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clang-p2996/mlir/lib/Dialect/MemRef/Transforms/IndependenceTransforms.cpp
Tres Popp 5550c82189 [mlir] Move casting calls from methods to function calls 
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
2023-05-12 11:21:25 +02:00

181 lines
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//===- IndependenceTransforms.cpp - Make ops independent of values --------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "mlir/Dialect/MemRef/Transforms/Transforms.h"
#include "mlir/Dialect/Affine/IR/AffineOps.h"
#include "mlir/Dialect/Affine/Transforms/Transforms.h"
#include "mlir/Dialect/MemRef/IR/MemRef.h"
#include "mlir/Dialect/Utils/StaticValueUtils.h"
#include "mlir/Interfaces/ValueBoundsOpInterface.h"
using namespace mlir;
using namespace mlir::memref;
/// Make the given OpFoldResult independent of all independencies.
static FailureOr<OpFoldResult> makeIndependent(OpBuilder &b, Location loc,
OpFoldResult ofr,
ValueRange independencies) {
if (ofr.is<Attribute>())
return ofr;
Value value = ofr.get<Value>();
AffineMap boundMap;
ValueDimList mapOperands;
if (failed(ValueBoundsConstraintSet::computeIndependentBound(
boundMap, mapOperands, presburger::BoundType::UB, value,
/*dim=*/std::nullopt, independencies, /*closedUB=*/true)))
return failure();
return affine::materializeComputedBound(b, loc, boundMap, mapOperands);
}
FailureOr<Value> memref::buildIndependentOp(OpBuilder &b,
memref::AllocaOp allocaOp,
ValueRange independencies) {
OpBuilder::InsertionGuard g(b);
b.setInsertionPoint(allocaOp);
Location loc = allocaOp.getLoc();
SmallVector<OpFoldResult> newSizes;
for (OpFoldResult ofr : allocaOp.getMixedSizes()) {
auto ub = makeIndependent(b, loc, ofr, independencies);
if (failed(ub))
return failure();
newSizes.push_back(*ub);
}
// Return existing memref::AllocaOp if nothing has changed.
if (llvm::equal(allocaOp.getMixedSizes(), newSizes))
return allocaOp.getResult();
// Create a new memref::AllocaOp.
Value newAllocaOp =
b.create<AllocaOp>(loc, newSizes, allocaOp.getType().getElementType());
// Create a memref::SubViewOp.
SmallVector<OpFoldResult> offsets(newSizes.size(), b.getIndexAttr(0));
SmallVector<OpFoldResult> strides(newSizes.size(), b.getIndexAttr(1));
return b
.create<SubViewOp>(loc, newAllocaOp, offsets, allocaOp.getMixedSizes(),
strides)
.getResult();
}
/// Push down an UnrealizedConversionCastOp past a SubViewOp.
static UnrealizedConversionCastOp
propagateSubViewOp(RewriterBase &rewriter,
UnrealizedConversionCastOp conversionOp, SubViewOp op) {
OpBuilder::InsertionGuard g(rewriter);
rewriter.setInsertionPoint(op);
auto newResultType = cast<MemRefType>(SubViewOp::inferRankReducedResultType(
op.getType().getShape(), op.getSourceType(), op.getMixedOffsets(),
op.getMixedSizes(), op.getMixedStrides()));
Value newSubview = rewriter.create<SubViewOp>(
op.getLoc(), newResultType, conversionOp.getOperand(0),
op.getMixedOffsets(), op.getMixedSizes(), op.getMixedStrides());
auto newConversionOp = rewriter.create<UnrealizedConversionCastOp>(
op.getLoc(), op.getType(), newSubview);
rewriter.replaceAllUsesWith(op.getResult(), newConversionOp->getResult(0));
return newConversionOp;
}
/// Given an original op and a new, modified op with the same number of results,
/// whose memref return types may differ, replace all uses of the original op
/// with the new op and propagate the new memref types through the IR.
///
/// Example:
/// %from = memref.alloca(%sz) : memref<?xf32>
/// %to = memref.subview ... : ... to memref<?xf32, strided<[1], offset: ?>>
/// memref.store %cst, %from[%c0] : memref<?xf32>
///
/// In the above example, all uses of %from are replaced with %to. This can be
/// done directly for ops such as memref.store. For ops that have memref results
/// (e.g., memref.subview), the result type may depend on the operand type, so
/// we cannot just replace all uses. There is special handling for common memref
/// ops. For all other ops, unrealized_conversion_cast is inserted.
static void replaceAndPropagateMemRefType(RewriterBase &rewriter,
Operation *from, Operation *to) {
assert(from->getNumResults() == to->getNumResults() &&
"expected same number of results");
OpBuilder::InsertionGuard g(rewriter);
rewriter.setInsertionPointAfter(to);
// Wrap new results in unrealized_conversion_cast and replace all uses of the
// original op.
SmallVector<UnrealizedConversionCastOp> unrealizedConversions;
for (const auto &it :
llvm::enumerate(llvm::zip(from->getResults(), to->getResults()))) {
unrealizedConversions.push_back(rewriter.create<UnrealizedConversionCastOp>(
to->getLoc(), std::get<0>(it.value()).getType(),
std::get<1>(it.value())));
rewriter.replaceAllUsesWith(from->getResult(it.index()),
unrealizedConversions.back()->getResult(0));
}
// Push unrealized_conversion_cast ops further down in the IR. I.e., try to
// wrap results instead of operands in a cast.
for (int i = 0; i < static_cast<int>(unrealizedConversions.size()); ++i) {
UnrealizedConversionCastOp conversion = unrealizedConversions[i];
assert(conversion->getNumOperands() == 1 &&
conversion->getNumResults() == 1 &&
"expected single operand and single result");
SmallVector<Operation *> users = llvm::to_vector(conversion->getUsers());
for (Operation *user : users) {
// Handle common memref dialect ops that produce new memrefs and must
// be recreated with the new result type.
if (auto subviewOp = dyn_cast<SubViewOp>(user)) {
unrealizedConversions.push_back(
propagateSubViewOp(rewriter, conversion, subviewOp));
continue;
}
// TODO: Other memref ops such as memref.collapse_shape/expand_shape
// should also be handled here.
// Skip any ops that produce MemRef result or have MemRef region block
// arguments. These may need special handling (e.g., scf.for).
if (llvm::any_of(user->getResultTypes(),
[](Type t) { return isa<MemRefType>(t); }))
continue;
if (llvm::any_of(user->getRegions(), [](Region &r) {
return llvm::any_of(r.getArguments(), [](BlockArgument bbArg) {
return isa<MemRefType>(bbArg.getType());
});
}))
continue;
// For all other ops, we assume that we can directly replace the operand.
// This may have to be revised in the future; e.g., there may be ops that
// do not support non-identity layout maps.
for (OpOperand &operand : user->getOpOperands()) {
if (auto castOp =
operand.get().getDefiningOp<UnrealizedConversionCastOp>()) {
rewriter.updateRootInPlace(
user, [&]() { operand.set(conversion->getOperand(0)); });
}
}
}
}
// Erase all unrealized_conversion_cast ops without uses.
for (auto op : unrealizedConversions)
if (op->getUses().empty())
rewriter.eraseOp(op);
}
FailureOr<Value> memref::replaceWithIndependentOp(RewriterBase &rewriter,
memref::AllocaOp allocaOp,
ValueRange independencies) {
auto replacement =
memref::buildIndependentOp(rewriter, allocaOp, independencies);
if (failed(replacement))
return failure();
replaceAndPropagateMemRefType(rewriter, allocaOp,
replacement->getDefiningOp());
return replacement;
}
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