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* Fixing `PseudoPtr` legalization and `gfx` lifetime issues.
* Fixing `model-viewer` example.
This change contains various fixes to bring `model-viewer` example to fully functional. These fixes include:
1. Add `spReflectionTypeLayout_getSubObjectRangeSpaceOffset` function to return the space index for a sub object referenced through a `ParameterBlock` binding.
2. Make sure `D3D12Device` specifies column major matrix order creating a Slang session.
3. Fix `platform::Window::close()` and `platform::Application::quit()`.
4. Fix memory leak during `model-viewer''s model loading.
5. Fix command buffer recording in `model-viewer`.
With these changes, model viewer can now produce an image with a gray cube. The lighting is still incorrect becuase the `gfx` shader object implementation still does not handle "pending layout" resulting from global existential parameters.
* Fix d3d12 root signature creation.
* Use row-major matrix layout in model-viewer
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This change originated as an attempt to re-enable a test case, but it has ended up disabling more tests (for good reasons) than it re-enables.
The main change here is a significant overhaul of the way that the D3D12 render path extracts information from the Slang reflection API to produce a root signature.
There were also some supporting fixes in the reflection information to make sure it returns what the D3D12 back-end needed.
The big picture here is that the D3D12 path now uses the descriptor ranges stored in the reflection data more or less directly.
It still needs to use register/space offset information queried via the "old" reflection API, but it only does so at the top level now, for the program and entry points themselves.
All other layout information is derived directly from what Slang provides.
Smaller changes:
* The "flat" reflection API was expanded to include `getBindingRangeDescriptorRangeCount()` which was clearly missing.
* The "flat" reflection results for a constant buffer or parameter block that didn't contain any uniform data and was mapped to a plain constant buffer needed to be fixed up. That logic is still way to subtle to be trusted.
* Several additional tests were disabled that relied on static specialization, global/entry-point generi type parameters, structured buffers of interfaces or other features we don't officially support with shader objects right now. All of the affected tests were somehow passing by sheer luck and because they often passed in specialization arguments via explicit `TEST_INPUT` lines.
* The `inteface-shader-param` test is re-enabled now that we can properly describe its input with the new `set` mode on `TEST_INPUT`
* `ShaderCursor::getElement()` can now be used on structure types (in addition to arrays) to support by-index access to fields
* The `TEST_INPUT` system was expanded to support both by-name and by-index setting of structure fields for aggregates
* The `TEST_INPUT` system was expanded to allow an `out` prefix to mark parts of an expression as outputs on a `set` lines
* The `TEST_INPUT` system was expanded so that anything that would be allowed on a `TEST_INPUT` line by itself (like `ubuffer(...)`) can now be used as a sub-expression on a `set` line
Co-authored-by: Yong He <yonghe@outlook.com>
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* Improve Vulkan shader-objects implementation.
1. Null bindings no longer crashes.
2. No longer copies push constants to staging CPU buffer before setting it into command buffer. The entry-point shader object now directly sets it into command buffer upon `bindObject` call.
* Update comments
* Fix
* Re-enable 3 tests.
Improved vulkan implementation so that each shader object is responsible for creating descriptor sets on-demand.
Fixed slang reflection to correctly report `ParameterBlock` binding.
* Fix gcc compile error.
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* Add `SampleGrad` overload for lod clamp.
* Fix gfx to run the test on vulkan.
* Whitespace change to trigger CI build
* remove presentFrame call in render-test
Co-authored-by: Yong He <yhe@nvidia.com>
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
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The purpose of these changes is to make the `shader-object` example work correctly on CUDA.
Originally I had tried to add changes to the "flat" reflection information so that it introduced descriptor ranges to match the binding ranges it added for interface/existential-type fields. This approach helped the CUDA code that was using that information to try and compute uniform offsets for those fields, but it broke most of the other renderer back-ends. Instead, I removed the relevant asserts from `CUDAShaderObject::setObject()`.
