LICM.cpp revision 794fd75c67a2cdc128d67342c6d88a504d186896 
1e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner//===-- LICM.cpp - Loop Invariant Code Motion Pass ------------------------===//
2fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman//
3b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//                     The LLVM Compiler Infrastructure
4b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//
5b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// This file was developed by the LLVM research group and is distributed under
6b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// the University of Illinois Open Source License. See LICENSE.TXT for details.
7fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman//
8b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//===----------------------------------------------------------------------===//
9e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner//
1092094b4d928119eceac1484331acffe950f4651cChris Lattner// This pass performs loop invariant code motion, attempting to remove as much
1192094b4d928119eceac1484331acffe950f4651cChris Lattner// code from the body of a loop as possible.  It does this by either hoisting
1292094b4d928119eceac1484331acffe950f4651cChris Lattner// code into the preheader block, or by sinking code to the exit blocks if it is
1392094b4d928119eceac1484331acffe950f4651cChris Lattner// safe.  This pass also promotes must-aliased memory locations in the loop to
14e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner// live in registers, thus hoisting and sinking "invariant" loads and stores.
1592094b4d928119eceac1484331acffe950f4651cChris Lattner//
1692094b4d928119eceac1484331acffe950f4651cChris Lattner// This pass uses alias analysis for two purposes:
172e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//
182741c971044d2165be572749b94398043caccfebChris Lattner//  1. Moving loop invariant loads and calls out of loops.  If we can determine
192741c971044d2165be572749b94398043caccfebChris Lattner//     that a load or call inside of a loop never aliases anything stored to,
202741c971044d2165be572749b94398043caccfebChris Lattner//     we can hoist it or sink it like any other instruction.
212e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//  2. Scalar Promotion of Memory - If there is a store instruction inside of
222e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//     the loop, we try to move the store to happen AFTER the loop instead of
232e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//     inside of the loop.  This can only happen if a few conditions are true:
242e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//       A. The pointer stored through is loop invariant
252e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//       B. There are no stores or loads in the loop which _may_ alias the
262e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//          pointer.  There are no calls in the loop which mod/ref the pointer.
272e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//     If these conditions are true, we can promote the loads and stores in the
282e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//     loop of the pointer to use a temporary alloca'd variable.  We then use
292e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//     the mem2reg functionality to construct the appropriate SSA form for the
302e6e741b737960ecd0b68610875050019aac0f07Chris Lattner//     variable.
31e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner//
32e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner//===----------------------------------------------------------------------===//
33e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
341f309c1a4e8068a64627c612a895d9b403dbcb26Chris Lattner#define DEBUG_TYPE "licm"
35e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner#include "llvm/Transforms/Scalar.h"
3679066fa6acce02c97c714a5a6e151ed8a249721cChris Lattner#include "llvm/Constants.h"
372741c971044d2165be572749b94398043caccfebChris Lattner#include "llvm/DerivedTypes.h"
382741c971044d2165be572749b94398043caccfebChris Lattner#include "llvm/Instructions.h"
392741c971044d2165be572749b94398043caccfebChris Lattner#include "llvm/Target/TargetData.h"
40e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner#include "llvm/Analysis/LoopInfo.h"
4154959d6cf68a9b575c98c074babe9867682a7271Devang Patel#include "llvm/Analysis/LoopPass.h"
42f5e84aa0887d3fcd752d4a4fa1bb0e526be49f20Chris Lattner#include "llvm/Analysis/AliasAnalysis.h"
430252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner#include "llvm/Analysis/AliasSetTracker.h"
44952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner#include "llvm/Analysis/Dominators.h"
452741c971044d2165be572749b94398043caccfebChris Lattner#include "llvm/Transforms/Utils/PromoteMemToReg.h"
469133fe28954d498fc4de13064c7d65bd811de02cReid Spencer#include "llvm/Support/CFG.h"
479133fe28954d498fc4de13064c7d65bd811de02cReid Spencer#include "llvm/Support/Compiler.h"
48551ccae044b0ff658fe629dd67edd5ffe75d10e8Reid Spencer#include "llvm/Support/CommandLine.h"
49551ccae044b0ff658fe629dd67edd5ffe75d10e8Reid Spencer#include "llvm/Support/Debug.h"
50551ccae044b0ff658fe629dd67edd5ffe75d10e8Reid Spencer#include "llvm/ADT/Statistic.h"
51e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner#include <algorithm>
5292094b4d928119eceac1484331acffe950f4651cChris Lattnerusing namespace llvm;
53d0fde30ce850b78371fd1386338350591f9ff494Brian Gaeke
540e5f499638c8d277b9dc4a4385712177c53b5681Chris LattnerSTATISTIC(NumSunk      , "Number of instructions sunk out of loop");
550e5f499638c8d277b9dc4a4385712177c53b5681Chris LattnerSTATISTIC(NumHoisted   , "Number of instructions hoisted out of loop");
560e5f499638c8d277b9dc4a4385712177c53b5681Chris LattnerSTATISTIC(NumMovedLoads, "Number of load insts hoisted or sunk");
570e5f499638c8d277b9dc4a4385712177c53b5681Chris LattnerSTATISTIC(NumMovedCalls, "Number of call insts hoisted or sunk");
580e5f499638c8d277b9dc4a4385712177c53b5681Chris LattnerSTATISTIC(NumPromoted  , "Number of memory locations promoted to registers");
590e5f499638c8d277b9dc4a4385712177c53b5681Chris Lattner
60e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattnernamespace {
614a650af59912110a246c0a041bff38c92f0e56a2Chris Lattner  cl::opt<bool>
624a650af59912110a246c0a041bff38c92f0e56a2Chris Lattner  DisablePromotion("disable-licm-promotion", cl::Hidden,
634a650af59912110a246c0a041bff38c92f0e56a2Chris Lattner                   cl::desc("Disable memory promotion in LICM pass"));
642e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
6554959d6cf68a9b575c98c074babe9867682a7271Devang Patel  struct VISIBILITY_HIDDEN LICM : public LoopPass {
66794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel    static const int ID; // Pass identifcation, replacement for typeid
67794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel    LICM() : LoopPass((intptr_t)&ID) {}
68794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel
6954959d6cf68a9b575c98c074babe9867682a7271Devang Patel    virtual bool runOnLoop(Loop *L, LPPassManager &LPM);
70e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
7194170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    /// This transformation requires natural loop information & requires that
7294170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    /// loop preheaders be inserted into the CFG...
