This came up when investigating an internal error from the line above.
It turned out the error was correct (problem with converting scalars to
vectors), but the break was not.
Currently, only vector/vec3 and quaternion/vec4 can be printed anyway,
but I plan on making explicit format strings for the types, so there
should be no need to promote any vector types (and really, any hidden
promotion is a bit of a pain, but standards...).
While the code would handle int vector types, there aren't any such
instructions, and the expression code shouldn't generate them, but all
float (32 and 64 bit) vector types do have a dot product instruction, so
check width rather than just vector/quaternion.
This fixes an error that's been lurking for over two years (since I made
parameters unlimited internally). The problem was the array was being
allocated on the stack and a simple struct copy was used to store type
type, resulting in a dangling pointer onto the stack. I'm surprised it
didn't cause more problems.
This allows all the tests to build and pass. I'll need to add tests to
ensure warnings happen when they should and that all vec operations are
correct (ouch, that'll be a lot of work), but vectors and quaternions
are working again.
Vector expressions no longer auto-widen due to the new vector types (I
might add such later, but for now this lets the tests try to build
(minus actual fixes in qfcc)).
With this, all vector widths and types are supported: 2, 3, 4 and int,
uint, long, ulong, float and double, along with support for suffixes to
make the type explicit: '1 2'd specifies a dvec2 constant, while '1 2 3'u
is a uivec3 constant. Default types are double (dvec2, dvec3, dvec4) for
literals with float-type components, and int (ivec2...) for those with
integer-type components.
Having three very similar sets of code for outputting values (just for
debug purposes even) got to be a tad annoying. Now there's only one, and
in the right place, too (with the other value code).
I'd created new_value_expr some time ago, but never used it...
Also, replace convert_* with cast_expr to the appropriate type (removes
a pile of value check and create code).
Use with quaternions and vectors is a little broken in that
vec4/quaternion and vec3/vector are not the same types (by design) and
thus a cast is needed (not what I want, though). However, creating
vectors (that happen to be int due to int constants) does seem to be
working nicely otherwise.
Nicely, I was able to reuse the generated conversion code used by the
progs engine to do the work in qfcc, just needed appropriate definitions
for the operand macros, and to set up the conversion code. Helped
greatly by the new value load/store functions.
pr_type_t now contains only the one "value" field, and all the access
macros now use their PACKED variant for base access, making access to
larger types more consistent with the smaller types.
Since it is updated every frame, it needs to be as fast as possible for
the cpu code. This seems to make a difference of about 10us (~130 ->
~120) when testing in marcher. Not a huge change, but the timing
calculation was wrapped around the entire base world pass, so there was
a fair bit of overhead from bsp traversal etc.
It makes a significant difference to level load times (approximately
halves them for demo1 and demo2). Nicely, it turns out I had implemented
the rest of the staging buffer code (in particular, flushing) correctly
in that it seems there's no corruption any of the data.
They're really redundant, and removing the next pointer makes for a
slightly smaller cvar struct. Cvar_Select was added to allow finding
lists of matching cvars.
The tab-completion and config saving code was reworked to use the hash
table DO functions. Comments removed since the code was completely
rewritten, but still many thanks to EvilTypeGuy and Fett.
Hash_Select returns a list of elements that match a given criterion
(select callback returning non-0).
Hash_ForEach simply calls a function for every element.
And use it for hud_scoreboard_gravity. Putting the enum def in view made
the most sense as view does own the base type and the enum is likely to
be by useful for other settings.
I think I'd gotten distracted while making the changes to the server,
then simply copied the partial changes to the client. It didn't blow up
thanks to the backing store bing char * and the type sized for int, so
safe on any platform, but useless as it wasn't connected properly.
It's actually pretty neat being able to directly, but safely, control a
function pointer via a cvar :)
The misinterpretations were due to either the cvar not being accessed
directly by the engine, but via only the callback, or the cvars were
accesssed only by progs (in which case, they should be float). The
remainder are a potential enum (hud gravity) and a "too hard basket"
(rcon password: need to figure out how I want to handle secret strings).
Other parts of quakefs treat an empty path as an error, so fs_sharepath
and fs_userpath must never be empty or they will effectively be
rejected. While the user explicitly setting them to empty strings is one
way for them to become empty, another is QFS_CompressPath compressing
'.' to an empty path, which makes it rather difficult to set up the
traditional quake directory tree (ie, operate from the current
directory).
My script didn't know what type to make the cvars since they're not used
directly by the code, so they got treated as strings instead of ints or
floats.
This is an extremely extensive patch as it hits every cvar, and every
usage of the cvars. Cvars no longer store the value they control,
instead, they use a cexpr value object to reference the value and
specify the value's type (currently, a null type is used for strings).
Non-string cvars are passed through cexpr, allowing expressions in the
cvars' settings. Also, cvars have returned to an enhanced version of the
original (id quake) registration scheme.
As a minor benefit, relevant code having direct access to the
cvar-controlled variables is probably a slight optimization as it
removed a pointer dereference, and the variables can be located for data
locality.
The static cvar descriptors are made private as an additional safety
layer, though there's nothing stopping external modification via
Cvar_FindVar (which is needed for adding listeners).
While not used yet (partly due to working out the design), cvars can
have a validation function.
Registering a cvar allows a primary listener (and its data) to be
specified: it will always be called first when the cvar is modified. The
combination of proper listeners and direct access to the controlled
variable greatly simplifies the more complex cvar interactions as much
less null checking is required, and there's no need for one cvar's
callback to call another's.
nq-x11 is known to work at least well enough for the demos. More testing
will come.
The prefix gives more context to the error messages, making the system a
lot easier to use (it was especially helpful when getting my cvar revamp
into shape).
Based on the flags type used in vkparse (difference is the lack of
support for plists). Having this will make supporting named flags in
cvars much easier (though setting up the enum type is a bit of a chore).
This allows for easy (and safe) printing of cexpr values where the type
supports it. Types that don't support printing would be due to being too
complex or possibly write-only (eg, password strings, when strings are
supported directly).
Surprisingly, only two, but they were caught by the different value
fields being used, thus the cvar was checked in multiple places. I
imagine that's not really all that common, so there may be some
inconsistencies between default value and use.
This is progress towards #23. There are still some references to
host_time and host_client (via nq's server.h), and a lot of references
to sv and svs, but this is definitely a step in the right direction.
This allows a single render pass description to be used for both
on-screen and off-screen targets. While Vulkan does allow a VkRenderPass
to be used with any compatible frame buffer, and vkparse caches a
VkRenderPass created from the same description, this allows the same
description to be used for a compatible off-screen target without any
dependence on the swapchain. However, there is a problem in the caching
when it comes to targeting outputs with different formats.