/*========================================================================= Program: CMake - Cross-Platform Makefile Generator Module: $RCSfile$ Language: C++ Date: $Date$ Version: $Revision$ Copyright (c) 2002 Kitware, Inc., Insight Consortium. All rights reserved. See Copyright.txt or http://www.cmake.org/HTML/Copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "cmCacheManager.h" #include "cmSystemTools.h" #include "cmCacheManager.h" #include "cmMakefile.h" #include "cmRegularExpression.h" #include "stdio.h" #if defined(_WIN32) || defined(__CYGWIN__) # include #endif // _WIN32 const char* cmCacheManagerTypes[] = { "BOOL", "PATH", "FILEPATH", "STRING", "INTERNAL", "STATIC", "UNINITIALIZED", 0 }; cmCacheManager::CacheEntryType cmCacheManager::StringToType(const char* s) { int i = 0; while(cmCacheManagerTypes[i]) { if(strcmp(s, cmCacheManagerTypes[i]) == 0) { return static_cast(i); } ++i; } return STRING; } bool cmCacheManager::LoadCache(cmMakefile* mf) { return this->LoadCache(mf->GetHomeOutputDirectory()); } bool cmCacheManager::LoadCache(const char* path) { return this->LoadCache(path,true); } bool cmCacheManager::LoadCache(const char* path, bool internal) { std::set emptySet; return this->LoadCache(path, internal, emptySet, emptySet); } bool cmCacheManager::ParseEntry(const char* entry, std::string& var, std::string& value, CacheEntryType& type) { // input line is: key:type=value cmRegularExpression reg("^([^:]*):([^=]*)=(.*[^\t ]|[\t ]*)[\t ]*$"); // input line is: "key":type=value cmRegularExpression regQuoted("^\"([^\"]*)\":([^=]*)=(.*[^\t ]|[\t ]*)[\t ]*$"); bool flag = false; if(regQuoted.find(entry)) { var = regQuoted.match(1); type = cmCacheManager::StringToType(regQuoted.match(2).c_str()); value = regQuoted.match(3); flag = true; } else if (reg.find(entry)) { var = reg.match(1); type = cmCacheManager::StringToType(reg.match(2).c_str()); value = reg.match(3); flag = true; } // if value is enclosed in single quotes ('foo') then remove them // it is used to enclose trailing space or tab if (flag && value.size() >= 2 && value[0] == '\'' && value[value.size() - 1] == '\'') { value = value.substr(1, value.size() - 2); } return flag; } bool cmCacheManager::LoadCache(const char* path, bool internal, std::set& excludes, std::set& includes) { std::string cacheFile = path; cacheFile += "/CMakeCache.txt"; // clear the old cache, if we are reading in internal values if ( internal ) { m_Cache.clear(); } std::ifstream fin(cacheFile.c_str()); if(!fin) { return false; } const int bsize = 4096; char buffer[bsize]; char *realbuffer; std::string entryKey; while(fin) { // Format is key:type=value CacheEntry e; fin.getline(buffer, bsize); realbuffer = buffer; while(*realbuffer != '0' && (*realbuffer == ' ' || *realbuffer == '\t' || *realbuffer == '\n')) { realbuffer++; } // skip blank lines and comment lines if(realbuffer[0] == '#' || realbuffer[0] == 0) { continue; } while(realbuffer[0] == '/' && realbuffer[1] == '/') { e.m_Properties["HELPSTRING"] += &realbuffer[2]; fin.getline(realbuffer, bsize); if(!fin) { continue; } } if(cmCacheManager::ParseEntry(realbuffer, entryKey, e.m_Value, e.m_Type)) { if ( excludes.find(entryKey) == excludes.end() ) { // Load internal values if internal is set. // If the entry is not internal to the cache being loaded // or if it is in the list of internal entries to be // imported, load it. if ( internal || (e.m_Type != INTERNAL) || (includes.find(entryKey) != includes.end()) ) { // If we are loading the cache from another project, // make all loaded entries internal so that it is // not visible in the gui if (!internal) { e.m_Type = INTERNAL; e.m_Properties["HELPSTRING"] = "DO NOT EDIT, "; e.m_Properties["HELPSTRING"] += entryKey; e.m_Properties["HELPSTRING"] += " loaded from external file. " "To change this value edit this file: "; e.m_Properties["HELPSTRING"] += path; e.m_Properties["HELPSTRING"] += "/CMakeCache.txt" ; } if ( e.m_Type == cmCacheManager::INTERNAL && (entryKey.size() > strlen("-ADVANCED")) && strcmp(entryKey.c_str() + (entryKey.size() - strlen("-ADVANCED")), "-ADVANCED") == 0 ) { std::string value = e.m_Value; std::string akey = entryKey.substr(0, (entryKey.size() - strlen("-ADVANCED"))); cmCacheManager::CacheIterator it = this->GetCacheIterator(akey.c_str()); if ( it.IsAtEnd() ) { e.m_Type = cmCacheManager::UNINITIALIZED; m_Cache[akey] = e; } if (!it.Find(akey.c_str())) { cmSystemTools::Error("Internal CMake error when reading cache"); } it.SetProperty("ADVANCED", value.c_str()); } else { m_Cache[entryKey] = e; } } } } else { cmSystemTools::Error("Parse error in cache file ", cacheFile.c_str(), ". Offending entry: ", realbuffer); } } // if CMAKE version not found in the list file // add them as version 0.0 if(!this->GetCacheValue("CMAKE_CACHE_MINOR_VERSION")) { this->AddCacheEntry("CMAKE_CACHE_MINOR_VERSION", "0", "Minor version of cmake used to create the " "current loaded cache", cmCacheManager::INTERNAL); this->AddCacheEntry("CMAKE_CACHE_MAJOR_VERSION", "0", "Major version of cmake used to create the " "current loaded cache", cmCacheManager::INTERNAL); } // check to make sure the cache directory has not // been moved if ( internal && this->GetCacheValue("CMAKE_CACHEFILE_DIR") ) { std::string currentcwd = path; std::string oldcwd = this->GetCacheValue("CMAKE_CACHEFILE_DIR"); cmSystemTools::ConvertToUnixSlashes(currentcwd); currentcwd += "/CMakeCache.txt"; oldcwd += "/CMakeCache.txt"; if(!cmSystemTools::SameFile(oldcwd.c_str(), currentcwd.c_str())) { std::string message = std::string("The current CMakeCache.txt directory ") + currentcwd + std::string(" is different than the directory ") + std::string(this->GetCacheValue("CMAKE_CACHEFILE_DIR")) + std::string(" where CMackeCache.txt was created. This may result " "in binaries being created in the wrong place. If you " "are not sure, reedit the CMakeCache.txt"); cmSystemTools::Error(message.c_str()); } } return true; } bool cmCacheManager::SaveCache(cmMakefile* mf) { return this->SaveCache(mf->GetHomeOutputDirectory()); } bool cmCacheManager::SaveCache(const char* path) { std::string cacheFile = path; cacheFile += "/CMakeCache.txt"; std::string tempFile = cacheFile; tempFile += ".tmp"; std::ofstream fout(tempFile.c_str()); if(!fout) { cmSystemTools::Error("Unable to open cache file for save. ", cacheFile.c_str()); return false; } // before writting the cache, update the version numbers // to the char temp[1024]; sprintf(temp, "%d", cmMakefile::GetMinorVersion()); this->AddCacheEntry("CMAKE_CACHE_MINOR_VERSION", temp, "Minor version of cmake used to create the " "current loaded cache", cmCacheManager::INTERNAL); sprintf(temp, "%d", cmMakefile::GetMajorVersion()); this->AddCacheEntry("CMAKE_CACHE_MAJOR_VERSION", temp, "Major version of cmake used to create the " "current loaded cache", cmCacheManager::INTERNAL); this->AddCacheEntry("CMAKE_CACHE_RELEASE_VERSION", cmMakefile::GetReleaseVersion(), "Major