7394170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    ///
74e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner    virtual void getAnalysisUsage(AnalysisUsage &AU) const {
75cb2610ea037a17115ef3a01a6bdaab4e3cfdca27Chris Lattner      AU.setPreservesCFG();
7698bf436e2e2ab463d79c54a42a46b12028905330Chris Lattner      AU.addRequiredID(LoopSimplifyID);
775f0eb8da62308126d5b61e3eee5bee75b9dc5194Chris Lattner      AU.addRequired<LoopInfo>();
783a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson      AU.addRequired<DominatorTree>();
79325171eed82953e6a8c008456cc28a40c7f12aadOwen Anderson      AU.addRequired<ETForest>();
800252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      AU.addRequired<DominanceFrontier>();  // For scalar promotion (mem2reg)
81f5e84aa0887d3fcd752d4a4fa1bb0e526be49f20Chris Lattner      AU.addRequired<AliasAnalysis>();
82e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner    }
83e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
84747603e39ea3f29add9ba6c07bbefcc5c2432612Dan Gohman    bool doFinalization() {
8554959d6cf68a9b575c98c074babe9867682a7271Devang Patel      LoopToAliasMap.clear();
8654959d6cf68a9b575c98c074babe9867682a7271Devang Patel      return false;
8754959d6cf68a9b575c98c074babe9867682a7271Devang Patel    }
8854959d6cf68a9b575c98c074babe9867682a7271Devang Patel
89e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  private:
9092094b4d928119eceac1484331acffe950f4651cChris Lattner    // Various analyses that we use...
912e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    AliasAnalysis *AA;       // Current AliasAnalysis information
9292094b4d928119eceac1484331acffe950f4651cChris Lattner    LoopInfo      *LI;       // Current LoopInfo
933a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson    ETForest      *ET;       // ETForest for the current loop..
943a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson    DominatorTree *DT;       // Dominator Tree for the current Loop...
9543f820d1f7638656be2158efac7dd8f5b08b8b77Chris Lattner    DominanceFrontier *DF;   // Current Dominance Frontier
9692094b4d928119eceac1484331acffe950f4651cChris Lattner
9792094b4d928119eceac1484331acffe950f4651cChris Lattner    // State that is updated as we process loops
982e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    bool Changed;            // Set to true when we change anything.
992e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    BasicBlock *Preheader;   // The preheader block of the current loop...
1002e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    Loop *CurLoop;           // The current loop we are working on...
1010252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner    AliasSetTracker *CurAST; // AliasSet information for the current loop...
10254959d6cf68a9b575c98c074babe9867682a7271Devang Patel    std::map<Loop *, AliasSetTracker *> LoopToAliasMap;
103e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
104e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    /// SinkRegion - Walk the specified region of the CFG (defined by all blocks
105e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    /// dominated by the specified block, and that are in the current loop) in
1063a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson    /// reverse depth first order w.r.t the DominatorTree.  This allows us to
107e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    /// visit uses before definitions, allowing us to sink a loop body in one
108e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    /// pass without iteration.
109e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    ///
1103a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson    void SinkRegion(DominatorTree::Node *N);
111e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
112952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner    /// HoistRegion - Walk the specified region of the CFG (defined by all
113952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner    /// blocks dominated by the specified block, and that are in the current
1143a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson    /// loop) in depth first order w.r.t the DominatorTree.  This allows us to
115cf00c4ab3ba308d45d98c5ccab87362cf802facbMisha Brukman    /// visit definitions before uses, allowing us to hoist a loop body in one
116952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner    /// pass without iteration.
117952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner    ///
1183a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson    void HoistRegion(DominatorTree::Node *N);
119952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner
120b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner    /// inSubLoop - Little predicate that returns true if the specified basic
121b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner    /// block is in a subloop of the current one, not the current one itself.
12294170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    ///
123b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner    bool inSubLoop(BasicBlock *BB) {
124b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner      assert(CurLoop->contains(BB) && "Only valid if BB is IN the loop");
125329c1c6c949d07e3fe9722ec633b4258217fd99dChris Lattner      for (Loop::iterator I = CurLoop->begin(), E = CurLoop->end(); I != E; ++I)
126329c1c6c949d07e3fe9722ec633b4258217fd99dChris Lattner        if ((*I)->contains(BB))
127b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner          return true;  // A subloop actually contains this block!
128b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner      return false;
129e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner    }
130e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
131a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// isExitBlockDominatedByBlockInLoop - This method checks to see if the
132a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// specified exit block of the loop is dominated by the specified block
133a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// that is in the body of the loop.  We use these constraints to
134a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// dramatically limit the amount of the dominator tree that needs to be
135a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// searched.
136a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    bool isExitBlockDominatedByBlockInLoop(BasicBlock *ExitBlock,
137a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner                                           BasicBlock *BlockInLoop) const {
138a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // If the block in the loop is the loop header, it must be dominated!
139a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      BasicBlock *LoopHeader = CurLoop->getHeader();
140a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      if (BlockInLoop == LoopHeader)
141a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        return true;
142fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
1433a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson      DominatorTree::Node *BlockInLoopNode = DT->getNode(BlockInLoop);
1443a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson      DominatorTree::Node *IDom            = DT->getNode(ExitBlock);
145fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
146a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // Because the exit block is not in the loop, we know we have to get _at
1472741c971044d2165be572749b94398043caccfebChris Lattner      // least_ its immediate dominator.
148a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      do {
149a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        // Get next Immediate Dominator.
1503a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson        IDom = IDom->getIDom();
151fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
152a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        // If we have got to the header of the loop, then the instructions block
153a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        // did not dominate the exit node, so we can't hoist it.
1543a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson        if (IDom->getBlock() == LoopHeader)
155a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          return false;
156fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
1573a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson      } while (IDom != BlockInLoopNode);
158a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
159a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      return true;
160a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    }
161a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
162a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// sink - When an instruction is found to only be used outside of the loop,
163a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// this function moves it to the exit blocks and patches up SSA form as
164a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// needed.
165a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    ///
166a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    void sink(Instruction &I);
167a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
16894170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    /// hoist - When an instruction is found to only use loop invariant operands
16994170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    /// that is safe to hoist, this instruction is called to do the dirty work.
17094170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    ///
1717e70829632f82de15db187845666aaca6e04b792Chris Lattner    void hoist(Instruction &I);
172e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
173a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// isSafeToExecuteUnconditionally - Only sink or hoist an instruction if it
174a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// is not a trapping instruction or if it is a trapping instruction and is
175a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    /// guaranteed to execute.
1769966c03aad031f738718bed3bc00371e358beb5dTanya Lattner    ///
177a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    bool isSafeToExecuteUnconditionally(Instruction &I);
1789966c03aad031f738718bed3bc00371e358beb5dTanya Lattner
17994170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    /// pointerInvalidatedByLoop - Return true if the body of this loop may
18094170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner    /// store into the memory location pointed to by V.
181fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman    ///
182f3e1d6977ee5fb6b66df314d65e28e2c35d6e244Chris Lattner    bool pointerInvalidatedByLoop(Value *V, unsigned Size) {
1830252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      // Check to see if any of the basic blocks in CurLoop invalidate *V.
