IndVarSimplify.cpp revision 86d34100cf164f6ba5c0c2344b7dff86cc0a0980
16148c02591bd83da7b957589c4bbf6f9720d503fChris Lattner//===- IndVarSimplify.cpp - Induction Variable Elimination ----------------===// 2fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman// 3b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// The LLVM Compiler Infrastructure 4b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// 54ee451de366474b9c228b4e5fa573795a715216dChris Lattner// This file is distributed under the University of Illinois Open Source 64ee451de366474b9c228b4e5fa573795a715216dChris Lattner// License. See LICENSE.TXT for details. 7fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman// 8b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//===----------------------------------------------------------------------===// 96148c02591bd83da7b957589c4bbf6f9720d503fChris Lattner// 1040bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// This transformation analyzes and transforms the induction variables (and 1140bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// computations derived from them) into simpler forms suitable for subsequent 1240bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// analysis and transformation. 1340bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// 1440bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// If the trip count of a loop is computable, this pass also makes the following 1540bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// changes: 1640bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// 1. The exit condition for the loop is canonicalized to compare the 1740bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// induction value against the exit value. This turns loops like: 1840bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// 'for (i = 7; i*i < 1000; ++i)' into 'for (i = 0; i != 25; ++i)' 1940bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// 2. Any use outside of the loop of an expression derived from the indvar 2040bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// is changed to compute the derived value outside of the loop, eliminating 2140bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// the dependence on the exit value of the induction variable. If the only 2240bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// purpose of the loop is to compute the exit value of some derived 2340bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// expression, this transformation will make the loop dead. 2440bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner// 256148c02591bd83da7b957589c4bbf6f9720d503fChris Lattner//===----------------------------------------------------------------------===// 266148c02591bd83da7b957589c4bbf6f9720d503fChris Lattner 270e5f499638c8d277b9dc4a4385712177c53b5681Chris Lattner#define DEBUG_TYPE "indvars" 28022103b3f33febb7e54b8fdf2c9bc461eea78cbaChris Lattner#include "llvm/Transforms/Scalar.h" 2940bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner#include "llvm/BasicBlock.h" 3059fdaeeae8f183e18bb6ad5c382ca23e28e6aaf6Chris Lattner#include "llvm/Constants.h" 3118b3c97bc773b24a66eb779e85da1820b0f16b31Chris Lattner#include "llvm/Instructions.h" 327b9f6b1b21bc0b06f3c72beae51e9db631319503Devang Patel#include "llvm/IntrinsicInst.h" 33d672ecb0178c6247a5eaa5b0fb0c3b23cd25bd7cOwen Anderson#include "llvm/LLVMContext.h" 3440bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner#include "llvm/Type.h" 3581db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman#include "llvm/Analysis/Dominators.h" 3681db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman#include "llvm/Analysis/IVUsers.h" 3736f891bdf6cf38fcc655a0930ca18664e18518d4Nate Begeman#include "llvm/Analysis/ScalarEvolutionExpander.h" 3847df12d80db90e125e9f2ff764286ee11665476dJohn Criswell#include "llvm/Analysis/LoopInfo.h" 395ee99979065d75605d150d7e567e4351024aae8fDevang Patel#include "llvm/Analysis/LoopPass.h" 40455889aa79e3463a4b0f2161e3d9d72a683268b6Chris Lattner#include "llvm/Support/CFG.h" 4156caa098085977c14cfab39d92c7dfa15dde0d90Andrew Trick#include "llvm/Support/CommandLine.h" 42ee4f13a9046c380725cdeab62d57722db375c473Chris Lattner#include "llvm/Support/Debug.h" 43bdff548e4dd577a72094d57b282de4e765643b96Chris Lattner#include "llvm/Support/raw_ostream.h" 4447df12d80db90e125e9f2ff764286ee11665476dJohn Criswell#include "llvm/Transforms/Utils/Local.h" 4581db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman#include "llvm/Transforms/Utils/BasicBlockUtils.h" 464b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick#include "llvm/Transforms/Utils/SimplifyIndVar.h" 4737da40875873d70b83dc08b2803052bec9b68886Andrew Trick#include "llvm/Target/TargetData.h" 48037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew Trick#include "llvm/ADT/DenseMap.h" 49a54b7cbd452b3adb2f51346140d996b29c2cdb30Reid Spencer#include "llvm/ADT/SmallVector.h" 50551ccae044b0ff658fe629dd67edd5ffe75d10e8Reid Spencer#include "llvm/ADT/Statistic.h" 5147df12d80db90e125e9f2ff764286ee11665476dJohn Criswellusing namespace llvm; 52d0fde30ce850b78371fd1386338350591f9ff494Brian Gaeke 532fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickSTATISTIC(NumRemoved , "Number of aux indvars removed"); 542fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickSTATISTIC(NumWidened , "Number of indvars widened"); 552fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickSTATISTIC(NumInserted , "Number of canonical indvars added"); 562fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickSTATISTIC(NumReplaced , "Number of exit values replaced"); 572fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickSTATISTIC(NumLFTR , "Number of loop exit tests replaced"); 582fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickSTATISTIC(NumElimExt , "Number of IV sign/zero extends eliminated"); 59037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew TrickSTATISTIC(NumElimIV , "Number of congruent IVs eliminated"); 603324e718bc9ac2ede08a14c325848b576849542bChris Lattner 610861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramerstatic cl::opt<bool> EnableIVRewrite( 620861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer "enable-iv-rewrite", cl::Hidden, 630861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer cl::desc("Enable canonical induction variable rewriting")); 6475ebc0ec2019f391648d3bc3bac6f6da11cfbabdAndrew Trick 650861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer// Trip count verification can be enabled by default under NDEBUG if we 660861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer// implement a strong expression equivalence checker in SCEV. Until then, we 670861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer// use the verify-indvars flag, which may assert in some cases. 680861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramerstatic cl::opt<bool> VerifyIndvars( 690861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer "verify-indvars", cl::Hidden, 700861f5793a1834f02b522fb86fb037cd592c134fBenjamin Kramer cl::desc("Verify the ScalarEvolution result after running indvars")); 7137da40875873d70b83dc08b2803052bec9b68886Andrew Trick 720e5f499638c8d277b9dc4a4385712177c53b5681Chris Lattnernamespace { 733e8b6631e67e01e4960a7ba4668a50c596607473Chris Lattner class IndVarSimplify : public LoopPass { 7481db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman IVUsers *IU; 7540bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner LoopInfo *LI; 7640bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner ScalarEvolution *SE; 77de53dc03f5c1549f3176e979bbeeac965dfa5cbcDan Gohman DominatorTree *DT; 7837da40875873d70b83dc08b2803052bec9b68886Andrew Trick TargetData *TD; 792fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick 80b12a754cce0c1d5542af605203a47820edba454dAndrew Trick SmallVector<WeakVH, 16> DeadInsts; 8115cad759fe2048ac5eb137c6bb0ab7287538677eChris Lattner bool Changed; 823324e718bc9ac2ede08a14c325848b576849542bChris Lattner public: 83794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel 845668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman static char ID; // Pass identification, replacement for typeid 852fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick IndVarSimplify() : LoopPass(ID), IU(0), LI(0), SE(0), DT(0), TD(0), 8615832f61775040995bb8aa6056176425bc2c9088Andrew Trick Changed(false) { 87081c34b725980f995be9080eaec24cd3dfaaf065Owen Anderson initializeIndVarSimplifyPass(*PassRegistry::getPassRegistry()); 88081c34b725980f995be9080eaec24cd3dfaaf065Owen Anderson } 89794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel 905668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman virtual bool runOnLoop(Loop *L, LPPassManager &LPM); 9160f8a63e2502d57e879bf52a4a48505b74fa9716Dan Gohman 925668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman virtual void getAnalysisUsage(AnalysisUsage &AU) const { 935668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addRequired<DominatorTree>(); 945668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addRequired<LoopInfo>(); 955668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addRequired<ScalarEvolution>(); 965668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addRequiredID(LoopSimplifyID); 975668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addRequiredID(LCSSAID); 98f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) 9956caa098085977c14cfab39d92c7dfa15dde0d90Andrew Trick AU.addRequired<IVUsers>(); 1005668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addPreserved<ScalarEvolution>(); 1015668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addPreservedID(LoopSimplifyID); 1025668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.addPreservedID(LCSSAID); 103f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) 1042fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick AU.addPreserved<IVUsers>(); 1055668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman AU.setPreservesCFG(); 1065668cf77a77493ec9f2a9b33f08125e885c8e4cfDan Gohman } 1073324e718bc9ac2ede08a14c325848b576849542bChris Lattner 10840bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner private: 109037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew Trick virtual void releaseMemory() { 110037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew Trick DeadInsts.clear(); 111037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew Trick } 112037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew Trick 113b12a754cce0c1d5542af605203a47820edba454dAndrew Trick bool isValidRewrite(Value *FromVal, Value *ToVal); 1145ee99979065d75605d150d7e567e4351024aae8fDevang Patel 1151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick void HandleFloatingPointIV(Loop *L, PHINode *PH); 1161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick void RewriteNonIntegerIVs(Loop *L); 1171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 1184b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick void SimplifyAndExtend(Loop *L, SCEVExpander &Rewriter, LPPassManager &LPM); 11906988bcf6a5c74e81cf7e76f06a686aa822ec00aAndrew Trick 1204b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick void RewriteLoopExitValues(Loop *L, SCEVExpander &Rewriter); 1214b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 122454d26dc43207ec537d843229db6f5e6a302e23dDan Gohman void RewriteIVExpressions(Loop *L, SCEVExpander &Rewriter); 123d22a849282c45bbf7eb1734c274294d81e49e3a8Devang Patel 124fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *LinearFunctionTestReplace(Loop *L, const SCEV *BackedgeTakenCount, 125fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick PHINode *IndVar, SCEVExpander &Rewriter); 12681db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman 1271a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick void SinkUnusedInvariants(Loop *L); 1283324e718bc9ac2ede08a14c325848b576849542bChris Lattner }; 1295e76140536ba66fadeced1cd892f79616f407e3cChris Lattner} 130394437ff7eaccfe1de92fe14d0022ca0addf3e41Chris Lattner 131844731a7f1909f55935e3514c9e713a62d67662eDan Gohmanchar IndVarSimplify::ID = 0; 1322ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_BEGIN(IndVarSimplify, "indvars", 13337da40875873d70b83dc08b2803052bec9b68886Andrew Trick "Induction Variable Simplification", false, false) 1342ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_DEPENDENCY(DominatorTree) 1352ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_DEPENDENCY(LoopInfo) 1362ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_DEPENDENCY(ScalarEvolution) 1372ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_DEPENDENCY(LoopSimplify) 1382ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_DEPENDENCY(LCSSA) 1392ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_DEPENDENCY(IVUsers) 1402ab36d350293c77fc8941ce1023e4899df7e3a82Owen AndersonINITIALIZE_PASS_END(IndVarSimplify, "indvars", 14137da40875873d70b83dc08b2803052bec9b68886Andrew Trick "Induction Variable Simplification", false, false) 142844731a7f1909f55935e3514c9e713a62d67662eDan Gohman 143394f0441e06dafca29f0752cf400990a5b8fe4b1Daniel DunbarPass *llvm::createIndVarSimplifyPass() { 1443324e718bc9ac2ede08a14c325848b576849542bChris Lattner return new IndVarSimplify(); 145394437ff7eaccfe1de92fe14d0022ca0addf3e41Chris Lattner} 146394437ff7eaccfe1de92fe14d0022ca0addf3e41Chris Lattner 147b12a754cce0c1d5542af605203a47820edba454dAndrew Trick/// isValidRewrite - Return true if the SCEV expansion generated by the 148b12a754cce0c1d5542af605203a47820edba454dAndrew Trick/// rewriter can replace the original value. SCEV guarantees that it 149b12a754cce0c1d5542af605203a47820edba454dAndrew Trick/// produces the same value, but the way it is produced may be illegal IR. 150b12a754cce0c1d5542af605203a47820edba454dAndrew Trick/// Ideally, this function will only be called for verification. 151b12a754cce0c1d5542af605203a47820edba454dAndrew Trickbool IndVarSimplify::isValidRewrite(Value *FromVal, Value *ToVal) { 152b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // If an SCEV expression subsumed multiple pointers, its expansion could 153b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // reassociate the GEP changing the base pointer. This is illegal because the 154b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // final address produced by a GEP chain must be inbounds relative to its 155b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // underlying object. Otherwise basic alias analysis, among other things, 156b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // could fail in a dangerous way. Ultimately, SCEV will be improved to avoid 157b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // producing an expression involving multiple pointers. Until then, we must 158b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // bail out here. 159b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // 160b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // Retrieve the pointer operand of the GEP. Don't use GetUnderlyingObject 161b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // because it understands lcssa phis while SCEV does not. 162b12a754cce0c1d5542af605203a47820edba454dAndrew Trick Value *FromPtr = FromVal; 163b12a754cce0c1d5542af605203a47820edba454dAndrew Trick Value *ToPtr = ToVal; 164b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (GEPOperator *GEP = dyn_cast<GEPOperator>(FromVal)) { 165b12a754cce0c1d5542af605203a47820edba454dAndrew Trick FromPtr = GEP->getPointerOperand(); 166b12a754cce0c1d5542af605203a47820edba454dAndrew Trick } 167b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (GEPOperator *GEP = dyn_cast<GEPOperator>(ToVal)) { 168b12a754cce0c1d5542af605203a47820edba454dAndrew Trick ToPtr = GEP->getPointerOperand(); 169b12a754cce0c1d5542af605203a47820edba454dAndrew Trick } 170b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (FromPtr != FromVal || ToPtr != ToVal) { 171b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // Quickly check the common case 172b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (FromPtr == ToPtr) 173b12a754cce0c1d5542af605203a47820edba454dAndrew Trick return true; 174b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 175b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // SCEV may have rewritten an expression that produces the GEP's pointer 176b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // operand. That's ok as long as the pointer operand has the same base 177b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // pointer. Unlike GetUnderlyingObject(), getPointerBase() will find the 178b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // base of a recurrence. This handles the case in which SCEV expansion 179b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // converts a pointer type recurrence into a nonrecurrent pointer base 180b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // indexed by an integer recurrence. 1811608769abeb1430dc34f31ffac0d9850f99ae36aNadav Rotem 1821608769abeb1430dc34f31ffac0d9850f99ae36aNadav Rotem // If the GEP base pointer is a vector of pointers, abort. 1831608769abeb1430dc34f31ffac0d9850f99ae36aNadav Rotem if (!FromPtr->getType()->isPointerTy() || !ToPtr->getType()->isPointerTy()) 1841608769abeb1430dc34f31ffac0d9850f99ae36aNadav Rotem return false; 1851608769abeb1430dc34f31ffac0d9850f99ae36aNadav Rotem 186b12a754cce0c1d5542af605203a47820edba454dAndrew Trick const SCEV *FromBase = SE->getPointerBase(SE->getSCEV(FromPtr)); 187b12a754cce0c1d5542af605203a47820edba454dAndrew Trick const SCEV *ToBase = SE->getPointerBase(SE->getSCEV(ToPtr)); 188b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (FromBase == ToBase) 189b12a754cce0c1d5542af605203a47820edba454dAndrew Trick return true; 190b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 191b12a754cce0c1d5542af605203a47820edba454dAndrew Trick DEBUG(dbgs() << "INDVARS: GEP rewrite bail out " 192b12a754cce0c1d5542af605203a47820edba454dAndrew Trick << *FromBase << " != " << *ToBase << "\n"); 193b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 194b12a754cce0c1d5542af605203a47820edba454dAndrew Trick return false; 195b12a754cce0c1d5542af605203a47820edba454dAndrew Trick } 196b12a754cce0c1d5542af605203a47820edba454dAndrew Trick return true; 197b12a754cce0c1d5542af605203a47820edba454dAndrew Trick} 198b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 19986c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick/// Determine the insertion point for this user. By default, insert immediately 20086c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick/// before the user. SCEVExpander or LICM will hoist loop invariants out of the 20186c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick/// loop. For PHI nodes, there may be multiple uses, so compute the nearest 20286c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick/// common dominator for the incoming blocks. 20386c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trickstatic Instruction *getInsertPointForUses(Instruction *User, Value *Def, 20486c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick DominatorTree *DT) { 20586c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick PHINode *PHI = dyn_cast<PHINode>(User); 20686c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick if (!PHI) 20786c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick return User; 20886c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick 20986c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick Instruction *InsertPt = 0; 21086c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick for (unsigned i = 0, e = PHI->getNumIncomingValues(); i != e; ++i) { 21186c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick if (PHI->getIncomingValue(i) != Def) 21286c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick continue; 21386c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick 21486c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick BasicBlock *InsertBB = PHI->getIncomingBlock(i); 21586c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick if (!InsertPt) { 21686c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick InsertPt = InsertBB->getTerminator(); 21786c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick continue; 21886c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick } 21986c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick InsertBB = DT->findNearestCommonDominator(InsertPt->getParent(), InsertBB); 22086c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick InsertPt = InsertBB->getTerminator(); 22186c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick } 22286c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick assert(InsertPt && "Missing phi operand"); 223626f52d43df67c29b156f524551327d741ef80bfJay Foad assert((!isa<Instruction>(Def) || 224626f52d43df67c29b156f524551327d741ef80bfJay Foad DT->dominates(cast<Instruction>(Def), InsertPt)) && 22586c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick "def does not dominate all uses"); 22686c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick return InsertPt; 22786c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick} 22886c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick 2291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 2301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// RewriteNonIntegerIVs and helpers. Prefer integer IVs. 2311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 2324dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick 2331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// ConvertToSInt - Convert APF to an integer, if possible. 2341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickstatic bool ConvertToSInt(const APFloat &APF, int64_t &IntVal) { 2351a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick bool isExact = false; 2361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (&APF.getSemantics() == &APFloat::PPCDoubleDouble) 2374dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick return false; 2381a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // See if we can convert this to an int64_t 2391a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick uint64_t UIntVal; 2401a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (APF.convertToInteger(&UIntVal, 64, true, APFloat::rmTowardZero, 2411a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick &isExact) != APFloat::opOK || !isExact) 2424dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick return false; 2431a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick IntVal = UIntVal; 2444dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick return true; 2454dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick} 2464dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick 2471a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// HandleFloatingPointIV - If the loop has floating induction variable 2481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// then insert corresponding integer induction variable if possible. 