This is the documentation for Cloudera Enterprise 5.8.x. Documentation for other versions is available at Cloudera Documentation.

TIMESTAMP Data Type

A data type used in CREATE TABLE and ALTER TABLE statements, representing a point in time.

Syntax:

In the column definition of a CREATE TABLE statement:

column_name TIMESTAMP

Range: Allowed date values range from 1400-01-01 to 9999-12-31; this range is different from the Hive TIMESTAMP type. Internally, the resolution of the time portion of a TIMESTAMP value is in nanoseconds.

INTERVAL expressions:

You can perform date arithmetic by adding or subtracting a specified number of time units, using the INTERVAL keyword and the + and - operators or date_add() and date_sub() functions. You can specify units as YEAR[S], MONTH[S], WEEK[S], DAY[S], HOUR[S], MINUTE[S], SECOND[S], MILLISECOND[S], MICROSECOND[S], and NANOSECOND[S]. You can only specify one time unit in each interval expression, for example INTERVAL 3 DAYS or INTERVAL 25 HOURS, but you can produce any granularity by adding together successive INTERVAL values, such as timestamp_value + INTERVAL 3 WEEKS - INTERVAL 1 DAY + INTERVAL 10 MICROSECONDS.

For example:

select now() + interval 1 day;
select date_sub(now(), interval 5 minutes);
insert into auction_details
  select auction_id, auction_start_time, auction_start_time + interval 2 days + interval 12 hours
  from new_auctions;

Time zones:

By default, Impala does not store timestamps using the local timezone, to avoid undesired results from unexpected time zone issues. Timestamps are stored and interpreted relative to UTC, both when written to or read from data files, or when converted to or from Unix time values through functions such as from_unixtime() or unix_timestamp(). To convert such a TIMESTAMP value to one that represents the date and time in a specific time zone, convert the original value with the from_utc_timestamp() function.

Because Impala does not assume that TIMESTAMP values are in any particular time zone, you must be conscious of the time zone aspects of data that you query, insert, or convert.

For consistency with Unix system calls, the TIMESTAMP returned by the now() function represents the local time in the system time zone, rather than in UTC. To store values relative to the current time in a portable way, convert any now() return values using the to_utc_timestamp() function first. For example, the following example shows that the current time in California (where Cloudera HQ is located) is shortly after 2 PM. If that value was written to a data file, and shipped off to a distant server to be analyzed alongside other data from far-flung locations, the dates and times would not match up precisely because of time zone differences. Therefore, the to_utc_timestamp() function converts it using a common reference point, the UTC time zone (descended from the old Greenwich Mean Time standard). The 'PDT' argument indicates that the original value is from the Pacific time zone with Daylight Saving Time in effect. When servers in all geographic locations run the same transformation on any local date and time values (with the appropriate time zone argument), the stored data uses a consistent representation. Impala queries can use functions such as EXTRACT(), MIN(), AVG(), and so on to do time-series analysis on those timestamps.

[localhost:21000] > select now();
+-------------------------------+
| now()                         |
+-------------------------------+
| 2015-04-09 14:07:46.580465000 |
+-------------------------------+
[localhost:21000] > select to_utc_timestamp(now(), 'PDT');
+--------------------------------+
| to_utc_timestamp(now(), 'pdt') |
+--------------------------------+
| 2015-04-09 21:08:07.664547000  |
+--------------------------------+

The converse function, from_utc_timestamp(), lets you take stored TIMESTAMP data or calculated results and convert back to local date and time for processing on the application side. The following example shows how you might represent some future date (such as the ending date and time of an auction) in UTC, and then convert back to local time when convenient for reporting or other processing. The final query in the example tests whether this arbitrary UTC date and time has passed yet, by converting it back to the local time zone and comparing it against the current date and time.

