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7061dc50b2
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@1405 91177308-0d34-0410-b5e6-96231b3b80d8
303 lines
10 KiB
C++
303 lines
10 KiB
C++
//===- ADCE.cpp - Code to perform agressive dead code elimination ---------===//
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//
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// This file implements "agressive" dead code elimination. ADCE is DCe where
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// values are assumed to be dead until proven otherwise. This is similar to
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// SCCP, except applied to the liveness of values.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Optimizations/DCE.h"
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#include "llvm/Instruction.h"
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#include "llvm/Type.h"
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#include "llvm/Analysis/Dominators.h"
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#include "llvm/Analysis/Writer.h"
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#include "llvm/iTerminators.h"
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#include "llvm/iPHINode.h"
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#include "Support/STLExtras.h"
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#include "Support/DepthFirstIterator.h"
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#include <set>
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#include <algorithm>
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#define DEBUG_ADCE 1
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//===----------------------------------------------------------------------===//
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// ADCE Class
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//
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// This class does all of the work of Agressive Dead Code Elimination.
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// It's public interface consists of a constructor and a doADCE() method.
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//
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class ADCE {
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Method *M; // The method that we are working on...
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vector<Instruction*> WorkList; // Instructions that just became live
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set<Instruction*> LiveSet; // The set of live instructions
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bool MadeChanges;
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//===--------------------------------------------------------------------===//
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// The public interface for this class
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//
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public:
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// ADCE Ctor - Save the method to operate on...
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inline ADCE(Method *m) : M(m), MadeChanges(false) {}
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// doADCE() - Run the Agressive Dead Code Elimination algorithm, returning
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// true if the method was modified.
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bool doADCE();
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//===--------------------------------------------------------------------===//
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// The implementation of this class
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//
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private:
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inline void markInstructionLive(Instruction *I) {
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if (LiveSet.count(I)) return;
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#ifdef DEBUG_ADCE
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cerr << "Insn Live: " << I;
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#endif
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LiveSet.insert(I);
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WorkList.push_back(I);
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}
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inline void markTerminatorLive(const BasicBlock *BB) {
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#ifdef DEBUG_ADCE
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cerr << "Terminat Live: " << BB->getTerminator();
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#endif
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markInstructionLive((Instruction*)BB->getTerminator());
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}
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// fixupCFG - Walk the CFG in depth first order, eliminating references to
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// dead blocks.
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//
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BasicBlock *fixupCFG(BasicBlock *Head, set<BasicBlock*> &VisitedBlocks,
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const set<BasicBlock*> &AliveBlocks);
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};
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// doADCE() - Run the Agressive Dead Code Elimination algorithm, returning
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// true if the method was modified.
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//
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bool ADCE::doADCE() {
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// Compute the control dependence graph... Note that this has a side effect
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// on the CFG: a new return bb is added and all returns are merged here.
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//
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cfg::DominanceFrontier CDG(cfg::DominatorSet(M, true));
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#ifdef DEBUG_ADCE
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cerr << "Method: " << M;
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#endif
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// Iterate over all of the instructions in the method, eliminating trivially
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// dead instructions, and marking instructions live that are known to be
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// needed. Perform the walk in depth first order so that we avoid marking any
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// instructions live in basic blocks that are unreachable. These blocks will
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// be eliminated later, along with the instructions inside.
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//
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for (df_iterator<Method*> BBI = df_begin(M),
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BBE = df_end(M);
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BBI != BBE; ++BBI) {
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BasicBlock *BB = *BBI;
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for (BasicBlock::iterator II = BB->begin(), EI = BB->end(); II != EI; ) {
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Instruction *I = *II;
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if (I->hasSideEffects() || I->getOpcode() == Instruction::Ret) {
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markInstructionLive(I);
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} else {
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// Check to see if anything is trivially dead
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if (I->use_size() == 0 && I->getType() != Type::VoidTy) {
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// Remove the instruction from it's basic block...
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delete BB->getInstList().remove(II);
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MadeChanges = true;
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continue; // Don't increment the iterator past the current slot
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}
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}
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++II; // Increment the inst iterator if the inst wasn't deleted
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}
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}
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#ifdef DEBUG_ADCE
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cerr << "Processing work list\n";
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#endif
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// AliveBlocks - Set of basic blocks that we know have instructions that are
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// alive in them...
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//
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set<BasicBlock*> AliveBlocks;
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// Process the work list of instructions that just became live... if they
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// became live, then that means that all of their operands are neccesary as
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// well... make them live as well.
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//
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while (!WorkList.empty()) {
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Instruction *I = WorkList.back(); // Get an instruction that became live...
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WorkList.pop_back();
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BasicBlock *BB = I->getParent();
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if (AliveBlocks.count(BB) == 0) { // Basic block not alive yet...
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// Mark the basic block as being newly ALIVE... and mark all branches that
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// this block is control dependant on as being alive also...
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//
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AliveBlocks.insert(BB); // Block is now ALIVE!
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cfg::DominanceFrontier::const_iterator It = CDG.find(BB);
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if (It != CDG.end()) {
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// Get the blocks that this node is control dependant on...
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const cfg::DominanceFrontier::DomSetType &CDB = It->second;
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for_each(CDB.begin(), CDB.end(), // Mark all their terminators as live
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bind_obj(this, &ADCE::markTerminatorLive));
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}
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// If this basic block is live, then the terminator must be as well!
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markTerminatorLive(BB);
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}
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// Loop over all of the operands of the live instruction, making sure that
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// they are known to be alive as well...