2491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// For example, 2501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// for(double i = 0; i < 10000; ++i) 2511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// bar(i) 2521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// is converted into 2531a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// for(int i = 0; i < 10000; ++i) 2541a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// bar((double)i); 25503d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick/// 2561a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickvoid IndVarSimplify::HandleFloatingPointIV(Loop *L, PHINode *PN) { 2571a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick unsigned IncomingEdge = L->contains(PN->getIncomingBlock(0)); 2581a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick unsigned BackEdge = IncomingEdge^1; 25903d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick 2601a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Check incoming value. 2611a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ConstantFP *InitValueVal = 2621a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick dyn_cast<ConstantFP>(PN->getIncomingValue(IncomingEdge)); 26303d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick 2641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick int64_t InitValue; 2651a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!InitValueVal || !ConvertToSInt(InitValueVal->getValueAPF(), InitValue)) 2661a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 26703d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick 2681a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Check IV increment. Reject this PN if increment operation is not 2691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // an add or increment value can not be represented by an integer. 2701a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BinaryOperator *Incr = 2711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick dyn_cast<BinaryOperator>(PN->getIncomingValue(BackEdge)); 2721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Incr == 0 || Incr->getOpcode() != Instruction::FAdd) return; 27303d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick 2741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If this is not an add of the PHI with a constantfp, or if the constant fp 2751a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // is not an integer, bail out. 2761a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ConstantFP *IncValueVal = dyn_cast<ConstantFP>(Incr->getOperand(1)); 2771a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick int64_t IncValue; 2781a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (IncValueVal == 0 || Incr->getOperand(0) != PN || 2791a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick !ConvertToSInt(IncValueVal->getValueAPF(), IncValue)) 2801a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 28103d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick 2821a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Check Incr uses. One user is PN and the other user is an exit condition 2831a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // used by the conditional terminator. 2841a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value::use_iterator IncrUse = Incr->use_begin(); 2851a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Instruction *U1 = cast<Instruction>(*IncrUse++); 2861a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (IncrUse == Incr->use_end()) return; 2871a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Instruction *U2 = cast<Instruction>(*IncrUse++); 2881a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (IncrUse != Incr->use_end()) return; 289ca9b7037e28759c200fe5ca98190cabd121a1bbaDan Gohman 2901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Find exit condition, which is an fcmp. If it doesn't exist, or if it isn't 2911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // only used by a branch, we can't transform it. 2921a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick FCmpInst *Compare = dyn_cast<FCmpInst>(U1); 2931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!Compare) 2941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Compare = dyn_cast<FCmpInst>(U2); 2951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Compare == 0 || !Compare->hasOneUse() || 2961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick !isa<BranchInst>(Compare->use_back())) 2971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 298c2390b14c91764cba6e4394d05e58e387a7dfb19Dan Gohman 2991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BranchInst *TheBr = cast<BranchInst>(Compare->use_back()); 30059fdaeeae8f183e18bb6ad5c382ca23e28e6aaf6Chris Lattner 3011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // We need to verify that the branch actually controls the iteration count 3021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // of the loop. If not, the new IV can overflow and no one will notice. 3031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // The branch block must be in the loop and one of the successors must be out 3041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // of the loop. 3051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick assert(TheBr->isConditional() && "Can't use fcmp if not conditional"); 3061a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!L->contains(TheBr->getParent()) || 3071a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick (L->contains(TheBr->getSuccessor(0)) && 3081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick L->contains(TheBr->getSuccessor(1)))) 3091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 31040bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner 31140bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner 3121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If it isn't a comparison with an integer-as-fp (the exit value), we can't 3131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // transform it. 3141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ConstantFP *ExitValueVal = dyn_cast<ConstantFP>(Compare->getOperand(1)); 3151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick int64_t ExitValue; 3161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (ExitValueVal == 0 || 3171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick !ConvertToSInt(ExitValueVal->getValueAPF(), ExitValue)) 3181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 319c2390b14c91764cba6e4394d05e58e387a7dfb19Dan Gohman 3201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Find new predicate for integer comparison. 3211a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick CmpInst::Predicate NewPred = CmpInst::BAD_ICMP_PREDICATE; 3221a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick switch (Compare->getPredicate()) { 3231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick default: return; // Unknown comparison. 3241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_OEQ: 3251a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_UEQ: NewPred = CmpInst::ICMP_EQ; break; 3261a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_ONE: 3271a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_UNE: NewPred = CmpInst::ICMP_NE; break; 3281a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_OGT: 3291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_UGT: NewPred = CmpInst::ICMP_SGT; break; 3301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_OGE: 3311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_UGE: NewPred = CmpInst::ICMP_SGE; break; 3321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_OLT: 3331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_ULT: NewPred = CmpInst::ICMP_SLT; break; 3341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_OLE: 3351a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick case CmpInst::FCMP_ULE: NewPred = CmpInst::ICMP_SLE; break; 3361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 33781db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman 3381a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // We convert the floating point induction variable to a signed i32 value if 3391a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // we can. This is only safe if the comparison will not overflow in a way 3401a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // that won't be trapped by the integer equivalent operations. Check for this 3411a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // now. 3421a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // TODO: We could use i64 if it is native and the range requires it. 3433324e718bc9ac2ede08a14c325848b576849542bChris Lattner 3441a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // The start/stride/exit values must all fit in signed i32. 3451a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!isInt<32>(InitValue) || !isInt<32>(IncValue) || !isInt<32>(ExitValue)) 3461a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 34781db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman 3481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If not actually striding (add x, 0.0), avoid touching the code. 3491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (IncValue == 0) 3501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 3511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Positive and negative strides have different safety conditions. 3531a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (IncValue > 0) { 3541a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If we have a positive stride, we require the init to be less than the 35594f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick // exit value. 35694f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick if (InitValue >= ExitValue) 3571a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 3581a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3591a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick uint32_t Range = uint32_t(ExitValue-InitValue); 36094f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick // Check for infinite loop, either: 36194f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick // while (i <= Exit) or until (i > Exit) 36294f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick if (NewPred == CmpInst::ICMP_SLE || NewPred == CmpInst::ICMP_SGT) { 3631a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (++Range == 0) return; // Range overflows. 3641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 3651a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3661a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick unsigned Leftover = Range % uint32_t(IncValue); 3671a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3681a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If this is an equality comparison, we require that the strided value 3691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // exactly land on the exit value, otherwise the IV condition will wrap 3701a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // around and do things the fp IV wouldn't. 3711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if ((NewPred == CmpInst::ICMP_EQ || NewPred == CmpInst::ICMP_NE) && 3721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Leftover != 0) 3731a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 3741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3751a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If the stride would wrap around the i32 before exiting, we can't 3761a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // transform the IV. 3771a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Leftover != 0 && int32_t(ExitValue+IncValue) < ExitValue) 3781a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 3791a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3801a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } else { 3811a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If we have a negative stride, we require the init to be greater than the 38294f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick // exit value. 38394f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick if (InitValue <= ExitValue) 3841a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 3851a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3861a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick uint32_t Range = uint32_t(InitValue-ExitValue); 38794f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick // Check for infinite loop, either: 38894f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick // while (i >= Exit) or until (i < Exit) 38994f2c23d24b3ca682ea192f1d9a4e2c2e0f4eeb3Andrew Trick if (NewPred == CmpInst::ICMP_SGE || NewPred == CmpInst::ICMP_SLT) { 3901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (++Range == 0) return; // Range overflows. 3911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 3921a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick unsigned Leftover = Range % uint32_t(-IncValue); 3941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 3951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If this is an equality comparison, we require that the strided value 3961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // exactly land on the exit value, otherwise the IV condition will wrap 3971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // around and do things the fp IV wouldn't. 3981a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if ((NewPred == CmpInst::ICMP_EQ || NewPred == CmpInst::ICMP_NE) && 3991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Leftover != 0) 4001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 4011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If the stride would wrap around the i32 before exiting, we can't 4031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // transform the IV. 4041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Leftover != 0 && int32_t(ExitValue+IncValue) > ExitValue) 4051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 4061a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 4071a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 408db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner IntegerType *Int32Ty = Type::getInt32Ty(PN->getContext()); 4091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4101a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Insert new integer induction variable. 4111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHINode *NewPHI = PHINode::Create(Int32Ty, 2, PN->getName()+".int", PN); 4121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick NewPHI->addIncoming(ConstantInt::get(Int32Ty, InitValue), 4131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PN->getIncomingBlock(IncomingEdge)); 4141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value *NewAdd = 4161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BinaryOperator::CreateAdd(NewPHI, ConstantInt::get(Int32Ty, IncValue), 4171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Incr->getName()+".int", Incr); 4181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick NewPHI->addIncoming(NewAdd, PN->getIncomingBlock(BackEdge)); 4191a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ICmpInst *NewCompare = new ICmpInst(TheBr, NewPred, NewAdd, 4211a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ConstantInt::get(Int32Ty, ExitValue), 4221a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Compare->getName()); 4231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // In the following deletions, PN may become dead and may be deleted. 4251a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Use a WeakVH to observe whether this happens. 4261a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick WeakVH WeakPH = PN; 4271a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4281a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Delete the old floating point exit comparison. The branch starts using the 4291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // new comparison. 4301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick NewCompare->takeName(Compare); 4311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Compare->replaceAllUsesWith(NewCompare); 4321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick RecursivelyDeleteTriviallyDeadInstructions(Compare); 4331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Delete the old floating point increment. 4351a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Incr->replaceAllUsesWith(UndefValue::get(Incr->getType())); 4361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick RecursivelyDeleteTriviallyDeadInstructions(Incr); 4371a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4381a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If the FP induction variable still has uses, this is because something else 4391a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // in the loop uses its value. In order to canonicalize the induction 4401a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // variable, we chose to eliminate the IV and rewrite it in terms of an 4411a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // int->fp cast. 4421a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // 4431a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // We give preference to sitofp over uitofp because it is faster on most 4441a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // platforms. 4451a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (WeakPH) { 4461a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value *Conv = new SIToFPInst(NewPHI, PN->getType(), "indvar.conv", 447b05fdd6babada25da2ec3ba54bb462c2ecfc42a8Bill Wendling PN->getParent()->getFirstInsertionPt()); 4481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PN->replaceAllUsesWith(Conv); 4491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick RecursivelyDeleteTriviallyDeadInstructions(PN); 4501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 4511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Add a new IVUsers entry for the newly-created integer PHI. 4531a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (IU) 4541a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick IU->AddUsersIfInteresting(NewPHI); 4554b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 4564b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick Changed = true; 4571a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 4581a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4591a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickvoid IndVarSimplify::RewriteNonIntegerIVs(Loop *L) { 4601a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // First step. Check to see if there are any floating-point recurrences. 4611a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If there are, change them into integer recurrences, permitting analysis by 4621a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // the SCEV routines. 4631a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // 4641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BasicBlock *Header = L->getHeader(); 4651a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4661a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SmallVector<WeakVH, 8> PHIs; 4671a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick for (BasicBlock::iterator I = Header->begin(); 4681a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHINode *PN = dyn_cast<PHINode>(I); ++I) 4691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHIs.push_back(PN); 4701a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick for (unsigned i = 0, e = PHIs.size(); i != e; ++i) 4721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (PHINode *PN = dyn_cast_or_null<PHINode>(&*PHIs[i])) 4731a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick HandleFloatingPointIV(L, PN); 4741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4751a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If the loop previously had floating-point IV, ScalarEvolution 4761a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // may not have been able to compute a trip count. Now that we've done some 4771a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // re-writing, the trip count may be computable. 4781a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Changed) 4791a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SE->forgetLoop(L); 4801a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 4811a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4821a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 4831a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// RewriteLoopExitValues - Optimize IV users outside the loop. 4841a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// As a side effect, reduces the amount of IV processing within the loop. 4851a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 4861a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 4871a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// RewriteLoopExitValues - Check to see if this loop has a computable 4881a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// loop-invariant execution count. If so, this means that we can compute the 4891a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// final value of any expressions that are recurrent in the loop, and 4901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// substitute the exit values from the loop into any instructions outside of 4911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// the loop that use the final values of the current expressions. 4921a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// 4931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// This is mostly redundant with the regular IndVarSimplify activities that 4941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// happen later, except that it's more powerful in some cases, because it's 4951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// able to brute-force evaluate arbitrary instructions as long as they have 4961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// constant operands at the beginning of the loop. 4971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickvoid IndVarSimplify::RewriteLoopExitValues(Loop *L, SCEVExpander &Rewriter) { 4981a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Verify the input to the pass in already in LCSSA form. 4991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick assert(L->isLCSSAForm(*DT)); 5001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 5011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SmallVector<BasicBlock*, 8> ExitBlocks; 5029f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner L->getUniqueExitBlocks(ExitBlocks); 5039f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner 5049f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // Find all values that are computed inside the loop, but used outside of it. 5059f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // Because of LCSSA, these values will only occur in LCSSA PHI Nodes. Scan 5069f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // the exit blocks of the loop to find them. 5079f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner for (unsigned i = 0, e = ExitBlocks.size(); i != e; ++i) { 5089f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner BasicBlock *ExitBB = ExitBlocks[i]; 509cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 5109f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // If there are no PHI nodes in this exit block, then no values defined 5119f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // inside the loop are used on this path, skip it. 5129f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner PHINode *PN = dyn_cast<PHINode>(ExitBB->begin()); 5139f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner if (!PN) continue; 514cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 5159f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner unsigned NumPreds = PN->getNumIncomingValues(); 516cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 5179f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // Iterate over all of the PHI nodes. 