# Axapta/DynamicsAx: UTC datetime conversion

We are trying to interpret the data stored in Axapata's TIMEZONESRULESDATA table. Particularly, we'd like to figure out how it stores DST begin/end times. So far, my guess is:

TZENUM: foreign key referencing TIMEZONESLIST (time zone name and identifier)
YEAR: 0 if rule is valid indefinitely or a year where the timezone rule is in effect
BIAS: offset to UTC time in minutes
DBIAS: offset of DST (added to BIAS to get total offset from UTC)

Now for the part I don't understand:

DYEAR,DMONTH,DDAYOFWEEK,DDAY,DHOUR,DMINUTE,DSECOND
SYEAR,SMONTH,SDAYOFWEEK,SDAY,SHOUR,SMINUTE,SSECOND

I would guess from the dates that the D* is the start date of DST and S* is end. However, I do not understand why it would need a year and a dayofweek field. Also, *DAY does not seem to indicate the day of month - at least it doesn't indicate the correct one for switching DST. It also doesn't seem to correspond to the dates at which Axapta's own DateTimeUtil or Form autoconversion converts the dates.

Does anyone know how to interprete this table? Or where I could look it up?

Sören

DDAY and SDAY looked like they indicate the week of month, but then we found DDAY- and SDAY-values of 6, 23 or 28. Are these the weeks of the year, or were the values > 5 hijacked for individual days?

My theory was this: with DMONTH = 8 and DDAYOFWEEK = 6, we have

• DDAY = 4 ==> 4th saturday in August
• DDAY = 5 ==> last saturday in August
• DDAY = n > 5 ==> n-th of August (possible clash with DDAYOFWEEK?)

So what are SDAYs and DDAYs that are larger than 5?

`DDAY` and `SDAY` represents week of month (1-4, 5 = last week)

`DDAYOFWEEK` and `SDAYOFWEEK` represents day of week (0 = Sunday)

How will you use this information?

• We were missing the 5 = last week part - thanks! Am I correct in assuming that if an entry is only valid for a specific year the SDAY will be the exact day of month? Also, what does it mean to have a non-0 entry for the year? Are the settings valid for that year only or from that year onwards? We intend to use the data to write our own local-timezone/DST to UTC conversion SQL (We cannot use X++ in this case). The idea is to use SQL Server's datetimeoffset datatype to store datetimes. Aug 18, 2009 at 9:37
• I don't know about the the exact meaning of year. AX is prepared for import of timezone rules, so my guess would be specific year only. Testing will show. Good luck with your local time conversion, but my initial feeling is that you are on a wrong track. Aug 18, 2009 at 18:17
• "wrong track" - my gut agrees with you. However, what do you propose? We can only use SQL and we must convert arbitrary dates (past,present,future) from an arbitrary timezone to UTC. Aug 19, 2009 at 14:03
• See the following link: weblogs.asp.net/sbehera/archive/2006/01/20/435994.aspx Why can you only use Transact-SQL? Maybe it is not the best tool. Try Python! (SQL Server integration is available.) Aug 20, 2009 at 9:04

I have made up two SQL functions to convert Dynamics AX UTC dates to the appropriate time zone date/time from TIMEZONESRULESDATA table. They appear to work in the scenarios I've tested but I'd be pleased to get feedback.