version of cmake used to create the " "current loaded cache", cmCacheManager::INTERNAL); // Let us store the current working directory so that if somebody // Copies it, he will not be surprised std::string currentcwd = path; if ( currentcwd[0] >= 'A' && currentcwd[0] <= 'Z' && currentcwd[1] == ':' ) { currentcwd[0] = currentcwd[0] - 'A' + 'a'; } cmSystemTools::ConvertToUnixSlashes(currentcwd); this->AddCacheEntry("CMAKE_CACHEFILE_DIR", currentcwd.c_str(), "This is the directory where this CMakeCahe.txt" " was created", cmCacheManager::INTERNAL); fout << "# This is the CMakeCache file.\n" << "# For build in directory: " << currentcwd << "\n" << "# You can edit this file to change values found and used by cmake.\n" << "# If you do not want to change any of the values, simply exit the editor.\n" << "# If you do want to change a value, simply edit, save, and exit the editor.\n" << "# The syntax for the file is as follows:\n" << "# KEY:TYPE=VALUE\n" << "# KEY is the name of a variable in the cache.\n" << "# TYPE is a hint to GUI's for the type of VALUE, DO NOT EDIT TYPE!.\n" << "# VALUE is the current value for the KEY.\n\n"; fout << "########################\n"; fout << "# EXTERNAL cache entries\n"; fout << "########################\n"; fout << "\n"; for( std::map::const_iterator i = m_Cache.begin(); i != m_Cache.end(); ++i) { const CacheEntry& ce = (*i).second; CacheEntryType t = ce.m_Type; if(t == cmCacheManager::UNINITIALIZED) { /* // This should be added in, but is not for now. cmSystemTools::Error("Cache entry \"", (*i).first.c_str(), "\" is uninitialized"); */ } else if(t != INTERNAL) { // Format is key:type=value std::map::const_iterator it = ce.m_Properties.find("HELPSTRING"); if ( it == ce.m_Properties.end() ) { cmCacheManager::OutputHelpString(fout, "Missing description"); } else { cmCacheManager::OutputHelpString(fout, it->second); } std::string key; // support : in key name by double quoting if((*i).first.find(':') != std::string::npos || (*i).first.find("//") == 0) { key = "\""; key += i->first; key += "\""; } else { key = i->first; } fout << key.c_str() << ":" << cmCacheManagerTypes[t] << "="; // if value has trailing space or tab, enclose it in single quotes if (ce.m_Value.size() && (ce.m_Value[ce.m_Value.size() - 1] == ' ' || ce.m_Value[ce.m_Value.size() - 1] == '\t')) { fout << '\'' << ce.m_Value << '\''; } else { fout << ce.m_Value; } fout << "\n\n"; } } fout << "\n"; fout << "########################\n"; fout << "# INTERNAL cache entries\n"; fout << "########################\n"; fout << "\n"; for( cmCacheManager::CacheIterator i = this->NewIterator(); !i.IsAtEnd(); i.Next()) { CacheEntryType t = i.GetType(); bool advanced = i.PropertyExists("ADVANCED"); if ( advanced ) { // Format is key:type=value std::string key; std::string rkey = i.GetName(); std::string helpstring; // If this is advanced variable, we have to do some magic for // backward compatibility helpstring = "Advanced flag for variable: "; helpstring += i.GetName(); rkey += "-ADVANCED"; cmCacheManager::OutputHelpString(fout, helpstring.c_str()); // support : in key name by double quoting if(rkey.find(':') != std::string::npos || rkey.find("//") == 0) { key = "\""; key += rkey; key += "\""; } else { key = rkey; } fout << key.c_str() << ":INTERNAL=" << (i.GetPropertyAsBool("ADVANCED") ? "1" : "0") << "\n"; } if(t == cmCacheManager::INTERNAL) { // Format