5189f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner BasicBlock::iterator BBI = ExitBB->begin(); 5199f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner while ((PN = dyn_cast<PHINode>(BBI++))) { 5203790fb0c036acaa4db50aff83dd8b3bf51f8af6aTorok Edwin if (PN->use_empty()) 5213790fb0c036acaa4db50aff83dd8b3bf51f8af6aTorok Edwin continue; // dead use, don't replace it 522814f2b2d1927a5397c0e923588527277b9f67d6bDan Gohman 523814f2b2d1927a5397c0e923588527277b9f67d6bDan Gohman // SCEV only supports integer expressions for now. 524814f2b2d1927a5397c0e923588527277b9f67d6bDan Gohman if (!PN->getType()->isIntegerTy() && !PN->getType()->isPointerTy()) 525814f2b2d1927a5397c0e923588527277b9f67d6bDan Gohman continue; 526814f2b2d1927a5397c0e923588527277b9f67d6bDan Gohman 52745a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen // It's necessary to tell ScalarEvolution about this explicitly so that 52845a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen // it can walk the def-use list and forget all SCEVs, as it may not be 52945a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen // watching the PHI itself. Once the new exit value is in place, there 53045a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen // may not be a def-use connection between the loop and every instruction 53145a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen // which got a SCEVAddRecExpr for that loop. 53245a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen SE->forgetValue(PN); 53345a2d7d44ae697e28df383d31455145fb754ac58Dale Johannesen 5349f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // Iterate over all of the values in all the PHI nodes. 5359f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner for (unsigned i = 0; i != NumPreds; ++i) { 5369f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // If the value being merged in is not integer or is not defined 5379f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // in the loop, skip it. 5389f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner Value *InVal = PN->getIncomingValue(i); 539814f2b2d1927a5397c0e923588527277b9f67d6bDan Gohman if (!isa<Instruction>(InVal)) 5409f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner continue; 5419f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner 5429f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // If this pred is for a subloop, not L itself, skip it. 543cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman if (LI->getLoopFor(PN->getIncomingBlock(i)) != L) 5449f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner continue; // The Block is in a subloop, skip it. 5459f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner 5469f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // Check that InVal is defined in the loop. 5479f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner Instruction *Inst = cast<Instruction>(InVal); 54892329c7fbe572892c17aa2d2542a10e3ea16132fDan Gohman if (!L->contains(Inst)) 5499f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner continue; 550cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 5519f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // Okay, this instruction has a user outside of the current loop 5529f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // and varies predictably *inside* the loop. Evaluate the value it 5539f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner // contains when the loop exits, if possible. 5540bba49cebc50c7bd4662a4807bcb3ee7f42cb470Dan Gohman const SCEV *ExitValue = SE->getSCEVAtScope(Inst, L->getParentLoop()); 55517ead4ff4baceb2c5503f233d0288d363ae44165Dan Gohman if (!SE->isLoopInvariant(ExitValue, L)) 5569f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner continue; 5579f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner 558667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman Value *ExitVal = Rewriter.expandCodeFor(ExitValue, PN->getType(), Inst); 559cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 560f67ef318aa29e7cc0c7de76349881959936d9eeeDavid Greene DEBUG(dbgs() << "INDVARS: RLEV: AfterLoopVal = " << *ExitVal << '\n' 561bdff548e4dd577a72094d57b282de4e765643b96Chris Lattner << " LoopVal = " << *Inst << "\n"); 5629caed5440d59dac4b388152fe8b993dc0491e5e9Chris Lattner 563b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (!isValidRewrite(Inst, ExitVal)) { 564b12a754cce0c1d5542af605203a47820edba454dAndrew Trick DeadInsts.push_back(ExitVal); 565b12a754cce0c1d5542af605203a47820edba454dAndrew Trick continue; 566b12a754cce0c1d5542af605203a47820edba454dAndrew Trick } 567b12a754cce0c1d5542af605203a47820edba454dAndrew Trick Changed = true; 568b12a754cce0c1d5542af605203a47820edba454dAndrew Trick ++NumReplaced; 569b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 5709f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner PN->setIncomingValue(i, ExitVal); 571cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 57281db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // If this instruction is dead now, delete it. 57381db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman RecursivelyDeleteTriviallyDeadInstructions(Inst); 574cafb81337bdf2574049533f5b8a6bc1ed92f1f3eDan Gohman 57565d1e2b6e74fcd370093cbe518ebc15cbc445ad4Dan Gohman if (NumPreds == 1) { 57665d1e2b6e74fcd370093cbe518ebc15cbc445ad4Dan Gohman // Completely replace a single-pred PHI. This is safe, because the 57765d1e2b6e74fcd370093cbe518ebc15cbc445ad4Dan Gohman // NewVal won't be variant in the loop, so we don't need an LCSSA phi 57865d1e2b6e74fcd370093cbe518ebc15cbc445ad4Dan Gohman // node anymore. 5799f3d73886612fd06812fb63cf8e6fa10db9b17e7Chris Lattner PN->replaceAllUsesWith(ExitVal); 58081db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman RecursivelyDeleteTriviallyDeadInstructions(PN); 581c9838f25d53d3dd7d38949ef6c28f2505a110f45Chris Lattner } 5824bd09d70cceb3851f7eb1c2f98338b3071d405f3Chris Lattner } 58365d1e2b6e74fcd370093cbe518ebc15cbc445ad4Dan Gohman if (NumPreds != 1) { 584667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman // Clone the PHI and delete the original one. This lets IVUsers and 585667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman // any other maps purge the original user from their records. 58650b6e33584f4e4cf75c7795b1f1a90731861c825Devang Patel PHINode *NewPN = cast<PHINode>(PN->clone()); 587667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman NewPN->takeName(PN); 588667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman NewPN->insertBefore(PN); 589667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman PN->replaceAllUsesWith(NewPN); 590667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman PN->eraseFromParent(); 591667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman } 592c9838f25d53d3dd7d38949ef6c28f2505a110f45Chris Lattner } 593c9838f25d53d3dd7d38949ef6c28f2505a110f45Chris Lattner } 594472fdf7090bb00af3a3f9dcbe22263120a527533Dan Gohman 595472fdf7090bb00af3a3f9dcbe22263120a527533Dan Gohman // The insertion point instruction may have been deleted; clear it out 596472fdf7090bb00af3a3f9dcbe22263120a527533Dan Gohman // so that the rewriter doesn't trip over it later. 597472fdf7090bb00af3a3f9dcbe22263120a527533Dan Gohman Rewriter.clearInsertPoint(); 59840bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner} 59915cad759fe2048ac5eb137c6bb0ab7287538677eChris Lattner 6001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 6011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// Rewrite IV users based on a canonical IV. 602f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick// Only for use with -enable-iv-rewrite. 6031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 604c671d892ab1d3d8fed18a61f66f3f3a86e73ebd9Dale Johannesen 60539d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// FIXME: It is an extremely bad idea to indvar substitute anything more 60639d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// complex than affine induction variables. Doing so will put expensive 60739d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// polynomial evaluations inside of the loop, and the str reduction pass 60839d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// currently can only reduce affine polynomials. For now just disable 60939d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// indvar subst on anything more complex than an affine addrec, unless 61039d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// it can be expanded to a trivial value. 6111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickstatic bool isSafe(const SCEV *S, const Loop *L, ScalarEvolution *SE) { 6121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Loop-invariant values are safe. 6131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (SE->isLoopInvariant(S, L)) return true; 614f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Affine addrecs are safe. Non-affine are not, because LSR doesn't know how 6161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // to transform them into efficient code. 6171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(S)) 6181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return AR->isAffine(); 619f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // An add is safe it all its operands are safe. 62139d7802224532c075f4c781c3e51ffed83d17420Andrew Trick if (const SCEVCommutativeExpr *Commutative 62239d7802224532c075f4c781c3e51ffed83d17420Andrew Trick = dyn_cast<SCEVCommutativeExpr>(S)) { 6231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick for (SCEVCommutativeExpr::op_iterator I = Commutative->op_begin(), 6241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick E = Commutative->op_end(); I != E; ++I) 6251a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!isSafe(*I, L, SE)) return false; 6261a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return true; 627f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 628f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // A cast is safe if its operand is. 6301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (const SCEVCastExpr *C = dyn_cast<SCEVCastExpr>(S)) 6311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return isSafe(C->getOperand(), L, SE); 632f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // A udiv is safe if its operands are. 6341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (const SCEVUDivExpr *UD = dyn_cast<SCEVUDivExpr>(S)) 6351a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return isSafe(UD->getLHS(), L, SE) && 6361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick isSafe(UD->getRHS(), L, SE); 637f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6381a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // SCEVUnknown is always safe. 6391a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (isa<SCEVUnknown>(S)) 6401a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return true; 641f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6421a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Nothing else is safe. 6431a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return false; 6441a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 645f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 6461a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickvoid IndVarSimplify::RewriteIVExpressions(Loop *L, SCEVExpander &Rewriter) { 6471a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Rewrite all induction variable expressions in terms of the canonical 6481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // induction variable. 6491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // 6501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If there were induction variables of other sizes or offsets, manually 6511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // add the offsets to the primary induction variable and cast, avoiding 6521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // the need for the code evaluation methods to insert induction variables 6531a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // of different sizes. 6541a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick for (IVUsers::iterator UI = IU->begin(), E = IU->end(); UI != E; ++UI) { 6551a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value *Op = UI->getOperandValToReplace(); 656db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *UseTy = Op->getType(); 6571a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Instruction *User = UI->getUser(); 6581a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6591a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Compute the final addrec to expand into code. 6601a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *AR = IU->getReplacementExpr(*UI); 6611a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6621a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Evaluate the expression out of the loop, if possible. 6631a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!L->contains(UI->getUser())) { 6641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *ExitVal = SE->getSCEVAtScope(AR, L->getParentLoop()); 6651a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (SE->isLoopInvariant(ExitVal, L)) 6661a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick AR = ExitVal; 6671a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 6681a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // FIXME: It is an extremely bad idea to indvar substitute anything more 6701a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // complex than affine induction variables. Doing so will put expensive 6711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // polynomial evaluations inside of the loop, and the str reduction pass 6721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // currently can only reduce affine polynomials. For now just disable 6731a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // indvar subst on anything more complex than an affine addrec, unless 6741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // it can be expanded to a trivial value. 6751a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!isSafe(AR, L, SE)) 6761a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick continue; 6771a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6781a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Determine the insertion point for this user. By default, insert 6791a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // immediately before the user. The SCEVExpander class will automatically 6801a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // hoist loop invariants out of the loop. For PHI nodes, there may be 6811a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // multiple uses, so compute the nearest common dominator for the 6821a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // incoming blocks. 68386c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick Instruction *InsertPt = getInsertPointForUses(User, Op, DT); 6841a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6851a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Now expand it into actual Instructions and patch it into place. 6861a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value *NewVal = Rewriter.expandCodeFor(AR, UseTy, InsertPt); 6871a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6881a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DEBUG(dbgs() << "INDVARS: Rewrote IV '" << *AR << "' " << *Op << '\n' 6891a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick << " into = " << *NewVal << "\n"); 6901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 6911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!isValidRewrite(Op, NewVal)) { 6921a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DeadInsts.push_back(NewVal); 6931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick continue; 6941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 6951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Inform ScalarEvolution that this value is changing. The change doesn't 6961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // affect its value, but it does potentially affect which use lists the 6971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // value will be on after the replacement, which affects ScalarEvolution's 6981a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // ability to walk use lists and drop dangling pointers when a value is 6991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // deleted. 7001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SE->forgetValue(User); 7011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Patch the new value into place. 7031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Op->hasName()) 7041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick NewVal->takeName(Op); 7051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Instruction *NewValI = dyn_cast<Instruction>(NewVal)) 7061a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick NewValI->setDebugLoc(User->getDebugLoc()); 7071a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick User->replaceUsesOfWith(Op, NewVal); 7081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick UI->setOperandValToReplace(NewVal); 7091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7101a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ++NumRemoved; 7111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Changed = true; 7121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // The old value may be dead now. 7141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DeadInsts.push_back(Op); 7151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 7161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 7171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 7191a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// IV Widening - Extend the width of an IV to cover its widest uses. 7201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 7211a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7221a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Tricknamespace { 7231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Collect information about induction variables that are used by sign/zero 7241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // extend operations. This information is recorded by CollectExtend and 7251a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // provides the input to WidenIV. 7261a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick struct WideIVInfo { 727513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick PHINode *NarrowIV; 728db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *WidestNativeType; // Widest integer type created [sz]ext 7294b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick bool IsSigned; // Was an sext user seen before a zext? 7301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 731513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick WideIVInfo() : NarrowIV(0), WidestNativeType(0), IsSigned(false) {} 7321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick }; 7334b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 7344b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick class WideIVVisitor : public IVVisitor { 7354b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick ScalarEvolution *SE; 7364b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick const TargetData *TD; 7374b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 7384b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick public: 7394b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick WideIVInfo WI; 7404b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 741513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick WideIVVisitor(PHINode *NarrowIV, ScalarEvolution *SCEV, 742513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick const TargetData *TData) : 743513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick SE(SCEV), TD(TData) { WI.NarrowIV = NarrowIV; } 7444b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 7454b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick // Implement the interface used by simplifyUsersOfIV. 7464b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick virtual void visitCast(CastInst *Cast); 7474b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick }; 7481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 7491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7504b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick/// visitCast - Update information about the induction variable that is 7511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// extended by this sign or zero extend operation. This is used to determine 7521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// the final width of the IV before actually widening it. 7534b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trickvoid WideIVVisitor::visitCast(CastInst *Cast) { 7544b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick bool IsSigned = Cast->getOpcode() == Instruction::SExt; 7554b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick if (!IsSigned && Cast->getOpcode() != Instruction::ZExt) 7564b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick return; 7574b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick 758db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *Ty = Cast->getType(); 7591a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick uint64_t Width = SE->getTypeSizeInBits(Ty); 7601a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (TD && !TD->isLegalInteger(Width)) 7611a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 7621a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7631a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!WI.WidestNativeType) { 7641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick WI.WidestNativeType = SE->getEffectiveSCEVType(Ty); 7651a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick WI.IsSigned = IsSigned; 7661a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 7671a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 7681a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // We extend the IV to satisfy the sign of its first user, arbitrarily. 