 0; i < m; i++) zmap[i] = 1.0 / m; // use binary search to speed up zipfgen qsort(zmap, m, sizeof(zmap[0]), (int(*)(const void*,const void*))dcmp); for(i = 0; i < n; i++) { double r = drand48(); int l = 0, h = m-1; while(l < h) { int k = (l + h) >> 1; if(r >= zmap[k]) l = k + 1; else h = k; } a[i] = x1 + l; } free(zmap); } void tms64(double *a, unsigned n, unsigned x1, unsigned x2) { double freq = drand48()*0.5 + 0.1, amp = drand48()+ 0.5; int i; for(i=0; i < n; i++) a[i] = x1 + sin(i * freq) * amp; } #define OVD (10*MB) static unsigned rm=0,rx=255; unsigned datagen(unsigned char *in, unsigned n, int isize, double be_mindelta) { unsigned char *ip; printf("zipf alpha=%.2f range[%u..%u].n=%u\n ", a, rm, rx, n); int mindelta = be_mindelta,i; //in = malloc(n*isize+OVD); if(!in) die("malloc err=%u", n*isize); switch(isize) { case 4: zipu32((unsigned *)in, n, a, rm, rx); //{ int i; for(i = 0; i < n; i++) in[i] = i; } // for(i = 1; i <= n; i++) xbits[bsr32(ctou32(in+i*4))]++; if(mindelta == 0 || mindelta == 1) { unsigned *ip = (unsigned *)in, v; stprint("delta"); for(ip[0]=0,v = 1; v < n; v++) { ip[v] += ip[v-1] + mindelta; if(ip[v]>=(1u<<31)) die("overflow generating sorted array %d\n", ip[v]); } } else stprint(""); break; case 8: zipu64((uint64_t *)in, n, a, rm, rx); //{ int i; for(i = 0; i < n; i++) in[i] = i; } // for(i = 1; i <= n; i++) xbits[bsr64(ctou64(in+i*8))]++; if(mindelta == 0 || mindelta == 1) { uint64_t *ip = (uint64_t *)in, v; stprint("delta"); for(ip[0]=0,v = 1; v < n; v++) { ip[v] += ip[v-1] + mindelta; if(ip[v]>=(1u<<31)) die("overflow generating sorted array %d\n", ip[v]); } } else stprint(""); break; case -8: zipd64((double *)in, n, a, rm, rx); //{ int i; for(i = 0; i < n; i++) in[i] = i; } // for(i = 1; i <= n; i++) xbits[bsr64(ctou64(in+i*8))]++; /*if(be_mindelta >= 0 && be_mindelta <= 1) { double *ip = (double *)in, v; stprint("delta"); for(ip[0]=0,v = 1; v < n; v++) { ip[v] = ip[v]+ip[v-1] + be_mindelta; //if(ip[v]>=(double)(1u<<31)) die("overflow generating sorted array %.2f\n", ip[v]); } } else*/ stprint(""); break; } return n*abs(isize); } // 0 1 2 3 4 5 6 7, 8 9 10 enum { T_0, T_UINT8, T_UINT16, T_UINT24, T_UINT32, T_UINT40, T_UINT48, T_UINT56, T_UINT64, T_FLOAT, T_DOUBLE, T_CHAR, T_TXT, T_TST }; #define IPUSH(in,n,isize, nmax,u) { if(n >= nmax) { nmax = nmax?(nmax << 1):(1<<20); in = realloc(in, nmax*isize+OVD); if(!in) die("malloc err=%u", nmax); }\ ctou32(in+n*isize) = u; n++;\ } int mdelta; char *keysep; unsigned befgen(unsigned char **_in, unsigned n, int fmt, int isize, FILE *fi, int kid, int skiph, int decs, int divs, int mdelta) { unsigned char *in = *_in,*ip; unsigned nmax = 0; #define LSIZE (1024*16) char s[LSIZE+1]; double pre; n = 0; while(skiph-- > 0) { fgets(s, LSIZE, fi); if(verbose>=5 && n < 100 ||verbose>5) printf("skip first line\n"); } if(decs) { pre = decs?pow(10.0f,(float)decs):1; pre /= divs; } else pre = 1; switch(fmt) { case T_TXT: if(verbose) printf("reading text lines. pre=%.2f, col=%d, sep=%s\n", pre, kid, keysep?keysep:""); while(fgets(s, LSIZE, fi)) { unsigned char *p = s,*q; int k=0, keyid=1, c; s[strlen(s) - 1] = 0; q = p; if(kid > 1) do { p = q; if(keysep && strchr(keysep,*q)) keyid++; q++; } while(*q && keyid != kid); if(isize > 0) { while(*p && !isdigit(*p) && *p != '-' && *p != '+') p++; uint64_t u = strtoll(p, &q, 10) - mdelta; if(*q == '.') u = pre>1.0?round(strtod(p, &q)*pre):strtod(p, &q) - mdelta; IPUSH(in,n,isize,nmax,u); c=*q; *q=0; if(verbose>=5 && n < 100 || verbose>=9) printf("%s->%lld ", p, u, c); *q = c; } else { while(*p && !isdigit(*p) && *p != '-' && *p != '.' && *p != '+') { if(keysep && strchr(keysep,*p)) keyid++; p++; } double d = strtod(p, &q) - mdelta; IPUSH(in,n,-isize,nmax,d); c=*q; *q=0; if(verbose>=5 && n < 100 || verbose>=9) printf("%s->%f ", p, d); *q = c; } } break; case T_CHAR: if(verbose) printf("reading char file. pre=%.2f\n", pre); for(;;) { char *p = s,*q; int c; if(isize > 0) { int64_t u; while((c = getc(fi)) >= '0' && c <= '9' || c == '-' || c == '+') if(p - s < LSIZE) *p++ = c; if(c == '.') { *p++ = c; while((c = getc(fi)) >= '0' && c <= '9' || c == '-' || c == '+' || c == 'e' || c == 'E') if(p - s < LSIZE) *p++ = c; *p = 0; u = pre>1.0?round(strtod(s, &q)*pre):strtod(s, &q) - mdelta; } else { *p = 0; u = strtoll(s, &p, 10) - mdelta; } IPUSH(in,n,isize,nmax,u); if(verbose>=5 && n < 100 || verbose>=9) printf("%s->%lld ", s, (int64_t)u); } else { while((c = getc(fi)) >= '0' && c <= '9' || c == '-') if(p - s < LSIZE) *p++ = c; if((*p++ = c) == '.') while((c = getc(fi)) >= '0' && c <= '9') if(p - s < LSIZE) *p++ = c; *p = 0; double d = strtod(s, &p) - mdelta; if(verbose>=5 && n < 100 || verbose>=9) printf("%f ", d); IPUSH(in,n,-isize,nmax,d); } if(c == EOF) break; } break; /*case T_UINT8: { unsigned char u; while(fread(&u, 1, 1, fi)>0) IPUSH(in,n,isize,nmax, u-mdelta); } break; case T_UINT16: { unsigned short u; while(fread(&u, sizeof(u), 1, fi)>0) IPUSH(in,n,isize,nmax, u-mdelta); } break;*/ default: die("unknown data format %d\n", fmt); } if(verbose>=5) printf("\n"); *_in = in; return n*abs(isize); } //--------------------------------------------------------------------------------------------------------------------------------------------------------- int mcpy=1; #define CBUF(_n_) (((size_t)(_n_))*4/3+1024) int memcheck(unsigned char *in, unsigned n, unsigned