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1 //===- OrderedBasicBlock.cpp --------------------------------- -*- C++ -*-===//
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 file implements the OrderedBasicBlock class. OrderedBasicBlock
11 // maintains an interface where clients can query if one instruction comes
12 // before another in a BasicBlock. Since BasicBlock currently lacks a reliable
13 // way to query relative position between instructions one can use
14 // OrderedBasicBlock to do such queries. OrderedBasicBlock is lazily built on a
15 // source BasicBlock and maintains an internal Instruction -> Position map. A
16 // OrderedBasicBlock instance should be discarded whenever the source
17 // BasicBlock changes.
18 //
19 // It's currently used by the CaptureTracker in order to find relative
20 // positions of a pair of instructions inside a BasicBlock.
21 //
22 //===----------------------------------------------------------------------===//
23 
24 #include "llvm/Analysis/OrderedBasicBlock.h"
25 #include "llvm/IR/Instruction.h"
26 using namespace llvm;
27 
OrderedBasicBlock(const BasicBlock * BasicB)28 OrderedBasicBlock::OrderedBasicBlock(const BasicBlock *BasicB)
29     : NextInstPos(0), BB(BasicB) {
30   LastInstFound = BB->end();
31 }
32 
33 /// \brief Given no cached results, find if \p A comes before \p B in \p BB.
34 /// Cache and number out instruction while walking \p BB.
comesBefore(const Instruction * A,const Instruction * B)35 bool OrderedBasicBlock::comesBefore(const Instruction *A,
36                                     const Instruction *B) {
37   const Instruction *Inst = nullptr;
38   assert(!(LastInstFound == BB->end() && NextInstPos != 0) &&
39          "Instruction supposed to be in NumberedInsts");
40 
41   // Start the search with the instruction found in the last lookup round.
42   auto II = BB->begin();
43   auto IE = BB->end();
44   if (LastInstFound != IE)
45     II = std::next(LastInstFound);
46 
47   // Number all instructions up to the point where we find 'A' or 'B'.
48   for (; II != IE; ++II) {
49     Inst = cast<Instruction>(II);
50     NumberedInsts[Inst] = NextInstPos++;
51     if (Inst == A || Inst == B)
52       break;
53   }
54 
55   assert(II != IE && "Instruction not found?");
56   assert((Inst == A || Inst == B) && "Should find A or B");
57   LastInstFound = II;
58   return Inst == A;
59 }
60 
61 /// \brief Find out whether \p A dominates \p B, meaning whether \p A
62 /// comes before \p B in \p BB. This is a simplification that considers
63 /// cached instruction positions and ignores other basic blocks, being
64 /// only relevant to compare relative instructions positions inside \p BB.
dominates(const Instruction * A,const Instruction * B)65 bool OrderedBasicBlock::dominates(const Instruction *A, const Instruction *B) {
66   assert(A->getParent() == B->getParent() &&
67          "Instructions must be in the same basic block!");
68 
69   // First we lookup the instructions. If they don't exist, lookup will give us
70   // back ::end(). If they both exist, we compare the numbers. Otherwise, if NA
71   // exists and NB doesn't, it means NA must come before NB because we would
72   // have numbered NB as well if it didn't. The same is true for NB. If it
73   // exists, but NA does not, NA must come after it. If neither exist, we need
74   // to number the block and cache the results (by calling comesBefore).
75   auto NAI = NumberedInsts.find(A);
76   auto NBI = NumberedInsts.find(B);
77   if (NAI != NumberedInsts.end() && NBI != NumberedInsts.end())
78     return NAI->second < NBI->second;
79   if (NAI != NumberedInsts.end())
80     return true;
81   if (NBI != NumberedInsts.end())
82     return false;
83 
84   return comesBefore(A, B);
85 }
86