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So this is VERY strange. RODBC seems to drop the time portion of DateTime SQL columns if the result set is large enough. (The queries are running against an SQL Server 2012 machine, and, yes, when I run them on the SQL Server side they produce identical and proper results, regardless of how many rows are returned.)

For example, the following works perfectly:

myconn <- odbcConnect(dsnName, uid, pwd)
results <- sqlQuery(myconn, "SELECT TOP 100 MyID, MyDateTimeColumn from MyTable ORDER BY MyDateTimeColumn DESC")
close(myconn)

In R, the following works as expected:

> results$MyDateTimeColumn[3]
[1] "2013-07-01 00:01:22 PDT"

which is a valid POSIXct date time. However, when somewhere between 10,000 and 100,000 rows are returned, suddenly the time portion disappears:

myconn <- odbcConnect(dsnName, uid, pwd)
bigResults <- sqlQuery(myconn, "SELECT TOP 100000 MyID, MyDateTimeColumn from MyTable ORDER BY MyDateTimeColumn DESC")
close(myconn)

(same code, simply a larger number of rows returned; NOTE: the exact same row has now lost its time component), R responds:

> bigResults$MyDateTimeColumn[3]
[1] "2013-07-01 PDT"

Note that the time is now missing (this is not a different row; it's the exact same row as previous), as the following shows:

>strptime(results$TriggerTime[3], "%Y-%m-%d %H:%M:%S")
[1] "2013-07-01 00:01:22"

>strptime(bigResults$TriggerTime[3], "%Y-%m-%d %H:%M:%S")
[1] NA

Obviously the work-around is either incremental query-with-append or export-to-CSV-and-import-to-R, but this seems very odd. Anyone ever seen anything like this?

Config: I'm using the latest version of RODBC (1.3-10) and can duplicate the behavior on both an R installation running on Windows x64 and an R installation running on Mac OS X 10.9 (Mavericks).

EDIT #2 Adding output of dput() to compare the objects, per request:

> dput(results[1:10,]$MyDateTimeColumn)
structure(c(1396909903.347, 1396909894.587, 1396909430.903, 1396907996.9, 1396907590.02, 1396906077.887, 1396906071.99, 1396905537.36, 1396905531.413, 1396905231.787), class = c("POSIXct", "POSIXt"), tzone = "")

> dput(bigResults[1:10,]$MyDateTimeColumn)
structure(c(1396854000, 1396854000, 1396854000, 1396854000, 1396854000, 1396854000, 1396854000, 1396854000, 1396854000, 1396854000), class = c("POSIXct", "POSIXt"), tzone = "")

It would appear that the underlying data are actually changing as a result of the number of rows returned by the query, which is downright strange.

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Maybe try RJDBC? –  Joshua Ulrich Apr 8 '14 at 9:22
    
In case it's unclear to other people, the "no time" timestamps are start-of-day for a +0700 GMT timezone. So, is the db in Cambodia, Indonesia, Thailand, Vietnam (or possibly some others)? How does the backend db actually store this information (integer vs float vs string); is time a separate piece from the date information internally? Because otherwise the db has to be doing more work to do this, which is stranger. Or maybe just the returned type is different? –  Clockwork-Muse Apr 9 '14 at 13:08

3 Answers 3

sqlQuery() has an option called as.is. Setting this to TRUE will pull everything as seen in for example the server.

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It may be a daylight saving issue. If there is a time that doesnt exist in your timezone (because of daylight saving) it may cause something like this.

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umm, no. When DST strikes, it doesn't remove the time, it changes the reported (local time) value. Most systems store time as an incrementing counter - DST doesn't change this value, it simply reports things as an hour (or whatever) different. The differences in values are far more than a sane hour (the first one is 15 hours, plus some minutes and seconds). So I'd expect to see some time portion, even if it was 00:00:00. –  Clockwork-Muse Apr 9 '14 at 13:13

I think this is a case of times being stripped from the dates where the date range includes shifts to/from daylight savings time. If you are selecting periods that don't include daylight savings shifts, the times will be retained (e.g., from 1/1/2007 to 3/1/2007. This could possibly be avoided by changing the system time on your computer to follow a time zone (e.g., Arizona) where there are no daylight savings shifts (sounds bizarre, but it has worked for me).

To overcome this issue, import the DateTimes as characters (using "as.is") and then convert them to POSIXct. You could alternatively use "strptime" which converts to POSIXlt and allows you to specify the format. Here's an example of a SQL query where DateTimes are imported as.is (TRUE), but asociated DataValues are not (FALSE) and then the DateTime is converted to an R date format:

data <- sqlQuery(channel, paste("SELECT LocalDateTime, DataValue FROM DataValues WHERE  LocalDateTime >= '1/1/2007 0:00' AND LocalDateTime < '1/1/2008 0:00' ORDER BY LocalDateTime ASC"),as.is=c(TRUE,FALSE))

data$LocalDateTime <- as.POSIXct(totalP$LocalDateTime,tz="MST")
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