Is there a way to, given a date, retrieve the season of the year? For any place on the globe?
Is this based on time zone as well as hemisphere?
Note that, In the southern hemisphere that summer is still during the warm months.
EDIT:
To clarify, I am talking about the astronomical seasons.
You can use this simple code:
private int getSeason(DateTime date) {
float value = (float)date.Month + date.Day / 100f; // <month>.<day(2 digit)>
if (value < 3.21 || value >= 12.22) return 3; // Winter
if (value < 6.21) return 0; // Spring
if (value < 9.23) return 1; // Summer
return 2; // Autumn
}
To include the seasons in the Southern Hemisphere the code can become:
private int getSeason(DateTime date, bool ofSouthernHemisphere) {
int hemisphereConst = (ofSouthernHemisphere ? 2 : 0);
Func<int, int> getReturn = (northern) => {
return (northern + hemisphereConst) % 4;
};
float value = (float)date.Month + date.Day / 100f; // <month>.<day(2 digit)>
if (value < 3.21 || value >= 12.22) return getReturn(3); // 3: Winter
if (value < 6.21) return getReturn(0); // 0: Spring
if (value < 9.23) return getReturn(1); // 1: Summer
return getReturn(2); // 2: Autumn
}
100 to 100f, or that calculation will always yield a whole number.
if statement by a chance. Every leap year, summer solstice starts one day earlier (6.20, instead of 6.21), so your calculation would be off in 2016 on that part. Furthermore, every leap year and the year to follow, fall equinox starts one day earlier (9.22, instead of 9.23). Lastly, winter solstice starts on 12.21 every year except the year before the leap year -- it starts on 12.22 then.
The answer depends on exactly how you want to define each season. This chart at Wikipedia shows the exact day and time changes slightly from year-to-year.
A simple solution that might be "good enough" is to use four fixed dates, say: 20-March, 21-June, 22-September, and 21-December.
I don't think this is standardized. Nor is this part of the well known globalization datasets.
Someone else can rattle off the code for you quickly but from the very Wikipedia.org article you referenced we have this:
The temperate areas
We can clearly distinguish six seasons. Dates listed here are for the Northern Hemisphere:[citation needed]
* Prevernal (1 March–1 May) * Vernal (1 May–15 June) * Estival (15 June–15 August) * Serotinal (15 August–15 September) * Autumnal (15 September–1 November) * Hibernal (1 November–1 March)
You can then write a GetTemperateSeason() function to return the enumeration above based the month ranges.
public class Season
{
private const string WINTER = "Winter";
private const string SPRING = "Spring";
private const string SUMMER = "Summer";
private const string AUTUMN = "Autumn";
public string Name { get; set; }
public string Value { get; set; }
public List<Season> LastFiveBillingQuarters
{
get
{
IList<Season> billingPeriods = new List<Season>();
StringBuilder sbDisplayText;
DateTime billingPeriod;
for (int i = 0; i >= -12; i -= 3)
{
billingPeriod = DateTime.Now.AddMonths(i);
var month = billingPeriod.Month;
var day = billingPeriod.Day;
var year = billingPeriod.Year;
var ticks = billingPeriod.ToString();
sbDisplayText = new StringBuilder();
if ((month >= 12 || month < 03) & day >= 22)
sbDisplayText.Append(WINTER);
else if (month >= 09 & day >= 23)
sbDisplayText.Append(AUTUMN);
else if (month >= 06 & day >= 21)
sbDisplayText.Append(SUMMER);
else if (month >= 03 & day >= 21)
sbDisplayText.Append(SPRING);
sbDisplayText.Append(string.Format("{0}{1}", " ", year));
billingPeriods.Add(new Season() { Name = sbDisplayText.ToString(), Value = ticks });
}
return billingPeriods.ToList();
}
}
}
A bit late (and only using norther hemisphere), but if someone else is stumbling upon this issue and wants a more accurate approximation you can use the following:
private int getSeason(DateTime date)
{
bool lastYearIsLeap = DateTime.IsLeapYear(date.Year-1);
bool thisIsLeap = DateTime.IsLeapYear(date.Year);
bool nextYearIsLeap = DateTime.IsLeapYear(date.Year+1);
float summerStart = 6.21f;
float autumnStart = 9.23f;
float winterStart = 12.21f;
//check if we need summer adjustment
if (thisIsLeap)
{
summerStart = 6.20f;
}
//check if we need autumn adjustment
if (thisIsLeap || lastYearIsLeap)
{
autumnStart = 9.22f;
}
//check if we need winter adjustment
if (nextYearIsLeap)
{
winterStart = 12.22f;
}
if (date.Year == 2034 || date.Year == 2038)
autumnStart -= 0.01f;
float value = (float)date.Month + date.Day / 100f; // <month>.<day(2 digit)>
if (value < 3.20 || value >= winterStart) return 3; // Winter
if (value < summerStart) return 0; // Spring
if (value < autumnStart) return 1; // Summer
return 2; // Autumn
}
This is accurate until 2041. (would be accurate to 2034, but hard coded a fix for 2034 and 2038...assuming that http://www.paolociraci.it/meteo/equinozio-solstizio.htm is correct.