[localhost:21000] > select to_utc_timestamp(now() + interval 2 weeks, 'PDT');
+---------------------------------------------------+
| to_utc_timestamp(now() + interval 2 weeks, 'pdt') |
+---------------------------------------------------+
| 2015-04-23 21:08:34.152923000                     |
+---------------------------------------------------+
[localhost:21000] > select from_utc_timestamp('2015-04-23 21:08:34.152923000','PDT');
+------------------------------------------------------------+
| from_utc_timestamp('2015-04-23 21:08:34.152923000', 'pdt') |
+------------------------------------------------------------+
| 2015-04-23 14:08:34.152923000                              |
+------------------------------------------------------------+
[localhost:21000] > select from_utc_timestamp('2015-04-23 21:08:34.152923000','PDT') < now();
+--------------------------------------------------------------------+
| from_utc_timestamp('2015-04-23 21:08:34.152923000', 'pdt') < now() |
+--------------------------------------------------------------------+
| false                                                              |
+--------------------------------------------------------------------+

If you have data files written by Hive, those TIMESTAMP values represent the local timezone of the host where the data was written, potentially leading to inconsistent results when processed by Impala. To avoid compatibility problems or having to code workarounds, you can specify one or both of these impalad startup flags: -use_local_tz_for_unix_timestamp_conversions=true -convert_legacy_hive_parquet_utc_timestamps=true. Although -convert_legacy_hive_parquet_utc_timestamps is turned off by default to avoid performance overhead, Cloudera recommends turning it on when processing TIMESTAMP columns in Parquet files written by Hive, to avoid unexpected behavior.

The -use_local_tz_for_unix_timestamp_conversions setting affects conversions from TIMESTAMP to BIGINT, or from BIGINT to TIMESTAMP. By default, Impala treats all TIMESTAMP values as UTC, to simplify analysis of time-series data from different geographic regions. When you enable the -use_local_tz_for_unix_timestamp_conversions setting, these operations treat the input values as if they are in the local tie zone of the host doing the processing. See Impala Date and Time Functions for the list of functions affected by the -use_local_tz_for_unix_timestamp_conversions setting.

The following sequence of examples shows how the interpretation of TIMESTAMP values in Parquet tables is affected by the setting of the -convert_legacy_hive_parquet_utc_timestamps setting.

Regardless of the -convert_legacy_hive_parquet_utc_timestamps setting, TIMESTAMP columns in text tables can be written and read interchangeably by Impala and Hive:

Impala DDL and queries for text table:

[localhost:21000] > create table t1 (x timestamp);
[localhost:21000] > insert into t1 values (now()), (now() + interval 1 day);
[localhost:21000] > select x from t1;
+-------------------------------+
| x                             |
+-------------------------------+
| 2015-04-07 15:43:02.892403000 |
| 2015-04-08 15:43:02.892403000 |
+-------------------------------+
[localhost:21000] > select to_utc_timestamp(x, 'PDT') from t1;
+-------------------------------+
| to_utc_timestamp(x, 'pdt')    |
+-------------------------------+
| 2015-04-07 22:43:02.892403000 |
| 2015-04-08 22:43:02.892403000 |
+-------------------------------+

Hive query for text table:

hive> select * from t1;
OK
2015-04-07 15:43:02.892403
2015-04-08 15:43:02.892403
Time taken: 1.245 seconds, Fetched: 2 row(s)

When the table uses Parquet format, Impala expects any time zone adjustment to be applied prior to writing, while TIMESTAMP values written by Hive are adjusted to be in the UTC time zone. When Hive queries Parquet data files that it wrote, it adjusts the TIMESTAMP values back to the local time zone, while Impala does no conversion. Hive does no time zone conversion when it queries Impala-written Parquet files.

Impala DDL and queries for Parquet table:

[localhost:21000] > create table p1 stored as parquet as select x from t1;
+-------------------+
| summary           |
+-------------------+
| Inserted 2 row(s) |
+-------------------+
[localhost:21000] > select x from p1;
+-------------------------------+
| x                             |
+-------------------------------+
| 2015-04-07 15:43:02.892403000 |
| 2015-04-08 15:43:02.892403000 |
+-------------------------------+

Hive DDL and queries for Parquet table:

hive> create table h1 (x timestamp) stored as parquet;
OK
hive> insert into h1 select * from p1;
...
OK
Time taken: 35.573 seconds
hive> select x from p1;
OK
2015-04-07 15:43:02.892403
2015-04-08 15:43:02.892403
Time taken: 0.324 seconds, Fetched: 2 row(s)
hive> select x from h1;
OK
2015-04-07 15:43:02.892403
2015-04-08 15:43:02.892403
Time taken: 0.197 seconds, Fetched: 2 row(s)

The discrepancy arises when Impala queries the Hive-created Parquet table. The underlying values in the TIMESTAMP column are different from the ones written by Impala, even though they were copied from one table to another by an INSERT ... SELECT statement in Hive. Hive did an implicit conversion from the local time zone to UTC as it wrote the values to Parquet.

