Exemplo n.º 1
0
TEST(Filetypes, EpwFile_International_Data)
{
  try{
    path p = resourcesPath() / toPath("utilities/Filetypes/CHN_Guangdong.Shaoguan.590820_CSWD.epw");
    EpwFile epwFile(p,true);
    EXPECT_EQ(p, epwFile.path());
    EXPECT_EQ("B68C068B", epwFile.checksum());
    EXPECT_EQ("Shaoguan", epwFile.city());
    EXPECT_EQ("Guangdong", epwFile.stateProvinceRegion());
    EXPECT_EQ("CHN", epwFile.country());
    EXPECT_EQ("CSWD", epwFile.dataSource());
    EXPECT_EQ("590820", epwFile.wmoNumber());
    EXPECT_EQ(24.68, epwFile.latitude());
    EXPECT_EQ(113.6, epwFile.longitude());
    EXPECT_EQ(8, epwFile.timeZone());
    EXPECT_EQ(61, epwFile.elevation());
    EXPECT_EQ(Time(0,1,0,0), epwFile.timeStep());
    EXPECT_EQ(DayOfWeek(DayOfWeek::Sunday), epwFile.startDayOfWeek());
    EXPECT_EQ(Date(MonthOfYear::Jan, 1), epwFile.startDate());
    EXPECT_EQ(Date(MonthOfYear::Dec, 31), epwFile.endDate());
    // Up to here, everything should be the same as the first test. Now ask for the data
    std::vector<EpwDataPoint> data = epwFile.data();
    EXPECT_EQ(8760,data.size());
    // The last data point check
    EXPECT_EQ(14.7,data[8759].dryBulbTemperature().get());
    EXPECT_EQ(101100,data[8759].atmosphericStationPressure().get());
    // Try out the alternate access functions, dew point temperature should be -1C
    EXPECT_EQ(11.7,data[8759].fieldByName("Dew Point Temperature").get());
    EXPECT_EQ(11.7,data[8759].field(EpwDataField("Dew Point Temperature")).get());
    // The last data point should not have a liquid precipitation depth
    EXPECT_FALSE(data[8759].fieldByName("Liquid Precipitation Depth"));
    // Get a time series
    boost::optional<openstudio::TimeSeries> series = epwFile.getTimeSeries("Wind Speed");
    ASSERT_TRUE(series);
    ASSERT_EQ(8760,series->values().size());
    DateTimeVector seriesTimes = series->dateTimes();
    ASSERT_EQ(8760,seriesTimes.size());
    // Check the times in the data and the time series
    DateTime current(Date(1,1,1999),Time(0,1)); // Use 1999 to avoid leap years
    Time delta(0,1);
    for(unsigned i=0;i<8760;i++) {
      // This is a lot more complicated that it probably should be to avoid the year being a problem
      DateTime datatime = data[i].dateTime();
      EXPECT_EQ(datatime.date().monthOfYear(), current.date().monthOfYear());
      EXPECT_EQ(datatime.date().dayOfMonth(), current.date().dayOfMonth());
      EXPECT_EQ(datatime.time().hours(), current.time().hours());
      EXPECT_EQ(datatime.time().minutes(), current.time().minutes());
      DateTime seriestime = seriesTimes[i];
      EXPECT_EQ(seriestime.date().monthOfYear(), current.date().monthOfYear());
      EXPECT_EQ(seriestime.date().dayOfMonth(), current.date().dayOfMonth());
      EXPECT_EQ(seriestime.time().hours(), current.time().hours());
      EXPECT_EQ(seriestime.time().minutes(), current.time().minutes());
      current += delta;
    }
    // No need to redo the original tests here since the data should have been loaded in the constructor
  }catch(...){
    ASSERT_TRUE(false);
  }
}
Exemplo n.º 2
0
TEST(Filetypes, EpwFile_IWEC_Data)
{
  try {
    path p = resourcesPath() / toPath("utilities/Filetypes/TUN_Tunis.607150_IWEC.epw");
    EpwFile epwFile(p, true);
    EXPECT_EQ(p, epwFile.path());
