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| PEP: 302 | |
| Title: New Import Hooks | |
| Version: $Revision$ | |
| Last-Modified: $Date$ | |
| Author: Just van Rossum <just@letterror.com>, | |
| Paul Moore <p.f.moore@gmail.com> | |
| Status: Final | |
| Type: Standards Track | |
| Content-Type: text/x-rst | |
| Created: 19-Dec-2002 | |
| Python-Version: 2.3 | |
| Post-History: 19-Dec-2002 | |
| .. warning:: | |
| The language reference for import [10]_ and importlib documentation | |
| [11]_ now supersede this PEP. This document is no longer updated | |
| and provided for historical purposes only. | |
| Abstract | |
| ======== | |
| This PEP proposes to add a new set of import hooks that offer better | |
| customization of the Python import mechanism. Contrary to the current | |
| ``__import__`` hook, a new-style hook can be injected into the existing | |
| scheme, allowing for a finer grained control of how modules are found and how | |
| they are loaded. | |
| Motivation | |
| ========== | |
| The only way to customize the import mechanism is currently to override the | |
| built-in ``__import__`` function. However, overriding ``__import__`` has many | |
| problems. To begin with: | |
| * An ``__import__`` replacement needs to *fully* reimplement the entire | |
| import mechanism, or call the original ``__import__`` before or after the | |
| custom code. | |
| * It has very complex semantics and responsibilities. | |
| * ``__import__`` gets called even for modules that are already in | |
| ``sys.modules``, which is almost never what you want, unless you're writing | |
| some sort of monitoring tool. | |
| The situation gets worse when you need to extend the import mechanism from C: | |
| it's currently impossible, apart from hacking Python's ``import.c`` or | |
| reimplementing much of ``import.c`` from scratch. | |
| There is a fairly long history of tools written in Python that allow extending | |
| the import mechanism in various way, based on the ``__import__`` hook. The | |
| Standard Library includes two such tools: ``ihooks.py`` (by GvR) and | |
| ``imputil.py`` [1]_ (Greg Stein), but perhaps the most famous is ``iu.py`` by | |
| Gordon McMillan, available as part of his Installer package. Their usefulness | |
| is somewhat limited because they are written in Python; bootstrapping issues | |
| need to worked around as you can't load the module containing the hook with | |
| the hook itself. So if you want the entire Standard Library to be loadable | |
| from an import hook, the hook must be written in C. | |
| Use cases | |
| ========= | |
| This section lists several existing applications that depend on import hooks. | |
| Among these, a lot of duplicate work was done that could have been saved if | |
| there had been a more flexible import hook at the time. This PEP should make | |
| life a lot easier for similar projects in the future. | |
| Extending the import mechanism is needed when you want to load modules that | |
| are stored in a non-standard way. Examples include modules that are bundled | |
| together in an archive; byte code that is not stored in a ``pyc`` formatted | |
| file; modules that are loaded from a database over a network. | |
| The work on this PEP was partly triggered by the implementation of :pep:`273`, | |
| which adds imports from Zip archives as a built-in feature to Python. While | |
| the PEP itself was widely accepted as a must-have feature, the implementation | |
| left a few things to desire. For one thing it went through great lengths to | |
| integrate itself with ``import.c``, adding lots of code that was either | |
| specific for Zip file imports or *not* specific to Zip imports, yet was not | |
| generally useful (or even desirable) either. Yet the :pep:`273` implementation | |
| can hardly be blamed for this: it is simply extremely hard to do, given the | |
| current state of ``import.c``. | |
| Packaging applications for end users is a typical use case for import hooks, | |
| if not *the* typical use case. Distributing lots of source or ``pyc`` files | |
| around is not always appropriate (let alone a separate Python installation), | |
| so there is a frequent desire to package all needed modules in a single file. | |
| So frequent in fact that multiple solutions have been implemented over the | |
| years. | |
| The oldest one is included with the Python source code: Freeze [2]_. It puts | |
| marshalled byte code into static objects in C source code. Freeze's "import | |
| hook" is hard wired into ``import.c``, and has a couple of issues. Later | |
| solutions include Fredrik Lundh's Squeeze, Gordon McMillan's Installer, and | |
| Thomas Heller's py2exe [3]_. MacPython ships with a tool called | |
| ``BuildApplication``. | |
| Squeeze, Installer and py2exe use an ``__import__`` based scheme (py2exe | |
