I'm trying to make a library out of a Python project I don't own.
The project has the following directory layout:
.
├── MANIFEST.in
├── pyproject.toml
└── src
├── all.py
├── the.py
└── sources.py
In pyproject.toml I have:
[tool.setuptools]
packages = ["mypkg"]
[tool.setuptools.package-dir]
mypkg = "src"
The problem I'm facing is that when I build and install this package I can't use it because the author is importing stuff without mypkg prefix in the various source files.
F.ex. in all.py
from the import SomeThing
Since I don't own the package I can't go modify all the sources but I still want to be able to build a library from it by just adding MANIFEST.in and pyproject.toml.
Is it possible to somehow instruct setuptools to build a package that won't litter site-packages with all the sources while still allowing them to be imported without the mypkg prefix?
It isn't possible without adding a custom import hook with the package. The hook takes the form of a module that is shipped with the package, and it must be imported before usage from your module (e.g. in src/all.py)
src/mypkgimp.py
import sys
import importlib
class MyPkgLoader(importlib.abc.Loader):
def find_spec(self, name, path=None, target=None):
# update the list with modules that should be treated special
if name in ['sources', 'the']:
return importlib.util.spec_from_loader(name, self)
return None
def create_module(self, spec):
# Uncomment if "normal" imports should have precedence
# try:
# sys.meta_path = [x for x in sys.meta_path[:] if x is not self]
# return importlib.import_module(spec.name)
# except ImportError:
# pass
# finally:
# sys.meta_path = [self] + sys.meta_path
# Otherwise, this will unconditionally shadow normal imports
module = importlib.import_module('.' + spec.name, 'mypkg')
# Final step: inject the module to the "shortened" name
sys.modules[spec.name] = module
return module
def exec_module(self, module):
pass
if not hasattr(sys, 'frozen'):
sys.meta_path = [MyPkgLoader()] + sys.meta_path
Yes, the above uses different methods described by the thread I have linked previously, as importlib have deprecated those methods in Python 3.10, refer to documentation for details.
Anyway, for the demo, put some dummy classes in the modules:
src/the.py
class SomeThing: ...
src/sources.py
class Source: ...
Now, modify src/all.py to have the following:
import mypkg.mypkgimp
from the import SomeThing
Example usage:
>>> from sources import Source
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ModuleNotFoundError: No module named 'sources'
>>> from mypkg import all
>>> all.SomeThing
<class 'mypkg.the.SomeThing'>
>>> from sources import Source
>>> Source
<class 'mypkg.sources.Source'>
>>> from sources import Error
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ImportError: cannot import name 'Error' from 'mypkg.sources' (/tmp/mypkg/src/sources.py)
Note how the import initially didn't work, but after mypkg.all got imported, the sources import now works globally. Hence care may be needed to not shadow "real" imports and I have provided the example to import using the "default"[*] import mechanism.
If you want the module names to look different (i.e. without the mypkg. prefix), that will be a separate question, as code typically don't check for their own module name for functionality (and never mind that this actually shows how the namespace is implicitly used - changing the actual name is more akin to a module relocation, yes this can be done, but a bit more complicated and this answer is long enough as it is).
[*] "default" as in not including behaviors introduced by this custom import hook - other import hooks may do their own other weird shenanigans.
I am running python code in docker.
I have the following file structure:
-my_dir
-test.py
-bird.py
-string_int_label_map_pb2.py
-inference.py
inference.py:
import test
import bird
from string_int_label_map_pb2 import StringIntLabelMap
test.py and bird.py both contain this code:
print('hello world!')
def this_is_test():
return 'hi'
In inference.py 'import test' throws no error(but 'hello world!' is never printed).
'import bird' throws: ModuleNotFoundError: No module named 'bird'. Finally
'import string_int_label_map_pb2 ' throws: ModuleNotFoundError: No module named 'string_int_label_map_pb2 '
Note: bird.py and test.py are not simultaneously existing in the dir, they are depticted as such only to make my point. They exist only when I rename the same file to either name to test if the name itself was to blame.
If one or the other is not in the folder but you still have import test and import bird in the inference.py, that's your issue. Python is trying to import both files but can not find the file.
I added bird.py to /worker/ (the WORKDIR path configured in the dockerfile) and sure enough "Hello world!" printed.