7701a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (WI.IsSigned != IsSigned) 7711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return; 7721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7731a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Width > SE->getTypeSizeInBits(WI.WidestNativeType)) 7741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick WI.WidestNativeType = SE->getEffectiveSCEVType(Ty); 7751a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 7761a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 7771a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Tricknamespace { 77813bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick 77913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick/// NarrowIVDefUse - Record a link in the Narrow IV def-use chain along with the 78013bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick/// WideIV that computes the same value as the Narrow IV def. This avoids 78113bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick/// caching Use* pointers. 78213bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trickstruct NarrowIVDefUse { 78313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *NarrowDef; 78413bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *NarrowUse; 78513bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *WideDef; 78613bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick 78713bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NarrowIVDefUse(): NarrowDef(0), NarrowUse(0), WideDef(0) {} 78813bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick 78913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NarrowIVDefUse(Instruction *ND, Instruction *NU, Instruction *WD): 79013bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NarrowDef(ND), NarrowUse(NU), WideDef(WD) {} 79113bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick}; 79213bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick 7931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// WidenIV - The goal of this transform is to remove sign and zero extends 7941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// without creating any new induction variables. To do this, it creates a new 7951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// phi of the wider type and redirects all users, either removing extends or 7961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// inserting truncs whenever we stop propagating the type. 7971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// 7981a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickclass WidenIV { 7991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Parameters 8001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHINode *OrigPhi; 801db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *WideType; 8021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick bool IsSigned; 8031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 8041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Context 8051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick LoopInfo *LI; 8061a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Loop *L; 8071a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ScalarEvolution *SE; 8081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DominatorTree *DT; 8091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 8101a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Result 8111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHINode *WidePhi; 8121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Instruction *WideInc; 8131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *WideIncExpr; 8142fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick SmallVectorImpl<WeakVH> &DeadInsts; 815f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 8162fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick SmallPtrSet<Instruction*,16> Widened; 81713bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick SmallVector<NarrowIVDefUse, 8> NarrowIVUsers; 818f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 819f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trickpublic: 820513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick WidenIV(const WideIVInfo &WI, LoopInfo *LInfo, 8212fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick ScalarEvolution *SEv, DominatorTree *DTree, 822fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick SmallVectorImpl<WeakVH> &DI) : 823513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick OrigPhi(WI.NarrowIV), 8242fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick WideType(WI.WidestNativeType), 8252fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick IsSigned(WI.IsSigned), 826f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick LI(LInfo), 827f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick L(LI->getLoopFor(OrigPhi->getParent())), 828f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick SE(SEv), 829fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick DT(DTree), 830f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick WidePhi(0), 831f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick WideInc(0), 8322fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick WideIncExpr(0), 8332fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick DeadInsts(DI) { 834f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick assert(L->getHeader() == OrigPhi->getParent() && "Phi must be an IV"); 835f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 836f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 8372fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick PHINode *CreateWideIV(SCEVExpander &Rewriter); 838f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 839f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trickprotected: 840909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick Value *getExtend(Value *NarrowOper, Type *WideType, bool IsSigned, 841909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick Instruction *Use); 842909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick 84313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *CloneIVUser(NarrowIVDefUse DU); 844f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 845e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick const SCEVAddRecExpr *GetWideRecurrence(Instruction *NarrowUse); 846e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick 84720151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick const SCEVAddRecExpr* GetExtendedOperandRecurrence(NarrowIVDefUse DU); 84820151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick 84913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *WidenIVUse(NarrowIVDefUse DU); 8504b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 8514b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick void pushNarrowIVUsers(Instruction *NarrowDef, Instruction *WideDef); 852f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick}; 853f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick} // anonymous namespace 854f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 855909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick/// isLoopInvariant - Perform a quick domtree based check for loop invariance 856909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick/// assuming that V is used within the loop. LoopInfo::isLoopInvariant() seems 857909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick/// gratuitous for this purpose. 858909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trickstatic bool isLoopInvariant(Value *V, const Loop *L, const DominatorTree *DT) { 859909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick Instruction *Inst = dyn_cast<Instruction>(V); 860909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick if (!Inst) 861909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick return true; 862909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick 863909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick return DT->properlyDominates(Inst->getParent(), L->getHeader()); 864909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick} 865909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick 866909ef7db3dad5247648e1e89a34f1382815442b8Andrew TrickValue *WidenIV::getExtend(Value *NarrowOper, Type *WideType, bool IsSigned, 867909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick Instruction *Use) { 868909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick // Set the debug location and conservative insertion point. 869909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick IRBuilder<> Builder(Use); 870909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick // Hoist the insertion point into loop preheaders as far as possible. 871909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick for (const Loop *L = LI->getLoopFor(Use->getParent()); 872909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick L && L->getLoopPreheader() && isLoopInvariant(NarrowOper, L, DT); 873909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick L = L->getParentLoop()) 874909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick Builder.SetInsertPoint(L->getLoopPreheader()->getTerminator()); 875909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick 87603d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick return IsSigned ? Builder.CreateSExt(NarrowOper, WideType) : 87703d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick Builder.CreateZExt(NarrowOper, WideType); 878f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick} 879931e345e76e75391d2a7c96530e305f802b5429dDan Gohman 880f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// CloneIVUser - Instantiate a wide operation to replace a narrow 881f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// operation. This only needs to handle operations that can evaluation to 882f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// SCEVAddRec. It can safely return 0 for any operation we decide not to clone. 88313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew TrickInstruction *WidenIV::CloneIVUser(NarrowIVDefUse DU) { 88413bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick unsigned Opcode = DU.NarrowUse->getOpcode(); 885f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick switch (Opcode) { 886f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick default: 887f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return 0; 888f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::Add: 889f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::Mul: 890f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::UDiv: 891f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::Sub: 892f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::And: 893f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::Or: 894f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::Xor: 895f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::Shl: 896f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::LShr: 897f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick case Instruction::AShr: 89813bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DEBUG(dbgs() << "Cloning IVUser: " << *DU.NarrowUse << "\n"); 899f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 90003d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // Replace NarrowDef operands with WideDef. Otherwise, we don't know 90103d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // anything about the narrow operand yet so must insert a [sz]ext. It is 90203d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // probably loop invariant and will be folded or hoisted. If it actually 90303d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // comes from a widened IV, it should be removed during a future call to 90403d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // WidenIVUse. 90513bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Value *LHS = (DU.NarrowUse->getOperand(0) == DU.NarrowDef) ? DU.WideDef : 906909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick getExtend(DU.NarrowUse->getOperand(0), WideType, IsSigned, DU.NarrowUse); 90713bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Value *RHS = (DU.NarrowUse->getOperand(1) == DU.NarrowDef) ? DU.WideDef : 908909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick getExtend(DU.NarrowUse->getOperand(1), WideType, IsSigned, DU.NarrowUse); 90903d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick 91013bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick BinaryOperator *NarrowBO = cast<BinaryOperator>(DU.NarrowUse); 911f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick BinaryOperator *WideBO = BinaryOperator::Create(NarrowBO->getOpcode(), 91203d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick LHS, RHS, 913f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick NarrowBO->getName()); 914909ef7db3dad5247648e1e89a34f1382815442b8Andrew Trick IRBuilder<> Builder(DU.NarrowUse); 915f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick Builder.Insert(WideBO); 9166e0ce24e0ca8b0dc05872b9b4cec3a18972bee40Andrew Trick if (const OverflowingBinaryOperator *OBO = 9176e0ce24e0ca8b0dc05872b9b4cec3a18972bee40Andrew Trick dyn_cast<OverflowingBinaryOperator>(NarrowBO)) { 9186e0ce24e0ca8b0dc05872b9b4cec3a18972bee40Andrew Trick if (OBO->hasNoUnsignedWrap()) WideBO->setHasNoUnsignedWrap(); 9196e0ce24e0ca8b0dc05872b9b4cec3a18972bee40Andrew Trick if (OBO->hasNoSignedWrap()) WideBO->setHasNoSignedWrap(); 9206e0ce24e0ca8b0dc05872b9b4cec3a18972bee40Andrew Trick } 92103d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick return WideBO; 922f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 923f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick llvm_unreachable(0); 924f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick} 925f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 92620151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick/// No-wrap operations can transfer sign extension of their result to their 92720151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick/// operands. Generate the SCEV value for the widened operation without 92820151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick/// actually modifying the IR yet. If the expression after extending the 92920151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick/// operands is an AddRec for this loop, return it. 93020151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trickconst SCEVAddRecExpr* WidenIV::GetExtendedOperandRecurrence(NarrowIVDefUse DU) { 93120151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick // Handle the common case of add<nsw/nuw> 93220151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick if (DU.NarrowUse->getOpcode() != Instruction::Add) 93320151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick return 0; 93420151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick 93520151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick // One operand (NarrowDef) has already been extended to WideDef. Now determine 93620151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick // if extending the other will lead to a recurrence. 93720151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick unsigned ExtendOperIdx = DU.NarrowUse->getOperand(0) == DU.NarrowDef ? 1 : 0; 93820151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick assert(DU.NarrowUse->getOperand(1-ExtendOperIdx) == DU.NarrowDef && "bad DU"); 93920151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick 94020151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick const SCEV *ExtendOperExpr = 0; 94120151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick const OverflowingBinaryOperator *OBO = 94220151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick cast<OverflowingBinaryOperator>(DU.NarrowUse); 94320151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick if (IsSigned && OBO->hasNoSignedWrap()) 94420151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick ExtendOperExpr = SE->getSignExtendExpr( 94520151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick SE->getSCEV(DU.NarrowUse->getOperand(ExtendOperIdx)), WideType); 94620151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick else if(!IsSigned && OBO->hasNoUnsignedWrap()) 94720151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick ExtendOperExpr = SE->getZeroExtendExpr( 94820151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick SE->getSCEV(DU.NarrowUse->getOperand(ExtendOperIdx)), WideType); 94920151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick else 95020151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick return 0; 95120151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick 952ecb35ece5c42d89057da3c2c7bc2e95f08b1dbefAndrew Trick // When creating this AddExpr, don't apply the current operations NSW or NUW 953ecb35ece5c42d89057da3c2c7bc2e95f08b1dbefAndrew Trick // flags. This instruction may be guarded by control flow that the no-wrap 954ecb35ece5c42d89057da3c2c7bc2e95f08b1dbefAndrew Trick // behavior depends on. Non-control-equivalent instructions can be mapped to 955ecb35ece5c42d89057da3c2c7bc2e95f08b1dbefAndrew Trick // the same SCEV expression, and it would be incorrect to transfer NSW/NUW 956ecb35ece5c42d89057da3c2c7bc2e95f08b1dbefAndrew Trick // semantics to those operations. 95720151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick const SCEVAddRecExpr *AddRec = dyn_cast<SCEVAddRecExpr>( 958ecb35ece5c42d89057da3c2c7bc2e95f08b1dbefAndrew Trick SE->getAddExpr(SE->getSCEV(DU.WideDef), ExtendOperExpr)); 95920151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick 96020151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick if (!AddRec || AddRec->getLoop() != L) 96120151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick return 0; 96220151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick return AddRec; 96320151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick} 96420151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick 96539d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// GetWideRecurrence - Is this instruction potentially interesting from 96639d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// IVUsers' perspective after widening it's type? In other words, can the 96739d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// extend be safely hoisted out of the loop with SCEV reducing the value to a 96839d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// recurrence on the same loop. If so, return the sign or zero extended 96939d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// recurrence. Otherwise return NULL. 970e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trickconst SCEVAddRecExpr *WidenIV::GetWideRecurrence(Instruction *NarrowUse) { 971e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick if (!SE->isSCEVable(NarrowUse->getType())) 972e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick return 0; 973e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick 974e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick const SCEV *NarrowExpr = SE->getSCEV(NarrowUse); 975e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick if (SE->getTypeSizeInBits(NarrowExpr->getType()) 976e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick >= SE->getTypeSizeInBits(WideType)) { 977e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick // NarrowUse implicitly widens its operand. e.g. a gep with a narrow 978e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick // index. So don't follow this use. 979e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick return 0; 980e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick } 981e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick 982e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick const SCEV *WideExpr = IsSigned ? 983e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick SE->getSignExtendExpr(NarrowExpr, WideType) : 984e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick SE->getZeroExtendExpr(NarrowExpr, WideType); 985e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick const SCEVAddRecExpr *AddRec = dyn_cast<SCEVAddRecExpr>(WideExpr); 986e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick if (!AddRec || AddRec->getLoop() != L) 987e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick return 0; 988e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick return AddRec; 989e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick} 990e0dc2faaa0105c9d1cc56f0b70e93d532a6f8c4cAndrew Trick 991f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// WidenIVUse - Determine whether an individual user of the narrow IV can be 992f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// widened. If so, return the wide clone of the user. 99313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew TrickInstruction *WidenIV::WidenIVUse(NarrowIVDefUse DU) { 994cc359d9fa28a871b18d93da76fd9cf516499e39fAndrew Trick 9954b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick // Stop traversing the def-use chain at inner-loop phis or post-loop phis. 99613bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick if (isa<PHINode>(DU.NarrowUse) && 99713bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick LI->getLoopFor(DU.NarrowUse->getParent()) != L) 998f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return 0; 999f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1000f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Our raison d'etre! Eliminate sign and zero extension. 100113bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick if (IsSigned ? isa<SExtInst>(DU.NarrowUse) : isa<ZExtInst>(DU.NarrowUse)) { 100213bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Value *NewDef = DU.WideDef; 100313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick if (DU.NarrowUse->getType() != WideType) { 100413bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick unsigned CastWidth = SE->getTypeSizeInBits(DU.NarrowUse->getType()); 100503d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick unsigned IVWidth = SE->getTypeSizeInBits(WideType); 100603d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick if (CastWidth < IVWidth) { 100703d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // The cast isn't as wide as the IV, so insert a Trunc. 