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 adds a check for contiguous board outlines to the DRC. It also
uses the calculated outline to ensure that traces are not crossing the
outlines.
Fixes: lp:1648055
* https://bugs.launchpad.net/kicad/+bug/1648055
Variable netBuffer contains all NET_INFO items, whereas max_netcode
value is determined only basing on pad nets. After a netlist update
there still might be a NETINFO_ITEM that is not assigned to any pad and
has a net code higher than calculated max_netcode. Such situation
results in a out-of-bounds access in sortNetsByNodes().
This fixes the CmpNoCase() == 0 bug on one side, and the
footprint == null bug on the other side; both of which were
previously fixed on only one side.
Fixes: lp:1795561
* https://bugs.launchpad.net/kicad/+bug/1795561
SEGZONE types were confusingly named PCB_ZONE_T. Zones in pcbnew are
now _only_ PCB_ZONE_AREA_T, so we name segzone types PCB_SEGZONE_T to be
clear.
This also removes processing of the SEGZONEs from connectivity
calculations.
... and GetMsgPanelInfo.
Step 4 in the g_UserUnit eradication effort.
Also removes a couple of conversion routines that were close
enough to extinction.
(cherry picked from commit c75da51)
The old item pointers (which aren't safe to keep around) were
removed in favour of opaque references (void*) which are then
compared against existing items when needed.
Also improves brightening by brightening the whole footprint
(ie: its pads, drawings, reference and value) rather than just
its target cross.
(cherry picked from commit 30e90b0)
It happens if the first segment of the new trace is inside a pad: the other segments are not found.
And the erased trace is not the right trace.
However this fix is more a workaround than a fix: currently the detection of the trace boundaries (BOARD::MarkTrace())
does not work very well for segments inside a pad.
Fixes: lp:1776121
https://bugs.launchpad.net/kicad/+bug/1776121
Pads count all pads/pins on the board including unconnected and NPTH.
Nodes count only the pads that can connect to a net and are therefore
routable. These were being calculated as the same number (displayed in
the info bar at the bottom of the screen)
Connectivity searches were slow for large, complex boards. This was
partly due to the need to search all lists for possible connections
between anchors.
We remove this requirement by creating an RTree based on items' bounding
boxes similar to the PNS router. Then we get both the colliding items
and search forward/backward to see if there are connections between the
anchors and the other item.
Because we use RTree, we no longer need the maintenance overhead of multiple
item lists and an anchor list in the connectivity class.
Fixes: lp:1701791
* https://bugs.launchpad.net/kicad/+bug/1701791
Fixes: lp:1769408
* https://bugs.launchpad.net/kicad/+bug/1769408
Fixes: lp:1761989
* https://bugs.launchpad.net/kicad/+bug/1761989
On large boards with high pad-count modules, searching each pad for hits
becomes expensive. We eliminate many of the pad searches by first
checking the module's bounding box before iterating over pads to look
for hits.
m_Zone is a fully deprecated list of SEG_ZONE items (similar to TRACK), used to fill copper zones in *very old* boards.
it is even unlikely there are still boards that use them.
So it should be removed one day.
When reading netlist or updating board from schematic, if the
changes leave a zone with a net with no pads then change the
zone's net to the new net of one of it's connections.
Also improves update-board-from-schematic's dry run reporting
to include zone nets and single-pad nets.
Fixes: lp:1609401
* https://bugs.launchpad.net/kicad/+bug/1609401
The previous algorithm stopped whenever it entered a pad, which
sometimes leaves small track segments inside the pad. This one
keeps going as long as each segment gets us closer to the center
of the pad.
Fixes: lp:1662398
* https://bugs.launchpad.net/kicad/+bug/1662398
Replace all instances of "component" and "part" with "symbol" when
referring to schematic and library symbols.
Replace all instances of "component" with "footprint" when referring to
board and library footprints.
Minor dialog layout fixes to some of the dialogs impacted by the UI
string changes.
- renamed connectivity.[h|cpp] to connectivity_data [.h|.cpp] so that the file name matches the main class name.
- GetNetItems() now returns a vector instead of a list
- fixed netcode propagation bug
- factored out EDIT_TOOL::m_offset, now selection offset is stored in SELECTION class
- added VECTOR2I-based Move/Flip/Rotate methods in BOARD_ITEM
Now the heirarchical sheet selection feature includes tracks that belong
to a net spanning multiple sheets, but only by doing a logical connection
from the pads of the modules. This is to be able to select connections
between components on the same sheet. For example if the sheet contains a
star power connection or something similar, then most of the sheet local
connections will now also be included.
