lib/LD/GroupReader.cpp - platform/frameworks/compile/mclinker - Git at Google

 //===- GroupReader.cpp ----------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #include <mcld/LD/Archive.h>
 #include <mcld/LD/ArchiveReader.h>
 #include <mcld/LD/DynObjReader.h>
 #include <mcld/LD/GroupReader.h>
 #include <mcld/LD/ObjectReader.h>
 #include <mcld/LinkerConfig.h>
 #include <mcld/MC/Attribute.h>
 #include <mcld/Support/MsgHandling.h>

 using namespace mcld;

 GroupReader::GroupReader(Module& pModule,
                          ObjectReader& pObjectReader,
                          DynObjReader& pDynObjReader,
                          ArchiveReader& pArchiveReader)
   : m_Module(pModule),
     m_ObjectReader(pObjectReader),
     m_DynObjReader(pDynObjReader),
     m_ArchiveReader(pArchiveReader)
 {
 }

 GroupReader::~GroupReader()
 {
 }

 bool GroupReader::readGroup(Module::input_iterator pRoot,
                             InputBuilder& pBuilder,
                             const LinkerConfig& pConfig)
 {
   // record the number of total objects included in this sub-tree
   size_t cur_obj_cnt = 0;
   size_t last_obj_cnt = 0;
   size_t non_ar_obj_cnt = 0;

   // record the archive files in this sub-tree
   typedef std::vector<ArchiveListEntry*> ArchiveListType;
   ArchiveListType ar_list;

   Module::input_iterator input = --pRoot;

   // Since the end of a sub-tree is the same node to the end of whole tree, we
   // take the end of the whole input tree for conventience.
   Module::input_iterator input_end = m_Module.input_end();

   // first time read the sub-tree
   while (input != input_end) {
     // already got type - for example, bitcode or external OIR (object
     // intermediate representation)
     if ((*input)->type() == Input::Script ||
         (*input)->type() == Input::Object ||
         (*input)->type() == Input::DynObj  ||
         (*input)->type() == Input::Archive ||
         (*input)->type() == Input::External) {
       ++input;
       continue;
     }

     // is an archive
     if (m_ArchiveReader.isMyFormat(**input)) {
       (*input)->setType(Input::Archive);
       // record the Archive used by each archive node
       Archive* ar = new Archive(**input, pBuilder);
       ArchiveListEntry* entry = new ArchiveListEntry(*ar, input);
       ar_list.push_back(entry);
       // read archive
       m_ArchiveReader.readArchive(*ar);
       cur_obj_cnt += ar->numOfObjectMember();
     }
     // is a relocatable object file
     else if (m_ObjectReader.isMyFormat(**input)) {
       (*input)->setType(Input::Object);
       m_ObjectReader.readHeader(**input);
       m_ObjectReader.readSections(**input);
       m_ObjectReader.readSymbols(**input);
       m_Module.getObjectList().push_back(*input);
       ++cur_obj_cnt;
       ++non_ar_obj_cnt;
     }
     // is a shared object file
     else if (m_DynObjReader.isMyFormat(**input)) {
       (*input)->setType(Input::DynObj);
       m_DynObjReader.readHeader(**input);
       m_DynObjReader.readSymbols(**input);
       m_Module.getLibraryList().push_back(*input);
     }
     else {
       fatal(diag::err_unrecognized_input_file) << (*input)->path()
                                                << pConfig.triple().str();
     }
     ++input;
   }

   // after read in all the archives, traverse the archive list in a loop until
   // there is no unresolved symbols added
   ArchiveListType::iterator it = ar_list.begin();
   ArchiveListType::iterator end = ar_list.end();
   while (cur_obj_cnt != last_obj_cnt) {
     last_obj_cnt = cur_obj_cnt;
     cur_obj_cnt = non_ar_obj_cnt;
     for (it = ar_list.begin(); it != end; ++it) {
       Archive& ar = (*it)->archive;
       // if --whole-archive is given to this archive, no need to read it again
       if ( ar.getARFile().attribute()->isWholeArchive())
         continue;
       m_ArchiveReader.readArchive(ar);
       cur_obj_cnt += ar.numOfObjectMember();
     }
   }

   // after all needed member included, merge the archive sub-tree to main
   // InputTree
   for (it = ar_list.begin(); it != end; ++it) {
     Archive& ar = (*it)->archive;
     if (ar.numOfObjectMember() > 0) {
       m_Module.getInputTree().merge<InputTree::Inclusive>((*it)->input,
                                                           ar.inputs());
     }
   }

