Fix incorrect frame deletion, only noticeable when eeschema is run in stand alone mode.
After selecting a footprint using the footprint viewer, the application cannot be closed.
Reason:
the footprint viewer ctor creates an instance (not shown) of a FRAME_PCB.
Unfortunately, this pcb frame was not deleted by Eeschema, in stand alone mode,
preventing the application to be closed because a frame was still active after closing the schematic editor frame.
Now the footprint viewer ctor delete this instance after use, if it was not previously existing.
Move the dialog layout refresh from the ctor to TransferDataToWindow which
is called by event after the dialog object is constructed. This was causing
the 3D view panel to be drawn incorrectly on windows builds.
Remove unnecessary wxT() macros.
Fixes lp:1665888
https://bugs.launchpad.net/kicad/+bug/1665888
Factor out the FP_LIB_TABLE specific content from FP_TBL_MODEL into a new
LIB_TABLE_GRID class that can be used for any library table grid mix in.
Create new FP_LIB_TABLE_GRID object for the footprint library edit dialog.
Add method GetEnvVariables() to return any environment variables found in
a LIB_TABLE object.
These were backwards since internal angles are CCW due to the inverted Y
axis.
The hotkeys have NOT changed. This means 'R' is now clockwise and
'Shift+R' is anti-clockwise. This is the same as EEschema, but not the
same as Legacy mode.
- DIALOG_CHOOSE_COMPONENT has footprint select widget
- FOOTPRINT_SELECT_WIDGET
- FOOTPRINT_CHOICE widget (customized wxComboCtrl)
- FOOTPRINT_FILTER class
- FOOTPRINT_INFO rework:
- FOOTPRINT_ASYNC_LOADER to load without freezing UI
- Rewrite loader threads as queue-driven thread pool
- Make FOOTPRINT_INFO available via kiway
- FP_LIB_TABLE::PrefetchLib
- Access to global fp-lib-table via kiway
- SYNC_QUEUE threadsafe queue template
- Remove KICAD_FOOTPRINT_SELECTOR build option
Removes the need of using the legacy code in polygon/PolyLine.{h,cpp},
refactoring all CPolyLine instances with SHAPE_POLY_SET instances.
The remaining legacy methods have been ported to SHAPE_POLY_SET;
mainly: Chamfer, Fillet, {,Un}Hatch.
The iteration over the polygon vertices have been simplified using the
family of ITERATOR classes.
The zone creation in DRAWING_TOOL was a complex event loop whici
simultaneously managed the event handling, construction of the preview
polygon and the creation and commiting of the zone, all in the same
scope. This has been broken into several pieces:
* POLYGON_ITEM preview item, used to preview the polygon in progress
* POLYGON_GEOM_MANAGER is a class that collects points from user input
and used them to describe a polygon's geometry, including calculation
of 45-degree constrained leader lines
* ZONE_CREATE_HELPER is a class which deals with creating zones based on
geometry from a geometry manager and parameters from the DRAWING_TOOL
* The (much simpler) event loop in DRAWING_TOOL drives the
POLYGON_GEOM_MANAGER. With a minor refactor, this loop can be reused
in future for other polygonal tools if wanted.
The polygon preview now has a translucent fill which makes it easier to
visualise the zone.
This also adds the Close Zone Outline and Delete Last Corner actions as
part of the new event loop.
Fixes: lp:1663885
* https://bugs.launchpad.net/kicad/+bug/1663885
Fixes: lp:1667885
* https://bugs.launchpad.net/kicad/+bug/1667885
This uses the two-point geometry manager to split the logic of the ruler
geometry and the preview item display. This allows the ruler to use that
manager's angle snap feature.
The motivation here is to concentrate display options in the GAL display
settings, ready for removal of legacy canvases. Instead of having the
property as a member of the DRAW_FRAME, with the GAL canvas retreiving
it from there, it is now in the GAL_DISPLAY_OPTIONS struct, and both GAL
and legacy get it from there.
The options for setting cursor shape are then moved out of the general
options dialog, and into the GAL display options widget, where they can
be used in all GAL-aware programs.