100813bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick IRBuilder<> Builder(DU.NarrowUse); 100913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NewDef = Builder.CreateTrunc(DU.WideDef, DU.NarrowUse->getType()); 101003d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick } 101103d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick else { 101203d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // A wider extend was hidden behind a narrower one. This may induce 101303d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // another round of IV widening in which the intermediate IV becomes 101403d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // dead. It should be very rare. 101503d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick DEBUG(dbgs() << "INDVARS: New IV " << *WidePhi 101613bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick << " not wide enough to subsume " << *DU.NarrowUse << "\n"); 101713bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DU.NarrowUse->replaceUsesOfWith(DU.NarrowDef, DU.WideDef); 101813bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NewDef = DU.NarrowUse; 101903d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick } 102003d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick } 102113bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick if (NewDef != DU.NarrowUse) { 102213bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DEBUG(dbgs() << "INDVARS: eliminating " << *DU.NarrowUse 102313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick << " replaced by " << *DU.WideDef << "\n"); 102403d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick ++NumElimExt; 102513bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DU.NarrowUse->replaceAllUsesWith(NewDef); 102613bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DeadInsts.push_back(DU.NarrowUse); 102703d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick } 10282fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // Now that the extend is gone, we want to expose it's uses for potential 10292fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // further simplification. We don't need to directly inform SimplifyIVUsers 10302fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // of the new users, because their parent IV will be processed later as a 10312fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // new loop phi. If we preserved IVUsers analysis, we would also want to 10322fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // push the uses of WideDef here. 1033f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1034f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // No further widening is needed. The deceased [sz]ext had done it for us. 1035f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return 0; 1036f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 10374b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 10384b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick // Does this user itself evaluate to a recurrence after widening? 103913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick const SCEVAddRecExpr *WideAddRec = GetWideRecurrence(DU.NarrowUse); 1040f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick if (!WideAddRec) { 104120151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick WideAddRec = GetExtendedOperandRecurrence(DU); 104220151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick } 104320151da8c38287b9fa181e9fef93f70bc2cd9fd2Andrew Trick if (!WideAddRec) { 1044f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // This user does not evaluate to a recurence after widening, so don't 1045f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // follow it. Instead insert a Trunc to kill off the original use, 1046f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // eventually isolating the original narrow IV so it can be removed. 104786c98145b268a0d10e062792f98bc8eea6b639b4Andrew Trick IRBuilder<> Builder(getInsertPointForUses(DU.NarrowUse, DU.NarrowDef, DT)); 104813bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Value *Trunc = Builder.CreateTrunc(DU.WideDef, DU.NarrowDef->getType()); 104913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DU.NarrowUse->replaceUsesOfWith(DU.NarrowDef, Trunc); 1050f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return 0; 1051f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 1052fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Assume block terminators cannot evaluate to a recurrence. We can't to 10534b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick // insert a Trunc after a terminator if there happens to be a critical edge. 105413bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick assert(DU.NarrowUse != DU.NarrowUse->getParent()->getTerminator() && 10554b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick "SCEV is not expected to evaluate a block terminator"); 1056cc359d9fa28a871b18d93da76fd9cf516499e39fAndrew Trick 1057fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick // Reuse the IV increment that SCEVExpander created as long as it dominates 1058fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick // NarrowUse. 1059f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick Instruction *WideUse = 0; 1060204494149b6f846e8f173f525b129f5508076049Andrew Trick if (WideAddRec == WideIncExpr 1061204494149b6f846e8f173f525b129f5508076049Andrew Trick && SCEVExpander::hoistStep(WideInc, DU.NarrowUse, DT)) 1062f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick WideUse = WideInc; 1063f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick else { 106413bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick WideUse = CloneIVUser(DU); 1065f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick if (!WideUse) 1066f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return 0; 1067f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 10684b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick // Evaluation of WideAddRec ensured that the narrow expression could be 10694b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick // extended outside the loop without overflow. This suggests that the wide use 1070f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // evaluates to the same expression as the extended narrow use, but doesn't 1071f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // absolutely guarantee it. Hence the following failsafe check. In rare cases 10722fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // where it fails, we simply throw away the newly created wide use. 1073f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick if (WideAddRec != SE->getSCEV(WideUse)) { 1074f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick DEBUG(dbgs() << "Wide use expression mismatch: " << *WideUse 1075f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick << ": " << *SE->getSCEV(WideUse) << " != " << *WideAddRec << "\n"); 1076f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick DeadInsts.push_back(WideUse); 1077f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return 0; 1078f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick } 1079f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1080f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Returning WideUse pushes it on the worklist. 1081f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick return WideUse; 1082f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick} 1083f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 10844b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick/// pushNarrowIVUsers - Add eligible users of NarrowDef to NarrowIVUsers. 10854b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick/// 10864b02915386046fa882a95553a7457ae7d05e9f27Andrew Trickvoid WidenIV::pushNarrowIVUsers(Instruction *NarrowDef, Instruction *WideDef) { 10874b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick for (Value::use_iterator UI = NarrowDef->use_begin(), 10884b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick UE = NarrowDef->use_end(); UI != UE; ++UI) { 108913bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *NarrowUse = cast<Instruction>(*UI); 10904b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 10914b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick // Handle data flow merges and bizarre phi cycles. 109213bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick if (!Widened.insert(NarrowUse)) 10934b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick continue; 10944b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 109513bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NarrowIVUsers.push_back(NarrowIVDefUse(NarrowDef, NarrowUse, WideDef)); 10964b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick } 10974b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick} 10984b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 1099f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// CreateWideIV - Process a single induction variable. First use the 1100f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// SCEVExpander to create a wide induction variable that evaluates to the same 1101f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// recurrence as the original narrow IV. Then use a worklist to forward 11022fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick/// traverse the narrow IV's def-use chain. After WidenIVUse has processed all 1103f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// interesting IV users, the narrow IV will be isolated for removal by 1104f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// DeleteDeadPHIs. 1105f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// 1106f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// It would be simpler to delete uses as they are processed, but we must avoid 1107f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// invalidating SCEV expressions. 1108f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick/// 11092fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew TrickPHINode *WidenIV::CreateWideIV(SCEVExpander &Rewriter) { 1110f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Is this phi an induction variable? 1111f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick const SCEVAddRecExpr *AddRec = dyn_cast<SCEVAddRecExpr>(SE->getSCEV(OrigPhi)); 1112f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick if (!AddRec) 11132fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick return NULL; 1114f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1115f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Widen the induction variable expression. 1116f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick const SCEV *WideIVExpr = IsSigned ? 1117f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick SE->getSignExtendExpr(AddRec, WideType) : 1118f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick SE->getZeroExtendExpr(AddRec, WideType); 1119f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1120f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick assert(SE->getEffectiveSCEVType(WideIVExpr->getType()) == WideType && 1121f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick "Expect the new IV expression to preserve its type"); 1122f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1123f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Can the IV be extended outside the loop without overflow? 1124f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick AddRec = dyn_cast<SCEVAddRecExpr>(WideIVExpr); 1125f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick if (!AddRec || AddRec->getLoop() != L) 11262fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick return NULL; 1127f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 11282fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick // An AddRec must have loop-invariant operands. Since this AddRec is 1129f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // materialized by a loop header phi, the expression cannot have any post-loop 1130f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // operands, so they must dominate the loop header. 1131f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick assert(SE->properlyDominates(AddRec->getStart(), L->getHeader()) && 1132f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick SE->properlyDominates(AddRec->getStepRecurrence(*SE), L->getHeader()) 1133f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick && "Loop header phi recurrence inputs do not dominate the loop"); 1134f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1135f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // The rewriter provides a value for the desired IV expression. This may 1136f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // either find an existing phi or materialize a new one. Either way, we 1137f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // expect a well-formed cyclic phi-with-increments. i.e. any operand not part 1138f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // of the phi-SCC dominates the loop entry. 1139f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick Instruction *InsertPt = L->getHeader()->begin(); 1140f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick WidePhi = cast<PHINode>(Rewriter.expandCodeFor(AddRec, WideType, InsertPt)); 1141f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1142f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Remembering the WideIV increment generated by SCEVExpander allows 1143f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // WidenIVUse to reuse it when widening the narrow IV's increment. We don't 1144f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // employ a general reuse mechanism because the call above is the only call to 1145f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // SCEVExpander. Henceforth, we produce 1-to-1 narrow to wide uses. 1146fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick if (BasicBlock *LatchBlock = L->getLoopLatch()) { 1147fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick WideInc = 1148fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick cast<Instruction>(WidePhi->getIncomingValueForBlock(LatchBlock)); 1149fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick WideIncExpr = SE->getSCEV(WideInc); 1150fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick } 1151f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1152f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick DEBUG(dbgs() << "Wide IV: " << *WidePhi << "\n"); 1153f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick ++NumWidened; 1154f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1155f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick // Traverse the def-use chain using a worklist starting at the original IV. 11564b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick assert(Widened.empty() && NarrowIVUsers.empty() && "expect initial state" ); 11574b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 11584b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick Widened.insert(OrigPhi); 11594b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick pushNarrowIVUsers(OrigPhi, WidePhi); 1160f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick 1161f85092c25525f75eef6982ffa40c9b48b87da987Andrew Trick while (!NarrowIVUsers.empty()) { 116213bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick NarrowIVDefUse DU = NarrowIVUsers.pop_back_val(); 1163fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick 1164fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick // Process a def-use edge. This may replace the use, so don't hold a 1165fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick // use_iterator across it. 116613bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick Instruction *WideUse = WidenIVUse(DU); 1167fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick 1168fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick // Follow all def-use edges from the previous narrow use. 11694b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick if (WideUse) 117013bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick pushNarrowIVUsers(DU.NarrowUse, WideUse); 11714b02915386046fa882a95553a7457ae7d05e9f27Andrew Trick 1172fcdc9a44e59ff2846c6f929e91c90ee34e6ba5d5Andrew Trick // WidenIVUse may have removed the def-use edge. 117313bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick if (DU.NarrowDef->use_empty()) 117413bcf2e68a88cb87378c9773effa5b79b3091d75Andrew Trick DeadInsts.push_back(DU.NarrowDef); 1175931e345e76e75391d2a7c96530e305f802b5429dDan Gohman } 11762fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick return WidePhi; 1177931e345e76e75391d2a7c96530e305f802b5429dDan Gohman} 1178931e345e76e75391d2a7c96530e305f802b5429dDan Gohman 11791a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 11801a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// Simplification of IV users based on SCEV evaluation. 11811a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 11821a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 118306988bcf6a5c74e81cf7e76f06a686aa822ec00aAndrew Trick 11844b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick/// SimplifyAndExtend - Iteratively perform simplification on a worklist of IV 11854b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick/// users. Each successive simplification may push more users which may 11862fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick/// themselves be candidates for simplification. 11872fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick/// 11884b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick/// Sign/Zero extend elimination is interleaved with IV simplification. 11892fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick/// 11904b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trickvoid IndVarSimplify::SimplifyAndExtend(Loop *L, 11914b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick SCEVExpander &Rewriter, 11924b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick LPPassManager &LPM) { 1193513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick SmallVector<WideIVInfo, 8> WideIVs; 119415832f61775040995bb8aa6056176425bc2c9088Andrew Trick 11952fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick SmallVector<PHINode*, 8> LoopPhis; 11962fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick for (BasicBlock::iterator I = L->getHeader()->begin(); isa<PHINode>(I); ++I) { 11972fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick LoopPhis.push_back(cast<PHINode>(I)); 11982fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick } 119915832f61775040995bb8aa6056176425bc2c9088Andrew Trick // Each round of simplification iterates through the SimplifyIVUsers worklist 120015832f61775040995bb8aa6056176425bc2c9088Andrew Trick // for all current phis, then determines whether any IVs can be 120115832f61775040995bb8aa6056176425bc2c9088Andrew Trick // widened. Widening adds new phis to LoopPhis, inducing another round of 120215832f61775040995bb8aa6056176425bc2c9088Andrew Trick // simplification on the wide IVs. 12032fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick while (!LoopPhis.empty()) { 120415832f61775040995bb8aa6056176425bc2c9088Andrew Trick // Evaluate as many IV expressions as possible before widening any IVs. This 120599a92f67c7ee0d428e18f35c91311a2baba6c03eAndrew Trick // forces SCEV to set no-wrap flags before evaluating sign/zero 120615832f61775040995bb8aa6056176425bc2c9088Andrew Trick // extension. The first time SCEV attempts to normalize sign/zero extension, 120715832f61775040995bb8aa6056176425bc2c9088Andrew Trick // the result becomes final. So for the most predictable results, we delay 120815832f61775040995bb8aa6056176425bc2c9088Andrew Trick // evaluation of sign/zero extend evaluation until needed, and avoid running 12094b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick // other SCEV based analysis prior to SimplifyAndExtend. 121015832f61775040995bb8aa6056176425bc2c9088Andrew Trick do { 121115832f61775040995bb8aa6056176425bc2c9088Andrew Trick PHINode *CurrIV = LoopPhis.pop_back_val(); 12122fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick 121315832f61775040995bb8aa6056176425bc2c9088Andrew Trick // Information about sign/zero extensions of CurrIV. 1214513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick WideIVVisitor WIV(CurrIV, SE, TD); 121515832f61775040995bb8aa6056176425bc2c9088Andrew Trick 1216bddb7f82103deb226baa6793f41c5961661167e7Andrew Trick Changed |= simplifyUsersOfIV(CurrIV, SE, &LPM, DeadInsts, &WIV); 121706988bcf6a5c74e81cf7e76f06a686aa822ec00aAndrew Trick 12184b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick if (WIV.WI.WidestNativeType) { 1219513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick WideIVs.push_back(WIV.WI); 12202fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick } 122115832f61775040995bb8aa6056176425bc2c9088Andrew Trick } while(!LoopPhis.empty()); 122215832f61775040995bb8aa6056176425bc2c9088Andrew Trick 1223513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick for (; !WideIVs.empty(); WideIVs.pop_back()) { 1224513b1f47c1ddef0638bd63399bf64965e592c2bfAndrew Trick WidenIV Widener(WideIVs.back(), LI, SE, DT, DeadInsts); 12252fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick if (PHINode *WidePhi = Widener.CreateWideIV(Rewriter)) { 12262fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick Changed = true; 12272fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick LoopPhis.push_back(WidePhi); 12282fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick } 12292fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick } 12302fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick } 12312fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick} 12322fabd464ae9fd33f068066e3fc3d0caa7ea2279dAndrew Trick 12331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 12341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// LinearFunctionTestReplace and its kin. Rewrite the loop exit condition. 12351a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 12361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 123739d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// Check for expressions that ScalarEvolution generates to compute 123839d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// BackedgeTakenInfo. If these expressions have not been reduced, then 123939d7802224532c075f4c781c3e51ffed83d17420Andrew Trick/// expanding them may incur additional cost (albeit in the loop preheader). 