/*========================================================================= Program: Insight Segmentation & Registration Toolkit Module: $RCSfile$ Language: C++ Date: $Date$ Version: $Revision$ Copyright (c) 2000 National Library of Medicine All rights reserved. See COPYRIGHT.txt for copyright details. =========================================================================*/ #include "cmMakeDepend.h" #include "cmStandardIncludes.h" #include "cmSystemTools.h" cmMakeDepend::cmMakeDepend() { m_Verbose = false; m_IncludeFileRegularExpression.compile(""); } cmMakeDepend::~cmMakeDepend() { for(DependArray::iterator i = m_DependInformation.begin(); i != m_DependInformation.end(); ++i) { delete *i; } m_DependInformation.clear(); } // Set the makefile that depends will be made from. // The pointer is kept so the cmClassFile array can // be updated with the depend information in the cmMakefile. void cmMakeDepend::SetMakefile(cmMakefile* makefile) { m_Makefile = makefile; // Now extract the include file regular expression from the makefile. m_IncludeFileRegularExpression.compile( m_Makefile->m_IncludeFileRegularExpression.c_str()); // Now extract any include paths from the makefile flags std::vector& includes = m_Makefile->GetIncludeDirectories(); std::vector::iterator j; for(j = includes.begin(); j != includes.end(); ++j) { this->AddSearchPath(j->c_str()); } // Now create cmDependInformation objects for files in the directory cmMakefile::ClassMap &Classes = m_Makefile->GetClasses(); for(cmMakefile::ClassMap::iterator l = Classes.begin(); l != Classes.end(); l++) { for(std::vector::iterator i = l->second.begin(); i != l->second.end(); ++i) { if(!i->m_HeaderFileOnly) { cmDependInformation* info = new cmDependInformation; info->m_FullPath = this->FullPath(i->m_FullPath.c_str()); this->AddFileToSearchPath(info->m_FullPath.c_str()); info->m_IncludeName = i->m_FullPath; info->m_ClassFileIndex = i; m_DependInformation.push_back(info); } } } } // Compute the depends. void cmMakeDepend::DoDepends() { // The size of the m_DependInformation will change as // Depend is called so do not use an iterater but rather // depend on the size of the array. unsigned int j = 0; while(j != m_DependInformation.size()) { cmDependInformation* info = m_DependInformation[j]; // compute the depend information for the info object // this may add more objects to the m_DependInformation // array this->Depend(info); ++j; } // Now update the depend information for each cmClassFile // in the cmMakefile m_Makefile for(DependArray::iterator i = m_DependInformation.begin(); i != m_DependInformation.end(); ++i) { cmDependInformation* info = *i; // Remove duplicate depends info->RemoveDuplicateIndices(); // find the class if(info->m_ClassFileIndex != 0) { cmClassFile& cfile = *(info->m_ClassFileIndex); for( std::vector::iterator indx = info->m_Indices.begin(); indx != info->m_Indices.end(); ++indx) { cfile.m_Depends.push_back(m_DependInformation[*indx]->m_FullPath); } } } } void cmMakeDepend::Depend(cmDependInformation* info) { const char* path = info->m_FullPath.c_str(); if(!path) { cmSystemTools::Error("no full path for object", 0); return; } // If the file exists, use it to find dependency information. if(cmSystemTools::FileExists(path)) { // The cmClassFile may have had hints for dependencies. Delete any that // exist since we can find the dependencies for real. if(info->m_ClassFileIndex != 0) { cmClassFile& cFile = *(info->m_ClassFileIndex); cFile.m_Depends.erase(cFile.m_Depends.begin(), cFile.m_Depends.end()); } // Use the real file to find its dependencies. this->DependWalk(info, path); info->m_DependDone = true; return; } // The file doesn't exist. See if the cmClassFile for it has any files // specified as dependency hints. if(info->m_ClassFileIndex != 0) { // Get the cmClassFile corresponding to this. cmClassFile& cFile = *(info->m_ClassFileIndex); // See if there are any hints for finding dependencies for the missing // file. if(!cFile.m_Depends.empty()) { // Initial dependencies have been given. Use them to begin the // recursion. for(std::vector::iterator file = cFile.m_Depends.begin(); file != cFile.m_Depends.end(); ++file) { this->AddDependency(info, file->c_str()); } // Erase the dependency hints from the cmClassFile. They will be // put in again as real dependencies later. cFile.m_Depends.erase(cFile.m_Depends.begin(), cFile.m_Depends.end()); // Found dependency information. We are done. return; } } // Couldn't find any dependency information. cmSystemTools::Error("error cannot find dependencies