Date and time types¶
This topic will describe the DATE
, TIME
, DATETIME
, TIMESTAMP
, and DURATION
types.
Precautions¶
-
While inserting time-type property values with
DATE
,TIME
, andDATETIME
, NebulaGraph transforms them to a UTC time according to the timezone specified with thetimezone_name
parameter in the configuration files.Note
To change the timezone, modify the
timezone_name
value in the configuration files of all NebulaGraph services.
date()
,time()
, anddatetime()
can convert a time-type property with a specified timezone. For example,datetime("2017-03-04 22:30:40.003000+08:00")
ordatetime("2017-03-04T22:30:40.003000[Asia/Shanghai]")
.
date()
,time()
,datetime()
, andtimestamp()
all accept empty parameters to return the current date, time, and datetime.
date()
,time()
, anddatetime()
all accept the property name to return a specific property value of itself. For example,date().month
returns the current month, whiletime("02:59:40").minute
returns the minutes of the importing time.
OpenCypher Compatibility¶
In nGQL:
- Year, month, day, hour, minute, second, millisecond, and microsecond are supported, while the nanosecond is not supported.
localdatetime()
is not supported.
- Most string time formats are not supported. The exceptions are
YYYY-MM-DDThh:mm:ss
andYYYY-MM-DD hh:mm:ss
.
- The single-digit string time format is supported. For example,
time("1:1:1")
.
DATE¶
The DATE
type is used for values with a date part but no time part. Nebula Graph retrieves and displays DATE
values in the YYYY-MM-DD
format. The supported range is -32768-01-01
to 32767-12-31
.
The properties of date()
include year
, month
, and day
.
TIME¶
The TIME
type is used for values with a time part but no date part. Nebula Graph retrieves and displays TIME
values in hh:mm:ss.msmsmsususus
format. The supported range is 00:00:00.000000
to 23:59:59.999999
.
The properties of time()
include hour
, minute
, and second
.
DATETIME¶
The DATETIME
type is used for values that contain both date and time parts. Nebula Graph retrieves and displays DATETIME
values in YYYY-MM-DDThh:mm:ss.msmsmsususus
format. The supported range is -32768-01-01T00:00:00.000000
to 32767-12-31T23:59:59.999999
.
- The properties of
datetime()
includeyear
,month
,day
,hour
,minute
, andsecond
.
datetime()
can convertTIMESTAMP
toDATETIME
. The value range ofTIMESTAMP
is0~9223372036
.
datetime()
supports anint
argument. Theint
argument specifies a timestamp.
# To get the current date and time.
nebula> RETURN datetime();
+----------------------------+
| datetime() |
+----------------------------+
| 2022-08-29T06:37:08.933000 |
+----------------------------+
# To get the current hour.
nebula> RETURN datetime().hour;
+-----------------+
| datetime().hour |
+-----------------+
| 6 |
+-----------------+
# To get date time from a given timestamp.
nebula> RETURN datetime(timestamp(1625469277));
+---------------------------------+
| datetime(timestamp(1625469277)) |
+---------------------------------+
| 2021-07-05T07:14:37.000000 |
+---------------------------------+
nebula> RETURN datetime(1625469277);
+----------------------------+
| datetime(1625469277) |
+----------------------------+
| 2021-07-05T07:14:37.000000 |
+----------------------------+
TIMESTAMP¶
The TIMESTAMP
data type is used for values that contain both date and time parts. It has a range of 1970-01-01T00:00:01
UTC to 2262-04-11T23:47:16
UTC.
TIMESTAMP
has the following features:
- Stored and displayed in the form of a timestamp, such as
1615974839
, which means2021-03-17T17:53:59
.
- Supported
TIMESTAMP
querying methods: timestamp andtimestamp()
function.
- Supported
TIMESTAMP
inserting methods: timestamp,timestamp()
function, andnow()
function.
timestamp()
function accepts empty arguments to get the current timestamp. It can pass an integer arguments to identify the integer as a timestamp and the range of passed integer is:0~9223372036
。
timestamp()
function can convertDATETIME
toTIMESTAMP
, and the data type ofDATETIME
should be astring
.
- The underlying storage data type is int64.