The first function is fed the UTC DateTime and TZID from any AX table and generates the Date/Time in the time zone with any daylight savings adjustment:

``````-- *** IMPORTANT NOTE: @@DATEFIRST must be 7 for this to work ***
CREATE FUNCTION [dbo].[ConvertUTCDateTime] (@DateTime DATETIME, @TZID INT)
RETURNS DATETIME
AS
BEGIN

-- Fields to be extracted from TIMEZONESRULESDATA record for TZID
DECLARE @Bias INT, @DBias INT
DECLARE @DMonth INT, @DDayOfWeek INT, @DDay INT, @DHour INT, @DMinute INT, @DSecond INT     -- Start of Daylight Saving
DECLARE @SMonth INT, @SDayOfWeek INT, @SDay INT, @SHour INT, @SMinute INT, @SSecond INT     -- End of Daylight Saving
-- Daylight Saving Date/Time ranges
DECLARE @DSTFromDateTime1 DATETIME, @DSTToDateTime1 DATETIME, @DSTFromDateTime2 DATETIME, @DSTToDateTime2 DATETIME

SELECT
@Bias=tzr.BIAS,@DBias=tzr.DBIAS,
@DMonth=tzr.DMONTH, @DDayOfWeek=tzr.DDAYOFWEEK, @DDay=tzr.DDAY, @DHour=tzr.DHOUR, @DMinute=tzr.DMINUTE, @DSecond=tzr.DSECOND,
@SMonth=tzr.SMONTH, @SDayOfWeek=tzr.SDAYOFWEEK, @SDay=tzr.SDAY, @SHour=tzr.SHOUR, @SMinute=tzr.SMINUTE, @SSecond=tzr.SSECOND
FROM MyAXDatabase..TIMEZONESRULESDATA tzr
WHERE tzr.RULEID=@TZID

IF @Bias IS NOT NULL
BEGIN
IF @DMonth>0    -- If there is Daylight Saving
BEGIN
SET @DSTFromDateTime1=dbo.GetDSTDateTime(@AdjustedDateTime, @DMonth, @DDayOfWeek, @DDay, @DHour, @DMinute, @DSecond )   -- Get DS Start date in year
SET @DSTToDateTime2=dbo.GetDSTDateTime(@AdjustedDateTime, @SMonth, @SDayOfWeek, @SDay, @SHour, @SMinute, @SSecond ) -- Get DS End date in year
IF @DSTFromDateTime1>@DSTToDateTime2
BEGIN
SET @DSTToDateTime1= DATEADD(SECOND, -1, CAST(DATEFROMPARTS( YEAR(@AdjustedDateTime)+1, 1, 1) as DATETIME)) -- End of Current Year
SET @DSTFromDateTime2= DATEFROMPARTS( YEAR(@AdjustedDateTime), 1, 1)                        -- Start of Current Year
END
ELSE
BEGIN
SET @DSTToDateTime1=@DSTToDateTime2
SET @DSTFromDateTime2=@DSTFromDateTime1
END
IF @AdjustedDateTime BETWEEN @DSTFromDateTime1 AND @DSTToDateTime1
OR @AdjustedDateTime BETWEEN @DSTFromDateTime2 AND @DSTToDateTime2
END
END

END
``````

The second function works out the daylight savings start or end date based on parameters fed from the TIMEZONESRULESDATA fields:

``````-- *** IMPORTANT NOTE: @@DATEFIRST must be 7 for this to work ***
CREATE FUNCTION [dbo].[GetDSTDateTime](
@DateTime DATETIME,     -- Base Date
@Month INT,         -- Month for Start/End of DST
@DayOfWeek INT,         -- Day of Week  0=Sun..6=Sat (based on coding in TIMEZONESRULESDATA table)
@Day INT,           -- Week of the Month (confusing?!) 1-5 ; 5 means last week
@Hour INT,
@Minute INT,
@Second INT
) RETURNS DATETIME
AS
BEGIN

DECLARE @MyDateTime DATETIME

SET @MyDateTime=DATEFROMPARTS( YEAR(@DateTime), @Month, 1) -- First day of DST Start/End Month from @BaseDate year
SET @DayOfWeek=@DayOfWeek + 1   -- Adjust to tie in with SQL DoW 1-7

-- Establish first selected DayOfWeek in the month
IF @DayOfWeek >= DATEPART(WEEKDAY, @MyDateTime )
SET @MyDateTime=DATEADD(DAY, @DayOfWeek - DATEPART(WEEKDAY, @MyDateTime), @MyDateTime)
ELSE
SET @MyDateTime=DATEADD(DAY, 7-(DATEPART(WEEKDAY, @MyDateTime) - @DayOfWeek), @MyDateTime)

-- Add the appropriate number of weeks

-- For last week of month ensure that date is in correct month
WHILE MONTH(@MyDateTime)<>@Month
BEGIN
END;

-- Add on Hours, Minutes and Seconds

RETURN @MyDateTime

END
``````

I had to debug a bit, but @Kevin Wallace was on the right path. First, @@DateFirst has nothing to do with it. Even if @@datefirst is 1 - as in europe - the code will works, because we are not using any DateTime function relying on start of the week. There are somehow 2 catchs:

1. AX uses an enum [0-6] for [Sunday-Saturday] while SQL use [1-7] for [Monday-Sunday]. So we need to translate AX 0 to SQL 7.
2. if there's a DST, the end time in TIMEZONERULESDATA is in DST Time, not in Winter Time.

