NOTICE: This GitHub repo will be archived. Development and maintenance will continue at https://github.com/dbernheisel/date_time_parser. The hex.pm package will continue receiving updates and will publish from the new repo. See this issue for more details.
DateTimeParser is a tokenizer for strings that attempts to parse into a DateTime, NaiveDateTime if timezone is not determined, Date, or Time.
You're currently looking at the master branch. Check out the docs for the latest published version.
See examples automatically generated by the tests
The biggest ambiguity between datetime formats is whether it's ymd
(year month
day), mdy
(month day year), or dmy
(day month year); this is resolved by
checking if there are slashes or dashes. If slashes, then it will try dmy
first. All other cases will use the international format ymd
. Sometimes, if
the conditions are right, it can even parse dmy
with dashes if the month is a
vocal month (eg, "Jan"
).
If the string consists of only numbers, then we will try two other parsers depending on the number of digits: Epoch or Serial. Otherwise, we'll try the tokenizer.
If the string is 10-11 digits with optional precision, then we'll try to parse it as a Unix Epoch timestamp.
If the string is 1-5 digits with optional precision, then we'll try to parse it as a Serial timestamp (spreadsheet time) treating 1899-12-31 as 1. This will cause Excel-produced dates from 1900-01-01 until 1900-03-01 to be incorrect, as they really are.
digits | parser | range | notes |
---|---|---|---|
1-5 | Serial | low = 1900-01-01 , high = 2173-10-15 . Negative numbers go to 1626-03-17 |
Floats indicate time. Integers do not. |
6-9 | Tokenizer | any | This allows for "20190429" to be parsed as 2019-04-29 |
10-11 | Epoch | low = -1100-02-15 14:13:21 , high = 5138-11-16 09:46:39 |
If padded with 0s, then it can capture entire range. |
else | Tokenizer | any |
- Elixir DateTime docs
- Elixir NaiveDateTime docs
- Elixir Date docs
- Elixir Time docs
- Elixir Calendar docs
iex> DateTimeParser.parse("19 September 2018 08:15:22 AM")
{:ok, ~N[2018-09-19 08:15:22]}
iex> DateTimeParser.parse_datetime("19 September 2018 08:15:22 AM")
{:ok, ~N[2018-09-19 08:15:22]}
iex> DateTimeParser.parse_datetime("2034-01-13", assume_time: true)
{:ok, ~N[2034-01-13 00:00:00]}
iex> DateTimeParser.parse_datetime("2034-01-13", assume_time: ~T[06:00:00])
{:ok, ~N[2034-01-13 06:00:00]}
iex> DateTimeParser.parse("invalid date 10:30pm")
{:ok, ~T[22:30:00]}
iex> DateTimeParser.parse("2019-03-11T99:99:99")
{:ok, ~D[2019-03-11]}
iex> DateTimeParser.parse("2019-03-11T10:30:00pm UNK")
{:ok, ~N[2019-03-11T22:30:00]}
iex> DateTimeParser.parse("2019-03-11T22:30:00.234+00:00")
{:ok, DateTime.from_naive!(~N[2019-03-11T22:30:00.234Z], "Etc/UTC")}
# `~U[2019-03-11T22:30:00.234Z]` in Elixir 1.9+
iex> DateTimeParser.parse_date("2034-01-13")
{:ok, ~D[2034-01-13]}
iex> DateTimeParser.parse_date("01/01/2017")
{:ok, ~D[2017-01-01]}
iex> DateTimeParser.parse_datetime("1564154204")
{:ok, DateTime.from_naive!(~N[2019-07-26T15:16:44Z], "Etc/UTC")}
# `~U[2019-07-26T15:16:44Z]` in Elixir 1.9+
iex> DateTimeParser.parse_datetime("41261.6013888889")
{:ok, ~N[2012-12-18T14:26:00]}
iex> DateTimeParser.parse_date("44262")
{:ok, ~D[2021-03-07]}
# This is a serial number date, commonly found in spreadsheets, eg: `=VALUE("03/07/2021")`
iex> DateTimeParser.parse_datetime("1/1/18 3:24 PM")
{:ok, ~N[2018-01-01T15:24:00]}
iex> DateTimeParser.parse_datetime("1/1/18 3:24 PM", assume_utc: true)
{:ok, DateTime.from_naive!(~N[2018-01-01T15:24:00Z], "Etc/UTC")}
# `~U[2018-01-01T15:24:00Z]` in Elixir 1.9+
iex> DateTimeParser.parse_datetime(~s|"Mar 28, 2018 7:39:53 AM PDT"|, to_utc: true)
{:ok, DateTime.from_naive!(~N[2018-03-28T14:39:53Z], "Etc/UTC")}
iex> {:ok, datetime} = DateTimeParser.parse_datetime(~s|"Mar 1, 2018 7:39:53 AM PST"|)
iex> datetime
#DateTime<2018-03-01 07:39:53-08:00 PST PST8PDT>
iex> DateTimeParser.parse_datetime(~s|"Mar 1, 2018 7:39:53 AM PST"|, to_utc: true)
{:ok, DateTime.from_naive!(~N[2018-03-01T15:39:53Z], "Etc/UTC")}
iex> {:ok, datetime} = DateTimeParser.parse_datetime(~s|"Mar 28, 2018 7:39:53 AM PDT"|)
iex> datetime
#DateTime<2018-03-28 07:39:53-07:00 PDT PST8PDT>
iex> DateTimeParser.parse_time("10:13pm")
{:ok, ~T[22:13:00]}
iex> DateTimeParser.parse_time("10:13:34")
{:ok, ~T[10:13:34]}
iex> DateTimeParser.parse_time("18:14:21.145851000000Z")
{:ok, ~T[18:14:21.145851]}
iex> DateTimeParser.parse_datetime(nil)
{:error, "Could not parse nil"}
Add date_time_parser
to your list of dependencies in mix.exs
:
def deps do
[
{:date_time_parser, "~> 1.1.2"}
]
end
# This is the default config
alias DateTimeParser.Parser
config :date_time_parser, parsers: [Parser.Epoch, Parser.Serial, Parser.Tokenizer]
