ref: 3df92bd8dd256de9b90fd12a4d63d8bf458f1b83
dir: /run.c/
#include <u.h> #include <libc.h> #include <bench.h> #define BENCHTIME (1000000000) /* 1s in ns */ uvlong boverhead; static int min(int x, int y) { if(x > y) { return y; } return x; } static int max(int x, int y) { if(x < y) { return y; } return x; } // run the benchmarking function once, looping n times static void benchrunn(B *b, int n) { b->N = n; // reset b->start = nsec(); b->ns = 0; cycles(&b->scycles); b->item.fn(b); // stop cycles(&b->ecycles); b->ns += nsec() - b->start; b->bcycles += b->ecycles - b->scycles - boverhead; } static vlong nsperop(B *b) { if(b->N <= 0) return 0; return b->ns / (vlong)b->N; } static uvlong cyperop(B *b) { if(b->N <= 0) return 0; return b->bcycles / (uvlong)b->N; } static int rounddown10(int n) { int tens, result, i; tens = 0; while(n >= 10) { n = n / 10; tens++; } result = 1; for(i = 0; i < tens; i++) { result *= 10; } return result; } static int roundup(int n) { int base; base = rounddown10(n); if(n <= base) return base; if(n <= 2*base) return 2*base; if(n <= 5*base) return 5*base; return 10*base; } // run the benchmark for one function static BResult benchrun(B *b) { int n, last; vlong d; BResult res; n = 1; benchrunn(b, n); d = BENCHTIME; while(b->ns < d && n < 1000000000) { last = n; if(nsperop(b) == 0) { n = 1000000000; } else { n = (int) d/nsperop(b); } n = max(min(n+n/2, 100*last), last+1); n = roundup(n); benchrunn(b, n); } res.N = b->N; res.ns = b->ns; res.cycles = b->bcycles; return res; } static void benchres(BResult *res) { char nsop[32]; char cyop[32]; vlong nsperop; uvlong cyperop; if(res->N <= 0) { nsperop = 0; cyperop = 0; } else { nsperop = res->ns / (vlong)res->N; cyperop = res->cycles / (uvlong)res->N; } snprint(nsop, sizeof(nsop), "%10lld ns/op", nsperop); snprint(cyop, sizeof(cyop), "%10ulld cy/op", cyperop); if(res->N > 0 && nsperop < 100) { if(nsperop < 10) snprint(nsop, sizeof(nsop), "%13.2f ns/op", (double)res->ns / (double)res->N); else snprint(nsop, sizeof(nsop), "%12.1f ns/op", (double)res->ns / (double)res->N); } if(res->N > 0 && cyperop < 100) { if(cyperop < 10) snprint(cyop, sizeof(cyop), "%13.2f cy/op", (double)res->cycles / (double)res->N); else snprint(cyop, sizeof(cyop), "%12.1f cy/op", (double)res->cycles / (double)res->N); } print("%10d N\t%s\t%s\n", res->N, nsop, cyop); } /* * public api */ // setup. currently only calculates cycles() overhead. // not strictly necessary, but will give better cycle counts. void benchinit(void) { int at; uvlong a, b; /* figure out cycles overhead */ boverhead = -1; for(at = 0; at < 1000000; at++) { cycles(&a); cycles(&b); if(boverhead > b - a) boverhead = b - a; } } // bench a single function void bench(char *name, BFn fn) { B b; BResult res; memset(&b, 0, sizeof(B)); memset(&res, 0, sizeof(BResult)); b.item.name = name; b.item.fn = fn; print("%16s\t", name); res = benchrun(&b); benchres(&res); } // bench an array of functions void benchitems(BItem items[], int len) { int i; for(i = 0; i < len; i++) { bench(items[i].name, items[i].fn); } }