   // cleanup ar_list
   for (it = ar_list.begin(); it != end; ++it) {
     delete &((*it)->archive);
     delete (*it);
   }
   ar_list.clear();

   return true;
 }
	//===- GroupReader.cpp ----------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#include <mcld/LD/Archive.h>
	#include <mcld/LD/ArchiveReader.h>
	#include <mcld/LD/DynObjReader.h>
	#include <mcld/LD/GroupReader.h>
	#include <mcld/LD/ObjectReader.h>
	#include <mcld/LinkerConfig.h>
	#include <mcld/MC/Attribute.h>
	#include <mcld/Support/MsgHandling.h>

	using namespace mcld;

	GroupReader::GroupReader(Module& pModule,
	ObjectReader& pObjectReader,
	DynObjReader& pDynObjReader,
	ArchiveReader& pArchiveReader)
	: m_Module(pModule),
	m_ObjectReader(pObjectReader),
	m_DynObjReader(pDynObjReader),
	m_ArchiveReader(pArchiveReader)
	{
	}

	GroupReader::~GroupReader()
	{
	}

	bool GroupReader::readGroup(Module::input_iterator pRoot,
	InputBuilder& pBuilder,
	const LinkerConfig& pConfig)
	{
	// record the number of total objects included in this sub-tree
	size_t cur_obj_cnt = 0;
	size_t last_obj_cnt = 0;
	size_t non_ar_obj_cnt = 0;

	// record the archive files in this sub-tree
	typedef std::vector<ArchiveListEntry*> ArchiveListType;
	ArchiveListType ar_list;

	Module::input_iterator input = --pRoot;

	// Since the end of a sub-tree is the same node to the end of whole tree, we
	// take the end of the whole input tree for conventience.
	Module::input_iterator input_end = m_Module.input_end();

	// first time read the sub-tree
	while (input != input_end) {
	// already got type - for example, bitcode or external OIR (object
	// intermediate representation)
	if ((*input)->type() == Input::Script \|\|
	(*input)->type() == Input::Object \|\|
	(*input)->type() == Input::DynObj \|\|
	(*input)->type() == Input::Archive \|\|
	(*input)->type() == Input::External) {
	++input;
	continue;
	}

	// is an archive
	if (m_ArchiveReader.isMyFormat(**input)) {
	(*input)->setType(Input::Archive);
	// record the Archive used by each archive node
	Archive* ar = new Archive(**input, pBuilder);
	ArchiveListEntry* entry = new ArchiveListEntry(*ar, input);
	ar_list.push_back(entry);
	// read archive
	m_ArchiveReader.readArchive(*ar);
	cur_obj_cnt += ar->numOfObjectMember();
	}
	// is a relocatable object file
	else if (m_ObjectReader.isMyFormat(**input)) {
	(*input)->setType(Input::Object);
	m_ObjectReader.readHeader(**input);
	m_ObjectReader.readSections(**input);
	m_ObjectReader.readSymbols(**input);
	m_Module.getObjectList().push_back(*input);
	++cur_obj_cnt;
	++non_ar_obj_cnt;
	}
	// is a shared object file
	else if (m_DynObjReader.isMyFormat(**input)) {
	(*input)->setType(Input::DynObj);
	m_DynObjReader.readHeader(**input);
	m_DynObjReader.readSymbols(**input);
	m_Module.getLibraryList().push_back(*input);
	}
	else {
	fatal(diag::err_unrecognized_input_file) << (*input)->path()
	<< pConfig.triple().str();
	}
	++input;
	}

	// after read in all the archives, traverse the archive list in a loop until
	// there is no unresolved symbols added
	ArchiveListType::iterator it = ar_list.begin();
	ArchiveListType::iterator end = ar_list.end();
	while (cur_obj_cnt != last_obj_cnt) {
	last_obj_cnt = cur_obj_cnt;
	cur_obj_cnt = non_ar_obj_cnt;
	for (it = ar_list.begin(); it != end; ++it) {
	Archive& ar = (*it)->archive;
	// if --whole-archive is given to this archive, no need to read it again
	if ( ar.getARFile().attribute()->isWholeArchive())
	continue;
	m_ArchiveReader.readArchive(ar);
	cur_obj_cnt += ar.numOfObjectMember();
	}
	}

	// after all needed member included, merge the archive sub-tree to main
	// InputTree
	for (it = ar_list.begin(); it != end; ++it) {
	Archive& ar = (*it)->archive;
	if (ar.numOfObjectMember() > 0) {
	m_Module.getInputTree().merge<InputTree::Inclusive>((*it)->input,
	ar.inputs());
	}
	}

	// cleanup ar_list
	for (it = ar_list.begin(); it != end; ++it) {
	delete &((*it)->archive);
	delete (*it);
	}
	ar_list.clear();

	return true;
	}