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1 //===- UnifyFunctionExitNodes.cpp - Make all functions have a single exit -===//
2 //
3 //                     The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 //
10 // This pass is used to ensure that functions have at most one return
11 // instruction in them.  Additionally, it keeps track of which node is the new
12 // exit node of the CFG.  If there are no exit nodes in the CFG, the getExitNode
13 // method will return a null pointer.
14 //
15 //===----------------------------------------------------------------------===//
16 
17 #include "llvm/Transforms/Utils/UnifyFunctionExitNodes.h"
18 #include "llvm/IR/BasicBlock.h"
19 #include "llvm/IR/Function.h"
20 #include "llvm/IR/Instructions.h"
21 #include "llvm/IR/Type.h"
22 #include "llvm/Transforms/Utils.h"
23 using namespace llvm;
24 
25 char UnifyFunctionExitNodes::ID = 0;
26 INITIALIZE_PASS(UnifyFunctionExitNodes, "mergereturn",
27                 "Unify function exit nodes", false, false)
28 
createUnifyFunctionExitNodesPass()29 Pass *llvm::createUnifyFunctionExitNodesPass() {
30   return new UnifyFunctionExitNodes();
31 }
32 
getAnalysisUsage(AnalysisUsage & AU) const33 void UnifyFunctionExitNodes::getAnalysisUsage(AnalysisUsage &AU) const{
34   // We preserve the non-critical-edgeness property
35   AU.addPreservedID(BreakCriticalEdgesID);
36   // This is a cluster of orthogonal Transforms
37   AU.addPreservedID(LowerSwitchID);
38 }
39 
40 // UnifyAllExitNodes - Unify all exit nodes of the CFG by creating a new
41 // BasicBlock, and converting all returns to unconditional branches to this
42 // new basic block.  The singular exit node is returned.
43 //
44 // If there are no return stmts in the Function, a null pointer is returned.
45 //
runOnFunction(Function & F)46 bool UnifyFunctionExitNodes::runOnFunction(Function &F) {
47   // Loop over all of the blocks in a function, tracking all of the blocks that
48   // return.
49   //
50   std::vector<BasicBlock*> ReturningBlocks;
51   std::vector<BasicBlock*> UnreachableBlocks;
52   for (BasicBlock &I : F)
53     if (isa<ReturnInst>(I.getTerminator()))
54       ReturningBlocks.push_back(&I);
55     else if (isa<UnreachableInst>(I.getTerminator()))
56       UnreachableBlocks.push_back(&I);
57 
58   // Then unreachable blocks.
59   if (UnreachableBlocks.empty()) {
60     UnreachableBlock = nullptr;
61   } else if (UnreachableBlocks.size() == 1) {
62     UnreachableBlock = UnreachableBlocks.front();
63   } else {
64     UnreachableBlock = BasicBlock::Create(F.getContext(),
65                                           "UnifiedUnreachableBlock", &F);
66     new UnreachableInst(F.getContext(), UnreachableBlock);
67 
68     for (BasicBlock *BB : UnreachableBlocks) {
69       BB->getInstList().pop_back();  // Remove the unreachable inst.
70       BranchInst::Create(UnreachableBlock, BB);
71     }
72   }
73 
74   // Now handle return blocks.
75   if (ReturningBlocks.empty()) {
76     ReturnBlock = nullptr;
77     return false;                          // No blocks return
78   } else if (ReturningBlocks.size() == 1) {
79     ReturnBlock = ReturningBlocks.front(); // Already has a single return block
80     return false;
81   }
82 
83   // Otherwise, we need to insert a new basic block into the function, add a PHI
84   // nodes (if the function returns values), and convert all of the return
85   // instructions into unconditional branches.
86   //
87   BasicBlock *NewRetBlock = BasicBlock::Create(F.getContext(),
88                                                "UnifiedReturnBlock", &F);
89 
90   PHINode *PN = nullptr;
91   if (F.getReturnType()->isVoidTy()) {
92     ReturnInst::Create(F.getContext(), nullptr, NewRetBlock);
93   } else {
94     // If the function doesn't return void... add a PHI node to the block...
95     PN = PHINode::Create(F.getReturnType(), ReturningBlocks.size(),
96                          "UnifiedRetVal");
97     NewRetBlock->getInstList().push_back(PN);
98     ReturnInst::Create(F.getContext(), PN, NewRetBlock);
99   }
100 
101   // Loop over all of the blocks, replacing the return instruction with an
102   // unconditional branch.
103   //
104   for (BasicBlock *BB : ReturningBlocks) {
105     // Add an incoming element to the PHI node for every return instruction that
106     // is merging into this new block...
107     if (PN)
108       PN->addIncoming(BB->getTerminator()->getOperand(0), BB);
109 
110     BB->getInstList().pop_back();  // Remove the return insn
111     BranchInst::Create(NewRetBlock, BB);
112   }
113   ReturnBlock = NewRetBlock;
114   return true;
115 }
116