Enforce the following format:
template<>
void function<TYPE>()
Rather than:
template<> void function<TYPE>()
This is the more common format in KiCad (about 8:1) and agrees
with the uncrustify.cfg rules.
Tab through the grid vertically, then horizontally, as the fields
are laid out with "related" fields (like the co-ords) vertically.
Also neaten headers.
Fixes: lp:1821887
* https://bugs.launchpad.net/kicad/+bug/1821887
Make a few things const (specficially the reference into
m_fieldStore - we should commit to not modifying that in this
function.
Also avoid a couple of needless string copies.
Also explicitly dereference the into a (non-const) reference at the outset.
For the whole if this function, comp is the same object and may not
be null (as it is used unchecked).
Introduced by 416e64a334. The code
appears to have been stepped on purpose but this would be incorrect for
most applications. There remains a good deal of cleanup in mathplot
available for the motivated dev.
Fixes: lp:1810311
* https://bugs.launchpad.net/kicad/+bug/1810311
wxPlatformInfo::Get() causes a linker error on Msys2.
Fix this by making common link wx explicitly, rather
than implicity via it's dependencies, which cause
wrong-order linker command lines on windows.
First, add automatic detection of toolkit DPI scaling options. For now, this
is, in order,
* Check the GDK_SCALE option under GTK+ (users can set this to force the scaling)
* Check the value from WX's GetContentScalingFactor(). This will start to work
correctly from WX 3.1 and GTK+ 3.10.
Then, add a user-settable override in the main prefs panel, next to the icon
scaling. This is independent of the icon scaling options.
DPI handling is performed in a standalone class, so they can be shared between
the prefs UI and the OpenGL backend easily. Also means Cairo could use the same
interface in future.
Also adjust the OpenGL grid drawing code to use the computed scale factor,
which avoids over-thick grids in scaled environments (the user can manually
thicken the grid if wanted).
Fixes: lp:1797308
* https://bugs.launchpad.net/kicad/+bug/1797308
Commit 6006703798 fixed a crash but broke the filled zones changes detection.
Filled zones were always seen as not up to date due to the fact the filled areas were cleared too early.
The up to date detection is also optimized: the old filled polygons are no longer stored.
Instead of, the MD5_HASH is calculated and stored before clearing the filled polygons.
Make the "Define as power symbol" checkbox tooltip more descriptive so
the user has a better understanding of enabling this option.
Fixes lp:1804932
https://bugs.launchpad.net/kicad/+bug/1804932
Apparently curly brace escaping in a list does not work with Doxygen's
markdown support which caused everything after the windows install path
to be removed from the output build. I just fell back to the windows
environment variable expansion character (%) and that resolved the issue.
Autosave was not working correctly, partly due to different
implementations in eeschema and pcbnew and partly due to a mistaken
refactor at some point during v5 development. This unifies the expected
autosave prefix to _autosave- for both pcbnew and eeschema. It also
unifies the expected suffix for the backup files to -bak.
Fixes: lp:1820433
* https://bugs.launchpad.net/kicad/+bug/1820433
Call base object TransferDataFromWindow() to prevent Validate() from
being called twice. Validation is handled completely under the hood
so there is no need to call Validate() directly.
Fixes lp:1820301
https://bugs.launchpad.net/kicad/+bug/1820301
A zone refill display progress bar is shown when deselecting the zone after geometry changes.
However, on Linux, there are some artifact between the progress bar refresh and the board view refresh:
the filled areas are incorrectly shown: the insulated islands remain displayed,
although they are removed from the actual filled areas list
So it is disabled until a fix is found.
When dragging, you will seldom want to snap to the original item. This
commit prevents the "size of track" snap to the original item and
replaces it with an auxilary grid origin for the snap. This means
effectively that the snap will happen to grid for the original item
unless the cursor is closer to the original item line than it is to the
grid crossing.
Fixes: lp:1820248
* https://bugs.launchpad.net/kicad/+bug/1820248
Bsymbolic prevents DSO exceptions from being handled by the calling
application. This was added when some toolchains did not fully support
the -fhidden-visibility setting. Every platform now support it, so we
can remove the hammer.
See https://bugs.launchpad.net/kicad/+bug/1322354 for original details
Previously, in many cases the selected zone was refilled on exit selection, even if the zone was not modified.
This is annoying, because the zone fill can be really time consuming, and cannot be called without a good reason.
Now the refilling is made only if a zone parameter is actually modified.
The bounding box calculation needs to be fast and is threaded in many
places in pcbnew. We cannot invalidate items (the function is const but
this wasn't caught at compile-time for some reason) when getting the
bbox. This shouldn't be an issue as the m_BezierPoints is rebuilt each
time the curve is updated, so rebuilding during the bbox seems extra.
Fixes: lp:1819984
* https://bugs.launchpad.net/kicad/+bug/1819984