forked from OSchip/llvm-project
Allow more cmp / bcc to be predicated; clean up triangle ifcvt checking code.
llvm-svn: 37518
This commit is contained in:
parent
6740da9407
commit
7783f82e21
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@ -98,13 +98,14 @@ namespace {
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private:
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bool ReverseBranchCondition(BBInfo &BBI);
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bool BlockModifyPredicate(MachineBasicBlock *BB) const;
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bool ValidTriangle(BBInfo &TrueBBI, BBInfo &FalseBBI) const;
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bool ValidSimple(BBInfo &TrueBBI) const;
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bool ValidTriangle(BBInfo &TrueBBI, BBInfo &FalseBBI,
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bool FalseBranch = false) const;
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bool ValidDiamond(BBInfo &TrueBBI, BBInfo &FalseBBI) const;
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void StructuralAnalysis(MachineBasicBlock *BB);
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bool FeasibilityAnalysis(BBInfo &BBI,
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std::vector<MachineOperand> &Cond,
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bool IgnoreTerm = false);
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void ScanInstructions(BBInfo &BBI);
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void AnalyzeBlock(MachineBasicBlock *BB);
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bool FeasibilityAnalysis(BBInfo &BBI, std::vector<MachineOperand> &Cond,
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bool isTriangle = false, bool RevBranch = false);
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bool AttemptRestructuring(BBInfo &BBI);
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bool AnalyzeBlocks(MachineFunction &MF,
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std::vector<BBInfo*> &Candidates);
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@ -235,47 +236,44 @@ bool IfConverter::ReverseBranchCondition(BBInfo &BBI) {
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return false;
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}
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/// BlockModifyPredicate - Returns true if any instruction in the block may
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/// clobber the condition code or register(s) used to predicate instructions,
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/// e.g. call, cmp.
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bool IfConverter::BlockModifyPredicate(MachineBasicBlock *BB) const {
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for (MachineBasicBlock::const_reverse_iterator I = BB->rbegin(),
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E = BB->rend(); I != E; ++I)
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if (I->getInstrDescriptor()->Flags & M_CLOBBERS_PRED)
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return true;
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return false;
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/// ValidSimple - Returns true if the 'true' block (along with its
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/// predecessor) forms a valid simple shape for ifcvt.
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bool IfConverter::ValidSimple(BBInfo &TrueBBI) const {
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return !blockAlwaysFallThrough(TrueBBI) &&
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TrueBBI.BrCond.size() == 0 && TrueBBI.BB->pred_size() == 1;
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}
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/// ValidTriangle - Returns true if the 'true' and 'false' blocks paths (along
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/// ValidTriangle - Returns true if the 'true' and 'false' blocks (along
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/// with their common predecessor) forms a valid triangle shape for ifcvt.
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bool IfConverter::ValidTriangle(BBInfo &TrueBBI, BBInfo &FalseBBI) const {
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bool IfConverter::ValidTriangle(BBInfo &TrueBBI, BBInfo &FalseBBI,
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bool FalseBranch) const {
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if (TrueBBI.BB->pred_size() != 1)
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return false;
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MachineBasicBlock *TTBB = TrueBBI.TrueBB;
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if (!TTBB && blockAlwaysFallThrough(TrueBBI)) {
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MachineBasicBlock *TExit = FalseBranch ? TrueBBI.FalseBB : TrueBBI.TrueBB;
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if (!TExit && blockAlwaysFallThrough(TrueBBI)) {
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MachineFunction::iterator I = TrueBBI.BB;
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if (++I == TrueBBI.BB->getParent()->end())
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return false;
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TTBB = I;
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TExit = I;
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}
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return TTBB && TTBB == FalseBBI.BB;
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return TExit && TExit == FalseBBI.BB;
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}
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/// ValidDiamond - Returns true if the 'true' and 'false' blocks paths (along
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/// ValidDiamond - Returns true if the 'true' and 'false' blocks (along
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/// with their common predecessor) forms a valid diamond shape for ifcvt.
