Fixes#70160
The issue is resolved by:
1. Changing the call to address space conversion to use the correct
return type, preventing the code from moving past the if and into the
crashing optional dereference.
2. Adding handling to the AllocLikeOp rewriter for the case where the
underlying buffer allocation fails.
ConversionPatterns do not (and should not) modify the type converter that they are using.
* Make `ConversionPattern::typeConverter` const.
* Make member functions of the `LLVMTypeConverter` const.
* Conversion patterns take a const type converter.
* Various helper functions (that are called from patterns) now also take a const type converter.
Differential Revision: https://reviews.llvm.org/D157601
This revision removes the createIndexConstant method, which implicitly creates constants of the
getIndexType type and updates all uses to the more explicit createIndexAttrConstant which requires
an explicit Type parameter.
This is an NFC step towards entangling index type conversion in LLVM lowering.
The selection of which index type to use requires finer granularity than the existing
implementations which all rely on pass level flags and end up in mismatches, especially on GPUs
with multiple address spaces of different capacities.
This revision also includes an NFC fix to MemRefToLLVM.cpp that prevents a crash in cases where
an integer memory space cannot be derived for a MemRef.
Differential Revision: https://reviews.llvm.org/D156854
The MLIR classes Type/Attribute/Operation/Op/Value support
cast/dyn_cast/isa/dyn_cast_or_null functionality through llvm's doCast
functionality in addition to defining methods with the same name.
This change begins the migration of uses of the method to the
corresponding function call as has been decided as more consistent.
Note that there still exist classes that only define methods directly,
such as AffineExpr, and this does not include work currently to support
a functional cast/isa call.
Caveats include:
- This clang-tidy script probably has more problems.
- This only touches C++ code, so nothing that is being generated.
Context:
- https://mlir.llvm.org/deprecation/ at "Use the free function variants
for dyn_cast/cast/isa/…"
- Original discussion at https://discourse.llvm.org/t/preferred-casting-style-going-forward/68443
Implementation:
This first patch was created with the following steps. The intention is
to only do automated changes at first, so I waste less time if it's
reverted, and so the first mass change is more clear as an example to
other teams that will need to follow similar steps.
Steps are described per line, as comments are removed by git:
0. Retrieve the change from the following to build clang-tidy with an
additional check:
https://github.com/llvm/llvm-project/compare/main...tpopp:llvm-project:tidy-cast-check
1. Build clang-tidy
2. Run clang-tidy over your entire codebase while disabling all checks
and enabling the one relevant one. Run on all header files also.
3. Delete .inc files that were also modified, so the next build rebuilds
them to a pure state.
4. Some changes have been deleted for the following reasons:
- Some files had a variable also named cast
- Some files had not included a header file that defines the cast
functions
- Some files are definitions of the classes that have the casting
methods, so the code still refers to the method instead of the
function without adding a prefix or removing the method declaration
at the same time.
```
ninja -C $BUILD_DIR clang-tidy
run-clang-tidy -clang-tidy-binary=$BUILD_DIR/bin/clang-tidy -checks='-*,misc-cast-functions'\
-header-filter=mlir/ mlir/* -fix
rm -rf $BUILD_DIR/tools/mlir/**/*.inc
git restore mlir/lib/IR mlir/lib/Dialect/DLTI/DLTI.cpp\
mlir/lib/Dialect/Complex/IR/ComplexDialect.cpp\
mlir/lib/**/IR/\
mlir/lib/Dialect/SparseTensor/Transforms/SparseVectorization.cpp\
mlir/lib/Dialect/Vector/Transforms/LowerVectorMultiReduction.cpp\
mlir/test/lib/Dialect/Test/TestTypes.cpp\
mlir/test/lib/Dialect/Transform/TestTransformDialectExtension.cpp\
mlir/test/lib/Dialect/Test/TestAttributes.cpp\
mlir/unittests/TableGen/EnumsGenTest.cpp\
mlir/test/python/lib/PythonTestCAPI.cpp\
mlir/include/mlir/IR/
```
Differential Revision: https://reviews.llvm.org/D150123
Remapping memory spaces is a function often needed in type
conversions, most often when going to LLVM or to/from SPIR-V (a future
commit), and it is possible that such remappings may become more
common in the future as dialects take advantage of the more generic
memory space infrastructure.
