472 lines
15 KiB
C++
472 lines
15 KiB
C++
/*=========================================================================
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Program: Insight Segmentation & Registration Toolkit
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Module: $RCSfile$
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Language: C++
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Date: $Date$
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Version: $Revision$
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Copyright (c) 2002 Insight Consortium. All rights reserved.
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See ITKCopyright.txt or http://www.itk.org/HTML/Copyright.htm for details.
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This software is distributed WITHOUT ANY WARRANTY; without even
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the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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PURPOSE. See the above copyright notices for more information.
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=========================================================================*/
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#include "cmTarget.h"
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#include "cmMakefile.h"
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#include <map>
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#include <set>
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void cmTarget::GenerateSourceFilesFromSourceLists( cmMakefile &mf)
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{
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// this is only done for non install targets
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if ((this->m_TargetType == cmTarget::INSTALL_FILES)
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|| (this->m_TargetType == cmTarget::INSTALL_PROGRAMS))
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{
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return;
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}
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// for each src lists add the classes
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for (std::vector<std::string>::const_iterator s = m_SourceLists.begin();
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s != m_SourceLists.end(); ++s)
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{
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int done = 0;
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// replace any variables
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std::string temps = *s;
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mf.ExpandVariablesInString(temps);
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// Next if one wasn't found then assume it is a single class
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if (!done && mf.GetSource(temps.c_str()))
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{
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m_SourceFiles.push_back(mf.GetSource(temps.c_str()));
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done = 1;
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}
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// if it wasn't a source file listed with the makefile
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// see if it is a variable. This is for old CMake 1.2 compatability
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// where a source list would be passed into here, by making it
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// a vector we need to possibly lookup the variable to maintain
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// CMake 1.2 compatability.
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const char* versionValue
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= mf.GetDefinition("CMAKE_MINIMUM_REQUIRED_VERSION");
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if (!done)
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{
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if (!versionValue || atof(versionValue) <= 1.2)
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{
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const char* varValue =
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mf.GetDefinition(temps.c_str());
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// if the definition exists
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if (varValue)
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{
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std::vector<std::string> tval;
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tval.push_back(varValue);
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std::vector<std::string> args;
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cmSystemTools::ExpandListArguments(tval, args);
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unsigned int i;
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for (i = 0; i < args.size(); ++i)
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{
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if (mf.GetSource(args[i].c_str()))
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{
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m_SourceFiles.push_back(mf.GetSource(args[i].c_str()));
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}
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else
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{
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cmSourceFile file;
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file.SetProperty("ABSTRACT","0");
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file.SetName(args[i].c_str(), mf.GetCurrentDirectory(),
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mf.GetSourceExtensions(),
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mf.GetHeaderExtensions());
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m_SourceFiles.push_back(mf.AddSource(file));
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}
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}
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done = 1;
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}
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}
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}
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// if we still are not done, try to create the SourceFile structure
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if (!done)
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{
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cmSourceFile file;
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file.SetProperty("ABSTRACT","0");
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file.SetName(temps.c_str(), mf.GetCurrentDirectory(),
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mf.GetSourceExtensions(),
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mf.GetHeaderExtensions());
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m_SourceFiles.push_back(mf.AddSource(file));
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done = 1;
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}
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}
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// expand any link library variables whle we are at it
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LinkLibraries::iterator p = m_LinkLibraries.begin();
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for (;p != m_LinkLibraries.end(); ++p)
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{
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mf.ExpandVariablesInString(p->first);
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}
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}
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void cmTarget::MergeLinkLibraries( cmMakefile& mf,
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const char *selfname,
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const LinkLibraries& libs )
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{
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// Only add on libraries we haven't added on before.
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// Assumption: the global link libraries could only grow, never shrink
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LinkLibraries::const_iterator i = libs.begin();
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i += m_PrevLinkedLibraries.size();
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for( ; i != libs.end(); ++i )
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{
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// We call this so that the dependencies get written to the cache
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this->AddLinkLibrary( mf, selfname, i->first.c_str(), i->second );
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}
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m_PrevLinkedLibraries = libs;
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}
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void cmTarget::AddLinkDirectory(const char* d)
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{
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// Make sure we don't add unnecessary search directories.
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if( std::find( m_LinkDirectories.begin(), m_LinkDirectories.end(), d )
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== m_LinkDirectories.end() )
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m_LinkDirectories.push_back( d );
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}
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void cmTarget::AddLinkLibrary(const std::string& lib,
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LinkLibraryType llt)
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{
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m_LinkLibraries.push_back( std::pair<std::string, cmTarget::LinkLibraryType>(lib,llt) );
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}
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void cmTarget::AddLinkLibrary(cmMakefile& mf,
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const char *target, const char* lib,
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LinkLibraryType llt)
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{
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// Never add a self dependency, even if the user asks for it.
