My dev teams are using Git Flow.  A suite of check-in tests run in our Continuous Integration upon merge-to-dev.  The following is the model I think we should be using (and in some cases we are):

  1. A product programmer creates a feature branch and starts writing FeatureA.
  2. A test programmer creates a feature branch and starts writing the automated tests for FeatureA.
  3. The product programmer merges their feature branch to the dev branch.  The CI tests execute but there are no FeatureA tests yet.
  4. The test programmer gets the latest code from the dev branch and completes the test code for FeatureA.
  5. The test programmer merges their test code to the dev branch, which kicks off the tests that were just checked in.  They should pass because the test programmer ran them locally prior to merge to dev.

Acceptance Criteria.  When User Stories have Acceptance Criteria (or Acceptance Tests), they can help us plan our exploratory and automated testing.  But they can only go so far.

Four distinct Acceptance Criteria does not dictate four distinct test cases, automated or manual.

Here are three flavors of Acceptance Criteria abuse I’ve seen:

  1. Skilled testers use Acceptance Criteria as a warm-up, a means of getting better test ideas for deeper and wider coverage.  The better test ideas are what need to be captured (by the tester) in the test documentation...not the Acceptance Criteria.  The Acceptance Criteria is already captured, right?  Don’t recapture it (see below).  More importantly, try not to stop testing just because the Acceptance Criteria passes.  Now that you’ve interacted with the product-under-test, what else can you think of?
  2. The worst kind of testing is when testers copy Acceptance Criteria from User Stories, paste it into a test case management tool, and resolve each to Pass/Fail.  Why did you copy it?  If you must resolve them to Pass/Fail, why not just write “Pass” or “Fail” next to the Acceptance Criteria in the User Story?  Otherwise you have two sources.  Someone is going to revise the User Story Acceptance Criteria and your test case management tool Acceptance Criteria instance is going to get stale.
  3. You don’t need to visually indicate that each of your distinct Acceptance Criteria has Passed or Failed.  Your Agile team probably has a definition of “Done” that includes all Acceptance Criteria passing.  That being said, if the User Story is marked Done, it means all the Acceptance Criteria passed.  We will never open a completed User Story and ask, “which Acceptance Criteria passed or failed?”.

Notepad.

After experimenting with a Test Case Management application’s Session-Test tool, a colleague of mine noted the tool’s overhead (i.e., the non-test-related waiting and admin effort forced by the tool).  She said, I would rather just use Notepad to document my testing.  Exactly!

Notepad has very little overhead.  It requires no setup, no license, no logging in, few machine resources, it always works, and we don’t waste time on trivial things like making test documentation pretty (e.g., let’s make passing tests green!).

Testing is an intellectual activity, especially if you’re using automation.  The test idea is the start.  Whether it comes to us in the midst of a discussion, requirements review, or while performing a different test, we want to document it.  Otherwise we risk losing it.

Don’t overlook the power of Notepad.

Whilst searching for ways to measure the value of test automation, I read Doug Hoffman’s (I’m sure classic) Cost Benefits Analysis of Test Automation paper.

The first several pages were great.  He discussed intangibles that should be left out of an ROI calculation like an immediate reduction in perceived productivity of the test organization as the automation is first developed.  He went on to list the falsely expended benefits like the automation of existing manual tests.  Then he compared fixed automation costs like scripting tools to variable automation costs like test maintenance

Finally, Doug got to the formulas.  After careful analysis of some 30+ factors, one can start calculating automation ROI and efficiency benefits.  I rubbed my hands together and excitedly turned the page.  Then…I think I puked into my mouth a little as I saw the following:

image

image

 

In the end, I latched onto one powerful statement Doug made, almost in passing, he said:

If the benefits of automation are required, then the ROI computation is unnecessary, the investment is required…it’s an expense.

If the benefits include reducing risk by performing automated checking that would not be possible by humans (e.g., complex math, millions of comparisons, diffs, load, performance, precision), then say no more…

I don’t want to suffer through the computations.

Look at your calendar (or that of another tester).  How many meetings exist?

