Chris@19: /* Chris@19: * Copyright (c) 2001 Matteo Frigo Chris@19: * Copyright (c) 2001 Massachusetts Institute of Technology Chris@19: * Chris@19: * This program is free software; you can redistribute it and/or modify Chris@19: * it under the terms of the GNU General Public License as published by Chris@19: * the Free Software Foundation; either version 2 of the License, or Chris@19: * (at your option) any later version. Chris@19: * Chris@19: * This program is distributed in the hope that it will be useful, Chris@19: * but WITHOUT ANY WARRANTY; without even the implied warranty of Chris@19: * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the Chris@19: * GNU General Public License for more details. Chris@19: * Chris@19: * You should have received a copy of the GNU General Public License Chris@19: * along with this program; if not, write to the Free Software Chris@19: * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Chris@19: * Chris@19: */ Chris@19: Chris@19: Chris@19: #include "bench.h" Chris@19: #include Chris@19: #include Chris@19: #include Chris@19: Chris@19: void (*report)(const bench_problem *p, double *t, int st); Chris@19: Chris@19: #undef min Chris@19: #undef max /* you never know */ Chris@19: Chris@19: struct stats { Chris@19: double min; Chris@19: double max; Chris@19: double avg; Chris@19: double median; Chris@19: }; Chris@19: Chris@19: static void mkstat(double *t, int st, struct stats *a) Chris@19: { Chris@19: int i, j; Chris@19: Chris@19: a->min = t[0]; Chris@19: a->max = t[0]; Chris@19: a->avg = 0.0; Chris@19: Chris@19: for (i = 0; i < st; ++i) { Chris@19: if (t[i] < a->min) Chris@19: a->min = t[i]; Chris@19: if (t[i] > a->max) Chris@19: a->max = t[i]; Chris@19: a->avg += t[i]; Chris@19: } Chris@19: a->avg /= (double)st; Chris@19: Chris@19: /* compute median --- silly bubblesort algorithm */ Chris@19: for (i = st - 1; i > 1; --i) { Chris@19: for (j = 0; j < i - 1; ++j) { Chris@19: double t0, t1; Chris@19: if ((t0 = t[j]) > (t1 = t[j + 1])) { Chris@19: t[j] = t1; Chris@19: t[j + 1] = t0; Chris@19: } Chris@19: } Chris@19: } Chris@19: a->median = t[st / 2]; Chris@19: } Chris@19: Chris@19: void report_mflops(const bench_problem *p, double *t, int st) Chris@19: { Chris@19: struct stats s; Chris@19: mkstat(t, st, &s); Chris@19: ovtpvt("(%g %g %g %g)\n", Chris@19: mflops(p, s.max), mflops(p, s.avg), Chris@19: mflops(p, s.min), mflops(p, s.median)); Chris@19: } Chris@19: Chris@19: void report_time(const bench_problem *p, double *t, int st) Chris@19: { Chris@19: struct stats s; Chris@19: UNUSED(p); Chris@19: mkstat(t, st, &s); Chris@19: ovtpvt("(%g %g %g %g)\n", s.min, s.avg, s.max, s.median); Chris@19: } Chris@19: Chris@19: void report_benchmark(const bench_problem *p, double *t, int st) Chris@19: { Chris@19: struct stats s; Chris@19: mkstat(t, st, &s); Chris@19: ovtpvt("%.5g %.8g %g\n", mflops(p, s.min), s.min, p->setup_time); Chris@19: } Chris@19: Chris@19: static void sprintf_time(double x, char *buf, int buflen) Chris@19: { Chris@19: #ifdef HAVE_SNPRINTF Chris@19: # define MY_SPRINTF(a, b) snprintf(buf, buflen, a, b) Chris@19: #else Chris@19: # define MY_SPRINTF(a, b) sprintf(buf, a, b) Chris@19: #endif Chris@19: if (x < 1.0E-6) Chris@19: MY_SPRINTF("%.2f ns", x * 1.0E9); Chris@19: else if (x < 1.0E-3) Chris@19: MY_SPRINTF("%.2f us", x * 1.0E6); Chris@19: else if (x < 1.0) Chris@19: MY_SPRINTF("%.2f ms", x * 1.0E3); Chris@19: else Chris@19: MY_SPRINTF("%.2f s", x); Chris@19: #undef MY_SPRINTF Chris@19: } Chris@19: Chris@19: void report_verbose(const bench_problem *p, double *t, int st) Chris@19: { Chris@19: struct stats s; Chris@19: char bmin[64], bmax[64], bavg[64], bmedian[64], btmin[64]; Chris@19: char bsetup[64]; Chris@19: int copyp = tensor_sz(p->sz) == 1; Chris@19: Chris@19: mkstat(t, st, &s); Chris@19: Chris@19: sprintf_time(s.min, bmin, 64); Chris@19: sprintf_time(s.max, bmax, 64); Chris@19: sprintf_time(s.avg, bavg, 64); Chris@19: sprintf_time(s.median, bmedian, 64); Chris@19: sprintf_time(time_min, btmin, 64); Chris@19: sprintf_time(p->setup_time, bsetup, 64); Chris@19: Chris@19: ovtpvt("Problem: %s, setup: %s, time: %s, %s: %.5g\n", Chris@19: p->pstring, bsetup, bmin, Chris@19: copyp ? "fp-move/us" : "``mflops''", Chris@19: mflops(p, s.min)); Chris@19: Chris@19: if (verbose) { Chris@19: ovtpvt("Took %d measurements for at least %s each.\n", st, btmin); Chris@19: ovtpvt("Time: min %s, max %s, avg %s, median %s\n", Chris@19: bmin, bmax, bavg, bmedian); Chris@19: } Chris@19: }