char *cpy) { int i; for(i = 0; i < n; i++) if(in[i] != cpy[i]) { printf("ERROR at %d:in=%x,%x dec=%x,%x\n", i, in[i], in[i+1], cpy[i],cpy[i+1]);die(""); return i+1; } return 0; } void libmemcpy(unsigned char *dst, unsigned char *src, int len) { void *(*memcpy_ptr)(void *, const void *, size_t) = memcpy; if (time(NULL) == 1) memcpy_ptr = NULL; memcpy_ptr(dst, src, len); } void pr(unsigned l, unsigned n) { double r = (double)l*100.0/n; if(r>0.1) printf("%10u %6.2f%% ", l, r);else printf("%10u %7.3f%%", l, r); fflush(stdout); } //------------------------------------- #include "bitutil.h" #include "bitpack.h" #define NTURBOPFOR_DAC #include "vp4.h" #include "vint.h" #include "fp.h" #include "vsimple.h" #include "transpose.h" #include "ext/trle.h" #ifdef CODEC1 #define LZ4 #define BITSHUFFLE #endif #ifdef BITSHUFFLE #include "bitshuffle/src/bitshuffle.h" #ifndef LZ4 #include "bitshuffle/lz4/lz4.h" #define USE_LZ #endif #endif #ifdef LZ4 #include "lz4/lib/lz4.h" #define USE_LZ #endif #define CPYR(in,n,esize,out) memcpy(out+((n)&(~(esize-1))),in+((n)&(~(esize-1))),(n)&(esize-1)) //, out+((n)&(8*esize-1)) #ifdef USE_LZ unsigned lzcomp(unsigned char *in, unsigned n, unsigned char *out, int lev) { if(!n) return 0; unsigned outsize = CBUF(n); int rc = !lev?LZ4_compress_fast((char *)in, (char *)(out+0), n,outsize, 4):(lev<9?LZ4_compress_default((char *)in, (char *)(out+0), n, outsize): #ifdef LZ4 LZ4_compress_HC((char *)in, (char *)(out+0), n, outsize, lev)); #else LZ4_compress_default((char *)in, (char *)(out+0), n, outsize)); #endif return rc; } unsigned lzdecomp(unsigned char *in, unsigned n, unsigned char *out) { if(!n) return 0; unsigned outsize = CBUF(n); LZ4_decompress_fast((char *)(in+0), (char *)out, n/*, CBUF(n)*/); } #ifdef USE_SSE unsigned tp4lzenc(unsigned char *in, unsigned n, unsigned char *out, unsigned esize, unsigned char *tmp, int lev) { tp4enc(in, n, tmp, esize); return lzcomp(tmp, n, out, lev); } unsigned tp4lzdec(unsigned char *in, unsigned n, unsigned char *out, unsigned esize, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, esize); return n; } unsigned tp4lzzenc64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp, int lev) { bitzenc64(in, n/8, out, 0, 0); CPYR(in,n,8,out); tp4enc(out, n, tmp, 8); return lzcomp(tmp, n, out, lev); } unsigned tp4lzzdec64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, 8); bitzdec64(out, n/8, 0); return n; } unsigned tp4lzxenc64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp, int lev) { bitxenc64(in, n/8, out, 0); CPYR(in,n,8,out); tp4enc(out, n, tmp, 8); return lzcomp(tmp, n, out, lev); } unsigned tp4lzxdec64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, 8); bitxdec64(out, n/8, 0); return n; } unsigned tp4lzzenc32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp, int lev) { bitzenc32(in, n/4, out, 0, 0); CPYR(in,n,4,out); tp4enc(out, n, tmp, 4); return lzcomp(tmp, n, out, lev); } unsigned tp4lzzdec32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, 4); bitzdec32(out, n/4, 0); return n; } unsigned tp4lzxenc32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp, int lev) { bitxenc32(in, n/4, out, 0); CPYR(in,n,4,out); tp4enc(out, n, tmp, 4); return lzcomp(tmp, n, out, lev); } unsigned tp4lzxdec32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, 4); bitxdec32(out, n/4, 0); return n; } unsigned tp4lzzenc16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp, int lev) { bitzenc16(in, n/2, out, 0, 0); CPYR(in,n,2,out); tp4enc(out, n, tmp, 2); return lzcomp(tmp, n, out, lev); } unsigned tp4lzzdec16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, 2); bitzdec16(out, n/2, 0); return n; } unsigned tp4lzxenc16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp, int lev) { bitxenc16(in, n/2, out, 0); CPYR(in,n,2,out); tp4enc(out, n, tmp, 2); return lzcomp(tmp, n, out, lev); } unsigned tp4lzxdec16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { lzdecomp(in,n,tmp); tp4dec(tmp, n, (unsigned char *)out, 2); bitxdec16(out, n/2, 0); return n; } #endif unsigned tplzenc(unsigned char *in, unsigned n, unsigned char *out, unsigned esize, unsigned char *tmp, int lev) { tpenc(in, n, tmp, esize); return lzcomp(tmp, n, out, lev); } unsigned tplzdec(unsigned char *in, unsigned n, unsigned char *out, unsigned esize, unsigned char *tmp) { lzdecomp(in,n,tmp); tpdec(tmp, n, (unsigned char *)out, esize); return n; } #ifdef BITSHUFFLE #define BITSHUFFLE(in,n,out,esize) bshuf_bitshuffle( in, out, (n)/esize, esize, 0); memcpy((char *)out+((n)&(~(8*esize-1))),(char *)in+((n)&(~(8*esize-1))),(n)&(8*esize-1)) #define BITUNSHUFFLE(in,n,out,esize) bshuf_bitunshuffle(in, out, (n)/esize, esize, 0); memcpy((char *)out+((n)&(~(8*esize-1))),(char *)in+((n)&(~(8*esize-1))),(n)&(8*esize-1)) unsigned bslzenc(unsigned char *in, unsigned n, unsigned char *out, unsigned esize, unsigned char *tmp, int lev) { BITSHUFFLE(in, n, tmp, esize); return lzcomp(tmp, n, out, lev); } unsigned bslzdec(unsigned char *in, unsigned n, unsigned char *out, unsigned esize, unsigned char *tmp) { lzdecomp(in,n,tmp); BITUNSHUFFLE(tmp, n, (unsigned char *)out, esize); return n; } #endif #endif #ifdef USE_SSE unsigned tp4bvzenc64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { tp4enc(in, n, tmp, 64/8); return bvzenc8(tmp, n, out, 0); } unsigned tp4bvzdec64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { unsigned rc = bvzdec8(in, n, tmp, 0); tp4dec(tmp, n, out, 64/8); return n; } unsigned tp4bvzenc32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { tp4enc(in, n, tmp, 32/8); return bvzenc8(tmp, n, out, 0); } unsigned tp4bvzdec32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *tmp) { unsigned rc = bvzdec8(in, n, tmp, 0); tp4dec(tmp, n, out, 32/8); return rc; } size_t tp4bvzenc16(unsigned char *in, size_t n, unsigned char *out, unsigned char *tmp) { tp4enc(in, n, tmp, 2); return bvzenc8(tmp, n, out, 0); } size_t tp4bvzdec16(unsigned char *in, size_t n, unsigned char *out, unsigned char *tmp) { unsigned rc = bvzdec8(in, n, tmp, 0); tp4dec(tmp, n, out, 2); return rc; } #endif //---------------------SPDP ------------------------- #define NMAIN #include "ext/SPDP_10.c" #define SPDP_BSIZE (1<<23) char ibuf[SPDP_BSIZE*2]; unsigned spdpenc(unsigned char *in, size_t n, unsigned char *out, unsigned bsize, int lev) { unsigned char *op = out,*ip; for(ip = in, in += n; ip < in;) { unsigned iplen = in - ip,l; if(iplen > bsize) iplen = bsize; memcpy(ibuf,ip,iplen); // SPDP is overwriting the input, copy to a tmp buffer l = compress(lev, iplen, ibuf, op+4); ctou32(op)=l; op+=4+l; //AC(l <= bsize,"Compress Fatal=%d>%d\n", l, bsize); ip += iplen; } return op - out; } size_t spdpdec(unsigned char *in, size_t n, unsigned char *out, unsigned bsize, int lev) {\ unsigned char *ip = in,*op; for(op = out,out+=n; op < out;) { unsigned oplen = out - op,l; if(oplen > bsize) oplen = bsize; l = ctou32(ip); ip += 4; memcpy(ibuf,ip,l); decompress(lev, l, ibuf, op); ip += l; op += oplen; } return ip - in; } //-------------------------------------------------------------- #define ID_MEMCPY 60 unsigned bench64(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname, int lev) { unsigned l,m = n/(64/8),rc = 0; char *tmp = NULL; if(id>=50 && id <= 59 && !(tmp = (unsigned char*)malloc(CBUF(n)))) die(stderr, "malloc error\n"); memrcpy(cpy,in,n); switch(id) { case 1: TMBENCH("",l=p4nenc64( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc64 ",p4ndec64( out, m, cpy) ,n); break; case 2: TMBENCH("",l=p4nenc128v64( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc128v64 ",p4ndec128v64( out, m, cpy) ,n); break; case 4: TMBENCH("",l=p4ndenc64( in, m, out) ,n); pr(l,n); TMBENCH2("p4ndenc64 ",p4nddec64( out, m, cpy) ,n); break; case 7: TMBENCH("",l=p4nd1enc64( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc64 ",p4nd1dec64( out, m, cpy) ,n); break; case 10: TMBENCH("",l=p4nzenc64( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc64 ",p4nzdec64( out, m, cpy) ,n); break; case 13: TMBENCH("",l=p4nsenc64( in, m, out) ,n); pr(l,n); TMBENCH2("p4nsenc64 ",p4nsdec64( out, m, cpy) ,n); break; case 15: TMBENCH("",l=bitnpack64( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack64 ",bitnunpack64( out, m, cpy) ,n); break; case 18: TMBENCH("",l=bitndpack64( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack64 ",bitndunpack64( out, m, cpy) ,n); break; case 21: TMBENCH("",l=bitnd1pack64( in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack64 ",bitnd1unpack64( out, m, cpy) ,n); break; case 24: TMBENCH("",l=bitnzpack64( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack64 ",bitnzunpack64( out, m, cpy) ,n); break; // TurboVbyte : varaible byte case 30: TMBENCH("",l=vbzenc64( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbzenc64 ",vbzdec64( out, m, cpy,0) ,n); break; case 31: TMBENCH("",l=vbddenc64( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbddenc64 ",vbdddec64( out, m, cpy,0) ,n); break; // vsimple : variable simple case 32: TMBENCH("",l=vsenc64( in, m, out)-out,n); pr(l,n); TMBENCH2("vsenc64 ",vsdec64( out, m, cpy) ,n); break; // bitio case 33: TMBENCH("",l=bvzzenc64( in, m, out,0),n); pr(l,n); TMBENCH2("bvzzenc64 ",bvzzdec64( out, m, cpy,0) ,n); break; case 34: TMBENCH("",l=bvzenc64( in, m, out,0),n); pr(l,n); TMBENCH2("bvzenc64 ",bvzdec64( out, m, cpy,0) ,n); break; //case 30: TMBENCH("",l=fpzvenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fpzvenc64 ",fpzvdec64( out, m, cpy,0) ,n); break; case 35: TMBENCH("",l=fpgenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fpgenc64 ",fpgdec64( out, m, cpy,0) ,n); break; // Function for floating point/integer compression //case 41: TMBENCH("",l=fppenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fppenc64 ", fppdec64( out, m, cpy,0) ,n); break; case 40: TMBENCH("",l=fpzzenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fpzzenc64 ",fpzzdec64( out, m, cpy,0) ,n); break; case 41: TMBENCH("",l=fpfcmenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fpfcmenc64 ",fpfcmdec64( out, m, cpy,0) ,n); break; case 42: TMBENCH("",l=fpdfcmenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fpdfcmenc64 ",fpdfcmdec64( out, m, cpy,0) ,n); break; case 43: TMBENCH("",l=fp2dfcmenc64( in, m, out,0),n); pr(l,n); TMBENCH2("fp2dfcmenc64 ",fp2dfcmdec64( out, m, cpy,0) ,n); break; case 47: TMBENCH("",l=trlec( in, n,out) ,n); pr(l,n); TMBENCH2("trle ",trled( out,l,cpy, n) ,n);break; case 48: TMBENCH("",l=srlec64( in, n,out,0xdadadadadadadadaull),n);pr(l,n); TMBENCH2("srle64 ",srled64( out,l,cpy, n,0xdadadadadadadadaull) ,n);break; #ifdef USE_LZ case 49: TMBENCH("",l=spdpenc(in,m*(64/8),out,SPDP_BSIZE,lev), n);pr(l,n);TMBENCH2("SPDP ",spdpdec( out, m*(64/8), cpy,SPDP_BSIZE,lev); ,n); break; case 50: