The glsl spec defines that vector constructors flatten their arguments
and consume them in order, ignoring the remaining arguments if there are
more than needed
We can safely assume that deserialize is enabled for all output tests.
Supporting other modes of operation has low utility.
This change also adds an option to skip the explicit types for WGSL output.
Pointers should not be `DATA`: they can never be stored in anything. (Function
arguments are not storage; they're like `let` bindings.)
Un-`SIZED` values may only live in the `Storage` storage class, so creating
pointers to them in other storage classes is meaningless.
The `ARGUMENT` flag should be set only on pointers in those storage classes that
are permitted to be passed to functions.
See comments in code for details.
Fixes#1513.
The WGSL front end knows that globals in the `Handle` storage class do not
produce references, but it attempts to manage this in two places which trip over
each other. As a consequence, referring to a `let` binding holding a pointer to
a global flips the variable's type from WGSL `ptr` to WGSL reference, with
bewildering consequences.
* [spv-in] Change shadow.spv test input to use StorageBuffer.
The ecosystem around Naga will generally not be able to use Vulkan adapters that
don't support the SPV_KHR_storage_buffer_storage_class (which was incorporated
into SPIR-V 1.3), so we can assume it is present.
Changing the test not to use runtime-sized arrays in the Uniform storage class
will allow Naga to tighten up some validation checks.
* [spv-in] Permit pointers to runtime arrays only in StorageBuffer.
Fixes#1519.
* [spv-in] Use `get_expr_handle` in `parse_image_write`
* [spv-in] Use BlockContext directly instead of its fields
* [spv-in] Use `get_expr_handle` for depth ref
The GLSL empty-global-name.frag test doesn't suffice because the GLSL front end
doesn't produce the same IR as the SPIR-V included in the bug report. As far as
I know, only a genuine SPIR-V input test can produce a global whose name is
`Some("")`.
Include the SPIR-V assembly source.