184f3e1d6977ee5fb6b66df314d65e28e2c35d6e244Chris Lattner      return CurAST->getAliasSetForPointer(V, Size).isMod();
1852e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    }
186f5e84aa0887d3fcd752d4a4fa1bb0e526be49f20Chris Lattner
187a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    bool canSinkOrHoistInst(Instruction &I);
188a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    bool isLoopInvariantInst(Instruction &I);
189a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    bool isNotUsedInLoop(Instruction &I);
190e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
1912e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    /// PromoteValuesInLoop - Look at the stores in the loop and promote as many
1922e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    /// to scalars as we can.
1932e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    ///
1942e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    void PromoteValuesInLoop();
1952e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
196fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    /// FindPromotableValuesInLoop - Check the current loop for stores to
197352361b409d16045e703d986aa7fd77295173ef3Misha Brukman    /// definite pointers, which are not loaded and stored through may aliases.
1982e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    /// If these are found, create an alloca for the value, add it to the
1992e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    /// PromotedValues list, and keep track of the mapping from value to
2002e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    /// alloca...
2012e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    ///
202fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    void FindPromotableValuesInLoop(
2032e6e741b737960ecd0b68610875050019aac0f07Chris Lattner                   std::vector<std::pair<AllocaInst*, Value*> > &PromotedValues,
2042e6e741b737960ecd0b68610875050019aac0f07Chris Lattner                                    std::map<Value*, AllocaInst*> &Val2AlMap);
205e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  };
206f629309f74cf1a64aa7fd1cd5784fd7db9a8f59eChris Lattner
207794fd75c67a2cdc128d67342c6d88a504d186896Devang Patel  const int LICM::ID = 0;
2087f8897f22e88271cfa114998a4d6088e7c8e8e11Chris Lattner  RegisterPass<LICM> X("licm", "Loop Invariant Code Motion");
209e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner}
210e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
21154959d6cf68a9b575c98c074babe9867682a7271Devang PatelLoopPass *llvm::createLICMPass() { return new LICM(); }
212e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
21354959d6cf68a9b575c98c074babe9867682a7271Devang Patel/// Hoist expressions out of the specified loop...
21494170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner///
21554959d6cf68a9b575c98c074babe9867682a7271Devang Patelbool LICM::runOnLoop(Loop *L, LPPassManager &LPM) {
2162e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  Changed = false;
217e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
2182e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // Get our Loop and Alias Analysis information...
2192e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  LI = &getAnalysis<LoopInfo>();
220f5e84aa0887d3fcd752d4a4fa1bb0e526be49f20Chris Lattner  AA = &getAnalysis<AliasAnalysis>();
22143f820d1f7638656be2158efac7dd8f5b08b8b77Chris Lattner  DF = &getAnalysis<DominanceFrontier>();
2223a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  DT = &getAnalysis<DominatorTree>();
223325171eed82953e6a8c008456cc28a40c7f12aadOwen Anderson  ET = &getAnalysis<ETForest>();
224f5e84aa0887d3fcd752d4a4fa1bb0e526be49f20Chris Lattner
22554959d6cf68a9b575c98c074babe9867682a7271Devang Patel  CurAST = new AliasSetTracker(*AA);
22654959d6cf68a9b575c98c074babe9867682a7271Devang Patel  // Collect Alias info frmo subloops
22754959d6cf68a9b575c98c074babe9867682a7271Devang Patel  for (Loop::iterator LoopItr = L->begin(), LoopItrE = L->end();
22854959d6cf68a9b575c98c074babe9867682a7271Devang Patel       LoopItr != LoopItrE; ++LoopItr) {
22954959d6cf68a9b575c98c074babe9867682a7271Devang Patel    Loop *InnerL = *LoopItr;
23054959d6cf68a9b575c98c074babe9867682a7271Devang Patel    AliasSetTracker *InnerAST = LoopToAliasMap[InnerL];
23154959d6cf68a9b575c98c074babe9867682a7271Devang Patel    assert (InnerAST && "Where is my AST?");
23294170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner
23354959d6cf68a9b575c98c074babe9867682a7271Devang Patel    // What if InnerLoop was modified by other passes ?
23454959d6cf68a9b575c98c074babe9867682a7271Devang Patel    CurAST->add(*InnerAST);
2352e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  }
23654959d6cf68a9b575c98c074babe9867682a7271Devang Patel
237e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  CurLoop = L;
238e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
23999a57216a935a512c418032f590a4660bad9d846Chris Lattner  // Get the preheader block to move instructions into...
24099a57216a935a512c418032f590a4660bad9d846Chris Lattner  Preheader = L->getLoopPreheader();
24199a57216a935a512c418032f590a4660bad9d846Chris Lattner  assert(Preheader&&"Preheader insertion pass guarantees we have a preheader!");
24299a57216a935a512c418032f590a4660bad9d846Chris Lattner
2432e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // Loop over the body of this loop, looking for calls, invokes, and stores.
2440252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner  // Because subloops have already been incorporated into AST, we skip blocks in
2452e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // subloops.
2462e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  //
247a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  for (std::vector<BasicBlock*>::const_iterator I = L->getBlocks().begin(),
248a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner         E = L->getBlocks().end(); I != E; ++I)
2492e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    if (LI->getLoopFor(*I) == L)        // Ignore blocks in subloops...
250e34e9a29dc424baed8aed200c6a940f2c12c2a2fChris Lattner      CurAST->add(**I);                 // Incorporate the specified basic block
2512e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
252e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  // We want to visit all of the instructions in this loop... that are not parts
253e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  // of our subloops (they have already had their invariants hoisted out of
254e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  // their loop, into this loop, so there is no need to process the BODIES of
255e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  // the subloops).
256e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  //
257952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner  // Traverse the body of the loop in depth first order on the dominator tree so
258952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner  // that we are guaranteed to see definitions before we see uses.  This allows
259e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  // us to sink instructions in one pass, without iteration.  AFter sinking
260e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  // instructions, we perform another pass to hoist them out of the loop.
261952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner  //
2623a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  SinkRegion(DT->getNode(L->getHeader()));
2633a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  HoistRegion(DT->getNode(L->getHeader()));
264e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
2652e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // Now that all loop invariants have been removed from the loop, promote any
2662e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // memory references to scalars that we can...
2672e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  if (!DisablePromotion)
2682e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    PromoteValuesInLoop();
2692e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
270e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  // Clear out loops state information for the next iteration
271e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  CurLoop = 0;
27299a57216a935a512c418032f590a4660bad9d846Chris Lattner  Preheader = 0;
27354959d6cf68a9b575c98c074babe9867682a7271Devang Patel
27454959d6cf68a9b575c98c074babe9867682a7271Devang Patel  LoopToAliasMap[L] = CurAST;
27554959d6cf68a9b575c98c074babe9867682a7271Devang Patel  return Changed;
276e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner}
277e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
278e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner/// SinkRegion - Walk the specified region of the CFG (defined by all blocks
279e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner/// dominated by the specified block, and that are in the current loop) in
2803a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson/// reverse depth first order w.r.t the DominatorTree.  This allows us to visit
281e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner/// uses before definitions, allowing us to sink a loop body in one pass without
282e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner/// iteration.