TMBENCH("",l=tplzenc( in, n,out,64/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpbyte+lz ",tplzdec( out,n,cpy,64/8,tmp) ,n); break; case 51: TMBENCH("",l=tp4lzenc( in, n,out,64/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibble+lz ",tp4lzdec( out,n,cpy,64/8,tmp) ,n); break; case 52: TMBENCH("",l=tp4lzzenc64(in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleZ+lz ",tp4lzzdec64( out,n,cpy, tmp) ,n); break; case 53: TMBENCH("",l=tp4lzxenc64(in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleX+lz ",tp4lzxdec64( out,n,cpy, tmp) ,n); break; case 54: TMBENCH("",l=lzcomp( in, n,out, lev) ,n); pr(l,n); TMBENCH2("lz ",lzdecomp( out,n,cpy) ,n);break; //case 50: TMBENCH("",l=tp4bvzenc64(in, n,out,tmp) ,n); pr(l,n); TMBENCH2("tp4+bvzenc ",tp4bvzdec64( out,n,cpy,tmp) ,n); break; #ifdef BITSHUFFLE case 55: TMBENCH("",l=bslzenc( in,n,out,64/8,tmp,lev), n); pr(l,n); TMBENCH2("bitshuffle+lz ",bslzdec(out,n,cpy,64/8,tmp), n); break; #endif #endif //case 27: TMBENCH("",l=bitdienc64( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitddec64( cpy, m,0); TMBENCH2("bitdienc64",bitddec64( out, m,0) ,n); break; //case 28: TMBENCH("",l=bitddenc64( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitdddec64(cpy, m,0); TMBENCH2("bitddenc64",bitdddec64(out, m,0) ,n); break; case ID_MEMCPY: if(!mcpy) return l; TMBENCH( "", libmemcpy( in,out,n) ,n); pr(n,n); TMBENCH2("memcpy ", libmemcpy( out,cpy,n) ,n); return n; default: return l; } rc = memcheck(in,m*(64/8),cpy); if(tmp) free(tmp); if(!rc) printf("\t%s\n", inname); return l; } unsigned bench32(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname, int lev) { unsigned l,m = n/(32/8),rc = 0; char *tmp = NULL; if(id>=50 && id <= 59 && !(tmp = (unsigned char*)malloc(CBUF(n)))) die(stderr, "malloc error\n"); memrcpy(cpy,in,n); switch(id) { case 1: TMBENCH("",l=p4nenc32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc32 ",p4ndec32( out, m, cpy) ,n); break; case 2: TMBENCH("",l=p4nenc128v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc128v32 ",p4ndec128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 3: TMBENCH("",l=p4nenc256v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc256v32 ",p4ndec256v32( out, m, cpy) ,n); break; #endif case 4: TMBENCH("",l=p4ndenc32( in, m, out) ,n); pr(l,n); TMBENCH2("p4ndenc32 ",p4nddec32( out, m, cpy) ,n); break; case 5: TMBENCH("",l=p4ndenc128v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4ndenc128v32 ",p4nddec128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 6: TMBENCH("",l=bitndpack256v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack256v32 ",bitndunpack256v32( out, m, cpy) ,n); break; #endif case 7: TMBENCH("",l=p4nd1enc32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc32 ",p4nd1dec32( out, m, cpy) ,n); break; case 8: TMBENCH("",l=p4nd1enc128v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc128v32 ",p4nd1dec128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 9: TMBENCH("",l=p4nd1enc256v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc256v32 ",p4nd1dec256v32( out, m, cpy) ,n); break; #endif case 10: TMBENCH("",l=p4nzenc32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc32 ",p4nzdec32( out, m, cpy) ,n); break; case 11: TMBENCH("",l=p4nzenc128v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc128v32 ",p4nzdec128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 12: TMBENCH("",l=p4nzenc256v32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc256v32 ",p4nzdec256v32( out, m, cpy) ,n); break; #endif case 13: TMBENCH("",l=p4nsenc32( in, m, out) ,n); pr(l,n); TMBENCH2("p4nsenc32 ",p4nsdec32( out, m, cpy) ,n); break; case 15: TMBENCH("",l=bitnpack32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack32 ",bitnunpack32( out, m, cpy) ,n); break; case 16: TMBENCH("",l=bitnpack128v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack128v32 ",bitnunpack128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 17: TMBENCH("",l=bitnpack256v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack256v32 ",bitnunpack256v32( out, m, cpy) ,n); break; #endif case 18: TMBENCH("",l=bitndpack32( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack32 ",bitndunpack32( out, m, cpy) ,n); break; case 19: TMBENCH("",l=bitndpack128v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack128v32 ",bitndunpack128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 20: TMBENCH("",l=bitndpack256v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack256v32 ",bitndunpack256v32( out, m, cpy) ,n); break; #endif case 21: TMBENCH("",l=bitnd1pack32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack32 ",bitnd1unpack32( out, m, cpy) ,n); break; case 22: TMBENCH("",l=bitnd1pack128v32(in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack128v32",bitnd1unpack128v32(out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 23: TMBENCH("",l=bitnd1pack256v32(in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack256v32",bitnd1unpack256v32(out, m, cpy) ,n); break; #endif case 24: TMBENCH("",l=bitnzpack32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack32 ",bitnzunpack32( out, m, cpy) ,n); break; case 25: TMBENCH("",l=bitnzpack128v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack128v32 ",bitnzunpack128v32( out, m, cpy) ,n); break; #if defined(__AVX2__) && defined(USE_AVX2) case 26: TMBENCH("",l=bitnzpack256v32( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack256v32 ",bitnzunpack256v32( out, m, cpy) ,n); break; #endif // TurboVbyte : varaible byte case 30: TMBENCH("",l=vbzenc32( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbzenc32 ",vbzdec32( out, m, cpy,0) ,n); break; case 31: TMBENCH("",l=vbddenc32( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbddenc32 ",vbdddec32( out, m, cpy,0) ,n); break; // vsimple : variable simple case 32: TMBENCH("",l=vsenc32( in, m, out)-out,n); pr(l,n); TMBENCH2("vsenc32 ",vsdec32( out, m, cpy) ,n); break; // bitio case 33: TMBENCH("",l=bvzzenc32( in, m, out,0),n); pr(l,n); TMBENCH2("bvzzenc32 ",bvzzdec32( out, m, cpy,0) ,n); break; case 34: TMBENCH("",l=bvzenc32( in, m, out,0),n); pr(l,n); TMBENCH2("bvzenc32 ",bvzdec32( out, m, cpy,0) ,n); break; //case 30: TMBENCH("",l=fpzvenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fpzvenc32 ",fpzvdec32( out, m, cpy,0) ,n); break; case 35: TMBENCH("",l=fpgenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fpgenc32 ",fpgdec32( out, m, cpy,0) ,n); break; // Function for floating point/integer compression //case 41: TMBENCH("",l=fppenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fppenc32 ", fppdec32( out, m, cpy,0) ,n); break; case 40: TMBENCH("",l=fpzzenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fpzzenc32 ",fpzzdec32( out, m, cpy,0) ,n); break; case 41: TMBENCH("",l=fpfcmenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fpfcmenc32 ",fpfcmdec32( out, m, cpy,0) ,n); break; case 42: TMBENCH("",l=fpdfcmenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fpdfcmenc32 ",fpdfcmdec32( out, m, cpy,0) ,n); break; case 43: TMBENCH("",l=fp2dfcmenc32( in, m, out,0),n); pr(l,n); TMBENCH2("fp2dfcmenc32 ",fp2dfcmdec32( out, m, cpy,0) ,n); break; case 47: TMBENCH("",l=trlec( in, n,out) ,n); pr(l,n); TMBENCH2("trle ",trled( out,l,cpy, n) ,n);break; case 48: TMBENCH("",l=srlec32( in, n,out,0xdadadadau),n);pr(l,n); TMBENCH2("srle32 ",srled32( out,l,cpy, n,0xdadadadau) ,n);break; #ifdef USE_LZ case 49: TMBENCH("",l=spdpenc(in,m*(32/8),out,SPDP_BSIZE,lev), n);pr(l,n);TMBENCH2("SPDP ",spdpdec( out, m*(32/8), cpy,SPDP_BSIZE,lev); ,n); break; case 50: TMBENCH("",l=tplzenc( in, n,out,32/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpbyte+lz ",tplzdec( out,n,cpy,32/8,tmp) ,n); break; case 51: TMBENCH("",l=tp4lzenc( in, n,out,32/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibble+lz ",tp4lzdec( out,n,cpy,32/8,tmp) ,n); break; case 52: TMBENCH("",l=tp4lzzenc32(in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleZ+lz ",tp4lzzdec32( out,n,cpy, tmp) ,n); break; case 53: TMBENCH("",l=tp4lzxenc32(in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleX+lz ",tp4lzxdec32( out,n,cpy, tmp) ,n); break; case 54: TMBENCH("",l=lzcomp( in, n,out, lev) ,n); pr(l,n); TMBENCH2("lz ",lzdecomp( out,n,cpy) ,n);break; //case 50: TMBENCH("",l=tp4bvzenc32(in, n,out,tmp) ,n); pr(l,n); TMBENCH2("tp4+bvzenc ",tp4bvzdec32( out,n,cpy,tmp) ,n); break; #ifdef BITSHUFFLE case 55: TMBENCH("",l=bslzenc( in,n,out,32/8,tmp,lev), n); pr(l,n); TMBENCH2("bitshuffle+lz ",bslzdec(out,n,cpy,32/8,tmp), n); break; #endif #endif //case 27: TMBENCH("",l=bitdienc32( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitddec32( cpy, m,0); TMBENCH2("bitdienc32",bitddec32( out, m,0) ,n); break; //case 28: TMBENCH("",l=bitddenc32( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitdddec32(cpy, m,0); TMBENCH2("bitddenc32",bitdddec32(out, m,0) ,n); break; case ID_MEMCPY: if(!mcpy) return l; TMBENCH( "", libmemcpy( in,out,n) ,n); pr(n,n); TMBENCH2("memcpy ", libmemcpy( out,cpy,n) ,n); return n; default: return l; } rc = memcheck(in,m*(32/8),cpy); if(tmp) free(tmp); if(!rc) printf("\t%s\n", inname); return l; } unsigned bench16(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname, int lev) { unsigned l,m = n/(16/8),rc = 0; char *tmp = NULL; if(id>=50 && id <= 59 && !(tmp = (unsigned char*)malloc(CBUF(n)))) die(stderr, "malloc error\n"); memrcpy(cpy,in,n); switch(id) { case 1: TMBENCH("",l=p4nenc16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc16 ",p4ndec16( out, m, cpy) ,n); break; case 2: TMBENCH("",l=p4nenc128v16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc128v16 ",p4ndec128v16( out, m, cpy) ,n); break; case 4: TMBENCH("",l=p4ndenc16( in, m, out) ,n); pr(l,n); TMBENCH2("p4ndenc16 ",p4nddec16( out, m, cpy) ,n); break; case 5: TMBENCH("",l=p4ndenc128v16( in, m, out) ,n); pr(l,n); TMBENCH2("p4ndenc128v16 ",p4nddec128v16( out, m, cpy) ,n); break; case 7: TMBENCH("",l=p4nd1enc16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc16 ",p4nd1dec16( out, m, cpy) ,n); break; case 8: TMBENCH("",l=p4nd1enc128v16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc128v16 ",p4nd1dec128v16( out, m, cpy) ,n); break; case 10: TMBENCH("",l=p4nzenc16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc16 ",p4nzdec16( out, m, cpy) ,n); break; case 11: TMBENCH("",l=p4nzenc128v16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc128v16 ",p4nzdec128v16( out, m, cpy) ,n); break; case 13: TMBENCH("",l=p4nsenc16( in, m, out) ,n); pr(l,n); TMBENCH2("p4nsenc16 ",p4nsdec16( out, m, cpy) ,n); break; case 15: TMBENCH("",l=bitnpack16( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack16 ",bitnunpack16( out, m, cpy) ,n); break; case 16: TMBENCH("",l=bitnpack128v16( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack128v16 ",bitnunpack128v16( out, m, cpy) ,n); break; case 18: TMBENCH("",l=bitndpack16( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack16 ",bitndunpack16( out, m, cpy) ,n); break; case 19: TMBENCH("",l=bitndpack128v16( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack128v16 ",bitndunpack128v16( out, m, cpy) ,n); break; case 21: TMBENCH("",l=bitnd1pack16( in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack16 ",bitnd1unpack16( out, m, cpy) ,n); break; case 22: TMBENCH("",l=bitnd1pack128v16(in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack128v16",bitnd1unpack128v16(out, m, cpy) ,n); break; case 24: TMBENCH("",l=bitnzpack16( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack16 ",bitnzunpack16( out, m, cpy) ,n); break; case 25: TMBENCH("",l=bitnzpack128v16( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack128v16 ",bitnzunpack128v16( out, m, cpy) ,n); break; // TurboVbyte : varaible byte //case 30: TMBENCH("",l=vbzenc16( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbzenc16 ",vbzdec16( out, m, cpy,0) ,n); break; //case 31: TMBENCH("",l=vbddenc16( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbddenc16 ",vbdddec16( out, m, cpy,0) ,n); break; // vsimple : variable simple //case 32: TMBENCH("",l=vsenc16( in, m, out)-out,n); pr(l,n); TMBENCH2("vsenc16 ",vsdec16( out, m, cpy) ,n); break; // bitio case 33: TMBENCH("",l=bvzzenc16( in, m, out,0),n); pr(l,n); TMBENCH2("bvzzenc16 ",bvzzdec16( out, m, cpy,0) ,n); break; case 34: TMBENCH("",l=bvzenc16( in, m, out,0),n); pr(l,n); TMBENCH2("bvzenc16 ",bvzdec16( out, m, cpy,0) ,n); break; //case 30: TMBENCH("",l=fpzvenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fpzvenc16 ",fpzvdec16( out, m, cpy,0) ,n); break; case 35: TMBENCH("",l=fpgenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fpgenc16 ",fpgdec16( out, m, cpy,0) ,n); break; // Function for floating point/integer compression //case 41: TMBENCH("",l=fppenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fppenc16 ", fppdec16( out, m, cpy,0) ,n); break; case 40: TMBENCH("",l=fpzzenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fpzzenc16 ",fpzzdec16( out, m, cpy,0) ,n); break; case 41: TMBENCH("",l=fpfcmenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fpfcmenc16 ",fpfcmdec16( out, m, cpy,0) ,n); break; case 42: TMBENCH("",l=fpdfcmenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fpdfcmenc16 ",fpdfcmdec16( out, m, cpy,0) ,n); break; case 43: TMBENCH("",l=fp2dfcmenc16( in, m, out,0),n); pr(l,n); TMBENCH2("fp2dfcmenc16 ",fp2dfcmdec16( out, m, cpy,0) ,n); break; case 47: TMBENCH("",l=trlec( in, n,out) ,n); pr(l,n); TMBENCH2("trle ",trled( out,l,cpy, n) ,n);break; case 48: TMBENCH("",l=srlec16( in, n,out,0xdadau),n);pr(l,n); TMBENCH2("srle16 ",srled16( out,l,cpy, n,0xdadau) ,n);break; #ifdef USE_LZ case 49: TMBENCH("",l=spdpenc(in,m*(16/8),out,SPDP_BSIZE,lev), n);pr(l,n);TMBENCH2("SPDP ",spdpdec( out, m*(16/8), cpy,SPDP_BSIZE,lev); ,n); break; case 50: TMBENCH("",l=tplzenc( in, n,out,16/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpbyte+lz ",tplzdec( out,n,cpy,16/8,tmp) ,n); break; case 51: TMBENCH("",l=tp4lzenc( in, n,out,16/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibble+lz ",tp4lzdec( out,n,cpy,16/8,tmp) ,n); break; case 52: TMBENCH("",l=tp4lzzenc16(in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleZ+lz ",tp4lzzdec16( out,n,cpy, tmp) ,n); break; case 53: TMBENCH("",l=tp4lzxenc16(in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleX+lz ",tp4lzxdec16( out,n,cpy, tmp) ,n); break; case 54: TMBENCH("",l=lzcomp( in, n,out, lev) ,n); pr(l,n); TMBENCH2("lz ",lzdecomp( out,n,cpy) ,n);break; //case 50: TMBENCH("",l=tp4bvzenc16(in, n,out,tmp) ,n); pr(l,n); TMBENCH2("tp4+bvzenc ",tp4bvzdec16( out,n,cpy,tmp) ,n); break; #ifdef BITSHUFFLE case 55: TMBENCH("",l=bslzenc( in,n,out,16/8,tmp,lev), n); pr(l,n); TMBENCH2("bitshuffle+lz ",bslzdec(out,n,cpy,16/8,tmp), n); break; #endif #endif //case 27: TMBENCH("",l=bitdienc16( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitddec16( cpy, m,0); TMBENCH2("bitdienc16",bitddec16( out, m,0) ,n); break; //case 28: TMBENCH("",l=bitddenc16( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitdddec16(cpy, m,0); TMBENCH2("bitddenc16",bitdddec16(out, m,0) ,n); break; case ID_MEMCPY: if(!mcpy) return l; TMBENCH( "", libmemcpy( in,out,n) ,n); pr(n,n); TMBENCH2("memcpy ", libmemcpy( out,cpy,n) ,n); return n; default: return l; } rc = memcheck(in,m*(16/8),cpy); if(tmp) free(tmp); if(!rc) printf("\t%s\n", inname); return l; } unsigned bench8(unsigned char *in, unsigned n, unsigned char *out, unsigned char *cpy, int id, char *inname, int lev) { unsigned l,m = n/(8/8),rc = 0; char *tmp = NULL; if(id>=50 && id <= 59 && !