1*60f443bbSAlex Zinenko //===- ParallelLoopTiling.cpp - Tiles scf.parallel ---------------===//
2c25b20c0SAlex Zinenko //
3c25b20c0SAlex Zinenko // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4c25b20c0SAlex Zinenko // See https://llvm.org/LICENSE.txt for license information.
5c25b20c0SAlex Zinenko // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6c25b20c0SAlex Zinenko //
7c25b20c0SAlex Zinenko //===----------------------------------------------------------------------===//
8c25b20c0SAlex Zinenko //
9c25b20c0SAlex Zinenko // This file implements loop tiling on parallel loops.
10c25b20c0SAlex Zinenko //
11c25b20c0SAlex Zinenko //===----------------------------------------------------------------------===//
12c25b20c0SAlex Zinenko 
13c25b20c0SAlex Zinenko #include "PassDetail.h"
14c25b20c0SAlex Zinenko #include "mlir/Dialect/Affine/IR/AffineOps.h"
15c25b20c0SAlex Zinenko #include "mlir/Dialect/SCF/Passes.h"
16c25b20c0SAlex Zinenko #include "mlir/Dialect/SCF/SCF.h"
17c25b20c0SAlex Zinenko #include "mlir/Dialect/SCF/Transforms.h"
18c25b20c0SAlex Zinenko #include "mlir/Dialect/StandardOps/IR/Ops.h"
19c25b20c0SAlex Zinenko #include "mlir/Transforms/RegionUtils.h"
20c25b20c0SAlex Zinenko #include "llvm/Support/CommandLine.h"
21c25b20c0SAlex Zinenko 
22c25b20c0SAlex Zinenko using namespace mlir;
23c25b20c0SAlex Zinenko using namespace mlir::scf;
24c25b20c0SAlex Zinenko 
25c25b20c0SAlex Zinenko /// Tile a parallel loop of the form
26*60f443bbSAlex Zinenko ///   scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3)
27c25b20c0SAlex Zinenko ///                                             step (%arg4, %arg5)
28c25b20c0SAlex Zinenko ///
29c25b20c0SAlex Zinenko /// into
30*60f443bbSAlex Zinenko ///   scf.parallel (%i0, %i1) = (%arg0, %arg1) to (%arg2, %arg3)
31c25b20c0SAlex Zinenko ///                                             step (%arg4*tileSize[0],
32c25b20c0SAlex Zinenko ///                                                   %arg5*tileSize[1])
33*60f443bbSAlex Zinenko ///     scf.parallel (%j0, %j1) = (0, 0) to (min(tileSize[0], %arg2-%j0)
34c25b20c0SAlex Zinenko ///                                           min(tileSize[1], %arg3-%j1))
35c25b20c0SAlex Zinenko ///                                        step (%arg4, %arg5)
36c25b20c0SAlex Zinenko /// The old loop is replaced with the new one.
37c25b20c0SAlex Zinenko void mlir::scf::tileParallelLoop(ParallelOp op, ArrayRef<int64_t> tileSizes) {
38c25b20c0SAlex Zinenko   OpBuilder b(op);
39c25b20c0SAlex Zinenko   auto zero = b.create<ConstantIndexOp>(op.getLoc(), 0);
40c25b20c0SAlex Zinenko   SmallVector<Value, 2> tileSizeConstants;
41c25b20c0SAlex Zinenko   tileSizeConstants.reserve(op.upperBound().size());
42c25b20c0SAlex Zinenko   for (size_t i = 0, end = op.upperBound().size(); i != end; ++i) {
43c25b20c0SAlex Zinenko     if (i < tileSizes.size())
44c25b20c0SAlex Zinenko       tileSizeConstants.push_back(
45c25b20c0SAlex Zinenko           b.create<ConstantIndexOp>(op.getLoc(), tileSizes[i]));
46c25b20c0SAlex Zinenko     else
47c25b20c0SAlex Zinenko       // Just pick 1 for the remaining dimensions.
48c25b20c0SAlex Zinenko       tileSizeConstants.push_back(b.create<ConstantIndexOp>(op.getLoc(), 1));
49c25b20c0SAlex Zinenko   }
50c25b20c0SAlex Zinenko 
51c25b20c0SAlex Zinenko   // Create the outer loop with adjusted steps.
52c25b20c0SAlex Zinenko   SmallVector<Value, 2> newSteps;
53c25b20c0SAlex Zinenko   newSteps.reserve(op.step().size());
54c25b20c0SAlex Zinenko   for (auto step : llvm::zip(op.step(), tileSizeConstants)) {
55c25b20c0SAlex Zinenko     newSteps.push_back(
56c25b20c0SAlex Zinenko         b.create<MulIOp>(op.getLoc(), std::get<0>(step), std::get<1>(step)));
57c25b20c0SAlex Zinenko   }
58c25b20c0SAlex Zinenko   auto outerLoop = b.create<ParallelOp>(op.getLoc(), op.lowerBound(),
59c25b20c0SAlex Zinenko                                         op.upperBound(), newSteps);
60c25b20c0SAlex Zinenko   b.setInsertionPointToStart(outerLoop.getBody());
61c25b20c0SAlex Zinenko 
62c25b20c0SAlex Zinenko   // Compute min(size, dim - offset) to avoid out-of-bounds accesses.