GAL cursor shape works on GAL, but not legacy, so the option is now
available on OSX (but only affects GAL, and is labelled as such).
This gives a bit more space to the GAL options in the left panel
Also tidy up some code style and unnecessary default arguments in the
GAL display planel widget.
This adds the microwave tools to GAL in Pcbnew as a new tool:
MICROWAVE_TOOL.
Some new preview items are introduced to support this:
* TWO_POINT_GEOM_MANAGER for managing construction of two-point
geometries, such as that used to construct the inductor.
* CENTRELINE_RECT_ITEM a preview item to draw ractangle with a given
aspect ratio along a line (specified using a TWO_POINT_GEOM_MANAGER)
PCB_TOOL gets a generic event loops which should be useful for more
than just microwave tools:
* doInteractiveItemPlacement() - handles event loops that wait for a
click, create an item on click and then allow moving it
around/flipping, etc.
Fixes: lp:1531323
* https://bugs.launchpad.net/kicad/+bug/1531323
This makes it possible to access the creation functions
for the microwave inductor externally, so that it can be
used from GAL.
Unlike the Gap/Stub tools, the inductor tool is more interactive, and
doesn't just return a MODULE*.
Introduces a new directory in pcbnew called 'microwave' to better
isolate generic (i.e. canvas-agnostic) functions, and a namespace MWAVE
to avoid polluting the global namespace.
This adds a richer overlay to the arc-by-three-points tool in Pcbnew,
including more guide-lines and a live display of radius and angle.
Also included is ability to go back to the previous step (if setting end
angle, you can go back to setting start point, etc) using Backspace, and
Ctrl snaps the start/end angles to 45 degree multiples.
This adds new classes
* MULTISTEP_GEOM_MANAGER: represents a generic "geometry manager" that
builds up some geometrical construction based on a sequence of points.
Used by:
* ARC_GEOM_MANAGER: handles the logical flow of constructing an
arc by centre-point, set radius, set angle. This moves the logic out
of the Pcbnew DRAWING_TOOL event loop in drawArc().
* ARC_ASSISTANT: graphical overlay to communicate current arc shape to
the user during the drawing process
Add typedef for wxCoord to wx.i to enable usage of methods like
EDA_RECT.Inflate.
Added id.h to pcbnew.i to expose window toolbar identifier names.
Added Refresh() and WindowZoom() to pcbnew_scripting_helper.
For a start, this contains the GAL display settings (AA settings and
grid styling).
In future, other modedit-specific settings could go here too.
Fixes: lp:1672150
* https://bugs.launchpad.net/kicad/+bug/1672150
The primary motivation here is to allow other GAL canvas users (eg
Modedit, and soon Gerbview) to be able to easily modify GAL canvas
options.
For now, this doesn't change the display properties dialog in
appearance, but if more GAL options are added, it might need a bit of
tweak and maybe tabs or similar, like Eeschema preferences.
- Pull out compound widget bits into FOOTPRINT_PREVIEW_WIDGET
- Move all pcbnew-specific bits *inside* pcbnew; implementation should
be private for users
- Make a few class members and inner types private
This allows to measure between features on a PCB. It uses a preview
EDA_ITEM in common, but due to the use of the IDs, it's currently
Pcbnew/Modedit only.
This also adds several "utils" for graphical functons useful when
drawing preview items on GAL canvases.
Fixes: lp:1467313
* https://bugs.launchpad.net/kicad/+bug/1467313
This simplifies the (already simple) SELECTION_AREA class. It is also
moved into KIGFX::PREVIEW and put in the common library, where it can be
reused by other GAL-aware tools (not just in Pcbnew) in future.
Reenabled VIEW_ITEMs cache. Previously, the first init was called with
GAL_TYPE_NONE, causing all layers to be set to non-cached. During the
proper init, the layers were already set to non-cached and were not
changed.
The attached patch fixes a bug where triggering InlineDrag while routing
is in progress will crash pcbnew. The problem is that the InlineDrag
event does not terminate performRouting. Once InlineDrag is finished
it will call StopRouting which deletes the m_placer. The Wait() in
performRouting will then return and it will crash as soon as it tries
to access the m_placer.