/* * Copyright (c) 2003-2005 The Regents of The University of Michigan * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer; * redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution; * neither the name of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Authors: Nathan Binkert */ #include #include #include #include "base/cprintf.hh" #include "base/misc.hh" #include "base/statistics.hh" #include "base/stats/text.hh" #include "base/stats/mysql.hh" #include "base/types.hh" #include "sim/core.hh" #include "sim/stat_control.hh" using namespace std; using namespace Stats; double testfunc() { return 9.8; } class TestClass { public: double operator()() { return 9.7; } }; const char *progname = ""; void usage() { panic("incorrect usage.\n" "usage:\n" "\t%s [-t [-c] [-d]]\n", progname); } int main(int argc, char *argv[]) { bool descriptions = false; bool text = false; #if USE_MYSQL string mysql_name; string mysql_db; string mysql_host; string mysql_user = "binkertn"; string mysql_passwd; #endif char c; progname = argv[0]; while ((c = getopt(argc, argv, "cD:dh:P:p:s:tu:")) != -1) { switch (c) { case 'd': descriptions = true; break; case 't': text = true; break; #if USE_MYSQL case 'D': mysql_db = optarg; break; case 'h': mysql_host = optarg; break; case 'P': mysql_passwd = optarg; break; case 's': mysql_name = optarg; break; case 'u': mysql_user = optarg; break; #endif default: usage(); } } if (!text && descriptions) usage(); initSimStats(); Scalar s1; Scalar s2; Average s3; Scalar s4; Vector s5; Distribution s6; Vector s7; AverageVector s8; StandardDeviation s9; AverageDeviation s10; Scalar s11; Distribution s12; VectorDistribution s13; VectorStandardDeviation s14; VectorAverageDeviation s15; Vector2d s16; Value s17; Value s18; Formula f1; Formula f2; Formula f3; Formula f4; Formula f5; cprintf("sizeof(Scalar) = %d\n", sizeof(Scalar)); cprintf("sizeof(Vector) = %d\n", sizeof(Vector)); cprintf("sizeof(Distribution) = %d\n", sizeof(Distribution)); s1 .name("Stat01") .desc("this is statistic 1") ; s2 .name("Stat02") .desc("this is statistic 2") .prereq(s11) ; s3 .name("Stat03") .desc("this is statistic 3") .prereq(f5) ; s4 .name("Stat04") .desc("this is statistic 4") .prereq(s11) ; s5 .init(5) .name("Stat05") .desc("this is statistic 5") .prereq(s11) .subname(0, "foo1") .subname(1, "foo2") .subname(2, "foo3") .subname(3, "foo4") .subname(4, "foo5") ; s6 .init(1, 100, 13) .name("Stat06") .desc("this is statistic 6") .prereq(s11) ; s7 .init(7) .name("Stat07") .desc("this is statistic 7") .precision(1) .flags(pdf | total) .prereq(s11) ; s8 .init(10) .name("Stat08") .desc("this is statistic 8") .precision(2) .prereq(s11) .subname(4, "blarg") ; s9 .name("Stat09") .desc("this is statistic 9") .precision(4) .prereq(s11) ; s10 .name("Stat10") .desc("this is statistic 10") .prereq(s11) ; s12 .init(1, 100, 13) .name("Stat12") .desc("this is statistic 12") ; s13 .init(4, 0, 99, 10) .name("Stat13") .desc("this is statistic 13") ; s14 .init(9) .name("Stat14") .desc("this is statistic 14") ; s15 .init(10) .name("Stat15") .desc("this is statistic 15") ; s16 .init(2, 9) .name("Stat16") .desc("this is statistic 16") .flags(total) .subname(0, "sub0") .subname(1, "sub1") .ysubname(0, "y0") .ysubname(1, "y1") ; s17 .functor(testfunc) .name("Stat17") .desc("this is stat 17") ; TestClass testclass; s18 .functor(testclass) .name("Stat18") .desc("this is stat 18") ; f1 .name("Formula1") .desc("this is formula 1") .prereq(s11) ; f2 .name("Formula2") .desc("this is formula 2") .prereq(s11) .precision(1) ; f3 .name("Formula3") .desc("this is formula 3") .prereq(s11) .subname(0, "bar1") .subname(1, "bar2") .subname(2, "bar3") .subname(3, "bar4") .subname(4, "bar5") ; f4 .name("Formula4") .desc("this is formula 4") ; f1 = s1 + s2; f2 = (-s1) / (-s2) * (-s3 + ULL(100) + s4); f3 = sum(s5) * s7; f4 += constant(10.0); f4 += s5[3]; f5 = constant(1); enable(); reset(); s16[1][0] = 1; s16[0][1] = 3; s16[0][0] = 2; s16[1][1] = 9; s16[1][1] += 9; s16[1][8] += 8; s16[1][7] += 7; s16[1][6] += 