# To enable only specific parsers, include them in the :parsers key.
config :date_time_parser, parsers: [Parser.Tokenizer]
# Or in runtime, pass in the parsers in the function.
DateTimeParser.parse(mystring, parsers: [Parser.Tokenizer])
You can write your own parser!
If the built-in parsers are not applicable for your use-case, you may build your own parser to use with this library. Let's write a simple one together.
First I will check DateTimeParser.Parser
to see what behaviour my new parser
should implement. It needs two functions:
c:DateTimeParser.Parser.preflight/1
c:DateTimeParser.Parser.parse/1
These functions accept the t:DateTimeParser.Parser.t/0
struct which contains the
options supplied by the user, the string itself, and the context for which you
should return your result. For example, if the context is :time
then you should
return a %Time{}
; if :datetime
you should return either a
%NaiveDateTime{}
or a %DateTime{}
; if :date
then you should return a
%Date{}
.
Let's implement a parser that reads a special time string. Our string will
represent time, but all the digits are shifted up by 10 and must be prefixed
with the secret word: "boomshakalaka:"
. For example, the real world time of
01:10
is represented as boomshakalaka:11:20
in our toy time format. 12:30
is represented as boomshakalaka:22:40
, and 5:55
is represented as
boomshakalaka:15:65
.
defmodule MyParser do
@behaviour DateTimeParser.Parser
@secret_regex ~r|boomshakalaka:(?<time>\d{2}:\d{2})|
def preflight(%{string: string} = parser) do
case Regex.named_captures(@secret_regex, string) do
%{"time" => time} ->
{:ok, %{parser | preflight: time}}
nil ->
{:error, :not_compatible}
end
end
# ... more below
end
We'll stop here first and go through the preflight function. Our special parser
will only be attempted if the supplied string has any named captures from the
regex. That is, it must begin with bookshakalaka:
followed by 2 digits, a
colon, and 2 more digits. These digits are extracted out like 00:00
where 0 is
any digit. If 05:40
is passed in, it would not be compatible so the parser
will be skipped.
Now let's parse the time:
def parse(%{preflight: time} = parser) do
[hour, minute] = String.split(time, ":")
{hour, ""} = Integer.parse(hour)
{minute, ""} = Integer.parse(minute)
result = Time.new(hour - 10, minute - 10, 0, {0, 0})
for_context(parser.context, result)
end
defp for_context(:datetime, _result), do: :error
defp for_context(:date, _result), do: :error
defp for_context(:time, result), do: result
Notice that we need to consider context of the result. If the user asked for a
DateTime, then we need to give them one. In our toy format, it only represents
time, so therefore we must return an error when the context is a :datetime
or
:date
.
DateTimeParser.parse_time("boomshakalaka:11:11", parsers: [MyParser])
#=> {:ok, ~T[01:01:00]}
DateTimeParser.parse_date("boomshakalaka:11:11", parsers: [MyParser])
#=> {:error, "Could not parse \"boomshakalaka:11:11\""}
DateTimeParser.parse_datetime("boomshakalaka:11:11", parsers: [MyParser])
#=> {:error, "Could not parse \"boomshakalaka:11:11\""}
DateTimeParser.parse("boomshakalaka:11:11", parsers: [MyParser])
#=> {:ok, ~T[01:01:00]}
Only as a last resort. Parsing dates from strings is educated guessing at best.
Since Elixir natively supports ISO-8601 parsing (see from_iso8601/2
functions), it's highly recommended that you rely on that first and foremost.
When designing your API that involves dates and strings, be specific with your requirements and supported DateTime strings, and preferably only support ISO-8601 with no exceptions. There is no ambiguity with this format so parsing to DateTime (or Date or Time) will always be correct.
This library is helpful when you must accept ambiguous DateTime string formats and having incorrect results is acceptable. Do not use this library when the resulting (and possibly incorrect) DateTime has catastrophic and dangerous effects in your system.
tldr: rules change, so don't convert to UTC too early. The future might change the timezone conversion rules.
- If you use
parse_datetime/1
, then change toparse_datetime/2
with the second argument as a keyword list toassume_time: true
andto_utc: true
. In 0.x, it would merge~T[00:00:00]
if the time tokens could not be parsed; in 1.x, you have to opt into this behavior. Also in 0.x, a non-UTC timezone would automatically convert to UTC; in 1.x, the original timezone will be kept instead. - If you use
parse_date/1
, then change toparse_date/2
with the second argument as a keyword list toassume_date: true
. In 0.x, it would mergeDate.utc_today()
with the found date tokens; in 1.x, you need to opt into this behavior. - If you use
parse_time
, there is no breaking change but parsing has been improved. - Not a breaking change, but 1.x introduces
parse/2
that will return the best struct from the tokens. This may influence your usage.