[Mlir-commits] [mlir] Refactor LoopFuseSiblingOp and support parallel fusion (PR #94391)
Oleksandr Alex Zinenko
llvmlistbot at llvm.org
Fri Jun 21 04:47:01 PDT 2024
================
@@ -1070,104 +1070,182 @@ TileLoops mlir::extractFixedOuterLoops(scf::ForOp rootForOp,
return tileLoops;
}
-scf::ForallOp mlir::fuseIndependentSiblingForallLoops(scf::ForallOp target,
- scf::ForallOp source,
- RewriterBase &rewriter) {
- unsigned numTargetOuts = target.getNumResults();
- unsigned numSourceOuts = source.getNumResults();
+//===----------------------------------------------------------------------===//
+// Fusion related helpers
+//===----------------------------------------------------------------------===//
- // Create fused shared_outs.
- SmallVector<Value> fusedOuts;
- llvm::append_range(fusedOuts, target.getOutputs());
- llvm::append_range(fusedOuts, source.getOutputs());
+bool mlir::checkFusionStructuralLegality(LoopLikeOpInterface &target,
+ LoopLikeOpInterface &source) {
+ auto iterSpaceEq =
+ target.getLoopLowerBounds() == source.getLoopLowerBounds() &&
+ target.getLoopUpperBounds() == source.getLoopUpperBounds() &&
+ target.getLoopSteps() == source.getLoopSteps();
+ auto forAllTarget = dyn_cast<scf::ForallOp>(*target);
+ auto forAllSource = dyn_cast<scf::ForallOp>(*source);
+ if (forAllTarget && forAllSource)
+ return iterSpaceEq &&
+ forAllTarget.getMapping() == forAllSource.getMapping();
+ return iterSpaceEq;
+}
- // Create a new scf.forall op after the source loop.
- rewriter.setInsertionPointAfter(source);
- scf::ForallOp fusedLoop = rewriter.create<scf::ForallOp>(
- source.getLoc(), source.getMixedLowerBound(), source.getMixedUpperBound(),
- source.getMixedStep(), fusedOuts, source.getMapping());
+template <typename LoopTy>
+void fuseTerminator(RewriterBase &rewriter, LoopTy source, LoopTy &fused,
+ IRMapping &mapping) {}
- // Map control operands.
- IRMapping mapping;
- mapping.map(target.getInductionVars(), fusedLoop.getInductionVars());
- mapping.map(source.getInductionVars(), fusedLoop.getInductionVars());
+template <>
+void fuseTerminator(RewriterBase &rewriter, scf::ForallOp source,
+ scf::ForallOp &fused, IRMapping &mapping) {
+ // Fuse the old terminator in_parallel ops into the new one.
+ scf::InParallelOp fusedTerm = fused.getTerminator();
+ rewriter.setInsertionPointToEnd(fusedTerm.getBody());
+ for (Operation &op : source.getTerminator().getYieldingOps())
+ rewriter.clone(op, mapping);
+}
- // Map shared outs.
- mapping.map(target.getRegionIterArgs(),
- fusedLoop.getRegionIterArgs().take_front(numTargetOuts));
- mapping.map(source.getRegionIterArgs(),
- fusedLoop.getRegionIterArgs().take_back(numSourceOuts));
+template <>
+void fuseTerminator(RewriterBase &rewriter, scf::ForOp source,
+ scf::ForOp &fused, IRMapping &mapping) {
+ // Build fused yield results by appropriately mapping original yield operands.
+ auto newTerm = rewriter.clone(*fused.getBody()->getTerminator(), mapping);
+ rewriter.replaceOp(fused.getBody()->getTerminator(), newTerm);
+}
+
+// TODO: We should maybe add a method to LoopLikeOpInterface that will
+// facilitate this transformation. For now, this acts as a placeholder.
