164d52014SChris Lattner //===- GreedyPatternRewriteDriver.cpp - A greedy rewriter -----------------===//
264d52014SChris Lattner //
364d52014SChris Lattner // Copyright 2019 The MLIR Authors.
464d52014SChris Lattner //
564d52014SChris Lattner // Licensed under the Apache License, Version 2.0 (the "License");
664d52014SChris Lattner // you may not use this file except in compliance with the License.
764d52014SChris Lattner // You may obtain a copy of the License at
864d52014SChris Lattner //
964d52014SChris Lattner //   http://www.apache.org/licenses/LICENSE-2.0
1064d52014SChris Lattner //
1164d52014SChris Lattner // Unless required by applicable law or agreed to in writing, software
1264d52014SChris Lattner // distributed under the License is distributed on an "AS IS" BASIS,
1364d52014SChris Lattner // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
1464d52014SChris Lattner // See the License for the specific language governing permissions and
1564d52014SChris Lattner // limitations under the License.
1664d52014SChris Lattner // =============================================================================
1764d52014SChris Lattner //
1864d52014SChris Lattner // This file implements mlir::applyPatternsGreedily.
1964d52014SChris Lattner //
2064d52014SChris Lattner //===----------------------------------------------------------------------===//
2164d52014SChris Lattner 
2264d52014SChris Lattner #include "mlir/IR/Builders.h"
2364d52014SChris Lattner #include "mlir/IR/BuiltinOps.h"
247de0da95SChris Lattner #include "mlir/IR/PatternMatch.h"
2564d52014SChris Lattner #include "llvm/ADT/DenseMap.h"
2664d52014SChris Lattner using namespace mlir;
2764d52014SChris Lattner 
2864d52014SChris Lattner namespace {
2964d52014SChris Lattner class WorklistRewriter;
3064d52014SChris Lattner 
3164d52014SChris Lattner /// This is a worklist-driven driver for the PatternMatcher, which repeatedly
3264d52014SChris Lattner /// applies the locally optimal patterns in a roughly "bottom up" way.
3364d52014SChris Lattner class GreedyPatternRewriteDriver {
3464d52014SChris Lattner public:
353f2530cdSChris Lattner   explicit GreedyPatternRewriteDriver(OwningRewritePatternList &&patterns)
3664d52014SChris Lattner       : matcher(std::move(patterns)) {
3764d52014SChris Lattner     worklist.reserve(64);
3864d52014SChris Lattner   }
3964d52014SChris Lattner 
4064d52014SChris Lattner   void simplifyFunction(Function *currentFunction, WorklistRewriter &rewriter);
4164d52014SChris Lattner 
4264d52014SChris Lattner   void addToWorklist(Operation *op) {
435c4f1fddSRiver Riddle     // Check to see if the worklist already contains this op.
445c4f1fddSRiver Riddle     if (worklistMap.count(op))
455c4f1fddSRiver Riddle       return;
465c4f1fddSRiver Riddle 
4764d52014SChris Lattner     worklistMap[op] = worklist.size();
4864d52014SChris Lattner     worklist.push_back(op);
4964d52014SChris Lattner   }
5064d52014SChris Lattner 
5164d52014SChris Lattner   Operation *popFromWorklist() {
5264d52014SChris Lattner     auto *op = worklist.back();
5364d52014SChris Lattner     worklist.pop_back();
5464d52014SChris Lattner 
5564d52014SChris Lattner     // This operation is no longer in the worklist, keep worklistMap up to date.
5664d52014SChris Lattner     if (op)
5764d52014SChris Lattner       worklistMap.erase(op);
5864d52014SChris Lattner     return op;
5964d52014SChris Lattner   }
6064d52014SChris Lattner 
6164d52014SChris Lattner   /// If the specified operation is in the worklist, remove it.  If not, this is
6264d52014SChris Lattner   /// a no-op.
6364d52014SChris Lattner   void removeFromWorklist(Operation *op) {
6464d52014SChris Lattner     auto it = worklistMap.find(op);
6564d52014SChris Lattner     if (it != worklistMap.end()) {
6664d52014SChris Lattner       assert(worklist[it->second] == op && "malformed worklist data structure");
6764d52014SChris Lattner       worklist[it->second] = nullptr;
6864d52014SChris Lattner     }
6964d52014SChris Lattner   }
7064d52014SChris Lattner 
7164d52014SChris Lattner private:
7264d52014SChris Lattner   /// The low-level pattern matcher.