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if(strcmp( target, lib ) == 0)
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{
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return;
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}
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m_LinkLibraries.push_back( std::pair<std::string, cmTarget::LinkLibraryType>(lib,llt) );
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if(llt != cmTarget::GENERAL)
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{
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std::string linkTypeName = lib;
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linkTypeName += "_LINK_TYPE";
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switch(llt)
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{
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case cmTarget::DEBUG:
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mf.AddCacheDefinition(linkTypeName.c_str(),
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"debug", "Library is used for debug links only",
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cmCacheManager::STATIC);
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break;
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case cmTarget::OPTIMIZED:
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mf.AddCacheDefinition(linkTypeName.c_str(),
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"optimized", "Library is used for debug links only",
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cmCacheManager::STATIC);
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break;
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case cmTarget::GENERAL: break;
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}
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}
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// Add the explicit dependency information for this target. This is
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// simply a set of libraries separated by ";". There should always
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// be a trailing ";". These library names are not canonical, in that
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// they may be "-framework x", "-ly", "/path/libz.a", etc.
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// only add depend information for library targets
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if(m_TargetType >= STATIC_LIBRARY && m_TargetType <= MODULE_LIBRARY)
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{
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std::string targetEntry = target;
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targetEntry += "_LIB_DEPENDS";
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std::string dependencies;
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const char* old_val = mf.GetDefinition( targetEntry.c_str() );
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if( old_val )
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{
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dependencies += old_val;
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}
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if( dependencies.find( lib ) == std::string::npos )
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{
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dependencies += lib;
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dependencies += ";";
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}
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mf.AddCacheDefinition( targetEntry.c_str(), dependencies.c_str(),
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"Dependencies for the target",
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cmCacheManager::STATIC );
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}
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}
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bool cmTarget::HasCxx() const
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{
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for(std::vector<cmSourceFile*>::const_iterator i = m_SourceFiles.begin();
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i != m_SourceFiles.end(); ++i)
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{
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if((*i)->GetSourceExtension() != "c")
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{
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return true;
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}
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}
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return false;
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}
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void
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cmTarget::AnalyzeLibDependencies( const cmMakefile& mf )
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{
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// There are two key parts of the dependency analysis: (1)
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// determining the libraries in the link line, and (2) constructing
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// the dependency graph for those libraries.
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//
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// The latter is done using the cache entries that record the
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// dependencies of each library.
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//
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// The former is a more thorny issue, since it is not clear how to
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// determine if two libraries listed on the link line refer to the a
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// single library or not. For example, consider the link "libraries"
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// /usr/lib/libtiff.so -ltiff
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// Is this one library or two? The solution implemented here is the
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// simplest (and probably the only practical) one: two libraries are
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// the same if their "link strings" are identical. Thus, the two
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// libraries above are considered distinct. This also means that for
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// dependency analysis to be effective, the CMake user must specify
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// libraries build by his project without using any linker flags or
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// file extensions. That is,
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// LINK_LIBRARIES( One Two )
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// instead of
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// LINK_LIBRARIES( -lOne ${binarypath}/libTwo.a )
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// The former is probably what most users would do, but it never
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// hurts to document the assumptions. :-) Therefore, in the analysis
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// code, the "canonical name" of a library is simply its name as
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// given to a LINK_LIBRARIES command.
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//
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// Also, we will leave the original link line intact; we will just add any
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// dependencies that were missing.
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typedef std::vector< std::string > LinkLine;
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// The dependency map.
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DependencyMap dep_map;
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// Keeps track of which dependencies have already been emitted for a given
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// target. This could be via this function, or because they were already
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// satisfied on the original link line.
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DependencyMap satisfied;
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// If LIBRARY_OUTPUT_PATH is not set, then we must add search paths
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// for all the new libraries added by the dependency analysis.
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const char* libOutPath = mf.GetDefinition("LIBRARY_OUTPUT_PATH");
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bool addLibDirs = (libOutPath==0 || strcmp(libOutPath,"")==0);
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// 1. Determine the dependencies already satisfied by the original link
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// line.
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for(LinkLibraries::iterator lib = m_LinkLibraries.begin();
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lib != m_LinkLibraries.end(); ++lib)
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{
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for( LinkLibraries::iterator lib2 = lib;
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lib2 != m_LinkLibraries.end(); ++lib2)
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{
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satisfied[ lib->first ].insert( lib2->first );
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}
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}
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// 2. Build the explicit dependency map
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for(LinkLibraries::reverse_iterator lib = m_LinkLibraries.rbegin();
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lib != m_LinkLibraries.rend(); ++lib)
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{
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this->GatherDependencies( mf, lib->first, dep_map );
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}
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// 3. Create the new link line by simply emitting any dependencies that are
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// missing. Start from the back and keep adding.
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std::set<cmStdString> done, visited;
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std::vector<std::string> newLinkLibraries;
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for(LinkLibraries::reverse_iterator lib = m_LinkLibraries.rbegin();
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lib != m_LinkLibraries.rend(); ++lib)
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{
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// skip zero size library entries, this may happen
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// if a variable expands to nothing.
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if (lib->first.size() == 0) continue;
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// Emit all the dependencies that are not already satisfied on the
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// original link line.
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if( dep_map.find(lib->first) != dep_map.end() ) // does it have dependencies?
