xpcom/tests/TestTimeStamp.cpp
author Wes Kocher <wkocher@mozilla.com>
Mon, 26 Jan 2015 16:14:06 -0800
changeset 225906 7971981a6000a0b92f4d2237745f3a3d052b0a2c
parent 225897 xpcom/tests/gtest/TestTimeStamp.cpp@67496f44f4617eda8f650d5c801fd9b327e5ac96
permissions -rw-r--r--
Backed out changeset 67496f44f461 (bug 1125138) for checktest failures

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "mozilla/TimeStamp.h"

#include "TestHarness.h"

#include "prinrval.h"
#include "prthread.h"

using mozilla::TimeStamp;
using mozilla::TimeDuration;

static void Assert(bool aCond, const char* aMsg)
{
    if (aCond) {
        passed(aMsg);
    } else {
        fail("%s", aMsg);
    }
}

int main(int argc, char** argv)
{
    ScopedXPCOM xpcom("nsTimeStamp");
    if (xpcom.failed())
        return 1;

    TimeDuration td;
    Assert(td.ToSeconds() == 0.0, "TimeDuration default value 0");
    Assert(TimeDuration::FromSeconds(5).ToSeconds() == 5.0,
           "TimeDuration FromSeconds/ToSeconds round-trip");
    Assert(TimeDuration::FromMilliseconds(5000).ToSeconds() == 5.0,
           "TimeDuration FromMilliseconds/ToSeconds round-trip");
    Assert(TimeDuration::FromSeconds(1) < TimeDuration::FromSeconds(2),
           "TimeDuration < operator works");
    Assert(!(TimeDuration::FromSeconds(1) < TimeDuration::FromSeconds(1)),
           "TimeDuration < operator works");
    Assert(TimeDuration::FromSeconds(2) > TimeDuration::FromSeconds(1),
           "TimeDuration > operator works");
    Assert(!(TimeDuration::FromSeconds(1) > TimeDuration::FromSeconds(1)),
           "TimeDuration > operator works");
    Assert(TimeDuration::FromSeconds(1) <= TimeDuration::FromSeconds(2),
           "TimeDuration <= operator works");
    Assert(TimeDuration::FromSeconds(1) <= TimeDuration::FromSeconds(1),
           "TimeDuration <= operator works");
    Assert(!(TimeDuration::FromSeconds(2) <= TimeDuration::FromSeconds(1)),
           "TimeDuration <= operator works");
    Assert(TimeDuration::FromSeconds(2) >= TimeDuration::FromSeconds(1),
           "TimeDuration >= operator works");
    Assert(TimeDuration::FromSeconds(1) >= TimeDuration::FromSeconds(1),
           "TimeDuration >= operator works");
    Assert(!(TimeDuration::FromSeconds(1) >= TimeDuration::FromSeconds(2)),
           "TimeDuration >= operator works");

    TimeStamp ts;
    Assert(ts.IsNull(), "Default TimeStamp value null");
    
    ts = TimeStamp::Now();
    Assert(!ts.IsNull(), "TimeStamp time value non-null");
    Assert((ts - ts).ToSeconds() == 0.0, "TimeStamp zero-length duration");

    PR_Sleep(PR_SecondsToInterval(2));

    TimeStamp ts2(TimeStamp::Now());
    Assert(ts2 > ts, "TimeStamp > comparison");
    Assert(!(ts > ts), "TimeStamp > comparison");
    Assert(ts < ts2, "TimeStamp < comparison");
    Assert(!(ts < ts), "TimeStamp < comparison");
    Assert(ts <= ts2, "TimeStamp <= comparison");
    Assert(ts <= ts, "TimeStamp <= comparison");
    Assert(!(ts2 <= ts), "TimeStamp <= comparison");
    Assert(ts2 >= ts, "TimeStamp >= comparison");
    Assert(ts2 >= ts, "TimeStamp >= comparison");
    Assert(!(ts >= ts2), "TimeStamp >= comparison");

    // We can't be sure exactly how long PR_Sleep slept for. It should have
    // slept for at least one second. We might have slept a lot longer due
    // to process scheduling, but hopefully not more than 10 seconds.
    td = ts2 - ts;
    Assert(td.ToSeconds() > 1.0, "TimeStamp difference lower bound");
    Assert(td.ToSeconds() < 20.0, "TimeStamp difference upper bound");
    td = ts - ts2;
    Assert(td.ToSeconds() < -1.0, "TimeStamp negative difference lower bound");
    Assert(td.ToSeconds() > -20.0, "TimeStamp negative difference upper bound");

    double resolution = TimeDuration::Resolution().ToSecondsSigDigits();
    printf(" (platform timer resolution is ~%g s)\n", resolution);
    Assert(0.000000001 < resolution, "Time resolution is sane");
    // Don't upper-bound sanity check ... although NSPR reports 1ms
    // resolution, it might be lying, so we shouldn't compare with it

    return gFailCount > 0;
}