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bool IfConverter::ValidDiamond(BBInfo &TrueBBI, BBInfo &FalseBBI) const {
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// FIXME: Also look for fallthrough
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return (TrueBBI.TrueBB == FalseBBI.TrueBB &&
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TrueBBI.BB->pred_size() == 1 &&
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FalseBBI.BB->pred_size() == 1 &&
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!(TrueBBI.ModifyPredicate && FalseBBI.ModifyPredicate) &&
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!TrueBBI.FalseBB && !FalseBBI.FalseBB);
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}
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/// StructuralAnalysis - Analyze the structure of the sub-CFG starting from
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/// AnalyzeBlock - Analyze the structure of the sub-CFG starting from
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/// the specified block. Record its successors and whether it looks like an
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/// if-conversion candidate.
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void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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void IfConverter::AnalyzeBlock(MachineBasicBlock *BB) {
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BBInfo &BBI = BBAnalysis[BB->getNumber()];
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if (BBI.Kind == ICReAnalyze) {
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@ -286,7 +284,6 @@ void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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return; // Already analyzed.
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BBI.BB = BB;
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BBI.NonPredSize = std::distance(BB->begin(), BB->end());
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BBI.ModifyPredicate = BlockModifyPredicate(BB);
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}
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// Look for 'root' of a simple (non-nested) triangle or diamond.
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@ -301,7 +298,7 @@ void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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if (BBI.TrueBB == BB || BBI.FalseBB == BB)
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return;
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StructuralAnalysis(BBI.TrueBB);
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AnalyzeBlock(BBI.TrueBB);
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BBInfo &TrueBBI = BBAnalysis[BBI.TrueBB->getNumber()];
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// No false branch. This BB must end with a conditional branch and a
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@ -310,7 +307,7 @@ void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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BBI.FalseBB = findFalseBlock(BB, BBI.TrueBB);
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assert(BBI.FalseBB && "Expected to find the fallthrough block!");
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StructuralAnalysis(BBI.FalseBB);
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AnalyzeBlock(BBI.FalseBB);
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BBInfo &FalseBBI = BBAnalysis[BBI.FalseBB->getNumber()];
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// If both paths are dead, then forget about it.
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@ -323,34 +320,11 @@ void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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// the CFG to form a triangle with the 'false' path.
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std::vector<MachineOperand> RevCond(BBI.BrCond);
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bool CanRevCond = !TII->ReverseBranchCondition(RevCond);
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if (FalseBBI.FalseBB) {
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if (TrueBBI.TrueBB && TrueBBI.TrueBB == BBI.FalseBB)
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return;
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std::vector<MachineOperand> Cond(BBI.BrCond);
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if (CanRevCond &&
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FalseBBI.TrueBB && FalseBBI.BB->pred_size() == 1 &&
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FeasibilityAnalysis(FalseBBI, RevCond, true)) {
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std::vector<MachineOperand> FalseCond(FalseBBI.BrCond);
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if (FalseBBI.TrueBB == BBI.TrueBB &&
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TII->SubsumesPredicate(FalseCond, BBI.BrCond)) {
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// Reverse 'true' and 'false' paths.
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ReverseBranchCondition(BBI);
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BBI.Kind = ICTriangle;
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FalseBBI.Kind = ICChild;
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} else if (FalseBBI.FalseBB == BBI.TrueBB &&
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!TII->ReverseBranchCondition(FalseCond) &&
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TII->SubsumesPredicate(FalseCond, BBI.BrCond)) {
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// Reverse 'false' block's 'true' and 'false' paths and then
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// reverse 'true' and 'false' paths.