+template <>
+void fuseTerminator(RewriterBase &rewriter, LoopLikeOpInterface source,
+ LoopLikeOpInterface &fused, IRMapping &mapping) {
+ if (isa<scf::ForOp>(source) && isa<scf::ForOp>(fused)) {
+ fuseTerminator(rewriter, cast<scf::ForOp>(source), cast<scf::ForOp>(fused),
+ mapping);
+ } else if (isa<scf::ForallOp>(source) && isa<scf::ForallOp>(fused)) {
+ fuseTerminator(rewriter, cast<scf::ForallOp>(source),
+ cast<scf::ForallOp>(fused), mapping);
+ } else if (isa<scf::ParallelOp>(source) && isa<scf::ParallelOp>(fused)) {
+ fuseTerminator(rewriter, cast<scf::ParallelOp>(source),
+ cast<scf::ParallelOp>(fused), mapping);
+ } else {
+ return;
+ }
+}
+LoopLikeOpInterface createFused(LoopLikeOpInterface target,
+ LoopLikeOpInterface source,
+ RewriterBase &rewriter,
+ NewYieldValuesFn newYieldValuesFn) {
+ auto targetIterArgs = target.getRegionIterArgs();
+ auto targetInductionVar = *target.getLoopInductionVars();
+ SmallVector<Value> targetYieldOperands(target.getYieldedValues());
+ auto sourceIterArgs = source.getRegionIterArgs();
+ auto sourceInductionVar = *source.getLoopInductionVars();
+ SmallVector<Value> sourceYieldOperands(source.getYieldedValues());
+ auto sourceRegion = source.getLoopRegions().front();
+ LoopLikeOpInterface fusedLoop = *target.replaceWithAdditionalYields(
+ rewriter, source.getInits(), /*replaceInitOperandUsesInLoop=*/false,
+ newYieldValuesFn);
+
+ // Map control operands.
+ IRMapping mapping;
+ mapping.map(targetInductionVar, *fusedLoop.getLoopInductionVars());
+ mapping.map(targetIterArgs,
+ fusedLoop.getRegionIterArgs().take_front(targetIterArgs.size()));
+ mapping.map(targetYieldOperands,
+ fusedLoop.getYieldedValues().take_front(targetIterArgs.size()));
+ mapping.map(sourceInductionVar, *fusedLoop.getLoopInductionVars());
+ mapping.map(sourceIterArgs,
+ fusedLoop.getRegionIterArgs().take_back(sourceIterArgs.size()));
+ mapping.map(sourceYieldOperands,
+ fusedLoop.getYieldedValues().take_back(sourceIterArgs.size()));
// Append everything except the terminator into the fused operation.
- rewriter.setInsertionPointToStart(fusedLoop.getBody());
- for (Operation &op : target.getBody()->without_terminator())
- rewriter.clone(op, mapping);
- for (Operation &op : source.getBody()->without_terminator())
+ rewriter.setInsertionPoint(
+ fusedLoop.getLoopRegions().front()->front().getTerminator());
+ for (Operation &op : sourceRegion->front().without_terminator())
rewriter.clone(op, mapping);
- // Fuse the old terminator in_parallel ops into the new one.
- scf::InParallelOp targetTerm = target.getTerminator();
- scf::InParallelOp sourceTerm = source.getTerminator();
- scf::InParallelOp fusedTerm = fusedLoop.getTerminator();
- rewriter.setInsertionPointToStart(fusedTerm.getBody());
- for (Operation &op : targetTerm.getYieldingOps())
- rewriter.clone(op, mapping);
- for (Operation &op : sourceTerm.getYieldingOps())
- rewriter.clone(op, mapping);
+ // TODO: Replace with corresponding interface method if added
+ fuseTerminator(rewriter, source, fusedLoop, mapping);
- // Replace old loops by substituting their uses by results of the fused loop.
- rewriter.replaceOp(target, fusedLoop.getResults().take_front(numTargetOuts));
- rewriter.replaceOp(source, fusedLoop.getResults().take_back(numSourceOuts));
+ return fusedLoop;
+}
+
+scf::ForallOp mlir::fuseIndependentSiblingForallLoops(scf::ForallOp target,
+ scf::ForallOp source,
+ RewriterBase &rewriter) {
+ scf::ForallOp fusedLoop = cast<scf::ForallOp>(createFused(
+ target, source, rewriter,
+ [&](OpBuilder &b, Location loc, ArrayRef<BlockArgument> newBBArgs) {
+ // `ForallOp` does not have yields, rather an `InParallelOp` terminator.
+ return ValueRange{};
+ }));
+ rewriter.replaceOp(source,
+ fusedLoop.getResults().take_back(source.getNumResults()));
return fusedLoop;
}
scf::ForOp mlir::fuseIndependentSiblingForLoops(scf::ForOp target,
scf::ForOp source,
RewriterBase &rewriter) {
- unsigned numTargetOuts = target.getNumResults();
- unsigned numSourceOuts = source.getNumResults();
-
- // Create fused init_args, with target's init_args before source's init_args.
- SmallVector<Value> fusedInitArgs;
- llvm::append_range(fusedInitArgs, target.getInitArgs());
- llvm::append_range(fusedInitArgs, source.getInitArgs());
-
- // Create a new scf.for op after the source loop (with scf.yield terminator
- // (without arguments) only in case its init_args is empty).
