#include "cmOrderLinkDirectories.h" #include "cmSystemTools.h" #include "cmsys/RegularExpression.hxx" #include //------------------------------------------------------------------- cmOrderLinkDirectories::cmOrderLinkDirectories() { this->Debug = false; } //------------------------------------------------------------------- bool cmOrderLinkDirectories::LibraryInDirectory(const char* dir, const char* libIn) { cmStdString path = dir; path += "/"; path += libIn; // first look for the library as given if(cmSystemTools::FileExists(path.c_str())) { return true; } // next remove the extension (.a, .so ) and look for the library // under a different name as the linker can do either if(this->RemoveLibraryExtension.find(libIn)) { cmStdString lib = this->RemoveLibraryExtension.match(1); cmStdString ext = this->RemoveLibraryExtension.match(2); for(std::vector::iterator i = this->LinkExtensions.begin(); i != this->LinkExtensions.end(); ++i) { if(ext != *i) { path = dir; path += "/"; path += lib + *i; if(cmSystemTools::FileExists(path.c_str())) { return true; } } } } return false; } //------------------------------------------------------------------- void cmOrderLinkDirectories::FindLibrariesInSeachPaths() { for(std::set::iterator dir = this->LinkPathSet.begin(); dir != this->LinkPathSet.end(); ++dir) { for(std::map::iterator lib = this->FullPathLibraries.begin(); lib != this->FullPathLibraries.end(); ++lib) { if(lib->second.Path != *dir) { if(this->LibraryInDirectory(dir->c_str(), lib->second.File.c_str())) { this->LibraryToDirectories[lib->second.FullPath].push_back(*dir); } } } } } //------------------------------------------------------------------- void cmOrderLinkDirectories::FindIndividualLibraryOrders() { for(std::vector::iterator lib = this->MultiDirectoryLibraries.begin(); lib != this->MultiDirectoryLibraries.end(); ++lib) { std::vector& dirs = this->LibraryToDirectories[lib->FullPath]; this->DirectoryToAfterList[lib->Path] = dirs; } } //------------------------------------------------------------------- std::string cmOrderLinkDirectories::NoCaseExpression(const char* str) { std::string ret; const char* s = str; while(*s) { if(*s == '.') { ret += *s; } else { ret += "["; ret += tolower(*s); ret += toupper(*s); ret += "]"; } s++; } return ret; } //------------------------------------------------------------------- void cmOrderLinkDirectories::CreateRegularExpressions() { this->SplitFramework.compile("(.*)/(.*)\\.framework$"); cmStdString libext = "("; bool first = true; for(std::vector::iterator i = this->LinkExtensions.begin(); i != this->LinkExtensions.end(); ++i) { if(!first) { libext += "|"; } first = false; libext += "\\"; #if defined(_WIN32) && !defined(__CYGWIN__) libext += this->NoCaseExpression(i->c_str()); #else libext += *i; #endif } libext += ").*"; cmStdString reg("(.*)"); reg += libext; this->RemoveLibraryExtension.compile(reg.c_str()); reg = ""; if(this->LinkPrefix.size()) { reg = "^"; reg += this->LinkPrefix; } reg += "([^/]*)"; reg += libext; this->ExtractBaseLibraryName.compile(reg.c_str()); reg = "([^/]*)"; reg += libext; this->ExtractBaseLibraryNameNoPrefix.compile(reg.c_str()); } //------------------------------------------------------------------- void cmOrderLinkDirectories::PrepareLinkTargets() { for(std::vector::iterator i = this->LinkItems.begin(); i != this->LinkItems.end(); ++i) { // separate the library name from libfoo.a or foo.a if(this->ExtractBaseLibraryName.find(*i)) { *i = this->ExtractBaseLibraryName.match(1); } else if(this->ExtractBaseLibraryNameNoPrefix.find(*i)) { *i = this->ExtractBaseLibraryNameNoPrefix.match(1); } } } //------------------------------------------------------------------- bool cmOrderLinkDirectories::FindPathNotInDirectoryToAfterList( cmStdString& path) { for(std::map >::iterator i = this->DirectoryToAfterList.begin(); i != this->DirectoryToAfterList.end(); ++i) { const cmStdString& p = i->first; bool found = false; for(std::map >::iterator j = this->DirectoryToAfterList.begin(); j != this->DirectoryToAfterList.end() && !found; ++j) { if(j != i) { found = (std::find(j->second.begin(), j->second.end(), p) != j->second.end()); } } if(!found) { path = p; this->DirectoryToAfterList.erase(i); return true; } } path = ""; return false; } //------------------------------------------------------------------- void cmOrderLinkDirectories::OrderPaths(std::vector& orderedPaths) { cmStdString path; // This is a topological sort implementation // One at a time find paths that are not in any other paths after list // and put them into the orderedPaths vector in that order // FindPathNotInDirectoryToAfterList removes the path from the // this->DirectoryToAfterList once it is found while(this->FindPathNotInDirectoryToAfterList(path)) { orderedPaths.push_back(path); } // at this point if there are still paths in this->DirectoryToAfterList // then there is a cycle and we are stuck if(this->DirectoryToAfterList.size()) { for(std::map >::iterator i = this->DirectoryToAfterList.begin(); i != this->DirectoryToAfterList.end(); ++i) { this->ImpossibleDirectories.insert(i->first); // still put it in the