(tmp = (unsigned char*)malloc(CBUF(n)))) die(stderr, "malloc error\n"); memrcpy(cpy,in,n); switch(id) { case 1: TMBENCH("",l=p4nenc8( in, m, out) ,n); pr(l,n); TMBENCH2("p4nenc8 ",p4ndec8( out, m, cpy) ,n); break; case 4: TMBENCH("",l=p4ndenc8( in, m, out) ,n); pr(l,n); TMBENCH2("p4ndenc8 ",p4nddec8( out, m, cpy) ,n); break; case 7: TMBENCH("",l=p4nd1enc8( in, m, out) ,n); pr(l,n); TMBENCH2("p4nd1enc8 ",p4nd1dec8( out, m, cpy) ,n); break; case 10: TMBENCH("",l=p4nzenc8( in, m, out) ,n); pr(l,n); TMBENCH2("p4nzenc8 ",p4nzdec8( out, m, cpy) ,n); break; //case 13: TMBENCH("",l=p4nsenc8( in, m, out) ,n); pr(l,n); TMBENCH2("p4nsenc8 ",p4nsdec8( out, m, cpy) ,n); break; case 15: TMBENCH("",l=bitnpack8( in, m, out) ,n); pr(l,n); TMBENCH2("bitnpack8 ",bitnunpack8( out, m, cpy) ,n); break; case 18: TMBENCH("",l=bitndpack8( in, m, out) ,n); pr(l,n); TMBENCH2("bitndpack8 ",bitndunpack8( out, m, cpy) ,n); break; case 21: TMBENCH("",l=bitnd1pack8( in, m, out) ,n); pr(l,n); TMBENCH2("bitnd1pack8 ",bitnd1unpack8( out, m, cpy) ,n); break; case 24: TMBENCH("",l=bitnzpack8( in, m, out) ,n); pr(l,n); TMBENCH2("bitnzpack8 ",bitnzunpack8( out, m, cpy) ,n); break; // TurboVbyte : varaible byte //case 30: TMBENCH("",l=vbzenc8( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbzenc8 ",vbzdec8( out, m, cpy,0) ,n); break; //case 31: TMBENCH("",l=vbddenc8( in, m, out,0)-out,n); pr(l,n); TMBENCH2("vbddenc8 ",vbdddec8( out, m, cpy,0) ,n); break; // vsimple : variable simple //case 32: TMBENCH("",l=vsenc8( in, m, out)-out,n); pr(l,n); TMBENCH2("vsenc8 ",vsdec8( out, m, cpy) ,n); break; // bitio case 33: TMBENCH("",l=bvzzenc8( in, m, out,0),n); pr(l,n); TMBENCH2("bvzzenc8 ",bvzzdec8( out, m, cpy,0) ,n); break; // case 34: TMBENCH("",l=bvzenc8( in, m, out,0),n); pr(l,n); TMBENCH2("bvzenc8 ",bvzdec8( out, m, cpy,0) ,n); break; //case 30: TMBENCH("",l=fpzvenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fpzvenc8 ",fpzvdec8( out, m, cpy,0) ,n); break; case 35: TMBENCH("",l=fpgenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fpgenc8 ",fpgdec8( out, m, cpy,0) ,n); break; // Function for floating point/integer compression //case 41: TMBENCH("",l=fppenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fppenc8 ", fppdec8( out, m, cpy,0) ,n); break; case 40: TMBENCH("",l=fpzzenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fpzzenc8 ",fpzzdec8( out, m, cpy,0) ,n); break; case 41: TMBENCH("",l=fpfcmenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fpfcmenc8 ",fpfcmdec8( out, m, cpy,0) ,n); break; case 42: TMBENCH("",l=fpdfcmenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fpdfcmenc8 ",fpdfcmdec8( out, m, cpy,0) ,n); break; case 43: TMBENCH("",l=fp2dfcmenc8( in, m, out,0),n); pr(l,n); TMBENCH2("fp2dfcmenc8 ",fp2dfcmdec8( out, m, cpy,0) ,n); break; case 47: TMBENCH("",l=trlec( in, n,out) ,n); pr(l,n); TMBENCH2("trle ",trled( out,l,cpy, n) ,n);break; case 48: TMBENCH("",l=srlec8( in, n,out,0xdau),n);pr(l,n); TMBENCH2("srle8 ",srled8( out,l,cpy, n,0xdau) ,n);break; //case 49: TMBENCH("",l=spdpenc(in,m*(8/8),out,SPDP_BSIZE,lev), n);pr(l,n);TMBENCH2("SPDP ",spdpdec( out, m*(8/8), cpy,SPDP_BSIZE,lev); ,n); break; #ifdef USE_LZ //case 50: TMBENCH("",l=tplzenc( in, n,out,8/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpbyte+lz ",tplzdec( out,n,cpy,8/8,tmp) ,n); break; //case 51: TMBENCH("",l=tp4lzenc( in, n,out,8/8,tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibble+lz ",tp4lzdec( out,n,cpy,8/8,tmp) ,n); break; //case 52: TMBENCH("",l=tp4lzzenc8( in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleZ+lz ",tp4lzzdec8( out,n,cpy, tmp) ,n); break; //case 53: TMBENCH("",l=tp4lzxenc8( in, n,out, tmp,lev) ,n); pr(l,n); TMBENCH2("tpnibbleX+lz ",tp4lzxdec8( out,n,cpy, tmp) ,n); break; case 54: TMBENCH("",l=lzcomp( in, n,out, lev) ,n); pr(l,n);TMBENCH2("lz ",lzdecomp( out,n,cpy) ,n);break; //case 50: TMBENCH("",l=tp4bvzenc8(in, n,out,tmp) ,n); pr(l,n); TMBENCH2("tp4+bvzenc ",tp4bvzdec8( out,n,cpy,tmp) ,n); break; #ifdef BITSHUFFLE case 55: TMBENCH("",l=bslzenc( in,n,out,8/8,tmp,lev), n); pr(l,n); TMBENCH2("bitshuffle+lz ",bslzdec(out,n,cpy,8/8,tmp), n); break; #endif #endif //case 27: TMBENCH("",l=bitdienc8( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitddec8( cpy, m,0); TMBENCH2("bitdienc8",bitddec8( out, m,0) ,n); break; //case 28: TMBENCH("",l=bitddenc8( in, m, out,0,0),n); pr(l,n); memcpy(cpy, out, n);bitdddec8(cpy, m,0); TMBENCH2("bitddenc8",bitdddec8(out, m,0) ,n); break; case ID_MEMCPY: if(!mcpy) return l; TMBENCH( "", libmemcpy( in,out,n) ,n); pr(n,n); TMBENCH2("memcpy ", libmemcpy( out,cpy,n) ,n); return n; default: return l; } rc = memcheck(in,m*(8/8),cpy); if(tmp) free(tmp); if(!rc) printf("\t%s\n", inname); return l; } void usage(char *pgm) { fprintf(stderr, "\nIcApp Copyright (c) 2013-2018 Powturbo %s\n", __DATE__); fprintf(stderr, "Usage: %s [options] [file]\n", pgm); fprintf(stderr, " -b#s # = blocksize (default filesize,). max=1GB\n"); fprintf(stderr, " -B#s # = max. benchmark filesize (default 1GB) ex. -B4G\n"); fprintf(stderr, " s = modifier s:K,M,G=(1000, 1.000.000, 1.000.000.000) s:k,m,h=(1024,1Mb,1Gb). (default m) ex. 64k or 64K\n"); fprintf(stderr, "Benchmark:\n"); fprintf(stderr, " -i#/-j# # = Minimum de/compression iterations per run (default=auto)\n"); fprintf(stderr, " -I#/-J# # = Number of de/compression runs (default=3)\n"); fprintf(stderr, "File format:\n"); fprintf(stderr, " -f[Xx[k][H]][.d][s]\n"); fprintf(stderr, " X = file format:\n"); fprintf(stderr, " t = text:one integer per line, k=column number in multiple columns line\n"); fprintf(stderr, " c = text:integers separated by non digit char\n"); fprintf(stderr, " x = entry format\n"); fprintf(stderr, " [b=int8], [s=int16], [u=int32(default)], [s=int64], [f:float] [d:double]\n"); fprintf(stderr, " .