A helper method which is useful for checking the dates (in this case from 2010 -2050
public static string PrintSeasons()
{
DateTime checkDateTime = new DateTime(2010, 1, 1);
DateTime stopDateTime = new DateTime(2050, 1, 1);
List<KeyValuePair<string, DateTime>> Seasons = new List<KeyValuePair<string, DateTime>>();
while (checkDateTime < stopDateTime)
{
DateTime switchTime = checkDateTime;
switch (getSeason(switchTime))
{
case 0: //Spring
if (switchTime.Month == 3 && switchTime.Day > 18 && switchTime.Day < 22)
{
KeyValuePair<string, DateTime> seasonEntry = new KeyValuePair<string, DateTime>("Spring", switchTime);
if (!Seasons.Any(o => o.Key == "Spring" && o.Value.Year == seasonEntry.Value.Year))
Seasons.Add(seasonEntry);
}
break;
case 1: //Summer
if (switchTime.Month == 6 && switchTime.Day > 19 && switchTime.Day < 22)
{
KeyValuePair<string, DateTime> seasonEntry = new KeyValuePair<string, DateTime>("Summer", switchTime);
if (!Seasons.Any(o => o.Key == "Summer" && o.Value.Year == seasonEntry.Value.Year))
Seasons.Add(seasonEntry);
}
break;
case 2: //Autumn
if (switchTime.Month == 9 && switchTime.Day >= 19 && switchTime.Day < 25)
{
KeyValuePair<string, DateTime> seasonEntry = new KeyValuePair<string, DateTime>("Autumn", switchTime);
if (!Seasons.Any(o => o.Key == "Autumn" && o.Value.Year == seasonEntry.Value.Year))
Seasons.Add(seasonEntry);
}
break;
case 3: //Winter
if (switchTime.Month == 12 && switchTime.Day > 19 && switchTime.Day < 23)
{
KeyValuePair<string, DateTime> seasonEntry = new KeyValuePair<string, DateTime>("Winter", switchTime);
if (!Seasons.Any(o => o.Key == "Winter" && o.Value.Year == seasonEntry.Value.Year))
Seasons.Add(seasonEntry);
}
break;
}
checkDateTime = checkDateTime.AddDays(1);
}
DateTime currentYear = new DateTime(2000, 1, 1);
string test = currentYear.Year + " | ";
foreach (var season in Seasons)
{
if (currentYear.Year != season.Value.Year)
{
test += Environment.NewLine + season.Value.Year + " | ";
currentYear = season.Value;
}
test += season.Key + ": " + season.Value.ToString("dd") + " | ";
}
return test;
}
Asp.net has PersianCalendar in System.Globalization built-in, you can use it to obtain the seasons easily.
In persian calendar :
enum Season
{
Sprint = 1,
Summer = 2,
Autumn = 3,
Winter = 4
};
var persianMonth = new PersianCalendar().GetMonth( DateTime.Now );
var season = (Season) Math.Ceiling( persianMonth / 3.0 )
Personally, unless it was directly required, I would describe the different sections by the quarter rather than climate/period of the year.
northern/southern:
21/03 - start of spring/autumn
21/06 - start of summer/winter
23/09 - start of autumn/spring
22/12 - start of winter/summer
sometimes it IS delyed by one or two days, but for this you'll have to check in sites such as: timeanddate.com
I needed to have a more flexible approach. My seasons are stored in the database, so I can't just compare day/month.
But if you try to think of an equation to compare the start/end date of a season to a specific day, it's not as easy as it seems since the newyear always appears to bite you in the neck. To get around this I decided to split the season that crosses the newyear into 2 seperate seasons. Then you can easily just compare day/month with math logic and determine the correct season.