So the issue was that inference.py was not searching its parent dir for imports as I thought, but rather the path configured in WORKDIR.
Still don't understand why import test gave no errors since there was never a test.py file in /worker/.
I also had this problem, how did I solve the problem?
For example.
My directory:
--Application
---hooks
----init.py
----helpers.py
---model
----init.py
----model_person.py
In script model_person.py
import sys
sys.path.append('../')
from hooks.helpers import *
Thats all
In the following structure:
src:
model:
- boardmodel.py
- tests.py
exceptions:
- exceptions.py
- visual.py
I'm running visual.py from the terminal. In my boardmodel.py, I have the following import:
from exceptions.exceptions import ZeroError, OverlapError, ArgumentError, ProximityError
This line causes an error when running visual.py:
Traceback (most recent call last):
File "visual.py", line 3, in <module>
from model.boardModel import Board
File "/Users/sahandzarrinkoub/Documents/Programming/pythonfun/BouncingBalls/balls/src/model/boardModel.py", line 5, in <module>
from exceptions.exceptions import ZeroError, OverlapError, ArgumentError, ProximityError
ModuleNotFoundError: No module named 'exceptions'
What is the correct way to solve this problem? Should I change the import statement inside boardmodel.py to from model.exceptions.exceptions import ZeroError....? That doesn't feel like a sustainable solution, because what if I want to use boardmodel.py in another context? Let me her your thoughts.
EDIT:
I changed the structure to:
src:
model:
- __init__.py
- boardmodel.py
- tests.py
exceptions:
- __init__.py
- exceptions.py
- visual.py
But still I get the same error.
Place an empty file called __init__.py in each of the subdirectories to make them packages.
See What is __init__.py for? for more details
Then, within boardmodel.py you need to either use relative imports
from .exceptions.exceptions import ...
or absolute ones (from the root of PYTHONPATH)
from model.exceptions.exceptions import ...
When you execute a script from the command line, the directory containing the script is automatically added to your PYTHONPATH, and becomes the root for import statements
You are not at the root of your package so you need relative import.
Add a dot before exceptions:
from .exceptions.exceptions import ZeroError, OverlapError, ArgumentError, ProximityError
One dot mean "from the current directory"…
I've got a python project with a configuration file in the project root.
The configuration file needs to be accessed in a few different files throughout the project.
So it looks something like: <ROOT>/configuration.conf
<ROOT>/A/a.py, <ROOT>/A/B/b.py (when b,a.py access the configuration file).
What's the best / easiest way to get the path to the project root and the configuration file without depending on which file inside the project I'm in? i.e without using ../../? It's okay to assume that we know the project root's name.
You can do this how Django does it: define a variable to the Project Root from a file that is in the top-level of the project. For example, if this is what your project structure looks like:
project/
configuration.conf
definitions.py
main.py
utils.py
In definitions.py you can define (this requires import os):
ROOT_DIR = os.path.dirname(os.path.abspath(__file__)) # This is your Project Root
Thus, with the Project Root known, you can create a variable that points to the location of the configuration (this can be defined anywhere, but a logical place would be to put it in a location where constants are defined - e.g. definitions.py):
CONFIG_PATH = os.path.join(ROOT_DIR, 'configuration.conf') # requires `import os`
Then, you can easily access the constant (in any of the other files) with the import statement (e.g. in utils.py): from definitions import CONFIG_PATH.
Other answers advice to use a file in the top-level of the project. This is not necessary if you use pathlib.Path and parent (Python 3.4 and up). Consider the following directory structure where all files except README.md and utils.py have been omitted.
project
│ README.md
|
└───src
│ │ utils.py
| | ...
| ...
In utils.py we define the following function.
from pathlib import Path
def get_project_root() -> Path:
return Path(__file__).parent.parent
In any module in the project we can now get the project root as follows.
from src.utils import get_project_root
root = get_project_root()
Benefits: Any module which calls get_project_root can be moved without changing program behavior. Only when the module utils.py is moved we have to update get_project_root and the imports (refactoring tools can be used to automate this).
