- Source[http://github.com/travisjeffery/timecop]
- Documentation[http://johntrupiano.rubyforge.org/timecop]
A gem providing "time travel" and "time freezing" capabilities, making it dead simple to test time-dependent code. It provides a unified method to mock Time.now, Date.today, and DateTime.now in a single call.
gem install timecop
- Freeze time to a specific point.
- Travel back to a specific point in time, but allow time to continue moving forward from there.
- Scale time by a given scaling factor that will cause time to move at an accelerated pace.
- No dependencies, can be used with any ruby project
- Timecop api allows arguments to be passed into #freeze and #travel as one of the following:
- Time instance
- DateTime instance
- Date instance
- individual arguments (year, month, day, hour, minute, second)
- a single integer argument that is interpreted as an offset in seconds from Time.now
- Nested calls to Timecop#travel and Timecop#freeze are supported -- each block will maintain its interpretation of now.
- Works with regular Ruby projects, and Ruby on Rails projects
Run a time-sensitive test
joe = User.find(1)
joe.purchase_home()
assert !joe.mortgage_due?
# move ahead a month and assert that the mortgage is due
Timecop.freeze(Date.today + 30) do
assert joe.mortgage_due?
end
You can mock the time for a set of tests easily via setup/teardown methods
describe "some set of tests to mock" do
before do
Timecop.freeze(Time.local(1990))
end
after do
Timecop.return
end
it "should do blah blah blah" {}
end
Set the time for the test environment of a rails app -- this is particularly helpful if your whole application is time-sensitive. It allows you to build your test data at a single point in time, and to move in/out of that time as appropriate (within your tests)
in config/environments/test.rb
config.after_initialize do
# Set Time.now to September 1, 2008 10:05:00 AM (at this instant), but allow it to move forward
t = Time.local(2008, 9, 1, 10, 5, 0)
Timecop.travel(t)
end
freeze is used to statically mock the concept of now. As your program executes, Time.now will not change unless you make subsequent calls into the Timecop API. travel, on the other hand, computes an offset between what we currently think Time.now is (recall that we support nested traveling) and the time passed in. It uses this offset to simulate the passage of time. To demonstrate, consider the following code snippets:
new_time = Time.local(2008, 9, 1, 12, 0, 0)
Timecop.freeze(new_time)
sleep(10)
new_time == Time.now # ==> true
Timecop.return # "turn off" Timecop
Timecop.travel(new_time)
sleep(10)
new_time == Time.now # ==> false
Let's say you want to test a "live" integration wherein entire days could pass by in minutes while you're able to simulate "real" activity. For example, one such use case is being able to test reports and invoices that run in 30 day cycles in very little time, while also being able to simulate activity via subsequent calls to your application.
# seconds will now seem like hours
Timecop.scale(3600)
Time.now
# => 2012-09-20 21:23:25 -0500
# seconds later, hours have past it's gone from 9pm at night to 6am in the morning
Time.now
# => 2012-09-21 06:22:59 -0500
See #42 for more information, thanks to Ken Mayer, David Holcomb, and Pivotal Labs.
timecop is maintained by travisjeffery, and was created by jtrupiano.
Here's the most direct way to get your work merged into the project.
- Fork the project
- Clone down your fork
- Create a feature branch
- Hack away and add tests, not necessarily in that order
- Make sure everything still passes by running tests
- If necessary, rebase your commits into logical chunks without errors
- Push the branch up to your fork
- Send a pull request for your branch