6; s16[1][5] += 5; s16[1][4] += 4; s11 = 1; s3 = 9; s8[3] = 9; s15[0].sample(1234); s15[1].sample(1234); s15[2].sample(1234); s15[3].sample(1234); s15[4].sample(1234); s15[5].sample(1234); s15[6].sample(1234); s15[7].sample(1234); s15[8].sample(1234); s15[9].sample(1234); s10.sample(1000000000); curTick(curTick() + ULL(1000000)); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s10.sample(100000); s13[0].sample(12); s13[1].sample(29); s13[2].sample(12); s13[3].sample(29); s13[0].sample(42); s13[1].sample(29); s13[2].sample(42); s13[3].sample(32); s13[0].sample(52); s13[1].sample(49); s13[2].sample(42); s13[3].sample(25); s13[0].sample(32); s13[1].sample(49); s13[2].sample(22); s13[3].sample(49); s13[0].sample(62); s13[1].sample(99); s13[2].sample(72); s13[3].sample(23); s13[0].sample(52); s13[1].sample(78); s13[2].sample(69); s13[3].sample(49); s14[0].sample(1234); s14[1].sample(4134); s14[4].sample(1213); s14[3].sample(1124); s14[2].sample(1243); s14[7].sample(1244); s14[4].sample(7234); s14[2].sample(9234); s14[3].sample(1764); s14[7].sample(1564); s14[3].sample(3234); s14[1].sample(2234); s14[5].sample(1234); s14[2].sample(4334); s14[2].sample(1234); s14[4].sample(4334); s14[6].sample(1234); s14[8].sample(8734); s14[1].sample(5234); s14[3].sample(8234); s14[7].sample(5234); s14[4].sample(4434); s14[3].sample(7234); s14[2].sample(1934); s14[1].sample(9234); s14[5].sample(5634); s14[3].sample(1264); s14[7].sample(5223); s14[0].sample(1234); s14[0].sample(5434); s14[3].sample(8634); s14[1].sample(1234); s15[0].sample(1234); s15[1].sample(4134); curTick(curTick() + ULL(1000000)); s15[4].sample(1213); curTick(curTick() + ULL(1000000)); s15[3].sample(1124); curTick(curTick() + ULL(1000000)); s15[2].sample(1243); curTick(curTick() + ULL(1000000)); s15[7].sample(1244); curTick(curTick() + ULL(1000000)); s15[4].sample(7234); s15[2].sample(9234); s15[3].sample(1764); s15[7].sample(1564); s15[3].sample(3234); s15[1].sample(2234); curTick(curTick() + ULL(1000000)); s15[5].sample(1234); curTick(curTick() + ULL(1000000)); s15[9].sample(4334); curTick(curTick() + ULL(1000000)); s15[2].sample(1234); curTick(curTick() + ULL(1000000)); s15[4].sample(4334); s15[6].sample(1234); curTick(curTick() + ULL(1000000)); s15[8].sample(8734); curTick(curTick() + ULL(1000000)); s15[1].sample(5234); curTick(curTick() + ULL(1000000)); s15[3].sample(8234); curTick(curTick() + ULL(1000000)); s15[7].sample(5234); s15[4].sample(4434); s15[3].sample(7234); s15[2].sample(1934); s15[1].sample(9234); curTick(curTick() + ULL(1000000)); s15[5].sample(5634); s15[3].sample(1264); s15[7].sample(5223); s15[0].sample(1234); s15[0].sample(5434); s15[3].sample(8634); curTick(curTick() + ULL(1000000)); s15[1].sample(1234); s4 = curTick(); s8[3] = 99999; s3 = 12; s3++; curTick(curTick() + 9); s1 = 9; s1 += 9; s1 -= 11; s1++; ++s1; s1--; --s1; s2 = 9; s5[0] += 1; s5[1] += 2; s5[2] += 3; s5[3] += 4; s5[4] += 5; s7[0] = 10; s7[1] = 20; s7[2] = 30; s7[3] = 40; s7[4] = 50; s7[5] = 60; s7[6] = 70; s6.sample(0); s6.sample(1); s6.sample(2); s6.sample(3); s6.sample(4); s6.sample(5); s6.sample(6); s6.sample(7); s6.sample(8); s6.sample(9); s6.sample(10); s6.sample(10); s6.sample(10); s6.sample(10); s6.sample(10); s6.sample(10); s6.sample(10); s6.sample(10); s6.sample(11); s6.sample(19); s6.sample(20); s6.sample(20); s6.sample(21); s6.sample(21); s6.sample(31); s6.sample(98); s6.sample(99); s6.sample(99); s6.sample(99); s7[0] = 700; s7[1] = 600; s7[2] = 500; s7[3] = 400; s7[4] = 300; s7[5] = 200; s7[6] = 100; s9.sample(100); s9.sample(100); s9.sample(100); s9.sample(100); s9.sample(10); s9.sample(10); s9.sample(10); s9.sample(10); s9.sample(10); curTick(curTick() + 9); s4 = curTick(); s6.sample(100); s6.sample(100); s6.sample(100); s6.sample(101); s6.sample(102); s12.sample(100); prepare(); if (text) { Text out(cout); out.descriptions = descriptions; out(); } #if USE_MYSQL if (!mysql_name.empty()) { MySql out; out.connect(mysql_host, mysql_db, mysql_user, mysql_passwd, "test", mysql_name, "test"); out(); } #endif return 0; }