lib/LD/BranchIsland.cpp - platform/frameworks/compile/mclinker - Gitiles

 //===- BranchIsland.cpp ---------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #include "mcld/LD/BranchIsland.h"

 #include "mcld/Fragment/AlignFragment.h"
 #include "mcld/Fragment/Stub.h"
 #include "mcld/LD/LDSection.h"
 #include "mcld/LD/ResolveInfo.h"

 #include <sstream>

 namespace mcld {

 //============================================================================//
 // BranchIsland
 //============================================================================//
 BranchIsland::BranchIsland(Fragment& pEntryFrag, size_t pMaxSize, size_t pIndex)
     : m_Entry(pEntryFrag),
       m_pExit(pEntryFrag.getNextNode()),
       m_pRear(NULL),
       m_MaxSize(pMaxSize),
       m_Name("island-") {
   // island name
   std::ostringstream index;
   index << pIndex;
   m_Name.append(index.str());
 }

 BranchIsland::~BranchIsland() {
 }

 /// fragment iterators of the island
 SectionData::iterator BranchIsland::begin() {
   return ++iterator(&m_Entry);
 }

 SectionData::const_iterator BranchIsland::begin() const {
   return ++iterator(&m_Entry);
 }

 SectionData::iterator BranchIsland::end() {
   if (m_pExit != NULL)
     return iterator(m_pExit);
   return m_Entry.getParent()->end();
 }

 SectionData::const_iterator BranchIsland::end() const {
   if (m_pExit != NULL)
     return iterator(m_pExit);
   return m_Entry.getParent()->end();
 }

 uint64_t BranchIsland::offset() const {
   return m_Entry.getOffset() + m_Entry.size();
 }

 size_t BranchIsland::size() const {
   size_t size = 0x0;
   if (numOfStubs() != 0x0) {
     size = m_pRear->getOffset() + m_pRear->size() -
            m_Entry.getNextNode()->getOffset();
   }
   return size;
 }

 size_t BranchIsland::maxSize() const {
   return m_MaxSize;
 }

 const std::string& BranchIsland::name() const {
   return m_Name;
 }

 size_t BranchIsland::numOfStubs() const {
   return m_StubMap.numOfEntries();
 }

 /// findStub - return true if there is a stub built from the given prototype
 ///            for the given relocation
 Stub* BranchIsland::findStub(const Stub* pPrototype, const Relocation& pReloc) {
   Key key(pPrototype, pReloc.symInfo()->outSymbol(), pReloc.addend());
   StubMapType::iterator it = m_StubMap.find(key);
   if (it != m_StubMap.end()) {
     assert(it.getEntry()->value() != NULL);
     return it.getEntry()->value();
   }
   return NULL;
 }

 /// addStub - add a stub into the island
 bool BranchIsland::addStub(const Stub* pPrototype,
                            const Relocation& pReloc,
                            Stub& pStub) {
   bool exist = false;
   Key key(pPrototype, pReloc.symInfo()->outSymbol(), pReloc.addend());
   StubEntryType* entry = m_StubMap.insert(key, exist);
   if (!exist) {
     entry->setValue(&pStub);
     m_pRear = &pStub;
     SectionData* sd = m_Entry.getParent();

     // insert alignment fragment
     // TODO: check if we can reduce this alignment fragment for some cases
     AlignFragment* align_frag =
         new AlignFragment(pStub.alignment(), 0x0, 1u, pStub.alignment() - 1);
     align_frag->setParent(sd);
     sd->getFragmentList().insert(end(), align_frag);
     align_frag->setOffset(align_frag->getPrevNode()->getOffset() +
                           align_frag->getPrevNode()->size());

     // insert stub fragment
     pStub.setParent(sd);
     sd->getFragmentList().insert(end(), &pStub);
     pStub.setOffset(pStub.getPrevNode()->getOffset() +
                     pStub.getPrevNode()->size());
   }
   return !exist;
 }

 void BranchIsland::addStub(Stub& pStub) {
   bool exist = false;
   Key key(&pStub, pStub.symInfo()->outSymbol(), 0);
   m_StubMap.insert(key, exist);

   m_pRear = &pStub;
   SectionData* sd = m_Entry.getParent();

   // insert alignment fragment
   // TODO: check if we can reduce this alignment fragment for some cases
   AlignFragment* align_frag =
       new AlignFragment(pStub.alignment(), 0x0, 1u, pStub.alignment() - 1);
   align_frag->setParent(sd);
   sd->getFragmentList().insert(end(), align_frag);
   align_frag->setOffset(align_frag->getPrevNode()->getOffset() +
                         align_frag->getPrevNode()->size());

   // insert stub fragment
   pStub.setParent(sd);
   sd->getFragmentList().insert(end(), &pStub);
   pStub.setOffset(pStub.getPrevNode()->getOffset() +
                   pStub.getPrevNode()->size());
 }

 /// addRelocation - add a relocation into island
 bool BranchIsland::addRelocation(Relocation& pReloc) {
   m_Relocations.push_back(&pReloc);
   return true;
 }

