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.
* An assumption was made that wxDynamicLibrary.Load() would always result in
a wxLogSystemError on failure which was not always true. The code now throws
an exception which is caught by KiCad and an error message is displayed. In
the case where the wxLogSystemError is shown, there will be an annoying two
error messages but that is better than a crash.
- When the Kicad manager is iconized, all other child frames are iconized (normal wxWidgets behavior)
- For viewer frames in modal mode, there is a more annoying issue: they have the wxFLOAT_ON_PARENT frame style on unix, and wxSTAY_ON_TOP on Windows.
wxFLOAT_ON_PARENT frame style is incorrect (although on most WM it works) because the parent frame (Kicad manager Frame) is not the caller. It is usually a main editor frame.
It does not work on Windows (wx STAY_ON_TOP is used).
* Now each editor frame has a null parent.
Therefore iconizing the Kicad manager frame does not iconize other frames.
* Viewer frames have null parent in normal mode and the caller parent in modal mode (therefore wxFLOAT_ON_PARENT frame style is always and correctly used)
* References to opened/closed main frames are no more managed by the (complicated) kicad code. Instead of, a non critical and more easy to understand code just uses FindWindowByName to know if a main window exists or not.
These changes do not fix all issues about Kicad frames brought to the foreground or the background, but it fixes a few issues, and AFAIK do not add other issues.
* Fix creation of single app bundle with respect to scripting support.
* Cleanup scripting search paths for OSX.
* Fix some small CMake bugs from previous OSX build change.
* Optimize bundle file structure to be consistent with Apple specs.
* Add helper script for compiling wxWidgets and wxPython
* Update OSX build instructions.
*) Eeschema can now show the footprint editor.
*) Eeschema can now invoke the footprint picker from the library part field editor.
*) KIWAY_PLAYER::ShowModal() takes aResultantFocusWindow that tells what window
to give the focus to. Required since frames are often near the top of the
hierarchy and they are invoked by a peer, not a parent.
*) Rework the set language support, simplify it by using KIWAY. Now any major
frame with a "change language" menu can change the language for all KIWAY_PLAYERs
in the whole KIWAY. Multiple KIWAYs are not supported yet.
*) Simplify "modal wxFrame" support, and add that support exclusively to
KIWAY_PLAYER where it is inherited by all derivatives. The function
KIWAY_PLAYER::ShowModal() is in the vtable and so is cross module capable.
*) Remove the requirements and assumptions that the wxFrame hierarchy always
had PCB_EDIT_FRAME and SCH_EDIT_FRAME as immediate parents of their viewers
and editors. This is no longer the case, nor required.
*) Use KIWAY::Player() everywhere to make KIWAY_PLAYERs, this registers the
KIWAY_PLAYER within the KIWAY and makes it very easy to find an open frame
quickly. It also gives control to the KIWAY as to frame hierarchical
relationships.
*) Change single_top to use the KIWAY for loading a KIFACE and instantiating
the single KIWAY_PLAYER, see bullet immediately above.
*) Add KIWAY::OnKiwayEnd() and call it from PGM_BASE at program termination, this
gives the KIFACEs a chance to save their final configuration dope to disk.
*) Add dedicated FRAME_T's for the modal frames, so m_Ident can be tested and
these modal frames are distinctly different than their non-modal equivalents.
KIWAY_PLAYER::IsModal() is !not! a valid test during the wxFrame's constructor,
so this is another important reason for having a dedicated FRAME_T for each
modal wxFrame.
On balance, more lines were deleted than were added to achieve all this.
*) void KIWAY::ExpressMail( FRAME_T aDestination, MAIL_T aCommand, const std::string& aPayload, wxWindow* aSource=NULL );
*) virtual void KiwayMailIn( KIWAY_EXPRESS& aEvent );
*) enum MAIL_T expansion into the brave new world if cross KIWAY_PLAYER communications.
Let the KIWAY_PLAYING begin.....
through well conceived mail from one KIWAY_PLAYER to another.
Get thinking now. Add a new MAIL_T value, then send ExpressMail(),
and receive it in KiwayMailIn(), it's that easy.
Eeschema, Pcbnew, and Cvpcb all run under the same process now,
FOR THE VERY FIRST TIME!
*) Added KIWAY::PlayerCreate(), PlayerClose(), and PlayersClose().
*) Factored FRAME_T into <frame_type.h> from ID_DRAWFRAME_TYPE.
*) Found that the following command line is helpful for collecting all the *.kiface
files into the <build>/kicad/ directory so that kicad can find them.
$ cp `find . -name '*.kiface'` kicad/
Maybe somebody will want to rework how the CMake files are organized so all
the binaries can go into the same place. See python-a-mingw-us.
*) This might fix the problem on the Mac where child process windows were not
coming to the front. See ->Raise() in kicad/mainframe.cpp.
*) You can set USE_KIFACE to 0 in kicad/mainframe.cpp to chain load child exes
instead of using the KIFACE modules directly, i.e. revert.
if it is running under single_top.cpp or under a project manager.
*) Test Kiface().IsSingle() when adding menus, some operations are not permitted
when running under a project manager and the KIWAY_PLAYER is pegged to a
specific project.
*) Implemented KIWAY::KiFACE() so it loads *.kiface files. They still have to be
in the same directory as the main *.exe launcher, so this presents some difficulty
when the binaries are not yet installed but rather the *.kiface files are still
in their original build directories. For today, I simply copied _pcbnew.kiface
to build/kicad/.
*) Add a test case to kicad/mainframe.cpp just to get an early peek at loading
_pcbnew.kiface under the C++ project manager. Got that working for one
specific invocation just for proof of concept. Surprise, it works.