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//
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for (unsigned op = 0, End = I->getNumOperands(); op != End; ++op) {
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if (Instruction *Operand = dyn_cast<Instruction>(I->getOperand(op)))
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markInstructionLive(Operand);
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}
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}
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#ifdef DEBUG_ADCE
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cerr << "Current Method: X = Live\n";
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for (Method::inst_iterator IL = M->inst_begin(); IL != M->inst_end(); ++IL) {
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if (LiveSet.count(*IL)) cerr << "X ";
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cerr << *IL;
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}
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#endif
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// After the worklist is processed, recursively walk the CFG in depth first
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// order, patching up references to dead blocks...
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//
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set<BasicBlock*> VisitedBlocks;
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BasicBlock *EntryBlock = fixupCFG(M->front(), VisitedBlocks, AliveBlocks);
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if (EntryBlock && EntryBlock != M->front()) {
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if (isa<PHINode>(EntryBlock->front())) {
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// Cannot make the first block be a block with a PHI node in it! Instead,
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// strip the first basic block of the method to contain no instructions,
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// then add a simple branch to the "real" entry node...
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//
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BasicBlock *E = M->front();
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if (!isa<TerminatorInst>(E->front()) || // Check for an actual change...
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cast<TerminatorInst>(E->front())->getNumSuccessors() != 1 ||
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cast<TerminatorInst>(E->front())->getSuccessor(0) != EntryBlock) {
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E->getInstList().delete_all(); // Delete all instructions in block
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E->getInstList().push_back(new BranchInst(EntryBlock));
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MadeChanges = true;
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}
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AliveBlocks.insert(E);
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// Next we need to change any PHI nodes in the entry block to refer to the
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// new predecessor node...
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} else {
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// We need to move the new entry block to be the first bb of the method.
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Method::iterator EBI = find(M->begin(), M->end(), EntryBlock);
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swap(*EBI, *M->begin()); // Exchange old location with start of method
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MadeChanges = true;
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}
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}
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// Now go through and tell dead blocks to drop all of their references so they
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// can be safely deleted.
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//
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for (Method::iterator BI = M->begin(), BE = M->end(); BI != BE; ++BI) {
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BasicBlock *BB = *BI;
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if (!AliveBlocks.count(BB)) {
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BB->dropAllReferences();
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}
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}
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// Now loop through all of the blocks and delete them. We can safely do this
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// now because we know that there are no references to dead blocks (because
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// they have dropped all of their references...
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//
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for (Method::iterator BI = M->begin(); BI != M->end();) {
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if (!AliveBlocks.count(*BI)) {
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delete M->getBasicBlocks().remove(BI);
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MadeChanges = true;
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continue; // Don't increment iterator
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}
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++BI; // Increment iterator...
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}
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return MadeChanges;
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}
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// fixupCFG - Walk the CFG in depth first order, eliminating references to
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// dead blocks:
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// If the BB is alive (in AliveBlocks):
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// 1. Eliminate all dead instructions in the BB
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// 2. Recursively traverse all of the successors of the BB:
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// - If the returned successor is non-null, update our terminator to
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// reference the returned BB
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// 3. Return 0 (no update needed)
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//
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// If the BB is dead (not in AliveBlocks):
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// 1. Add the BB to the dead set
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// 2. Recursively traverse all of the successors of the block:
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// - Only one shall return a nonnull value (or else this block should have
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// been in the alive set).
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// 3. Return the nonnull child, or 0 if no non-null children.
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//
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BasicBlock *ADCE::fixupCFG(BasicBlock *BB, set<BasicBlock*> &VisitedBlocks,
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const set<BasicBlock*> &AliveBlocks) {
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if (VisitedBlocks.count(BB)) return 0; // Revisiting a node? No update.
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VisitedBlocks.insert(BB); // We have now visited this node!
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#ifdef DEBUG_ADCE
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cerr << "Fixing up BB: " << BB;
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#endif
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if (AliveBlocks.count(BB)) { // Is the block alive?
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// Yes it's alive: loop through and eliminate all dead instructions in block
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for (BasicBlock::iterator II = BB->begin(); II != BB->end()-1; ) {
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Instruction *I = *II;
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if (!LiveSet.count(I)) { // Is this instruction alive?
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// Nope... remove the instruction from it's basic block...
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delete BB->getInstList().remove(II);
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MadeChanges = true;
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continue; // Don't increment II
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}
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++II;
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}
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// Recursively traverse successors of this basic block.
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BasicBlock::succ_iterator SI = BB->succ_begin(), SE = BB->succ_end();
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for (; SI != SE; ++SI) {
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BasicBlock *Succ = *SI;
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BasicBlock *Repl = fixupCFG(Succ, VisitedBlocks, AliveBlocks);
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if (Repl && Repl != Succ) { // We have to replace the successor
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Succ->replaceAllUsesWith(Repl);
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MadeChanges = true;
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}
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}
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return BB;
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} else { // Otherwise the block is dead...
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BasicBlock *ReturnBB = 0; // Default to nothing live down here
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// Recursively traverse successors of this basic block.
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BasicBlock::succ_iterator SI = BB->succ_begin(), SE = BB->succ_end();
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for (; SI != SE; ++SI) {
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BasicBlock *RetBB = fixupCFG(*SI, VisitedBlocks, AliveBlocks);
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if (RetBB) {
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assert(ReturnBB == 0 && "One one live child allowed!");
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ReturnBB = RetBB;
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}
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}
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return ReturnBB; // Return the result of traversal
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}
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}
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// doADCE - Execute the Agressive Dead Code Elimination Algorithm
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//
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bool opt::AgressiveDCE::doADCE(Method *M) {
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if (M->isExternal()) return false;
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ADCE DCE(M);
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return DCE.doADCE();
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}
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