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I'm looking for an elegant way to make a range of datetimes, e.g.:

def DateRange(start_time, end_time, period)
  ...
end

>> results = DateRange(DateTime.new(2013,10,10,12), DateTime.new(2013,10,10,14), :hourly)
>> puts results
2013-10-10:12:00:00
2013-10-10:13:00:00
2013-10-10:14:00:00

The step should be configurable, e.g. hourly, daily, monthly.

I'd like times to be inclusive, i.e. include end_time.

Additional requirements are:

  • Original timezone should be preserved, i.e. if it's different from the local timezone, it should still be maintained.
  • Should use proper advance methods, e.g. Rails :advance, to handle things like variable number of days in months.
  • Ideally performance will be good, but that's not a primary requirement.

Is there an elegant solution?

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I don't think that is any better than that (hopefully someone will prove me wrong). The best I can guess is encapsulate in a method with a meaningful name, or add it do DateTime class if you like to monkey patch base clases. –  fotanus Sep 30 '13 at 12:04
    
There must be a way to do it, my code need to change because it does the wrong thing. I'd like something elegant, i.e. not having to manually fiddle the dates to prevent rounding issues. –  Stefan Sep 30 '13 at 12:06
    
maybe the real problem lies in why you need this array in first place? Just an idea, look at your code and rethink it... –  fotanus Sep 30 '13 at 12:08
    
I don't need an array, but I do need a reliable way to get a range of datetimes. So the core problem still exists. I'll update the title. –  Stefan Sep 30 '13 at 12:13
    
It's not really clear what you are asking. (start_time..end_time) is a range of dates (actually they are times) already. Are you asking how to iterate over it using a configurable step? –  toro2k Oct 11 '13 at 10:35
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4 Answers

up vote 4 down vote accepted
+50

Using @CaptainPete's base, I modified it to use the ActiveSupport::DateTime#advance call. The difference comes into effect when the time intervals are non-uniform, such as `:month" and ":year"

require 'active_support/all'
class RailsDateRange < Range
  # step is similar to DateTime#advance argument
  def every(step, &block)
    c_time = self.begin.to_datetime
    finish_time = self.end.to_datetime
    foo_compare = self.exclude_end? ? :< : :<=

    arr = []
    while c_time.send( foo_compare, finish_time) do 
      arr << c_time
      c_time = c_time.advance(step)
    end

    return arr
  end
end

# Convenience method
def RailsDateRange(range)
  RailsDateRange.new(range.begin, range.end, range.exclude_end?)
end

My method also returns an Array. For comparison's sake, I altered @CaptainPete's answer to also return an array:

By hour

RailsDateRange((4.years.ago)..Time.now).every(years: 1)
=> [Tue, 13 Oct 2009 11:30:07 -0400,
 Wed, 13 Oct 2010 11:30:07 -0400,
 Thu, 13 Oct 2011 11:30:07 -0400,
 Sat, 13 Oct 2012 11:30:07 -0400,
 Sun, 13 Oct 2013 11:30:07 -0400]


DateRange((4.years.ago)..Time.now).every(1.year)
=> [2009-10-13 11:30:07 -0400,
 2010-10-13 17:30:07 -0400,
 2011-10-13 23:30:07 -0400,
 2012-10-13 05:30:07 -0400,
 2013-10-13 11:30:07 -0400]

By month

RailsDateRange((5.months.ago)..Time.now).every(months: 1)
=> [Mon, 13 May 2013 11:31:55 -0400,
 Thu, 13 Jun 2013 11:31:55 -0400,
 Sat, 13 Jul 2013 11:31:55 -0400,
 Tue, 13 Aug 2013 11:31:55 -0400,
 Fri, 13 Sep 2013 11:31:55 -0400,
 Sun, 13 Oct 2013 11:31:55 -0400]

DateRange((5.months.ago)..Time.now).every(1.month)
=> [2013-05-13 11:31:55 -0400,
 2013-06-12 11:31:55 -0400,
 2013-07-12 11:31:55 -0400,
 2013-08-11 11:31:55 -0400,
 2013-09-10 11:31:55 -0400,
 2013-10-10 11:31:55 -0400]

By year

RailsDateRange((4.years.ago)..Time.now).every(years: 1)

=> [Tue, 13 Oct 2009 11:30:07 -0400,
 Wed, 13 Oct 2010 11:30:07 -0400,
 Thu, 13 Oct 2011 11:30:07 -0400,
 Sat, 13 Oct 2012 11:30:07 -0400,
 Sun, 13 Oct 2013 11:30:07 -0400]

DateRange((4.years.ago)..Time.now).every(1.year)

=> [2009-10-13 11:30:07 -0400,
 2010-10-13 17:30:07 -0400,
 2011-10-13 23:30:07 -0400,
 2012-10-13 05:30:07 -0400,
 2013-10-13 11:30:07 -0400]
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Add duration support to Range#step

require 'active_support/core_ext'
require 'active_support/core_ext/module/aliasing'

class Range
  def step_with_duration(step_size = 1, &block)
    return to_enum(:step, step_size) unless block_given?

