This introduces layer handling to a lot of the geometry routines.
Many of them don't do much with it now, but it does help multi-layer
zones and will help when padstacks are implemented.
Various architecture upgrades to support this.
Creating a BOARD now requires a valid PROJECT, which caused
some (mostly transparent) changes to the Python API internals.
ADDED: Project local settings file
CHANGED: Board design settings are no longer stored in PCB file
CHANGED: Net classes are no longer stored in PCB file
CHANGED: Importing board settings now reads boards, not just projects
Fixes https://gitlab.com/kicad/code/kicad/-/issues/2578
Fixes https://gitlab.com/kicad/code/kicad/-/issues/4070
Replace SEVERITY_ERROR by RPT_SEVERITY_ERROR to avoid collision with a system definition.
Replace other SEVERITY_XXX by RPT_SEVERITY_XX for consistency.
Fix compil warnings and some other compil issues.
This is the first step to allowing non-segments in the line chain.
External routines cannot be allowed to change the line chain without
going through the internal routines. To accomplish this, we remove the
Vertex() and Point() access routines and only leave the const versions.
Transformations are given for both points as well as the chain itself.
This means that utility programs no longer have to be manually
added to the COMBINED_UTILITY, they self-register their
information at static init time. This is basically the same concept
as the Boost test registration.
All utilities need to do now is register their UTILITY_PROGRAM info
struct with the UTILITY_REGISTRY::Register method. No headers required.
SCOPED_TIMER is a QA-only simpler version of PROF_COUNTER.
Extend PROF_COUNTER to allow access to the std::chrono::duration
for more flexibility.
Wrap PROF_COUNTER in SCOPED_PROF_COUNTER for RAII duration
output (for the same effect as SCOPED_TIMER).
This removes the remaining hard-coded segments counts and replaces them
with the relative error calculation where the segments per arc is
determined by the maximum error we allow (smaller arcs = fewer segments)
Move into own include directory for clarity. Also allows qa_utils
to use its own private headers in qa/qa_utils without exposing them
through the target_include_directories directive.
Several pcbnew_tools utilities read a file from the command line.
Instead of replicating this code, centralise the code in
qa_pcbnew_utils, which allows simpler reuse.
THe utilities are:
* polygon_triangulation
* polygon_generator
* drc_tool
pcb_parser keeps its own function, as that is the focus of the tool,
and its likely to have its own instrumention.
This also adds the ability to read from stdin for the above tools,
which means fuzz testers could theoretically work with them, and it
also can make life easier if you can pipe a board to the executable
directly.
This program has been disabled for some time, but it's not
broken (even if the CMake was!).
Merging into the pcbnew_tools QA program reduces the CMake burden
and puts this tool in the same place as the others.
This means all the current Pcbnew utilities are all in a single
executable.
The tool is now run by:
$ qa/pcbnew_tools/qa_pcbnew_tools pcb_parser <same arguments as before>
Add a tool that allows a user to run DRC functions
on a given KiCad PCB file.
The first available functions are the courtyard functions.
Also move most of the utility program logic into qa_util for
better reusability.