# = decimal digits (default 2). Convert dec. numbers to integers\n"); fprintf(stderr, " H = skip first line(s)\n"); fprintf(stderr, " -H = skip first line(s). Only for text files\n"); fprintf(stderr, " -K# = #:column number in multiple columns/line. Only for text files\n"); fprintf(stderr, " -ks = s:separator(s) (default , ; and TAB) in multiple columns/line. Only for text files\n"); fprintf(stderr, " -s# = #:integer size 2,4,8\n"); fprintf(stderr, " -f# = #:floating point size 4,8\n"); fprintf(stderr, " -V# = #:divisor. Only for text files\n"); fprintf(stderr, " -D# = #:decimals. Only for text files\n"); fprintf(stderr, "Output:\n"); fprintf(stderr, " -v# # = verbosity 0..5 (default 1). 5=print first values read from text file\n"); fprintf(stderr, "----- arg. ZIPF specified --------------\n"); fprintf(stderr, " -aF F = zipfian distribution alpha ex. -a1.0 uniform -a1.5 skewed\n"); fprintf(stderr, " -mNs N = minimum number. s=(k,K, m,M, g,G\n"); fprintf(stderr, " -MNs N = maximum number\n"); fprintf(stderr, " -nNs N = number of integers to generate\n"); fprintf(stderr, "Ex. ./icapp -a1.5 -m0 -M255 -n100M ZIPF\n"); fprintf(stderr, "ex. ./icapp file -e2\n"); fprintf(stderr, "ex. ./icapp -Ft -D2 ibm.data\n"); fprintf(stderr, "ex. ./icapp -Ft -f8 usages.dat\n"); fprintf(stderr, "ex. ./icapp -Ft -f8 -HH tripdata.csv\n"); exit(0); } int main(int argc, char* argv[]) { unsigned cmp=1, b = 1 << 30, lz=0, fno,idmin=1,idmax=-1,m=1000000; int isize=4,dfmt = 0,kid=1,skiph=0,decs=0,divs=1,be_mindelta=0,lev=1; unsigned char *in=NULL,*out,*cpy; double mdelta=-10; int c, digit_optind = 0, this_option_optind = optind ? optind : 1, option_index = 0; static struct option long_options[] = { {"blocsize", 0, 0, 'b'}, {0, 0, 0} }; for(;;) { if((c = getopt_long(argc, argv, "a:B:ce:D:E:f:F:i:j:k:K:HI:J:l:m:M:n:s:v:V:y", long_options, &option_index)) == -1) break; switch(c) { case 0 : printf("Option %s", long_options[option_index].name); if(optarg) printf (" with arg %s", optarg); printf ("\n"); break; case 'e': idmin = atoi(optarg); if(idmax == -1) idmax = idmin; break; case 'E': idmax = atoi(optarg); break; case 'D': decs = atoi(optarg); break; case 'F': { char *s = optarg; if(*s=='c') { dfmt = T_CHAR; s++;} else if(*s=='t') { dfmt = T_TXT; if(*++s > '0' && *s <= '9') { kid = *s++ - '0'; if(*s > '0' && *s <= '9') kid = kid*10 + (*s++ - '0'); } } else if(*s=='e') { dfmt = T_TST; s++; } else if(*s=='r') { dfmt = 0; s++; } // default if(*s=='f') isize = -4, s++; // float : 4 bytes else if(*s=='d') isize = -8, s++; // double: 8 bytes else if(*s=='b') isize = 1, s++; // 1 byte else if(*s=='s') isize = 2, s++; // 2 bytes else if(*s=='u') isize = 4, s++; // 4 bytes else if(*s=='l') isize = 8, s++; // 8 bytes if(*s == '.') { if(*++s >= '0' && *s <= '9') { decs = s[0] - '0'; s++; } } // number of decimals after . if(*s == 'v') { divs = strtod(++s, &s); } if(*s == 'H') { skiph++; s++; } // skip first line(s). ex. HHH : skip 3 first lines switch(*s) { case 's': be_mindelta = 0; break; case 'S': be_mindelta = 1; break; case 'z': be_mindelta = 2; break; } } break; case 'H': skiph++; break; case 'K': { kid = atoi(optarg); if(!keysep) keysep = ",;\t"; } break; case 'k': keysep = optarg; break; case 'i': if((tm_rep = atoi(optarg))<=0) tm_rep=tm_Rep=1; break; case 'I': tm_Rep = atoi(optarg); break; case 'j': if((tm_rep2 = atoi(optarg))<=0) tm_rep2=tm_Rep2=1; break; case 'J': tm_Rep2 = atoi(optarg); break; case 's': isize = argtoi(optarg,1); break; case 'B': b = argtoi(optarg,1); break; case 'c': cmp++; break; case 'l': lev = atoi(optarg); break; case 'y': mcpy=0; break; case 'a': a = strtod(optarg, NULL); break; case 'd': mdelta = strtod(optarg, NULL);break; case 'n': m = argtoi(optarg,1); break; case 'm': rm = argtoi(optarg,1); break; case 'M': rx = argtoi(optarg,1); break; case 'f': isize = -argtoi(optarg,1); break; case 'v': verbose = atoi(optarg); break; case 'V': divs = atoi(optarg); break; default: usage(argv[0]); exit(0); } } if(idmax == -1) idmax = ID_MEMCPY; if(idmax < idmin) idmax = idmin; if(argc - optind < 1) { usage(argv[0]); exit(0); } if(verbose) printf("dfmt=%d,size=%d\n", dfmt, isize); for(fno = optind; fno < argc; fno++) { char *inname = argv[fno]; int i,n; long long flen; FILE *fi=NULL; if(!strcmp(inname,"ZIPF") || !strcmp(inname,"TMS")) flen = n = m*abs(isize); else { fi = fopen(inname, "rb"); if(!fi ) { perror(inname); continue; } if(dfmt) { n = flen = befgen(&in, 0, dfmt, isize, fi, kid, skiph, decs, divs, be_mindelta); } else { fseek(fi, 0, SEEK_END); flen = ftell(fi); fseek(fi, 0, SEEK_SET); if(flen > b) flen = b; n = flen; } } if(!in && !(in = (unsigned char*)malloc(n+64 ))) die("malloc error 'in =%d'\n", n); cpy = in; if(!(out = (unsigned char*)malloc(CBUF(n)+1024))) die("malloc error 'out=%d'\n", n); if(cmp && !(cpy = (unsigned char*)malloc(CBUF(n)+1024))) die("malloc error 'cpy=%d'\n", n); if(fi) { if(!dfmt) n = fread(in, 1, n, fi); fclose(fi); } else if(!strcmp(inname,"TMS") && abs(isize) == 8) tms64(in, m, rm, rx); else datagen(in, m, isize, mdelta); if(n <= 0) exit(0); if(fno == optind) tm_init(tm_Rep, 1); printf(" E MB/s size ratio D MB/s function\n"); for(i=idmin; i <= idmax; i++) switch(abs(isize)) { case 1: bench8( in,n,out,cpy,i,inname,lev); break; case 2: bench16(in,n,out,cpy,i,inname,lev); break; case 4: bench32(in,n,out,cpy,i,inname,lev); break; case 8: bench64(in,n,out,cpy,i,inname,lev); break; default: die("integer size must be 2, 4 or 8\n"); } printf("\n"); free(in); free(out); free(cpy); in = out = cpy = NULL; } }