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Winsys context build a list of register block a register block is
a set of consecutive register that will be emited together in the
same pm4 packet (the various r600_block* are there to provide basic
grouping that try to take advantage of states that are linked together)
Some consecutive register are emited each in a different block,
for instance the various cb[0-7]_base. At winsys context creation,
the list of block is created & an index into the list of block. So
to find into which block a register is in you simply use the register
offset and lookup the block index. Block are grouped together into
group which are the various pkt3 group of config, context, resource,
Pipe state build a list of register each state want to modify,
beside register value it also give a register mask so only subpart
of a register can be updated by a given pipe state (the oring is
in the winsys) There is no prebuild register list or define for
each pipe state. Once pipe state are built they are bound to
the winsys context.
Each of this functions will go through the list of register and
will find into which block each reg falls and will update the
value of the block with proper masking (vs/ps resource/constant
are specialized variant with somewhat limited capabilities).
Each block modified by r600_context_pipe_state_set* is marked as
dirty and we update a count of dwords needed to emit all dirty
state so far.
r600_context_pipe_state_set* should be call only when pipe context
change some of the state (thus when pipe bind state or set state)
Then to draw primitive you make a call to r600_context_draw
void r600_context_draw(struct r600_context *ctx, struct r600_draw *draw)
It will check if there is enough dwords in current cs buffer and
if not will flush. Once there is enough room it will copy packet
from dirty block and then add the draw packet3 to initiate the draw.
The flush will send the current cs, reset the count of dwords to
0 and remark all states that are enabled as dirty and recompute
the number of dwords needed to send the current context.
Signed-off-by: Jerome Glisse <jglisse@redhat.com>
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Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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This is what xf86-video-ati and r600c do.
Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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this add support for the upload manager for uploading user vbo/index buffers.
this provides a considerable speedup in q3 type games.
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this moves to using a pb bufmgr instead of kernel bos directly.
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this paves the way for moving to pb bufmgrs now.
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introduce an abstraction layer between kernel bos and the winsys BOs.
this is to allow plugging in pb manager with minimal disruption to pipe driver.
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no need for this info to be exported to pipe driver.
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This is likely only correct for OpenGL and not other state trackers.
Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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We would leak the newly created bo if it cannot be mapped.
Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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since the depth blit code is hardcoded hex yay \o/
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This whole set of state just seems wrong, another cut-n-paste nightmare.
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more prep work for fixing up buffer handling
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we need this for future buffer rework, it also makes the vtbl easier
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Avoid using r600_screen structure to get ptr to radeon
winsys structure.
Signed-off-by: Jerome Glisse <jglisse@redhat.com>
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The code that uses dname is currently ifdef'ed out.
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Changes in v3:
- Also change trace, which I forgot about
Changes in v2:
- No longer adds tessellation shaders
Currently each shader cap has FS and VS versions.
However, we want a version of them for geometry, tessellation control,
and tessellation evaluation shaders, and want to be able to easily
query a given cap type for a given shader stage.
Since having 5 duplicates of each shader cap is unmanageable, add
a new get_shader_param function that takes both a shader cap from a
new enum and a shader stage.
Drivers with non-unified shaders will first switch on the shader
and, within each case, switch on the cap.
Drivers with unified shaders instead first check whether the shader
is supported, and then switch on the cap.
MAX_CONST_BUFFERS is now per-stage.
The geometry shader cap is removed in favor of checking whether the
limit of geometry shader instructions is greater than 0, which is also
used for tessellation shaders.
WARNING: all drivers changed and compiled but only nvfx tested
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evergreen is always the same as r700 here.
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If the buffer we are attempting to map is referenced by the unsubmitted
command stream for this context, we need to flush the command stream,
however to do that we need to be able to access the context at the lowest
level map function, currently we set the buffer in the toplevel map, but this
racy between context. (we probably have a lot more issues than that.)
I'll look into a proper solution as suggested by jrfonseca when I get some time.
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This reverts a part of e795ca8f3175fa6fd97b6b2ef2775e3f8803012a
that causes artefacts and a performance drop.
Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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We would leak bo if the argument check failed.
Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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This makes the 'vp1-LOG test' piglit test work.
Signed-off-by: Tilman Sauerbeck <tilman@code-monkey.de>
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for evergreen I ended up using a non-contig array of states, but
this code needs a bit of fixing up to deal with that.
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adds shader opcodes + assembler support (except ARL)
uses constant buffers
add interp instructions in fragment shader
adds all evergreen hw states
adds evergreen pm4 support.
this runs gears for me on my evergreen
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the DDX and r600c both flush cb/db after the draw is emitted,
as long as they do that, r600g can't be different, as it races.
We end up with r600g flush, set CB, DDX set CB, flush. This
was causing misrendering on my evergreen, where sometimes the drawing
would go to an old CB.
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the code should reloc correctly a single BO 3 times.
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this is ported from r600c mostly, bank swizzling is real messy and I don't think
I got enough sleep last night to fully understand it.
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Signed-off-by: Dave Airlie <airlied@redhat.com>
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Signed-off-by: Dave Airlie <airlied@redhat.com>
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This makes the 'fp1-RSQ test 2' piglit test work.
Signed-off-by: Dave Airlie <airlied@redhat.com>
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This splits the r600 opcodes out of the sq file and adds a wrapper
so we can convert to evergreen opcodes later without touching these functions
too much.
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DX9 constants were in the constant file, and evergreen no longer support
cfile. r600/700 can also use constants in memory buffers, so add the code
(disabled for now) to enable that as precursor for evergreen.
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this is step one towards evergreen support, it lets us plug in whole
new hw level states.
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