7364d52014SChris Lattner   PatternMatcher matcher;
7464d52014SChris Lattner 
7564d52014SChris Lattner   /// The worklist for this transformation keeps track of the operations that
7664d52014SChris Lattner   /// need to be revisited, plus their index in the worklist.  This allows us to
7764d52014SChris Lattner   /// efficiently remove operations from the worklist when they are removed even
7864d52014SChris Lattner   /// if they aren't the root of a pattern.
7964d52014SChris Lattner   std::vector<Operation *> worklist;
8064d52014SChris Lattner   DenseMap<Operation *, unsigned> worklistMap;
8164d52014SChris Lattner 
8264d52014SChris Lattner   /// As part of canonicalization, we move constants to the top of the entry
8364d52014SChris Lattner   /// block of the current function and de-duplicate them.  This keeps track of
8464d52014SChris Lattner   /// constants we have done this for.
854c465a18SRiver Riddle   DenseMap<std::pair<Attribute, Type>, Operation *> uniquedConstants;
8664d52014SChris Lattner };
8764d52014SChris Lattner }; // end anonymous namespace
8864d52014SChris Lattner 
8964d52014SChris Lattner /// This is a listener object that updates our worklists and other data
9064d52014SChris Lattner /// structures in response to operations being added and removed.
9164d52014SChris Lattner namespace {
9264d52014SChris Lattner class WorklistRewriter : public PatternRewriter {
9364d52014SChris Lattner public:
9464d52014SChris Lattner   WorklistRewriter(GreedyPatternRewriteDriver &driver, MLIRContext *context)
9564d52014SChris Lattner       : PatternRewriter(context), driver(driver) {}
9664d52014SChris Lattner 
9764d52014SChris Lattner   virtual void setInsertionPoint(Operation *op) = 0;
9864d52014SChris Lattner 
9964d52014SChris Lattner   // If an operation is about to be removed, make sure it is not in our
10064d52014SChris Lattner   // worklist anymore because we'd get dangling references to it.
10164d52014SChris Lattner   void notifyOperationRemoved(Operation *op) override {
10264d52014SChris Lattner     driver.removeFromWorklist(op);
10364d52014SChris Lattner   }
10464d52014SChris Lattner 
105085b687fSChris Lattner   // When the root of a pattern is about to be replaced, it can trigger
106085b687fSChris Lattner   // simplifications to its users - make sure to add them to the worklist
107085b687fSChris Lattner   // before the root is changed.
108085b687fSChris Lattner   void notifyRootReplaced(Operation *op) override {
109085b687fSChris Lattner     for (auto *result : op->getResults())
110085b687fSChris Lattner       // TODO: Add a result->getUsers() iterator.
111085b687fSChris Lattner       for (auto &user : result->getUses()) {
112085b687fSChris Lattner         if (auto *op = dyn_cast<Operation>(user.getOwner()))
113085b687fSChris Lattner           driver.addToWorklist(op);
114085b687fSChris Lattner       }
115085b687fSChris Lattner 
116085b687fSChris Lattner     // TODO: Walk the operand list dropping them as we go.  If any of them
117085b687fSChris Lattner     // drop to zero uses, then add them to the worklist to allow them to be
118085b687fSChris Lattner     // deleted as dead.
119085b687fSChris Lattner   }
120085b687fSChris Lattner 
12164d52014SChris Lattner   GreedyPatternRewriteDriver &driver;
12264d52014SChris Lattner };
12364d52014SChris Lattner 
12464d52014SChris Lattner } // end anonymous namespace
12564d52014SChris Lattner 
12664d52014SChris Lattner void GreedyPatternRewriteDriver::simplifyFunction(Function *currentFunction,
12764d52014SChris Lattner                                                   WorklistRewriter &rewriter) {
12864d52014SChris Lattner   // These are scratch vectors used in the constant folding loop below.
129792d1c25SRiver Riddle   SmallVector<Attribute, 8> operandConstants, resultConstants;
13064d52014SChris Lattner 
13164d52014SChris Lattner   while (!worklist.empty()) {
13264d52014SChris Lattner     auto *op = popFromWorklist();
13364d52014SChris Lattner 
13464d52014SChris Lattner     // Nulls get added to the worklist when operations are removed, ignore them.
13564d52014SChris Lattner     if (op == nullptr)
13664d52014SChris Lattner       continue;
13764d52014SChris Lattner 
13864d52014SChris Lattner     // If we have a constant op, unique it into the entry block.
13964d52014SChris Lattner     if (auto constant = op->dyn_cast<ConstantOp>()) {
14064d52014SChris Lattner       // If this constant is dead, remove it, being careful to keep
14164d52014SChris Lattner       // uniquedConstants up to date.