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ReverseBranchCondition(FalseBBI);
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ReverseBranchCondition(BBI);
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BBI.Kind = ICTriangle;
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FalseBBI.Kind = ICChild;
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}
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}
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} else if (CanRevCond && ValidDiamond(TrueBBI, FalseBBI) &&
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FeasibilityAnalysis(TrueBBI, BBI.BrCond) &&
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FeasibilityAnalysis(FalseBBI, RevCond)) {
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if (CanRevCond && ValidDiamond(TrueBBI, FalseBBI) &&
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!(TrueBBI.ModifyPredicate && FalseBBI.ModifyPredicate) &&
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FeasibilityAnalysis(TrueBBI, BBI.BrCond) &&
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FeasibilityAnalysis(FalseBBI, RevCond)) {
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// Diamond:
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// EBB
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// / \_
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@ -364,50 +338,46 @@ void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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BBI.TailBB = TrueBBI.TrueBB;
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} else {
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// FIXME: Consider duplicating if BB is small.
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bool TryTriangle = ValidTriangle(TrueBBI, FalseBBI);
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bool TrySimple = !blockAlwaysFallThrough(TrueBBI) &&
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TrueBBI.BrCond.size() == 0 && TrueBBI.BB->pred_size() == 1;
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if ((TryTriangle || TrySimple) &&
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FeasibilityAnalysis(TrueBBI, BBI.BrCond)) {
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if (TryTriangle) {
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// Triangle:
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// EBB
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// | \_
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// | |
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// | TBB
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// | /
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// FBB
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BBI.Kind = ICTriangle;
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TrueBBI.Kind = ICChild;
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} else {
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// Simple (split, no rejoin):
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// EBB
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// | \_
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// | |
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// | TBB---> exit
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// |
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// FBB
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BBI.Kind = ICSimple;
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TrueBBI.Kind = ICChild;
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}
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} else if (FalseBBI.BrCond.size() == 0 && FalseBBI.BB->pred_size() == 1) {
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if (ValidTriangle(TrueBBI, FalseBBI) &&
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FeasibilityAnalysis(TrueBBI, BBI.BrCond, true)) {
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// Triangle:
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// EBB
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// | \_
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// | |
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// | TBB
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// | /
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// FBB
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BBI.Kind = ICTriangle;
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TrueBBI.Kind = ICChild;
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} else if (ValidSimple(TrueBBI) &&
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FeasibilityAnalysis(TrueBBI, BBI.BrCond)) {
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// Simple (split, no rejoin):
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// EBB
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// | \_
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// | |
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// | TBB---> exit
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// |
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// FBB
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BBI.Kind = ICSimple;
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TrueBBI.Kind = ICChild;
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} else if (CanRevCond) {
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// Try the other path...
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bool TryTriangle = ValidTriangle(FalseBBI, TrueBBI);
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bool TrySimple = !blockAlwaysFallThrough(FalseBBI);
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if (TryTriangle || TrySimple) {
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std::vector<MachineOperand> RevCond(BBI.BrCond);
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if (!TII->ReverseBranchCondition(RevCond) &&
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FeasibilityAnalysis(FalseBBI, RevCond)) {
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if (TryTriangle) {
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// Reverse 'true' and 'false' paths.
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ReverseBranchCondition(BBI);
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BBI.Kind = ICTriangle;
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FalseBBI.Kind = ICChild;
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} else {
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BBI.Kind = ICSimpleFalse;
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FalseBBI.Kind = ICChild;
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}
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}
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if (ValidTriangle(FalseBBI, TrueBBI) &&
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FeasibilityAnalysis(FalseBBI, RevCond, true)) {
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// Reverse 'true' and 'false' paths.
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ReverseBranchCondition(BBI);
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BBI.Kind = ICTriangle;
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FalseBBI.Kind = ICChild;
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} else if (ValidTriangle(FalseBBI, TrueBBI, true) &&
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FeasibilityAnalysis(FalseBBI, RevCond, true, true)) {
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ReverseBranchCondition(FalseBBI);
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ReverseBranchCondition(BBI);
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BBI.Kind = ICTriangle;
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FalseBBI.Kind = ICChild;
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} else if (ValidSimple(FalseBBI) &&
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FeasibilityAnalysis(FalseBBI, RevCond)) {
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BBI.Kind = ICSimpleFalse;
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FalseBBI.Kind = ICChild;
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}
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}
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}
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@ -418,11 +388,10 @@ void IfConverter::StructuralAnalysis(MachineBasicBlock *BB) {
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/// cases, that means all the instructions in the block has M_PREDICABLE flag.
