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1 //===- BranchIslandFactory.cpp --------------------------------------------===//
2 //
3 //                     The MCLinker Project
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 #include "mcld/LD/BranchIslandFactory.h"
10 
11 #include "mcld/Fragment/Fragment.h"
12 #include "mcld/LD/LDSection.h"
13 #include "mcld/LD/SectionData.h"
14 #include "mcld/Module.h"
15 
16 namespace mcld {
17 
18 //===----------------------------------------------------------------------===//
19 // BranchIslandFactory
20 //===----------------------------------------------------------------------===//
21 
22 /// ctor
23 /// @param pMaxFwdBranchRange - the max forward branch range of the target
24 /// @param pMaxBwdBranchRange - the max backward branch range of the target
25 /// @param pMaxIslandSize - the predefined value for the max size of a island
BranchIslandFactory(int64_t pMaxFwdBranchRange,int64_t pMaxBwdBranchRange,size_t pMaxIslandSize)26 BranchIslandFactory::BranchIslandFactory(int64_t pMaxFwdBranchRange,
27                                          int64_t pMaxBwdBranchRange,
28                                          size_t pMaxIslandSize)
29     : GCFactory<BranchIsland, 0>(1u),  // magic number
30       m_MaxFwdBranchRange(pMaxFwdBranchRange - pMaxIslandSize),
31       m_MaxBwdBranchRange(pMaxBwdBranchRange + pMaxIslandSize),
32       m_MaxIslandSize(pMaxIslandSize) {
33 }
34 
~BranchIslandFactory()35 BranchIslandFactory::~BranchIslandFactory() {
36 }
37 
38 /// group - group fragments and create islands when needed
39 /// @param pSectionData - the SectionData holds fragments need to be grouped
group(Module & pModule)40 void BranchIslandFactory::group(Module& pModule) {
41   for (Module::iterator sect = pModule.begin(), sectEnd = pModule.end();
42        sect != sectEnd; ++sect) {
43     if (((*sect)->kind() == LDFileFormat::TEXT) && (*sect)->hasSectionData()) {
44       SectionData& sd = *((*sect)->getSectionData());
45       uint64_t group_end = m_MaxFwdBranchRange;
46       for (SectionData::iterator it = sd.begin(), ie = sd.end(); it != ie;
47            ++it) {
48         if ((*it).getOffset() + (*it).size() > group_end) {
49           Fragment* frag = (*it).getPrevNode();
50           while (frag != NULL && frag->getKind() == Fragment::Alignment) {
51             frag = frag->getPrevNode();
52           }
53           if (frag != NULL) {
54             produce(*frag);
55             group_end = (*it).getOffset() + m_MaxFwdBranchRange;
56           }
57         }
58       }
59       if (getIslands(sd.back()).first == NULL)
60         produce(sd.back());
61     }
62   }
63 }
64 
65 /// produce - produce a island for the given fragment
66 /// @param pFragment - the fragment needs a branch island
produce(Fragment & pFragment)67 BranchIsland* BranchIslandFactory::produce(Fragment& pFragment) {
68   BranchIsland* island = allocate();
69   new (island) BranchIsland(pFragment,        // entry fragment to the island
70                             m_MaxIslandSize,  // the max size of the island
71                             size() - 1u);     // index in the island factory
72   return island;
73 }
74 
75 /// getIsland - find fwd and bwd islands for the fragment
76 /// @param pFragment - the fragment needs a branch island
getIslands(const Fragment & pFragment)77 std::pair<BranchIsland*, BranchIsland*> BranchIslandFactory::getIslands(
78     const Fragment& pFragment) {
79   BranchIsland* fwd = NULL;
80   BranchIsland* bwd = NULL;
81   for (iterator it = begin(), ie = end(), prev = ie; it != ie;
82        prev = it, ++it) {
83     if (pFragment.getParent() != (*it).getParent()) {
84       continue;
85     }
86 
87     if ((pFragment.getOffset() < (*it).offset()) &&
88         ((pFragment.getOffset() + m_MaxFwdBranchRange) >= (*it).offset())) {
89       fwd = &*it;
90 
91       if ((prev != ie) && (pFragment.getParent() == (*prev).getParent())) {
92         int64_t bwd_off = (int64_t)pFragment.getOffset() + m_MaxBwdBranchRange;
93         if ((pFragment.getOffset() > (*prev).offset()) &&
94             (bwd_off <= (int64_t)(*prev).offset())) {
95           bwd = &*prev;
96         }
97       }
98       break;
99     }
100   }
101   return std::make_pair(fwd, bwd);
102 }
103 
104 }  // namespace mcld
105