All the previous solutions seem to be overly complicated for what I think you need, and often didn't work for me. The following one-line command does what you want:
import os
ROOT_DIR = os.path.abspath(os.curdir)
Below Code Returns the path until your project root
import sys
print(sys.path[1])
To get the path of the "root" module, you can use:
import os
import sys
os.path.dirname(sys.modules['__main__'].__file__)
But more interestingly if you have an config "object" in your top-most module you could -read- from it like so:
app = sys.modules['__main__']
stuff = app.config.somefunc()
Try:
ROOT_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
A standard way to achieve this would be to use the pkg_resources module which is part of the setuptools package. setuptools is used to create an install-able python package.
You can use pkg_resources to return the contents of your desired file as a string and you can use pkg_resources to get the actual path of the desired file on your system.
Let's say that you have a package called stackoverflow.
stackoverflow/
|-- app
| `-- __init__.py
`-- resources
|-- bands
| |-- Dream\ Theater
| |-- __init__.py
| |-- King's\ X
| |-- Megadeth
| `-- Rush
`-- __init__.py
3 directories, 7 files
Now let's say that you want to access the file Rush from a module app.run. Use pkg_resources.resouces_filename to get the path to Rush and pkg_resources.resource_string to get the contents of Rush; thusly:
import pkg_resources
if __name__ == "__main__":
print pkg_resources.resource_filename('resources.bands', 'Rush')
print pkg_resources.resource_string('resources.bands', 'Rush')
The output:
/home/sri/workspace/stackoverflow/resources/bands/Rush
Base: Geddy Lee
Vocals: Geddy Lee
Guitar: Alex Lifeson
Drums: Neil Peart
This works for all packages in your python path. So if you want to know where lxml.etree exists on your system:
import pkg_resources
if __name__ == "__main__":
print pkg_resources.resource_filename('lxml', 'etree')
output:
/usr/lib64/python2.7/site-packages/lxml/etree
The point is that you can use this standard method to access files that are installed on your system (e.g pip install xxx or yum -y install python-xxx) and files that are within the module that you're currently working on.
Simple and Dynamic!
this solution works on any OS and in any level of directory:
Assuming your project folder name is my_project
from pathlib import Path
current_dir = Path(__file__)
project_dir = [p for p in current_dir.parents if p.parts[-1]=='my_project'][0]
I've recently been trying to do something similar and I have found these answers inadequate for my use cases (a distributed library that needs to detect project root). Mainly I've been battling different environments and platforms, and still haven't found something perfectly universal.
Code local to project
I've seen this example mentioned and used in a few places, Django, etc.
import os
print(os.path.dirname(os.path.abspath(__file__)))
Simple as this is, it only works when the file that the snippet is in is actually part of the project. We do not retrieve the project directory, but instead the snippet's directory
Similarly, the sys.modules approach breaks down when called from outside the entrypoint of the application, specifically I've observed a child thread cannot determine this without relation back to the 'main' module. I've explicitly put the import inside a function to demonstrate an import from a child thread, moving it to top level of app.py would fix it.
app/
|-- config
| `-- __init__.py
| `-- settings.py
`-- app.py
app.py
#!/usr/bin/env python
import threading
def background_setup():
# Explicitly importing this from the context of the child thread
from config import settings
print(settings.ROOT_DIR)
# Spawn a thread to background preparation tasks
t = threading.Thread(target=background_setup)
t.start()
# Do other things during initialization
t.join()
# Ready to take traffic
settings.py
import os
import sys
ROOT_DIR = None
def setup():
global ROOT_DIR
ROOT_DIR = os.path.dirname(sys.modules['__main__'].__file__)
# Do something slow
Running this program produces an attribute error:
>>> import main
>>> Exception in thread Thread-1:
Traceback (most recent call last):
File "C:\Python2714\lib\threading.py", line 801, in __bootstrap_inner
self.run()
File "C:\Python2714\lib\threading.py", line 754, in run
self.__target(*self.__args, **self.__kwargs)
File "main.py", line 6, in background_setup
from config import settings
File "config\settings.py", line 34, in <module>
ROOT_DIR = get_root()
File "config\settings.py", line 31, in get_root
return os.path.dirname(sys.modules['__main__'].__file__)
AttributeError: 'module' object has no attribute '__file__'
...hence a threading-based solution
Location independent
Using the same application structure as before but modifying settings.py
import os
import sys
import inspect
import platform
import threading
ROOT_DIR = None
def setup():
main_id = None
for t in threading.enumerate():
if t.name == 'MainThread':
main_id = t.ident
break
if not main_id:
raise RuntimeError("Main thread exited before execution")
current_main_frame = sys._current_frames()[main_id]
base_frame = inspect.getouterframes(current_main_frame)[-1]
if platform.system() == 'Windows':
filename = base_frame.filename
else:
filename = base_frame[0].f_code.co_filename
global ROOT_DIR
ROOT_DIR = os.path.dirname(os.path.abspath(filename))
Breaking this down:
First we want to accurately find the thread ID of the main thread. In Python3.4+ the threading library has threading.main_thread() however, everybody doesn't use 3.4+ so we search through all threads looking for the main thread save it's ID. If the main thread has already exited, it won't be listed in the threading.enumerate(). We raise a RuntimeError() in this case until I find a better solution.