So here's a working code:

``````ALTER FUNCTION [dbo].[ConvertUTCDateTime] (@DateTime DATETIME, @TZID INT)
RETURNS DATETIME
AS
BEGIN

-- TZID est 60001 pour la France avec DST actuellement.

-- From: https://stackoverflow.com/questions/1205612/axapta-dynamicsax-utc-datetime-conversion?noredirect=1&lq=1
-- Modified / Errors corrected by ELB on 05/2022 (in this fonction and in GetDSTDateTime)
-- Fields to be extracted from TIMEZONESRULESDATA record for TZID
DECLARE @Bias INT, @DBias INT
DECLARE @DMonth INT, @DDayOfWeek INT, @DDay INT, @DHour INT, @DMinute INT, @DSecond INT     -- Start of Daylight Saving
DECLARE @SMonth INT, @SDayOfWeek INT, @SDay INT, @SHour INT, @SMinute INT, @SSecond INT     -- End of Daylight Saving
-- Daylight Saving Date/Time ranges
DECLARE @DSTFromDateTime1 DATETIME, @DSTToDateTime1 DATETIME, @DSTFromDateTime2 DATETIME, @DSTToDateTime2 DATETIME

SELECT
@Bias=tzr.BIAS,@DBias=tzr.DBIAS,
@DMonth=tzr.DMONTH, @DDayOfWeek=tzr.DDAYOFWEEK, @DDay=tzr.DDAY, @DHour=tzr.DHOUR, @DMinute=tzr.DMINUTE, @DSecond=tzr.DSECOND,
@SMonth=tzr.SMONTH, @SDayOfWeek=tzr.SDAYOFWEEK, @SDay=tzr.SDAY, @SHour=tzr.SHOUR, @SMinute=tzr.SMINUTE, @SSecond=tzr.SSECOND
FROM TIMEZONESRULESDATA tzr
WHERE tzr.RULEID=@TZID

IF @Bias IS NOT NULL
BEGIN
IF @DMonth>0    -- If there is Daylight Saving
BEGIN
SET @DSTFromDateTime1=dbo.GetDSTDateTime(@AdjustedDateTime, @DMonth, @DDayOfWeek, @DDay, @DHour, @DMinute, @DSecond )   -- Get DS Start date in year
--SET @DSTToDateTime2=dbo.GetDSTDateTime(@AdjustedDateTime, @SMonth, @SDayOfWeek, @SDay, @SHour, @SMinute, @SSecond ) -- Get DS End date in year -- WARNING: Time is in DST !
-- So let's substract (
IF @DSTFromDateTime1>@DSTToDateTime2
BEGIN
SET @DSTToDateTime1= DATEADD(SECOND, -1, CAST(DATEFROMPARTS( YEAR(@AdjustedDateTime)+1, 1, 1) as DATETIME)) -- End of Current Year
SET @DSTFromDateTime2= DATEFROMPARTS( YEAR(@AdjustedDateTime), 1, 1)                        -- Start of Current Year
END
ELSE
BEGIN
SET @DSTToDateTime1=@DSTToDateTime2
SET @DSTFromDateTime2=@DSTFromDateTime1
END
IF @AdjustedDateTime BETWEEN @DSTFromDateTime1 AND @DSTToDateTime1
OR @AdjustedDateTime BETWEEN @DSTFromDateTime2 AND @DSTToDateTime2
END
END

END
``````

and :

``````ALTER FUNCTION [dbo].[GetDSTDateTime](
@DateTime DATETIME,     -- Base Date
@Month INT,         -- Month for Start/End of DST
@DayOfWeek INT,         -- Day of Week  0=Sun..6=Sat (based on coding in TIMEZONESRULESDATA table)
@Day INT,           -- Week of the Month (confusing?!) 1-5 ; 5 means last week
@Hour INT,
@Minute INT,
@Second INT
) RETURNS DATETIME
AS
BEGIN

DECLARE @MyDateTime DATETIME

SET @MyDateTime=DATEFROMPARTS( YEAR(@DateTime), @Month, 1) -- First day of DST Start/End Month from @BaseDate year
--SET @DayOfWeek=@DayOfWeek + 1   -- NOT !! Adjust to tie in with SQL DoW 1-7
if @DayOfWeek=0 set @DayOfWeek=7 -- Ax is [0-6] (0=Sunday,6=Saturday), while SQL is [1-7] [1=Monday, 7=sunday]
--
-- Establish first selected DayOfWeek in the month
IF @DayOfWeek >= DATEPART(WEEKDAY, @MyDateTime )
-- The day we are looking for is in the first week
SET @MyDateTime=DATEADD(DAY, @DayOfWeek - DATEPART(WEEKDAY, @MyDateTime), @MyDateTime)
ELSE
--  the day we are looking for is the second week, so we need to add 1 week and datepart(weekday) -dayofweek is <0
SET @MyDateTime=DATEADD(DAY, 7-(DATEPART(WEEKDAY, @MyDateTime) - @DayOfWeek), @MyDateTime)

-- Add the appropriate number of weeks