| currently uses Installer's ``iu.py``, Squeeze used ``ihooks.py``), MacPython | |
| has two Mac-specific import hooks hard wired into ``import.c``, that are | |
| similar to the Freeze hook. The hooks proposed in this PEP enables us (at | |
| least in theory; it's not a short-term goal) to get rid of the hard coded | |
| hooks in ``import.c``, and would allow the ``__import__``-based tools to get | |
| rid of most of their ``import.c`` emulation code. | |
| Before work on the design and implementation of this PEP was started, a new | |
| ``BuildApplication``-like tool for Mac OS X prompted one of the authors of | |
| this PEP (JvR) to expose the table of frozen modules to Python, in the ``imp`` | |
| module. The main reason was to be able to use the freeze import hook | |
| (avoiding fancy ``__import__`` support), yet to also be able to supply a set | |
| of modules at runtime. This resulted in issue #642578 [4]_, which was | |
| mysteriously accepted (mostly because nobody seemed to care either way ;-). | |
| Yet it is completely superfluous when this PEP gets accepted, as it offers a | |
| much nicer and general way to do the same thing. | |
| Rationale | |
| ========= | |
| While experimenting with alternative implementation ideas to get built-in Zip | |
| import, it was discovered that achieving this is possible with only a fairly | |
| small amount of changes to ``import.c``. This allowed to factor out the | |
| Zip-specific stuff into a new source file, while at the same time creating a | |
| *general* new import hook scheme: the one you're reading about now. | |
| An earlier design allowed non-string objects on ``sys.path``. Such an object | |
| would have the necessary methods to handle an import. This has two | |
| disadvantages: 1) it breaks code that assumes all items on ``sys.path`` are | |
| strings; 2) it is not compatible with the ``PYTHONPATH`` environment variable. | |
| The latter is directly needed for Zip imports. A compromise came from Jython: | |
| allow string *subclasses* on ``sys.path``, which would then act as importer | |
| objects. This avoids some breakage, and seems to work well for Jython (where | |
| it is used to load modules from ``.jar`` files), but it was perceived as an | |
| "ugly hack". | |
| This led to a more elaborate scheme, (mostly copied from McMillan's | |
| ``iu.py``) in which each in a list of candidates is asked whether it can | |
| handle the ``sys.path`` item, until one is found that can. This list of | |
| candidates is a new object in the ``sys`` module: ``sys.path_hooks``. | |
| Traversing ``sys.path_hooks`` for each path item for each new import can be | |
| expensive, so the results are cached in another new object in the ``sys`` | |
| module: ``sys.path_importer_cache``. It maps ``sys.path`` entries to importer | |
| objects. | |
| To minimize the impact on ``import.c`` as well as to avoid adding extra | |
| overhead, it was chosen to not add an explicit hook and importer object for | |
| the existing file system import logic (as ``iu.py`` has), but to simply fall | |
| back to the built-in logic if no hook on ``sys.path_hooks`` could handle the | |
| path item. If this is the case, a ``None`` value is stored in | |
| ``sys.path_importer_cache``, again to avoid repeated lookups. (Later we can | |
| go further and add a real importer object for the built-in mechanism, for now, | |
| the ``None`` fallback scheme should suffice.) | |
| A question was raised: what about importers that don't need *any* entry on | |
| ``sys.path``? (Built-in and frozen modules fall into that category.) Again, | |
| Gordon McMillan to the rescue: ``iu.py`` contains a thing he calls the | |
| *metapath*. In this PEP's implementation, it's a list of importer objects | |
| that is traversed *before* ``sys.path``. This list is yet another new object | |
| in the ``sys`` module: ``sys.meta_path``. Currently, this list is empty by | |
| default, and frozen and built-in module imports are done after traversing | |
| ``sys.meta_path``, but still before ``sys.path``. | |
| Specification part 1: The Importer Protocol | |
| =========================================== | |
| This PEP introduces a new protocol: the "Importer Protocol". It is important | |
| to understand the context in which the protocol operates, so here is a brief | |
| overview of the outer shells of the import mechanism. | |
| When an import statement is encountered, the interpreter looks up the | |
| ``__import__`` function in the built-in name space. ``__import__`` is then | |
| called with four arguments, amongst which are the name of the module being | |
| imported (may be a dotted name) and a reference to the current global | |
| namespace. | |
| The built-in ``__import__`` function (known as ``PyImport_ImportModuleEx()`` | |
| in ``import.c``) will then check to see whether the module doing the import is | |
