This is a simplified interface to PyImport_ImportModuleEx() below, leaving the globals and locals arguments set to NULL and level set to 0. When the name argument contains a dot (when it specifies a submodule of a package), the fromlist argument is set to the list ['*'] so that the return value is the named module rather than the top-level package containing it as would otherwise be the case. (Unfortunately, this has an additional side effect when name in fact specifies a subpackage instead of a submodule: the submodules specified in the package’s __all__ variable are loaded.) Return a new reference to the imported module, or NULL with an exception set on failure. Before Python 2.4, the module may still be created in the failure case — examine sys.modules to find out. Starting with Python 2.4, a failing import of a module no longer leaves the module in sys.modules.
Changed in version 2.4: Failing imports remove incomplete module objects.
Changed in version 2.6: Always uses absolute imports.
This version of PyImport_ImportModule() does not block. It’s intended to be used in C functions that import other modules to execute a function. The import may block if another thread holds the import lock. The function PyImport_ImportModuleNoBlock() never blocks. It first tries to fetch the module from sys.modules and falls back to PyImport_ImportModule() unless the lock is held, in which case the function will raise an ImportError.
New in version 2.6.
Import a module. This is best described by referring to the built-in Python function __import__(), as the standard __import__() function calls this function directly.
The return value is a new reference to the imported module or top-level package, or NULL with an exception set on failure (before Python 2.4, the module may still be created in this case). Like for __import__(), the return value when a submodule of a package was requested is normally the top-level package, unless a non-empty fromlist was given.
Changed in version 2.4: Failing imports remove incomplete module objects.
Changed in version 2.6: The function is an alias for PyImport_ImportModuleLevel() with -1 as level, meaning relative import.
Import a module. This is best described by referring to the built-in Python function __import__(), as the standard __import__() function calls this function directly.
The return value is a new reference to the imported module or top-level package, or NULL with an exception set on failure. Like for __import__(), the return value when a submodule of a package was requested is normally the top-level package, unless a non-empty fromlist was given.
New in version 2.5.
This is a higher-level interface that calls the current “import hook function”. It invokes the __import__() function from the __builtins__ of the current globals. This means that the import is done using whatever import hooks are installed in the current environment, e.g. by rexec or ihooks.
Changed in version 2.6: Always uses absolute imports.
Reload a module. This is best described by referring to the built-in Python function reload(), as the standard reload() function calls this function directly. Return a new reference to the reloaded module, or NULL with an exception set on failure (the module still exists in this case).
Return the module object corresponding to a module name. The name argument may be of the form package.module. First check the modules dictionary if there’s one there, and if not, create a new one and insert it in the modules dictionary. Return NULL with an exception set on failure.
Note
This function does not load or import the module; if the module wasn’t already loaded, you will get an empty module object. Use PyImport_ImportModule() or one of its variants to import a module. Package structures implied by a dotted name for name are not created if not already present.
Given a module name (possibly of the form package.module) and a code object read from a Python bytecode file or obtained from the built-in function compile(), load the module. Return a new reference to the module object, or NULL with an exception set if an error occurred. Before Python 2.4, the module could still be created in error cases. Starting with Python 2.4, name is removed from sys.modules in error cases, and even if name was already in sys.modules on entry to PyImport_ExecCodeModule(). Leaving incompletely initialized modules in sys.modules is dangerous, as imports of such modules have no way to know that the module object is an unknown (and probably damaged with respect to the module author’s intents) state.
This function will reload the module if it was already imported. See PyImport_ReloadModule() for the intended way to reload a module.
If name points to a dotted name of the form package.module, any package structures not already created will still not be created.
Changed in version 2.4: name is removed from sys.modules in error cases.
Return the dictionary used for the module administration (a.k.a. sys.modules). Note that this is a per-interpreter variable.
Return an importer object for a sys.path/pkg.__path__ item path, possibly by fetching it from the sys.path_importer_cache dict. If it wasn’t yet cached, traverse sys.path_hooks until a hook is found that can handle the path item. Return None if no hook could; this tells our caller it should fall back to the built-in import mechanism. Cache the result in sys.path_importer_cache. Return a new reference to the importer object.
New in version 2.6.
This is the structure type definition for frozen module descriptors, as generated by the freeze utility (see Tools/freeze/ in the Python source distribution). Its definition, found in Include/import.h, is:
struct _frozen {
char *name;
unsigned char *code;
int size;
};
Structure describing a single entry in the list of built-in modules. Each of these structures gives the name and initialization function for a module built into the interpreter. Programs which embed Python may use an array of these structures in conjunction with PyImport_ExtendInittab() to provide additional built-in modules. The structure is defined in Include/import.h as:
struct _inittab {
char *name;
void (*initfunc)(void);
};