12405241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trickstatic bool isHighCostExpansion(const SCEV *S, BranchInst *BI, 124186d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick SmallPtrSet<const SCEV*, 8> &Processed, 12425241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick ScalarEvolution *SE) { 124386d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick if (!Processed.insert(S)) 124486d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick return false; 124586d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick 12465241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // If the backedge-taken count is a UDiv, it's very likely a UDiv that 12475241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // ScalarEvolution's HowFarToZero or HowManyLessThans produced to compute a 12485241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // precise expression, rather than a UDiv from the user's code. If we can't 12495241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // find a UDiv in the code with some simple searching, assume the former and 12505241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // forego rewriting the loop. 12515241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick if (isa<SCEVUDivExpr>(S)) { 12525241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick ICmpInst *OrigCond = dyn_cast<ICmpInst>(BI->getCondition()); 12535241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick if (!OrigCond) return true; 12545241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick const SCEV *R = SE->getSCEV(OrigCond->getOperand(1)); 12555241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick R = SE->getMinusSCEV(R, SE->getConstant(R->getType(), 1)); 12565241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick if (R != S) { 12575241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick const SCEV *L = SE->getSCEV(OrigCond->getOperand(0)); 12585241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick L = SE->getMinusSCEV(L, SE->getConstant(L->getType(), 1)); 12595241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick if (L != S) 12605241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return true; 12615241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick } 12625241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick } 12635241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick 1264f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) 12655241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return false; 12665241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick 12675241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // Recurse past add expressions, which commonly occur in the 12685241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // BackedgeTakenCount. They may already exist in program code, and if not, 12695241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // they are not too expensive rematerialize. 12705241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick if (const SCEVAddExpr *Add = dyn_cast<SCEVAddExpr>(S)) { 12715241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick for (SCEVAddExpr::op_iterator I = Add->op_begin(), E = Add->op_end(); 12725241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick I != E; ++I) { 127386d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick if (isHighCostExpansion(*I, BI, Processed, SE)) 12745241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return true; 12755241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick } 12765241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return false; 12775241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick } 12785241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick 12795241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // HowManyLessThans uses a Max expression whenever the loop is not guarded by 12805241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // the exit condition. 12815241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick if (isa<SCEVSMaxExpr>(S) || isa<SCEVUMaxExpr>(S)) 12825241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return true; 12835241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick 12845241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // If we haven't recognized an expensive SCEV patter, assume its an expression 12855241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick // produced by program code. 12865241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return false; 12875241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick} 12885241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick 12891a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// canExpandBackedgeTakenCount - Return true if this loop's backedge taken 12901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// count expression can be safely and cheaply expanded into an instruction 12911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// sequence that can be used by LinearFunctionTestReplace. 1292d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// 1293d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// TODO: This fails for pointer-type loop counters with greater than one byte 1294d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// strides, consequently preventing LFTR from running. For the purpose of LFTR 1295d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// we could skip this check in the case that the LFTR loop counter (chosen by 1296d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// FindLoopCounter) is also pointer type. Instead, we could directly convert 1297d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// the loop test to an inequality test by checking the target data's alignment 1298d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// of element types (given that the initial pointer value originates from or is 1299d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// used by ABI constrained operation, as opposed to inttoptr/ptrtoint). 1300d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// However, we don't yet have a strong motivation for converting loop tests 1301d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// into inequality tests. 13021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickstatic bool canExpandBackedgeTakenCount(Loop *L, ScalarEvolution *SE) { 13031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *BackedgeTakenCount = SE->getBackedgeTakenCount(L); 13041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (isa<SCEVCouldNotCompute>(BackedgeTakenCount) || 13051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BackedgeTakenCount->isZero()) 1306a52838285b6dce66821f0b272cb3479af8c3edb2Dan Gohman return false; 1307a52838285b6dce66821f0b272cb3479af8c3edb2Dan Gohman 13081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!L->getExitingBlock()) 13091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return false; 131037da40875873d70b83dc08b2803052bec9b68886Andrew Trick 13111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Can't rewrite non-branch yet. 13121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BranchInst *BI = dyn_cast<BranchInst>(L->getExitingBlock()->getTerminator()); 13131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!BI) 13141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return false; 131560f8a63e2502d57e879bf52a4a48505b74fa9716Dan Gohman 131686d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick SmallPtrSet<const SCEV*, 8> Processed; 131786d34100cf164f6ba5c0c2344b7dff86cc0a0980Andrew Trick if (isHighCostExpansion(BackedgeTakenCount, BI, Processed, SE)) 13185241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick return false; 13195241b79ebc3ec10469dab49a24e4ed3a8b4c3fa5Andrew Trick 13201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return true; 13211a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 132260f8a63e2502d57e879bf52a4a48505b74fa9716Dan Gohman 13231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// getBackedgeIVType - Get the widest type used by the loop test after peeking 13241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// through Truncs. 13251a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// 1326fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// TODO: Unnecessary when ForceLFTR is removed. 1327db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattnerstatic Type *getBackedgeIVType(Loop *L) { 13281a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!L->getExitingBlock()) 13291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return 0; 13309caed5440d59dac4b388152fe8b993dc0491e5e9Chris Lattner 13311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Can't rewrite non-branch yet. 13321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BranchInst *BI = dyn_cast<BranchInst>(L->getExitingBlock()->getTerminator()); 13331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!BI) 13341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return 0; 1335156d460c758463eb407590cba2371857daf27d8aAndrew Trick 13361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ICmpInst *Cond = dyn_cast<ICmpInst>(BI->getCondition()); 13371a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!Cond) 13381a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return 0; 133937da40875873d70b83dc08b2803052bec9b68886Andrew Trick 1340db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *Ty = 0; 13411a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick for(User::op_iterator OI = Cond->op_begin(), OE = Cond->op_end(); 13421a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick OI != OE; ++OI) { 13431a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick assert((!Ty || Ty == (*OI)->getType()) && "bad icmp operand types"); 13441a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick TruncInst *Trunc = dyn_cast<TruncInst>(*OI); 13451a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!Trunc) 13461a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick continue; 134740bf8b48cdb9961898dba1bc67320be1e49e3da1Chris Lattner 13481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return Trunc->getSrcTy(); 13491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 13501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return Ty; 13511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 1352a590b79ee227b93c59f60ce1f54cae7a9ebec7c1Dan Gohman 1353fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// getLoopPhiForCounter - Return the loop header phi IFF IncV adds a loop 1354fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// invariant value to the phi. 1355fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trickstatic PHINode *getLoopPhiForCounter(Value *IncV, Loop *L, DominatorTree *DT) { 1356fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Instruction *IncI = dyn_cast<Instruction>(IncV); 1357fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!IncI) 1358fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return 0; 1359fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1360fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick switch (IncI->getOpcode()) { 1361fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick case Instruction::Add: 1362fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick case Instruction::Sub: 1363fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick break; 1364fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick case Instruction::GetElementPtr: 1365fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // An IV counter must preserve its type. 1366fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (IncI->getNumOperands() == 2) 1367fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick break; 1368fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick default: 1369fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return 0; 1370fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1371fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1372fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick PHINode *Phi = dyn_cast<PHINode>(IncI->getOperand(0)); 1373fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (Phi && Phi->getParent() == L->getHeader()) { 1374fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (isLoopInvariant(IncI->getOperand(1), L, DT)) 1375fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return Phi; 1376fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return 0; 1377fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1378fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (IncI->getOpcode() == Instruction::GetElementPtr) 1379fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return 0; 1380fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1381fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Allow add/sub to be commuted. 1382fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Phi = dyn_cast<PHINode>(IncI->getOperand(1)); 1383fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (Phi && Phi->getParent() == L->getHeader()) { 1384fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (isLoopInvariant(IncI->getOperand(0), L, DT)) 1385fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return Phi; 1386fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1387fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return 0; 1388fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick} 1389fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1390fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// needsLFTR - LinearFunctionTestReplace policy. Return true unless we can show 1391fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// that the current exit test is already sufficiently canonical. 1392fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trickstatic bool needsLFTR(Loop *L, DominatorTree *DT) { 1393fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick assert(L->getExitingBlock() && "expected loop exit"); 1394fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1395fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick BasicBlock *LatchBlock = L->getLoopLatch(); 1396fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Don't bother with LFTR if the loop is not properly simplified. 1397fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!LatchBlock) 1398fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return false; 1399fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1400fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick BranchInst *BI = dyn_cast<BranchInst>(L->getExitingBlock()->getTerminator()); 1401fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick assert(BI && "expected exit branch"); 1402fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1403fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Do LFTR to simplify the exit condition to an ICMP. 1404fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick ICmpInst *Cond = dyn_cast<ICmpInst>(BI->getCondition()); 1405fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!Cond) 1406fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return true; 1407fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1408fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Do LFTR to simplify the exit ICMP to EQ/NE 1409fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick ICmpInst::Predicate Pred = Cond->getPredicate(); 1410fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (Pred != ICmpInst::ICMP_NE && Pred != ICmpInst::ICMP_EQ) 1411fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return true; 1412fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1413fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Look for a loop invariant RHS 1414fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *LHS = Cond->getOperand(0); 1415fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *RHS = Cond->getOperand(1); 1416fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!isLoopInvariant(RHS, L, DT)) { 1417fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!isLoopInvariant(LHS, L, DT)) 1418fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return true; 1419fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick std::swap(LHS, RHS); 1420fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1421fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Look for a simple IV counter LHS 1422fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick PHINode *Phi = dyn_cast<PHINode>(LHS); 1423fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!Phi) 1424fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Phi = getLoopPhiForCounter(LHS, L, DT); 1425fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1426fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!Phi) 1427fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return true; 1428fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1429fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Do LFTR if the exit condition's IV is *not* a simple counter. 1430fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *IncV = Phi->getIncomingValueForBlock(L->getLoopLatch()); 1431fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return Phi != getLoopPhiForCounter(IncV, L, DT); 1432fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick} 1433fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1434fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// AlmostDeadIV - Return true if this IV has any uses other than the (soon to 1435fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// be rewritten) loop exit test. 1436fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trickstatic bool AlmostDeadIV(PHINode *Phi, BasicBlock *LatchBlock, Value *Cond) { 1437fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick int LatchIdx = Phi->getBasicBlockIndex(LatchBlock); 1438fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *IncV = Phi->getIncomingValue(LatchIdx); 1439fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1440fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick for (Value::use_iterator UI = Phi->use_begin(), UE = Phi->use_end(); 1441fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick UI != UE; ++UI) { 1442fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (*UI != Cond && *UI != IncV) return false; 1443fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1444fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1445fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick for (Value::use_iterator UI = IncV->use_begin(), UE = IncV->use_end(); 1446fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick UI != UE; ++UI) { 1447fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (*UI != Cond && *UI != Phi) return false; 1448fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1449fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return true; 1450fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick} 1451fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1452fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// FindLoopCounter - Find an affine IV in canonical form. 1453fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// 1454d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// BECount may be an i8* pointer type. The pointer difference is already 1455d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// valid count without scaling the address stride, so it remains a pointer 1456d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// expression as far as SCEV is concerned. 1457d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// 1458fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// FIXME: Accept -1 stride and set IVLimit = IVInit - BECount 1459fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// 1460fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// FIXME: Accept non-unit stride as long as SCEV can reduce BECount * Stride. 1461fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// This is difficult in general for SCEV because of potential overflow. But we 1462fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick/// could at least handle constant BECounts. 1463fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trickstatic PHINode * 1464fc933c073e9357a791c0f6b307355ed735e3557fAndrew TrickFindLoopCounter(Loop *L, const SCEV *BECount, 1465fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick ScalarEvolution *SE, DominatorTree *DT, const TargetData *TD) { 1466fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick uint64_t BCWidth = SE->getTypeSizeInBits(BECount->getType()); 1467fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1468fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *Cond = 1469fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick cast<BranchInst>(L->getExitingBlock()->getTerminator())->getCondition(); 1470fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1471fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Loop over all of the PHI nodes, looking for a simple counter. 1472fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick PHINode *BestPhi = 0; 1473fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick const SCEV *BestInit = 0; 1474fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick BasicBlock *LatchBlock = L->getLoopLatch(); 1475fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick assert(LatchBlock && "needsLFTR should guarantee a loop latch"); 1476fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1477fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick for (BasicBlock::iterator I = L->getHeader()->begin(); isa<PHINode>(I); ++I) { 1478fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick PHINode *Phi = cast<PHINode>(I); 1479fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!SE->isSCEVable(Phi->getType())) 1480fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1481fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1482d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // Avoid comparing an integer IV against a pointer Limit. 1483d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick if (BECount->getType()->isPointerTy() && !Phi->getType()->isPointerTy()) 1484d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick continue; 1485d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1486fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(SE->getSCEV(Phi)); 1487fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!AR || AR->getLoop() != L || !AR->isAffine()) 1488fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1489fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1490fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // AR may be a pointer type, while BECount is an integer type. 1491fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // AR may be wider than BECount. With eq/ne tests overflow is immaterial. 