    EXPECT_EQ("FEAB878E", epwFile.checksum());
    EXPECT_EQ("TUNIS", epwFile.city());
    EXPECT_EQ("-", epwFile.stateProvinceRegion());
    EXPECT_EQ("TUN", epwFile.country());
    EXPECT_EQ("IWEC Data", epwFile.dataSource());
    EXPECT_EQ("607150", epwFile.wmoNumber());
    EXPECT_EQ(36.83, epwFile.latitude());
    EXPECT_EQ(10.23, epwFile.longitude());
    EXPECT_EQ(1, epwFile.timeZone());
    EXPECT_EQ(4, epwFile.elevation());
    EXPECT_EQ(Time(0, 1, 0, 0), epwFile.timeStep());
    EXPECT_EQ(DayOfWeek(DayOfWeek::Sunday), epwFile.startDayOfWeek());
    EXPECT_EQ(Date(MonthOfYear::Jan, 1), epwFile.startDate());
    EXPECT_EQ(Date(MonthOfYear::Dec, 31), epwFile.endDate());
    // Up to here, everything should be the same as the first test. Now ask for the data
    std::vector<EpwDataPoint> data = epwFile.data();
    EXPECT_EQ(8760, data.size());
    // The last data point check
    EXPECT_EQ(11.3, data[8759].dryBulbTemperature().get());
    EXPECT_EQ(102400, data[8759].atmosphericStationPressure().get());
    // Try out the alternate access functions
    EXPECT_EQ(9.8, data[8759].getFieldByName("Dew Point Temperature").get());
    EXPECT_EQ(9.8, data[8759].getField(EpwDataField("Dew Point Temperature")).get());
    // Get a time series
    boost::optional<openstudio::TimeSeries> series = epwFile.getTimeSeries("Wind Speed");
    ASSERT_TRUE(series);
    ASSERT_EQ(8760, series->values().size());
    DateTimeVector seriesTimes = series->dateTimes();
    ASSERT_EQ(8760, seriesTimes.size());
    // Check the times in the data and the time series
    DateTime current(Date(1, 1, 1999), Time(0, 1)); // Use 1999 to avoid leap years
    Time delta(0, 1);
    for (unsigned i = 0; i<8760; i++) {
      // This is a lot more complicated that it probably should be to avoid the year being a problem
      DateTime datatime = data[i].dateTime();
      EXPECT_EQ(datatime.date().monthOfYear(), current.date().monthOfYear());
      EXPECT_EQ(datatime.date().dayOfMonth(), current.date().dayOfMonth());
      EXPECT_EQ(datatime.time().hours(), current.time().hours());
      EXPECT_EQ(datatime.time().minutes(), current.time().minutes());
      DateTime seriestime = seriesTimes[i];
      EXPECT_EQ(seriestime.date().monthOfYear(), current.date().monthOfYear());
      EXPECT_EQ(seriestime.date().dayOfMonth(), current.date().dayOfMonth());
      EXPECT_EQ(seriestime.time().hours(), current.time().hours());
      EXPECT_EQ(seriestime.time().minutes(), current.time().minutes());
      current += delta;
    }
    // No need to redo the original tests here since the data should have been loaded in the constructor
  }
  catch (...) {
    ASSERT_TRUE(false);
  }
}
Exemplo n.º 3
0
TEST(Filetypes, EpwFile_Data)
{
  try{
    path p = resourcesPath() / toPath("runmanager/USA_CO_Golden-NREL.724666_TMY3.epw");
    EpwFile epwFile(p);
    EXPECT_EQ(p, epwFile.path());
    EXPECT_EQ("F188656D", epwFile.checksum());
    EXPECT_EQ("Denver Centennial  Golden   Nr", epwFile.city());
    EXPECT_EQ("CO", epwFile.stateProvinceRegion());
    EXPECT_EQ("USA", epwFile.country());
    EXPECT_EQ("TMY3", epwFile.dataSource());
    EXPECT_EQ("724666", epwFile.wmoNumber());
    EXPECT_EQ(39.74, epwFile.latitude());
    EXPECT_EQ(-105.18, epwFile.longitude());
    EXPECT_EQ(-7, epwFile.timeZone());
    EXPECT_EQ(1829, epwFile.elevation());