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/// Also checks if the block contains any instruction which can clobber a
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/// predicate (e.g. condition code register). If so, the block is not
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/// predicable unless it's the last instruction. If IgnoreTerm is true then
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/// all the terminator instructions are skipped.
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/// predicable unless it's the last instruction.
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bool IfConverter::FeasibilityAnalysis(BBInfo &BBI,
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std::vector<MachineOperand> &Cond,
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bool IgnoreTerm) {
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std::vector<MachineOperand> &Pred,
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bool isTriangle, bool RevBranch) {
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// If the block is dead, or it is going to be the entry block of a sub-CFG
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// that will be if-converted, then it cannot be predicated.
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if (BBI.Kind != ICNotAnalyzed &&
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@ -436,13 +405,46 @@ bool IfConverter::FeasibilityAnalysis(BBInfo &BBI,
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// If it is already predicated, check if its predicate subsumes the new
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// predicate.
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if (BBI.Predicate.size() && !TII->SubsumesPredicate(BBI.Predicate, Cond))
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if (BBI.Predicate.size() && !TII->SubsumesPredicate(BBI.Predicate, Pred))
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return false;
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bool SeenPredMod = false;
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bool SeenCondBr = false;
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for (MachineBasicBlock::iterator I = BBI.BB->begin(), E = BBI.BB->end();
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I != E; ++I) {
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if (IgnoreTerm && TII->isTerminatorInstr(I->getOpcode()))
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continue;
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const TargetInstrDescriptor *TID = I->getInstrDescriptor();
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if (SeenPredMod) {
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// Predicate modification instruction should end the block (except for
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// already predicated instructions and end of block branches).
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if (!TII->isPredicated(I)) {
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// This is the 'true' block of a triangle, i.e. its 'true' block is
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// the same as the 'false' block of the entry. So false positive
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// is ok.
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if (isTriangle && !SeenCondBr && BBI.IsAnalyzable &&
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(TID->Flags & M_BRANCH_FLAG) != 0 &&
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(TID->Flags & M_BARRIER_FLAG) == 0) {
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// This is the first conditional branch, test predicate subsumsion.
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std::vector<MachineOperand> RevPred(Pred);
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std::vector<MachineOperand> Cond(BBI.BrCond);
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if (RevBranch) {
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if (TII->ReverseBranchCondition(Cond))
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return false;
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}
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if (TII->ReverseBranchCondition(RevPred) ||
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!TII->SubsumesPredicate(Cond, RevPred))
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return false;
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SeenCondBr = true;
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continue; // Conditional branches is not predicable.
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}
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return false;
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}
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}
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if (TID->Flags & M_CLOBBERS_PRED) {
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BBI.ModifyPredicate = true;
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SeenPredMod = true;
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}
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if (!I->isPredicable())
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return false;
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}
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@ -488,7 +490,7 @@ bool IfConverter::AnalyzeBlocks(MachineFunction &MF,
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for (idf_ext_iterator<MachineBasicBlock*> I=idf_ext_begin(Roots[i],Visited),
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E = idf_ext_end(Roots[i], Visited); I != E; ++I) {
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MachineBasicBlock *BB = *I;
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StructuralAnalysis(BB);
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AnalyzeBlock(BB);
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BBInfo &BBI = BBAnalysis[BB->getNumber()];
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switch (BBI.Kind) {
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case ICSimple:
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@ -560,23 +562,23 @@ bool IfConverter::IfConvertSimple(BBInfo &BBI) {
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// to the 'false' branch.