1492fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // AR may not be a narrower type, or we may never exit. 1493fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick uint64_t PhiWidth = SE->getTypeSizeInBits(AR->getType()); 1494fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (PhiWidth < BCWidth || (TD && !TD->isLegalInteger(PhiWidth))) 1495fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1496fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1497fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick const SCEV *Step = dyn_cast<SCEVConstant>(AR->getStepRecurrence(*SE)); 1498fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (!Step || !Step->isOne()) 1499fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1500fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1501fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick int LatchIdx = Phi->getBasicBlockIndex(LatchBlock); 1502fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *IncV = Phi->getIncomingValue(LatchIdx); 1503fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (getLoopPhiForCounter(IncV, L, DT) != Phi) 1504fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1505fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1506fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick const SCEV *Init = AR->getStart(); 1507fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1508fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (BestPhi && !AlmostDeadIV(BestPhi, LatchBlock, Cond)) { 1509fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Don't force a live loop counter if another IV can be used. 1510fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (AlmostDeadIV(Phi, LatchBlock, Cond)) 1511fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1512fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1513fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Prefer to count-from-zero. This is a more "canonical" counter form. It 1514fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // also prefers integer to pointer IVs. 1515fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (BestInit->isZero() != Init->isZero()) { 1516fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (BestInit->isZero()) 1517fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1518fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1519fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // If two IVs both count from zero or both count from nonzero then the 1520fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // narrower is likely a dead phi that has been widened. Use the wider phi 1521fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // to allow the other to be eliminated. 1522fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (PhiWidth <= SE->getTypeSizeInBits(BestPhi->getType())) 1523fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick continue; 1524fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1525fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick BestPhi = Phi; 1526fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick BestInit = Init; 1527fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1528fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick return BestPhi; 1529fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick} 1530fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1531d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// genLoopLimit - Help LinearFunctionTestReplace by generating a value that 1532d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick/// holds the RHS of the new loop test. 1533d3714b60b5adf15376a8803e6622c74694884b28Andrew Trickstatic Value *genLoopLimit(PHINode *IndVar, const SCEV *IVCount, Loop *L, 1534d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick SCEVExpander &Rewriter, ScalarEvolution *SE) { 1535d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(SE->getSCEV(IndVar)); 1536d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(AR && AR->getLoop() == L && AR->isAffine() && "bad loop counter"); 1537d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEV *IVInit = AR->getStart(); 1538d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1539d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // IVInit may be a pointer while IVCount is an integer when FindLoopCounter 1540d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // finds a valid pointer IV. Sign extend BECount in order to materialize a 1541d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // GEP. Avoid running SCEVExpander on a new pointer value, instead reusing 1542d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // the existing GEPs whenever possible. 1543d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick if (IndVar->getType()->isPointerTy() 1544d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick && !IVCount->getType()->isPointerTy()) { 1545d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1546d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick Type *OfsTy = SE->getEffectiveSCEVType(IVInit->getType()); 1547d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEV *IVOffset = SE->getTruncateOrSignExtend(IVCount, OfsTy); 1548d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1549d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // Expand the code for the iteration count. 1550d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(SE->isLoopInvariant(IVOffset, L) && 1551d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick "Computed iteration count is not loop invariant!"); 1552d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick BranchInst *BI = cast<BranchInst>(L->getExitingBlock()->getTerminator()); 1553d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick Value *GEPOffset = Rewriter.expandCodeFor(IVOffset, OfsTy, BI); 1554d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1555d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick Value *GEPBase = IndVar->getIncomingValueForBlock(L->getLoopPreheader()); 1556d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(AR->getStart() == SE->getSCEV(GEPBase) && "bad loop counter"); 1557d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // We could handle pointer IVs other than i8*, but we need to compensate for 1558d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // gep index scaling. See canExpandBackedgeTakenCount comments. 1559d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(SE->getSizeOfExpr( 1560d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick cast<PointerType>(GEPBase->getType())->getElementType())->isOne() 1561d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick && "unit stride pointer IV must be i8*"); 1562d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1563d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IRBuilder<> Builder(L->getLoopPreheader()->getTerminator()); 1564d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick return Builder.CreateGEP(GEPBase, GEPOffset, "lftr.limit"); 1565d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick } 1566d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick else { 1567d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // In any other case, convert both IVInit and IVCount to integers before 1568d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // comparing. This may result in SCEV expension of pointers, but in practice 1569d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // SCEV will fold the pointer arithmetic away as such: 1570d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // BECount = (IVEnd - IVInit - 1) => IVLimit = IVInit (postinc). 1571d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // 1572d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // Valid Cases: (1) both integers is most common; (2) both may be pointers 1573d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // for simple memset-style loops; (3) IVInit is an integer and IVCount is a 1574d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // pointer may occur when enable-iv-rewrite generates a canonical IV on top 1575d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // of case #2. 1576d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1577d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEV *IVLimit = 0; 1578d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // For unit stride, IVCount = Start + BECount with 2's complement overflow. 1579d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // For non-zero Start, compute IVCount here. 1580d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick if (AR->getStart()->isZero()) 1581d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVLimit = IVCount; 1582d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick else { 1583d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(AR->getStepRecurrence(*SE)->isOne() && "only handles unit stride"); 1584d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEV *IVInit = AR->getStart(); 1585d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1586d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // For integer IVs, truncate the IV before computing IVInit + BECount. 1587d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick if (SE->getTypeSizeInBits(IVInit->getType()) 1588d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick > SE->getTypeSizeInBits(IVCount->getType())) 1589d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVInit = SE->getTruncateExpr(IVInit, IVCount->getType()); 1590d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 1591d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVLimit = SE->getAddExpr(IVInit, IVCount); 1592d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick } 1593d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // Expand the code for the iteration count. 1594d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick BranchInst *BI = cast<BranchInst>(L->getExitingBlock()->getTerminator()); 1595d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IRBuilder<> Builder(BI); 1596d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(SE->isLoopInvariant(IVLimit, L) && 1597d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick "Computed iteration count is not loop invariant!"); 1598d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // Ensure that we generate the same type as IndVar, or a smaller integer 1599d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // type. In the presence of null pointer values, we have an integer type 1600d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // SCEV expression (IVInit) for a pointer type IV value (IndVar). 1601d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick Type *LimitTy = IVCount->getType()->isPointerTy() ? 1602d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IndVar->getType() : IVCount->getType(); 1603d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick return Rewriter.expandCodeFor(IVLimit, LimitTy, BI); 1604d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick } 1605d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick} 1606d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick 16071a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// LinearFunctionTestReplace - This method rewrites the exit condition of the 16081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// loop to be a canonical != comparison against the incremented loop induction 16091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// variable. This pass is able to rewrite the exit tests of any loop where the 16101a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// SCEV analysis can determine a loop-invariant trip count of the loop, which 16111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// is actually a much broader range than just linear tests. 1612fc933c073e9357a791c0f6b307355ed735e3557fAndrew TrickValue *IndVarSimplify:: 16131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew TrickLinearFunctionTestReplace(Loop *L, 16141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *BackedgeTakenCount, 16151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHINode *IndVar, 16161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SCEVExpander &Rewriter) { 16171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick assert(canExpandBackedgeTakenCount(L, SE) && "precondition"); 16181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 1619f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick // LFTR can ignore IV overflow and truncate to the width of 1620fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // BECount. This avoids materializing the add(zext(add)) expression. 1621f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick Type *CntTy = !EnableIVRewrite ? 1622fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick BackedgeTakenCount->getType() : IndVar->getType(); 1623fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1624d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEV *IVCount = BackedgeTakenCount; 1625fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1626d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // If the exiting block is the same as the backedge block, we prefer to 1627d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // compare against the post-incremented value, otherwise we must compare 1628d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // against the preincremented value. 16291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value *CmpIndVar; 16301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (L->getExitingBlock() == L->getLoopLatch()) { 16311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Add one to the "backedge-taken" count to get the trip count. 16321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If this addition may overflow, we have to be more pessimistic and 16331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // cast the induction variable before doing the add. 16341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *N = 1635d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick SE->getAddExpr(IVCount, SE->getConstant(IVCount->getType(), 1)); 1636d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick if (CntTy == IVCount->getType()) 1637d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVCount = N; 1638fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick else { 1639d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick const SCEV *Zero = SE->getConstant(IVCount->getType(), 0); 1640fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if ((isa<SCEVConstant>(N) && !N->isZero()) || 1641fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick SE->isLoopEntryGuardedByCond(L, ICmpInst::ICMP_NE, N, Zero)) { 1642fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // No overflow. Cast the sum. 1643d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVCount = SE->getTruncateOrZeroExtend(N, CntTy); 1644fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } else { 1645fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick // Potential overflow. Cast before doing the add. 1646d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVCount = SE->getTruncateOrZeroExtend(IVCount, CntTy); 1647d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVCount = SE->getAddExpr(IVCount, SE->getConstant(CntTy, 1)); 1648fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 16491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 16501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // The BackedgeTaken expression contains the number of times that the 16511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // backedge branches to the loop header. This is one less than the 16521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // number of times the loop executes, so use the incremented indvar. 16531a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick CmpIndVar = IndVar->getIncomingValueForBlock(L->getExitingBlock()); 16541a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } else { 1655d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick // We must use the preincremented value... 1656d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IVCount = SE->getTruncateOrZeroExtend(IVCount, CntTy); 16571a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick CmpIndVar = IndVar; 16581a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 16591a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 1660d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick Value *ExitCnt = genLoopLimit(IndVar, IVCount, L, Rewriter, SE); 1661d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick assert(ExitCnt->getType()->isPointerTy() == IndVar->getType()->isPointerTy() 1662d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick && "genLoopLimit missed a cast"); 16631a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 16641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Insert a new icmp_ne or icmp_eq instruction before the branch. 1665d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick BranchInst *BI = cast<BranchInst>(L->getExitingBlock()->getTerminator()); 1666fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick ICmpInst::Predicate P; 16671a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (L->contains(BI->getSuccessor(0))) 1668fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick P = ICmpInst::ICMP_NE; 16691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick else 1670fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick P = ICmpInst::ICMP_EQ; 16711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 16721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DEBUG(dbgs() << "INDVARS: Rewriting loop exit condition to:\n" 16731a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick << " LHS:" << *CmpIndVar << '\n' 16741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick << " op:\t" 1675fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick << (P == ICmpInst::ICMP_NE ? "!=" : "==") << "\n" 1676fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick << " RHS:\t" << *ExitCnt << "\n" 1677d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick << " IVCount:\t" << *IVCount << "\n"); 16781a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 1679d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick IRBuilder<> Builder(BI); 1680fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (SE->getTypeSizeInBits(CmpIndVar->getType()) 1681d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick > SE->getTypeSizeInBits(ExitCnt->getType())) { 1682d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick CmpIndVar = Builder.CreateTrunc(CmpIndVar, ExitCnt->getType(), 1683d3714b60b5adf15376a8803e6622c74694884b28Andrew Trick "lftr.wideiv"); 1684fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1685fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick 1686fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *Cond = Builder.CreateICmp(P, CmpIndVar, ExitCnt, "exitcond"); 16871a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Value *OrigCond = BI->getCondition(); 16881a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // It's tempting to use replaceAllUsesWith here to fully replace the old 16891a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // comparison, but that's not immediately safe, since users of the old 16901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // comparison may not be dominated by the new comparison. Instead, just 16911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // update the branch to use the new comparison; in the common case this 16921a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // will make old comparison dead. 16931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BI->setCondition(Cond); 16941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DeadInsts.push_back(OrigCond); 16951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 16961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ++NumLFTR; 16971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Changed = true; 16981a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return Cond; 16991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 17001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 17021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// SinkUnusedInvariants. A late subpass to cleanup loop preheaders. 17031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 17041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// If there's a single exit block, sink any loop-invariant values that 17061a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// were defined in the preheader but not used inside the loop into the 17071a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick/// exit block to reduce register pressure in the loop. 17081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickvoid IndVarSimplify::SinkUnusedInvariants(Loop *L) { 17091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BasicBlock *ExitBlock = L->getExitBlock(); 17101a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!ExitBlock) return; 17111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BasicBlock *Preheader = L->getLoopPreheader(); 17131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!Preheader) return; 17141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 1715b05fdd6babada25da2ec3ba54bb462c2ecfc42a8Bill Wendling Instruction *InsertPt = ExitBlock->getFirstInsertionPt(); 17161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BasicBlock::iterator I = Preheader->getTerminator(); 17171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick while (I != Preheader->begin()) { 17181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick --I; 17191a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // New instructions were inserted at the end of the preheader. 17201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (isa<PHINode>(I)) 17211a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick break; 17221a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Don't move instructions which might have side effects, since the side 17241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // effects need to complete before instructions inside the loop. Also don't 17251a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // move instructions which might read memory, since the loop may modify 17261a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // memory. Note that it's okay if the instruction might have undefined 17271a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // behavior: LoopSimplify guarantees that the preheader dominates the exit 17281a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // block. 17291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (I->mayHaveSideEffects() || I->mayReadFromMemory()) 17301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick continue; 17311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Skip debug info intrinsics. 17331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (isa<DbgInfoIntrinsic>(I)) 17341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick continue; 17351a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17362b18881185b123e5f163eb7b32b3452fc3f339d8Bill Wendling // Skip landingpad instructions. 17372b18881185b123e5f163eb7b32b3452fc3f339d8Bill Wendling if (isa<LandingPadInst>(I)) 17382b18881185b123e5f163eb7b32b3452fc3f339d8Bill Wendling continue; 17392b18881185b123e5f163eb7b32b3452fc3f339d8Bill Wendling 17408ecde6cbf87cfa3184cec5a4eedb70b06dbb4a85Eli Friedman // Don't sink alloca: we never want to sink static alloca's out of the 17418ecde6cbf87cfa3184cec5a4eedb70b06dbb4a85Eli Friedman // entry block, and correctly sinking dynamic alloca's requires 17428ecde6cbf87cfa3184cec5a4eedb70b06dbb4a85Eli Friedman // checks for stacksave/stackrestore intrinsics. 17438ecde6cbf87cfa3184cec5a4eedb70b06dbb4a85Eli Friedman // FIXME: Refactor this check somehow? 17448ecde6cbf87cfa3184cec5a4eedb70b06dbb4a85Eli Friedman if (isa<AllocaInst>(I)) 17458ecde6cbf87cfa3184cec5a4eedb70b06dbb4a85Eli Friedman continue; 17461a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17471a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Determine if there is a use in or before the loop (direct or 17481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // otherwise). 