main_id = None
for t in threading.enumerate():
if t.name == 'MainThread':
main_id = t.ident
break
if not main_id:
raise RuntimeError("Main thread exited before execution")
Next we find the very first stack frame of the main thread. Using the cPython specific function sys._current_frames() we get a dictionary of every thread's current stack frame. Then utilizing inspect.getouterframes() we can retrieve the entire stack for the main thread and the very first frame.
current_main_frame = sys._current_frames()[main_id]
base_frame = inspect.getouterframes(current_main_frame)[-1]
Finally, the differences between Windows and Linux implementations of inspect.getouterframes() need to be handled. Using the cleaned up filename, os.path.abspath() and os.path.dirname() clean things up.
if platform.system() == 'Windows':
filename = base_frame.filename
else:
filename = base_frame[0].f_code.co_filename
global ROOT_DIR
ROOT_DIR = os.path.dirname(os.path.abspath(filename))
So far I've tested this on Python2.7 and 3.6 on Windows as well as Python3.4 on WSL
I decided for myself as follows.
Need to get the path to 'MyProject/drivers' from the main file.
MyProject/
├─── RootPackge/
│ ├── __init__.py
│ ├── main.py
│ └── definitions.py
│
├─── drivers/
│ └── geckodriver.exe
│
├── requirements.txt
└── setup.py
definitions.py
Put not in the root of the project, but in the root of the main package
from pathlib import Path
ROOT_DIR = Path(__file__).parent.parent
Use ROOT_DIR:
main.py
# imports must be relative,
# not from the root of the project,
# but from the root of the main package.
# Not this way:
# from RootPackge.definitions import ROOT_DIR
# But like this:
from definitions import ROOT_DIR
# Here we use ROOT_DIR
# get path to MyProject/drivers
drivers_dir = ROOT_DIR / 'drivers'
# Thus, you can get the path to any directory
# or file from the project root
driver = webdriver.Firefox(drivers_dir)
driver.get('http://www.google.com')
Then PYTHON_PATH will not be used to access the 'definitions.py' file.
Works in PyCharm:
run file 'main.py' (ctrl + shift + F10 in Windows)
Works in CLI from project root:
$ py RootPackge/main.py
Works in CLI from RootPackge:
$ cd RootPackge
$ py main.py
Works from directories above project:
$ cd ../../../../
$ py MyWork/PythoProjects/MyProject/RootPackge/main.py
Works from anywhere if you give an absolute path to the main file.
Doesn't depend on venv.
Here is a package that solves that problem: from-root
pip install from-root
from from_root import from_root, from_here
# path to config file at the root of your project
# (no matter from what file of the project the function is called!)
config_path = from_root('config.json')
# path to the data.csv file at the same directory where the callee script is located
# (has nothing to do with the current working directory)
data_path = from_here('data.csv')
Check out the link above and read the readme to see more use cases
I struggled with this problem too until I came to this solution.
This is the cleanest solution in my opinion.
In your setup.py add "packages"
setup(
name='package_name'
version='0.0.1'
.
.
.
packages=['package_name']
.
.
.
)
In your python_script.py
import pkg_resources
import os
resource_package = pkg_resources.get_distribution(
'package_name').location
config_path = os.path.join(resource_package,'configuration.conf')
This worked for me using a standard PyCharm project with my virtual environment (venv) under the project root directory.