is key:type=value std::string key; std::string rkey = i.GetName(); std::string helpstring; const char* hs = i.GetProperty("HELPSTRING"); if ( hs ) { helpstring = i.GetProperty("HELPSTRING"); } else { helpstring = ""; } cmCacheManager::OutputHelpString(fout, helpstring.c_str()); // support : in key name by double quoting if(rkey.find(':') != std::string::npos || rkey.find("//") == 0) { key = "\""; key += rkey; key += "\""; } else { key = rkey; } fout << key.c_str() << ":" << cmCacheManagerTypes[t] << "="; // if value has trailing space or tab, enclose it in single quotes std::string value = i.GetValue(); if (value.size() && (value[value.size() - 1] == ' ' || value[value.size() - 1] == '\t')) { fout << '\'' << value << '\''; } else { fout << value; } fout << "\n"; } } fout << "\n"; fout.close(); cmSystemTools::CopyFileIfDifferent(tempFile.c_str(), cacheFile.c_str()); cmSystemTools::RemoveFile(tempFile.c_str()); std::string checkCacheFile = path; checkCacheFile += "/cmake.check_cache"; std::ofstream checkCache(checkCacheFile.c_str()); if(!checkCache) { cmSystemTools::Error("Unable to open check cache file for write. ", checkCacheFile.c_str()); return false; } checkCache << "# This file is generated by cmake for dependency checking of the CMakeCache.txt file\n"; return true; } void cmCacheManager::OutputHelpString(std::ofstream& fout, const std::string& helpString) { std::string::size_type end = helpString.size(); if(end == 0) { return; } std::string oneLine; std::string::size_type pos = 0; std::string::size_type nextBreak = 60; bool done = false; while(!done) { if(nextBreak >= end) { nextBreak = end; done = true; } else { while(nextBreak < end && helpString[nextBreak] != ' ') { nextBreak++; } } oneLine = helpString.substr(pos, nextBreak - pos); fout << "//" << oneLine.c_str() << "\n"; pos = nextBreak; nextBreak += 60; } } void cmCacheManager::RemoveCacheEntry(const char* key) { CacheEntryMap::iterator i = m_Cache.find(key); if(i != m_Cache.end()) { m_Cache.erase(i); } else { std::cerr << "Failed to remove entry:" << key << std::endl; } } cmCacheManager::CacheEntry *cmCacheManager::GetCacheEntry(const char* key) { CacheEntryMap::iterator i = m_Cache.find(key); if(i != m_Cache.end()) { return &i->second; } return 0; } cmCacheManager::CacheIterator cmCacheManager::GetCacheIterator(const char *key) { return CacheIterator(*this, key); } const char* cmCacheManager::GetCacheValue(const char* key) const { CacheEntryMap::const_iterator i = m_Cache.find(key); if(i != m_Cache.end() && i->second.m_Type != cmCacheManager::UNINITIALIZED) { return i->second.m_Value.c_str(); } return 0; } void cmCacheManager::PrintCache(std::ostream& out) const { out << "=================================================" << std::endl; out << "CMakeCache Contents:" << std::endl; for(std::map::const_iterator i = m_Cache.begin(); i != m_Cache.end(); ++i) { if((*i).second.m_Type != INTERNAL) { out << (*i).first.c_str() << " = " << (*i).second.m_Value.c_str() << std::endl; } } out << "\n\n"; out << "To change values in the CMakeCache, \nedit CMakeCache.txt in your output directory.