Esempio n. 1
0
/*
 * Since getDSTOffsetMilliseconds guarantees that all times seen will be
 * positive, we can initialize the range at construction time with large
 * negative numbers to ensure the first computation is always a cache miss and
 * doesn't return a bogus offset.
 */
js::DateTimeInfo::DateTimeInfo()
{
    // Set to a totally impossible TZA so that the comparison above will fail
    // and all fields will be properly initialized.
    localTZA_ = UnspecifiedNaN();
    updateTimeZoneAdjustment();
}
Esempio n. 2
0
static void
TestExponentComponent()
{
  MOZ_ASSERT(ExponentComponent(0.0) == -int_fast16_t(DoubleExponentBias));
  MOZ_ASSERT(ExponentComponent(-0.0) == -int_fast16_t(DoubleExponentBias));
  MOZ_ASSERT(ExponentComponent(0.125) == -3);
  MOZ_ASSERT(ExponentComponent(0.5) == -1);
  MOZ_ASSERT(ExponentComponent(1.0) == 0);
  MOZ_ASSERT(ExponentComponent(1.5) == 0);
  MOZ_ASSERT(ExponentComponent(2.0) == 1);
  MOZ_ASSERT(ExponentComponent(7) == 2);
  MOZ_ASSERT(ExponentComponent(PositiveInfinity()) == DoubleExponentBias + 1);
  MOZ_ASSERT(ExponentComponent(NegativeInfinity()) == DoubleExponentBias + 1);
  MOZ_ASSERT(ExponentComponent(UnspecifiedNaN()) == DoubleExponentBias + 1);
}
static void
TestDoublesAreIdentical()
{
  ShouldBeIdentical(+0.0, +0.0);
  ShouldBeIdentical(-0.0, -0.0);
  ShouldNotBeIdentical(+0.0, -0.0);

  ShouldBeIdentical(1.0, 1.0);
  ShouldNotBeIdentical(-1.0, 1.0);
  ShouldBeIdentical(4294967295.0, 4294967295.0);
  ShouldNotBeIdentical(-4294967295.0, 4294967295.0);
  ShouldBeIdentical(4294967296.0, 4294967296.0);
  ShouldBeIdentical(4294967297.0, 4294967297.0);
  ShouldBeIdentical(1e300, 1e300);

  ShouldBeIdentical(PositiveInfinity(), PositiveInfinity());
  ShouldBeIdentical(NegativeInfinity(), NegativeInfinity());
  ShouldNotBeIdentical(PositiveInfinity(), NegativeInfinity());

  ShouldNotBeIdentical(-0.0, NegativeInfinity());
  ShouldNotBeIdentical(+0.0, NegativeInfinity());
  ShouldNotBeIdentical(1e300, NegativeInfinity());
  ShouldNotBeIdentical(3.141592654, NegativeInfinity());

  ShouldBeIdentical(UnspecifiedNaN(), UnspecifiedNaN());
  ShouldBeIdentical(-UnspecifiedNaN(), UnspecifiedNaN());
  ShouldBeIdentical(UnspecifiedNaN(), -UnspecifiedNaN());

  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 42));
  ShouldBeIdentical(SpecificNaN(1, 17), SpecificNaN(1, 42));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(1, 42));
  ShouldBeIdentical(SpecificNaN(1, 17), SpecificNaN(0, 42));

  const uint64_t Mask = 0xfffffffffffffULL;
  for (unsigned i = 0; i < 52; i++) {
    for (unsigned j = 0; j < 52; j++) {
      for (unsigned sign = 0; i < 2; i++) {
        ShouldBeIdentical(SpecificNaN(0, 1ULL << i), SpecificNaN(sign, 1ULL << j));
        ShouldBeIdentical(SpecificNaN(1, 1ULL << i), SpecificNaN(sign, 1ULL << j));

        ShouldBeIdentical(SpecificNaN(0, Mask & ~(1ULL << i)),
                          SpecificNaN(sign, Mask & ~(1ULL << j)));
        ShouldBeIdentical(SpecificNaN(1, Mask & ~(1ULL << i)),
                          SpecificNaN(sign, Mask & ~(1ULL << j)));
      }
    }
  }
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x8000000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x4000000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x2000000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x1000000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0800000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0400000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0200000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0100000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0080000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0040000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0020000000000ULL));
  ShouldBeIdentical(SpecificNaN(0, 17), SpecificNaN(0, 0x0010000000000ULL));
  ShouldBeIdentical(SpecificNaN(1, 17), SpecificNaN(0, 0xff0ffffffffffULL));
  ShouldBeIdentical(SpecificNaN(1, 17), SpecificNaN(0, 0xfffffffffff0fULL));