Code below isnt the prettiest, but consistently gets the project root. It returns the full directory path to venv from the VIRTUAL_ENV environment variable e.g. /Users/NAME/documents/PROJECT/venv
It then splits the path at the last /, giving an array with two elements. The first element will be the project path e.g. /Users/NAME/documents/PROJECT
import os
print(os.path.split(os.environ['VIRTUAL_ENV'])[0])
Just an example: I want to run runio.py from within helper1.py
Project tree example:
myproject_root
- modules_dir/helpers_dir/helper1.py
- tools_dir/runio.py
Get project root:
import os
rootdir = os.path.dirname(os.path.realpath(__file__)).rsplit(os.sep, 2)[0]
Build path to script:
runme = os.path.join(rootdir, "tools_dir", "runio.py")
execfile(runme)
I used the ../ method to fetch the current project path.
Example:
Project1 -- D:\projects
src
ConfigurationFiles
Configuration.cfg
Path="../src/ConfigurationFiles/Configuration.cfg"
I had to implement a custom solution because it's not as simple as you might think.
My solution is based on stack trace inspection (inspect.stack()) + sys.path and is working fine no matter the location of the python module in which the function is invoked nor the interpreter (I tried by running it in PyCharm, in a poetry shell and other...). This is the full implementation with comments:
def get_project_root_dir() -> str:
"""
Returns the name of the project root directory.
:return: Project root directory name
"""
# stack trace history related to the call of this function
frame_stack: [FrameInfo] = inspect.stack()
# get info about the module that has invoked this function
# (index=0 is always this very module, index=1 is fine as long this function is not called by some other
# function in this module)
frame_info: FrameInfo = frame_stack[1]
# if there are multiple calls in the stacktrace of this very module, we have to skip those and take the first
# one which comes from another module
if frame_info.filename == __file__:
for frame in frame_stack:
if frame.filename != __file__:
frame_info = frame
break
# path of the module that has invoked this function
caller_path: str = frame_info.filename
# absolute path of the of the module that has invoked this function
caller_absolute_path: str = os.path.abspath(caller_path)
# get the top most directory path which contains the invoker module
paths: [str] = [p for p in sys.path if p in caller_absolute_path]
paths.sort(key=lambda p: len(p))
caller_root_path: str = paths[0]
if not os.path.isabs(caller_path):
# file name of the invoker module (eg: "mymodule.py")
caller_module_name: str = Path(caller_path).name
# this piece represents a subpath in the project directory
# (eg. if the root folder is "myproject" and this function has ben called from myproject/foo/bar/mymodule.py
# this will be "foo/bar")
project_related_folders: str = caller_path.replace(os.sep + caller_module_name, '')
# fix root path by removing the undesired subpath
caller_root_path = caller_root_path.replace(project_related_folders, '')
dir_name: str = Path(caller_root_path).name
return dir_name
Here's my take on this issue.
I have a simple use-case that bugged me for a while. Tried a few solutions, but I didn't like either of them flexible enough.
So here's what I figured out.
create a blank python file in the root dir -> I call this beacon.py
(assuming that the project root is in the PYTHONPATH so it can be imported)
add a few lines to my module/class which I call here not_in_root.py.
This will import the beacon.py module and get the path to that
module
Here's an example project structure
this_project
├── beacon.py
├── lv1
│ ├── __init__.py
│ └── lv2
│ ├── __init__.py
│ └── not_in_root.py
...
The content of the not_in_root.py
import os
from pathlib import Path
class Config:
try:
import beacon
print(f"'import beacon' -> {os.path.dirname(os.path.abspath(beacon.__file__))}") # only for demo purposes
print(f"'import beacon' -> {Path(beacon.__file__).parent.resolve()}") # only for demo purposes
except ModuleNotFoundError as e:
print(f"ModuleNotFoundError: import beacon failed with {e}. "
f"Please. create a file called beacon.py and place it to the project root directory.")
project_root = Path(beacon.__file__).parent.resolve()
input_dir = project_root / 'input'
output_dir = project_root / 'output'
if __name__ == '__main__':
c = Config()
print(f"Config.project_root: {c.project_root}")
print(f"Config.input_dir: {c.input_dir}")
print(f"Config.output_dir: {c.output_dir}")
The output would be
/home/xyz/projects/this_project/venv/bin/python /home/xyz/projects/this_project/lv1/lv2/not_in_root.py
'import beacon' -> /home/xyz/projects/this_project
'import beacon' -> /home/xyz/projects/this_project
Config.project_root: /home/xyz/projects/this_project
Config.input_dir: /home/xyz/projects/this_project/input
Config.output_dir: /home/xyz/projects/this_project/output
Of course, it doesn't need to be called beacon.py nor need to be empty, essentially any python file (importable) file would do as long as it's in the root directory.