| a package or a submodule of a package. If it is indeed a (submodule of a) | |
| package, it first tries to do the import relative to the package (the parent | |
| package for a submodule). For example, if a package named "spam" does "import | |
| eggs", it will first look for a module named "spam.eggs". If that fails, the | |
| import continues as an absolute import: it will look for a module named | |
| "eggs". Dotted name imports work pretty much the same: if package "spam" does | |
| "import eggs.bacon" (and "spam.eggs" exists and is itself a package), | |
| "spam.eggs.bacon" is tried. If that fails "eggs.bacon" is tried. (There are | |
| more subtleties that are not described here, but these are not relevant for | |
| implementers of the Importer Protocol.) | |
| Deeper down in the mechanism, a dotted name import is split up by its | |
| components. For "import spam.ham", first an "import spam" is done, and only | |
| when that succeeds is "ham" imported as a submodule of "spam". | |
| The Importer Protocol operates at this level of *individual* imports. By the | |
| time an importer gets a request for "spam.ham", module "spam" has already been | |
| imported. | |
| The protocol involves two objects: a *finder* and a *loader*. A finder object | |
| has a single method:: | |
| finder.find_module(fullname, path=None) | |
| This method will be called with the fully qualified name of the module. If | |
| the finder is installed on ``sys.meta_path``, it will receive a second | |
| argument, which is ``None`` for a top-level module, or ``package.__path__`` | |
| for submodules or subpackages [5]_. It should return a loader object if the | |
| module was found, or ``None`` if it wasn't. If ``find_module()`` raises an | |
| exception, it will be propagated to the caller, aborting the import. | |
| A loader object also has one method:: | |
| loader.load_module(fullname) | |
| This method returns the loaded module or raises an exception, preferably | |
| ``ImportError`` if an existing exception is not being propagated. If | |
| ``load_module()`` is asked to load a module that it cannot, ``ImportError`` is | |
| to be raised. | |
| In many cases the finder and loader can be one and the same object: | |
| ``finder.find_module()`` would just return ``self``. | |
| The ``fullname`` argument of both methods is the fully qualified module name, | |
| for example "spam.eggs.ham". As explained above, when | |
| ``finder.find_module("spam.eggs.ham")`` is called, "spam.eggs" has already | |
| been imported and added to ``sys.modules``. However, the ``find_module()`` | |
| method isn't necessarily always called during an actual import: meta tools | |
| that analyze import dependencies (such as freeze, Installer or py2exe) don't | |
| actually load modules, so a finder shouldn't *depend* on the parent package | |
| being available in ``sys.modules``. | |
| The ``load_module()`` method has a few responsibilities that it must fulfill | |
| *before* it runs any code: | |
| * If there is an existing module object named 'fullname' in ``sys.modules``, | |
| the loader must use that existing module. (Otherwise, the ``reload()`` | |
| builtin will not work correctly.) If a module named 'fullname' does not | |
| exist in ``sys.modules``, the loader must create a new module object and | |
| add it to ``sys.modules``. | |
| Note that the module object *must* be in ``sys.modules`` before the loader | |
| executes the module code. This is crucial because the module code may | |
| (directly or indirectly) import itself; adding it to ``sys.modules`` | |
| beforehand prevents unbounded recursion in the worst case and multiple | |
| loading in the best. | |
| If the load fails, the loader needs to remove any module it may have | |
| inserted into ``sys.modules``. If the module was already in ``sys.modules`` | |
| then the loader should leave it alone. | |
| * The ``__file__`` attribute must be set. This must be a string, but it may | |
| be a dummy value, for example "<frozen>". The privilege of not having a | |
| ``__file__`` attribute at all is reserved for built-in modules. | |
| * The ``__name__`` attribute must be set. If one uses ``imp.new_module()`` | |
| then the attribute is set automatically. | |
| * If it's a package, the ``__path__`` variable must be set. This must be a | |
| list, but may be empty if ``__path__`` has no further significance to the | |
| importer (more on this later). | |
| * The ``__loader__`` attribute must be set to the loader object. This is | |
| mostly for introspection and reloading, but can be used for | |
| importer-specific extras, for example getting data associated with an | |
| importer. | |
| * The ``__package__`` attribute must be set (:pep:`366`). | |
| If the module is a Python module (as opposed to a built-in module or a | |
| dynamically loaded extension), it should execute the module's code in the | |