283e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner///
2843a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Andersonvoid LICM::SinkRegion(DominatorTree::Node *N) {
2853a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  assert(N != 0 && "Null dominator tree node?");
2863a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  BasicBlock *BB = N->getBlock();
287e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
288e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  // If this subregion is not in the top level loop at all, exit.
289e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  if (!CurLoop->contains(BB)) return;
290e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
291e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  // We are processing blocks in reverse dfo, so process children first...
2923a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  const std::vector<DominatorTree::Node*> &Children = N->getChildren();
293e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  for (unsigned i = 0, e = Children.size(); i != e; ++i)
294e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    SinkRegion(Children[i]);
295e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
296e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  // Only need to process the contents of this block if it is not part of a
297e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  // subloop (which would already have been processed).
298e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  if (inSubLoop(BB)) return;
299e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
300a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner  for (BasicBlock::iterator II = BB->end(); II != BB->begin(); ) {
301a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner    Instruction &I = *--II;
302fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
303e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    // Check to see if we can sink this instruction to the exit blocks
304e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    // of the loop.  We can do this if the all users of the instruction are
305e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    // outside of the loop.  In this case, it doesn't even matter if the
306e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    // operands of the instruction are loop invariant.
307e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner    //
30870ac2dcb841dc62f08e16f0b0e2cefbf01baa4c5Chris Lattner    if (isNotUsedInLoop(I) && canSinkOrHoistInst(I)) {
309a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner      ++II;
310e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner      sink(I);
311a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner    }
312e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner  }
313e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner}
314e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
315e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner
316952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner/// HoistRegion - Walk the specified region of the CFG (defined by all blocks
317952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner/// dominated by the specified block, and that are in the current loop) in depth
3183a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson/// first order w.r.t the DominatorTree.  This allows us to visit definitions
319952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner/// before uses, allowing us to hoist a loop body in one pass without iteration.
320952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner///
3213a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Andersonvoid LICM::HoistRegion(DominatorTree::Node *N) {
3223a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  assert(N != 0 && "Null dominator tree node?");
3233a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  BasicBlock *BB = N->getBlock();
324952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner
325b461373fbcdc5909cc7331fa64791cd039de4bc8Chris Lattner  // If this subregion is not in the top level loop at all, exit.
326ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  if (!CurLoop->contains(BB)) return;
327952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner
328a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  // Only need to process the contents of this block if it is not part of a
329a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  // subloop (which would already have been processed).
330ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  if (!inSubLoop(BB))
331a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    for (BasicBlock::iterator II = BB->begin(), E = BB->end(); II != E; ) {
332a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      Instruction &I = *II++;
333fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
334e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner      // Try hoisting the instruction out to the preheader.  We can only do this
335e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner      // if all of the operands of the instruction are loop invariant and if it
336e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner      // is safe to hoist the instruction.
337e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner      //
338fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman      if (isLoopInvariantInst(I) && canSinkOrHoistInst(I) &&
339e4365b2e8c79f9b2d564f31fdcc0568da8e5d60fChris Lattner          isSafeToExecuteUnconditionally(I))
3403c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner        hoist(I);
341a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      }
342952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner
3433a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  const std::vector<DominatorTree::Node*> &Children = N->getChildren();
344952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner  for (unsigned i = 0, e = Children.size(); i != e; ++i)
34556b7ee20dad7160a117ea0d102fc5432074ce2d0Chris Lattner    HoistRegion(Children[i]);
346952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner}
347952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner
348a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// canSinkOrHoistInst - Return true if the hoister and sinker can handle this
349a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// instruction.
350a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner///
351a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattnerbool LICM::canSinkOrHoistInst(Instruction &I) {
352ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  // Loads have extra constraints we have to verify before we can hoist them.
353ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  if (LoadInst *LI = dyn_cast<LoadInst>(&I)) {
354ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner    if (LI->isVolatile())
355ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner      return false;        // Don't hoist volatile loads!
356ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner
357ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner    // Don't hoist loads which have may-aliased stores in loop.
358f3e1d6977ee5fb6b66df314d65e28e2c35d6e244Chris Lattner    unsigned Size = 0;
359f3e1d6977ee5fb6b66df314d65e28e2c35d6e244Chris Lattner    if (LI->getType()->isSized())
360f3e1d6977ee5fb6b66df314d65e28e2c35d6e244Chris Lattner      Size = AA->getTargetData().getTypeSize(LI->getType());
361f3e1d6977ee5fb6b66df314d65e28e2c35d6e244Chris Lattner    return !pointerInvalidatedByLoop(LI->getOperand(0), Size);
362118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner  } else if (CallInst *CI = dyn_cast<CallInst>(&I)) {
363118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    // Handle obvious cases efficiently.
364118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    if (Function *Callee = CI->getCalledFunction()) {
36568a9d3eb38d78e851cce532ffa307a89373036c6Chris Lattner      AliasAnalysis::ModRefBehavior Behavior =AA->getModRefBehavior(Callee, CI);
36668a9d3eb38d78e851cce532ffa307a89373036c6Chris Lattner      if (Behavior == AliasAnalysis::DoesNotAccessMemory)
367118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        return true;
36868a9d3eb38d78e851cce532ffa307a89373036c6Chris Lattner      else if (Behavior == AliasAnalysis::OnlyReadsMemory) {
369118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        // If this call only reads from memory and there are no writes to memory
370118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        // in the loop, we can hoist or sink the call as appropriate.
371118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        bool FoundMod = false;
372118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        for (AliasSetTracker::iterator I = CurAST->begin(), E = CurAST->end();
373118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner             I != E; ++I) {
374118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner          AliasSet &AS = *I;
375118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner          if (!AS.isForwardingAliasSet() && AS.isMod()) {
376118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner            FoundMod = true;
377118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner            break;
378118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner          }
379118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        }
380118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner        if (!FoundMod) return true;
381118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner      }
382118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    }
383118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner
384118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    // FIXME: This should use mod/ref information to see if we can hoist or sink
385118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    // the call.
386fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
387118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    return false;
388ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  }
389ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner
3903da59db637a887474c1b1346c1f3ccf53b6c4663Reid Spencer  // Otherwise these instructions are hoistable/sinkable
391832254e1c2387c0cbeb0a820b8315fbe85cb003aReid Spencer  return isa<BinaryOperator>(I) || isa<CastInst>(I) ||
392e4d87aa2de6e52952dca73716386db09aad5a8fdReid Spencer         isa<SelectInst>(I) || isa<GetElementPtrInst>(I) || isa<CmpInst>(I);
393a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner}
394a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
395a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// isNotUsedInLoop - Return true if the only users of this instruction are
396a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// outside of the loop.  If this is true, we can sink the instruction to the
397a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// exit blocks of the loop.