  ShouldNotBeIdentical(UnspecifiedNaN(), +0.0);
  ShouldNotBeIdentical(UnspecifiedNaN(), -0.0);
  ShouldNotBeIdentical(UnspecifiedNaN(), 1.0);
  ShouldNotBeIdentical(UnspecifiedNaN(), -1.0);
  ShouldNotBeIdentical(UnspecifiedNaN(), PositiveInfinity());
  ShouldNotBeIdentical(UnspecifiedNaN(), NegativeInfinity());
}
Esempio n. 4
0
static void
TestPredicates()
{
  MOZ_ASSERT(IsNaN(UnspecifiedNaN()));
  MOZ_ASSERT(IsNaN(SpecificNaN(1, 17)));;
  MOZ_ASSERT(IsNaN(SpecificNaN(0, 0xfffffffffff0fULL)));
  MOZ_ASSERT(!IsNaN(0));
  MOZ_ASSERT(!IsNaN(-0.0));
  MOZ_ASSERT(!IsNaN(1.0));
  MOZ_ASSERT(!IsNaN(PositiveInfinity()));
  MOZ_ASSERT(!IsNaN(NegativeInfinity()));

  MOZ_ASSERT(IsInfinite(PositiveInfinity()));
  MOZ_ASSERT(IsInfinite(NegativeInfinity()));
  MOZ_ASSERT(!IsInfinite(UnspecifiedNaN()));
  MOZ_ASSERT(!IsInfinite(0));
  MOZ_ASSERT(!IsInfinite(-0.0));
  MOZ_ASSERT(!IsInfinite(1.0));

  MOZ_ASSERT(!IsFinite(PositiveInfinity()));
  MOZ_ASSERT(!IsFinite(NegativeInfinity()));
  MOZ_ASSERT(!IsFinite(UnspecifiedNaN()));
  MOZ_ASSERT(IsFinite(0));
  MOZ_ASSERT(IsFinite(-0.0));
  MOZ_ASSERT(IsFinite(1.0));

  MOZ_ASSERT(!IsNegative(PositiveInfinity()));
  MOZ_ASSERT(IsNegative(NegativeInfinity()));
  MOZ_ASSERT(IsNegative(-0.0));
  MOZ_ASSERT(!IsNegative(0.0));
  MOZ_ASSERT(IsNegative(-1.0));
  MOZ_ASSERT(!IsNegative(1.0));

  MOZ_ASSERT(!IsNegativeZero(PositiveInfinity()));
  MOZ_ASSERT(!IsNegativeZero(NegativeInfinity()));
  MOZ_ASSERT(!IsNegativeZero(SpecificNaN(1, 17)));;
  MOZ_ASSERT(!IsNegativeZero(SpecificNaN(1, 0xfffffffffff0fULL)));
  MOZ_ASSERT(!IsNegativeZero(SpecificNaN(0, 17)));;
  MOZ_ASSERT(!IsNegativeZero(SpecificNaN(0, 0xfffffffffff0fULL)));
  MOZ_ASSERT(!IsNegativeZero(UnspecifiedNaN()));
  MOZ_ASSERT(IsNegativeZero(-0.0));
  MOZ_ASSERT(!IsNegativeZero(0.0));
  MOZ_ASSERT(!IsNegativeZero(-1.0));
  MOZ_ASSERT(!IsNegativeZero(1.0));

  int32_t i;
  MOZ_ASSERT(DoubleIsInt32(0.0, &i)); MOZ_ASSERT(i == 0);
  MOZ_ASSERT(!DoubleIsInt32(-0.0, &i));
  MOZ_ASSERT(DoubleEqualsInt32(0.0, &i)); MOZ_ASSERT(i == 0);
  MOZ_ASSERT(DoubleEqualsInt32(-0.0, &i)); MOZ_ASSERT(i == 0);
  MOZ_ASSERT(DoubleIsInt32(INT32_MIN, &i)); MOZ_ASSERT(i == INT32_MIN);
  MOZ_ASSERT(DoubleIsInt32(INT32_MAX, &i)); MOZ_ASSERT(i == INT32_MAX);
  MOZ_ASSERT(DoubleEqualsInt32(INT32_MIN, &i)); MOZ_ASSERT(i == INT32_MIN);
  MOZ_ASSERT(DoubleEqualsInt32(INT32_MAX, &i)); MOZ_ASSERT(i == INT32_MAX);
  MOZ_ASSERT(!DoubleIsInt32(0.5, &i));
  MOZ_ASSERT(!DoubleIsInt32(double(INT32_MAX) + 0.1, &i));
  MOZ_ASSERT(!DoubleIsInt32(double(INT32_MIN) - 0.1, &i));
  MOZ_ASSERT(!DoubleIsInt32(NegativeInfinity(), &i));
  MOZ_ASSERT(!DoubleIsInt32(PositiveInfinity(), &i));
  MOZ_ASSERT(!DoubleIsInt32(UnspecifiedNaN(), &i));
  MOZ_ASSERT(!DoubleEqualsInt32(0.5, &i));
  MOZ_ASSERT(!DoubleEqualsInt32(double(INT32_MAX) + 0.1, &i));
  MOZ_ASSERT(!DoubleEqualsInt32(double(INT32_MIN) - 0.1, &i));
  MOZ_ASSERT(!DoubleEqualsInt32(NegativeInfinity(), &i));
  MOZ_ASSERT(!DoubleEqualsInt32(PositiveInfinity(), &i));
  MOZ_ASSERT(!DoubleEqualsInt32(UnspecifiedNaN(), &i));
}