17905da65SAmit Sabne //===- LoopInvariantCodeMotion.cpp - Code to perform loop fusion-----------===//
27905da65SAmit Sabne //
330857107SMehdi Amini // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
456222a06SMehdi Amini // See https://llvm.org/LICENSE.txt for license information.
556222a06SMehdi Amini // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
67905da65SAmit Sabne //
756222a06SMehdi Amini //===----------------------------------------------------------------------===//
87905da65SAmit Sabne //
97905da65SAmit Sabne // This file implements loop invariant code motion.
107905da65SAmit Sabne //
117905da65SAmit Sabne //===----------------------------------------------------------------------===//
127905da65SAmit Sabne 
131834ad4aSRiver Riddle #include "PassDetail.h"
147905da65SAmit Sabne #include "mlir/Transforms/Passes.h"
15b843cc5dSStephan Herhut 
16b843cc5dSStephan Herhut #include "mlir/IR/Builders.h"
17b843cc5dSStephan Herhut #include "mlir/IR/Function.h"
1843959a25SRiver Riddle #include "mlir/Interfaces/LoopLikeInterface.h"
19*eb623ae8SStephen Neuendorffer #include "mlir/Interfaces/SideEffectInterfaces.h"
207a43da60SAmit Sabne #include "llvm/ADT/SmallPtrSet.h"
217905da65SAmit Sabne #include "llvm/Support/CommandLine.h"
227905da65SAmit Sabne #include "llvm/Support/Debug.h"
237905da65SAmit Sabne 
247905da65SAmit Sabne #define DEBUG_TYPE "licm"
257905da65SAmit Sabne 
267905da65SAmit Sabne using namespace mlir;
277905da65SAmit Sabne 
287905da65SAmit Sabne namespace {
297905da65SAmit Sabne /// Loop invariant code motion (LICM) pass.
3080aca1eaSRiver Riddle struct LoopInvariantCodeMotion
311834ad4aSRiver Riddle     : public LoopInvariantCodeMotionBase<LoopInvariantCodeMotion> {
32b843cc5dSStephan Herhut   void runOnOperation() override;
337905da65SAmit Sabne };
3443959a25SRiver Riddle } // end anonymous namespace
357905da65SAmit Sabne 
36b843cc5dSStephan Herhut // Checks whether the given op can be hoisted by checking that
37b843cc5dSStephan Herhut // - the op and any of its contained operations do not depend on SSA values
38b843cc5dSStephan Herhut //   defined inside of the loop (by means of calling definedOutside).
39b843cc5dSStephan Herhut // - the op has no side-effects. If sideEffecting is Never, sideeffects of this
40b843cc5dSStephan Herhut //   op and its nested ops are ignored.
41b843cc5dSStephan Herhut static bool canBeHoisted(Operation *op,
42b10c6625SRiver Riddle                          function_ref<bool(Value)> definedOutside) {
43b843cc5dSStephan Herhut   // Check that dependencies are defined outside of loop.
44b843cc5dSStephan Herhut   if (!llvm::all_of(op->getOperands(), definedOutside))
45b843cc5dSStephan Herhut     return false;
46b843cc5dSStephan Herhut   // Check whether this op is side-effect free. If we already know that there
47b843cc5dSStephan Herhut   // can be no side-effects because the surrounding op has claimed so, we can
48b843cc5dSStephan Herhut   // (and have to) skip this step.
49b10c6625SRiver Riddle   if (auto memInterface = dyn_cast<MemoryEffectOpInterface>(op)) {
50b10c6625SRiver Riddle     if (!memInterface.hasNoEffect())
51b10c6625SRiver Riddle       return false;
52b10c6625SRiver Riddle     // If the operation doesn't have side effects and it doesn't recursively
53b10c6625SRiver Riddle     // have side effects, it can always be hoisted.
54b10c6625SRiver Riddle     if (!op->hasTrait<OpTrait::HasRecursiveSideEffects>())
55b10c6625SRiver Riddle       return true;
56b10c6625SRiver Riddle 
570ddba0bdSRiver Riddle     // Otherwise, if the operation doesn't provide the memory effect interface
580ddba0bdSRiver Riddle     // and it doesn't have recursive side effects we treat it conservatively as
590ddba0bdSRiver Riddle     // side-effecting.
600ddba0bdSRiver Riddle   } else if (!op->hasTrait<OpTrait::HasRecursiveSideEffects>()) {
610ddba0bdSRiver Riddle     return false;
620ddba0bdSRiver Riddle   }
630ddba0bdSRiver Riddle 
64b843cc5dSStephan Herhut   // Recurse into the regions for this op and check whether the contained ops
65b843cc5dSStephan Herhut   // can be hoisted.