14264d52014SChris Lattner       if (constant->use_empty()) {
14364d52014SChris Lattner         auto it =
14464d52014SChris Lattner             uniquedConstants.find({constant->getValue(), constant->getType()});
14564d52014SChris Lattner         if (it != uniquedConstants.end() && it->second == op)
14664d52014SChris Lattner           uniquedConstants.erase(it);
14764d52014SChris Lattner         constant->erase();
14864d52014SChris Lattner         continue;
14964d52014SChris Lattner       }
15064d52014SChris Lattner 
15164d52014SChris Lattner       // Check to see if we already have a constant with this type and value:
15264d52014SChris Lattner       auto &entry = uniquedConstants[std::make_pair(constant->getValue(),
15364d52014SChris Lattner                                                     constant->getType())];
15464d52014SChris Lattner       if (entry) {
15564d52014SChris Lattner         // If this constant is already our uniqued one, then leave it alone.
15664d52014SChris Lattner         if (entry == op)
15764d52014SChris Lattner           continue;
15864d52014SChris Lattner 
15964d52014SChris Lattner         // Otherwise replace this redundant constant with the uniqued one.  We
16064d52014SChris Lattner         // know this is safe because we move constants to the top of the
16164d52014SChris Lattner         // function when they are uniqued, so we know they dominate all uses.
16264d52014SChris Lattner         constant->replaceAllUsesWith(entry->getResult(0));
16364d52014SChris Lattner         constant->erase();
16464d52014SChris Lattner         continue;
16564d52014SChris Lattner       }
16664d52014SChris Lattner 
16764d52014SChris Lattner       // If we have no entry, then we should unique this constant as the
16864d52014SChris Lattner       // canonical version.  To ensure safe dominance, move the operation to the
16964d52014SChris Lattner       // top of the function.
17064d52014SChris Lattner       entry = op;
17164d52014SChris Lattner 
17264d52014SChris Lattner       // TODO: If we make terminators into Operations then we could turn this
17364d52014SChris Lattner       // into a nice Operation::moveBefore(Operation*) method.  We just need the
17464d52014SChris Lattner       // guarantee that a block is non-empty.
17564d52014SChris Lattner       if (auto *cfgFunc = dyn_cast<CFGFunction>(currentFunction)) {
17664d52014SChris Lattner         auto &entryBB = cfgFunc->front();
177d34fcce2SRiver Riddle         cast<Instruction>(op)->moveBefore(&entryBB, entryBB.begin());
17864d52014SChris Lattner       } else {
17964d52014SChris Lattner         auto *mlFunc = cast<MLFunction>(currentFunction);
180*d613f5abSChris Lattner         cast<OperationStmt>(op)->moveBefore(mlFunc->getBody(),
181*d613f5abSChris Lattner                                             mlFunc->getBody()->begin());
18264d52014SChris Lattner       }
18364d52014SChris Lattner 
18464d52014SChris Lattner       continue;
18564d52014SChris Lattner     }
18664d52014SChris Lattner 
18764d52014SChris Lattner     // If the operation has no side effects, and no users, then it is trivially
18864d52014SChris Lattner     // dead - remove it.
18964d52014SChris Lattner     if (op->hasNoSideEffect() && op->use_empty()) {
19064d52014SChris Lattner       op->erase();
19164d52014SChris Lattner       continue;
19264d52014SChris Lattner     }
19364d52014SChris Lattner 
19464d52014SChris Lattner     // Check to see if any operands to the instruction is constant and whether
19564d52014SChris Lattner     // the operation knows how to constant fold itself.
19664d52014SChris Lattner     operandConstants.clear();
19764d52014SChris Lattner     for (auto *operand : op->getOperands()) {
198792d1c25SRiver Riddle       Attribute operandCst;
19964d52014SChris Lattner       if (auto *operandOp = operand->getDefiningOperation()) {
20064d52014SChris Lattner         if (auto operandConstantOp = operandOp->dyn_cast<ConstantOp>())
20164d52014SChris Lattner           operandCst = operandConstantOp->getValue();
20264d52014SChris Lattner       }
20364d52014SChris Lattner       operandConstants.push_back(operandCst);
20464d52014SChris Lattner     }
20564d52014SChris Lattner 
20664d52014SChris Lattner     // If constant folding was successful, create the result constants, RAUW the
20764d52014SChris Lattner     // operation and remove it.