    EXPECT_EQ(Time(0,1,0,0), epwFile.timeStep());
    EXPECT_EQ(DayOfWeek(DayOfWeek::Sunday), epwFile.startDayOfWeek());
    EXPECT_EQ(Date(MonthOfYear::Jan, 1), epwFile.startDate());
    EXPECT_EQ(Date(MonthOfYear::Dec, 31), epwFile.endDate());
    // Up to here, everything should be the same as the first test. Now ask for the data
    std::vector<EpwDataPoint> data = epwFile.data();
    EXPECT_EQ(8760,data.size());
    // The last data point should be on 12/31/1996, with a dry bulb temp of 4C and presure 81100
    EXPECT_EQ(4.0,data[8759].dryBulbTemperature().get());
    EXPECT_EQ(81100,data[8759].atmosphericStationPressure().get());
    // Try out the alternate access functions, dew point temperature should be -1C
    EXPECT_EQ(-1.0,data[8759].fieldByName("Dew Point Temperature").get());
    EXPECT_EQ(-1.0,data[8759].field(EpwDataField("Dew Point Temperature")).get());
    // The last data point should not have a liquid precipitation depth
    EXPECT_FALSE(data[8759].fieldByName("Liquid Precipitation Depth"));
    // Get a time series
    boost::optional<openstudio::TimeSeries> series = epwFile.getTimeSeries("Wind Speed");
    ASSERT_TRUE(series);
    ASSERT_EQ(8760,series->values().size());
    DateTimeVector seriesTimes = series->dateTimes();
    ASSERT_EQ(8760,seriesTimes.size());
    // Check the times in the data and the time series
    DateTime current(Date(1,1,1999),Time(0,1)); // Use 1999 to avoid leap years
    Time delta(0,1);
    for(unsigned i=0;i<8760;i++) {
      // This is a lot more complicated that it probably should be to avoid the year being a problem
      DateTime datatime = data[i].dateTime();
      EXPECT_EQ(datatime.date().monthOfYear(), current.date().monthOfYear());
      EXPECT_EQ(datatime.date().dayOfMonth(), current.date().dayOfMonth());
      EXPECT_EQ(datatime.time().hours(), current.time().hours());
      EXPECT_EQ(datatime.time().minutes(), current.time().minutes());
      DateTime seriestime = seriesTimes[i];
      EXPECT_EQ(seriestime.date().monthOfYear(), current.date().monthOfYear());
      EXPECT_EQ(seriestime.date().dayOfMonth(), current.date().dayOfMonth());
      EXPECT_EQ(seriestime.time().hours(), current.time().hours());
      EXPECT_EQ(seriestime.time().minutes(), current.time().minutes());
      current += delta;
    }
    // We should redo the original tests because we have reparsed the entire file
    EXPECT_EQ(p, epwFile.path());
    EXPECT_EQ("F188656D", epwFile.checksum());
    EXPECT_EQ("Denver Centennial  Golden   Nr", epwFile.city());
    EXPECT_EQ("CO", epwFile.stateProvinceRegion());
    EXPECT_EQ("USA", epwFile.country());
    EXPECT_EQ("TMY3", epwFile.dataSource());
    EXPECT_EQ("724666", epwFile.wmoNumber());
    EXPECT_EQ(39.74, epwFile.latitude());
    EXPECT_EQ(-105.18, epwFile.longitude());
    EXPECT_EQ(-7, epwFile.timeZone());
    EXPECT_EQ(1829, epwFile.elevation());
    EXPECT_EQ(Time(0,1,0,0), epwFile.timeStep());
    EXPECT_EQ(DayOfWeek(DayOfWeek::Sunday), epwFile.startDayOfWeek());
    EXPECT_EQ(Date(MonthOfYear::Jan, 1), epwFile.startDate());
    EXPECT_EQ(Date(MonthOfYear::Dec, 31), epwFile.endDate());
  }catch(...){
    ASSERT_TRUE(false);
  }
}
Exemplo n.º 4
0
TEST_F(DataFixture,TimeSeries_DetailedConstructor_WrapAroundDates)
{
  std::string units = "W";