My new company is crazy about meetings.  Perhaps it’s the vast numbers of project managers, product owners, and separate teams along the deployment path.  It’s a wonder programmers/testers have time to finish anything.

Skipping meetings works, but is an awkward way to increase test time.  What if you could reduce meetings or at least meeting invites?  Try this.  Express the cost of attending the meeting in units of lost bugs.  If you find, on average, about 1 bug per hour of testing, you might say:

“Sure, I can attend your meeting, but it will cost us 1 lost bug.”

“This week’s meetings cost us 9 lost bugs.”

Obviously some meetings (e.g., design, user story review, bug triage) improve your bug finding, so be selective when choosing to declare the bugs lost cost.

Last week I started testing an update to a complex legacy process.  At first, my head was spinning (it still kind of is).    There are so many inputs and test scenarios...so much I don’t understand.  Where to begin?

I think doing something half-baked now is better than doing something fully-baked later.  If we start planning a rigorous test based on too many assumptions we may not understand what we’re observing. 

In my case, I started with the easiest tests I could think of:

  • Can I trigger the process-under-test? 
  • Can I tell when the process-under-test completes?
  • Can I access any internal error/success logging for said process?
  • If I repeat the process-under-test multiple times, are the results consistent?

If there were a spectrum that showed a focus between learning by not manipulating and learning by manipulating something-under-test, it might look like this:image

My tests started on the left side of the spectrum and worked right.  Now that I can get consistent results, let me see if I can manipulate it and predict its results: 

  • If I pass ValueA to InputA, do the results match my expectations?
  • If I remove ValueA from InputA, do the results return as before?
  • If I pass ValueB to InputA, do the results match my expectations?

As long as my model of the process-under-test matches my above observations, I can start expanding complexity:

  • If I pass ValueA and ValueB to InputA and ValueC and ValueD to InputB, do the results match my expectations?
  • etc.

Now I have something valuable to discuss with the programmer or product owner.  “I’ve done the above tests.  What else can you think of?”.  It’s much easier to have this conversation when you’re not completely green, when you can show some effort.  It’s easier for the programmer or product owner to help when you lead them into the zone.

That worst is over.  The rest is easy.  Now you can really start testing!

Sometimes you just have to do something to get going.  Even if it’s half-baked.

Now that my engineering team is automating beyond the unit test level, this question comes up daily.  I wish there were an easy answer.

If we make a distinction between checking and testing, no “tests” should be automated.  The question instead becomes, which “checks” should be automated?  Let’s go with that.

I’ll tell you what I think below, ranking the more important at the top:

Consider automating checks when they…

  1. can only feasibly be checked by a machine (e.g., complex math, millions of comparisons, diffs, load, performance, precision).  These are checks machines do better than humans.
  2. are important.  Do we need to execute them prior to each build, deployment, or release?  This list of checks will grow over time.  The cost of not automating is less time for the “testing” that helps us learn new information.
  3. can be automated below the presentation layer.  Automating checks at the API layer is considerably less expensive than at the UI layer.  The automated checks will provide faster feedback and be less brittle.
  4. will be repeated frequently.  A simplified decision: Is the time it takes a human to program, maintain, execute, and interpret the automated check’s results over time (e.g., 2 years), less than the time it takes a human to perform said check over the same time span (e.g., 2 years).  This overlaps with #2.
  5. check something that is at risk of failing.  Do we frequently break things when we change this module?
  6. are feasible to automate.  We can’t sufficiently automate tests for things like usability and charisma.
  7. are requested by my project team.  Have a discussion with your project team about which checks to automate.  Weigh your targets with what your team thinks should be automated.
  8. can be automated using existing frameworks and patterns.  It is much cheaper to automate the types of checks you’ve already successfully automated.
  9. are checks.  “Checks” are mundane for humans to perform.  “Tests” are not because they are different each time. 

 

What am I missing?



Copyright 2006| Blogger Templates by GeckoandFly modified and converted to Blogger Beta by Blogcrowds.
No part of the content or the blog may be reproduced without prior written permission.