Before this, the environment variables inside Python wouldn't reflect
the updates to them made after the interpreter was started in Pcbnew.
This will call into Python and set the variables when they are changed,
since Python can't synchronize itself when running in an embedded
interpreter.
Fixes https://gitlab.com/kicad/code/kicad/issues/5071
Ratsnest did not need a reserve and then iterative emplace. Instead, we
use resize(). Stroke font gets private vars initialized and kiway
variables that are only used in debug builds are properly scoped for
releases as well
The crash is inside wxDynamicLibrary::Load() when loading Eeschema,
and hard to find on Windows (gdb shows nothing).
Perhaps due to some issue with a specific string.
The fix is to switch to "C" locale with LC_COLLATE option to load the dll.
Fixes: lp:1853681
https://bugs.launchpad.net/kicad/+bug/1853681
In singletop mode, all frames show the "Quit" option in the file menu
and will quit on Ctrl-Q. When launched from the main KiCad interface,
sub-programs show the "Close" option instead and will close with Ctrl-W.
In this mode, Ctrl-Q will instruct the main program to exit.
Fixes: lp:1779938
* https://bugs.launchpad.net/kicad/+bug/1779938
This is useful when working on code paths that rely on KiWay
communications, since you can run and debug the kicad application
without needing to run an install task first.
This allows us to make the various netlist and pcb update routines
more atomic and less reliant on carefully sequenced asynchronous
messages.
This is also a prelude to adding support for footprint testing
without a netlist.
The standard DIM() macro was not typesafe as it happily deferred errors
to runtime that can be caught at compile time. Replacing it with a
generic C++11 constexpr allows for typecasting, comparison and compile
time error checking.
This prevents deadlocks when exceptions are thrown and the context
ends up not getting unlocked.
It also removes an earlier hack to try and minimize this which
didn't work anyway.
Primary change is to replace most control/window borders with
AUI pane borders. We implement our own AUI border drawing
routine which avoids the ugly one-pixel white frames around
dark canvasses.
Also increases the signal-to-noise ratio of all the pane
creation code in the various frames.
*) Extend SWIG support deeper into the BOARD class.
*) Move swig *.i files into a directory identified for SWIG, in preparation
for a parallel universe involving Phoenix's SIP.
*) Move swig files which will be common to both eeschema and pcbnew into
common/swig.
*) Sketch out a "common" python module, and plan on dovetailing that into a
libkicad_shared.{dll,so}
*) Add common/swig/ki_exceptions.i and define a macro HANDLE_EXCEPTIONS()
which is to be applied to any function which needs C++ to python
exception translation.
*) Move the test for SWIG tool into top level CMakeLists.txt file for use
in all python modules beyond pcbnew, i.e. eeschema and common.
*) Add SWIG_MODULE_pcbnew_EXTRA_DEPS which generates a better Makefile, one
which rebuilds the swig generated *.cxx file when one of its dependencies
change.
*) Re-architect the board.i file so that it can be split into multiple *.i
files easily.
*) Make some KIWAY from python progress, in preparation for Modular KiCad
phase III.
Wayne Stambaugh
david-beinder
Jeff Young
Marek Roszko
Seth Hillbrand
Jon Evans
Ian McInerney
Jonathan Haas
qu1ck
jean-pierre charras
Seth Hillbrand
Tomasz Wlostowski
Simon Richter
Dick Hollenbeck