63c25b20c0SAlex Zinenko   // FIXME: Instead of using min, we want to replicate the tail. This would give
64c25b20c0SAlex Zinenko   // the inner loop constant bounds for easy vectorization.
65c25b20c0SAlex Zinenko   auto minMap = AffineMap::get(
66c25b20c0SAlex Zinenko       /*dimCount=*/3, /*symbolCount=*/0,
67c25b20c0SAlex Zinenko       {getAffineDimExpr(/*position=*/0, b.getContext()),
68c25b20c0SAlex Zinenko        getAffineDimExpr(/*position=*/1, b.getContext()) -
69c25b20c0SAlex Zinenko            getAffineDimExpr(/*position=*/2, b.getContext())},
70c25b20c0SAlex Zinenko       b.getContext());
71c25b20c0SAlex Zinenko 
72c25b20c0SAlex Zinenko   // Create the inner loop with adjusted bounds.
73c25b20c0SAlex Zinenko   SmallVector<Value, 2> newBounds;
74c25b20c0SAlex Zinenko   newBounds.reserve(op.upperBound().size());
75c25b20c0SAlex Zinenko   for (auto bounds : llvm::zip(tileSizeConstants, outerLoop.upperBound(),
76c25b20c0SAlex Zinenko                                outerLoop.getInductionVars())) {
77c25b20c0SAlex Zinenko     newBounds.push_back(b.create<AffineMinOp>(
78c25b20c0SAlex Zinenko         op.getLoc(), b.getIndexType(), minMap,
79c25b20c0SAlex Zinenko         ValueRange{std::get<0>(bounds), std::get<1>(bounds),
80c25b20c0SAlex Zinenko                    std::get<2>(bounds)}));
81c25b20c0SAlex Zinenko   }
82c25b20c0SAlex Zinenko   auto innerLoop = b.create<ParallelOp>(
83c25b20c0SAlex Zinenko       op.getLoc(), SmallVector<Value, 2>(newBounds.size(), zero), newBounds,
84c25b20c0SAlex Zinenko       op.step());
85c25b20c0SAlex Zinenko 
86c25b20c0SAlex Zinenko   // Steal the body of the old parallel loop and erase it.
87c25b20c0SAlex Zinenko   innerLoop.region().takeBody(op.region());
88c25b20c0SAlex Zinenko   op.erase();
89c25b20c0SAlex Zinenko }
90c25b20c0SAlex Zinenko 
91c25b20c0SAlex Zinenko /// Get a list of most nested parallel loops. Assumes that ParallelOps are only
92c25b20c0SAlex Zinenko /// directly nested.
93c25b20c0SAlex Zinenko static bool getInnermostNestedLoops(Block *block,
94c25b20c0SAlex Zinenko                                     SmallVectorImpl<ParallelOp> &loops) {
95c25b20c0SAlex Zinenko   bool hasInnerLoop = false;
96c25b20c0SAlex Zinenko   for (auto parallelOp : block->getOps<ParallelOp>()) {
97c25b20c0SAlex Zinenko     hasInnerLoop = true;
98c25b20c0SAlex Zinenko     if (!getInnermostNestedLoops(parallelOp.getBody(), loops))
99c25b20c0SAlex Zinenko       loops.push_back(parallelOp);
100c25b20c0SAlex Zinenko   }
101c25b20c0SAlex Zinenko   return hasInnerLoop;
102c25b20c0SAlex Zinenko }
103c25b20c0SAlex Zinenko 
104c25b20c0SAlex Zinenko namespace {
105c25b20c0SAlex Zinenko struct ParallelLoopTiling
106c25b20c0SAlex Zinenko     : public LoopParallelLoopTilingBase<ParallelLoopTiling> {
107c25b20c0SAlex Zinenko   ParallelLoopTiling() = default;
108c25b20c0SAlex Zinenko   explicit ParallelLoopTiling(ArrayRef<int64_t> tileSizes) {
109c25b20c0SAlex Zinenko     this->tileSizes = tileSizes;
110c25b20c0SAlex Zinenko   }
111c25b20c0SAlex Zinenko 
112c25b20c0SAlex Zinenko   void runOnFunction() override {
113c25b20c0SAlex Zinenko     SmallVector<ParallelOp, 2> mostNestedParallelOps;
114c25b20c0SAlex Zinenko     for (Block &block : getFunction()) {
115c25b20c0SAlex Zinenko       getInnermostNestedLoops(&block, mostNestedParallelOps);
116c25b20c0SAlex Zinenko     }
117c25b20c0SAlex Zinenko     for (ParallelOp pLoop : mostNestedParallelOps) {
118c25b20c0SAlex Zinenko       tileParallelLoop(pLoop, tileSizes);
119c25b20c0SAlex Zinenko     }
120c25b20c0SAlex Zinenko   }
121c25b20c0SAlex Zinenko };
122c25b20c0SAlex Zinenko } // namespace
123c25b20c0SAlex Zinenko 
124c25b20c0SAlex Zinenko std::unique_ptr<Pass>
125c25b20c0SAlex Zinenko mlir::createParallelLoopTilingPass(ArrayRef<int64_t> tileSizes) {
126c25b20c0SAlex Zinenko   return std::make_unique<ParallelLoopTiling>(tileSizes);
127c25b20c0SAlex Zinenko }
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