Using an empty .py file sort of guarantees that it will not be moved elsewhere due to some future refactoring.
Cheers
If you are working with anaconda-project, you can query the PROJECT_ROOT from the environment variable --> os.getenv('PROJECT_ROOT'). This works only if the script is executed via anaconda-project run .
If you do not want your script run by anaconda-project, you can query the absolute path of the executable binary of the Python interpreter you are using and extract the path string up to the envs directory exclusiv. For example: The python interpreter of my conda env is located at:
/home/user/project_root/envs/default/bin/python
# You can first retrieve the env variable PROJECT_DIR.
# If not set, get the python interpreter location and strip off the string till envs inclusiv...
if os.getenv('PROJECT_DIR'):
PROJECT_DIR = os.getenv('PROJECT_DIR')
else:
PYTHON_PATH = sys.executable
path_rem = os.path.join('envs', 'default', 'bin', 'python')
PROJECT_DIR = py_path.split(path_rem)[0]
This works only with conda-project with fixed project structure of a anaconda-project
I ended up needing to do this in various different situations where different answers worked correctly, others didn't, or either with various modifications, so I made this package to work for most situations
pip install get-project-root
from get_project_root import root_path
project_root = root_path(ignore_cwd=False)
# >> "C:/Users/person/source/some_project/"
https://pypi.org/project/get-project-root/
This is not exactly the answer to this question; But it might help someone. In fact, if you know the names of the folders, you can do this.
import os
import sys
TMP_DEL = '×'
PTH_DEL = '\\'
def cleanPath(pth):
pth = pth.replace('/', TMP_DEL)
pth = pth.replace('\\', TMP_DEL)
return pth
def listPath():
return sys.path
def getPath(__file__):
return os.path.abspath(os.path.dirname(__file__))
def getRootByName(__file__, dirName):
return getSpecificParentDir(__file__, dirName)
def getSpecificParentDir(__file__, dirName):
pth = cleanPath(getPath(__file__))
dirName = cleanPath(dirName)
candidate = f'{TMP_DEL}{dirName}{TMP_DEL}'
if candidate in pth:
pth = (pth.split(candidate)[0]+TMP_DEL +
dirName).replace(TMP_DEL*2, TMP_DEL)
return pth.replace(TMP_DEL, PTH_DEL)
return None
def getSpecificChildDir(__file__, dirName):
for x in [x[0] for x in os.walk(getPath(__file__))]:
dirName = cleanPath(dirName)
x = cleanPath(x)
if TMP_DEL in x:
if x.split(TMP_DEL)[-1] == dirName:
return x.replace(TMP_DEL, PTH_DEL)
return None
List available folders:
print(listPath())
Usage:
#Directories
#ProjectRootFolder/.../CurrentFolder/.../SubFolder
print(getPath(__file__))
# c:\ProjectRootFolder\...\CurrentFolder
print(getRootByName(__file__, 'ProjectRootFolder'))
# c:\ProjectRootFolder
print(getSpecificParentDir(__file__, 'ProjectRootFolder'))
# c:\ProjectRootFolder
print(getSpecificParentDir(__file__, 'CurrentFolder'))
# None
print(getSpecificChildDir(__file__, 'SubFolder'))
# c:\ProjectRootFolder\...\CurrentFolder\...\SubFolder
One-line solution
Hi all! I have been having this issue for ever as well and none of the solutions worked for me, so I used a similar approach that here::here() uses in R.
Install the groo package: pip install groo-ozika
Place a hidden file in your root directory, e.g. .my_hidden_root_file.
Then from anywhere lower in the directory hierarchy (i.e. within
the root) run the following:
from groo.groo import get_root
root_folder = get_root(".my_hidden_root_file")
That's it!
It just executes the following function:
def get_root(rootfile):
import os
from pathlib import Path
d = Path(os.getcwd())
found = 0
while found == 0:
if os.path.isfile(os.path.join(d, rootfile)):
found = 1
else:
d=d.parent
return d
The project root directory does not have __init__.py.