398a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner///
399a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattnerbool LICM::isNotUsedInLoop(Instruction &I) {
400ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner  for (Value::use_iterator UI = I.use_begin(), E = I.use_end(); UI != E; ++UI) {
401ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner    Instruction *User = cast<Instruction>(*UI);
402ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner    if (PHINode *PN = dyn_cast<PHINode>(User)) {
403ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner      // PHI node uses occur in predecessor blocks!
404ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner      for (unsigned i = 0, e = PN->getNumIncomingValues(); i != e; ++i)
405ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner        if (PN->getIncomingValue(i) == &I)
406ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner          if (CurLoop->contains(PN->getIncomingBlock(i)))
407ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner            return false;
408ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner    } else if (CurLoop->contains(User->getParent())) {
409a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      return false;
410ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner    }
411ea9403f2aa078e840a49792d906390395f0cd2f6Chris Lattner  }
412a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  return true;
413a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner}
414a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
415a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
416a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// isLoopInvariantInst - Return true if all operands of this instruction are
417a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// loop invariant.  We also filter out non-hoistable instructions here just for
418a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// efficiency.
419a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner///
420a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattnerbool LICM::isLoopInvariantInst(Instruction &I) {
421a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  // The instruction is loop invariant if all of its operands are loop-invariant
422a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  for (unsigned i = 0, e = I.getNumOperands(); i != e; ++i)
4233280f7bd557250a448eb56edbddfc90c94a406e6Chris Lattner    if (!CurLoop->isLoopInvariant(I.getOperand(i)))
424a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      return false;
425a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
426ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  // If we got this far, the instruction is loop invariant!
427ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner  return true;
428ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner}
429ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner
430a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// sink - When an instruction is found to only be used outside of the loop,
431a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner/// this function moves it to the exit blocks and patches up SSA form as needed.
432a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner/// This method is guaranteed to remove the original instruction from its
433a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner/// position, and may either delete it or move it to outside of the loop.
434a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner///
435a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattnervoid LICM::sink(Instruction &I) {
436b7427031372337e6d67f9573ec6c722ab5ea913eBill Wendling  DOUT << "LICM sinking instruction: " << I;
437a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
4385fa802fe279f10f402e039bc931aa57c0e424bf5Chris Lattner  std::vector<BasicBlock*> ExitBlocks;
4395fa802fe279f10f402e039bc931aa57c0e424bf5Chris Lattner  CurLoop->getExitBlocks(ExitBlocks);
440df45bd3803ae0965a83cd1f30ee051b9f43e73ddChris Lattner
441df45bd3803ae0965a83cd1f30ee051b9f43e73ddChris Lattner  if (isa<LoadInst>(I)) ++NumMovedLoads;
442118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner  else if (isa<CallInst>(I)) ++NumMovedCalls;
443df45bd3803ae0965a83cd1f30ee051b9f43e73ddChris Lattner  ++NumSunk;
444df45bd3803ae0965a83cd1f30ee051b9f43e73ddChris Lattner  Changed = true;
445df45bd3803ae0965a83cd1f30ee051b9f43e73ddChris Lattner
446a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  // The case where there is only a single exit node of this loop is common
447a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  // enough that we handle it as a special (more efficient) case.  It is more
448a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  // efficient to handle because there are no PHI nodes that need to be placed.
449a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  if (ExitBlocks.size() == 1) {
450a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    if (!isExitBlockDominatedByBlockInLoop(ExitBlocks[0], I.getParent())) {
451a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // Instruction is not used, just delete it.
4522741c971044d2165be572749b94398043caccfebChris Lattner      CurAST->deleteValue(&I);
45392f7365740e9a116c59a8d33e636ebf6e4699301Chris Lattner      if (!I.use_empty())  // If I has users in unreachable blocks, eliminate.
45492f7365740e9a116c59a8d33e636ebf6e4699301Chris Lattner        I.replaceAllUsesWith(UndefValue::get(I.getType()));
4553c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner      I.eraseFromParent();
456a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    } else {
457a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // Move the instruction to the start of the exit block, after any PHI
458a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // nodes in it.
4593c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner      I.removeFromParent();
460fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
461a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      BasicBlock::iterator InsertPt = ExitBlocks[0]->begin();
462a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      while (isa<PHINode>(InsertPt)) ++InsertPt;
463a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      ExitBlocks[0]->getInstList().insert(InsertPt, &I);
464a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    }
465a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  } else if (ExitBlocks.size() == 0) {
466a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // The instruction is actually dead if there ARE NO exit blocks.
4672741c971044d2165be572749b94398043caccfebChris Lattner    CurAST->deleteValue(&I);
46892f7365740e9a116c59a8d33e636ebf6e4699301Chris Lattner    if (!I.use_empty())  // If I has users in unreachable blocks, eliminate.
46992f7365740e9a116c59a8d33e636ebf6e4699301Chris Lattner      I.replaceAllUsesWith(UndefValue::get(I.getType()));
4703c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner    I.eraseFromParent();
471a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  } else {
472a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // Otherwise, if we have multiple exits, use the PromoteMem2Reg function to
473a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // do all of the hard work of inserting PHI nodes as necessary.  We convert
474a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // the value into a stack object to get it to do this.
475a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
476a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // Firstly, we create a stack object to hold the value...
477eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner    AllocaInst *AI = 0;
478a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
479eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner    if (I.getType() != Type::VoidTy)
480eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner      AI = new AllocaInst(I.getType(), 0, I.getName(),
481ecb7a77885b174cf4d001a9b48533b3979e7810dDan Gohman                          I.getParent()->getParent()->getEntryBlock().begin());
482fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
483a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // Secondly, insert load instructions for each use of the instruction
484a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // outside of the loop.
485a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    while (!I.use_empty()) {
486a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      Instruction *U = cast<Instruction>(I.use_back());
487a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
488a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // If the user is a PHI Node, we actually have to insert load instructions
489a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      // in all predecessor blocks, not in the PHI block itself!
490a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      if (PHINode *UPN = dyn_cast<PHINode>(U)) {
491a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        // Only insert into each predecessor once, so that we don't have
492a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        // different incoming values from the same block!
493a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        std::map<BasicBlock*, Value*> InsertedBlocks;
494a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        for (unsigned i = 0, e = UPN->getNumIncomingValues(); i != e; ++i)
495a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          if (UPN->getIncomingValue(i) == &I) {
496a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            BasicBlock *Pred = UPN->getIncomingBlock(i);
497a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            Value *&PredVal = InsertedBlocks[Pred];
498a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            if (!PredVal) {
499a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner              // Insert a new load instruction right before the terminator in
500a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner              // the predecessor block.
501a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner              PredVal = new LoadInst(AI, "", Pred->getTerminator());
502a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            }
503a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
504a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            UPN->setIncomingValue(i, PredVal);
505a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          }
506a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
507a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      } else {
508a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        LoadInst *L = new LoadInst(AI, "", U);
509a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        U->replaceUsesOfWith(&I, L);
510a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      }
511a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    }
512a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
513a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // Thirdly, insert a copy of the instruction in each exit block of the loop
514a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // that is dominated by the instruction, storing the result into the memory
515a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // location.  Be careful not to insert the instruction into any particular
516a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // basic block more than once.
