SPIR-V requires that tessellation factor arrays be size 4 (outer) or 2 (inner).
HLSL allows other sizes such as 3, or even scalars. This commit converts
between them by forcing the IO types to be the SPIR-V size, and allowing
copies between the internal and IO types to handle these cases.
This PR emulates per control point inputs to patch constant functions.
Without either an extension to look across SIMD lanes or a dedicated
stage, the emulation must use separate invocations of the wrapped
entry point to obtain the per control point values. This is provided
since shaders are wanting this functionality now, but such an extension
is not yet available.
Entry point arguments qualified as an invocation ID are replaced by the
current control point number when calling the wrapped entry point. There
is no particular optimization for the case of the entry point not having
such an input but the PCF still accepting ctrl pt frequency data. It'll
work, but anyway makes no so much sense.
The wrapped entry point must return the per control point data by value.
At this time it is not supported as an output parameter.
Makes some white-space differences in most output, plus a few cases
where more could have been put out but was cut short by the previous
fix-sized buffer.
Added version check (version >= 150) for GL_(core/compatibility)_profile macros.
Added GL_core_profile standard macro check to "150.vert" test file.
Fixed version check for GL_core_profile macros, and removed bad token character from 150.vert test.
Updated 150.vert.out test base-result with google-test suite.
The non-LOD form of image size query is prohibited in certain cases:
see the OpImageQuerySize and OpImageQuerySizeLod sections of the SPIR-V
spec for details. Sometimes we were generating the non-LOD form when
we should have been using the LOD form. Sometimes the LOD form is required
even if the underlying HLSL query did not supply a MIP level itself,
in which case level 0 is now queried.
This change propagates the storage qualifier from the buffer object to its contained
array type so that isStructBufferType() realizes it is one. That propagation was
happening before only for global variable declarations, so compilation defects would
result if the use of a function parameter happened before a global declaration.
This fixes that case, whether or not there ever is a global declaration, and
regardless of the relative order.
This changes the hlsl.structbuffer.fn.frag test to exercise the alternate order.
There are no differences to generated SPIR-V for the cases which successfully compiled before.
The f16tof32 opcode was indexing a vector with a float 0, rather
than an int 0. It may have made no functional difference due to the
identical bit pattern, but code looking at the type could be
confused.
