What causes re-running tests for code that didn't change?

Every CI run executes the full suite even when most code is unchanged, so time is spent re-verifying things that could not have broken.

How do I catch this when it only happens for some players?

Capture it automatically from the player's device with the full stack trace, the device and OS, the build, and a breadcrumb trail of what they did. That turns a vague complaint into a specific, reproducible issue you can fix without owning the hardware it happens on.

How to Cache Test Results to Skip Unchanged Tests

Quick answer: Cache test results keyed on the code and inputs they cover, so unchanged tests are skipped and only affected tests run.

Re-running tests for unchanged code wastes time. Caching results skips them safely. Here is how.

How to fix it

1. Key results to inputs

Hash the code and inputs each test depends on.

2. Skip unchanged tests

Reuse cached results when the inputs are unchanged.

3. Invalidate correctly

Re-run tests whose inputs changed so nothing is skipped wrongly.

Catching the ones you can't reproduce

The hardest version of this to fix is the one you can't reproduce — it only happens on a player's hardware, OS, driver, or save state, under conditions that simply aren't present on your machine. A report that says “it crashed” or “it froze” gives you nothing to act on, so the bug survives release after release while quietly costing you players.

Automatic error capture closes that gap. Each failure arrives with its full stack trace, the device and OS, the build number, and a breadcrumb trail of what the player did right before it broke, so even a failure you have never seen becomes a specific, reproducible issue. Fold identical failures into one signature ranked by how many players each hits, and your worklist sorts itself worst-first instead of arriving as a stream of vague complaints.

This is where a tool like Bugnet earns its place. Its SDK captures every error automatically with the full stack trace plus device, OS, memory, build, and game-state context, folds duplicates into one grouped issue with an occurrence count, and ties each to the build it first appeared on — so you fix the problem that hurts the most players first and confirm it is gone when its signature disappears from the next release.

Most of the time the fix is small. Seeing the failure clearly is the part that actually costs you.