- support for background color setting
- removed several global config settings (such as g_Drc_On)
- wrapped most of global config settings in PCB_GENERAL_SETTINGS class
- reorganized PCB general options dialog to clearly mark which options concern only the legacy canvas
- new GAL feature for legacy users: double-click (or E) to change track width available as an option.
Fixes: lp:1530543
* https://bugs.launchpad.net/kicad/+bug/1530543
Fixes: lp:1707145
* https://bugs.launchpad.net/kicad/+bug/1707145
This commit was too broad and not cognizant of the purpose of the class
UTF8.
Add MAYBE_VERIFY_UTF8() macro, which can trap non-UTF8 encoded strings in
debug builds.
Use that macro conditionally in class UTF8 to trap non-UTF8 encoded strings
being put into UTF8 instances.
As CONNECTIVITY_DATA was not updated during the process,
it contained stale pointers leading to crash. Now the connectivity
is updated as the changes occur.
Another issue was the single pad net removal algorithm
relied on sorting pads by net name. The algorithm has been rewritten
to take advantage of the new algorithm.
Fixes: lp:1700269
* https://bugs.launchpad.net/kicad/+bug/1700269
Fixes: lp:1698697
https://bugs.launchpad.net/kicad/+bug/1698697
The incorrect method ZONE_CONTAINER::AppendCorner() is also fixed:
It was expecting the corner must be added to the main outline, but this is a false expectation:
it can be added to a hole inside the zone outline.
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.
BOARD::GetBoundingBox() now directly calls BOARD::ComputeBoundingBox()
and there is a new method BOARD::GetBoardEdgesBoundingBox() used for
call sites that needed to use ComputeBoundingBox( true ) in the past.
This allows COMMON_TOOLS to implement ZoomFitScreen without knowledge
of the BOARD class.
eeschema now supports arbitrary colors for all object types, and
pcbnew does in GAL canvas. When switching from GAL to legacy canvas,
pcbnew will convert colors to the nearest legacy color.
Make all EDA_TEXT data private and rename accessors to avoid function
name collisions in derived classes.
Overload EDA_TEXT's SetTextAngle() and SetEffects() in TEXTE_PCB.
Add support for preserving Reference text position, size, orientation
during a netlist import into a BOARD, as well as the one off footprint
update dialog.
fix incorrect calculation when a small segment at the end of the track was inside a pad: it was not taken in account.
Fix also the len die values not always taken in account (references to pads at end of track not always stored)
This is a partial fix of bug 1628585.
*) 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.
* Switched hashtables.h over to std::undordered_map from boost version.
* Added new macros DECL_VEC_FOR_SWIG() and DECL_MAP_FOR_SWIG() in macros.h.
These along with future DECL_HASH_FOR_SWIG() unify the declaration to swig
and C++ so that the resultant type name is common in both languages, and
the types AGREE.
* Fixed swigging of NETINFO_ITEM and NETINFO_LIST via magic.
* Newly exposed (python wrapped) are: D_PADS, TRACKS (was TRACK_PTRS),
NETNAME_MAP, NETCODE_MAP, wxString (without constructor purposely, read
comment in wx.i), MARKERS, ZONE_CONTAINERS, NETCLASSPTR, KICAD_T types.
* std::vector<SOMETHING*> tends to end up named SOMETHINGS in C++ and python.
Having the name consistent between like types is helpful, and between
languages. std::map<> ends up as SOMETHING_MAP.
* NETINFO_LIST::m_netNames and NETINFO_LIST::m_netCodes are now std::map
instead of hashtables, because swig does not yet support std::unordered_map.
* You can now get to any netclass or net info. NETNAMES_MAP and NETCODES_MAP
are traversable basically the same as a python dictionary using a python
string (not wsString) as the key! The wxString typemap converts python
string to wxString before the lookup happens. Iteration also works.
Do not assert that the item to be duplicated can be duplicated, just don't
duplicate it. The user can trigger a Duplicate on items that aren't
duplicatable, like field texts - he'll figure out that they can't be duplicated
when they aren't, no need to deliver a scary warning and risk an abort.
TODO: Don't pick up the duplicated selection if none of the items in it were
actually duplicated, it's misleading.