517a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    std::set<BasicBlock*> InsertedBlocks;
518a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    BasicBlock *InstOrigBB = I.getParent();
519a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
520a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    for (unsigned i = 0, e = ExitBlocks.size(); i != e; ++i) {
521a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      BasicBlock *ExitBlock = ExitBlocks[i];
522a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner
523a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      if (isExitBlockDominatedByBlockInLoop(ExitBlock, InstOrigBB)) {
524a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        // If we haven't already processed this exit block, do so now.
525e3cfe8d563fa06b274587aa38b1359ff707f33deChris Lattner        if (InsertedBlocks.insert(ExitBlock).second) {
526a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          // Insert the code after the last PHI node...
527a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          BasicBlock::iterator InsertPt = ExitBlock->begin();
528a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          while (isa<PHINode>(InsertPt)) ++InsertPt;
529fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
530a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          // If this is the first exit block processed, just move the original
531a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          // instruction, otherwise clone the original instruction and insert
532a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          // the copy.
533a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          Instruction *New;
5347d3ced934f1bb2c6845676c7333ef879d5219e88Chris Lattner          if (InsertedBlocks.size() == 1) {
5353c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner            I.removeFromParent();
536a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            ExitBlock->getInstList().insert(InsertPt, &I);
537a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            New = &I;
538a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          } else {
539a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            New = I.clone();
54070ac2dcb841dc62f08e16f0b0e2cefbf01baa4c5Chris Lattner            CurAST->copyValue(&I, New);
541eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner            if (!I.getName().empty())
542eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner              New->setName(I.getName()+".le");
543a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner            ExitBlock->getInstList().insert(InsertPt, New);
544a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          }
545fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
546a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner          // Now that we have inserted the instruction, store it into the alloca
547eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner          if (AI) new StoreInst(New, AI, InsertPt);
548a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner        }
549a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      }
550a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    }
551a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner
552a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner    // If the instruction doesn't dominate any exit blocks, it must be dead.
553a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner    if (InsertedBlocks.empty()) {
5542741c971044d2165be572749b94398043caccfebChris Lattner      CurAST->deleteValue(&I);
5553c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner      I.eraseFromParent();
556a3df8a964aa9d0d171fd4f6e491c7d1cf9dee500Chris Lattner    }
557fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
558a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    // Finally, promote the fine value to SSA form.
559eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner    if (AI) {
560eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner      std::vector<AllocaInst*> Allocas;
561eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner      Allocas.push_back(AI);
56268c01b3cf35bb7ed2d3a3f63053e304e092bcfddDevang Patel      PromoteMemToReg(Allocas, *ET, *DF, CurAST);
563eaa243039b6a83f8915f4f96ced58fabb520c851Chris Lattner    }
564a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  }
565a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner}
566952eaee239d6c38f5121ed68277555344c2d6bf0Chris Lattner
56794170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner/// hoist - When an instruction is found to only use loop invariant operands
56894170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner/// that is safe to hoist, this instruction is called to do the dirty work.
56994170596b715928794a55bc5a1671e3992fd2dc9Chris Lattner///
570a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattnervoid LICM::hoist(Instruction &I) {
571b7427031372337e6d67f9573ec6c722ab5ea913eBill Wendling  DOUT << "LICM hoisting to " << Preheader->getName() << ": " << I;
572ed6dfc2856cd44a8aa608a9074eabbf42dd6cadcChris Lattner
57399a57216a935a512c418032f590a4660bad9d846Chris Lattner  // Remove the instruction from its current basic block... but don't delete the
57499a57216a935a512c418032f590a4660bad9d846Chris Lattner  // instruction.
5753c80a51cfd5e7187439ce4c051da77ee46e0ff9aChris Lattner  I.removeFromParent();
576e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
5779646e6b6af1f924f9366a2bffc6dde102f84d231Chris Lattner  // Insert the new node in Preheader, before the terminator.
578a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  Preheader->getInstList().insert(Preheader->getTerminator(), &I);
579fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
580a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  if (isa<LoadInst>(I)) ++NumMovedLoads;
581118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner  else if (isa<CallInst>(I)) ++NumMovedCalls;
5829646e6b6af1f924f9366a2bffc6dde102f84d231Chris Lattner  ++NumHoisted;
583e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner  Changed = true;
584e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner}
585e0e734eea052a4e8372e6f430ef41149128ba0a6Chris Lattner
586a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// isSafeToExecuteUnconditionally - Only sink or hoist an instruction if it is
587a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// not a trapping instruction or if it is a trapping instruction and is
588a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner/// guaranteed to execute.
5899966c03aad031f738718bed3bc00371e358beb5dTanya Lattner///
590a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattnerbool LICM::isSafeToExecuteUnconditionally(Instruction &Inst) {
59192094b4d928119eceac1484331acffe950f4651cChris Lattner  // If it is not a trapping instruction, it is always safe to hoist.
59292094b4d928119eceac1484331acffe950f4651cChris Lattner  if (!Inst.isTrapping()) return true;
593fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
59492094b4d928119eceac1484331acffe950f4651cChris Lattner  // Otherwise we have to check to make sure that the instruction dominates all
59592094b4d928119eceac1484331acffe950f4651cChris Lattner  // of the exit blocks.  If it doesn't, then there is a path out of the loop
59692094b4d928119eceac1484331acffe950f4651cChris Lattner  // which does not execute this instruction, so we can't hoist it.
59792094b4d928119eceac1484331acffe950f4651cChris Lattner
59892094b4d928119eceac1484331acffe950f4651cChris Lattner  // If the instruction is in the header block for the loop (which is very
59992094b4d928119eceac1484331acffe950f4651cChris Lattner  // common), it is always guaranteed to dominate the exit blocks.  Since this
60092094b4d928119eceac1484331acffe950f4651cChris Lattner  // is a common case, and can save some work, check it now.
601a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  if (Inst.getParent() == CurLoop->getHeader())
60292094b4d928119eceac1484331acffe950f4651cChris Lattner    return true;
60392094b4d928119eceac1484331acffe950f4651cChris Lattner
6048a9193927a2661293a2afd5d1420faa2b0b8e6bfChris Lattner  // It's always safe to load from a global or alloca.
6058a9193927a2661293a2afd5d1420faa2b0b8e6bfChris Lattner  if (isa<LoadInst>(Inst))
6068a9193927a2661293a2afd5d1420faa2b0b8e6bfChris Lattner    if (isa<AllocationInst>(Inst.getOperand(0)) ||
6078a9193927a2661293a2afd5d1420faa2b0b8e6bfChris Lattner        isa<GlobalVariable>(Inst.getOperand(0)))
6088a9193927a2661293a2afd5d1420faa2b0b8e6bfChris Lattner      return true;
6098a9193927a2661293a2afd5d1420faa2b0b8e6bfChris Lattner
61092094b4d928119eceac1484331acffe950f4651cChris Lattner  // Get the exit blocks for the current loop.