20864d52014SChris Lattner     resultConstants.clear();
20964d52014SChris Lattner     if (!op->constantFold(operandConstants, resultConstants)) {
21064d52014SChris Lattner       rewriter.setInsertionPoint(op);
21164d52014SChris Lattner 
21264d52014SChris Lattner       for (unsigned i = 0, e = op->getNumResults(); i != e; ++i) {
21364d52014SChris Lattner         auto *res = op->getResult(i);
21464d52014SChris Lattner         if (res->use_empty()) // ignore dead uses.
21564d52014SChris Lattner           continue;
21664d52014SChris Lattner 
21764d52014SChris Lattner         // If we already have a canonicalized version of this constant, just
21864d52014SChris Lattner         // reuse it.  Otherwise create a new one.
21964d52014SChris Lattner         SSAValue *cstValue;
22064d52014SChris Lattner         auto it = uniquedConstants.find({resultConstants[i], res->getType()});
22164d52014SChris Lattner         if (it != uniquedConstants.end())
22264d52014SChris Lattner           cstValue = it->second->getResult(0);
22364d52014SChris Lattner         else
22464d52014SChris Lattner           cstValue = rewriter.create<ConstantOp>(
22564d52014SChris Lattner               op->getLoc(), resultConstants[i], res->getType());
226967d9341SChris Lattner 
227967d9341SChris Lattner         // Add all the users of the result to the worklist so we make sure to
228967d9341SChris Lattner         // revisit them.
229967d9341SChris Lattner         //
230967d9341SChris Lattner         // TODO: Add a result->getUsers() iterator.
231085b687fSChris Lattner         for (auto &operand : op->getResult(i)->getUses()) {
232085b687fSChris Lattner           if (auto *op = dyn_cast<Operation>(operand.getOwner()))
233967d9341SChris Lattner             addToWorklist(op);
234967d9341SChris Lattner         }
235967d9341SChris Lattner 
23664d52014SChris Lattner         res->replaceAllUsesWith(cstValue);
23764d52014SChris Lattner       }
23864d52014SChris Lattner 
23964d52014SChris Lattner       assert(op->hasNoSideEffect() && "Constant folded op with side effects?");
24064d52014SChris Lattner       op->erase();
24164d52014SChris Lattner       continue;
24264d52014SChris Lattner     }
24364d52014SChris Lattner 
244967d9341SChris Lattner     // If this is a commutative binary operation with a constant on the left
245967d9341SChris Lattner     // side move it to the right side.
24664d52014SChris Lattner     if (operandConstants.size() == 2 && operandConstants[0] &&
247967d9341SChris Lattner         !operandConstants[1] && op->isCommutative()) {
24864d52014SChris Lattner       auto *newLHS = op->getOperand(1);
24964d52014SChris Lattner       op->setOperand(1, op->getOperand(0));
25064d52014SChris Lattner       op->setOperand(0, newLHS);
25164d52014SChris Lattner     }
25264d52014SChris Lattner 
25364d52014SChris Lattner     // Check to see if we have any patterns that match this node.
25464d52014SChris Lattner     auto match = matcher.findMatch(op);
25564d52014SChris Lattner     if (!match.first)
25664d52014SChris Lattner       continue;
25764d52014SChris Lattner 
25864d52014SChris Lattner     // Make sure that any new operations are inserted at this point.
25964d52014SChris Lattner     rewriter.setInsertionPoint(op);
2603f2530cdSChris Lattner     // We know that any pattern that matched is RewritePattern because we
2613f2530cdSChris Lattner     // initialized the matcher with RewritePatterns.
2623f2530cdSChris Lattner     auto *rewritePattern = static_cast<RewritePattern *>(match.first);
2633f2530cdSChris Lattner     rewritePattern->rewrite(op, std::move(match.second), rewriter);
26464d52014SChris Lattner   }
26564d52014SChris Lattner 
26664d52014SChris Lattner   uniquedConstants.clear();
26764d52014SChris Lattner }
26864d52014SChris Lattner 
2693f2530cdSChris Lattner static void processMLFunction(MLFunction *fn,
2703f2530cdSChris Lattner                               OwningRewritePatternList &&patterns) {
27164d52014SChris Lattner   class MLFuncRewriter : public WorklistRewriter {
27264d52014SChris Lattner   public:
27364d52014SChris Lattner     MLFuncRewriter(GreedyPatternRewriteDriver &driver, MLFuncBuilder &builder)
27464d52014SChris Lattner         : WorklistRewriter(driver, builder.getContext()), builder(builder) {}
27564d52014SChris Lattner 
27664d52014SChris Lattner     // Implement the hook for creating operations, and make sure that newly
27764d52014SChris Lattner     // created ops are added to the worklist for processing.