I solved this problem by looking for an ancestor directory that does not have __init__.py.
from functools import lru_cache
from pathlib import Path
#lru_cache()
def get_root_dir() -> str:
path = Path().cwd()
while Path(path, "__init__.py").exists():
path = path.parent
return str(path)
There are many answers here but I couldn't find something simple that covers all cases so allow me to suggest my solution too:
import pathlib
import os
def get_project_root():
"""
There is no way in python to get project root. This function uses a trick.
We know that the function that is currently running is in the project.
We know that the root project path is in the list of PYTHONPATH
look for any path in PYTHONPATH list that is contained in this function's path
Lastly we filter and take the shortest path because we are looking for the root.
:return: path to project root
"""
apth = str(pathlib.Path().absolute())
ppth = os.environ['PYTHONPATH'].split(':')
matches = [x for x in ppth if x in apth]
project_root = min(matches, key=len)
return project_root
Important: This solution requires you to run the file as a module with python -m pkg.file and not as a script like python file.py.
import sys
import os.path as op
root_pkg_dirname = op.dirname(sys.modules[__name__.partition('.')[0]].__file__)
Other answers have requirements like depending on an environment variable or the position of another module in the package structure.
As long as you run the script as python -m pkg.file (with the -m), this approach is self-contained and will work in any module of the package, including in the top-level __init__.py file.
import sys
import os.path as op
root_pkg_name, _, _ = __name__.partition('.')
root_pkg_module = sys.modules[root_pkg_name]
root_pkg_dirname = op.dirname(root_pkg_module.__file__)
config_path = os.path.join(root_pkg_dirname, 'configuration.conf')
It works by taking the first component in the dotted string contained in __name__ and using it as a key in sys.modules which returns the module object of the top-level package. Its __file__ attribute contains the path we want after trimming off /__init__.py using os.path.dirname().
I have a module called spellnum. It can be used as a command-line utility (it has the if __name__ == '__main__': block) or it can be imported like a standard Python module.
The module defines a class named Speller which looks like this:
class Speller(object):
def __init__(self, lang="en"):
module = __import__("spelling_" + lang)
# use module's contents...
As you can see, the class constructor loads other modules at runtime. Those modules (spelling_en.py, spelling_es.py, etc.) are located in the same directory as the spellnum.py itself.
Besides spellnum.py, there are other files with utility functions and classes. I'd like to hide those files since I don't want to expose them to the user and since it's a bad idea to pollute the Python's lib directory with random files. The only way to achieve this that I know of is to create a package.
I've come up with this layout for the project (inspired by this great tutorial):
spellnum/ # project root
spellnum/ # package root
__init__.py
spellnum.py
spelling_en.py
spelling_es.py
squash.py
# ... some other private files
test/
test_spellnum.py
example.py
The file __init__.py contains a single line:
from spellnum import Speller
Given this new layout, the code for dynamic module loading had to be changed:
class Speller(object):
def __init__(self, lang="en"):
spelling_mod = "spelling_" + lang
package = __import__("spellnum", fromlist=[spelling_mod])
module = getattr(package, spelling_mod)
# use module as usual
So, with this project layout a can do the following:
Successfully import spellnum inside example.py and use it like a simple module:
# an excerpt from the example.py file
import spellnum
speller = spellnum.Speller(es)
# ...
import spellnum in the tests and run those tests from the project root like this:
$ PYTHONPATH="`pwd`:$PYTHONPATH" python test/test_spellnum.py
The problem
I cannot execute spellnum.py directly with the new layout. When I try to, it shows the following error:
Traceback (most recent call last):
...
File "spellnum/spellnum.py", line 23, in __init__
module = getattr(package, spelling_mod)
AttributeError: 'module' object has no attribute 'spelling_en'
The question
What's the best way to organize all of the files required by my module to work so that users are able to use the module both from command line and from their Python code?
Thanks!
How about keeping spellnum.py?
spellnum.py
spelling/
__init__.py
en.py
es.py
Your problem is, that the package is called the same as the python-file you want to execute, thus importing
from spellnum import spellnum_en
will try to import from the file instead of the package. You could fiddle around with relative imports, but I don't know how to make them work with __import__, so I'd suggest the following:
def __init__(self, lang="en"):
mod = "spellnum_" + lang
module = None
if __name__ == '__main__':
module = __import__(mod)
else:
package = getattr(__import__("spellnum", fromlist=[mod]), mod)