    # Defer to Range implementation for steps other than 1.hour etc
    return step_without_duration(step_size, &block) unless step_size.kind_of? ActiveSupport::Duration

    # Step components, eg { minutes: 3, seconds: 30 }
    parts = Hash[step_size.parts]

    # Interate
    time = self.begin
    while exclude_end? ? time < self.end : time <= self.end
      yield time
      time = time.advance parts
    end
  end
  alias_method_chain :step, :duration
end

This approach affords

  • Implicit support for preserving time-zone
  • Adds duration support to the already-present Range#step method (no need for a sub-class, or convenience methods on Object, though that was still fun)
  • Supports multi-part durations like 1.hour + 3.seconds in step_size

This adds support for our duration to Range using the existing API. It allows you to use a regular range in the style that we expect to simply "just work".

# Now the question's invocation becomes even
# simpler and more flexible

step = 2.months + 4.days + 22.3.seconds
( Time.now .. 7.months.from_now ).step(step) do |time|
  puts "It's #{time} (#{time.to_f})"
end

# It's 2013-10-17 13:25:07 +1100 (1381976707.275407)
# It's 2013-12-21 13:25:29 +1100 (1387592729.575407)
# It's 2014-02-25 13:25:51 +1100 (1393295151.8754072)
# It's 2014-04-29 13:26:14 +1000 (1398741974.1754072)

The previous approach

...was to add an #every using a DateRange < Range class + DateRange "constructor" on Object, then convert the times to integers internally, stepping through them in step seconds. This didn't work for time zones originally. Support for time zones was added but then another issue was found with the fact some step durations are dynamic (eg 1.month).

Reading Rubinius' Range implementation it became clear how someone might add support for ActiveSupport::Duration; so the approach was rewritten. Much thanks to Dan Nguyen for the #advance tip and debugging around this, and to Rubinius' implementation of Range#step for being beautifully written :D

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This turns out not to work because it doesn't respect timezones, if the original timezone is not the same as the local timezone, the result is in the local timezone. –  Stefan Oct 9 '13 at 10:24
    
@Stefan Well spotted. Just edited in timezone support using utc_offset from the range's begin property. –  CaptainPete Oct 9 '13 at 14:48
    
Will this handle variable number of days if the step size is block? –  Dan Nguyen Oct 13 '13 at 14:25
    
@DanNguyen don't quite know what you mean there, but it'd be easy for us to find out; can you write an example of how this might look using 'variable number of days'? We're using Range's built-in step function which creates a fixed-step enumerator. So the enum returned will always step by step days. Does that answer the question? –  CaptainPete Oct 14 '13 at 4:49
1  
Thanks Dan, very well spotted! I've updated the answer to use advance. I've re-thought the approach a bit, introducing less methods and keeping with the Range API where possible, which is everywhere it turns out. Well, thanks for the help :) –  CaptainPete Oct 17 '13 at 2:57
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You can use DateTime.parse on the start and end times to get a lock on the iterations you need to populate the array. For instance;

#Seconds
((DateTime.parse(@startdt) - DateTime.now) * 24 * 60 * 60).to_i.abs

#Minutes
((DateTime.parse(@startdt) - DateTime.now) * 24 * 60).to_i.abs

and so on. Once you have these values, you can loop through populating the array on whatever slice of time you want. I agree with @fotanus though, you probably shouldn't need to materialize an array for this, but I don't know what your goal is in doing so so I really can't say.

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No rounding errors, a Range calls the .succ method to enumerate the sequence, which is not what you want.

Not a one-liner but, a short helper function will suffice:

def datetime_sequence(start, stop, step)
  dates = [start]
  while dates.last < (stop - step)
    dates << (dates.last + step)
  end 
  return dates
end 

datetime_sequence(DateTime.now, DateTime.now + 1.day, 1.hour)

# [Mon, 30 Sep 2013 08:28:38 -0400, Mon, 30 Sep 2013 09:28:38 -0400, ...]

Note, however, this could be wildly inefficient memory-wise for large ranges.


Alternatively, you can use seconds since the epoch:

start = DateTime.now
stop  = DateTime.now + 1.day
(start.to_i..stop.to_i).step(1.hour)

# => #<Enumerator: 1380545483..1380631883:step(3600 seconds)>

You'll have a range of integers, but you can convert back to a DateTime easily:

Time.at(i).to_datetime
share|improve this answer
    
Very nice, @kwarrick. 'Not a one-liner but,..'. If you just had to have one, I think this would work: (0..1.0/0).inject([start]) {|dates,i| dates.last >= stop - step ? (return dates) : dates << dates.last+step} –  Cary Swoveland Oct 14 '13 at 20:17
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