1) An earlier 6.0 fix to apply pad clearance overrides to NPTH pads
got broken, so this replaces it.
2) Allow min/max/opt to be set by different rules.
3) Fixes a bug where board minimum enforcement over a local override
didn't get the right message text.
One test has pads of a bunch of different shapes and provokes some
errors to make sure they're caught.
The others are all past issues with the zone filler to make sure we
don't suffer any regressions. (They should all just pass with no DRC
errors.)
Now that footprint properties inherit custom fields from schematic
they are very useful.
Setting custom properties from python will also be handy in plugins
that need to somehow mark their own objects.
The nettie hack is used in DRC but we also need to use it in zone filler
to allow zones to be used with netties. We limit this to the
appropriate nets in the nettie
Fixes https://gitlab.com/kicad/code/kicad/issues/7351
This behavior provided shorter net names, but was confusing if
the user gives an explicit strong driver in the subsheet but not
one in the parent sheet.
Testcases updated for net name changes; connectivity is the same
Fixes https://gitlab.com/kicad/code/kicad/-/issues/4201
Removed the bitmap status field that saved internal states into the
file, creating rcs churn. Also removed the unneeded count variables at
the start of the file as these created merge conflicts for every board
that had multiple revisions
Fixes https://gitlab.com/kicad/code/kicad/issues/1850
The "refactor" element of qa_shape_poly_set_refactor has been
previously removed, so these tests are now just regular tests on
libcommon classes. These can therefore be moved to qa_common
and the qa_shape_poly_set_refactor unit test suit can finally be
totally removed.
It was added when refactoring the SHAPE_POLY_SET class, ande replace any use of CPolyLine class inside Kicad code.
the CPolyLine related code is now not used.
So this test nowadays makes no longer sense.
Adds BOOST tests to the qa folder included in the geometry subdirectory.
The tests check whether the refactored code is consistent with the
legacy code. They also check some of the new code, as the family of
ITERATOR classes.