Impala query for TIMESTAMP values from Impala-written and Hive-written data:

[localhost:21000] > select * from p1;
+-------------------------------+
| x                             |
+-------------------------------+
| 2015-04-07 15:43:02.892403000 |
| 2015-04-08 15:43:02.892403000 |
+-------------------------------+
Fetched 2 row(s) in 0.29s
[localhost:21000] > select * from h1;
+-------------------------------+
| x                             |
+-------------------------------+
| 2015-04-07 22:43:02.892403000 |
| 2015-04-08 22:43:02.892403000 |
+-------------------------------+
Fetched 2 row(s) in 0.41s

Underlying integer values for Impala-written and Hive-written data:

[localhost:21000] > select cast(x as bigint) from p1;
+-------------------+
| cast(x as bigint) |
+-------------------+
| 1428421382        |
| 1428507782        |
+-------------------+
Fetched 2 row(s) in 0.38s
[localhost:21000] > select cast(x as bigint) from h1;
+-------------------+
| cast(x as bigint) |
+-------------------+
| 1428446582        |
| 1428532982        |
+-------------------+
Fetched 2 row(s) in 0.20s

When the -convert_legacy_hive_parquet_utc_timestamps setting is enabled, Impala recognizes the Parquet data files written by Hive, and applies the same UTC-to-local-timezone conversion logic during the query as Hive uses, making the contents of the Impala-written P1 table and the Hive-written H1 table appear identical, whether represented as TIMESTAMP values or the underlying BIGINT integers:

[localhost:21000] > select x from p1;
+-------------------------------+
| x                             |
+-------------------------------+
| 2015-04-07 15:43:02.892403000 |
| 2015-04-08 15:43:02.892403000 |
+-------------------------------+
Fetched 2 row(s) in 0.37s
[localhost:21000] > select x from h1;
+-------------------------------+
| x                             |
+-------------------------------+
| 2015-04-07 15:43:02.892403000 |
| 2015-04-08 15:43:02.892403000 |
+-------------------------------+
Fetched 2 row(s) in 0.19s
[localhost:21000] > select cast(x as bigint) from p1;
+-------------------+
| cast(x as bigint) |
+-------------------+
| 1428446582        |
| 1428532982        |
+-------------------+
Fetched 2 row(s) in 0.29s
[localhost:21000] > select cast(x as bigint) from h1;
+-------------------+
| cast(x as bigint) |
+-------------------+
| 1428446582        |
| 1428532982        |
+-------------------+
Fetched 2 row(s) in 0.22s

Conversions:

Impala automatically converts STRING literals of the correct format into TIMESTAMP values. Timestamp values are accepted in the format "yyyy-MM-dd HH:mm:ss.SSSSSS", and can consist of just the date, or just the time, with or without the fractional second portion. For example, you can specify TIMESTAMP values such as '1966-07-30', '08:30:00', or '1985-09-25 17:45:30.005'. Casting an integer or floating-point value N to TIMESTAMP produces a value that is N seconds past the start of the epoch date (January 1, 1970). By default, the result value represents a date and time in the UTC time zone. If the setting -use_local_tz_for_unix_timestamp_conversions=true is in effect, the resulting TIMESTAMP represents a date and time in the local time zone.

In Impala 1.3 and higher, the FROM_UNIXTIME() and UNIX_TIMESTAMP() functions allow a wider range of format strings, with more flexibility in element order, repetition of letter placeholders, and separator characters. In CDH 5.5 / Impala 2.3 and higher, the UNIX_TIMESTAMP() function also allows a numeric timezone offset to be specified as part of the input string. See Impala Date and Time Functions for details.