# To get the current timestamp.
nebula> RETURN timestamp();
+-------------+
| timestamp() |
+-------------+
| 1625469277 |
+-------------+
# To get a timestamp from given date and time.
nebula> RETURN timestamp("2022-01-05T06:18:43");
+----------------------------------+
| timestamp("2022-01-05T06:18:43") |
+----------------------------------+
| 1641363523 |
+----------------------------------+
# To get a timestamp using datetime().
nebula> RETURN timestamp(datetime("2022-08-29T07:53:10.939000"));
+---------------------------------------------------+
| timestamp(datetime("2022-08-29T07:53:10.939000")) |
+---------------------------------------------------+
| 1661759590 |
+---------------------------------------------------+
Note
The date and time format string passed into timestamp()
cannot include any millisecond and microsecond, but the date and time format string passed into timestamp(datetime())
can include a millisecond and a microsecond.
DURATION¶
The DURATION
data type is used to indicate a period of time. Map data that are freely combined by years
, months
, days
, hours
, minutes
, and seconds
indicates the DURATION
.
DURATION
has the following features:
- Creating indexes for
DURATION
is not supported.
DURATION
can be used to calculate the specified time.
Examples¶
-
Create a tag named
date1
with three properties:DATE
,TIME
, andDATETIME
.nebula> CREATE TAG IF NOT EXISTS date1(p1 date, p2 time, p3 datetime);
-
Insert a vertex named
test1
.nebula> INSERT VERTEX date1(p1, p2, p3) VALUES "test1":(date("2021-03-17"), time("17:53:59"), datetime("2017-03-04T22:30:40.003000[Asia/Shanghai]"));
-
Query whether the value of property
p1
on thetest1
tag is2021-03-17
.nebula> MATCH (v:date1) RETURN v.date1.p1 == date("2021-03-17"); +----------------------------------+ | (v.date1.p1==date("2021-03-17")) | +----------------------------------+ | true | +----------------------------------+
-
Return the content of the property
p1
ontest1
.nebula> CREATE TAG INDEX IF NOT EXISTS date1_index ON date1(p1); nebula> REBUILD TAG INDEX date1_index; nebula> MATCH (v:date1) RETURN v.date1.p1; +------------------+ | v.date1.p1.month | +------------------+ | 3 | +------------------+
-
Search for vertices with
p3
property values less than2023-01-01T00:00:00.000000
, and return thep3
values.nebula> MATCH (v:date1) \ WHERE v.date1.p3 < datetime("2023-01-01T00:00:00.000000") \ RETURN v.date1.p3; +----------------------------+ | v.date1.p3 | +----------------------------+ | 2017-03-04T14:30:40.003000 | +----------------------------+
-
Create a tag named
school
with the property ofTIMESTAMP
.nebula> CREATE TAG IF NOT EXISTS school(name string , found_time timestamp);
-
Insert a vertex named
DUT
with a found-time timestamp of"1988-03-01T08:00:00"
.# Insert as a timestamp. The corresponding timestamp of 1988-03-01T08:00:00 is 573177600, or 573206400 UTC. nebula> INSERT VERTEX school(name, found_time) VALUES "DUT":("DUT", 573206400); # Insert in the form of date and time. nebula> INSERT VERTEX school(name, found_time) VALUES "DUT":("DUT", timestamp("1988-03-01T08:00:00"));
-
Insert a vertex named
dut
and store time withnow()
ortimestamp()
functions.# Use now() function to store time nebula> INSERT VERTEX school(name, found_time) VALUES "dut":("dut", now()); # Use timestamp() function to store time nebula> INSERT VERTEX school(name, found_time) VALUES "dut":("dut", timestamp());
You can also use WITH
statement to set a specific date and time, or to perform calculations. For example:
nebula> WITH time({hour: 12, minute: 31, second: 14, millisecond:111, microsecond: 222}) AS d RETURN d;
+-----------------+
| d |
+-----------------+
| 12:31:14.111222 |
+-----------------+
nebula> WITH date({year: 1984, month: 10, day: 11}) AS x RETURN x + 1;
+------------+
| (x+1) |
+------------+
| 1984-10-12 |
+------------+
nebula> WITH date('1984-10-11') as x, duration({years: 12, days: 14, hours: 99, minutes: 12}) as d \
RETURN x + d AS sum, x - d AS diff;
+------------+------------+
| sum | diff |
+------------+------------+
| 1996-10-29 | 1972-09-23 |
+------------+------------+