| module's global name space (``module.__dict__``). | |
| Here is a minimal pattern for a ``load_module()`` method:: | |
| # Consider using importlib.util.module_for_loader() to handle | |
| # most of these details for you. | |
| def load_module(self, fullname): | |
| code = self.get_code(fullname) | |
| ispkg = self.is_package(fullname) | |
| mod = sys.modules.setdefault(fullname, imp.new_module(fullname)) | |
| mod.__file__ = "<%s>" % self.__class__.__name__ | |
| mod.__loader__ = self | |
| if ispkg: | |
| mod.__path__ = [] | |
| mod.__package__ = fullname | |
| else: | |
| mod.__package__ = fullname.rpartition('.')[0] | |
| exec(code, mod.__dict__) | |
| return mod | |
| Specification part 2: Registering Hooks | |
| ======================================= | |
| There are two types of import hooks: *Meta hooks* and *Path hooks*. Meta | |
| hooks are called at the start of import processing, before any other import | |
| processing (so that meta hooks can override ``sys.path`` processing, frozen | |
| modules, or even built-in modules). To register a meta hook, simply add the | |
| finder object to ``sys.meta_path`` (the list of registered meta hooks). | |
| Path hooks are called as part of ``sys.path`` (or ``package.__path__``) | |
| processing, at the point where their associated path item is encountered. A | |
| path hook is registered by adding an importer factory to ``sys.path_hooks``. | |
| ``sys.path_hooks`` is a list of callables, which will be checked in sequence | |
| to determine if they can handle a given path item. The callable is called | |
| with one argument, the path item. The callable must raise ``ImportError`` if | |
| it is unable to handle the path item, and return an importer object if it can | |
| handle the path item. Note that if the callable returns an importer object | |
| for a specific ``sys.path`` entry, the builtin import machinery will not be | |
| invoked to handle that entry any longer, even if the importer object later | |
| fails to find a specific module. The callable is typically the class of the | |
| import hook, and hence the class ``__init__()`` method is called. (This is | |
| also the reason why it should raise ``ImportError``: an ``__init__()`` method | |
| can't return anything. This would be possible with a ``__new__()`` method in | |
| a new style class, but we don't want to require anything about how a hook is | |
| implemented.) | |
| The results of path hook checks are cached in ``sys.path_importer_cache``, | |
| which is a dictionary mapping path entries to importer objects. The cache is | |
| checked before ``sys.path_hooks`` is scanned. If it is necessary to force a | |
| rescan of ``sys.path_hooks``, it is possible to manually clear all or part of | |
| ``sys.path_importer_cache``. | |
| Just like ``sys.path`` itself, the new ``sys`` variables must have specific | |
| types: | |
| * ``sys.meta_path`` and ``sys.path_hooks`` must be Python lists. | |
| * ``sys.path_importer_cache`` must be a Python dict. | |
| Modifying these variables in place is allowed, as is replacing them with new | |
| objects. | |
| Packages and the role of ``__path__`` | |
| ===================================== | |
| If a module has a ``__path__`` attribute, the import mechanism will treat it | |
| as a package. The ``__path__`` variable is used instead of ``sys.path`` when | |
| importing submodules of the package. The rules for ``sys.path`` therefore | |
| also apply to ``pkg.__path__``. So ``sys.path_hooks`` is also consulted when | |
| ``pkg.__path__`` is traversed. Meta importers don't necessarily use | |
| ``sys.path`` at all to do their work and may therefore ignore the value of | |
| ``pkg.__path__``. In this case it is still advised to set it to list, which | |
| can be empty. | |
| Optional Extensions to the Importer Protocol | |
| ============================================ | |
| The Importer Protocol defines three optional extensions. One is to retrieve | |
| data files, the second is to support module packaging tools and/or tools that | |
| analyze module dependencies (for example Freeze), while the last is to support | |
| execution of modules as scripts. The latter two categories of tools usually | |
| don't actually *load* modules, they only need to know if and where they are | |
| available. All three extensions are highly recommended for general purpose | |
| importers, but may safely be left out if those features aren't needed. | |
| To retrieve the data for arbitrary "files" from the underlying storage | |
| backend, loader objects may supply a method named ``get_data()``:: | |
| loader.get_data(path) | |
| This method returns the data as a string, or raise ``IOError`` if the "file" | |
| wasn't found. The data is always returned as if "binary" mode was used - | |
| there is no CRLF translation of text files, for example. It is meant for | |