- rewriter.setInsertionPointAfter(source);
- scf::ForOp fusedLoop = rewriter.create<scf::ForOp>(
- source.getLoc(), source.getLowerBound(), source.getUpperBound(),
- source.getStep(), fusedInitArgs);
+ scf::ForOp fusedLoop = cast<scf::ForOp>(createFused(
+ target, source, rewriter,
+ [&](OpBuilder &b, Location loc, ArrayRef<BlockArgument> newBBArgs) {
+ return source.getYieldedValues();
+ }));
+ rewriter.replaceOp(source,
+ fusedLoop.getResults().take_back(source.getNumResults()));
+ return fusedLoop;
+}
- // Map original induction variables and operands to those of the fused loop.
- IRMapping mapping;
- mapping.map(target.getInductionVar(), fusedLoop.getInductionVar());
- mapping.map(target.getRegionIterArgs(),
- fusedLoop.getRegionIterArgs().take_front(numTargetOuts));
- mapping.map(source.getInductionVar(), fusedLoop.getInductionVar());
- mapping.map(source.getRegionIterArgs(),
- fusedLoop.getRegionIterArgs().take_back(numSourceOuts));
-
- // Merge target's body into the new (fused) for loop and then source's body.
- rewriter.setInsertionPointToStart(fusedLoop.getBody());
- for (Operation &op : target.getBody()->without_terminator())
- rewriter.clone(op, mapping);
- for (Operation &op : source.getBody()->without_terminator())
- rewriter.clone(op, mapping);
+scf::ParallelOp mlir::fuseIndependentSiblingParallelLoops(
+ scf::ParallelOp target, scf::ParallelOp source, RewriterBase &rewriter) {
+ Block *block1 = target.getBody();
+ Block *block2 = source.getBody();
+ auto term1 = cast<scf::ReduceOp>(block1->getTerminator());
+ auto term2 = cast<scf::ReduceOp>(block2->getTerminator());
- // Build fused yield results by appropriately mapping original yield operands.
- SmallVector<Value> yieldResults;
- for (Value operand : target.getBody()->getTerminator()->getOperands())
- yieldResults.push_back(mapping.lookupOrDefault(operand));
- for (Value operand : source.getBody()->getTerminator()->getOperands())
- yieldResults.push_back(mapping.lookupOrDefault(operand));
- if (!yieldResults.empty())
- rewriter.create<scf::YieldOp>(source.getLoc(), yieldResults);
-
- // Replace old loops by substituting their uses by results of the fused loop.
- rewriter.replaceOp(target, fusedLoop.getResults().take_front(numTargetOuts));
- rewriter.replaceOp(source, fusedLoop.getResults().take_back(numSourceOuts));
+ ValueRange inits1 = target.getInitVals();
+ ValueRange inits2 = source.getInitVals();
+
+ SmallVector<Value> newInitVars(inits1.begin(), inits1.end());
+ newInitVars.append(inits2.begin(), inits2.end());
+
+ rewriter.setInsertionPoint(source);
+ auto fusedLoop = rewriter.create<scf::ParallelOp>(
+ source.getLoc(), source.getLowerBound(), source.getUpperBound(),
+ source.getStep(), newInitVars);
+ Block *newBlock = fusedLoop.getBody();
+ rewriter.inlineBlockBefore(block2, newBlock, newBlock->begin(),
+ newBlock->getArguments());
+ rewriter.inlineBlockBefore(block1, newBlock, newBlock->begin(),
+ newBlock->getArguments());
+
+ ValueRange results = fusedLoop.getResults();
+ if (!results.empty()) {
+ rewriter.setInsertionPointToEnd(newBlock);
+
+ ValueRange reduceArgs1 = term1.getOperands();
+ ValueRange reduceArgs2 = term2.getOperands();
+ SmallVector<Value> newReduceArgs(reduceArgs1.begin(), reduceArgs1.end());
+ newReduceArgs.append(reduceArgs2.begin(), reduceArgs2.end());
+
+ auto newReduceOp =
+ rewriter.create<scf::ReduceOp>(term2.getLoc(), newReduceArgs);
+
+ for (auto &&[i, reg] : llvm::enumerate(llvm::concat<Region>(
+ term1.getReductions(), term2.getReductions()))) {
+ Block &oldRedBlock = reg.front();
+ Block &newRedBlock = newReduceOp.getReductions()[i].front();
+ rewriter.inlineBlockBefore(&oldRedBlock, &newRedBlock,
+ newRedBlock.begin(),
+ newRedBlock.getArguments());
+ }
+ target.replaceAllUsesWith(results.take_front(inits1.size()));
+ source.replaceAllUsesWith(results.take_back(inits2.size()));
----------------
ftynse wrote:
Don't mix RAUW with rewriter API, this leads to extremely annoying bugs.
https://github.com/llvm/llvm-project/pull/94391
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