1

I created two new files, random.py and main.py, in the directory. The code is as follows:

# random.py

if __name__ == "__main__":
    print("random")
# main.py

import random

if __name__ == "__main__":
    print(random.choice([1, 2, 3]))

When I run the main.py file, the program reports an error.

Traceback (most recent call last):
  File "main.py", line 8, in <module>
    print(random.choice([1, 2, 3]))
AttributeError: module 'random' has no attribute 'choice'

Main.py imports my own defined random module.

However, if I create a new sys.py file and a main.py file in the same directory, the code is as follows:

# sys.py

if __name__ == "__main__":
    print("sys")
# main.py

import sys

if __name__ == "__main__":
    print(sys.path)

When I run the main.py file, successfully.

main.py imports the built-in modules sys.

Why is there such a clear difference?

The directory relationship of the script file is as follows:

C:.
    main.py
    random.py
    sys.py

Thank you very much for your answer. Forgive my poor english.

  • 5
    You made your own random module. It has no choice. – Stephen Rauch Aug 26 '19 at 3:38
  • 2
    Don't name your files the same as standard library modules – Iain Shelvington Aug 26 '19 at 3:39
  • As described above, you created a module called random, which is in direct conflict with the Python standard library random module. Also, neither your own random module nor the Python standard library random module have any attribute choice, which is the crux of the exception. – ifconfig Aug 26 '19 at 3:44
  • 4
    I think OP already knows why there is a conflict. He wanted to know why it doesnt work for random but no problem for sys. – Henry Yik Aug 26 '19 at 3:46
  • Naming your file name as random.py will make a conflict with random Python module. – user10732646 Aug 26 '19 at 3:54
4

sys is a built-in module, meaning it's compiled directly into the Python executable itself. Built-in modules outprioritize external files when Python is looking for modules. The standard random module isn't built-in, so it doesn't get that treatment.

Quoting the docs:

When the named module is not found in sys.modules, Python next searches sys.meta_path, which contains a list of meta path finder objects. These finders are queried in order to see if they know how to handle the named module...

Python’s default sys.meta_path has three meta path finders, one that knows how to import built-in modules, one that knows how to import frozen modules, and one that knows how to import modules from an import path (i.e. the path based finder).

Since the finder for built-in modules comes before the finder that searches the import path, built-in modules will be found before anything on the import path.

You can see a tuple of the names of all modules your Python has built-in in sys.builtin_module_names.


That said, while any built-in module would outprioritize a module loaded from a file, sys has its own special handling. sys is one of the foundational building blocks of Python, and much of the sys module's setup needs to happen before the import system is functional enough for the normal import process to work. sys gets explicitly created during interpreter setup in a way that bypasses the normal import system, and then future imports for sys find it in sys.modules without hitting any meta path finders.

How and where sys is created is an implementation detail that varies from Python version to Python version (and is wildly different in different Python implementations), but in the CPython 3.7.4 code, you can see it beginning on line 755 in Python/pylifecycle.c.

| improve this answer | |
3

tl;dr Caching

sys is somewhat of a special case among other python modules because it gets loaded at program start, unconditionally (presumably because a lot of the constants, functions, and data within - such as the streams stdout and stderr - are used by the python interpreter). As @user2357112 noted in the other answer, this is partly because it's built-in to the python executable, but also because it's necessary for running a substantial amount of python's core functionality (see below how it needs to be loaded for imports to work). random is part of the standard library, but it doesn't get loaded automatically when you execute, which is the primary relevant difference between it and sys, for our purposes

Looking at python's documentation on the subject clarifies how python resolves imports:

The first place checked during import search is sys.modules. This mapping serves as a cache of all modules that have been previously imported, including the intermediate paths.
...
During import, the module name is looked up in sys.modules and if present, the associated value is the module satisfying the import, and the process completes. However, if the value is None, then a ModuleNotFoundError is raised. If the module name is missing, Python will continue searching for the module.

As for where it looks for the module, you can see in your observed behavior that it looks in the local directory first. That is, it searches the local directory first and then the "usual places" afterwards.

The reason for the discrepancy between how sys is handled and how random is handled is caching - sys is cached (so python doesn't even check the path to import), whereas random is not cached (so python does check the path to import it, and imports locally).


There are a few ways you can change this behavior.

First, if you must have a local module called sys, you can use importlib to import it in relative or absolute terms, without running into the ambiguity with the sys that's already cached. I have no idea how this would affect other modules that independently try to import sys, and you really shouldn't be naming your files the same as standard library modules anyway.

Alternatively, if you want the code to check python's built-in modules before checking the local directory, then you should be able to do that by modifying sys.path, which shows the order in which paths are searched for input (the same as the $PATH environment variable, or any other similar language-specific one). The first element of sys.path is usually going to be an empty string '', that would result in searching the current working directory. So you can simply move that to the back of sys.path, to have it searched last instead of first:

sys.path.append(sys.path.pop(0))
| improve this answer | |
  • 1
    While sys is loaded at interpreter startup, not all built-in modules are automatically loaded. For example, math is built-in on non-Windows platforms, but it doesn't get loaded until something imports it. – user2357112 supports Monica Aug 26 '19 at 3:57
  • That said, module caching is an important part of the story, and sys is loaded in a way unlike "normal" built-in modules. I don't think the normal finder for built-in modules is involved at all. – user2357112 supports Monica Aug 26 '19 at 4:07
  • @user2357112 I'm not sure how one would test it, honestly, but sys is necessary to even check sys.modules, and of course sys is the first thing in sys.modules when you do check, so I think that's the reason for the discrepancy in this case. – Green Cloak Guy Aug 26 '19 at 4:10

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