path list in the order we find them orderedPaths.push_back(i->first); } } } //------------------------------------------------------------------- void cmOrderLinkDirectories::SetLinkInformation( const char* targetName, const std::vector& linkLibraries, const std::vector& linkDirectories ) { // Save the target name. this->TargetName = targetName; // Merge the link directory search path given into our path set. std::vector empty; for(std::vector::const_iterator p = linkDirectories.begin(); p != linkDirectories.end(); ++p) { this->DirectoryToAfterList[*p] = empty; this->LinkPathSet.insert(*p); } // Append the link library list into our raw list. for(std::vector::const_iterator l = linkLibraries.begin(); l != linkLibraries.end(); ++l) { this->RawLinkItems.push_back(*l); } } //------------------------------------------------------------------- bool cmOrderLinkDirectories::DetermineLibraryPathOrder() { // set up all the regular expressions this->CreateRegularExpressions(); std::vector finalOrderPaths; // find all libs that are full paths Library aLib; cmStdString dir; cmStdString file; std::vector empty; bool framework = false; // do not add a -F for the system frameworks this->EmittedFrameworkPaths.insert("/System/Library/Frameworks"); for(unsigned int i=0; i < this->RawLinkItems.size(); ++i) { if(cmSystemTools::FileIsFullPath(this->RawLinkItems[i].c_str())) { if(cmSystemTools::FileIsDirectory(this->RawLinkItems[i].c_str())) { if(cmSystemTools::IsPathToFramework(this->RawLinkItems[i].c_str())) { this->SplitFramework.find(this->RawLinkItems[i]); cmStdString path = this->SplitFramework.match(1); // Add the -F path if we have not yet done so if(this->EmittedFrameworkPaths.insert(path).second) { std::string fpath = "-F"; fpath += cmSystemTools::ConvertToOutputPath(path.c_str()); this->LinkItems.push_back(fpath); } // now add the -framework option std::string frame = "-framework "; frame += this->SplitFramework.match(2); this->LinkItems.push_back(frame); framework = true; } else { std::string message = "Warning: Ignoring path found in link libraries for target: "; message += this->TargetName; message += ", path is: "; message += this->RawLinkItems[i]; message += ". Expected a library name or a full path to a library name."; cmSystemTools::Message(message.c_str()); continue; } } if(!framework) { cmSystemTools::SplitProgramPath(this->RawLinkItems[i].c_str(), dir, file); #ifdef _WIN32 // Avoid case problems for windows paths. if(dir.size() > 2 && dir[1] == ':') { if(dir[0] >= 'A' && dir[0] <= 'Z') { dir[0] += 'a' - 'A'; } } dir = cmSystemTools::GetActualCaseForPath(dir.c_str()); #endif this->DirectoryToAfterList[dir] = empty; this->LinkPathSet.insert(dir); aLib.FullPath = this->RawLinkItems[i]; aLib.File = file; aLib.Path = dir; this->FullPathLibraries[aLib.FullPath] = aLib; this->LinkItems.push_back(file); } } else { this->LinkItems.push_back(this->RawLinkItems[i]); } } this->FindLibrariesInSeachPaths(); for(std::map >::iterator lib = this->LibraryToDirectories.begin(); lib!= this->LibraryToDirectories.end(); ++lib) { if(lib->second.size() > 0) { this->MultiDirectoryLibraries.push_back(this->FullPathLibraries[lib->first]); } else { this->SingleDirectoryLibraries.push_back(this->FullPathLibraries[lib->first]); } } this->FindIndividualLibraryOrders(); this->SortedSearchPaths.clear(); if(this->Debug) { this->PrintMap("this->LibraryToDirectories", this->LibraryToDirectories); this->PrintMap("this->DirectoryToAfterList", this->DirectoryToAfterList); } this->OrderPaths(this->SortedSearchPaths); // now turn libfoo.a into foo and foo.a into foo // This will prepare the link items for -litem this->PrepareLinkTargets(); if(this->ImpossibleDirectories.size()) { cmSystemTools::Message(this->GetWarnings().c_str()); return false; } return true; } std::string cmOrderLinkDirectories::GetWarnings() { std::string warning = "It is impossible to order the linker search path in such a way that libraries specified as full paths will be picked by the linker.\nDirectories and libraries involved are:\n"; for(std::set::iterator i = this->ImpossibleDirectories.begin(); i != this->ImpossibleDirectories.end(); ++i) { warning += "Directory: "; warning += *i; warning += " contains:\n"; std::map >::iterator j; for(j = this->LibraryToDirectories.begin(); j != this->LibraryToDirectories.end(); ++j) { if(std::find(j->second.begin(), j->second.end(), *i) != j->second.end()) { warning += "Library: "; warning += j->first; warning += "\n"; } } warning += "\n"; } warning += "\n"; return warning; } //------------------------------------------------------------------- void cmOrderLinkDirectories::PrintMap(const char* name, std::map >& m) { std::cout << name << "\n"; for(std::map >::iterator i = m.begin(); i != m.end(); ++i) { std::cout << i->first << ": "; for(std::vector::iterator l = i->second.begin(); l != i->second.end(); ++l) { std::cout << *l << " "; } std::cout << "\n"; } } void cmOrderLinkDirectories::GetFullPathLibraries(std::vector& libs) { for(std::map::iterator i = this->FullPathLibraries.begin(); i != this->FullPathLibraries.end(); ++i) { libs.push_back(i->first); } }