  Date startDate(MonthOfYear(MonthOfYear::Jan),1);

  // fill vector with 365 days of data
  Vector values(365);
  DateTimeVector dateTimes;
  for (unsigned i = 0; i < 365; ++i){
    values(i) = i;
    dateTimes.push_back(startDate + Time(i+1,0,0,0));
  }
  unsigned numValues = values.size();

  ASSERT_EQ(365u, numValues);
  ASSERT_EQ(365u, dateTimes.size());
  EXPECT_EQ(DateTime(Date(MonthOfYear(MonthOfYear::Jan), 1), Time(1,0,0,0)), dateTimes[0].date());
  EXPECT_EQ(DateTime(Date(MonthOfYear(MonthOfYear::Dec), 31), Time(1,0,0,0)), dateTimes[364].date());

  // create detailed timeSeries
  TimeSeries timeSeries(dateTimes, values, units);
  ASSERT_EQ(365u, timeSeries.values().size());

  // check interval
  EXPECT_FALSE(timeSeries.intervalLength());

  // check start date and time
  DateTime firstDateTime = timeSeries.firstReportDateTime();
  EXPECT_EQ(DateTime(Date(MonthOfYear(MonthOfYear::Jan), 1), Time(1,0,0,0)), firstDateTime);

  // check values
  for (unsigned i = 0; i < numValues; ++i){
    DateTime dateTime = dateTimes[i];
    EXPECT_EQ(i, timeSeries.value(dateTime)) << dateTime;
  }

  Vector test = timeSeries.values(DateTime(Date(MonthOfYear(MonthOfYear::Apr), 1), Time(1,0,0,0)), DateTime(Date(MonthOfYear(MonthOfYear::Apr), 30), Time(1,0,0,0)));
  ASSERT_EQ(30, test.size());
  for (unsigned i = 0; i < 30; ++i){
    EXPECT_EQ(i + 90, test[i]);
  }

  // now rearrange date times to make a wrap around year
  Vector wrappedValues(365);
  DateTimeVector wrappedDateTimes;
  unsigned j = 0;
  for (unsigned i = 100; i < 365; ++i, ++j){
    wrappedValues[j] = values[i];
    wrappedDateTimes.push_back(dateTimes[i]);
  }
  for (unsigned i = 0; i < 100; ++i, ++j){
    wrappedValues[j] = values[i];
    wrappedDateTimes.push_back(dateTimes[i]);
  }
  ASSERT_EQ(365u, wrappedValues.size());
  ASSERT_EQ(365u, wrappedDateTimes.size());
  EXPECT_EQ(100, wrappedValues[0]);
  EXPECT_EQ(99, wrappedValues[364]);
  EXPECT_EQ(DateTime(Date(MonthOfYear(MonthOfYear::Apr), 11), Time(1,0,0,0)), wrappedDateTimes[0].date());
  EXPECT_EQ(DateTime(Date(MonthOfYear(MonthOfYear::Apr), 10), Time(1,0,0,0)), wrappedDateTimes[364].date());

  // create detailed timeSeries
  TimeSeries wrappedTimeSeries(wrappedDateTimes, wrappedValues, units);
  ASSERT_EQ(365u, wrappedTimeSeries.values().size());

  // check interval
  EXPECT_FALSE(wrappedTimeSeries.intervalLength());

  // check start date and time
  firstDateTime = wrappedTimeSeries.firstReportDateTime();
  EXPECT_EQ(DateTime(Date(MonthOfYear(MonthOfYear::Apr), 11), Time(1,0,0,0)), firstDateTime);

  // check values
  for (unsigned i = 0; i < numValues; ++i){
    DateTime dateTime = dateTimes[i];
    EXPECT_EQ(i, wrappedTimeSeries.value(dateTime)) << dateTime;
  }

  test = timeSeries.values(DateTime(Date(MonthOfYear(MonthOfYear::Apr), 1), Time(1,0,0,0)), DateTime(Date(MonthOfYear(MonthOfYear::Apr), 30), Time(1,0,0,0)));
  ASSERT_EQ(30, test.size());
  for (unsigned i = 0; i < 30; ++i){
    EXPECT_EQ(i + 90, test[i]);
  }

}