#include "Config.hh" #include "Snoop.hh" #include "Server.hh" #include #ifdef _WIN32 #include #endif #ifdef _WIN32 std::string getRegKey(const std::string& location, const std::string& name, bool system) { HKEY key; TCHAR value[1024]; DWORD bufLen = 1024*sizeof(TCHAR); long ret; ret = RegOpenKeyExA(system?HKEY_LOCAL_MACHINE:HKEY_CURRENT_USER, location.c_str(), 0, KEY_QUERY_VALUE, &key); if( ret != ERROR_SUCCESS ){ return std::string(); } ret = RegQueryValueExA(key, name.c_str(), 0, 0, (LPBYTE) value, &bufLen); RegCloseKey(key); if ( (ret != ERROR_SUCCESS) || (bufLen > 1024*sizeof(TCHAR)) ){ return std::string(); } std::string stringValue = std::string(value, (size_t)bufLen - 1); size_t i = stringValue.length(); while( i > 0 && stringValue[i-1] == '\0' ){ --i; } return stringValue.substr(0,i); } #endif // Run a simple Cadabra server on a local port. int main(int argc, char **argv) { #ifndef ENABLE_JUPYTER snoop::log.init("CadabraServer", CADABRA_VERSION_FULL, "log.cadabra.science"); snoop::log.set_sync_immediately(true); #endif #ifdef _WIN32 snoop::log("platform") << "windows" << snoop::flush; // // The Anaconda people _really_ do not understand packaging... // // We are going to find out the installation path for Anaconda/Miniconda // // by querying a registry key. // std::string pythonhome=Glib::getenv("PYTHONHOME"); // std::string pythonpath=Glib::getenv("PYTHONPATH"); // // std::string s = getRegKey(std::string("SOFTWARE\\Python\\PythonCore\\")+Python_VERSION_MAJOR+"."+Python_VERSION_MINOR+"\\InstallPath", "", false); // snoop::log("key1") << s << snoop::flush; // if(s=="") { // s = getRegKey(std::string("SOFTWARE\\Python\\PythonCore\\")+Python_VERSION_MAJOR+"."+Python_VERSION_MINOR, "", true); // snoop::log("key2") << s << snoop::flush; // } // // // Glib::setenv("PYTHONHOME", (pythonhome.size()>0)?(pythonhome+":"):"" + Glib::get_home_dir()+"/Anaconda3"); // // Glib::setenv("PYTHONPATH", (pythonpath.size()>0)?(pythonpath+":"):"" + Glib::get_home_dir()+"/Anaconda3"); // Glib::setenv("PYTHONHOME", (pythonhome.size()>0)?(pythonhome+":"):"" + s); // Glib::setenv("PYTHONPATH", (pythonpath.size()>0)?(pythonpath+":"):"" + s); std::cerr << "Server::init: using PYTHONPATH = " << Glib::getenv("PYTHONPATH") << " and PYTHONHOME = " << Glib::getenv("PYTHONHOME") << "." << std::endl; #else snoop::log("platform") << "linux/macos" << snoop::flush; #endif int port=0; bool eod=true; if(argc>1) port=atoi(argv[1]); if(argc>2) eod=(atoi(argv[2])==1); Server server; server.run(port, eod); // snoop::log(snoop::info) << "Terminating" << snoop::flush; // #ifndef ENABLE_JUPYTER // snoop::log.sync_with_server(); // #endif return 0; } #if defined(_WIN32) && defined(NDEBUG) int WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) { return main(__argc, __argv); } #endif