17491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick bool UsedInLoop = false; 17501a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick for (Value::use_iterator UI = I->use_begin(), UE = I->use_end(); 17511a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick UI != UE; ++UI) { 17521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick User *U = *UI; 17531a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick BasicBlock *UseBB = cast<Instruction>(U)->getParent(); 17541a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (PHINode *P = dyn_cast<PHINode>(U)) { 17551a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick unsigned i = 17561a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick PHINode::getIncomingValueNumForOperand(UI.getOperandNo()); 17571a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick UseBB = P->getIncomingBlock(i); 17581a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 17591a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (UseBB == Preheader || L->contains(UseBB)) { 17601a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick UsedInLoop = true; 17611a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick break; 17621a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 17631a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 17641a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17651a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If there is, the def must remain in the preheader. 17661a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (UsedInLoop) 17671a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick continue; 17681a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17691a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Otherwise, sink it to the exit block. 17701a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Instruction *ToMove = I; 17711a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick bool Done = false; 17721a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17731a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (I != Preheader->begin()) { 17741a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Skip debug info intrinsics. 17751a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick do { 17761a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick --I; 17771a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } while (isa<DbgInfoIntrinsic>(I) && I != Preheader->begin()); 17781a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17791a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (isa<DbgInfoIntrinsic>(I) && I == Preheader->begin()) 17801a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Done = true; 17811a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } else { 17821a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Done = true; 17831a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 17841a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17851a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick ToMove->moveBefore(InsertPt); 17861a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (Done) break; 17871a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick InsertPt = ToMove; 17881a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 17891a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick} 17901a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17911a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 17921a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick// IndVarSimplify driver. Manage several subpasses of IV simplification. 17931a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick//===----------------------------------------------------------------------===// 17941a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 17951a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trickbool IndVarSimplify::runOnLoop(Loop *L, LPPassManager &LPM) { 17961a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If LoopSimplify form is not available, stay out of trouble. Some notes: 17971a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // - LSR currently only supports LoopSimplify-form loops. Indvars' 17981a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // canonicalization can be a pessimization without LSR to "clean up" 17991a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // afterwards. 18001a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // - We depend on having a preheader; in particular, 18011a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Loop::getCanonicalInductionVariable only supports loops with preheaders, 18021a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // and we're in trouble if we can't find the induction variable even when 18031a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // we've manually inserted one. 18041a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!L->isLoopSimplifyForm()) 18051a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick return false; 18061a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 1807f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) 18081a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick IU = &getAnalysis<IVUsers>(); 18091a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick LI = &getAnalysis<LoopInfo>(); 18101a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SE = &getAnalysis<ScalarEvolution>(); 18111a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DT = &getAnalysis<DominatorTree>(); 18121a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick TD = getAnalysisIfAvailable<TargetData>(); 18131a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18141a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick DeadInsts.clear(); 18151a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Changed = false; 18161a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18171a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If there are any floating-point recurrences, attempt to 18181a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // transform them to use integer recurrences. 18191a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick RewriteNonIntegerIVs(L); 18201a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18211a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick const SCEV *BackedgeTakenCount = SE->getBackedgeTakenCount(L); 18221a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18231a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Create a rewriter object which we'll use to transform the code with. 18241a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick SCEVExpander Rewriter(*SE, "indvars"); 1825204494149b6f846e8f173f525b129f5508076049Andrew Trick#ifndef NDEBUG 1826204494149b6f846e8f173f525b129f5508076049Andrew Trick Rewriter.setDebugType(DEBUG_TYPE); 1827204494149b6f846e8f173f525b129f5508076049Andrew Trick#endif 18281a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18291a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Eliminate redundant IV users. 18301a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // 18311a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Simplification works best when run before other consumers of SCEV. We 18321a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // attempt to avoid evaluating SCEVs for sign/zero extend operations until 18331a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // other expressions involving loop IVs have been evaluated. This helps SCEV 18341a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // set no-wrap flags before normalizing sign/zero extension. 1835f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (!EnableIVRewrite) { 18361a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick Rewriter.disableCanonicalMode(); 18374b4bb71bcdfd8c17cd4acb6116fc9a56c5fecd47Andrew Trick SimplifyAndExtend(L, Rewriter, LPM); 18381a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick } 18391a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18401a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Check to see if this loop has a computable loop-invariant execution count. 18411a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // If so, this means that we can compute the final value of any expressions 18421a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // that are recurrent in the loop, and substitute the exit values from the 18431a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // loop into any instructions outside of the loop that use the final values of 18441a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // the current expressions. 18451a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // 18461a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick if (!isa<SCEVCouldNotCompute>(BackedgeTakenCount)) 18471a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick RewriteLoopExitValues(L, Rewriter); 18481a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18491a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick // Eliminate redundant IV users. 1850f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) 1851bddb7f82103deb226baa6793f41c5961661167e7Andrew Trick Changed |= simplifyIVUsers(IU, SE, &LPM, DeadInsts); 18521a54bb28c79d5fc5b1c4e7fb0273ccb6a92c74e0Andrew Trick 18536f684b0becc4c1b2ece3ec6dcecf30b19343128dAndrew Trick // Eliminate redundant IV cycles. 1854f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (!EnableIVRewrite) 1855204494149b6f846e8f173f525b129f5508076049Andrew Trick NumElimIV += Rewriter.replaceCongruentIVs(L, DT, DeadInsts); 1856037d1c0c7e01cefeff7e538682c9a1e536e14030Andrew Trick 185781db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // Compute the type of the largest recurrence expression, and decide whether 185881db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // a canonical induction variable should be inserted. 1859db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *LargestType = 0; 186081db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman bool NeedCannIV = false; 186103d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick bool ExpandBECount = canExpandBackedgeTakenCount(L, SE); 1862f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite && ExpandBECount) { 186381db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // If we have a known trip count and a single exit block, we'll be 186481db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // rewriting the loop exit test condition below, which requires a 186581db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // canonical induction variable. 18664dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick NeedCannIV = true; 1867db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *Ty = BackedgeTakenCount->getType(); 1868f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (!EnableIVRewrite) { 186903d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // In this mode, SimplifyIVUsers may have already widened the IV used by 187003d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // the backedge test and inserted a Trunc on the compare's operand. Get 187103d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // the wider type to avoid creating a redundant narrow IV only used by the 187203d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick // loop test. 187303d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick LargestType = getBackedgeIVType(L); 187403d3d3b361800f28c75d3386978d22e6d57744b7Andrew Trick } 18754dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick if (!LargestType || 18764dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick SE->getTypeSizeInBits(Ty) > 18774dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick SE->getTypeSizeInBits(LargestType)) 18784dfdf242c1917e98f407818eb5b68ae0b4678f26Andrew Trick LargestType = SE->getEffectiveSCEVType(Ty); 1879f50af088f19f525f3d1026eb61db77e0037a9f43Chris Lattner } 1880f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) { 188137da40875873d70b83dc08b2803052bec9b68886Andrew Trick for (IVUsers::const_iterator I = IU->begin(), E = IU->end(); I != E; ++I) { 188237da40875873d70b83dc08b2803052bec9b68886Andrew Trick NeedCannIV = true; 1883db125cfaf57cc83e7dd7453de2d509bc8efd0e5eChris Lattner Type *Ty = 188437da40875873d70b83dc08b2803052bec9b68886Andrew Trick SE->getEffectiveSCEVType(I->getOperandValToReplace()->getType()); 188537da40875873d70b83dc08b2803052bec9b68886Andrew Trick if (!LargestType || 188637da40875873d70b83dc08b2803052bec9b68886Andrew Trick SE->getTypeSizeInBits(Ty) > 1887af79fb5f47b0088c6a8973a7fdbaea96973a429dDan Gohman SE->getTypeSizeInBits(LargestType)) 188837da40875873d70b83dc08b2803052bec9b68886Andrew Trick LargestType = Ty; 188937da40875873d70b83dc08b2803052bec9b68886Andrew Trick } 1890500597a1c39e91a3020587318ed61e737b6c613aChris Lattner } 1891394437ff7eaccfe1de92fe14d0022ca0addf3e41Chris Lattner 1892f451cb870efcf9e0302d25ed05f4cac6bb494e42Dan Gohman // Now that we know the largest of the induction variable expressions 189381db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // in this loop, insert a canonical induction variable of the largest size. 189443ef3fbae12c7924a25df4563d86084973db9c67Dan Gohman PHINode *IndVar = 0; 189581db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman if (NeedCannIV) { 189685669637139089eaed8def1583ac04266c9654e2Dan Gohman // Check to see if the loop already has any canonical-looking induction 189785669637139089eaed8def1583ac04266c9654e2Dan Gohman // variables. If any are present and wider than the planned canonical 189885669637139089eaed8def1583ac04266c9654e2Dan Gohman // induction variable, temporarily remove them, so that the Rewriter 189985669637139089eaed8def1583ac04266c9654e2Dan Gohman // doesn't attempt to reuse them. 190085669637139089eaed8def1583ac04266c9654e2Dan Gohman SmallVector<PHINode *, 2> OldCannIVs; 190185669637139089eaed8def1583ac04266c9654e2Dan Gohman while (PHINode *OldCannIV = L->getCanonicalInductionVariable()) { 19024d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman if (SE->getTypeSizeInBits(OldCannIV->getType()) > 19034d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman SE->getTypeSizeInBits(LargestType)) 19044d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman OldCannIV->removeFromParent(); 19054d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman else 190685669637139089eaed8def1583ac04266c9654e2Dan Gohman break; 190785669637139089eaed8def1583ac04266c9654e2Dan Gohman OldCannIVs.push_back(OldCannIV); 19084d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman } 19094d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman 1910667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman IndVar = Rewriter.getOrInsertCanonicalInductionVariable(L, LargestType); 19114d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman 1912c2390b14c91764cba6e4394d05e58e387a7dfb19Dan Gohman ++NumInserted; 1913c2390b14c91764cba6e4394d05e58e387a7dfb19Dan Gohman Changed = true; 1914f67ef318aa29e7cc0c7de76349881959936d9eeeDavid Greene DEBUG(dbgs() << "INDVARS: New CanIV: " << *IndVar << '\n'); 19154d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman 19164d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman // Now that the official induction variable is established, reinsert 191785669637139089eaed8def1583ac04266c9654e2Dan Gohman // any old canonical-looking variables after it so that the IR remains 191885669637139089eaed8def1583ac04266c9654e2Dan Gohman // consistent. They will be deleted as part of the dead-PHI deletion at 19194d8414f42033a5e744e8e60d2ca188b424c76168Dan Gohman // the end of the pass. 192085669637139089eaed8def1583ac04266c9654e2Dan Gohman while (!OldCannIVs.empty()) { 192185669637139089eaed8def1583ac04266c9654e2Dan Gohman PHINode *OldCannIV = OldCannIVs.pop_back_val(); 1922b05fdd6babada25da2ec3ba54bb462c2ecfc42a8Bill Wendling OldCannIV->insertBefore(L->getHeader()->getFirstInsertionPt()); 192385669637139089eaed8def1583ac04266c9654e2Dan Gohman } 1924d19534add90a2a894af61523b830887097bb780bDan Gohman } 1925f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick else if (!EnableIVRewrite && ExpandBECount && needsLFTR(L, DT)) { 1926fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick IndVar = FindLoopCounter(L, BackedgeTakenCount, SE, DT, TD); 1927fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 1928c2390b14c91764cba6e4394d05e58e387a7dfb19Dan Gohman // If we have a trip count expression, rewrite the loop's exit condition 1929c2390b14c91764cba6e4394d05e58e387a7dfb19Dan Gohman // using it. We can currently only handle loops with a single exit. 1930fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick Value *NewICmp = 0; 1931fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (ExpandBECount && IndVar) { 19325614769d557600fda3cf73b481581fe32fbff258Andrew Trick // Check preconditions for proper SCEVExpander operation. SCEV does not 19335614769d557600fda3cf73b481581fe32fbff258Andrew Trick // express SCEVExpander's dependencies, such as LoopSimplify. Instead any 19345614769d557600fda3cf73b481581fe32fbff258Andrew Trick // pass that uses the SCEVExpander must do it. This does not work well for 19355614769d557600fda3cf73b481581fe32fbff258Andrew Trick // loop passes because SCEVExpander makes assumptions about all loops, while 19365614769d557600fda3cf73b481581fe32fbff258Andrew Trick // LoopPassManager only forces the current loop to be simplified. 19375614769d557600fda3cf73b481581fe32fbff258Andrew Trick // 19385614769d557600fda3cf73b481581fe32fbff258Andrew Trick // FIXME: SCEV expansion has no way to bail out, so the caller must 19395614769d557600fda3cf73b481581fe32fbff258Andrew Trick // explicitly check any assumptions made by SCEV. Brittle. 19405614769d557600fda3cf73b481581fe32fbff258Andrew Trick const SCEVAddRecExpr *AR = dyn_cast<SCEVAddRecExpr>(BackedgeTakenCount); 19415614769d557600fda3cf73b481581fe32fbff258Andrew Trick if (!AR || AR->getLoop()->getLoopPreheader()) 19425614769d557600fda3cf73b481581fe32fbff258Andrew Trick NewICmp = 19435614769d557600fda3cf73b481581fe32fbff258Andrew Trick LinearFunctionTestReplace(L, BackedgeTakenCount, IndVar, Rewriter); 194481db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman } 1945b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // Rewrite IV-derived expressions. 1946f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (EnableIVRewrite) 194737da40875873d70b83dc08b2803052bec9b68886Andrew Trick RewriteIVExpressions(L, Rewriter); 1948fcb81f5f4cbac61851b7dec403961cf88e614aa1Chris Lattner 1949b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // Clear the rewriter cache, because values that are in the rewriter's cache 1950b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // can be deleted in the loop below, causing the AssertingVH in the cache to 1951b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // trigger. 1952b12a754cce0c1d5542af605203a47820edba454dAndrew Trick Rewriter.clear(); 1953b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 1954b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // Now that we're done iterating through lists, clean up any instructions 1955b12a754cce0c1d5542af605203a47820edba454dAndrew Trick // which are now dead. 1956b12a754cce0c1d5542af605203a47820edba454dAndrew Trick while (!DeadInsts.empty()) 1957b12a754cce0c1d5542af605203a47820edba454dAndrew Trick if (Instruction *Inst = 1958b12a754cce0c1d5542af605203a47820edba454dAndrew Trick dyn_cast_or_null<Instruction>(&*DeadInsts.pop_back_val())) 1959b12a754cce0c1d5542af605203a47820edba454dAndrew Trick RecursivelyDeleteTriviallyDeadInstructions(Inst); 1960b12a754cce0c1d5542af605203a47820edba454dAndrew Trick 1961667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman // The Rewriter may not be used from this point on. 19623d431384f05c9defc84f36eafe220415cc12ee93Torok Edwin 196381db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // Loop-invariant instructions in the preheader that aren't used in the 196481db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // loop may be sunk below the loop to reduce register pressure. 1965667d787c0a21cf3f5dfcde03ca471162ba35b614Dan Gohman SinkUnusedInvariants(L); 196681db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman 196781db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // For completeness, inform IVUsers of the IV use in the newly-created 196881db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // loop exit test instruction. 1969fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (IU && NewICmp) { 1970fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick ICmpInst *NewICmpInst = dyn_cast<ICmpInst>(NewICmp); 1971fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick if (NewICmpInst) 1972fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick IU->AddUsersIfInteresting(cast<Instruction>(NewICmpInst->getOperand(0))); 1973fc933c073e9357a791c0f6b307355ed735e3557fAndrew Trick } 197481db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // Clean up dead instructions. 19759fff2187a21f765ed87a25c48552a6942450f3e2Dan Gohman Changed |= DeleteDeadPHIs(L->getHeader()); 197681db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman // Check a post-condition. 1977f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick assert(L->isLCSSAForm(*DT) && 1978f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick "Indvars did not leave the loop in lcssa form!"); 1979f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick 1980f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick // Verify that LFTR, and any other change have not interfered with SCEV's 1981f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick // ability to compute trip count. 1982f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick#ifndef NDEBUG 1983f21bdf4f429223bcd76bf0198295a7ddbe7a1fdfAndrew Trick if (!EnableIVRewrite && VerifyIndvars && 198475ebc0ec2019f391648d3bc3bac6f6da11cfbabdAndrew Trick !isa<SCEVCouldNotCompute>(BackedgeTakenCount)) { 1985f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick SE->forgetLoop(L); 1986f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick const SCEV *NewBECount = SE->getBackedgeTakenCount(L); 1987f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick if (SE->getTypeSizeInBits(BackedgeTakenCount->getType()) < 1988f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick SE->getTypeSizeInBits(NewBECount->getType())) 1989f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick NewBECount = SE->getTruncateOrNoop(NewBECount, 1990f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick BackedgeTakenCount->getType()); 1991f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick else 1992f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick BackedgeTakenCount = SE->getTruncateOrNoop(BackedgeTakenCount, 1993f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick NewBECount->getType()); 1994f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick assert(BackedgeTakenCount == NewBECount && "indvars must preserve SCEV"); 1995f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick } 1996f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick#endif 1997f6a0dbaaf4f68f8e948a818135b9272776b8a52fAndrew Trick 199881db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman return Changed; 199981db61a2e6d3c95a2738c3559a108e05e9d7a05aDan Gohman} 2000