66b843cc5dSStephan Herhut   for (auto &region : op->getRegions()) {
67b843cc5dSStephan Herhut     for (auto &block : region.getBlocks()) {
68b10c6625SRiver Riddle       for (auto &innerOp : block.without_terminator())
69b10c6625SRiver Riddle         if (!canBeHoisted(&innerOp, definedOutside))
707a43da60SAmit Sabne           return false;
717a43da60SAmit Sabne     }
727a43da60SAmit Sabne   }
737a43da60SAmit Sabne   return true;
747a43da60SAmit Sabne }
757a43da60SAmit Sabne 
76b10c6625SRiver Riddle static LogicalResult moveLoopInvariantCode(LoopLikeOpInterface looplike) {
77b843cc5dSStephan Herhut   auto &loopBody = looplike.getLoopBody();
787a43da60SAmit Sabne 
79b843cc5dSStephan Herhut   // We use two collections here as we need to preserve the order for insertion
80b843cc5dSStephan Herhut   // and this is easiest.
81b843cc5dSStephan Herhut   SmallPtrSet<Operation *, 8> willBeMovedSet;
827905da65SAmit Sabne   SmallVector<Operation *, 8> opsToMove;
837905da65SAmit Sabne 
84b843cc5dSStephan Herhut   // Helper to check whether an operation is loop invariant wrt. SSA properties.
85e62a6956SRiver Riddle   auto isDefinedOutsideOfBody = [&](Value value) {
862bdf33ccSRiver Riddle     auto definingOp = value.getDefiningOp();
87b843cc5dSStephan Herhut     return (definingOp && !!willBeMovedSet.count(definingOp)) ||
88b843cc5dSStephan Herhut            looplike.isDefinedOutsideOfLoop(value);
89b843cc5dSStephan Herhut   };
90b843cc5dSStephan Herhut 
91b843cc5dSStephan Herhut   // Do not use walk here, as we do not want to go into nested regions and hoist
92b843cc5dSStephan Herhut   // operations from there. These regions might have semantics unknown to this
93b843cc5dSStephan Herhut   // rewriting. If the nested regions are loops, they will have been processed.
94b843cc5dSStephan Herhut   for (auto &block : loopBody) {
95b843cc5dSStephan Herhut     for (auto &op : block.without_terminator()) {
96b10c6625SRiver Riddle       if (canBeHoisted(&op, isDefinedOutsideOfBody)) {
977905da65SAmit Sabne         opsToMove.push_back(&op);
98b843cc5dSStephan Herhut         willBeMovedSet.insert(&op);
997905da65SAmit Sabne       }
1007a43da60SAmit Sabne     }
1017a43da60SAmit Sabne   }
1027905da65SAmit Sabne 
103b843cc5dSStephan Herhut   // For all instructions that we found to be invariant, move outside of the
104b843cc5dSStephan Herhut   // loop.
105b843cc5dSStephan Herhut   auto result = looplike.moveOutOfLoop(opsToMove);
106b843cc5dSStephan Herhut   LLVM_DEBUG(looplike.print(llvm::dbgs() << "Modified loop\n"));
107b843cc5dSStephan Herhut   return result;
1087905da65SAmit Sabne }
1097905da65SAmit Sabne 
110b843cc5dSStephan Herhut void LoopInvariantCodeMotion::runOnOperation() {
1110134b5dfSChris Lattner   // Walk through all loops in a function in innermost-loop-first order. This
1120134b5dfSChris Lattner   // way, we first LICM from the inner loop, and place the ops in
1130134b5dfSChris Lattner   // the outer loop, which in turn can be further LICM'ed.
114b10c6625SRiver Riddle   getOperation()->walk([&](LoopLikeOpInterface loopLike) {
115b10c6625SRiver Riddle     LLVM_DEBUG(loopLike.print(llvm::dbgs() << "\nOriginal loop\n"));
116b10c6625SRiver Riddle     if (failed(moveLoopInvariantCode(loopLike)))
117b843cc5dSStephan Herhut       signalPassFailure();
1180134b5dfSChris Lattner   });
1197905da65SAmit Sabne }
1207905da65SAmit Sabne 
121b843cc5dSStephan Herhut std::unique_ptr<Pass> mlir::createLoopInvariantCodeMotionPass() {
122b843cc5dSStephan Herhut   return std::make_unique<LoopInvariantCodeMotion>();
123b843cc5dSStephan Herhut }
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