\n"; out << "=================================================" << std::endl; } void cmCacheManager::AddCacheEntry(const char* key, const char* value, const char* helpString, CacheEntryType type) { CacheEntry& e = m_Cache[key]; if ( value ) { e.m_Value = value; } else { e.m_Value = "(none)"; } e.m_Type = type; // make sure we only use unix style paths if(type == FILEPATH || type == PATH) { cmSystemTools::ConvertToUnixSlashes(e.m_Value); } if ( helpString ) { e.m_Properties["HELPSTRING"] = helpString; } else { e.m_Properties["HELPSTRING"] = "(This variable does not exists and should not be used)"; } m_Cache[key] = e; } void cmCacheManager::AddCacheEntry(const char* key, bool v, const char* helpString) { if(v) { this->AddCacheEntry(key, "ON", helpString, cmCacheManager::BOOL); } else { this->AddCacheEntry(key, "OFF", helpString, cmCacheManager::BOOL); } } bool cmCacheManager::CacheIterator::IsAtEnd() const { return m_Position == m_Container.m_Cache.end(); } void cmCacheManager::CacheIterator::Begin() { m_Position = m_Container.m_Cache.begin(); } bool cmCacheManager::CacheIterator::Find(const char* key) { m_Position = m_Container.m_Cache.find(key); return !this->IsAtEnd(); } void cmCacheManager::CacheIterator::Next() { if (!this->IsAtEnd()) { ++m_Position; } } void cmCacheManager::CacheIterator::SetValue(const char* value) { if (this->IsAtEnd()) { return; } CacheEntry* entry = &this->GetEntry(); entry->m_Value = value; } const char* cmCacheManager::CacheIterator::GetProperty(const char* property) const { // make sure it is not at the end if (this->IsAtEnd()) { return 0; } if ( !strcmp(property, "TYPE") || !strcmp(property, "VALUE") ) { cmSystemTools::Error("Property \"", property, "\" cannot be accessed through the GetProperty()"); return 0; } const CacheEntry* ent = &this->GetEntry(); std::map::const_iterator it = ent->m_Properties.find(property); if ( it == ent->m_Properties.end() ) { return 0; } return it->second.c_str(); } void cmCacheManager::CacheIterator::SetProperty(const char* p, const char* v) { // make sure it is not at the end if (this->IsAtEnd()) { return; } if ( !strcmp(p, "TYPE") || !strcmp(p, "VALUE") ) { cmSystemTools::Error("Property \"", p, "\" cannot be accessed through the SetProperty()"); return; } CacheEntry* ent = &this->GetEntry(); ent->m_Properties[p] = v; } bool cmCacheManager::CacheIterator::GetPropertyAsBool(const char* property) const { // make sure it is not at the end if (this->IsAtEnd()) { return false; } if ( !strcmp(property, "TYPE") || !strcmp(property, "VALUE") ) { cmSystemTools::Error("Property \"", property, "\" cannot be accessed through the GetPropertyAsBool()"); return false; } const CacheEntry* ent = &this->GetEntry(); std::map::const_iterator it = ent->m_Properties.find(property); if ( it == ent->m_Properties.end() ) { return false; } return cmSystemTools::IsOn(it->second.c_str()); } void cmCacheManager::CacheIterator::SetProperty(const char* p, bool v) { // make sure it is not at the end if (this->IsAtEnd()) { return; } if ( !strcmp(p, "TYPE") || !strcmp(p, "VALUE") ) { cmSystemTools::Error("Property \"", p, "\" cannot be accessed through the SetProperty()"); return; } CacheEntry* ent = &this->GetEntry(); ent->m_Properties[p] = v ? "ON" : "OFF"; } bool cmCacheManager::CacheIterator::PropertyExists(const char* property) const { // make sure it is not at the end if (this->IsAtEnd()) { return false; } if ( !strcmp(property, "TYPE") || !strcmp(property, "VALUE") ) { cmSystemTools::Error("Property \"", property, "\" cannot be accessed through the PropertyExists()"); return false; } const CacheEntry* ent = &this->GetEntry(); std::map::const_iterator it = ent->m_Properties.find(property); if ( it == ent->m_Properties.end() ) { return false; } return true; }