public class SeasonChecker
{
public SeasonChecker()
{
}
public Task<TSeason> FindSeasonAsync<TSeason>(IEnumerable<TSeason> seasons, DateTime date) where TSeason : class, ISeason
{
var result = seasons
.Select(s =>
{
// Find season that crosses newyear
if (s.Start.Year == s.End.Year)
{
return new[] {
new {
OriginalSeason = s,
// Remap the season to the year 2000
ProcessableSeason = new InternalSeason {
Name = s.Name,
Start = new DateTime(2000, s.Start.Month, s.Start.Day),
End = new DateTime(2000, s.End.Month, s.End.Day)
}
}
};
}
else
{
// If the season crosses the newyear, split the season
return new[] {
new {
OriginalSeason = s,
// Remap the season to the year 2000
ProcessableSeason = new InternalSeason {
Name = s.Name,
Start = new DateTime(2000, s.Start.Month, s.Start.Day),
End = new DateTime(2000, 12, 31)
}
},
new {
OriginalSeason = s,
// Remap the season to the year 2000
ProcessableSeason = new InternalSeason {
Name = s.Name,
Start = new DateTime(2000, 1, 1),
End = new DateTime(2000, s.End.Month, s.End.Day)
}
}
};
}
})
.SelectMany(s => s)
.FirstOrDefault(s =>
// Now we can easily compare the dates.
DateTime.Compare(s.ProcessableSeason.Start, new DateTime(2000, date.Month, date.Day)) <= 0 &&
DateTime.Compare(new DateTime(2000, date.Month, date.Day), s.ProcessableSeason.End) <= 0
)?.OriginalSeason;
return Task.FromResult(result);
}
}
public interface ISeason
{
string Name { get; set; }
DateTime Start { get; set; }
DateTime End { get; set; }
}
internal class InternalSeason : ISeason
{
public string Name { get; set; }
public DateTime Start { get; set; }
public DateTime End { get; set; }
}
This LINQ expression is entirely convertible to SQL, so you can apply it to a DbSet.
DECLARE @datum DATE;
SET @datum = '2020-12-21';
SELECT
Season.SeasonId,
Season.DateFrom,
Season.DateUntil,
CASE
WHEN YEAR(Season.DateFrom) = YEAR(Season.DateUntil)
THEN
CASE
WHEN
(
-- Season.DateFrom (2000) < NOW (2000)
MONTH(Season.DateFrom) < MONTH(CAST(@datum AS SQL_DATE))
OR (
MONTH(Season.DateFrom) = MONTH(CAST(@datum AS SQL_DATE))
AND
DAYOFMONTH(Season.DateFrom) <= DAYOFMONTH(CAST(@datum AS SQL_DATE))
)
)
AND
(
-- NOW (2000) < Season.DateUntil (2000)
MONTH(CAST(@datum AS SQL_DATE)) < MONTH(Season.DateUntil)
OR (
MONTH(CAST(@datum AS SQL_DATE)) = MONTH(Season.DateUntil)
AND
DAYOFMONTH(CAST(@datum AS SQL_DATE)) <= DAYOFMONTH(Season.DateUntil)
)
)
THEN TRUE
ELSE FALSE
END
ELSE
CASE
-- ( Season.DateFrom (2000) < NOW (2000) < 31/12) OR (1/1/2000 < NOW (2000) < Season.DateUntil (2000) )
WHEN
-- Season.DateFrom (2000) < NOW (2000) < 31/12/2000)
(
(
-- Season.DateFrom (2000) <= NOW (2000)
MONTH(Season.DateFrom) < MONTH(CAST(@datum AS SQL_DATE))
OR (
MONTH(Season.DateFrom) = MONTH(CAST(@datum AS SQL_DATE))
AND
DAYOFMONTH(Season.DateFrom) <= DAYOFMONTH(CAST(@datum AS SQL_DATE))
)
)
AND
(
-- NOW (2000) <= 31/12)
MONTH(CAST(@datum AS SQL_DATE)) < 12
OR (
MONTH(CAST(@datum AS SQL_DATE)) = 12
AND
DAYOFMONTH(CAST(@datum AS SQL_DATE)) <= 31
)
)
)
OR
-- 1/1/2000 < NOW (2000) < Season.DateUntil (2000)
(
(
-- 1/1/2000 < NOW (2000)
1 < MONTH(CAST(@datum AS SQL_DATE))
OR (
1 = MONTH(CAST(@datum AS SQL_DATE))
AND
1 <= DAYOFMONTH(CAST(@datum AS SQL_DATE))
)
)
AND
(
-- NOW (2000) < Season.DateUntil (2000)
MONTH(CAST(@datum AS SQL_DATE)) < MONTH(Season.DateUntil)
OR (
MONTH(CAST(@datum AS SQL_DATE)) = MONTH(Season.DateUntil)
AND
DAYOFMONTH(CAST(@datum AS SQL_DATE)) <= DAYOFMONTH(Season.DateUntil)
)
)
)
THEN TRUE
ELSE FALSE
END
END
AS CurrentSeason
FROM Season