6115fa802fe279f10f402e039bc931aa57c0e424bf5Chris Lattner  std::vector<BasicBlock*> ExitBlocks;
6125fa802fe279f10f402e039bc931aa57c0e424bf5Chris Lattner  CurLoop->getExitBlocks(ExitBlocks);
6139966c03aad031f738718bed3bc00371e358beb5dTanya Lattner
6143a2b58f3adc5e9f9bffac7ce193f0570aa5a721fOwen Anderson  // For each exit block, get the DT node and walk up the DT until the
61592094b4d928119eceac1484331acffe950f4651cChris Lattner  // instruction's basic block is found or we exit the loop.
616a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner  for (unsigned i = 0, e = ExitBlocks.size(); i != e; ++i)
617a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner    if (!isExitBlockDominatedByBlockInLoop(ExitBlocks[i], Inst.getParent()))
618a2706518f9cc34358cba1072f78235aa091d6d93Chris Lattner      return false;
619fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
6209966c03aad031f738718bed3bc00371e358beb5dTanya Lattner  return true;
6219966c03aad031f738718bed3bc00371e358beb5dTanya Lattner}
6229966c03aad031f738718bed3bc00371e358beb5dTanya Lattner
623eb53ae4f2dc39e75e725b21b52d77d29cf1c11c9Chris Lattner
6242e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// PromoteValuesInLoop - Try to promote memory values to scalars by sinking
6252e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// stores out of the loop and moving loads to before the loop.  We do this by
6262e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// looping over the stores in the loop, looking for stores to Must pointers
6272e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// which are loop invariant.  We promote these memory locations to use allocas
6282e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// instead.  These allocas can easily be raised to register values by the
6292e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// PromoteMem2Reg functionality.
6302e6e741b737960ecd0b68610875050019aac0f07Chris Lattner///
6312e6e741b737960ecd0b68610875050019aac0f07Chris Lattnervoid LICM::PromoteValuesInLoop() {
6322e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // PromotedValues - List of values that are promoted out of the loop.  Each
633065a616adad624152618b1b0084ff074e5b03bbbChris Lattner  // value has an alloca instruction for it, and a canonical version of the
6342e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // pointer.
6352e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  std::vector<std::pair<AllocaInst*, Value*> > PromotedValues;
6362e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  std::map<Value*, AllocaInst*> ValueToAllocaMap; // Map of ptr to alloca
6372e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
638fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner  FindPromotableValuesInLoop(PromotedValues, ValueToAllocaMap);
639fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner  if (ValueToAllocaMap.empty()) return;   // If there are values to promote.
6402e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
6412e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  Changed = true;
6422e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  NumPromoted += PromotedValues.size();
6432e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
644fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner  std::vector<Value*> PointerValueNumbers;
645fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
6462e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // Emit a copy from the value into the alloca'd value in the loop preheader
6472e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  TerminatorInst *LoopPredInst = Preheader->getTerminator();
6482e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  for (unsigned i = 0, e = PromotedValues.size(); i != e; ++i) {
649fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    Value *Ptr = PromotedValues[i].second;
650fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
651fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    // If we are promoting a pointer value, update alias information for the
652fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    // inserted load.
653fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    Value *LoadValue = 0;
654fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    if (isa<PointerType>(cast<PointerType>(Ptr->getType())->getElementType())) {
655fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      // Locate a load or store through the pointer, and assign the same value
656fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      // to LI as we are loading or storing.  Since we know that the value is
657fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      // stored in this loop, this will always succeed.
658fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      for (Value::use_iterator UI = Ptr->use_begin(), E = Ptr->use_end();
659fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner           UI != E; ++UI)
660fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        if (LoadInst *LI = dyn_cast<LoadInst>(*UI)) {
661fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner          LoadValue = LI;
662fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner          break;
663fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        } else if (StoreInst *SI = dyn_cast<StoreInst>(*UI)) {
664bdacd879578943efc98b75639cb8e7b4aab037f9Chris Lattner          if (SI->getOperand(1) == Ptr) {
665fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner            LoadValue = SI->getOperand(0);
666fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner            break;
667fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner          }
668fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        }
669fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      assert(LoadValue && "No store through the pointer found!");
670fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      PointerValueNumbers.push_back(LoadValue);  // Remember this for later.
671fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    }
672fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
673fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    // Load from the memory we are promoting.
674fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    LoadInst *LI = new LoadInst(Ptr, Ptr->getName()+".promoted", LoopPredInst);
675fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
676fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    if (LoadValue) CurAST->copyValue(LoadValue, LI);
677fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
678fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    // Store into the temporary alloca.
6792e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    new StoreInst(LI, PromotedValues[i].first, LoopPredInst);
6802e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  }
681fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
6822e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // Scan the basic blocks in the loop, replacing uses of our pointers with
6830ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  // uses of the allocas in question.
6842e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  //
6852e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  const std::vector<BasicBlock*> &LoopBBs = CurLoop->getBlocks();
6862e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  for (std::vector<BasicBlock*>::const_iterator I = LoopBBs.begin(),
6872e6e741b737960ecd0b68610875050019aac0f07Chris Lattner         E = LoopBBs.end(); I != E; ++I) {
6882e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    // Rewrite all loads and stores in the block of the pointer...
6892e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    for (BasicBlock::iterator II = (*I)->begin(), E = (*I)->end();
6902e6e741b737960ecd0b68610875050019aac0f07Chris Lattner         II != E; ++II) {
691e408e25132b8de8c757db1e3ddcd70432dfeb24dChris Lattner      if (LoadInst *L = dyn_cast<LoadInst>(II)) {
6922e6e741b737960ecd0b68610875050019aac0f07Chris Lattner        std::map<Value*, AllocaInst*>::iterator
6932e6e741b737960ecd0b68610875050019aac0f07Chris Lattner          I = ValueToAllocaMap.find(L->getOperand(0));
6942e6e741b737960ecd0b68610875050019aac0f07Chris Lattner        if (I != ValueToAllocaMap.end())
6952e6e741b737960ecd0b68610875050019aac0f07Chris Lattner          L->setOperand(0, I->second);    // Rewrite load instruction...
696e408e25132b8de8c757db1e3ddcd70432dfeb24dChris Lattner      } else if (StoreInst *S = dyn_cast<StoreInst>(II)) {
6972e6e741b737960ecd0b68610875050019aac0f07Chris Lattner        std::map<Value*, AllocaInst*>::iterator
6982e6e741b737960ecd0b68610875050019aac0f07Chris Lattner          I = ValueToAllocaMap.find(S->getOperand(1));
6992e6e741b737960ecd0b68610875050019aac0f07Chris Lattner        if (I != ValueToAllocaMap.end())
7002e6e741b737960ecd0b68610875050019aac0f07Chris Lattner          S->setOperand(1, I->second);    // Rewrite store instruction...