27864d52014SChris Lattner     Operation *createOperation(const OperationState &state) override {
27964d52014SChris Lattner       auto *result = builder.createOperation(state);
28064d52014SChris Lattner       driver.addToWorklist(result);
28164d52014SChris Lattner       return result;
28264d52014SChris Lattner     }
28364d52014SChris Lattner 
28464d52014SChris Lattner     void setInsertionPoint(Operation *op) override {
28564d52014SChris Lattner       // Any new operations should be added before this statement.
28664d52014SChris Lattner       builder.setInsertionPoint(cast<OperationStmt>(op));
28764d52014SChris Lattner     }
28864d52014SChris Lattner 
28964d52014SChris Lattner   private:
29064d52014SChris Lattner     MLFuncBuilder &builder;
29164d52014SChris Lattner   };
29264d52014SChris Lattner 
29364d52014SChris Lattner   GreedyPatternRewriteDriver driver(std::move(patterns));
29464d52014SChris Lattner   fn->walk([&](OperationStmt *stmt) { driver.addToWorklist(stmt); });
29564d52014SChris Lattner 
29664d52014SChris Lattner   MLFuncBuilder mlBuilder(fn);
29764d52014SChris Lattner   MLFuncRewriter rewriter(driver, mlBuilder);
29864d52014SChris Lattner   driver.simplifyFunction(fn, rewriter);
29964d52014SChris Lattner }
30064d52014SChris Lattner 
3013f2530cdSChris Lattner static void processCFGFunction(CFGFunction *fn,
3023f2530cdSChris Lattner                                OwningRewritePatternList &&patterns) {
30364d52014SChris Lattner   class CFGFuncRewriter : public WorklistRewriter {
30464d52014SChris Lattner   public:
30564d52014SChris Lattner     CFGFuncRewriter(GreedyPatternRewriteDriver &driver, CFGFuncBuilder &builder)
30664d52014SChris Lattner         : WorklistRewriter(driver, builder.getContext()), builder(builder) {}
30764d52014SChris Lattner 
30864d52014SChris Lattner     // Implement the hook for creating operations, and make sure that newly
30964d52014SChris Lattner     // created ops are added to the worklist for processing.
31064d52014SChris Lattner     Operation *createOperation(const OperationState &state) override {
31164d52014SChris Lattner       auto *result = builder.createOperation(state);
31264d52014SChris Lattner       driver.addToWorklist(result);
31364d52014SChris Lattner       return result;
31464d52014SChris Lattner     }
31564d52014SChris Lattner 
31664d52014SChris Lattner     void setInsertionPoint(Operation *op) override {
31764d52014SChris Lattner       // Any new operations should be added before this instruction.
318d34fcce2SRiver Riddle       builder.setInsertionPoint(cast<Instruction>(op));
31964d52014SChris Lattner     }
32064d52014SChris Lattner 
32164d52014SChris Lattner   private:
32264d52014SChris Lattner     CFGFuncBuilder &builder;
32364d52014SChris Lattner   };
32464d52014SChris Lattner 
32564d52014SChris Lattner   GreedyPatternRewriteDriver driver(std::move(patterns));
32664d52014SChris Lattner   for (auto &bb : *fn)
32764d52014SChris Lattner     for (auto &op : bb)
32864d52014SChris Lattner       driver.addToWorklist(&op);
32964d52014SChris Lattner 
33064d52014SChris Lattner   CFGFuncBuilder cfgBuilder(fn);
33164d52014SChris Lattner   CFGFuncRewriter rewriter(driver, cfgBuilder);
33264d52014SChris Lattner   driver.simplifyFunction(fn, rewriter);
33364d52014SChris Lattner }
33464d52014SChris Lattner 
33564d52014SChris Lattner /// Rewrite the specified function by repeatedly applying the highest benefit
33664d52014SChris Lattner /// patterns in a greedy work-list driven manner.
33764d52014SChris Lattner ///
3383f2530cdSChris Lattner void mlir::applyPatternsGreedily(Function *fn,
3393f2530cdSChris Lattner                                  OwningRewritePatternList &&patterns) {
34064d52014SChris Lattner   if (auto *cfg = dyn_cast<CFGFunction>(fn)) {
34164d52014SChris Lattner     processCFGFunction(cfg, std::move(patterns));
34264d52014SChris Lattner   } else {
34364d52014SChris Lattner     processMLFunction(cast<MLFunction>(fn), std::move(patterns));
34464d52014SChris Lattner   }
34564d52014SChris Lattner }
346