/* Main program when embedded in a UWP application on Windows */ #include "Python.h" #include #define WIN32_LEAN_AND_MEAN #include #include #include #include #include #include #ifdef PYTHONW #ifdef _DEBUG const wchar_t *PROGNAME = L"pythonw_d.exe"; #else const wchar_t *PROGNAME = L"pythonw.exe"; #endif #else #ifdef _DEBUG const wchar_t *PROGNAME = L"python_d.exe"; #else const wchar_t *PROGNAME = L"python.exe"; #endif #endif static std::wstring get_user_base() { try { const auto appData = winrt::Windows::Storage::ApplicationData::Current(); if (appData) { const auto localCache = appData.LocalCacheFolder(); if (localCache) { auto path = localCache.Path(); if (!path.empty()) { return std::wstring(path) + L"\\local-packages"; } } } } catch (...) { } return std::wstring(); } static std::wstring get_package_family() { try { const auto package = winrt::Windows::ApplicationModel::Package::Current(); if (package) { const auto id = package.Id(); if (id) { return std::wstring(id.FamilyName()); } } } catch (...) { } return std::wstring(); } static std::wstring get_package_home() { try { const auto package = winrt::Windows::ApplicationModel::Package::Current(); if (package) { const auto path = package.InstalledLocation(); if (path) { return std::wstring(path.Path()); } } } catch (...) { } return std::wstring(); } static int set_process_name() { const auto home = get_package_home(); const auto family = get_package_family(); std::wstring executable; /* If inside a package, use user's symlink name for executable */ if (!family.empty()) { PWSTR localAppData; if (SUCCEEDED(SHGetKnownFolderPath(FOLDERID_LocalAppData, 0, NULL, &localAppData))) { executable = std::wstring(localAppData) + L"\\Microsoft\\WindowsApps\\" + family + L"\\" + PROGNAME; CoTaskMemFree(localAppData); } } /* Only use module filename if we don't have a home */ if (home.empty() && executable.empty()) { executable.resize(MAX_PATH); while (true) { DWORD len = GetModuleFileNameW( NULL, executable.data(), (DWORD)executable.size()); if (len == 0) { executable.clear(); break; } else if (len == executable.size() && GetLastError() == ERROR_INSUFFICIENT_BUFFER) { executable.resize(len * 2); } else { executable.resize(len); break; } } } if (!home.empty()) { Py_SetPythonHome(home.c_str()); } const wchar_t *launcherPath = _wgetenv(L"__PYVENV_LAUNCHER__"); if (launcherPath) { if (!executable.empty()) { _wputenv_s(L"__PYVENV_BASE_EXECUTABLE__", executable.c_str()); } _Py_SetProgramFullPath(launcherPath); /* bpo-35873: Clear the environment variable to avoid it being * inherited by child processes. */ _wputenv_s(L"__PYVENV_LAUNCHER__", L""); } else if (!executable.empty()) { _Py_SetProgramFullPath(executable.c_str()); } return 1; } int wmain(int argc, wchar_t **argv) { if (!set_process_name()) { return 121; } const wchar_t *p = _wgetenv(L"PYTHONUSERBASE"); if (!p || !*p) { _wputenv_s(L"PYTHONUSERBASE", get_user_base().c_str()); } p = wcsrchr(argv[0], L'\\'); if (!p) { p = argv[0]; } if (p) { if (*p == L'\\') { p++; } const wchar_t *moduleName = NULL; if (wcsnicmp(p, L"pip", 3) == 0) { moduleName = L"pip"; /* No longer required when pip 19.1 is added */ _wputenv_s(L"PIP_USER", L"true"); } else if (wcsnicmp(p, L"idle", 4) == 0) { moduleName = L"idlelib"; } if (moduleName) { /* Not even pretending we're going to free this memory. * The OS will clean it all up when our process exits */ wchar_t **new_argv = (wchar_t **)PyMem_RawMalloc((argc + 2) * sizeof(wchar_t *)); new_argv[0] = argv[0]; new_argv[1] = _PyMem_RawWcsdup(L"-m"); new_argv[2] = _PyMem_RawWcsdup(moduleName); for (int i = 1; i < argc; ++i) { new_argv[i + 2] = argv[i]; } argv = new_argv; argc += 2; } } return Py_Main(argc, (wchar_t**)argv); } #ifdef PYTHONW int WINAPI wWinMain( HINSTANCE hInstance, /* handle to current instance */ HINSTANCE hPrevInstance, /* handle to previous instance */ LPWSTR lpCmdLine, /* pointer to command line */ int nCmdShow /* show state of window */ ) { return wmain(__argc, __wargv); } #endif