7012e6e741b737960ecd0b68610875050019aac0f07Chris Lattner      }
7022e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    }
7030ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  }
7042e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
7050ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  // Now that the body of the loop uses the allocas instead of the original
7060ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  // memory locations, insert code to copy the alloca value back into the
7070ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  // original memory location on all exits from the loop.  Note that we only
7080ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  // want to insert one copy of the code in each exit block, though the loop may
7090ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  // exit to the same block more than once.
7100ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  //
7110ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  std::set<BasicBlock*> ProcessedBlocks;
7120ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner
7135fa802fe279f10f402e039bc931aa57c0e424bf5Chris Lattner  std::vector<BasicBlock*> ExitBlocks;
7145fa802fe279f10f402e039bc931aa57c0e424bf5Chris Lattner  CurLoop->getExitBlocks(ExitBlocks);
7150ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner  for (unsigned i = 0, e = ExitBlocks.size(); i != e; ++i)
716f594a03197ddd6437ca5eb3c2c61d339528e0da4Chris Lattner    if (ProcessedBlocks.insert(ExitBlocks[i]).second) {
717fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      // Copy all of the allocas into their memory locations.
7180ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner      BasicBlock::iterator BI = ExitBlocks[i]->begin();
7190ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner      while (isa<PHINode>(*BI))
720fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        ++BI;             // Skip over all of the phi nodes in the block.
7210ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner      Instruction *InsertPos = BI;
722fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner      unsigned PVN = 0;
7230ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner      for (unsigned i = 0, e = PromotedValues.size(); i != e; ++i) {
724fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        // Load from the alloca.
7250ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner        LoadInst *LI = new LoadInst(PromotedValues[i].first, "", InsertPos);
726fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
727fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        // If this is a pointer type, update alias info appropriately.
728fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        if (isa<PointerType>(LI->getType()))
729fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner          CurAST->copyValue(PointerValueNumbers[PVN++], LI);
730fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
731fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        // Store into the memory we promoted.
7320ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner        new StoreInst(LI, PromotedValues[i].second, InsertPos);
7332e6e741b737960ecd0b68610875050019aac0f07Chris Lattner      }
7340ed2da9ac733c51ba004c067d3b552c1fa54613dChris Lattner    }
7352e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
7362e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  // Now that we have done the deed, use the mem2reg functionality to promote
737fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner  // all of the new allocas we just created into real SSA registers.
7382e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  //
7392e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  std::vector<AllocaInst*> PromotedAllocas;
7402e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  PromotedAllocas.reserve(PromotedValues.size());
7412e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  for (unsigned i = 0, e = PromotedValues.size(); i != e; ++i)
7422e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    PromotedAllocas.push_back(PromotedValues[i].first);
74368c01b3cf35bb7ed2d3a3f63053e304e092bcfddDevang Patel  PromoteMemToReg(PromotedAllocas, *ET, *DF, CurAST);
7442e6e741b737960ecd0b68610875050019aac0f07Chris Lattner}
7452e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
746fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner/// FindPromotableValuesInLoop - Check the current loop for stores to definite
7472e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// pointers, which are not loaded and stored through may aliases.  If these are
7482e6e741b737960ecd0b68610875050019aac0f07Chris Lattner/// found, create an alloca for the value, add it to the PromotedValues list,
749fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner/// and keep track of the mapping from value to alloca.
7502e6e741b737960ecd0b68610875050019aac0f07Chris Lattner///
751fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattnervoid LICM::FindPromotableValuesInLoop(
7522e6e741b737960ecd0b68610875050019aac0f07Chris Lattner                   std::vector<std::pair<AllocaInst*, Value*> > &PromotedValues,
7532e6e741b737960ecd0b68610875050019aac0f07Chris Lattner                             std::map<Value*, AllocaInst*> &ValueToAllocaMap) {
7542e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  Instruction *FnStart = CurLoop->getHeader()->getParent()->begin()->begin();
7552e6e741b737960ecd0b68610875050019aac0f07Chris Lattner
756fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner  // Loop over all of the alias sets in the tracker object.
7570252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner  for (AliasSetTracker::iterator I = CurAST->begin(), E = CurAST->end();
7580252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner       I != E; ++I) {
7590252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner    AliasSet &AS = *I;
7600252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner    // We can promote this alias set if it has a store, if it is a "Must" alias
761fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner    // set, if the pointer is loop invariant, and if we are not eliminating any
762118dd0ce3d8e4b0a945afc95c9538d5005abacdeChris Lattner    // volatile loads or stores.
7630252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner    if (!AS.isForwardingAliasSet() && AS.isMod() && AS.isMustAlias() &&
7643280f7bd557250a448eb56edbddfc90c94a406e6Chris Lattner        !AS.isVolatile() && CurLoop->isLoopInvariant(AS.begin()->first)) {
7650252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      assert(AS.begin() != AS.end() &&
7660252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner             "Must alias set should have at least one pointer element in it!");
7670252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      Value *V = AS.begin()->first;
7680252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner
7690252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      // Check that all of the pointers in the alias set have the same type.  We
7700252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      // cannot (yet) promote a memory location that is loaded and stored in
7710252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      // different sizes.
7720252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      bool PointerOk = true;
7730252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      for (AliasSet::iterator I = AS.begin(), E = AS.end(); I != E; ++I)
7740252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner        if (V->getType() != I->first->getType()) {
7750252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner          PointerOk = false;
7760252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner          break;
7772e6e741b737960ecd0b68610875050019aac0f07Chris Lattner        }
7780252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner
7790252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner      if (PointerOk) {
7800252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner        const Type *Ty = cast<PointerType>(V->getType())->getElementType();
7810252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner        AllocaInst *AI = new AllocaInst(Ty, 0, V->getName()+".tmp", FnStart);
7820252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner        PromotedValues.push_back(std::make_pair(AI, V));
783fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner
784fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        // Update the AST and alias analysis.
785fb3ee1930bfd0902f5fa3e6526775e3791e38d3cChris Lattner        CurAST->copyValue(V, AI);
786fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
7870252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner        for (AliasSet::iterator I = AS.begin(), E = AS.end(); I != E; ++I)
7880252e49f6d6973b6f347c8feafc49e28af27163aChris Lattner          ValueToAllocaMap.insert(std::make_pair(I->first, AI));
789fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman
790b7427031372337e6d67f9573ec6c722ab5ea913eBill Wendling        DOUT << "LICM: Promoting value: " << *V << "\n";
7912e6e741b737960ecd0b68610875050019aac0f07Chris Lattner      }
7922e6e741b737960ecd0b68610875050019aac0f07Chris Lattner    }
7932e6e741b737960ecd0b68610875050019aac0f07Chris Lattner  }
794f5e84aa0887d3fcd752d4a4fa1bb0e526be49f20Chris Lattner}
795