for ", path); } // This function actually reads the file specified and scans it for // #include directives void cmMakeDepend::DependWalk(cmDependInformation* info, const char* file) { std::ifstream fin(file); if(!fin) { cmSystemTools::Error("error can not open ", file); return; } char line[255]; while(!fin.eof() && !fin.fail()) { fin.getline(line, 255); if(!strncmp(line, "#include", 8)) { // if it is an include line then create a string class std::string currentline = line; size_t qstart = currentline.find('\"', 8); size_t qend; // if a quote is not found look for a < if(qstart == std::string::npos) { qstart = currentline.find('<', 8); // if a < is not found then move on if(qstart == std::string::npos) { cmSystemTools::Error("unknown include directive ", currentline.c_str() ); continue; } else { qend = currentline.find('>', qstart+1); } } else { qend = currentline.find('\"', qstart+1); } // extract the file being included std::string includeFile = currentline.substr(qstart+1, qend - qstart-1); // see if the include matches the regular expression if(!m_IncludeFileRegularExpression.find(includeFile)) { if(m_Verbose) { std::string message = "Skipping "; message += includeFile; message += " for file "; message += file; cmSystemTools::Error(message.c_str(), 0); } continue; } // Add this file and all its dependencies. this->AddDependency(info, includeFile.c_str()); } } } void cmMakeDepend::AddDependency(cmDependInformation* info, const char* file) { // find the index of the include file in the // m_DependInformation array, if it is not // there then FindInformation will create it int index = this->FindInformation(file); // add the index to the depends of the current // depend info object info->m_Indices.push_back(index); // Get the depend information object for the include file cmDependInformation* dependInfo = m_DependInformation[index]; // if the depends are not known for an include file, then compute them // recursively if(!dependInfo->m_DependDone) { // stop the recursion here dependInfo->m_DependDone = true; this->Depend(dependInfo); } // add the depends of the included file to the includer info->MergeInfo(dependInfo); } // Find the cmDependInformation array index of the // given include file. Create a new cmDependInformation // object if one is not found int cmMakeDepend::FindInformation(const char* fname) { unsigned int i = 0; while(i < m_DependInformation.size()) { if(m_DependInformation[i]->m_IncludeName == fname) { return i; } ++i; } cmDependInformation* newinfo = new cmDependInformation; newinfo->m_FullPath = this->FullPath(fname); // Add the directory where this file was found to the search path // may have been foo/bar.h, but bar may include files from the foo // directory without the foo prefix this->AddFileToSearchPath(newinfo->m_FullPath.c_str()); newinfo->m_IncludeName = fname; m_DependInformation.push_back(newinfo); return m_DependInformation.size()-1; } // remove duplicate indices from the depend information void cmDependInformation::RemoveDuplicateIndices() { // sort the array std::sort(m_Indices.begin(), m_Indices.end(), std::less()); // remove duplicates std::vector::iterator new_end = std::unique(m_Indices.begin(), m_Indices.end()); m_Indices.erase(new_end, m_Indices.end()); } // add the depend information from info to the m_Indices varible of this class. void cmDependInformation::MergeInfo(cmDependInformation* info) { if(this == info) { return; } std::vector::iterator i = info->m_Indices.begin(); for(; i!= info->m_Indices.end(); ++i) { m_Indices.push_back(*i); } } // find the full path to fname by searching the m_IncludeDirectories array std::string cmMakeDepend::FullPath(const char* fname) { if(cmSystemTools::FileExists(fname)) { return std::string(fname); } for(std::vector::iterator i = m_IncludeDirectories.begin(); i != m_IncludeDirectories.end(); ++i) { std::string path = *i; path = path + "/"; path = path + fname; if(cmSystemTools::FileExists(path.c_str())) { return path; } } return std::string(fname); } // Add a directory to the search path void cmMakeDepend::AddSearchPath(const char* path) { m_IncludeDirectories.push_back(path); } // Add a directory to the search path void cmMakeDepend::AddFileToSearchPath(const char* file) { std::string filepath = file; std::string::size_type pos = filepath.rfind('/'); if(pos != std::string::npos) { std::string path = filepath.substr(0, pos); if(std::find(m_IncludeDirectories.begin(), m_IncludeDirectories.end(), path) == m_IncludeDirectories.end()) { m_IncludeDirectories.push_back(path); return; } } }