Currently, memory space remappings are handled by running a
special-purpose conversion pass before the main conversion that
changes the address space attributes. In this commit, this approach is
replaced by adding a notion of type attribute conversions
TypeConverter, which is then used to convert memory space attributes.
Then, we use this infrastructure throughout the *ToLLVM conversions.
This has the advantage of loosing the requirements on the inputs to
those passes from "all address spaces must be integers" to "all
memory spaces must be convertible to integer spaces", a looser
requirement that reduces the coupling between portions of MLIR.
ON top of that, this change leads to the removal of most of the calls
to getMemorySpaceAsInt(), bringing us closer to removing it.
(A rework of the SPIR-V conversions to use this new system will be in
a folowup commit.)
As a note, one long-term motivation for this change is that I would
eventually like to add an allocaMemorySpace key to MLIR data layouts
and then call getMemRefAddressSpace(allocaMemorySpace) in the
relevant *ToLLVM in order to ensure all alloca()s, whether incoming or
produces during the LLVM lowering, have the correct address space for
a given target.
I expect that the type attribute conversion system may be useful in
other contexts.
Reviewed By: ftynse
Differential Revision: https://reviews.llvm.org/D142159
This is the first patch in a series of patches part of this RFC: https://discourse.llvm.org/t/rfc-switching-the-llvm-dialect-and-dialect-lowerings-to-opaque-pointers/68179
This patch adds the ability to lower the memref dialect to the LLVM Dialect with the use of opaque pointers instead of typed pointers. The latter are being phased out of LLVM and this patch is part of an effort to phase them out of MLIR as well. To do this, we'll need to support both typed and opaque pointers in lowering passes, to allow downstream projects to change without breakage.
The gist of changes required to change a conversion pass are:
* Change any `LLVM::LLVMPointerType::get` calls to NOT use an element type if opaque pointers are to be used.
* Use the `build` method of `llvm.load` with the explicit result type. Since the pointer does not have an element type anymore it has to be specified explicitly.
* Use the `build` method of `llvm.getelementptr` with the explicit `basePtrType`. Ditto to above, we have to now specify what the element type is so that GEP can do its indexing calculations
* Use the `build` method of `llvm.alloca` with the explicit `elementType`. Ditto to the above, alloca needs to know how many bytes to allocate through the element type.
* Get rid of any `llvm.bitcast`s
* Adapt the tests to the above. Note that `llvm.store` changes syntax as well when using opaque pointers
I'd like to note that the 3 `build` method changes work for both opaque and typed pointers, so unconditionally using the explicit element type form is always correct.
For the testsuite a practical approach suggested by @ftynse was taken: I created a separate test file for testing the typed pointer lowering of Ops. This mostly comes down to checking that bitcasts have been created at the appropiate places, since these are required for typed pointer support.
Differential Revision: https://reviews.llvm.org/D143268
alloc uses either `malloc` or a plugable allocation function for allocating the required memory. Both of these functions always return a `llvm.ptr<i8>`, aka a pointer in the default address space. When allocating for a memref in a different memory space however, no address space cast is created, leading to invalid LLVM IR being generated.
This is currently not caught by the verifier since the pointer to the memory is always bitcast which currently lacks a verifier disallowing address space casts. Translating to actual LLVM IR would cause the verifier to go off, since bitcast cannot translate from one address space to another: https://godbolt.org/z/3a1z97rc9
This patch fixes that issue by generating an address space cast if the address space of the allocation function does not match the address space of the resulting memref.
Not sure whether this is actually a real life problem. I found this issue while converting the pass to using opaque pointers which gets rid of all the bitcasts and hence caused type errors without the address space cast.
Differential Revision: https://reviews.llvm.org/D143341
Add memref.realloc and canonicalization of the op. Add conversion patterns for
lowering the op to LLVM using unaligned alloc or aligned alloc based on the
conversion option.
Add filecheck tests for parsing and converting the op. Add an integration test.
Reviewed By: ftynse
Differential Revision: https://reviews.llvm.org/D133424
After the MemRef has been split out of the Standard dialect, the
conversion to the LLVM dialect remained as a huge monolithic pass.
This is undesirable for the same complexity management reasons as having
a huge Standard dialect itself, and is even more confusing given the
existence of a separate dialect. Extract the conversion of the MemRef
dialect operations to LLVM into a separate library and a separate
conversion pass.
Reviewed By: herhut, silvas
Differential Revision: https://reviews.llvm.org/D105625
