Commit Graph

16 Commits (f18014f60c565d31277235fa9cdec3dc5be4406d)

Author SHA1 Message Date
Sean Silva f18014f60c LowerRankedShapes: support shape.const_shape op.
Also, the previous code had a special case for deleting this op when it
had no uses. This is subsumed by the change in this commit since now
shape.const_shape is properly lowered.

With this change, the included test case with multiple serially
dependent ops works!
This specific issue was related to the scalar argument to that
function. We needed to compute a broadcast of a scalar shape (which is a
shape.const_shape) with another shape.
2020-07-08 20:12:40 -07:00
Sean Silva b4f0cea8fa Rework e2e flow to use new "npcomprt"
This ~totally reworks the existing "runtime" stuff to be more
principled and usable, such as from Python. It's still not fully
production-quality, mainly in the department of memory management (e.g.
it currently leaks memory; we need to figure out "who frees memrefs" +
the analysis and transformation needed to do that (maybe use upstream
buffer allocation pass?)).

The user API is in include/npcomp/runtime/UserAPI.h, though
include/npcomp/JITRuntime/JITModule.h is a friendlier wrapper.

The stuff under {include,lib}/runtime is totally firewalled from the
compiler and tiny (<6kB, though no attention has gone into optimizing
that size). For example, we don't link in libSupport into the runtime,
instead having our own bare bones replacements for basics like ArrayRef
(the JITRuntime helps with bridging that gap, since it *can* depend on
all common LLVM utilities).

The overall features of npcomprt is that it exposes a module that
with multiple function entry points. Each function has arguments and
results that are tensor-valued, and npcomprt::Tensor is the runtime type
that is used to interact with that (and a npcomprt::Ref<T>
reference-counting wrapper is provided to wrap npcomprt::Tensor in the
common case).

From an implementation perspective, an npcomprt module at the
LLVM/object/binary level exposes a single module descriptor struct that
has pointers to other metadata (currently just a list of function
metadata descriptors). All interactions with the npcomp runtime are
keyed off of that module descriptor, including function lookups and
dispatching. This is done to dodge platform ABI issues and also allow
enough reflection to e.g. verify provided arguments.

Most of the compiler-side work here was in LowerToNpcomprtABI and
LowerToLLVM.

Also,
- Rename npcomp_rt/NpcompRt to npcomprt/Npcomprt; it was getting
annoying to type the underscores/caps.
- misc improvements to bash_helpers.sh
2020-07-08 19:36:19 -07:00
Stella Laurenzo 308a54c3d0 Bump llvm-project to 52cae05e087b3d4fd02849fc37c387c720055ffb (2020/6/10).
* Fixes compile errors from upstream.
* XFAIL several tests that are now failing to legalize (will hand off to Sean).
2020-06-11 16:10:05 -07:00
Sean Silva e62e2e2915 Rename tests that run e2e-lowering-pipeline.
This makes it more clear that they are grouped together. A directory
seemed too heavyweight.
2020-06-01 19:34:44 -07:00
Sean Silva 7b9f0c3364 Add ability to run without optimizations.
The default is to only do the bare minimum needed for correctness, since
that stresses the layering of the system maximally.
2020-06-01 19:33:59 -07:00
Sean Silva e7b5a2b8a3 Make LowerRankedShapes clean up shape.from_extents ops.
We were previously relying on a later canonicalization pass to clean
them up, but it is a cleaner invariant if the pass gets rid of them
itself.
2020-05-29 18:00:35 -07:00
Sean Silva 3a09455540 Use upstream shape.from_extents
Replace our local `tcp.shape_from_extents` op with the upstream
`shape.from_extents` op.
2020-05-21 14:51:01 -07:00
Sean Silva 1d3dbd9d5c Lower to LLVM dialect.
With this commit, we finish conversion to LLVM dialect, and should be
ready for subsequent commits to convert to an LLVM module and let LLVM
codegen to native machine code.

This required a custom "lower to LLVM" pass to support lowering
tcp.abort_if to a runtime call. In the future, this pass will grow to do
type conversions for our own runtime types as we add those.
2020-05-20 18:56:10 -07:00
Sean Silva be1971c4fc Rename tcp.abort_if to tcp.shape_observe_error
This more clearly captures its semantics as a structural "observer" of
code that we currently mark as NoSideEffect but eventually lowers to
eager error handling code.

Also, update LowerRankedShapes to erase it, now that the layering here
is clear. That pass reifies the eager error handling code, so the need
for the dummy op to keep things alive isn't needed.

With this change, we are now ready to start lowering to LLVM!
This is the current print-ir-after-all from e2e-lowering-pipeline:
https://reviews.llvm.org/P8221
2020-05-18 13:38:47 -07:00
Sean Silva 836a8d4bec Lower tcp.alloc_memref ops to tcp.get_extent + std.alloc.
- tcp.get_extent will be liminated while lowering shapes
- std.alloc is supported by the upstream LLVM lowering.
2020-05-18 12:53:31 -07:00
Sean Silva 993338a12d Lower to the upstream memref ABI.
Specifically, we use unranked memrefs which get passed as a fixed-size
set of arguments/returns. One big caveat about this is that returning
results isn't going to work. See TODO in LowerTensorLoadOp.

This is far from enough runtime-wise, but it starts to demarcate a
plausible layering. Notice for example how this removes the
runtime-dependence from LowerRankedShapes.

Eventually, we want to have an `npcomp_rt` or `npcomp_hal` dialect with
its own set of runtime types that will supercede this.

See comments in LowerTensorLoadOp for more direction about where this is
going to evolve.
2020-05-15 17:19:57 -07:00
Sean Silva 889fe0d6c2 Tidy up test/E2E
- Make rank1.mlir be the new "basic.mlir", as it is really the simplest
  case.
- Move basic.mlir to mixed-ranks.mlir
- Delete starting-from-linalg.mlir, it wasn't really useful anymore.
2020-05-14 14:59:55 -07:00
Sean Silva eaeb4011e6 Lower !shape.shape to SSA values.
This uses an approach inspired by what is done in IREE. See comments on
LowerRankedShapes.cpp for how it works.

The basic gist is that we have an op that creates a !shape.shape from a
set of SSA values representing the extents, and then iteratively replace
any op producing a !shape.shape with instances of that op.
2020-05-13 17:20:23 -07:00
Sean Silva f525d4dbcf Add custom assembly format for tcp.alloc_memref/tcp.get_extent
This makes the IR a bit easier to scan.
2020-05-11 15:28:34 -07:00
Sean Silva 53c17dbed9 "Finish" tensor -> memref conversion.
There's a lot of details to flesh out here, but the basic approach seems
promising (see comments in createE2ELoweringPipeline).

This approach will be put to the test when we try to do our first
fusions since that tickles some of the nasty phase ordering issues
involved here.

But we're not there yet.
2020-05-11 15:00:12 -07:00
Sean Silva e29aef855b Initial TCF/TCP E2E seed.
Very much WIP.

This is enough to get tcf.add down to approximately the "linalg.generic
on buffers" level of abstraction. (but there are nuances)
2020-05-08 20:20:41 -07:00