It sounds like PySide2 will not be moving to Python 3.11, so we're stuck
on 3.10 without this. Upgrading to a newer Qt also fixes some high DPI
bugs (the file browser dialog for save/load is no longer tiny on 4k).
https://github.com/pyinstaller/pyinstaller/issues/5414 previously
blocked this, but the bug appears to be fixed now.
A serverconfig.env (or just environment variables) can be set to
override the default bind address/port for the backend. This is passed
to the front end as a query parameter.
A possible explanation for the infrequent CTDs we've been seeing since
adding fast forward is that QWebChannel doesn't keep a reference to the
python objects that it passes to js, so if the object is GC'd before the
front end is done with it, it crashes.
We don't really like QWebChannel anyway, so this begins replacing that
with FastAPI.
This appears to be incompatible with pyinstaller. I get the following
when trying to run the executable generated with pyside6:
```
Traceback (most recent call last):
File "qt_ui\main.py", line 29, in <module>
File "PyInstaller\loader\pyimod03_importers.py", line 476, in exec_module
File "qt_ui\windows\QLiberationWindow.py", line 28, in <module>
File "PyInstaller\loader\pyimod03_importers.py", line 476, in exec_module
File "qt_ui\widgets\map\QLiberationMap.py", line 11, in <module>
ImportError: could not import module 'PySide6.QtPrintSupport'
```
We want the scud to not be culled, but we should still cull things
nearby. Rather than making the scud the center of a 2.5km unculled zone,
just exclude missile objectives from culling.
The routes do not need be be recreated each time we create a
`FrontLine`. The front lines follow the convoy routes, which are static.
Add the convoy route data to the `ControlPoint` the way we do for
shipping lanes and have `FrontLine` load the data from there.
A was intended to be the blue point and B was intended to be the red
point. Make this a part of the name so that's clear, and clean up
related code to keep that reliable.
The simple form of this works, but without the multi-mode routing it'll
only get used when the final destination is a port with a link to a port
with a factory.
These also aren't targetable or simulated yet.
https://github.com/Khopa/dcs_liberation/issues/826
This gives a clean break between the transfer request and the type of
transport allocated to make way for transports that need to switch
types (to support driving to a port, then getting on a ship, to a train,
then back on the road, etc).
https://github.com/Khopa/dcs_liberation/issues/823
Some SAMs have multiple groups (such as an SA-10 group with its
accompanying SA-15 and SA-19 groups). This shows each group's threat and
detection separately on the map, and also makes it so that an SA-10 with
dead radars will no longer contribute to the threat zone just because
the shilka next to it still has a functioning radar.
https://github.com/Khopa/dcs_liberation/issues/647
Fixes https://github.com/Khopa/dcs_liberation/issues/672
Converts the landmap to use MultiPolygon instead of a collection of
polygons, since Shapely has explicit support for this.
Because we've done that, we can use a single projection from a line
instead of brute forcing the extent of the front line.
This makes turn processing ~66% faster (3 seconds to 1.8).
There are probably other places this should be used.
Started with TARCAP because they're simple, but will follow and extend
this to the other flight plans next.
This works by building navigation meshes (navmeshes) of the theater
based on the threat regions. A navmesh is created for each faction to
allow the unique pathing around each side's threats. Navmeshes are built
such that there are nav edges around threat zones to allow the planner
to pick waypoints that (slightly) route around threats before
approaching the target.
Using the navmesh, routes are found using A*. Performance appears
adequate, and could probably be improved with a cache if needed since
the small number of origin points means many flights will share portions
of their flight paths.
This adds a few visual debugging tools to the map. They're disabled by
default, but changing the local `debug` variable in `DisplayOptions` to
`True` will make them appear in the display options menu. These are:
* Display navmeshes (red and blue). Displaying either navmesh will draw
each navmesh polygon on the map view and highlight the mesh that
contains the cursor. Neighbors are indicated by a small yellow line
pointing from the center of the polygon's edge/vertext that is shared
with its neighbor toward the centroid of the zone.
* Shortest path from control point to mouse location. The first control
point for the selected faction is arbitrarily selected, and the
shortest path from that control point to the mouse cursor will be
drawn on the map.
* TARCAP plan near mouse location. A TARCAP will be planned from the
faction's first control point to the target nearest the mouse cursor.
https://github.com/Khopa/dcs_liberation/issues/292
Creates threat zones around airfields and non-trivial air defenses (it's
not worth dodging anything with a threat range under 3nm). These threat
zones can be used to aid mission planning and waypoint placement.
https://github.com/Khopa/dcs_liberation/issues/292
Not converting all at once so I can prove the concept. After that we'll
want to cover all the cases where an int distance or speed is a part of
the save game (I've done one of them here with `Flight.alt`) so further
cleanups don't break save compat.
https://github.com/Khopa/dcs_liberation/issues/558