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{
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const std::set<cmStdString>& dep_on = dep_map.find( lib->first )->second;
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std::set<cmStdString>::const_iterator i;
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for( i = dep_on.begin(); i != dep_on.end(); ++i )
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{
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if( satisfied[lib->first].end() == satisfied[lib->first].find( *i ) )
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{
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Emit( *i, dep_map, done, visited, newLinkLibraries );
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}
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}
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}
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}
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// 4. Add the new libraries to the link line.
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for( std::vector<std::string>::reverse_iterator k = newLinkLibraries.rbegin();
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k != newLinkLibraries.rend(); ++k )
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{
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if( addLibDirs )
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{
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// who the hell knows what this is, I think that K contains the
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// name of a library but ... Ken
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std::string libPathStr = *k + "_CMAKE_PATH";
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const char* libpath = mf.GetDefinition( libPathStr.c_str() );
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if( libpath )
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{
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// Don't add a link directory that is already present.
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if(std::find(m_LinkDirectories.begin(),
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m_LinkDirectories.end(), libpath) == m_LinkDirectories.end())
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{
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m_LinkDirectories.push_back(libpath);
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}
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}
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}
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std::string linkType = *k;
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linkType += "_LINK_TYPE";
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cmTarget::LinkLibraryType llt = cmTarget::GENERAL;
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const char* linkTypeString = mf.GetDefinition( linkType.c_str() );
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if(linkTypeString)
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{
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if(strcmp(linkTypeString, "debug") == 0)
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{
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llt = cmTarget::DEBUG;
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}
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if(strcmp(linkTypeString, "optimized") == 0)
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{
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llt = cmTarget::OPTIMIZED;
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}
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}
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m_LinkLibraries.push_back( std::make_pair(*k,llt) );
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}
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}
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void cmTarget::Emit( const std::string& lib,
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const DependencyMap& dep_map,
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std::set<cmStdString>& emitted,
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std::set<cmStdString>& visited,
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std::vector<std::string>& link_line ) const
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{
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// It's already been emitted
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if( emitted.find(lib) != emitted.end() )
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{
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return;
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}
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// If this library hasn't been visited before, then emit all its
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// dependencies before emitting the library itself. If it has been
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// visited before, then there is a dependency cycle. Just emit the
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// library itself, and let the recursion that got us here deal with
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// emitting the dependencies for the library.
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if( visited.insert(lib).second )
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{
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if( dep_map.find(lib) != dep_map.end() ) // does it have dependencies?
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{
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const std::set<cmStdString>& dep_on = dep_map.find( lib )->second;
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std::set<cmStdString>::const_iterator i;
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for( i = dep_on.begin(); i != dep_on.end(); ++i )
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{
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Emit( *i, dep_map, emitted, visited, link_line );
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}
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}
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}
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link_line.push_back( lib );
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emitted.insert(lib);
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}
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void cmTarget::GatherDependencies( const cmMakefile& mf,
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const std::string& lib,
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DependencyMap& dep_map )
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{
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// If the library is already in the dependency map, then it has
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// already been fully processed.
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if( dep_map.find(lib) != dep_map.end() )
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return;
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const char* deps = mf.GetDefinition( (lib+"_LIB_DEPENDS").c_str() );
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if( deps && strcmp(deps,"") != 0 )
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{
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// Make sure this library is in the map, even if it has an empty
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// set of dependencies. This distinguishes the case of explicitly
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// no dependencies with that of unspecified dependencies.
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dep_map[lib];
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// Parse the dependency information, which is simply a set of
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// libraries separated by ";". There is always a trailing ";".
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std::string depline = deps;
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std::string::size_type start = 0;
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std::string::size_type end;
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end = depline.find( ";", start );
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while( end != std::string::npos )
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{
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std::string l = depline.substr( start, end-start );
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if( l.size() != 0 )
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{
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dep_map[ lib ].insert( l );
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GatherDependencies( mf, l, dep_map );
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}
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start = end+1; // skip the ;
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end = depline.find( ";", start );
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}
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dep_map[lib].erase(lib); // cannot depend on itself
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}
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}
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// return true if lib1 depends on lib2
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bool cmTarget::DependsOn( const std::string& lib1, const std::string& lib2,
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const DependencyMap& dep_map,
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std::set<cmStdString>& visited ) const
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{
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if( !visited.insert( lib1 ).second )
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{
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return false; // already visited here
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}
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if( lib1 == lib2 )
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{
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return false;
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}
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if( dep_map.find(lib1) == dep_map.end() )
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{
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return false; // lib1 doesn't have any dependencies
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}
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const std::set<cmStdString>& dep_set = dep_map.find(lib1)->second;
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if( dep_set.end() != dep_set.find( lib2 ) )
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{
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return true; // lib1 doesn't directly depend on lib2.
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}
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// Do a recursive check: does lib1 depend on x which depends on lib2?
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for( std::set<cmStdString>::const_iterator itr = dep_set.begin();
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itr != dep_set.end(); ++itr )
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{
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if( this->DependsOn( *itr, lib2, dep_map, visited ) )
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{
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return true;
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}
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}
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return false;
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}
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