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BBI.NonPredSize -= TII->RemoveBranch(*BBI.BB);
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MergeBlocks(BBI, *CvtBBI);
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BBI.BB->removeSuccessor(CvtBBI->BB);
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bool IterIfcvt = true;
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if (!isNextBlock(BBI.BB, NextBBI->BB)) {
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InsertUncondBranch(BBI.BB, NextBBI->BB, TII);
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BBI.hasFallThrough = false;
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if (BBI.ModifyPredicate)
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// Now ifcvt'd block will look like this:
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// BB:
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// ...
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// t, f = cmp
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// if t op
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// b BBf
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//
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// We cannot further ifcvt this block because the unconditional branch
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// will have to be predicated on the new condition, that will not be
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// available if cmp executes.
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IterIfcvt = false;
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// Now ifcvt'd block will look like this:
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// BB:
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// ...
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// t, f = cmp
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// if t op
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// b BBf
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//
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// We cannot further ifcvt this block because the unconditional branch
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// will have to be predicated on the new condition, that will not be
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// available if cmp executes.
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IterIfcvt = false;
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}
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std::copy(Cond.begin(), Cond.end(), std::back_inserter(BBI.Predicate));
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@ -610,45 +612,34 @@ bool IfConverter::IfConvertTriangle(BBInfo &BBI) {
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TII->InsertBranch(*BBI.TrueBB, TrueBBI.FalseBB, NULL, RevCond);
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}
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// Join the 'true' and 'false' blocks if the 'false' block has no other
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// predecessors. Otherwise, add a unconditional branch from 'true' to 'false'.
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// Now merge the entry of the triangle with the true block.
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BBI.NonPredSize -= TII->RemoveBranch(*BBI.BB);
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MergeBlocks(BBI, TrueBBI);
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// Merge in the 'false' block if the 'false' block has no other
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// predecessors. Otherwise, add a unconditional branch from to 'false'.
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BBInfo &FalseBBI = BBAnalysis[BBI.FalseBB->getNumber()];
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bool FalseBBDead = false;
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bool IterIfcvt = true;
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bool isFallThrough = isNextBlock(TrueBBI.BB, FalseBBI.BB);
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bool isFallThrough = isNextBlock(BBI.BB, FalseBBI.BB);
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if (!isFallThrough) {
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// Only merge them if the true block does not fallthrough to the false
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// block. By not merging them, we make it possible to iteratively
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// ifcvt the blocks.
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if (!HasEarlyExit && FalseBBI.BB->pred_size() == 2) {
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MergeBlocks(TrueBBI, FalseBBI);
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if (!HasEarlyExit && FalseBBI.BB->pred_size() == 1) {
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MergeBlocks(BBI, FalseBBI);
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FalseBBDead = true;
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// Mixed predicated and unpredicated code. This cannot be iteratively
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// predicated.
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IterIfcvt = false;
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} else {
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InsertUncondBranch(TrueBBI.BB, FalseBBI.BB, TII);
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InsertUncondBranch(BBI.BB, FalseBBI.BB, TII);
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TrueBBI.hasFallThrough = false;
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if (BBI.ModifyPredicate || TrueBBI.ModifyPredicate)
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// Now ifcvt'd block will look like this:
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// BB:
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// ...
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// t, f = cmp
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// if t op
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// b BBf
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//
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// We cannot further ifcvt this block because the unconditional branch will
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// have to be predicated on the new condition, that will not be available
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// if cmp executes.
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IterIfcvt = false;
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}
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// Mixed predicated and unpredicated code. This cannot be iteratively
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// predicated.
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IterIfcvt = false;
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}
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// Now merge the entry of the triangle with the true block.
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BBI.NonPredSize -= TII->RemoveBranch(*BBI.BB);
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MergeBlocks(BBI, TrueBBI);
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// Remove entry to false edge if false block is merged in as well.
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if (FalseBBDead && BBI.BB->isSuccessor(FalseBBI.BB))
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if (FalseBBDead)
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BBI.BB->removeSuccessor(FalseBBI.BB);
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std::copy(BBI.BrCond.begin(), BBI.BrCond.end(),
|
||||
std::back_inserter(BBI.Predicate));
|
||||
|
|
Loading…
Reference in New Issue