* lovrPlatformGetBundlePath was missing the root argument
* ANDROID_SDK can't be assumed to be the parent of the ndk folder, in case it's a side-by-side installation of the NDK. Instead, ANDROID_SDK should be provided with -D
* One more thing we could mention in the docs that I ran into: Installing java with apt gave me an incompatible version. It worked better to just -DJAVA_HOME= to the java that comes with Android studio (/snap/android-studio/91/android-studio/jre on ubuntu).
There are some attributes that don't have a location (gl_InstanceID
is being reported for some reason). Their location is -1 and this
causes a left shift of a negative value which is undefined.
The new t.graphics.debug flag controls the following:
- If enabled, a debug context is created
- If disabled, a no-error context is created
- If enabled, GL debug messages are forwarded to lovr.log
Add entrypoints, headset backend code, fill in the Activity, and
add various special cases to account for the asynchronous render loop,
lack of sRGB support, and OpenGL state resets.
I added header files with #include to prevent the implicit declaration warnings and fixed a typo in function size_t lovrPlatformGetExecutablePath(char* buffer, size_t size).
lovr.log is a new callback that is invoked whenever LÖVR wants to
send the project a message. For example, this could be a performance
warning from the graphics module, an error message from one of the
headset backends, or an API deprecation notice.
The callback's signature is (message, level, tag). The message is a
string containing the message to log, level is a string that is currently
one of "debug", "info", "warn", "error", and tag is an optional string
that is used to indicate the source of the message for grouping purposes.
The default implementation of the callback just prints the message,
but the callback can be overridden to do things like filter messages,
write them to a file, or even render them in VR. Projects can also
invoke the callback directly to log their own messages.
Usually these are more of a platform-specific concept, and they
don't really interact with files or do any io.
There is a little bit of duplication among the *nix platforms since
they're similar, but overall this organization feels a bit better.
With the check for samples==0 being done BELOW the assert for offset+samples<soundData->samples,
setting samples to 0 and then having more samples available in the mic than present in
the created buffer would cause buffer overrun
Tightness parameter is amount of force is exerted on collider to resolve
collisions and enforce joint operation. Low values make joints loose,
high values make it tight and can cause collider to overshot the joint
target. With tightness set to 0 the joint loses its function. Going
above 1 puts even more energy into joint oscillations. Tightness
parameter is called ERP in ODE manual.
The responseTime affects the time constant of physics simulation, both
for collisions and for joint inertia. Low responseTime values make
simulation tight and fast, higher values make it sluggish. For
collisions it affects how fast penetration is resolved, with higher
values resulting in spongy objects with more surface penetration and
slower collision resolving. For joints the responseTime is similar to
inertia, with higher responseTime values resulting in slow oscillations.
The oscillation frequency is also affected by collider mass, so
responseTime can be used to tweak the joint to get desired frequency
with specific collider mass. Values higher than 1 are often desirable,
especially for very light objects. Unlike tightness, responseTime is
tweaked in orders of magnitude with useful values (depending on mass)
being between 10^-8 and 10^8.
Both parameters can be applied to World for simulation-wide usage, or
specified per-joint in case of distance and ball joints. Other joints
don't allow customizing these parameters, and will use World settings
instead..
When creating shapes and joints, arguments accept either coordinate
numbers as before, or vec3 objects. For functions that receive more than
one set of coordinates, any combination of coordinates and vectors is
accepted.
There are 4 new devices: beacon/1 through beacon/4. They represent
tracking reference like StemaVR base stations or Oculus cameras.
There are 4 because that's how many base stations you can have in
a single tracking setup.
Right now only OpenVR exposes poses for them.
When creating colliders, setting gravity or casting rays on world,
arguments accept either coordinate numbers as before, or vec3 objects.
For functions that receive more than one set of coordinates, any
combination of coordinates and vectors is accepted.
ModelData is still allowed to load skins with more joints, since
the limitation is in the graphics side of things (Model).
Eventually we will use a buffer for joints to alleviate this.
This was originally a C++-only contribution, but clang also warns
about it on windows when compiling as C.
It's nice to have one less thing specific to C++.
GL_DEPTH_TEST controls both whether depth testing and depth writes are
enabled. So if depth testing is disabled and depth writes are enabled,
GL_DEPTH_TEST has to be enabled and the compare mode should be GL_ALWAYS.
Based on Slack conversation, the following changes:
- lovr.event.quit("restart") no longer supported
- lovr.event.quit no longer takes restart "cookie"
- When lovr.event.restart() called, lovr.quit() is not called, instead lovr.restart() is called
- Value returned from lovr.restart(), when called, becomes the cookie
- lovr.event.quit takes the lovr.event.quit() return code as an argument
lovr.run() is unchanged, it still returns (exit code | "restart", cookie).
as mentioned on slack.
there are some situations you can get into (high load in some place or other) where the newer frame submission api will behave much more consistently, and I've noticed no negative effects.
besides, the other one is deprecated as best i can tell.
- There is now just one "playing" state.
- Instead of rewind, use :seek(0).
Note that now there is no way to resume or rewind all tracked sources.
This can be improved in the future if there's a need for it, probably
using variadic or table-based variants of the audio module functions.
Lua was happily compiling nil chunks and making them return empty
strings, which was not a good error experience in situations where
your file couldn't be loaded properly. Now we return nil plus an
error message, which matches LOVE and other Lua conventions.
A cast is required at this point in MSVC 2019 when ref.h is included from a C++ file. This change has no effect on Lovr compiled normally (which compiles only as C), what this change does is make it possible for forks to extend Lovr with C++ files.
Nodes can have either a transform matrix, or decomposed transform
properties, but never both. Using a union means we can store both
of those variants in the same piece of memory, using the existing
matrix boolean to figure out which one to use.
This reduces the size of the struct by 48 bytes (152 -> 104), which
ends up speeding up some model operations, I'm guessing due to the
CPU cache.
Unlike lovr.timer.getTime, this is the predicted time at which the
current frame will be displayed. It can be used in place of
lovr.timer.getTime for smoother animations. It's unclear if this
could be used for a suitable replacement for dt though.
Currently nobody returns data for them, though headset drivers could
start to provide poses estimated from the head pose and IPD info.
This also makes it easier to integrate eye tracking later.