Note taht there are leftover changes from my edits to the flat reflection information, around how it handles "leaf" fields that consume multiple resource kinds. I believe that those changes are, on balance, "more correct" now than they were before, so I decided to leave them in.
The other major fix here is to specialize the `CUDAShaderObject::setObject()` logic to handle the case of setting a shader object for a parameter that has interface type instead of a constant-buffer or parameter block. Mostly I just copy bytes from the child object into the parent object. There are a few caveats, though:
* I am not writing the RTTI or witness-table information, so dynamic dispatch won't work.
* I am assuming a hard-coded offset of 16 bytes for the any-value, which will work for now but is a bit too "magical" and might also break once we support conjunctions of interfaces with dynamic dispatch
* I am assuming that the child value to be writen into the field will "fit" into the any-value area. We need some way to determine whether or not things fit dynamically (ideally using the reflection data), and adapt accordingly.
* I had to add another method on the base CUDA shader object type to handle setting data using a device-memory pointr instead of a host-memory pointer
* There's not a lot we can do about it, but in the case of assigning an ordinary `CUDAShaderObject` into an interface-type field of a `CUDAEntryPointShaderObject` we end up needing to perform a device->host memory copy, because the bytes of the value will have already been written to GPU memory, but need to be in GPU memory for the dispatch call.
* The implementation I'm using here basically assumes that the child shader object must have been finalized before it gets plugged into the parent shader object. We haven't yet made a policy decision about that bit.
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* #include an absolute path didn't work - because paths were taken to always be relative.
* WIP: First pass in supporting output of line error information.
* Add support for lexing to better be able to indicate SourceLocation information.
* Fix lexer usage in DiagnosticSink in C++ extractor.
* Update diagnostics tests to have line location info.
* Fixed test expected output that now have source location information in them.
* Better handling of tab.
* Fix test expected results for tabbing change.
* DiagnosticLexer -> DiagnosticSink::SourceLocationLexer
Added line continuation tests.
* Fix typo.
* Added String::appendRepeatedChar
* Change to rerun tests.
Co-authored-by: Tim Foley <tfoleyNV@users.noreply.github.com>
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of existential types. (#1667)
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This change converts a large number of our existing tests to use the `ShaderObject` support that was added to the `gfx` layer.
In many cases, tests were just updated to pass `-shaderobj` and the result Just Worked.
In other cases, a `name` attribute had to be added to one or more `TEST_INPUT` lines.
For tests that did not work with shader objects "out of the box," I spent a little bit of time trying to get them work, but fell back to letting those tests run in the older mode.
Future changes to the infrastructure will be needed to get those additional tests working in the new path.
Along with the changes to test files, the following implementation changes were made to get additional tests working:
* Because the shader object mode uses explicit register bindings (from reflection), the hacky logic that was offseting `u` registers for D3D12 based on the number of render targets gets disabled (by another hack).
* The "flat" reflection information coming from Slang was not correctly reporting "binding ranges" for things that consumed only uniform data (which would be everything on CUDA/CPU), so it was refactored to properly include binding ranges for anything where the type of the field/variable implied a binding range should be created (even if the `LayoutResourceKind` was `::Uniform`).
* A few fixes were made to the CUDA implementation of `Renderer`, in order to get additional tests up and running. Most of these changes had to do with texture bindings, which hadn't really been tested previously.
In addition, a few changes were made that were attempts at getting more tests working, but didn't actually help. These could be dropped if requested:
* As a quality-of-life feature (not being used) the `object` style of `TEST_INPUT` line is upgraded to support inferring the type to use from the type of the input being set.
* Any `object` shader input lines get ignored in non-shader-object mode.
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* #include an absolute path didn't work - because paths were taken to always be relative.
* Move reflection to reflection-api.
* Slight reorg to pull out potentially Slang internal functions from the reflection API impls.
* Remove visual studio projects
* Fix for slang-binaries copy.
* Add the visual studio projects in build/visual-studio
* Remove miniz project.
* Differentiate the linePath from the filePath.
* Improve comment in premake5.lua + to kick of CI.
* Kick CI.
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