| importers that have some file-system-like properties. The 'path' argument is | |
| a path that can be constructed by munging ``module.__file__`` (or | |
| ``pkg.__path__`` items) with the ``os.path.*`` functions, for example:: | |
| d = os.path.dirname(__file__) | |
| data = __loader__.get_data(os.path.join(d, "logo.gif")) | |
| The following set of methods may be implemented if support for (for example) | |
| Freeze-like tools is desirable. It consists of three additional methods | |
| which, to make it easier for the caller, each of which should be implemented, | |
| or none at all:: | |
| loader.is_package(fullname) | |
| loader.get_code(fullname) | |
| loader.get_source(fullname) | |
| All three methods should raise ``ImportError`` if the module wasn't found. | |
| The ``loader.is_package(fullname)`` method should return ``True`` if the | |
| module specified by 'fullname' is a package and ``False`` if it isn't. | |
| The ``loader.get_code(fullname)`` method should return the code object | |
| associated with the module, or ``None`` if it's a built-in or extension | |
| module. If the loader doesn't have the code object but it *does* have the | |
| source code, it should return the compiled source code. (This is so that our | |
| caller doesn't also need to check ``get_source()`` if all it needs is the code | |
| object.) | |
| The ``loader.get_source(fullname)`` method should return the source code for | |
| the module as a string (using newline characters for line endings) or ``None`` | |
| if the source is not available (yet it should still raise ``ImportError`` if | |
| the module can't be found by the importer at all). | |
| To support execution of modules as scripts (:pep:`338`), | |
| the above three methods for | |
| finding the code associated with a module must be implemented. In addition to | |
| those methods, the following method may be provided in order to allow the | |
| ``runpy`` module to correctly set the ``__file__`` attribute:: | |
| loader.get_filename(fullname) | |
| This method should return the value that ``__file__`` would be set to if the | |
| named module was loaded. If the module is not found, then ``ImportError`` | |
| should be raised. | |
| Integration with the 'imp' module | |
| ================================= | |
| The new import hooks are not easily integrated in the existing | |
| ``imp.find_module()`` and ``imp.load_module()`` calls. It's questionable | |
| whether it's possible at all without breaking code; it is better to simply add | |
| a new function to the ``imp`` module. The meaning of the existing | |
| ``imp.find_module()`` and ``imp.load_module()`` calls changes from: "they | |
| expose the built-in import mechanism" to "they expose the basic *unhooked* | |
| built-in import mechanism". They simply won't invoke any import hooks. A new | |
| ``imp`` module function is proposed (but not yet implemented) under the name | |
| ``get_loader()``, which is used as in the following pattern:: | |
| loader = imp.get_loader(fullname, path) | |
| if loader is not None: | |
| loader.load_module(fullname) | |
| In the case of a "basic" import, one the `imp.find_module()` function would | |
| handle, the loader object would be a wrapper for the current output of | |
| ``imp.find_module()``, and ``loader.load_module()`` would call | |
| ``imp.load_module()`` with that output. | |
| Note that this wrapper is currently not yet implemented, although a Python | |
| prototype exists in the ``test_importhooks.py`` script (the ``ImpWrapper`` | |
| class) included with the patch. | |
| Forward Compatibility | |
| ===================== | |
| Existing ``__import__`` hooks will not invoke new-style hooks by magic, unless | |
| they call the original ``__import__`` function as a fallback. For example, | |
| ``ihooks.py``, ``iu.py`` and ``imputil.py`` are in this sense not forward | |
| compatible with this PEP. | |
| Open Issues | |
| =========== | |
| Modules often need supporting data files to do their job, particularly in the | |
| case of complex packages or full applications. Current practice is generally | |
| to locate such files via ``sys.path`` (or a ``package.__path__`` attribute). | |
| This approach will not work, in general, for modules loaded via an import | |
| hook. | |
| There are a number of possible ways to address this problem: | |
| * "Don't do that". If a package needs to locate data files via its | |
| ``__path__``, it is not suitable for loading via an import hook. The | |
| package can still be located on a directory in ``sys.path``, as at present, | |
| so this should not be seen as a major issue. | |
| * Locate data files from a standard location, rather than relative to the | |
| module file. A relatively simple approach (which is supported by | |
| distutils) would be to locate data files based on ``sys.prefix`` (or | |