In Impala 2.2.0 and higher, built-in functions that accept or return integers representing TIMESTAMP values use the BIGINT type for parameters and return values, rather than INT. This change lets the date and time functions avoid an overflow error that would otherwise occur on January 19th, 2038 (known as the "Year 2038 problem" or "Y2K38 problem"). This change affects the from_unixtime() and unix_timestamp() functions. You might need to change application code that interacts with these functions, change the types of columns that store the return values, or add CAST() calls to SQL statements that call these functions.

Partitioning:

Although you cannot use a TIMESTAMP column as a partition key, you can extract the individual years, months, days, hours, and so on and partition based on those columns. Because the partition key column values are represented in HDFS directory names, rather than as fields in the data files themselves, you can also keep the original TIMESTAMP values if desired, without duplicating data or wasting storage space. See Partition Key Columns for more details on partitioning with date and time values.

[localhost:21000] > create table timeline (event string) partitioned by (happened timestamp);
ERROR: AnalysisException: Type 'TIMESTAMP' is not supported as partition-column type in column: happened

Examples:

select cast('1966-07-30' as timestamp);
select cast('1985-09-25 17:45:30.005' as timestamp);
select cast('08:30:00' as timestamp);
select hour('1970-01-01 15:30:00');         -- Succeeds, returns 15.
select hour('1970-01-01 15:30');            -- Returns NULL because seconds field required.
select hour('1970-01-01 27:30:00');         -- Returns NULL because hour value out of range.
select dayofweek('2004-06-13');             -- Returns 1, representing Sunday.
select dayname('2004-06-13');               -- Returns 'Sunday'.
select date_add('2004-06-13', 365);         -- Returns 2005-06-13 with zeros for hh:mm:ss fields.
select day('2004-06-13');                   -- Returns 13.
select datediff('1989-12-31','1984-09-01'); -- How many days between these 2 dates?
select now();                               -- Returns current date and time in local timezone.

create table dates_and_times (t timestamp);
insert into dates_and_times values
  ('1966-07-30'), ('1985-09-25 17:45:30.005'), ('08:30:00'), (now());

NULL considerations: Casting any unrecognized STRING value to this type produces a NULL value.

Partitioning: Because this type potentially has so many distinct values, it is often not a sensible choice for a partition key column. For example, events 1 millisecond apart would be stored in different partitions. Consider using the TRUNC() function to condense the number of distinct values, and partition on a new column with the truncated values.

HBase considerations: This data type is fully compatible with HBase tables.

Parquet considerations: This type is fully compatible with Parquet tables.

Text table considerations: Values of this type are potentially larger in text tables than in tables using Parquet or other binary formats.

Internal details: Represented in memory as a 16-byte value.

Added in: Available in all versions of Impala.

Column statistics considerations: Because this type has a fixed size, the maximum and average size fields are always filled in for column statistics, even before you run the COMPUTE STATS statement.

Sqoop considerations:

If you use Sqoop to convert RDBMS data to Parquet, be careful with interpreting any resulting values from DATE, DATETIME, or TIMESTAMP columns. The underlying values are represented as the Parquet INT64 type, which is represented as BIGINT in the Impala table. The Parquet values represent the time in milliseconds, while Impala interprets BIGINT as the time in seconds. Therefore, if you have a BIGINT column in a Parquet table that was imported this way from Sqoop, divide the values by 1000 when interpreting as the TIMESTAMP type.

Restrictions:

If you cast a STRING with an unrecognized format to a TIMESTAMP, the result is NULL rather than an error. Make sure to test your data pipeline to be sure any textual date and time values are in a format that Impala TIMESTAMP can recognize.

Currently, Avro tables cannot contain TIMESTAMP columns. If you need to store date and time values in Avro tables, as a workaround you can use a STRING representation of the values, convert the values to BIGINT with the UNIX_TIMESTAMP() function, or create separate numeric columns for individual date and time fields using the EXTRACT() function.

  • Timestamp Literals.
  • To convert to or from different date formats, or perform date arithmetic, use the date and time functions described in Impala Date and Time Functions. In particular, the from_unixtime() function requires a case-sensitive format string such as "yyyy-MM-dd HH:mm:ss.SSSS", matching one of the allowed variations of a TIMESTAMP value (date plus time, only date, only time, optional fractional seconds).
  • See SQL Differences Between Impala and Hive for details about differences in TIMESTAMP handling between Impala and Hive.
Page generated July 8, 2016.