 }  // namespace mcld
	//===- BranchIsland.cpp ---------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#include "mcld/LD/BranchIsland.h"

	#include "mcld/Fragment/AlignFragment.h"
	#include "mcld/Fragment/Stub.h"
	#include "mcld/LD/LDSection.h"
	#include "mcld/LD/ResolveInfo.h"

	#include <sstream>

	namespace mcld {

	//============================================================================//
	// BranchIsland
	//============================================================================//
	BranchIsland::BranchIsland(Fragment& pEntryFrag, size_t pMaxSize, size_t pIndex)
	: m_Entry(pEntryFrag),
	m_pExit(pEntryFrag.getNextNode()),
	m_pRear(NULL),
	m_MaxSize(pMaxSize),
	m_Name("island-") {
	// island name
	std::ostringstream index;
	index << pIndex;
	m_Name.append(index.str());
	}

	BranchIsland::~BranchIsland() {
	}

	/// fragment iterators of the island
	SectionData::iterator BranchIsland::begin() {
	return ++iterator(&m_Entry);
	}

	SectionData::const_iterator BranchIsland::begin() const {
	return ++iterator(&m_Entry);
	}

	SectionData::iterator BranchIsland::end() {
	if (m_pExit != NULL)
	return iterator(m_pExit);
	return m_Entry.getParent()->end();
	}

	SectionData::const_iterator BranchIsland::end() const {
	if (m_pExit != NULL)
	return iterator(m_pExit);
	return m_Entry.getParent()->end();
	}

	uint64_t BranchIsland::offset() const {
	return m_Entry.getOffset() + m_Entry.size();
	}

	size_t BranchIsland::size() const {
	size_t size = 0x0;
	if (numOfStubs() != 0x0) {
	size = m_pRear->getOffset() + m_pRear->size() -
	m_Entry.getNextNode()->getOffset();
	}
	return size;
	}

	size_t BranchIsland::maxSize() const {
	return m_MaxSize;
	}

	const std::string& BranchIsland::name() const {
	return m_Name;
	}

	size_t BranchIsland::numOfStubs() const {
	return m_StubMap.numOfEntries();
	}

	/// findStub - return true if there is a stub built from the given prototype
	/// for the given relocation
	Stub* BranchIsland::findStub(const Stub* pPrototype, const Relocation& pReloc) {
	Key key(pPrototype, pReloc.symInfo()->outSymbol(), pReloc.addend());
	StubMapType::iterator it = m_StubMap.find(key);
	if (it != m_StubMap.end()) {
	assert(it.getEntry()->value() != NULL);
	return it.getEntry()->value();
	}
	return NULL;
	}

	/// addStub - add a stub into the island
	bool BranchIsland::addStub(const Stub* pPrototype,
	const Relocation& pReloc,
	Stub& pStub) {
	bool exist = false;
	Key key(pPrototype, pReloc.symInfo()->outSymbol(), pReloc.addend());
	StubEntryType* entry = m_StubMap.insert(key, exist);
	if (!exist) {
	entry->setValue(&pStub);
	m_pRear = &pStub;
	SectionData* sd = m_Entry.getParent();

	// insert alignment fragment
	// TODO: check if we can reduce this alignment fragment for some cases
	AlignFragment* align_frag =
	new AlignFragment(pStub.alignment(), 0x0, 1u, pStub.alignment() - 1);
	align_frag->setParent(sd);
	sd->getFragmentList().insert(end(), align_frag);
	align_frag->setOffset(align_frag->getPrevNode()->getOffset() +
	align_frag->getPrevNode()->size());

	// insert stub fragment
	pStub.setParent(sd);
	sd->getFragmentList().insert(end(), &pStub);
	pStub.setOffset(pStub.getPrevNode()->getOffset() +
	pStub.getPrevNode()->size());
	}
	return !exist;
	}

	void BranchIsland::addStub(Stub& pStub) {
	bool exist = false;
	Key key(&pStub, pStub.symInfo()->outSymbol(), 0);
	m_StubMap.insert(key, exist);

	m_pRear = &pStub;
	SectionData* sd = m_Entry.getParent();

	// insert alignment fragment
	// TODO: check if we can reduce this alignment fragment for some cases
	AlignFragment* align_frag =
	new AlignFragment(pStub.alignment(), 0x0, 1u, pStub.alignment() - 1);
	align_frag->setParent(sd);
	sd->getFragmentList().insert(end(), align_frag);
	align_frag->setOffset(align_frag->getPrevNode()->getOffset() +
	align_frag->getPrevNode()->size());

	// insert stub fragment
	pStub.setParent(sd);
	sd->getFragmentList().insert(end(), &pStub);
	pStub.setOffset(pStub.getPrevNode()->getOffset() +
	pStub.getPrevNode()->size());
	}

	/// addRelocation - add a relocation into island
	bool BranchIsland::addRelocation(Relocation& pReloc) {
	m_Relocations.push_back(&pReloc);
	return true;
	}

	} // namespace mcld