| ``sys.exec_prefix``). For example, looking in | |
| ``os.path.join(sys.prefix, "data", package_name)``. | |
| * Import hooks could offer a standard way of getting at data files relative | |
| to the module file. The standard ``zipimport`` object provides a method | |
| ``get_data(name)`` which returns the content of the "file" called ``name``, | |
| as a string. To allow modules to get at the importer object, ``zipimport`` | |
| also adds an attribute ``__loader__`` to the module, containing the | |
| ``zipimport`` object used to load the module. If such an approach is used, | |
| it is important that client code takes care not to break if the | |
| ``get_data()`` method is not available, so it is not clear that this | |
| approach offers a general answer to the problem. | |
| It was suggested on python-dev that it would be useful to be able to receive a | |
| list of available modules from an importer and/or a list of available data | |
| files for use with the ``get_data()`` method. The protocol could grow two | |
| additional extensions, say ``list_modules()`` and ``list_files()``. The | |
| latter makes sense on loader objects with a ``get_data()`` method. However, | |
| it's a bit unclear which object should implement ``list_modules()``: the | |
| importer or the loader or both? | |
| This PEP is biased towards loading modules from alternative places: it | |
| currently doesn't offer dedicated solutions for loading modules from | |
| alternative file formats or with alternative compilers. In contrast, the | |
| ``ihooks`` module from the standard library does have a fairly straightforward | |
| way to do this. The Quixote project [7]_ uses this technique to import PTL | |
| files as if they are ordinary Python modules. To do the same with the new | |
| hooks would either mean to add a new module implementing a subset of | |
| ``ihooks`` as a new-style importer, or add a hookable built-in path importer | |
| object. | |
| There is no specific support within this PEP for "stacking" hooks. For | |
| example, it is not obvious how to write a hook to load modules from ``tar.gz`` | |
| files by combining separate hooks to load modules from ``.tar`` and ``.gz`` | |
| files. However, there is no support for such stacking in the existing hook | |
| mechanisms (either the basic "replace ``__import__``" method, or any of the | |
| existing import hook modules) and so this functionality is not an obvious | |
| requirement of the new mechanism. It may be worth considering as a future | |
| enhancement, however. | |
| It is possible (via ``sys.meta_path``) to add hooks which run before | |
| ``sys.path`` is processed. However, there is no equivalent way of adding | |
| hooks to run after ``sys.path`` is processed. For now, if a hook is required | |
| after ``sys.path`` has been processed, it can be simulated by adding an | |
| arbitrary "cookie" string at the end of ``sys.path``, and having the required | |
| hook associated with this cookie, via the normal ``sys.path_hooks`` | |
| processing. In the longer term, the path handling code will become a "real" | |
| hook on ``sys.meta_path``, and at that stage it will be possible to insert | |
| user-defined hooks either before or after it. | |
| Implementation | |
| ============== | |
| The :pep:`302` implementation has been integrated with Python as of 2.3a1. An | |
| earlier version is available as patch #652586 [9]_, but more interestingly, | |
| the issue contains a fairly detailed history of the development and design. | |
| :pep:`273` has been implemented using :pep:`302`'s import hooks. | |
| References and Footnotes | |
| ======================== | |
| .. [1] imputil module | |
| http://docs.python.org/library/imputil.html | |
| .. [2] The Freeze tool. | |
| See also the ``Tools/freeze/`` directory in a Python source distribution | |
| .. [3] py2exe by Thomas Heller | |
| http://www.py2exe.org/ | |
| .. [4] imp.set_frozenmodules() patch | |
| http://bugs.python.org/issue642578 | |
| .. [5] The path argument to ``finder.find_module()`` is there because the | |
| ``pkg.__path__`` variable may be needed at this point. It may either come | |
| from the actual parent module or be supplied by ``imp.find_module()`` or | |
| the proposed ``imp.get_loader()`` function. | |
| .. [7] Quixote, a framework for developing Web applications | |
| http://www.mems-exchange.org/software/quixote/ | |
| .. [9] New import hooks + Import from Zip files | |
| http://bugs.python.org/issue652586 | |
| .. [10] Language reference for imports | |
| http://docs.python.org/3/reference/import.html | |
| .. [11] importlib documentation | |
| http://docs.python.org/3/library/importlib.html#module-importlib | |
| Copyright | |
| ========= | |
| This document has been placed in the public domain. | |
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